mirror of
https://gitlab.com/pulsechaincom/prysm-pulse.git
synced 2024-12-25 12:57:18 +00:00
eca67cec4c
Co-authored-by: terence tsao <terence@prysmaticlabs.com>
197 lines
8.0 KiB
Go
197 lines
8.0 KiB
Go
package sync
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import (
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"context"
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"encoding/hex"
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"sync"
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pubsub "github.com/libp2p/go-libp2p-pubsub"
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types "github.com/prysmaticlabs/eth2-types"
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ethpb "github.com/prysmaticlabs/ethereumapis/eth/v1alpha1"
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"github.com/prysmaticlabs/prysm/beacon-chain/core/helpers"
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"github.com/prysmaticlabs/prysm/shared/bytesutil"
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"github.com/prysmaticlabs/prysm/shared/params"
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"github.com/prysmaticlabs/prysm/shared/rand"
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"github.com/prysmaticlabs/prysm/shared/runutil"
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"github.com/prysmaticlabs/prysm/shared/slotutil"
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"github.com/sirupsen/logrus"
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"go.opencensus.io/trace"
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)
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// This defines how often a node cleans up and processes pending attestations in the queue.
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var processPendingAttsPeriod = slotutil.DivideSlotBy(2 /* twice per slot */)
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// This processes pending attestation queues on every `processPendingAttsPeriod`.
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func (s *Service) processPendingAttsQueue() {
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// Prevents multiple queue processing goroutines (invoked by RunEvery) from contending for data.
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mutex := new(sync.Mutex)
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runutil.RunEvery(s.ctx, processPendingAttsPeriod, func() {
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mutex.Lock()
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if err := s.processPendingAtts(s.ctx); err != nil {
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log.WithError(err).Debugf("Could not process pending attestation: %v", err)
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}
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mutex.Unlock()
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})
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}
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// This defines how pending attestations are processed. It contains features:
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// 1. Clean up invalid pending attestations from the queue.
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// 2. Check if pending attestations can be processed when the block has arrived.
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// 3. Request block from a random peer if unable to proceed step 2.
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func (s *Service) processPendingAtts(ctx context.Context) error {
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ctx, span := trace.StartSpan(ctx, "processPendingAtts")
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defer span.End()
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// Before a node processes pending attestations queue, it verifies
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// the attestations in the queue are still valid. Attestations will
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// be deleted from the queue if invalid (ie. getting staled from falling too many slots behind).
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s.validatePendingAtts(ctx, s.cfg.Chain.CurrentSlot())
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s.pendingAttsLock.RLock()
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roots := make([][32]byte, 0, len(s.blkRootToPendingAtts))
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for br := range s.blkRootToPendingAtts {
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roots = append(roots, br)
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}
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s.pendingAttsLock.RUnlock()
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var pendingRoots [][32]byte
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randGen := rand.NewGenerator()
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for _, bRoot := range roots {
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s.pendingAttsLock.RLock()
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attestations := s.blkRootToPendingAtts[bRoot]
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s.pendingAttsLock.RUnlock()
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// has the pending attestation's missing block arrived and the node processed block yet?
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if s.cfg.DB.HasBlock(ctx, bRoot) && (s.cfg.DB.HasState(ctx, bRoot) || s.cfg.DB.HasStateSummary(ctx, bRoot)) {
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for _, signedAtt := range attestations {
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att := signedAtt.Message
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// The pending attestations can arrive in both aggregated and unaggregated forms,
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// each from has distinct validation steps.
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if helpers.IsAggregated(att.Aggregate) {
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// Save the pending aggregated attestation to the pool if it passes the aggregated
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// validation steps.
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aggValid := s.validateAggregatedAtt(ctx, signedAtt) == pubsub.ValidationAccept
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if s.validateBlockInAttestation(ctx, signedAtt) && aggValid {
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if err := s.cfg.AttPool.SaveAggregatedAttestation(att.Aggregate); err != nil {
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log.WithError(err).Debug("Could not save aggregate attestation")
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continue
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}
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s.setAggregatorIndexEpochSeen(att.Aggregate.Data.Target.Epoch, att.AggregatorIndex)
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// Broadcasting the signed attestation again once a node is able to process it.
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if err := s.cfg.P2P.Broadcast(ctx, signedAtt); err != nil {
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log.WithError(err).Debug("Could not broadcast")
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}
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}
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} else {
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// This is an important validation before retrieving attestation pre state to defend against
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// attestation's target intentionally reference checkpoint that's long ago.
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// Verify current finalized checkpoint is an ancestor of the block defined by the attestation's beacon block root.
