nimbus-eth2/beacon_chain/nimbus_beacon_node.nim

2067 lines
75 KiB
Nim

# beacon_chain
# Copyright (c) 2018-2022 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.
{.push raises: [Defect].}
import
std/[os, random, sequtils, terminal, times],
bearssl, chronicles, chronos,
metrics, metrics/chronos_httpserver,
stew/[byteutils, io2],
eth/p2p/discoveryv5/[enr, random2],
eth/keys,
./rpc/[rest_api, rpc_api, state_ttl_cache],
./spec/datatypes/[altair, bellatrix, phase0],
./spec/[engine_authentication, weak_subjectivity],
./validators/[keystore_management, validator_duties],
"."/[
beacon_node, deposits, interop, nimbus_binary_common, statusbar,
trusted_node_sync, wallets]
when defined(posix):
import system/ansi_c
from
libp2p/protocols/pubsub/gossipsub
import
TopicParams, validateParameters, init
when defined(windows):
import winlean
type
LPCSTR* = cstring
LPSTR* = cstring
SERVICE_STATUS* {.final, pure.} = object
dwServiceType*: DWORD
dwCurrentState*: DWORD
dwControlsAccepted*: DWORD
dwWin32ExitCode*: DWORD
dwServiceSpecificExitCode*: DWORD
dwCheckPoint*: DWORD
dwWaitHint*: DWORD
SERVICE_STATUS_HANDLE* = DWORD
LPSERVICE_STATUS* = ptr SERVICE_STATUS
LPSERVICE_MAIN_FUNCTION* = proc (para1: DWORD, para2: LPSTR) {.stdcall.}
SERVICE_TABLE_ENTRY* {.final, pure.} = object
lpServiceName*: LPSTR
lpServiceProc*: LPSERVICE_MAIN_FUNCTION
LPSERVICE_TABLE_ENTRY* = ptr SERVICE_TABLE_ENTRY
LPHANDLER_FUNCTION* = proc (para1: DWORD): WINBOOL{.stdcall.}
const
SERVICE_WIN32_OWN_PROCESS = 16
SERVICE_RUNNING = 4
SERVICE_STOPPED = 1
SERVICE_START_PENDING = 2
SERVICE_STOP_PENDING = 3
SERVICE_CONTROL_STOP = 1
SERVICE_CONTROL_PAUSE = 2
SERVICE_CONTROL_CONTINUE = 3
SERVICE_CONTROL_INTERROGATE = 4
SERVICE_ACCEPT_STOP = 1
NO_ERROR = 0
SERVICE_NAME = LPCSTR "NIMBUS_BEACON_NODE"
var
gSvcStatusHandle: SERVICE_STATUS_HANDLE
gSvcStatus: SERVICE_STATUS
proc reportServiceStatus*(dwCurrentState, dwWin32ExitCode, dwWaitHint: DWORD) {.gcsafe.}
proc StartServiceCtrlDispatcher*(lpServiceStartTable: LPSERVICE_TABLE_ENTRY): WINBOOL{.
stdcall, dynlib: "advapi32", importc: "StartServiceCtrlDispatcherA".}
proc SetServiceStatus*(hServiceStatus: SERVICE_STATUS_HANDLE,
lpServiceStatus: LPSERVICE_STATUS): WINBOOL{.stdcall,
dynlib: "advapi32", importc: "SetServiceStatus".}
proc RegisterServiceCtrlHandler*(lpServiceName: LPCSTR,
lpHandlerProc: LPHANDLER_FUNCTION): SERVICE_STATUS_HANDLE{.
stdcall, dynlib: "advapi32", importc: "RegisterServiceCtrlHandlerA".}
type
RpcServer = RpcHttpServer
template init(T: type RpcHttpServer, ip: ValidIpAddress, port: Port): T =
newRpcHttpServer([initTAddress(ip, port)])
template init(T: type RestServerRef,
ip: ValidIpAddress, port: Port,
allowedOrigin: Option[string],
config: BeaconNodeConf): T =
let address = initTAddress(ip, port)
let serverFlags = {HttpServerFlags.QueryCommaSeparatedArray,
HttpServerFlags.NotifyDisconnect}
let
headersTimeout =
if config.restRequestTimeout == 0:
chronos.InfiniteDuration
else:
seconds(int64(config.restRequestTimeout))
maxHeadersSize = config.restMaxRequestHeadersSize * 1024
maxRequestBodySize = config.restMaxRequestBodySize * 1024
let res = RestServerRef.new(getRouter(allowedOrigin),
address, serverFlags = serverFlags,
httpHeadersTimeout = headersTimeout,
maxHeadersSize = maxHeadersSize,
maxRequestBodySize = maxRequestBodySize)
if res.isErr():
notice "Rest server could not be started", address = $address,
reason = res.error()
nil
else:
notice "Starting REST HTTP server",
url = "http://" & $ip & ":" & $port & "/"
res.get()
# https://github.com/ethereum/eth2.0-metrics/blob/master/metrics.md#interop-metrics
declareGauge beacon_slot, "Latest slot of the beacon chain state"
declareGauge beacon_current_epoch, "Current epoch"
# Finalization tracking
declareGauge finalization_delay,
"Epoch delay between scheduled epoch and finalized epoch"
declareGauge ticks_delay,
"How long does to take to run the onSecond loop"
declareGauge next_action_wait,
"Seconds until the next attestation will be sent"
declareGauge versionGauge, "Nimbus version info (as metric labels)", ["version", "commit"], name = "version"
versionGauge.set(1, labelValues=[fullVersionStr, gitRevision])
logScope: topics = "beacnde"
proc loadChainDag(
config: BeaconNodeConf,
cfg: RuntimeConfig,
db: BeaconChainDB,
eventBus: AsyncEventBus,
validatorMonitor: ref ValidatorMonitor,
networkGenesisValidatorsRoot: Option[Eth2Digest]): ChainDAGRef =
info "Loading block DAG from database", path = config.databaseDir
proc onBlockAdded(data: ForkedTrustedSignedBeaconBlock) =
eventBus.emit("signed-beacon-block", data)
proc onHeadChanged(data: HeadChangeInfoObject) =
eventBus.emit("head-change", data)
proc onChainReorg(data: ReorgInfoObject) =
eventBus.emit("chain-reorg", data)
proc onOptimisticLightClientUpdate(data: OptimisticLightClientUpdate) =
discard
let
chainDagFlags =
if config.verifyFinalization: {verifyFinalization}
else: {}
onOptimisticLightClientUpdateCb =
if config.serveLightClientData.get: onOptimisticLightClientUpdate
else: nil
dag = ChainDAGRef.init(
cfg, db, validatorMonitor, chainDagFlags, config.eraDir,
onBlockAdded, onHeadChanged, onChainReorg,
onOptimisticLCUpdateCb = onOptimisticLightClientUpdateCb,
serveLightClientData = config.serveLightClientData.get,
importLightClientData = config.importLightClientData.get)
databaseGenesisValidatorsRoot =
getStateField(dag.headState, genesis_validators_root)
if networkGenesisValidatorsRoot.isSome:
if networkGenesisValidatorsRoot.get != databaseGenesisValidatorsRoot:
fatal "The specified --data-dir contains data for a different network",
networkGenesisValidatorsRoot = networkGenesisValidatorsRoot.get,
databaseGenesisValidatorsRoot,
dataDir = config.dataDir
quit 1
dag
proc checkWeakSubjectivityCheckpoint(
dag: ChainDAGRef,
wsCheckpoint: Checkpoint,
beaconClock: BeaconClock) =
let
currentSlot = beaconClock.now.slotOrZero
isCheckpointStale = not is_within_weak_subjectivity_period(
dag.cfg, currentSlot, dag.headState, wsCheckpoint)
if isCheckpointStale:
error "Weak subjectivity checkpoint is stale",
currentSlot, checkpoint = wsCheckpoint,
headStateSlot = getStateField(dag.headState, slot)
quit 1
proc initFullNode(
node: BeaconNode,
rng: ref BrHmacDrbgContext,
dag: ChainDAGRef,
taskpool: TaskPoolPtr,
getBeaconTime: GetBeaconTimeFn) =
template config(): auto = node.config
proc onAttestationReceived(data: Attestation) =
node.eventBus.emit("attestation-received", data)
proc onSyncContribution(data: SignedContributionAndProof) =
node.eventBus.emit("sync-contribution-and-proof", data)
proc onVoluntaryExitAdded(data: SignedVoluntaryExit) =
node.eventBus.emit("voluntary-exit", data)
proc makeOnFinalizationCb(
# This `nimcall` functions helps for keeping track of what
# needs to be captured by the onFinalization closure.
eventBus: AsyncEventBus,
eth1Monitor: Eth1Monitor): OnFinalizedCallback {.nimcall.} =
static: doAssert (eventBus is ref) and (eth1Monitor is ref)
return proc(dag: ChainDAGRef, data: FinalizationInfoObject) =
if eth1Monitor != nil:
let finalizedEpochRef = dag.getFinalizedEpochRef()
discard trackFinalizedState(eth1Monitor,
finalizedEpochRef.eth1_data,
finalizedEpochRef.eth1_deposit_index)
eventBus.emit("finalization", data)
func getLocalHeadSlot(): Slot =
dag.head.slot
proc getLocalWallSlot(): Slot =
node.beaconClock.now.slotOrZero
func getFirstSlotAtFinalizedEpoch(): Slot =
dag.finalizedHead.slot
func getBackfillSlot(): Slot =
dag.backfill.slot
func getFrontfillSlot(): Slot =
dag.frontfill.slot
let
quarantine = newClone(
Quarantine.init())
attestationPool = newClone(
AttestationPool.init(dag, quarantine, onAttestationReceived))
syncCommitteeMsgPool = newClone(
SyncCommitteeMsgPool.init(rng, onSyncContribution))
exitPool = newClone(
ExitPool.init(dag, onVoluntaryExitAdded))
consensusManager = ConsensusManager.new(
dag, attestationPool, quarantine, node.eth1Monitor)
blockProcessor = BlockProcessor.new(
config.dumpEnabled, config.dumpDirInvalid, config.dumpDirIncoming,
rng, taskpool, consensusManager, node.validatorMonitor, getBeaconTime)
blockVerifier = proc(signedBlock: ForkedSignedBeaconBlock):
