import # Standard library net, sequtils, tables, osproc, random, strutils, times, strformat, # Nimble packages stew/shims/os, stew/[objects, bitseqs], chronos, chronicles, confutils, metrics, json_serialization/std/[options, sets], serialization/errors, eth/trie/db, eth/trie/backends/rocksdb_backend, eth/async_utils, # Local modules spec/[datatypes, digest, crypto, beaconstate, helpers, validator, network], conf, time, state_transition, fork_choice, ssz, beacon_chain_db, validator_pool, extras, attestation_pool, block_pool, eth2_network, beacon_node_types, mainchain_monitor, version, sync_protocol, request_manager, validator_keygen, interop, statusbar const dataDirValidators = "validators" networkMetadataFile = "network.json" genesisFile = "genesis.json" testnetsBaseUrl = "https://serenity-testnets.status.im" hasPrompt = not defined(withoutPrompt) # 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_head_slot, "Slot of the head block of the beacon chain" declareGauge beacon_head_root, "Root of the head block of the beacon chain" # https://github.com/ethereum/eth2.0-metrics/blob/master/metrics.md#additional-metrics declareGauge beacon_pending_exits, "Number of pending voluntary exits in local operation pool" # On slot # Metrics for tracking attestation and beacon block loss declareCounter beacon_attestations_sent, "Number of beacon chain attestations sent by this peer" declareCounter beacon_attestations_received, "Number of beacon chain attestations received by this peer" declareCounter beacon_blocks_proposed, "Number of beacon chain blocks sent by this peer" declareCounter beacon_blocks_received, "Number of beacon chain blocks received by this peer" logScope: topics = "beacnde" proc onBeaconBlock*(node: BeaconNode, blck: BeaconBlock) {.gcsafe.} func localValidatorsDir(conf: BeaconNodeConf): string = conf.dataDir / "validators" func databaseDir(conf: BeaconNodeConf): string = conf.dataDir / "db" template `//`(url, fragment: string): string = url & "/" & fragment proc downloadFile(url: string): Future[string] {.async.} = # TODO We need a proper HTTP client able to perform HTTPS downloads let tempFile = getTempDir() / "nimbus.download" let cmd = "curl --fail -o " & quoteShell(tempFile) & " " & url let (fileContents, errorCode) = execCmdEx(cmd, options = {poUsePath}) if errorCode != 0: raise newException(IOError, "Failed external command: '" & cmd & "', exit code: " & $errorCode & ", output: '" & fileContents & "'") return readFile(tempFile) proc updateTestnetMetadata(conf: BeaconNodeConf): Future[NetworkMetadata] {.async.} = let metadataUrl = testnetsBaseUrl // $conf.network // networkMetadataFile let latestMetadata = await downloadFile(metadataUrl) try: result = Json.decode(latestMetadata, NetworkMetadata) except SerializationError as err: stderr.write "Error while loading the testnet metadata. Your client my be out of date.\n" stderr.write err.formatMsg(metadataUrl), "\n" stderr.write "Please follow the instructions at https://github.com/status-im/nim-beacon-chain " & "in order to produce an up-to-date build.\n" quit 1 let localMetadataFile = conf.dataDir / networkMetadataFile if fileExists(localMetadataFile) and readFile(localMetadataFile).string == latestMetadata: return info "New testnet genesis data received. Starting with a fresh database." createDir conf.dataDir.string removeDir conf.databaseDir writeFile localMetadataFile, latestMetadata let newGenesis = await downloadFile(testnetsBaseUrl // $conf.network // genesisFile) writeFile conf.dataDir / genesisFile, newGenesis proc obtainTestnetKey(conf: BeaconNodeConf): Future[(string, string)] {.async.} = let metadata = await updateTestnetMetadata(conf) privKeyName = validatorFileBaseName(rand(metadata.userValidatorsRange)) & ".privkey" privKeyUrl = testnetsBaseUrl // $conf.network // privKeyName privKeyContent = strip await downloadFile(privKeyUrl) let key = ValidatorPrivKey.init(privKeyContent) return (privKeyName, privKeyContent) proc saveValidatorKey(keyName, key: string, conf: BeaconNodeConf) = let validatorsDir = conf.dataDir / dataDirValidators let outputFile = validatorsDir / keyName createDir validatorsDir writeFile(outputFile, key) info "Imported validator key", file = outputFile proc initGenesis(node: BeaconNode) {.async.