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if err := s.cfg.Chain.VerifyFinalizedConsistency(ctx, att.Aggregate.Data.BeaconBlockRoot); err != nil {
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log.WithError(err).Debug("Could not verify finalized consistency")
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continue
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}
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if err := s.cfg.Chain.VerifyLmdFfgConsistency(ctx, att.Aggregate); err != nil {
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log.WithError(err).Debug("Could not verify FFG consistency")
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continue
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}
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preState, err := s.cfg.Chain.AttestationPreState(ctx, att.Aggregate)
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if err != nil {
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log.WithError(err).Debug("Could not retrieve attestation prestate")
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continue
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}
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valid := s.validateUnaggregatedAttWithState(ctx, att.Aggregate, preState)
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if valid == pubsub.ValidationAccept {
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if err := s.cfg.AttPool.SaveUnaggregatedAttestation(att.Aggregate); err != nil {
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log.WithError(err).Debug("Could not save unaggregated attestation")
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continue
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}
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s.setSeenCommitteeIndicesSlot(att.Aggregate.Data.Slot, att.Aggregate.Data.CommitteeIndex, att.Aggregate.AggregationBits)
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valCount, err := helpers.ActiveValidatorCount(preState, helpers.SlotToEpoch(att.Aggregate.Data.Slot))
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if err != nil {
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log.WithError(err).Debug("Could not retrieve active validator count")
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continue
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}
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// Broadcasting the signed attestation again once a node is able to process it.
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if err := s.cfg.P2P.BroadcastAttestation(ctx, helpers.ComputeSubnetForAttestation(valCount, signedAtt.Message.Aggregate), signedAtt.Message.Aggregate); err != nil {
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log.WithError(err).Debug("Could not broadcast")
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}
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}
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}
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}
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log.WithFields(logrus.Fields{
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"blockRoot": hex.EncodeToString(bytesutil.Trunc(bRoot[:])),
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"pendingAttsCount": len(attestations),
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}).Debug("Verified and saved pending attestations to pool")
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// Delete the missing block root key from pending attestation queue so a node will not request for the block again.
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s.pendingAttsLock.Lock()
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delete(s.blkRootToPendingAtts, bRoot)
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s.pendingAttsLock.Unlock()
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} else {
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// Pending attestation's missing block has not arrived yet.
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log.WithFields(logrus.Fields{
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"currentSlot": s.cfg.Chain.CurrentSlot(),
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"attSlot": attestations[0].Message.Aggregate.Data.Slot,
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"attCount": len(attestations),
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"blockRoot": hex.EncodeToString(bytesutil.Trunc(bRoot[:])),
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}).Debug("Requesting block for pending attestation")
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pendingRoots = append(pendingRoots, bRoot)
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}
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}
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return s.sendBatchRootRequest(ctx, pendingRoots, randGen)
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}
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// This defines how pending attestations is saved in the map. The key is the
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// root of the missing block. The value is the list of pending attestations
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// that voted for that block root.
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func (s *Service) savePendingAtt(att *ethpb.SignedAggregateAttestationAndProof) {
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root := bytesutil.ToBytes32(att.Message.Aggregate.Data.BeaconBlockRoot)
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s.pendingAttsLock.Lock()
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defer s.pendingAttsLock.Unlock()
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_, ok := s.blkRootToPendingAtts[root]
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if !ok {
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s.blkRootToPendingAtts[root] = []*ethpb.SignedAggregateAttestationAndProof{att}
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return
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}
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// Skip if the attestation from the same aggregator already exists in the pending queue.
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for _, a := range s.blkRootToPendingAtts[root] {
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if a.Message.AggregatorIndex == att.Message.AggregatorIndex {
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return
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}
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}
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s.blkRootToPendingAtts[root] = append(s.blkRootToPendingAtts[root], att)
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}
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// This validates the pending attestations in the queue are still valid.
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// If not valid, a node will remove it in the queue in place. The validity
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// check specifies the pending attestation could not fall one epoch behind
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// of the current slot.
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func (s *Service) validatePendingAtts(ctx context.Context, slot types.Slot) {
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ctx, span := trace.StartSpan(ctx, "validatePendingAtts")
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defer span.End()
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s.pendingAttsLock.Lock()
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defer s.pendingAttsLock.Unlock()
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for bRoot, atts := range s.blkRootToPendingAtts {
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for i := len(atts) - 1; i >= 0; i-- {
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if slot >= atts[i].Message.Aggregate.Data.Slot+params.BeaconConfig().SlotsPerEpoch {
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// Remove the pending attestation from the list in place.
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atts = append(atts[:i], atts[i+1:]...)
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}
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}
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s.blkRootToPendingAtts[bRoot] = atts
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// If the pending attestations list of a given block root is empty,
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// a node will remove the key from the map to avoid dangling keys.
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if len(s.blkRootToPendingAtts[bRoot]) == 0 {
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delete(s.blkRootToPendingAtts, bRoot)
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}
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}
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}
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