prysm-pulse/beacon-chain/slasher/detect_attestations.go
Radosław Kapka 77d3ccb9ad
Clean up state types (#11916)
* Clean up state types

* rename package
2023-01-26 14:40:12 +00:00

483 lines
17 KiB
Go

package slasher
import (
"context"
"fmt"
"time"
"github.com/pkg/errors"
slashertypes "github.com/prysmaticlabs/prysm/v3/beacon-chain/slasher/types"
"github.com/prysmaticlabs/prysm/v3/consensus-types/primitives"
ethpb "github.com/prysmaticlabs/prysm/v3/proto/prysm/v1alpha1"
"github.com/sirupsen/logrus"
"go.opencensus.io/trace"
)
// Takes in a list of indexed attestation wrappers and returns any
// found attester slashings to the caller.
func (s *Service) checkSlashableAttestations(
ctx context.Context, currentEpoch primitives.Epoch, atts []*slashertypes.IndexedAttestationWrapper,
) ([]*ethpb.AttesterSlashing, error) {
slashings := make([]*ethpb.AttesterSlashing, 0)
log.Debug("Checking for double votes")
start := time.Now()
doubleVoteSlashings, err := s.checkDoubleVotes(ctx, atts)
if err != nil {
return nil, errors.Wrap(err, "could not check slashable double votes")
}
log.WithField("elapsed", time.Since(start)).Debug("Done checking double votes")
slashings = append(slashings, doubleVoteSlashings...)
groupedAtts := s.groupByValidatorChunkIndex(atts)
log.WithField("numBatches", len(groupedAtts)).Debug("Batching attestations by validator chunk index")
start = time.Now()
batchTimes := make([]time.Duration, 0, len(groupedAtts))
for validatorChunkIdx, batch := range groupedAtts {
innerStart := time.Now()
attSlashings, err := s.detectAllAttesterSlashings(ctx, &chunkUpdateArgs{
validatorChunkIndex: validatorChunkIdx,
currentEpoch: currentEpoch,
}, batch)
if err != nil {
return nil, err
}
slashings = append(slashings, attSlashings...)
indices := s.params.validatorIndicesInChunk(validatorChunkIdx)
for _, idx := range indices {
s.latestEpochWrittenForValidator[idx] = currentEpoch
}
batchTimes = append(batchTimes, time.Since(innerStart))
}
var avgProcessingTimePerBatch time.Duration
for _, dur := range batchTimes {
avgProcessingTimePerBatch += dur
}
if avgProcessingTimePerBatch != time.Duration(0) {
avgProcessingTimePerBatch = avgProcessingTimePerBatch / time.Duration(len(batchTimes))
}
log.WithFields(logrus.Fields{
"numAttestations": len(atts),
"numBatchesByValidatorChunkIndex": len(groupedAtts),
"elapsed": time.Since(start),
"avgBatchProcessingTime": avgProcessingTimePerBatch,
}).Info("Done checking slashable attestations")
if len(slashings) > 0 {
log.WithField("numSlashings", len(slashings)).Warn("Slashable attestation offenses found")
}
return slashings, nil
}
// Given a list of attestations all corresponding to a validator chunk index as well
// as the current epoch in time, we perform slashing detection.
// The process is as follows given a list of attestations:
//
// 1. Check for attester double votes using the list of attestations.
// 2. Group the attestations by chunk index.
// 3. Update the min and max spans for those grouped attestations, check if any slashings are
// found in the process
// 4. Update the latest written epoch for all validators involved to the current epoch.
//
// This function performs a lot of critical actions and is split into smaller helpers for cleanliness.
func (s *Service) detectAllAttesterSlashings(
ctx context.Context,
args *chunkUpdateArgs,
attestations []*slashertypes.IndexedAttestationWrapper,
) ([]*ethpb.AttesterSlashing, error) {
// Map of updated chunks by chunk index, which will be saved at the end.
updatedChunks := make(map[uint64]Chunker)
groupedAtts := s.groupByChunkIndex(attestations)
validatorIndices := s.params.validatorIndicesInChunk(args.validatorChunkIndex)
// Update the min/max span chunks for the change of current epoch.
for _, validatorIndex := range validatorIndices {
if err := s.epochUpdateForValidator(ctx, args, updatedChunks, validatorIndex); err != nil {
return nil, errors.Wrapf(
err,
"could not update validator index chunks %d",
validatorIndex,
)
}
}
// Update min and max spans and retrieve any detected slashable offenses.
