// 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 "rocksdb/utilities/ldb_cmd.h" #ifndef __STDC_FORMAT_MACROS #define __STDC_FORMAT_MACROS #endif #include #include "db/db_impl.h" #include "db/dbformat.h" #include "db/log_reader.h" #include "db/write_batch_internal.h" #include "port/dirent.h" #include "rocksdb/cache.h" #include "rocksdb/table_properties.h" #include "rocksdb/utilities/backupable_db.h" #include "rocksdb/utilities/checkpoint.h" #include "rocksdb/utilities/debug.h" #include "rocksdb/utilities/object_registry.h" #include "rocksdb/utilities/options_util.h" #include "rocksdb/write_batch.h" #include "rocksdb/write_buffer_manager.h" #include "table/scoped_arena_iterator.h" #include "tools/ldb_cmd_impl.h" #include "tools/sst_dump_tool_imp.h" #include "util/cast_util.h" #include "util/coding.h" #include "util/filename.h" #include "util/stderr_logger.h" #include "util/string_util.h" #include "utilities/ttl/db_ttl_impl.h" #include #include #include #include #include #include #include #include #include namespace rocksdb { const std::string LDBCommand::ARG_DB = "db"; const std::string LDBCommand::ARG_PATH = "path"; const std::string LDBCommand::ARG_HEX = "hex"; const std::string LDBCommand::ARG_KEY_HEX = "key_hex"; const std::string LDBCommand::ARG_VALUE_HEX = "value_hex"; const std::string LDBCommand::ARG_CF_NAME = "column_family"; const std::string LDBCommand::ARG_TTL = "ttl"; const std::string LDBCommand::ARG_TTL_START = "start_time"; const std::string LDBCommand::ARG_TTL_END = "end_time"; const std::string LDBCommand::ARG_TIMESTAMP = "timestamp"; const std::string LDBCommand::ARG_TRY_LOAD_OPTIONS = "try_load_options"; const std::string LDBCommand::ARG_IGNORE_UNKNOWN_OPTIONS = "ignore_unknown_options"; const std::string LDBCommand::ARG_FROM = "from"; const std::string LDBCommand::ARG_TO = "to"; const std::string LDBCommand::ARG_MAX_KEYS = "max_keys"; const std::string LDBCommand::ARG_BLOOM_BITS = "bloom_bits"; const std::string LDBCommand::ARG_FIX_PREFIX_LEN = "fix_prefix_len"; const std::string LDBCommand::ARG_COMPRESSION_TYPE = "compression_type"; const std::string LDBCommand::ARG_COMPRESSION_MAX_DICT_BYTES = "compression_max_dict_bytes"; const std::string LDBCommand::ARG_BLOCK_SIZE = "block_size"; const std::string LDBCommand::ARG_AUTO_COMPACTION = "auto_compaction"; const std::string LDBCommand::ARG_DB_WRITE_BUFFER_SIZE = "db_write_buffer_size"; const std::string LDBCommand::ARG_WRITE_BUFFER_SIZE = "write_buffer_size"; const std::string LDBCommand::ARG_FILE_SIZE = "file_size"; const std::string LDBCommand::ARG_CREATE_IF_MISSING = "create_if_missing"; const std::string LDBCommand::ARG_NO_VALUE = "no_value"; const char* LDBCommand::DELIM = " ==> "; namespace { void DumpWalFile(std::string wal_file, bool print_header, bool print_values, bool is_write_committed, LDBCommandExecuteResult* exec_state); void DumpSstFile(std::string filename, bool output_hex, bool show_properties); }; LDBCommand* LDBCommand::InitFromCmdLineArgs( int argc, char** argv, const Options& options, const LDBOptions& ldb_options, const std::vector* column_families) { std::vector args; for (int i = 1; i < argc; i++) { args.push_back(argv[i]); } return InitFromCmdLineArgs(args, options, ldb_options, column_families, SelectCommand); } /** * Parse the command-line arguments and create the appropriate LDBCommand2 * instance. * The command line arguments must be in the following format: * ./ldb --db=PATH_TO_DB [--commonOpt1=commonOpt1Val] .. * COMMAND ... [-cmdSpecificOpt1=cmdSpecificOpt1Val] .. * This is similar to the command line format used by HBaseClientTool. * Command name is not included in args. * Returns nullptr if the command-line cannot be parsed. */ LDBCommand* LDBCommand::InitFromCmdLineArgs( const std::vector& args, const Options& options, const LDBOptions& ldb_options, const std::vector* /*column_families*/, const std::function& selector) { // --x=y command line arguments are added as x->y map entries in // parsed_params.option_map. // // Command-line arguments of the form --hex end up in this array as hex to // parsed_params.flags ParsedParams parsed_params; // Everything other than option_map and flags. Represents commands // and their parameters. For eg: put key1 value1 go into this vector. std::vector cmdTokens; const std::string OPTION_PREFIX = "--"; for (const auto& arg : args) { if (arg[0] == '-' && arg[1] == '-'){ std::vector splits = StringSplit(arg, '='); if (splits.size() == 2) { std::string optionKey = splits[0].substr(OPTION_PREFIX.size()); parsed_params.option_map[optionKey] = splits[1]; } else { std::string optionKey = splits[0].substr(OPTION_PREFIX.size()); parsed_params.flags.push_back(optionKey); } } else { cmdTokens.push_back(arg); } } if (cmdTokens.size() < 1) { fprintf(stderr, "Command not specified!"); return nullptr; } parsed_params.cmd = cmdTokens[0]; parsed_params.cmd_params.assign(cmdTokens.begin() + 1, cmdTokens.end()); LDBCommand* command = selector(parsed_params); if (command) { command->SetDBOptions(options); command->SetLDBOptions(ldb_options); } return command; } LDBCommand* LDBCommand::SelectCommand(const ParsedParams& parsed_params) { if (parsed_params.cmd == GetCommand::Name()) { return new GetCommand(parsed_params.cmd_params, parsed_params.option_map, parsed_params.flags); } else if (parsed_params.cmd == PutCommand::Name()) { return new PutCommand(parsed_params.cmd_params, parsed_params.option_map, parsed_params.flags); } else if (parsed_params.cmd == BatchPutCommand::Name()) { return new BatchPutCommand(parsed_params.cmd_params, parsed_params.option_map, parsed_params.flags); } else if (parsed_params.cmd == ScanCommand::Name()) { return new ScanCommand(parsed_params.cmd_params, parsed_params.option_map, parsed_params.flags); } else if (parsed_params.cmd == DeleteCommand::Name()) { return new DeleteCommand(parsed_params.cmd_params, parsed_params.option_map, parsed_params.flags); } else if (parsed_params.cmd == DeleteRangeCommand::Name()) { return new DeleteRangeCommand(parsed_params.cmd_params, parsed_params.option_map, parsed_params.flags); } else if (parsed_params.cmd == ApproxSizeCommand::Name()) { return new ApproxSizeCommand(parsed_params.cmd_params, parsed_params.option_map, parsed_params.flags); } else if (parsed_params.cmd == DBQuerierCommand::Name()) { return new DBQuerierCommand(parsed_params.cmd_params, parsed_params.option_map, parsed_params.flags); } else if (parsed_params.cmd == CompactorCommand::Name()) { return new CompactorCommand(parsed_params.cmd_params, parsed_params.option_map, parsed_params.flags); } else if (parsed_params.cmd == WALDumperCommand::Name()) { return new WALDumperCommand(parsed_params.cmd_params, parsed_params.option_map, parsed_params.flags); } else if (parsed_params.cmd == ReduceDBLevelsCommand::Name()) { return new ReduceDBLevelsCommand(parsed_params.cmd_params, parsed_params.option_map, parsed_params.flags); } else if (parsed_params.cmd == ChangeCompactionStyleCommand::Name()) { return new ChangeCompactionStyleCommand(parsed_params.cmd_params, parsed_params.option_map, parsed_params.flags); } else if (parsed_params.cmd == DBDumperCommand::Name()) { return new DBDumperCommand(parsed_params.cmd_params, parsed_params.option_map, parsed_params.flags); } else if (parsed_params.cmd == DBLoaderCommand::Name()) { return new DBLoaderCommand(parsed_params.cmd_params, parsed_params.option_map, parsed_params.flags); } else if (parsed_params.cmd == ManifestDumpCommand::Name()) { return new ManifestDumpCommand(parsed_params.cmd_params, parsed_params.option_map, parsed_params.flags); } else if (parsed_params.cmd == ListColumnFamiliesCommand::Name()) { return new ListColumnFamiliesCommand(parsed_params.cmd_params, parsed_params.option_map, parsed_params.flags); } else if (parsed_params.cmd == CreateColumnFamilyCommand::Name()) { return new CreateColumnFamilyCommand(parsed_params.cmd_params, parsed_params.option_map, parsed_params.flags); } else if (parsed_params.cmd == DBFileDumperCommand::Name()) { return new DBFileDumperCommand(parsed_params.cmd_params, parsed_params.option_map, parsed_params.flags); } else if (parsed_params.cmd == InternalDumpCommand::Name()) { return new InternalDumpCommand(parsed_params.cmd_params, parsed_params.option_map, parsed_params.flags); } else if (parsed_params.cmd == CheckConsistencyCommand::Name()) { return new CheckConsistencyCommand(parsed_params.cmd_params, parsed_params.option_map, parsed_params.flags); } else if (parsed_params.cmd == CheckPointCommand::Name()) { return new CheckPointCommand(parsed_params.cmd_params, parsed_params.option_map, parsed_params.flags); } else if (parsed_params.cmd == RepairCommand::Name()) { return new RepairCommand(parsed_params.cmd_params, parsed_params.option_map, parsed_params.flags); } else if (parsed_params.cmd == BackupCommand::Name()) { return new BackupCommand(parsed_params.cmd_params, parsed_params.option_map, parsed_params.flags); } else if (parsed_params.cmd == RestoreCommand::Name()) { return new RestoreCommand(parsed_params.cmd_params, parsed_params.option_map, parsed_params.flags); } else if (parsed_params.cmd == WriteExternalSstFilesCommand::Name()) { return new WriteExternalSstFilesCommand(parsed_params.cmd_params, parsed_params.option_map, parsed_params.flags); } else if (parsed_params.cmd == IngestExternalSstFilesCommand::Name()) { return new IngestExternalSstFilesCommand(parsed_params.cmd_params, parsed_params.option_map, parsed_params.flags); } return nullptr; } /* Run the command, and return the execute result. */ void LDBCommand::Run() { if (!exec_state_.IsNotStarted()) { return; } if (db_ == nullptr && !NoDBOpen()) { OpenDB(); if (exec_state_.IsFailed() && try_load_options_) { // We don't always return if there is a failure because a WAL file or // manifest file can be given to "dump" command so we should continue. // --try_load_options is not valid in those cases. return; } } // We'll intentionally proceed even if the DB can't be opened because users // can also specify a filename, not just a directory. DoCommand(); if (exec_state_.IsNotStarted()) { exec_state_ = LDBCommandExecuteResult::Succeed(""); } if (db_ != nullptr) { CloseDB(); } } LDBCommand::LDBCommand(const std::map& options, const std::vector& flags, bool is_read_only, const std::vector& valid_cmd_line_options) : db_(nullptr), db_ttl_(nullptr), is_read_only_(is_read_only), is_key_hex_(false), is_value_hex_(false), is_db_ttl_(false), timestamp_(false), try_load_options_(false), ignore_unknown_options_(false), create_if_missing_(false), option_map_(options), flags_(flags), valid_cmd_line_options_(valid_cmd_line_options) { std::map::const_iterator itr = options.find(ARG_DB); if (itr != options.end()) { db_path_ = itr->second; } itr = options.find(ARG_CF_NAME); if (itr != options.end()) { column_family_name_ = itr->second; } else { column_family_name_ = kDefaultColumnFamilyName; } is_key_hex_ = IsKeyHex(options, flags); is_value_hex_ = IsValueHex(options, flags); is_db_ttl_ = IsFlagPresent(flags, ARG_TTL); timestamp_ = IsFlagPresent(flags, ARG_TIMESTAMP); try_load_options_ = IsFlagPresent(flags, ARG_TRY_LOAD_OPTIONS); ignore_unknown_options_ = IsFlagPresent(flags, ARG_IGNORE_UNKNOWN_OPTIONS); } void LDBCommand::OpenDB() { if (!create_if_missing_ && try_load_options_) { Status s = LoadLatestOptions(db_path_, Env::Default(), &options_, &column_families_, ignore_unknown_options_); if (!s.ok() && !s.IsNotFound()) { // Option file exists but load option file error. std::string msg = s.ToString(); exec_state_ = LDBCommandExecuteResult::Failed(msg); db_ = nullptr; return; } } options_ = PrepareOptionsForOpenDB(); if (!exec_state_.IsNotStarted()) { return; } // Open the DB. Status st; std::vector handles_opened; if (is_db_ttl_) { // ldb doesn't yet support TTL DB with multiple column families if (!column_family_name_.empty() || !column_families_.empty()) { exec_state_ = LDBCommandExecuteResult::Failed( "ldb doesn't support TTL DB with multiple column families"); } if (is_read_only_) { st = DBWithTTL::Open(options_, db_path_, &db_ttl_, 0, true); } else { st = DBWithTTL::Open(options_, db_path_, &db_ttl_); } db_ = db_ttl_; } else { if (column_families_.empty()) { // Try to figure out column family lists std::vector cf_list; st = DB::ListColumnFamilies(DBOptions(), db_path_, &cf_list); // There is possible the DB doesn't exist yet, for "create if not // "existing case". The failure is ignored here. We rely on DB::Open() // to give us the correct error message for problem with opening // existing DB. if (st.ok() && cf_list.size() > 1) { // Ignore single column family DB. for (auto cf_name : cf_list) { column_families_.emplace_back(cf_name, options_); } } } if (is_read_only_) { if (column_families_.empty()) { st = DB::OpenForReadOnly(options_, db_path_, &db_); } else { st = DB::OpenForReadOnly(options_, db_path_, column_families_, &handles_opened, &db_); } } else { if (column_families_.empty()) { st = DB::Open(options_, db_path_, &db_); } else { st = DB::Open(options_, db_path_, column_families_, &handles_opened, &db_); } } } if (!st.ok()) { std::string msg = st.ToString(); exec_state_ = LDBCommandExecuteResult::Failed(msg); } else if (!handles_opened.empty()) { assert(handles_opened.size() == column_families_.size()); bool found_cf_name = false; for (size_t i = 0; i < handles_opened.size(); i++) { cf_handles_[column_families_[i].name] = handles_opened[i]; if (column_family_name_ == column_families_[i].name) { found_cf_name = true; } } if (!found_cf_name) { exec_state_ = LDBCommandExecuteResult::Failed( "Non-existing column family " + column_family_name_); CloseDB(); } } else { // We successfully opened DB in single column family mode. assert(column_families_.empty()); if (column_family_name_ != kDefaultColumnFamilyName) { exec_state_ = LDBCommandExecuteResult::Failed( "Non-existing column family " + column_family_name_); CloseDB(); } } } void LDBCommand::CloseDB() { if (db_ != nullptr) { for (auto& pair : cf_handles_) { delete pair.second; } delete db_; db_ = nullptr; } } ColumnFamilyHandle* LDBCommand::GetCfHandle() { if (!cf_handles_.empty()) { auto it = cf_handles_.find(column_family_name_); if (it == cf_handles_.end()) { exec_state_ = LDBCommandExecuteResult::Failed( "Cannot find column family " + column_family_name_); } else { return it->second; } } return db_->DefaultColumnFamily(); } std::vector LDBCommand::BuildCmdLineOptions( std::vector options) { std::vector ret = {ARG_DB, ARG_BLOOM_BITS, ARG_BLOCK_SIZE, ARG_AUTO_COMPACTION, ARG_COMPRESSION_TYPE, ARG_COMPRESSION_MAX_DICT_BYTES, ARG_WRITE_BUFFER_SIZE, ARG_FILE_SIZE, ARG_FIX_PREFIX_LEN, ARG_TRY_LOAD_OPTIONS, ARG_IGNORE_UNKNOWN_OPTIONS, ARG_CF_NAME}; ret.insert(ret.end(), options.begin(), options.end()); return ret; } /** * Parses the specific integer option and fills in the value. * Returns true if the option is found. * Returns false if the option is not found or if there is an error parsing the * value. If there is an error, the specified exec_state is also * updated. */ bool LDBCommand::ParseIntOption( const std::map& /*options*/, const std::string& option, int& value, LDBCommandExecuteResult& exec_state) { std::map::const_iterator itr = option_map_.find(option); if (itr != option_map_.end()) { try { #if defined(CYGWIN) value = strtol(itr->second.c_str(), 0, 10); #else value = std::stoi(itr->second); #endif return true; } catch (const std::invalid_argument&) { exec_state = LDBCommandExecuteResult::Failed(option + " has an invalid value."); } catch (const std::out_of_range&) { exec_state = LDBCommandExecuteResult::Failed( option + " has a value out-of-range."); } } return false; } /** * Parses the specified option and fills in the value. * Returns true if the option is found. * Returns false otherwise. */ bool LDBCommand::ParseStringOption( const std::map& /*options*/, const std::string& option, std::string* value) { auto itr = option_map_.find(option); if (itr != option_map_.end()) { *value = itr->second; return true; } return false; } Options LDBCommand::PrepareOptionsForOpenDB() { ColumnFamilyOptions* cf_opts; auto column_families_iter = std::find_if(column_families_.begin(), column_families_.end(), [this](const ColumnFamilyDescriptor& cf_desc) { return cf_desc.name == column_family_name_; }); if (column_families_iter != column_families_.end()) { cf_opts = &column_families_iter->options; } else { cf_opts = static_cast(&options_); } DBOptions* db_opts = static_cast(&options_); db_opts->create_if_missing = false; std::map::const_iterator itr; BlockBasedTableOptions table_options; bool use_table_options = false; int bits; if (ParseIntOption(option_map_, ARG_BLOOM_BITS, bits, exec_state_)) { if (bits > 0) { use_table_options = true; table_options.filter_policy.reset(NewBloomFilterPolicy(bits)); } else { exec_state_ = LDBCommandExecuteResult::Failed(ARG_BLOOM_BITS + " must be > 0."); } } int block_size; if (ParseIntOption(option_map_, ARG_BLOCK_SIZE, block_size, exec_state_)) { if (block_size > 0) { use_table_options = true; table_options.block_size = block_size; } else { exec_state_ = LDBCommandExecuteResult::Failed(ARG_BLOCK_SIZE + " must be > 0."); } } if (use_table_options) { cf_opts->table_factory.reset(NewBlockBasedTableFactory(table_options)); } itr = option_map_.find(ARG_AUTO_COMPACTION); if (itr != option_map_.end()) { cf_opts->disable_auto_compactions = !StringToBool(itr->second); } itr = option_map_.find(ARG_COMPRESSION_TYPE); if (itr != option_map_.end()) { std::string comp = itr->second; if (comp == "no") { cf_opts->compression = kNoCompression; } else if (comp == "snappy") { cf_opts->compression = kSnappyCompression; } else if (comp == "zlib") { cf_opts->compression = kZlibCompression; } else if (comp == "bzip2") { cf_opts->compression = kBZip2Compression; } else if (comp == "lz4") { cf_opts->compression = kLZ4Compression; } else if (comp == "lz4hc") { cf_opts->compression = kLZ4HCCompression; } else if (comp == "xpress") { cf_opts->compression = kXpressCompression; } else if (comp == "zstd") { cf_opts->compression = kZSTD; } else { // Unknown compression. exec_state_ = LDBCommandExecuteResult::Failed("Unknown compression level: " + comp); } } int compression_max_dict_bytes; if (ParseIntOption(option_map_, ARG_COMPRESSION_MAX_DICT_BYTES, compression_max_dict_bytes, exec_state_)) { if (compression_max_dict_bytes >= 0) { cf_opts->compression_opts.max_dict_bytes = compression_max_dict_bytes; } else { exec_state_ = LDBCommandExecuteResult::Failed( ARG_COMPRESSION_MAX_DICT_BYTES + " must be >= 0."); } } int db_write_buffer_size; if (ParseIntOption(option_map_, ARG_DB_WRITE_BUFFER_SIZE, db_write_buffer_size, exec_state_)) { if (db_write_buffer_size >= 0) { db_opts->db_write_buffer_size = db_write_buffer_size; } else { exec_state_ = LDBCommandExecuteResult::Failed(ARG_DB_WRITE_BUFFER_SIZE + " must be >= 0."); } } int write_buffer_size; if (ParseIntOption(option_map_, ARG_WRITE_BUFFER_SIZE, write_buffer_size, exec_state_)) { if (write_buffer_size > 0) { cf_opts->write_buffer_size = write_buffer_size; } else { exec_state_ = LDBCommandExecuteResult::Failed(ARG_WRITE_BUFFER_SIZE + " must be > 0."); } } int file_size; if (ParseIntOption(option_map_, ARG_FILE_SIZE, file_size, exec_state_)) { if (file_size > 0) { cf_opts->target_file_size_base = file_size; } else { exec_state_ = LDBCommandExecuteResult::Failed(ARG_FILE_SIZE + " must be > 0."); } } if (db_opts->db_paths.size() == 0) { db_opts->db_paths.emplace_back(db_path_, std::numeric_limits::max()); } int fix_prefix_len; if (ParseIntOption(option_map_, ARG_FIX_PREFIX_LEN, fix_prefix_len, exec_state_)) { if (fix_prefix_len > 0) { cf_opts->prefix_extractor.reset( NewFixedPrefixTransform(static_cast(fix_prefix_len))); } else { exec_state_ = LDBCommandExecuteResult::Failed(ARG_FIX_PREFIX_LEN + " must be > 0."); } } // TODO(ajkr): this return value doesn't reflect the CF options changed, so // subcommands that rely on this won't see the effect of CF-related CLI args. // Such subcommands need to be changed to properly support CFs. return options_; } bool LDBCommand::ParseKeyValue(const std::string& line, std::string* key, std::string* value, bool is_key_hex, bool is_value_hex) { size_t pos = line.find(DELIM); if (pos != std::string::npos) { *key = line.substr(0, pos); *value = line.substr(pos + strlen(DELIM)); if (is_key_hex) { *key = HexToString(*key); } if (is_value_hex) { *value = HexToString(*value); } return true; } else { return false; } } /** * Make sure that ONLY the command-line options and flags expected by this * command are specified on the command-line. Extraneous options are usually * the result of user error. * Returns true if all checks pass. Else returns false, and prints an * appropriate error msg to stderr. */ bool LDBCommand::ValidateCmdLineOptions() { for (std::map::const_iterator itr = option_map_.begin(); itr != option_map_.end(); ++itr) { if (std::find(valid_cmd_line_options_.begin(), valid_cmd_line_options_.end(), itr->first) == valid_cmd_line_options_.end()) { fprintf(stderr, "Invalid command-line option %s\n", itr->first.c_str()); return false; } } for (std::vector::const_iterator itr = flags_.begin(); itr != flags_.end(); ++itr) { if (std::find(valid_cmd_line_options_.begin(), valid_cmd_line_options_.end(), *itr) == valid_cmd_line_options_.end()) { fprintf(stderr, "Invalid command-line flag %s\n", itr->c_str()); return false; } } if (!NoDBOpen() && option_map_.find(ARG_DB) == option_map_.end() && option_map_.find(ARG_PATH) == option_map_.end()) { fprintf(stderr, "Either %s or %s must be specified.