package shard import ( "context" "sync" "sync/atomic" "time" "git.frostfs.info/TrueCloudLab/frostfs-node/internal/logs" "git.frostfs.info/TrueCloudLab/frostfs-node/pkg/core/container" "git.frostfs.info/TrueCloudLab/frostfs-node/pkg/local_object_storage/blobstor" meta "git.frostfs.info/TrueCloudLab/frostfs-node/pkg/local_object_storage/metabase" "git.frostfs.info/TrueCloudLab/frostfs-node/pkg/local_object_storage/pilorama" "git.frostfs.info/TrueCloudLab/frostfs-node/pkg/local_object_storage/shard/mode" "git.frostfs.info/TrueCloudLab/frostfs-node/pkg/local_object_storage/writecache" "git.frostfs.info/TrueCloudLab/frostfs-node/pkg/util" "git.frostfs.info/TrueCloudLab/frostfs-node/pkg/util/logger" cid "git.frostfs.info/TrueCloudLab/frostfs-sdk-go/container/id" oid "git.frostfs.info/TrueCloudLab/frostfs-sdk-go/object/id" "go.uber.org/zap" ) // Shard represents single shard of FrostFS Local Storage Engine. type Shard struct { *cfg gc *gc writeCache writecache.Cache blobStor *blobstor.BlobStor pilorama pilorama.ForestStorage metaBase *meta.DB tsSource TombstoneSource rb *rebuilder gcCancel atomic.Value setModeRequested atomic.Bool writecacheSealCancel atomic.Pointer[writecacheSealCanceler] } // Option represents Shard's constructor option. type Option func(*cfg) // ExpiredTombstonesCallback is a callback handling list of expired tombstones. type ExpiredTombstonesCallback func(context.Context, []meta.TombstonedObject) // ExpiredObjectsCallback is a callback handling list of expired objects. type ExpiredObjectsCallback func(context.Context, uint64, []oid.Address) // DeletedLockCallback is a callback handling list of deleted LOCK objects. type DeletedLockCallback func(context.Context, []oid.Address) // EmptyContainersCallback is a callback hanfling list of zero-size and zero-count containers. type EmptyContainersCallback func(context.Context, []cid.ID) type cfg struct { m sync.RWMutex refillMetabase bool refillMetabaseWorkersCount int rmBatchSize int useWriteCache bool info Info blobOpts []blobstor.Option metaOpts []meta.Option writeCacheOpts []writecache.Option piloramaOpts []pilorama.Option log *logger.Logger gcCfg gcCfg expiredTombstonesCallback ExpiredTombstonesCallback expiredLocksCallback ExpiredObjectsCallback deletedLockCallBack DeletedLockCallback zeroSizeContainersCallback EmptyContainersCallback zeroCountContainersCallback EmptyContainersCallback tsSource TombstoneSource metricsWriter MetricsWriter reportErrorFunc func(selfID string, message string, err error) containerInfo container.InfoProvider } func defaultCfg() *cfg { return &cfg{ rmBatchSize: 100, log: logger.NewLoggerWrapper(zap.L()), gcCfg: defaultGCCfg(), reportErrorFunc: func(string, string, error) {}, zeroSizeContainersCallback: func(context.Context, []cid.ID) {}, zeroCountContainersCallback: func(context.Context, []cid.ID) {}, metricsWriter: noopMetrics{}, } } // New creates, initializes and returns new Shard instance. func New(opts ...Option) *Shard { c := defaultCfg() for i := range opts { opts[i](c) } bs := blobstor.New(c.blobOpts...) mb := meta.New(c.metaOpts...) s := &Shard{ cfg: c, blobStor: bs, metaBase: mb, tsSource: c.tsSource, } reportFunc := func(msg string, err error) { s.reportErrorFunc(s.ID().String(), msg, err) } s.blobStor.SetReportErrorFunc(reportFunc) if c.useWriteCache { s.writeCache = writecache.New( append(c.writeCacheOpts, writecache.WithReportErrorFunc(reportFunc), writecache.WithBlobstor(bs), writecache.WithMetabase(mb))...) s.writeCache.GetMetrics().SetPath(s.writeCache.DumpInfo().Path) } if s.piloramaOpts != nil { s.pilorama = pilorama.NewBoltForest(c.piloramaOpts...) } s.fillInfo() s.writecacheSealCancel.Store(notInitializedCancel) return s } // WithID returns option to set the default shard identifier. func WithID(id *ID) Option { return func(c *cfg) { c.info.ID = id } } // WithBlobStorOptions returns option to set internal BlobStor options. func WithBlobStorOptions(opts ...blobstor.Option) Option { return func(c *cfg) { c.blobOpts = opts } } // WithMetaBaseOptions returns option to set internal metabase options. func WithMetaBaseOptions(opts ...meta.Option) Option { return func(c *cfg) { c.metaOpts = opts } } // WithWriteCacheOptions returns option to set internal write cache options. func WithWriteCacheOptions(opts []writecache.Option) Option { return func(c *cfg) { c.writeCacheOpts = opts } } // WithWriteCacheMetrics returns an option to set the metrics register used by the write cache. func WithWriteCacheMetrics(wcMetrics writecache.Metrics) Option { return func(c *cfg) { c.writeCacheOpts = append(c.writeCacheOpts, writecache.WithMetrics(wcMetrics)) } } // WithPiloramaOptions returns option to set internal write cache options. func WithPiloramaOptions(opts ...pilorama.Option) Option { return func(c *cfg) { c.piloramaOpts = opts } } // WithLogger returns option to set Shard's logger. func WithLogger(l *logger.Logger) Option { return func(c *cfg) { c.log = l c.gcCfg.log = l } } // WithWriteCache returns option to toggle write cache usage. func WithWriteCache(use bool) Option { return func(c *cfg) { c.useWriteCache = use } } // hasWriteCache returns bool if write cache exists on shards. func (s *Shard) hasWriteCache() bool { return s.cfg.useWriteCache } // NeedRefillMetabase returns true if metabase is needed to be refilled. func (s *Shard) NeedRefillMetabase() bool { return s.cfg.refillMetabase } // WithRemoverBatchSize returns option to set batch size // of single removal operation. func WithRemoverBatchSize(sz int) Option { return func(c *cfg) { c.rmBatchSize = sz } } // WithGCWorkerPoolInitializer returns option to set initializer of // worker pool with specified worker number. func WithGCWorkerPoolInitializer(wpInit func(int) util.WorkerPool) Option { return func(c *cfg) { c.gcCfg.workerPoolInit = wpInit } } // WithGCRemoverSleepInterval returns option to specify sleep // interval between object remover executions. func WithGCRemoverSleepInterval(dur time.Duration) Option { return func(c *cfg) { c.gcCfg.removerInterval = dur } } // WithExpiredTombstonesCallback returns option to specify callback // of the expired tombstones handler. func WithExpiredTombstonesCallback(cb ExpiredTombstonesCallback) Option { return func(c *cfg) { c.expiredTombstonesCallback = cb } } // WithExpiredLocksCallback returns option to specify callback // of the expired LOCK objects handler. func WithExpiredLocksCallback(cb ExpiredObjectsCallback) Option { return func(c *cfg) { c.expiredLocksCallback = cb } } // WithRefillMetabase returns option to set flag to refill the Metabase on Shard's initialization step. func WithRefillMetabase(v bool) Option { return func(c *cfg) { c.refillMetabase = v } } // WithRefillMetabaseWorkersCount returns option to set count of workers to refill the Metabase on Shard's initialization step. func WithRefillMetabaseWorkersCount(v int) Option { return func(c *cfg) { c.refillMetabaseWorkersCount = v } } // WithMode returns option to set shard's mode. Mode must be one of the predefined: // - mode.ReadWrite; // - mode.ReadOnly. func WithMode(v mode.Mode) Option { return func(c *cfg) { c.info.Mode = v } } // WithTombstoneSource returns option to set TombstoneSource. func WithTombstoneSource(v TombstoneSource) Option { return func(c *cfg) { c.tsSource = v } } // WithDeletedLockCallback returns option to specify callback // of the deleted LOCK objects handler. func WithDeletedLockCallback(v DeletedLockCallback) Option { return func(c *cfg) { c.deletedLockCallBack = v } } // WithMetricsWriter returns option to specify storage of the // shard's metrics. func WithMetricsWriter(v MetricsWriter) Option { return func(c *cfg) { c.metricsWriter = v } } // WithGCMetrics returns option to specify storage of the GC metrics. func WithGCMetrics(v GCMectrics) Option { return func(c *cfg) { c.gcCfg.metrics = v } } // WithReportErrorFunc returns option to specify callback for handling storage-related errors // in the background workers. func WithReportErrorFunc(f func(selfID string, message string, err error)) Option { return func(c *cfg) { c.reportErrorFunc = f } } // WithExpiredCollectorBatchSize returns option to set batch size // of expired object collection operation. func WithExpiredCollectorBatchSize(size int) Option { return func(c *cfg) { c.gcCfg.expiredCollectorBatchSize = size } } // WithExpiredCollectorWorkerCount returns option to set concurrent // workers count of expired object collection operation. func WithExpiredCollectorWorkerCount(count int) Option { return func(c *cfg) { c.gcCfg.expiredCollectorWorkerCount = count } } // WithDisabledGC disables GC. // For testing purposes only. func WithDisabledGC() Option { return func(c *cfg) { c.gcCfg.testHookRemover = func(_ context.Context) gcRunResult { return gcRunResult{} } } } // WithZeroSizeCallback returns option to set zero-size containers callback. func WithZeroSizeCallback(cb EmptyContainersCallback) Option { return func(c *cfg) { c.zeroSizeContainersCallback = cb } } // WithZeroCountCallback returns option to set zero-count containers callback. func WithZeroCountCallback(cb EmptyContainersCallback) Option { return func(c *cfg) { c.zeroCountContainersCallback = cb } } // WithContainerInfoProvider returns option to set container info provider. func WithContainerInfoProvider(containerInfo container.InfoProvider) Option { return func(c *cfg) { c.containerInfo = containerInfo } } func (s *Shard) fillInfo() { s.cfg.info.MetaBaseInfo = s.metaBase.DumpInfo() s.cfg.info.BlobStorInfo = s.blobStor.DumpInfo() s.cfg.info.Mode = s.GetMode() if s.cfg.useWriteCache { s.cfg.info.WriteCacheInfo = s.writeCache.DumpInfo() } if s.pilorama != nil { s.cfg.info.PiloramaInfo = s.pilorama.DumpInfo() } } const ( // physical is a physically stored object // counter type. physical = "phy" // logical is a logically stored object // counter type (excludes objects that are // stored but unavailable). logical = "logic" // user is an available small or big regular object. user = "user" ) func (s *Shard) updateMetrics(ctx context.Context) { if s.GetMode().NoMetabase() { return } cc, err := s.metaBase.ObjectCounters() if err != nil { s.log.Warn(ctx, logs.ShardMetaObjectCounterRead, zap.Error(err), ) return } s.setObjectCounterBy(physical, cc.Phy) s.setObjectCounterBy(logical, cc.Logic) s.setObjectCounterBy(user, cc.User) cnrList, err := s.metaBase.Containers(ctx) if err != nil { s.log.Warn(ctx, logs.ShardMetaCantReadContainerList, zap.Error(err)) return } var totalPayload uint64 for i := range cnrList { size, err := s.metaBase.ContainerSize(cnrList[i]) if err != nil { s.log.Warn(ctx, logs.ShardMetaCantReadContainerSize, zap.String("cid", cnrList[i].EncodeToString()), zap.Error(err)) continue } s.addToContainerSize(cnrList[i].EncodeToString(), int64(size)) totalPayload += size } s.addToPayloadSize(int64(totalPayload)) contCount, err := s.metaBase.ContainerCounters(ctx) if err != nil { s.log.Warn(ctx, logs.FailedToGetContainerCounters, zap.Error(err)) return } for contID, count := range contCount.Counts { s.setContainerObjectsCount(contID.EncodeToString(), physical, count.Phy) s.setContainerObjectsCount(contID.EncodeToString(), logical, count.Logic) s.setContainerObjectsCount(contID.EncodeToString(), user, count.User) } s.cfg.metricsWriter.SetMode(s.info.Mode) } // incObjectCounter increment both physical and logical object // counters. func (s *Shard) incObjectCounter(cnrID cid.ID, isUser bool) { s.cfg.metricsWriter.IncObjectCounter(physical) s.cfg.metricsWriter.IncObjectCounter(logical) s.cfg.metricsWriter.IncContainerObjectsCount(cnrID.EncodeToString(), physical) s.cfg.metricsWriter.IncContainerObjectsCount(cnrID.EncodeToString(), logical) if isUser { s.cfg.metricsWriter.IncObjectCounter(user) s.cfg.metricsWriter.IncContainerObjectsCount(cnrID.EncodeToString(), user) } } func (s *Shard) decObjectCounterBy(typ string, v uint64) { if v > 0 { s.cfg.metricsWriter.AddToObjectCounter(typ, -int(v)) } } func (s *Shard) setObjectCounterBy(typ string, v uint64) { if v > 0 { s.cfg.metricsWriter.SetObjectCounter(typ, v) } } func (s *Shard) decContainerObjectCounter(byCnr map[cid.ID]meta.ObjectCounters) { for cnrID, count := range byCnr { if count.Phy > 0 { s.cfg.metricsWriter.SubContainerObjectsCount(cnrID.EncodeToString(), physical, count.Phy) } if count.Logic > 0 { s.cfg.metricsWriter.SubContainerObjectsCount(cnrID.EncodeToString(), logical, count.Logic) } if count.User > 0 { s.cfg.metricsWriter.SubContainerObjectsCount(cnrID.EncodeToString(), user, count.User) } } } func (s *Shard) addToContainerSize(cnr string, size int64) { if size != 0 { s.cfg.metricsWriter.AddToContainerSize(cnr, size) } } func (s *Shard) addToPayloadSize(size int64) { if size != 0 { s.cfg.metricsWriter.AddToPayloadSize(size) } } func (s *Shard) setContainerObjectsCount(cnr string, typ string, v uint64) { if v > 0 { s.metricsWriter.SetContainerObjectsCount(cnr, typ, v) } } func (s *Shard) SetEvacuationInProgress(val bool) { s.m.Lock() defer s.m.Unlock() s.info.EvacuationInProgress = val s.metricsWriter.SetEvacuationInProgress(val) }