Future[Result[void, BlockError]] =
# The design with a callback for block verification is unusual compared
# to the rest of the application, but fits with the general approach
# taken in the sync/request managers - this is an architectural compromise
# that should probably be reimagined more holistically in the future.
let resfut = newFuture[Result[void, BlockError]]("blockVerifier")
blockProcessor[].addBlock(MsgSource.gossip, signedBlock, resfut)
resfut
processor = Eth2Processor.new(
config.doppelgangerDetection,
blockProcessor, node.validatorMonitor, dag, attestationPool, exitPool,
node.attachedValidators, syncCommitteeMsgPool, quarantine, rng,
getBeaconTime, taskpool)
syncManager = newSyncManager[Peer, PeerId](
node.network.peerPool, SyncQueueKind.Forward, getLocalHeadSlot,
getLocalWallSlot, getFirstSlotAtFinalizedEpoch, getBackfillSlot,
getFrontfillSlot, dag.tail.slot, blockVerifier)
backfiller = newSyncManager[Peer, PeerId](
node.network.peerPool, SyncQueueKind.Backward, getLocalHeadSlot,
getLocalWallSlot, getFirstSlotAtFinalizedEpoch, getBackfillSlot,
getFrontfillSlot, dag.backfill.slot, blockVerifier, maxHeadAge = 0)
dag.setFinalizationCb makeOnFinalizationCb(node.eventBus, node.eth1Monitor)
node.dag = dag
node.quarantine = quarantine
node.attestationPool = attestationPool
node.syncCommitteeMsgPool = syncCommitteeMsgPool
node.exitPool = exitPool
node.processor = processor
node.blockProcessor = blockProcessor
node.consensusManager = consensusManager
node.requestManager = RequestManager.init(node.network, blockVerifier)
node.syncManager = syncManager
node.backfiller = backfiller
debug "Loading validators", validatorsDir = config.validatorsDir()
node.addValidators()
block:
# Add in-process validators to the list of "known" validators such that
# we start with a reasonable ENR
let wallSlot = node.beaconClock.now().slotOrZero()
for validator in node.attachedValidators[].validators.values():
if config.validatorMonitorAuto:
node.validatorMonitor[].addMonitor(validator.pubkey, validator.index)
if validator.index.isSome():
node.actionTracker.knownValidators[validator.index.get()] = wallSlot
let
stabilitySubnets = node.actionTracker.stabilitySubnets(wallSlot)
# Here, we also set the correct ENR should we be in all subnets mode!
node.network.updateStabilitySubnetMetadata(stabilitySubnets)
node.network.initBeaconSync(dag, getBeaconTime)
node.updateValidatorMetrics()
const SlashingDbName = "slashing_protection"
# changing this requires physical file rename as well or history is lost.
func getBeaconTimeFn(clock: BeaconClock): GetBeaconTimeFn =
return proc(): BeaconTime = clock.now()
proc init*(T: type BeaconNode,
cfg: RuntimeConfig,
rng: ref BrHmacDrbgContext,
config: BeaconNodeConf,
depositContractDeployedAt: BlockHashOrNumber,
eth1Network: Option[Eth1Network],
genesisStateContents: string,
depositContractSnapshotContents: string): BeaconNode {.
raises: [Defect, CatchableError].} =
var taskpool: TaskPoolPtr
let depositContractSnapshot = if depositContractSnapshotContents.len > 0:
try:
some SSZ.decode(depositContractSnapshotContents, DepositContractSnapshot)
except CatchableError as err:
fatal "Invalid deposit contract snapshot", err = err.msg
quit 1
else:
none DepositContractSnapshot
try:
if config.numThreads < 0:
fatal "The number of threads --numThreads cannot be negative."
quit 1
elif config.numThreads == 0:
taskpool = TaskPoolPtr.new(numThreads = min(countProcessors(), 16))
else:
taskpool = TaskPoolPtr.new(numThreads = config.numThreads)
info "Threadpool started", numThreads = taskpool.numThreads
except Exception as exc:
raise newException(Defect, "Failure in taskpool initialization.")
let
eventBus = newAsyncEventBus()
db = BeaconChainDB.new(config.databaseDir, inMemory = false)
var
genesisState, checkpointState: ref ForkedHashedBeaconState
checkpointBlock: ForkedTrustedSignedBeaconBlock
if config.finalizedCheckpointState.isSome:
let checkpointStatePath = config.finalizedCheckpointState.get.string
checkpointState = try:
newClone(readSszForkedHashedBeaconState(
cfg, readAllBytes(checkpointStatePath).tryGet()))
except SszError as err:
fatal "Checkpoint state deserialization failed",
err = formatMsg(err, checkpointStatePath)
quit 1
except CatchableError as err:
fatal "Failed to read checkpoint state file", err = err.msg
quit 1
if config.finalizedCheckpointBlock.isNone:
if getStateField(checkpointState[], slot) > 0:
fatal "Specifying a non-genesis --finalized-checkpoint-state requires specifying --finalized-checkpoint-block as well"
quit 1
else:
let checkpointBlockPath = config.finalizedCheckpointBlock.get.string
try:
# Checkpoint block might come from an earlier fork than the state with
# the state having empty slots processed past the fork epoch.
let tmp = readSszForkedSignedBeaconBlock(
cfg, readAllBytes(checkpointBlockPath).tryGet())
checkpointBlock = tmp.asTrusted()
except SszError as err:
fatal "Invalid checkpoint block", err = err.formatMsg(checkpointBlockPath)
quit 1
except IOError as err:
fatal "Failed to load the checkpoint block", err = err.msg
quit 1
elif config.finalizedCheckpointBlock.isSome:
# TODO We can download the state from somewhere in the future relying
# on the trusted `state_root` appearing in the checkpoint block.
fatal "--finalized-checkpoint-block cannot be specified without --finalized-checkpoint-state"
quit 1
let optJwtSecret =
block:
let jwtSecret = rng[].checkJwtSecret(
string(config.dataDir), config.jwtSecret)
if jwtSecret.isErr:
fatal "Specified a JWT secret file which couldn't be loaded",
err = jwtSecret.error
quit 1
some jwtSecret.get
template getDepositContractSnapshot: auto =
if depositContractSnapshot.isSome:
depositContractSnapshot
elif not cfg.DEPOSIT_CONTRACT_ADDRESS.isZeroMemory:
let snapshotRes = waitFor createInitialDepositSnapshot(
cfg.DEPOSIT_CONTRACT_ADDRESS,
depositContractDeployedAt,
config.web3Urls[0],
optJwtSecret)
if snapshotRes.isErr:
fatal "Failed to locate the deposit contract deployment block",
depositContract = cfg.DEPOSIT_CONTRACT_ADDRESS,
deploymentBlock = $depositContractDeployedAt
quit 1
else:
some snapshotRes.get
else:
none(DepositContractSnapshot)
var eth1Monitor: Eth1Monitor
if not ChainDAGRef.isInitialized(db).isOk():
var
tailState: ref ForkedHashedBeaconState
tailBlock: ForkedTrustedSignedBeaconBlock
if genesisStateContents.len == 0 and checkpointState == nil:
when hasGenesisDetection:
if depositContractSnapshotContents.len > 0:
fatal "A deposits snapshot cannot be provided without also providing a matching beacon state snapshot"
quit 1
# This is a fresh start without a known genesis state
# (most likely, it hasn't arrived yet). We'll try to
# obtain a genesis through the Eth1 deposits monitor:
if config.web3Urls.len == 0:
fatal "Web3 URL not specified"