} = template conf: untyped = node.config var tailState: BeaconState if conf.depositWeb3Url.len != 0: info "Waiting for genesis state from eth1" tailState = await node.mainchainMonitor.getGenesis() else: var snapshotFile = conf.dataDir / genesisFile try: if conf.stateSnapshot.isSome: snapshotFile = conf.stateSnapshot.get.string if not fileExists(snapshotFile): error "Nimbus database not initialized. Please specify the initial state snapshot file." quit 1 template loadSnapshot(Format) = info "Importing snapshot file", path = snapshotFile tailState = loadFile(Format, snapshotFile, BeaconState) let ext = splitFile(snapshotFile).ext if cmpIgnoreCase(ext, ".ssz") == 0: loadSnapshot SSZ elif cmpIgnoreCase(ext, ".json") == 0: loadSnapshot Json else: error "The --stateSnapshot option expects a json or a ssz file." quit 1 except SerializationError as err: stderr.write "Failed to import ", snapshotFile, "\n" stderr.write err.formatMsg(snapshotFile), "\n" quit 1 info "Got genesis state", hash = hash_tree_root(tailState) node.forkVersion = tailState.fork.current_version try: let tailBlock = get_initial_beacon_block(tailState) BlockPool.preInit(node.db, tailState, tailBlock) except: stderr.write "Failed to initialize database\n" stderr.write getCurrentExceptionMsg(), "\n" quit 1 proc init*(T: type BeaconNode, conf: BeaconNodeConf): Future[BeaconNode] {.async.} = new result result.onBeaconBlock = onBeaconBlock result.config = conf result.networkIdentity = getPersistentNetIdentity(conf) result.nickname = if conf.nodename == "auto": shortForm(result.networkIdentity) else: conf.nodename template fail(args: varargs[untyped]) = stderr.write args, "\n" quit 1 if not conf.quickStart: case conf.network of "mainnet": fail "The Serenity mainnet hasn't been launched yet" of "testnet0", "testnet1": result.networkMetadata = await updateTestnetMetadata(conf) else: try: result.networkMetadata = Json.loadFile(conf.network, NetworkMetadata) except SerializationError as err: fail "Failed to load network metadata: \n", err.formatMsg(conf.network) var metadataErrorMsg = "" template checkCompatibility(metadataField, LOCAL_CONSTANT) = let metadataValue = metadataField if metadataValue != LOCAL_CONSTANT: if metadataErrorMsg.len > 0: metadataErrorMsg.add " and" metadataErrorMsg.add " -d:" & astToStr(LOCAL_CONSTANT) & "=" & $metadataValue & " (instead of " & $LOCAL_CONSTANT & ")" if result.networkMetadata.networkGeneration != semanticVersion: let newerVersionRequired = result.networkMetadata.networkGeneration.int > semanticVersion let newerOrOlder = if newerVersionRequired: "a newer" else: "an older" stderr.write &"Connecting to '{conf.network}' requires {newerOrOlder} version of Nimbus. " if newerVersionRequired: stderr.write "Please follow the instructions at https://github.com/status-im/nim-beacon-chain " & "in order to produce an up-to-date build.\n" quit 1 checkCompatibility result.networkMetadata.numShards , SHARD_COUNT checkCompatibility result.networkMetadata.slotDuration , SECONDS_PER_SLOT checkCompatibility result.networkMetadata.slotsPerEpoch , SLOTS_PER_EPOCH if metadataErrorMsg.len > 0: fail "To connect to the ", conf.network, " network, please compile with", metadataErrorMsg for bootNode in result.networkMetadata.bootstrapNodes: if bootNode.isSameNode(result.networkIdentity): result.isBootstrapNode = true else: result.bootstrapNodes.add bootNode for bootNode in conf.bootstrapNodes: result.bootstrapNodes.add BootstrapAddr.init(bootNode) let bootstrapFile = string conf.bootstrapNodesFile if bootstrapFile.len > 0: for ln in lines(bootstrapFile): result.bootstrapNodes.add BootstrapAddr.init(string ln) result.attachedValidators = ValidatorPool.init if conf.depositWeb3Url.len != 0: result.mainchainMonitor = MainchainMonitor.init(conf.depositWeb3Url, conf.depositContractAddress) result.mainchainMonitor.start() let trieDB = trieDB newChainDb(string conf.databaseDir) result.db = BeaconChainDB.init(trieDB) # TODO this is problably not the right place to ensure that db is sane.. # TODO does it really make sense to load from DB if a state snapshot has been # specified on command