package writecache import ( "sync" "time" "github.com/mr-tron/base58" "github.com/nspcc-dev/neofs-node/pkg/local_object_storage/blobovnicza" "github.com/nspcc-dev/neofs-node/pkg/local_object_storage/blobstor" "github.com/nspcc-dev/neofs-node/pkg/local_object_storage/blobstor/fstree" meta "github.com/nspcc-dev/neofs-node/pkg/local_object_storage/metabase" "github.com/nspcc-dev/neofs-sdk-go/object" addressSDK "github.com/nspcc-dev/neofs-sdk-go/object/address" "go.etcd.io/bbolt" "go.uber.org/zap" ) const ( // flushBatchSize is amount of keys which will be read from cache to be flushed // to the main storage. It is used to reduce contention between cache put // and cache persist. flushBatchSize = 512 // flushWorkersCount is number of workers for putting objects in main storage. flushWorkersCount = 20 // defaultFlushInterval is default time interval between successive flushes. defaultFlushInterval = time.Second ) // flushLoop periodically flushes changes from the database to memory. func (c *cache) flushLoop() { var wg sync.WaitGroup for i := 0; i < c.workersCount; i++ { wg.Add(1) go func(i int) { defer wg.Done() c.flushWorker(i) }(i) } wg.Add(1) go func() { defer wg.Done() c.flushBigObjects() }() tick := time.NewTicker(defaultFlushInterval) for { select { case <-tick.C: c.flush() case <-c.closeCh: c.log.Debug("waiting for workers to quit") wg.Wait() return } } } func (c *cache) flush() { lastKey := []byte{} var m []objectInfo for { m = m[:0] sz := 0 c.modeMtx.RLock() if c.readOnly() { c.modeMtx.RUnlock() time.Sleep(time.Second) continue } // We put objects in batches of fixed size to not interfere with main put cycle a lot. _ = c.db.View(func(tx *bbolt.Tx) error { b := tx.Bucket(defaultBucket) cs := b.Cursor() for k, v := cs.Seek(lastKey); k != nil && len(m) < flushBatchSize; k, v = cs.Next() { if _, ok := c.flushed.Peek(string(k)); ok { continue } sz += len(k) + len(v) m = append(m, objectInfo{ addr: string(k), data: cloneBytes(v), }) } return nil }) for i := range m { obj := object.New() if err := obj.Unmarshal(m[i].data); err != nil { continue } select { case c.flushCh <- obj: case <-c.closeCh: c.modeMtx.RUnlock() return } } c.evictObjects(len(m)) for i := range m { c.flushed.Add(m[i].addr, true) } c.modeMtx.RUnlock() c.log.Debug("flushed items from write-cache", zap.Int("count", len(m)), zap.String("start", base58.Encode(lastKey))) if len(m) > 0 { lastKey = append([]byte(m[len(m)-1].addr), 0) } else { break } } } func (c *cache) flushBigObjects() { tick := time.NewTicker(defaultFlushInterval * 10) for { select { case <-tick.C: c.modeMtx.RLock() if c.readOnly() { c.modeMtx.RUnlock() break } evictNum := 0 _ = c.fsTree.Iterate(new(fstree.IterationPrm).WithHandler(func(addr *addressSDK.Address, data []byte) error { sAddr := addr.String() if _, ok := c.store.flushed.Peek(sAddr); ok { return nil } c.mtx.Lock() _, compress := c.compressFlags[sAddr] c.mtx.Unlock() if _, err := c.blobstor.PutRaw(addr, data, compress); err != nil { c.log.Error("cant flush object to blobstor", zap.Error(err)) return nil } if compress { c.mtx.Lock() delete(c.compressFlags, sAddr) c.mtx.Unlock() } // mark object as flushed c.store.flushed.Add(sAddr, false) evictNum++ return nil })) // evict objects which were successfully written to BlobStor c.evictObjects(evictNum) c.modeMtx.RUnlock() case <-c.closeCh: } } } // flushWorker runs in a separate goroutine and write objects to the main storage. // If flushFirst is true, flushing objects from cache database takes priority over // putting new objects. func (c *cache) flushWorker(num int) { priorityCh := c.directCh switch num % 3 { case 0: priorityCh = c.flushCh case 1: priorityCh = c.metaCh } var obj *object.Object for { metaOnly := false // Give priority to direct put. // TODO(fyrchik): #1150 do this once in N iterations depending on load select { case obj = <-priorityCh: metaOnly = num%3 == 1 default: select { case obj = <-c.directCh: case obj = <-c.flushCh: case obj = <-c.metaCh: metaOnly = true case <-c.closeCh: return } } err := c.writeObject(obj, metaOnly) if err != nil { c.log.Error("can't flush object to the main storage", zap.Error(err)) } } } // writeObject is used to write object directly to the main storage. func (c *cache) writeObject(obj *object.Object, metaOnly bool) error { var id *blobovnicza.ID if !metaOnly { prm := new(blobstor.PutPrm) prm.SetObject(obj) res, err := c.blobstor.Put(prm) if err != nil { return err } id = res.BlobovniczaID() } return meta.Put(c.metabase, obj, id) } func cloneBytes(a []byte) []byte { b := make([]byte, len(a)) copy(b, a) return b }