# beacon_chain # Copyright (c) 2021-2023 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. import std/[tables, os, sets, sequtils, strutils, uri, algorithm], stew/[base10, results, byteutils], bearssl/rand, chronos, presto, presto/client as presto_client, chronicles, confutils, metrics, metrics/chronos_httpserver, ".."/spec/datatypes/[base, phase0, altair], ".."/spec/[eth2_merkleization, helpers, signatures, validator], ".."/spec/eth2_apis/[eth2_rest_serialization, rest_beacon_client, dynamic_fee_recipients], ".."/consensus_object_pools/block_pools_types, ".."/validators/[keystore_management, validator_pool, slashing_protection, validator_duties], ".."/[conf, beacon_clock, version, nimbus_binary_common] from std/times import Time, toUnix, fromUnix, getTime export os, sets, sequtils, chronos, presto, chronicles, confutils, nimbus_binary_common, version, conf, tables, results, base10, byteutils, presto_client, eth2_rest_serialization, rest_beacon_client, phase0, altair, helpers, signatures, validator, eth2_merkleization, beacon_clock, keystore_management, slashing_protection, validator_pool, dynamic_fee_recipients, Time, toUnix, fromUnix, getTime, block_pools_types, base, metrics const SYNC_TOLERANCE* = 4'u64 SLOT_LOOKAHEAD* = 1.seconds HISTORICAL_DUTIES_EPOCHS* = 2'u64 TIME_DELAY_FROM_SLOT* = 79.milliseconds SUBSCRIPTION_BUFFER_SLOTS* = 2'u64 EPOCHS_BETWEEN_VALIDATOR_REGISTRATION* = 1 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] ZeroTimeDiff* = TimeDiff(nanoseconds: 0'i64) type ServiceState* {.pure.} = enum Initialized, Running, Error, Closing, Closed RegistrationKind* {.pure.} = enum Cached, IncorrectTime, MissingIndex, MissingFee, MissingGasLimit, ErrorSignature, NoSignature PendingValidatorRegistration* = object registration*: SignedValidatorRegistrationV1 future*: Future[SignatureResult] ClientServiceRef* = ref object of RootObj name*: string state*: ServiceState lifeFut*: Future[void] client*: ValidatorClientRef DutiesServiceRef* = ref object of ClientServiceRef pollingAttesterDutiesTask*: Future[void] pollingSyncDutiesTask*: Future[void] syncSubscriptionEpoch*: Opt[Epoch] FallbackServiceRef* = ref object of ClientServiceRef changesEvent*: AsyncEvent ForkServiceRef* = ref object of ClientServiceRef AttestationServiceRef* = ref object of ClientServiceRef BlockServiceRef* = ref object of ClientServiceRef SyncCommitteeServiceRef* = ref object of ClientServiceRef DoppelgangerServiceRef* = ref object of ClientServiceRef enabled*: bool DutyAndProof* = object epoch*: Epoch dependentRoot*: Eth2Digest data*: RestAttesterDuty slotSig*: Opt[ValidatorSig] SyncCommitteeDuty* = RestSyncCommitteeDuty SyncCommitteeSubscriptionInfo* = object validator_index*: ValidatorIndex validator_sync_committee_indices*: seq[IndexInSyncCommittee] ProposerTask* = object duty*: RestProposerDuty future*: Future[void] ProposedData* = object epoch*: Epoch dependentRoot*: Eth2Digest duties*: seq[ProposerTask] BeaconNodeRole* {.pure.} = enum Duties, AttestationData, AttestationPublish, AggregatedData, AggregatedPublish, BlockProposalData, BlockProposalPublish, SyncCommitteeData, SyncCommitteePublish, NoTimeCheck RestBeaconNodeFeature* {.pure.} = enum NoNimbusExtensions ## BN do not supports Nimbus Extensions TimeOffset* = object value: int64 BeaconNodeServer* = object client*: RestClientRef endpoint*: string config*: VCRuntimeConfig ident*: Opt[string] genesis*: Opt[RestGenesis] syncInfo*: Opt[RestSyncInfo] status*: RestBeaconNodeStatus features*: set[RestBeaconNodeFeature] roles*: set[BeaconNodeRole] logIdent*: string index*: int timeOffset*: Opt[TimeOffset] EpochSelectionProof* = object signatures*: array[SLOTS_PER_EPOCH.int, Opt[ValidatorSig]] sync_committee_index*: IndexInSyncCommittee SyncCommitteeSelectionProof* = seq[EpochSelectionProof] EpochDuties* = object duties*: Table[Epoch, DutyAndProof] SyncPeriodDuties* = object duties*: Table[SyncCommitteePeriod, SyncCommitteeDuty] SyncCommitteeProofs* = object proofs*: Table[ValidatorPubKey, SyncCommitteeSelectionProof] RestBeaconNodeStatus* {.pure.} = enum Offline, ## BN is offline. Online, ## BN is online, passed checkOnline() check. Incompatible, ## BN configuration is NOT compatible with VC. Compatible, ## BN configuration is compatible with VC configuration. NotSynced, ## BN is not in sync. OptSynced, ## BN is optimistically synced (EL is not in sync). Synced, ## BN and EL are synced. UnexpectedCode, ## BN sends unexpected/incorrect HTTP status code . UnexpectedResponse, ## BN sends unexpected/incorrect response. BrokenClock, ## BN wall clock is broken or has significan offset. InternalError ## BN reports internal error. BeaconNodesCounters* = object data*: array[int(high(RestBeaconNodeStatus)) + 1, int] BeaconNodeServerRef* = ref BeaconNodeServer AttesterMap* = Table[ValidatorPubKey, EpochDuties] SyncCommitteeDutiesMap* = Table[ValidatorPubKey, SyncPeriodDuties] ProposerMap* = Table[Epoch, ProposedData] SyncCommitteeProofsMap* = Table[Epoch, SyncCommitteeProofs] DoppelgangerStatus* {.pure.} = enum None, Checking, Passed DoppelgangerAttempt* {.pure.} = enum None, Failure, SuccessTrue, SuccessFalse BlockWaiter* = object future*: Future[seq[Eth2Digest]] count*: int BlockDataItem* = object blocks: seq[Eth2Digest] waiters*: seq[BlockWaiter] ValidatorRuntimeConfig* = object altairEpoch*: Opt[Epoch] ValidatorClient* = object config*: ValidatorClientConf runtimeConfig*: ValidatorRuntimeConfig metricsServer*: Opt[MetricsHttpServerRef] graffitiBytes*: GraffitiBytes beaconNodes*: seq[BeaconNodeServerRef] fallbackService*: FallbackServiceRef forkService*: ForkServiceRef dutiesService*: DutiesServiceRef attestationService*: AttestationServiceRef blockService*: BlockServiceRef syncCommitteeService*: SyncCommitteeServiceRef doppelgangerService*: DoppelgangerServiceRef runSlotLoopFut*: Future[void] runKeystoreCachePruningLoopFut*: Future[void] sigintHandleFut*: Future[void] sigtermHandleFut*: Future[void] keymanagerHost*: ref KeymanagerHost keymanagerServer*: RestServerRef keystoreCache*: KeystoreCacheRef beaconClock*: BeaconClock attachedValidators*: ref ValidatorPool forks*: seq[Fork] preGenesisEvent*: AsyncEvent genesisEvent*: AsyncEvent forksAvailable*: AsyncEvent nodesAvailable*: AsyncEvent indicesAvailable*: AsyncEvent doppelExit*: AsyncEvent attesters*: AttesterMap proposers*: ProposerMap syncCommitteeDuties*: SyncCommitteeDutiesMap syncCommitteeProofs*: SyncCommitteeProofsMap beaconGenesis*: RestGenesis proposerTasks*: Table[Slot, seq[ProposerTask]] dynamicFeeRecipientsStore*: ref DynamicFeeRecipientsStore validatorsRegCache*: Table[ValidatorPubKey, SignedValidatorRegistrationV1] blocksSeen*: Table[Slot, BlockDataItem] rootsSeen*: Table[Eth2Digest, Slot] processingDelay*: Opt[Duration] rng*: ref HmacDrbgContext ApiStrategyKind* {.pure.