nimbus-eth2/beacon_chain/validators/validator_duties.nim

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# beacon_chain
# Copyright (c) 2018-2023 Status Research & Development GmbH
# Licensed and distributed under either of
# * MIT license (license terms in the root directory or at https://opensource.org/licenses/MIT).
# * Apache v2 license (license terms in the root directory or at https://www.apache.org/licenses/LICENSE-2.0).
# at your option. This file may not be copied, modified, or distributed except according to those terms.
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when (NimMajor, NimMinor) < (1, 4):
{.push raises: [Defect].}
else:
{.push raises: [].}
# This module is responsible for handling beacon node validators, ie those that
# that are running directly in the beacon node and not in a separate validator
# client process
import
# Standard library
std/[os, tables, sequtils],
# Nimble packages
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stew/byteutils,
chronos, metrics,
chronicles, chronicles/timings,
json_serialization/std/[options, sets, net],
eth/db/kvstore,
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eth/keys, eth/p2p/discoveryv5/[protocol, enr],
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web3/ethtypes,
# Local modules
../spec/datatypes/[phase0, altair, bellatrix],
disentangle eth2 types from the ssz library (#2785) * reorganize ssz dependencies This PR continues the work in https://github.com/status-im/nimbus-eth2/pull/2646, https://github.com/status-im/nimbus-eth2/pull/2779 as well as past issues with serialization and type, to disentangle SSZ from eth2 and at the same time simplify imports and exports with a structured approach. The principal idea here is that when a library wants to introduce SSZ support, they do so via 3 files: * `ssz_codecs` which imports and reexports `codecs` - this covers the basic byte conversions and ensures no overloads get lost * `xxx_merkleization` imports and exports `merkleization` to specialize and get access to `hash_tree_root` and friends * `xxx_ssz_serialization` imports and exports `ssz_serialization` to specialize ssz for a specific library Those that need to interact with SSZ always import the `xxx_` versions of the modules and never `ssz` itself so as to keep imports simple and safe. This is similar to how the REST / JSON-RPC serializers are structured in that someone wanting to serialize spec types to REST-JSON will import `eth2_rest_serialization` and nothing else. * split up ssz into a core library that is independendent of eth2 types * rename `bytes_reader` to `codec` to highlight that it contains coding and decoding of bytes and native ssz types * remove tricky List init overload that causes compile issues * get rid of top-level ssz import * reenable merkleization tests * move some "standard" json serializers to spec * remove `ValidatorIndex` serialization for now * remove test_ssz_merkleization * add tests for over/underlong byte sequences * fix broken seq[byte] test - seq[byte] is not an SSZ type There are a few things this PR doesn't solve: * like #2646 this PR is weak on how to handle root and other dontSerialize fields that "sometimes" should be computed - the same problem appears in REST / JSON-RPC etc * Fix a build problem on macOS * Another way to fix the macOS builds Co-authored-by: Zahary Karadjov <zahary@gmail.com>
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../spec/[
eth2_merkleization, forks, helpers, network, signatures, state_transition,
validator],
../consensus_object_pools/[
spec_cache, blockchain_dag, block_clearance, attestation_pool, exit_pool,
sync_committee_msg_pool, consensus_manager],
../eth1/eth1_monitor,
../networking/eth2_network,
disentangle eth2 types from the ssz library (#2785) * reorganize ssz dependencies This PR continues the work in https://github.com/status-im/nimbus-eth2/pull/2646, https://github.com/status-im/nimbus-eth2/pull/2779 as well as past issues with serialization and type, to disentangle SSZ from eth2 and at the same time simplify imports and exports with a structured approach. The principal idea here is that when a library wants to introduce SSZ support, they do so via 3 files: * `ssz_codecs` which imports and reexports `codecs` - this covers the basic byte conversions and ensures no overloads get lost * `xxx_merkleization` imports and exports `merkleization` to specialize and get access to `hash_tree_root` and friends * `xxx_ssz_serialization` imports and exports `ssz_serialization` to specialize ssz for a specific library Those that need to interact with SSZ always import the `xxx_` versions of the modules and never `ssz` itself so as to keep imports simple and safe. This is similar to how the REST / JSON-RPC serializers are structured in that someone wanting to serialize spec types to REST-JSON will import `eth2_rest_serialization` and nothing else. * split up ssz into a core library that is independendent of eth2 types * rename `bytes_reader` to `codec` to highlight that it contains coding and decoding of bytes and native ssz types * remove tricky List init overload that causes compile issues * get rid of top-level ssz import * reenable merkleization tests * move some "standard" json serializers to spec * remove `ValidatorIndex` serialization for now * remove test_ssz_merkleization * add tests for over/underlong byte sequences * fix broken seq[byte] test - seq[byte] is not an SSZ type There are a few things this PR doesn't solve: * like #2646 this PR is weak on how to handle root and other dontSerialize fields that "sometimes" should be computed - the same problem appears in REST / JSON-RPC etc * Fix a build problem on macOS * Another way to fix the macOS builds Co-authored-by: Zahary Karadjov <zahary@gmail.com>
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../sszdump, ../sync/sync_manager,
../gossip_processing/block_processor,
".."/[conf, beacon_clock, beacon_node],
"."/[slashing_protection, validator_pool, keystore_management],
".."/spec/mev/rest_bellatrix_mev_calls
from eth/async_utils import awaitWithTimeout
const
delayBuckets = [-Inf, -4.0, -2.0, -1.0, -0.5, -0.1, -0.05,
0.05, 0.1, 0.5, 1.0, 2.0, 4.0, 8.0, Inf]
BUILDER_STATUS_DELAY_TOLERANCE = 3.seconds
BUILDER_VALIDATOR_REGISTRATION_DELAY_TOLERANCE = 6.seconds
# Metrics for tracking attestation and beacon block loss
declareCounter beacon_light_client_finality_updates_sent,
"Number of LC finality updates sent by this peer"
declareCounter beacon_light_client_optimistic_updates_sent,
"Number of LC optimistic updates sent by this peer"
declareCounter beacon_blocks_proposed,
"Number of beacon chain blocks sent by this peer"
declareCounter beacon_block_production_errors,
"Number of times we failed to produce a block"
declareCounter beacon_block_payload_errors,
"Number of times execution client failed to produce block payload"
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# Metrics for tracking external block builder usage
declareCounter beacon_block_builder_missed_with_fallback,
"Number of beacon chain blocks where an attempt to use an external block builder failed with fallback"
declareCounter beacon_block_builder_missed_without_fallback,
"Number of beacon chain blocks where an attempt to use an external block builder failed without possible fallback"
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declareGauge(attached_validator_balance,
"Validator balance at slot end of the first 64 validators, in Gwei",
labels = ["pubkey"])
declarePublicGauge(attached_validator_balance_total,
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"Validator balance of all attached validators, in Gwei")
logScope: topics = "beacval"
type
ForkedBlockResult* = Result[ForkedBeaconBlock, string]
BlindedBlockResult* = Result[BlindedBeaconBlock, string]
SyncStatus* {.pure.} = enum
synced
unsynced
optimistic
proc getValidator*(validators: auto,
pubkey: ValidatorPubKey): Opt[ValidatorAndIndex] =
let idx = validators.findIt(it.pubkey == pubkey)
if idx == -1:
# We allow adding a validator even if its key is not in the state registry:
# it might be that the deposit for this validator has not yet been processed
notice "Validator deposit not yet processed, monitoring", pubkey
Opt.none ValidatorAndIndex
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else:
Opt.some ValidatorAndIndex(index: ValidatorIndex(idx),
validator: validators[idx])
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proc addValidators*(node: BeaconNode) =
debug "Loading validators", validatorsDir = node.config.validatorsDir()
let
epoch = node.currentSlot().epoch
for keystore in listLoadableKeystores(node.config):
let
data = withState(node.dag.headState):
getValidator(forkyState.data.validators.asSeq(), keystore.pubkey)
index =
if data.isSome():
Opt.some(data.get().index)
else:
Opt.none(ValidatorIndex)
feeRecipient = node.consensusManager[].getFeeRecipient(
keystore.pubkey, index, epoch)
let v = case keystore.kind
of KeystoreKind.Local:
node.attachedValidators[].addLocalValidator(keystore, feeRecipient)
of KeystoreKind.Remote:
node.attachedValidators[].addRemoteValidator(keystore, feeRecipient)
if data.isSome:
v.updateValidator(data.get().index, data.get().validator.activation_epoch)
proc getAttachedValidator(node: BeaconNode,
pubkey: ValidatorPubKey): AttachedValidator =
node.attachedValidators[].getValidator(pubkey)
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proc getValidatorForDuties*(
node: BeaconNode,
idx: ValidatorIndex, slot: Slot): Opt[AttachedValidator] =
let key = node.dag.validatorKey(idx)
if key.isNone:
return Opt.none(AttachedValidator)
node.attachedValidators[].getValidatorForDuties(key.get().toPubKey(), slot)
