import std/strutils, chronos, confutils, chronicles, chronicles/topics_registry, metrics, stew/shims/net as stewNet, json_rpc/rpcserver, # Waku v1 imports eth/[keys, p2p], eth/common/utils, eth/p2p/[enode, whispernodes], ../protocol/v1/waku_protocol, ./common, ./v1/rpc/[waku, wakusim, key_storage], ./v1/waku_helpers, # Waku v2 imports libp2p/crypto/crypto, ./v2/wakunode2, ./v2/rpc/wakurpc, # Common cli config ./config_bridge const clientIdV1 = "nim-waku v1 node" proc startWakuV1(config: WakuNodeConf, rng: ref BrHmacDrbgContext): EthereumNode = let (ipExt, _, _) = setupNat(config.nat, clientIdV1, Port(config.devp2pTcpPort + config.portsShift), Port(config.udpPort + config.portsShift)) # TODO: EthereumNode should have a better split of binding address and # external address. Also, can't have different ports as it stands now. address = if ipExt.isNone(): Address(ip: parseIpAddress("0.0.0.0"), tcpPort: Port(config.devp2pTcpPort + config.portsShift), udpPort: Port(config.udpPort + config.portsShift)) else: Address(ip: ipExt.get(), tcpPort: Port(config.devp2pTcpPort + config.portsShift), udpPort: Port(config.udpPort + config.portsShift)) # Set-up node var node = newEthereumNode(config.nodekeyv1, address, 1, nil, clientIdV1, addAllCapabilities = false, rng = rng) node.addCapability Waku # Always enable Waku protocol # Set up the Waku configuration. # This node is being set up as a bridge so it gets configured as a node with # a full bloom filter so that it will receive and forward all messages. # TODO: What is the PoW setting now? let wakuConfig = WakuConfig(powRequirement: config.wakuPow, bloom: some(fullBloom()), isLightNode: false, maxMsgSize: waku_protocol.defaultMaxMsgSize, topics: none(seq[waku_protocol.Topic])) node.configureWaku(wakuConfig) # Optionally direct connect with a set of nodes if config.staticnodesv1.len > 0: connectToNodes(node, config.staticnodesv1) elif config.fleetv1 == prod: connectToNodes(node, WhisperNodes) elif config.fleetv1 == staging: connectToNodes(node, WhisperNodesStaging) elif config.fleetv1 == test: connectToNodes(node, WhisperNodesTest) let connectedFut = node.connectToNetwork(@[], true, # Always enable listening false # Disable discovery (only discovery v4 is currently supported) ) connectedFut.callback = proc(data: pointer) {.gcsafe.} = {.gcsafe.}: if connectedFut.failed: fatal "connectToNetwork failed", msg = connectedFut.readError.msg quit(1) return node proc startWakuV2(config: WakuNodeConf): Future[WakuNode] {.async.} = let (extIp, extTcpPort, _) = setupNat(config.nat, clientId, Port(uint16(config.libp2pTcpPort) + config.portsShift), Port(uint16(config.udpPort) + config.portsShift)) node = WakuNode.init(config.nodeKeyv2, config.listenAddress, Port(uint16(config.libp2pTcpPort) + config.portsShift), extIp, extTcpPort) await node.start() if config.store: mountStore(node) if config.filter: mountFilter(node) if config.relay: waitFor mountRelay(node, config.topics.split(" ")) if config.staticnodesv2.len > 0: waitFor connectToNodes(node, config.staticnodesv2) if config.storenode != "": setStorePeer(node, config.storenode) if config.filternode != "": setFilterPeer(node, config.filternode) return node when isMainModule: let rng = keys.newRng() let conf = WakuNodeConf.load() if conf.logLevel != LogLevel.NONE: setLogLevel(conf.logLevel) let nodev1 = startWakuV1(conf, rng) nodev2 = waitFor startWakuV2(conf) if conf.rpc: let ta = initTAddress(conf.rpcAddress, Port(conf.rpcPort + conf.portsShift)) var rpcServer = newRpcHttpServer([ta]) # Waku v1 RPC # TODO: Commented out the Waku v1 RPC calls as there is a conflict because # of exact same named rpc calls between v1 and v2 # let keys = newKeyStorage() # setupWakuRPC(nodev1, keys, rpcServer, rng) setupWakuSimRPC(nodev1, rpcServer) # Waku v2 rpc setupWakuRPC(nodev2, rpcServer) rpcServer.start() when defined(insecure): if conf.metricsServer: let address = conf.metricsServerAddress port = conf.metricsServerPort + conf.portsShift info "Starting metrics HTTP server", address, port metrics.startHttpServer($address, Port(port)) runForever()