\n", ARG_DB.c_str(), ARG_PATH.c_str()); return false; } return true; } std::string LDBCommand::HexToString(const std::string& str) { std::string result; std::string::size_type len = str.length(); if (len < 2 || str[0] != '0' || str[1] != 'x') { fprintf(stderr, "Invalid hex input %s. Must start with 0x\n", str.c_str()); throw "Invalid hex input"; } if (!Slice(str.data() + 2, len - 2).DecodeHex(&result)) { throw "Invalid hex input"; } return result; } std::string LDBCommand::StringToHex(const std::string& str) { std::string result("0x"); result.append(Slice(str).ToString(true)); return result; } std::string LDBCommand::PrintKeyValue(const std::string& key, const std::string& value, bool is_key_hex, bool is_value_hex) { std::string result; result.append(is_key_hex ? StringToHex(key) : key); result.append(DELIM); result.append(is_value_hex ? StringToHex(value) : value); return result; } std::string LDBCommand::PrintKeyValue(const std::string& key, const std::string& value, bool is_hex) { return PrintKeyValue(key, value, is_hex, is_hex); } std::string LDBCommand::HelpRangeCmdArgs() { std::ostringstream str_stream; str_stream << " "; str_stream << "[--" << ARG_FROM << "] "; str_stream << "[--" << ARG_TO << "] "; return str_stream.str(); } bool LDBCommand::IsKeyHex(const std::map& options, const std::vector& flags) { return (IsFlagPresent(flags, ARG_HEX) || IsFlagPresent(flags, ARG_KEY_HEX) || ParseBooleanOption(options, ARG_HEX, false) || ParseBooleanOption(options, ARG_KEY_HEX, false)); } bool LDBCommand::IsValueHex(const std::map& options, const std::vector& flags) { return (IsFlagPresent(flags, ARG_HEX) || IsFlagPresent(flags, ARG_VALUE_HEX) || ParseBooleanOption(options, ARG_HEX, false) || ParseBooleanOption(options, ARG_VALUE_HEX, false)); } bool LDBCommand::ParseBooleanOption( const std::map& options, const std::string& option, bool default_val) { std::map::const_iterator itr = options.find(option); if (itr != options.end()) { std::string option_val = itr->second; return StringToBool(itr->second); } return default_val; } bool LDBCommand::StringToBool(std::string val) { std::transform(val.begin(), val.end(), val.begin(), [](char ch) -> char { return (char)::tolower(ch); }); if (val == "true") { return true; } else if (val == "false") { return false; } else { throw "Invalid value for boolean argument"; } } CompactorCommand::CompactorCommand( const std::vector& /*params*/, const std::map& options, const std::vector& flags) : LDBCommand(options, flags, false, BuildCmdLineOptions({ARG_FROM, ARG_TO, ARG_HEX, ARG_KEY_HEX, ARG_VALUE_HEX, ARG_TTL})), null_from_(true), null_to_(true) { std::map::const_iterator itr = options.find(ARG_FROM); if (itr != options.end()) { null_from_ = false; from_ = itr->second; } itr = options.find(ARG_TO); if (itr != options.end()) { null_to_ = false; to_ = itr->second; } if (is_key_hex_) { if (!null_from_) { from_ = HexToString(from_); } if (!null_to_) { to_ = HexToString(to_); } } } void CompactorCommand::Help(std::string& ret) { ret.append(" "); ret.append(CompactorCommand::Name()); ret.append(HelpRangeCmdArgs()); ret.append("\n"); } void CompactorCommand::DoCommand() { if (!db_) { assert(GetExecuteState().IsFailed()); return; } Slice* begin = nullptr; Slice* end = nullptr; if (!null_from_) { begin = new Slice(from_); } if (!null_to_) { end = new Slice(to_); } CompactRangeOptions cro; cro.bottommost_level_compaction = BottommostLevelCompaction::kForce; db_->CompactRange(cro, GetCfHandle(), begin, end); exec_state_ = LDBCommandExecuteResult::Succeed(""); delete begin; delete end; } // ---------------------------------------------------------------------------- const std::string DBLoaderCommand::ARG_DISABLE_WAL = "disable_wal"; const std::string DBLoaderCommand::ARG_BULK_LOAD = "bulk_load"; const std::string DBLoaderCommand::ARG_COMPACT = "compact"; DBLoaderCommand::DBLoaderCommand( const std::vector& /*params*/, const std::map& options, const std::vector& flags) : LDBCommand( options, flags, false, BuildCmdLineOptions({ARG_HEX, ARG_KEY_HEX, ARG_VALUE_HEX, ARG_FROM, ARG_TO, ARG_CREATE_IF_MISSING, ARG_DISABLE_WAL, ARG_BULK_LOAD, ARG_COMPACT})), disable_wal_(false), bulk_load_(false), compact_(false) { create_if_missing_ = IsFlagPresent(flags, ARG_CREATE_IF_MISSING); disable_wal_ = IsFlagPresent(flags, ARG_DISABLE_WAL); bulk_load_ = IsFlagPresent(flags, ARG_BULK_LOAD); compact_ = IsFlagPresent(flags, ARG_COMPACT); } void DBLoaderCommand::Help(std::string& ret) { ret.append(" "); ret.append(DBLoaderCommand::Name()); ret.append(" [--" + ARG_CREATE_IF_MISSING + "]"); ret.append(" [--" + ARG_DISABLE_WAL + "]"); ret.append(" [--" + ARG_BULK_LOAD + "]"); ret.append(" [--" + ARG_COMPACT + "]"); ret.append("\n"); } Options DBLoaderCommand::PrepareOptionsForOpenDB() { Options opt = LDBCommand::PrepareOptionsForOpenDB(); opt.create_if_missing = create_if_missing_; if (bulk_load_) { opt.PrepareForBulkLoad(); } return opt; } void DBLoaderCommand::DoCommand() { if (!db_) { assert(GetExecuteState().IsFailed()); return; } WriteOptions write_options; if (disable_wal_) { write_options.disableWAL = true; } int bad_lines = 0; std::string line; // prefer ifstream getline performance vs that from std::cin istream std::ifstream ifs_stdin("/dev/stdin"); std::istream* istream_p = ifs_stdin.is_open() ? &ifs_stdin : &std::cin; while (getline(*istream_p, line, '\n')) { std::string key; std::string value; if (ParseKeyValue(line, &key, &value, is_key_hex_, is_value_hex_)) { db_->Put(write_options, GetCfHandle(), Slice(key), Slice(value)); } else if (0 == line.find("Keys in range:")) { // ignore this line } else if (0 == line.find("Created bg thread 0x")) { // ignore this line } else { bad_lines ++; } } if (bad_lines > 0) { std::cout << "Warning: " << bad_lines << " bad lines ignored." << std::endl; } if (compact_) { db_->CompactRange(CompactRangeOptions(), GetCfHandle(), nullptr, nullptr); } } // ---------------------------------------------------------------------------- namespace { void DumpManifestFile(std::string file, bool verbose, bool hex, bool json) { Options options; EnvOptions sopt; std::string dbname("dummy"); std::shared_ptr tc(NewLRUCache(options.max_open_files - 10, options.table_cache_numshardbits)); // Notice we are using the default options not through SanitizeOptions(), // if VersionSet::DumpManifest() depends on any option done by // SanitizeOptions(), we need to initialize it manually. options.db_paths.emplace_back("dummy", 0); options.num_levels = 64; WriteController wc(options.delayed_write_rate); WriteBufferManager wb(options.db_write_buffer_size); ImmutableDBOptions immutable_db_options(options); VersionSet versions(dbname, &immutable_db_options, sopt, tc.get(), &wb, &wc); Status s = versions.DumpManifest(options, file, verbose, hex, json); if (!s.ok()) { printf("Error in processing file %s %s\n", file.c_str(), s.ToString().c_str()); } } } // namespace const std::string ManifestDumpCommand::ARG_VERBOSE = "verbose"; const std::string ManifestDumpCommand::ARG_JSON = "json"; const std::string ManifestDumpCommand::ARG_PATH = "path"; void ManifestDumpCommand::Help(std::string& ret) { ret.append(" "); ret.append(ManifestDumpCommand::Name()); ret.append(" [--" + ARG_VERBOSE + "]"); ret.append(" [--" + ARG_JSON + "]"); ret.append(" [--" + ARG_PATH + "=]"); ret.append("\n"); } ManifestDumpCommand::ManifestDumpCommand( const std::vector& /*params*/, const std::map& options, const std::vector& flags) : LDBCommand( options, flags, false, BuildCmdLineOptions({ARG_VERBOSE, ARG_PATH, ARG_HEX, ARG_JSON})), verbose_(false), json_(false), path_("") { verbose_ = IsFlagPresent(flags, ARG_VERBOSE); json_ = IsFlagPresent(flags, ARG_JSON); std::map::const_iterator itr = options.find(ARG_PATH); if (itr != options.end()) { path_ = itr->second; if (path_.empty()) { exec_state_ = LDBCommandExecuteResult::Failed("--path: missing pathname"); } } } void ManifestDumpCommand::DoCommand() { std::string manifestfile; if (!path_.empty()) { manifestfile = path_; } else { bool found = false; // We need to find the manifest file by searching the directory // containing the db for files of the form MANIFEST_[0-9]+ auto CloseDir = [](DIR* p) { closedir(p); }; std::unique_ptr d(opendir(db_path_.c_str()), CloseDir); if (d == nullptr) { exec_state_ = LDBCommandExecuteResult::Failed(db_path_ + " is not a directory"); return; } struct dirent* entry; while ((entry = readdir(d.get())) != nullptr) { unsigned int match; uint64_t num; if (sscanf(entry->d_name, "MANIFEST-%" PRIu64 "%n", &num, &match) && match == strlen(entry->d_name)) { if (!found) { manifestfile = db_path_ + "/" + std::string(entry->d_name); found = true; } else { exec_state_ = LDBCommandExecuteResult::Failed( "Multiple MANIFEST files found; use --path to select one"); return; } } } } if (verbose_) { printf("Processing Manifest file %s\n", manifestfile.c_str()); } DumpManifestFile(manifestfile, verbose_, is_key_hex_, json_); if (verbose_) { printf("Processing Manifest file %s done\n", manifestfile.c_str()); } } // ---------------------------------------------------------------------------- void ListColumnFamiliesCommand::Help(std::string& ret) { ret.append(" "); ret.append(ListColumnFamiliesCommand::Name()); ret.append(" full_path_to_db_directory "); ret.append("\n"); } ListColumnFamiliesCommand::ListColumnFamiliesCommand( const std::vector& params, const std::map& options, const std::vector& flags) : LDBCommand(options, flags, false, {}) { if (params.size() != 1) { exec_state_ = LDBCommandExecuteResult::Failed( "dbname must be specified for the list_column_families command"); } else { dbname_ = params[0]; } } void ListColumnFamiliesCommand::DoCommand() { std::vector column_families; Status s = DB::ListColumnFamilies(DBOptions(), dbname_, &column_families); if (!s.ok()) { printf("Error in processing db %s %s\n", dbname_.c_str(), s.ToString().c_str()); } else { printf("Column families in %s: \n{", dbname_.c_str()); bool first = true; for (auto cf : column_families) { if (!first) { printf(", "); } first = false; printf("%s", cf.c_str()); } printf("}\n"); } } void CreateColumnFamilyCommand::Help(std::string& ret) { ret.append(" "); ret.append(CreateColumnFamilyCommand::Name()); ret.append(" --db= "); ret.append("\n"); } CreateColumnFamilyCommand::CreateColumnFamilyCommand( const std::vector& params, const std::map& options, const std::vector& flags) : LDBCommand(options, flags, true, {ARG_DB}) { if (params.size() != 1) { exec_state_ = LDBCommandExecuteResult::Failed( "new column family name must be specified"); } else { new_cf_name_ = params[0]; } } void CreateColumnFamilyCommand::DoCommand() { ColumnFamilyHandle* new_cf_handle = nullptr; Status st = db_->CreateColumnFamily(options_, new_cf_name_, &new_cf_handle); if (st.ok()) { fprintf(stdout, "OK\n"); } else { exec_state_ = LDBCommandExecuteResult::Failed( "Fail to create new column family: " + st.ToString()); } delete new_cf_handle; CloseDB(); } // ---------------------------------------------------------------------------- namespace { std::string ReadableTime(int unixtime) { char time_buffer [80]; time_t rawtime = unixtime; struct tm tInfo; struct tm* timeinfo = localtime_r(&rawtime, &tInfo); assert(timeinfo == &tInfo); strftime(time_buffer, 80, "%c", timeinfo); return std::string(time_buffer); } // This function only called when it's the sane case of >1 buckets in time-range // Also called only when timekv falls between ttl_start and ttl_end provided void IncBucketCounts(std::vector& bucket_counts, int ttl_start, int time_range, int bucket_size, int