import std/[options, tables, strutils, sequtils], chronos, chronicles, metrics, metrics/chronos_httpserver, stew/shims/net as stewNet, # TODO: Why do we need eth keys? eth/keys, web3, libp2p/multiaddress, libp2p/crypto/crypto, libp2p/protocols/protocol, # NOTE For TopicHandler, solve with exports? libp2p/protocols/pubsub/rpc/messages, libp2p/protocols/pubsub/pubsub, libp2p/protocols/pubsub/gossipsub, libp2p/builders, ../protocol/[waku_relay, waku_message, message_notifier], ../protocol/waku_store/waku_store, ../protocol/waku_swap/waku_swap, ../protocol/waku_filter/waku_filter, ../protocol/waku_lightpush/waku_lightpush, ../protocol/waku_rln_relay/waku_rln_relay_types, ../protocol/waku_keepalive/waku_keepalive, ../utils/peers, ./storage/message/message_store, ./storage/peer/peer_storage, ../utils/requests, ./peer_manager/peer_manager when defined(rln): import ../protocol/waku_rln_relay/[rln, waku_rln_relay_utils] declarePublicCounter waku_node_messages, "number of messages received", ["type"] declarePublicGauge waku_node_filters, "number of content filter subscriptions" declarePublicGauge waku_node_errors, "number of wakunode errors", ["type"] logScope: topics = "wakunode" # Default clientId const clientId* = "Nimbus Waku v2 node" # Default topic const defaultTopic = "/waku/2/default-waku/proto" # key and crypto modules different type KeyPair* = crypto.KeyPair PublicKey* = crypto.PublicKey PrivateKey* = crypto.PrivateKey # XXX: Weird type, should probably be using pubsub Topic object name? Topic* = string Message* = seq[byte] WakuInfo* = object # NOTE One for simplicity, can extend later as needed listenStr*: string #multiaddrStrings*: seq[string] # NOTE based on Eth2Node in NBC eth2_network.nim WakuNode* = ref object of RootObj peerManager*: PeerManager switch*: Switch wakuRelay*: WakuRelay wakuStore*: WakuStore wakuFilter*: WakuFilter wakuSwap*: WakuSwap wakuRlnRelay*: WakuRLNRelay wakuLightPush*: WakuLightPush wakuKeepalive*: WakuKeepalive peerInfo*: PeerInfo libp2pTransportLoops*: seq[Future[void]] # TODO Revist messages field indexing as well as if this should be Message or WakuMessage messages*: seq[(Topic, WakuMessage)] filters*: Filters subscriptions*: MessageNotificationSubscriptions rng*: ref BrHmacDrbgContext started*: bool # Indicates that node has started listening # NOTE Any difference here in Waku vs Eth2? # E.g. Devp2p/Libp2p support, etc. #func asLibp2pKey*(key: keys.PublicKey): PublicKey = # PublicKey(scheme: Secp256k1, skkey: secp.SkPublicKey(key)) func asEthKey*(key: PrivateKey): keys.PrivateKey = keys.PrivateKey(key.skkey) proc removeContentFilters(filters: var Filters, contentFilters: seq[ContentFilter]) {.gcsafe.} = # Flatten all unsubscribe topics into single seq let unsubscribeTopics = contentFilters.mapIt(it.contentTopic) debug "unsubscribing", unsubscribeTopics=unsubscribeTopics var rIdToRemove: seq[string] = @[] for rId, f in filters.mpairs: # Iterate filter entries to remove matching content topics # make sure we delete the content filter # if no more topics are left f.contentFilters.keepIf(proc (cf: auto): bool = cf.contentTopic notin unsubscribeTopics) if f.contentFilters.len == 0: rIdToRemove.add(rId) # make sure we delete the filter entry # if no more content filters left for rId in rIdToRemove: filters.del(rId) debug "filters modified", filters=filters template tcpEndPoint(address, port): auto = MultiAddress.init(address, tcpProtocol, port) ## Public API ## proc init*(T: type WakuNode, nodeKey: crypto.PrivateKey, bindIp: ValidIpAddress, bindPort: Port, extIp = none[ValidIpAddress](), extPort = none[Port](), peerStorage: PeerStorage = nil): T = ## Creates a Waku Node. ## ## Status: Implemented. ## let rng = crypto.newRng() hostAddress = tcpEndPoint(bindIp, bindPort) announcedAddresses = if extIp.isNone() or extPort.isNone(): @[] else: @[tcpEndPoint(extIp.get(), extPort.get())] peerInfo = PeerInfo.init(nodekey) info "Initializing networking", hostAddress, announcedAddresses # XXX: Add this when we create node or start it? peerInfo.addrs.add(hostAddress) # Index 0 for multiaddr in announcedAddresses: peerInfo.addrs.add(multiaddr) # Announced addresses in index > 0 var switch = newStandardSwitch(some(nodekey), hostAddress, transportFlags = {ServerFlags.ReuseAddr}, rng = rng) # TODO Untested - verify behavior after switch interface change # More like this: # let pubsub = GossipSub.init( # switch = switch, # msgIdProvider = msgIdProvider, # triggerSelf = true, sign = false, # verifySignature = false).PubSub result = WakuNode( peerManager: PeerManager.new(switch, peerStorage), switch: switch, rng: rng, peerInfo: peerInfo, subscriptions: newTable[string, MessageNotificationSubscription](), filters: initTable[string, Filter]() ) proc start*(node: WakuNode) {.async.} = ## Starts a created Waku Node. ## ## Status: Implemented. ## node.libp2pTransportLoops = await node.switch.start() # TODO Get this from WakuNode obj let peerInfo = node.peerInfo info "PeerInfo", peerId = peerInfo.peerId, addrs = peerInfo.addrs let listenStr = $peerInfo.addrs[^1] & "/p2p/" & $peerInfo.peerId ## XXX: this should be /ip4..., / stripped? info "Listening on", full = listenStr if not node.wakuRelay.isNil: await node.wakuRelay.start() node.started = true proc stop*(node: WakuNode) {.async.} = if not node.wakuRelay.isNil: await node.wakuRelay.stop() await node.switch.stop() node.started = false proc subscribe(node: WakuNode, topic: Topic, handler: Option[TopicHandler]) = if node.wakuRelay.isNil: error "Invalid API call to `subscribe`. WakuRelay not mounted." # @TODO improved error handling return info "subscribe", topic=topic proc defaultHandler(topic: string, data: seq[byte]) {.async, gcsafe.} = # A default handler should be registered for all topics trace "Hit default handler", topic=topic, data=data let msg = WakuMessage.init(data) if msg.isOk(): await node.subscriptions.notify(topic, msg.value()) # Trigger subscription handlers on a store/filter node waku_node_messages.inc(labelValues = ["relay"]) let wakuRelay = node.wakuRelay if topic notin PubSub(wakuRelay).topics: # Add default handler only for new topics debug "Registering default handler", topic=topic wakuRelay.subscribe(topic, defaultHandler) if handler.isSome: debug "Registering handler", topic=topic wakuRelay.subscribe(topic, handler.get()) proc subscribe*(node: WakuNode, topic: Topic, handler: TopicHandler) = ## Subscribes to a PubSub topic. Triggers handler when receiving messages on ## this topic. TopicHandler is a method that takes a topic and some data. ## ## NOTE The data field SHOULD be decoded as a WakuMessage. ## Status: Implemented. node.subscribe(topic, some(handler)) proc subscribe*(node: WakuNode, request: FilterRequest, handler: ContentFilterHandler) {.async, gcsafe.} = ## Registers for messages that match a specific filter. Triggers the handler whenever a message is received. ## FilterHandler is a method that takes a MessagePush. ## ## Status: Implemented. # Sanity check for well-formed subscribe FilterRequest doAssert(request.subscribe, "invalid subscribe request") info "subscribe content", filter=request var id = generateRequestId(node.rng) if node.wakuFilter.isNil == false: let idOpt = await node.wakuFilter.subscribe(request) if idOpt.isSome(): # Subscribed successfully. id = idOpt.get() else: # Failed to subscribe error "remote subscription to filter failed", filter = request waku_node_errors.inc(labelValues = ["subscribe_filter_failure"]) # Register handler for filter, whether remote subscription succeeded or not node.filters[id] = Filter(contentFilters: request.contentFilters, handler: handler) waku_node_filters.set(node.filters.len.int64) proc unsubscribe*(node: WakuNode, topic: Topic, handler: TopicHandler) = ## Unsubscribes a handler from a PubSub topic. ## ## Status: Implemented. if node.wakuRelay.isNil: error "Invalid API call to `unsubscribe`. WakuRelay not mounted." # @TODO improved error handling return info "unsubscribe", topic=topic let wakuRelay = node.wakuRelay wakuRelay.unsubscribe(@[(topic, handler)]) proc unsubscribeAll*(node: WakuNode, topic: Topic) = ## Unsubscribes all handlers registered on a specific PubSub topic. ## ## Status: Implemented. if node.wakuRelay.isNil: error "Invalid API call to `unsubscribeAll`. WakuRelay not mounted." # @TODO improved error handling return info "unsubscribeAll", topic=topic let wakuRelay = node.wakuRelay wakuRelay.unsubscribeAll(topic) proc unsubscribe*(node: WakuNode, request: FilterRequest) {.async, gcsafe.} = ## Unsubscribe from a content filter. ## ## Status: Implemented. # Sanity check for well-formed unsubscribe FilterRequest doAssert(request.subscribe == false, "invalid unsubscribe request") info "unsubscribe content", filter=request await node.wakuFilter.unsubscribe(request) node.filters.removeContentFilters(request.contentFilters) waku_node_filters.set(node.filters.len.int64) proc publish*(node: WakuNode, topic: Topic, message: WakuMessage, rlnRelayEnabled: bool = false) {.async, gcsafe.} = ## Publish a `WakuMessage` to a PubSub topic. `WakuMessage` should contain a ## `contentTopic` field for light node functionality. This field may be also ## be omitted. ## ## Status: Implemented. ## When rlnRelayEnabled is true, a zkp will be generated and attached to the message (it is an experimental feature) if node.wakuRelay.isNil: error "Invalid API call to `publish`. WakuRelay not mounted. Try `lightpush` instead." # @TODO improved error handling return let wakuRelay = node.wakuRelay debug "publish", topic=topic, contentTopic=message.contentTopic var publishingMessage = message when defined(rln): if rlnRelayEnabled: # if rln relay is enabled then a proof must be generated and added to the waku message let proof = proofGen(message.payload) ## TODO here since the message is immutable we have to make a copy of it and then attach the proof to its duplicate ## TODO however, it might be better to change message type to mutable (i.e., var) so that we can add the proof field to the original message publishingMessage = WakuMessage(payload: message.payload, contentTopic: message.contentTopic, version: message.version, proof: proof) let data = message.encode().buffer discard await wakuRelay.publish(topic, data) proc lightpush*(node: WakuNode, topic: Topic, message: WakuMessage, handler: PushResponseHandler) {.async, gcsafe.} = ## Pushes a `WakuMessage` to a node which relays it further on PubSub topic. ## Returns whether relaying was successful or not in `handler`. ## `WakuMessage` should contain a `contentTopic` field for light node ## functionality. This field may be also be omitted. ## ## Status: Implemented. debug "Publishing with lightpush", topic=topic, contentTopic=message.contentTopic let rpc = PushRequest(pubSubTopic: topic, message: message) await node.wakuLightPush.request(rpc, handler) proc query*(node: WakuNode, query: HistoryQuery, handler: QueryHandlerFunc) {.async, gcsafe.} = ## Queries known nodes for historical messages. Triggers the handler whenever a response is received. ## QueryHandlerFunc is a method that takes a HistoryResponse. ## ## Status: Implemented. # TODO Once waku swap is less experimental, this can simplified if node.wakuSwap.isNil: debug "Using default query" await node.wakuStore.query(query, handler) else: debug "Using SWAPAccounting query" # TODO wakuSwap now part of wakuStore object await node.wakuStore.queryWithAccounting(query, handler) proc resume*(node: WakuNode, peerList: Option[seq[PeerInfo]] = none(seq[PeerInfo])) {.async, gcsafe.