proc isSynced*(node: BeaconNode, head: BlockRef): SyncStatus =
## TODO This function is here as a placeholder for some better heurestics to
## determine if we're in sync and should be producing blocks and
## attestations. Generally, the problem is that slot time keeps advancing
## even when there are no blocks being produced, so there's no way to
## distinguish validators geniunely going missing from the node not being
## well connected (during a network split or an internet outage for
## example). It would generally be correct to simply keep running as if
## we were the only legit node left alive, but then we run into issues:
## with enough many empty slots, the validator pool is emptied leading
## to empty committees and lots of empty slot processing that will be
## thrown away as soon as we're synced again.
let
# The slot we should be at, according to the clock
beaconTime = node.beaconClock.now()
wallSlot = beaconTime.toSlot()
# TODO if everyone follows this logic, the network will not recover from a
# halt: nobody will be producing blocks because everone expects someone
# else to do it
if wallSlot.afterGenesis and
head.slot + node.config.syncHorizon < wallSlot.slot:
SyncStatus.unsynced
else:
if node.dag.is_optimistic(head.root):
SyncStatus.optimistic
else:
SyncStatus.synced
proc handleLightClientUpdates*(node: BeaconNode, slot: Slot) {.async.} =
static: doAssert lightClientFinalityUpdateSlotOffset ==
lightClientOptimisticUpdateSlotOffset
let sendTime = node.beaconClock.fromNow(
slot.light_client_finality_update_time())
if sendTime.inFuture:
debug "Waiting to send LC updates", slot, delay = shortLog(sendTime.offset)
await sleepAsync(sendTime.offset)
template latest(): auto = node.dag.lcDataStore.cache.latest
let signature_slot = latest.signature_slot
if slot != signature_slot:
return
let num_active_participants = latest.sync_aggregate.num_active_participants
if num_active_participants < MIN_SYNC_COMMITTEE_PARTICIPANTS:
return
let finalized_slot = latest.finalized_header.slot
if finalized_slot > node.lightClientPool[].latestForwardedFinalitySlot:
template msg(): auto = latest
let sendResult = await node.network.broadcastLightClientFinalityUpdate(msg)
# Optimization for message with ephemeral validity, whether sent or not
node.lightClientPool[].latestForwardedFinalitySlot = finalized_slot
if sendResult.isOk:
beacon_light_client_finality_updates_sent.inc()
notice "LC finality update sent", message = shortLog(msg)
else:
warn "LC finality update failed to send",
error = sendResult.error()
let attested_slot = latest.attested_header.slot
if attested_slot > node.lightClientPool[].latestForwardedOptimisticSlot:
let msg = latest.toOptimistic
let sendResult =
await node.network.broadcastLightClientOptimisticUpdate(msg)
# Optimization for message with ephemeral validity, whether sent or not
node.lightClientPool[].latestForwardedOptimisticSlot = attested_slot
if sendResult.isOk:
beacon_light_client_optimistic_updates_sent.inc()
notice "LC optimistic update sent", message = shortLog(msg)
else:
warn "LC optimistic update failed to send",
error = sendResult.error()
proc createAndSendAttestation(node: BeaconNode,
fork: Fork,
genesis_validators_root: Eth2Digest,
validator: AttachedValidator,
data: AttestationData,
committeeLen: int,
indexInCommittee: int,
subnet_id: SubnetId) {.async.} =
try:
let
signature = block:
let res = await validator.getAttestationSignature(
fork, genesis_validators_root, data)
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if res.isErr():
warn "Unable to sign attestation", validator = shortLog(validator),
attestatingData = shortLog(data), error_msg = res.error()
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return
res.get()
attestation =
Attestation.init(
[uint64 indexInCommittee], committeeLen, data, signature).expect(
"valid data")
# Logged in the router
let res = await node.router.routeAttestation(
attestation, subnet_id, checkSignature = false)
if not res.isOk():
return
if node.config.dumpEnabled:
dump(node.config.dumpDirOutgoing, attestation.data, validator.pubkey)
except CatchableError as exc:
# An error could happen here when the signature task fails - we must
# not leak the exception because this is an asyncSpawn task
warn "Error sending attestation", err = exc.msg
proc getBlockProposalEth1Data*(node: BeaconNode,
state: ForkedHashedBeaconState):
BlockProposalEth1Data =
if node.eth1Monitor.isNil:
let pendingDepositsCount =
getStateField(state, eth1_data).deposit_count -
getStateField(state, eth1_deposit_index)
if pendingDepositsCount > 0:
result.hasMissingDeposits = true
else:
result.vote = getStateField(state, eth1_data)
else:
let finalizedEpochRef = node.dag.getFinalizedEpochRef()
result = node.eth1Monitor.getBlockProposalData(
state, finalizedEpochRef.eth1_data,
finalizedEpochRef.eth1_deposit_index)
from web3/engine_api import ForkchoiceUpdatedResponse
proc forkchoice_updated(
head_block_hash: Eth2Digest, safe_block_hash: Eth2Digest,
finalized_block_hash: Eth2Digest, timestamp: uint64, random: Eth2Digest,
fee_recipient: ethtypes.Address, withdrawals: Opt[seq[Withdrawal]],
execution_engine: Eth1Monitor):
Future[Option[bellatrix.PayloadID]] {.async.} =
logScope:
head_block_hash
finalized_block_hash
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discard $capellaImplementationMissing & ": ensure fcU usage updated for capella"
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let
forkchoiceResponse =
try:
awaitWithTimeout(
execution_engine.forkchoiceUpdated(
head_block_hash, safe_block_hash, finalized_block_hash,
timestamp, random.data, fee_recipient, withdrawals),
FORKCHOICEUPDATED_TIMEOUT):
error "Engine API fork-choice update timed out"
default(ForkchoiceUpdatedResponse)
except CatchableError as err:
error "Engine API fork-choice update failed", err = err.msg
default(ForkchoiceUpdatedResponse)
payloadId = forkchoiceResponse.payloadId
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return if payloadId.isSome:
some(bellatrix.PayloadID(payloadId.get))
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else:
none(bellatrix.PayloadID)
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proc get_execution_payload[EP](
payload_id: Option[bellatrix.PayloadID], execution_engine: Eth1Monitor):
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Future[EP] {.async.} =
return if payload_id.isNone():
# Pre-merge, empty payload
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default(EP)
else:
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when EP is bellatrix.ExecutionPayload:
asConsensusExecutionPayload(
await execution_engine.getPayloadV1(payload_id.get))
elif EP is capella.ExecutionPayload:
asConsensusExecutionPayload(
await execution_engine.getPayloadV2(payload_id.get))
elif EP is eip4844.ExecutionPayload:
debugRaiseAssert $eip4844ImplementationMissing & ": get_execution_payload"
default(EP)
else:
static: doAssert "unknown execution payload type"
proc getFeeRecipient(node: BeaconNode,
pubkey: ValidatorPubKey,
validatorIdx: ValidatorIndex,
epoch: Epoch): Eth1Address =
node.consensusManager[].getFeeRecipient(pubkey, Opt.some(validatorIdx), epoch)
from web3/engine_api_types import PayloadExecutionStatus
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from ../spec/datatypes/capella import BeaconBlock, ExecutionPayload
from ../spec/datatypes/eip4844 import BeaconBlock, ExecutionPayload
proc getExecutionPayload[T](
node: BeaconNode, proposalState: ref ForkedHashedBeaconState,
epoch: Epoch, validator_index: ValidatorIndex): Future[Opt[T]] {.async.} =
# https://github.com/ethereum/consensus-specs/blob/v1.1.10/specs/bellatrix/validator.md#executionpayload
let feeRecipient = block:
let pubkey = node.dag.validatorKey(validator_index)
if pubkey.isNone():
error "Cannot get proposer pubkey, bug?", validator_index
default(Eth1Address)
else:
node.getFeeRecipient(pubkey.get().toPubKey(), validator_index, epoch)
template empty_execution_payload(): auto =
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# Callers should already ensure these match, but type system doesn't
