// 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). // #include "rocksdb/sst_dump_tool.h" #include #include #include "options/options_helper.h" #include "port/port.h" #include "rocksdb/convenience.h" #include "rocksdb/utilities/ldb_cmd.h" #include "table/sst_file_dumper.h" namespace ROCKSDB_NAMESPACE { static const std::vector> kCompressions = { {CompressionType::kNoCompression, "kNoCompression"}, {CompressionType::kSnappyCompression, "kSnappyCompression"}, {CompressionType::kZlibCompression, "kZlibCompression"}, {CompressionType::kBZip2Compression, "kBZip2Compression"}, {CompressionType::kLZ4Compression, "kLZ4Compression"}, {CompressionType::kLZ4HCCompression, "kLZ4HCCompression"}, {CompressionType::kXpressCompression, "kXpressCompression"}, {CompressionType::kZSTD, "kZSTD"}}; namespace { void print_help(bool to_stderr) { std::string supported_compressions; for (CompressionType ct : GetSupportedCompressions()) { if (!supported_compressions.empty()) { supported_compressions += ", "; } std::string str; Status s = GetStringFromCompressionType(&str, ct); assert(s.ok()); supported_compressions += str; } fprintf( to_stderr ? stderr : stdout, R"(sst_dump --file= [--command=check|scan|raw|recompress|identify] --file= Path to SST file or directory containing SST files --env_uri= URI of underlying Env, mutually exclusive with fs_uri --fs_uri= URI of underlying FileSystem, mutually exclusive with env_uri --command=check|scan|raw|verify|identify check: Iterate over entries in files but don't print anything except if an error is encountered (default command) scan: Iterate over entries in files and print them to screen raw: Dump all the table contents to _dump.txt verify: Iterate all the blocks in files verifying checksum to detect possible corruption but don't print anything except if a corruption is encountered recompress: reports the SST file size if recompressed with different compression types identify: Reports a file is a valid SST file or lists all valid SST files under a directory --output_hex Can be combined with scan command to print the keys and values in Hex --decode_blob_index Decode blob indexes and print them in a human-readable format during scans. --from= Key to start reading from when executing check|scan --to= Key to stop reading at when executing check|scan --prefix= Returns all keys with this prefix when executing check|scan Cannot be used in conjunction with --from --read_num= Maximum number of entries to read when executing check|scan --verify_checksum Verify file checksum when executing check|scan --input_key_hex Can be combined with --from and --to to indicate that these values are encoded in Hex --show_properties Print table properties after iterating over the file when executing check|scan|raw|identify --set_block_size= Can be combined with --command=recompress to set the block size that will be used when trying different compression algorithms --compression_types= Can be combined with --command=recompress to run recompression for this list of compression types Supported compression types: %s --parse_internal_key=<0xKEY> Convenience option to parse an internal key on the command line. Dumps the internal key in hex format {'key' @ SN: type} --compression_level_from= Compression level to start compressing when executing recompress. One compression type and compression_level_to must also be specified --compression_level_to= Compression level to stop compressing when executing recompress. One compression type and compression_level_from must also be specified --compression_max_dict_bytes= Maximum size of dictionary used to prime the compression library --compression_zstd_max_train_bytes= Maximum size of training data passed to zstd's dictionary trainer --compression_max_dict_buffer_bytes= Limit on buffer size from which we collect samples for dictionary generation. --compression_use_zstd_finalize_dict Use zstd's finalizeDictionary() API instead of zstd's dictionary trainer to generate dictionary. )", supported_compressions.c_str()); } // arg_name would include all prefix, e.g. "--my_arg=" // arg_val is the parses value. // True if there is a match. False otherwise. // Woud exit after printing errmsg if cannot be parsed. bool ParseIntArg(const char* arg, const std::string arg_name, const std::string err_msg, int64_t* arg_val) { if (strncmp(arg, arg_name.c_str(), arg_name.size()) == 0) { std::string input_str = arg + arg_name.size(); std::istringstream iss(input_str); iss >> *arg_val; if (iss.fail()) { fprintf(stderr, "%s\n", err_msg.c_str()); exit(1); } return