line? potentially, this should be the other way # around... if result.db.getHeadBlock().isNone(): await result.initGenesis() result.blockPool = BlockPool.init(result.db) result.attestationPool = AttestationPool.init(result.blockPool) result.network = await createEth2Node(conf, result.bootstrapNodes) result.requestManager.init result.network # TODO sync is called when a remote peer is connected - is that the right # time to do so? let sync = result.network.protocolState(BeaconSync) sync.node = result sync.db = result.db result.stateCache = result.blockPool.loadTailState() result.justifiedStateCache = result.stateCache let addressFile = string(conf.dataDir) / "beacon_node.address" result.network.saveConnectionAddressFile(addressFile) result.beaconClock = BeaconClock.init(result.stateCache.data.data) when useInsecureFeatures: if conf.metricsServer: let metricsAddress = conf.metricsServerAddress info "Starting metrics HTTP server", address = metricsAddress, port = conf.metricsServerPort metrics.startHttpServer(metricsAddress, Port(conf.metricsServerPort)) template withState( pool: BlockPool, cache: var StateData, blockSlot: BlockSlot, body: untyped): untyped = ## Helper template that updates state to a particular BlockSlot - usage of ## cache is unsafe outside of block. ## TODO async transformations will lead to a race where cache gets updated ## while waiting for future to complete - catch this here somehow? updateStateData(pool, cache, blockSlot) template hashedState(): HashedBeaconState {.inject.} = cache.data template state(): BeaconState {.inject.} = cache.data.data template blck(): BlockRef {.inject.} = cache.blck template root(): Eth2Digest {.inject.} = cache.data.root body proc connectToNetwork(node: BeaconNode) {.async.} = if node.bootstrapNodes.len > 0: info "Connecting to bootstrap nodes", bootstrapNodes = node.bootstrapNodes else: info "Waiting for connections" await node.network.connectToNetwork(node.bootstrapNodes) template findIt(s: openarray, predicate: untyped): int = var res = -1 for i, it {.inject.} in s: if predicate: res = i break res proc addLocalValidator( node: BeaconNode, state: BeaconState, privKey: ValidatorPrivKey) = let pubKey = privKey.pubKey() let idx = state.validators.findIt(it.pubKey == pubKey) if idx == -1: warn "Validator not in registry", pubKey else: node.attachedValidators.addLocalValidator(ValidatorIndex(idx), pubKey, privKey) proc addLocalValidators(node: BeaconNode, state: BeaconState) = for validatorKeyFile in node.config.validators: node.addLocalValidator state, validatorKeyFile.load for kind, file in walkDir(node.config.localValidatorsDir): if kind in {pcFile, pcLinkToFile}: node.addLocalValidator state, ValidatorPrivKey.init(readFile(file).string) info "Local validators attached ", count = node.attachedValidators.count proc getAttachedValidator(node: BeaconNode, state: BeaconState, idx: ValidatorIndex): AttachedValidator = let validatorKey = state.validators[idx].pubkey node.attachedValidators.getValidator(validatorKey) proc updateHead(node: BeaconNode, slot: Slot): BlockRef = # Use head state for attestation resolution below # Check pending attestations - maybe we found some blocks for them node.attestationPool.resolve(node.stateCache) # TODO move all of this logic to BlockPool let justifiedHead = node.blockPool.latestJustifiedBlock() let newHead = node.blockPool.withState( node.justifiedStateCache, justifiedHead): lmdGhost(node.attestationPool, state, justifiedHead.blck) node.blockPool.updateHead(node.stateCache, newHead) beacon_head_slot.set slot.int64 beacon_head_root.set newHead.root.toGaugeValue newHead proc sendAttestation(node: BeaconNode, state: BeaconState, validator: AttachedValidator, attestationData: AttestationData, committeeLen: int, indexInCommittee: int) {.async.} = logScope: pcs = "send_attestation" let validatorSignature = await validator.signAttestation(attestationData, state) var aggregationBits = CommitteeValidatorsBits.init(committeeLen) aggregationBits.raiseBit indexInCommittee var attestation = Attestation( data: attestationData, signature: validatorSignature, aggregation_bits: aggregationBits, # Stub in phase0 custody_bits: CommitteeValidatorsBits.init(committeeLen) ) node.network.broadcast(topicAttestations, attestation) info "Attestation sent", attestationData = shortLog(attestationData), validator = shortLog(validator), signature = shortLog(validatorSignature), indexInCommittee = indexInCommittee, cat = "consensus" beacon_attestations_sent.inc() proc proposeBlock(node: BeaconNode, validator: AttachedValidator, head: BlockRef, slot: Slot): Future[BlockRef] {.async.