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import
confutils , config , strutils , chronos , json_rpc / rpcserver , metrics ,
chronicles / topics_registry , # TODO: What? Need this for setLoglevel, weird.
eth / [ keys , p2p , async_utils ] , eth / common / utils , eth / net / nat ,
eth / p2p / [ discovery , enode , peer_pool , bootnodes , whispernodes ] ,
# TODO remove me
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.. / v1 / rpc / [ wakusim , key_storage ] ,
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.. / .. / vendor / nim - libp2p / libp2p / standard_setup ,
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.. / .. / vendor / nim - libp2p / libp2p / multiaddress ,
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.. / .. / vendor / nim - libp2p / libp2p / crypto / crypto ,
.. / .. / vendor / nim - libp2p / libp2p / protocols / protocol ,
.. / .. / vendor / nim - libp2p / libp2p / peerinfo ,
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rpc / wakurpc
# TODO: Use
# protocol/waku_protocol
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# TODO: Better aliasing of vendor dirs
# TODO: Something wrong with module imports, "invalid module name" with this
# ../vendor/nim-libp2p/libp2p/[switch, standard_setup, peerinfo, peer, connection,
# multiaddress, multicodec, crypto/crypto, protocols/identify, protocols/protocol]
# key and crypto modules different
type
KeyPair * = crypto . KeyPair
PublicKey * = crypto . PublicKey
PrivateKey * = crypto . PrivateKey
# handler defined in parent object
type WakuProto = ref object of LPProtocol
switch : Switch
conn : Connection
connected : bool
started : bool
const clientId = " Nimbus waku node "
# TODO: We want this to be on top of GossipSub, how does that work?
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# XXX: waku version not inherited from protocol
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const WakuCodec = " /vac/waku/2.0.0-alpha0 "
let globalListeningAddr = parseIpAddress ( " 0.0.0.0 " )
proc setBootNodes ( nodes : openArray [ string ] ) : seq [ ENode ] =
result = newSeqOfCap [ ENode ] ( nodes . len )
for nodeId in nodes :
# TODO: something more user friendly than an expect
result . add ( ENode . fromString ( nodeId ) . expect ( " correct node " ) )
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proc initAddress ( T : type MultiAddress , str : string ) : T =
let address = MultiAddress . init ( str )
if IPFS . match ( address ) and matchPartial ( multiaddress . TCP , address ) :
result = address
else :
raise newException ( MultiAddressError ,
" Invalid bootstrap node multi-address " )
proc dialPeer ( p : WakuProto , address : string ) {. async . } =
let multiAddr = MultiAddress . initAddress ( address )
let parts = address . split ( " / " )
let remotePeer = PeerInfo . init ( parts [ ^ 1 ] , [ multiAddr ] )
info " Dialing peer " , multiAddr
p . conn = await p . switch . dial ( remotePeer , WakuCodec )
# Isn't there just one p instance? Why connected here?
p . connected = true
proc connectToNodes ( p : WakuProto , nodes : openArray [ string ] ) =
info " connectToNodes " , nodes
# XXX: Hardcoded here
let peerInfoStr = " /ip4/127.0.0.1/tcp/55505/ipfs/16Uiu2HAkufRTzUnYCMggjPaAMbC3ss1bkrjewPcjwSeqK9WgUKYu "
discard dialPeer ( p , peerInfoStr )
# for nodeId in nodes:
# info "connectToNodes nodeid", nodeId
# # TODO: something more user friendly than an assert
# let whisperENode = ENode.fromString(nodeId).expect("correct node")
#
# traceAsyncErrors node.peerPool.connectToNode(newNode(whisperENode))
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# NOTE: Looks almost identical to beacon_chain/eth2_network.nim
proc setupNat ( conf : WakuNodeConf ) : tuple [ ip : IpAddress ,
tcpPort : Port ,
udpPort : Port ] =
# defaults
result . ip = globalListeningAddr
result . tcpPort = Port ( conf . tcpPort + conf . portsShift )
result . udpPort = Port ( conf . udpPort + conf . portsShift )
var nat : NatStrategy
case conf . nat . toLowerAscii ( ) :
of " any " :
nat = NatAny
of " none " :
nat = NatNone
of " upnp " :
nat = NatUpnp
of " pmp " :
nat = NatPmp
else :