quit 1
# TODO Could move this to a separate "GenesisMonitor" process or task
# that would do only this - see Paul's proposal for this.
let eth1Monitor = Eth1Monitor.init(
cfg,
db,
nil,
config.web3Urls,
getDepositContractSnapshot(),
eth1Network,
config.web3ForcePolling,
optJwtSecret)
eth1Monitor.loadPersistedDeposits()
let phase0Genesis = waitFor eth1Monitor.waitGenesis()
genesisState = (ref ForkedHashedBeaconState)(
kind: BeaconStateFork.Phase0,
phase0Data:
(ref phase0.HashedBeaconState)(
data: phase0Genesis[],
root: hash_tree_root(phase0Genesis[]))[])
if bnStatus == BeaconNodeStatus.Stopping:
return nil
tailState = genesisState
tailBlock = get_initial_beacon_block(genesisState[])
notice "Eth2 genesis state detected",
genesisTime = phase0Genesis.genesisTime,
eth1Block = phase0Genesis.eth1_data.block_hash,
totalDeposits = phase0Genesis.eth1_data.deposit_count
else:
fatal "No database and no genesis snapshot found: supply a genesis.ssz " &
"with the network configuration, or compile the beacon node with " &
"the -d:has_genesis_detection option " &
"in order to support monitoring for genesis events"
quit 1
elif genesisStateContents.len == 0:
if getStateField(checkpointState[], slot) == GENESIS_SLOT:
genesisState = checkpointState
tailState = checkpointState
tailBlock = get_initial_beacon_block(genesisState[])
else:
fatal "State checkpoints cannot be provided for a network without a known genesis state"
quit 1
else:
try:
genesisState = newClone(readSszForkedHashedBeaconState(
cfg,
genesisStateContents.toOpenArrayByte(0, genesisStateContents.high())))
except CatchableError as err:
raiseAssert "Invalid baked-in state: " & err.msg
if not checkpointState.isNil:
tailState = checkpointState
tailBlock = checkpointBlock
else:
tailState = genesisState
tailBlock = get_initial_beacon_block(genesisState[])
try:
ChainDAGRef.preInit(db, genesisState[], tailState[], tailBlock)
doAssert ChainDAGRef.isInitialized(db).isOk(), "preInit should have initialized db"
except CatchableError as exc:
error "Failed to initialize database", err = exc.msg
quit 1
else:
if not checkpointState.isNil:
fatal "A database already exists, cannot start from given checkpoint",
dataDir = config.dataDir
quit 1
# Doesn't use std/random directly, but dependencies might
randomize(rng[].rand(high(int)))
let
validatorMonitor = newClone(ValidatorMonitor.init(
config.validatorMonitorAuto, config.validatorMonitorTotals))
for key in config.validatorMonitorPubkeys:
validatorMonitor[].addMonitor(key, none(ValidatorIndex))
let
networkGenesisValidatorsRoot: Option[Eth2Digest] =
if genesisStateContents.len != 0:
some(extractGenesisValidatorRootFromSnapshot(genesisStateContents))
else:
none(Eth2Digest)
dag = loadChainDag(
config, cfg, db, eventBus,
validatorMonitor, networkGenesisValidatorsRoot)
beaconClock = BeaconClock.init(
getStateField(dag.headState, genesis_time))
getBeaconTime = beaconClock.getBeaconTimeFn()
if config.weakSubjectivityCheckpoint.isSome:
dag.checkWeakSubjectivityCheckpoint(
config.weakSubjectivityCheckpoint.get, beaconClock)
if eth1Monitor.isNil and config.web3Urls.len > 0:
eth1Monitor = Eth1Monitor.init(
cfg,
db,
getBeaconTime,
config.web3Urls,
getDepositContractSnapshot(),
eth1Network,
config.web3ForcePolling,
optJwtSecret)
let rpcServer = if config.rpcEnabled:
RpcServer.init(config.rpcAddress, config.rpcPort)
else:
nil
let restServer = if config.restEnabled:
RestServerRef.init(
config.restAddress,
config.restPort,
config.restAllowedOrigin,
config)
else:
nil
var keymanagerToken: Option[string]
let keymanagerServer = if config.keymanagerEnabled:
if config.keymanagerTokenFile.isNone:
echo "To enable the Keymanager API, you must also specify " &
"the --keymanager-token-file option."
quit 1
let
tokenFilePath = config.keymanagerTokenFile.get.string
tokenFileReadRes = readAllChars(tokenFilePath)
if tokenFileReadRes.isErr:
fatal "Failed to read the keymanager token file",
error = $tokenFileReadRes.error
quit 1
keymanagerToken = some tokenFileReadRes.value.strip
if keymanagerToken.get.len == 0:
fatal "The keymanager token should not be empty", tokenFilePath
quit 1
if restServer != nil and
config.restAddress == config.keymanagerAddress and
config.restPort == config.keymanagerPort:
if config.keymanagerAllowedOrigin.isSome and
config.restAllowedOrigin != config.keymanagerAllowedOrigin:
fatal "Please specify a separate port for the Keymanager API " &
"if you want to restrict the origin in a different way " &
"from the Beacon API"
quit 1
restServer
else:
RestServerRef.init(
config.keymanagerAddress,
config.keymanagerPort,
config.keymanagerAllowedOrigin,
config)
else:
nil
let
netKeys = getPersistentNetKeys(rng[], config)
nickname = if config.nodeName == "auto": shortForm(netKeys)
else: config.nodeName
network = createEth2Node(
rng, config, netKeys, cfg, dag.forkDigests, getBeaconTime,
getStateField(dag.headState, genesis_validators_root))
case config.slashingDbKind
of SlashingDbKind.v2:
discard
of SlashingDbKind.v1:
error "Slashing DB v1 is no longer supported for writing"
quit 1
of SlashingDbKind.both:
warn "Slashing DB v1 deprecated, writing only v2"
info "Loading slashing protection database (v2)",
path = config.validatorsDir()
let
slashingProtectionDB =
SlashingProtectionDB.init(
getStateField(dag.headState, genesis_validators_root),
config.validatorsDir(), SlashingDbName)
validatorPool = newClone(ValidatorPool.init(slashingProtectionDB))
stateTtlCache =
if config.restCacheSize > 0:
StateTtlCache.init(
cacheSize = config.restCacheSize,
cacheTtl = chronos.seconds(config.restCacheTtl))
else:
nil
var node = BeaconNode(
nickname: nickname,
graffitiBytes: if config.graffiti.isSome: config.graffiti.get
else: defaultGraffitiBytes(),
network: network,
netKeys: netKeys,
db: db,
config: config,
attachedValidators: validatorPool,
eth1Monitor: eth1Monitor,
rpcServer: rpcServer,
restServer: restServer,
keymanagerServer: keymanagerServer,
keymanagerToken: keymanagerToken,
eventBus: eventBus,
actionTracker: ActionTracker.init(rng, config.subscribeAllSubnets),
gossipState: {},
beaconClock: beaconClock,
validatorMonitor: validatorMonitor,
stateTtlCache: stateTtlCache
)
node.initFullNode(
rng, dag, taskpool, getBeaconTime)
node
func verifyFinalization(node: BeaconNode, slot: Slot) =
# Epoch must be >= 4 to check finalization
const SETTLING_TIME_OFFSET = 1'u64
let epoch = slot.epoch()
# Don't static-assert this -- if this isn't called, don't require it
doAssert SLOTS_PER_EPOCH > SETTLING_TIME_OFFSET
# Intentionally, loudly assert. Point is to fail visibly and unignorably
# during testing.
if epoch >= 4 and slot mod SLOTS_PER_EPOCH > SETTLING_TIME_OFFSET:
let finalizedEpoch =
node.dag.finalizedHead.slot.epoch()
# Finalization rule 234, that has the most lag slots among the cases, sets
# state.finalized_checkpoint = old_previous_justified_checkpoint.epoch + 3
# and then state.slot gets incremented, to increase the maximum offset, if
# finalization occurs every slot, to 4 slots vs scheduledSlot.
doAssert finalizedEpoch + 4 >= epoch
func subnetLog(v: BitArray): string =
$toSeq(v.oneIndices())
func forkDigests(node: BeaconNode): auto =
let forkDigestsArray: array[BeaconStateFork, auto] = [
node.dag.forkDigests.phase0,
node.dag.forkDigests.altair,
node.dag.forkDigests.bellatrix]
forkDigestsArray
# https://github.com/ethereum/consensus-specs/blob/v1.1.10/specs/phase0/validator.md#phase-0-attestation-subnet-stability
proc updateAttestationSubnetHandlers(node: BeaconNode, slot: Slot) =
if node.gossipState.card == 0:
# When disconnected, updateGossipState is responsible for all things
# subnets - in particular, it will remove subscriptions on the edge where
# we enter the disconnected state.
return
let
aggregateSubnets = node.actionTracker.aggregateSubnets(slot)
stabilitySubnets = node.actionTracker.stabilitySubnets(slot)
subnets = aggregateSubnets + stabilitySubnets
node.network.updateStabilitySubnetMetadata(stabilitySubnets)
# Now we know what we should be subscribed to - make it so
let
prevSubnets = node.actionTracker.subscribedSubnets
unsubscribeSubnets = prevSubnets - subnets
subscribeSubnets = subnets - prevSubnets
# Remember what we subscribed to, so we can unsubscribe later
node.actionTracker.subscribedSubnets = subnets
let forkDigests = node.forkDigests()
for gossipFork in node.gossipState:
let forkDigest = forkDigests[gossipFork]
node.network.unsubscribeAttestationSubnets(unsubscribeSubnets, forkDigest)
node.network.subscribeAttestationSubnets(subscribeSubnets, forkDigest)
debug "Attestation subnets",
slot, epoch = slot.epoch, gossipState = node.gossipState,
stabilitySubnets = subnetLog(stabilitySubnets),
aggregateSubnets = subnetLog(aggregateSubnets),
prevSubnets = subnetLog(prevSubnets),
subscribeSubnets = subnetLog(subscribeSubnets),
unsubscribeSubnets = subnetLog(unsubscribeSubnets),
gossipState = node.gossipState
# inspired by lighthouse research here
# https://gist.github.com/blacktemplar/5c1862cb3f0e32a1a7fb0b25e79e6e2c#file-generate-scoring-params-py
const
blocksTopicParams = TopicParams(
topicWeight: 0.5,
timeInMeshWeight: 0.03333333333333333,
timeInMeshQuantum: chronos.seconds(12),
timeInMeshCap: 300,
firstMessageDeliveriesWeight: 1.1471603557060206,
firstMessageDeliveriesDecay: 0.9928302477768374,
firstMessageDeliveriesCap: 34.86870846001471,
meshMessageDeliveriesWeight: -458.31054878249114,
meshMessageDeliveriesDecay: 0.9716279515771061,
meshMessageDeliveriesThreshold: 0.6849191409056553,
meshMessageDeliveriesCap: 2.054757422716966,
meshMessageDeliveriesActivation: chronos.seconds(384),
meshMessageDeliveriesWindow: chronos.seconds(2),
meshFailurePenaltyWeight: -458.31054878249114 ,
meshFailurePenaltyDecay: 0.9716279515771061,
invalidMessageDeliveriesWeight: -214.99999999999994,
invalidMessageDeliveriesDecay: 0.9971259067705325
)
aggregateTopicParams = TopicParams(
topicWeight: 0.5,
timeInMeshWeight: 0.03333333333333333,
timeInMeshQuantum: chronos.seconds(12),
timeInMeshCap: 300,
firstMessageDeliveriesWeight: 0.10764904539552399,
firstMessageDeliveriesDecay: 0.8659643233600653,
firstMessageDeliveriesCap: 371.5778421725158,
meshMessageDeliveriesWeight: -0.07538533073670682,
meshMessageDeliveriesDecay: 0.930572040929699,
meshMessageDeliveriesThreshold: 53.404248450179836,
meshMessageDeliveriesCap: 213.61699380071934,
meshMessageDeliveriesActivation: chronos.seconds(384),
meshMessageDeliveriesWindow: chronos.seconds(2),
meshFailurePenaltyWeight: -0.07538533073670682 ,
meshFailurePenaltyDecay: 0.930572040929699,
invalidMessageDeliveriesWeight: -214.99999999999994,
invalidMessageDeliveriesDecay: 0.9971259067705325
)
basicParams = TopicParams.init()
static:
# compile time validation
blocksTopicParams.validateParameters().tryGet()
aggregateTopicParams.validateParameters().tryGet()
basicParams.validateParameters.tryGet()
proc addPhase0MessageHandlers(
node: BeaconNode, forkDigest: ForkDigest, slot: Slot) =
node.network.subscribe(
getBeaconBlocksTopic(forkDigest), blocksTopicParams,
enableTopicMetrics = true)
node.network.subscribe(getAttesterSlashingsTopic(forkDigest), basicParams)
node.network.subscribe(getProposerSlashingsTopic(forkDigest), basicParams)
node.network.subscribe(getVoluntaryExitsTopic(forkDigest), basicParams)
node.network.subscribe(
getAggregateAndProofsTopic(forkDigest), aggregateTopicParams,
enableTopicMetrics = true)
# updateAttestationSubnetHandlers subscribes attestation subnets
proc removePhase0MessageHandlers(node: BeaconNode, forkDigest: ForkDigest) =
node.network.unsubscribe(getBeaconBlocksTopic(forkDigest))
node.network.unsubscribe(getVoluntaryExitsTopic(forkDigest))
node.network.unsubscribe(getProposerSlashingsTopic(forkDigest))
node.network.unsubscribe(getAttesterSlashingsTopic(forkDigest))
node.network.unsubscribe(getAggregateAndProofsTopic(forkDigest))
for subnet_id in SubnetId:
node.network.unsubscribe(getAttestationTopic(forkDigest, subnet_id))
node.actionTracker.subscribedSubnets = default(AttnetBits)
func hasSyncPubKey(node: BeaconNode, epoch: Epoch): auto =
# Only used to determine which gossip topics to which to subscribe
if node.config.subscribeAllSubnets:
(func(pubkey: ValidatorPubKey): bool {.closure.} = true)
else:
(func(pubkey: ValidatorPubKey): bool =
node.syncCommitteeMsgPool.syncCommitteeSubscriptions.getOrDefault(
pubkey, GENESIS_EPOCH) >= epoch or
pubkey in node.attachedValidators.validators)
proc addAltairMessageHandlers(node: BeaconNode, forkDigest: ForkDigest, slot: Slot) =
node.addPhase0MessageHandlers(forkDigest, slot)
# If this comes online near sync committee period, it'll immediately get
# replaced as usual by trackSyncCommitteeTopics, which runs at slot end.
let
syncCommittee =
withState(node.dag.headState):
when stateFork >= BeaconStateFork.Altair:
state.data.current_sync_committee
else:
default(SyncCommittee)
currentSyncCommitteeSubnets = getSyncSubnets(
node.hasSyncPubKey(slot.epoch), syncCommittee)
for subcommitteeIdx in SyncSubcommitteeIndex:
if currentSyncCommitteeSubnets[subcommitteeIdx]:
node.network.subscribe(
getSyncCommitteeTopic(forkDigest, subcommitteeIdx), basicParams)
node.network.subscribe(
getSyncCommitteeContributionAndProofTopic(forkDigest), basicParams)
node.network.updateSyncnetsMetadata(currentSyncCommitteeSubnets)
if node.config.serveLightClientData.get:
node.network.subscribe(
getOptimisticLightClientUpdateTopic(forkDigest), basicParams)
proc removeAltairMessageHandlers(node: BeaconNode, forkDigest: ForkDigest) =
node.removePhase0MessageHandlers(forkDigest)
for subcommitteeIdx in SyncSubcommitteeIndex:
closureScope:
let idx = subcommitteeIdx
node.network.unsubscribe(getSyncCommitteeTopic(forkDigest, idx))
node.network.unsubscribe(
getSyncCommitteeContributionAndProofTopic(forkDigest))
if node.config.serveLightClientData.get:
node.network.unsubscribe(getOptimisticLightClientUpdateTopic(forkDigest))
proc trackCurrentSyncCommitteeTopics(node: BeaconNode, slot: Slot) =
# Unlike trackNextSyncCommitteeTopics, just snap to the currently correct
# set of subscriptions, and use current_sync_committee. Furthermore, this
# is potentially useful at arbitrary times, so don't guard it by checking
# for epoch alignment.
let
syncCommittee =
withState(node.dag.headState):
when stateFork >= BeaconStateFork.Altair:
state.data.current_sync_committee
else:
default(SyncCommittee)
currentSyncCommitteeSubnets =
getSyncSubnets(node.hasSyncPubKey(slot.epoch), syncCommittee)
debug "trackCurrentSyncCommitteeTopics: aligning with sync committee subnets",
currentSyncCommitteeSubnets,
metadata_syncnets = node.network.metadata.syncnets,
gossipState = node.gossipState
# Assume that different gossip fork sync committee setups are in sync; this
# only remains relevant, currently, for one gossip transition epoch, so the
# consequences of this not being true aren't exceptionally dire, while this
# allows for bookkeeping simplication.
if currentSyncCommitteeSubnets == node.network.metadata.syncnets:
return
let
newSyncSubnets =
currentSyncCommitteeSubnets - node.network.metadata.syncnets
oldSyncSubnets =
node.network.metadata.syncnets - currentSyncCommitteeSubnets
forkDigests = node.forkDigests()
for subcommitteeIdx in SyncSubcommitteeIndex:
doAssert not (newSyncSubnets[subcommitteeIdx] and
oldSyncSubnets[subcommitteeIdx])
for gossipFork in node.gossipState:
template topic(): auto =
getSyncCommitteeTopic(forkDigests[gossipFork], subcommitteeIdx)
if oldSyncSubnets[subcommitteeIdx]:
node.network.unsubscribe(topic)
elif newSyncSubnets[subcommitteeIdx]:
node.network.subscribe(topic, basicParams)
node.network.updateSyncnetsMetadata(currentSyncCommitteeSubnets)
proc trackNextSyncCommitteeTopics(node: BeaconNode, slot: Slot) =
let
epoch = slot.epoch
epochToSyncPeriod = nearSyncCommitteePeriod(epoch)
if epochToSyncPeriod.isNone or
forkVersionAtEpoch(node.dag.cfg, epoch + epochToSyncPeriod.get) ==
node.dag.cfg.GENESIS_FORK_VERSION:
return
if epochToSyncPeriod.get == 0:
node.trackCurrentSyncCommitteeTopics(slot)
return
let
syncCommittee =
withState(node.dag.headState):
when stateFork >= BeaconStateFork.Altair:
state.data.next_sync_committee
else:
default(SyncCommittee)
nextSyncCommitteeSubnets = getSyncSubnets(
node.hasSyncPubKey(epoch + epochToSyncPeriod.get), syncCommittee)
forkDigests = node.forkDigests()
var newSubcommittees: SyncnetBits
# https://github.com/ethereum/consensus-specs/blob/v1.1.10/specs/altair/validator.md#sync-committee-subnet-stability
for subcommitteeIdx in SyncSubcommitteeIndex:
if (not node.network.metadata.syncnets[subcommitteeIdx]) and
nextSyncCommitteeSubnets[subcommitteeIdx] and
node.syncCommitteeMsgPool[].isEpochLeadTime(epochToSyncPeriod.get):
for gossipFork in node.gossipState:
node.network.subscribe(getSyncCommitteeTopic(
forkDigests[gossipFork], subcommitteeIdx), basicParams)
newSubcommittees.setBit(distinctBase(subcommitteeIdx))
debug "trackNextSyncCommitteeTopics: subscribing to sync committee subnets",
metadata_syncnets = node.network.metadata.syncnets,
nextSyncCommitteeSubnets,
gossipState = node.gossipState,
epochsToSyncPeriod = epochToSyncPeriod.get,
newSubcommittees
node.network.updateSyncnetsMetadata(
node.network.metadata.syncnets + newSubcommittees)
