// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #ifndef ROCKSDB_LITE #include "options/options_parser.h" #include #include #include #include #include #include "file/read_write_util.h" #include "file/writable_file_writer.h" #include "options/options_helper.h" #include "options/options_sanity_check.h" #include "port/port.h" #include "rocksdb/convenience.h" #include "rocksdb/db.h" #include "table/block_based/block_based_table_factory.h" #include "test_util/sync_point.h" #include "util/cast_util.h" #include "util/string_util.h" namespace ROCKSDB_NAMESPACE { static const std::string option_file_header = "# This is a RocksDB option file.\n" "#\n" "# For detailed file format spec, please refer to the example file\n" "# in examples/rocksdb_option_file_example.ini\n" "#\n" "\n"; Status PersistRocksDBOptions(const DBOptions& db_opt, const std::vector& cf_names, const std::vector& cf_opts, const std::string& file_name, FileSystem* fs) { ConfigOptions config_options; // Use default for escaped(true) and check (exact) config_options.delimiter = "\n "; // If a readahead size was set in the input options, use it if (db_opt.log_readahead_size > 0) { config_options.file_readahead_size = db_opt.log_readahead_size; } return PersistRocksDBOptions(config_options, db_opt, cf_names, cf_opts, file_name, fs); } Status PersistRocksDBOptions(const ConfigOptions& config_options_in, const DBOptions& db_opt, const std::vector& cf_names, const std::vector& cf_opts, const std::string& file_name, FileSystem* fs) { ConfigOptions config_options = config_options_in; config_options.delimiter = "\n "; // Override the default to nl TEST_SYNC_POINT("PersistRocksDBOptions:start"); if (cf_names.size() != cf_opts.size()) { return Status::InvalidArgument( "cf_names.size() and cf_opts.size() must be the same"); } std::unique_ptr wf; Status s = fs->NewWritableFile(file_name, FileOptions(), &wf, nullptr); if (!s.ok()) { return s; } std::unique_ptr writable; writable.reset(new WritableFileWriter(std::move(wf), file_name, EnvOptions(), nullptr /* statistics */)); std::string options_file_content; writable->Append(option_file_header + "[" + opt_section_titles[kOptionSectionVersion] + "]\n" " rocksdb_version=" + ToString(ROCKSDB_MAJOR) + "." + ToString(ROCKSDB_MINOR) + "." + ToString(ROCKSDB_PATCH) + "\n"); writable->Append(" options_file_version=" + ToString(ROCKSDB_OPTION_FILE_MAJOR) + "." + ToString(ROCKSDB_OPTION_FILE_MINOR) + "\n"); writable->Append("\n[" + opt_section_titles[kOptionSectionDBOptions] + "]\n "); s = GetStringFromDBOptions(config_options, db_opt, &options_file_content); if (!s.ok()) { writable->Close(); return s; } writable->Append(options_file_content + "\n"); for (size_t i = 0; i < cf_opts.size(); ++i) { // CFOptions section writable->Append("\n[" + opt_section_titles[kOptionSectionCFOptions] + " \"" + EscapeOptionString(cf_names[i]) + "\"]\n "); s = GetStringFromColumnFamilyOptions(config_options, cf_opts[i], &options_file_content); if (!s.ok()) { writable->Close(); return s; } writable->Append(options_file_content + "\n"); // TableOptions section auto* tf = cf_opts[i].table_factory.get(); if (tf != nullptr) { writable->Append("[" + opt_section_titles[kOptionSectionTableOptions] + tf->Name() + " \"" + EscapeOptionString(cf_names[i]) + "\"]\n "); options_file_content.clear(); s = tf->GetOptionString(config_options, &options_file_content); if (!s.ok()) { return s; } writable->Append(options_file_content + "\n"); } } writable->Sync(true /* use_fsync */); writable->Close(); return RocksDBOptionsParser::VerifyRocksDBOptionsFromFile( config_options, db_opt, cf_names, cf_opts, file_name, fs); } RocksDBOptionsParser::RocksDBOptionsParser() { Reset(); } void RocksDBOptionsParser::Reset() { db_opt_ = DBOptions(); db_opt_map_.clear(); cf_names_.clear(); cf_opts_.clear(); cf_opt_maps_.clear(); has_version_section_ = false; has_db_options_ = false; has_default_cf_options_ = false; for (int i = 0; i < 3; ++i) { db_version[i] = 0; opt_file_version[i] = 0; } } bool RocksDBOptionsParser::IsSection(const