} = enum Priority, Best, First ApiFailure* {.pure.} = enum Communication, Invalid, NotFound, OptSynced, NotSynced, Internal, UnexpectedCode, UnexpectedResponse, NoError ApiNodeFailure* = object node*: BeaconNodeServerRef request*: string strategy*: Opt[ApiStrategyKind] failure*: ApiFailure status*: Opt[int] reason*: string ValidatorClientRef* = ref ValidatorClient ValidatorClientError* = object of CatchableError ValidatorApiError* = object of ValidatorClientError data*: seq[ApiNodeFailure] FillSignaturesResult* = object signaturesRequested*: int signaturesReceived*: int AttestationSlotRequest* = object validator*: AttachedValidator fork*: Fork slot*: Slot SyncCommitteeSlotRequest* = object validator*: AttachedValidator fork*: Fork slot*: Slot sync_committee_index*: IndexInSyncCommittee duty*: SyncCommitteeDuty const DefaultDutyAndProof* = DutyAndProof(epoch: FAR_FUTURE_EPOCH) DefaultSyncCommitteeDuty* = SyncCommitteeDuty() SlotDuration* = int64(SECONDS_PER_SLOT).seconds OneThirdDuration* = int64(SECONDS_PER_SLOT).seconds div INTERVALS_PER_SLOT AllBeaconNodeRoles* = { BeaconNodeRole.Duties, BeaconNodeRole.AttestationData, BeaconNodeRole.AttestationPublish, BeaconNodeRole.AggregatedData, BeaconNodeRole.AggregatedPublish, BeaconNodeRole.BlockProposalData, BeaconNodeRole.BlockProposalPublish, BeaconNodeRole.SyncCommitteeData, BeaconNodeRole.SyncCommitteePublish } ## AllBeaconNodeRoles missing BeaconNodeRole.NoTimeCheck, because timecheks ## are enabled by default. AllBeaconNodeStatuses* = { RestBeaconNodeStatus.Offline, RestBeaconNodeStatus.Online, RestBeaconNodeStatus.Incompatible, RestBeaconNodeStatus.Compatible, RestBeaconNodeStatus.NotSynced, RestBeaconNodeStatus.OptSynced, RestBeaconNodeStatus.Synced, RestBeaconNodeStatus.UnexpectedCode, RestBeaconNodeStatus.UnexpectedResponse, RestBeaconNodeStatus.BrokenClock, RestBeaconNodeStatus.InternalError } proc `$`*(to: TimeOffset): string = if to.value < 0: "-" & $chronos.nanoseconds(-to.value) else: $chronos.nanoseconds(to.value) chronicles.formatIt(TimeOffset): $it chronicles.formatIt(Opt[TimeOffset]): if it.isSome(): $(it.get()) else: "" proc `$`*(roles: set[BeaconNodeRole]): string = if card(roles) > 0: if roles != AllBeaconNodeRoles: var res: seq[string] if BeaconNodeRole.Duties in roles: res.add("duties") if BeaconNodeRole.AttestationData in roles: res.add("attestation-data") if BeaconNodeRole.AttestationPublish in roles: res.add("attestation-publish") if BeaconNodeRole.AggregatedData in roles: res.add("aggregated-data") if BeaconNodeRole.AggregatedPublish in roles: res.add("aggregated-publish") if BeaconNodeRole.BlockProposalData in roles: res.add("block-data") if BeaconNodeRole.BlockProposalPublish in roles: res.add("block-publish") if BeaconNodeRole.SyncCommitteeData in roles: res.add("sync-data") if BeaconNodeRole.SyncCommitteePublish in roles: res.add("sync-publish") if BeaconNodeRole.NoTimeCheck in roles: res.add("no-timecheck") res.join(",") else: "{all}" else: "{}" proc `$`*(status: RestBeaconNodeStatus): string = case status of RestBeaconNodeStatus.Offline: "offline" of RestBeaconNodeStatus.Online: "online" of RestBeaconNodeStatus.Incompatible: "incompatible" of RestBeaconNodeStatus.Compatible: "compatible" of RestBeaconNodeStatus.NotSynced: "bn-unsynced" of RestBeaconNodeStatus.OptSynced: "el-unsynced" of RestBeaconNodeStatus.Synced: "synced" of RestBeaconNodeStatus.UnexpectedCode: "unexpected code" of RestBeaconNodeStatus.UnexpectedResponse: "unexpected data" of RestBeaconNodeStatus.InternalError: "internal error" of RestBeaconNodeStatus.BrokenClock: "broken clock" proc `$`*(failure: ApiFailure): string = case failure of ApiFailure.Communication: "communication" of ApiFailure.Invalid: "invalid-request" of ApiFailure.NotFound: "not-found" of ApiFailure.NotSynced: "not-synced" of ApiFailure.OptSynced: "opt-synced" of ApiFailure.Internal: "internal-issue" of ApiFailure.UnexpectedCode: "unexpected-code" of ApiFailure.UnexpectedResponse: "unexpected-data" of ApiFailure.NoError: "status-update" proc getNodeCounts*(vc: ValidatorClientRef): BeaconNodesCounters = var res = BeaconNodesCounters() for node in vc.beaconNodes: inc(res.data[int(node.status)]) res proc hash*(f: ApiNodeFailure): Hash = hash(f.failure) proc toString*(strategy: ApiStrategyKind): string = case strategy of ApiStrategyKind.First: "first" of ApiStrategyKind.Best: "best" of ApiStrategyKind.Priority: "priority" func getFailureReason*(failure: ApiNodeFailure): string = let status = if failure.status.isSome(): Base10.toString(uint32(failure.status.get())) else: "n/a" let request = if failure.strategy.isSome(): failure.request & "(" & failure.strategy.get().toString() & ")" else: failure.request & "()" [failure.reason, status, request, $failure.failure].join(";") proc getFailureReason*(exc: ref ValidatorApiError): string = var counts: array[int(high(ApiFailure)) + 1, int] let errors = exc[].data errorsCount = len(errors) if errorsCount > 1: let distinctErrors = block: var res: seq[ApiNodeFailure] for item in errors.toHashSet().items(): res.add(item) res if len(distinctErrors) > 1: # If we have many unique errors, we going to report only failures, # full reasons could be obtained via previosly made log statements. "[" & distinctErrors.mapIt($it.failure).join(",") & "]" else: getFailureReason(distinctErrors[0]) elif errorsCount == 1: getFailureReason(errors[0]) else: exc.msg proc shortLog*(roles: set[BeaconNodeRole]): string = var r = "AGBSDT" if BeaconNodeRole.AttestationData in roles: if BeaconNodeRole.AttestationPublish in roles: r[0] = 'A' else: r[0] = 'a' else: if BeaconNodeRole.AttestationPublish in roles: r[0] = '+' else: r[0] = '-' if BeaconNodeRole.AggregatedData in roles: if BeaconNodeRole.AggregatedPublish in roles: r[1] = 'G' else: r[1] = 'g' else: if BeaconNodeRole.AggregatedPublish in roles: r[1] = '+' else: r[1] = '-' if BeaconNodeRole.BlockProposalData in roles: if BeaconNodeRole.BlockProposalPublish in roles: r[2] = 'B' else: r[2] = 'b' else: if BeaconNodeRole.BlockProposalPublish in