// 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). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #ifndef ROCKSDB_LITE #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "file/filename.h" #include "logging/logging.h" #include "port/port.h" #include "rocksdb/rate_limiter.h" #include "rocksdb/transaction_log.h" #include "rocksdb/utilities/backupable_db.h" #include "test_util/sync_point.h" #include "util/channel.h" #include "util/coding.h" #include "util/crc32c.h" #include "util/file_reader_writer.h" #include "util/string_util.h" #include "utilities/checkpoint/checkpoint_impl.h" namespace rocksdb { void BackupStatistics::IncrementNumberSuccessBackup() { number_success_backup++; } void BackupStatistics::IncrementNumberFailBackup() { number_fail_backup++; } uint32_t BackupStatistics::GetNumberSuccessBackup() const { return number_success_backup; } uint32_t BackupStatistics::GetNumberFailBackup() const { return number_fail_backup; } std::string BackupStatistics::ToString() const { char result[50]; snprintf(result, sizeof(result), "# success backup: %u, # fail backup: %u", GetNumberSuccessBackup(), GetNumberFailBackup()); return result; } void BackupableDBOptions::Dump(Logger* logger) const { ROCKS_LOG_INFO(logger, " Options.backup_dir: %s", backup_dir.c_str()); ROCKS_LOG_INFO(logger, " Options.backup_env: %p", backup_env); ROCKS_LOG_INFO(logger, " Options.share_table_files: %d", static_cast(share_table_files)); ROCKS_LOG_INFO(logger, " Options.info_log: %p", info_log); ROCKS_LOG_INFO(logger, " Options.sync: %d", static_cast(sync)); ROCKS_LOG_INFO(logger, " Options.destroy_old_data: %d", static_cast(destroy_old_data)); ROCKS_LOG_INFO(logger, " Options.backup_log_files: %d", static_cast(backup_log_files)); ROCKS_LOG_INFO(logger, " Options.backup_rate_limit: %" PRIu64, backup_rate_limit); ROCKS_LOG_INFO(logger, " Options.restore_rate_limit: %" PRIu64, restore_rate_limit); ROCKS_LOG_INFO(logger, "Options.max_background_operations: %d", max_background_operations); } // -------- BackupEngineImpl class --------- class BackupEngineImpl : public BackupEngine { public: BackupEngineImpl(Env* db_env, const BackupableDBOptions& options, bool read_only = false); ~BackupEngineImpl() override; Status CreateNewBackupWithMetadata(DB* db, const std::string& app_metadata, bool flush_before_backup = false, std::function progress_callback = []() {}) override; Status PurgeOldBackups(uint32_t num_backups_to_keep) override; Status DeleteBackup(BackupID backup_id) override; void StopBackup() override { stop_backup_.store(true, std::memory_order_release); } Status GarbageCollect() override; // The returned BackupInfos are in chronological order, which means the // latest backup comes last. void GetBackupInfo(std::vector* backup_info) override; void GetCorruptedBackups(std::vector* corrupt_backup_ids) override; Status RestoreDBFromBackup( BackupID backup_id, const std::string& db_dir, const std::string& wal_dir, const RestoreOptions& restore_options = RestoreOptions()) override; Status RestoreDBFromLatestBackup( const std::string& db_dir, const std::string& wal_dir, const RestoreOptions& restore_options = RestoreOptions()) override { return RestoreDBFromBackup(latest_valid_backup_id_, db_dir, wal_dir, restore_options); } Status VerifyBackup(BackupID backup_id) override; Status Initialize(); private: void DeleteChildren(const std::string& dir, uint32_t file_type_filter = 0); Status DeleteBackupInternal(BackupID backup_id); // Extends the "result" map with pathname->size mappings for the contents of // "dir" in "env". Pathnames are prefixed with "dir". Status InsertPathnameToSizeBytes( const std::string& dir, Env* env, std::unordered_map* result); struct FileInfo { FileInfo(const std::string& fname, uint64_t sz, uint32_t checksum) : refs(0), filename(fname), size(sz), checksum_value(checksum) {} FileInfo(const FileInfo&) = delete; FileInfo& operator=(const FileInfo&) = delete; int refs; const std::string filename; const uint64_t size; const uint32_t checksum_value; }; class BackupMeta { public: BackupMeta( const std::string& meta_filename, const std::string& meta_tmp_filename, std::unordered_map>* file_infos, Env* env) : timestamp_(0), sequence_number_(0), size_(0), meta_filename_(meta_filename), meta_tmp_filename_(meta_tmp_filename), file_infos_(file_infos), env_(env) {} BackupMeta(const BackupMeta&) = delete; BackupMeta& operator=(const BackupMeta&) = delete; ~BackupMeta() {} void RecordTimestamp() { env_->GetCurrentTime(×tamp_); } int64_t GetTimestamp() const { return timestamp_; } uint64_t GetSize() const { return size_; } uint32_t GetNumberFiles() { return static_cast(files_.size()); } void SetSequenceNumber(uint64_t sequence_number) { sequence_number_ = sequence_number; } uint64_t GetSequenceNumber() { return sequence_number_; } const std::string& GetAppMetadata() const { return app_metadata_; } void SetAppMetadata(const std::string& app_metadata) { app_metadata_ = app_metadata; } Status AddFile(std::shared_ptr file_info); Status Delete(bool delete_meta = true); bool Empty() { return files_.empty(); } std::shared_ptr GetFile(const std::string& filename) const { auto it = file_infos_->find(filename); if (it == file_infos_->end()) return nullptr; return it->second; } const std::vector>& GetFiles() { return files_; } // @param abs_path_to_size Pre-fetched file sizes (bytes). Status LoadFromFile( const std::string& backup_dir, const std::unordered_map& abs_path_to_size); Status StoreToFile(bool sync); std::string GetInfoString() { std::ostringstream ss; ss << "Timestamp: " << timestamp_ << std::endl; char human_size[16]; AppendHumanBytes(size_, human_size, sizeof(human_size)); ss << "Size: " << human_size << std::endl; ss << "Files:" << std::endl; for (const auto& file : files_) { AppendHumanBytes(file->size, human_size, sizeof(human_size)); ss << file->filename << ", size " << human_size << ", refs " << file->refs << std::endl; } return ss.str(); } private: int64_t timestamp_; // sequence number is only approximate, should not be used // by clients uint64_t sequence_number_; uint64_t size_; std::string app_metadata_; std::string const meta_filename_; std::string const meta_tmp_filename_; // files with relative paths (without "/" prefix!!) std::vector> files_; std::unordered_map>* file_infos_; Env* env_; static const size_t max_backup_meta_file_size_ = 10 * 1024 * 1024; // 10MB }; // BackupMeta inline std::string GetAbsolutePath( const std::string &relative_path = "") const { assert(relative_path.size() == 0 || relative_path[0] != '/'); return options_.backup_dir + "/" + relative_path; } inline std::string GetPrivateDirRel() const { return "private"; } inline std::string GetSharedChecksumDirRel() const { return "shared_checksum"; } inline std::string GetPrivateFileRel(BackupID backup_id, bool tmp = false, const std::string& file = "") const { assert(file.size() == 0 || file[0] != '/'); return GetPrivateDirRel() + "/" + rocksdb::ToString(backup_id) + (tmp ? ".tmp" : "") + "/" + file; } inline std::string GetSharedFileRel(const std::string& file = "", bool tmp = false) const { assert(file.size() == 0 || file[0] != '/'); return std::string("shared/") + (tmp ? "." : "") + file + (tmp ? ".tmp" : ""); } inline std::string GetSharedFileWithChecksumRel(const std::string& file = "", bool tmp = false) const { assert(file.size() == 