} = logScope: pcs = "block_proposal" if head.slot > slot: notice "Skipping proposal, we've already selected a newer head", headSlot = shortLog(head.slot), headBlockRoot = shortLog(head.root), slot = shortLog(slot), cat = "fastforward" return head if head.slot == slot: # Weird, we should never see as head the same slot as we're proposing a # block for - did someone else steal our slot? why didn't we discard it? warn "Found head at same slot as we're supposed to propose for!", headSlot = shortLog(head.slot), headBlockRoot = shortLog(head.root), cat = "consensus_conflict" # TODO investigate how and when this happens.. maybe it shouldn't be an # assert? doAssert false, "head slot matches proposal slot (!)" # return # Get eth1data which may be async # TODO it's a bad idea to get eth1data async because that might delay block # production let (eth1data, deposits) = node.blockPool.withState( node.stateCache, BlockSlot(blck: head, slot: slot - 1)): if node.mainchainMonitor.isNil: let e1d = get_eth1data_stub( state.eth1_deposit_index, slot.compute_epoch_of_slot()) (e1d, newSeq[Deposit]()) else: let e1d = await node.mainchainMonitor.getBeaconBlockRef() (e1d, node.mainchainMonitor.getPendingDeposits()) let (nroot, nblck) = node.blockPool.withState( node.stateCache, BlockSlot(blck: head, slot: slot - 1)): # To create a block, we'll first apply a partial block to the state, skipping # some validations. let blockBody = BeaconBlockBody( randao_reveal: validator.genRandaoReveal(state, slot), eth1_data: eth1data, attestations: node.attestationPool.getAttestationsForBlock(state, slot), deposits: deposits) var newBlock = BeaconBlock( slot: slot, parent_root: head.root, body: blockBody, # TODO: This shouldn't be necessary if OpaqueBlob is the default signature: ValidatorSig(kind: OpaqueBlob)) var tmpState = hashedState cache = get_empty_per_epoch_cache() let ok = state_transition(tmpState, newBlock, {skipValidation}) # TODO only enable in fast-fail debugging situations # otherwise, bad attestations can bring down network # doAssert ok # TODO: err, could this fail somehow? newBlock.state_root = tmpState.root let blockRoot = signing_root(newBlock) # Careful, state no longer valid after here.. newBlock.signature = await validator.signBlockProposal(state, slot, blockRoot) (blockRoot, newBlock) let newBlockRef = node.blockPool.add(node.stateCache, nroot, nblck) if newBlockRef == nil: warn "Unable to add proposed block to block pool", newBlock = shortLog(newBlock), blockRoot = shortLog(blockRoot), cat = "bug" return head info "Block proposed", blck = shortLog(newBlock), blockRoot = shortLog(newBlockRef.root), validator = shortLog(validator), cat = "consensus" node.network.broadcast(topicBeaconBlocks, newBlock) beacon_blocks_proposed.inc() return newBlockRef proc onAttestation(node: BeaconNode, attestation: Attestation) = # We received an attestation from the network but don't know much about it # yet - in particular, we haven't verified that it belongs to particular chain # we're on, or that it follows the rules of the protocol logScope: pcs = "on_attestation" debug "Attestation received", attestationData = shortLog(attestation.data), signature = shortLog(attestation.signature), cat = "consensus" # Tag "consensus|attestation"? if (let attestedBlock = node.blockPool.getOrResolve( attestation.data.beacon_block_root); attestedBlock != nil): let wallSlot = node.beaconClock.now().toSlot() head = node.blockPool.head if not wallSlot.afterGenesis or wallSlot.slot < head.blck.slot: warn "Received attestation before genesis or head - clock is wrong?", afterGenesis = wallSlot.afterGenesis, wallSlot = shortLog(wallSlot.slot), headSlot = shortLog(head.blck.slot), cat = "clock_drift" # Tag "attestation|clock_drift"? return # TODO seems reasonable to use the