nimbus-eth1/nimbus/nimbus.nim

188 lines
6.0 KiB
Nim

# 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
os, strutils, net, options,
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/[eth_protocol, les_protocol, whisper_protocol],
eth/p2p/blockchain_sync, eth/net/nat, eth/p2p/peer_pool,
config, genesis, rpc/[common, p2p, debug, whisper], p2p/chain,
eth/trie/db
## TODO:
## * No IPv6 support
## * No multiple bind addresses support
## * No database support
const
nimbusClientId = "nimbus 0.1.0"
when not defined(windows):
from posix import SIGINT, SIGTERM
type
NimbusState = enum
Starting, Running, Stopping, Stopped
NimbusObject = ref object
rpcServer*: RpcHttpServer
ethNode*: EthereumNode
state*: NimbusState
proc start(): NimbusObject =
var nimbus = NimbusObject()
var conf = getConfiguration()
## logging
setLogLevel(conf.debug.logLevel)
if len(conf.debug.logFile) != 0:
defaultChroniclesStream.output.outFile = nil # to avoid closing stdout
discard defaultChroniclesStream.output.open(conf.debug.logFile, fmAppend)
## Creating RPC Server
if RpcFlags.Enabled in conf.rpc.flags:
nimbus.rpcServer = newRpcHttpServer(conf.rpc.binds)
setupCommonRpc(nimbus.rpcServer)
## Creating P2P Server
if conf.net.nodekey.isZeroKey():
conf.net.nodekey = newPrivateKey()
var keypair: KeyPair
keypair.seckey = conf.net.nodekey
keypair.pubkey = conf.net.nodekey.getPublicKey()
var address: Address
address.ip = parseIpAddress("0.0.0.0")
address.tcpPort = Port(conf.net.bindPort)
address.udpPort = Port(conf.net.discPort)
if conf.net.nat == NatNone:
if conf.net.externalIP != "":
# any required port redirection is assumed to be done by hand
address.ip = parseIpAddress(conf.net.externalIP)
else:
# automated NAT traversal
let extIP = getExternalIP(conf.net.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()
createDir(conf.dataDir)
let trieDB = trieDB newChainDb(conf.dataDir)
let chainDB = newBaseChainDB(trieDB,
conf.prune == PruneMode.Full,
conf.net.networkId.toPublicNetwork())
if canonicalHeadHashKey().toOpenArray notin trieDB:
initializeEmptyDb(chainDb)
doAssert(canonicalHeadHashKey().toOpenArray in trieDB)
nimbus.ethNode = newEthereumNode(keypair, address, conf.net.networkId,
nil, nimbusClientId,
addAllCapabilities = false)
# Add protocol capabilities based on protocol flags
if ProtocolFlags.Eth in conf.net.protocols:
nimbus.ethNode.addCapability eth
if ProtocolFlags.Shh in conf.net.protocols:
nimbus.ethNode.addCapability Whisper
nimbus.ethNode.configureWhisper(conf.shh)
if ProtocolFlags.Les in conf.net.protocols:
nimbus.ethNode.addCapability les
nimbus.ethNode.chain = newChain(chainDB)
# Enable RPC APIs based on RPC flags and protocol flags
if RpcFlags.Eth in conf.rpc.flags and ProtocolFlags.Eth in conf.net.protocols:
setupEthRpc(nimbus.ethNode, chainDB, nimbus.rpcServer)
if RpcFlags.Shh in conf.rpc.flags and ProtocolFlags.Shh in conf.net.protocols:
let keys = newWhisperKeys()
setupWhisperRPC(nimbus.ethNode, keys, nimbus.rpcServer)
if RpcFlags.Debug in conf.rpc.flags:
setupDebugRpc(chainDB, nimbus.rpcServer)
## Starting servers
nimbus.state = Starting
if RpcFlags.Enabled in conf.rpc.flags:
nimbus.rpcServer.rpc("admin_quit") do() -> string:
nimbus.state = Stopping
result = "EXITING"
nimbus.rpcServer.start()
# Connect directly to the static nodes
for enode in conf.net.staticNodes:
asyncCheck nimbus.ethNode.peerPool.connectToNode(newNode(enode))
# Connect via discovery
waitFor nimbus.ethNode.connectToNetwork(conf.net.bootNodes,
enableDiscovery = NoDiscover notin conf.net.flags)
if ProtocolFlags.Eth in conf.net.protocols:
# 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
nimbus.state = Running
result = nimbus
proc stop*(nimbus: NimbusObject) {.async.} =
trace "Graceful shutdown"
nimbus.rpcServer.stop()
proc process*(nimbus: NimbusObject) =
if nimbus.state == Running:
when not defined(windows):
proc signalBreak(udata: pointer) =
nimbus.state = Stopping
# Adding SIGINT, SIGTERM handlers
# discard addSignal(SIGINT, signalBreak)
# discard addSignal(SIGTERM, signalBreak)
# Main loop
while nimbus.state == Running:
try:
poll()
except CatchableError:
debug "Exception in poll()",
exc = getCurrentException().name,
err = getCurrentExceptionMsg()
# Stop loop
waitFor nimbus.stop()
when isMainModule:
var message: string
## Pring Nimbus header
echo NimbusHeader
## show logs on stdout until we get the user's logging choice
discard defaultChroniclesStream.output.open(stdout)
## Processing command line arguments
if processArguments(message) != ConfigStatus.Success:
echo message
quit(QuitFailure)
else:
if len(message) > 0:
echo message
quit(QuitSuccess)
var nimbus = start()
nimbus.process()