0 || file[0] != '/'); return GetSharedChecksumDirRel() + "/" + (tmp ? "." : "") + file + (tmp ? ".tmp" : ""); } inline std::string GetSharedFileWithChecksum(const std::string& file, const uint32_t checksum_value, const uint64_t file_size) const { assert(file.size() == 0 || file[0] != '/'); std::string file_copy = file; return file_copy.insert(file_copy.find_last_of('.'), "_" + rocksdb::ToString(checksum_value) + "_" + rocksdb::ToString(file_size)); } inline std::string GetFileFromChecksumFile(const std::string& file) const { assert(file.size() == 0 || file[0] != '/'); std::string file_copy = file; size_t first_underscore = file_copy.find_first_of('_'); return file_copy.erase(first_underscore, file_copy.find_last_of('.') - first_underscore); } inline std::string GetBackupMetaDir() const { return GetAbsolutePath("meta"); } inline std::string GetBackupMetaFile(BackupID backup_id, bool tmp) const { return GetBackupMetaDir() + "/" + (tmp ? "." : "") + rocksdb::ToString(backup_id) + (tmp ? ".tmp" : ""); } // If size_limit == 0, there is no size limit, copy everything. // // Exactly one of src and contents must be non-empty. // // @param src If non-empty, the file is copied from this pathname. // @param contents If non-empty, the file will be created with these contents. Status CopyOrCreateFile(const std::string& src, const std::string& dst, const std::string& contents, Env* src_env, Env* dst_env, const EnvOptions& src_env_options, bool sync, RateLimiter* rate_limiter, uint64_t* size = nullptr, uint32_t* checksum_value = nullptr, uint64_t size_limit = 0, std::function progress_callback = []() {}); Status CalculateChecksum(const std::string& src, Env* src_env, const EnvOptions& src_env_options, uint64_t size_limit, uint32_t* checksum_value); struct CopyOrCreateResult { uint64_t size; uint32_t checksum_value; Status status; }; // Exactly one of src_path and contents must be non-empty. If src_path is // non-empty, the file is copied from this pathname. Otherwise, if contents is // non-empty, the file will be created at dst_path with these contents. struct CopyOrCreateWorkItem { std::string src_path; std::string dst_path; std::string contents; Env* src_env; Env* dst_env; EnvOptions src_env_options; bool sync; RateLimiter* rate_limiter; uint64_t size_limit; std::promise result; std::function progress_callback; CopyOrCreateWorkItem() : src_path(""), dst_path(""), contents(""), src_env(nullptr), dst_env(nullptr), src_env_options(), sync(false), rate_limiter(nullptr), size_limit(0) {} CopyOrCreateWorkItem(const CopyOrCreateWorkItem&) = delete; CopyOrCreateWorkItem& operator=(const CopyOrCreateWorkItem&) = delete; CopyOrCreateWorkItem(CopyOrCreateWorkItem&& o) ROCKSDB_NOEXCEPT { *this = std::move(o); } CopyOrCreateWorkItem& operator=(CopyOrCreateWorkItem&& o) ROCKSDB_NOEXCEPT { src_path = std::move(o.src_path); dst_path = std::move(o.dst_path); contents = std::move(o.contents); src_env = o.src_env; dst_env = o.dst_env; src_env_options = std::move(o.src_env_options); sync = o.sync; rate_limiter = o.rate_limiter; size_limit = o.size_limit; result = std::move(o.result); progress_callback = std::move(o.progress_callback); return *this; } CopyOrCreateWorkItem(std::string _src_path, std::string _dst_path, std::string _contents, Env* _src_env, Env* _dst_env, EnvOptions _src_env_options, bool _sync, RateLimiter* _rate_limiter, uint64_t _size_limit, std::function _progress_callback = []() {}) : src_path(std::move(_src_path)), dst_path(std::move(_dst_path)), contents(std::move(_contents)), src_env(_src_env), dst_env(_dst_env), src_env_options(std::move(_src_env_options)), sync(_sync), rate_limiter(_rate_limiter), size_limit(_size_limit), progress_callback(_progress_callback) {} }; struct BackupAfterCopyOrCreateWorkItem { std::future result; bool shared; bool needed_to_copy; Env* backup_env; std::string dst_path_tmp; std::string dst_path; std::string dst_relative; BackupAfterCopyOrCreateWorkItem() : shared(false), needed_to_copy(false), backup_env(nullptr), dst_path_tmp(""), dst_path(""), dst_relative("") {} BackupAfterCopyOrCreateWorkItem(BackupAfterCopyOrCreateWorkItem&& o) ROCKSDB_NOEXCEPT { *this = std::move(o); } BackupAfterCopyOrCreateWorkItem& operator=( BackupAfterCopyOrCreateWorkItem&& o) ROCKSDB_NOEXCEPT { result = std::move(o.result); shared = o.shared; needed_to_copy = o.needed_to_copy; backup_env = o.backup_env; dst_path_tmp = std::move(o.dst_path_tmp); dst_path = std::move(o.dst_path); dst_relative = std::move(o.dst_relative); return *this; } BackupAfterCopyOrCreateWorkItem(std::future&& _result, bool _shared, bool _needed_to_copy, Env* _backup_env, std::string _dst_path_tmp, std::string _dst_path, std::string _dst_relative) : result(std::move(_result)), shared(_shared), needed_to_copy(_needed_to_copy), backup_env(_backup_env), dst_path_tmp(std::move(_dst_path_tmp)), dst_path(std::move(_dst_path)), dst_relative(std::move(_dst_relative)) {} }; struct RestoreAfterCopyOrCreateWorkItem { std::future result; uint32_t checksum_value; RestoreAfterCopyOrCreateWorkItem() : checksum_value(0) {} RestoreAfterCopyOrCreateWorkItem(std::future&& _result, uint32_t _checksum_value) : result(std::move(_result)), checksum_value(_checksum_value) {} RestoreAfterCopyOrCreateWorkItem(RestoreAfterCopyOrCreateWorkItem&& o) ROCKSDB_NOEXCEPT { *this = std::move(o); } RestoreAfterCopyOrCreateWorkItem& operator=( RestoreAfterCopyOrCreateWorkItem&& o) ROCKSDB_NOEXCEPT { result = std::move(o.result); checksum_value = o.checksum_value; return *this; } }; bool initialized_; std::mutex byte_report_mutex_; channel files_to_copy_or_create_; std::vector threads_; // Certain operations like PurgeOldBackups and DeleteBackup will trigger // automatic GarbageCollect (true) unless we've already done one in this // session and have not failed to delete backup files since then (false). bool might_need_garbage_collect_ = true; // Adds a file to the backup work queue to be copied or created if it doesn't // already exist. // // Exactly one of src_dir and contents must be non-empty. // // @param src_dir If non-empty, the file in this directory named fname will be // copied. // @param fname Name of destination file and, in case of copy, source file. // @param contents If non-empty, the file will be created with these contents. Status AddBackupFileWorkItem( std::unordered_set& live_dst_paths, std::vector& backup_items_to_finish, BackupID backup_id, bool shared, const std::string& src_dir, const std::string& fname, // starts with "/" const EnvOptions& src_env_options, RateLimiter* rate_limiter, uint64_t size_bytes, uint64_t size_limit = 0, bool shared_checksum = false, std::function progress_callback = []() {}, const std::string& contents = std::string()); // backup state data BackupID latest_backup_id_; BackupID latest_valid_backup_id_; std::map> backups_; std::map>> corrupt_backups_; std::unordered_map> backuped_file_infos_; std::atomic stop_backup_; // options data BackupableDBOptions options_; Env* db_env_; Env* backup_env_; // directories std::unique_ptr backup_directory_; std::unique_ptr shared_directory_; std::unique_ptr meta_directory_; std::unique_ptr private_directory_; static const size_t kDefaultCopyFileBufferSize = 5 * 1024 * 1024LL; // 5MB size_t copy_file_buffer_size_; bool read_only_; BackupStatistics backup_statistics_; static const