surroundingSlashings, err := s.updateSpans(ctx, updatedChunks, &chunkUpdateArgs{
kind: slashertypes.MinSpan,
validatorChunkIndex: args.validatorChunkIndex,
currentEpoch: args.currentEpoch,
}, groupedAtts)
if err != nil {
return nil, errors.Wrapf(
err,
"could not update min attestation spans for validator chunk index %d",
args.validatorChunkIndex,
)
}
surroundedSlashings, err := s.updateSpans(ctx, updatedChunks, &chunkUpdateArgs{
kind: slashertypes.MaxSpan,
validatorChunkIndex: args.validatorChunkIndex,
currentEpoch: args.currentEpoch,
}, groupedAtts)
if err != nil {
return nil, errors.Wrapf(
err,
"could not update max attestation spans for validator chunk index %d",
args.validatorChunkIndex,
)
}
slashings := make([]*ethpb.AttesterSlashing, 0, len(surroundingSlashings)+len(surroundedSlashings))
slashings = append(slashings, surroundingSlashings...)
slashings = append(slashings, surroundedSlashings...)
if err := s.saveUpdatedChunks(ctx, args, updatedChunks); err != nil {
return nil, err
}
return slashings, nil
}
// Check for attester slashing double votes by looking at every single validator index
// in each attestation's attesting indices and checking if there already exist records for such
// attestation's target epoch. If so, we append a double vote slashing object to a list of slashings
// we return to the caller.
func (s *Service) checkDoubleVotes(
ctx context.Context, attestations []*slashertypes.IndexedAttestationWrapper,
) ([]*ethpb.AttesterSlashing, error) {
ctx, span := trace.StartSpan(ctx, "Slasher.checkDoubleVotes")
defer span.End()
// We check if there are any slashable double votes in the input list
// of attestations with respect to each other.
slashings := make([]*ethpb.AttesterSlashing, 0)
existingAtts := make(map[string]*slashertypes.IndexedAttestationWrapper)
for _, att := range attestations {
for _, valIdx := range att.IndexedAttestation.AttestingIndices {
key := uintToString(uint64(att.IndexedAttestation.Data.Target.Epoch)) + ":" + uintToString(valIdx)
existingAtt, ok := existingAtts[key]
if !ok {
existingAtts[key] = att
continue
}
if att.SigningRoot != existingAtt.SigningRoot {
doubleVotesTotal.Inc()
slashings = append(slashings, &ethpb.AttesterSlashing{
Attestation_1: existingAtt.IndexedAttestation,
Attestation_2: att.IndexedAttestation,
})
}
}
}
// We check if there are any slashable double votes in the input list
// of attestations with respect to our database.
moreSlashings, err := s.checkDoubleVotesOnDisk(ctx, attestations)
if err != nil {
return nil, errors.Wrap(err, "could not check attestation double votes on disk")
}
return append(slashings, moreSlashings...), nil
}
// Check for double votes in our database given a list of incoming attestations.
func (s *Service) checkDoubleVotesOnDisk(
ctx context.Context, attestations []*slashertypes.IndexedAttestationWrapper,
) ([]*ethpb.AttesterSlashing, error) {
ctx, span := trace.StartSpan(ctx, "Slasher.checkDoubleVotesOnDisk")
defer span.End()
doubleVotes, err := s.serviceCfg.Database.CheckAttesterDoubleVotes(
ctx, attestations,
)
if err != nil {
return nil, errors.Wrap(err, "could not retrieve potential double votes from disk")
}
doubleVoteSlashings := make([]*ethpb.AttesterSlashing, 0)
for _, doubleVote := range doubleVotes {
doubleVotesTotal.Inc()
doubleVoteSlashings = append(doubleVoteSlashings, &ethpb.AttesterSlashing{
Attestation_1: doubleVote.PrevAttestationWrapper.IndexedAttestation,
Attestation_2: doubleVote.AttestationWrapper.IndexedAttestation,
})
}
return doubleVoteSlashings, nil
}
// This function updates the slashing spans for a given validator for a change in epoch
// since the last epoch we have recorded for the validator. For example, if the last epoch a validator
// has written is N, and the current epoch is N+5, we update entries in the slashing spans
// with their neutral element for epochs N+1 to N+4. This also puts any loaded chunks in a
// map used as a cache for further processing and minimizing database reads later on.
func (s *Service) epochUpdateForValidator(
ctx context.Context,
args *chunkUpdateArgs,
updatedChunks map[uint64]Chunker,
validatorIndex primitives.ValidatorIndex,
) error {
epoch := s.latestEpochWrittenForValidator[validatorIndex]
if epoch == 0 {
return nil
}
for epoch <= args.currentEpoch {
chunkIdx := s.params.chunkIndex(epoch)
currentChunk, err := s.getChunk(ctx, args, updatedChunks, chunkIdx)
if err != nil {
return err
}
for s.params.chunkIndex(epoch) == chunkIdx && epoch <= args.currentEpoch {
if err := setChunkRawDistance(
s.params,
currentChunk.Chunk(),
validatorIndex,
epoch,
currentChunk.NeutralElement(),
); err != nil {
return err
}
updatedChunks[chunkIdx] = currentChunk
epoch++
}
}
return nil
}
// Updates spans and detects any slashable attester offenses along the way.
