package sync import ( "context" "time" libp2pcore "github.com/libp2p/go-libp2p-core" "github.com/pkg/errors" ethpb "github.com/prysmaticlabs/ethereumapis/eth/v1alpha1" "github.com/prysmaticlabs/prysm/beacon-chain/db/filters" "github.com/prysmaticlabs/prysm/beacon-chain/flags" p2ptypes "github.com/prysmaticlabs/prysm/beacon-chain/p2p/types" pb "github.com/prysmaticlabs/prysm/proto/beacon/p2p/v1" "github.com/prysmaticlabs/prysm/shared/bytesutil" "github.com/prysmaticlabs/prysm/shared/params" "github.com/prysmaticlabs/prysm/shared/traceutil" "go.opencensus.io/trace" ) // beaconBlocksByRangeRPCHandler looks up the request blocks from the database from a given start block. func (s *Service) beaconBlocksByRangeRPCHandler(ctx context.Context, msg interface{}, stream libp2pcore.Stream) error { ctx, span := trace.StartSpan(ctx, "sync.BeaconBlocksByRangeHandler") defer span.End() ctx, cancel := context.WithTimeout(ctx, respTimeout) defer cancel() SetRPCStreamDeadlines(stream) // Ticker to stagger out large requests. ticker := time.NewTicker(time.Second) defer ticker.Stop() m, ok := msg.(*pb.BeaconBlocksByRangeRequest) if !ok { return errors.New("message is not type *pb.BeaconBlockByRangeRequest") } if err := s.validateRangeRequest(m); err != nil { s.writeErrorResponseToStream(responseCodeInvalidRequest, err.Error(), stream) s.p2p.Peers().Scorers().BadResponsesScorer().Increment(stream.Conn().RemotePeer()) traceutil.AnnotateError(span, err) return err } // The initial count for the first batch to be returned back. count := m.Count allowedBlocksPerSecond := uint64(flags.Get().BlockBatchLimit) if count > allowedBlocksPerSecond { count = allowedBlocksPerSecond } // initial batch start and end slots to be returned to remote peer. startSlot := m.StartSlot endSlot := startSlot + (m.Step * (count - 1)) // The final requested slot from remote peer. endReqSlot := startSlot + (m.Step * (m.Count - 1)) blockLimiter, err := s.rateLimiter.topicCollector(string(stream.Protocol())) if err != nil { return err } remainingBucketCapacity := blockLimiter.Remaining(stream.Conn().RemotePeer().String()) span.AddAttributes( trace.Int64Attribute("start", int64(startSlot)), trace.Int64Attribute("end", int64(endReqSlot)), trace.Int64Attribute("step", int64(m.Step)), trace.Int64Attribute("count", int64(m.Count)), trace.StringAttribute("peer", stream.Conn().RemotePeer().Pretty()), trace.Int64Attribute("remaining_capacity", remainingBucketCapacity), ) // prevRoot is used to ensure that returned chains are strictly linear for singular steps // by comparing the previous root of the block in the list with the current block's parent. var prevRoot [32]byte for startSlot <= endReqSlot { if err := s.rateLimiter.validateRequest(stream, allowedBlocksPerSecond); err != nil { traceutil.AnnotateError(span, err) return err } if endSlot-startSlot > rangeLimit { s.writeErrorResponseToStream(responseCodeInvalidRequest, p2ptypes.ErrInvalidRequest.Error(), stream) err := p2ptypes.ErrInvalidRequest traceutil.AnnotateError(span, err) return err } err := s.writeBlockRangeToStream(ctx, startSlot, endSlot, m.Step, &prevRoot, stream) if err != nil && !errors.Is(err, p2ptypes.ErrInvalidParent) { return err } // Reduce capacity of peer in the rate limiter first. // Decrease allowed blocks capacity by the number of streamed blocks. if startSlot <= endSlot { s.rateLimiter.add(stream, int64(1+(endSlot-startSlot)/m.Step)) } // Exit in the event we have a disjoint chain to // return. if errors.Is(err, p2ptypes.ErrInvalidParent) { break } // Recalculate start and end slots for the next batch to be returned to the remote peer. startSlot = endSlot + m.Step endSlot = startSlot + (m.Step * (allowedBlocksPerSecond - 1)) if endSlot > endReqSlot { endSlot = endReqSlot } // do not wait if all blocks have already been sent. if startSlot > endReqSlot { break } // wait for ticker before resuming streaming blocks to remote peer. <-ticker.C } closeStream(stream, log) return nil } func (s *Service) writeBlockRangeToStream(ctx context.Context, startSlot, endSlot, step uint64, prevRoot *[32]byte, stream libp2pcore.Stream) error { ctx, span := trace.StartSpan(ctx, "sync.WriteBlockRangeToStream") defer