size_t kMaxAppMetaSize = 1024 * 1024; // 1MB }; Status BackupEngine::Open(Env* env, const BackupableDBOptions& options, BackupEngine** backup_engine_ptr) { std::unique_ptr backup_engine( new BackupEngineImpl(env, options)); auto s = backup_engine->Initialize(); if (!s.ok()) { *backup_engine_ptr = nullptr; return s; } *backup_engine_ptr = backup_engine.release(); return Status::OK(); } BackupEngineImpl::BackupEngineImpl(Env* db_env, const BackupableDBOptions& options, bool read_only) : initialized_(false), latest_backup_id_(0), latest_valid_backup_id_(0), stop_backup_(false), options_(options), db_env_(db_env), backup_env_(options.backup_env != nullptr ? options.backup_env : db_env_), copy_file_buffer_size_(kDefaultCopyFileBufferSize), read_only_(read_only) { if (options_.backup_rate_limiter == nullptr && options_.backup_rate_limit > 0) { options_.backup_rate_limiter.reset( NewGenericRateLimiter(options_.backup_rate_limit)); } if (options_.restore_rate_limiter == nullptr && options_.restore_rate_limit > 0) { options_.restore_rate_limiter.reset( NewGenericRateLimiter(options_.restore_rate_limit)); } } BackupEngineImpl::~BackupEngineImpl() { files_to_copy_or_create_.sendEof(); for (auto& t : threads_) { t.join(); } LogFlush(options_.info_log); } Status BackupEngineImpl::Initialize() { assert(!initialized_); initialized_ = true; if (read_only_) { ROCKS_LOG_INFO(options_.info_log, "Starting read_only backup engine"); } options_.Dump(options_.info_log); if (!read_only_) { // we might need to clean up from previous crash or I/O errors might_need_garbage_collect_ = true; // gather the list of directories that we need to create std::vector*>> directories; directories.emplace_back(GetAbsolutePath(), &backup_directory_); if (options_.share_table_files) { if (options_.share_files_with_checksum) { directories.emplace_back( GetAbsolutePath(GetSharedFileWithChecksumRel()), &shared_directory_); } else { directories.emplace_back(GetAbsolutePath(GetSharedFileRel()), &shared_directory_); } } directories.emplace_back(GetAbsolutePath(GetPrivateDirRel()), &private_directory_); directories.emplace_back(GetBackupMetaDir(), &meta_directory_); // create all the dirs we need for (const auto& d : directories) { auto s = backup_env_->CreateDirIfMissing(d.first); if (s.ok()) { s = backup_env_->NewDirectory(d.first, d.second); } if (!s.ok()) { return s; } } } std::vector backup_meta_files; { auto s = backup_env_->GetChildren(GetBackupMetaDir(), &backup_meta_files); if (s.IsNotFound()) { return Status::NotFound(GetBackupMetaDir() + " is missing"); } else if (!s.ok()) { return s; } } // create backups_ structure for (auto& file : backup_meta_files) { if (file == "." || file == "..") { continue; } ROCKS_LOG_INFO(options_.info_log, "Detected backup %s", file.c_str()); BackupID backup_id = 0; sscanf(file.c_str(), "%u", &backup_id); if (backup_id == 0 || file != rocksdb::ToString(backup_id)) { if (!read_only_) { // invalid file name, delete that auto s = backup_env_->DeleteFile(GetBackupMetaDir() + "/" + file); ROCKS_LOG_INFO(options_.info_log, "Unrecognized meta file %s, deleting -- %s", file.c_str(), s.ToString().c_str()); } continue; } assert(backups_.find(backup_id) == backups_.end()); backups_.insert(std::make_pair( backup_id, std::unique_ptr(new BackupMeta( GetBackupMetaFile(backup_id, false /* tmp */), GetBackupMetaFile(backup_id, true /* tmp */), &backuped_file_infos_, backup_env_)))); } latest_backup_id_ = 0; latest_valid_backup_id_ = 0; if (options_.destroy_old_data) { // Destroy old data assert(!read_only_); ROCKS_LOG_INFO( options_.info_log, "Backup Engine started with destroy_old_data == true, deleting all " "backups"); auto s = PurgeOldBackups(0); if (s.ok()) { s = GarbageCollect(); } if (!s.ok()) { return s; } } else { // Load data from storage std::unordered_map abs_path_to_size; for (const auto& rel_dir : {GetSharedFileRel(), GetSharedFileWithChecksumRel()}) { const auto abs_dir = GetAbsolutePath(rel_dir); InsertPathnameToSizeBytes(abs_dir, backup_env_, &abs_path_to_size); } // load the backups if any, until valid_backups_to_open of the latest // non-corrupted backups have been successfully opened. int valid_backups_to_open = options_.max_valid_backups_to_open; for (auto backup_iter = backups_.rbegin(); backup_iter != backups_.rend(); ++backup_iter) { assert(latest_backup_id_ == 0 || latest_backup_id_ > backup_iter->first); if (latest_backup_id_ == 0) { latest_backup_id_ = backup_iter->first; } if (valid_backups_to_open == 0) { break; } InsertPathnameToSizeBytes( GetAbsolutePath(GetPrivateFileRel(backup_iter->first)), backup_env_, &abs_path_to_size); Status s = backup_iter->second->LoadFromFile(options_.backup_dir, abs_path_to_size); if (s.IsCorruption()) { ROCKS_LOG_INFO(options_.info_log, "Backup %u corrupted -- %s", backup_iter->first, s.ToString().c_str()); corrupt_backups_.insert( std::make_pair(backup_iter->first, std::make_pair(s, std::move(backup_iter->second)))); } else if (!s.ok()) { // Distinguish corruption errors from errors in the backup Env. // Errors in the backup Env (i.e., this code path) will cause Open() to // fail, whereas corruption errors would not cause Open() failures. return s; } else { ROCKS_LOG_INFO(options_.info_log, "Loading backup %" PRIu32 " OK:\n%s", backup_iter->first, backup_iter->second->GetInfoString().c_str()); assert(latest_valid_backup_id_ == 0 || latest_valid_backup_id_ > backup_iter->first); if (latest_valid_backup_id_ == 0) { latest_valid_backup_id_ = backup_iter->first; } --valid_backups_to_open; } } for (const auto& corrupt : corrupt_backups_) { backups_.erase(backups_.find(corrupt.first)); } // erase the backups before max_valid_backups_to_open int num_unopened_backups; if (options_.max_valid_backups_to_open == 0) { num_unopened_backups = 0; } else { num_unopened_backups = std::max(0, static_cast(backups_.size()) - options_.max_valid_backups_to_open); } for (int i = 0; i < num_unopened_backups; ++i) { assert(backups_.begin()->second->Empty()); backups_.erase(backups_.begin()); } } ROCKS_LOG_INFO(options_.info_log, "Latest backup is %u", latest_backup_id_); ROCKS_LOG_INFO(options_.info_log, "Latest valid backup is %u", latest_valid_backup_id_); // set up threads perform copies from files_to_copy_or_create_ in the // background for (int t = 0; t < options_.max_background_operations; t++) { threads_.emplace_back([this]() { #if defined(_GNU_SOURCE) && defined(__GLIBC_PREREQ) #if __GLIBC_PREREQ(2, 12) pthread_setname_np(pthread_self(), "backup_engine"); #endif #endif CopyOrCreateWorkItem work_item; while (files_to_copy_or_create_.read(work_item)) { CopyOrCreateResult result; result.status = CopyOrCreateFile( work_item.src_path, work_item.dst_path, work_item.contents, work_item.src_env, work_item.dst_env, work_item.src_env_options, work_item.sync, work_item.rate_limiter, &result.size, &result.checksum_value, work_item.size_limit, work_item.progress_callback); work_item.result.set_value(std::move(result)); } }); } ROCKS_LOG_INFO(options_.info_log, "Initialized BackupEngine"); return Status::OK(); } Status BackupEngineImpl::CreateNewBackupWithMetadata( DB* db, const std::string& app_metadata, bool flush_before_backup, std::function progress_callback) { assert(initialized_); assert(!read_only_); if (app_metadata.size() > kMaxAppMetaSize) { return Status::InvalidArgument("App