# transmit this information through the Forked types, so this has to
# be re-proven here.
withState(proposalState[]):
when (stateFork == BeaconStateFork.EIP4844 and
T is eip4844.ExecutionPayload) or
(stateFork == BeaconStateFork.Capella and
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T is capella.ExecutionPayload) or
(stateFork == BeaconStateFork.Bellatrix and
T is bellatrix.ExecutionPayload):
build_empty_execution_payload(forkyState.data, feeRecipient)
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elif stateFork >= BeaconStateFork.Bellatrix:
raiseAssert "getExecutionPayload: mismatched proposalState and ExecutionPayload fork"
else:
default(T)
if node.eth1Monitor.isNil:
beacon_block_payload_errors.inc()
warn "getExecutionPayload: eth1Monitor not initialized; using empty execution payload"
return Opt.some empty_execution_payload
try:
# Minimize window for Eth1 monitor to shut down connection
await node.consensusManager.eth1Monitor.ensureDataProvider()
# https://github.com/ethereum/execution-apis/blob/v1.0.0-beta.1/src/engine/specification.md#request-2
const GETPAYLOAD_TIMEOUT = 1.seconds
let
beaconHead = node.attestationPool[].getBeaconHead(node.dag.head)
executionBlockRoot = node.dag.loadExecutionBlockRoot(beaconHead.blck)
latestHead =
if not executionBlockRoot.isZero:
executionBlockRoot
elif node.eth1Monitor.terminalBlockHash.isSome:
node.eth1Monitor.terminalBlockHash.get.asEth2Digest
else:
default(Eth2Digest)
latestSafe = beaconHead.safeExecutionPayloadHash
latestFinalized = beaconHead.finalizedExecutionPayloadHash
lastFcU = node.consensusManager.forkchoiceUpdatedInfo
timestamp = withState(proposalState[]):
compute_timestamp_at_slot(forkyState.data, forkyState.data.slot)
withdrawals = withState(proposalState[]):
when stateFork >= BeaconStateFork.Capella:
Opt.some get_expected_withdrawals(forkyState.data)
else:
Opt.none(seq[Withdrawal])
payload_id =
if lastFcU.isSome and
lastFcU.get.headBlockRoot == latestHead and
lastFcU.get.safeBlockRoot == latestSafe and
lastFcU.get.finalizedBlockRoot == latestFinalized and
lastFcU.get.timestamp == timestamp and
lastFcU.get.feeRecipient == feeRecipient and
lastFcU.get.withdrawals == withdrawals:
some bellatrix.PayloadID(lastFcU.get.payloadId)
else:
debug "getExecutionPayload: didn't find payloadId, re-querying",
latestHead, latestSafe, latestFinalized,
timestamp,
feeRecipient,
cachedForkchoiceUpdateInformation = lastFcU
let random = withState(proposalState[]): get_randao_mix(
forkyState.data, get_current_epoch(forkyState.data))
(await forkchoice_updated(
latestHead, latestSafe, latestFinalized, timestamp, random,
feeRecipient, withdrawals, node.consensusManager.eth1Monitor))
payload = try:
awaitWithTimeout(
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get_execution_payload[T](payload_id, node.consensusManager.eth1Monitor),
GETPAYLOAD_TIMEOUT):
beacon_block_payload_errors.inc()
warn "Getting execution payload from Engine API timed out", payload_id
empty_execution_payload
except CatchableError as err:
beacon_block_payload_errors.inc()
warn "Getting execution payload from Engine API failed",
payload_id, err = err.msg
empty_execution_payload
return Opt.some payload
except CatchableError as err:
beacon_block_payload_errors.inc()
error "Error creating non-empty execution payload; using empty execution payload",
msg = err.msg
return Opt.some empty_execution_payload
proc makeBeaconBlockForHeadAndSlot*[EP](
node: BeaconNode, randao_reveal: ValidatorSig,
validator_index: ValidatorIndex, graffiti: GraffitiBytes, head: BlockRef,
slot: Slot,
execution_payload: Opt[EP],
transactions_root: Opt[Eth2Digest],
execution_payload_root: Opt[Eth2Digest]):
Future[ForkedBlockResult] {.async.} =
# Advance state to the slot that we're proposing for
var cache = StateCache()
let
# The clearance state already typically sits at the right slot per
# `advanceClearanceState`
# TODO can use `valueOr:`/`return err($error)` if/when
# https://github.com/status-im/nim-stew/issues/161 is addressed
maybeState = node.dag.getProposalState(head, slot, cache)
if maybeState.isErr:
beacon_block_production_errors.inc()
return err($maybeState.error)
let
state = maybeState.get
payloadFut =
if execution_payload.isSome:
let fut = newFuture[Opt[EP]]("given-payload")
fut.complete(execution_payload)
fut
elif slot.epoch < node.dag.cfg.BELLATRIX_FORK_EPOCH or
not (
is_merge_transition_complete(state[]) or
((not node.eth1Monitor.isNil) and node.eth1Monitor.ttdReached)):
let fut = newFuture[Opt[EP]]("empty-payload")
# https://github.com/nim-lang/Nim/issues/19802
fut.complete(Opt.some(default(EP)))
fut
else:
# Create execution payload while packing attestations
getExecutionPayload[EP](
node, state, slot.epoch, validator_index)
eth1Proposal = node.getBlockProposalEth1Data(state[])
if eth1Proposal.hasMissingDeposits:
beacon_block_production_errors.inc()
warn "Eth1 deposits not available. Skipping block proposal", slot
return err("Eth1 deposits not available")
let
attestations =
node.attestationPool[].getAttestationsForBlock(state[], cache)
exits = withState(state[]):
node.exitPool[].getBeaconBlockExits(node.dag.cfg, forkyState.data)
syncAggregate =
if slot.epoch < node.dag.cfg.ALTAIR_FORK_EPOCH:
SyncAggregate.init()
else:
node.syncCommitteeMsgPool[].produceSyncAggregate(head.root)
payload = (await payloadFut).valueOr:
beacon_block_production_errors.inc()
warn "Unable to get execution payload. Skipping block proposal",
slot, validator_index
return err("Unable to get execution payload")
return makeBeaconBlock(
node.dag.cfg,
state[],
validator_index,
randao_reveal,
eth1Proposal.vote,
graffiti,
attestations,
eth1Proposal.deposits,
exits,
syncAggregate,
payload,
(static(default(SignedBLSToExecutionChangeList))),
noRollback, # Temporary state - no need for rollback
cache,
verificationFlags = {},
transactions_root = transactions_root,
execution_payload_root = execution_payload_root).mapErr do (error: cstring) -> string:
# This is almost certainly a bug, but it's complex enough that there's a
# small risk it might happen even when most proposals succeed - thus we
# log instead of asserting
beacon_block_production_errors.inc()
error "Cannot create block for proposal",
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slot, head = shortLog(head), error
$error
# workaround for https://github.com/nim-lang/Nim/issues/20900 to avoid default
# parameters
proc makeBeaconBlockForHeadAndSlot*[EP](
node: BeaconNode, randao_reveal: ValidatorSig,
validator_index: ValidatorIndex, graffiti: GraffitiBytes, head: BlockRef,
slot: Slot):
Future[ForkedBlockResult] =
return makeBeaconBlockForHeadAndSlot[EP](
node, randao_reveal, validator_index, graffiti, head, slot,
execution_payload = Opt.none(EP),
transactions_root = Opt.none(Eth2Digest),
execution_payload_root = Opt.none(Eth2Digest))
proc getBlindedExecutionPayload(
node: BeaconNode, slot: Slot, executionBlockRoot: Eth2Digest,
pubkey: ValidatorPubKey):
Future[Result[bellatrix.ExecutionPayloadHeader, string]] {.async.} =
if node.payloadBuilderRestClient.isNil:
return err "getBlindedExecutionPayload: nil REST client"
let blindedHeader = awaitWithTimeout(
node.payloadBuilderRestClient.getHeader(slot, executionBlockRoot, pubkey),
BUILDER_PROPOSAL_DELAY_TOLERANCE):
return err "Timeout when obtaining blinded header from builder"
const httpOk = 200
if blindedHeader.status != httpOk:
return err "getBlindedExecutionPayload: non-200 HTTP response"
else:
if not verify_builder_signature(
node.dag.cfg.genesisFork, blindedHeader.data.data.message,
blindedHeader.data.data.message.pubkey,
blindedHeader.data.data.signature):
return err "getBlindedExecutionPayload: signature verification failed"