// 1. Determine the chunks we need to use for updating for the validator indices
// in a validator chunk index, then retrieve those chunks from the database.
// 2. Using the chunks from step (1):
// for every attestation by chunk index:
// for each validator in the attestation's attesting indices:
// - Check if the attestation is slashable, if so return a slashing object.
// 3. Save the updated chunks to disk.
func (s *Service) updateSpans(
ctx context.Context,
updatedChunks map[uint64]Chunker,
args *chunkUpdateArgs,
attestationsByChunkIdx map[uint64][]*slashertypes.IndexedAttestationWrapper,
) ([]*ethpb.AttesterSlashing, error) {
ctx, span := trace.StartSpan(ctx, "Slasher.updateSpans")
defer span.End()
// Apply the attestations to the related chunks and find any
// slashings along the way.
slashings := make([]*ethpb.AttesterSlashing, 0)
for _, attestationBatch := range attestationsByChunkIdx {
for _, att := range attestationBatch {
for _, validatorIdx := range att.IndexedAttestation.AttestingIndices {
validatorIndex := primitives.ValidatorIndex(validatorIdx)
computedValidatorChunkIdx := s.params.validatorChunkIndex(validatorIndex)
// Every validator chunk index represents a range of validators.
// If it possible that the validator index in this loop iteration is
// not part of the validator chunk index we are updating chunks for.
//
// For example, if there are 4 validators per validator chunk index,
// then validator chunk index 0 contains validator indices [0, 1, 2, 3]
// If we see an attestation with attesting indices [3, 4, 5] and we are updating
// chunks for validator chunk index 0, only validator index 3 should make
// it past this line.
if args.validatorChunkIndex != computedValidatorChunkIdx {
continue
}
slashing, err := s.applyAttestationForValidator(
ctx,
args,
validatorIndex,
updatedChunks,
att,
)
if err != nil {
return nil, errors.Wrapf(
err,
"could not apply attestation for validator index %d",
validatorIndex,
)
}
if slashing != nil {
slashings = append(slashings, slashing)
}
}
}
}
// Write the updated chunks to disk.
return slashings, nil
}
// Checks if an incoming attestation is slashable based on the validator chunk it
// corresponds to. If a slashable offense is found, we return it to the caller.
// If not, then update every single chunk the attestation covers, starting from its
// source epoch up to its target.
func (s *Service) applyAttestationForValidator(
ctx context.Context,
args *chunkUpdateArgs,
validatorIndex primitives.ValidatorIndex,
chunksByChunkIdx map[uint64]Chunker,
attestation *slashertypes.IndexedAttestationWrapper,
) (*ethpb.AttesterSlashing, error) {
ctx, span := trace.StartSpan(ctx, "Slasher.applyAttestationForValidator")
defer span.End()
sourceEpoch := attestation.IndexedAttestation.Data.Source.Epoch
targetEpoch := attestation.IndexedAttestation.Data.Target.Epoch
attestationDistance.Observe(float64(targetEpoch) - float64(sourceEpoch))
chunkIdx := s.params.chunkIndex(sourceEpoch)
chunk, err := s.getChunk(ctx, args, chunksByChunkIdx, chunkIdx)
if err != nil {
return nil, errors.Wrapf(err, "could not get chunk at index %d", chunkIdx)
}
// Check slashable, if so, return the slashing.
slashing, err := chunk.CheckSlashable(
ctx,
s.serviceCfg.Database,
validatorIndex,
attestation,
)
if err != nil {
return nil, errors.Wrapf(
err,
"could not check if attestation for validator index %d is slashable",
validatorIndex,
)
}
if slashing != nil {
return slashing, nil
}
// Get the first start epoch for the chunk. If it does not exist or
// is not possible based on the input arguments, do not continue with the update.
startEpoch, exists := chunk.StartEpoch(sourceEpoch, args.currentEpoch)
if !exists {
return nil, nil
}
// Given a single attestation could span across multiple chunks
// for a validator min or max span, we attempt to update the current chunk
// for the source epoch of the attestation. If the update function tells
// us we need to proceed to the next chunk, we continue by determining
// the start epoch of the next chunk. We exit once no longer need to
// keep updating chunks.
