// 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 "utilities/blob_db/blob_db_impl.h" #include #include #include #include #include #include "db/db_impl.h" #include "db/write_batch_internal.h" #include "monitoring/instrumented_mutex.h" #include "rocksdb/convenience.h" #include "rocksdb/env.h" #include "rocksdb/iterator.h" #include "rocksdb/utilities/stackable_db.h" #include "rocksdb/utilities/transaction.h" #include "table/block.h" #include "table/block_based_table_builder.h" #include "table/block_builder.h" #include "table/meta_blocks.h" #include "util/cast_util.h" #include "util/crc32c.h" #include "util/file_reader_writer.h" #include "util/filename.h" #include "util/logging.h" #include "util/mutexlock.h" #include "util/random.h" #include "util/sync_point.h" #include "util/timer_queue.h" #include "utilities/blob_db/blob_db_iterator.h" #include "utilities/blob_db/blob_index.h" namespace { int kBlockBasedTableVersionFormat = 2; } // end namespace namespace rocksdb { namespace blob_db { Random blob_rgen(static_cast(time(nullptr))); void BlobDBFlushBeginListener::OnFlushBegin(DB* db, const FlushJobInfo& info) { if (impl_) impl_->OnFlushBeginHandler(db, info); } WalFilter::WalProcessingOption BlobReconcileWalFilter::LogRecordFound( unsigned long long log_number, const std::string& log_file_name, const WriteBatch& batch, WriteBatch* new_batch, bool* batch_changed) { return WalFilter::WalProcessingOption::kContinueProcessing; } bool blobf_compare_ttl::operator()(const std::shared_ptr& lhs, const std::shared_ptr& rhs) const { if (lhs->expiration_range_.first < rhs->expiration_range_.first) { return true; } if (lhs->expiration_range_.first > rhs->expiration_range_.first) { return false; } return lhs->BlobFileNumber() < rhs->BlobFileNumber(); } void EvictAllVersionsCompactionListener::InternalListener::OnCompaction( int level, const Slice& key, CompactionEventListener::CompactionListenerValueType value_type, const Slice& existing_value, const SequenceNumber& sn, bool is_new) { assert(impl_->bdb_options_.enable_garbage_collection); if (!is_new && value_type == CompactionEventListener::CompactionListenerValueType::kValue) { BlobIndex blob_index; Status s = blob_index.DecodeFrom(existing_value); if (s.ok()) { if (impl_->debug_level_ >= 3) ROCKS_LOG_INFO( impl_->db_options_.info_log, "CALLBACK COMPACTED OUT KEY: %s SN: %d " "NEW: %d FN: %" PRIu64 " OFFSET: %" PRIu64 " SIZE: %" PRIu64, key.ToString().c_str(), sn, is_new, blob_index.file_number(), blob_index.offset(), blob_index.size()); impl_->override_vals_q_.enqueue({blob_index.file_number(), key.size(), blob_index.offset(), blob_index.size(), sn}); } } else { if (impl_->debug_level_ >= 3) ROCKS_LOG_INFO(impl_->db_options_.info_log, "CALLBACK NEW KEY: %s SN: %d NEW: %d", key.ToString().c_str(), sn, is_new); } } BlobDBImpl::BlobDBImpl(const std::string& dbname, const BlobDBOptions& blob_db_options, const DBOptions& db_options) : BlobDB(nullptr), db_impl_(nullptr), env_(db_options.env), ttl_extractor_(blob_db_options.ttl_extractor.get()), bdb_options_(blob_db_options), db_options_(db_options), env_options_(db_options), dir_change_(false), next_file_number_(1), epoch_of_(0), shutdown_(false), current_epoch_(0), open_file_count_(0), last_period_write_(0), last_period_ampl_(0), total_periods_write_(0), total_periods_ampl_(0), total_blob_space_(0), open_p1_done_(false), debug_level_(0), oldest_file_evicted_(false) { blob_dir_ = (bdb_options_.path_relative) ? dbname + "/" + bdb_options_.blob_dir : bdb_options_.blob_dir; } Status BlobDBImpl::LinkToBaseDB(DB* db) { assert(db_ == nullptr); assert(open_p1_done_); db_ = db; // the Base DB in-itself can be a stackable DB db_impl_ = static_cast_with_check(db_->GetRootDB()); env_ = db_->GetEnv(); Status s = env_->CreateDirIfMissing(blob_dir_); if (!s.ok()) { ROCKS_LOG_WARN(db_options_.info_log, "Failed to create blob directory: %s status: '%s'", blob_dir_.c_str(), s.ToString().c_str()); } s = env_->NewDirectory(blob_dir_, &dir_ent_); if (!s.ok()) { ROCKS_LOG_WARN(db_options_.info_log, "Failed to open blob directory: %s status: '%s'", blob_dir_.c_str(), s.ToString().c_str()); } if (!bdb_options_.disable_background_tasks) { StartBackgroundTasks(); } return s; } BlobDBOptions BlobDBImpl::GetBlobDBOptions() const { return bdb_options_; } BlobDBImpl::BlobDBImpl(DB* db, const BlobDBOptions& blob_db_options) : BlobDB(db), db_impl_(static_cast_with_check(db)), bdb_options_(blob_db_options), db_options_(db->GetOptions()), env_options_(db_->GetOptions()), dir_change_(false), next_file_number_(1), epoch_of_(0), shutdown_(false), current_epoch_(0), open_file_count_(0), last_period_write_(0), last_period_ampl_(0), total_periods_write_(0), total_periods_ampl_(0), total_blob_space_(0), oldest_file_evicted_(false) { if (!bdb_options_.blob_dir.empty()) blob_dir_ = (bdb_options_.path_relative) ? db_->GetName() + "/" + bdb_options_.blob_dir : bdb_options_.blob_dir; } BlobDBImpl::~BlobDBImpl() { // CancelAllBackgroundWork(db_, true); Shutdown(); } Status BlobDBImpl::OpenPhase1() { assert(db_ == nullptr); if (blob_dir_.empty()) return Status::NotSupported("No blob directory in options"); std::unique_ptr dir_ent; Status s = env_->NewDirectory(blob_dir_, &dir_ent); if (!s.ok()) { ROCKS_LOG_WARN(db_options_.info_log, "Failed to open blob directory: %s status: '%s'", blob_dir_.c_str(), s.ToString().c_str()); open_p1_done_ = true; return Status::OK(); } s = OpenAllFiles(); open_p1_done_ = true; return s; } void BlobDBImpl::StartBackgroundTasks() { // store a call to a member function and object tqueue_.add( kReclaimOpenFilesPeriodMillisecs, std::bind(&BlobDBImpl::ReclaimOpenFiles, this, std::placeholders::_1)); tqueue_.add(kGCCheckPeriodMillisecs, std::bind(&BlobDBImpl::RunGC, this, std::placeholders::_1)); if (bdb_options_.enable_garbage_collection) { tqueue_.add( kDeleteCheckPeriodMillisecs, std::bind(&BlobDBImpl::EvictDeletions, this, std::placeholders::_1)); tqueue_.add( kDeleteCheckPeriodMillisecs, std::bind(&BlobDBImpl::EvictCompacted, this, std::placeholders::_1)); } tqueue_.add( kDeleteObsoleteFilesPeriodMillisecs, std::bind(&BlobDBImpl::DeleteObsoleteFiles, this, std::placeholders::_1)); tqueue_.add(kSanityCheckPeriodMillisecs, std::bind(&BlobDBImpl::SanityCheck, this, std::placeholders::_1)); tqueue_.add(kWriteAmplificationStatsPeriodMillisecs, std::bind(&BlobDBImpl::WaStats, this, std::placeholders::_1)); tqueue_.add(kFSyncFilesPeriodMillisecs, std::bind(&BlobDBImpl::FsyncFiles, this, std::placeholders::_1)); tqueue_.add( kCheckSeqFilesPeriodMillisecs, std::bind(&BlobDBImpl::CheckSeqFiles, this, std::placeholders::_1)); } void BlobDBImpl::Shutdown() { shutdown_.store(true); } void BlobDBImpl::OnFlushBeginHandler(DB* db, const FlushJobInfo& info) { if (shutdown_.load()) return; // a callback that happens too soon needs to be ignored if (!db_) return; FsyncFiles(false); } Status BlobDBImpl::GetAllLogFiles( std::set>* file_nums) { std::vector all_files; Status status = env_->GetChildren(blob_dir_, &all_files); if (!status.ok()) { return status; } for (const auto& f : all_files) { uint64_t number; FileType type; bool psucc = ParseFileName(f, &number, &type); if (psucc && type == kBlobFile) { file_nums->insert(std::make_pair(number, f)); } else { ROCKS_LOG_WARN(db_options_.info_log, "Skipping file in blob directory %s parse: %d type: %d", f.c_str(), psucc, ((psucc) ? type : -1)); } } return status; } Status BlobDBImpl::OpenAllFiles() { WriteLock wl(&mutex_); std::set> file_nums; Status status = GetAllLogFiles(&file_nums); if (!status.ok()) { ROCKS_LOG_ERROR(db_options_.info_log, "Failed to collect files from