true; } return false; } } // namespace int SSTDumpTool::Run(int argc, char const* const* argv, Options options) { std::string env_uri, fs_uri; const char* dir_or_file = nullptr; uint64_t read_num = std::numeric_limits::max(); std::string command; char junk; uint64_t n; bool verify_checksum = false; bool output_hex = false; bool decode_blob_index = false; bool input_key_hex = false; bool has_from = false; bool has_to = false; bool use_from_as_prefix = false; bool show_properties = false; bool show_summary = false; bool set_block_size = false; bool has_compression_level_from = false; bool has_compression_level_to = false; bool has_specified_compression_types = false; std::string from_key; std::string to_key; std::string block_size_str; std::string compression_level_from_str; std::string compression_level_to_str; size_t block_size = 0; size_t readahead_size = 2 * 1024 * 1024; std::vector> compression_types; uint64_t total_num_files = 0; uint64_t total_num_data_blocks = 0; uint64_t total_data_block_size = 0; uint64_t total_index_block_size = 0; uint64_t total_filter_block_size = 0; int32_t compress_level_from = CompressionOptions::kDefaultCompressionLevel; int32_t compress_level_to = CompressionOptions::kDefaultCompressionLevel; uint32_t compression_max_dict_bytes = ROCKSDB_NAMESPACE::CompressionOptions().max_dict_bytes; uint32_t compression_zstd_max_train_bytes = ROCKSDB_NAMESPACE::CompressionOptions().zstd_max_train_bytes; uint64_t compression_max_dict_buffer_bytes = ROCKSDB_NAMESPACE::CompressionOptions().max_dict_buffer_bytes; bool compression_use_zstd_finalize_dict = !ROCKSDB_NAMESPACE::CompressionOptions().use_zstd_dict_trainer; int64_t tmp_val; for (int i = 1; i < argc; i++) { if (strncmp(argv[i], "--env_uri=", 10) == 0) { env_uri = argv[i] + 10; } else if (strncmp(argv[i], "--fs_uri=", 9) == 0) { fs_uri = argv[i] + 9; } else if (strncmp(argv[i], "--file=", 7) == 0) { dir_or_file = argv[i] + 7; } else if (strcmp(argv[i], "--output_hex") == 0) { output_hex = true; } else if (strcmp(argv[i], "--decode_blob_index") == 0) { decode_blob_index = true; } else if (strcmp(argv[i], "--input_key_hex") == 0) { input_key_hex = true; } else if (sscanf(argv[i], "--read_num=%lu%c", (unsigned long*)&n, &junk) == 1) { read_num = n; } else if (strcmp(argv[i], "--verify_checksum") == 0) { verify_checksum = true; } else if (strncmp(argv[i], "--command=", 10) == 0) { command = argv[i] + 10; } else if (strncmp(argv[i], "--from=", 7) == 0) { from_key = argv[i] + 7; has_from = true; } else if (strncmp(argv[i], "--to=", 5) == 0) { to_key = argv[i] + 5; has_to = true; } else if (strncmp(argv[i], "--prefix=", 9) == 0) { from_key = argv[i] + 9; use_from_as_prefix = true; } else if (strcmp(argv[i], "--show_properties") == 0) { show_properties = true; } else if (strcmp(argv[i], "--show_summary") == 0) { show_summary = true; } else if (ParseIntArg(argv[i], "--set_block_size=", "block size must be numeric", &tmp_val)) { set_block_size = true; block_size = static_cast(tmp_val); } else if (ParseIntArg(argv[i], "--readahead_size=", "readahead_size must be numeric", &tmp_val)) { readahead_size = static_cast(tmp_val); } else if (strncmp(argv[i], "--compression_types=", 20) == 0) { std::string compression_types_csv = argv[i] + 20; std::istringstream iss(compression_types_csv); std::string compression_type; has_specified_compression_types = true; while (std::getline(iss, compression_type, ',')) { auto iter = std::find_if( kCompressions.begin(), kCompressions.end(), [&compression_type](std::pair curr) { return curr.second == compression_type; }); if (iter == kCompressions.end()) { fprintf(stderr, "%s is not a valid CompressionType\n", compression_type.c_str()); exit(1); } compression_types.emplace_back(*iter); } } else if (strncmp(argv[i], "--parse_internal_key=", 21) == 0) { std::string in_key(argv[i] + 21); try { in_key = ROCKSDB_NAMESPACE::LDBCommand::HexToString(in_key); } catch (...) { std::cerr << "ERROR: Invalid key input '" << in_key << "' Use 0x{hex representation of internal rocksdb key}" << std::endl; return -1; } Slice sl_key = ROCKSDB_NAMESPACE::Slice(in_key); ParsedInternalKey ikey; int retc = 0; Status pik_status = ParseInternalKey(sl_key, &ikey, true /* log_err_key */); if (!pik_status.ok()) { std::cerr << pik_status.getState() << "\n"; retc = -1; } fprintf(stdout, "key=%s\n", ikey.DebugString(true, true).c_str()); return retc; } else if (ParseIntArg(argv[i], "--compression_level_from=", "compression_level_from must be numeric", &tmp_val)) { has_compression_level_from = true; compress_level_from = static_cast(tmp_val); } else if (ParseIntArg(argv[i], "--compression_level_to=", "compression_level_to must be numeric", &tmp_val)) { has_compression_level_to = true; compress_level_to = static_cast(tmp_val); } else if (ParseIntArg(argv[i], "--compression_max_dict_bytes=", "compression_max_dict_bytes must be numeric", &tmp_val)) { if (tmp_val < 0 || tmp_val > std::numeric_limits::max()) { fprintf(stderr, "compression_max_dict_bytes must be a uint32_t: '%s'\n", argv[i]); print_help(/*to_stderr*/ true); return 1; } compression_max_dict_bytes = static_cast(tmp_val); } else if (ParseIntArg(argv[i], "--compression_zstd_max_train_bytes=", "compression_zstd_max_train_bytes must be numeric", &tmp_val)) { if (tmp_val < 0 || tmp_val > std::numeric_limits::max()) { fprintf(stderr, "compression_zstd_max_train_bytes must be a uint32_t: '%s'\n", argv[i]); print_help(/*to_stderr*/ true); return 1; } compression_zstd_max_train_bytes = static_cast(tmp_val); } else if (ParseIntArg(argv[i], "--compression_max_dict_buffer_bytes=", "compression_max_dict_buffer_bytes must be numeric", &tmp_val)) { if (tmp_val < 0) { fprintf(stderr, "compression_max_dict_buffer_bytes must be positive: '%s'\n", argv[i]); print_help(/*to_stderr*/ true); return 1; } compression_max_dict_buffer_bytes = static_cast(tmp_val); } else if (strcmp(argv[i], "--compression_use_zstd_finalize_dict") == 0) { compression_use_zstd_finalize_dict = true; } else if (strcmp(argv[i], "--help") == 0) { print_help(/*to_stderr*/ false); return 0; } else if (strcmp(argv[i], "--version") == 0) { printf("%s\n", GetRocksBuildInfoAsString("sst_dump").c_str()); return 0; } else { fprintf(stderr, "Unrecognized argument '%s'\n\n", argv[i]); print_help(/*to_stderr*/ true); return 1; } } if (has_compression_level_from && has_compression_level_to) { if (!has_specified_compression_types || compression_types.size() != 1) { fprintf(stderr, "Specify one compression type.\n\n"); exit(1); } } else if (has_compression_level_from || has_compression_level_to) { fprintf(stderr, "Specify both --compression_level_from and " "--compression_level_to.\n\n"); exit(1); } if (use_from_as_prefix && has_from) { fprintf(stderr, "Cannot specify --prefix and --from\n\n"); exit(1); } if (input_key_hex) { if (has_from || use_from_as_prefix) { from_key = ROCKSDB_NAMESPACE::LDBCommand::HexToString(from_key); } if (has_to) { to_key = ROCKSDB_NAMESPACE::LDBCommand::HexToString(to_key); } } if (dir_or_file == nullptr) { fprintf(stderr, "file or directory must be specified.\n\n"); print_help(/*to_stderr*/ true); exit(1); } std::shared_ptr env_guard; // If caller of SSTDumpTool::Run(...) does not specify a different env other // than Env::Default(), then try to load custom env based on env_uri/fs_uri. // Otherwise, the caller is responsible for creating custom env. { ConfigOptions config_options; config_options.env = options.env; Status s = Env::CreateFromUri(config_options, env_uri, fs_uri, &options.env, &env_guard); if (!s.ok()) { fprintf(stderr, "CreateEnvFromUri: %s\n", s.ToString().c_str()); exit(1); } else { fprintf(stdout, "options.env is %p\n", options.env); } } std::vector filenames; ROCKSDB_NAMESPACE::Env* env = options.env; ROCKSDB_NAMESPACE::Status st = env->GetChildren(dir_or_file, &filenames); bool dir = true; if (!st.ok() || filenames.empty()) { // dir_or_file does not exist or does not contain children // Check its existence first Status s = env->FileExists(dir_or_file); // dir_or_file does not exist if (!s.ok()) { fprintf(stderr, "%s%s: No such file or directory\n", s.ToString().c_str(), dir_or_file); return 1; } // dir_or_file exists and is treated as a "file" // since it has no children // This is ok since later it will be checked // that whether it is a valid sst or not // (A directory "file" is not a valid sst) filenames.clear(); filenames.emplace_back(dir_or_file); dir = false; } uint64_t total_read = 0; // List of RocksDB SST file without corruption std::vector valid_sst_files; for (size_t i = 0; i < filenames.size(); i++) { std::string filename = filenames.at(i); if (filename.length() <= 4 || filename.rfind(".sst") != filename.length() - 4) { // ignore continue; } if (dir) { filename = std::string(dir_or_file) + "/" + filename; } if (command == "verify") { verify_checksum = true; } ROCKSDB_NAMESPACE::SstFileDumper dumper( options, filename, Temperature::kUnknown, readahead_size, verify_checksum, output_hex, decode_blob_index); // Not a valid SST if (!dumper.getStatus().ok()) { fprintf(stderr, "%s: %s\n", filename.c_str(), dumper.getStatus().ToString().c_str()); continue; } else { valid_sst_files.push_back(filename); // Print out from and to key information once // where there is at least one valid SST if (valid_sst_files.size() == 1) { // from_key and to_key are only used for "check", "scan", or "" if (command == "check" || command == "scan" || command == "") { fprintf(stdout, "from [%s] to [%s]\n", ROCKSDB_NAMESPACE::Slice(from_key).ToString(true).c_str(), ROCKSDB_NAMESPACE::Slice(to_key).ToString(true).c_str()); } } } if (command == "recompress") { st = dumper.ShowAllCompressionSizes( set_block_size ? block_size : 16384, compression_types.empty() ? kCompressions : compression_types, compress_level_from, compress_level_to, compression_max_dict_bytes, compression_zstd_max_train_bytes, compression_max_dict_buffer_bytes, !compression_use_zstd_finalize_dict); if (!st.ok()) { fprintf(stderr, "Failed to recompress: %s\n", st.ToString().c_str()); exit(1); } return 0; } if (command == "raw") { std::string out_filename = filename.substr(0, filename.length() - 4); out_filename.append("_dump.txt"); st = dumper.DumpTable(out_filename); if (!st.ok()) { fprintf(stderr, "%s: %s\n", filename.c_str(), st.ToString().c_str()); exit(1); } else { fprintf(stdout, "raw dump written to file %s\n", out_filename.data()); } continue; } // scan all files in give file path. if (command == "" || command == "scan" || command == "check") { st = dumper.ReadSequential( command == "scan", read_num > 0 ? (read_num - total_read) : read_num, has_from || use_from_as_prefix, from_key, has_to, to_key, use_from_as_prefix); if (!st.ok()) { fprintf(stderr, "%s: %s\n", filename.c_str(), st.ToString().c_str()); } total_read += dumper.GetReadNumber(); if (read_num > 0 && total_read > read_num) { break; } } if (command == "verify") { st = dumper.VerifyChecksum(); if (!st.ok()) { fprintf(stderr, "%s is corrupted: %s\n", filename.c_str(), st.ToString().c_str()); } else { fprintf(stdout, "The file is ok\n"); } continue; } if (show_properties || show_summary) { const ROCKSDB_NAMESPACE::TableProperties* table_properties; std::shared_ptr table_properties_from_reader; st = dumper.ReadTableProperties(&table_properties_from_reader); if (!st.ok()) { fprintf(stderr, "%s: %s\n", filename.c_str(), st.ToString().c_str()); fprintf(stderr, "Try to use initial table properties\n"); table_properties = dumper.GetInitTableProperties(); } else { table_properties = table_properties_from_reader.get(); } if (table_properties != nullptr) { if (show_properties) { fprintf(stdout, "Table Properties:\n" "------------------------------\n" " %s", table_properties->ToString("\n ", ": ").c_str()); } total_num_files += 1; total_num_data_blocks += table_properties->num_data_blocks; total_data_block_size += table_properties->data_size; total_index_block_size += table_properties->index_size; total_filter_block_size += table_properties->filter_size; if (show_properties) { fprintf(stdout, "Raw user collected properties\n" "------------------------------\n"); for (const auto& kv : table_properties->user_collected_properties) { std::string prop_name = kv.first; std::string prop_val = Slice(kv.second).ToString(true); fprintf(stdout, " # %s: 0x%s\n", prop_name.c_str(), prop_val.c_str()); } } } else { fprintf(stderr, "Reader unexpectedly returned null properties\n"); } } } if (show_summary) { fprintf(stdout, "total number of files: %" PRIu64 "\n", total_num_files); fprintf(stdout, "total number of data blocks: %" PRIu64 "\n", total_num_data_blocks); fprintf(stdout, "total data block size: %" PRIu64 "\n", total_data_block_size); fprintf(stdout, "total index block size: %" PRIu64 "\n", total_index_block_size); fprintf(stdout, "total filter block size: %" PRIu64 "\n", total_filter_block_size); } if (valid_sst_files.empty()) { // No valid SST files are found // Exit with an error state if (dir) { fprintf(stdout, "------------------------------\n"); fprintf(stderr, "No valid SST files found in %s\n", dir_or_file); } else { fprintf(stderr, "%s is not a valid SST file\n", dir_or_file); } return 1; } else { if (command == "identify") { if (dir) { fprintf(stdout, "------------------------------\n"); fprintf(stdout, "List of valid SST files found in %s:\n", dir_or_file); for (const auto& f : valid_sst_files) { fprintf(stdout, "%s\n", f.c_str()); } fprintf(stdout, "Number of valid SST files: %zu\n", valid_sst_files.size()); } else { fprintf(stdout, "%s is a valid SST file\n", dir_or_file); } } // At least one valid SST // exit with a success state return 0; } } } // namespace ROCKSDB_NAMESPACE