proc updateGossipStatus(node: BeaconNode, slot: Slot) {.async.} =
## Subscribe to subnets that we are providing stability for or aggregating
## and unsubscribe from the ones that are no longer relevant.
# Let the tracker know what duties are approaching - this will tell us how
# many stability subnets we need to be subscribed to and what subnets we'll
# soon be aggregating - in addition to the in-beacon-node duties, there may
# also be duties coming from the validator client, but we don't control when
# these arrive
await node.registerDuties(slot)
# We start subscribing to gossip before we're fully synced - this allows time
# to subscribe before the sync end game
const
TOPIC_SUBSCRIBE_THRESHOLD_SLOTS = 64
HYSTERESIS_BUFFER = 16
let
head = node.dag.head
headDistance =
if slot > head.slot: (slot - head.slot).uint64
else: 0'u64
targetGossipState =
getTargetGossipState(
slot.epoch,
node.dag.cfg.ALTAIR_FORK_EPOCH,
node.dag.cfg.BELLATRIX_FORK_EPOCH,
headDistance > TOPIC_SUBSCRIBE_THRESHOLD_SLOTS + HYSTERESIS_BUFFER)
doAssert targetGossipState.card <= 2
let
newGossipForks = targetGossipState - node.gossipState
oldGossipForks = node.gossipState - targetGossipState
doAssert newGossipForks.card <= 2
doAssert oldGossipForks.card <= 2
func maxGossipFork(gossipState: GossipState): int =
var res = -1
for gossipFork in gossipState:
res = max(res, gossipFork.int)
res
if maxGossipFork(targetGossipState) < maxGossipFork(node.gossipState) and
targetGossipState != {}:
warn "Unexpected clock regression during transition",
targetGossipState,
gossipState = node.gossipState
if node.gossipState.card == 0 and targetGossipState.card > 0:
# We are synced, so we will connect
debug "Enabling topic subscriptions",
wallSlot = slot,
headSlot = head.slot,
headDistance, targetGossipState
node.processor[].setupDoppelgangerDetection(slot)
# Specially when waiting for genesis, we'll already be synced on startup -
# it might also happen on a sufficiently fast restart
# We "know" the actions for the current and the next epoch
withState(node.dag.headState):
if node.actionTracker.needsUpdate(state, slot.epoch):
let epochRef = node.dag.getEpochRef(head, slot.epoch, false).expect(
"Getting head EpochRef should never fail")
node.actionTracker.updateActions(epochRef)
if node.actionTracker.needsUpdate(state, slot.epoch + 1):
let epochRef = node.dag.getEpochRef(head, slot.epoch + 1, false).expect(
"Getting head EpochRef should never fail")
node.actionTracker.updateActions(epochRef)
if node.gossipState.card > 0 and targetGossipState.card == 0:
debug "Disabling topic subscriptions",
wallSlot = slot,
headSlot = head.slot,
headDistance
let forkDigests = node.forkDigests()
const removeMessageHandlers: array[BeaconStateFork, auto] = [
removePhase0MessageHandlers,
removeAltairMessageHandlers,
removeAltairMessageHandlers # with different forkDigest
]
for gossipFork in oldGossipForks:
removeMessageHandlers[gossipFork](node, forkDigests[gossipFork])
const addMessageHandlers: array[BeaconStateFork, auto] = [
addPhase0MessageHandlers,
addAltairMessageHandlers,
addAltairMessageHandlers # with different forkDigest
]
for gossipFork in newGossipForks:
addMessageHandlers[gossipFork](node, forkDigests[gossipFork], slot)
node.gossipState = targetGossipState
node.updateAttestationSubnetHandlers(slot)
proc onSlotEnd(node: BeaconNode, slot: Slot) {.async.} =
# Things we do when slot processing has ended and we're about to wait for the
# next slot
if node.dag.needStateCachesAndForkChoicePruning():
if node.attachedValidators.validators.len > 0:
node.attachedValidators
.slashingProtection
# pruning is only done if the DB is set to pruning mode.
.pruneAfterFinalization(
node.dag.finalizedHead.slot.epoch()
)
# Delay part of pruning until latency critical duties are done.
# The other part of pruning, `pruneBlocksDAG`, is done eagerly.
# ----
# This is the last pruning to do as it clears the "needPruning" condition.
node.consensusManager[].pruneStateCachesAndForkChoice()
when declared(GC_fullCollect):
# The slots in the beacon node work as frames in a game: we want to make
# sure that we're ready for the next one and don't get stuck in lengthy
# garbage collection tasks when time is of essence in the middle of a slot -
# while this does not guarantee that we'll never collect during a slot, it
# makes sure that all the scratch space we used during slot tasks (logging,
# temporary buffers etc) gets recycled for the next slot that is likely to
# need similar amounts of memory.
try:
GC_fullCollect()
except Defect as exc:
raise exc # Reraise to maintain call stack
except Exception as exc:
# TODO upstream
raiseAssert "Unexpected exception during GC collection"
# Checkpoint the database to clear the WAL file and make sure changes in
# the database are synced with the filesystem.
node.db.checkpoint()
node.syncCommitteeMsgPool[].pruneData(slot)
if slot.is_epoch:
node.trackNextSyncCommitteeTopics(slot)
# Update upcoming actions - we do this every slot in case a reorg happens
let head = node.dag.head
if node.isSynced(head):
withState(node.dag.headState):
if node.actionTracker.needsUpdate(state, slot.epoch + 1):
let epochRef = node.dag.getEpochRef(head, slot.epoch + 1, false).expect(
"Getting head EpochRef should never fail")
node.actionTracker.updateActions(epochRef)
let
nextAttestationSlot = node.actionTracker.getNextAttestationSlot(slot)
nextProposalSlot = node.actionTracker.getNextProposalSlot(slot)
nextActionWaitTime = saturate(fromNow(
node.beaconClock, min(nextAttestationSlot, nextProposalSlot)))
# -1 is a more useful output than 18446744073709551615 as an indicator of
# no future attestation/proposal known.
template displayInt64(x: Slot): int64 =
if x == high(uint64).Slot:
-1'i64
else:
toGaugeValue(x)
info "Slot end",
slot = shortLog(slot),
nextActionWait =
if nextAttestationSlot == FAR_FUTURE_SLOT:
"n/a"
else:
shortLog(nextActionWaitTime),
nextAttestationSlot = displayInt64(nextAttestationSlot),
nextProposalSlot = displayInt64(nextProposalSlot),
head = shortLog(head)
if nextAttestationSlot != FAR_FUTURE_SLOT:
next_action_wait.set(nextActionWaitTime.toFloatSeconds)
let epoch = slot.epoch
if epoch + 1 >= node.network.forkId.next_fork_epoch:
# Update 1 epoch early to block non-fork-ready peers
node.network.updateForkId(epoch, node.dag.genesis_validators_root)
# When we're not behind schedule, we'll speculatively update the clearance
# state in anticipation of receiving the next block - we do it after logging
# slot end since the nextActionWaitTime can be short
let
advanceCutoff = node.beaconClock.fromNow(
slot.start_beacon_time() + chronos.seconds(int(SECONDS_PER_SLOT - 1)))
if advanceCutoff.inFuture:
# We wait until there's only a second left before the next slot begins, then
# we advance the clearance state to the next slot - this gives us a high
# probability of being prepared for the block that will arrive and the
# epoch processing that follows
await sleepAsync(advanceCutoff.offset)
node.dag.advanceClearanceState()
# Prepare action tracker for the next slot
node.actionTracker.updateSlot(slot + 1)
# The last thing we do is to perform the subscriptions and unsubscriptions for
# the next slot, just before that slot starts - because of the advance cuttoff
# above, this will be done just before the next slot starts
await node.updateGossipStatus(slot + 1)
func syncStatus(node: BeaconNode): string =
if node.syncManager.inProgress:
node.syncManager.syncStatus
elif node.backfiller.inProgress:
"backfill: " & node.backfiller.syncStatus
else:
"synced"
proc onSlotStart(
node: BeaconNode, wallTime: BeaconTime, lastSlot: Slot) {.async.} =
## Called at the beginning of a slot - usually every slot, but sometimes might
## skip a few in case we're running late.
## wallTime: current system time - we will strive to perform all duties up
## to this point in time
## lastSlot: the last slot that we successfully processed, so we know where to
## start work from - there might be jumps if processing is delayed
let
# The slot we should be at, according to the clock
wallSlot = wallTime.slotOrZero
# If everything was working perfectly, the slot that we should be processing
expectedSlot = lastSlot + 1
finalizedEpoch = node.dag.finalizedHead.blck.slot.epoch()
delay = wallTime - expectedSlot.start_beacon_time()
info "Slot start",
slot = shortLog(wallSlot),
epoch = shortLog(wallSlot.epoch),
sync = node.syncStatus(),
peers = len(node.network.peerPool),
head = shortLog(node.dag.head),
finalized = shortLog(getStateField(
node.dag.headState, finalized_checkpoint)),
delay = shortLog(delay)
# Check before any re-scheduling of onSlotStart()
checkIfShouldStopAtEpoch(wallSlot, node.config.stopAtEpoch)
when defined(windows):
if node.config.runAsService:
reportServiceStatus(SERVICE_RUNNING, NO_ERROR, 0)
beacon_slot.set wallSlot.toGaugeValue
beacon_current_epoch.set wallSlot.epoch.toGaugeValue
# both non-negative, so difference can't overflow or underflow int64
finalization_delay.set(
wallSlot.epoch.toGaugeValue - finalizedEpoch.toGaugeValue)
if node.config.verifyFinalization:
verifyFinalization(node, wallSlot)
node.consensusManager[].updateHead(wallSlot)
await node.handleValidatorDuties(lastSlot, wallSlot)
await onSlotEnd(node, wallSlot)
proc handleMissingBlocks(node: BeaconNode) =
let missingBlocks = node.quarantine[].checkMissing()
if missingBlocks.len > 0:
debug "Requesting detected missing blocks", blocks = shortLog(missingBlocks)
node.requestManager.fetchAncestorBlocks(missingBlocks)
proc onSecond(node: BeaconNode) =
## This procedure will be called once per second.
if not(node.syncManager.inProgress):
node.handleMissingBlocks()
# Nim GC metrics (for the main thread)
updateThreadMetrics()
if node.config.stopAtSyncedEpoch != 0 and
node.dag.head.slot.epoch >= node.config.stopAtSyncedEpoch:
notice "Shutting down after having reached the target synced epoch"
bnStatus = BeaconNodeStatus.Stopping
proc runOnSecondLoop(node: BeaconNode) {.async.} =
let sleepTime = chronos.seconds(1)
const nanosecondsIn1s = float(chronos.seconds(1).nanoseconds)
while true:
let start = chronos.now(chronos.Moment)
await chronos.sleepAsync(sleepTime)
let afterSleep = chronos.now(chronos.Moment)
let sleepTime = afterSleep - start
node.onSecond()
let finished = chronos.now(chronos.Moment)
let processingTime = finished - afterSleep
ticks_delay.set(sleepTime.nanoseconds.float / nanosecondsIn1s)
trace "onSecond task completed", sleepTime, processingTime
func connectedPeersCount(node: BeaconNode): int =
len(node.network.peerPool)
proc installRpcHandlers(rpcServer: RpcServer, node: BeaconNode) {.