if conf . nat . startsWith ( " extip: " ) and isIpAddress ( conf . nat [ 6 .. ^ 1 ] ) :
# any required port redirection is assumed to be done by hand
result . ip = parseIpAddress ( conf . nat [ 6 .. ^ 1 ] )
nat = NatNone
else :
error " not a valid NAT mechanism, nor a valid IP address " , value = conf . nat
quit ( QuitFailure )
if nat ! = NatNone :
let extIP = getExternalIP ( nat )
if extIP . isSome :
result . ip = extIP . get ( )
let extPorts = redirectPorts ( tcpPort = result . tcpPort ,
udpPort = result . udpPort ,
description = clientId )
if extPorts . isSome :
( result . tcpPort , result . udpPort ) = extPorts . get ( )
proc newWakuProto ( switch : Switch ) : WakuProto =
var wakuproto = WakuProto ( switch : switch , codec : WakuCodec )
proc handle ( conn : Connection , proto : string ) {. async , gcsafe . } =
let msg = cast [ string ] ( await conn . readLp ( ) )
await conn . writeLp ( " Hello! " )
await conn . close ( )
wakuproto . handler = handle
return wakuproto
proc run ( config : WakuNodeConf ) =
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info " libp2p support WIP "
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if config . logLevel ! = LogLevel . NONE :
setLogLevel ( config . logLevel )
let
# External TCP and UDP ports
( ip , tcpPort , udpPort ) = setupNat ( config )
address = Address ( ip : ip , tcpPort : tcpPort , udpPort : udpPort )
port = tcpPort
# Using this for now
DefaultAddr = " /ip4/127.0.0.1/tcp/55505 "
hostAddress = MultiAddress . init ( DefaultAddr )
# Difference between announced and host address relevant for running behind NAT, however doesn't seem like nim-libp2p supports this. GHI?
#
# TODO: Convert config.nodekey eth.key to libp2p.crypto key. Should work with Secp256k1, just need to ensure representation etc is the same. Using random now for spike.
#nodekey = config.nodekey
#keys = crypto.KeyPair(nodekey)
privKey = PrivateKey . random ( Secp256k1 )
keys = KeyPair ( seckey : privKey , pubkey : privKey . getKey ( ) )
peerInfo = PeerInfo . init ( privKey )
info " Initializing networking (host address and announced same) " , address
peerInfo . addrs . add ( Multiaddress . init ( DefaultAddr ) )
# XXX: It isn't clear that it is a good idea use dial/connect as RPC
# But let's try it
# More of a hello world thing, we'd want to mount it on to of gossipsub
if config . rpc :
# What is ta? transport address...right.
let ta = initTAddress ( config . rpcAddress ,
Port ( config . rpcPort + config . portsShift ) )
var rpcServer = newRpcHttpServer ( [ ta ] )
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# Not using keys right now
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let keys = newKeyStorage ( )
#setupWakuRPC(node, keys, rpcServer)
#setupWakuSimRPC(node, rpcServer)
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setupWakuRPC ( rpcServer )
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rpcServer . start ( )
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# TODO: Use it to get waku version
# Huh not printed
info " rpcServer started "
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# TODO: Here setup a libp2p node
# Essentially something like this in nbc/eth2_network:
# proc createEth2Node*(conf: BeaconNodeConf): Future[Eth2Node]
# TODO: Also see beacon_chain/beaconnode, RPC server etc
# Also probably start with floodsub for simplicity
# Slice it up only minimal parts here
# HERE ATM
# config.nodekey = KeyPair.random().tryGet()
# address = set above; ip, tcp and udp port (incl NAT)
# clientId = "Nimbus waku node"
#let network = await createLibP2PNode(conf) # doing in-line
# let rpcServer ...
# Is it a "Standard" Switch? Assume it is for now
var switch = newStandardSwitch ( some keys . seckey , hostAddress , triggerSelf = true , gossip = true )
let wakuProto = newWakuProto ( switch )
switch . mount ( wakuProto )
# TODO: Make context async
#let fut = await switch.start()
discard switch . start ( )
wakuProto . started = true
let id = peerInfo . peerId . pretty
info " PeerInfo " , id = id , addrs = peerInfo . addrs
let listenStr = $ peerInfo . addrs [ 0 ] & " /ipfs/ " & id
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# XXX: this should be /ip4..., / stripped?
