// Copyright (c) 2013, Facebook, Inc. All rights reserved. // This source code is licensed under the BSD-style license found in the // LICENSE file in the root directory of this source tree. An additional grant // of patent rights can be found in the PATENTS file in the same directory. // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #ifndef __STDC_FORMAT_MACROS #define __STDC_FORMAT_MACROS #endif #include #include #include "rocksdb/cache.h" #include "rocksdb/convenience.h" #include "rocksdb/options.h" #include "rocksdb/table.h" #include "rocksdb/utilities/leveldb_options.h" #include "table/block_based_table_factory.h" #include "util/random.h" #include "util/testharness.h" #ifndef GFLAGS bool FLAGS_enable_print = false; #else #include using GFLAGS::ParseCommandLineFlags; DEFINE_bool(enable_print, false, "Print options generated to console."); #endif // GFLAGS namespace rocksdb { class OptionsTest : public testing::Test {}; class StderrLogger : public Logger { public: using Logger::Logv; virtual void Logv(const char* format, va_list ap) override { vprintf(format, ap); printf("\n"); } }; Options PrintAndGetOptions(size_t total_write_buffer_limit, int read_amplification_threshold, int write_amplification_threshold, uint64_t target_db_size = 68719476736) { StderrLogger logger; if (FLAGS_enable_print) { printf("---- total_write_buffer_limit: %" ROCKSDB_PRIszt " " "read_amplification_threshold: %d write_amplification_threshold: %d " "target_db_size %" PRIu64 " ----\n", total_write_buffer_limit, read_amplification_threshold, write_amplification_threshold, target_db_size); } Options options = GetOptions(total_write_buffer_limit, read_amplification_threshold, write_amplification_threshold, target_db_size); if (FLAGS_enable_print) { options.Dump(&logger); printf("-------------------------------------\n\n\n"); } return options; } TEST_F(OptionsTest, LooseCondition) { Options options; PrintAndGetOptions(static_cast(10) * 1024 * 1024 * 1024, 100, 100); // Less mem table memory budget PrintAndGetOptions(32 * 1024 * 1024, 100, 100); // Tight read amplification options = PrintAndGetOptions(128 * 1024 * 1024, 8, 100); ASSERT_EQ(options.compaction_style, kCompactionStyleLevel); #ifndef ROCKSDB_LITE // Universal compaction is not supported in ROCKSDB_LITE // Tight write amplification options = PrintAndGetOptions(128 * 1024 * 1024, 64, 10); ASSERT_EQ(options.compaction_style, kCompactionStyleUniversal); #endif // !ROCKSDB_LITE // Both tight amplifications PrintAndGetOptions(128 * 1024 * 1024, 4, 8); } #ifndef ROCKSDB_LITE // GetOptionsFromMap is not supported in ROCKSDB_LITE TEST_F(OptionsTest, GetOptionsFromMapTest) { std::unordered_map cf_options_map = { {"write_buffer_size", "1"}, {"max_write_buffer_number", "2"}, {"min_write_buffer_number_to_merge", "3"}, {"max_write_buffer_number_to_maintain", "99"}, {"compression", "kSnappyCompression"}, {"compression_per_level", "kNoCompression:" "kSnappyCompression:" "kZlibCompression:" "kBZip2Compression:" "kLZ4Compression:" "kLZ4HCCompression"}, {"compression_opts", "4:5:6"}, {"num_levels", "7"}, {"level0_file_num_compaction_trigger", "8"}, {"level0_slowdown_writes_trigger", "9"}, {"level0_stop_writes_trigger", "10"}, {"target_file_size_base", "12"}, {"target_file_size_multiplier", "13"}, {"max_bytes_for_level_base", "14"}, {"level_compaction_dynamic_level_bytes", "true"}, {"max_bytes_for_level_multiplier", "15"}, {"max_bytes_for_level_multiplier_additional", "16:17:18"}, {"expanded_compaction_factor", "19"}, {"source_compaction_factor", "20"}, {"max_grandparent_overlap_factor", "21"}, {"soft_rate_limit", "1.1"}, {"hard_rate_limit", "2.1"}, {"arena_block_size", "22"}, {"disable_auto_compactions", "true"}, {"compaction_style", "kCompactionStyleLevel"}, {"verify_checksums_in_compaction", "false"}, {"compaction_options_fifo", "23"}, {"filter_deletes", "0"}, {"max_sequential_skip_in_iterations", "24"}, {"inplace_update_support", "true"}, {"compaction_measure_io_stats", "true"}, {"inplace_update_num_locks", "25"}, {"memtable_prefix_bloom_bits", "26"}, {"memtable_prefix_bloom_probes", "27"}, {"memtable_prefix_bloom_huge_page_tlb_size", "28"}, {"bloom_locality", "29"}, {"max_successive_merges", "30"}, {"min_partial_merge_operands", "31"}, {"prefix_extractor", "fixed:31"}, {"optimize_filters_for_hits", "true"}, }; std::unordered_map db_options_map = { {"create_if_missing", "false"}, {"create_missing_column_families", "true"}, {"error_if_exists", "false"}, {"paranoid_checks", "true"}, {"max_open_files", "32"}, {"max_total_wal_size", "33"}, {"disable_data_sync", "false"}, {"use_fsync", "true"}, {"db_log_dir", "/db_log_dir"}, {"wal_dir", "/wal_dir"}, {"delete_obsolete_files_period_micros", "34"}, {"max_background_compactions", "35"}, {"max_background_flushes", "36"}, {"max_log_file_size", "37"}, {"log_file_time_to_roll", "38"}, {"keep_log_file_num", "39"}, {"max_manifest_file_size", "40"}, {"table_cache_numshardbits", "41"}, {"WAL_ttl_seconds", "43"}, {"WAL_size_limit_MB", "44"}, {"manifest_preallocation_size", "45"}, {"allow_os_buffer", "false"}, {"allow_mmap_reads", "true"}, {"allow_mmap_writes", "false"}, {"is_fd_close_on_exec", "true"}, {"skip_log_error_on_recovery", "false"}, {"stats_dump_period_sec", "46"}, {"advise_random_on_open", "true"}, {"use_adaptive_mutex", "false"}, {"new_table_reader_for_compaction_inputs", "true"}, {"compaction_readahead_size", "100"}, {"bytes_per_sync", "47"}, {"wal_bytes_per_sync", "48"}, }; ColumnFamilyOptions base_cf_opt; ColumnFamilyOptions new_cf_opt; ASSERT_OK(GetColumnFamilyOptionsFromMap( base_cf_opt, cf_options_map, &new_cf_opt)); ASSERT_EQ(new_cf_opt.write_buffer_size, 1U); ASSERT_EQ(new_cf_opt.max_write_buffer_number, 2); ASSERT_EQ(new_cf_opt.min_write_buffer_number_to_merge, 3); ASSERT_EQ(new_cf_opt.max_write_buffer_number_to_maintain, 99); ASSERT_EQ(new_cf_opt.compression, kSnappyCompression); ASSERT_EQ(new_cf_opt.compression_per_level.size(), 6U); ASSERT_EQ(new_cf_opt.compression_per_level[0], kNoCompression); ASSERT_EQ(new_cf_opt.compression_per_level[1], kSnappyCompression); ASSERT_EQ(new_cf_opt.compression_per_level[2], kZlibCompression); ASSERT_EQ(new_cf_opt.compression_per_level[3], kBZip2Compression); ASSERT_EQ(new_cf_opt.compression_per_level[4], kLZ4Compression); ASSERT_EQ(new_cf_opt.compression_per_level[5], kLZ4HCCompression); ASSERT_EQ(new_cf_opt.compression_opts.window_bits, 4); ASSERT_EQ(new_cf_opt.compression_opts.level, 5); ASSERT_EQ(new_cf_opt.compression_opts.strategy, 6); ASSERT_EQ(new_cf_opt.num_levels, 7); ASSERT_EQ(new_cf_opt.level0_file_num_compaction_trigger, 8); ASSERT_EQ(new_cf_opt.level0_slowdown_writes_trigger, 9); ASSERT_EQ(new_cf_opt.level0_stop_writes_trigger, 10); ASSERT_EQ(new_cf_opt.target_file_size_base, static_cast(12)); ASSERT_EQ(new_cf_opt.target_file_size_multiplier, 13); ASSERT_EQ(new_cf_opt.max_bytes_for_level_base, 14U); ASSERT_EQ(new_cf_opt.level_compaction_dynamic_level_bytes, true); ASSERT_EQ(new_cf_opt.max_bytes_for_level_multiplier, 15); ASSERT_EQ(new_cf_opt.max_bytes_for_level_multiplier_additional.size(), 3U); ASSERT_EQ(new_cf_opt.max_bytes_for_level_multiplier_additional[0], 16); ASSERT_EQ(new_cf_opt.max_bytes_for_level_multiplier_additional[1], 17); ASSERT_EQ(new_cf_opt.max_bytes_for_level_multiplier_additional[2], 18); ASSERT_EQ(new_cf_opt.expanded_compaction_factor, 19); ASSERT_EQ(new_cf_opt.source_compaction_factor, 20); ASSERT_EQ(new_cf_opt.max_grandparent_overlap_factor, 21); ASSERT_EQ(new_cf_opt.soft_rate_limit, 1.1); ASSERT_EQ(new_cf_opt.hard_rate_limit, 2.1); ASSERT_EQ(new_cf_opt.arena_block_size, 22U); ASSERT_EQ(new_cf_opt.disable_auto_compactions, true); ASSERT_EQ(new_cf_opt.compaction_style, kCompactionStyleLevel); ASSERT_EQ(new_cf_opt.verify_checksums_in_compaction, false); ASSERT_EQ(new_cf_opt.compaction_options_fifo.max_table_files_size, static_cast(23)); ASSERT_EQ(new_cf_opt.filter_deletes, false); ASSERT_EQ(new_cf_opt.max_sequential_skip_in_iterations, static_cast(24)); ASSERT_EQ(new_cf_opt.inplace_update_support, true); ASSERT_EQ(new_cf_opt.inplace_update_num_locks, 25U); ASSERT_EQ(new_cf_opt.memtable_prefix_bloom_bits, 26U); ASSERT_EQ(new_cf_opt.memtable_prefix_bloom_probes, 27U); ASSERT_EQ(new_cf_opt.memtable_prefix_bloom_huge_page_tlb_size, 28U); ASSERT_EQ(new_cf_opt.bloom_locality, 29U); ASSERT_EQ(new_cf_opt.max_successive_merges, 30U); ASSERT_EQ(new_cf_opt.min_partial_merge_operands, 31U); ASSERT_TRUE(new_cf_opt.prefix_extractor != nullptr); ASSERT_EQ(new_cf_opt.optimize_filters_for_hits, true); ASSERT_EQ(std::string(new_cf_opt.prefix_extractor->Name()), "rocksdb.FixedPrefix.31"); cf_options_map["write_buffer_size"] = "hello"; ASSERT_NOK(GetColumnFamilyOptionsFromMap( base_cf_opt, cf_options_map, &new_cf_opt)); cf_options_map["write_buffer_size"] = "1"; ASSERT_OK(GetColumnFamilyOptionsFromMap( base_cf_opt, cf_options_map, &new_cf_opt)); cf_options_map["unknown_option"] = "1"; ASSERT_NOK(GetColumnFamilyOptionsFromMap( base_cf_opt, cf_options_map, &new_cf_opt)); DBOptions base_db_opt; DBOptions new_db_opt; ASSERT_OK(GetDBOptionsFromMap(base_db_opt, db_options_map, &new_db_opt)); ASSERT_EQ(new_db_opt.create_if_missing, false); ASSERT_EQ(new_db_opt.create_missing_column_families, true); ASSERT_EQ(new_db_opt.error_if_exists, false); ASSERT_EQ(new_db_opt.paranoid_checks, true); ASSERT_EQ(new_db_opt.max_open_files, 32); ASSERT_EQ(new_db_opt.max_total_wal_size, static_cast(33)); ASSERT_EQ(new_db_opt.disableDataSync, false); ASSERT_EQ(new_db_opt.use_fsync, true); ASSERT_EQ(new_db_opt.db_log_dir, "/db_log_dir"); ASSERT_EQ(new_db_opt.wal_dir, "/wal_dir"); ASSERT_EQ(new_db_opt.delete_obsolete_files_period_micros, static_cast(34)); ASSERT_EQ(new_db_opt.max_background_compactions, 35); ASSERT_EQ(new_db_opt.max_background_flushes, 