for {
chunkIdx = s.params.chunkIndex(startEpoch)
chunk, err := s.getChunk(ctx, args, chunksByChunkIdx, chunkIdx)
if err != nil {
return nil, errors.Wrapf(err, "could not get chunk at index %d", chunkIdx)
}
keepGoing, err := chunk.Update(
&chunkUpdateArgs{
chunkIndex: chunkIdx,
currentEpoch: args.currentEpoch,
},
validatorIndex,
startEpoch,
targetEpoch,
)
if err != nil {
return nil, errors.Wrapf(
err,
"could not update chunk at chunk index %d for validator index %d and current epoch %d",
chunkIdx,
validatorIndex,
args.currentEpoch,
)
}
// We update the chunksByChunkIdx map with the chunk we just updated.
chunksByChunkIdx[chunkIdx] = chunk
if !keepGoing {
break
}
// Move to first epoch of next chunk if needed.
startEpoch = chunk.NextChunkStartEpoch(startEpoch)
}
return nil, nil
}
// Retrieves a chunk at a chunk index from a map. If such chunk does not exist, which
// should be rare (occurring when we receive an attestation with source and target epochs
// that span multiple chunk indices), then we fallback to fetching from disk.
func (s *Service) getChunk(
ctx context.Context,
args *chunkUpdateArgs,
chunksByChunkIdx map[uint64]Chunker,
chunkIdx uint64,
) (Chunker, error) {
chunk, ok := chunksByChunkIdx[chunkIdx]
if ok {
return chunk, nil
}
// We can ensure we load the appropriate chunk we need by fetching from the DB.
diskChunks, err := s.loadChunks(ctx, args, []uint64{chunkIdx})
if err != nil {
return nil, errors.Wrapf(err, "could not load chunk at index %d", chunkIdx)
}
if chunk, ok := diskChunks[chunkIdx]; ok {
return chunk, nil
}
return nil, fmt.Errorf("could not retrieve chunk at chunk index %d from disk", chunkIdx)
}
// Load chunks for a specified list of chunk indices. We attempt to load it from the database.
// If the data exists, then we initialize a chunk of a specified kind. Otherwise, we create
// an empty chunk, add it to our map, and then return it to the caller.
func (s *Service) loadChunks(
ctx context.Context,
args *chunkUpdateArgs,
chunkIndices []uint64,
) (map[uint64]Chunker, error) {
ctx, span := trace.StartSpan(ctx, "Slasher.loadChunks")
defer span.End()
chunkKeys := make([][]byte, 0, len(chunkIndices))
for _, chunkIdx := range chunkIndices {
chunkKeys = append(chunkKeys, s.params.flatSliceID(args.validatorChunkIndex, chunkIdx))
}
rawChunks, chunksExist, err := s.serviceCfg.Database.LoadSlasherChunks(ctx, args.kind, chunkKeys)
if err != nil {
return nil, errors.Wrapf(
err,
"could not load slasher chunk index",
)
}
chunksByChunkIdx := make(map[uint64]Chunker, len(rawChunks))
for i := 0; i < len(rawChunks); i++ {
// If the chunk exists in the database, we initialize it from the raw bytes data.
// If it does not exist, we initialize an empty chunk.
var chunk Chunker
switch args.kind {
case slashertypes.MinSpan:
if chunksExist[i] {
chunk, err = MinChunkSpansSliceFrom(s.params, rawChunks[i])
} else {
chunk = EmptyMinSpanChunksSlice(s.params)
}
case slashertypes.MaxSpan:
if chunksExist[i] {
chunk, err = MaxChunkSpansSliceFrom(s.params, rawChunks[i])
} else {
chunk = EmptyMaxSpanChunksSlice(s.params)
}
}
if err != nil {
return nil, errors.Wrap(err, "could not initialize chunk")
}
chunksByChunkIdx[chunkIndices[i]] = chunk
}
return chunksByChunkIdx, nil
}
// Saves updated chunks to disk given the required database schema.
func (s *Service) saveUpdatedChunks(
ctx context.Context,
args *chunkUpdateArgs,
updatedChunksByChunkIdx map[uint64]Chunker,
) error {
ctx, span := trace.StartSpan(ctx, "Slasher.saveUpdatedChunks")
defer span.End()
chunkKeys := make([][]byte, 0, len(updatedChunksByChunkIdx))
chunks := make([][]uint16, 0, len(updatedChunksByChunkIdx))
for chunkIdx, chunk := range updatedChunksByChunkIdx {
chunkKeys = append(chunkKeys, s.params.flatSliceID(args.validatorChunkIndex, chunkIdx))
chunks = append(chunks, chunk.Chunk())
}
chunksSavedTotal.Add(float64(len(chunks)))
return s.serviceCfg.Database.SaveSlasherChunks(ctx, args.kind, chunkKeys, chunks)
}