roles: r[2] = '+' else: r[2] = '-' if BeaconNodeRole.SyncCommitteeData in roles: if BeaconNodeRole.SyncCommitteePublish in roles: r[3] = 'S' else: r[3] = 's' else: if BeaconNodeRole.SyncCommitteePublish in roles: r[3] = '+' else: r[3] = '-' if BeaconNodeRole.Duties in roles: r[4] = 'D' else: r[4] = '-' if BeaconNodeRole.NoTimeCheck notin roles: r[5] = 'T' else: r[5] = '-' r proc `$`*(bn: BeaconNodeServerRef): string = if bn.ident.isSome(): bn.logIdent & "[" & bn.ident.get() & "]" else: bn.logIdent proc validatorLog*(key: ValidatorPubKey, index: ValidatorIndex): string = var res = shortLog(key) res.add('@') res.add(Base10.toString(uint64(index))) res proc validatorLog*(validator: AttachedValidator): string = var res = shortLog(validator) res.add('@') if validator.index.isSome(): res.add(Base10.toString(uint64(validator.index.get()))) else: res.add("") res chronicles.expandIt(BeaconNodeServerRef): node = $it node_index = it.index node_roles = shortLog(it.roles) chronicles.expandIt(RestAttesterDuty): pubkey = shortLog(it.pubkey) slot = it.slot validator_index = it.validator_index committee_index = it.committee_index committee_length = it.committee_length committees_at_slot = it.committees_at_slot validator_committee_index = it.validator_committee_index chronicles.expandIt(SyncCommitteeDuty): pubkey = shortLog(it.pubkey) validator_index = it.validator_index validator_sync_committee_indices = it.validator_sync_committee_indices proc equals*(info: VCRuntimeConfig, name: string, check: uint64): bool = let numstr = info.getOrDefault(name, "missing") if numstr == "missing": return false let value = Base10.decode(uint64, numstr).valueOr: return false value == check proc equals*(info: VCRuntimeConfig, name: string, check: DomainType): bool = let domstr = info.getOrDefault(name, "missing") if domstr == "missing": return false let value = try: var dres: DomainType hexToByteArray(domstr, distinctBase(dres)) dres except ValueError: return false value == check proc equals*(info: VCRuntimeConfig, name: string, check: Epoch): bool = info.equals(name, uint64(check)) proc getOrDefault*(info: VCRuntimeConfig, name: string, default: uint64): uint64 = let numstr = info.getOrDefault(name, "missing") if numstr == "missing": return default Base10.decode(uint64, numstr).valueOr: return default proc getOrDefault*(info: VCRuntimeConfig, name: string, default: Epoch): Epoch = Epoch(info.getOrDefault(name, uint64(default))) proc checkConfig*(c: VCRuntimeConfig): bool = c.equals("MAX_VALIDATORS_PER_COMMITTEE", MAX_VALIDATORS_PER_COMMITTEE) and c.equals("SLOTS_PER_EPOCH", SLOTS_PER_EPOCH) and c.equals("SECONDS_PER_SLOT", SECONDS_PER_SLOT) and c.equals("EPOCHS_PER_ETH1_VOTING_PERIOD", EPOCHS_PER_ETH1_VOTING_PERIOD) and c.equals("SLOTS_PER_HISTORICAL_ROOT", SLOTS_PER_HISTORICAL_ROOT) and c.equals("EPOCHS_PER_HISTORICAL_VECTOR", EPOCHS_PER_HISTORICAL_VECTOR) and c.equals("EPOCHS_PER_SLASHINGS_VECTOR", EPOCHS_PER_SLASHINGS_VECTOR) and c.equals("HISTORICAL_ROOTS_LIMIT", HISTORICAL_ROOTS_LIMIT) and c.equals("VALIDATOR_REGISTRY_LIMIT", VALIDATOR_REGISTRY_LIMIT) and c.equals("MAX_PROPOSER_SLASHINGS", MAX_PROPOSER_SLASHINGS) and c.equals("MAX_ATTESTER_SLASHINGS", MAX_ATTESTER_SLASHINGS) and c.equals("MAX_ATTESTATIONS", MAX_ATTESTATIONS) and c.equals("MAX_DEPOSITS", MAX_DEPOSITS) and c.equals("MAX_VOLUNTARY_EXITS", MAX_VOLUNTARY_EXITS) and c.equals("DOMAIN_BEACON_PROPOSER", DOMAIN_BEACON_PROPOSER) and c.equals("DOMAIN_BEACON_ATTESTER", DOMAIN_BEACON_ATTESTER) and c.equals("DOMAIN_RANDAO", DOMAIN_RANDAO) and c.equals("DOMAIN_DEPOSIT", DOMAIN_DEPOSIT) and c.equals("DOMAIN_VOLUNTARY_EXIT", DOMAIN_VOLUNTARY_EXIT) and c.equals("DOMAIN_SELECTION_PROOF", DOMAIN_SELECTION_PROOF) and c.equals("DOMAIN_AGGREGATE_AND_PROOF", DOMAIN_AGGREGATE_AND_PROOF) and c.hasKey("ALTAIR_FORK_VERSION") and c.hasKey("ALTAIR_FORK_EPOCH") and not(c.equals("ALTAIR_FORK_EPOCH", FAR_FUTURE_EPOCH)) proc updateStatus*(node: BeaconNodeServerRef, status: RestBeaconNodeStatus, failure: ApiNodeFailure) = logScope: node = node case status of RestBeaconNodeStatus.Offline: if node.status != status: warn "Beacon node down", reason = failure.getFailureReason() node.status = status of RestBeaconNodeStatus.Online: if node.status != status: let version = if node.ident.isSome(): node.ident.get() else: "" notice "Beacon node is online", agent_version = version node.status = status of RestBeaconNodeStatus.Incompatible: if node.status != status: warn "Beacon node has incompatible configuration", reason = failure.getFailureReason() node.status = status of RestBeaconNodeStatus.Compatible: if node.status != status: notice "Beacon node is compatible" node.status = status of RestBeaconNodeStatus.NotSynced: if node.status notin {RestBeaconNodeStatus.NotSynced, RestBeaconNodeStatus.OptSynced}: doAssert(node.syncInfo.isSome()) let si = node.syncInfo.get() warn "Beacon node not in sync", reason = failure.getFailureReason(), last_head_slot = si.head_slot, last_sync_distance = si.sync_distance, last_optimistic = si.is_optimistic.get(false) node.status = status of RestBeaconNodeStatus.OptSynced: if node.status != status: doAssert(node.syncInfo.isSome()) let si = node.syncInfo.get() notice "Beacon node optimistically synced (Execution client not in sync)", reason = failure.getFailureReason(), last_head_slot = si.head_slot, last_sync_distance = si.sync_distance, last_optimistic = si.is_optimistic.get(false) node.status = status of RestBeaconNodeStatus.Synced: if node.status != status: doAssert(node.syncInfo.isSome()) let si = node.syncInfo.get() notice "Beacon node is in sync", head_slot = si.head_slot, sync_distance = si.sync_distance, is_optimistic = si.is_optimistic.get(false) node.status = status of RestBeaconNodeStatus.UnexpectedResponse: if node.status != status: error "Beacon node provides unexpected response", reason = failure.getFailureReason() node.status = status of RestBeaconNodeStatus.UnexpectedCode: if node.status != status: error "Beacon node provides unexpected status code", reason = failure.getFailureReason() node.status = status of RestBeaconNodeStatus.InternalError: if node.status != status: warn "Beacon node reports internal error", reason = failure.getFailureReason() node.status = status of RestBeaconNodeStatus.BrokenClock: if node.status != status: warn "Beacon node's clock is out of order, (beacon node is unusable)" node.status = status proc stop*(csr: ClientServiceRef) {.async.