36); ASSERT_EQ(new_db_opt.max_log_file_size, 37U); ASSERT_EQ(new_db_opt.log_file_time_to_roll, 38U); ASSERT_EQ(new_db_opt.keep_log_file_num, 39U); ASSERT_EQ(new_db_opt.max_manifest_file_size, static_cast(40)); ASSERT_EQ(new_db_opt.table_cache_numshardbits, 41); ASSERT_EQ(new_db_opt.WAL_ttl_seconds, static_cast(43)); ASSERT_EQ(new_db_opt.WAL_size_limit_MB, static_cast(44)); ASSERT_EQ(new_db_opt.manifest_preallocation_size, 45U); ASSERT_EQ(new_db_opt.allow_os_buffer, false); ASSERT_EQ(new_db_opt.allow_mmap_reads, true); ASSERT_EQ(new_db_opt.allow_mmap_writes, false); ASSERT_EQ(new_db_opt.is_fd_close_on_exec, true); ASSERT_EQ(new_db_opt.skip_log_error_on_recovery, false); ASSERT_EQ(new_db_opt.stats_dump_period_sec, 46U); ASSERT_EQ(new_db_opt.advise_random_on_open, true); ASSERT_EQ(new_db_opt.use_adaptive_mutex, false); ASSERT_EQ(new_db_opt.new_table_reader_for_compaction_inputs, true); ASSERT_EQ(new_db_opt.compaction_readahead_size, 100); ASSERT_EQ(new_db_opt.bytes_per_sync, static_cast(47)); ASSERT_EQ(new_db_opt.wal_bytes_per_sync, static_cast(48)); } #endif // !ROCKSDB_LITE #ifndef ROCKSDB_LITE // GetColumnFamilyOptionsFromString is not supported in // ROCKSDB_LITE TEST_F(OptionsTest, GetColumnFamilyOptionsFromStringTest) { ColumnFamilyOptions base_cf_opt; ColumnFamilyOptions new_cf_opt; base_cf_opt.table_factory.reset(); ASSERT_OK(GetColumnFamilyOptionsFromString(base_cf_opt, "", &new_cf_opt)); ASSERT_OK(GetColumnFamilyOptionsFromString(base_cf_opt, "write_buffer_size=5", &new_cf_opt)); ASSERT_EQ(new_cf_opt.write_buffer_size, 5U); ASSERT_TRUE(new_cf_opt.table_factory == nullptr); ASSERT_OK(GetColumnFamilyOptionsFromString(base_cf_opt, "write_buffer_size=6;", &new_cf_opt)); ASSERT_EQ(new_cf_opt.write_buffer_size, 6U); ASSERT_OK(GetColumnFamilyOptionsFromString(base_cf_opt, " write_buffer_size = 7 ", &new_cf_opt)); ASSERT_EQ(new_cf_opt.write_buffer_size, 7U); ASSERT_OK(GetColumnFamilyOptionsFromString(base_cf_opt, " write_buffer_size = 8 ; ", &new_cf_opt)); ASSERT_EQ(new_cf_opt.write_buffer_size, 8U); ASSERT_OK(GetColumnFamilyOptionsFromString(base_cf_opt, "write_buffer_size=9;max_write_buffer_number=10", &new_cf_opt)); ASSERT_EQ(new_cf_opt.write_buffer_size, 9U); ASSERT_EQ(new_cf_opt.max_write_buffer_number, 10); ASSERT_OK(GetColumnFamilyOptionsFromString(base_cf_opt, "write_buffer_size=11; max_write_buffer_number = 12 ;", &new_cf_opt)); ASSERT_EQ(new_cf_opt.write_buffer_size, 11U); ASSERT_EQ(new_cf_opt.max_write_buffer_number, 12); // Wrong name "max_write_buffer_number_" ASSERT_NOK(GetColumnFamilyOptionsFromString(base_cf_opt, "write_buffer_size=13;max_write_buffer_number_=14;", &new_cf_opt)); // Wrong key/value pair ASSERT_NOK(GetColumnFamilyOptionsFromString(base_cf_opt, "write_buffer_size=13;max_write_buffer_number;", &new_cf_opt)); // Error Paring value ASSERT_NOK(GetColumnFamilyOptionsFromString(base_cf_opt, "write_buffer_size=13;max_write_buffer_number=;", &new_cf_opt)); // Missing option name ASSERT_NOK(GetColumnFamilyOptionsFromString(base_cf_opt, "write_buffer_size=13; =100;", &new_cf_opt)); const int64_t kilo = 1024UL; const int64_t mega = 1024 * kilo; const int64_t giga = 1024 * mega; const int64_t tera = 1024 * giga; // Units (k) ASSERT_OK(GetColumnFamilyOptionsFromString(base_cf_opt, "memtable_prefix_bloom_bits=14k;max_write_buffer_number=-15K", &new_cf_opt)); ASSERT_EQ(new_cf_opt.memtable_prefix_bloom_bits, 14UL * kilo); ASSERT_EQ(new_cf_opt.max_write_buffer_number, -15 * kilo); // Units (m) ASSERT_OK(GetColumnFamilyOptionsFromString(base_cf_opt, "max_write_buffer_number=16m;inplace_update_num_locks=17M", &new_cf_opt)); ASSERT_EQ(new_cf_opt.max_write_buffer_number, 16 * mega); ASSERT_EQ(new_cf_opt.inplace_update_num_locks, 17 * mega); // Units (g) ASSERT_OK(GetColumnFamilyOptionsFromString( base_cf_opt, "write_buffer_size=18g;prefix_extractor=capped:8;" "arena_block_size=19G", &new_cf_opt)); ASSERT_EQ(new_cf_opt.write_buffer_size, 18 * giga); ASSERT_EQ(new_cf_opt.arena_block_size, 19 * giga); ASSERT_TRUE(new_cf_opt.prefix_extractor.get() != nullptr); std::string prefix_name(new_cf_opt.prefix_extractor->Name()); ASSERT_EQ(prefix_name, "rocksdb.CappedPrefix.8"); // Units (t) ASSERT_OK(GetColumnFamilyOptionsFromString(base_cf_opt, "write_buffer_size=20t;arena_block_size=21T", &new_cf_opt)); ASSERT_EQ(new_cf_opt.write_buffer_size, 20 * tera); ASSERT_EQ(new_cf_opt.arena_block_size, 21 * tera); // Nested block based table options // Emtpy ASSERT_OK(GetColumnFamilyOptionsFromString(base_cf_opt, "write_buffer_size=10;max_write_buffer_number=16;" "block_based_table_factory={};arena_block_size=1024", &new_cf_opt)); ASSERT_TRUE(new_cf_opt.table_factory != nullptr); // Non-empty ASSERT_OK(GetColumnFamilyOptionsFromString(base_cf_opt, "write_buffer_size=10;max_write_buffer_number=16;" "block_based_table_factory={block_cache=1M;block_size=4;};" "arena_block_size=1024", &new_cf_opt)); ASSERT_TRUE(new_cf_opt.table_factory != nullptr); // Last one ASSERT_OK(GetColumnFamilyOptionsFromString(base_cf_opt, "write_buffer_size=10;max_write_buffer_number=16;" "block_based_table_factory={block_cache=1M;block_size=4;}", &new_cf_opt)); ASSERT_TRUE(new_cf_opt.table_factory != nullptr); // Mismatch curly braces ASSERT_NOK(GetColumnFamilyOptionsFromString(base_cf_opt, "write_buffer_size=10;max_write_buffer_number=16;" "block_based_table_factory={{{block_size=4;};" "arena_block_size=1024", &new_cf_opt)); // Unexpected chars after closing curly brace ASSERT_NOK(GetColumnFamilyOptionsFromString(base_cf_opt, "write_buffer_size=10;max_write_buffer_number=16;" "block_based_table_factory={block_size=4;}};" "arena_block_size=1024", &new_cf_opt)); ASSERT_NOK(GetColumnFamilyOptionsFromString(base_cf_opt, "write_buffer_size=10;max_write_buffer_number=16;" "block_based_table_factory={block_size=4;}xdfa;" "arena_block_size=1024", &new_cf_opt)); ASSERT_NOK(GetColumnFamilyOptionsFromString(base_cf_opt, "write_buffer_size=10;max_write_buffer_number=16;" "block_based_table_factory={block_size=4;}xdfa", &new_cf_opt)); // Invalid block based table option ASSERT_NOK(GetColumnFamilyOptionsFromString(base_cf_opt, "write_buffer_size=10;max_write_buffer_number=16;" "block_based_table_factory={xx_block_size=4;}", &new_cf_opt)); ASSERT_OK(GetColumnFamilyOptionsFromString(base_cf_opt, "optimize_filters_for_hits=true", &new_cf_opt)); ASSERT_OK(GetColumnFamilyOptionsFromString(base_cf_opt, "optimize_filters_for_hits=false", &new_cf_opt)); ASSERT_NOK(GetColumnFamilyOptionsFromString(base_cf_opt, "optimize_filters_for_hits=junk", &new_cf_opt)); } #endif // !ROCKSDB_LITE #ifndef ROCKSDB_LITE // GetBlockBasedTableOptionsFromString is not supported TEST_F(OptionsTest, GetBlockBasedTableOptionsFromString) { BlockBasedTableOptions table_opt; BlockBasedTableOptions new_opt; // make sure default values are overwritten by something else ASSERT_OK(GetBlockBasedTableOptionsFromString(table_opt, "cache_index_and_filter_blocks=1;index_type=kHashSearch;" "checksum=kxxHash;hash_index_allow_collision=1;no_block_cache=1;" "block_cache=1M;block_cache_compressed=1k;block_size=1024;" "block_size_deviation=8;block_restart_interval=4;" "filter_policy=bloomfilter:4:true;whole_key_filtering=1", &new_opt)); ASSERT_TRUE(new_opt.cache_index_and_filter_blocks); ASSERT_EQ(new_opt.index_type, BlockBasedTableOptions::kHashSearch); ASSERT_EQ(new_opt.checksum, ChecksumType::kxxHash); ASSERT_TRUE(new_opt.hash_index_allow_collision); ASSERT_TRUE(new_opt.no_block_cache); ASSERT_TRUE(new_opt.block_cache != nullptr); ASSERT_EQ(new_opt.block_cache->GetCapacity(), 1024UL*1024UL); ASSERT_TRUE(new_opt.block_cache_compressed != nullptr); ASSERT_EQ(new_opt.block_cache_compressed->GetCapacity(), 1024UL); ASSERT_EQ(new_opt.block_size, 1024UL); ASSERT_EQ(new_opt.block_size_deviation, 8); ASSERT_EQ(new_opt.block_restart_interval, 4); ASSERT_TRUE(new_opt.filter_policy != nullptr); // unknown option ASSERT_NOK(GetBlockBasedTableOptionsFromString(table_opt, "cache_index_and_filter_blocks=1;index_type=kBinarySearch;" "bad_option=1", &new_opt)); // unrecognized index type ASSERT_NOK(GetBlockBasedTableOptionsFromString(table_opt, "cache_index_and_filter_blocks=1;index_type=kBinarySearchXX", &new_opt)); // unrecognized checksum type ASSERT_NOK(GetBlockBasedTableOptionsFromString(table_opt, "cache_index_and_filter_blocks=1;checksum=kxxHashXX", &new_opt)); // unrecognized filter policy name ASSERT_NOK(GetBlockBasedTableOptionsFromString(table_opt, "cache_index_and_filter_blocks=1;" "filter_policy=bloomfilterxx:4:true", &new_opt)); // unrecognized filter policy config ASSERT_NOK(GetBlockBasedTableOptionsFromString(table_opt, "cache_index_and_filter_blocks=1;" "filter_policy=bloomfilter:4", &new_opt)); } #endif // !ROCKSDB_LITE #ifndef ROCKSDB_LITE // GetOptionsFromString is not supported in RocksDB Lite TEST_F(OptionsTest, GetOptionsFromStringTest) { Options base_options, new_options; base_options.write_buffer_size = 20; base_options.min_write_buffer_number_to_merge = 15; BlockBasedTableOptions block_based_table_options; block_based_table_options.cache_index_and_filter_blocks = true; base_options.table_factory.reset( NewBlockBasedTableFactory(block_based_table_options)); ASSERT_OK(GetOptionsFromString( base_options, "write_buffer_size=10;max_write_buffer_number=16;" "block_based_table_factory={block_cache=1M;block_size=4;};" "create_if_missing=true;max_open_files=1;rate_limiter_bytes_per_sec=1024", &new_options)); ASSERT_EQ(new_options.write_buffer_size, 10U); ASSERT_EQ(new_options.max_write_buffer_number, 16); BlockBasedTableOptions new_block_based_table_options = dynamic_cast(new_options.table_factory.get()) ->GetTableOptions(); ASSERT_EQ(new_block_based_table_options.block_cache->GetCapacity(), 1U << 20); ASSERT_EQ(new_block_based_table_options.block_size, 