return ok blindedHeader.data.data.message.header
from ./message_router_mev import
copyFields, getFieldNames, unblindAndRouteBlockMEV
func constructSignableBlindedBlock[T](
forkedBlock: ForkedBeaconBlock,
executionPayloadHeader: bellatrix.ExecutionPayloadHeader): T =
const
blckFields = getFieldNames(typeof(forkedBlock.bellatrixData))
blckBodyFields = getFieldNames(typeof(forkedBlock.bellatrixData.body))
var blindedBlock: T
# https://github.com/ethereum/builder-specs/blob/v0.2.0/specs/validator.md#block-proposal
copyFields(blindedBlock.message, forkedBlock.bellatrixData, blckFields)
copyFields(
blindedBlock.message.body, forkedBlock.bellatrixData.body, blckBodyFields)
blindedBlock.message.body.execution_payload_header = executionPayloadHeader
blindedBlock
func constructPlainBlindedBlock[T](
forkedBlock: ForkedBeaconBlock,
executionPayloadHeader: bellatrix.ExecutionPayloadHeader): T =
const
blckFields = getFieldNames(typeof(forkedBlock.bellatrixData))
blckBodyFields = getFieldNames(typeof(forkedBlock.bellatrixData.body))
var blindedBlock: T
# https://github.com/ethereum/builder-specs/blob/v0.2.0/specs/validator.md#block-proposal
copyFields(blindedBlock, forkedBlock.bellatrixData, blckFields)
copyFields(blindedBlock.body, forkedBlock.bellatrixData.body, blckBodyFields)
blindedBlock.body.execution_payload_header = executionPayloadHeader
blindedBlock
proc blindedBlockCheckSlashingAndSign[T](
node: BeaconNode, slot: Slot, validator: AttachedValidator,
validator_index: ValidatorIndex, nonsignedBlindedBlock: T):
Future[Result[T, string]] {.async.} =
# Check with slashing protection before submitBlindedBlock
let
fork = node.dag.forkAtEpoch(slot.epoch)
genesis_validators_root = node.dag.genesis_validators_root
blockRoot = hash_tree_root(nonsignedBlindedBlock.message)
signingRoot = compute_block_signing_root(
fork, genesis_validators_root, slot, blockRoot)
notSlashable = node.attachedValidators
.slashingProtection
.registerBlock(validator_index, validator.pubkey, slot, signingRoot)
if notSlashable.isErr:
warn "Slashing protection activated for MEV block",
blockRoot = shortLog(blockRoot), blck = shortLog(nonsignedBlindedBlock),
signingRoot = shortLog(signingRoot),
validator = validator.pubkey,
slot = slot,
existingProposal = notSlashable.error
return err("MEV proposal would be slashable: " & $notSlashable.error)
var blindedBlock = nonsignedBlindedBlock
blindedBlock.signature =
block:
let res = await validator.getBlockSignature(
fork, genesis_validators_root, slot, blockRoot, blindedBlock.message)
if res.isErr():
return err("Unable to sign block: " & res.error())
res.get()
return ok blindedBlock
proc getBlindedBeaconBlock[T](
node: BeaconNode, slot: Slot, validator: AttachedValidator,
validator_index: ValidatorIndex, forkedBlock: ForkedBeaconBlock,
executionPayloadHeader: bellatrix.ExecutionPayloadHeader):
Future[Result[T, string]] {.async.} =
return await blindedBlockCheckSlashingAndSign(
node, slot, validator, validator_index, constructSignableBlindedBlock[T](
forkedBlock, executionPayloadHeader))
proc getBlindedBlockParts(
node: BeaconNode, head: BlockRef, pubkey: ValidatorPubKey,
slot: Slot, randao: ValidatorSig, validator_index: ValidatorIndex,
graffiti: GraffitiBytes):
Future[Result[(bellatrix.ExecutionPayloadHeader, ForkedBeaconBlock), string]]
{.async.} =
let
executionBlockRoot = node.dag.loadExecutionBlockRoot(head)
executionPayloadHeader =
try:
awaitWithTimeout(
node.getBlindedExecutionPayload(
slot, executionBlockRoot, pubkey),
BUILDER_PROPOSAL_DELAY_TOLERANCE):
Result[bellatrix.ExecutionPayloadHeader, string].err(
"getBlindedExecutionPayload timed out")
except RestDecodingError as exc:
Result[bellatrix.ExecutionPayloadHeader, string].err(
"getBlindedExecutionPayload REST decoding error")
except CatchableError as exc:
Result[bellatrix.ExecutionPayloadHeader, string].err(
"getBlindedExecutionPayload error")
if executionPayloadHeader.isErr:
debug "proposeBlockMEV: getBlindedExecutionPayload failed",
error = executionPayloadHeader.error, slot, validator_index,
head = shortLog(head)
# Haven't committed to the MEV block, so allow EL fallback.
return err(executionPayloadHeader.error)
# When creating this block, need to ensure it uses the MEV-provided execution
# payload, both to avoid repeated calls to network services and to ensure the
# consistency of this block (e.g., its state root being correct). Since block
# processing does not work directly using blinded blocks, fix up transactions
# root after running the state transition function on an otherwise equivalent
# non-blinded block without transactions.
var shimExecutionPayload: bellatrix.ExecutionPayload
copyFields(
shimExecutionPayload, executionPayloadHeader.get,
getFieldNames(bellatrix.ExecutionPayloadHeader))
let newBlock = await makeBeaconBlockForHeadAndSlot[bellatrix.ExecutionPayload](
node, randao, validator_index, graffiti, head, slot,
execution_payload = Opt.some shimExecutionPayload,
transactions_root = Opt.some executionPayloadHeader.get.transactions_root,
execution_payload_root =
Opt.some hash_tree_root(executionPayloadHeader.get))
if newBlock.isErr():
# Haven't committed to the MEV block, so allow EL fallback.
return err(newBlock.error) # already logged elsewhere!
let forkedBlck = newBlock.get()
return ok((executionPayloadHeader.get, forkedBlck))
proc proposeBlockMEV(
node: BeaconNode, head: BlockRef, validator: AttachedValidator, slot: Slot,
randao: ValidatorSig, validator_index: ValidatorIndex):
Future[Opt[BlockRef]] {.async.} =
let blindedBlockParts = await getBlindedBlockParts(
node, head, validator.pubkey, slot, randao, validator_index,
node.graffitiBytes)
if blindedBlockParts.isErr:
# Not signed yet, fine to try to fall back on EL
beacon_block_builder_missed_with_fallback.inc()
return Opt.none BlockRef
# These, together, get combined into the blinded block for signing and
# proposal through the relay network.
let (executionPayloadHeader, forkedBlck) = blindedBlockParts.get
# This is only substantively asynchronous with a remote key signer
let blindedBlock = awaitWithTimeout(
getBlindedBeaconBlock[SignedBlindedBeaconBlock](
node, slot, validator, validator_index, forkedBlck,
executionPayloadHeader),
500.milliseconds):
Result[SignedBlindedBeaconBlock, string].err "getBlindedBlock timed out"
if blindedBlock.isErr:
info "proposeBlockMEV: getBlindedBeaconBlock failed",
slot, head = shortLog(head), validator_index, blindedBlock,
error = blindedBlock.error
return Opt.none BlockRef
# Before unblindAndRouteBlockMEV, can fall back to EL; after, cannot
let unblindedBlockRef = await node.unblindAndRouteBlockMEV(
blindedBlock.get)
return if unblindedBlockRef.isOk and unblindedBlockRef.get.isSome:
beacon_blocks_proposed.inc()
unblindedBlockRef.get
else:
# Signal to the caller that a signed, blinded beacon block was sent to the
# builder API server, at which point no local EL fallback can occur. Using
# non-`none` opt with the same head indicates this to proposeBlock(), with
# any non-`none` return value indicating this in general.
#
# unblindedBlockRef.isOk and unblindedBlockRef.get.isNone indicates that
# the block failed to validate and integrate into the DAG, which for the
# purpose of this return value, is equivalent. It's used to drive Beacon
# REST API output.
let errMsg =
if unblindedBlockRef.isErr:
unblindedBlockRef.error
else:
"Unblinded block failed either to validate or integrate into validated store"
warn "proposeBlockMEV: blinded block not successfully unblinded and proposed",
head = shortLog(head), slot, validator_index,
validator = shortLog(validator),
err = errMsg, blindedBlck = shortLog(blindedBlock.get)