latest head state here.. needs thinking # though - maybe we should use the state from the block pointed to by # the attestation for some of the check? Consider interop with block # production! let bs = BlockSlot(blck: head.blck, slot: wallSlot.slot) node.blockPool.withState(node.stateCache, bs): node.attestationPool.add(state, attestedBlock, attestation) else: node.attestationPool.addUnresolved(attestation) proc onBeaconBlock(node: BeaconNode, blck: BeaconBlock) = # We received a block but don't know much about it yet - in particular, we # don't know if it's part of the chain we're currently building. let blockRoot = signing_root(blck) debug "Block received", blck = shortLog(blck), blockRoot = shortLog(blockRoot), cat = "block_listener", pcs = "receive_block" beacon_blocks_received.inc() if node.blockPool.add(node.stateCache, blockRoot, blck).isNil: return # The block we received contains attestations, and we might not yet know about # all of them. Let's add them to the attestation pool - in case they block # is not yet resolved, neither will the attestations be! # TODO shouldn't add attestations if the block turns out to be invalid.. for attestation in blck.body.attestations: node.onAttestation(attestation) proc handleAttestations(node: BeaconNode, head: BlockRef, slot: Slot) = ## Perform all attestations that the validators attached to this node should ## perform during the given slot logScope: pcs = "on_attestation" if slot + SLOTS_PER_EPOCH < head.slot: # The latest block we know about is a lot newer than the slot we're being # asked to attest to - this makes it unlikely that it will be included # at all. # TODO the oldest attestations allowed are those that are older than the # finalized epoch.. also, it seems that posting very old attestations # is risky from a slashing perspective. More work is needed here. notice "Skipping attestation, head is too recent", headSlot = shortLog(head.slot), slot = shortLog(slot) return let attestationHead = head.findAncestorBySlot(slot) if head != attestationHead.blck: # In rare cases, such as when we're busy syncing or just slow, we'll be # attesting to a past state - we must then recreate the world as it looked # like back then notice "Attesting to a state in the past, falling behind?", headSlot = shortLog(head.slot), attestationHeadSlot = shortLog(attestationHead.slot), attestationSlot = shortLog(slot) trace "Checking attestations", attestationHeadRoot = shortLog(attestationHead.blck.root), attestationSlot = shortLog(slot), cat = "attestation" # Collect data to send before node.stateCache grows stale var attestations: seq[tuple[ data: AttestationData, committeeLen, indexInCommittee: int, validator: AttachedValidator]] # We need to run attestations exactly for the slot that we're attesting to. # In case blocks went missing, this means advancing past the latest block # using empty slots as fillers. # https://github.com/ethereum/eth2.0-specs/blob/v0.8.4/specs/validator/0_beacon-chain-validator.md#validator-assignments # TODO we could cache the validator assignment since it's valid for the entire # epoch since it doesn't change, but that has to be weighed against # the complexity of handling forks correctly - instead, we use an adapted # version here that calculates the committee for a single slot only node.blockPool.withState(node.stateCache, attestationHead): var cache = get_empty_per_epoch_cache() let epoch = compute_epoch_of_slot(slot) committees_per_slot = get_committee_count(state, epoch) div SLOTS_PER_EPOCH start_slot = compute_start_slot_of_epoch(epoch) offset = committees_per_slot * (slot mod SLOTS_PER_EPOCH) slot_start_shard = (get_start_shard(state, epoch) + offset) mod SHARD_COUNT for i in 0'u64.. lastSlot + SLOTS_PER_EPOCH: # We've fallen behind more than an epoch - there's nothing clever we can # do here really, except skip all the work and try again later. # TODO how long should the period be? Using an epoch because that's roughly # how long attestations remain interesting # TODO should we shut down instead? clearly we're unable to keep up warn "Unable to keep up, skipping ahead without doing work", lastSlot = shortLog(lastSlot), slot = shortLog(slot), scheduledSlot = shortLog(scheduledSlot), cat = "overload" addTimer(saturate(node.beaconClock.fromNow(nextSlot))) do (p: pointer): # We pass the current slot here to indicate that work should be skipped! asyncCheck node.onSlotStart(slot, nextSlot) return # Whatever we do during the slot, we need to know the head, because this will # give us a state to work with and thus a shuffling. # TODO typically, what consitutes correct actions stays constant between slot # updates and is stable across some epoch transitions as well - see how # we can avoid recalculating everything here var head = node.updateHead(slot) # TODO if the head is very old, that is indicative of something being very # wrong - us being out of sync or disconnected from the network - need # to consider what to do in that case: # * nothing - the other parts of the application will reconnect and # start listening to broadcasts, learn a new head etc.. # risky, because the network might stall if everyone does # this, because no blocks will be produced # * shut down - this allows the user to notice and take action, but is # kind of harsh # * keep going - we create blocks and attestations as usual and send them # out - if network conditions improve, fork choice should # eventually select the correct head and the rest will # disappear naturally - risky because user is not aware, # and might lose stake on canonical chain but "just works" # when reconnected.. # Right now, we keep going var curSlot = lastSlot + 1 while curSlot < slot: # Timers may be delayed because we're busy processing, and we might have # more work to do. We'll try to do so in an expedited way. # TODO maybe even collect all work synchronously to avoid unnecessary # state rewinds while waiting for async operations like validator # signature.. notice "Catching up", curSlot = shortLog(curSlot), lastSlot = shortLog(lastSlot), slot = shortLog(slot), cat = "overload" # For every slot we're catching up, we'll propose then send # attestations - head should normally be advancing along the same branch # in this case # TODO what if we receive blocks / attestations while doing this work? head = await handleProposal(node, head, curSlot) # For each slot we missed, we need to send out attestations - if we were # proposing during this time, we'll use the newly proposed head, else just # keep reusing the same - the attestation that goes out will actually # rewind the state to what it looked like at the time of that slot # TODO smells like there's an optimization opportunity here handleAttestations(node, head, curSlot) curSlot += 1 head = await handleProposal(node, head, slot) # We've been doing lots of work up until now which took time. Normally, we # send out attestations at the slot mid-point, so we go back to the clock # to see how much time we need to wait. # TODO the beacon clock might jump here also. It's probably easier to complete # the work for the whole slot using a monotonic clock instead, then deal # with any clock discrepancies once only, at the start of slot timer # processing.. let attestationStart = node.beaconClock.fromNow(slot) halfSlot = seconds(int64(SECONDS_PER_SLOT div 2)) if attestationStart.inFuture or attestationStart.offset <= halfSlot: let fromNow = if attestationStart.inFuture: attestationStart.offset + halfSlot else: halfSlot - attestationStart.offset trace "Waiting to send attestations", slot = shortLog(slot), fromNow = shortLog(fromNow), cat = "scheduling" await sleepAsync(fromNow) # Time passed - we might need to select a new head in that case head = node.updateHead(slot) handleAttestations(node, head, slot) # TODO ... and beacon clock might jump here also. sigh. let nextSlotStart = saturate(node.beaconClock.fromNow(nextSlot)) addTimer(nextSlotStart) do (p: pointer): asyncCheck node.onSlotStart(slot, nextSlot) proc onSecond(node: BeaconNode, moment: Moment) {.async.