metadata too large"); } BackupID new_backup_id = latest_backup_id_ + 1; assert(backups_.find(new_backup_id) == backups_.end()); auto private_dir = GetAbsolutePath(GetPrivateFileRel(new_backup_id)); Status s = backup_env_->FileExists(private_dir); if (s.ok()) { // maybe last backup failed and left partial state behind, clean it up. // need to do this before updating backups_ such that a private dir // named after new_backup_id will be cleaned up s = GarbageCollect(); } else if (s.IsNotFound()) { // normal case, the new backup's private dir doesn't exist yet s = Status::OK(); } auto ret = backups_.insert(std::make_pair( new_backup_id, std::unique_ptr(new BackupMeta( GetBackupMetaFile(new_backup_id, false /* tmp */), GetBackupMetaFile(new_backup_id, true /* tmp */), &backuped_file_infos_, backup_env_)))); assert(ret.second == true); auto& new_backup = ret.first->second; new_backup->RecordTimestamp(); new_backup->SetAppMetadata(app_metadata); auto start_backup = backup_env_->NowMicros(); ROCKS_LOG_INFO(options_.info_log, "Started the backup process -- creating backup %u", new_backup_id); if (s.ok()) { s = backup_env_->CreateDir(private_dir); } RateLimiter* rate_limiter = options_.backup_rate_limiter.get(); if (rate_limiter) { copy_file_buffer_size_ = static_cast(rate_limiter->GetSingleBurstBytes()); } // A set into which we will insert the dst_paths that are calculated for live // files and live WAL files. // This is used to check whether a live files shares a dst_path with another // live file. std::unordered_set live_dst_paths; std::vector backup_items_to_finish; // Add a CopyOrCreateWorkItem to the channel for each live file db->DisableFileDeletions(); if (s.ok()) { CheckpointImpl checkpoint(db); uint64_t sequence_number = 0; DBOptions db_options = db->GetDBOptions(); EnvOptions src_raw_env_options(db_options); s = checkpoint.CreateCustomCheckpoint( db_options, [&](const std::string& /*src_dirname*/, const std::string& /*fname*/, FileType) { // custom checkpoint will switch to calling copy_file_cb after it sees // NotSupported returned from link_file_cb. return Status::NotSupported(); } /* link_file_cb */, [&](const std::string& src_dirname, const std::string& fname, uint64_t size_limit_bytes, FileType type) { if (type == kLogFile && !options_.backup_log_files) { return Status::OK(); } Log(options_.info_log, "add file for backup %s", fname.c_str()); uint64_t size_bytes = 0; Status st; if (type == kTableFile) { st = db_env_->GetFileSize(src_dirname + fname, &size_bytes); } EnvOptions src_env_options; switch (type) { case kLogFile: src_env_options = db_env_->OptimizeForLogRead(src_raw_env_options); break; case kTableFile: src_env_options = db_env_->OptimizeForCompactionTableRead( src_raw_env_options, ImmutableDBOptions(db_options)); break; case kDescriptorFile: src_env_options = db_env_->OptimizeForManifestRead(src_raw_env_options); break; default: // Other backed up files (like options file) are not read by live // DB, so don't need to worry about avoiding mixing buffered and // direct I/O. Just use plain defaults. src_env_options = src_raw_env_options; break; } if (st.ok()) { st = AddBackupFileWorkItem( live_dst_paths, backup_items_to_finish, new_backup_id, options_.share_table_files && type == kTableFile, src_dirname, fname, src_env_options, rate_limiter, size_bytes, size_limit_bytes, options_.share_files_with_checksum && type == kTableFile, progress_callback); } return st; } /* copy_file_cb */, [&](const std::string& fname, const std::string& contents, FileType) { Log(options_.info_log, "add file for backup %s", fname.c_str()); return AddBackupFileWorkItem( live_dst_paths, backup_items_to_finish, new_backup_id, false /* shared */, "" /* src_dir */, fname, EnvOptions() /* src_env_options */, rate_limiter, contents.size(), 0 /* size_limit */, false /* shared_checksum */, progress_callback, contents); } /* create_file_cb */, &sequence_number, flush_before_backup ? 0 : port::kMaxUint64); if (s.ok()) { new_backup->SetSequenceNumber(sequence_number); } } ROCKS_LOG_INFO(options_.info_log, "add files for backup done, wait finish."); Status item_status; for (auto& item : backup_items_to_finish) { item.result.wait(); auto result = item.result.get(); item_status = result.status; if (item_status.ok() && item.shared && item.needed_to_copy) { item_status = item.backup_env->RenameFile(item.dst_path_tmp, item.dst_path); } if (item_status.ok()) { item_status = new_backup.get()->AddFile( std::make_shared(item.dst_relative, result.size, result.checksum_value)); } if (!item_status.ok()) { s = item_status; } } // we copied all the files, enable file deletions db->EnableFileDeletions(false); auto backup_time = backup_env_->NowMicros() - start_backup; if (s.ok()) { // persist the backup metadata on the disk s = new_backup->StoreToFile(options_.sync); } if (s.ok() && options_.sync) { std::unique_ptr backup_private_directory; backup_env_->NewDirectory( GetAbsolutePath(GetPrivateFileRel(new_backup_id, false)), &backup_private_directory); if (backup_private_directory != nullptr) { s = backup_private_directory->Fsync(); } if (s.ok() && private_directory_ != nullptr) { s = private_directory_->Fsync(); } if (s.ok() && meta_directory_ != nullptr) { s = meta_directory_->Fsync(); } if (s.ok() && shared_directory_ != nullptr) { s = shared_directory_->Fsync(); } if (s.ok() && backup_directory_ != nullptr) { s = backup_directory_->Fsync(); } } if (s.ok()) { backup_statistics_.IncrementNumberSuccessBackup(); } if (!s.ok()) { backup_statistics_.IncrementNumberFailBackup(); // clean all the files we might have created ROCKS_LOG_INFO(options_.info_log, "Backup failed -- %s", s.ToString().c_str()); ROCKS_LOG_INFO(options_.info_log, "Backup Statistics %s\n", backup_statistics_.ToString().c_str()); // delete files that we might have already written might_need_garbage_collect_ = true; DeleteBackup(new_backup_id); return s; } // here we know that we succeeded and installed the new backup // in the LATEST_BACKUP file latest_backup_id_ = new_backup_id; latest_valid_backup_id_ = new_backup_id; ROCKS_LOG_INFO(options_.info_log, "Backup DONE. All is good"); // backup_speed is in byte/second double backup_speed = new_backup->GetSize() / (1.048576 * backup_time); ROCKS_LOG_INFO(options_.info_log, "Backup number of files: %u", new_backup->GetNumberFiles()); char human_size[16]; AppendHumanBytes(new_backup->GetSize(), human_size, sizeof(human_size)); ROCKS_LOG_INFO(options_.info_log, "Backup size: %s", human_size); ROCKS_LOG_INFO(options_.info_log, "Backup time: %" PRIu64 " microseconds", backup_time); ROCKS_LOG_INFO(options_.info_log, "Backup speed: %.3f MB/s", backup_speed); ROCKS_LOG_INFO(options_.info_log, "Backup Statistics %s", backup_statistics_.ToString().c_str()); return s; } Status BackupEngineImpl::PurgeOldBackups(uint32_t num_backups_to_keep) { assert(initialized_); assert(!read_only_); // Best effort deletion even with errors Status overall_status = Status::OK(); ROCKS_LOG_INFO(options_.info_log, "Purging old backups, keeping %u", num_backups_to_keep); std::vector to_delete; auto itr = backups_.begin(); while ((backups_.size() - to_delete.size()) > num_backups_to_keep) { to_delete.push_back(itr->first); itr++; } for (auto backup_id : to_delete) { auto s = DeleteBackupInternal(backup_id); if (!s.ok()) { overall_status = s; } } // Clean