std::string& line) { if (line.size() < 2) { return false; } if (line[0] != '[' || line[line.size() - 1] != ']') { return false; } return true; } Status RocksDBOptionsParser::ParseSection(OptionSection* section, std::string* title, std::string* argument, const std::string& line, const int line_num) { *section = kOptionSectionUnknown; // A section is of the form [ ""], where // "" is optional. size_t arg_start_pos = line.find("\""); size_t arg_end_pos = line.rfind("\""); // The following if-then check tries to identify whether the input // section has the optional section argument. if (arg_start_pos != std::string::npos && arg_start_pos != arg_end_pos) { *title = TrimAndRemoveComment(line.substr(1, arg_start_pos - 1), true); *argument = UnescapeOptionString( line.substr(arg_start_pos + 1, arg_end_pos - arg_start_pos - 1)); } else { *title = TrimAndRemoveComment(line.substr(1, line.size() - 2), true); *argument = ""; } for (int i = 0; i < kOptionSectionUnknown; ++i) { if (title->find(opt_section_titles[i]) == 0) { if (i == kOptionSectionVersion || i == kOptionSectionDBOptions || i == kOptionSectionCFOptions) { if (title->size() == opt_section_titles[i].size()) { // if true, then it indicats equal *section = static_cast(i); return CheckSection(*section, *argument, line_num); } } else if (i == kOptionSectionTableOptions) { // This type of sections has a sufffix at the end of the // section title if (title->size() > opt_section_titles[i].size()) { *section = static_cast(i); return CheckSection(*section, *argument, line_num); } } } } return Status::InvalidArgument(std::string("Unknown section ") + line); } Status RocksDBOptionsParser::InvalidArgument(const int line_num, const std::string& message) { return Status::InvalidArgument( "[RocksDBOptionsParser Error] ", message + " (at line " + ToString(line_num) + ")"); } Status RocksDBOptionsParser::ParseStatement(std::string* name, std::string* value, const std::string& line, const int line_num) { size_t eq_pos = line.find("="); if (eq_pos == std::string::npos) { return InvalidArgument(line_num, "A valid statement must have a '='."); } *name = TrimAndRemoveComment(line.substr(0, eq_pos), true); *value = TrimAndRemoveComment(line.substr(eq_pos + 1, line.size() - eq_pos - 1)); if (name->empty()) { return InvalidArgument(line_num, "A valid statement must have a variable name."); } return Status::OK(); } Status RocksDBOptionsParser::Parse(const std::string& file_name, FileSystem* fs, bool ignore_unknown_options, size_t file_readahead_size) { ConfigOptions config_options; // Use default for escaped(true) and check (exact) config_options.ignore_unknown_options = ignore_unknown_options; if (file_readahead_size > 0) { config_options.file_readahead_size = file_readahead_size; } return Parse(config_options, file_name, fs); } Status RocksDBOptionsParser::Parse(const ConfigOptions& config_options_in, const std::string& file_name, FileSystem* fs) { Reset(); ConfigOptions config_options = config_options_in; std::unique_ptr seq_file; Status s = fs->NewSequentialFile(file_name, FileOptions(), &seq_file, nullptr); if (!s.ok()) { return s; } SequentialFileReader sf_reader(std::move(seq_file), file_name, config_options.file_readahead_size); OptionSection section = kOptionSectionUnknown; std::string title; std::string argument; std::unordered_map opt_map; std::istringstream iss; std::string line; bool has_data = true; // we only support single-lined statement. for (int line_num = 1; ReadOneLine(&iss, &sf_reader, &line, &has_data, &s); ++line_num) { if (!s.ok()) { return s; } line = TrimAndRemoveComment(line); if (line.empty()) { continue; } if (IsSection(line)) { s = EndSection(config_options, section, title, argument, opt_map); opt_map.clear(); if (!s.ok()) { return s; } // If the option file is not generated by a higher minor version, // there shouldn't be any unknown option. if (config_options.ignore_unknown_options && section == kOptionSectionVersion) { if (db_version[0] < ROCKSDB_MAJOR || (db_version[0] == ROCKSDB_MAJOR && db_version[1] <= ROCKSDB_MINOR)) { config_options.ignore_unknown_options = false; } } s = ParseSection(§ion, &title, &argument, line, line_num); if (!s.ok()) { return s; } } else { std::string name; std::string value; s = ParseStatement(&name, &value, line, line_num); if (!s.ok()) { return s; } opt_map.insert({name, value}); } } s = EndSection(config_options, section, title, argument, opt_map); opt_map.clear(); if (!s.ok()) { return s; } return ValidityCheck(); } Status RocksDBOptionsParser::CheckSection(const OptionSection section, const std::string& section_arg, const int line_num) { if (section == kOptionSectionDBOptions) { if (has_db_options_) { return InvalidArgument( line_num, "More than one DBOption section found in the option config file"); } has_db_options_ = true; } else if (section == kOptionSectionCFOptions) { bool is_default_cf = (section_arg == kDefaultColumnFamilyName); if (cf_opts_.size() == 0 && !is_default_cf) { return InvalidArgument( line_num, "Default column family must be the first CFOptions section " "in the option config file"); } else if (cf_opts_.size() != 0 && is_default_cf) { return InvalidArgument( line_num, "Default column family must be the first CFOptions section " "in the optio/n config file"); } else if (GetCFOptions(section_arg) != nullptr) { return InvalidArgument( line_num, "Two identical column families found in option config file"); } has_default_cf_options_ |= is_default_cf; } else if (section == kOptionSectionTableOptions) { if (GetCFOptions(section_arg) == nullptr) { return InvalidArgument( line_num, std::string( "Does not find a matched column family name in " "TableOptions section. Column Family Name:") + section_arg); } } else if (section == kOptionSectionVersion) { if (has_version_section_) { return InvalidArgument( line_num, "More than one Version section found in the option config file."); } has_version_section_ = true; } return Status::OK(); } Status RocksDBOptionsParser::ParseVersionNumber(const std::string& ver_name, const std::string& ver_string, const int max_count, int* version) { int version_index = 0; int current_number = 0; int current_digit_count = 0; bool has_dot = false; for (int i = 0; i < max_count; ++i) { version[i] = 0; } constexpr int kBufferSize = 200; char buffer[kBufferSize]; for (size_t i = 0; i < ver_string.size(); ++i) { if (ver_string[i] == '.') { if (version_index >= max_count - 1) { snprintf(buffer, sizeof(buffer) - 1, "A valid %s can only contains at most %d dots.", ver_name.c_str(), max_count - 1); return Status::InvalidArgument(buffer); } if (current_digit_count == 0) { snprintf(buffer, sizeof(buffer) - 1, "A valid %s must have at least one digit before each dot.", ver_name.c_str()); return Status::InvalidArgument(buffer); } version[version_index++] = current_number; current_number = 0; current_digit_count = 0; has_dot = true; } else if (isdigit(ver_string[i])) { current_number = current_number * 10 + (ver_string[i] - '0'); current_digit_count++; } else { snprintf(buffer, sizeof(buffer) - 1, "A valid %s can only contains dots and numbers.", ver_name.c_str()); return Status::InvalidArgument(buffer); } } version[version_index] = current_number; if (has_dot && current_digit_count == 0) { snprintf(buffer, sizeof(buffer) - 1, "A valid %s must have at least one digit after each dot.", ver_name.c_str()); return Status::InvalidArgument(buffer); } return Status::OK(); } Status RocksDBOptionsParser::EndSection( const ConfigOptions& config_options, const OptionSection section, const std::string& section_title, const std::string& section_arg, const std::unordered_map& opt_map) { Status s; if (section == kOptionSectionDBOptions) { s = GetDBOptionsFromMap(config_options, DBOptions(), opt_map, &db_opt_); if (!s.ok()) { return s; } db_opt_map_ = opt_map; } else if (section == kOptionSectionCFOptions) { // This condition should be ensured earlier in ParseSection // so we make an assertion here. assert(GetCFOptions(section_arg) == nullptr); cf_names_.emplace_back(section_arg); cf_opts_.emplace_back(); s = GetColumnFamilyOptionsFromMap(config_options, ColumnFamilyOptions(), opt_map, &cf_opts_.back()); if (!s.ok()) { return s; } // keep the parsed string. cf_opt_maps_.emplace_back(opt_map); } else if (section == kOptionSectionTableOptions) { assert(GetCFOptions(section_arg) != nullptr); auto* cf_opt = GetCFOptionsImpl(section_arg); if (cf_opt == nullptr) { return Status::InvalidArgument( "The specified column family must be defined before the " "TableOptions section:", section_arg); } // Ignore error as table factory deserialization is optional s = GetTableFactoryFromMap( config_options, section_title.substr( opt_section_titles[kOptionSectionTableOptions].size()), opt_map, &(cf_opt->table_factory)); if (!s.ok()) { return s; } } else if (section == kOptionSectionVersion) { for (const auto& pair : opt_map) { if (pair.first == "rocksdb_version") { s = ParseVersionNumber(pair.first, pair.second, 3, db_version); if (!s.ok()) { return s; } } else if (pair.first == "options_file_version") { s = ParseVersionNumber(pair.first, pair.second, 2, opt_file_version); if (!s.ok()) { return s; } if (opt_file_version[0] < 1) { return Status::InvalidArgument( "A valid options_file_version must be at least 1."); } } } } return Status::OK(); } Status RocksDBOptionsParser::ValidityCheck() { if (!has_db_options_) { return Status::Corruption( "A RocksDB Option file must have a single DBOptions section"); } if (!has_default_cf_options_) { return Status::Corruption( "A RocksDB Option file must have a single CFOptions:default section"); } return Status::OK(); } std::string RocksDBOptionsParser::TrimAndRemoveComment(const std::string& line, bool trim_only) { size_t start = 0; size_t end = line.size(); // we only support "#" style comment if (!trim_only) { size_t search_pos = 0; while (search_pos < line.size()) { size_t comment_pos = line.find('#', search_pos); if (comment_pos == std::string::npos) { break; } if (comment_pos == 0 || line[comment_pos - 1] != '\\') { end = comment_pos; break; } search_pos = comment_pos + 1; } } while (start < end && isspace(line[start]) != 0) { ++start; } // start < end implies end > 0. while (start < end && isspace(line[end - 1]) != 0) { --end; } if (start < end) { return line.substr(start, end - start); } return ""; } namespace { bool AreEqualDoubles(const double a, const double b) { return (fabs(a - b) < 0.00001); } } // namespace bool AreEqualOptions( const char* opt1, const char* opt2, const OptionTypeInfo& type_info, const std::string& opt_name, const std::unordered_map* opt_map) { const char* offset1 = opt1 + type_info.offset; const char* offset2 = opt2 + type_info.offset; switch (type_info.type) { case OptionType::kBoolean: return (*reinterpret_cast(offset1) == *reinterpret_cast(offset2)); case OptionType::kInt: return (*reinterpret_cast(offset1) == *reinterpret_cast(offset2)); case OptionType::kInt32T: return (*reinterpret_cast(offset1) == *reinterpret_cast(offset2)); case OptionType::kInt64T: { int64_t v1, v2; GetUnaligned(reinterpret_cast(offset1), &v1); GetUnaligned(reinterpret_cast(offset2), &v2); return (v1 == v2); } case OptionType::kVectorInt: return (*reinterpret_cast*>(offset1) == *reinterpret_cast*>(offset2)); case OptionType::kUInt: return (*reinterpret_cast(offset1) == *reinterpret_cast(offset2)); case OptionType::kUInt32T: return (*reinterpret_cast(offset1) == *reinterpret_cast(offset2)); case OptionType::kUInt64T: { uint64_t v1, v2; GetUnaligned(reinterpret_cast(offset1), &v1); GetUnaligned(reinterpret_cast(offset2), &v2); return (v1 == v2); } case OptionType::kSizeT: { size_t v1, v2; GetUnaligned(reinterpret_cast(offset1), &v1); GetUnaligned(reinterpret_cast(offset2), &v2); return (v1 == v2); } case OptionType::kString: return (*reinterpret_cast(offset1) == *reinterpret_cast(offset2)); case OptionType::kDouble: return AreEqualDoubles(*reinterpret_cast(offset1), *reinterpret_cast(offset2)); case OptionType::kCompactionStyle: return (*reinterpret_cast(offset1) == *reinterpret_cast(offset2)); case OptionType::kCompactionPri: return (*reinterpret_cast(offset1) == *reinterpret_cast(offset2)); case