} = debug "Stopping service", service = csr.name if csr.state == ServiceState.Running: csr.state = ServiceState.Closing if not(csr.lifeFut.finished()): await csr.lifeFut.cancelAndWait() csr.state = ServiceState.Closed debug "Service stopped", service = csr.name proc isDefault*(dap: DutyAndProof): bool = dap.epoch == FAR_FUTURE_EPOCH proc isDefault*(prd: ProposedData): bool = prd.epoch == FAR_FUTURE_EPOCH proc isDefault*(scd: SyncCommitteeDuty): bool = len(scd.validator_sync_committee_indices) == 0 proc parseRoles*(data: string): Result[set[BeaconNodeRole], cstring] = var res: set[BeaconNodeRole] if len(data) == 0: return ok(AllBeaconNodeRoles) let parts = data.split("roles=") if (len(parts) != 2) or (len(parts[0]) != 0): return err("Invalid beacon node roles string") let sroles = parts[1].split(",") for srole in sroles: case toLower(strip(srole)) of "": discard of "all": res.incl(AllBeaconNodeRoles) of "attestation": res.incl({BeaconNodeRole.AttestationData, BeaconNodeRole.AttestationPublish}) of "block": res.incl({BeaconNodeRole.BlockProposalData, BeaconNodeRole.BlockProposalPublish}) of "aggregated": res.incl({BeaconNodeRole.AggregatedData, BeaconNodeRole.AggregatedPublish}) of "sync": res.incl({BeaconNodeRole.SyncCommitteeData, BeaconNodeRole.SyncCommitteePublish}) of "attestation-data": res.incl(BeaconNodeRole.AttestationData) of "attestation-publish": res.incl(BeaconNodeRole.AttestationPublish) of "aggregated-data": res.incl(BeaconNodeRole.AggregatedData) of "aggregated-publish": res.incl(BeaconNodeRole.AggregatedPublish) of "block-data": res.incl(BeaconNodeRole.BlockProposalData) of "block-publish": res.incl(BeaconNodeRole.BlockProposalPublish) of "sync-data": res.incl(BeaconNodeRole.SyncCommitteeData) of "sync-publish": res.incl(BeaconNodeRole.SyncCommitteePublish) of "duties": res.incl(BeaconNodeRole.Duties) of "no-timecheck": res.incl(BeaconNodeRole.NoTimeCheck) else: return err("Invalid beacon node role string found") if res == {BeaconNodeRole.NoTimeCheck}: res.incl(AllBeaconNodeRoles) ok(res) proc normalizeUri*(r: Uri): Result[Uri, cstring] = const MissingPortNumber = cstring("Missing port number") MissingHostname = cstring("Missing hostname") UnknownScheme = cstring("Unknown scheme value") if ($r).toLowerAscii().startsWith("http://") or ($r).toLowerAscii().startsWith("https://"): # When a scheme is provided, only a hostname is required if len(r.hostname) == 0: return err(MissingHostname) return ok(r) # Check for unknown scheme if ($r).contains("://"): return err(UnknownScheme) # Add the default scheme (http) let normalized = if ($r).startsWith("//"): parseUri("http:" & $r) else: parseUri("http://" & $r) if len(normalized.hostname) == 0: return err(MissingHostname) if len(normalized.port) == 0: return err(MissingPortNumber) ok(normalized) proc init*(t: typedesc[BeaconNodeServerRef], remote: Uri, index: int): Result[BeaconNodeServerRef, string] = doAssert(index >= 0) let flags = {RestClientFlag.CommaSeparatedArray} socketFlags = {SocketFlags.TcpNoDelay} remoteUri = normalizeUri(remote).valueOr: return err($error) client = RestClientRef.new($remoteUri, flags = flags, socketFlags = socketFlags).valueOr: return err($error) roles = parseRoles(remoteUri.anchor).valueOr: return err($error) let server = BeaconNodeServerRef( client: client, endpoint: $remoteUri, index: index, roles: roles, logIdent: $client.address.getUri(), status: RestBeaconNodeStatus.Offline ) ok(server) proc getMissingRoles*(n: openArray[BeaconNodeServerRef]): set[BeaconNodeRole] = var res: set[BeaconNodeRole] = AllBeaconNodeRoles for node in n.items(): res.excl(node.roles) res proc init*(t: typedesc[DutyAndProof], epoch: Epoch, dependentRoot: Eth2Digest, duty: RestAttesterDuty, slotSig: Opt[ValidatorSig]): DutyAndProof = DutyAndProof(epoch: epoch, dependentRoot: dependentRoot, data: duty, slotSig: slotSig) proc init*(t: typedesc[ProposedData], epoch: Epoch, dependentRoot: Eth2Digest, data: openArray[ProposerTask]): ProposedData = ProposedData(epoch: epoch, dependentRoot: dependentRoot, duties: @data) proc getCurrentSlot*(vc: ValidatorClientRef): Opt[Slot] = let res = vc.beaconClock.now().toSlot() if res.afterGenesis: Opt.some(res.slot) else: Opt.none(Slot) proc getAttesterDutiesForSlot*(vc: ValidatorClientRef, slot: Slot): seq[DutyAndProof] = ## Returns all `DutyAndProof` for the given `slot`. var res: seq[DutyAndProof] let epoch = slot.epoch() for key, item in mpairs(vc.attesters): item.duties.withValue(epoch, duty): if duty[].data.slot == slot: res.add(duty[]) res proc getSyncCommitteeDutiesForSlot*(vc: ValidatorClientRef, slot: Slot): seq[SyncCommitteeDuty] = ## Returns all `SyncCommitteeDuty` for the given `slot`. var res: seq[SyncCommitteeDuty] let period = slot.sync_committee_period() for key, item in mpairs(vc.syncCommitteeDuties): item.duties.withValue(period, duty): res.add(duty[]) res proc getDurationToNextAttestation*(vc: ValidatorClientRef, slot: Slot): string = var minSlot = FAR_FUTURE_SLOT let currentEpoch = slot.epoch() for epoch in [currentEpoch, currentEpoch + 1'u64]: for key, item in vc.attesters: let duty = item.duties.getOrDefault(epoch, DefaultDutyAndProof) if not(duty.isDefault()): let dutySlotTime = duty.data.slot if (duty.data.slot < minSlot) and (duty.data.slot >= slot): minSlot = duty.data.slot if minSlot != FAR_FUTURE_SLOT: break if minSlot == FAR_FUTURE_SLOT: "" else: $(minSlot.attestation_deadline() - slot.start_beacon_time()) proc getDurationToNextBlock*(vc: ValidatorClientRef, slot: Slot): string = var minSlot = FAR_FUTURE_SLOT let currentEpoch = slot.epoch() for epoch in [currentEpoch, currentEpoch + 1'u64]: let data = vc.proposers.getOrDefault(epoch) if not(data.isDefault()): for item in data.duties: if item.duty.pubkey in vc.attachedValidators[]: if (item.duty.slot < minSlot) and (item.duty.slot >= slot): minSlot = item.duty.slot if minSlot != FAR_FUTURE_SLOT: break if minSlot == FAR_FUTURE_SLOT: "" else: $(minSlot.block_deadline() - slot.start_beacon_time()) iterator attesterDutiesForEpoch*(vc: ValidatorClientRef, epoch: Epoch): DutyAndProof = for key, item in vc.attesters: let epochDuties = item.duties.getOrDefault(epoch) if not(isDefault(epochDuties)): yield epochDuties iterator syncDutiesForPeriod*(vc: ValidatorClientRef, period: SyncCommitteePeriod): SyncCommitteeDuty = for key, item in vc.syncCommitteeDuties: let periodDuties = item.duties.getOrDefault(period) if