up after any incomplete backup deletion, potentially from // earlier session. if (might_need_garbage_collect_) { auto s = GarbageCollect(); if (!s.ok() && overall_status.ok()) { overall_status = s; } } return overall_status; } Status BackupEngineImpl::DeleteBackup(BackupID backup_id) { auto s1 = DeleteBackupInternal(backup_id); auto s2 = Status::OK(); // Clean up after any incomplete backup deletion, potentially from // earlier session. if (might_need_garbage_collect_) { s2 = GarbageCollect(); } if (!s1.ok()) { return s1; } else { return s2; } } // Does not auto-GarbageCollect Status BackupEngineImpl::DeleteBackupInternal(BackupID backup_id) { assert(initialized_); assert(!read_only_); ROCKS_LOG_INFO(options_.info_log, "Deleting backup %u", backup_id); auto backup = backups_.find(backup_id); if (backup != backups_.end()) { auto s = backup->second->Delete(); if (!s.ok()) { return s; } backups_.erase(backup); } else { auto corrupt = corrupt_backups_.find(backup_id); if (corrupt == corrupt_backups_.end()) { return Status::NotFound("Backup not found"); } auto s = corrupt->second.second->Delete(); if (!s.ok()) { return s; } corrupt_backups_.erase(corrupt); } // After removing meta file, best effort deletion even with errors. // (Don't delete other files if we can't delete the meta file right // now.) if (options_.max_valid_backups_to_open == port::kMaxInt32) { std::vector to_delete; for (auto& itr : backuped_file_infos_) { if (itr.second->refs == 0) { Status s = backup_env_->DeleteFile(GetAbsolutePath(itr.first)); ROCKS_LOG_INFO(options_.info_log, "Deleting %s -- %s", itr.first.c_str(), s.ToString().c_str()); to_delete.push_back(itr.first); if (!s.ok()) { // Trying again later might work might_need_garbage_collect_ = true; } } } for (auto& td : to_delete) { backuped_file_infos_.erase(td); } } else { ROCKS_LOG_WARN( options_.info_log, "DeleteBackup cleanup is limited since `max_valid_backups_to_open` " "constrains how many backups the engine knows about"); } // take care of private dirs -- GarbageCollect() will take care of them // if they are not empty std::string private_dir = GetPrivateFileRel(backup_id); Status s = backup_env_->DeleteDir(GetAbsolutePath(private_dir)); ROCKS_LOG_INFO(options_.info_log, "Deleting private dir %s -- %s", private_dir.c_str(), s.ToString().c_str()); if (!s.ok()) { // Full gc or trying again later might work might_need_garbage_collect_ = true; } return Status::OK(); } void BackupEngineImpl::GetBackupInfo(std::vector* backup_info) { assert(initialized_); backup_info->reserve(backups_.size()); for (auto& backup : backups_) { if (!backup.second->Empty()) { backup_info->push_back(BackupInfo( backup.first, backup.second->GetTimestamp(), backup.second->GetSize(), backup.second->GetNumberFiles(), backup.second->GetAppMetadata())); } } } void BackupEngineImpl::GetCorruptedBackups( std::vector* corrupt_backup_ids) { assert(initialized_); corrupt_backup_ids->reserve(corrupt_backups_.size()); for (auto& backup : corrupt_backups_) { corrupt_backup_ids->push_back(backup.first); } } Status BackupEngineImpl::RestoreDBFromBackup( BackupID backup_id, const std::string& db_dir, const std::string& wal_dir, const RestoreOptions& restore_options) { assert(initialized_); auto corrupt_itr = corrupt_backups_.find(backup_id); if (corrupt_itr != corrupt_backups_.end()) { return corrupt_itr->second.first; } auto backup_itr = backups_.find(backup_id); if (backup_itr == backups_.end()) { return Status::NotFound("Backup not found"); } auto& backup = backup_itr->second; if (backup->Empty()) { return Status::NotFound("Backup not found"); } ROCKS_LOG_INFO(options_.info_log, "Restoring backup id %u\n", backup_id); ROCKS_LOG_INFO(options_.info_log, "keep_log_files: %d\n", static_cast(restore_options.keep_log_files)); // just in case. Ignore errors db_env_->CreateDirIfMissing(db_dir); db_env_->CreateDirIfMissing(wal_dir); if (restore_options.keep_log_files) { // delete files in db_dir, but keep all the log files DeleteChildren(db_dir, 1 << kLogFile); // move all the files from archive dir to wal_dir std::string archive_dir = ArchivalDirectory(wal_dir); std::vector archive_files; db_env_->GetChildren(archive_dir, &archive_files); // ignore errors for (const auto& f : archive_files) { uint64_t number; FileType type; bool ok = ParseFileName(f, &number, &type); if (ok && type == kLogFile) { ROCKS_LOG_INFO(options_.info_log, "Moving log file from archive/ to wal_dir: %s", f.c_str()); Status s = db_env_->RenameFile(archive_dir + "/" + f, wal_dir + "/" + f); if (!s.ok()) { // if we can't move log file from archive_dir to wal_dir, // we should fail, since it might mean data loss return s; } } } } else { DeleteChildren(wal_dir); DeleteChildren(ArchivalDirectory(wal_dir)); DeleteChildren(db_dir); } RateLimiter* rate_limiter = options_.restore_rate_limiter.get(); if (rate_limiter) { copy_file_buffer_size_ = static_cast(rate_limiter->GetSingleBurstBytes()); } Status s; std::vector restore_items_to_finish; for (const auto& file_info : backup->GetFiles()) { const std::string &file = file_info->filename; std::string dst; // 1. extract the filename size_t slash = file.find_last_of('/'); // file will either be shared/, shared_checksum/ // or private// assert(slash != std::string::npos); dst = file.substr(slash + 1); // if the file was in shared_checksum, extract the real file name // in this case the file is __. if (file.substr(0, slash) == GetSharedChecksumDirRel()) { dst = GetFileFromChecksumFile(dst); } // 2. find the filetype uint64_t number; FileType type; bool ok = ParseFileName(dst, &number, &type); if (!ok) { return Status::Corruption("Backup corrupted"); } // 3. Construct the final path // kLogFile lives in wal_dir and all the rest live in db_dir dst = ((type == kLogFile) ? wal_dir : db_dir) + "/" + dst; ROCKS_LOG_INFO(options_.info_log, "Restoring %s to %s\n", file.c_str(), dst.c_str()); CopyOrCreateWorkItem copy_or_create_work_item( GetAbsolutePath(file), dst, "" /* contents */, backup_env_, db_env_, EnvOptions() /* src_env_options */, false, rate_limiter, 0 /* size_limit */); RestoreAfterCopyOrCreateWorkItem after_copy_or_create_work_item( copy_or_create_work_item.result.get_future(), file_info->checksum_value); files_to_copy_or_create_.write(std::move(copy_or_create_work_item)); restore_items_to_finish.push_back( std::move(after_copy_or_create_work_item)); } Status item_status; for (auto& item : restore_items_to_finish) { item.result.wait(); auto result = item.result.get(); item_status = result.status; // Note: It is possible that both of the following bad-status cases occur // during copying. But, we only return one status. if (!item_status.ok()) { s = item_status; break; } else if (item.checksum_value != result.checksum_value) { s = Status::Corruption("Checksum check failed"); break; } } ROCKS_LOG_INFO(options_.info_log, "Restoring done -- %s\n", s.ToString().c_str()); return s; } Status BackupEngineImpl::VerifyBackup(BackupID backup_id) { assert(initialized_); auto corrupt_itr = corrupt_backups_.find(backup_id); if (corrupt_itr != corrupt_backups_.end()) { return corrupt_itr->second.first; } auto backup_itr = backups_.find(backup_id); if (backup_itr == backups_.end()) { return Status::NotFound(); } auto& backup = backup_itr->second; if (backup->Empty()) { return Status::NotFound(); } ROCKS_LOG_INFO(options_.info_log, "Verifying