Opt.some head
proc makeBlindedBeaconBlockForHeadAndSlot*(
node: BeaconNode, randao_reveal: ValidatorSig,
validator_index: ValidatorIndex, graffiti: GraffitiBytes, head: BlockRef,
slot: Slot): Future[BlindedBlockResult] {.async.} =
## Requests a beacon node to produce a valid blinded block, which can then be
## signed by a validator. A blinded block is a block with only a transactions
## root, rather than a full transactions list.
let
pubkey =
# Relevant state for knowledge of validators
withState(node.dag.headState):
if distinctBase(validator_index) >= forkyState.data.validators.lenu64:
debug "makeBlindedBeaconBlockForHeadAndSlot: invalid validator index",
head = shortLog(head),
validator_index,
validators_len = forkyState.data.validators.len
return err("Invalid validator index")
forkyState.data.validators.item(validator_index).pubkey
blindedBlockParts = await getBlindedBlockParts(
node, head, pubkey, slot, randao_reveal, validator_index, graffiti)
if blindedBlockParts.isErr:
# Don't try EL fallback -- VC specifically requested a blinded block
return err("Unable to create blinded block")
let (executionPayloadHeader, forkedBlck) = blindedBlockParts.get
return ok constructPlainBlindedBlock[BlindedBeaconBlock](
forkedBlck, executionPayloadHeader)
from ../spec/datatypes/eip4844 import shortLog
proc proposeBlock(node: BeaconNode,
validator: AttachedValidator,
validator_index: ValidatorIndex,
head: BlockRef,
slot: Slot): Future[BlockRef] {.async.} =
if head.slot >= slot:
# We should normally not have a head newer than the slot we're proposing for
# but this can happen if block proposal is delayed
warn "Skipping proposal, have newer head already",
headSlot = shortLog(head.slot),
headBlockRoot = shortLog(head.root),
slot = shortLog(slot)
return head
let
fork = node.dag.forkAtEpoch(slot.epoch)
genesis_validators_root = node.dag.genesis_validators_root
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randao =
block:
let res = await validator.getEpochSignature(
fork, genesis_validators_root, slot.epoch)
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if res.isErr():
warn "Unable to generate randao reveal",
validator = shortLog(validator), error_msg = res.error()
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return head
res.get()
# https://github.com/ethereum/builder-specs/blob/v0.2.0/specs/validator.md#responsibilites-during-the-merge-transition
# "Honest validators will not utilize the external builder network until
# after the transition from the proof-of-work chain to the proof-of-stake
# beacon chain has been finalized by the proof-of-stake validators."
if node.config.payloadBuilderEnable and
not node.dag.loadExecutionBlockRoot(node.dag.finalizedHead.blck).isZero:
let newBlockMEV = await node.proposeBlockMEV(
head, validator, slot, randao, validator_index)
if newBlockMEV.isSome:
# This might be equivalent to the `head` passed in, but it signals that
# `submitBlindedBlock` ran, so don't do anything else. Otherwise, it is
# fine to try again with the local EL.
2022-09-23 06:20:32 +00:00
if newBlockMEV.get == head:
# Returning same block as head indicates failure to generate new block
beacon_block_builder_missed_without_fallback.inc()
return newBlockMEV.get
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let newBlock =
if slot.epoch >= node.dag.cfg.CAPELLA_FORK_EPOCH:
await makeBeaconBlockForHeadAndSlot[capella.ExecutionPayload](
node, randao, validator_index, node.graffitiBytes, head, slot)
else:
await makeBeaconBlockForHeadAndSlot[bellatrix.ExecutionPayload](
node, randao, validator_index, node.graffitiBytes, head, slot)
if newBlock.isErr():
return head # already logged elsewhere!
let forkedBlck = newBlock.get()
withBlck(forkedBlck):
let
blockRoot = hash_tree_root(blck)
signingRoot = compute_block_signing_root(
fork, genesis_validators_root, slot, blockRoot)
notSlashable = node.attachedValidators
.slashingProtection
.registerBlock(validator_index, validator.pubkey, slot, signingRoot)
if notSlashable.isErr:
warn "Slashing protection activated for block proposal",
blockRoot = shortLog(blockRoot), blck = shortLog(blck),
signingRoot = shortLog(signingRoot),
validator = validator.pubkey,
slot = slot,
existingProposal = notSlashable.error
return head
let
signature =
block:
let res = await validator.getBlockSignature(
fork, genesis_validators_root, slot, blockRoot, forkedBlck)
if res.isErr():
warn "Unable to sign block",
validator = shortLog(validator), error_msg = res.error()
return head
res.get()
signedBlock =
when blck is phase0.BeaconBlock:
phase0.SignedBeaconBlock(
message: blck, signature: signature, root: blockRoot)
elif blck is altair.BeaconBlock:
altair.SignedBeaconBlock(
message: blck, signature: signature, root: blockRoot)
elif blck is bellatrix.BeaconBlock:
bellatrix.SignedBeaconBlock(
message: blck, signature: signature, root: blockRoot)
elif blck is capella.BeaconBlock:
capella.SignedBeaconBlock(
message: blck, signature: signature, root: blockRoot)
elif blck is eip4844.BeaconBlock:
eip4844.SignedBeaconBlock(
message: blck, signature: signature, root: blockRoot)
else:
static: doAssert "Unknown SignedBeaconBlock type"
newBlockRef =
(await node.router.routeSignedBeaconBlock(signedBlock)).valueOr:
return head # Errors logged in router
if newBlockRef.isNone():
return head # Validation errors logged in router
notice "Block proposed",
blockRoot = shortLog(blockRoot), blck = shortLog(blck),
signature = shortLog(signature), validator = shortLog(validator)
beacon_blocks_proposed.inc()
return newBlockRef.get()
proc handleAttestations(node: BeaconNode, head: BlockRef, slot: Slot) =
## Perform all attestations that the validators attached to this node should
## perform during the given slot
if slot + SLOTS_PER_EPOCH < head.slot:
# The latest block we know about is a lot newer than the slot we're being
# asked to attest to - this makes it unlikely that it will be included
# at all.
# TODO the oldest attestations allowed are those that are older than the
# finalized epoch.. also, it seems that posting very old attestations
# is risky from a slashing perspective. More work is needed here.
warn "Skipping attestation, head is too recent",
head = shortLog(head),
slot = shortLog(slot)
return
if slot < node.dag.finalizedHead.slot:
# During checkpoint sync, we implicitly finalize the given slot even if the
# state transition does not yet consider it final - this is a sanity check
# mostly to ensure the `atSlot` below works as expected
warn "Skipping attestation - slot already finalized",
head = shortLog(head),
slot = shortLog(slot),
finalized = shortLog(node.dag.finalizedHead)
return
let attestationHead = head.atSlot(slot)
if head != attestationHead.blck:
# In rare cases, such as when we're busy syncing or just slow, we'll be
# attesting to a past state - we must then recreate the world as it looked
# like back then
notice "Attesting to a state in the past, falling behind?",
attestationHead = shortLog(attestationHead),
head = shortLog(head)
trace "Checking attestations",
attestationHead = shortLog(attestationHead),
head = shortLog(head)
# We need to run attestations exactly for the slot that we're attesting to.
# In case blocks went missing, this means advancing past the latest block
# using empty slots as fillers.
# https://github.com/ethereum/consensus-specs/blob/v1.3.0-rc.0/specs/phase0/validator.md#validator-assignments
2020-08-10 13:21:31 +00:00
let
epochRef = node.dag.getEpochRef(
attestationHead.blck, slot.epoch, false).valueOr:
warn "Cannot construct EpochRef for attestation head, report bug",
attestationHead = shortLog(attestationHead), slot, error
return
committees_per_slot = get_committee_count_per_slot(epochRef.shufflingRef)
fork = node.dag.forkAtEpoch(slot.epoch)
genesis_validators_root = node.dag.genesis_validators_root
2020-08-10 13:21:31 +00:00
for committee_index in get_committee_indices(committees_per_slot):
let committee = get_beacon_committee(
epochRef.shufflingRef, slot, committee_index)
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for index_in_committee, validator_index in committee:
let validator = node.getValidatorForDuties(validator_index, slot).valueOr:
continue
let
data = makeAttestationData(epochRef, attestationHead, committee_index)
# TODO signing_root is recomputed in produceAndSignAttestation/signAttestation just after
signingRoot = compute_attestation_signing_root(
fork, genesis_validators_root, data)
registered = node.attachedValidators
.slashingProtection
.registerAttestation(
validator_index,
New validator client using REST API. (#2651) * Initial commit. * Exporting getConfig(). * Add beacon node checking procedures. * Post rebase fixes. * Use runSlotLoop() from nimbus_beacon_node. Fallback implementation. Fixes for ETH2 REST serialization. * Add beacon_clock.durationToNextSlot(). Move type declarations from beacon_rest_api to json_rest_serialization. Fix seq[ValidatorIndex] serialization. Refactor ValidatorPool and add some utility procedures. Create separate version of validator_client. * Post-rebase fixes. Remove CookedPubKey from validator_pool.nim. * Now we should be able to produce attestations and aggregate and proofs. But its not working yet. * Debugging attestation sending. * Add durationToNextAttestation. Optimize some debug logs. Fix aggregation_bits encoding. Bump chronos/presto. * Its alive. * Fixes for launch_local_testnet script. Bump chronos. * Switch client API to not use `/api` prefix. * Post-rebase adjustments. * Fix endpoint for publishBlock(). * Add CONFIG_NAME. Add more checks to ensure that beacon_node is compatible. * Add beacon committee subscription support to validator_client. * Fix stacktrace should be an array of strings. Fix committee subscriptions should not be `data` keyed. * Log duration to next block proposal. * Fix beacon_node_status import. * Use jsonMsgResponse() instead of jsonError(). * Fix graffityBytes usage. Remove unnecessary `await`. Adjust creation of SignedBlock instance. Remove legacy files. * Rework durationToNextSlot() and durationToNextEpoch() to use `fromNow`. * Fix race condition for block proposal and attestations for same slot. Fix local_testnet script to properly kill tasks on Windows. Bump chronos and nim-http-tools, to allow connections to infura.io (basic auth). * Catch services errors. Improve performance of local_testnet.sh script on Windows. Fix race condition when attestation producing. * Post-rebase fixes. * Bump chronos and presto. * Calculate block publishing delay. Fix pkill in one more place. * Add error handling and timeouts to firstSuccess() template. Add onceToAll() template. Add checkNodes() procedure. Refactor firstSuccess() template. Add error checking to api.nim calls. * Deprecated usage onceToAll() for better stability. Address comment and send attestations asap. * Avoid unnecessary loop when calculating minimal duration.
