# Nimbus # Copyright (c) 2018 Status Research & Development GmbH # Licensed under either of # * Apache License, version 2.0, ([LICENSE-APACHE](LICENSE-APACHE)) # * MIT license ([LICENSE-MIT](LICENSE-MIT)) # at your option. # This file may not be copied, modified, or distributed except according to # those terms. import ../nimbus/vm_compile_info import os, strutils, net, options, stew/shims/net as stewNet, eth/keys, db/[storage_types, db_chain, select_backend], eth/common as eth_common, eth/p2p as eth_p2p, chronos, json_rpc/rpcserver, chronicles, eth/p2p/rlpx_protocols/les_protocol, ./p2p/blockchain_sync, eth/net/nat, eth/p2p/peer_pool, ./sync/protocol_eth65, config, genesis, rpc/[common, p2p, debug], p2p/chain, eth/trie/db, metrics, metrics/[chronos_httpserver, chronicles_support], graphql/ethapi, context, "."/[conf_utils, sealer, constants] ## TODO: ## * No IPv6 support ## * No multiple bind addresses support ## * No database support type NimbusState = enum Starting, Running, Stopping NimbusNode = ref object rpcServer: RpcHttpServer ethNode: EthereumNode state: NimbusState graphqlServer: GraphqlHttpServerRef wsRpcServer: RpcWebSocketServer sealingEngine: SealingEngineRef ctx: EthContext template init(T: type RpcHttpServer, ip: ValidIpAddress, port: Port): T = newRpcHttpServer([initTAddress(ip, port)]) template init(T: type RpcWebSocketServer, ip: ValidIpAddress, port: Port): T = newRpcWebSocketServer(initTAddress(ip, port)) proc start(nimbus: NimbusNode, conf: NimbusConf) = ## logging setLogLevel(conf.logLevel) if conf.logFile.isSome: let logFile = string conf.logFile.get() defaultChroniclesStream.output.outFile = nil # to avoid closing stdout discard defaultChroniclesStream.output.open(logFile, fmAppend) createDir(string conf.dataDir) let trieDB = trieDB newChainDb(string conf.dataDir) let networkId = conf.networkId.get() let customNetwork = conf.customNetwork.get() var chainDB = newBaseChainDB(trieDB, conf.pruneMode == PruneMode.Full, networkId, customNetwork ) chainDB.populateProgress() if canonicalHeadHashKey().toOpenArray notin trieDB: initializeEmptyDb(chainDb) doAssert(canonicalHeadHashKey().toOpenArray in trieDB) if string(conf.importBlocks).len > 0: # success or not, we quit after importing blocks if not importRlpBlock(string conf.importBlocks, chainDB): quit(QuitFailure) else: quit(QuitSuccess) if string(conf.keyStore).len > 0: let res = nimbus.ctx.am.loadKeystores(string conf.keyStore) if res.isErr: echo res.error() quit(QuitFailure) if string(conf.importKey).len > 0: let res = nimbus.ctx.am.importPrivateKey(string conf.importKey) if res.isErr: echo res.error() quit(QuitFailure) # metrics logging if conf.logMetricsEnabled: # https://github.com/nim-lang/Nim/issues/17369 var logMetrics: proc(udata: pointer) {.gcsafe, raises: [Defect].} logMetrics = proc(udata: pointer) = {.gcsafe.}: let registry = defaultRegistry info "metrics", registry discard setTimer(Moment.fromNow(conf.logMetricsInterval.seconds), logMetrics) discard setTimer(Moment.fromNow(conf.logMetricsInterval.seconds), logMetrics) ## Creating P2P Server let kpres = nimbus.ctx.hexToKeyPair(conf.nodeKeyHex) if kpres.isErr: echo kpres.error() quit(QuitFailure) let keypair = kpres.get() var address = Address( ip: conf.listenAddress, tcpPort: conf.tcpPort, udpPort: conf.udpPort ) if conf.nat.hasExtIp: # any required port redirection is assumed to be done by hand address.ip = conf.nat.extIp else: # automated NAT traversal let extIP = getExternalIP(conf.nat.nat) # This external IP only appears in the logs, so don't worry about dynamic # IPs. Don't remove it either, because the above call does initialisation # and discovery for NAT-related objects. if extIP.isSome: address.ip = extIP.get() let extPorts = redirectPorts(tcpPort = address.tcpPort, udpPort = address.udpPort, description = NIMBUS_NAME & " " & NIMBUS_VERSION) if extPorts.isSome: (address.tcpPort, address.udpPort) = extPorts.get() nimbus.ethNode = newEthereumNode(keypair, address, networkId, nil, conf.agentString, addAllCapabilities = false, minPeers = conf.maxPeers) # Add protocol capabilities based on protocol flags if ProtocolFlag.Eth in conf.protocols.value: nimbus.ethNode.addCapability eth if ProtocolFlag.Les in conf.protocols.value: nimbus.ethNode.addCapability les # chainRef: some name to avoid module-name/filed/function misunderstandings let chainRef = newChain(chainDB) nimbus.ethNode.chain = chainRef if conf.verifyFrom.isSome: let verifyFrom = conf.verifyFrom.get() chainRef.extraValidation = 0 < verifyFrom chainRef.verifyFrom = verifyFrom # Creating RPC Server if conf.rpcEnabled: nimbus.rpcServer = RpcHttpServer.init(conf.rpcAddress, conf.rpcPort) setupCommonRpc(nimbus.ethNode, conf, nimbus.rpcServer) # Enable RPC APIs based on RPC flags and protocol flags if RpcFlag.Eth in conf.rpcApi.value and ProtocolFlag.Eth in conf.protocols.value: setupEthRpc(nimbus.ethNode, nimbus.ctx, chainDB, nimbus.rpcServer) if RpcFlag.Debug in conf.rpcApi.value: setupDebugRpc(chainDB, nimbus.rpcServer) nimbus.rpcServer.rpc("admin_quit") do() -> string: {.gcsafe.}: nimbus.state = Stopping result = "EXITING" nimbus.rpcServer.start() # Creating Websocket RPC Server if conf.wsEnabled: nimbus.wsRpcServer = RpcWebSocketServer.init(conf.wsAddress, conf.wsPort) setupCommonRpc(nimbus.ethNode, conf, nimbus.wsRpcServer) # Enable Websocket RPC APIs based on RPC flags and protocol flags if RpcFlag.Eth in conf.wsApi.value and ProtocolFlag.Eth in conf.protocols.value: setupEthRpc(nimbus.ethNode, nimbus.ctx, chainDB, nimbus.wsRpcServer) if RpcFlag.Debug in conf.wsApi.value: setupDebugRpc(chainDB, nimbus.wsRpcServer) nimbus.wsRpcServer.start() if conf.graphqlEnabled: nimbus.graphqlServer = setupGraphqlHttpServer(conf, chainDB, nimbus.ethNode) nimbus.graphqlServer.start() if conf.engineSigner != ZERO_ADDRESS: let rs = validateSealer(conf, nimbus.ctx, chainRef) if rs.isErr: echo rs.error quit(QuitFailure) nimbus.sealingEngine = SealingEngineRef.new( chainRef, nimbus.ctx, conf.engineSigner ) nimbus.sealingEngine.start() # metrics server if conf.metricsEnabled: info "Starting metrics HTTP server", address = conf.metricsAddress, port = conf.metricsPort startMetricsHttpServer($conf.metricsAddress, conf.metricsPort) # Connect directly to the static nodes for enode in conf.staticNodes.value: asyncCheck nimbus.ethNode.peerPool.connectToNode(newNode(enode)) # Connect via discovery let bootNodes = conf.getBootNodes() waitFor nimbus.ethNode.connectToNetwork(bootNodes, enableDiscovery = not conf.noDiscover) if ProtocolFlag.Eth in conf.protocols.value: # TODO: temp code until the CLI/RPC interface is fleshed out let status = waitFor nimbus.ethNode.fastBlockchainSync() if status != syncSuccess: debug "Block sync failed: ", status if nimbus.state == Starting: # it might have been set to "Stopping" with Ctrl+C nimbus.state = Running proc stop*(nimbus: NimbusNode, conf: NimbusConf) {.async, gcsafe.} = trace "Graceful shutdown" if conf.rpcEnabled: nimbus.rpcServer.stop() if conf.wsEnabled: nimbus.wsRpcServer.start() if conf.graphqlEnabled: await nimbus.graphqlServer.stop() if conf.engineSigner != ZERO_ADDRESS: await nimbus.sealingEngine.stop() proc process*(nimbus: NimbusNode, conf: NimbusConf) = # Main event loop while nimbus.state == Running: try: poll() except CatchableError as e: debug "Exception in poll()", exc = e.name, err = e.msg discard e # silence warning when chronicles not activated # Stop loop waitFor nimbus.stop(conf) when isMainModule: var nimbus = NimbusNode(state: Starting, ctx: newEthContext()) ## Ctrl+C handling proc controlCHandler() {.noconv.} = when defined(windows): # workaround for https://github.com/nim-lang/Nim/issues/4057 setupForeignThreadGc() nimbus.state = Stopping echo "\nCtrl+C pressed. Waiting for a graceful shutdown." setControlCHook(controlCHandler) ## Show logs on stdout until we get the user's logging choice discard defaultChroniclesStream.output.open(stdout) ## Processing command line arguments let conf = makeConfig() nimbus.start(conf) nimbus.process(conf)