OptionType::kCompressionType: return (*reinterpret_cast(offset1) == *reinterpret_cast(offset2)); case OptionType::kVectorCompressionType: { const auto* vec1 = reinterpret_cast*>(offset1); const auto* vec2 = reinterpret_cast*>(offset2); return (*vec1 == *vec2); } case OptionType::kChecksumType: return (*reinterpret_cast(offset1) == *reinterpret_cast(offset2)); case OptionType::kBlockBasedTableIndexType: return ( *reinterpret_cast( offset1) == *reinterpret_cast(offset2)); case OptionType::kBlockBasedTableDataBlockIndexType: return ( *reinterpret_cast( offset1) == *reinterpret_cast( offset2)); case OptionType::kBlockBasedTableIndexShorteningMode: return ( *reinterpret_cast( offset1) == *reinterpret_cast( offset2)); case OptionType::kWALRecoveryMode: return (*reinterpret_cast(offset1) == *reinterpret_cast(offset2)); case OptionType::kAccessHint: return (*reinterpret_cast(offset1) == *reinterpret_cast(offset2)); case OptionType::kInfoLogLevel: return (*reinterpret_cast(offset1) == *reinterpret_cast(offset2)); case OptionType::kCompactionOptionsFIFO: { CompactionOptionsFIFO lhs = *reinterpret_cast(offset1); CompactionOptionsFIFO rhs = *reinterpret_cast(offset2); if (lhs.max_table_files_size == rhs.max_table_files_size && lhs.allow_compaction == rhs.allow_compaction) { return true; } return false; } case OptionType::kCompactionOptionsUniversal: { CompactionOptionsUniversal lhs = *reinterpret_cast(offset1); CompactionOptionsUniversal rhs = *reinterpret_cast(offset2); if (lhs.size_ratio == rhs.size_ratio && lhs.min_merge_width == rhs.min_merge_width && lhs.max_merge_width == rhs.max_merge_width && lhs.max_size_amplification_percent == rhs.max_size_amplification_percent && lhs.compression_size_percent == rhs.compression_size_percent && lhs.stop_style == rhs.stop_style && lhs.allow_trivial_move == rhs.allow_trivial_move) { return true; } return false; } default: if (type_info.IsByName()) { std::string value1; bool result = SerializeSingleOptionHelper(offset1, type_info.type, &value1); if (result == false) { return false; } if (opt_map == nullptr) { return true; } auto iter = opt_map->find(opt_name); if (iter == opt_map->end()) { return true; } else { if (type_info.IsEnabled(OptionVerificationType::kByNameAllowNull)) { if (iter->second == kNullptrString || value1 == kNullptrString) { return true; } } else if (type_info.IsEnabled( OptionVerificationType::kByNameAllowFromNull)) { if (iter->second == kNullptrString) { return true; } } return (value1 == iter->second); } } return false; } } Status RocksDBOptionsParser::VerifyRocksDBOptionsFromFile( const ConfigOptions& config_options, const DBOptions& db_opt, const std::vector& cf_names, const std::vector& cf_opts, const std::string& file_name, FileSystem* fs) { RocksDBOptionsParser parser; Status s = parser.Parse(config_options, file_name, fs); if (!s.ok()) { return s; } // Verify DBOptions s = VerifyDBOptions(config_options, db_opt, *parser.db_opt(), parser.db_opt_map()); if (!s.ok()) { return s; } // Verify ColumnFamily Name if (cf_names.size() != parser.cf_names()->size()) { if (config_options.sanity_level >= ConfigOptions::kSanityLevelLooselyCompatible) { return Status::InvalidArgument( "[RocksDBOptionParser Error] The persisted options does not have " "the same number of column family names as the db instance."); } else if (cf_opts.size() > parser.cf_opts()->size()) { return Status::InvalidArgument( "[RocksDBOptionsParser Error]", "The persisted options file has less number of column family " "names than that of the specified one."); } } for (size_t i = 0; i < cf_names.size(); ++i) { if (cf_names[i] != parser.cf_names()->at(i)) { return Status::InvalidArgument( "[RocksDBOptionParser Error] The persisted options and the db" "instance does not have the same name for column family ", ToString(i)); } } // Verify Column Family Options if (cf_opts.size() != parser.cf_opts()->size()) { if (config_options.sanity_level >= ConfigOptions::kSanityLevelLooselyCompatible) { return Status::InvalidArgument( "[RocksDBOptionsParser