package statesync import ( "bytes" "context" "errors" "fmt" "time" abci "github.com/tendermint/tendermint/abci/types" "github.com/tendermint/tendermint/libs/log" tmsync "github.com/tendermint/tendermint/libs/sync" "github.com/tendermint/tendermint/p2p" ssproto "github.com/tendermint/tendermint/proto/tendermint/statesync" "github.com/tendermint/tendermint/proxy" sm "github.com/tendermint/tendermint/state" "github.com/tendermint/tendermint/types" ) const ( // defaultDiscoveryTime is the time to spend discovering snapshots. defaultDiscoveryTime = 20 * time.Second // chunkFetchers is the number of concurrent chunk fetchers to run. chunkFetchers = 4 // chunkTimeout is the timeout while waiting for the next chunk from the chunk queue. chunkTimeout = 2 * time.Minute // requestTimeout is the timeout before rerequesting a chunk, possibly from a different peer. chunkRequestTimeout = 10 * time.Second ) var ( // errAbort is returned by Sync() when snapshot restoration is aborted. errAbort = errors.New("state sync aborted") // errRetrySnapshot is returned by Sync() when the snapshot should be retried. errRetrySnapshot = errors.New("retry snapshot") // errRejectSnapshot is returned by Sync() when the snapshot is rejected. errRejectSnapshot = errors.New("snapshot was rejected") // errRejectFormat is returned by Sync() when the snapshot format is rejected. errRejectFormat = errors.New("snapshot format was rejected") // errRejectSender is returned by Sync() when the snapshot sender is rejected. errRejectSender = errors.New("snapshot sender was rejected") // errVerifyFailed is returned by Sync() when app hash or last height verification fails. errVerifyFailed = errors.New("verification failed") // errTimeout is returned by Sync() when we've waited too long to receive a chunk. errTimeout = errors.New("timed out waiting for chunk") // errNoSnapshots is returned by SyncAny() if no snapshots are found and discovery is disabled. errNoSnapshots = errors.New("no suitable snapshots found") ) // syncer runs a state sync against an ABCI app. Use either SyncAny() to automatically attempt to // sync all snapshots in the pool (pausing to discover new ones), or Sync() to sync a specific // snapshot. Snapshots and chunks are fed via AddSnapshot() and AddChunk() as appropriate. type syncer struct { logger log.Logger stateProvider StateProvider conn proxy.AppConnSnapshot connQuery proxy.AppConnQuery snapshots *snapshotPool tempDir string mtx tmsync.RWMutex chunks *chunkQueue } // newSyncer creates a new syncer. func newSyncer(logger log.Logger, conn proxy.AppConnSnapshot, connQuery proxy.AppConnQuery, stateProvider StateProvider, tempDir string) *syncer { return &syncer{ logger: logger, stateProvider: stateProvider, conn: conn, connQuery: connQuery, snapshots: newSnapshotPool(stateProvider), tempDir: tempDir, } } // AddChunk adds a chunk to the chunk queue, if any. It returns false if the chunk has already // been added to the queue, or an error if there's no sync in progress. func (s *syncer) AddChunk(chunk *chunk) (bool, error) { s.mtx.RLock() defer s.mtx.RUnlock() if s.chunks == nil { return false, errors.New("no state sync in progress") } added, err := s.chunks.Add(chunk) if err != nil { return false, err } if added { s.logger.Debug("Added chunk to queue", "height", chunk.Height, "format", chunk.Format, "chunk", chunk.Index) } else { s.logger.Debug("Ignoring duplicate chunk in queue", "height", chunk.Height, "format", chunk.Format, "chunk", chunk.Index) } return added, nil } // AddSnapshot adds a snapshot to the snapshot pool. It returns true if a new, previously unseen // snapshot was accepted and added. func (s *syncer) AddSnapshot(peer p2p.Peer, snapshot *snapshot) (bool, error) { added, err := s.snapshots.Add(peer, snapshot) if err != nil { return false, err } if added { s.logger.Info("Discovered new snapshot", "height", snapshot.Height, "format", snapshot.Format, "hash", fmt.Sprintf("%X", snapshot.Hash)) } return added, nil } // AddPeer adds a peer to the pool. For now we just keep it simple and send a single request // to discover snapshots, later we may want to do retries and stuff. func (s *syncer) AddPeer(peer p2p.Peer) { s.logger.Debug("Requesting snapshots from peer", "peer", peer.ID()) peer.Send(SnapshotChannel, mustEncodeMsg(&ssproto.SnapshotsRequest{})) } // RemovePeer removes a peer from the pool. func (s *syncer) RemovePeer(peer p2p.Peer) { s.logger.Debug("Removing peer from sync", "peer", peer.ID()) s.snapshots.RemovePeer(peer.ID()) } // SyncAny tries to sync any of the snapshots in the snapshot pool, waiting to discover further // snapshots if none were found and discoveryTime > 0. It returns the latest state and block commit // which the caller must use to bootstrap the node. func (s *syncer) SyncAny(discoveryTime time.Duration) (sm.State, *types.Commit, error) { if discoveryTime > 0 { s.logger.Info(fmt.Sprintf("Discovering snapshots for %v", discoveryTime)) time.Sleep(discoveryTime) } // The app may ask us to retry a snapshot restoration, in which case we need to reuse // the snapshot and chunk queue from the previous loop iteration. var ( snapshot *snapshot chunks *chunkQueue err error ) for { // If not nil, we're going to retry restoration of the same snapshot. if snapshot == nil { snapshot = s.snapshots.Best() chunks = nil } if snapshot == nil { if discoveryTime == 0 { return sm.State{}, nil, errNoSnapshots } s.logger.Info(fmt.Sprintf("Discovering snapshots for %v", discoveryTime)) time.Sleep(discoveryTime) continue } if chunks == nil { chunks, err = newChunkQueue(snapshot, s.tempDir) if err != nil { return sm.State{}, nil, fmt.Errorf("failed to create chunk queue: %w", err) } defer chunks.Close() // in case we forget to close it elsewhere } newState, commit, err := s.Sync(snapshot, chunks) switch { case err == nil: return newState, commit, nil case errors.Is(err, errAbort): return sm.State{}, nil, err case errors.Is(err, errRetrySnapshot): chunks.RetryAll() s.logger.Info("Retrying snapshot", "height", snapshot.Height, "format", snapshot.Format, "hash", fmt.Sprintf("%X", snapshot.Hash)) continue case errors.Is(err, errTimeout): s.snapshots.Reject(snapshot) s.logger.Error("Timed out waiting for snapshot chunks, rejected snapshot", "height", snapshot.Height, "format", snapshot.Format, "hash", fmt.Sprintf("%X", snapshot.Hash)) case errors.Is(err, errRejectSnapshot): s.snapshots.Reject(snapshot) s.logger.Info("Snapshot rejected", "height", snapshot.Height, "format", snapshot.Format, "hash", fmt.Sprintf("%X", snapshot.Hash)) case errors.Is(err, errRejectFormat): s.snapshots.RejectFormat(snapshot.Format) s.logger.Info("Snapshot format rejected", "format", snapshot.Format) case errors.Is(err, errRejectSender): s.logger.Info("Snapshot senders rejected", "height", snapshot.Height, "format", snapshot.Format, "hash", fmt.Sprintf("%X", snapshot.Hash)) for _, peer := range s.snapshots.GetPeers(snapshot) { s.snapshots.RejectPeer(peer.ID()) s.logger.Info("Snapshot sender rejected", "peer", peer.ID()) } default: return sm.State{}, nil, fmt.Errorf("snapshot restoration failed: %w", err) } // Discard snapshot and chunks for next iteration err = chunks.Close() if err != nil { s.logger.Error("Failed to clean