package engine import ( "errors" "fmt" "path/filepath" "strings" "sync" "git.frostfs.info/TrueCloudLab/frostfs-node/pkg/local_object_storage/blobstor" "git.frostfs.info/TrueCloudLab/frostfs-node/pkg/local_object_storage/shard" "go.uber.org/zap" ) type shardInitError struct { err error id string } // Open opens all StorageEngine's components. func (e *StorageEngine) Open() error { return e.open() } func (e *StorageEngine) open() error { e.mtx.Lock() defer e.mtx.Unlock() var wg sync.WaitGroup var errCh = make(chan shardInitError, len(e.shards)) for id, sh := range e.shards { wg.Add(1) go func(id string, sh *shard.Shard) { defer wg.Done() if err := sh.Open(); err != nil { errCh <- shardInitError{ err: err, id: id, } } }(id, sh.Shard) } wg.Wait() close(errCh) for res := range errCh { if res.err != nil { e.log.Error("could not open shard, closing and skipping", zap.String("id", res.id), zap.Error(res.err)) sh := e.shards[res.id] delete(e.shards, res.id) err := sh.Close() if err != nil { e.log.Error("could not close partially initialized shard", zap.String("id", res.id), zap.Error(res.err)) } continue } } return nil } // Init initializes all StorageEngine's components. func (e *StorageEngine) Init() error { e.mtx.Lock() defer e.mtx.Unlock() var wg sync.WaitGroup var errCh = make(chan shardInitError, len(e.shards)) for id, sh := range e.shards { wg.Add(1) go func(id string, sh *shard.Shard) { defer wg.Done() if err := sh.Init(); err != nil { errCh <- shardInitError{ err: err, id: id, } } }(id, sh.Shard) } wg.Wait() close(errCh) for res := range errCh { if res.err != nil { if errors.Is(res.err, blobstor.ErrInitBlobovniczas) { e.log.Error("could not initialize shard, closing and skipping", zap.String("id", res.id), zap.Error(res.err)) sh := e.shards[res.id] delete(e.shards, res.id) err := sh.Close() if err != nil { e.log.Error("could not close partially initialized shard", zap.String("id", res.id), zap.Error(res.err)) } continue } return fmt.Errorf("could not initialize shard %s: %w", res.id, res.err) } } if len(e.shards) == 0 { return errors.New("failed initialization on all shards") } e.wg.Add(1) go e.setModeLoop() return nil } var errClosed = errors.New("storage engine is closed") // Close releases all StorageEngine's components. Waits for all data-related operations to complete. // After the call, all the next ones will fail. // // The method MUST only be called when the application exits. func (e *StorageEngine) Close() error { close(e.closeCh) defer e.wg.Wait() return e.setBlockExecErr(errClosed) } // closes all shards. Never returns an error, shard errors are logged. func (e *StorageEngine) close(releasePools bool) error { e.mtx.RLock() defer e.mtx.RUnlock() if releasePools { for _, p := range e.shardPools { p.Release() } } for id, sh := range e.shards { if err := sh.Close(); err != nil { e.log.Debug("could not close shard", zap.String("id", id), zap.String("error", err.Error()), ) } } return nil } // executes op if execution is not blocked, otherwise returns blocking error. // // Can be called concurrently with setBlockExecErr. func (e *StorageEngine) execIfNotBlocked(op func() error) error { e.blockExec.mtx.RLock() defer e.blockExec.mtx.RUnlock() if e.blockExec.err != nil { return e.blockExec.err } return op() } // sets the flag of blocking execution of all data operations according to err: // - err != nil, then blocks the execution. If exec wasn't blocked, calls close method // (if err == errClosed => additionally releases pools and does not allow to resume executions). // - otherwise, resumes execution. If exec was blocked, calls open method. // // Can be called concurrently with exec. In this case it waits for all executions to complete. func (e *StorageEngine) setBlockExecErr(err error) error { e.blockExec.mtx.Lock() defer e.blockExec.mtx.Unlock() prevErr := e.blockExec.err wasClosed := errors.Is(prevErr, errClosed) if wasClosed { return errClosed } e.blockExec.err = err if err == nil { if prevErr != nil { // block -> ok return e.open() } } else if prevErr == nil { // ok -> block return e.close(errors.Is(err, errClosed)) } // otherwise do nothing