raises: [Defect, CatchableError].} =
rpcServer.installBeaconApiHandlers(node)
rpcServer.installConfigApiHandlers(node)
rpcServer.installDebugApiHandlers(node)
rpcServer.installEventApiHandlers(node)
rpcServer.installNimbusApiHandlers(node)
rpcServer.installNodeApiHandlers(node)
rpcServer.installValidatorApiHandlers(node)
proc installRestHandlers(restServer: RestServerRef, node: BeaconNode) =
restServer.router.installBeaconApiHandlers(node)
restServer.router.installConfigApiHandlers(node)
restServer.router.installDebugApiHandlers(node)
restServer.router.installEventApiHandlers(node)
restServer.router.installNimbusApiHandlers(node)
restServer.router.installNodeApiHandlers(node)
restServer.router.installValidatorApiHandlers(node)
proc installMessageValidators(node: BeaconNode) =
# https://github.com/ethereum/consensus-specs/blob/v1.1.10/specs/phase0/p2p-interface.md#attestations-and-aggregation
# These validators stay around the whole time, regardless of which specific
# subnets are subscribed to during any given epoch.
let forkDigests = node.dag.forkDigests
func toValidationResult(res: ValidationRes): ValidationResult =
if res.isOk(): ValidationResult.Accept else: res.error()[0]
node.network.addValidator(
getBeaconBlocksTopic(forkDigests.phase0),
proc (signedBlock: phase0.SignedBeaconBlock): ValidationResult =
toValidationResult(node.processor[].blockValidator(
MsgSource.gossip, signedBlock)))
template installPhase0Validators(digest: auto) =
for it in SubnetId:
closureScope:
let subnet_id = it
node.network.addAsyncValidator(
getAttestationTopic(digest, subnet_id),
# This proc needs to be within closureScope; don't lift out of loop.
proc(attestation: Attestation): Future[ValidationResult] {.async.} =
return toValidationResult(
await node.processor.attestationValidator(
MsgSource.gossip, attestation, subnet_id)))
node.network.addAsyncValidator(
getAggregateAndProofsTopic(digest),
proc(signedAggregateAndProof: SignedAggregateAndProof):
Future[ValidationResult] {.async.} =
return toValidationResult(
await node.processor.aggregateValidator(
MsgSource.gossip, signedAggregateAndProof)))
node.network.addValidator(
getAttesterSlashingsTopic(digest),
proc (attesterSlashing: AttesterSlashing): ValidationResult =
toValidationResult(
node.processor[].attesterSlashingValidator(
MsgSource.gossip, attesterSlashing)))
node.network.addValidator(
getProposerSlashingsTopic(digest),
proc (proposerSlashing: ProposerSlashing): ValidationResult =
toValidationResult(
node.processor[].proposerSlashingValidator(
MsgSource.gossip, proposerSlashing)))
node.network.addValidator(
getVoluntaryExitsTopic(digest),
proc (signedVoluntaryExit: SignedVoluntaryExit): ValidationResult =
toValidationResult(
node.processor[].voluntaryExitValidator(
MsgSource.gossip, signedVoluntaryExit)))
installPhase0Validators(forkDigests.phase0)
# Validators introduced in phase0 are also used in altair and merge, but with
# different fork digest
installPhase0Validators(forkDigests.altair)
installPhase0Validators(forkDigests.bellatrix)
node.network.addValidator(
getBeaconBlocksTopic(forkDigests.altair),
proc (signedBlock: altair.SignedBeaconBlock): ValidationResult =
toValidationResult(node.processor[].blockValidator(
MsgSource.gossip, signedBlock)))
node.network.addValidator(
getBeaconBlocksTopic(forkDigests.bellatrix),
proc (signedBlock: bellatrix.SignedBeaconBlock): ValidationResult =
toValidationResult(node.processor[].blockValidator(
MsgSource.gossip, signedBlock)))
template installSyncCommitteeeValidators(digest: auto) =
for subcommitteeIdx in SyncSubcommitteeIndex:
closureScope:
let idx = subcommitteeIdx
node.network.addAsyncValidator(
getSyncCommitteeTopic(digest, idx),
# This proc needs to be within closureScope; don't lift out of loop.
proc(msg: SyncCommitteeMessage): Future[ValidationResult] {.async.} =
return toValidationResult(
await node.processor.syncCommitteeMessageValidator(
MsgSource.gossip, msg, idx)))
node.network.addAsyncValidator(
getSyncCommitteeContributionAndProofTopic(digest),
proc(msg: SignedContributionAndProof): Future[ValidationResult] {.async.} =
return toValidationResult(
await node.processor.contributionValidator(
MsgSource.gossip, msg)))
installSyncCommitteeeValidators(forkDigests.altair)
installSyncCommitteeeValidators(forkDigests.bellatrix)
template installOptimisticLightClientUpdateValidator(digest: auto) =
node.network.addValidator(
getOptimisticLightClientUpdateTopic(digest),
proc(msg: OptimisticLightClientUpdate): ValidationResult =
if node.config.serveLightClientData.get:
toValidationResult(
node.processor[].optimisticLightClientUpdateValidator(
MsgSource.gossip, msg))
else:
debug "Ignoring optimistic light client update: Feature disabled"
ValidationResult.Ignore)
installOptimisticLightClientUpdateValidator(forkDigests.altair)
installOptimisticLightClientUpdateValidator(forkDigests.bellatrix)
proc stop(node: BeaconNode) =
bnStatus = BeaconNodeStatus.Stopping
notice "Graceful shutdown"
if not node.config.inProcessValidators:
try:
node.vcProcess.close()
except Exception as exc:
warn "Couldn't close vc process", msg = exc.msg
try:
waitFor node.network.stop()
except CatchableError as exc:
warn "Couldn't stop network", msg = exc.msg
node.attachedValidators.slashingProtection.close()
node.db.close()
notice "Databases closed"
proc startBackfillTask(node: BeaconNode) {.async.} =
while node.dag.needsBackfill:
if not node.syncManager.inProgress:
# Only start the backfiller if it's needed _and_ head sync has completed -
# if we lose sync after having synced head, we could stop the backfilller,
# but this should be a fringe case - might as well keep the logic simple for
# now
node.backfiller.start()
return
await sleepAsync(chronos.seconds(2))
proc run(node: BeaconNode) {.raises: [Defect, CatchableError].} =
bnStatus = BeaconNodeStatus.Running
if not(isNil(node.rpcServer)):
node.rpcServer.installRpcHandlers(node)
node.rpcServer.start()
if not(isNil(node.restServer)):
node.restServer.installRestHandlers(node)
node.restServer.start()
if not(isNil(node.keymanagerServer)):
node.keymanagerServer.router.installKeymanagerHandlers(node)
if node.keymanagerServer != node.restServer:
node.keymanagerServer.start()
let
wallTime = node.beaconClock.now()
wallSlot = wallTime.slotOrZero()
node.requestManager.start()
node.syncManager.start()
if node.dag.needsBackfill(): asyncSpawn node.startBackfillTask()
waitFor node.updateGossipStatus(wallSlot)
asyncSpawn runSlotLoop(node, wallTime, onSlotStart)
asyncSpawn runOnSecondLoop(node)
asyncSpawn runQueueProcessingLoop(node.blockProcessor)
## Ctrl+C handling
proc controlCHandler() {.noconv.} =
when defined(windows):
# workaround for https://github.com/nim-lang/Nim/issues/4057
try:
setupForeignThreadGc()
except Exception as exc: raiseAssert exc.msg # shouldn't happen
notice "Shutting down after having received SIGINT"
bnStatus = BeaconNodeStatus.Stopping
try:
setControlCHook(controlCHandler)
except Exception as exc: # TODO Exception
warn "Cannot set ctrl-c handler", msg = exc.msg
# equivalent SIGTERM handler
when defined(posix):
proc SIGTERMHandler(signal: cint) {.noconv.} =
notice "Shutting down after having received SIGTERM"
bnStatus = BeaconNodeStatus.Stopping
c_signal(SIGTERM, SIGTERMHandler)
# main event loop
while bnStatus == BeaconNodeStatus.Running:
poll() # if poll fails, the network is broken
# time to say goodbye
node.stop()
var gPidFile: string
proc createPidFile(filename: string) {.raises: [Defect, IOError].} =
writeFile filename, $os.getCurrentProcessId()
gPidFile = filename
addQuitProc proc {.noconv.} = discard io2.removeFile(gPidFile)
proc initializeNetworking(node: BeaconNode) {.async.} =
node.installMessageValidators()
info "Listening to incoming network requests"
await node.network.startListening()
let addressFile = node.config.dataDir / "beacon_node.enr"
writeFile(addressFile, node.network.announcedENR.toURI)
await node.network.start()
proc start*(node: BeaconNode) {.raises: [Defect, CatchableError].} =
let
head = node.dag.head
finalizedHead = node.dag.finalizedHead
genesisTime = node.beaconClock.fromNow(start_beacon_time(Slot 0))
notice "Starting beacon node",
version = fullVersionStr,
enr = node.network.announcedENR.toURI,
peerId = $node.network.switch.peerInfo.peerId,
timeSinceFinalization =
node.beaconClock.now() - finalizedHead.slot.start_beacon_time(),
head = shortLog(head),
justified = shortLog(getStateField(
node.dag.headState, current_justified_checkpoint)),
finalized = shortLog(getStateField(
node.dag.headState, finalized_checkpoint)),
finalizedHead = shortLog(finalizedHead),
SLOTS_PER_EPOCH,
SECONDS_PER_SLOT,
SPEC_VERSION,
dataDir = node.config.dataDir.string,
validators = node.attachedValidators[].count
if genesisTime.inFuture:
notice "Waiting for genesis", genesisIn = genesisTime.offset
waitFor node.initializeNetworking()
if node.eth1Monitor != nil:
node.eth1Monitor.start()
else:
notice "Running without execution chain monitor, block producation partially disabled"
node.run()
func formatGwei(amount: uint64): string =
# TODO This is implemented in a quite a silly way.
# Better routines for formatting decimal numbers
# should exists somewhere else.
let
eth = amount div 1000000000
remainder = amount mod 1000000000
result = $eth
if remainder != 0:
result.add '.'
