nwaku/node/v2/wakunode.nim

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],
  eth/p2p/rlpx_protocols/[whisper_protocol, waku_protocol, waku_bridge],
  # TODO remove me
  ../../vendor/nimbus/nimbus/rpc/[wakusim, key_storage],
  ../../vendor/nim-libp2p/libp2p/standard_setup,
  ../../vendor/nim-libp2p/libp2p/crypto/crypto,
  ../../vendor/nim-libp2p/libp2p/protocols/protocol,
  ../../vendor/nim-libp2p/libp2p/peerinfo,
  # TODO: RPC folder
  wakurpc2

# 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?
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"))

proc connectToNodes(node: EthereumNode, nodes: openArray[string]) =
  for nodeId in nodes:
    # TODO: something more user friendly than an assert
    let whisperENode = ENode.fromString(nodeId).expect("correct node")

    traceAsyncErrors node.peerPool.connectToNode(newNode(whisperENode))

# 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) =

  info "libp2p support NYI"

  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])
    let keys = newKeyStorage()
    # Ok cool no node here
    # TODO: Fix me with node etc
    #setupWakuRPC(node, keys, rpcServer)
    #setupWakuSimRPC(node, rpcServer)
    rpcServer.start()


  # 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
  info "Listening on", full = listenStr

  # 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)
Very hacky start waku on libp2p Partial import from research repo 2020-04-29 04:49:27 +00:00			`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],`
			`eth/p2p/rlpx_protocols/[whisper_protocol, waku_protocol, waku_bridge],`
			`# TODO remove me`
			`../../vendor/nimbus/nimbus/rpc/[wakusim, key_storage],`
			`../../vendor/nim-libp2p/libp2p/standard_setup,`
			`../../vendor/nim-libp2p/libp2p/crypto/crypto,`
			`../../vendor/nim-libp2p/libp2p/protocols/protocol,`
			`../../vendor/nim-libp2p/libp2p/peerinfo,`
			`# TODO: RPC folder`
			`wakurpc2`

			`# 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?`
			`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"))`

			`proc connectToNodes(node: EthereumNode, nodes: openArray[string]) =`
			`for nodeId in nodes:`
			`# TODO: something more user friendly than an assert`
			`let whisperENode = ENode.fromString(nodeId).expect("correct node")`

			`traceAsyncErrors node.peerPool.connectToNode(newNode(whisperENode))`

			`# 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) =`

			`info "libp2p support NYI"`

			`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])`
			`let keys = newKeyStorage()`
			`# Ok cool no node here`
			`# TODO: Fix me with node etc`
			`#setupWakuRPC(node, keys, rpcServer)`
			`#setupWakuSimRPC(node, rpcServer)`
			`rpcServer.start()`


			`# 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`
			`info "Listening on", full = listenStr`

			`# 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)`