blob dir: %s status: '%s'", blob_dir_.c_str(), status.ToString().c_str()); return status; } ROCKS_LOG_INFO(db_options_.info_log, "BlobDir files path: %s count: %d min: %" PRIu64 " max: %" PRIu64, blob_dir_.c_str(), static_cast(file_nums.size()), (file_nums.empty()) ? -1 : (file_nums.begin())->first, (file_nums.empty()) ? -1 : (file_nums.end())->first); if (!file_nums.empty()) next_file_number_.store((file_nums.rbegin())->first + 1); for (auto f_iter : file_nums) { std::string bfpath = BlobFileName(blob_dir_, f_iter.first); uint64_t size_bytes; Status s1 = env_->GetFileSize(bfpath, &size_bytes); if (!s1.ok()) { ROCKS_LOG_WARN( db_options_.info_log, "Unable to get size of %s. File skipped from open status: '%s'", bfpath.c_str(), s1.ToString().c_str()); continue; } if (debug_level_ >= 1) ROCKS_LOG_INFO(db_options_.info_log, "Blob File open: %s size: %" PRIu64, bfpath.c_str(), size_bytes); std::shared_ptr bfptr = std::make_shared(this, blob_dir_, f_iter.first); bfptr->SetFileSize(size_bytes); // since this file already existed, we will try to reconcile // deleted count with LSM bfptr->gc_once_after_open_ = true; // read header std::shared_ptr reader; reader = bfptr->OpenSequentialReader(env_, db_options_, env_options_); s1 = reader->ReadHeader(&bfptr->header_); if (!s1.ok()) { ROCKS_LOG_ERROR(db_options_.info_log, "Failure to read header for blob-file %s " "status: '%s' size: %" PRIu64, bfpath.c_str(), s1.ToString().c_str(), size_bytes); continue; } bfptr->SetHasTTL(bfptr->header_.has_ttl); bfptr->header_valid_ = true; std::shared_ptr ra_reader = GetOrOpenRandomAccessReader(bfptr, env_, env_options_); BlobLogFooter bf; s1 = bfptr->ReadFooter(&bf); bfptr->CloseRandomAccessLocked(); if (s1.ok()) { s1 = bfptr->SetFromFooterLocked(bf); if (!s1.ok()) { ROCKS_LOG_ERROR(db_options_.info_log, "Header Footer mismatch for blob-file %s " "status: '%s' size: %" PRIu64, bfpath.c_str(), s1.ToString().c_str(), size_bytes); continue; } } else { ROCKS_LOG_INFO(db_options_.info_log, "File found incomplete (w/o footer) %s", bfpath.c_str()); // sequentially iterate over the file and read all the records ExpirationRange expiration_range(std::numeric_limits::max(), std::numeric_limits::min()); uint64_t blob_count = 0; BlobLogRecord record; Reader::ReadLevel shallow = Reader::kReadHeaderKey; uint64_t record_start = reader->GetNextByte(); // TODO(arahut) - when we detect corruption, we should truncate while (reader->ReadRecord(&record, shallow).ok()) { ++blob_count; if (bfptr->HasTTL()) { expiration_range.first = std::min(expiration_range.first, record.expiration); expiration_range.second = std::max(expiration_range.second, record.expiration); } record_start = reader->GetNextByte(); } if (record_start != bfptr->GetFileSize()) { ROCKS_LOG_ERROR(db_options_.info_log, "Blob file is corrupted or crashed during write %s" " good_size: %" PRIu64 " file_size: %" PRIu64, bfpath.c_str(), record_start, bfptr->GetFileSize()); } if (!blob_count) { ROCKS_LOG_INFO(db_options_.info_log, "BlobCount = 0 in file %s", bfpath.c_str()); continue; } bfptr->SetBlobCount(blob_count); bfptr->SetSequenceRange({0, 0}); ROCKS_LOG_INFO(db_options_.info_log, "Blob File: %s blob_count: %" PRIu64 " size_bytes: %" PRIu64 " has_ttl: %d", bfpath.c_str(), blob_count, size_bytes, bfptr->HasTTL()); if (bfptr->HasTTL()) { expiration_range.second = std::max( expiration_range.second, expiration_range.first + (uint32_t)bdb_options_.ttl_range_secs); bfptr->set_expiration_range(expiration_range); uint64_t now = EpochNow(); if (expiration_range.second < now) { Status fstatus = CreateWriterLocked(bfptr); if (fstatus.ok()) fstatus = bfptr->WriteFooterAndCloseLocked(); if (!fstatus.ok()) { ROCKS_LOG_ERROR( db_options_.info_log, "Failed to close Blob File: %s status: '%s'. Skipped", bfpath.c_str(), fstatus.ToString().c_str()); continue; } else { ROCKS_LOG_ERROR( db_options_.info_log, "Blob File Closed: %s now: %d expiration_range: (%d, %d)", bfpath.c_str(), now, expiration_range.first, expiration_range.second); } } else { open_ttl_files_.insert(bfptr); } } } blob_files_.insert(std::make_pair(f_iter.first, bfptr)); } return status; } void BlobDBImpl::CloseRandomAccessLocked( const std::shared_ptr& bfile) { bfile->CloseRandomAccessLocked(); open_file_count_--; } std::shared_ptr BlobDBImpl::GetOrOpenRandomAccessReader( const std::shared_ptr& bfile, Env* env, const EnvOptions& env_options) { bool fresh_open = false; auto rar = bfile->GetOrOpenRandomAccessReader(env, env_options, &fresh_open); if (fresh_open) open_file_count_++; return rar; } std::shared_ptr BlobDBImpl::NewBlobFile(const std::string& reason) { uint64_t file_num = next_file_number_++; auto bfile = std::make_shared(this, blob_dir_, file_num); ROCKS_LOG_DEBUG(db_options_.info_log, "New blob file created: %s reason='%s'", bfile->PathName().c_str(), reason.c_str()); LogFlush(db_options_.info_log); return bfile; } Status BlobDBImpl::CreateWriterLocked(const std::shared_ptr& bfile) { std::string fpath(bfile->PathName()); std::unique_ptr wfile; Status s = env_->ReopenWritableFile(fpath, &wfile, env_options_); if (!s.ok()) { ROCKS_LOG_ERROR(db_options_.info_log, "Failed to open blob file for write: %s status: '%s'" " exists: '%s'", fpath.c_str(), s.ToString().c_str(), env_->FileExists(fpath).ToString().c_str()); return s; } std::unique_ptr fwriter; fwriter.reset(new WritableFileWriter(std::move(wfile), env_options_)); uint64_t boffset = bfile->GetFileSize(); if (debug_level_ >= 2 && boffset) { ROCKS_LOG_DEBUG(db_options_.info_log, "Open blob file: %s with offset: %d", fpath.c_str(), boffset); } Writer::ElemType et = Writer::kEtNone; if (bfile->file_size_ == BlobLogHeader::kSize) { et = Writer::kEtFileHdr; } else if (bfile->file_size_ > BlobLogHeader::kSize) { et = Writer::kEtRecord; } else if (bfile->file_size_) { ROCKS_LOG_WARN(db_options_.info_log, "Open blob file: %s with wrong size: %d", fpath.c_str(), boffset); return Status::Corruption("Invalid blob file size"); } bfile->log_writer_ = std::make_shared( std::move(fwriter), bfile->file_number_, bdb_options_.bytes_per_sync, db_options_.use_fsync, boffset); bfile->log_writer_->last_elem_type_ = et; return s; } std::shared_ptr BlobDBImpl::FindBlobFileLocked( uint64_t expiration) const { if (open_ttl_files_.empty()) return nullptr; std::shared_ptr tmp = std::make_shared(); tmp->expiration_range_ = std::make_pair(expiration, 0); auto citr = open_ttl_files_.equal_range(tmp); if (citr.first == open_ttl_files_.end()) { assert(citr.second == open_ttl_files_.end()); std::shared_ptr check = *(open_ttl_files_.rbegin()); return (check->expiration_range_.second < expiration) ? nullptr : check; } if (citr.first != citr.second) return *(citr.first); auto finditr = citr.second; if (finditr != open_ttl_files_.begin()) --finditr; bool b2 = (*finditr)->expiration_range_.second < expiration; bool b1 = (*finditr)->expiration_range_.first > expiration; return (b1 || b2) ? nullptr : (*finditr); } std::shared_ptr BlobDBImpl::CheckOrCreateWriterLocked( const std::shared_ptr& bfile) { std::shared_ptr writer = bfile->GetWriter(); if (writer) return writer; Status s = CreateWriterLocked(bfile); if (!s.ok()) return nullptr; writer = bfile->GetWriter(); return writer; } std::shared_ptr BlobDBImpl::SelectBlobFile() { { ReadLock rl(&mutex_); if (open_non_ttl_file_ != nullptr) { return open_non_ttl_file_; } } // CHECK again WriteLock wl(&mutex_); if (open_non_ttl_file_ != nullptr) { return open_non_ttl_file_; } std::shared_ptr bfile = NewBlobFile("SelectBlobFile"); assert(bfile); // file not visible, hence no lock std::shared_ptr writer = CheckOrCreateWriterLocked(bfile); if (!writer) { ROCKS_LOG_ERROR(db_options_.info_log, "Failed to get writer from blob file: %s", bfile->PathName().c_str()); return nullptr; } bfile->file_size_ = BlobLogHeader::kSize; bfile->header_.compression = bdb_options_.compression; bfile->header_.has_ttl = false; bfile->header_.column_family_id = reinterpret_cast(DefaultColumnFamily())->GetID(); bfile->header_valid_ = true; bfile->SetHasTTL(false); Status s = writer->WriteHeader(bfile->header_); if (!s.ok()) { ROCKS_LOG_ERROR(db_options_.info_log, "Failed to write header to new blob file: %s" " status: '%s'", bfile->PathName().c_str(), s.ToString().c_str()); return nullptr; } dir_change_.store(true); blob_files_.insert(std::make_pair(bfile->BlobFileNumber(), bfile)); open_non_ttl_file_ = bfile; return bfile; } std::shared_ptr BlobDBImpl::SelectBlobFileTTL(uint64_t expiration) { assert(expiration != kNoExpiration); uint64_t epoch_read = 0; std::shared_ptr bfile; { ReadLock rl(&mutex_); bfile = FindBlobFileLocked(expiration); epoch_read = epoch_of_.load(); } if (bfile) { assert(!bfile->Immutable()); return bfile; } uint64_t exp_low = (expiration / bdb_options_.ttl_range_secs) * bdb_options_.ttl_range_secs; uint64_t exp_high = exp_low + bdb_options_.ttl_range_secs; ExpirationRange expiration_range = std::make_pair(exp_low, exp_high); bfile = NewBlobFile("SelectBlobFileTTL"); assert(bfile); ROCKS_LOG_INFO(db_options_.info_log, "New blob file TTL range: %s %d %d", bfile->PathName().c_str(), exp_low, exp_high); LogFlush(db_options_.info_log); // we don't need to take lock as no other thread is seeing bfile yet std::shared_ptr writer = CheckOrCreateWriterLocked(bfile); if (!writer) { ROCKS_LOG_ERROR(db_options_.info_log, "Failed to get writer from blob file with TTL: %s", bfile->PathName().c_str()); return nullptr; } bfile->header_.expiration_range = expiration_range; bfile->header_.compression = bdb_options_.compression; bfile->header_.has_ttl = true; bfile->header_.column_family_id = reinterpret_cast(DefaultColumnFamily())->GetID(); ; bfile->header_valid_ = true; bfile->SetHasTTL(true); bfile->file_size_ = BlobLogHeader::kSize; // set the first value of the range, since that is // concrete at this time. also necessary to add to open_ttl_files_ bfile->expiration_range_ = expiration_range; WriteLock wl(&mutex_); // in case the epoch has shifted in the interim, then check // check condition again - should be rare. if (epoch_of_.load() != epoch_read) { auto bfile2 = FindBlobFileLocked(expiration); if (bfile2) return bfile2; } Status s = writer->WriteHeader(bfile->header_); if (!s.ok()) { ROCKS_LOG_ERROR(db_options_.info_log, "Failed to write header to new blob file: %s" " status: '%s'", bfile->PathName().c_str(), s.ToString().c_str()); return nullptr; } dir_change_.store(true); blob_files_.insert(std::make_pair(bfile->BlobFileNumber(), bfile)); open_ttl_files_.insert(bfile); epoch_of_++; return bfile; } Status BlobDBImpl::Delete(const WriteOptions& options, const Slice& key) { SequenceNumber lsn = db_impl_->GetLatestSequenceNumber(); Status s = db_->Delete(options, key); if (bdb_options_.enable_garbage_collection) { // add deleted key to list of keys that have been deleted for book-keeping delete_keys_q_.enqueue({DefaultColumnFamily(), key.ToString(), lsn}); } return s; } class BlobDBImpl::BlobInserter : public WriteBatch::Handler { private: const WriteOptions& options_; BlobDBImpl* blob_db_impl_; uint32_t default_cf_id_; SequenceNumber sequence_; WriteBatch batch_; public: BlobInserter(const WriteOptions& options, BlobDBImpl* blob_db_impl, uint32_t default_cf_id, SequenceNumber seq) : options_(options), blob_db_impl_(blob_db_impl), default_cf_id_(default_cf_id), sequence_(seq) {} SequenceNumber sequence() { return sequence_; } WriteBatch* batch() { return &batch_; } virtual Status PutCF(uint32_t column_family_id, const Slice& key, const Slice& value) override { if (column_family_id != default_cf_id_) { return Status::NotSupported( "Blob DB doesn't support non-default column family."); } std::string new_value; Slice value_slice; uint64_t expiration = blob_db_impl_->ExtractExpiration(key, value, &value_slice, &new_value); Status s = blob_db_impl_->PutBlobValue(options_, key, value_slice, expiration, sequence_, &batch_); sequence_++; return s; } virtual Status DeleteCF(uint32_t column_family_id, const Slice& key) override { if (column_family_id != default_cf_id_) { return Status::NotSupported( "Blob DB doesn't support non-default column family."); } Status s = WriteBatchInternal::Delete(&batch_, column_family_id, key); sequence_++; return s; } virtual Status DeleteRange(uint32_t column_family_id, const Slice& begin_key, const Slice& end_key) { if (column_family_id != default_cf_id_) { return Status::NotSupported( "Blob DB doesn't support non-default column family."); } Status s = WriteBatchInternal::DeleteRange(&batch_, column_family_id, begin_key, end_key); sequence_++; return s; } virtual Status SingleDeleteCF(uint32_t /*column_family_id*/, const Slice& /*key*/) override { return Status::NotSupported("Not supported operation in blob db."); } virtual Status MergeCF(uint32_t /*column_family_id*/, const Slice& /*key*/, const Slice& /*value*/) override { return Status::NotSupported("Not supported operation in blob db."); } virtual void LogData(const Slice& blob) override { batch_.PutLogData(blob); } }; Status BlobDBImpl::Write(const WriteOptions& options, WriteBatch* updates) { MutexLock l(&write_mutex_); uint32_t default_cf_id = reinterpret_cast(DefaultColumnFamily())->GetID(); SequenceNumber current_seq = GetLatestSequenceNumber() + 1; BlobInserter blob_inserter(options, this, default_cf_id, current_seq); Status s = updates->Iterate(&blob_inserter); if (!s.ok()) { return s; } s = db_->Write(options, blob_inserter.batch()); if (!s.ok()) { return s; } assert(blob_inserter.sequence() == GetLatestSequenceNumber() + 1); // add deleted key to list of keys that have been deleted for book-keeping class DeleteBookkeeper : public WriteBatch::Handler { public: explicit DeleteBookkeeper(BlobDBImpl* impl, const SequenceNumber& seq) : impl_(impl), sequence_(seq) {} virtual Status PutCF(uint32_t /*column_family_id*/, const Slice& /*key*/, const Slice& /*value*/) override { sequence_++; return Status::OK(); } virtual Status DeleteCF(uint32_t column_family_id, const Slice& key) override { ColumnFamilyHandle* cfh = impl_->db_impl_->GetColumnFamilyHandleUnlocked(column_family_id); impl_->delete_keys_q_.enqueue({cfh, key.ToString(), sequence_}); sequence_++; return Status::OK(); } private: BlobDBImpl* impl_; SequenceNumber sequence_; }; if (bdb_options_.enable_garbage_collection) { // add deleted key to list of keys that have been deleted for book-keeping DeleteBookkeeper delete_bookkeeper(this, current_seq); s = updates->Iterate(&delete_bookkeeper); } return s; } Status BlobDBImpl::GetLiveFiles(std::vector& ret, uint64_t* manifest_file_size, bool flush_memtable) { // Hold a lock in the beginning to avoid updates to base DB during the call ReadLock rl(&mutex_); Status s = db_->GetLiveFiles(ret, manifest_file_size, flush_memtable); if (!s.ok()) { return s; } ret.reserve(ret.size() + blob_files_.size()); for (auto bfile_pair : blob_files_) { auto blob_file = bfile_pair.second; ret.emplace_back(blob_file->PathName()); } return Status::OK(); } void BlobDBImpl::GetLiveFilesMetaData(std::vector* metadata) { // Hold a lock in the beginning to avoid updates to base DB during the call ReadLock rl(&mutex_); db_->GetLiveFilesMetaData(metadata); for (auto bfile_pair : blob_files_) { auto blob_file = bfile_pair.second; LiveFileMetaData filemetadata; filemetadata.size = blob_file->GetFileSize(); filemetadata.name = blob_file->PathName(); auto cfh = reinterpret_cast(DefaultColumnFamily()); filemetadata.column_family_name = cfh->GetName(); metadata->emplace_back(filemetadata); } } Status BlobDBImpl::Put(const WriteOptions& options, const Slice& key, const Slice& value) { std::string new_value; Slice value_slice; uint64_t expiration = ExtractExpiration(key, value, &value_slice, &new_value); return PutUntil(options, key, value_slice, expiration); } Status BlobDBImpl::PutWithTTL(const WriteOptions& options, const Slice& key, const Slice& value, uint64_t ttl) { uint64_t now = EpochNow(); uint64_t expiration = kNoExpiration - now > ttl ? now + ttl : kNoExpiration; return PutUntil(options, key, value, expiration); } Status BlobDBImpl::PutUntil(const WriteOptions& options, const Slice& key, const Slice& value, uint64_t expiration) { TEST_SYNC_POINT("BlobDBImpl::PutUntil:Start"); MutexLock l(&write_mutex_); SequenceNumber sequence = GetLatestSequenceNumber() + 1; WriteBatch batch; Status s = PutBlobValue(options, key, value, expiration, sequence, &batch); if (s.ok()) { s = db_->Write(options, &batch); } TEST_SYNC_POINT("BlobDBImpl::PutUntil:Finish"); return s; } Status BlobDBImpl::PutBlobValue(const WriteOptions& options, const Slice& key, const Slice& value, uint64_t expiration, SequenceNumber sequence, WriteBatch* batch) { Status s; std::string index_entry; uint32_t column_family_id = reinterpret_cast(DefaultColumnFamily())->GetID(); if (value.size() < bdb_options_.min_blob_size) { if (expiration == kNoExpiration) { // Put as normal value s = batch->Put(key, value); } else { // Inlined with TTL BlobIndex::EncodeInlinedTTL(&index_entry, expiration, value); s = WriteBatchInternal::PutBlobIndex(batch, column_family_id, key, index_entry); } } else { std::shared_ptr bfile = (expiration != kNoExpiration) ? SelectBlobFileTTL(expiration) : SelectBlobFile(); if (!bfile) { return Status::NotFound("Blob file not found"); } std::string compression_output; Slice value_compressed = GetCompressedSlice(value, &compression_output); std::string headerbuf; Writer::ConstructBlobHeader(&headerbuf, key, value_compressed, expiration); s = AppendBlob(bfile, headerbuf, key, value_compressed, expiration, &index_entry); if (s.ok()) { bfile->ExtendSequenceRange(sequence); if (expiration != kNoExpiration) { bfile->ExtendExpirationRange(expiration); } s = CloseBlobFileIfNeeded(bfile); if (s.ok()) { s = WriteBatchInternal::PutBlobIndex(batch, column_family_id, key, index_entry); } } else { ROCKS_LOG_ERROR(db_options_.info_log, "Failed to append blob to FILE: %s: KEY: %s VALSZ: %d" " status: '%s' blob_file: '%s'", bfile->PathName().c_str(), key.ToString().c_str(), value.size(), s.ToString().c_str(), bfile->DumpState().c_str()); } } return s; } Slice BlobDBImpl::GetCompressedSlice(const Slice& raw, std::string* compression_output) const { if (bdb_options_.compression == kNoCompression) { return raw; } CompressionType ct = bdb_options_.compression; CompressionOptions compression_opts; CompressBlock(raw, compression_opts, &ct, kBlockBasedTableVersionFormat, Slice(), compression_output); return *compression_output; } uint64_t BlobDBImpl::ExtractExpiration(const Slice& key, const Slice& value, Slice* value_slice, std::string* new_value) { uint64_t expiration = kNoExpiration; bool has_expiration = false; bool value_changed = false; if (ttl_extractor_ != nullptr) { has_expiration = ttl_extractor_->ExtractExpiration( key, value, EpochNow(), &expiration, new_value, &value_changed); } *value_slice = value_changed ? Slice(*new_value) : value; return has_expiration ? expiration : kNoExpiration; } std::shared_ptr BlobDBImpl::GetOldestBlobFile() { std::vector> blob_files; CopyBlobFiles(&blob_files, [](const std::shared_ptr& f) { return !f->Obsolete() && f->Immutable(); }); blobf_compare_ttl compare; return *std::min_element(blob_files.begin(), blob_files.end(), compare); } bool BlobDBImpl::EvictOldestBlobFile() { auto oldest_file = GetOldestBlobFile(); if (oldest_file == nullptr) { return false; } WriteLock wl(&mutex_); // Double check the file is not obsolete by others if (oldest_file_evicted_ == false && !oldest_file->Obsolete()) { auto expiration_range = oldest_file->GetExpirationRange(); ROCKS_LOG_INFO(db_options_.info_log, "Evict oldest blob file since DB out of space. Current " "space used: %" PRIu64 ", blob dir size: %" PRIu64 ", evicted blob file #%" PRIu64 " with expiration range (%" PRIu64 ", %" PRIu64 ").", total_blob_space_.load(), bdb_options_.blob_dir_size, oldest_file->BlobFileNumber(), expiration_range.first, expiration_range.second); oldest_file->MarkObsolete(oldest_file->GetSequenceRange().second); obsolete_files_.push_back(oldest_file); oldest_file_evicted_.store(true); return true; } return false; } Status BlobDBImpl::CheckSize(size_t blob_size) { uint64_t new_space_util = total_blob_space_.load() + blob_size; if (bdb_options_.blob_dir_size > 0) { if (!bdb_options_.is_fifo && (new_space_util > bdb_options_.blob_dir_size)) { return Status::NoSpace( "Write failed, as writing it would exceed blob_dir_size limit."); } if (bdb_options_.is_fifo && !oldest_file_evicted_.load() && (new_space_util > kEvictOldestFileAtSize * bdb_options_.blob_dir_size)) { EvictOldestBlobFile(); } } return Status::OK(); } Status BlobDBImpl::AppendBlob(const std::shared_ptr& bfile, const std::string& headerbuf, const Slice& key, const Slice& value, uint64_t expiration, std::string* index_entry) { auto size_put = BlobLogRecord::kHeaderSize + key.size() + value.size(); Status s = CheckSize(size_put); if (!s.ok()) { return s; } uint64_t blob_offset = 0; uint64_t key_offset = 0; { WriteLock lockbfile_w(&bfile->mutex_); std::shared_ptr writer = CheckOrCreateWriterLocked(bfile); if (!writer) return Status::IOError("Failed to create blob writer"); // write the blob to the blob log. s = writer->EmitPhysicalRecord(headerbuf, key, value, &key_offset, &blob_offset); } if (!s.ok()) { ROCKS_LOG_ERROR(db_options_.info_log, "Invalid status in AppendBlob: %s status: '%s'", bfile->PathName().c_str(), s.ToString().c_str()); return s; } // increment blob count bfile->blob_count_++; bfile->file_size_ += size_put; last_period_write_ += size_put; total_blob_space_ += size_put; if (expiration == kNoExpiration) { BlobIndex::EncodeBlob(index_entry, bfile->BlobFileNumber(), blob_offset, value.size(), bdb_options_.compression); } else { BlobIndex::EncodeBlobTTL(index_entry, expiration, bfile->BlobFileNumber(), blob_offset, value.size(), bdb_options_.compression); } return s; } std::vector BlobDBImpl::MultiGet( const ReadOptions& read_options, const std::vector& keys, std::vector* values) { // Get a snapshot to avoid blob file get deleted between we // fetch and index entry and reading from the file. ReadOptions ro(read_options); bool snapshot_created = SetSnapshotIfNeeded(&ro); std::vector statuses; statuses.reserve(keys.size()); values->clear(); values->reserve(keys.size()); PinnableSlice value; for (size_t i = 0; i < keys.size(); i++) { statuses.push_back(Get(ro, DefaultColumnFamily(), keys[i], &value)); values->push_back(value.ToString()); value.Reset(); } if (snapshot_created) { db_->ReleaseSnapshot(ro.snapshot); } return statuses; } bool BlobDBImpl::SetSnapshotIfNeeded(ReadOptions* read_options) { assert(read_options != nullptr); if (read_options->snapshot != nullptr) { return false; } read_options->snapshot = db_->GetSnapshot(); return true; } Status BlobDBImpl::GetBlobValue(const Slice& key, const Slice& index_entry, PinnableSlice* value) { assert(value != nullptr); BlobIndex blob_index; Status s = blob_index.DecodeFrom(index_entry); if (!s.ok()) { return s; } if (blob_index.HasTTL() && blob_index.expiration() <= EpochNow()) { return Status::NotFound("Key expired"); } if (blob_index.IsInlined()) { // TODO(yiwu): If index_entry is a PinnableSlice, we can also pin the same // memory buffer to avoid extra copy. value->PinSelf(blob_index.value()); return Status::OK(); } if (blob_index.size() == 0) { value->PinSelf(""); return Status::OK(); } // offset has to have certain min, as we will read CRC // later from the Blob Header, which needs to be also a // valid offset. if (blob_index.offset() < (BlobLogHeader::kSize + BlobLogRecord::kHeaderSize + key.size())) { if (debug_level_ >= 2) { ROCKS_LOG_ERROR(db_options_.info_log, "Invalid blob index file_number: %" PRIu64 " blob_offset: %" PRIu64 " blob_size: %" PRIu64 " key: %s", blob_index.file_number(), blob_index.offset(), blob_index.size(), key.data()); } return Status::NotFound("Invalid blob offset"); } std::shared_ptr bfile; { ReadLock rl(&mutex_); auto hitr = blob_files_.find(blob_index.file_number()); // file was deleted if (hitr == blob_files_.end()) { return Status::NotFound("Blob Not Found as blob file missing"); } bfile = hitr->second; } if (blob_index.size() == 0 && value != nullptr) { value->PinSelf(""); return Status::OK(); } // takes locks when called std::shared_ptr reader = GetOrOpenRandomAccessReader(bfile, env_, env_options_); std::string* valueptr = value->GetSelf(); std::string value_c; if (bdb_options_.compression != kNoCompression) { valueptr = &value_c; } // Allocate the buffer. This is safe in C++11 // Note that std::string::reserved() does not work, since previous value // of the buffer can be larger than blob_index.size(). valueptr->resize(blob_index.size()); char* buffer = &(*valueptr)[0]; Slice blob_value; s = reader->Read(blob_index.offset(), blob_index.size(), &blob_value, buffer); if (!s.ok() || blob_value.size() != blob_index.size()) { if (debug_level_ >= 2) { ROCKS_LOG_ERROR(db_options_.info_log, "Failed to read blob from file: %s blob_offset: %" PRIu64 " blob_size: %" PRIu64 " read: %d key: %s status: '%s'", bfile->PathName().c_str(), blob_index.offset(), blob_index.size(), static_cast(blob_value.size()), key.data(), s.ToString().c_str()); } return Status::NotFound("Blob Not Found as couldnt retrieve Blob"); } // TODO(yiwu): Add an option to skip crc checking. Slice crc_slice; uint32_t crc_exp; std::string crc_str; crc_str.resize(sizeof(uint32_t)); char* crc_buffer = &(crc_str[0]); s = reader->Read(blob_index.offset() - (key.size() + sizeof(uint32_t)), sizeof(uint32_t), &crc_slice, crc_buffer); if (!s.ok() || !GetFixed32(&crc_slice, &crc_exp)) { if (debug_level_ >= 2) { ROCKS_LOG_ERROR(db_options_.info_log, "Failed to fetch blob crc file: %s blob_offset: %" PRIu64 " blob_size: %" PRIu64 " key: %s status: '%s'", bfile->PathName().c_str(), blob_index.offset(), blob_index.size(), key.data(), s.ToString().c_str()); } return Status::NotFound("Blob Not Found as couldnt retrieve CRC"); } uint32_t crc = crc32c::Value(key.data(), key.size()); crc = crc32c::Extend(crc, blob_value.data(), blob_value.size()); crc = crc32c::Mask(crc); // Adjust for storage if (crc != crc_exp) { if (debug_level_ >= 2) { ROCKS_LOG_ERROR(db_options_.info_log, "Blob crc mismatch file: %s blob_offset: %" PRIu64 " blob_size: %" PRIu64 " key: %s status: '%s'", bfile->PathName().c_str(), blob_index.offset(), blob_index.size(), key.data(), s.ToString().c_str()); } return Status::Corruption("Corruption. Blob CRC mismatch"); } // TODO(yiwu): Should use compression flag in the blob file instead of // current compression option. if (bdb_options_.compression != kNoCompression) { BlockContents contents; auto cfh = reinterpret_cast(DefaultColumnFamily()); s = UncompressBlockContentsForCompressionType( blob_value.data(), blob_value.size(), &contents, kBlockBasedTableVersionFormat, Slice(), bdb_options_.compression, *(cfh->cfd()->ioptions())); *(value->GetSelf()) = contents.data.ToString(); } value->PinSelf(); return s; } Status BlobDBImpl::Get(const ReadOptions& read_options, ColumnFamilyHandle* column_family, const Slice& key, PinnableSlice* value) { if (column_family != DefaultColumnFamily()) { return Status::NotSupported( "Blob DB doesn't support non-default column family."); } // Get a snapshot to avoid blob file get deleted between we // fetch and index entry and reading from the file. // TODO(yiwu): For Get() retry if file not found would be a simpler strategy. ReadOptions ro(read_options); bool snapshot_created = SetSnapshotIfNeeded(&ro); Status s; bool is_blob_index = false; s = db_impl_->GetImpl(ro, column_family, key, value, nullptr /*value_found*/, nullptr /*read_callback*/, &is_blob_index); TEST_SYNC_POINT("BlobDBImpl::Get:AfterIndexEntryGet:1"); TEST_SYNC_POINT("BlobDBImpl::Get:AfterIndexEntryGet:2"); if (s.ok()) { if (is_blob_index) { PinnableSlice index_entry = std::move(*value); s = GetBlobValue(key, index_entry, value); } } if (snapshot_created) { db_->ReleaseSnapshot(ro.snapshot); } return s; } std::pair BlobDBImpl::SanityCheck(bool aborted) { if (aborted) return std::make_pair(false, -1); ROCKS_LOG_INFO(db_options_.info_log, "Starting Sanity Check"); ROCKS_LOG_INFO(db_options_.info_log, "Number of files %" PRIu64, blob_files_.size()); ROCKS_LOG_INFO(db_options_.info_log, "Number of open files %" PRIu64, open_ttl_files_.size()); for (auto bfile : open_ttl_files_) { assert(!bfile->Immutable()); } uint64_t epoch_now = EpochNow(); for (auto bfile_pair : blob_files_) { auto bfile = bfile_pair.second; ROCKS_LOG_INFO( db_options_.info_log, "Blob File %s %" PRIu64 " %" PRIu64 " %" PRIu64 " %" PRIu64 " %" PRIu64, bfile->PathName().c_str(), bfile->GetFileSize(), bfile->BlobCount(), bfile->deleted_count_, bfile->deleted_size_, (bfile->expiration_range_.second - epoch_now)); } // reschedule return std::make_pair(true, -1); } Status BlobDBImpl::CloseBlobFile(std::shared_ptr bfile) { assert(bfile != nullptr); Status s; ROCKS_LOG_INFO(db_options_.info_log, "Close blob file %" PRIu64, bfile->BlobFileNumber()); { WriteLock wl(&mutex_); if (bfile->HasTTL()) { size_t erased __attribute__((__unused__)); erased = open_ttl_files_.erase(bfile); assert(erased == 1); } else { assert(bfile == open_non_ttl_file_); open_non_ttl_file_ = nullptr; } } if (!bfile->closed_.load()) { WriteLock lockbfile_w(&bfile->mutex_); s = bfile->WriteFooterAndCloseLocked(); } if (!s.ok()) { ROCKS_LOG_ERROR(db_options_.info_log, "Failed to close blob file %" PRIu64 "with error: %s", bfile->BlobFileNumber(), s.ToString().c_str()); } return s; } Status BlobDBImpl::CloseBlobFileIfNeeded(std::shared_ptr& bfile) { // atomic read if (bfile->GetFileSize() < bdb_options_.blob_file_size) { return Status::OK(); } return CloseBlobFile(bfile); } bool BlobDBImpl::VisibleToActiveSnapshot( const std::shared_ptr& bfile) { assert(bfile->Obsolete()); SequenceNumber first_sequence = bfile->GetSequenceRange().first; SequenceNumber obsolete_sequence = bfile->GetObsoleteSequence(); return db_impl_->HasActiveSnapshotInRange(first_sequence, obsolete_sequence); } bool BlobDBImpl::FindFileAndEvictABlob(uint64_t file_number, uint64_t key_size, uint64_t blob_offset, uint64_t blob_size) { assert(bdb_options_.enable_garbage_collection); (void)blob_offset; std::shared_ptr bfile; { ReadLock rl(&mutex_); auto hitr = blob_files_.find(file_number); // file was deleted if (hitr == blob_files_.end()) { return false; } bfile = hitr->second; } WriteLock lockbfile_w(&bfile->mutex_); bfile->deleted_count_++; bfile->deleted_size_ += key_size + blob_size + BlobLogRecord::kHeaderSize; return true; } bool