let remainderStr = $remainder
for i in remainderStr.len ..< 9:
result.add '0'
result.add remainderStr
while result[^1] == '0':
result.setLen(result.len - 1)
when not defined(windows):
proc initStatusBar(node: BeaconNode) {.raises: [Defect, ValueError].} =
if not isatty(stdout): return
if not node.config.statusBarEnabled: return
try:
enableTrueColors()
except Exception as exc: # TODO Exception
error "Couldn't enable colors", err = exc.msg
proc dataResolver(expr: string): string {.raises: [Defect].} =
template justified: untyped = node.dag.head.atEpochStart(
getStateField(
node.dag.headState, current_justified_checkpoint).epoch)
# TODO:
# We should introduce a general API for resolving dot expressions
# such as `db.latest_block.slot` or `metrics.connected_peers`.
# Such an API can be shared between the RPC back-end, CLI tools
# such as ncli, a potential GraphQL back-end and so on.
# The status bar feature would allow the user to specify an
# arbitrary expression that is resolvable through this API.
case expr.toLowerAscii
of "connected_peers":
$(node.connectedPeersCount)
of "head_root":
shortLog(node.dag.head.root)
of "head_epoch":
$(node.dag.head.slot.epoch)
of "head_epoch_slot":
$(node.dag.head.slot.since_epoch_start)
of "head_slot":
$(node.dag.head.slot)
of "justifed_root":
shortLog(justified.blck.root)
of "justifed_epoch":
$(justified.slot.epoch)
of "justifed_epoch_slot":
$(justified.slot.since_epoch_start)
of "justifed_slot":
$(justified.slot)
of "finalized_root":
shortLog(node.dag.finalizedHead.blck.root)
of "finalized_epoch":
$(node.dag.finalizedHead.slot.epoch)
of "finalized_epoch_slot":
$(node.dag.finalizedHead.slot.since_epoch_start)
of "finalized_slot":
$(node.dag.finalizedHead.slot)
of "epoch":
$node.currentSlot.epoch
of "epoch_slot":
$(node.currentSlot.since_epoch_start)
of "slot":
$node.currentSlot
of "slots_per_epoch":
$SLOTS_PER_EPOCH
of "slot_trailing_digits":
var slotStr = $node.currentSlot
if slotStr.len > 3: slotStr = slotStr[^3..^1]
slotStr
of "attached_validators_balance":
formatGwei(node.attachedValidatorBalanceTotal)
of "sync_status":
node.syncStatus()
else:
# We ignore typos for now and just render the expression
# as it was written. TODO: come up with a good way to show
# an error message to the user.
"$" & expr
var statusBar = StatusBarView.init(
node.config.statusBarContents,
dataResolver)
when compiles(defaultChroniclesStream.outputs[0].writer):
let tmp = defaultChroniclesStream.outputs[0].writer
defaultChroniclesStream.outputs[0].writer =
proc (logLevel: LogLevel, msg: LogOutputStr) {.raises: [Defect].} =
try:
# p.hidePrompt
erase statusBar
# p.writeLine msg
tmp(logLevel, msg)
render statusBar
# p.showPrompt
except Exception as e: # render raises Exception
logLoggingFailure(cstring(msg), e)
proc statusBarUpdatesPollingLoop() {.async.} =
try:
while true:
update statusBar
erase statusBar
render statusBar
await sleepAsync(chronos.seconds(1))
except CatchableError as exc:
warn "Failed to update status bar, no further updates", err = exc.msg
asyncSpawn statusBarUpdatesPollingLoop()
proc doRunBeaconNode(config: var BeaconNodeConf, rng: ref BrHmacDrbgContext) {.raises: [Defect, CatchableError].} =
info "Launching beacon node",
version = fullVersionStr,
bls_backend = $BLS_BACKEND,
cmdParams = commandLineParams(),
config
createPidFile(config.dataDir.string / "beacon_node.pid")
config.createDumpDirs()
if config.metricsEnabled:
let metricsAddress = config.metricsAddress
notice "Starting metrics HTTP server",
url = "http://" & $metricsAddress & ":" & $config.metricsPort & "/metrics"
try:
startMetricsHttpServer($metricsAddress, config.metricsPort)
except CatchableError as exc:
raise exc
except Exception as exc:
raiseAssert exc.msg # TODO fix metrics
# Nim GC metrics (for the main thread) will be collected in onSecond(), but
# we disable piggy-backing on other metrics here.
setSystemMetricsAutomaticUpdate(false)
# There are no managed event loops in here, to do a graceful shutdown, but
# letting the default Ctrl+C handler exit is safe, since we only read from
# the db.
var metadata = config.loadEth2Network()
if config.terminalTotalDifficultyOverride.isSome:
metadata.cfg.TERMINAL_TOTAL_DIFFICULTY =
parse(config.terminalTotalDifficultyOverride.get, UInt256, 10)
# Updating the config based on the metadata certainly is not beautiful but it
# works
for node in metadata.bootstrapNodes:
config.bootstrapNodes.add node
if config.serveLightClientData.isNone:
if metadata.configDefaults.serveLightClientData:
info "Applying network config default",
serveLightClientData = metadata.configDefaults.serveLightClientData,
eth2Network = config.eth2Network
config.serveLightClientData =
some metadata.configDefaults.serveLightClientData
if config.importLightClientData.isNone:
if metadata.configDefaults.importLightClientData !=
ImportLightClientData.None:
info "Applying network config default",
importLightClientData = metadata.configDefaults.importLightClientData,
eth2Network = config.eth2Network
config.importLightClientData =
some metadata.configDefaults.importLightClientData
let node = BeaconNode.init(
metadata.cfg,
rng,
config,
metadata.depositContractDeployedAt,
metadata.eth1Network,
metadata.genesisData,
metadata.genesisDepositsSnapshot)
if bnStatus == BeaconNodeStatus.Stopping:
return
when not defined(windows):
# This status bar can lock a Windows terminal emulator, blocking the whole
# event loop (seen on Windows 10, with a default MSYS2 terminal).
initStatusBar(node)
if node.nickname != "":
dynamicLogScope(node = node.nickname): node.start()
else:
node.start()
proc doCreateTestnet*(config: BeaconNodeConf, rng: var BrHmacDrbgContext) {.raises: [Defect, CatchableError].} =
let launchPadDeposits = try:
Json.loadFile(config.testnetDepositsFile.string, seq[LaunchPadDeposit])
except SerializationError as err:
error "Invalid LaunchPad deposits file",
err = formatMsg(err, config.testnetDepositsFile.string)
quit 1
var deposits: seq[DepositData]
for i in 0 ..< launchPadDeposits.len:
deposits.add(launchPadDeposits[i] as DepositData)
let
startTime = uint64(times.toUnix(times.getTime()) + config.genesisOffset)
outGenesis = config.outputGenesis.string
eth1Hash = if config.web3Urls.len == 0: eth1BlockHash
else: (waitFor getEth1BlockHash(
config.web3Urls[0], blockId("latest"),
block:
let jwtSecret = rng.checkJwtSecret(
string(config.dataDir), config.jwtSecret)
if jwtSecret.isErr:
fatal "Specified a JWT secret file which couldn't be loaded",
err = jwtSecret.error
quit 1
some jwtSecret.get)).asEth2Digest
cfg = getRuntimeConfig(config.eth2Network)
var
initialState = newClone(initialize_beacon_state_from_eth1(
cfg, eth1Hash, startTime, deposits, {skipBlsValidation}))
# https://github.com/ethereum/eth2.0-pm/tree/6e41fcf383ebeb5125938850d8e9b4e9888389b4/interop/mocked_start#create-genesis-state
initialState.genesis_time = startTime
doAssert initialState.validators.len > 0
let outGenesisExt = splitFile(outGenesis).ext
if cmpIgnoreCase(outGenesisExt, ".json") == 0:
Json.saveFile(outGenesis, initialState, pretty = true)
echo "Wrote ", outGenesis
let outSszGenesis = outGenesis.changeFileExt "ssz"
SSZ.saveFile(outSszGenesis, initialState[])
echo "Wrote ", outSszGenesis
let bootstrapFile = config.outputBootstrapFile.string
if bootstrapFile.len > 0:
type MetaData = altair.MetaData
let
networkKeys = getPersistentNetKeys(rng, config)
netMetadata = MetaData()
forkId = getENRForkID(
cfg,
initialState[].slot.epoch,
initialState[].genesis_validators_root)
bootstrapEnr = enr.Record.init(
1, # sequence number
networkKeys.seckey.asEthKey,
some(config.bootstrapAddress),
some(config.bootstrapPort),
some(config.bootstrapPort),
[
toFieldPair(enrForkIdField, SSZ.encode(forkId)),
toFieldPair(enrAttestationSubnetsField, SSZ.encode(netMetadata.attnets))
])
writeFile(bootstrapFile, bootstrapEnr.tryGet().toURI)
echo "Wrote ", bootstrapFile
proc doRecord(config: BeaconNodeConf, rng: var BrHmacDrbgContext) {.