} = let missingBlocks = node.blockPool.checkMissing() if missingBlocks.len > 0: info "Requesting detected missing blocks", missingBlocks node.requestManager.fetchAncestorBlocks(missingBlocks) do (b: BeaconBlock): onBeaconBlock(node ,b) let nextSecond = max(Moment.now(), moment + chronos.seconds(1)) addTimer(nextSecond) do (p: pointer): asyncCheck node.onSecond(nextSecond) proc run*(node: BeaconNode) = waitFor node.network.subscribe(topicBeaconBlocks) do (blck: BeaconBlock): onBeaconBlock(node, blck) waitFor node.network.subscribe(topicAttestations) do (attestation: Attestation): # Avoid double-counting attestation-topic attestations on shared codepath # when they're reflected through beacon blocks beacon_attestations_received.inc() node.onAttestation(attestation) let t = node.beaconClock.now() startSlot = if t > BeaconTime(0): t.toSlot.slot + 1 else: GENESIS_SLOT + 1 fromNow = saturate(node.beaconClock.fromNow(startSlot)) info "Scheduling first slot action", beaconTime = shortLog(node.beaconClock.now()), nextSlot = shortLog(startSlot), fromNow = shortLog(fromNow), cat = "scheduling" addTimer(fromNow) do (p: pointer): asyncCheck node.onSlotStart(startSlot - 1, startSlot) let second = Moment.now() + chronos.seconds(1) addTimer(second) do (p: pointer): asyncCheck node.onSecond(second) runForever() var gPidFile: string proc createPidFile(filename: string) = createDir splitFile(filename).dir writeFile filename, $os.getCurrentProcessId() gPidFile = filename addQuitProc proc {.noconv.} = removeFile gPidFile proc start(node: BeaconNode, headState: BeaconState) = # TODO: while it's nice to cheat by waiting for connections here, we # actually need to make this part of normal application flow - # losing all connections might happen at any time and we should be # prepared to handle it. waitFor node.connectToNetwork() info "Starting beacon node", timeSinceFinalization = int64(node.blockPool.finalizedHead.slot.toBeaconTime()) - int64(node.beaconClock.now()), stateSlot = shortLog(headState.slot), SHARD_COUNT, SLOTS_PER_EPOCH, SECONDS_PER_SLOT, SPEC_VERSION, dataDir = node.config.dataDir.string, cat = "init", pcs = "start_beacon_node" node.addLocalValidators(headState) 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 '.' result.add $remainder while result[^1] == '0': result.setLen(result.len - 1) when hasPrompt: from unicode import Rune import terminal, prompt proc providePromptCompletions*(line: seq[Rune], cursorPos: int): seq[string] = # TODO # The completions should be generated with the general-purpose command-line # parsing API of Confutils result = @[] proc processPromptCommands(p: ptr Prompt) {.thread.} = while true: var cmd = p[].readLine() case cmd of "quit": quit 0 else: p[].writeLine("Unknown command: " & cmd) proc slotOrZero(time: BeaconTime): Slot = let exSlot = time.toSlot if exSlot.afterGenesis: exSlot.slot else: Slot(0) proc initPrompt(node: BeaconNode) = if isatty(stdout) and node.config.statusbar: enableTrueColors() # TODO: nim-prompt seems to have threading issues at the moment # which result in sporadic crashes. We should introduce a # lock that guards the access to the internal prompt line # variable. # # var p = Prompt.init("nimbus > ", providePromptCompletions) # p.useHistoryFile() proc dataResolver(expr: string): string = # 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": $(sync_protocol.libp2p_peers.value.int) of "last_finalized_epoch": var head = node.blockPool.finalizedHead # TODO: Should we display a state root instead? $(head.slot.epoch) & " (" & shortLog(head.blck.root) & ")" of "epoch": $node.beaconClock.now.slotOrZero.epoch of "epoch_slot": $(node.beaconClock.now.slotOrZero mod SLOTS_PER_EPOCH) of "slots_per_epoch": $SLOTS_PER_EPOCH of "slot_trailing_digits": var slotStr = $node.beaconClock.now.slotOrZero if slotStr.len > 3: slotStr = slotStr[^3..^1] slotStr of "attached_validators_balance": var balance = uint64(0) for _, validator in node.attachedValidators.validators: balance += node.stateCache.data.data.balances[validator.idx] formatGwei(balance) else: # We ignore typos for now and just render the expression # as it was written. TODO: come up with a good way to show # an error message to the user. "$" & expr var statusBar = StatusBarView.init( node.config.statusbarContents, dataResolver) defaultChroniclesStream.output.writer = proc (logLevel: LogLevel, msg: LogOutputStr) {.gcsafe.} = # p.hidePrompt erase statusBar # p.writeLine msg stdout.write msg render statusBar # p.showPrompt proc statusBarUpdatesPollingLoop() {.async.