package raft import ( "fmt" "io" "time" "github.com/armon/go-metrics" ) // SnapshotMeta is for metadata of a snapshot. type SnapshotMeta struct { // Version is the version number of the snapshot metadata. This does not cover // the application's data in the snapshot, that should be versioned // separately. Version SnapshotVersion // ID is opaque to the store, and is used for opening. ID string // Index and Term store when the snapshot was taken. Index uint64 Term uint64 // Peers is deprecated and used to support version 0 snapshots, but will // be populated in version 1 snapshots as well to help with upgrades. Peers []byte // Configuration and ConfigurationIndex are present in version 1 // snapshots and later. Configuration Configuration ConfigurationIndex uint64 // Size is the size of the snapshot in bytes. Size int64 } // SnapshotStore interface is used to allow for flexible implementations // of snapshot storage and retrieval. For example, a client could implement // a shared state store such as S3, allowing new nodes to restore snapshots // without streaming from the leader. type SnapshotStore interface { // Create is used to begin a snapshot at a given index and term, and with // the given committed configuration. The version parameter controls // which snapshot version to create. Create(version SnapshotVersion, index, term uint64, configuration Configuration, configurationIndex uint64, trans Transport) (SnapshotSink, error) // List is used to list the available snapshots in the store. // It should return then in descending order, with the highest index first. List() ([]*SnapshotMeta, error) // Open takes a snapshot ID and provides a ReadCloser. Once close is // called it is assumed the snapshot is no longer needed. Open(id string) (*SnapshotMeta, io.ReadCloser, error) } // SnapshotSink is returned by StartSnapshot. The FSM will Write state // to the sink and call Close on completion. On error, Cancel will be invoked. type SnapshotSink interface { io.WriteCloser ID() string Cancel() error } // runSnapshots is a long running goroutine used to manage taking // new snapshots of the FSM. It runs in parallel to the FSM and // main goroutines, so that snapshots do not block normal operation. func (r *Raft) runSnapshots() { for { select { case <-randomTimeout(r.conf.SnapshotInterval): // Check if we should snapshot if !r.shouldSnapshot() { continue } // Trigger a snapshot if err := r.takeSnapshot(); err != nil { r.logger.Printf("[ERR] raft: Failed to take snapshot: %v", err) } case future := <-r.snapshotCh: // User-triggered, run immediately err := r.takeSnapshot() if err != nil { r.logger.Printf("[ERR] raft: Failed to take snapshot: %v", err) } future.respond(err) case <-r.shutdownCh: return } } } // shouldSnapshot checks if we meet the conditions to take // a new snapshot. func (r *Raft) shouldSnapshot() bool { // Check the last snapshot index lastSnap, _ := r.getLastSnapshot() // Check the last log index lastIdx, err := r.logs.LastIndex() if err != nil { r.logger.Printf("[ERR] raft: Failed to get last log index: %v", err) return false } // Compare the delta to the threshold delta := lastIdx - lastSnap return delta >= r.conf.SnapshotThreshold } // takeSnapshot is used to take a new snapshot. This must only be called from // the snapshot thread, never the main thread. func (r *Raft) takeSnapshot() error { defer metrics.MeasureSince([]string{"raft", "snapshot", "takeSnapshot"}, time.Now()) // Create a request for the FSM to perform a snapshot. snapReq := &reqSnapshotFuture{} snapReq.init() // Wait for dispatch or shutdown. select { case r.fsmSnapshotCh <- snapReq: case <-r.shutdownCh: return ErrRaftShutdown } // Wait until we get a response if err := snapReq.Error(); err != nil { if err != ErrNothingNewToSnapshot { err = fmt.Errorf("failed to start snapshot: %v", err) } return err } defer snapReq.snapshot.Release() // Make a request for the configurations and extract the committed info. // We have to use the future here to safely get this information since // it is owned by the main thread. configReq := &configurationsFuture{} configReq.init() select { case r.configurationsCh <- configReq: case <-r.shutdownCh: return ErrRaftShutdown } if err := configReq.Error(); err != nil { return err } committed := configReq.configurations.committed committedIndex := configReq.configurations.committedIndex // We don't support snapshots while there's a config change outstanding // since the snapshot doesn't have a means to represent this state. This // is a little weird because we need the FSM to apply an index that's // past the configuration change, even though the FSM itself doesn't see // the configuration changes. It should be ok in practice with normal // application traffic flowing through the FSM. If there's none of that // then it's not crucial that we snapshot, since there's not much going // on Raft-wise. if snapReq.index < committedIndex { return fmt.Errorf("cannot take snapshot now, wait until the configuration entry at %v has been applied (have applied %v)", committedIndex, snapReq.index) } // Create a new snapshot. r.logger.Printf("[INFO] raft: Starting snapshot up to %d", snapReq.index) start := time.Now() version := getSnapshotVersion(r.protocolVersion) sink, err := r.snapshots.Create(version, snapReq.index, snapReq.term, committed, committedIndex, r.trans) if err != nil { return fmt.Errorf("failed to create snapshot: %v", err) } metrics.MeasureSince([]string{"raft", "snapshot", "create"}, start) // Try to persist the snapshot. start = time.Now() if err := snapReq.snapshot.Persist(sink); err != nil { sink.Cancel() return fmt.Errorf("failed to persist snapshot: %v", err) } metrics.MeasureSince([]string{"raft", "snapshot", "persist"}, start) // Close and check for error. if err := sink.Close(); err != nil { return fmt.Errorf("failed to close snapshot: %v", err) } // Update the last stable snapshot info. r.setLastSnapshot(snapReq.index, snapReq.term) // Compact the logs. if err := r.compactLogs(snapReq.index); err != nil { return err } r.logger.Printf("[INFO] raft: Snapshot to %d complete", snapReq.index) return nil } // compactLogs takes the last inclusive index of a snapshot // and trims the logs that are no longer needed. func (r *Raft) compactLogs(snapIdx uint64) error { defer metrics.MeasureSince([]string{"raft", "compactLogs"}, time.Now()) // Determine log ranges to compact minLog, err := r.logs.FirstIndex() if err != nil { return fmt.Errorf("failed to get first log index: %v", err) } // Check if we have enough logs to truncate lastLogIdx, _ := r.getLastLog() if lastLogIdx <= r.conf.TrailingLogs { return nil } // Truncate up to the end of the snapshot, or `TrailingLogs` // back from the head, which ever is further back. This ensures // at least `TrailingLogs` entries, but does not allow logs // after the snapshot to be removed. maxLog := min(snapIdx, lastLogIdx-r.conf.TrailingLogs) // Log this r.logger.Printf("[INFO] raft: Compacting logs from %d to %d", minLog, maxLog) // Compact the logs if err := r.logs.DeleteRange(minLog, maxLog); err != nil { return fmt.Errorf("log compaction failed: %v", err) } return nil }