return nil } // BlockExecution blocks the execution of any data-related operation. All blocked ops will return err. // To resume the execution, use ResumeExecution method. // // Сan be called regardless of the fact of the previous blocking. If execution wasn't blocked, releases all resources // similar to Close. Can be called concurrently with Close and any data related method (waits for all executions // to complete). Returns error if any Close has been called before. // // Must not be called concurrently with either Open or Init. // // Note: technically passing nil error will resume the execution, otherwise, it is recommended to call ResumeExecution // for this. func (e *StorageEngine) BlockExecution(err error) error { return e.setBlockExecErr(err) } // ResumeExecution resumes the execution of any data-related operation. // To block the execution, use BlockExecution method. // // Сan be called regardless of the fact of the previous blocking. If execution was blocked, prepares all resources // similar to Open. Can be called concurrently with Close and any data related method (waits for all executions // to complete). Returns error if any Close has been called before. // // Must not be called concurrently with either Open or Init. func (e *StorageEngine) ResumeExecution() error { return e.setBlockExecErr(nil) } type ReConfiguration struct { errorsThreshold uint32 shardPoolSize uint32 shards map[string][]shard.Option // meta path -> shard opts } // SetErrorsThreshold sets a size amount of errors after which // shard is moved to read-only mode. func (rCfg *ReConfiguration) SetErrorsThreshold(errorsThreshold uint32) { rCfg.errorsThreshold = errorsThreshold } // SetShardPoolSize sets a size of worker pool for each shard. func (rCfg *ReConfiguration) SetShardPoolSize(shardPoolSize uint32) { rCfg.shardPoolSize = shardPoolSize } // AddShard adds a shard for the reconfiguration. // Shard identifier is calculated from paths used in blobstor. func (rCfg *ReConfiguration) AddShard(id string, opts []shard.Option) { if rCfg.shards == nil { rCfg.shards = make(map[string][]shard.Option) } if _, found := rCfg.shards[id]; found { return } rCfg.shards[id] = opts } // Reload reloads StorageEngine's configuration in runtime. func (e *StorageEngine) Reload(rcfg ReConfiguration) error { type reloadInfo struct { sh *shard.Shard opts []shard.Option } e.mtx.RLock() var shardsToRemove []string // shards IDs var shardsToAdd []string // shard config identifiers (blobstor paths concatenation) var shardsToReload []reloadInfo // mark removed shards for removal for id, sh := range e.shards { _, ok := rcfg.shards[calculateShardID(sh.DumpInfo())] if !ok { shardsToRemove = append(shardsToRemove, id) } } loop: for newID := range rcfg.shards { for _, sh := range e.shards { // This calculation should be kept in sync with node // configuration parsing during SIGHUP. if newID == calculateShardID(sh.DumpInfo()) { shardsToReload = append(shardsToReload, reloadInfo{ sh: sh.Shard, opts: rcfg.shards[newID], }) continue loop } } shardsToAdd = append(shardsToAdd, newID) } e.mtx.RUnlock() e.removeShards(shardsToRemove...) for _, p := range shardsToReload { err := p.sh.Reload(p.opts...) if err != nil { e.log.Error("could not reload a shard", zap.Stringer("shard id", p.sh.ID()), zap.Error(err)) } } for _, newID := range shardsToAdd { sh, err := e.createShard(rcfg.shards[newID]) if err != nil { return fmt.Errorf("could not add new shard with '%s' metabase path: %w", newID, err) } idStr := sh.ID().String() err = sh.Open() if err == nil { err = sh.Init() } if err != nil { _ = sh.Close() return fmt.Errorf("could not init %s shard: %w", idStr, err) } err = e.addShard(sh) if err != nil { _ = sh.Close() return fmt.Errorf("could not add %s shard: %w", idStr, err) } e.log.Info("added new shard", zap.String("id", idStr)) } return nil } func calculateShardID(info shard.Info) string { // This calculation should be kept in sync with node // configuration parsing during SIGHUP. var sb strings.Builder for _, sub := range info.BlobStorInfo.SubStorages { sb.WriteString(filepath.Clean(sub.Path)) } return sb.String() }