Error]", "The persisted options does not have the same number of " "column families as the db instance."); } else if (cf_opts.size() > parser.cf_opts()->size()) { return Status::InvalidArgument( "[RocksDBOptionsParser Error]", "The persisted options file has less number of column families " "than that of the specified number."); } } for (size_t i = 0; i < cf_opts.size(); ++i) { s = VerifyCFOptions(config_options, cf_opts[i], parser.cf_opts()->at(i), &(parser.cf_opt_maps()->at(i))); if (!s.ok()) { return s; } s = VerifyTableFactory(config_options, cf_opts[i].table_factory.get(), parser.cf_opts()->at(i).table_factory.get()); if (!s.ok()) { return s; } } return Status::OK(); } Status RocksDBOptionsParser::VerifyDBOptions( const ConfigOptions& config_options, const DBOptions& base_opt, const DBOptions& persisted_opt, const std::unordered_map* /*opt_map*/) { for (const auto& pair : db_options_type_info) { if (pair.second.IsDeprecated()) { // We skip checking deprecated variables as they might // contain random values since they might not be initialized continue; } if (DBOptionSanityCheckLevel(pair.first) <= config_options.sanity_level) { if (!AreEqualOptions(reinterpret_cast(&base_opt), reinterpret_cast(&persisted_opt), pair.second, pair.first, nullptr)) { constexpr size_t kBufferSize = 2048; char buffer[kBufferSize]; std::string base_value; std::string persisted_value; SerializeSingleOptionHelper( reinterpret_cast(&base_opt) + pair.second.offset, pair.second.type, &base_value); SerializeSingleOptionHelper( reinterpret_cast(&persisted_opt) + pair.second.offset, pair.second.type, &persisted_value); snprintf(buffer, sizeof(buffer), "[RocksDBOptionsParser]: " "failed the verification on DBOptions::%s --- " "The specified one is %s while the persisted one is %s.\n", pair.first.c_str(), base_value.c_str(), persisted_value.c_str()); return Status::InvalidArgument(Slice(buffer, strlen(buffer))); } } } return Status::OK(); } Status RocksDBOptionsParser::VerifyCFOptions( const ConfigOptions& config_options, const ColumnFamilyOptions& base_opt, const ColumnFamilyOptions& persisted_opt, const std::unordered_map* persisted_opt_map) { for (const auto& pair : cf_options_type_info) { if (pair.second.IsDeprecated()) { // We skip checking deprecated variables as they might // contain random values since they might not be initialized continue; } if (CFOptionSanityCheckLevel(pair.first) <= config_options.sanity_level) { if (!AreEqualOptions(reinterpret_cast(&base_opt), reinterpret_cast(&persisted_opt), pair.second, pair.first, persisted_opt_map)) { constexpr size_t kBufferSize = 2048; char buffer[kBufferSize]; std::string base_value; std::string persisted_value; SerializeSingleOptionHelper( reinterpret_cast(&base_opt) + pair.second.offset, pair.second.type, &base_value); SerializeSingleOptionHelper( reinterpret_cast(&persisted_opt) + pair.second.offset, pair.second.type, &persisted_value); snprintf(buffer, sizeof(buffer), "[RocksDBOptionsParser]: " "failed the verification on ColumnFamilyOptions::%s --- " "The specified one is %s while the persisted one is %s.\n", pair.first.c_str(), base_value.c_str(), persisted_value.c_str()); return Status::InvalidArgument(Slice(buffer, sizeof(buffer))); } } } return Status::OK(); } Status RocksDBOptionsParser::VerifyTableFactory( const ConfigOptions& config_options, const TableFactory* base_tf, const TableFactory* file_tf) { if (base_tf && file_tf) { if (config_options.sanity_level > ConfigOptions::kSanityLevelNone && std::string(base_tf->Name()) != std::string(file_tf->Name())) { return Status::Corruption( "[RocksDBOptionsParser]: " "failed the verification on TableFactory->Name()"); } if (base_tf->Name() == BlockBasedTableFactory::kName) { return VerifyBlockBasedTableFactory( config_options, static_cast_with_check(base_tf), static_cast_with_check(file_tf)); } // TODO(yhchiang): add checks for other table factory types } else { // TODO(yhchiang): further support sanity check here } return Status::OK(); } } // namespace ROCKSDB_NAMESPACE #endif // !ROCKSDB_LITE