not(isDefault(periodDuties)): yield periodDuties proc syncMembersSubscriptionInfoForPeriod*( vc: ValidatorClientRef, period: SyncCommitteePeriod ): seq[SyncCommitteeSubscriptionInfo] = var res: seq[SyncCommitteeSubscriptionInfo] for key, item in mpairs(vc.syncCommitteeDuties): var cur: SyncCommitteeSubscriptionInfo var initialized = false item.duties.withValue(period, periodDuties): if not(initialized): cur.validator_index = periodDuties[].validator_index initialized = true cur.validator_sync_committee_indices.add( periodDuties[].validator_sync_committee_indices) if initialized: res.add(cur) res proc getDelay*(vc: ValidatorClientRef, deadline: BeaconTime): TimeDiff = vc.beaconClock.now() - deadline proc getValidatorForDuties*(vc: ValidatorClientRef, key: ValidatorPubKey, slot: Slot, slashingSafe = false): Opt[AttachedValidator] = vc.attachedValidators[].getValidatorForDuties(key, slot, slashingSafe) proc forkAtEpoch*(vc: ValidatorClientRef, epoch: Epoch): Fork = # If schedule is present, it MUST not be empty. doAssert(len(vc.forks) > 0) var res: Fork for item in vc.forks: if item.epoch <= epoch: res = item else: break res proc getSubcommitteeIndex*(index: IndexInSyncCommittee): SyncSubcommitteeIndex = SyncSubcommitteeIndex(uint16(index) div SYNC_SUBCOMMITTEE_SIZE) proc currentSlot*(vc: ValidatorClientRef): Slot = vc.beaconClock.now().slotOrZero() proc addValidator*(vc: ValidatorClientRef, keystore: KeystoreData) = let slot = vc.currentSlot() withdrawalAddress = if vc.keymanagerHost.isNil: Opt.none Eth1Address else: vc.keymanagerHost[].getValidatorWithdrawalAddress(keystore.pubkey) perValidatorDefaultFeeRecipient = getPerValidatorDefaultFeeRecipient( vc.config.defaultFeeRecipient, withdrawalAddress) feeRecipient = vc.config.validatorsDir.getSuggestedFeeRecipient( keystore.pubkey, perValidatorDefaultFeeRecipient).valueOr( perValidatorDefaultFeeRecipient) gasLimit = vc.config.validatorsDir.getSuggestedGasLimit( keystore.pubkey, vc.config.suggestedGasLimit).valueOr( vc.config.suggestedGasLimit) discard vc.attachedValidators[].addValidator(keystore, feeRecipient, gasLimit) proc removeValidator*(vc: ValidatorClientRef, pubkey: ValidatorPubKey) {.async.} = let validator = vc.attachedValidators[].getValidator(pubkey).valueOr: return # Remove validator from ValidatorPool. vc.attachedValidators[].removeValidator(pubkey) case validator.kind of ValidatorKind.Local: discard of ValidatorKind.Remote: # We must close all the REST clients running for the remote validator. let pending = block: var res: seq[Future[void]] for item in validator.clients: res.add(item[0].closeWait()) res await allFutures(pending) proc getFeeRecipient*(vc: ValidatorClientRef, pubkey: ValidatorPubKey, validatorIdx: ValidatorIndex, epoch: Epoch): Opt[Eth1Address] = let dynamicRecipient = vc.dynamicFeeRecipientsStore[].getDynamicFeeRecipient( validatorIdx, epoch) if dynamicRecipient.isSome(): Opt.some(dynamicRecipient.get()) else: let withdrawalAddress = if vc.keymanagerHost.isNil: Opt.none Eth1Address else: vc.keymanagerHost[].getValidatorWithdrawalAddress(pubkey) perValidatorDefaultFeeRecipient = getPerValidatorDefaultFeeRecipient( vc.config.defaultFeeRecipient, withdrawalAddress) staticRecipient = getSuggestedFeeRecipient( vc.config.validatorsDir, pubkey, perValidatorDefaultFeeRecipient) if staticRecipient.isOk(): Opt.some(staticRecipient.get()) else: Opt.none(Eth1Address) proc getGasLimit*(vc: ValidatorClientRef, pubkey: ValidatorPubKey): uint64 = getSuggestedGasLimit( vc.config.validatorsDir, pubkey, vc.config.suggestedGasLimit).valueOr: vc.config.suggestedGasLimit proc prepareProposersList*(vc: ValidatorClientRef, epoch: Epoch): seq[PrepareBeaconProposer] = var res: seq[PrepareBeaconProposer] for validator in vc.attachedValidators[].items(): if validator.index.isSome(): let index = validator.index.get() feeRecipient = vc.getFeeRecipient(validator.pubkey, index, epoch) if feeRecipient.isSome(): res.add(PrepareBeaconProposer(validator_index: index, fee_recipient: feeRecipient.get())) res proc isDefault*(reg: SignedValidatorRegistrationV1): bool = (reg.message.timestamp == 0'u64) or (reg.message.gas_limit == 0'u64) proc isExpired*(vc: ValidatorClientRef, reg: SignedValidatorRegistrationV1, slot: Slot): bool = let regTime = fromUnix(int64(reg.message.timestamp)) regSlot = block: let res = vc.beaconClock.toSlot(regTime) if not(res.afterGenesis): # This case should not be happend, but it could in case of time jumps # (time could be modified by admin or ntpd). return false uint64(res.slot) if regSlot > slot: # This case should not be happened, but if it happens (time could be # modified by admin or ntpd). false else: if (slot - regSlot) div SLOTS_PER_EPOCH >= EPOCHS_BETWEEN_VALIDATOR_REGISTRATION: false else: true proc getValidatorRegistration( vc: ValidatorClientRef, validator: AttachedValidator, timestamp: Time, fork: Fork ): Result[PendingValidatorRegistration, RegistrationKind] = if validator.index.isNone(): debug "Validator registration missing validator index", validator = shortLog(validator) return err(RegistrationKind.MissingIndex) let vindex = validator.index.get() cached = vc.validatorsRegCache.getOrDefault(validator.pubkey) currentSlot = block: let res = vc.beaconClock.toSlot(timestamp) if not(res.afterGenesis): return err(RegistrationKind.IncorrectTime) res.slot if cached.isDefault() or vc.isExpired(cached, currentSlot): let feeRecipient = vc.getFeeRecipient(validator.pubkey, vindex, currentSlot.epoch()) if feeRecipient.isNone(): debug "Could not get fee recipient for registration data", validator = shortLog(validator) return err(RegistrationKind.MissingFee) let gasLimit = vc.getGasLimit(validator.pubkey) var registration = SignedValidatorRegistrationV1( message: ValidatorRegistrationV1( fee_recipient: ExecutionAddress(data: distinctBase(feeRecipient.get())), gas_limit: gasLimit, timestamp: uint64(timestamp.toUnix()), pubkey: validator.pubkey ) ) let sigfut = validator.getBuilderSignature(fork, registration.message) if sigfut.finished(): # This is short-path if we able to create signature locally. if not(sigfut.completed()): let exc = sigfut.readError() debug "Got unexpected exception while signing validator registration", validator = shortLog(validator), error_name = $exc.name, error_msg = $exc.msg return err(RegistrationKind.ErrorSignature) let sigres = sigfut.read() if sigres.isErr(): debug "Failed to get signature for validator registration", validator = shortLog(validator), error = sigres.error() return err(RegistrationKind.NoSignature) registration.signature = sigres.get() # Updating cache table with new signed registration data vc.validatorsRegCache[registration.message.pubkey] = registration ok(PendingValidatorRegistration(registration: registration, future: nil)) else: # Remote signature service involved, cache will be updated later. ok(PendingValidatorRegistration(registration: registration, future: sigfut)) else: # Returning cached result. err(RegistrationKind.Cached) proc prepareRegistrationList*( vc: ValidatorClientRef, timestamp: Time, fork: Fork ): Future[seq[SignedValidatorRegistrationV1]] {.async.