nimbus-eth2/beacon_chain/gossip_processing/batch_validation.nim

344 lines
12 KiB
Nim

# beacon_chain
# Copyright (c) 2019-2021 Status Research & Development GmbH
# Licensed and distributed under either of
# * MIT license (license terms in the root directory or at http://opensource.org/licenses/MIT).
# * Apache v2 license (license terms in the root directory or at http://www.apache.org/licenses/LICENSE-2.0).
# at your option. This file may not be copied, modified, or distributed except according to those terms.
{.push raises: [Defect].}
import
# Status
chronicles, chronos,
stew/results,
eth/keys,
# Internals
../spec/[crypto, digest, helpers, signatures_batch],
../spec/datatypes/base,
../consensus_object_pools/[
blockchain_dag, block_quarantine,
attestation_pool, exit_pool,
block_pools_types, spec_cache
],
".."/[beacon_node_types, ssz, beacon_clock]
export BrHmacDrbgContext
logScope:
topics = "gossip_checks"
# Batched gossip validation
# ----------------------------------------------------------------
type
BatchResult* {.pure.} = enum
Valid
Invalid
Timeout
Eager = proc(): bool {.gcsafe, raises: [Defect].} ##\
## Callback that returns true if eager processing should be done to lower
## latency at the expense of spending more cycles validating things, creating
## a crude timesharing priority mechanism.
Batch* = object
created: Moment
pendingBuffer: seq[SignatureSet]
resultsBuffer: seq[Future[BatchResult]]
BatchCrypto* = object
# Each batch is bounded by BatchedCryptoSize (16) which was chosen:
# - based on "nimble bench" in nim-blscurve
# so that low power devices like Raspberry Pi 4 can process
# that many batched verifications within 20ms
# - based on the accumulation rate of attestations and aggregates
# in large instances which were 12000 per slot (12s)
# hence 1 per ms (but the pattern is bursty around the 4s mark)
# The number of batches is bounded by time - batch validation is skipped if
# we can't process them in the time that one slot takes, and we return
# timeout instead which prevents the gossip layer from forwarding the
# batch.
batches: seq[ref Batch]
eager: Eager ##\
## Eager is used to enable eager processing of attestations when it's
## prudent to do so (instead of leaving the CPU for other, presumably more
## important work like block processing)
sigVerifCache: BatchedBLSVerifierCache ##\
## A cache for batch BLS signature verification contexts
rng: ref BrHmacDrbgContext ##\
## A reference to the Nimbus application-wide RNG
pruneTime: Moment ## :ast time we had to prune something
const
# We cap waiting for an idle slot in case there's a lot of network traffic
# taking up all CPU - we don't want to _completely_ stop processing
# attestations - doing so also allows us to benefit from more batching /
# larger network reads when under load.
BatchAttAccumTime = 10.milliseconds
# Threshold for immediate trigger of batch verification.
# A balance between throughput and worst case latency.
# At least 6 so that the constant factors
# (RNG for blinding and Final Exponentiation)
# are amortized,
# but not too big as we need to redo checks one-by-one if one failed.
BatchedCryptoSize = 16
proc new*(
T: type BatchCrypto, rng: ref BrHmacDrbgContext, eager: Eager): ref BatchCrypto =
(ref BatchCrypto)(rng: rng, eager: eager, pruneTime: Moment.now())
func len(batch: Batch): int =
doAssert batch.resultsBuffer.len() == batch.pendingBuffer.len()
batch.resultsBuffer.len()
func full(batch: Batch): bool =
batch.len() >= BatchedCryptoSize
proc clear(batch: var Batch) =
batch.pendingBuffer.setLen(0)
batch.resultsBuffer.setLen(0)
proc skip(batch: var Batch) =
for res in batch.resultsBuffer.mitems():
res.complete(BatchResult.Timeout)
batch.clear() # release memory early
proc pruneBatchQueue(batchCrypto: ref BatchCrypto) =
let
now = Moment.now()
# If batches haven't been processed for more than 12 seconds
while batchCrypto.batches.len() > 0:
if batchCrypto.batches[0][].created + SECONDS_PER_SLOT.int64.seconds > now:
break
if batchCrypto.pruneTime + SECONDS_PER_SLOT.int64.seconds > now:
notice "Batch queue pruned, skipping attestation validation",
batches = batchCrypto.batches.len()
batchCrypto.pruneTime = Moment.now()
batchCrypto.batches[0][].skip()
batchCrypto.batches.delete(0)
proc processBatch(batchCrypto: ref BatchCrypto) =
## Process one batch, if there is any
# Pruning the queue here makes sure we catch up with processing if need be
batchCrypto.pruneBatchQueue() # Skip old batches
if batchCrypto[].batches.len() == 0:
# No more batches left, they might have been eagerly processed or pruned
return
let
batch = batchCrypto[].batches[0]
batchSize = batch[].len()
batchCrypto[].batches.del(0)
if batchSize == 0:
# Nothing to do in this batch, can happen when a batch is created without
# there being any signatures successfully added to it
return
trace "batch crypto - starting",
batchSize
let startTick = Moment.now()
var secureRandomBytes: array[32, byte]
batchCrypto[].rng[].brHmacDrbgGenerate(secureRandomBytes)
# TODO: For now only enable serial batch verification
let ok = batchVerifySerial(
batchCrypto.sigVerifCache,
batch.pendingBuffer,
secureRandomBytes)
trace "batch crypto - finished",
batchSize,
cryptoVerified = ok,
batchDur = Moment.now() - startTick
if ok:
for res in batch.resultsBuffer.mitems():
res.complete(BatchResult.Valid)
else:
# Batched verification failed meaning that some of the signature checks
# failed, but we don't know which ones - check each signature separately
# instead
debug "batch crypto - failure, falling back",
batchSize
for i, res in batch.resultsBuffer.mpairs():
let ok = blsVerify batch[].pendingBuffer[i]
res.complete(if ok: BatchResult.Valid else: BatchResult.Invalid)
batch[].clear() # release memory early
proc deferCryptoProcessing(batchCrypto: ref BatchCrypto) {.async.} =
## Process pending crypto check after some time has passed - the time is
## chosen such that there's time to fill the batch but not so long that
## latency across the network is negatively affected
await sleepAsync(BatchAttAccumTime)
# Take the first batch in the queue and process it - if eager processing has
# stolen it already, that's fine
batchCrypto.processBatch()
proc getBatch(batchCrypto: ref BatchCrypto): (ref Batch, bool) =
# Get a batch suitable for attestation processing - in particular, attestation
# batches might be skipped
batchCrypto.pruneBatchQueue()
if batchCrypto.batches.len() == 0 or
batchCrypto.batches[^1][].full():
# There are no batches in progress - start a new batch and schedule a
# deferred task to eventually handle it
let batch = (ref Batch)(created: Moment.now())
batchCrypto[].batches.add(batch)
(batch, true)
else:
let batch = batchCrypto[].batches[^1]
# len will be 0 when the batch was created but nothing added to it
# because of early failures
(batch, batch[].len() == 0)
proc scheduleBatch(batchCrypto: ref BatchCrypto, fresh: bool) =
if fresh:
# Every time we start a new round of batching, we need to launch a deferred
# task that will compute the result of the batch eventually in case the
# batch is never filled or eager processing is blocked
asyncSpawn batchCrypto.deferCryptoProcessing()
if batchCrypto.batches.len() > 0 and
batchCrypto.batches[0][].full() and
batchCrypto.eager():
# If there's a full batch, process it eagerly assuming the callback allows
batchCrypto.processBatch()
proc scheduleAttestationCheck*(
batchCrypto: ref BatchCrypto,
fork: Fork, genesis_validators_root: Eth2Digest,
epochRef: EpochRef,
attestation: Attestation
): Result[(Future[BatchResult], CookedSig), cstring] =
## Schedule crypto verification of an attestation
##
## The buffer is processed:
## - when eager processing is enabled and the batch is full
## - otherwise after 10ms (BatchAttAccumTime)
##
## This returns an error if crypto sanity checks failed
## and a future with the deferred attestation check otherwise.
##
let (batch, fresh) = batchCrypto.getBatch()
doAssert batch.pendingBuffer.len < BatchedCryptoSize
let sig = ? batch
.pendingBuffer
.addAttestation(
fork, genesis_validators_root, epochRef,
attestation
)
let fut = newFuture[BatchResult](
"batch_validation.scheduleAttestationCheck"
)
batch[].resultsBuffer.add(fut)
batchCrypto.scheduleBatch(fresh)
return ok((fut, sig))
proc scheduleAggregateChecks*(
batchCrypto: ref BatchCrypto,
fork: Fork, genesis_validators_root: Eth2Digest,
epochRef: EpochRef,
signedAggregateAndProof: SignedAggregateAndProof
): Result[
(
tuple[slotCheck, aggregatorCheck, aggregateCheck: Future[BatchResult]],
CookedSig
), cstring] =
## Schedule crypto verification of an aggregate
##
## This involves 3 checks:
## - verify_slot_signature
## - verify_aggregate_and_proof_signature
## - is_valid_indexed_attestation
##
## The buffer is processed:
## - when eager processing is enabled and the batch is full
## - otherwise after 10ms (BatchAttAccumTime)
##
## This returns None if the signatures could not be loaded.
## and 3 futures with the deferred aggregate checks otherwise.
let (batch, fresh) = batchCrypto.getBatch()
doAssert batch[].pendingBuffer.len < BatchedCryptoSize
template aggregate_and_proof: untyped = signedAggregateAndProof.message
template aggregate: untyped = aggregate_and_proof.aggregate
type R = (
tuple[slotCheck, aggregatorCheck, aggregateCheck:
Future[BatchResult]],
CookedSig)
# Enqueue in the buffer
# ------------------------------------------------------
let aggregator = epochRef.validatorKey(aggregate_and_proof.aggregator_index)
if not aggregator.isSome():
return err("scheduleAggregateChecks: invalid aggregator index")
block:
if (let v = batch
.pendingBuffer
.addSlotSignature(
fork, genesis_validators_root,
aggregate.data.slot,
aggregator.get(),
aggregate_and_proof.selection_proof
); v.isErr()):
return err(v.error())
let futSlot = newFuture[BatchResult](
"batch_validation.scheduleAggregateChecks.slotCheck"
)
batch.resultsBuffer.add(futSlot)
block:
if (let v = batch
.pendingBuffer
.addAggregateAndProofSignature(
fork, genesis_validators_root,
aggregate_and_proof,
aggregator.get(),
signed_aggregate_and_proof.signature
); v.isErr()):
batchCrypto.scheduleBatch(fresh)
return err(v.error())
let futAggregator = newFuture[BatchResult](
"batch_validation.scheduleAggregateChecks.aggregatorCheck"
)
batch.resultsBuffer.add(futAggregator)
let sig = batch
.pendingBuffer
.addAttestation(
fork, genesis_validators_root, epochRef,
aggregate
)
if sig.isErr():
batchCrypto.scheduleBatch(fresh)
return err(sig.error())
let futAggregate = newFuture[BatchResult](
"batch_validation.scheduleAggregateChecks.aggregateCheck"
)
batch.resultsBuffer.add(futAggregate)
batchCrypto.scheduleBatch(fresh)
return ok(((futSlot, futAggregator, futAggregate), sig.get()))