4U); // don't overwrite block based table options ASSERT_TRUE(new_block_based_table_options.cache_index_and_filter_blocks); ASSERT_EQ(new_options.create_if_missing, true); ASSERT_EQ(new_options.max_open_files, 1); ASSERT_TRUE(new_options.rate_limiter.get() != nullptr); } namespace { void VerifyDBOptions(const DBOptions& base_opt, const DBOptions& new_opt) { // boolean options ASSERT_EQ(base_opt.advise_random_on_open, new_opt.advise_random_on_open); ASSERT_EQ(base_opt.allow_mmap_reads, new_opt.allow_mmap_reads); ASSERT_EQ(base_opt.allow_mmap_writes, new_opt.allow_mmap_writes); ASSERT_EQ(base_opt.allow_os_buffer, new_opt.allow_os_buffer); ASSERT_EQ(base_opt.create_if_missing, new_opt.create_if_missing); ASSERT_EQ(base_opt.create_missing_column_families, new_opt.create_missing_column_families); ASSERT_EQ(base_opt.disableDataSync, new_opt.disableDataSync); ASSERT_EQ(base_opt.enable_thread_tracking, new_opt.enable_thread_tracking); ASSERT_EQ(base_opt.error_if_exists, new_opt.error_if_exists); ASSERT_EQ(base_opt.is_fd_close_on_exec, new_opt.is_fd_close_on_exec); ASSERT_EQ(base_opt.paranoid_checks, new_opt.paranoid_checks); ASSERT_EQ(base_opt.skip_log_error_on_recovery, new_opt.skip_log_error_on_recovery); ASSERT_EQ(base_opt.skip_stats_update_on_db_open, new_opt.skip_stats_update_on_db_open); ASSERT_EQ(base_opt.use_adaptive_mutex, new_opt.use_adaptive_mutex); ASSERT_EQ(base_opt.use_fsync, new_opt.use_fsync); // int options ASSERT_EQ(base_opt.max_background_compactions, new_opt.max_background_compactions); ASSERT_EQ(base_opt.max_background_flushes, new_opt.max_background_flushes); ASSERT_EQ(base_opt.max_file_opening_threads, new_opt.max_file_opening_threads); ASSERT_EQ(base_opt.max_open_files, new_opt.max_open_files); ASSERT_EQ(base_opt.table_cache_numshardbits, new_opt.table_cache_numshardbits); // size_t options ASSERT_EQ(base_opt.db_write_buffer_size, new_opt.db_write_buffer_size); ASSERT_EQ(base_opt.keep_log_file_num, new_opt.keep_log_file_num); ASSERT_EQ(base_opt.log_file_time_to_roll, new_opt.log_file_time_to_roll); ASSERT_EQ(base_opt.manifest_preallocation_size, new_opt.manifest_preallocation_size); ASSERT_EQ(base_opt.max_log_file_size, new_opt.max_log_file_size); // std::string options ASSERT_EQ(base_opt.db_log_dir, new_opt.db_log_dir); ASSERT_EQ(base_opt.wal_dir, new_opt.wal_dir); // uint32_t options ASSERT_EQ(base_opt.max_subcompactions, new_opt.max_subcompactions); // uint64_t options ASSERT_EQ(base_opt.WAL_size_limit_MB, new_opt.WAL_size_limit_MB); ASSERT_EQ(base_opt.WAL_ttl_seconds, new_opt.WAL_ttl_seconds); ASSERT_EQ(base_opt.bytes_per_sync, new_opt.bytes_per_sync); ASSERT_EQ(base_opt.delayed_write_rate, new_opt.delayed_write_rate); ASSERT_EQ(base_opt.delete_obsolete_files_period_micros, new_opt.delete_obsolete_files_period_micros); ASSERT_EQ(base_opt.max_manifest_file_size, new_opt.max_manifest_file_size); ASSERT_EQ(base_opt.max_total_wal_size, new_opt.max_total_wal_size); ASSERT_EQ(base_opt.wal_bytes_per_sync, new_opt.wal_bytes_per_sync); // unsigned int options ASSERT_EQ(base_opt.stats_dump_period_sec, new_opt.stats_dump_period_sec); } } // namespace TEST_F(OptionsTest, DBOptionsSerialization) { Options base_options, new_options; Random rnd(301); // Phase 1: Make big change in base_options // boolean options base_options.advise_random_on_open = rnd.Uniform(2); base_options.allow_mmap_reads = rnd.Uniform(2); base_options.allow_mmap_writes = rnd.Uniform(2); base_options.allow_os_buffer = rnd.Uniform(2); base_options.create_if_missing = rnd.Uniform(2); base_options.create_missing_column_families = rnd.Uniform(2); base_options.disableDataSync = rnd.Uniform(2); base_options.enable_thread_tracking = rnd.Uniform(2); base_options.error_if_exists = rnd.Uniform(2); base_options.is_fd_close_on_exec = rnd.Uniform(2); base_options.paranoid_checks = rnd.Uniform(2); base_options.skip_log_error_on_recovery = rnd.Uniform(2); base_options.skip_stats_update_on_db_open = rnd.Uniform(2); base_options.use_adaptive_mutex = rnd.Uniform(2); base_options.use_fsync = rnd.Uniform(2); // int options base_options.max_background_compactions = rnd.Uniform(100); base_options.max_background_flushes = rnd.Uniform(100); base_options.max_file_opening_threads = rnd.Uniform(100); base_options.max_open_files = rnd.Uniform(100); base_options.table_cache_numshardbits = rnd.Uniform(100); // size_t options base_options.db_write_buffer_size = rnd.Uniform(10000); base_options.keep_log_file_num = rnd.Uniform(10000); base_options.log_file_time_to_roll = rnd.Uniform(10000); base_options.manifest_preallocation_size = rnd.Uniform(10000); base_options.max_log_file_size = rnd.Uniform(10000); // std::string options base_options.db_log_dir = "path/to/db_log_dir"; base_options.wal_dir = "path/to/wal_dir"; // uint32_t options base_options.max_subcompactions = rnd.Uniform(100000); // uint64_t options static const uint64_t uint_max = static_cast(UINT_MAX); base_options.WAL_size_limit_MB = uint_max + rnd.Uniform(100000); base_options.WAL_ttl_seconds = uint_max + rnd.Uniform(100000); base_options.bytes_per_sync = uint_max + rnd.Uniform(100000); base_options.delayed_write_rate = uint_max + rnd.Uniform(100000); base_options.delete_obsolete_files_period_micros = uint_max + rnd.Uniform(100000); base_options.max_manifest_file_size = uint_max + rnd.Uniform(100000); base_options.max_total_wal_size = uint_max + rnd.Uniform(100000); base_options.wal_bytes_per_sync = uint_max + rnd.Uniform(100000); // unsigned int options base_options.stats_dump_period_sec = rnd.Uniform(100000); // Phase 2: obtain a string from base_option std::string base_opt_string; ASSERT_OK(GetStringFromDBOptions(base_options, &base_opt_string)); // Phase 3: Set new_options from the derived string and expect // new_options == base_options ASSERT_OK(GetDBOptionsFromString(DBOptions(), base_opt_string, &new_options)); VerifyDBOptions(base_options, new_options); } namespace { void VerifyDouble(double a, double b) { ASSERT_LT(fabs(a - b), 0.00001); } void VerifyColumnFamilyOptions(const ColumnFamilyOptions& base_opt, const ColumnFamilyOptions& new_opt) { // custom type options ASSERT_EQ(base_opt.compaction_style, new_opt.compaction_style); // boolean options ASSERT_EQ(base_opt.compaction_measure_io_stats, new_opt.compaction_measure_io_stats); ASSERT_EQ(base_opt.disable_auto_compactions, new_opt.disable_auto_compactions); ASSERT_EQ(base_opt.filter_deletes, new_opt.filter_deletes); ASSERT_EQ(base_opt.inplace_update_support, new_opt.inplace_update_support); ASSERT_EQ(base_opt.level_compaction_dynamic_level_bytes, new_opt.level_compaction_dynamic_level_bytes); ASSERT_EQ(base_opt.optimize_filters_for_hits, new_opt.optimize_filters_for_hits); ASSERT_EQ(base_opt.paranoid_file_checks, new_opt.paranoid_file_checks); ASSERT_EQ(base_opt.purge_redundant_kvs_while_flush, new_opt.purge_redundant_kvs_while_flush); ASSERT_EQ(base_opt.verify_checksums_in_compaction, new_opt.verify_checksums_in_compaction); // double options VerifyDouble(base_opt.hard_rate_limit, new_opt.hard_rate_limit); VerifyDouble(base_opt.soft_rate_limit, new_opt.soft_rate_limit); // int options ASSERT_EQ(base_opt.expanded_compaction_factor, new_opt.expanded_compaction_factor); ASSERT_EQ(base_opt.level0_file_num_compaction_trigger, new_opt.level0_file_num_compaction_trigger); ASSERT_EQ(base_opt.level0_slowdown_writes_trigger, new_opt.level0_slowdown_writes_trigger); ASSERT_EQ(base_opt.level0_stop_writes_trigger, new_opt.level0_stop_writes_trigger); ASSERT_EQ(base_opt.max_bytes_for_level_multiplier, new_opt.max_bytes_for_level_multiplier); ASSERT_EQ(base_opt.max_grandparent_overlap_factor, new_opt.max_grandparent_overlap_factor); ASSERT_EQ(base_opt.max_mem_compaction_level, new_opt.max_mem_compaction_level); ASSERT_EQ(base_opt.max_write_buffer_number, new_opt.max_write_buffer_number); ASSERT_EQ(base_opt.max_write_buffer_number_to_maintain, new_opt.max_write_buffer_number_to_maintain); ASSERT_EQ(base_opt.min_write_buffer_number_to_merge, new_opt.min_write_buffer_number_to_merge); ASSERT_EQ(base_opt.num_levels, new_opt.num_levels); ASSERT_EQ(base_opt.source_compaction_factor, new_opt.source_compaction_factor); ASSERT_EQ(base_opt.target_file_size_multiplier, new_opt.target_file_size_multiplier); // size_t options ASSERT_EQ(base_opt.arena_block_size, new_opt.arena_block_size); ASSERT_EQ(base_opt.inplace_update_num_locks, new_opt.inplace_update_num_locks); ASSERT_EQ(base_opt.max_successive_merges, new_opt.max_successive_merges); ASSERT_EQ(base_opt.memtable_prefix_bloom_huge_page_tlb_size, new_opt.memtable_prefix_bloom_huge_page_tlb_size); ASSERT_EQ(base_opt.write_buffer_size, new_opt.write_buffer_size); // uint32_t options ASSERT_EQ(base_opt.bloom_locality, new_opt.bloom_locality); ASSERT_EQ(base_opt.memtable_prefix_bloom_bits, new_opt.memtable_prefix_bloom_bits); ASSERT_EQ(base_opt.memtable_prefix_bloom_probes, new_opt.memtable_prefix_bloom_probes); ASSERT_EQ(base_opt.min_partial_merge_operands, new_opt.min_partial_merge_operands); ASSERT_EQ(base_opt.max_bytes_for_level_base, new_opt.max_bytes_for_level_base); // uint64_t options ASSERT_EQ(base_opt.max_sequential_skip_in_iterations, new_opt.max_sequential_skip_in_iterations); ASSERT_EQ(base_opt.target_file_size_base, new_opt.target_file_size_base); // unsigned int options ASSERT_EQ(base_opt.rate_limit_delay_max_milliseconds, new_opt.rate_limit_delay_max_milliseconds); } } // namespace TEST_F(OptionsTest, ColumnFamilyOptionsSerialization) { ColumnFamilyOptions base_opt, new_opt; Random rnd(302); // Phase 1: randomly assign base_opt // custom type options base_opt.compaction_style = (CompactionStyle)(rnd.Uniform(4)); // boolean options base_opt.compaction_measure_io_stats = rnd.Uniform(2); base_opt.disable_auto_compactions = rnd.Uniform(2); base_opt.filter_deletes = rnd.Uniform(2); base_opt.inplace_update_support = rnd.Uniform(2); base_opt.level_compaction_dynamic_level_bytes = rnd.Uniform(2); base_opt.optimize_filters_for_hits = rnd.Uniform(2); base_opt.paranoid_file_checks = rnd.Uniform(2); base_opt.purge_redundant_kvs_while_flush = rnd.Uniform(2); base_opt.verify_checksums_in_compaction = rnd.Uniform(2); // double options base_opt.hard_rate_limit = static_cast(rnd.Uniform(10000)) / 13; base_opt.soft_rate_limit = static_cast(rnd.Uniform(10000)) / 13; // int options base_opt.expanded_compaction_factor = rnd.Uniform(100); base_opt.level0_file_num_compaction_trigger = rnd.Uniform(100); base_opt.level0_slowdown_writes_trigger = rnd.Uniform(100); base_opt.level0_stop_writes_trigger = rnd.Uniform(100); base_opt.max_bytes_for_level_multiplier = rnd.Uniform(100); base_opt.max_grandparent_overlap_factor = rnd.Uniform(100); base_opt.max_mem_compaction_level = rnd.Uniform(100); base_opt.max_write_buffer_number = rnd.Uniform(100); base_opt.max_write_buffer_number_to_maintain = rnd.Uniform(100); base_opt.min_write_buffer_number_to_merge = rnd.Uniform(100); base_opt.num_levels = rnd.Uniform(100); base_opt.source_compaction_factor = rnd.Uniform(100); base_opt.target_file_size_multiplier = rnd.Uniform(100); // size_t options base_opt.arena_block_size = rnd.Uniform(10000); base_opt.inplace_update_num_locks = rnd.Uniform(10000); base_opt.max_successive_merges = rnd.Uniform(10000); base_opt.memtable_prefix_bloom_huge_page_tlb_size = rnd.Uniform(10000); base_opt.write_buffer_size = rnd.Uniform(10000); // uint32_t options base_opt.bloom_locality = rnd.Uniform(10000); base_opt.memtable_prefix_bloom_bits = rnd.Uniform(10000); base_opt.memtable_prefix_bloom_probes = rnd.Uniform(10000); base_opt.min_partial_merge_operands = rnd.Uniform(10000); base_opt.max_bytes_for_level_base = rnd.Uniform(10000); // uint64_t options static const uint64_t uint_max = static_cast(UINT_MAX); base_opt.max_sequential_skip_in_iterations = uint_max + rnd.Uniform(10000); base_opt.target_file_size_base = uint_max + rnd.Uniform(10000); // unsigned int options base_opt.rate_limit_delay_max_milliseconds = rnd.Uniform(10000); // Phase 2: obtain a string from base_opt std::string base_opt_string; ASSERT_OK(GetStringFromColumnFamilyOptions(base_opt, &base_opt_string)); // Phase 3: Set new_opt from the derived string and expect // new_opt == base_opt ASSERT_OK(GetColumnFamilyOptionsFromString(ColumnFamilyOptions(), base_opt_string, &new_opt)); VerifyColumnFamilyOptions(base_opt, new_opt); } #endif // !ROCKSDB_LITE Status StringToMap( const std::string& opts_str, std::unordered_map* opts_map); #ifndef ROCKSDB_LITE // StringToMap is not supported in ROCKSDB_LITE TEST_F(OptionsTest, StringToMapTest) { std::unordered_map opts_map; // Regular options ASSERT_OK(StringToMap("k1=v1;k2=v2;k3=v3", &opts_map)); ASSERT_EQ(opts_map["k1"], "v1"); ASSERT_EQ(opts_map["k2"], "v2"); ASSERT_EQ(opts_map["k3"], "v3"); // Value with '=' opts_map.clear(); ASSERT_OK(StringToMap("k1==v1;k2=v2=;", &opts_map)); ASSERT_EQ(opts_map["k1"], "=v1"); ASSERT_EQ(opts_map["k2"], "v2="); // Overwrriten option opts_map.clear(); ASSERT_OK(StringToMap("k1=v1;k1=v2;k3=v3", &opts_map)); ASSERT_EQ(opts_map["k1"], "v2"); ASSERT_EQ(opts_map["k3"], "v3"); // Empty value opts_map.clear(); ASSERT_OK(StringToMap("k1=v1;k2=;k3=v3;k4=", &opts_map)); ASSERT_EQ(opts_map["k1"], "v1"); ASSERT_TRUE(opts_map.find("k2") != opts_map.end()); ASSERT_EQ(opts_map["k2"], ""); ASSERT_EQ(opts_map["k3"], "v3"); ASSERT_TRUE(opts_map.find("k4") != opts_map.end()); ASSERT_EQ(opts_map["k4"], ""); opts_map.clear(); ASSERT_OK(StringToMap("k1=v1;k2=;k3=v3;k4= ", &opts_map)); ASSERT_EQ(opts_map["k1"], "v1"); ASSERT_TRUE(opts_map.find("k2") != opts_map.end()); ASSERT_EQ(opts_map["k2"], ""); ASSERT_EQ(opts_map["k3"], "v3"); ASSERT_TRUE(opts_map.find("k4") != opts_map.end()); ASSERT_EQ(opts_map["k4"], ""); opts_map.clear(); ASSERT_OK(StringToMap("k1=v1;k2=;k3=", &opts_map)); ASSERT_EQ(opts_map["k1"], "v1"); ASSERT_TRUE(opts_map.find("k2") != opts_map.end()); ASSERT_EQ(opts_map["k2"], ""); ASSERT_TRUE(opts_map.find("k3") != opts_map.end()); ASSERT_EQ(opts_map["k3"], ""); opts_map.clear(); ASSERT_OK(StringToMap("k1=v1;k2=;k3=;", &opts_map)); ASSERT_EQ(opts_map["k1"], "v1"); ASSERT_TRUE(opts_map.find("k2") != opts_map.end()); ASSERT_EQ(opts_map["k2"], ""); ASSERT_TRUE(opts_map.find("k3") != opts_map.end()); ASSERT_EQ(opts_map["k3"], ""); // Regular nested options opts_map.clear(); ASSERT_OK(StringToMap("k1=v1;k2={nk1=nv1;nk2=nv2};k3=v3", &opts_map)); ASSERT_EQ(opts_map["k1"], "v1"); ASSERT_EQ(opts_map["k2"], "nk1=nv1;nk2=nv2"); ASSERT_EQ(opts_map["k3"], "v3"); // Multi-level nested options opts_map.clear(); ASSERT_OK(StringToMap("k1=v1;k2={nk1=nv1;nk2={nnk1=nnk2}};" "k3={nk1={nnk1={nnnk1=nnnv1;nnnk2;nnnv2}}};k4=v4", &opts_map)); ASSERT_EQ(opts_map["k1"], "v1"); ASSERT_EQ(opts_map["k2"], "nk1=nv1;nk2={nnk1=nnk2}"); ASSERT_EQ(opts_map["k3"], "nk1={nnk1={nnnk1=nnnv1;nnnk2;nnnv2}}"); ASSERT_EQ(opts_map["k4"], "v4"); // Garbage