raises: [Defect, CatchableError].} =
case config.recordCmd:
of RecordCmd.create:
let netKeys = getPersistentNetKeys(rng, config)
var fieldPairs: seq[FieldPair]
for field in config.fields:
let fieldPair = field.split(":")
if fieldPair.len > 1:
fieldPairs.add(toFieldPair(fieldPair[0], hexToSeqByte(fieldPair[1])))
else:
fatal "Invalid field pair"
quit QuitFailure
let record = enr.Record.init(
config.seqNumber,
netKeys.seckey.asEthKey,
some(config.ipExt),
some(config.tcpPortExt),
some(config.udpPortExt),
fieldPairs).expect("Record within size limits")
echo record.toURI()
of RecordCmd.print:
echo $config.recordPrint
proc doWeb3Cmd(config: BeaconNodeConf, rng: var BrHmacDrbgContext)
{.raises: [Defect, CatchableError].} =
case config.web3Cmd:
of Web3Cmd.test:
let metadata = config.loadEth2Network()
waitFor testWeb3Provider(config.web3TestUrl,
metadata.cfg.DEPOSIT_CONTRACT_ADDRESS,
block:
let jwtSecret = rng.checkJwtSecret(
string(config.dataDir), config.jwtSecret)
if jwtSecret.isErr:
fatal "Specified a JWT secret file which couldn't be loaded",
err = jwtSecret.error
quit 1
some jwtSecret.get)
proc doSlashingExport(conf: BeaconNodeConf) {.raises: [IOError, Defect].}=
let
dir = conf.validatorsDir()
filetrunc = SlashingDbName
# TODO: Make it read-only https://github.com/status-im/nim-eth/issues/312
let db = SlashingProtectionDB.loadUnchecked(dir, filetrunc, readOnly = false)
let interchange = conf.exportedInterchangeFile.string
db.exportSlashingInterchange(interchange, conf.exportedValidators)
echo "Export finished: '", dir/filetrunc & ".sqlite3" , "' into '", interchange, "'"
proc doSlashingImport(conf: BeaconNodeConf) {.raises: [SerializationError, IOError, Defect].} =
let
dir = conf.validatorsDir()
filetrunc = SlashingDbName
# TODO: Make it read-only https://github.com/status-im/nim-eth/issues/312
let interchange = conf.importedInterchangeFile.string
var spdir: SPDIR
try:
spdir = Json.loadFile(interchange, SPDIR)
except SerializationError as err:
writeStackTrace()
stderr.write $Json & " load issue for file \"", interchange, "\"\n"
stderr.write err.formatMsg(interchange), "\n"
quit 1
# Open DB and handle migration from v1 to v2 if needed
let db = SlashingProtectionDB.init(
genesis_validators_root = Eth2Digest spdir.metadata.genesis_validators_root,
basePath = dir,
dbname = filetrunc,
modes = {kCompleteArchive}
)
# Now import the slashing interchange file
# Failures mode:
# - siError can only happen with invalid genesis_validators_root which would be caught above
# - siPartial can happen for invalid public keys, slashable blocks, slashable votes
let status = db.inclSPDIR(spdir)
doAssert status in {siSuccess, siPartial}
echo "Import finished: '", interchange, "' into '", dir/filetrunc & ".sqlite3", "'"
proc doSlashingInterchange(conf: BeaconNodeConf) {.raises: [Defect, CatchableError].} =
case conf.slashingdbCmd
of SlashProtCmd.`export`:
conf.doSlashingExport()
of SlashProtCmd.`import`:
conf.doSlashingImport()
proc handleStartUpCmd(config: var BeaconNodeConf) {.raises: [Defect, CatchableError].} =
# Single RNG instance for the application - will be seeded on construction
# and avoid using system resources (such as urandom) after that
let rng = keys.newRng()
case config.cmd
of BNStartUpCmd.createTestnet: doCreateTestnet(config, rng[])
of BNStartUpCmd.noCommand: doRunBeaconNode(config, rng)
of BNStartUpCmd.deposits: doDeposits(config, rng[])
of BNStartUpCmd.wallets: doWallets(config, rng[])
of BNStartUpCmd.record: doRecord(config, rng[])
of BNStartUpCmd.web3: doWeb3Cmd(config, rng[])
of BNStartUpCmd.slashingdb: doSlashingInterchange(config)
of BNStartUpCmd.trustedNodeSync:
let
network = loadEth2Network(config)
cfg = network.cfg
genesis =
if network.genesisData.len > 0:
newClone(readSszForkedHashedBeaconState(
cfg,
network.genesisData.toOpenArrayByte(0, network.genesisData.high())))
else: nil
waitFor doTrustedNodeSync(
cfg,
config.databaseDir,
config.trustedNodeUrl,
config.blockId,
config.backfillBlocks,
config.reindex,
genesis)
{.pop.} # TODO moduletests exceptions
when defined(windows):
proc reportServiceStatus*(dwCurrentState, dwWin32ExitCode, dwWaitHint: DWORD) {.gcsafe.} =
gSvcStatus.dwCurrentState = dwCurrentState
gSvcStatus.dwWin32ExitCode = dwWin32ExitCode
gSvcStatus.dwWaitHint = dwWaitHint
if dwCurrentState == SERVICE_START_PENDING:
gSvcStatus.dwControlsAccepted = 0
else:
gSvcStatus.dwControlsAccepted = SERVICE_ACCEPT_STOP
# TODO
# We can use non-zero values for the `dwCheckPoint` parameter to report
# progress during lengthy operations such as start-up and shut down.
gSvcStatus.dwCheckPoint = 0
# Report the status of the service to the SCM.
let status = SetServiceStatus(gSvcStatusHandle, addr gSvcStatus)
debug "Service status updated", status
proc serviceControlHandler(dwCtrl: DWORD): WINBOOL {.stdcall.} =
case dwCtrl
of SERVICE_CONTROL_STOP:
# We re reporting that we plan stop the service in 10 seconds
reportServiceStatus(SERVICE_STOP_PENDING, NO_ERROR, 10_000)
bnStatus = BeaconNodeStatus.Stopping
of SERVICE_CONTROL_PAUSE, SERVICE_CONTROL_CONTINUE:
warn "The Nimbus service cannot be paused and resimed"
of SERVICE_CONTROL_INTERROGATE:
# The default behavior is correct.
# The service control manager will report our last status.
discard
else:
debug "Service received an unexpected user-defined control message",
msg = dwCtrl
proc serviceMainFunction(dwArgc: DWORD, lpszArgv: LPSTR) {.stdcall.} =
# The service is launched in a fresh thread created by Windows, so
# we must initialize the Nim GC here
setupForeignThreadGc()
gSvcStatusHandle = RegisterServiceCtrlHandler(
SERVICE_NAME,
serviceControlHandler)
gSvcStatus.dwServiceType = SERVICE_WIN32_OWN_PROCESS
gSvcStatus.dwServiceSpecificExitCode = 0
reportServiceStatus(SERVICE_RUNNING, NO_ERROR, 0)
info "Service thread started"
var config = makeBannerAndConfig(clientId, BeaconNodeConf)
handleStartUpCmd(config)
info "Service thread stopped"
reportServiceStatus(SERVICE_STOPPED, NO_ERROR, 0) # we have to report back when we stopped!
programMain:
var
config = makeBannerAndConfig(clientId, BeaconNodeConf)
if not(checkAndCreateDataDir(string(config.dataDir))):
# We are unable to access/create data folder or data folder's
# permissions are insecure.
quit QuitFailure
setupLogging(config.logLevel, config.logStdout, config.logFile)
## This Ctrl+C handler exits the program in non-graceful way.
## It's responsible for handling Ctrl+C in sub-commands such
## as `wallets *` and `deposits *`. In a regular beacon node
## run, it will be overwritten later with a different handler
## performing a graceful exit.
proc exitImmediatelyOnCtrlC() {.noconv.} =
when defined(windows):
# workaround for https://github.com/nim-lang/Nim/issues/4057
setupForeignThreadGc()
# in case a password prompt disabled echoing
resetStdin()
echo "" # If we interrupt during an interactive prompt, this
# will move the cursor to the next line
notice "Shutting down after having received SIGINT"
quit 0
setControlCHook(exitImmediatelyOnCtrlC)
# equivalent SIGTERM handler
when defined(posix):
proc exitImmediatelyOnSIGTERM(signal: cint) {.noconv.} =
notice "Shutting down after having received SIGTERM"
quit 0
c_signal(SIGTERM, exitImmediatelyOnSIGTERM)
when defined(windows):
if config.runAsService:
var dispatchTable = [
SERVICE_TABLE_ENTRY(lpServiceName: SERVICE_NAME, lpServiceProc: serviceMainFunction),
SERVICE_TABLE_ENTRY(lpServiceName: nil, lpServiceProc: nil) # last entry must be nil
]
let status = StartServiceCtrlDispatcher(LPSERVICE_TABLE_ENTRY(addr dispatchTable[0]))
if status == 0:
fatal "Failed to start Windows service", errorCode = getLastError()
quit 1
else:
handleStartUpCmd(config)
else:
handleStartUpCmd(config)