package blockchain import ( "bytes" "context" "fmt" "time" "github.com/pkg/errors" ethpb "github.com/prysmaticlabs/ethereumapis/eth/v1alpha1" "github.com/prysmaticlabs/prysm/beacon-chain/core/feed" "github.com/prysmaticlabs/prysm/beacon-chain/core/helpers" "github.com/prysmaticlabs/prysm/beacon-chain/state" "github.com/prysmaticlabs/prysm/shared/bytesutil" "github.com/prysmaticlabs/prysm/shared/params" "github.com/prysmaticlabs/prysm/shared/slotutil" "github.com/sirupsen/logrus" "go.opencensus.io/trace" ) // AttestationReceiver interface defines the methods of chain service receive and processing new attestations. type AttestationReceiver interface { ReceiveAttestationNoPubsub(ctx context.Context, att *ethpb.Attestation) error AttestationPreState(ctx context.Context, att *ethpb.Attestation) (*state.BeaconState, error) VerifyLmdFfgConsistency(ctx context.Context, att *ethpb.Attestation) error VerifyFinalizedConsistency(ctx context.Context, root []byte) error } // ReceiveAttestationNoPubsub is a function that defines the operations that are performed on // attestation that is received from regular sync. The operations consist of: // 1. Validate attestation, update validator's latest vote // 2. Apply fork choice to the processed attestation // 3. Save latest head info func (s *Service) ReceiveAttestationNoPubsub(ctx context.Context, att *ethpb.Attestation) error { ctx, span := trace.StartSpan(ctx, "beacon-chain.blockchain.ReceiveAttestationNoPubsub") defer span.End() if err := s.onAttestation(ctx, att); err != nil { return errors.Wrap(err, "could not process attestation") } return nil } // AttestationPreState returns the pre state of attestation. func (s *Service) AttestationPreState(ctx context.Context, att *ethpb.Attestation) (*state.BeaconState, error) { ss, err := helpers.StartSlot(att.Data.Target.Epoch) if err != nil { return nil, err } if err := helpers.ValidateSlotClock(ss, uint64(s.genesisTime.Unix())); err != nil { return nil, err } return s.getAttPreState(ctx, att.Data.Target) } // VerifyLmdFfgConsistency verifies that attestation's LMD and FFG votes are consistency to each other. func (s *Service) VerifyLmdFfgConsistency(ctx context.Context, a *ethpb.Attestation) error { targetSlot, err := helpers.StartSlot(a.Data.Target.Epoch) if err != nil { return err } r, err := s.ancestor(ctx, a.Data.BeaconBlockRoot, targetSlot) if err != nil { return err } if !bytes.Equal(a.Data.Target.Root, r) { return errors.New("FFG and LMD votes are not consistent") } return nil } // VerifyFinalizedConsistency verifies input root is consistent with finalized store. // When the input root is not be consistent with finalized store then we know it is not // on the finalized check point that leads to current canonical chain and should be rejected accordingly. func (s *Service) VerifyFinalizedConsistency(ctx context.Context, root []byte) error { // A canonical root implies the root to has an ancestor that aligns with finalized check point. // In this case, we could exit early to save on additional computation. if s.forkChoiceStore.IsCanonical(bytesutil.ToBytes32(root)) { return nil } f := s.FinalizedCheckpt() ss, err := helpers.StartSlot(f.Epoch) if err != nil { return err } r, err := s.ancestor(ctx, root, ss) if err != nil { return err } if !bytes.Equal(f.Root, r) { return errors.New("Root and finalized store are not consistent") } return nil } // This routine processes fork choice attestations from the pool to account for validator votes and fork choice. func (s *Service) processAttestationsRoutine(subscribedToStateEvents chan struct{}) { // Wait for state to be initialized. stateChannel := make(chan *feed.Event, 1) stateSub := s.stateNotifier.StateFeed().Subscribe(stateChannel) subscribedToStateEvents <- struct{}{} <-stateChannel stateSub.Unsubscribe() if s.genesisTime.IsZero() { log.Warn("ProcessAttestations routine waiting for genesis time") for s.genesisTime.IsZero() { time.Sleep(1 * time.Second) } log.Warn("Genesis time received, now available to process attestations") } st := slotutil.NewSlotTicker(s.genesisTime, params.BeaconConfig().SecondsPerSlot) for { select { case <-s.ctx.Done(): return case <-st.C(): // Continue when there's no fork choice attestation, there's nothing to process and update head. // This covers the condition when the node is still initial syncing to the head of the chain. if s.attPool.ForkchoiceAttestationCount() == 0 { continue } s.processAttestations(s.ctx) if err := s.updateHead(s.ctx, s.getJustifiedBalances()); err != nil { log.Warnf("Resolving fork due to new attestation: %v", err) } } } } // This processes fork choice attestations from the pool to account for validator votes and fork choice. func (s *Service) processAttestations(ctx context.Context) { atts := s.attPool.ForkchoiceAttestations() for _, a := range atts { // Based on the spec, don't process the attestation until the subsequent slot. // This delays consideration in the fork choice until their slot is in the past. // https://github.com/ethereum/eth2.0-specs/blob/dev/specs/phase0/fork-choice.md#validate_on_attestation nextSlot := a.Data.Slot + 1 if err := helpers.VerifySlotTime(uint64(s.genesisTime.Unix()), nextSlot, params.BeaconNetworkConfig().MaximumGossipClockDisparity); err != nil { continue } hasState := s.beaconDB.HasStateSummary(ctx, bytesutil.ToBytes32(a.Data.BeaconBlockRoot)) hasBlock := s.hasBlock(ctx, bytesutil.ToBytes32(a.Data.BeaconBlockRoot)) if !(hasState && hasBlock) { continue } if err := s.attPool.DeleteForkchoiceAttestation(a); err != nil { log.WithError(err).Error("Could not delete fork choice attestation in pool") } if !helpers.VerifyCheckpointEpoch(a.Data.Target, s.genesisTime) { continue } if err := s.ReceiveAttestationNoPubsub(ctx, a); err != nil { log.WithFields(logrus.Fields{ "slot": a.Data.Slot, "committeeIndex": a.Data.CommitteeIndex, "beaconBlockRoot": fmt.Sprintf("%#x", bytesutil.Trunc(a.Data.BeaconBlockRoot)), "targetRoot": fmt.Sprintf("%#x", bytesutil.Trunc(a.Data.Target.Root)), "aggregationCount": a.AggregationBits.Count(), }).WithError(err).Warn("Could not process attestation for fork choice") } } }