2021-07-13 11:15:07 +00:00
validator.pubkey,
data.source.epoch,
data.target.epoch,
signingRoot)
if registered.isOk():
let subnet_id = compute_subnet_for_attestation(
committees_per_slot, data.slot, committee_index)
asyncSpawn createAndSendAttestation(
node, fork, genesis_validators_root, validator, data,
committee.len(), index_in_committee, subnet_id)
else:
warn "Slashing protection activated for attestation",
attestationData = shortLog(data),
signingRoot = shortLog(signingRoot),
validator_index,
validator = shortLog(validator),
badVoteDetails = $registered.error()
proc createAndSendSyncCommitteeMessage(node: BeaconNode,
validator: AttachedValidator,
slot: Slot,
subcommitteeIdx: SyncSubcommitteeIndex,
head: BlockRef) {.async.} =
try:
let
fork = node.dag.forkAtEpoch(slot.epoch)
genesis_validators_root = node.dag.genesis_validators_root
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msg =
block:
let res = await validator.getSyncCommitteeMessage(
fork, genesis_validators_root, slot, head.root)
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if res.isErr():
warn "Unable to sign committee message",
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validator = shortLog(validator), slot = slot,
block_root = shortLog(head.root)
return
res.get()
# Logged in the router
let res = await node.router.routeSyncCommitteeMessage(
msg, subcommitteeIdx, checkSignature = false)
if not res.isOk():
return
if node.config.dumpEnabled:
dump(node.config.dumpDirOutgoing, msg, validator.pubkey)
except CatchableError as exc:
# An error could happen here when the signature task fails - we must
# not leak the exception because this is an asyncSpawn task
notice "Error sending sync committee message", err = exc.msg
proc handleSyncCommitteeMessages(node: BeaconNode, head: BlockRef, slot: Slot) =
# TODO Use a view type to avoid the copy
let
syncCommittee = node.dag.syncCommitteeParticipants(slot + 1)
for subcommitteeIdx in SyncSubcommitteeIndex:
for valIdx in syncSubcommittee(syncCommittee, subcommitteeIdx):
let validator = node.getValidatorForDuties(valIdx, slot).valueOr:
continue
asyncSpawn createAndSendSyncCommitteeMessage(node, validator, slot,
subcommitteeIdx, head)
proc signAndSendContribution(node: BeaconNode,
validator: AttachedValidator,
subcommitteeIdx: SyncSubcommitteeIndex,
head: BlockRef,
slot: Slot) {.async.} =
try:
let
fork = node.dag.forkAtEpoch(slot.epoch)
genesis_validators_root = node.dag.genesis_validators_root
selectionProof = block:
let res = await validator.getSyncCommitteeSelectionProof(
fork, genesis_validators_root, slot, subcommitteeIdx)
if res.isErr():
warn "Unable to generate committee selection proof",
validator = shortLog(validator), slot,
subnet_id = subcommitteeIdx, error = res.error()
return
res.get()
if not is_sync_committee_aggregator(selectionProof):
return
var
msg = SignedContributionAndProof(
message: ContributionAndProof(
aggregator_index: uint64 validator.index.get,
selection_proof: selectionProof))
if not node.syncCommitteeMsgPool[].produceContribution(
slot,
head.root,
subcommitteeIdx,
msg.message.contribution):
return
msg.signature = block:
let res = await validator.getContributionAndProofSignature(
fork, genesis_validators_root, msg.message)
if res.isErr():
warn "Unable to sign sync committee contribution",
validator = shortLog(validator), message = shortLog(msg.message),
error_msg = res.error()
return
res.get()
# Logged in the router
discard await node.router.routeSignedContributionAndProof(msg, false)
except CatchableError as exc:
# An error could happen here when the signature task fails - we must
# not leak the exception because this is an asyncSpawn task
warn "Error sending sync committee contribution", err = exc.msg
proc handleSyncCommitteeContributions(
node: BeaconNode, head: BlockRef, slot: Slot) {.async.} =
let
fork = node.dag.forkAtEpoch(slot.epoch)
genesis_validators_root = node.dag.genesis_validators_root
Speed up altair block processing 2x (#3115) * Speed up altair block processing >2x Like #3089, this PR drastially speeds up historical REST queries and other long state replays. * cache sync committee validator indices * use ~80mb less memory for validator pubkey mappings * batch-verify sync aggregate signature (fixes #2985) * document sync committee hack with head block vs sync message block * add batch signature verification failure tests Before: ``` ../env.sh nim c -d:release -r ncli_db --db:mainnet_0/db bench --start-slot:-1000 All time are ms Average, StdDev, Min, Max, Samples, Test Validation is turned off meaning that no BLS operations are performed 5830.675, 0.000, 5830.675, 5830.675, 1, Initialize DB 0.481, 1.878, 0.215, 59.167, 981, Load block from database 8422.566, 0.000, 8422.566, 8422.566, 1, Load state from database 6.996, 1.678, 0.042, 14.385, 969, Advance slot, non-epoch 93.217, 8.318, 84.192, 122.209, 32, Advance slot, epoch 20.513, 23.665, 11.510, 201.561, 981, Apply block, no slot processing 0.000, 0.000, 0.000, 0.000, 0, Database load 0.000, 0.000, 0.000, 0.000, 0, Database store ``` After: ``` 7081.422, 0.000, 7081.422, 7081.422, 1, Initialize DB 0.553, 2.122, 0.175, 66.692, 981, Load block from database 5439.446, 0.000, 5439.446, 5439.446, 1, Load state from database 6.829, 1.575, 0.043, 12.156, 969, Advance slot, non-epoch 94.716, 2.749, 88.395, 100.026, 32, Advance slot, epoch 11.636, 23.766, 4.889, 205.250, 981, Apply block, no slot processing 0.000, 0.000, 0.000, 0.000, 0, Database load 0.000, 0.000, 0.000, 0.000, 0, Database store ``` * add comment
2021-11-24 12:43:50 +00:00
syncCommittee = node.dag.syncCommitteeParticipants(slot + 1)
for subcommitteeIdx in SyncSubCommitteeIndex:
for valIdx in syncSubcommittee(syncCommittee, subcommitteeIdx):
let validator = node.getValidatorForDuties(valIdx, slot).valueOr:
continue
asyncSpawn signAndSendContribution(
node, validator, subcommitteeIdx, head, slot)
proc handleProposal(node: BeaconNode, head: BlockRef, slot: Slot):
Future[BlockRef] {.async.} =
## Perform the proposal for the given slot, iff we have a validator attached
## that is supposed to do so, given the shuffling at that slot for the given
## head - to compute the proposer, we need to advance a state to the given
## slot
let proposer = node.dag.getProposer(head, slot)
if proposer.isNone():
return head
let
proposerKey = node.dag.validatorKey(proposer.get()).get().toPubKey
validator = node.getValidatorForDuties(proposer.get(), slot).valueOr:
debug "Expecting block proposal", headRoot = shortLog(head.root),
slot = shortLog(slot),
proposer_index = proposer.get(),
proposer = shortLog(proposerKey)
return head
return await proposeBlock(node, validator, proposer.get(), head, slot)
proc signAndSendAggregate(
node: BeaconNode, validator: AttachedValidator, shufflingRef: ShufflingRef,
slot: Slot, committee_index: CommitteeIndex) {.async.} =
try:
let
fork = node.dag.forkAtEpoch(slot.epoch)
genesis_validators_root = node.dag.genesis_validators_root
validator_index = validator.index.get()
selectionProof = block:
let res = await validator.getSlotSignature(
fork, genesis_validators_root, slot)
if res.isErr():
warn "Unable to create slot signature",
validator = shortLog(validator),
slot, error = res.error()
return
res.get()
# https://github.com/ethereum/consensus-specs/blob/v1.3.0-rc.0/specs/phase0/validator.md#aggregation-selection
if not is_aggregator(
shufflingRef, slot, committee_index, selectionProof):
return
# https://github.com/ethereum/consensus-specs/blob/v1.3.0-rc.0/specs/phase0/validator.md#construct-aggregate
# https://github.com/ethereum/consensus-specs/blob/v1.3.0-rc.0/specs/phase0/validator.md#aggregateandproof
var
msg = SignedAggregateAndProof(
message: AggregateAndProof(
aggregator_index: uint64 validator_index,
selection_proof: selectionProof))
msg.message.aggregate = node.attestationPool[].getAggregatedAttestation(
slot, committee_index).valueOr:
return
msg.signature = block:
let res = await validator.getAggregateAndProofSignature(
fork, genesis_validators_root, msg.message)
if res.isErr():
warn "Unable to sign aggregate",
validator = shortLog(validator), error_msg = res.error()
return
res.get()
# Logged in the router
discard await node.router.routeSignedAggregateAndProof(
msg, checkSignature = false)
except CatchableError as exc:
# An error could happen here when the signature task fails - we must
# not leak the exception because this is an asyncSpawn task
warn "Error sending aggregate", err = exc.msg
proc sendAggregatedAttestations(
node: BeaconNode, head: BlockRef, slot: Slot) {.async.} =
# Aggregated attestations must be sent by members of the beacon committees for
# the given slot, for which `is_aggregator` returns `true`.
let
shufflingRef = node.dag.getShufflingRef(head, slot.epoch, false).valueOr:
warn "Cannot construct EpochRef for head, report bug",
head = shortLog(head), slot
return
committees_per_slot = get_committee_count_per_slot(shufflingRef)
for committee_index in get_committee_indices(committees_per_slot):
for _, validator_index in
get_beacon_committee(shufflingRef, slot, committee_index):
let validator = node.getValidatorForDuties(validator_index, slot).valueOr:
continue
asyncSpawn signAndSendAggregate(node, validator, shufflingRef, slot,
committee_index)
2020-12-16 13:03:04 +00:00
proc updateValidatorMetrics*(node: BeaconNode) =
# Technically, this only needs to be done on epoch transitions and if there's
# a reorg that spans an epoch transition, but it's easier to implement this
# way for now.
# We'll limit labelled metrics to the first 64, so that we don't overload
# Prometheus.
var total: Gwei
var i = 0
for _, v in node.attachedValidators[].validators:
let balance =
if v.index.isNone():
0.Gwei
elif v.index.get().uint64 >=
getStateField(node.dag.headState, balances).lenu64:
debug "Cannot get validator balance, index out of bounds",
pubkey = shortLog(v.pubkey), index = v.index.get(),
balances = getStateField(node.dag.headState, balances).len,
stateRoot = getStateRoot(node.dag.headState)
0.Gwei
else:
getStateField(node.dag.headState, balances).item(v.index.get())
if i < 64:
attached_validator_balance.set(
balance.toGaugeValue, labelValues = [shortLog(v.pubkey)])
inc i
total += balance
node.attachedValidatorBalanceTotal = total
attached_validator_balance_total.set(total.toGaugeValue)
2020-11-27 23:34:25 +00:00
from std/times import epochTime
proc getValidatorRegistration(
node: BeaconNode, validator: AttachedValidator, epoch: Epoch):
Future[Result[SignedValidatorRegistrationV1, string]] {.async.} =
# Stand-in, reasonable default
const gasLimit = 30000000
let validatorIdx = validator.index.valueOr:
# The validator index will be missing when the validator was not
# activated for duties yet. We can safely skip the registration then.
return
let feeRecipient = node.getFeeRecipient(validator.pubkey, validatorIdx, epoch)
var validatorRegistration = SignedValidatorRegistrationV1(
message: ValidatorRegistrationV1(
fee_recipient: ExecutionAddress(data: distinctBase(feeRecipient)),
gas_limit: gasLimit,
timestamp: epochTime().uint64,
pubkey: validator.pubkey))
let signature = await validator.getBuilderSignature(
node.dag.cfg.genesisFork, validatorRegistration.message)
debug "getValidatorRegistration: registering",
validatorRegistration
if signature.isErr:
return err signature.error
validatorRegistration.signature = signature.get
return ok validatorRegistration
from std/sequtils import toSeq
proc registerValidators*(node: BeaconNode, epoch: Epoch) {.async.} =
try:
if (not node.config.payloadBuilderEnable) or
node.currentSlot.epoch < node.dag.cfg.BELLATRIX_FORK_EPOCH:
return
elif node.config.payloadBuilderEnable and
node.payloadBuilderRestClient.isNil:
warn "registerValidators: node.config.payloadBuilderEnable and node.payloadBuilderRestClient.isNil"
return
const HttpOk = 200
let restBuilderStatus = awaitWithTimeout(node.payloadBuilderRestClient.checkBuilderStatus(),
BUILDER_STATUS_DELAY_TOLERANCE):
debug "Timeout when obtaining builder status"
return
if restBuilderStatus.status != HttpOk:
warn "registerValidators: specified builder or relay not available",
builderUrl = node.config.payloadBuilderUrl,
builderStatus = restBuilderStatus
return
# The async aspect of signing the registrations can cause the attached
# validators to change during the loop.
let attachedValidatorPubkeys =
toSeq(node.attachedValidators[].validators.keys)
const emptyNestedSeq = @[newSeq[SignedValidatorRegistrationV1](0)]
# https://github.com/ethereum/builder-specs/blob/v0.2.0/specs/validator.md#validator-registration
# Seed with single empty inner list to avoid special cases
var validatorRegistrations = emptyNestedSeq
# Some relay networks disallow large request bodies, so split requests
template addValidatorRegistration(
validatorRegistration: SignedValidatorRegistrationV1) =
const registrationValidatorChunkSize = 1000
if validatorRegistrations[^1].len < registrationValidatorChunkSize:
validatorRegistrations[^1].add validatorRegistration
else:
validatorRegistrations.add @[validatorRegistration]
# First, check for VC-added keys; cheaper because provided pre-signed
var nonExitedVcPubkeys: HashSet[ValidatorPubKey]
if node.externalBuilderRegistrations.len > 0:
withState(node.dag.headState):
let currentEpoch = node.currentSlot().epoch
for i in 0 ..< forkyState.data.validators.len:
# https://github.com/ethereum/beacon-APIs/blob/v2.3.0/apis/validator/register_validator.yaml
# "requests containing currently inactive or unknown validator
# pubkeys will be accepted, as they may become active at a later
# epoch" which means filtering is needed here, because including
# any validators not pending or active may cause the request, as
# a whole, to fail.
let pubkey = forkyState.data.validators.item(i).pubkey
if pubkey in node.externalBuilderRegistrations and
forkyState.data.validators.item(i).exit_epoch > currentEpoch:
let signedValidatorRegistration =
node.externalBuilderRegistrations[pubkey]
nonExitedVcPubkeys.incl signedValidatorRegistration.message.pubkey
addValidatorRegistration signedValidatorRegistration
for key in attachedValidatorPubkeys:
# Already included from VC
if key in nonExitedVcPubkeys:
warn "registerValidators: same validator registered by beacon node and validator client",
pubkey = shortLog(key)
continue
# Time passed during awaits; REST keymanager API might have removed it
if key notin node.attachedValidators[].validators:
continue
let validator = node.attachedValidators[].validators[key]
if validator.index.isNone:
continue
# https://ethereum.github.io/builder-specs/#/Builder/registerValidator
# Builders should verify that `pubkey` corresponds to an active or
# pending validator
withState(node.dag.headState):
if distinctBase(validator.index.get) >=
forkyState.data.validators.lenu64:
continue
if node.currentSlot().epoch >=
forkyState.data.validators.item(validator.index.get).exit_epoch:
continue
if validator.externalBuilderRegistration.isSome:
addValidatorRegistration validator.externalBuilderRegistration.get
else:
let validatorRegistration =
await node.getValidatorRegistration(validator, epoch)
if validatorRegistration.isErr:
error "registerValidators: validatorRegistration failed",
validatorRegistration
continue
# Time passed during await; REST keymanager API might have removed it
if key notin node.attachedValidators[].validators:
continue
node.attachedValidators[].validators[key].externalBuilderRegistration =
Opt.some validatorRegistration.get
addValidatorRegistration validatorRegistration.get
if validatorRegistrations == emptyNestedSeq:
return
# TODO if there are too many chunks, could trigger DoS protections, so
# might randomize order to accumulate cumulative coverage
for chunkIdx in 0 ..< validatorRegistrations.len:
let registerValidatorResult =
awaitWithTimeout(
node.payloadBuilderRestClient.registerValidator(
validatorRegistrations[chunkIdx]),
BUILDER_VALIDATOR_REGISTRATION_DELAY_TOLERANCE):
error "Timeout when registering validator with builder"
continue # Try next batch regardless
if HttpOk != registerValidatorResult.status:
warn "registerValidators: Couldn't register validator with MEV builder",
registerValidatorResult
except CatchableError as exc:
warn "registerValidators: exception",
error = exc.msg
proc handleValidatorDuties*(node: BeaconNode, lastSlot, slot: Slot) {.async.} =
## Perform validator duties - create blocks, vote and aggregate existing votes
if node.attachedValidators[].count == 0:
# Nothing to do because we have no validator attached
return
# The dag head might be updated by sync while we're working due to the
# await calls, thus we use a local variable to keep the logic straight here
var head = node.dag.head
case node.isSynced(head)
of SyncStatus.unsynced:
info "Beacon node not in sync; skipping validator duties for now",
slot, headSlot = head.slot
# Rewards will be growing though, as we sync..
updateValidatorMetrics(node)
return
of SyncStatus.optimistic:
info "Execution client not in sync; skipping validator duties for now",
slot, headSlot = head.slot
2020-12-16 13:03:04 +00:00
# Rewards will be growing though, as we sync..
updateValidatorMetrics(node)
return
of SyncStatus.synced:
discard # keep going
for validator in node.attachedValidators[]:
# Check if any validators have been activated
# TODO we could do this the other way around and update only validators
# based on a "last-updated" index since only the tail end of the
# validator list in the state ever changes
if validator.needsUpdate:
let data = withState(node.dag.headState):
getValidator(forkyState.data.validators.asSeq(), validator.pubkey)
if data.isSome():
# Activation epoch can change after index is assigned..
validator.updateValidator(
data.get().index, data.get().validator.activation_epoch)
var curSlot = lastSlot + 1
# Start by checking if there's work we should have done in the past that we
# can still meaningfully do
while curSlot < slot:
notice "Catching up on validator duties",
curSlot = shortLog(curSlot),
lastSlot = shortLog(lastSlot),
slot = shortLog(slot)
# For every slot we're catching up, we'll propose then send
# attestations - head should normally be advancing along the same branch
# in this case
head = await handleProposal(node, head, curSlot)
# For each slot we missed, we need to send out attestations - if we were
# proposing during this time, we'll use the newly proposed head, else just
# keep reusing the same - the attestation that goes out will actually
# rewind the state to what it looked like at the time of that slot
handleAttestations(node, head, curSlot)
curSlot += 1
let
newHead = await handleProposal(node, head, slot)
didSubmitBlock = (newHead != head)
head = newHead
let
# The latest point in time when we'll be sending out attestations
attestationCutoff = node.beaconClock.fromNow(slot.attestation_deadline())
if attestationCutoff.inFuture:
debug "Waiting to send attestations",
head = shortLog(head),
attestationCutoff = shortLog(attestationCutoff.offset)
# Wait either for the block or the attestation cutoff time to arrive
if await node.consensusManager[].expectBlock(slot)
.withTimeout(attestationCutoff.offset):
# The expected block arrived (or expectBlock was called again which
# shouldn't happen as this is the only place we use it) - in our async
# loop however, we might have been doing other processing that caused delays
# here so we'll cap the waiting to the time when we would have sent out
# attestations had the block not arrived.
# An opposite case is that we received (or produced) a block that has
# not yet reached our neighbours. To protect against our attestations
# being dropped (because the others have not yet seen the block), we'll
# impose a minimum delay of 2000ms. The delay is enforced only when we're
# not hitting the "normal" cutoff time for sending out attestations.
# An earlier delay of 250ms has proven to be not enough, increasing the
# risk of losing attestations, and with growing block sizes, 1000ms
# started to be risky as well.
# Regardless, because we "just" received the block, we'll impose the
# delay.
# Take into consideration chains with a different slot time
const afterBlockDelay = nanos(attestationSlotOffset.nanoseconds div 2)
let
afterBlockTime = node.beaconClock.now() + afterBlockDelay
afterBlockCutoff = node.beaconClock.fromNow(
min(afterBlockTime, slot.attestation_deadline() + afterBlockDelay))
if afterBlockCutoff.inFuture:
debug "Got block, waiting to send attestations",
head = shortLog(head),
afterBlockCutoff = shortLog(afterBlockCutoff.offset)
await sleepAsync(afterBlockCutoff.offset)
# Time passed - we might need to select a new head in that case
node.consensusManager[].updateHead(slot)
head = node.dag.head
static: doAssert attestationSlotOffset == syncCommitteeMessageSlotOffset
handleAttestations(node, head, slot)
handleSyncCommitteeMessages(node, head, slot)
2020-12-16 13:03:04 +00:00
updateValidatorMetrics(node) # the important stuff is done, update the vanity numbers
2020-11-27 23:34:25 +00:00
# https://github.com/ethereum/consensus-specs/blob/v1.3.0-rc.0/specs/phase0/validator.md#broadcast-aggregate
# https://github.com/ethereum/consensus-specs/blob/v1.3.0-rc.0/specs/altair/validator.md#broadcast-sync-committee-contribution
# Wait 2 / 3 of the slot time to allow messages to propagate, then collect
# the result in aggregates
static:
doAssert aggregateSlotOffset == syncContributionSlotOffset, "Timing change?"
let
aggregateCutoff = node.beaconClock.fromNow(slot.aggregate_deadline())
if aggregateCutoff.inFuture:
debug "Waiting to send aggregate attestations",
aggregateCutoff = shortLog(aggregateCutoff.offset)
await sleepAsync(aggregateCutoff.offset)
limit by-root requests to non-finalized blocks (#3293) * limit by-root requests to non-finalized blocks Presently, we keep a mapping from block root to `BlockRef` in memory - this has simplified reasoning about the dag, but is not sustainable with the chain growing. We can distinguish between two cases where by-root access is useful: * unfinalized blocks - this is where the beacon chain is operating generally, by validating incoming data as interesting for future fork choice decisions - bounded by the length of the unfinalized period * finalized blocks - historical access in the REST API etc - no bounds, really In this PR, we limit the by-root block index to the first use case: finalized chain data can more efficiently be addressed by slot number. Future work includes: * limiting the `BlockRef` horizon in general - each instance is 40 bytes+overhead which adds up - this needs further refactoring to deal with the tail vs state problem * persisting the finalized slot-to-hash index - this one also keeps growing unbounded (albeit slowly) Anyway, this PR easily shaves ~128mb of memory usage at the time of writing. * No longer honor `BeaconBlocksByRoot` requests outside of the non-finalized period - previously, Nimbus would generously return any block through this libp2p request - per the spec, finalized blocks should be fetched via `BeaconBlocksByRange` instead. * return `Opt[BlockRef]` instead of `nil` when blocks can't be found - this becomes a lot more common now and thus deserves more attention * `dag.blocks` -> `dag.forkBlocks` - this index only carries unfinalized blocks from now - `finalizedBlocks` covers the other `BlockRef` instances * in backfill, verify that the last backfilled block leads back to genesis, or panic * add backfill timings to log * fix missing check that `BlockRef` block can be fetched with `getForkedBlock` reliably * shortcut doppelganger check when feature is not enabled * in REST/JSON-RPC, fetch blocks without involving `BlockRef` * fix dag.blocks ref
2022-01-21 11:33:16 +00:00
let sendAggregatedAttestationsFut =
sendAggregatedAttestations(node, head, slot)
let handleSyncCommitteeContributionsFut =
handleSyncCommitteeContributions(node, head, slot)
await handleSyncCommitteeContributionsFut
await sendAggregatedAttestationsFut
proc registerDuties*(node: BeaconNode, wallSlot: Slot) {.async.} =
## Register upcoming duties of attached validators with the duty tracker
if node.attachedValidators[].count() == 0 or
node.isSynced(node.dag.head) != SyncStatus.synced:
# Nothing to do because we have no validator attached
return
let
genesis_validators_root = node.dag.genesis_validators_root
head = node.dag.head
# Getting the slot signature is expensive but cached - in "normal" cases we'll
# be getting the duties one slot at a time
for slot in wallSlot ..< wallSlot + SUBNET_SUBSCRIPTION_LEAD_TIME_SLOTS:
let
shufflingRef = node.dag.getShufflingRef(head, slot.epoch, false).valueOr:
warn "Cannot construct EpochRef for duties - report bug",
head = shortLog(head), slot
return
let
fork = node.dag.forkAtEpoch(slot.epoch)
committees_per_slot = get_committee_count_per_slot(shufflingRef)
for committee_index in get_committee_indices(committees_per_slot):
let committee = get_beacon_committee(shufflingRef, slot, committee_index)
for index_in_committee, validator_index in committee:
let validator = node.getValidatorForDuties(validator_index, slot).valueOr:
continue
let
subnet_id = compute_subnet_for_attestation(
committees_per_slot, slot, committee_index)
slotSigRes = await validator.getSlotSignature(
fork, genesis_validators_root, slot)
if slotSigRes.isErr():
error "Unable to create slot signature",
validator = shortLog(validator),
error_msg = slotSigRes.error()
continue
let isAggregator = is_aggregator(committee.lenu64, slotSigRes.get())
node.consensusManager[].actionTracker.registerDuty(
slot, subnet_id, validator_index, isAggregator)