up chunk queue", "err", err) } snapshot = nil chunks = nil } } // Sync executes a sync for a specific snapshot, returning the latest state and block commit which // the caller must use to bootstrap the node. func (s *syncer) Sync(snapshot *snapshot, chunks *chunkQueue) (sm.State, *types.Commit, error) { s.mtx.Lock() if s.chunks != nil { s.mtx.Unlock() return sm.State{}, nil, errors.New("a state sync is already in progress") } s.chunks = chunks s.mtx.Unlock() defer func() { s.mtx.Lock() s.chunks = nil s.mtx.Unlock() }() // Offer snapshot to ABCI app. err := s.offerSnapshot(snapshot) if err != nil { return sm.State{}, nil, err } // Spawn chunk fetchers. They will terminate when the chunk queue is closed or context cancelled. ctx, cancel := context.WithCancel(context.Background()) defer cancel() for i := int32(0); i < chunkFetchers; i++ { go s.fetchChunks(ctx, snapshot, chunks) } pctx, pcancel := context.WithTimeout(context.Background(), 10*time.Second) defer pcancel() // Optimistically build new state, so we don't discover any light client failures at the end. state, err := s.stateProvider.State(pctx, snapshot.Height) if err != nil { return sm.State{}, nil, fmt.Errorf("failed to build new state: %w", err) } commit, err := s.stateProvider.Commit(pctx, snapshot.Height) if err != nil { return sm.State{}, nil, fmt.Errorf("failed to fetch commit: %w", err) } // Restore snapshot err = s.applyChunks(chunks) if err != nil { return sm.State{}, nil, err } // Verify app and update app version appVersion, err := s.verifyApp(snapshot) if err != nil { return sm.State{}, nil, err } state.Version.Consensus.App = appVersion // Done! 🎉 s.logger.Info("Snapshot restored", "height", snapshot.Height, "format", snapshot.Format, "hash", fmt.Sprintf("%X", snapshot.Hash)) return state, commit, nil } // offerSnapshot offers a snapshot to the app. It returns various errors depending on the app's // response, or nil if the snapshot was accepted. func (s *syncer) offerSnapshot(snapshot *snapshot) error { s.logger.Info("Offering snapshot to ABCI app", "height", snapshot.Height, "format", snapshot.Format, "hash", fmt.Sprintf("%X", snapshot.Hash)) resp, err := s.conn.OfferSnapshotSync(abci.RequestOfferSnapshot{ Snapshot: &abci.Snapshot{ Height: snapshot.Height, Format: snapshot.Format, Chunks: snapshot.Chunks, Hash: snapshot.Hash, Metadata: snapshot.Metadata, }, AppHash: snapshot.trustedAppHash, }) if err != nil { return fmt.Errorf("failed to offer snapshot: %w", err) } switch resp.Result { case abci.ResponseOfferSnapshot_ACCEPT: s.logger.Info("Snapshot accepted, restoring", "height", snapshot.Height, "format", snapshot.Format, "hash", fmt.Sprintf("%X", snapshot.Hash)) return nil case abci.ResponseOfferSnapshot_ABORT: return errAbort case abci.ResponseOfferSnapshot_REJECT: return errRejectSnapshot case abci.ResponseOfferSnapshot_REJECT_FORMAT: return errRejectFormat case abci.ResponseOfferSnapshot_REJECT_SENDER: return errRejectSender default: return fmt.Errorf("unknown ResponseOfferSnapshot result %v", resp.Result) } } // applyChunks applies chunks to the app. It returns various errors depending on the app's // response, or nil once the snapshot is fully restored. func (s *syncer) applyChunks(chunks *chunkQueue) error { for { chunk, err := chunks.Next() if err == errDone { return nil } else if err != nil { return fmt.Errorf("failed to fetch chunk: %w", err) } resp, err := s.conn.ApplySnapshotChunkSync(abci.RequestApplySnapshotChunk{ Index: chunk.Index, Chunk: chunk.Chunk, Sender: string(chunk.Sender), }) if err != nil { return fmt.Errorf("failed to apply chunk %v: %w", chunk.Index, err) } s.logger.Info("Applied snapshot chunk to ABCI app", "height", chunk.Height, "format", chunk.Format, "chunk", chunk.Index, "total", chunks.Size()) // Discard and refetch any chunks as requested by the app for _, index := range resp.RefetchChunks { err := chunks.Discard(index) if err != nil { return fmt.Errorf("failed to discard chunk %v: %w", index, err) } } // Reject any senders as requested by the app for _, sender := range resp.RejectSenders { if sender != "" { s.snapshots.RejectPeer(p2p.ID(sender)) err := chunks.DiscardSender(p2p.ID(sender)) if err != nil { return fmt.Errorf("failed to reject sender: %w", err) } } } switch resp.Result { case abci.ResponseApplySnapshotChunk_ACCEPT: case abci.ResponseApplySnapshotChunk_ABORT: return errAbort case abci.ResponseApplySnapshotChunk_RETRY: chunks.Retry(chunk.Index) case abci.ResponseApplySnapshotChunk_RETRY_SNAPSHOT: return errRetrySnapshot case abci.ResponseApplySnapshotChunk_REJECT_SNAPSHOT: return errRejectSnapshot default: return fmt.Errorf("unknown ResponseApplySnapshotChunk result %v", resp.Result) } } } // fetchChunks requests chunks from peers, receiving allocations from the chunk queue. Chunks // will be received from the reactor via syncer.AddChunks() to chunkQueue.Add(). func (s *syncer) fetchChunks(ctx context.Context, snapshot *snapshot, chunks *chunkQueue) { for { index, err := chunks.Allocate() if err == errDone { // Keep checking until the context is cancelled (restore is done), in case any // chunks need to be refetched. select { case <-ctx.Done(): return default: } time.Sleep(2 * time.Second) continue } if err != nil { s.logger.Error("Failed to allocate chunk from queue", "err", err) return } s.logger.Info("Fetching snapshot chunk", "height", snapshot.Height, "format", snapshot.Format, "chunk", index, "total", chunks.Size()) ticker := time.NewTicker(chunkRequestTimeout) defer ticker.Stop() s.requestChunk(snapshot, index) select { case <-chunks.WaitFor(index): case <-ticker.C: s.requestChunk(snapshot, index) case <-ctx.Done(): return } ticker.Stop() } } // requestChunk requests a chunk from a peer. func (s *syncer) requestChunk(snapshot *snapshot, chunk uint32) { peer := s.snapshots.GetPeer(snapshot) if peer == nil { s.logger.Error("No valid peers found for snapshot", "height", snapshot.Height, "format", snapshot.Format, "hash", snapshot.Hash) return } s.logger.Debug("Requesting snapshot chunk", "height", snapshot.Height, "format", snapshot.Format, "chunk", chunk, "peer", peer.ID()) peer.Send(ChunkChannel, mustEncodeMsg(&ssproto.ChunkRequest{ Height: snapshot.Height, Format: snapshot.Format, Index: chunk, })) } // verifyApp verifies the sync, checking the app hash and last block height. It returns the // app version, which should be returned as part of the initial state. func (s *syncer) verifyApp(snapshot *snapshot) (uint64, error) { resp, err := s.connQuery.InfoSync(proxy.RequestInfo) if err != nil { return 0, fmt.Errorf("failed to query ABCI app for appHash: %w", err) } if !bytes.Equal(snapshot.trustedAppHash, resp.LastBlockAppHash) { s.logger.Error("appHash verification failed", "expected", fmt.Sprintf("%X", snapshot.trustedAppHash), "actual", fmt.Sprintf("%X", resp.LastBlockAppHash)) return 0, errVerifyFailed } if uint64(resp.LastBlockHeight) != snapshot.Height { s.logger.Error("ABCI app reported unexpected last block height", "expected", snapshot.Height, "actual", resp.LastBlockHeight) return 0, errVerifyFailed } s.logger.Info("Verified ABCI app", "height", snapshot.Height, "appHash", fmt.Sprintf("%X", snapshot.trustedAppHash)) return resp.AppVersion, nil }