BlobDBImpl::MarkBlobDeleted(const Slice& key, const Slice& index_entry) { assert(bdb_options_.enable_garbage_collection); BlobIndex blob_index; Status s = blob_index.DecodeFrom(index_entry); if (!s.ok()) { ROCKS_LOG_INFO(db_options_.info_log, "Could not parse lsm val in MarkBlobDeleted %s", index_entry.ToString().c_str()); return false; } bool succ = FindFileAndEvictABlob(blob_index.file_number(), key.size(), blob_index.offset(), blob_index.size()); return succ; } std::pair BlobDBImpl::EvictCompacted(bool aborted) { assert(bdb_options_.enable_garbage_collection); if (aborted) return std::make_pair(false, -1); override_packet_t packet; size_t total_vals = 0; size_t mark_evicted = 0; while (override_vals_q_.dequeue(&packet)) { bool succeeded = FindFileAndEvictABlob(packet.file_number_, packet.key_size_, packet.blob_offset_, packet.blob_size_); total_vals++; if (succeeded) { mark_evicted++; } } ROCKS_LOG_INFO(db_options_.info_log, "Mark %" ROCKSDB_PRIszt " values to evict, out of %" ROCKSDB_PRIszt " compacted values.", mark_evicted, total_vals); return std::make_pair(true, -1); } std::pair BlobDBImpl::EvictDeletions(bool aborted) { assert(bdb_options_.enable_garbage_collection); if (aborted) return std::make_pair(false, -1); ColumnFamilyHandle* last_cfh = nullptr; Options last_op; Arena arena; ScopedArenaIterator iter; // we will use same RangeDelAggregator for all cf's. // essentially we do not support Range Deletes now std::unique_ptr range_del_agg; delete_packet_t dpacket; while (delete_keys_q_.dequeue(&dpacket)) { if (last_cfh != dpacket.cfh_) { if (!range_del_agg) { auto cfhi = reinterpret_cast(dpacket.cfh_); auto cfd = cfhi->cfd(); range_del_agg.reset(new RangeDelAggregator(cfd->internal_comparator(), kMaxSequenceNumber)); } // this can be expensive last_cfh = dpacket.cfh_; last_op = db_impl_->GetOptions(last_cfh); iter.set(db_impl_->NewInternalIterator(&arena, range_del_agg.get(), dpacket.cfh_)); // this will not work for multiple CF's. } Slice user_key(dpacket.key_); InternalKey target(user_key, dpacket.dsn_, kTypeValue); Slice eslice = target.Encode(); iter->Seek(eslice); if (!iter->status().ok()) { ROCKS_LOG_INFO(db_options_.info_log, "Invalid iterator seek %s", dpacket.key_.c_str()); continue; } const Comparator* bwc = BytewiseComparator(); while (iter->Valid()) { if (!bwc->Equal(ExtractUserKey(iter->key()), ExtractUserKey(eslice))) break; ParsedInternalKey ikey(Slice(), 0, kTypeValue); if (!ParseInternalKey(iter->key(), &ikey)) { continue; } // once you hit a DELETE, assume the keys below have been // processed previously if (ikey.type == kTypeDeletion || ikey.type == kTypeSingleDeletion) break; Slice val = iter->value(); MarkBlobDeleted(ikey.user_key, val); iter->Next(); } } return std::make_pair(true, -1); } std::pair BlobDBImpl::CheckSeqFiles(bool aborted) { if (aborted) return std::make_pair(false, -1); std::vector> process_files; { uint64_t epoch_now = EpochNow(); ReadLock rl(&mutex_); for (auto bfile : open_ttl_files_) { { ReadLock lockbfile_r(&bfile->mutex_); if (bfile->expiration_range_.second > epoch_now) continue; process_files.push_back(bfile); } } } for (auto bfile : process_files) { CloseBlobFile(bfile); } return std::make_pair(true, -1); } std::pair BlobDBImpl::FsyncFiles(bool aborted) { if (aborted) return std::make_pair(false, -1); MutexLock l(&write_mutex_); std::vector> process_files; { ReadLock rl(&mutex_); for (auto fitr : open_ttl_files_) { if (fitr->NeedsFsync(true, bdb_options_.bytes_per_sync)) process_files.push_back(fitr); } if (open_non_ttl_file_ != nullptr && open_non_ttl_file_->NeedsFsync(true, bdb_options_.bytes_per_sync)) { process_files.push_back(open_non_ttl_file_); } } for (auto fitr : process_files) { if (fitr->NeedsFsync(true, bdb_options_.bytes_per_sync)) fitr->Fsync(); } bool expected = true; if (dir_change_.compare_exchange_weak(expected, false)) dir_ent_->Fsync(); return std::make_pair(true, -1); } std::pair BlobDBImpl::ReclaimOpenFiles(bool aborted) { if (aborted) return std::make_pair(false, -1); if (open_file_count_.load() < kOpenFilesTrigger) { return std::make_pair(true, -1); } // in the future, we should sort by last_access_ // instead of closing every file ReadLock rl(&mutex_); for (auto const& ent : blob_files_) { auto bfile = ent.second; if (bfile->last_access_.load() == -1) continue; WriteLock lockbfile_w(&bfile->mutex_); CloseRandomAccessLocked(bfile); } return std::make_pair(true, -1); } // TODO(yiwu): correct the stats and expose it. std::pair BlobDBImpl::WaStats(bool aborted) { if (aborted) return std::make_pair(false, -1); WriteLock wl(&mutex_); if (all_periods_write_.size() >= kWriteAmplificationStatsPeriods) { total_periods_write_ -= (*all_periods_write_.begin()); total_periods_ampl_ = (*all_periods_ampl_.begin()); all_periods_write_.pop_front(); all_periods_ampl_.pop_front(); } uint64_t val1 = last_period_write_.load(); uint64_t val2 = last_period_ampl_.load(); all_periods_write_.push_back(val1); all_periods_ampl_.push_back(val2); last_period_write_ = 0; last_period_ampl_ = 0; total_periods_write_ += val1; total_periods_ampl_ += val2; return std::make_pair(true, -1); } // Write callback for garbage collection to check if key has been updated // since last read. Similar to how OptimisticTransaction works. See inline // comment in GCFileAndUpdateLSM(). class BlobDBImpl::GarbageCollectionWriteCallback : public WriteCallback { public: GarbageCollectionWriteCallback(ColumnFamilyData* cfd, const Slice& key, SequenceNumber upper_bound) : cfd_(cfd), key_(key), upper_bound_(upper_bound) {} virtual Status Callback(DB* db) override { auto* db_impl = reinterpret_cast(db); auto* sv = db_impl->GetAndRefSuperVersion(cfd_); SequenceNumber latest_seq = 0; bool found_record_for_key = false; bool is_blob_index = false; Status s = db_impl->GetLatestSequenceForKey( sv, key_, false /*cache_only*/, &latest_seq, &found_record_for_key, &is_blob_index); db_impl->ReturnAndCleanupSuperVersion(cfd_, sv); if (!s.ok() && !s.IsNotFound()) { // Error. assert(!s.IsBusy()); return s; } if (s.IsNotFound()) { assert(!found_record_for_key); return Status::Busy("Key deleted"); } assert(found_record_for_key); assert(is_blob_index); if (latest_seq > upper_bound_) { return Status::Busy("Key overwritten"); } return s; } virtual bool AllowWriteBatching() override { return false; } private: ColumnFamilyData* cfd_; // Key to check Slice key_; // Upper bound of sequence number to proceed. SequenceNumber upper_bound_; }; // iterate over the blobs sequentially and check if the blob sequence number // is the latest. If it is the latest, preserve it, otherwise delete it // if it is TTL based, and the TTL has expired, then // we can blow the entity if the key is still the latest or the Key is not // found // WHAT HAPPENS IF THE KEY HAS BEEN OVERRIDEN. Then we can drop the blob // without doing anything if the earliest snapshot is not // referring to that sequence number, i.e. it is later than the sequence number // of the new key // // if it is not TTL based, then we can blow the key if the key has been // DELETED in the LSM Status BlobDBImpl::GCFileAndUpdateLSM(const std::shared_ptr& bfptr, GCStats* gc_stats) { uint64_t now = EpochNow(); std::shared_ptr reader = bfptr->OpenSequentialReader(env_, db_options_, env_options_); if (!reader) { ROCKS_LOG_ERROR(db_options_.info_log, "File sequential reader could not be opened", bfptr->PathName().c_str()); return Status::IOError("failed to create sequential reader"); } BlobLogHeader header; Status s = reader->ReadHeader(&header); if (!s.ok()) { ROCKS_LOG_ERROR(db_options_.info_log, "Failure to read header for blob-file %s", bfptr->PathName().c_str()); return s; } bool first_gc = bfptr->gc_once_after_open_; auto* cfh = db_impl_->GetColumnFamilyHandleUnlocked(bfptr->column_family_id()); auto* cfd = reinterpret_cast(cfh)->cfd(); auto column_family_id = cfd->GetID(); bool has_ttl = header.has_ttl; // this reads the key but skips the blob Reader::ReadLevel shallow = Reader::kReadHeaderKey; bool no_relocation_ttl = (has_ttl && now >= bfptr->GetExpirationRange().second); bool no_relocation_lsmdel = false; { ReadLock lockbfile_r(&bfptr->mutex_); no_relocation_lsmdel = (bfptr->GetFileSize() == (BlobLogHeader::kSize + bfptr->deleted_size_ + BlobLogFooter::kSize)); } bool no_relocation = no_relocation_ttl || no_relocation_lsmdel; if (!no_relocation) { // read the blob because you have to write it back to new file shallow = Reader::kReadHeaderKeyBlob; } BlobLogRecord record; std::shared_ptr newfile; std::shared_ptr new_writer; uint64_t blob_offset = 0; while (true) { assert(s.ok()); // Read the next blob record. Status read_record_status = reader->ReadRecord(&record, shallow, &blob_offset); // Exit if we reach the end of blob file. // TODO(yiwu): properly handle ReadRecord error. if (!read_record_status.ok()) { break; } gc_stats->blob_count++; // Similar to OptimisticTransaction, we obtain latest_seq from // base DB, which is guaranteed to be no smaller than the sequence of // current key. We use a WriteCallback on write to check the key sequence // on write. If the key sequence is larger than latest_seq, we know // a new versions is inserted and the old blob can be disgard. // // We cannot use OptimisticTransaction because we need to pass // is_blob_index flag to GetImpl. SequenceNumber latest_seq = GetLatestSequenceNumber(); bool is_blob_index = false; PinnableSlice index_entry; Status get_status = db_impl_->GetImpl( ReadOptions(), cfh, record.key, &index_entry, nullptr /*value_found*/, nullptr /*read_callback*/, &is_blob_index); TEST_SYNC_POINT("BlobDBImpl::GCFileAndUpdateLSM:AfterGetFromBaseDB"); if (!get_status.ok() && !get_status.IsNotFound()) { // error s = get_status; ROCKS_LOG_ERROR(db_options_.info_log, "Error while getting index entry: %s", s.ToString().c_str()); break; } if (get_status.IsNotFound() || !is_blob_index) { // Either the key is deleted or updated with a newer version whish is // inlined in LSM. continue; } BlobIndex blob_index; s = blob_index.DecodeFrom(index_entry); if (!s.ok()) { ROCKS_LOG_ERROR(db_options_.info_log, "Error while decoding index entry: %s", s.ToString().c_str()); break; } if (blob_index.file_number() != bfptr->BlobFileNumber() || blob_index.offset() != blob_offset) { // Key has been overwritten. Drop the blob record. continue; } GarbageCollectionWriteCallback callback(cfd, record.key, latest_seq); // If key has expired, remove it from base DB. if (no_relocation_ttl || (has_ttl && now >= record.expiration)) { gc_stats->num_deletes++; gc_stats->deleted_size += record.value_size; TEST_SYNC_POINT("BlobDBImpl::GCFileAndUpdateLSM:BeforeDelete"); WriteBatch delete_batch; Status delete_status = delete_batch.Delete(record.key); if (delete_status.ok()) { delete_status = db_impl_->WriteWithCallback(WriteOptions(), &delete_batch, &callback); } if (delete_status.ok()) { gc_stats->delete_succeeded++; } else if (delete_status.IsBusy()) { // The key is overwritten in the meanwhile. Drop the blob record. gc_stats->overwritten_while_delete++; } else { // We hit an error. s = delete_status; ROCKS_LOG_ERROR(db_options_.info_log, "Error while deleting expired key: %s", s.ToString().c_str()); break; } // Continue to next blob record or retry. continue; } if (first_gc) { // Do not relocate blob record for initial GC. continue; } // Relocate the blob record to new file. if (!newfile) { // new file std::string reason("GC of "); reason += bfptr->PathName(); newfile = NewBlobFile(reason); gc_stats->newfile = newfile; new_writer = CheckOrCreateWriterLocked(newfile); newfile->header_ = std::move(header); // Can't use header beyond this point newfile->header_valid_ = true; newfile->file_size_ = BlobLogHeader::kSize; s = new_writer->WriteHeader(newfile->header_); if (!s.ok()) { ROCKS_LOG_ERROR(db_options_.info_log, "File: %s - header writing failed", newfile->PathName().c_str()); break; } WriteLock wl(&mutex_); dir_change_.store(true); blob_files_.insert(std::make_pair(newfile->BlobFileNumber(), newfile)); } gc_stats->num_relocate++; std::string new_index_entry; uint64_t new_blob_offset = 0; uint64_t new_key_offset = 0; // write the blob to the blob log. s = new_writer->AddRecord(record.key, record.value, record.expiration, &new_key_offset, &new_blob_offset); BlobIndex::EncodeBlob(&new_index_entry, newfile->BlobFileNumber(), new_blob_offset, record.value.size(), bdb_options_.compression); newfile->blob_count_++; newfile->file_size_ += BlobLogRecord::kHeaderSize + record.key.size() + record.value.size(); TEST_SYNC_POINT("BlobDBImpl::GCFileAndUpdateLSM:BeforeRelocate"); WriteBatch rewrite_batch; Status rewrite_status = WriteBatchInternal::PutBlobIndex( &rewrite_batch, column_family_id, record.key, new_index_entry); if (rewrite_status.ok()) { rewrite_status = db_impl_->WriteWithCallback(WriteOptions(), &rewrite_batch, &callback); } if (rewrite_status.ok()) { newfile->ExtendSequenceRange( WriteBatchInternal::Sequence(&rewrite_batch)); gc_stats->relocate_succeeded++; } else if (rewrite_status.IsBusy()) { // The key is overwritten in the meanwhile. Drop the blob record. gc_stats->overwritten_while_relocate++; } else { // We hit an error. s = rewrite_status; ROCKS_LOG_ERROR(db_options_.info_log, "Error while relocating key: %s", s.ToString().c_str()); break; } } // end of ReadRecord loop if (s.ok()) { SequenceNumber obsolete_sequence = newfile == nullptr ? bfptr->GetSequenceRange().second + 1 : newfile->GetSequenceRange().second; bfptr->MarkObsolete(obsolete_sequence); if (!first_gc) { WriteLock wl(&mutex_); obsolete_files_.push_back(bfptr); } } ROCKS_LOG_INFO( db_options_.info_log, "%s blob file %" PRIu64 ". Total blob records: %" PRIu64 ", Deletes: %" PRIu64 "/%" PRIu64 " succeeded, Relocates: %" PRIu64 "/%" PRIu64 " succeeded.", s.ok() ? "Successfully garbage collected" : "Failed to garbage collect", bfptr->BlobFileNumber(), gc_stats->blob_count, gc_stats->delete_succeeded, gc_stats->num_deletes, gc_stats->relocate_succeeded, gc_stats->num_relocate); if (newfile != nullptr) { total_blob_space_ += newfile->file_size_; ROCKS_LOG_INFO(db_options_.info_log, "New blob file %" PRIu64 ".", newfile->BlobFileNumber()); } return s; } // Ideally we should hold the lock during the entire function, // but under the asusmption that this is only called when a // file is Immutable, we can reduce the critical section bool BlobDBImpl::ShouldGCFile(std::shared_ptr bfile, uint64_t now, bool is_oldest_non_ttl_file, std::string* reason) { if (bfile->HasTTL()) { ExpirationRange expiration_range = bfile->GetExpirationRange(); if (now > expiration_range.second) { *reason = "entire file ttl expired"; return true; } if (!bfile->file_size_.load()) { ROCKS_LOG_ERROR(db_options_.info_log, "Invalid file size = 0 %s", bfile->PathName().c_str()); *reason = "file is empty"; return false; } if (bfile->gc_once_after_open_.load()) { return true; } if (bdb_options_.ttl_range_secs < kPartialExpirationGCRangeSecs) { *reason = "has ttl but partial expiration not turned on"; return false; } ReadLock lockbfile_r(&bfile->mutex_); bool ret = ((bfile->deleted_size_ * 100.0 / bfile->file_size_.load()) > kPartialExpirationPercentage); if (ret) { *reason = "deleted blobs beyond threshold"; } else { *reason = "deleted blobs below