backup id %u\n", backup_id); std::unordered_map curr_abs_path_to_size; for (const auto& rel_dir : {GetPrivateFileRel(backup_id), GetSharedFileRel(), GetSharedFileWithChecksumRel()}) { const auto abs_dir = GetAbsolutePath(rel_dir); InsertPathnameToSizeBytes(abs_dir, backup_env_, &curr_abs_path_to_size); } for (const auto& file_info : backup->GetFiles()) { const auto abs_path = GetAbsolutePath(file_info->filename); if (curr_abs_path_to_size.find(abs_path) == curr_abs_path_to_size.end()) { return Status::NotFound("File missing: " + abs_path); } if (file_info->size != curr_abs_path_to_size[abs_path]) { return Status::Corruption("File corrupted: " + abs_path); } } return Status::OK(); } Status BackupEngineImpl::CopyOrCreateFile( const std::string& src, const std::string& dst, const std::string& contents, Env* src_env, Env* dst_env, const EnvOptions& src_env_options, bool sync, RateLimiter* rate_limiter, uint64_t* size, uint32_t* checksum_value, uint64_t size_limit, std::function progress_callback) { assert(src.empty() != contents.empty()); Status s; std::unique_ptr dst_file; std::unique_ptr src_file; EnvOptions dst_env_options; dst_env_options.use_mmap_writes = false; // TODO:(gzh) maybe use direct reads/writes here if possible if (size != nullptr) { *size = 0; } if (checksum_value != nullptr) { *checksum_value = 0; } // Check if size limit is set. if not, set it to very big number if (size_limit == 0) { size_limit = std::numeric_limits::max(); } s = dst_env->NewWritableFile(dst, &dst_file, dst_env_options); if (s.ok() && !src.empty()) { s = src_env->NewSequentialFile(src, &src_file, src_env_options); } if (!s.ok()) { return s; } std::unique_ptr dest_writer( new WritableFileWriter(std::move(dst_file), dst, dst_env_options)); std::unique_ptr src_reader; std::unique_ptr buf; if (!src.empty()) { src_reader.reset(new SequentialFileReader(std::move(src_file), src)); buf.reset(new char[copy_file_buffer_size_]); } Slice data; uint64_t processed_buffer_size = 0; do { if (stop_backup_.load(std::memory_order_acquire)) { return Status::Incomplete("Backup stopped"); } if (!src.empty()) { size_t buffer_to_read = (copy_file_buffer_size_ < size_limit) ? copy_file_buffer_size_ : static_cast(size_limit); s = src_reader->Read(buffer_to_read, &data, buf.get()); processed_buffer_size += buffer_to_read; } else { data = contents; } size_limit -= data.size(); if (!s.ok()) { return s; } if (size != nullptr) { *size += data.size(); } if (checksum_value != nullptr) { *checksum_value = crc32c::Extend(*checksum_value, data.data(), data.size()); } s = dest_writer->Append(data); if (rate_limiter != nullptr) { rate_limiter->Request(data.size(), Env::IO_LOW, nullptr /* stats */, RateLimiter::OpType::kWrite); } if (processed_buffer_size > options_.callback_trigger_interval_size) { processed_buffer_size -= options_.callback_trigger_interval_size; std::lock_guard lock(byte_report_mutex_); progress_callback(); } } while (s.ok() && contents.empty() && data.size() > 0 && size_limit > 0); if (s.ok() && sync) { s = dest_writer->Sync(false); } if (s.ok()) { s = dest_writer->Close(); } return s; } // fname will always start with "/" Status BackupEngineImpl::AddBackupFileWorkItem( std::unordered_set& live_dst_paths, std::vector& backup_items_to_finish, BackupID backup_id, bool shared, const std::string& src_dir, const std::string& fname, const EnvOptions& src_env_options, RateLimiter* rate_limiter, uint64_t size_bytes, uint64_t size_limit, bool shared_checksum, std::function progress_callback, const std::string& contents) { assert(!fname.empty() && fname[0] == '/'); assert(contents.empty() != src_dir.empty()); std::string dst_relative = fname.substr(1); std::string dst_relative_tmp; Status s; uint32_t checksum_value = 0; if (shared && shared_checksum) { // add checksum and file length to the file name s = CalculateChecksum(src_dir + fname, db_env_, src_env_options, size_limit, &checksum_value); if (!s.ok()) { return s; } if (size_bytes == port::kMaxUint64) { return Status::NotFound("File missing: " + src_dir + fname); } dst_relative = GetSharedFileWithChecksum(dst_relative, checksum_value, size_bytes); dst_relative_tmp = GetSharedFileWithChecksumRel(dst_relative, true); dst_relative = GetSharedFileWithChecksumRel(dst_relative, false); } else if (shared) { dst_relative_tmp = GetSharedFileRel(dst_relative, true); dst_relative = GetSharedFileRel(dst_relative, false); } else { dst_relative = GetPrivateFileRel(backup_id, false, dst_relative); } // We copy into `temp_dest_path` and, once finished, rename it to // `final_dest_path`. This allows files to atomically appear at // `final_dest_path`. We can copy directly to the final path when atomicity // is unnecessary, like for files in private backup directories. const std::string* copy_dest_path; std::string temp_dest_path; std::string final_dest_path = GetAbsolutePath(dst_relative); if (!dst_relative_tmp.empty()) { temp_dest_path = GetAbsolutePath(dst_relative_tmp); copy_dest_path = &temp_dest_path; } else { copy_dest_path = &final_dest_path; } // if it's shared, we also need to check if it exists -- if it does, no need // to copy it again. bool need_to_copy = true; // true if final_dest_path is the same path as another live file const bool same_path = live_dst_paths.find(final_dest_path) != live_dst_paths.end(); bool file_exists = false; if (shared && !same_path) { Status exist = backup_env_->FileExists(final_dest_path); if (exist.ok()) { file_exists = true; } else if (exist.IsNotFound()) { file_exists = false; } else { assert(s.IsIOError()); return exist; } } if (!contents.empty()) { need_to_copy = false; } else if (shared && (same_path || file_exists)) { need_to_copy = false; if (shared_checksum) { ROCKS_LOG_INFO(options_.info_log, "%s already present, with checksum %u and size %" PRIu64, fname.c_str(), checksum_value, size_bytes); } else if (backuped_file_infos_.find(dst_relative) == backuped_file_infos_.end() && !same_path) { // file already exists, but it's not referenced by any backup. overwrite // the file ROCKS_LOG_INFO( options_.info_log, "%s already present, but not referenced by any backup. We will " "overwrite the file.", fname.c_str()); need_to_copy = true; backup_env_->DeleteFile(final_dest_path); } else { // the file is present and referenced by a backup ROCKS_LOG_INFO(options_.info_log, "%s already present, calculate checksum", fname.c_str()); s = CalculateChecksum(src_dir + fname, db_env_, src_env_options, size_limit, &checksum_value); } } live_dst_paths.insert(final_dest_path); if (!contents.empty() || need_to_copy) { ROCKS_LOG_INFO(options_.info_log, "Copying %s to %s", fname.c_str(), copy_dest_path->c_str()); CopyOrCreateWorkItem copy_or_create_work_item( src_dir.empty() ? "" : src_dir + fname, *copy_dest_path, contents, db_env_, backup_env_, src_env_options, options_.sync, rate_limiter, size_limit, progress_callback); BackupAfterCopyOrCreateWorkItem after_copy_or_create_work_item( copy_or_create_work_item.result.get_future(), shared, need_to_copy, backup_env_, temp_dest_path, final_dest_path, dst_relative); files_to_copy_or_create_.write(std::move(copy_or_create_work_item)); backup_items_to_finish.push_back(std::move(after_copy_or_create_work_item)); } else { std::promise promise_result; BackupAfterCopyOrCreateWorkItem