package blockchain import ( "context" "github.com/pkg/errors" types "github.com/prysmaticlabs/eth2-types" "github.com/prysmaticlabs/prysm/beacon-chain/core/feed" statefeed "github.com/prysmaticlabs/prysm/beacon-chain/core/feed/state" "github.com/prysmaticlabs/prysm/monitoring/tracing" "github.com/prysmaticlabs/prysm/proto/prysm/v1alpha1/block" "github.com/prysmaticlabs/prysm/time" "github.com/prysmaticlabs/prysm/time/slots" "go.opencensus.io/trace" ) // This defines how many epochs since finality the run time will begin to save hot state on to the DB. var epochsSinceFinalitySaveHotStateDB = types.Epoch(100) // BlockReceiver interface defines the methods of chain service receive and processing new blocks. type BlockReceiver interface { ReceiveBlock(ctx context.Context, block block.SignedBeaconBlock, blockRoot [32]byte) error ReceiveBlockBatch(ctx context.Context, blocks []block.SignedBeaconBlock, blkRoots [][32]byte) error HasInitSyncBlock(root [32]byte) bool } // ReceiveBlock is a function that defines the the operations (minus pubsub) // that are performed on blocks that is received from regular sync service. The operations consists of: // 1. Validate block, apply state transition and update check points // 2. Apply fork choice to the processed block // 3. Save latest head info func (s *Service) ReceiveBlock(ctx context.Context, block block.SignedBeaconBlock, blockRoot [32]byte) error { ctx, span := trace.StartSpan(ctx, "blockChain.ReceiveBlock") defer span.End() receivedTime := time.Now() blockCopy := block.Copy() // Apply state transition on the new block. if err := s.onBlock(ctx, blockCopy, blockRoot); err != nil { err := errors.Wrap(err, "could not process block") tracing.AnnotateError(span, err) return err } // Handle post block operations such as attestations and exits. if err := s.handlePostBlockOperations(blockCopy.Block()); err != nil { return err } // Have we been finalizing? Should we start saving hot states to db? if err := s.checkSaveHotStateDB(ctx); err != nil { return err } // Reports on block and fork choice metrics. reportSlotMetrics(blockCopy.Block().Slot(), s.HeadSlot(), s.CurrentSlot(), s.finalizedCheckpt) // Log block sync status. if err := logBlockSyncStatus(blockCopy.Block(), blockRoot, s.finalizedCheckpt, receivedTime, uint64(s.genesisTime.Unix())); err != nil { return err } // Log state transition data. logStateTransitionData(blockCopy.Block()) return nil } // ReceiveBlockBatch processes the whole block batch at once, assuming the block batch is linear ,transitioning // the state, performing batch verification of all collected signatures and then performing the appropriate // actions for a block post-transition. func (s *Service) ReceiveBlockBatch(ctx context.Context, blocks []block.SignedBeaconBlock, blkRoots [][32]byte) error { ctx, span := trace.StartSpan(ctx, "blockChain.ReceiveBlockBatch") defer span.End() // Apply state transition on the incoming newly received blockCopy without verifying its BLS contents. fCheckpoints, jCheckpoints, err := s.onBlockBatch(ctx, blocks, blkRoots) if err != nil { err := errors.Wrap(err, "could not process block in batch") tracing.AnnotateError(span, err) return err } for i, b := range blocks { blockCopy := b.Copy() if err = s.handleBlockAfterBatchVerify(ctx, blockCopy, blkRoots[i], fCheckpoints[i], jCheckpoints[i]); err != nil { tracing.AnnotateError(span, err) return err } // Send notification of the processed block to the state feed. s.cfg.StateNotifier.StateFeed().Send(&feed.Event{ Type: statefeed.BlockProcessed, Data: &statefeed.BlockProcessedData{ Slot: blockCopy.Block().Slot(), BlockRoot: blkRoots[i], SignedBlock: blockCopy, Verified: true, }, }) // Reports on blockCopy and fork choice metrics. reportSlotMetrics(blockCopy.Block().Slot(), s.HeadSlot(), s.CurrentSlot(), s.finalizedCheckpt) } if err := s.VerifyWeakSubjectivityRoot(s.ctx); err != nil { // log.Fatalf will prevent defer from being called span.End() // Exit run time if the node failed to verify weak subjectivity checkpoint. log.Fatalf("Could not verify weak subjectivity checkpoint: %v", err) } return nil } // HasInitSyncBlock returns true if the block of the input root exists in initial sync blocks cache. func (s *Service) HasInitSyncBlock(root [32]byte) bool { return s.hasInitSyncBlock(root) } func (s *Service) handlePostBlockOperations(b block.BeaconBlock) error { // Delete the processed block attestations from attestation pool. if err := s.deletePoolAtts(b.Body().Attestations()); err != nil { return err } // Add block attestations to the fork choice pool to compute head. if err := s.cfg.AttPool.SaveBlockAttestations(b.Body().Attestations()); err != nil { log.Errorf("Could not save block attestations for fork choice: %v", err) return nil } // Mark block exits as seen so we don't include same ones in future blocks. for _, e := range b.Body().VoluntaryExits() { s.cfg.ExitPool.MarkIncluded(e) } // Mark attester slashings as seen so we don't include same ones in future blocks. for _, as := range b.Body().AttesterSlashings() { s.cfg.SlashingPool.MarkIncludedAttesterSlashing(as) } return nil } // This checks whether it's time to start saving hot state to DB. // It's time when there's `epochsSinceFinalitySaveHotStateDB` epochs of non-finality. func (s *Service) checkSaveHotStateDB(ctx context.Context) error { currentEpoch := slots.ToEpoch(s.CurrentSlot()) // Prevent `sinceFinality` going underflow. var sinceFinality types.Epoch if currentEpoch > s.finalizedCheckpt.Epoch { sinceFinality = currentEpoch - s.finalizedCheckpt.Epoch } if sinceFinality >= epochsSinceFinalitySaveHotStateDB { s.cfg.StateGen.EnableSaveHotStateToDB(ctx) return nil } return s.cfg.StateGen.DisableSaveHotStateToDB(ctx) }