threshold"; } return ret; } // when crash happens, we lose the in-memory account of deleted blobs. // we are therefore forced to do one GC to make sure delete accounting // is OK if (bfile->gc_once_after_open_.load()) { return true; } ReadLock lockbfile_r(&bfile->mutex_); if (bdb_options_.enable_garbage_collection) { if ((bfile->deleted_size_ * 100.0 / bfile->file_size_.load()) > kPartialExpirationPercentage) { *reason = "deleted simple blobs beyond threshold"; return true; } } // if we haven't reached limits of disk space, don't DELETE if (bdb_options_.blob_dir_size == 0 || total_blob_space_.load() < bdb_options_.blob_dir_size) { *reason = "disk space not exceeded"; return false; } if (is_oldest_non_ttl_file) { *reason = "out of space and is the oldest simple blob file"; return true; } *reason = "out of space but is not the oldest simple blob file"; return false; } std::pair BlobDBImpl::DeleteObsoleteFiles(bool aborted) { if (aborted) return std::make_pair(false, -1); { ReadLock rl(&mutex_); if (obsolete_files_.empty()) return std::make_pair(true, -1); } std::list> tobsolete; { WriteLock wl(&mutex_); tobsolete.swap(obsolete_files_); } bool file_deleted = false; for (auto iter = tobsolete.begin(); iter != tobsolete.end();) { auto bfile = *iter; { ReadLock lockbfile_r(&bfile->mutex_); if (VisibleToActiveSnapshot(bfile)) { ROCKS_LOG_INFO(db_options_.info_log, "Could not delete file due to snapshot failure %s", bfile->PathName().c_str()); ++iter; continue; } } ROCKS_LOG_INFO(db_options_.info_log, "Will delete file due to snapshot success %s", bfile->PathName().c_str()); blob_files_.erase(bfile->BlobFileNumber()); Status s = env_->DeleteFile(bfile->PathName()); if (!s.ok()) { ROCKS_LOG_ERROR(db_options_.info_log, "File failed to be deleted as obsolete %s", bfile->PathName().c_str()); ++iter; continue; } file_deleted = true; total_blob_space_ -= bfile->file_size_; ROCKS_LOG_INFO(db_options_.info_log, "File deleted as obsolete from blob dir %s", bfile->PathName().c_str()); iter = tobsolete.erase(iter); } // directory change. Fsync if (file_deleted) { dir_ent_->Fsync(); // reset oldest_file_evicted flag oldest_file_evicted_.store(false); } // put files back into obsolete if for some reason, delete failed if (!tobsolete.empty()) { WriteLock wl(&mutex_); for (auto bfile : tobsolete) { obsolete_files_.push_front(bfile); } } return std::make_pair(!aborted, -1); } void BlobDBImpl::CopyBlobFiles( std::vector>* bfiles_copy, std::function&)> predicate) { ReadLock rl(&mutex_); for (auto const& p : blob_files_) { bool pred_value = true; if (predicate) { pred_value = predicate(p.second); } if (pred_value) { bfiles_copy->push_back(p.second); } } } void BlobDBImpl::FilterSubsetOfFiles( const std::vector>& blob_files, std::vector>* to_process, uint64_t epoch, size_t files_to_collect) { // 100.0 / 15.0 = 7 uint64_t next_epoch_increment = static_cast( std::ceil(100 / static_cast(kGCFilePercentage))); uint64_t now = EpochNow(); size_t files_processed = 0; bool non_ttl_file_found = false; for (auto bfile : blob_files) { if (files_processed >= files_to_collect) break; // if this is the first time processing the file // i.e. gc_epoch == -1, process it. // else process the file if its processing epoch matches // the current epoch. Typically the #of epochs should be // around 5-10 if (bfile->gc_epoch_ != -1 && (uint64_t)bfile->gc_epoch_ != epoch) { continue; } files_processed++; // reset the epoch bfile->gc_epoch_ = epoch + next_epoch_increment; // file has already been GC'd or is still open for append, // then it should not be GC'd if (bfile->Obsolete() || !bfile->Immutable()) continue; bool is_oldest_non_ttl_file = false; if (!non_ttl_file_found && !bfile->HasTTL()) { is_oldest_non_ttl_file = true; non_ttl_file_found = true; } std::string reason; bool shouldgc = ShouldGCFile(bfile, now, is_oldest_non_ttl_file, &reason); if (!shouldgc) { ROCKS_LOG_DEBUG(db_options_.info_log, "File has been skipped for GC ttl %s %" PRIu64 " %" PRIu64 " reason='%s'", bfile->PathName().c_str(), now, bfile->GetExpirationRange().second, reason.c_str()); continue; } ROCKS_LOG_INFO(db_options_.info_log, "File has been chosen for GC ttl %s %" PRIu64 " %" PRIu64 " reason='%s'", bfile->PathName().c_str(), now, bfile->GetExpirationRange().second, reason.c_str()); to_process->push_back(bfile); } } std::pair BlobDBImpl::RunGC(bool aborted) { if (aborted) return std::make_pair(false, -1); current_epoch_++; std::vector> blob_files; CopyBlobFiles(&blob_files); if (!blob_files.size()) return std::make_pair(true, -1); // 15% of files are collected each call to space out the IO and CPU // consumption. size_t files_to_collect = (kGCFilePercentage * blob_files.size()) / 100; std::vector> to_process; FilterSubsetOfFiles(blob_files, &to_process, current_epoch_, files_to_collect); for (auto bfile : to_process) { GCStats gc_stats; Status s = GCFileAndUpdateLSM(bfile, &gc_stats); if (!s.ok()) { continue; } if (bfile->gc_once_after_open_.load()) { WriteLock lockbfile_w(&bfile->mutex_); bfile->deleted_size_ = gc_stats.deleted_size; bfile->deleted_count_ = gc_stats.num_deletes; bfile->gc_once_after_open_ = false; } } // reschedule return std::make_pair(true, -1); } Iterator* BlobDBImpl::NewIterator(const ReadOptions& read_options) { auto* cfd = reinterpret_cast(DefaultColumnFamily())->cfd(); // Get a snapshot to avoid blob file get deleted between we // fetch and index entry and reading from the file. ManagedSnapshot* own_snapshot = nullptr; const Snapshot* snapshot = read_options.snapshot; if (snapshot == nullptr) { own_snapshot = new ManagedSnapshot(db_); snapshot = own_snapshot->snapshot(); } auto* iter = db_impl_->NewIteratorImpl( read_options, cfd, snapshot->GetSequenceNumber(), nullptr /*read_callback*/, true /*allow_blob*/); return new BlobDBIterator(own_snapshot, iter, this); } Status DestroyBlobDB(const std::string& dbname, const Options& options, const BlobDBOptions& bdb_options) { const ImmutableDBOptions soptions(SanitizeOptions(dbname, options)); Env* env = soptions.env; Status status; std::string blobdir; blobdir = (bdb_options.path_relative) ? dbname + "/" + bdb_options.blob_dir : bdb_options.blob_dir; std::vector filenames; env->GetChildren(blobdir, &filenames); for (const auto& f : filenames) { uint64_t number; FileType type; if (ParseFileName(f, &number, &type) && type == kBlobFile) { Status del = env->DeleteFile(blobdir + "/" + f); if (status.ok() && !del.ok()) { status = del; } } } env->DeleteDir(blobdir); Status destroy = DestroyDB(dbname, options); if (status.ok() && !destroy.ok()) { status = destroy; } return status; } #ifndef NDEBUG Status BlobDBImpl::TEST_GetBlobValue(const Slice& key, const Slice& index_entry, PinnableSlice* value) { return GetBlobValue(key, index_entry, value); } std::vector> BlobDBImpl::TEST_GetBlobFiles() const { ReadLock l(&mutex_); std::vector> blob_files; for (auto& p : blob_files_) { blob_files.emplace_back(p.second); } return blob_files; } std::vector> BlobDBImpl::TEST_GetObsoleteFiles() const { ReadLock l(&mutex_); std::vector> obsolete_files; for (auto& bfile : obsolete_files_) { obsolete_files.emplace_back(bfile); } return obsolete_files; } void BlobDBImpl::TEST_DeleteObsoleteFiles() { DeleteObsoleteFiles(false /*abort*/); } Status BlobDBImpl::TEST_CloseBlobFile(std::shared_ptr& bfile) { return CloseBlobFile(bfile); } Status BlobDBImpl::TEST_GCFileAndUpdateLSM(std::shared_ptr& bfile, GCStats* gc_stats) { return GCFileAndUpdateLSM(bfile, gc_stats); } void BlobDBImpl::TEST_RunGC() { RunGC(false /*abort*/); } #endif // !NDEBUG } // namespace blob_db } // namespace rocksdb #endif // ROCKSDB_LITE