} = ## resume proc retrieves the history of waku messages published on the default waku pubsub topic since the last time the waku node has been online ## for resume to work properly the waku node must have the store protocol mounted in the full mode (i.e., persisting messages) ## messages are stored in the the wakuStore's messages field and in the message db ## the offline time window is measured as the difference between the current time and the timestamp of the most recent persisted waku message ## an offset of 20 second is added to the time window to count for nodes asynchrony ## peerList indicates the list of peers to query from. The history is fetched from the first available peer in this list. Such candidates should be found through a discovery method (to be developed). ## if no peerList is passed, one of the peers in the underlying peer manager unit of the store protocol is picked randomly to fetch the history from. ## The history gets fetched successfully if the dialed peer has been online during the queried time window. if not node.wakuStore.isNil: let retrievedMessages = await node.wakuStore.resume(peerList) if retrievedMessages.isOk: info "the number of retrieved messages since the last online time: ", number=retrievedMessages.value # TODO Extend with more relevant info: topics, peers, memory usage, online time, etc proc info*(node: WakuNode): WakuInfo = ## Returns information about the Node, such as what multiaddress it can be reached at. ## ## Status: Implemented. ## # TODO Generalize this for other type of multiaddresses let peerInfo = node.peerInfo let listenStr = $peerInfo.addrs[^1] & "/p2p/" & $peerInfo.peerId let wakuInfo = WakuInfo(listenStr: listenStr) return wakuInfo proc mountFilter*(node: WakuNode) = info "mounting filter" proc filterHandler(requestId: string, msg: MessagePush) {.gcsafe.} = info "push received" for message in msg.messages: node.filters.notify(message, requestId) # Trigger filter handlers on a light node waku_node_messages.inc(labelValues = ["filter"]) node.wakuFilter = WakuFilter.init(node.peerManager, node.rng, filterHandler) node.switch.mount(node.wakuFilter) node.subscriptions.subscribe(WakuFilterCodec, node.wakuFilter.subscription()) # NOTE: If using the swap protocol, it must be mounted before store. This is # because store is using a reference to the swap protocol. proc mountSwap*(node: WakuNode, swapConfig: SwapConfig = SwapConfig.init()) = info "mounting swap", mode = $swapConfig.mode node.wakuSwap = WakuSwap.init(node.peerManager, node.rng, swapConfig) node.switch.mount(node.wakuSwap) # NYI - Do we need this? #node.subscriptions.subscribe(WakuSwapCodec, node.wakuSwap.subscription()) proc mountStore*(node: WakuNode, store: MessageStore = nil, persistMessages: bool = false) = info "mounting store" if node.wakuSwap.isNil: debug "mounting store without swap" node.wakuStore = WakuStore.init(node.peerManager, node.rng, store) else: debug "mounting store with swap" node.wakuStore = WakuStore.init(node.peerManager, node.rng, store, node.wakuSwap) node.switch.mount(node.wakuStore) if persistMessages: node.subscriptions.subscribe(WakuStoreCodec, node.wakuStore.subscription()) when defined(rln): proc mountRlnRelay*(node: WakuNode, ethClientAddress: Option[string] = none(string), ethAccountAddress: Option[Address] = none(Address), membershipContractAddress: Option[Address] = none(Address)) {.async.