package autonat import ( "context" "math/rand" "sync/atomic" "time" "github.com/libp2p/go-libp2p/core/event" "github.com/libp2p/go-libp2p/core/host" "github.com/libp2p/go-libp2p/core/network" "github.com/libp2p/go-libp2p/core/peer" "github.com/libp2p/go-libp2p/p2p/host/eventbus" logging "github.com/ipfs/go-log/v2" ma "github.com/multiformats/go-multiaddr" manet "github.com/multiformats/go-multiaddr/net" ) var log = logging.Logger("autonat") const maxConfidence = 3 // AmbientAutoNAT is the implementation of ambient NAT autodiscovery type AmbientAutoNAT struct { host host.Host *config ctx context.Context ctxCancel context.CancelFunc // is closed when Close is called backgroundRunning chan struct{} // is closed when the background go routine exits inboundConn chan network.Conn dialResponses chan error // status is an autoNATResult reflecting current status. status atomic.Pointer[network.Reachability] // Reflects the confidence on of the NATStatus being private, as a single // dialback may fail for reasons unrelated to NAT. // If it is <3, then multiple autoNAT peers may be contacted for dialback // If only a single autoNAT peer is known, then the confidence increases // for each failure until it reaches 3. confidence int lastInbound time.Time lastProbeTry time.Time lastProbe time.Time recentProbes map[peer.ID]time.Time service *autoNATService emitReachabilityChanged event.Emitter subscriber event.Subscription } // StaticAutoNAT is a simple AutoNAT implementation when a single NAT status is desired. type StaticAutoNAT struct { host host.Host reachability network.Reachability service *autoNATService } // New creates a new NAT autodiscovery system attached to a host func New(h host.Host, options ...Option) (AutoNAT, error) { var err error conf := new(config) conf.host = h conf.dialPolicy.host = h if err = defaults(conf); err != nil { return nil, err } if conf.addressFunc == nil { conf.addressFunc = h.Addrs } for _, o := range options { if err = o(conf); err != nil { return nil, err } } emitReachabilityChanged, _ := h.EventBus().Emitter(new(event.EvtLocalReachabilityChanged), eventbus.Stateful) var service *autoNATService if (!conf.forceReachability || conf.reachability == network.ReachabilityPublic) && conf.dialer != nil { service, err = newAutoNATService(conf) if err != nil { return nil, err } service.Enable() } if conf.forceReachability { emitReachabilityChanged.Emit(event.EvtLocalReachabilityChanged{Reachability: conf.reachability}) return &StaticAutoNAT{ host: h, reachability: conf.reachability, service: service, }, nil } ctx, cancel := context.WithCancel(context.Background()) as := &AmbientAutoNAT{ ctx: ctx, ctxCancel: cancel, backgroundRunning: make(chan struct{}), host: h, config: conf, inboundConn: make(chan network.Conn, 5), dialResponses: make(chan error, 1), emitReachabilityChanged: emitReachabilityChanged, service: service, recentProbes: make(map[peer.ID]time.Time), } reachability := network.ReachabilityUnknown as.status.Store(&reachability) subscriber, err := as.host.EventBus().Subscribe( []any{new(event.EvtLocalAddressesUpdated), new(event.EvtPeerIdentificationCompleted)}, eventbus.Name("autonat"), ) if err != nil { return nil, err } as.subscriber = subscriber h.Network().Notify(as) go as.background() return as, nil } // Status returns the AutoNAT observed reachability status. func (as *AmbientAutoNAT) Status() network.Reachability { s := as.status.Load() return *s } func (as *AmbientAutoNAT) emitStatus() { status := *as.status.Load() as.emitReachabilityChanged.Emit(event.EvtLocalReachabilityChanged{Reachability: status}) if as.metricsTracer != nil { as.metricsTracer.ReachabilityStatus(status) } } func ipInList(candidate ma.Multiaddr, list []ma.Multiaddr) bool { candidateIP, _ := manet.ToIP(candidate) for _, i := range list { if ip, err := manet.ToIP(i); err == nil && ip.Equal(candidateIP) { return true } } return false } func (as *AmbientAutoNAT) background() { // wait a bit for the node to come online and establish some connections // before starting autodetection delay := as.config.bootDelay subChan := as.subscriber.Out() timer := time.NewTimer(delay) timerRunning := true retryProbe := false for { select { // new inbound connection. case conn := <-as.inboundConn: localAddrs := as.host.Addrs() is, err := manet.IsPublicAddr(conn.RemoteMultiaddr()) if is && err == nil && !ipInList(conn.RemoteMultiaddr(), localAddrs) { as.lastInbound = time.Now() } case e := <-subChan: switch e := e.(type) { case event.EvtLocalAddressesUpdated: // On local address update, reduce confidence from maximum so that we schedule // the next probe sooner if as.confidence == maxConfidence { as.confidence-- } case event.EvtPeerIdentificationCompleted: if s, err := as.host.Peerstore().SupportsProtocols(e.Peer, AutoNATProto); err == nil && len(s) > 0 { currentStatus := *as.status.Load() if currentStatus == network.ReachabilityUnknown { as.tryProbe(e.Peer) } } default: log.Errorf("unknown event type: %T", e) } // probe finished. case err, ok := <-as.dialResponses: if !ok { close(as.backgroundRunning) as.subscriber.Close() as.emitReachabilityChanged.Close() timer.Stop() return } if IsDialRefused(err) { retryProbe = true } else { as.handleDialResponse(err) } case <-timer.C: peer := as.getPeerToProbe() as.tryProbe(peer) timerRunning = false retryProbe = false case <-as.ctx.Done(): close(as.backgroundRunning) as.subscriber.Close() as.emitReachabilityChanged.Close() timer.Stop() return } // Drain the timer channel if it hasn't fired in preparation for Resetting it. if timerRunning && !timer.Stop() { <-timer.C } timer.Reset(as.scheduleProbe(retryProbe)) timerRunning = true } } func (as *AmbientAutoNAT) cleanupRecentProbes() { fixedNow := time.Now() for k, v := range as.recentProbes { if fixedNow.Sub(v) > as.throttlePeerPeriod { delete(as.recentProbes, k) } } } // scheduleProbe calculates when the next probe should be scheduled for. func (as *AmbientAutoNAT) scheduleProbe(retryProbe bool) time.Duration { // Our baseline is a probe every 'AutoNATRefreshInterval' // This is modulated by: // * if we are in an unknown state, have low confidence, or we want to retry because a probe was refused that // should drop to 'AutoNATRetryInterval' // * recent inbound connections (implying continued connectivity) should decrease the retry when public // * recent inbound connections when not public mean we should try more actively to see if we're public. fixedNow := time.Now() currentStatus := *as.status.Load() nextProbe := fixedNow // Don't look for peers in the peer store more than once per second. if !as.lastProbeTry.IsZero() { backoff := as.lastProbeTry.Add(time.Second) if backoff.After(nextProbe) { nextProbe = backoff } } if !as.lastProbe.IsZero() { untilNext := as.config.refreshInterval if retryProbe { untilNext = as.config.retryInterval } else if currentStatus == network.ReachabilityUnknown { untilNext = as.config.retryInterval } else if as.confidence < maxConfidence { untilNext = as.config.retryInterval } else if currentStatus == network.ReachabilityPublic && as.lastInbound.After(as.lastProbe) { untilNext *= 2 } else if currentStatus != network.ReachabilityPublic && as.lastInbound.After(as.lastProbe) { untilNext /= 5 } if as.lastProbe.Add(untilNext).After(nextProbe) { nextProbe = as.lastProbe.Add(untilNext) } } if as.metricsTracer != nil { as.metricsTracer.NextProbeTime(nextProbe) } return nextProbe.Sub(fixedNow) } // handleDialResponse updates the current status based on dial response. func (as *AmbientAutoNAT) handleDialResponse(dialErr error) { var observation network.Reachability switch { case dialErr == nil: observation = network.ReachabilityPublic case IsDialError(dialErr): observation = network.ReachabilityPrivate default: observation = network.ReachabilityUnknown } as.recordObservation(observation) } // recordObservation updates NAT status and confidence func (as *AmbientAutoNAT) recordObservation(observation network.Reachability) { currentStatus := *as.status.Load() if observation == network.ReachabilityPublic { changed := false if currentStatus != network.ReachabilityPublic { // Aggressively switch to public from other states ignoring confidence log.Debugf("NAT status is public") // we are flipping our NATStatus, so confidence drops to 0 as.confidence = 0 if as.service != nil { as.service.Enable() } changed = true } else if as.confidence < maxConfidence { as.confidence++ } as.status.Store(&observation) if changed { as.emitStatus() } } else if observation == network.ReachabilityPrivate { if currentStatus != network.ReachabilityPrivate { if as.confidence > 0 { as.confidence-- } else { log.Debugf("NAT status is private") // we are flipping our NATStatus, so confidence drops to 0 as.confidence = 0 as.status.Store(&observation) if as.service != nil { as.service.Disable() } as.emitStatus() } } else if as.confidence < maxConfidence { as.confidence++ as.status.Store(&observation) } } else if as.confidence > 0 { // don't just flip to unknown, reduce confidence first as.confidence-- } else { log.Debugf("NAT status is unknown") as.status.Store(&observation) if currentStatus != network.ReachabilityUnknown { if as.service != nil { as.service.Enable() } as.emitStatus() } } if as.metricsTracer != nil { as.metricsTracer.ReachabilityStatusConfidence(as.confidence) } } func (as *AmbientAutoNAT) tryProbe(p peer.ID) bool { as.lastProbeTry = time.Now() if p.Validate() != nil { return false } if lastTime, ok := as.recentProbes[p]; ok { if time.Since(lastTime) < as.throttlePeerPeriod { return false } } as.cleanupRecentProbes() info := as.host.Peerstore().PeerInfo(p) if !as.config.dialPolicy.skipPeer(info.Addrs) { as.recentProbes[p] = time.Now() as.lastProbe = time.Now() go as.probe(&info) return true } return false } func (as *AmbientAutoNAT) probe(pi *peer.AddrInfo) { cli := NewAutoNATClient(as.host, as.config.addressFunc, as.metricsTracer) ctx, cancel := context.WithTimeout(as.ctx, as.config.requestTimeout) err := cli.DialBack(ctx, pi.ID) log.Debugf("Dialback through peer %s completed: err: %s", pi.ID, err) select { case as.dialResponses <- err: case <-as.ctx.Done(): cancel() return } } func (as *AmbientAutoNAT) getPeerToProbe() peer.ID { peers := as.host.Network().Peers() if len(peers) == 0 { return "" } candidates := make([]peer.ID, 0, len(peers)) for _, p := range peers { info := as.host.Peerstore().PeerInfo(p) // Exclude peers which don't support the autonat protocol. if proto, err := as.host.Peerstore().SupportsProtocols(p, AutoNATProto); len(proto) == 0 || err != nil { continue } // Exclude peers in backoff. if lastTime, ok := as.recentProbes[p]; ok { if time.Since(lastTime) < as.throttlePeerPeriod { continue } } if as.config.dialPolicy.skipPeer(info.Addrs) { continue } candidates = append(candidates, p) } if len(candidates) == 0 { return "" } return candidates[rand.Intn(len(candidates))] } func (as *AmbientAutoNAT) Close() error { as.ctxCancel() if as.service != nil { return as.service.Close() } <-as.backgroundRunning return nil } // Status returns the AutoNAT observed reachability status. func (s *StaticAutoNAT) Status() network.Reachability { return s.reachability } func (s *StaticAutoNAT) Close() error { if s.service != nil { return s.service.Close() } return nil }