after_copy_or_create_work_item( promise_result.get_future(), shared, need_to_copy, backup_env_, temp_dest_path, final_dest_path, dst_relative); backup_items_to_finish.push_back(std::move(after_copy_or_create_work_item)); CopyOrCreateResult result; result.status = s; result.size = size_bytes; result.checksum_value = checksum_value; promise_result.set_value(std::move(result)); } return s; } Status BackupEngineImpl::CalculateChecksum(const std::string& src, Env* src_env, const EnvOptions& src_env_options, uint64_t size_limit, uint32_t* checksum_value) { *checksum_value = 0; if (size_limit == 0) { size_limit = std::numeric_limits::max(); } std::unique_ptr src_file; Status s = src_env->NewSequentialFile(src, &src_file, src_env_options); if (!s.ok()) { return s; } std::unique_ptr src_reader( new SequentialFileReader(std::move(src_file), src)); std::unique_ptr buf(new char[copy_file_buffer_size_]); Slice data; do { if (stop_backup_.load(std::memory_order_acquire)) { return Status::Incomplete("Backup stopped"); } size_t buffer_to_read = (copy_file_buffer_size_ < size_limit) ? copy_file_buffer_size_ : static_cast(size_limit); s = src_reader->Read(buffer_to_read, &data, buf.get()); if (!s.ok()) { return s; } size_limit -= data.size(); *checksum_value = crc32c::Extend(*checksum_value, data.data(), data.size()); } while (data.size() > 0 && size_limit > 0); return s; } void BackupEngineImpl::DeleteChildren(const std::string& dir, uint32_t file_type_filter) { std::vector children; db_env_->GetChildren(dir, &children); // ignore errors for (const auto& f : children) { uint64_t number; FileType type; bool ok = ParseFileName(f, &number, &type); if (ok && (file_type_filter & (1 << type))) { // don't delete this file continue; } db_env_->DeleteFile(dir + "/" + f); // ignore errors } } Status BackupEngineImpl::InsertPathnameToSizeBytes( const std::string& dir, Env* env, std::unordered_map* result) { assert(result != nullptr); std::vector files_attrs; Status status = env->FileExists(dir); if (status.ok()) { status = env->GetChildrenFileAttributes(dir, &files_attrs); } else if (status.IsNotFound()) { // Insert no entries can be considered success status = Status::OK(); } const bool slash_needed = dir.empty() || dir.back() != '/'; for (const auto& file_attrs : files_attrs) { result->emplace(dir + (slash_needed ? "/" : "") + file_attrs.name, file_attrs.size_bytes); } return status; } Status BackupEngineImpl::GarbageCollect() { assert(!read_only_); // We will make a best effort to remove all garbage even in the presence // of inconsistencies or I/O failures that inhibit finding garbage. Status overall_status = Status::OK(); // If all goes well, we don't need another auto-GC this session might_need_garbage_collect_ = false; ROCKS_LOG_INFO(options_.info_log, "Starting garbage collection"); if (options_.max_valid_backups_to_open != port::kMaxInt32) { ROCKS_LOG_WARN( options_.info_log, "Garbage collection is limited since `max_valid_backups_to_open` " "constrains how many backups the engine knows about"); } if (options_.share_table_files && options_.max_valid_backups_to_open == port::kMaxInt32) { // delete obsolete shared files // we cannot do this when BackupEngine has `max_valid_backups_to_open` set // as those engines don't know about all shared files. std::vector shared_children; { std::string shared_path; if (options_.share_files_with_checksum) { shared_path = GetAbsolutePath(GetSharedFileWithChecksumRel()); } else { shared_path = GetAbsolutePath(GetSharedFileRel()); } auto s = backup_env_->FileExists(shared_path); if (s.ok()) { s = backup_env_->GetChildren(shared_path, &shared_children); } else if (s.IsNotFound()) { s = Status::OK(); } if (!s.ok()) { overall_status = s; // Trying again later might work might_need_garbage_collect_ = true; } } for (auto& child : shared_children) { std::string rel_fname; if (options_.share_files_with_checksum) { rel_fname = GetSharedFileWithChecksumRel(child); } else { rel_fname = GetSharedFileRel(child); } auto child_itr = backuped_file_infos_.find(rel_fname); // if it's not refcounted, delete it if (child_itr == backuped_file_infos_.end() || child_itr->second->refs == 0) { // this might be a directory, but DeleteFile will just fail in that // case, so we're good Status s = backup_env_->DeleteFile(GetAbsolutePath(rel_fname)); ROCKS_LOG_INFO(options_.info_log, "Deleting %s -- %s", rel_fname.c_str(), s.ToString().c_str()); backuped_file_infos_.erase(rel_fname); if (!s.ok()) { // Trying again later might work might_need_garbage_collect_ = true; } } } } // delete obsolete private files std::vector private_children; { auto s = backup_env_->GetChildren(GetAbsolutePath(GetPrivateDirRel()), &private_children); if (!s.ok()) { overall_status = s; // Trying again later might work might_need_garbage_collect_ = true; } } for (auto& child : private_children) { // it's ok to do this when BackupEngine has `max_valid_backups_to_open` set // as the engine always knows all valid backup numbers. BackupID backup_id = 0; bool tmp_dir = child.find(".tmp") != std::string::npos; sscanf(child.c_str(), "%u", &backup_id); if (!tmp_dir && // if it's tmp_dir, delete it (backup_id == 0 || backups_.find(backup_id) != backups_.end())) { // it's either not a number or it's still alive. continue continue; } // here we have to delete the dir and all its children std::string full_private_path = GetAbsolutePath(GetPrivateFileRel(backup_id)); std::vector subchildren; backup_env_->GetChildren(full_private_path, &subchildren); for (auto& subchild : subchildren) { Status s = backup_env_->DeleteFile(full_private_path + subchild); ROCKS_LOG_INFO(options_.info_log, "Deleting %s -- %s", (full_private_path + subchild).c_str(), s.ToString().c_str()); if (!s.ok()) { // Trying again later might work might_need_garbage_collect_ = true; } } // finally delete the private dir Status s = backup_env_->DeleteDir(full_private_path); ROCKS_LOG_INFO(options_.info_log, "Deleting dir %s -- %s", full_private_path.c_str(), s.ToString().c_str()); if (!s.ok()) { // Trying again later might work might_need_garbage_collect_ = true; } } assert(overall_status.ok() || might_need_garbage_collect_); return overall_status; } // ------- BackupMeta class -------- Status BackupEngineImpl::BackupMeta::AddFile( std::shared_ptr file_info) { auto itr = file_infos_->find(file_info->filename); if (itr == file_infos_->end()) { auto ret = file_infos_->insert({file_info->filename, file_info}); if (ret.second) { itr = ret.first; itr->second->refs = 1; } else { // if this happens, something is seriously wrong return Status::Corruption("In memory metadata insertion error"); } } else { if (itr->second->checksum_value != file_info->checksum_value) { return Status::Corruption( "Checksum mismatch for existing backup file. Delete old backups and " "try again."); } ++itr->second->refs; // increase refcount if already present } size_ += file_info->size; files_.push_back(itr->second); return Status::OK(); } Status BackupEngineImpl::BackupMeta::Delete(bool delete_meta) { Status s; for (const auto& file : files_) { --file->refs; // decrease refcount } files_.clear(); // delete meta file if (delete_meta) { s = env_->FileExists(meta_filename_); if (s.ok()) { s = env_->DeleteFile(meta_filename_); } else if (s.IsNotFound()) { s = Status::OK(); // nothing to delete } } timestamp_ = 0; return s; } Slice kMetaDataPrefix("metadata "); // each backup meta file is of the format: // // // (optional) // // // // ... Status BackupEngineImpl::BackupMeta::LoadFromFile( const std::string& backup_dir, const std::unordered_map& abs_path_to_size) { assert(Empty()); Status s; std::unique_ptr backup_meta_file; s = env_->NewSequentialFile(meta_filename_, &backup_meta_file, EnvOptions()); if (!s.ok()) { return s; } std::unique_ptr backup_meta_reader( new SequentialFileReader(std::move(backup_meta_file), meta_filename_)); std::unique_ptr buf(new char[max_backup_meta_file_size_ + 1]); Slice data; s = backup_meta_reader->Read(max_backup_meta_file_size_, &data, buf.get()); if (!s.ok() || data.size() == max_backup_meta_file_size_) { return s.ok() ? Status::Corruption("File size too big") : s; } buf[data.size()] = 0; uint32_t num_files = 0; char *next; timestamp_ = strtoull(data.data(), &next, 10); data.remove_prefix(next - data.data() + 1); // +1 for '\n' sequence_number_ = strtoull(data.data(), &next, 10); data.remove_prefix(next - data.data() + 1); // +1 for '\n' if (data.starts_with(kMetaDataPrefix)) { // app metadata present data.remove_prefix(kMetaDataPrefix.size()); Slice hex_encoded_metadata = GetSliceUntil(&data, '\n'); bool decode_success = hex_encoded_metadata.DecodeHex(&app_metadata_); if (!decode_success) { return Status::Corruption( "Failed to decode stored hex encoded app metadata"); } } num_files = static_cast(strtoul(data.data(), &next, 10)); data.remove_prefix(next - data.data() + 1); // +1 for '\n' std::vector> files; Slice checksum_prefix("crc32 "); for (uint32_t i = 0; s.ok() && i < num_files; ++i) { auto line = GetSliceUntil(&data, '\n'); std::string filename = GetSliceUntil(&line, ' ').ToString(); uint64_t size; const std::shared_ptr file_info = GetFile(filename); if (file_info) { size = file_info->size; } else { std::string abs_path = backup_dir + "/" + filename; try { size = abs_path_to_size.at(abs_path); } catch (std::out_of_range&) { return Status::Corruption("Size missing for pathname: " + abs_path); } } if (line.empty()) { return Status::Corruption("File checksum is missing for " + filename + " in " + meta_filename_); } uint32_t checksum_value = 0; if (line.starts_with(checksum_prefix)) { line.remove_prefix(checksum_prefix.size()); checksum_value = static_cast( strtoul(line.data(), nullptr, 10)); if (line != rocksdb::ToString(checksum_value)) { return Status::Corruption("Invalid checksum value for " + filename + " in " + meta_filename_); } } else { return Status::Corruption("Unknown checksum type for " + filename + " in " + meta_filename_); } files.emplace_back(new FileInfo(filename, size, checksum_value)); } if (s.ok() && data.size() > 0) { // file has to be read completely. if not, we count it as corruption s = Status::Corruption("Tailing data in backup meta file in " + meta_filename_); } if (s.ok()) { files_.reserve(files.size()); for (const auto& file_info : files) { s = AddFile(file_info); if (!s.ok()) { break; } } } return s; } Status BackupEngineImpl::BackupMeta::StoreToFile(bool sync) { Status s; std::unique_ptr backup_meta_file; EnvOptions env_options; env_options.use_mmap_writes = false; env_options.use_direct_writes = false; s = env_->NewWritableFile(meta_tmp_filename_, &backup_meta_file, env_options); if (!s.ok()) { return s; } std::unique_ptr buf(new char[max_backup_meta_file_size_]); size_t len = 0, buf_size = max_backup_meta_file_size_; len += snprintf(buf.get(), buf_size, "%" PRId64 "\n", timestamp_); len += snprintf(buf.get() + len, buf_size - len, "%" PRIu64 "\n", sequence_number_); if (!app_metadata_.empty()) { std::string hex_encoded_metadata = Slice(app_metadata_).ToString(/* hex */ true); // +1 to accommodate newline character size_t hex_meta_strlen = kMetaDataPrefix.ToString().length() + hex_encoded_metadata.length() + 1; if (hex_meta_strlen >= buf_size) { return Status::Corruption("Buffer too small to fit backup metadata"); } else if (len + hex_meta_strlen >= buf_size) { backup_meta_file->Append(Slice(buf.get(), len)); buf.reset(); std::unique_ptr new_reset_buf( new char[max_backup_meta_file_size_]); buf.swap(new_reset_buf); len = 0; } len += snprintf(buf.get() + len, buf_size - len, "%s%s\n", kMetaDataPrefix.ToString().c_str(), hex_encoded_metadata.c_str()); } char writelen_temp[19]; if (len + snprintf(writelen_temp, sizeof(writelen_temp), "%" ROCKSDB_PRIszt "\n", files_.size()) >= buf_size) { backup_meta_file->Append(Slice(buf.get(), len)); buf.reset(); std::unique_ptr new_reset_buf(new char[max_backup_meta_file_size_]); buf.swap(new_reset_buf); len = 0; } { const char *const_write = writelen_temp; len += snprintf(buf.get() + len, buf_size - len, "%s", const_write); } for (const auto& file : files_) { // use crc32 for now, switch to something else if needed size_t newlen = len + file->filename.length() + snprintf(writelen_temp, sizeof(writelen_temp), " crc32 %u\n", file->checksum_value); const char *const_write = writelen_temp; if (newlen >= buf_size) { backup_meta_file->Append(Slice(buf.get(), len)); buf.reset(); std::unique_ptr new_reset_buf( new char[max_backup_meta_file_size_]); buf.swap(new_reset_buf); len = 0; } len += snprintf(buf.get() + len, buf_size - len, "%s%s", file->filename.c_str(), const_write); } s = backup_meta_file->Append(Slice(buf.get(), len)); if (s.ok() && sync) { s = backup_meta_file->Sync(); } if (s.ok()) { s = backup_meta_file->Close(); } if (s.ok()) { s = env_->RenameFile(meta_tmp_filename_, meta_filename_); } return s; } // -------- BackupEngineReadOnlyImpl --------- class BackupEngineReadOnlyImpl : public BackupEngineReadOnly { public: BackupEngineReadOnlyImpl(Env* db_env, const BackupableDBOptions& options) : backup_engine_(new BackupEngineImpl(db_env, options, true)) {} ~BackupEngineReadOnlyImpl() override {} // The returned BackupInfos are in chronological order, which means the // latest backup comes last. void GetBackupInfo(std::vector* backup_info) override { backup_engine_->GetBackupInfo(backup_info); } void GetCorruptedBackups(std::vector* corrupt_backup_ids) override { backup_engine_->GetCorruptedBackups(corrupt_backup_ids); } Status RestoreDBFromBackup( BackupID backup_id, const std::string& db_dir, const std::string& wal_dir, const RestoreOptions& restore_options = RestoreOptions()) override { return backup_engine_->RestoreDBFromBackup(backup_id, db_dir, wal_dir, restore_options); } Status RestoreDBFromLatestBackup( const std::string& db_dir, const std::string& wal_dir, const RestoreOptions& restore_options = RestoreOptions()) override { return backup_engine_->RestoreDBFromLatestBackup(db_dir, wal_dir, restore_options); } Status VerifyBackup(BackupID backup_id) override { return backup_engine_->VerifyBackup(backup_id); } Status Initialize() { return backup_engine_->Initialize(); } private: std::unique_ptr backup_engine_; }; Status BackupEngineReadOnly::Open(Env* env, const BackupableDBOptions& options, BackupEngineReadOnly** backup_engine_ptr) { if (options.destroy_old_data) { return Status::InvalidArgument( "Can't destroy old data with ReadOnly BackupEngine"); } std::unique_ptr backup_engine( new BackupEngineReadOnlyImpl(env, options)); auto s = backup_engine->Initialize(); if (!s.ok()) { *backup_engine_ptr = nullptr; return s; } *backup_engine_ptr = backup_engine.release(); return Status::OK(); } } // namespace rocksdb #endif // ROCKSDB_LITE