# Nim-LibP2P # Copyright (c) 2022 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. when (NimMajor, NimMinor) < (1, 4): {.push raises: [Defect].} else: {.push raises: [].} import std/[options, deques, sequtils] import chronos, metrics import ../switch import ../protocols/[connectivity/autonat] import ../utils/heartbeat import ../crypto/crypto declarePublicGauge(libp2p_autonat_reachability_confidence, "autonat reachability confidence", labels = ["reachability"]) type AutonatService* = ref object of Service newConnectedPeerHandler: PeerEventHandler scheduleHandle: Future[void] networkReachability: NetworkReachability confidence: Option[float] answers: Deque[NetworkReachability] autonat: Autonat statusAndConfidenceHandler: StatusAndConfidenceHandler rng: ref HmacDrbgContext scheduleInterval: Option[Duration] askNewConnectedPeers: bool numPeersToAsk: int maxQueueSize: int minConfidence: float dialTimeout: Duration NetworkReachability* {.pure.} = enum NotReachable, Reachable, Unknown StatusAndConfidenceHandler* = proc (networkReachability: NetworkReachability, confidence: Option[float]): Future[void] {.gcsafe, raises: [Defect].} proc new*( T: typedesc[AutonatService], autonat: Autonat, rng: ref HmacDrbgContext, scheduleInterval: Option[Duration] = none(Duration), askNewConnectedPeers = true, numPeersToAsk: int = 5, maxQueueSize: int = 10, minConfidence: float = 0.3, dialTimeout = 30.seconds): T = return T( scheduleInterval: scheduleInterval, networkReachability: Unknown, confidence: none(float), answers: initDeque[NetworkReachability](), autonat: autonat, rng: rng, askNewConnectedPeers: askNewConnectedPeers, numPeersToAsk: numPeersToAsk, maxQueueSize: maxQueueSize, minConfidence: minConfidence, dialTimeout: dialTimeout) proc networkReachability*(self: AutonatService): NetworkReachability {.inline.} = return self.networkReachability proc callHandler(self: AutonatService) {.async.} = if not isNil(self.statusAndConfidenceHandler): await self.statusAndConfidenceHandler(self.networkReachability, self.confidence) proc handleAnswer(self: AutonatService, ans: NetworkReachability) {.async.} = if ans == Unknown: return if self.answers.len == self.maxQueueSize: self.answers.popFirst() self.answers.addLast(ans) self.networkReachability = Unknown self.confidence = none(float) const reachabilityPriority = [Reachable, NotReachable] for reachability in reachabilityPriority: let confidence = self.answers.countIt(it == reachability) / self.maxQueueSize libp2p_autonat_reachability_confidence.set(value = confidence, labelValues = [$reachability]) if self.confidence.isNone and confidence >= self.minConfidence: self.networkReachability = reachability self.confidence = some(confidence) trace "Current status", currentStats = $self.networkReachability, confidence = $self.confidence proc askPeer(self: AutonatService, s: Switch, peerId: PeerId): Future[NetworkReachability] {.async.} = trace "Asking for reachability", peerId = $peerId let ans = try: discard await self.autonat.dialMe(peerId).wait(self.dialTimeout) Reachable except AutonatUnreachableError: trace "dialMe answer is not reachable", peerId = $peerId NotReachable except AsyncTimeoutError: trace "dialMe timed out", peerId = $peerId Unknown except CatchableError as err: trace "dialMe unexpected error", peerId = $peerId, errMsg = $err.msg Unknown await self.handleAnswer(ans) if not isNil(self.statusAndConfidenceHandler): await self.statusAndConfidenceHandler(self.networkReachability, self.confidence) return ans proc askConnectedPeers(self: AutonatService, switch: Switch) {.async.} = var peers = switch.connectedPeers(Direction.Out) self.rng.shuffle(peers) var answersFromPeers = 0 for peer in peers: if answersFromPeers >= self.numPeersToAsk: break elif (await askPeer(self, switch, peer)) != Unknown: answersFromPeers.inc() proc schedule(service: AutonatService, switch: Switch, interval: Duration) {.async.} = heartbeat "Schedule AutonatService run", interval: await service.run(switch) method setup*(self: AutonatService, switch: Switch): Future[bool] {.async.} = let hasBeenSetup = await procCall Service(self).setup(switch) if hasBeenSetup: if self.askNewConnectedPeers: self.newConnectedPeerHandler = proc (peerId: PeerId, event: PeerEvent): Future[void] {.async.} = discard askPeer(self, switch, peerId) await self.callHandler() switch.connManager.addPeerEventHandler(self.newConnectedPeerHandler, PeerEventKind.Joined) if self.scheduleInterval.isSome(): self.scheduleHandle = schedule(self, switch, self.scheduleInterval.get()) return hasBeenSetup method run*(self: AutonatService, switch: Switch) {.async, public.} = await askConnectedPeers(self, switch) await self.callHandler() method stop*(self: AutonatService, switch: Switch): Future[bool] {.async, public.} = let hasBeenStopped = await procCall Service(self).stop(switch) if hasBeenStopped: if not isNil(self.scheduleHandle): self.scheduleHandle.cancel() self.scheduleHandle = nil if not isNil(self.newConnectedPeerHandler): switch.connManager.removePeerEventHandler(self.newConnectedPeerHandler, PeerEventKind.Joined) return hasBeenStopped proc statusAndConfidenceHandler*(self: AutonatService, statusAndConfidenceHandler: StatusAndConfidenceHandler) = self.statusAndConfidenceHandler = statusAndConfidenceHandler