} = while true: update statusBar await sleepAsync(1000) traceAsyncErrors statusBarUpdatesPollingLoop() # var t: Thread[ptr Prompt] # createThread(t, processPromptCommands, addr p) when isMainModule: randomize() let config = BeaconNodeConf.load(version = fullVersionStr()) doAssert defaultChroniclesStream.outputs.len > 0 doAssert defaultChroniclesStream.output is DynamicOutput defaultChroniclesStream.output.writer = proc (logLevel: LogLevel, msg: LogOutputStr) {.gcsafe.} = stdout.write(msg) if config.logLevel != LogLevel.NONE: setLogLevel(config.logLevel) ## Ctrl+C handling proc controlCHandler() {.noconv.} = when defined(windows): # workaround for https://github.com/nim-lang/Nim/issues/4057 setupForeignThreadGc() debug "Shutting down after having received SIGINT" quit(1) setControlCHook(controlCHandler) case config.cmd of createTestnet: var deposits: seq[Deposit] for i in config.firstValidator.int ..< config.totalValidators.int: let depositFile = config.validatorsDir / validatorFileBaseName(i) & ".deposit.json" try: deposits.add Json.loadFile(depositFile, Deposit) except SerializationError as err: stderr.write "Error while loading a deposit file:\n" stderr.write err.formatMsg(depositFile), "\n" stderr.write "Please regenerate the deposit files by running makeDeposits again\n" quit 1 var startTime = uint64(times.toUnix(times.getTime()) + config.genesisOffset) initialState = initialize_beacon_state_from_eth1( eth1BlockHash, startTime, deposits, {skipValidation}) # https://github.com/ethereum/eth2.0-pm/tree/6e41fcf383ebeb5125938850d8e9b4e9888389b4/interop/mocked_start#create-genesis-state initialState.genesis_time = startTime doAssert initialState.validators.len > 0 Json.saveFile(config.outputGenesis.string, initialState, pretty = true) echo "Wrote ", config.outputGenesis.string let sszGenesis = config.outputGenesis.string.changeFileExt "ssz" SSZ.saveFile(sszGenesis, initialState) echo "Wrote ", sszGenesis var bootstrapAddress = getPersistenBootstrapAddr( config, parseIpAddress(config.bootstrapAddress), Port config.bootstrapPort) testnetMetadata = NetworkMetadata( networkGeneration: semanticVersion, genesisRoot: if config.withGenesisRoot: some(hash_tree_root(initialState)) else: none(Eth2Digest), bootstrapNodes: @[bootstrapAddress], numShards: SHARD_COUNT, slotDuration: SECONDS_PER_SLOT, slotsPerEpoch: SLOTS_PER_EPOCH, totalValidators: config.totalValidators, lastUserValidator: config.lastUserValidator) Json.saveFile(config.outputNetworkMetadata.string, testnetMetadata, pretty = true) echo "Wrote ", config.outputNetworkMetadata.string let bootstrapFile = config.outputBootstrapNodes.string if bootstrapFile.len > 0: let bootstrapAddrLine = when networkBackend == libp2pBackend: $bootstrapAddress.addresses[0] & "/p2p/" & bootstrapAddress.peer.pretty else: $bootstrapAddress writeFile(bootstrapFile, bootstrapAddrLine) echo "Wrote ", bootstrapFile of updateTestnet: discard waitFor updateTestnetMetadata(config) of importValidator: template reportFailureFor(keyExpr) = error "Failed to import validator key", key = keyExpr programResult = 1 for keyFile in config.keyFiles: try: saveValidatorKey(keyFile.string.extractFilename, readFile(keyFile.string), config) except: reportFailureFor keyFile.string if config.keyFiles.len == 0: if config.network in ["testnet0", "testnet1"]: try: let (keyName, key) = waitFor obtainTestnetKey(config) saveValidatorKey(keyName, key, config) except: stderr.write "Failed to download key\n", getCurrentExceptionMsg() quit 1 else: echo "Validator keys can be downloaded only for testnets" quit 1 of noCommand: createPidFile(config.dataDir.string / "beacon_node.pid") var node = waitFor BeaconNode.init(config) when hasPrompt: initPrompt(node) # TODO slightly ugly to rely on node.stateCache state here.. if node.nickname != "": dynamicLogScope(node = node.nickname): node.start(node.stateCache.data.data) else: node.start(node.stateCache.data.data) of makeDeposits: let deposits = generateDeposits( config.totalDeposits, config.depositsDir, config.randomKeys) if config.depositWeb3Url.len() > 0 and config.depositContractAddress.len() > 0: waitFor sendDeposits( deposits, config.depositWeb3Url, config.depositContractAddress)