span.End() filter := filters.NewFilter().SetStartSlot(startSlot).SetEndSlot(endSlot).SetSlotStep(step) blks, roots, err := s.db.Blocks(ctx, filter) if err != nil { log.WithError(err).Debug("Could not retrieve blocks") s.writeErrorResponseToStream(responseCodeServerError, p2ptypes.ErrGeneric.Error(), stream) traceutil.AnnotateError(span, err) return err } // handle genesis case if startSlot == 0 { genBlock, genRoot, err := s.retrieveGenesisBlock(ctx) if err != nil { log.WithError(err).Debug("Could not retrieve genesis block") s.writeErrorResponseToStream(responseCodeServerError, p2ptypes.ErrGeneric.Error(), stream) traceutil.AnnotateError(span, err) return err } blks = append([]*ethpb.SignedBeaconBlock{genBlock}, blks...) roots = append([][32]byte{genRoot}, roots...) } // Filter and sort our retrieved blocks, so that // we only return valid sets of blocks. blks, roots, err = s.dedupBlocksAndRoots(blks, roots) if err != nil { s.writeErrorResponseToStream(responseCodeServerError, p2ptypes.ErrGeneric.Error(), stream) traceutil.AnnotateError(span, err) return err } blks, roots = s.sortBlocksAndRoots(blks, roots) blks, err = s.filterBlocks(ctx, blks, roots, prevRoot, step, startSlot) if err != nil && err != p2ptypes.ErrInvalidParent { s.writeErrorResponseToStream(responseCodeServerError, p2ptypes.ErrGeneric.Error(), stream) traceutil.AnnotateError(span, err) return err } for _, b := range blks { if b == nil || b.Block == nil { continue } if chunkErr := s.chunkWriter(stream, b); chunkErr != nil { log.WithError(chunkErr).Debug("Could not send a chunked response") s.writeErrorResponseToStream(responseCodeServerError, p2ptypes.ErrGeneric.Error(), stream) traceutil.AnnotateError(span, chunkErr) return chunkErr } } // Return error in the event we have an invalid parent. return err } func (s *Service) validateRangeRequest(r *pb.BeaconBlocksByRangeRequest) error { startSlot := r.StartSlot count := r.Count step := r.Step maxRequestBlocks := params.BeaconNetworkConfig().MaxRequestBlocks // Add a buffer for possible large range requests from nodes syncing close to the // head of the chain. buffer := rangeLimit * 2 highestExpectedSlot := s.chain.CurrentSlot() + uint64(buffer) // Ensure all request params are within appropriate bounds if count == 0 || count > maxRequestBlocks { return p2ptypes.ErrInvalidRequest } if step == 0 || step > rangeLimit { return p2ptypes.ErrInvalidRequest } if startSlot > highestExpectedSlot { return p2ptypes.ErrInvalidRequest } endSlot := startSlot + (step * (count - 1)) if endSlot-startSlot > rangeLimit { return p2ptypes.ErrInvalidRequest } return nil } // filters all the provided blocks to ensure they are canonical // and are strictly linear. func (s *Service) filterBlocks(ctx context.Context, blks []*ethpb.SignedBeaconBlock, roots [][32]byte, prevRoot *[32]byte, step, startSlot uint64) ([]*ethpb.SignedBeaconBlock, error) { if len(blks) != len(roots) { return nil, errors.New("input blks and roots are diff lengths") } newBlks := make([]*ethpb.SignedBeaconBlock, 0, len(blks)) for i, b := range blks { isRequestedSlotStep := (b.Block.Slot-startSlot)%step == 0 isCanonical, err := s.chain.IsCanonical(ctx, roots[i]) if err != nil { return nil, err } parentValid := *prevRoot != [32]byte{} isLinear := *prevRoot == bytesutil.ToBytes32(b.Block.ParentRoot) isSingular := step == 1 if isRequestedSlotStep && isCanonical { // Exit early if our valid block is non linear. if parentValid && isSingular && !isLinear { return newBlks, p2ptypes.ErrInvalidParent } newBlks = append(newBlks, blks[i]) // Set the previous root as the // newly added block's root currRoot := roots[i] prevRoot = &currRoot } } return newBlks, nil } func (s *Service) writeErrorResponseToStream(responseCode byte, reason string, stream libp2pcore.Stream) { writeErrorResponseToStream(responseCode, reason, stream, s.p2p) } func (s *Service) retrieveGenesisBlock(ctx context.Context) (*ethpb.SignedBeaconBlock, [32]byte, error) { genBlock, err := s.db.GenesisBlock(ctx) if err != nil { return nil, [32]byte{}, err } genRoot, err := genBlock.Block.HashTreeRoot() if err != nil { return nil, [32]byte{}, err } return genBlock, genRoot, nil }