} = var messages: seq[SignedValidatorRegistrationV1] futures: seq[Future[SignatureResult]] registrations: seq[SignedValidatorRegistrationV1] total = vc.attachedValidators[].count() succeed = 0 bad = 0 errors = 0 indexMissing = 0 feeMissing = 0 gasLimit = 0 cached = 0 timed = 0 for validator in vc.attachedValidators[].items(): let res = vc.getValidatorRegistration(validator, timestamp, fork) if res.isOk(): let preg = res.get() if preg.future.isNil(): registrations.add(preg.registration) else: messages.add(preg.registration) futures.add(preg.future) else: case res.error() of RegistrationKind.Cached: inc(cached) of RegistrationKind.IncorrectTime: inc(timed) of RegistrationKind.NoSignature: inc(bad) of RegistrationKind.ErrorSignature: inc(errors) of RegistrationKind.MissingIndex: inc(indexMissing) of RegistrationKind.MissingFee: inc(feeMissing) of RegistrationKind.MissingGasLimit: inc(gasLimit) succeed = len(registrations) if len(futures) > 0: await allFutures(futures) for index, future in futures.pairs(): if future.completed(): let sres = future.read() if sres.isOk(): var reg = messages[index] reg.signature = sres.get() registrations.add(reg) # Updating cache table vc.validatorsRegCache[reg.message.pubkey] = reg inc(succeed) else: inc(bad) else: inc(errors) debug "Validator registrations prepared", total = total, succeed = succeed, cached = cached, bad = bad, errors = errors, index_missing = indexMissing, fee_missing = feeMissing, incorrect_time = timed return registrations func init*(t: typedesc[ApiNodeFailure], failure: ApiFailure, request: string, strategy: ApiStrategyKind, node: BeaconNodeServerRef): ApiNodeFailure = ApiNodeFailure(node: node, request: request, strategy: Opt.some(strategy), failure: failure) func init*(t: typedesc[ApiNodeFailure], failure: ApiFailure, request: string, strategy: ApiStrategyKind, node: BeaconNodeServerRef, reason: string): ApiNodeFailure = ApiNodeFailure(node: node, request: request, strategy: Opt.some(strategy), failure: failure, reason: reason) func init*(t: typedesc[ApiNodeFailure], failure: ApiFailure, request: string, strategy: ApiStrategyKind, node: BeaconNodeServerRef, status: int, reason: string): ApiNodeFailure = ApiNodeFailure(node: node, request: request, strategy: Opt.some(strategy), failure: failure, status: Opt.some(status), reason: reason) func init*(t: typedesc[ApiNodeFailure], failure: ApiFailure, request: string, node: BeaconNodeServerRef, status: int, reason: string): ApiNodeFailure = ApiNodeFailure(node: node, request: request, failure: failure, status: Opt.some(status), reason: reason) func init*(t: typedesc[ApiNodeFailure], failure: ApiFailure, request: string, node: BeaconNodeServerRef, reason: string): ApiNodeFailure = ApiNodeFailure(node: node, request: request, failure: failure, reason: reason) proc checkedWaitForSlot*(vc: ValidatorClientRef, destinationSlot: Slot, offset: TimeDiff, showLogs: bool): Future[Opt[Slot]] {.async.} = let currentTime = vc.beaconClock.now() currentSlot = currentTime.slotOrZero() chronosOffset = chronos.nanoseconds( if offset.nanoseconds < 0: 0'i64 else: offset.nanoseconds) var timeToSlot = (destinationSlot.start_beacon_time() - currentTime) + chronosOffset logScope: start_time = shortLog(currentTime) start_slot = shortLog(currentSlot) dest_slot = shortLog(destinationSlot) time_to_slot = shortLog(timeToSlot) while true: await sleepAsync(timeToSlot) let wallTime = vc.beaconClock.now() wallSlot = wallTime.slotOrZero() logScope: wall_time = shortLog(wallTime) wall_slot = shortLog(wallSlot) if wallSlot < destinationSlot: # While we were sleeping, the system clock changed and time moved # backwards! if wallSlot + 1 < destinationSlot: # This is a critical condition where it's hard to reason about what # to do next - we'll call the attention of the user here by shutting # down. if showLogs: fatal "System time adjusted backwards significantly - " & "clock may be inaccurate - shutting down" return Opt.none(Slot) else: # Time moved back by a single slot - this could be a minor adjustment, # for example when NTP does its thing after not working for a while timeToSlot = destinationSlot.start_beacon_time() - wallTime + chronosOffset if showLogs: warn "System time adjusted backwards, rescheduling slot actions" continue elif wallSlot > destinationSlot + SLOTS_PER_EPOCH: if showLogs: warn "Time moved forwards by more than an epoch, skipping ahead" return Opt.some(wallSlot) elif wallSlot > destinationSlot: if showLogs: notice "Missed expected slot start, catching up" return Opt.some(wallSlot) else: return Opt.some(destinationSlot) proc checkedWaitForNextSlot*(vc: ValidatorClientRef, curSlot: Opt[Slot], offset: TimeDiff, showLogs: bool): Future[Opt[Slot]] = let currentTime = vc.beaconClock.now() currentSlot = curSlot.valueOr: currentTime.slotOrZero() nextSlot = currentSlot + 1 vc.checkedWaitForSlot(nextSlot, offset, showLogs) proc checkedWaitForNextSlot*(vc: ValidatorClientRef, offset: TimeDiff, showLogs: bool): Future[Opt[Slot]] = let currentTime = vc.beaconClock.now() currentSlot = currentTime.slotOrZero() nextSlot = currentSlot + 1 vc.checkedWaitForSlot(nextSlot, offset, showLogs) proc expectBlock*(vc: ValidatorClientRef, slot: Slot, confirmations: int = 1): Future[seq[Eth2Digest]] = var retFuture = newFuture[seq[Eth2Digest]]("expectBlock") waiter = BlockWaiter(future: retFuture, count: confirmations) proc cancellation(udata: pointer) = vc.blocksSeen.withValue(slot, adata): adata[].waiters.keepItIf(it.future != retFuture) proc scheduleCallbacks(data: var BlockDataItem, waiter: BlockWaiter) = data.waiters.add(waiter) for mitem in data.waiters.mitems(): if mitem.count <= len(data.blocks): if