timekv, int num_buckets) { #ifdef NDEBUG (void)time_range; (void)num_buckets; #endif assert(time_range > 0 && timekv >= ttl_start && bucket_size > 0 && timekv < (ttl_start + time_range) && num_buckets > 1); int bucket = (timekv - ttl_start) / bucket_size; bucket_counts[bucket]++; } void PrintBucketCounts(const std::vector& bucket_counts, int ttl_start, int ttl_end, int bucket_size, int num_buckets) { int time_point = ttl_start; for(int i = 0; i < num_buckets - 1; i++, time_point += bucket_size) { fprintf(stdout, "Keys in range %s to %s : %lu\n", ReadableTime(time_point).c_str(), ReadableTime(time_point + bucket_size).c_str(), (unsigned long)bucket_counts[i]); } fprintf(stdout, "Keys in range %s to %s : %lu\n", ReadableTime(time_point).c_str(), ReadableTime(ttl_end).c_str(), (unsigned long)bucket_counts[num_buckets - 1]); } } // namespace const std::string InternalDumpCommand::ARG_COUNT_ONLY = "count_only"; const std::string InternalDumpCommand::ARG_COUNT_DELIM = "count_delim"; const std::string InternalDumpCommand::ARG_STATS = "stats"; const std::string InternalDumpCommand::ARG_INPUT_KEY_HEX = "input_key_hex"; InternalDumpCommand::InternalDumpCommand( const std::vector& /*params*/, const std::map& options, const std::vector& flags) : LDBCommand( options, flags, true, BuildCmdLineOptions({ARG_HEX, ARG_KEY_HEX, ARG_VALUE_HEX, ARG_FROM, ARG_TO, ARG_MAX_KEYS, ARG_COUNT_ONLY, ARG_COUNT_DELIM, ARG_STATS, ARG_INPUT_KEY_HEX})), has_from_(false), has_to_(false), max_keys_(-1), delim_("."), count_only_(false), count_delim_(false), print_stats_(false), is_input_key_hex_(false) { has_from_ = ParseStringOption(options, ARG_FROM, &from_); has_to_ = ParseStringOption(options, ARG_TO, &to_); ParseIntOption(options, ARG_MAX_KEYS, max_keys_, exec_state_); std::map::const_iterator itr = options.find(ARG_COUNT_DELIM); if (itr != options.end()) { delim_ = itr->second; count_delim_ = true; // fprintf(stdout,"delim = %c\n",delim_[0]); } else { count_delim_ = IsFlagPresent(flags, ARG_COUNT_DELIM); delim_="."; } print_stats_ = IsFlagPresent(flags, ARG_STATS); count_only_ = IsFlagPresent(flags, ARG_COUNT_ONLY); is_input_key_hex_ = IsFlagPresent(flags, ARG_INPUT_KEY_HEX); if (is_input_key_hex_) { if (has_from_) { from_ = HexToString(from_); } if (has_to_) { to_ = HexToString(to_); } } } void InternalDumpCommand::Help(std::string& ret) { ret.append(" "); ret.append(InternalDumpCommand::Name()); ret.append(HelpRangeCmdArgs()); ret.append(" [--" + ARG_INPUT_KEY_HEX + "]"); ret.append(" [--" + ARG_MAX_KEYS + "=]"); ret.append(" [--" + ARG_COUNT_ONLY + "]"); ret.append(" [--" + ARG_COUNT_DELIM + "=]"); ret.append(" [--" + ARG_STATS + "]"); ret.append("\n"); } void InternalDumpCommand::DoCommand() { if (!db_) { assert(GetExecuteState().IsFailed()); return; } if (print_stats_) { std::string stats; if (db_->GetProperty(GetCfHandle(), "rocksdb.stats", &stats)) { fprintf(stdout, "%s\n", stats.c_str()); } } // Cast as DBImpl to get internal iterator std::vector key_versions; Status st = GetAllKeyVersions(db_, from_, to_, &key_versions); if (!st.ok()) { exec_state_ = LDBCommandExecuteResult::Failed(st.ToString()); return; } std::string rtype1, rtype2, row, val; rtype2 = ""; uint64_t c=0; uint64_t s1=0,s2=0; long long count = 0; for (auto& key_version : key_versions) { InternalKey ikey(key_version.user_key, key_version.sequence, static_cast(key_version.type)); if (has_to_ && ikey.user_key() == to_) { // GetAllKeyVersions() includes keys with user key `to_`, but idump has // traditionally excluded such keys. break; } ++count; int k; if (count_delim_) { rtype1 = ""; s1=0; row = ikey.Encode().ToString(); val = key_version.value; for(k=0;row[k]!='\x01' && row[k]!='\0';k++) s1++; for(k=0;val[k]!='\x01' && val[k]!='\0';k++) s1++; for(int j=0;row[j]!=delim_[0] && row[j]!='\0' && row[j]!='\x01';j++) rtype1+=row[j]; if(rtype2.compare("") && rtype2.compare(rtype1)!=0) { fprintf(stdout, "%s => count:%" PRIu64 "\tsize:%" PRIu64 "\n", rtype2.c_str(), c, s2); c=1; s2=s1; rtype2 = rtype1; } else { c++; s2+=s1; rtype2=rtype1; } } if (!count_only_ && !count_delim_) { std::string key = ikey.DebugString(is_key_hex_); std::string value = Slice(key_version.value).ToString(is_value_hex_); std::cout << key << " => " << value << "\n"; } // Terminate if maximum number of keys have been dumped if (max_keys_ > 0 && count >= max_keys_) break; } if(count_delim_) { fprintf(stdout, "%s => count:%" PRIu64 "\tsize:%" PRIu64 "\n", rtype2.c_str(), c, s2); } else { fprintf(stdout, "Internal keys in range: %lld\n", count); } } const std::string DBDumperCommand::ARG_COUNT_ONLY = "count_only"; const std::string DBDumperCommand::ARG_COUNT_DELIM = "count_delim"; const std::string DBDumperCommand::ARG_STATS = "stats"; const std::string DBDumperCommand::ARG_TTL_BUCKET = "bucket"; DBDumperCommand::DBDumperCommand( const std::vector& /*params*/, const std::map& options, const std::vector& flags) : LDBCommand(options, flags, true, BuildCmdLineOptions( {ARG_TTL, ARG_HEX, ARG_KEY_HEX, ARG_VALUE_HEX, ARG_FROM, ARG_TO, ARG_MAX_KEYS, ARG_COUNT_ONLY, ARG_COUNT_DELIM, ARG_STATS, ARG_TTL_START, ARG_TTL_END, ARG_TTL_BUCKET, ARG_TIMESTAMP, ARG_PATH})), null_from_(true), null_to_(true), max_keys_(-1), count_only_(false), count_delim_(false), print_stats_(false) { std::map::const_iterator itr = options.find(ARG_FROM); if (itr != options.end()) { null_from_ = false; from_ = itr->second; } itr = options.find(ARG_TO); if (itr != options.end()) { null_to_ = false; to_ = itr->second; } itr = options.find(ARG_MAX_KEYS); if (itr != options.end()) { try { #if defined(CYGWIN) max_keys_ = strtol(itr->second.c_str(), 0, 10); #else max_keys_ = std::stoi(itr->second); #endif } catch (const std::invalid_argument&) { exec_state_ = LDBCommandExecuteResult::Failed(ARG_MAX_KEYS + " has an invalid value"); } catch (const std::out_of_range&) { exec_state_ = LDBCommandExecuteResult::Failed( ARG_MAX_KEYS + " has a value out-of-range"); } } itr = options.find(ARG_COUNT_DELIM); if (itr != options.end()) { delim_ = itr->second; count_delim_ = true; } else { count_delim_ = IsFlagPresent(flags, ARG_COUNT_DELIM); delim_="."; } print_stats_ = IsFlagPresent(flags, ARG_STATS); count_only_ = IsFlagPresent(flags, ARG_COUNT_ONLY); if (is_key_hex_) { if (!null_from_) { from_ = HexToString(from_); } if (!null_to_) { to_ = HexToString(to_); } } itr = options.find(ARG_PATH); if (itr != options.end()) { path_ = itr->second; if (db_path_.empty()) { db_path_ = path_; } } } void DBDumperCommand::Help(std::string& ret) { ret.append(" "); ret.append(DBDumperCommand::Name()); ret.append(HelpRangeCmdArgs()); ret.append(" [--" + ARG_TTL + "]"); ret.append(" [--" + ARG_MAX_KEYS + "=]"); ret.append(" [--" + ARG_TIMESTAMP + "]"); ret.append(" [--" + ARG_COUNT_ONLY + "]"); ret.append(" [--" + ARG_COUNT_DELIM + "=]"); ret.append(" [--" + ARG_STATS + "]"); ret.append(" [--" + ARG_TTL_BUCKET + "=]"); ret.append(" [--" + ARG_TTL_START + "=:- is inclusive]"); ret.append(" [--" + ARG_TTL_END + "=:- is exclusive]"); ret.append(" [--" + ARG_PATH + "=]"); ret.append("\n"); } /** * Handles two separate cases: * * 1) --db is specified - just dump the database. * * 2) --path is specified - determine based on file extension what dumping * function to call. Please note that we intentionally use the extension * and avoid probing the file contents under the assumption that renaming * the files is not a supported scenario. * */ void DBDumperCommand::DoCommand() { if (!db_) { assert(!path_.empty()); std::string fileName = GetFileNameFromPath(path_); uint64_t number; FileType type; exec_state_ = LDBCommandExecuteResult::Succeed(""); if (!ParseFileName(fileName, &number, &type)) { exec_state_ = LDBCommandExecuteResult::Failed("Can't parse file type: " + path_); return; } switch (type) { case kLogFile: // TODO(myabandeh): allow configuring is_write_commited DumpWalFile(path_, /* print_header_ */ true, /* print_values_ */ true, true /* is_write_commited */, &exec_state_); break; case kTableFile: DumpSstFile(path_, is_key_hex_, /* show_properties */ true); break; case kDescriptorFile: DumpManifestFile(path_, /* verbose_ */ false, is_key_hex_, /* json_ */ false); break; default: exec_state_ = LDBCommandExecuteResult::Failed( "File type not supported: " + path_); break; } } else { DoDumpCommand(); } } void DBDumperCommand::DoDumpCommand() { assert(nullptr != db_); assert(path_.empty()); // Parse command line args uint64_t count = 0; if (print_stats_) { std::string stats; if (db_->GetProperty("rocksdb.stats", &stats)) { fprintf(stdout, "%s\n", stats.c_str()); } } // Setup key iterator Iterator* iter = db_->NewIterator(ReadOptions(), GetCfHandle()); Status st = iter->status(); if (!st.ok()) { exec_state_ = LDBCommandExecuteResult::Failed("Iterator error." + st.ToString()); } if (!null_from_) { iter->Seek(from_); } else { iter->SeekToFirst(); } int max_keys = max_keys_; int ttl_start; if (!ParseIntOption(option_map_, ARG_TTL_START, ttl_start, exec_state_)) { ttl_start = DBWithTTLImpl::kMinTimestamp; // TTL introduction time } int ttl_end; if (!ParseIntOption(option_map_, ARG_TTL_END, ttl_end, exec_state_)) { ttl_end = DBWithTTLImpl::kMaxTimestamp; // Max time allowed by TTL feature } if (ttl_end < ttl_start) { fprintf(stderr, "Error: End time can't be less than start time\n"); delete iter; return; } int time_range = ttl_end - ttl_start; int bucket_size; if (!ParseIntOption(option_map_, ARG_TTL_BUCKET, bucket_size, exec_state_) || bucket_size <= 0) { bucket_size = time_range; // Will have just 1 bucket by default } //cretaing variables for row count of each type std::string rtype1, rtype2, row, val; rtype2 = ""; uint64_t c=0; uint64_t s1=0,s2=0; // At this point, bucket_size=0 => time_range=0 int num_buckets = (bucket_size >= time_range) ? 1 : ((time_range + bucket_size - 1) / bucket_size); std::vector bucket_counts(num_buckets, 0); if (is_db_ttl_ && !count_only_ && timestamp_ && !count_delim_) { fprintf(stdout, "Dumping key-values from %s to %s\n", ReadableTime(ttl_start).c_str(), ReadableTime(ttl_end).c_str()); } HistogramImpl vsize_hist; for (; iter->Valid(); iter->Next()) { int rawtime = 0; // If end marker was specified, we stop before it if (!null_to_ && (iter->key().ToString() >= to_)) break; // Terminate if maximum number of keys have been dumped if (max_keys == 0) break; if (is_db_ttl_) { TtlIterator* it_ttl = static_cast_with_check(iter); rawtime = it_ttl->timestamp(); if (rawtime < ttl_start || rawtime >= ttl_end) { continue; } } if (max_keys > 0) { --max_keys; } if (is_db_ttl_ && num_buckets > 1) { IncBucketCounts(bucket_counts, ttl_start, time_range, bucket_size, rawtime, num_buckets); } ++count; if (count_delim_) { rtype1 = ""; row = iter->key().ToString(); val = iter->value().ToString(); s1 = row.size()+val.size(); for(int j=0;row[j]!=delim_[0] && row[j]!='\0';j++) rtype1+=row[j]; if(rtype2.compare("") && rtype2.compare(rtype1)!