inside curly braces opts_map.clear(); ASSERT_OK(StringToMap("k1=v1;k2={dfad=};k3={=};k4=v4", &opts_map)); ASSERT_EQ(opts_map["k1"], "v1"); ASSERT_EQ(opts_map["k2"], "dfad="); ASSERT_EQ(opts_map["k3"], "="); ASSERT_EQ(opts_map["k4"], "v4"); // Empty nested options opts_map.clear(); ASSERT_OK(StringToMap("k1=v1;k2={};", &opts_map)); ASSERT_EQ(opts_map["k1"], "v1"); ASSERT_EQ(opts_map["k2"], ""); opts_map.clear(); ASSERT_OK(StringToMap("k1=v1;k2={{{{}}}{}{}};", &opts_map)); ASSERT_EQ(opts_map["k1"], "v1"); ASSERT_EQ(opts_map["k2"], "{{{}}}{}{}"); // With random spaces opts_map.clear(); ASSERT_OK(StringToMap(" k1 = v1 ; k2= {nk1=nv1; nk2={nnk1=nnk2}} ; " "k3={ { } }; k4= v4 ", &opts_map)); ASSERT_EQ(opts_map["k1"], "v1"); ASSERT_EQ(opts_map["k2"], "nk1=nv1; nk2={nnk1=nnk2}"); ASSERT_EQ(opts_map["k3"], "{ }"); ASSERT_EQ(opts_map["k4"], "v4"); // Empty key ASSERT_NOK(StringToMap("k1=v1;k2=v2;=", &opts_map)); ASSERT_NOK(StringToMap("=v1;k2=v2", &opts_map)); ASSERT_NOK(StringToMap("k1=v1;k2v2;", &opts_map)); ASSERT_NOK(StringToMap("k1=v1;k2=v2;fadfa", &opts_map)); ASSERT_NOK(StringToMap("k1=v1;k2=v2;;", &opts_map)); // Mismatch curly braces ASSERT_NOK(StringToMap("k1=v1;k2={;k3=v3", &opts_map)); ASSERT_NOK(StringToMap("k1=v1;k2={{};k3=v3", &opts_map)); ASSERT_NOK(StringToMap("k1=v1;k2={}};k3=v3", &opts_map)); ASSERT_NOK(StringToMap("k1=v1;k2={{}{}}};k3=v3", &opts_map)); // However this is valid! opts_map.clear(); ASSERT_OK(StringToMap("k1=v1;k2=};k3=v3", &opts_map)); ASSERT_EQ(opts_map["k1"], "v1"); ASSERT_EQ(opts_map["k2"], "}"); ASSERT_EQ(opts_map["k3"], "v3"); // Invalid chars after closing curly brace ASSERT_NOK(StringToMap("k1=v1;k2={{}}{};k3=v3", &opts_map)); ASSERT_NOK(StringToMap("k1=v1;k2={{}}cfda;k3=v3", &opts_map)); ASSERT_NOK(StringToMap("k1=v1;k2={{}} cfda;k3=v3", &opts_map)); ASSERT_NOK(StringToMap("k1=v1;k2={{}} cfda", &opts_map)); ASSERT_NOK(StringToMap("k1=v1;k2={{}}{}", &opts_map)); ASSERT_NOK(StringToMap("k1=v1;k2={{dfdl}adfa}{}", &opts_map)); } #endif // ROCKSDB_LITE #ifndef ROCKSDB_LITE // StringToMap is not supported in ROCKSDB_LITE TEST_F(OptionsTest, StringToMapRandomTest) { std::unordered_map opts_map; // Make sure segfault is not hit by semi-random strings std::vector bases = { "a={aa={};tt={xxx={}}};c=defff", "a={aa={};tt={xxx={}}};c=defff;d={{}yxx{}3{xx}}", "abc={{}{}{}{{{}}}{{}{}{}{}{}{}{}"}; for (std::string base : bases) { for (int rand_seed = 301; rand_seed < 401; rand_seed++) { Random rnd(rand_seed); for (int attempt = 0; attempt < 10; attempt++) { std::string str = base; // Replace random position to space size_t pos = static_cast( rnd.Uniform(static_cast(base.size()))); str[pos] = ' '; Status s = StringToMap(str, &opts_map); ASSERT_TRUE(s.ok() || s.IsInvalidArgument()); opts_map.clear(); } } } // Random Construct a string std::vector chars = {'{', '}', ' ', '=', ';', 'c'}; for (int rand_seed = 301; rand_seed < 1301; rand_seed++) { Random rnd(rand_seed); int len = rnd.Uniform(30); std::string str = ""; for (int attempt = 0; attempt < len; attempt++) { // Add a random character size_t pos = static_cast( rnd.Uniform(static_cast(chars.size()))); str.append(1, chars[pos]); } Status s = StringToMap(str, &opts_map); ASSERT_TRUE(s.ok() || s.IsInvalidArgument()); s = StringToMap("name=" + str, &opts_map); ASSERT_TRUE(s.ok() || s.IsInvalidArgument()); opts_map.clear(); } } #endif // !ROCKSDB_LITE TEST_F(OptionsTest, ConvertOptionsTest) { LevelDBOptions leveldb_opt; Options converted_opt = ConvertOptions(leveldb_opt); ASSERT_EQ(converted_opt.create_if_missing, leveldb_opt.create_if_missing); ASSERT_EQ(converted_opt.error_if_exists, leveldb_opt.error_if_exists); ASSERT_EQ(converted_opt.paranoid_checks, leveldb_opt.paranoid_checks); ASSERT_EQ(converted_opt.env, leveldb_opt.env); ASSERT_EQ(converted_opt.info_log.get(), leveldb_opt.info_log); ASSERT_EQ(converted_opt.write_buffer_size, leveldb_opt.write_buffer_size); ASSERT_EQ(converted_opt.max_open_files, leveldb_opt.max_open_files); ASSERT_EQ(converted_opt.compression, leveldb_opt.compression); std::shared_ptr table_factory = std::dynamic_pointer_cast( converted_opt.table_factory); ASSERT_TRUE(table_factory.get() != nullptr); const BlockBasedTableOptions table_opt = table_factory->GetTableOptions(); ASSERT_EQ(table_opt.block_cache->GetCapacity(), 8UL << 20); ASSERT_EQ(table_opt.block_size, leveldb_opt.block_size); ASSERT_EQ(table_opt.block_restart_interval, leveldb_opt.block_restart_interval); ASSERT_EQ(table_opt.filter_policy.get(), leveldb_opt.filter_policy); } } // namespace rocksdb int main(int argc, char** argv) { ::testing::InitGoogleTest(&argc, argv); #ifdef GFLAGS ParseCommandLineFlags(&argc, &argv, true); #endif // GFLAGS return RUN_ALL_TESTS(); }