} = # TODO return a bool value to indicate the success of the call # check whether inputs are provided doAssert(ethClientAddress.isSome()) doAssert(ethAccountAddress.isSome()) doAssert(membershipContractAddress.isSome()) # create an RLN instance var ctx = RLN[Bn256]() ctxPtr = addr(ctx) doAssert(createRLNInstance(32, ctxPtr)) # generate the membership keys let membershipKeyPair = membershipKeyGen(ctxPtr) # check whether keys are generated doAssert(membershipKeyPair.isSome()) debug "the membership key for the rln relay is generated" # initialize the WakuRLNRelay var rlnPeer = WakuRLNRelay(membershipKeyPair: membershipKeyPair.get(), ethClientAddress: ethClientAddress.get(), ethAccountAddress: ethAccountAddress.get(), membershipContractAddress: membershipContractAddress.get()) # register the rln-relay peer to the membership contract let is_successful = await rlnPeer.register() # check whether registration is done doAssert(is_successful) debug "peer is successfully registered into the membership contract" node.wakuRlnRelay = rlnPeer when defined(rln): proc addRLNRelayValidator*(node: WakuNode, pubsubTopic: string) = ## this procedure is a thin wrapper for the pubsub addValidator method ## it sets message validator on the given pubsubTopic, the validator will check that ## all the messages published in the pubsubTopic have a valid zero-knowledge proof proc validator(topic: string, message: messages.Message): Future[ValidationResult] {.async.} = let msg = WakuMessage.init(message.data) if msg.isOk(): # check the proof if proofVrfy(msg.value().payload, msg.value().proof): result = ValidationResult.Accept # set a validator for the pubsubTopic let pb = PubSub(node.wakuRelay) pb.addValidator(pubsubTopic, validator) proc mountRelay*(node: WakuNode, topics: seq[string] = newSeq[string](), rlnRelayEnabled = false, relayMessages = true, triggerSelf = true) {.gcsafe.} = let wakuRelay = WakuRelay.init( switch = node.switch, # Use default #msgIdProvider = msgIdProvider, triggerSelf = triggerSelf, sign = false, verifySignature = false ) info "mounting relay", rlnRelayEnabled=rlnRelayEnabled, relayMessages=relayMessages node.switch.mount(wakuRelay) if not relayMessages: ## Some nodes may choose not to have the capability to relay messages (e.g. "light" nodes). ## All nodes, however, currently require WakuRelay, regardless of desired capabilities. ## This is to allow protocol stream negotation with relay-capable nodes to succeed. ## Here we mount relay on the switch only, but do not proceed to subscribe to any pubsub ## topics. We also never start the relay protocol. node.wakuRelay remains nil. ## @TODO: in future, this WakuRelay dependency will be removed completely return node.wakuRelay = wakuRelay node.subscribe(defaultTopic, none(TopicHandler)) for topic in topics: node.subscribe(topic, none(TopicHandler)) if node.peerManager.hasPeers(WakuRelayCodec): trace "Found previous WakuRelay peers. Reconnecting." # Reconnect to previous relay peers. This will respect a backoff period, if necessary waitFor node.peerManager.reconnectPeers(WakuRelayCodec, wakuRelay.parameters.pruneBackoff + chronos.seconds(BackoffSlackTime)) when defined(rln): if rlnRelayEnabled: # TODO pass rln relay inputs to this proc, right now it uses default values that are set in the mountRlnRelay proc info "WakuRLNRelay is enabled" waitFor mountRlnRelay(node) # TODO currently the message validator is set for the defaultTopic, this can be configurable to accept other pubsub topics as well addRLNRelayValidator(node, defaultTopic) info "WakuRLNRelay is mounted successfully" if node.started: # Node has already started. Start the WakuRelay protocol waitFor node.wakuRelay.start() info "relay mounted and started successfully" proc mountLightPush*(node: WakuNode) = info "mounting light push" if node.wakuRelay.isNil: debug "mounting lightpush without relay" node.wakuLightPush = WakuLightPush.init(node.peerManager, node.rng, nil) else: debug "mounting lightpush with relay" node.wakuLightPush = WakuLightPush.init(node.peerManager, node.rng, nil, node.wakuRelay) node.switch.mount(node.wakuLightPush) proc mountKeepalive*(node: WakuNode) = info "mounting keepalive" node.wakuKeepalive = WakuKeepalive.new(node.peerManager, node.rng) node.switch.mount(node.wakuKeepalive) proc keepaliveLoop(node: WakuNode, keepalive: chronos.Duration) {.async.