package engine import ( "errors" "fmt" "github.com/google/uuid" "github.com/nspcc-dev/hrw" "github.com/nspcc-dev/neofs-node/pkg/local_object_storage/shard" oid "github.com/nspcc-dev/neofs-sdk-go/object/id" "github.com/panjf2000/ants/v2" "go.uber.org/atomic" ) var errShardNotFound = errors.New("shard not found") type hashedShard shardWrapper // AddShard adds a new shard to the storage engine. // // Returns any error encountered that did not allow adding a shard. // Otherwise returns the ID of the added shard. func (e *StorageEngine) AddShard(opts ...shard.Option) (*shard.ID, error) { e.mtx.Lock() defer e.mtx.Unlock() pool, err := ants.NewPool(int(e.shardPoolSize), ants.WithNonblocking(true)) if err != nil { return nil, err } id, err := generateShardID() if err != nil { return nil, fmt.Errorf("could not generate shard ID: %w", err) } sh := shard.New(append(opts, shard.WithID(id), shard.WithExpiredTombstonesCallback(e.processExpiredTombstones), shard.WithExpiredLocksCallback(e.processExpiredLocks), )...) if err := sh.UpdateID(); err != nil { return nil, fmt.Errorf("could not open shard: %w", err) } strID := sh.ID().String() if _, ok := e.shards[strID]; ok { return nil, fmt.Errorf("shard with id %s was already added", strID) } e.shards[strID] = shardWrapper{ errorCount: atomic.NewUint32(0), Shard: sh, } e.shardPools[strID] = pool return sh.ID(), nil } func generateShardID() (*shard.ID, error) { uid, err := uuid.NewRandom() if err != nil { return nil, err } bin, err := uid.MarshalBinary() if err != nil { return nil, err } return shard.NewIDFromBytes(bin), nil } func (e *StorageEngine) shardWeight(sh *shard.Shard) float64 { weightValues := sh.WeightValues() return float64(weightValues.FreeSpace) } func (e *StorageEngine) sortShardsByWeight(objAddr interface{ EncodeToString() string }) []hashedShard { e.mtx.RLock() defer e.mtx.RUnlock() shards := make([]hashedShard, 0, len(e.shards)) weights := make([]float64, 0, len(e.shards)) for _, sh := range e.shards { shards = append(shards, hashedShard(sh)) weights = append(weights, e.shardWeight(sh.Shard)) } hrw.SortSliceByWeightValue(shards, weights, hrw.Hash([]byte(objAddr.EncodeToString()))) return shards } func (e *StorageEngine) unsortedShards() []hashedShard { e.mtx.RLock() defer e.mtx.RUnlock() shards := make([]hashedShard, 0, len(e.shards)) for _, sh := range e.shards { shards = append(shards, hashedShard(sh)) } return shards } func (e *StorageEngine) iterateOverSortedShards(addr oid.Address, handler func(int, hashedShard) (stop bool)) { for i, sh := range e.sortShardsByWeight(addr) { if handler(i, sh) { break } } } func (e *StorageEngine) iterateOverUnsortedShards(handler func(hashedShard) (stop bool)) { for _, sh := range e.unsortedShards() { if handler(sh) { break } } } // SetShardMode sets mode of the shard with provided identifier. // // Returns an error if shard mode was not set, or shard was not found in storage engine. func (e *StorageEngine) SetShardMode(id *shard.ID, m shard.Mode, resetErrorCounter bool) error { e.mtx.RLock() defer e.mtx.RUnlock() for shID, sh := range e.shards { if id.String() == shID { if resetErrorCounter { sh.errorCount.Store(0) } return sh.SetMode(m) } } return errShardNotFound } func (s hashedShard) Hash() uint64 { return hrw.Hash( []byte(s.Shard.ID().String()), ) }