=0) { fprintf(stdout, "%s => count:%" PRIu64 "\tsize:%" PRIu64 "\n", rtype2.c_str(), c, s2); c=1; s2=s1; rtype2 = rtype1; } else { c++; s2+=s1; rtype2=rtype1; } } if (count_only_) { vsize_hist.Add(iter->value().size()); } if (!count_only_ && !count_delim_) { if (is_db_ttl_ && timestamp_) { fprintf(stdout, "%s ", ReadableTime(rawtime).c_str()); } std::string str = PrintKeyValue(iter->key().ToString(), iter->value().ToString(), is_key_hex_, is_value_hex_); fprintf(stdout, "%s\n", str.c_str()); } } if (num_buckets > 1 && is_db_ttl_) { PrintBucketCounts(bucket_counts, ttl_start, ttl_end, bucket_size, num_buckets); } else if(count_delim_) { fprintf(stdout, "%s => count:%" PRIu64 "\tsize:%" PRIu64 "\n", rtype2.c_str(), c, s2); } else { fprintf(stdout, "Keys in range: %" PRIu64 "\n", count); } if (count_only_) { fprintf(stdout, "Value size distribution: \n"); fprintf(stdout, "%s\n", vsize_hist.ToString().c_str()); } // Clean up delete iter; } const std::string ReduceDBLevelsCommand::ARG_NEW_LEVELS = "new_levels"; const std::string ReduceDBLevelsCommand::ARG_PRINT_OLD_LEVELS = "print_old_levels"; ReduceDBLevelsCommand::ReduceDBLevelsCommand( const std::vector& /*params*/, const std::map& options, const std::vector& flags) : LDBCommand(options, flags, false, BuildCmdLineOptions({ARG_NEW_LEVELS, ARG_PRINT_OLD_LEVELS})), old_levels_(1 << 7), new_levels_(-1), print_old_levels_(false) { ParseIntOption(option_map_, ARG_NEW_LEVELS, new_levels_, exec_state_); print_old_levels_ = IsFlagPresent(flags, ARG_PRINT_OLD_LEVELS); if(new_levels_ <= 0) { exec_state_ = LDBCommandExecuteResult::Failed( " Use --" + ARG_NEW_LEVELS + " to specify a new level number\n"); } } std::vector ReduceDBLevelsCommand::PrepareArgs( const std::string& db_path, int new_levels, bool print_old_level) { std::vector ret; ret.push_back("reduce_levels"); ret.push_back("--" + ARG_DB + "=" + db_path); ret.push_back("--" + ARG_NEW_LEVELS + "=" + rocksdb::ToString(new_levels)); if(print_old_level) { ret.push_back("--" + ARG_PRINT_OLD_LEVELS); } return ret; } void ReduceDBLevelsCommand::Help(std::string& ret) { ret.append(" "); ret.append(ReduceDBLevelsCommand::Name()); ret.append(" --" + ARG_NEW_LEVELS + "="); ret.append(" [--" + ARG_PRINT_OLD_LEVELS + "]"); ret.append("\n"); } Options ReduceDBLevelsCommand::PrepareOptionsForOpenDB() { Options opt = LDBCommand::PrepareOptionsForOpenDB(); opt.num_levels = old_levels_; opt.max_bytes_for_level_multiplier_additional.resize(opt.num_levels, 1); // Disable size compaction opt.max_bytes_for_level_base = 1ULL << 50; opt.max_bytes_for_level_multiplier = 1; return opt; } Status ReduceDBLevelsCommand::GetOldNumOfLevels(Options& opt, int* levels) { ImmutableDBOptions db_options(opt); EnvOptions soptions; std::shared_ptr tc( NewLRUCache(opt.max_open_files - 10, opt.table_cache_numshardbits)); const InternalKeyComparator cmp(opt.comparator); WriteController wc(opt.delayed_write_rate); WriteBufferManager wb(opt.db_write_buffer_size); VersionSet versions(db_path_, &db_options, soptions, tc.get(), &wb, &wc); std::vector dummy; ColumnFamilyDescriptor dummy_descriptor(kDefaultColumnFamilyName, ColumnFamilyOptions(opt)); dummy.push_back(dummy_descriptor); // We rely the VersionSet::Recover to tell us the internal data structures // in the db. And the Recover() should never do any change // (like LogAndApply) to the manifest file. Status st = versions.Recover(dummy); if (!st.ok()) { return st; } int max = -1; auto default_cfd = versions.GetColumnFamilySet()->GetDefault(); for (int i = 0; i < default_cfd->NumberLevels(); i++) { if (default_cfd->current()->storage_info()->NumLevelFiles(i)) { max = i; } } *levels = max + 1; return st; } void ReduceDBLevelsCommand::DoCommand() { if (new_levels_ <= 1) { exec_state_ = LDBCommandExecuteResult::Failed("Invalid number of levels.\n"); return; } Status st; Options opt = PrepareOptionsForOpenDB(); int old_level_num = -1; st = GetOldNumOfLevels(opt, &old_level_num); if (!st.ok()) { exec_state_ = LDBCommandExecuteResult::Failed(st.ToString()); return; } if (print_old_levels_) { fprintf(stdout, "The old number of levels in use is %d\n", old_level_num); } if (old_level_num <= new_levels_) { return; } old_levels_ = old_level_num; OpenDB(); if (exec_state_.IsFailed()) { return; } assert(db_ != nullptr); // Compact the whole DB to put all files to the highest level. fprintf(stdout, "Compacting the db...\n"); db_->CompactRange(CompactRangeOptions(), GetCfHandle(), nullptr, nullptr); CloseDB(); EnvOptions soptions; st = VersionSet::ReduceNumberOfLevels(db_path_, &opt, soptions, new_levels_); if (!st.ok()) { exec_state_ = LDBCommandExecuteResult::Failed(st.ToString()); return; } } const std::string ChangeCompactionStyleCommand::ARG_OLD_COMPACTION_STYLE = "old_compaction_style"; const std::string ChangeCompactionStyleCommand::ARG_NEW_COMPACTION_STYLE = "new_compaction_style"; ChangeCompactionStyleCommand::ChangeCompactionStyleCommand( const std::vector& /*params*/, const std::map& options, const std::vector& flags) : LDBCommand(options, flags, false, BuildCmdLineOptions( {ARG_OLD_COMPACTION_STYLE, ARG_NEW_COMPACTION_STYLE})), old_compaction_style_(-1), new_compaction_style_(-1) { ParseIntOption(option_map_, ARG_OLD_COMPACTION_STYLE, old_compaction_style_, exec_state_); if (old_compaction_style_ != kCompactionStyleLevel && old_compaction_style_ != kCompactionStyleUniversal) { exec_state_ = LDBCommandExecuteResult::Failed( "Use --" + ARG_OLD_COMPACTION_STYLE + " to specify old compaction " + "style. Check ldb help for proper compaction style value.\n"); return; } ParseIntOption(option_map_, ARG_NEW_COMPACTION_STYLE, new_compaction_style_, exec_state_); if (new_compaction_style_ != kCompactionStyleLevel && new_compaction_style_ != kCompactionStyleUniversal) { exec_state_ = LDBCommandExecuteResult::Failed( "Use --" + ARG_NEW_COMPACTION_STYLE + " to specify new compaction " + "style. Check ldb help for proper compaction style value.\n"); return; } if (new_compaction_style_ == old_compaction_style_) { exec_state_ = LDBCommandExecuteResult::Failed( "Old compaction style is the same as new compaction style. " "Nothing to do.\n"); return; } if (old_compaction_style_ == kCompactionStyleUniversal && new_compaction_style_ == kCompactionStyleLevel) { exec_state_ = LDBCommandExecuteResult::Failed( "Convert from universal compaction to level compaction. " "Nothing to do.\n"); return; } } void ChangeCompactionStyleCommand::Help(std::string& ret) { ret.append(" "); ret.append(ChangeCompactionStyleCommand::Name()); ret.append(" --" + ARG_OLD_COMPACTION_STYLE + "="); ret.append(" --" + ARG_NEW_COMPACTION_STYLE + "="); ret.append("\n"); } Options ChangeCompactionStyleCommand::PrepareOptionsForOpenDB() { Options opt = LDBCommand::PrepareOptionsForOpenDB(); if (old_compaction_style_ == kCompactionStyleLevel && new_compaction_style_ == kCompactionStyleUniversal) { // In order to convert from level compaction to universal compaction, we // need to compact all data into a single file and move it to level 0. opt.disable_auto_compactions = true; opt.target_file_size_base = INT_MAX; opt.target_file_size_multiplier = 1; opt.max_bytes_for_level_base = INT_MAX; opt.max_bytes_for_level_multiplier = 1; } return opt; } void ChangeCompactionStyleCommand::DoCommand() { // print db stats before we have made any change std::string property; std::string files_per_level; for (int i = 0; i < db_->NumberLevels(GetCfHandle()); i++) { db_->GetProperty(GetCfHandle(), "rocksdb.num-files-at-level" + NumberToString(i), &property); // format print string char buf[100]; snprintf(buf, sizeof(buf), "%s%s", (i ? "," : ""), property.c_str()); files_per_level += buf; } fprintf(stdout, "files per level before compaction: %s\n", files_per_level.c_str()); // manual compact into a single file and move the file to level 0 CompactRangeOptions compact_options; compact_options.change_level = true; compact_options.target_level = 0; db_->CompactRange(compact_options, GetCfHandle(), nullptr, nullptr); // verify compaction result files_per_level = ""; int num_files = 0; for (int i = 0; i < db_->NumberLevels(GetCfHandle()); i++) { db_->GetProperty(GetCfHandle(), "rocksdb.num-files-at-level" + NumberToString(i), &property); // format print string char buf[100]; snprintf(buf, sizeof(buf), "%s%s", (i ? "," : ""), property.c_str()); files_per_level += buf; num_files = atoi(property.c_str()); // level 0 should have only 1 file if (i == 0 && num_files != 1) { exec_state_ = LDBCommandExecuteResult::Failed( "Number of db files at " "level 0 after compaction is " + ToString(num_files) + ", not 1.\n"); return; } // other levels should have no file if (i > 0 && num_files != 0) { exec_state_ = LDBCommandExecuteResult::Failed( "Number of db files at " "level " + ToString(i) + " after compaction is " + ToString(num_files) + ", not 0.\n"); return; } } fprintf(stdout, "files per level after compaction: %s\n", files_per_level.c_str()); } // ---------------------------------------------------------------------------- namespace { struct StdErrReporter : public log::Reader::Reporter { virtual void Corruption(size_t /*bytes*/, const Status& s) override { std::cerr << "Corruption detected in log file " << s.ToString() << "\n"; } }; class InMemoryHandler : public WriteBatch::Handler { public: InMemoryHandler(std::stringstream& row, bool print_values, bool write_after_commit = false) : Handler(), row_(row), print_values_(print_values), write_after_commit_(write_after_commit) {} void commonPutMerge(const Slice& key, const Slice& value) { std::string k = LDBCommand::StringToHex(key.ToString()); if (print_values_) { std::string v = LDBCommand::StringToHex(value.ToString()); row_ << k << " : "; row_ << v << " "; } else { row_ << k << " "; } } virtual Status PutCF(uint32_t cf, const Slice& key, const Slice& value) override { row_ << "PUT(" << cf << ") : "; commonPutMerge(key, value); return Status::OK(); } virtual Status MergeCF(uint32_t cf, const Slice& key, const Slice& value) override { row_ << "MERGE(" << cf << ") : "; commonPutMerge(key, value); return Status::OK(); } virtual Status MarkNoop(bool) override { row_ << "NOOP "; return Status::OK(); } virtual Status DeleteCF(uint32_t cf, const Slice& key) override { row_ << "DELETE(" << cf << ") : "; row_ << LDBCommand::StringToHex(key.ToString()) << " "; return Status::OK(); } virtual Status SingleDeleteCF(uint32_t cf, const Slice& key) override { row_ << "SINGLE_DELETE(" << cf << ") : "; row_ << LDBCommand::StringToHex(key.ToString()) << " "; return Status::OK(); } virtual Status DeleteRangeCF(uint32_t cf, const Slice& begin_key, const Slice& end_key) override { row_ << "DELETE_RANGE(" << cf << ") : "; row_ << LDBCommand::StringToHex(begin_key.ToString()) << " "; row_ << LDBCommand::StringToHex(end_key.ToString()) << " "; return Status::OK(); } virtual Status MarkBeginPrepare(bool unprepare) override { row_ << "BEGIN_PREPARE("; row_ << (unprepare ? "true" : "false") << ") "; return Status::OK(); } virtual Status MarkEndPrepare(const Slice& xid) override { row_ << "END_PREPARE("; row_ << LDBCommand::StringToHex(xid.ToString()) << ") "; return Status::OK(); } virtual Status MarkRollback(const Slice& xid) override { row_ << "ROLLBACK("; row_ << LDBCommand::StringToHex(xid.ToString()) << ") "; return Status::OK(); } virtual Status MarkCommit(const Slice& xid) override { row_ << "COMMIT("; row_ << LDBCommand::StringToHex(xid.ToString()) << ") "; return Status::OK(); } virtual ~InMemoryHandler() {} protected: virtual bool WriteAfterCommit() const override { return write_after_commit_; } private: std::stringstream& row_; bool print_values_; bool write_after_commit_; }; void DumpWalFile(std::string wal_file, bool print_header, bool print_values, bool is_write_committed, LDBCommandExecuteResult* exec_state) { Env* env_ = Env::Default(); EnvOptions soptions; unique_ptr wal_file_reader; Status status; { unique_ptr file; status = env_->NewSequentialFile(wal_file, &file, soptions); if (status.ok()) { wal_file_reader.reset( new SequentialFileReader(std::move(file), wal_file)); } } if (!status.ok()) { if (exec_state) { *exec_state = LDBCommandExecuteResult::Failed("Failed to open WAL file " + status.ToString()); } else { std::cerr << "Error: Failed to open WAL file " << status.ToString() << std::endl; } } else { StdErrReporter reporter; uint64_t log_number; FileType type; // we need the log number, but ParseFilename expects dbname/NNN.log. std::string sanitized = wal_file; size_t lastslash = sanitized.rfind('/'); if (lastslash != std::string::npos) sanitized = sanitized.substr(lastslash + 1); if (!ParseFileName(sanitized, &log_number, &type)) { // bogus input, carry on as best we can log_number = 0; } DBOptions db_options; log::Reader reader(db_options.info_log, std::move(wal_file_reader), &reporter, true, 0, log_number); std::string scratch; WriteBatch batch; Slice record; std::stringstream row; if (print_header) { std::cout << "Sequence,Count,ByteSize,Physical Offset,Key(s)"; if (print_values) { std::cout << " : value "; } std::cout << "\n"; } while (reader.ReadRecord(&record, &scratch)) { row.str(""); if (record.size() < WriteBatchInternal::kHeader) { reporter.Corruption(record.size(), Status::Corruption("log record too small")); } else { WriteBatchInternal::SetContents(&batch, record); row << WriteBatchInternal::Sequence(&batch) << ","; row << WriteBatchInternal::Count(&batch) << ","; row << WriteBatchInternal::ByteSize(&batch) << ","; row << reader.LastRecordOffset() << ","; InMemoryHandler handler(row, print_values, is_write_committed); batch.Iterate(&handler); row << "\n"; } std::cout << row.str(); } } } } // namespace const std::string WALDumperCommand::ARG_WAL_FILE = "walfile"; const std::string WALDumperCommand::ARG_WRITE_COMMITTED = "write_committed"; const std::string WALDumperCommand::ARG_PRINT_VALUE = "print_value"; const std::string WALDumperCommand::ARG_PRINT_HEADER = "header"; WALDumperCommand::WALDumperCommand( const std::vector& /*params*/, const std::map& options, const std::vector& flags) : LDBCommand(options, flags, true, BuildCmdLineOptions({ARG_WAL_FILE, ARG_WRITE_COMMITTED, ARG_PRINT_HEADER, ARG_PRINT_VALUE})), print_header_(false), print_values_(false), is_write_committed_(false) { wal_file_.clear(); std::map::const_iterator itr = options.find(ARG_WAL_FILE); if (itr != options.end()) { wal_file_ = itr->second; } print_header_ = IsFlagPresent(flags, ARG_PRINT_HEADER); print_values_ = IsFlagPresent(flags, ARG_PRINT_VALUE); is_write_committed_ = ParseBooleanOption(options, ARG_WRITE_COMMITTED, true); if (wal_file_.empty()) { exec_state_ = LDBCommandExecuteResult::Failed("Argument " + ARG_WAL_FILE + " must be specified."); } } void WALDumperCommand::Help(std::string& ret) { ret.append(" "); ret.append(WALDumperCommand::Name()); ret.append(" --" + ARG_WAL_FILE + "="); ret.append(" [--" + ARG_PRINT_HEADER + "] "); ret.append(" [--" + ARG_PRINT_VALUE + "] "); ret.append(" [--" + ARG_WRITE_COMMITTED + "=true|false] "); ret.append("\n"); } void WALDumperCommand::DoCommand() { DumpWalFile(wal_file_, print_header_, print_values_, is_write_committed_, &exec_state_); } // ---------------------------------------------------------------------------- GetCommand::GetCommand(const std::vector& params, const std::map& options, const std::vector& flags) : LDBCommand( options, flags, true, BuildCmdLineOptions({ARG_TTL, ARG_HEX, ARG_KEY_HEX, ARG_VALUE_HEX})) { if (params.size() != 1) { exec_state_ = LDBCommandExecuteResult::Failed( " must be specified for the get command"); } else { key_ = params.at(0); } if (is_key_hex_) { key_ = HexToString(key_); } } void GetCommand::Help(std::string& ret) { ret.append(" "); ret.append(GetCommand::Name()); ret.append(" "); ret.append(" [--" + ARG_TTL + "]"); ret.append("\n"); } void GetCommand::DoCommand() { if (!db_) { assert(GetExecuteState().IsFailed()); return; } std::string value; Status st = db_->Get(ReadOptions(), GetCfHandle(), key_, &value); if (st.ok()) { fprintf(stdout, "%s\n", (is_value_hex_ ? StringToHex(value) : value).c_str()); } else { exec_state_ = LDBCommandExecuteResult::Failed(st.ToString()); } } // ---------------------------------------------------------------------------- ApproxSizeCommand::ApproxSizeCommand( const std::vector& /*params*/, const std::map& options, const std::vector& flags) : LDBCommand(options, flags, true, BuildCmdLineOptions( {ARG_HEX, ARG_KEY_HEX, ARG_VALUE_HEX, ARG_FROM, ARG_TO})) { if (options.find(ARG_FROM) != options.end()) { start_key_ = options.find(ARG_FROM)->second; } else { exec_state_ = LDBCommandExecuteResult::Failed( ARG_FROM + " must be specified for approxsize command"); return; } if (options.find(ARG_TO) != options.end()) { end_key_ = options.find(ARG_TO)->second; } else { exec_state_ = LDBCommandExecuteResult::Failed( ARG_TO + " must be specified for approxsize command"); return; } if (is_key_hex_) { start_key_ = HexToString(start_key_); end_key_ = HexToString(end_key_); } } void ApproxSizeCommand::Help(std::string& ret) { ret.append(" "); ret.append(ApproxSizeCommand::Name()); ret.append(HelpRangeCmdArgs()); ret.append("\n"); } void ApproxSizeCommand::DoCommand() { if (!db_) { assert(GetExecuteState().IsFailed()); return; } Range ranges[1]; ranges[0] = Range(start_key_, end_key_); uint64_t sizes[1]; db_->GetApproximateSizes(GetCfHandle(), ranges, 1, sizes); fprintf(stdout, "%lu\n", (unsigned long)sizes[0]); /* Weird that GetApproximateSizes() returns void, although documentation * says that it returns a Status object. if (!st.ok()) { exec_state_ = LDBCommandExecuteResult::Failed(st.ToString()); } */ } // ---------------------------------------------------------------------------- BatchPutCommand::BatchPutCommand( const std::vector& params, const std::map& options, const std::vector& flags) : LDBCommand(options, flags, false, BuildCmdLineOptions({ARG_TTL, ARG_HEX, ARG_KEY_HEX, ARG_VALUE_HEX, ARG_CREATE_IF_MISSING})) { if (params.size() < 2) { exec_state_ = LDBCommandExecuteResult::Failed( "At least one pair must be specified batchput."); } else if (params.size() % 2 != 0) { exec_state_ = LDBCommandExecuteResult::Failed( "Equal number of s and s must be specified for batchput."); } else { for (size_t i = 0; i < params.size(); i += 2) { std::string key = params.at(i); std::string value = params.at(i + 1); key_values_.push_back(std::pair( is_key_hex_ ? HexToString(key) : key, is_value_hex_ ? HexToString(value) : value)); } } create_if_missing_ = IsFlagPresent(flags_, ARG_CREATE_IF_MISSING); } void BatchPutCommand::Help(std::string& ret) { ret.append(" "); ret.append(BatchPutCommand::Name()); ret.append(" [ ] [..]"); ret.append(" [--" + ARG_TTL + "]"); ret.append("\n"); } void BatchPutCommand::DoCommand() { if (!db_) { assert(GetExecuteState().IsFailed()); return; } WriteBatch batch; for (std::vector>::const_iterator itr = key_values_.begin(); itr != key_values_.end(); ++itr) { batch.Put(GetCfHandle(), itr->first, itr->second); } Status st = db_->Write(WriteOptions(), &batch); if (st.ok()) { fprintf(stdout, "OK\n"); } else { exec_state_ = LDBCommandExecuteResult::Failed(st.ToString()); } } Options BatchPutCommand::PrepareOptionsForOpenDB() { Options opt = LDBCommand::PrepareOptionsForOpenDB(); opt.create_if_missing = create_if_missing_; return opt; } // ---------------------------------------------------------------------------- ScanCommand::ScanCommand(const std::vector& /*params*/, const std::map& options, const std::vector& flags) : LDBCommand( options, flags, true, BuildCmdLineOptions({ARG_TTL, ARG_NO_VALUE, ARG_HEX, ARG_KEY_HEX, ARG_TO, ARG_VALUE_HEX, ARG_FROM, ARG_TIMESTAMP, ARG_MAX_KEYS, ARG_TTL_START, ARG_TTL_END})), start_key_specified_(false), end_key_specified_(false), max_keys_scanned_(-1), no_value_(false) { std::map::const_iterator itr = options.find(ARG_FROM); if (itr != options.end()) { start_key_ = itr->second; if (is_key_hex_) { start_key_ = HexToString(start_key_); } start_key_specified_ = true; } itr = options.find(ARG_TO); if (itr != options.end()) { end_key_ = itr->second; if (is_key_hex_) { end_key_ = HexToString(end_key_); } end_key_specified_ = true; } std::vector::const_iterator vitr = std::find(flags.begin(), flags.end(), ARG_NO_VALUE); if (vitr != flags.end()) { no_value_ = true; } itr = options.find(ARG_MAX_KEYS); if (itr != options.end()) { try { #if defined(CYGWIN) max_keys_scanned_ = strtol(itr->second.c_str(), 0, 10); #else max_keys_scanned_ = std::stoi(itr->second); #endif } catch (const std::invalid_argument&) { exec_state_ = LDBCommandExecuteResult::Failed(ARG_MAX_KEYS + " has an invalid value"); } catch (const std::out_of_range&) { exec_state_ = LDBCommandExecuteResult::Failed( ARG_MAX_KEYS + " has a value out-of-range"); } } } void ScanCommand::Help(std::string& ret) { ret.append(" "); ret.append(ScanCommand::Name()); ret.append(HelpRangeCmdArgs()); ret.append(" [--" + ARG_TTL + "]"); ret.append(" [--" + ARG_TIMESTAMP + "]"); ret.append(" [--" + ARG_MAX_KEYS + "=q] "); ret.append(" [--" + ARG_TTL_START + "=:- is inclusive]"); ret.append(" [--" + ARG_TTL_END + "=:- is exclusive]"); ret.append(" [--" + ARG_NO_VALUE + "]"); ret.append("\n"); } void ScanCommand::DoCommand() { if (!db_) { assert(GetExecuteState().IsFailed()); return; } int num_keys_scanned = 0; Iterator* it = db_->NewIterator(ReadOptions(), GetCfHandle()); if (start_key_specified_) { it->Seek(start_key_); } else { it->SeekToFirst(); } int ttl_start; if (!ParseIntOption(option_map_, ARG_TTL_START, ttl_start, exec_state_)) { ttl_start = DBWithTTLImpl::kMinTimestamp; // TTL introduction time } int ttl_end; if (!ParseIntOption(option_map_, ARG_TTL_END, ttl_end, exec_state_)) { ttl_end = DBWithTTLImpl::kMaxTimestamp; // Max time allowed by TTL feature } if (ttl_end < ttl_start) { fprintf(stderr, "Error: End time can't be less than start time\n"); delete it; return; } if (is_db_ttl_ && timestamp_) { fprintf(stdout, "Scanning key-values from %s to %s\n", ReadableTime(ttl_start).c_str(), ReadableTime(ttl_end).c_str()); } for ( ; it->Valid() && (!end_key_specified_ || it->key().ToString() < end_key_); it->Next()) { if (is_db_ttl_) { TtlIterator* it_ttl = static_cast_with_check(it); int rawtime = it_ttl->timestamp(); if (rawtime < ttl_start || rawtime >= ttl_end) { continue; } if (timestamp_) { fprintf(stdout, "%s ", ReadableTime(rawtime).c_str()); } } Slice key_slice = it->key(); std::string formatted_key; if (is_key_hex_) { formatted_key = "0x" + key_slice.ToString(true /* hex */); key_slice = formatted_key; } else if (ldb_options_.key_formatter) { formatted_key = ldb_options_.key_formatter->Format(key_slice); key_slice = formatted_key; } if (no_value_) { fprintf(stdout, "%.