not(mitem.future.finished()): mitem.future.complete(data.blocks) vc.blocksSeen.mgetOrPut(slot, BlockDataItem()).scheduleCallbacks(waiter) if not(retFuture.finished()): retFuture.cancelCallback = cancellation retFuture proc registerBlock*(vc: ValidatorClientRef, eblck: EventBeaconBlockObject, node: BeaconNodeServerRef) = let wallTime = vc.beaconClock.now() delay = wallTime - eblck.slot.start_beacon_time() debug "Block received", slot = eblck.slot, block_root = shortLog(eblck.block_root), optimistic = eblck.optimistic, node = node, delay = delay proc scheduleCallbacks(data: var BlockDataItem, blck: EventBeaconBlockObject) = vc.rootsSeen[blck.block_root] = blck.slot data.blocks.add(blck.block_root) for mitem in data.waiters.mitems(): if mitem.count >= len(data.blocks): if not(mitem.future.finished()): mitem.future.complete(data.blocks) vc.blocksSeen.mgetOrPut(eblck.slot, BlockDataItem()).scheduleCallbacks(eblck) proc pruneBlocksSeen*(vc: ValidatorClientRef, epoch: Epoch) = var blocksSeen: Table[Slot, BlockDataItem] for slot, item in vc.blocksSeen.pairs(): if (slot.epoch() + HISTORICAL_DUTIES_EPOCHS) >= epoch: blocksSeen[slot] = item else: for root in item.blocks: vc.rootsSeen.del(root) let blockRoot = if len(item.blocks) == 0: "" elif len(item.blocks) == 1: shortLog(item.blocks[0]) else: "[" & item.blocks.mapIt(shortLog(it)).join(", ") & "]" debug "Block data has been pruned", slot = slot, blocks = blockRoot vc.blocksSeen = blocksSeen proc waitForBlock*( vc: ValidatorClientRef, slot: Slot, timediff: TimeDiff, confirmations: int = 1 ) {.async.} = ## This procedure will wait for a block proposal for a ``slot`` received ## by the beacon node. let startTime = Moment.now() waitTime = (start_beacon_time(slot) + timediff) - vc.beaconClock.now() logScope: slot = slot timediff = timediff wait_time = waitTime debug "Waiting for block proposal" if waitTime.nanoseconds <= 0'i64: # We do not have time to wait for block. return let blocks = try: let timeout = nanoseconds(waitTime.nanoseconds) await vc.expectBlock(slot, confirmations).wait(timeout) except AsyncTimeoutError: let dur = Moment.now() - startTime debug "Block has not been received in time", duration = dur return except CancelledError as exc: let dur = Moment.now() - startTime debug "Block awaiting was interrupted", duration = dur raise exc except CatchableError as exc: let dur = Moment.now() - startTime error "Unexpected error occured while waiting for block publication", err_name = exc.name, err_msg = exc.msg, duration = dur return let dur = Moment.now() - startTime blockRoot = if len(blocks) == 0: "" elif len(blocks) == 1: shortLog(blocks[0]) else: "[" & blocks.mapIt(shortLog(it)).join(", ") & "]" debug "Block proposal awaited", duration = dur, block_root = blockRoot try: await waitAfterBlockCutoff(vc.beaconClock, slot) except CancelledError as exc: let dur = Moment.now() - startTime debug "Waiting for block cutoff was interrupted", duration = dur raise exc iterator chunks*[T](data: openArray[T], maxCount: Positive): seq[T] = for i in countup(0, len(data) - 1, maxCount): yield @(data.toOpenArray(i, min(i + maxCount, len(data)) - 1)) func init*(t: typedesc[TimeOffset], duration: Duration): TimeOffset = TimeOffset(value: duration.nanoseconds) func init*(t: typedesc[TimeOffset], offset: int64): TimeOffset = TimeOffset(value: offset) func abs*(to: TimeOffset): TimeOffset = TimeOffset(value: abs(to.value)) func milliseconds*(to: TimeOffset): int64 = if to.value < 0: -nanoseconds(-to.value).milliseconds else: nanoseconds(-to.value).milliseconds func `<`*(a, b: TimeOffset): bool = a.value < b.value func `<=`*(a, b: TimeOffset): bool = a.value <= b.value func `==`*(a, b: TimeOffset): bool = a.value == b.value func nanoseconds*(to: TimeOffset): int64 = to.value proc waitForNextEpoch*(service: ClientServiceRef, delay: Duration) {.async.} = let vc = service.client sleepTime = vc.beaconClock.durationToNextEpoch() + delay debug "Sleeping until next epoch", service = service.name, sleep_time = sleepTime, delay = delay await sleepAsync(sleepTime) proc waitForNextEpoch*(service: ClientServiceRef): Future[void] = waitForNextEpoch(service, ZeroDuration) proc waitForNextSlot*(service: ClientServiceRef) {.async.} = let vc = service.client let sleepTime = vc.beaconClock.durationToNextSlot() await sleepAsync(sleepTime) func compareUnsorted*[T](a, b: openArray[T]): bool = if len(a) != len(b): return false return case len(a) of 0: true of 1: a[0] == b[0] of 2: ((a[0] == b[0]) and (a[1] == b[1])) or ((a[0] == b[1]) and (a[1] == b[0])) else: let asorted = sorted(a) let bsorted = sorted(b) for index, item in asorted.pairs(): if item != bsorted[index]: return false true func `==`*(a, b: SyncCommitteeDuty): bool = (a.pubkey == b.pubkey) and (a.validator_index == b.validator_index) and compareUnsorted(a.validator_sync_committee_indices, b.validator_sync_committee_indices) proc cmp(x, y: AttestationSlotRequest|SyncCommitteeSlotRequest): int = cmp(x.slot, y.slot) func getIndex*(proof: SyncCommitteeSelectionProof, inindex: IndexInSyncCommittee): Opt[int] = if len(proof) == 0: return Opt.none(int) for index, value in proof.pairs(): if value.sync_committee_index == inindex: return Opt.some(index) Opt.none(int) func hasSignature*(proof: SyncCommitteeSelectionProof, inindex: IndexInSyncCommittee, slot: Slot): bool = let index = proof.getIndex(inindex).valueOr: return false proof[index].signatures[int(slot.since_epoch_start())].isSome() proc setSignature*(proof: var SyncCommitteeSelectionProof, inindex: IndexInSyncCommittee, slot: Slot, signature: Opt[ValidatorSig]) = let index = proof.getIndex(inindex).expect( "EpochSelectionProof should be present at this moment") proof[index].signatures[int(slot.since_epoch_start())] = signature proc setSyncSelectionProof*(vc: ValidatorClientRef, pubkey: ValidatorPubKey, inindex: IndexInSyncCommittee, slot: Slot, duty: SyncCommitteeDuty, signature: Opt[ValidatorSig]) = let proof = block: let length = len(duty.validator_sync_committee_indices) var res = newSeq[EpochSelectionProof](length) for i in 0 ..