} = while node.started: # Keep all managed peers alive when idle trace "Running keepalive" await node.wakuKeepalive.keepAllAlive() await sleepAsync(keepalive) proc startKeepalive*(node: WakuNode) = let defaultKeepalive = 5.minutes # 50% of the default chronosstream timeout duration info "starting keepalive", keepalive=defaultKeepalive asyncSpawn node.keepaliveLoop(defaultKeepalive) ## Helpers proc dialPeer*(n: WakuNode, address: string) {.async.} = info "dialPeer", address = address # XXX: This turns ipfs into p2p, not quite sure why let remotePeer = parsePeerInfo(address) info "Dialing peer", wireAddr = remotePeer.addrs[0], peerId = remotePeer.peerId # NOTE This is dialing on WakuRelay protocol specifically discard await n.peerManager.dialPeer(remotePeer, WakuRelayCodec) info "Post peerManager dial" proc setStorePeer*(n: WakuNode, address: string) = info "Set store peer", address = address let remotePeer = parsePeerInfo(address) n.wakuStore.setPeer(remotePeer) proc setFilterPeer*(n: WakuNode, address: string) = info "Set filter peer", address = address let remotePeer = parsePeerInfo(address) n.wakuFilter.setPeer(remotePeer) proc setLightPushPeer*(n: WakuNode, address: string) = info "Set lightpush peer", address = address let remotePeer = parsePeerInfo(address) n.wakuLightPush.setPeer(remotePeer) proc connectToNodes*(n: WakuNode, nodes: seq[string]) {.async.} = for nodeId in nodes: info "connectToNodes", node = nodeId # XXX: This seems...brittle await dialPeer(n, nodeId) # The issue seems to be around peers not being fully connected when # trying to subscribe. So what we do is sleep to guarantee nodes are # fully connected. # # This issue was known to Dmitiry on nim-libp2p and may be resolvable # later. await sleepAsync(5.seconds) proc connectToNodes*(n: WakuNode, nodes: seq[PeerInfo]) {.async.} = for peerInfo in nodes: info "connectToNodes", peer = peerInfo discard await n.peerManager.dialPeer(peerInfo, WakuRelayCodec) # The issue seems to be around peers not being fully connected when # trying to subscribe. So what we do is sleep to guarantee nodes are # fully connected. # # This issue was known to Dmitiry on nim-libp2p and may be resolvable # later. await sleepAsync(5.seconds) when isMainModule: import system/ansi_c, confutils, json_rpc/rpcserver, metrics, ./config, ./jsonrpc/[admin_api, debug_api, filter_api, private_api, relay_api, store_api], ./storage/message/waku_message_store, ./storage/peer/waku_peer_storage, ../../common/utils/nat proc startRpc(node: WakuNode, rpcIp: ValidIpAddress, rpcPort: Port, conf: WakuNodeConf) = let ta = initTAddress(rpcIp, rpcPort) rpcServer = newRpcHttpServer([ta]) installDebugApiHandlers(node, rpcServer) # Install enabled API handlers: if conf.relay: let topicCache = newTable[string, seq[WakuMessage]]() installRelayApiHandlers(node, rpcServer, topicCache) if conf.rpcPrivate: # Private API access allows WakuRelay functionality that # is backwards compatible with Waku v1. installPrivateApiHandlers(node, rpcServer, node.rng, topicCache) if conf.filter: let messageCache = newTable[ContentTopic, seq[WakuMessage]]() installFilterApiHandlers(node, rpcServer, messageCache) if conf.store: installStoreApiHandlers(node, rpcServer) if conf.rpcAdmin: installAdminApiHandlers(node, rpcServer) rpcServer.start() info "RPC Server started", ta proc startMetricsServer(serverIp: ValidIpAddress, serverPort: Port) = info "Starting metrics HTTP server", serverIp, serverPort startMetricsHttpServer($serverIp, serverPort) info "Metrics HTTP server started", serverIp, serverPort proc startMetricsLog() = # https://github.com/nim-lang/Nim/issues/17369 var logMetrics: proc(udata: pointer) {.gcsafe, raises: [Defect].} logMetrics = proc(udata: pointer) = {.gcsafe.