*s\n", static_cast(key_slice.size()), key_slice.data()); } else { Slice val_slice = it->value(); std::string formatted_value; if (is_value_hex_) { formatted_value = "0x" + val_slice.ToString(true /* hex */); val_slice = formatted_value; } fprintf(stdout, "%.*s : %.*s\n", static_cast(key_slice.size()), key_slice.data(), static_cast(val_slice.size()), val_slice.data()); } num_keys_scanned++; if (max_keys_scanned_ >= 0 && num_keys_scanned >= max_keys_scanned_) { break; } } if (!it->status().ok()) { // Check for any errors found during the scan exec_state_ = LDBCommandExecuteResult::Failed(it->status().ToString()); } delete it; } // ---------------------------------------------------------------------------- DeleteCommand::DeleteCommand(const std::vector& params, const std::map& options, const std::vector& flags) : LDBCommand(options, flags, false, BuildCmdLineOptions({ARG_HEX, ARG_KEY_HEX, ARG_VALUE_HEX})) { if (params.size() != 1) { exec_state_ = LDBCommandExecuteResult::Failed( "KEY must be specified for the delete command"); } else { key_ = params.at(0); if (is_key_hex_) { key_ = HexToString(key_); } } } void DeleteCommand::Help(std::string& ret) { ret.append(" "); ret.append(DeleteCommand::Name() + " "); ret.append("\n"); } void DeleteCommand::DoCommand() { if (!db_) { assert(GetExecuteState().IsFailed()); return; } Status st = db_->Delete(WriteOptions(), GetCfHandle(), key_); if (st.ok()) { fprintf(stdout, "OK\n"); } else { exec_state_ = LDBCommandExecuteResult::Failed(st.ToString()); } } DeleteRangeCommand::DeleteRangeCommand( const std::vector& params, const std::map& options, const std::vector& flags) : LDBCommand(options, flags, false, BuildCmdLineOptions({ARG_HEX, ARG_KEY_HEX, ARG_VALUE_HEX})) { if (params.size() != 2) { exec_state_ = LDBCommandExecuteResult::Failed( "begin and end keys must be specified for the delete command"); } else { begin_key_ = params.at(0); end_key_ = params.at(1); if (is_key_hex_) { begin_key_ = HexToString(begin_key_); end_key_ = HexToString(end_key_); } } } void DeleteRangeCommand::Help(std::string& ret) { ret.append(" "); ret.append(DeleteRangeCommand::Name() + " "); ret.append("\n"); } void DeleteRangeCommand::DoCommand() { if (!db_) { assert(GetExecuteState().IsFailed()); return; } Status st = db_->DeleteRange(WriteOptions(), GetCfHandle(), begin_key_, end_key_); if (st.ok()) { fprintf(stdout, "OK\n"); } else { exec_state_ = LDBCommandExecuteResult::Failed(st.ToString()); } } PutCommand::PutCommand(const std::vector& params, const std::map& options, const std::vector& flags) : LDBCommand(options, flags, false, BuildCmdLineOptions({ARG_TTL, ARG_HEX, ARG_KEY_HEX, ARG_VALUE_HEX, ARG_CREATE_IF_MISSING})) { if (params.size() != 2) { exec_state_ = LDBCommandExecuteResult::Failed( " and must be specified for the put command"); } else { key_ = params.at(0); value_ = params.at(1); } if (is_key_hex_) { key_ = HexToString(key_); } if (is_value_hex_) { value_ = HexToString(value_); } create_if_missing_ = IsFlagPresent(flags_, ARG_CREATE_IF_MISSING); } void PutCommand::Help(std::string& ret) { ret.append(" "); ret.append(PutCommand::Name()); ret.append(" "); ret.append(" [--" + ARG_TTL + "]"); ret.append("\n"); } void PutCommand::DoCommand() { if (!db_) { assert(GetExecuteState().IsFailed()); return; } Status st = db_->Put(WriteOptions(), GetCfHandle(), key_, value_); if (st.ok()) { fprintf(stdout, "OK\n"); } else { exec_state_ = LDBCommandExecuteResult::Failed(st.ToString()); } } Options PutCommand::PrepareOptionsForOpenDB() { Options opt = LDBCommand::PrepareOptionsForOpenDB(); opt.create_if_missing = create_if_missing_; return opt; } // ---------------------------------------------------------------------------- const char* DBQuerierCommand::HELP_CMD = "help"; const char* DBQuerierCommand::GET_CMD = "get"; const char* DBQuerierCommand::PUT_CMD = "put"; const char* DBQuerierCommand::DELETE_CMD = "delete"; DBQuerierCommand::DBQuerierCommand( const std::vector& /*params*/, const std::map& options, const std::vector& flags) : LDBCommand( options, flags, false, BuildCmdLineOptions({ARG_TTL, ARG_HEX, ARG_KEY_HEX, ARG_VALUE_HEX})) { } void DBQuerierCommand::Help(std::string& ret) { ret.append(" "); ret.append(DBQuerierCommand::Name()); ret.append(" [--" + ARG_TTL + "]"); ret.append("\n"); ret.append(" Starts a REPL shell. Type help for list of available " "commands."); ret.append("\n"); } void DBQuerierCommand::DoCommand() { if (!db_) { assert(GetExecuteState().IsFailed()); return; } ReadOptions read_options; WriteOptions write_options; std::string line; std::string key; std::string value; while (getline(std::cin, line, '\n')) { // Parse line into std::vector std::vector tokens; size_t pos = 0; while (true) { size_t pos2 = line.find(' ', pos); if (pos2 == std::string::npos) { break; } tokens.push_back(line.substr(pos, pos2-pos)); pos = pos2 + 1; } tokens.push_back(line.substr(pos)); const std::string& cmd = tokens[0]; if (cmd == HELP_CMD) { fprintf(stdout, "get \n" "put \n" "delete \n"); } else if (cmd == DELETE_CMD && tokens.size() == 2) { key = (is_key_hex_ ? HexToString(tokens[1]) : tokens[1]); db_->Delete(write_options, GetCfHandle(), Slice(key)); fprintf(stdout, "Successfully deleted %s\n", tokens[1].c_str()); } else if (cmd == PUT_CMD && tokens.size() == 3) { key = (is_key_hex_ ? HexToString(tokens[1]) : tokens[1]); value = (is_value_hex_ ? HexToString(tokens[2]) : tokens[2]); db_->Put(write_options, GetCfHandle(), Slice(key), Slice(value)); fprintf(stdout, "Successfully put %s %s\n", tokens[1].c_str(), tokens[2].c_str()); } else if (cmd == GET_CMD && tokens.size() == 2) { key = (is_key_hex_ ? HexToString(tokens[1]) : tokens[1]); if (db_->Get(read_options, GetCfHandle(), Slice(key), &value).ok()) { fprintf(stdout, "%s\n", PrintKeyValue(key, value, is_key_hex_, is_value_hex_).c_str()); } else { fprintf(stdout, "Not found %s\n", tokens[1].c_str()); } } else { fprintf(stdout, "Unknown command %s\n", line.c_str()); } } } // ---------------------------------------------------------------------------- CheckConsistencyCommand::CheckConsistencyCommand( const std::vector& /*params*/, const std::map& options, const std::vector& flags) : LDBCommand(options, flags, false, BuildCmdLineOptions({})) {} void CheckConsistencyCommand::Help(std::string& ret) { ret.append(" "); ret.append(CheckConsistencyCommand::Name()); ret.append("\n"); } void CheckConsistencyCommand::DoCommand() { Options opt = PrepareOptionsForOpenDB(); opt.paranoid_checks = true; if (!exec_state_.IsNotStarted()) { return; } DB* db; Status st = DB::OpenForReadOnly(opt, db_path_, &db, false); delete db; if (st.ok()) { fprintf(stdout, "OK\n"); } else { exec_state_ = LDBCommandExecuteResult::Failed(st.ToString()); } } // ---------------------------------------------------------------------------- const std::string CheckPointCommand::ARG_CHECKPOINT_DIR = "checkpoint_dir"; CheckPointCommand::CheckPointCommand( const std::vector& /*params*/, const std::map& options, const std::vector& flags) : LDBCommand(options, flags, false /* is_read_only */, BuildCmdLineOptions({ARG_CHECKPOINT_DIR})) { auto itr = options.find(ARG_CHECKPOINT_DIR); if (itr != options.end()) { checkpoint_dir_ = itr->second; } } void CheckPointCommand::Help(std::string& ret) { ret.append(" "); ret.append(CheckPointCommand::Name()); ret.append(" [--" + ARG_CHECKPOINT_DIR + "] "); ret.append("\n"); } void CheckPointCommand::DoCommand() { if (!db_) { assert(GetExecuteState().IsFailed()); return; } Checkpoint* checkpoint; Status status = Checkpoint::Create(db_, &checkpoint); status = checkpoint->CreateCheckpoint(checkpoint_dir_); if (status.ok()) { printf("OK\n"); } else { exec_state_ = LDBCommandExecuteResult::Failed(status.ToString()); } } // ---------------------------------------------------------------------------- RepairCommand::RepairCommand(const std::vector& /*params*/, const std::map& options, const std::vector& flags) : LDBCommand(options, flags, false, BuildCmdLineOptions({})) {} void RepairCommand::Help(std::string& ret) { ret.append(" "); ret.append(RepairCommand::Name()); ret.append("\n"); } void RepairCommand::DoCommand() { Options options = PrepareOptionsForOpenDB(); options.info_log.reset(new StderrLogger(InfoLogLevel::WARN_LEVEL)); Status status = RepairDB(db_path_, options); if (status.ok()) { printf("OK\n"); } else { exec_state_ = LDBCommandExecuteResult::Failed(status.ToString()); } } // ---------------------------------------------------------------------------- const std::string BackupableCommand::ARG_NUM_THREADS = "num_threads"; const std::string BackupableCommand::ARG_BACKUP_ENV_URI = "backup_env_uri"; const std::string BackupableCommand::ARG_BACKUP_DIR = "backup_dir"; const std::string BackupableCommand::ARG_STDERR_LOG_LEVEL = "stderr_log_level"; BackupableCommand::BackupableCommand( const std::vector& /*params*/, const std::map& options, const std::vector& flags) : LDBCommand(options, flags, false /* is_read_only */, BuildCmdLineOptions({ARG_BACKUP_ENV_URI, ARG_BACKUP_DIR, ARG_NUM_THREADS, ARG_STDERR_LOG_LEVEL})), num_threads_(1) { auto itr = options.find(ARG_NUM_THREADS); if (itr != options.end()) { num_threads_ = std::stoi(itr->second); } itr = options.find(ARG_BACKUP_ENV_URI); if (itr != options.end()) { backup_env_uri_ = itr->second; } itr = options.find(ARG_BACKUP_DIR); if (itr == options.end()) { exec_state_ = LDBCommandExecuteResult::Failed("--" + ARG_BACKUP_DIR + ": missing backup directory"); } else { backup_dir_ = itr->second; } itr = options.find(ARG_STDERR_LOG_LEVEL); if (itr != options.end()) { int stderr_log_level = std::stoi(itr->second); if (stderr_log_level < 0 || stderr_log_level >= InfoLogLevel::NUM_INFO_LOG_LEVELS) { exec_state_ = LDBCommandExecuteResult::Failed( ARG_STDERR_LOG_LEVEL + " must be >= 0 and < " + std::to_string(InfoLogLevel::NUM_INFO_LOG_LEVELS) + "."); } else { logger_.reset( new StderrLogger(static_cast(stderr_log_level))); } } } void BackupableCommand::Help(const std::string& name, std::string& ret) { ret.append(" "); ret.append(name); ret.append(" [--" + ARG_BACKUP_ENV_URI + "] "); ret.append(" [--" + ARG_BACKUP_DIR + "] "); ret.append(" [--" + ARG_NUM_THREADS + "] "); ret.append(" [--" + ARG_STDERR_LOG_LEVEL + "=] "); ret.append("\n"); } // ---------------------------------------------------------------------------- BackupCommand::BackupCommand(const std::vector& params, const std::map& options, const std::vector& flags) : BackupableCommand(params, options, flags) {} void BackupCommand::Help(std::string& ret) { BackupableCommand::Help(Name(), ret); } void BackupCommand::DoCommand() { BackupEngine* backup_engine; Status