< length: res[i].sync_committee_index = duty.validator_sync_committee_indices[i] res vc.syncCommitteeProofs. mgetOrPut(slot.epoch(), default(SyncCommitteeProofs)).proofs. mgetOrPut(pubkey, proof).setSignature(inindex, slot, signature) proc getSyncCommitteeSelectionProof*( vc: ValidatorClientRef, pubkey: ValidatorPubKey, epoch: Epoch ): Opt[SyncCommitteeSelectionProof] = vc.syncCommitteeProofs.withValue(epoch, epochProofs): epochProofs[].proofs.withValue(pubkey, validatorProofs): return Opt.some(validatorProofs[]) do: return Opt.none(SyncCommitteeSelectionProof) do: return Opt.none(SyncCommitteeSelectionProof) proc getSyncCommitteeSelectionProof*( vc: ValidatorClientRef, pubkey: ValidatorPubKey, slot: Slot, inindex: IndexInSyncCommittee ): Opt[ValidatorSig] = vc.syncCommitteeProofs.withValue(slot.epoch(), epochProofs): epochProofs[].proofs.withValue(pubkey, validatorProofs): let index = getIndex(validatorProofs[], inindex).valueOr: return Opt.none(ValidatorSig) return validatorProofs[][index].signatures[int(slot.since_epoch_start())] do: return Opt.none(ValidatorSig) do: return Opt.none(ValidatorSig) proc fillSyncCommitteeSelectionProofs*( service: DutiesServiceRef, start, finish: Slot ): Future[FillSignaturesResult] {.async.} = let vc = service.client genesisRoot = vc.beaconGenesis.genesis_validators_root var requests = block: var res: seq[SyncCommitteeSlotRequest] for epoch in start.epoch() .. finish.epoch(): let fork = vc.forkAtEpoch(epoch) period = epoch.sync_committee_period() for duty in vc.syncDutiesForPeriod(period): let validator = vc.attachedValidators[]. getValidator(duty.pubkey).valueOr: # Ignore all the validators which are not here anymore continue if validator.index.isNone(): # Ignore all the valididators which do not have index yet. continue let proof = vc.getSyncCommitteeSelectionProof(duty.pubkey, epoch). get(default(SyncCommitteeSelectionProof)) for inindex in duty.validator_sync_committee_indices: for slot in epoch.slots(): if slot < start: continue if slot > finish: break if not(proof.hasSignature(inindex, slot)): res.add( SyncCommitteeSlotRequest( validator: validator, fork: fork, slot: slot, duty: duty, sync_committee_index: inindex)) # We make requests sorted by slot number. sorted(res, cmp, order = SortOrder.Ascending) sigres = FillSignaturesResult(signaturesRequested: len(requests)) pendingRequests = requests.mapIt( FutureBase(getSyncCommitteeSelectionProof( it.validator, it.fork, genesisRoot, it.slot, getSubcommitteeIndex(it.sync_committee_index)))) while len(pendingRequests) > 0: try: discard await race(pendingRequests) except CancelledError as exc: var pending: seq[Future[void]] for future in pendingRequests: if not(future.finished()): pending.add(future.cancelAndWait()) await allFutures(pending) raise exc (requests, pendingRequests) = block: var res1: seq[SyncCommitteeSlotRequest] res2: seq[FutureBase] for index, fut in pendingRequests.pairs(): if not(fut.finished()): res1.add(requests[index]) res2.add(fut) else: let request = requests[index] signature = if fut.completed(): let sres = Future[SignatureResult](fut).read() if sres.isErr(): warn "Unable to create slot signature using remote signer", reason = sres.error(), epoch = request.slot.epoch(), slot = request.slot Opt.none(ValidatorSig) else: inc(sigres.signaturesReceived) Opt.some(sres.get()) else: Opt.none(ValidatorSig) vc.setSyncSelectionProof(request.validator.pubkey, request.sync_committee_index, request.slot, request.duty, signature) (res1, res2) sigres proc fillAttestationSelectionProofs*( service: DutiesServiceRef, start, finish: Slot ): Future[FillSignaturesResult] {.async.} = let vc = service.client genesisRoot = vc.beaconGenesis.genesis_validators_root var requests = block: var res: seq[AttestationSlotRequest] for epoch in start.epoch() .. finish.epoch(): for duty in vc.attesterDutiesForEpoch(epoch): if (duty.data.slot < start) or (duty.data.slot > finish): # Ignore all the slots which are not in range. continue if duty.slotSig.isSome(): # Ignore all the duties which already has selection proof. continue let validator = vc.attachedValidators[]. getValidator(duty.data.pubkey).valueOr: # Ignore all the validators which are not here anymore continue if validator.index.isNone(): # Ignore all the valididators which do not have index yet. continue res.add(AttestationSlotRequest( validator: validator, slot: duty.data.slot, fork: vc.forkAtEpoch(duty.data.slot.epoch()) )) # We make requests sorted by slot number. sorted(res, cmp, order = SortOrder.Ascending) sigres = FillSignaturesResult(signaturesRequested: len(requests)) pendingRequests = requests.mapIt( FutureBase(getSlotSignature(it.validator, it.fork, genesisRoot, it.slot))) while len(pendingRequests) > 0: try: discard await race(pendingRequests) except CancelledError as exc: var pending: seq[Future[void]] for future in pendingRequests: if not(future.finished()): pending.add(future.cancelAndWait()) await allFutures(pending) raise exc (requests, pendingRequests) = block: var res1: seq[AttestationSlotRequest] res2: seq[FutureBase] for index, fut in pendingRequests.pairs(): if not(fut.finished()): res1.add(requests[index]) res2.add(fut) else: let request = requests[index] signature = if fut.completed(): let sres = Future[SignatureResult](fut).read() if sres.isErr(): warn "Unable to create slot signature using remote signer", reason = sres.error(), epoch = request.slot.epoch(), slot = request.slot Opt.none(ValidatorSig) else: inc(sigres.signaturesReceived) Opt.some(sres.get()) else: Opt.none(ValidatorSig) vc.attesters.withValue(request.validator.pubkey, map): map[].duties.withValue(request.slot.epoch(), dap): dap[].slotSig = signature (res1, res2) sigres proc updateRuntimeConfig*(vc: ValidatorClientRef, node: BeaconNodeServerRef, info: VCRuntimeConfig): Result[void, string] = if not(info.hasKey("ALTAIR_FORK_EPOCH")): debug "Beacon node's configuration missing ALTAIR_FORK_EPOCH value", node = node let res = info.getOrDefault("ALTAIR_FORK_EPOCH", FAR_FUTURE_EPOCH) wallEpoch = vc.beaconClock.now().slotOrZero().epoch() return if vc.runtimeConfig.altairEpoch.get(FAR_FUTURE_EPOCH) == FAR_FUTURE_EPOCH: vc.runtimeConfig.altairEpoch = Opt.some(res) ok() else: if res == vc.runtimeConfig.altairEpoch.get(): ok() else: if res == FAR_FUTURE_EPOCH: if wallEpoch < vc.runtimeConfig.altairEpoch.get(): debug "Beacon node must be updated before Altair activates", node = node, altairForkEpoch = vc.runtimeConfig.altairEpoch.get() ok() else: err("Beacon node must be updated and report correct " & "ALTAIR_FORK_EPOCH value") else: err("Beacon node has conflicting ALTAIR_FORK_EPOCH value") proc `+`*(slot: Slot, epochs: Epoch): Slot = slot + uint64(epochs) * SLOTS_PER_EPOCH func finish_slot*(epoch: Epoch): Slot = ## Return the last slot of ``epoch``. Slot((epoch + 1).start_slot() - 1)