}: # TODO: libp2p_pubsub_peers is not public, so we need to make this either # public in libp2p or do our own peer counting after all. var totalMessages = 0.float64 for key in waku_node_messages.metrics.keys(): try: totalMessages = totalMessages + waku_node_messages.value(key) except KeyError: discard info "Node metrics", totalMessages discard setTimer(Moment.fromNow(2.seconds), logMetrics) discard setTimer(Moment.fromNow(2.seconds), logMetrics) let conf = WakuNodeConf.load() # Storage setup var sqliteDatabase: SqliteDatabase if conf.dbPath != "": let dbRes = SqliteDatabase.init(conf.dbPath) if dbRes.isErr: warn "failed to init database", err = dbRes.error waku_node_errors.inc(labelValues = ["init_db_failure"]) else: sqliteDatabase = dbRes.value var pStorage: WakuPeerStorage if conf.persistPeers and not sqliteDatabase.isNil: let res = WakuPeerStorage.new(sqliteDatabase) if res.isErr: warn "failed to init new WakuPeerStorage", err = res.error waku_node_errors.inc(labelValues = ["init_store_failure"]) else: pStorage = res.value let (extIp, extTcpPort, extUdpPort) = setupNat(conf.nat, clientId, Port(uint16(conf.tcpPort) + conf.portsShift), Port(uint16(conf.udpPort) + conf.portsShift)) ## @TODO: the NAT setup assumes a manual port mapping configuration if extIp config is set. This probably ## implies adding manual config item for extPort as well. The following heuristic assumes that, in absence of manual ## config, the external port is the same as the bind port. extPort = if extIp.isSome() and extTcpPort.isNone(): some(Port(uint16(conf.tcpPort) + conf.portsShift)) else: extTcpPort node = WakuNode.init(conf.nodekey, conf.listenAddress, Port(uint16(conf.tcpPort) + conf.portsShift), extIp, extPort, pStorage) waitFor node.start() if conf.swap: mountSwap(node) # TODO Set swap peer, for now should be same as store peer # Store setup if (conf.storenode != "") or (conf.store): var store: WakuMessageStore if (not sqliteDatabase.isNil) and conf.persistMessages: let res = WakuMessageStore.init(sqliteDatabase) if res.isErr: warn "failed to init WakuMessageStore", err = res.error waku_node_errors.inc(labelValues = ["init_store_failure"]) else: store = res.value mountStore(node, store, conf.persistMessages) if conf.storenode != "": setStorePeer(node, conf.storenode) # Relay setup mountRelay(node, conf.topics.split(" "), rlnRelayEnabled = conf.rlnRelay, relayMessages = conf.relay) # Indicates if node is capable to relay messages # Keepalive mounted on all nodes mountKeepalive(node) # Resume historical messages, this has to be called after the relay setup if conf.store and conf.persistMessages: waitFor node.resume() if conf.staticnodes.len > 0: waitFor connectToNodes(node, conf.staticnodes) # NOTE Must be mounted after relay if (conf.lightpushnode != "") or (conf.lightpush): mountLightPush(node) if conf.lightpushnode != "": setLightPushPeer(node, conf.lightpushnode) # Filter setup. NOTE Must be mounted after relay if (conf.filternode != "") or (conf.filter): mountFilter(node) if conf.filternode != "": setFilterPeer(node, conf.filternode) if conf.rpc: startRpc(node, conf.rpcAddress, Port(conf.rpcPort + conf.portsShift), conf) if conf.metricsLogging: startMetricsLog() if conf.metricsServer: startMetricsServer(conf.metricsServerAddress, Port(conf.metricsServerPort + conf.portsShift)) # Setup graceful shutdown # Handle Ctrl-C SIGINT proc handleCtrlC() {.noconv.} = when defined(windows): # workaround for https://github.com/nim-lang/Nim/issues/4057 setupForeignThreadGc() info "Shutting down after receiving SIGINT" waitFor node.stop() quit(QuitSuccess) setControlCHook(handleCtrlC) # Handle SIGTERM when defined(posix): proc handleSigterm(signal: cint) {.noconv.} = info "Shutting down after receiving SIGTERM" waitFor node.stop() quit(QuitSuccess) c_signal(SIGTERM, handleSigterm) # Start keepalive, if enabled if conf.keepAlive: node.startKeepalive() runForever()