status; if (!db_) { assert(GetExecuteState().IsFailed()); return; } printf("open db OK\n"); std::unique_ptr custom_env_guard; Env* custom_env = NewCustomObject(backup_env_uri_, &custom_env_guard); BackupableDBOptions backup_options = BackupableDBOptions(backup_dir_, custom_env); backup_options.info_log = logger_.get(); backup_options.max_background_operations = num_threads_; status = BackupEngine::Open(Env::Default(), backup_options, &backup_engine); if (status.ok()) { printf("open backup engine OK\n"); } else { exec_state_ = LDBCommandExecuteResult::Failed(status.ToString()); return; } status = backup_engine->CreateNewBackup(db_); if (status.ok()) { printf("create new backup OK\n"); } else { exec_state_ = LDBCommandExecuteResult::Failed(status.ToString()); return; } } // ---------------------------------------------------------------------------- RestoreCommand::RestoreCommand( const std::vector& params, const std::map& options, const std::vector& flags) : BackupableCommand(params, options, flags) {} void RestoreCommand::Help(std::string& ret) { BackupableCommand::Help(Name(), ret); } void RestoreCommand::DoCommand() { std::unique_ptr custom_env_guard; Env* custom_env = NewCustomObject(backup_env_uri_, &custom_env_guard); std::unique_ptr restore_engine; Status status; { BackupableDBOptions opts(backup_dir_, custom_env); opts.info_log = logger_.get(); opts.max_background_operations = num_threads_; BackupEngineReadOnly* raw_restore_engine_ptr; status = BackupEngineReadOnly::Open(Env::Default(), opts, &raw_restore_engine_ptr); if (status.ok()) { restore_engine.reset(raw_restore_engine_ptr); } } if (status.ok()) { printf("open restore engine OK\n"); status = restore_engine->RestoreDBFromLatestBackup(db_path_, db_path_); } if (status.ok()) { printf("restore from backup OK\n"); } else { exec_state_ = LDBCommandExecuteResult::Failed(status.ToString()); } } // ---------------------------------------------------------------------------- namespace { void DumpSstFile(std::string filename, bool output_hex, bool show_properties) { std::string from_key; std::string to_key; if (filename.length() <= 4 || filename.rfind(".sst") != filename.length() - 4) { std::cout << "Invalid sst file name." << std::endl; return; } // no verification rocksdb::SstFileReader reader(filename, false, output_hex); Status st = reader.ReadSequential(true, std::numeric_limits::max(), false, // has_from from_key, false, // has_to to_key); if (!st.ok()) { std::cerr << "Error in reading SST file " << filename << st.ToString() << std::endl; return; } if (show_properties) { const rocksdb::TableProperties* table_properties; std::shared_ptr table_properties_from_reader; st = reader.ReadTableProperties(&table_properties_from_reader); if (!st.ok()) { std::cerr << filename << ": " << st.ToString() << ". Try to use initial table properties" << std::endl; table_properties = reader.GetInitTableProperties(); } else { table_properties = table_properties_from_reader.get(); } if (table_properties != nullptr) { std::cout << std::endl << "Table Properties:" << std::endl; std::cout << table_properties->ToString("\n") << std::endl; std::cout << "# deleted keys: " << rocksdb::GetDeletedKeys( table_properties->user_collected_properties) << std::endl; } } } } // namespace DBFileDumperCommand::DBFileDumperCommand( const std::vector& /*params*/, const std::map& options, const std::vector& flags) : LDBCommand(options, flags, true, BuildCmdLineOptions({})) {} void DBFileDumperCommand::Help(std::string& ret) { ret.append(" "); ret.append(DBFileDumperCommand::Name()); ret.append("\n"); } void DBFileDumperCommand::DoCommand() { if (!db_) { assert(GetExecuteState().IsFailed()); return; } Status s; std::cout << "Manifest File" << std::endl; std::cout << "==============================" << std::endl; std::string manifest_filename; s = ReadFileToString(db_->GetEnv(), CurrentFileName(db_->GetName()), &manifest_filename); if (!s.ok() || manifest_filename.empty() || manifest_filename.back() != '\n') { std::cerr << "Error when reading CURRENT file " << CurrentFileName(db_->GetName()) << std::endl; } // remove the trailing '\n' manifest_filename.resize(manifest_filename.size() - 1); std::string manifest_filepath = db_->GetName() + "/" + manifest_filename; std::cout << manifest_filepath << std::endl; DumpManifestFile(manifest_filepath, false, false, false); std::cout << std::endl; std::cout << "SST Files" << std::endl; std::cout << "==============================" << std::endl; std::vector metadata; db_->GetLiveFilesMetaData(&metadata); for (auto& fileMetadata : metadata) { std::string filename = fileMetadata.db_path + fileMetadata.name; std::cout << filename << " level:" << fileMetadata.level << std::endl; std::cout << "------------------------------" << std::endl; DumpSstFile(filename, false, true); std::cout << std::endl; } std::cout << std::endl; std::cout << "Write Ahead Log Files" << std::endl; std::cout << "==============================" << std::endl; rocksdb::VectorLogPtr wal_files; s = db_->GetSortedWalFiles(wal_files); if (!s.ok()) { std::cerr << "Error when getting WAL files" << std::endl; } else { for (auto& wal : wal_files) { // TODO(qyang): option.wal_dir should be passed into ldb command std::string filename = db_->GetOptions().wal_dir + wal->PathName(); std::cout << filename << std::endl; // TODO(myabandeh): allow configuring is_write_commited DumpWalFile(filename, true, true, true /* is_write_commited */, &exec_state_); } } } void WriteExternalSstFilesCommand::Help(std::string& ret) { ret.append(" "); ret.append(WriteExternalSstFilesCommand::Name()); ret.append(" "); ret.append("\n"); } WriteExternalSstFilesCommand::WriteExternalSstFilesCommand( const std::vector& params, const std::map& options, const std::vector& flags) : LDBCommand( options, flags, false /* is_read_only */, BuildCmdLineOptions({ARG_HEX, ARG_KEY_HEX, ARG_VALUE_HEX, ARG_FROM, ARG_TO, ARG_CREATE_IF_MISSING})) { create_if_missing_ = IsFlagPresent(flags, ARG_CREATE_IF_MISSING) || ParseBooleanOption(options, ARG_CREATE_IF_MISSING, false); if (params.size() != 1) { exec_state_ = LDBCommandExecuteResult::Failed( "output SST file path must be specified"); } else { output_sst_path_ = params.at(0); } } void WriteExternalSstFilesCommand::DoCommand() { if (!db_) { assert(GetExecuteState().IsFailed()); return; } ColumnFamilyHandle* cfh = GetCfHandle(); SstFileWriter sst_file_writer(EnvOptions(), db_->GetOptions(), cfh); Status status = sst_file_writer.Open(output_sst_path_); if (!status.ok()) { exec_state_ = LDBCommandExecuteResult::Failed("failed to open SST file: " + status.ToString()); return; } int bad_lines = 0; std::string line; std::ifstream ifs_stdin("/dev/stdin"); std::istream* istream_p = ifs_stdin.is_open() ? &ifs_stdin : &std::cin; while (getline(*istream_p, line, '\n')) { std::string key; std::string value; if (ParseKeyValue(line, &key, &value, is_key_hex_, is_value_hex_)) { status = sst_file_writer.Put(key, value); if (!status.ok()) { exec_state_ = LDBCommandExecuteResult::Failed( "failed to write record to file: " + status.ToString()); return; } } else if (0 == line.find("Keys in range:")) { // ignore this line } else if (0 == line.find("Created bg thread 0x")) { // ignore this line } else { bad_lines++; } } status = sst_file_writer.Finish(); if (!status.ok()) { exec_state_ = LDBCommandExecuteResult::Failed( "Failed to finish writing to file: " + status.ToString()); return; } if (bad_lines > 0) { fprintf(stderr, "Warning: %d bad lines ignored.\n", bad_lines); } exec_state_ = LDBCommandExecuteResult::Succeed( "external SST file written to " + output_sst_path_); } Options WriteExternalSstFilesCommand::PrepareOptionsForOpenDB() { Options opt = LDBCommand::PrepareOptionsForOpenDB(); opt.create_if_missing = create_if_missing_; return opt; } const std::string IngestExternalSstFilesCommand::ARG_MOVE_FILES = "move_files"; const std::string IngestExternalSstFilesCommand::ARG_SNAPSHOT_CONSISTENCY = "snapshot_consistency"; const std::string IngestExternalSstFilesCommand::ARG_ALLOW_GLOBAL_SEQNO = "allow_global_seqno"; const std::string IngestExternalSstFilesCommand::ARG_ALLOW_BLOCKING_FLUSH = "allow_blocking_flush"; const std::string IngestExternalSstFilesCommand::ARG_INGEST_BEHIND = "ingest_behind"; void IngestExternalSstFilesCommand::Help(std::string& ret) { ret.append(" "); ret.append(IngestExternalSstFilesCommand::Name()); ret.append(" "); ret.append(" [--" + ARG_MOVE_FILES + "] "); ret.append(" [--" + ARG_SNAPSHOT_CONSISTENCY + "] "); ret.append(" [--" + ARG_ALLOW_GLOBAL_SEQNO + "] "); ret.append(" [--" + ARG_ALLOW_BLOCKING_FLUSH + "] "); ret.append(" [--" + ARG_INGEST_BEHIND + "] "); ret.append("\n"); } IngestExternalSstFilesCommand::IngestExternalSstFilesCommand( const std::vector& params, const std::map& options, const std::vector& flags) : LDBCommand( options, flags, false /* is_read_only */, BuildCmdLineOptions({ARG_MOVE_FILES, ARG_SNAPSHOT_CONSISTENCY, ARG_ALLOW_GLOBAL_SEQNO, ARG_CREATE_IF_MISSING, ARG_ALLOW_BLOCKING_FLUSH, ARG_INGEST_BEHIND})), move_files_(false), snapshot_consistency_(true), allow_global_seqno_(true), allow_blocking_flush_(true), ingest_behind_(false) { create_if_missing_ = IsFlagPresent(flags, ARG_CREATE_IF_MISSING) || ParseBooleanOption(options, ARG_CREATE_IF_MISSING, false); move_files_ = IsFlagPresent(flags, ARG_MOVE_FILES) || ParseBooleanOption(options, ARG_MOVE_FILES, false); snapshot_consistency_ = IsFlagPresent(flags, ARG_SNAPSHOT_CONSISTENCY) || ParseBooleanOption(options, ARG_SNAPSHOT_CONSISTENCY, true); allow_global_seqno_ = IsFlagPresent(flags, ARG_ALLOW_GLOBAL_SEQNO) || ParseBooleanOption(options, ARG_ALLOW_GLOBAL_SEQNO, true); allow_blocking_flush_ = IsFlagPresent(flags, ARG_ALLOW_BLOCKING_FLUSH) || ParseBooleanOption(options, ARG_ALLOW_BLOCKING_FLUSH, true); ingest_behind_ = IsFlagPresent(flags, ARG_INGEST_BEHIND) || ParseBooleanOption(options, ARG_INGEST_BEHIND, false); if (params.size() != 1) { exec_state_ = LDBCommandExecuteResult::Failed("input SST path must be specified"); } else { input_sst_path_ = params.at(0); } } void IngestExternalSstFilesCommand::DoCommand() { if (!db_) { assert(GetExecuteState().IsFailed()); return; } if (GetExecuteState().IsFailed()) { return; } ColumnFamilyHandle* cfh = GetCfHandle(); IngestExternalFileOptions ifo; ifo.move_files = move_files_; ifo.snapshot_consistency = snapshot_consistency_; ifo.allow_global_seqno = allow_global_seqno_; ifo.allow_blocking_flush = allow_blocking_flush_; ifo.ingest_behind = ingest_behind_; Status status = db_->IngestExternalFile(cfh, {input_sst_path_}, ifo); if (!status.ok()) { exec_state_ = LDBCommandExecuteResult::Failed( "failed to ingest external SST: " + status.ToString()); } else { exec_state_ = LDBCommandExecuteResult::Succeed("external SST files ingested"); } } Options IngestExternalSstFilesCommand::PrepareOptionsForOpenDB() { Options opt = LDBCommand::PrepareOptionsForOpenDB(); opt.create_if_missing = create_if_missing_; return opt; } } // namespace rocksdb #endif // ROCKSDB_LITE