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info " Listening on " , full = listenStr
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# XXX: So doing this _after_ other setup
# Optionally direct connect with a set of nodes
if config . staticnodes . len > 0 : connectToNodes ( wakuProto , config . staticnodes )
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# Here directchat uses rwLoop for protocol
# What if we dial here? How dial?
# Feels very ghetto, this hookup
# Once we have a switch and started it, we need to connect the them
# Then we can dial a peer on a protocol
# If we start node 2 this should do:
# let conn = switch.dial(peerInfo, WakuCodec)
# (testswitch.nim) Conn write hello
# Aight so we calling here, but where
# This is why nice to have RPC - how does this look in libp2p?
# Is this doable with RPC in DevP2P? Probably. How? For quicksim
# (quicksim.nim) Basically RPC HTTP Client and connect
# Ok, now what? Quick break. Probably RPC etc? Try to dial, 1:1 style
# Also not actually using GossipSub so far
# We want to dial with another node
# Set-up node
# var node = newEthereumNode(config.nodekey, address, 1, nil, clientId,
# addAllCapabilities = false)
# if not config.bootnodeOnly:
# node.addCapability Waku # Always enable Waku protocol
# var topicInterest: Option[seq[waku_protocol.Topic]]
# var bloom: Option[Bloom]
# if config.wakuTopicInterest:
# var topics: seq[waku_protocol.Topic]
# topicInterest = some(topics)
# else:
# bloom = some(fullBloom())
# let wakuConfig = WakuConfig(powRequirement: config.wakuPow,
# bloom: bloom,
# isLightNode: config.lightNode,
# maxMsgSize: waku_protocol.defaultMaxMsgSize,
# topics: topicInterest)
# node.configureWaku(wakuConfig)
# if config.whisper or config.whisperBridge:
# node.addCapability Whisper
# node.protocolState(Whisper).config.powRequirement = 0.002
# if config.whisperBridge:
# node.shareMessageQueue()
#
# # TODO: Status fleet bootnodes are discv5? That will not work.
# let bootnodes = if config.bootnodes.len > 0: setBootNodes(config.bootnodes)
# elif config.fleet == prod: setBootNodes(StatusBootNodes)
# elif config.fleet == staging: setBootNodes(StatusBootNodesStaging)
# elif config.fleet == test : setBootNodes(StatusBootNodesTest)
# else: @[]
#
# traceAsyncErrors node.connectToNetwork(bootnodes, not config.noListen,
# config.discovery)
#
# if not config.bootnodeOnly:
# # Optionally direct connect with a set of nodes
# if config.staticnodes.len > 0: connectToNodes(node, config.staticnodes)
# elif config.fleet == prod: connectToNodes(node, WhisperNodes)
# elif config.fleet == staging: connectToNodes(node, WhisperNodesStaging)
# elif config.fleet == test: connectToNodes(node, WhisperNodesTest)
#
# if config.rpc:
# let ta = initTAddress(config.rpcAddress,
# Port(config.rpcPort + config.portsShift))
# var rpcServer = newRpcHttpServer([ta])
# let keys = newKeyStorage()
# setupWakuRPC(node, keys, rpcServer)
# setupWakuSimRPC(node, rpcServer)
# rpcServer.start()
#
# when defined(insecure):
# if config.metricsServer:
# let
# address = config.metricsServerAddress
# port = config.metricsServerPort + config.portsShift
# info "Starting metrics HTTP server", address, port
# metrics.startHttpServer($address, Port(port))
#
# if config.logMetrics:
# proc logMetrics(udata: pointer) {.closure, gcsafe.} =
# {.gcsafe.}:
# let
# connectedPeers = connected_peers.value
# validEnvelopes = waku_protocol.valid_envelopes.value
# invalidEnvelopes = waku_protocol.dropped_expired_envelopes.value +
# waku_protocol.dropped_from_future_envelopes.value +
# waku_protocol.dropped_low_pow_envelopes.value +
# waku_protocol.dropped_too_large_envelopes.value +
# waku_protocol.dropped_bloom_filter_mismatch_envelopes.value +
# waku_protocol.dropped_topic_mismatch_envelopes.value +
# waku_protocol.dropped_benign_duplicate_envelopes.value +
# waku_protocol.dropped_duplicate_envelopes.value
#
# info "Node metrics", connectedPeers, validEnvelopes, invalidEnvelopes
# addTimer(Moment.fromNow(2.seconds), logMetrics)
# addTimer(Moment.fromNow(2.seconds), logMetrics)
#
runForever ( )
when isMainModule :
let conf = WakuNodeConf . load ( )
run ( conf )