// Copyright (C) 2015 The Syncthing Authors. // // This Source Code Form is subject to the terms of the Mozilla Public // License, v. 2.0. If a copy of the MPL was not distributed with this file, // You can obtain one at https://mozilla.org/MPL/2.0/. package connections import ( "crypto/tls" "errors" "fmt" "net" "net/url" "strings" "time" "github.com/syncthing/syncthing/lib/config" "github.com/syncthing/syncthing/lib/discover" "github.com/syncthing/syncthing/lib/events" "github.com/syncthing/syncthing/lib/nat" "github.com/syncthing/syncthing/lib/protocol" "github.com/syncthing/syncthing/lib/sync" "github.com/syncthing/syncthing/lib/util" // Registers NAT service providers _ "github.com/syncthing/syncthing/lib/pmp" _ "github.com/syncthing/syncthing/lib/upnp" "github.com/thejerf/suture" "golang.org/x/time/rate" ) var ( dialers = make(map[string]dialerFactory, 0) listeners = make(map[string]listenerFactory, 0) ) const ( perDeviceWarningIntv = 15 * time.Minute tlsHandshakeTimeout = 10 * time.Second ) // From go/src/crypto/tls/cipher_suites.go var tlsCipherSuiteNames = map[uint16]string{ 0x0005: "TLS_RSA_WITH_RC4_128_SHA", 0x000a: "TLS_RSA_WITH_3DES_EDE_CBC_SHA", 0x002f: "TLS_RSA_WITH_AES_128_CBC_SHA", 0x0035: "TLS_RSA_WITH_AES_256_CBC_SHA", 0x003c: "TLS_RSA_WITH_AES_128_CBC_SHA256", 0x009c: "TLS_RSA_WITH_AES_128_GCM_SHA256", 0x009d: "TLS_RSA_WITH_AES_256_GCM_SHA384", 0xc007: "TLS_ECDHE_ECDSA_WITH_RC4_128_SHA", 0xc009: "TLS_ECDHE_ECDSA_WITH_AES_128_CBC_SHA", 0xc00a: "TLS_ECDHE_ECDSA_WITH_AES_256_CBC_SHA", 0xc011: "TLS_ECDHE_RSA_WITH_RC4_128_SHA", 0xc012: "TLS_ECDHE_RSA_WITH_3DES_EDE_CBC_SHA", 0xc013: "TLS_ECDHE_RSA_WITH_AES_128_CBC_SHA", 0xc014: "TLS_ECDHE_RSA_WITH_AES_256_CBC_SHA", 0xc023: "TLS_ECDHE_ECDSA_WITH_AES_128_CBC_SHA256", 0xc027: "TLS_ECDHE_RSA_WITH_AES_128_CBC_SHA256", 0xc02f: "TLS_ECDHE_RSA_WITH_AES_128_GCM_SHA256", 0xc02b: "TLS_ECDHE_ECDSA_WITH_AES_128_GCM_SHA256", 0xc030: "TLS_ECDHE_RSA_WITH_AES_256_GCM_SHA384", 0xc02c: "TLS_ECDHE_ECDSA_WITH_AES_256_GCM_SHA384", 0xcca8: "TLS_ECDHE_RSA_WITH_CHACHA20_POLY1305", 0xcca9: "TLS_ECDHE_ECDSA_WITH_CHACHA20_POLY1305", } // Service listens and dials all configured unconnected devices, via supported // dialers. Successful connections are handed to the model. type Service struct { *suture.Supervisor cfg *config.Wrapper myID protocol.DeviceID model Model tlsCfg *tls.Config discoverer discover.Finder conns chan internalConn bepProtocolName string tlsDefaultCommonName string lans []*net.IPNet limiter *limiter natService *nat.Service natServiceToken *suture.ServiceToken listenersMut sync.RWMutex listeners map[string]genericListener listenerTokens map[string]suture.ServiceToken listenerSupervisor *suture.Supervisor curConMut sync.Mutex currentConnection map[protocol.DeviceID]completeConn } func NewService(cfg *config.Wrapper, myID protocol.DeviceID, mdl Model, tlsCfg *tls.Config, discoverer discover.Finder, bepProtocolName string, tlsDefaultCommonName string, lans []*net.IPNet) *Service { service := &Service{ Supervisor: suture.New("connections.Service", suture.Spec{ Log: func(line string) { l.Infoln(line) }, }), cfg: cfg, myID: myID, model: mdl, tlsCfg: tlsCfg, discoverer: discoverer, conns: make(chan internalConn), bepProtocolName: bepProtocolName, tlsDefaultCommonName: tlsDefaultCommonName, lans: lans, limiter: newLimiter(cfg), natService: nat.NewService(myID, cfg), listenersMut: sync.NewRWMutex(), listeners: make(map[string]genericListener), listenerTokens: make(map[string]suture.ServiceToken), // A listener can fail twice, rapidly. Any more than that and it // will be put on suspension for ten minutes. Restarts and changes // due to config are done by removing and adding services, so are // not subject to these limitations. listenerSupervisor: suture.New("c.S.listenerSupervisor", suture.Spec{ Log: func(line string) { l.Infoln(line) }, FailureThreshold: 2, FailureBackoff: 600 * time.Second, }), curConMut: sync.NewMutex(), currentConnection: make(map[protocol.DeviceID]completeConn), } cfg.Subscribe(service) raw := cfg.RawCopy() // Actually starts the listeners and NAT service // Need to start this before service.connect so that any dials that // try punch through already have a listener to cling on. service.CommitConfiguration(raw, raw) // There are several moving parts here; one routine per listening address // (handled in configuration changing) to handle incoming connections, // one routine to periodically attempt outgoing connections, one routine to // the common handling regardless of whether the connection was // incoming or outgoing. service.Add(serviceFunc(service.connect)) service.Add(serviceFunc(service.handle)) service.Add(service.listenerSupervisor) return service } var ( errDisabled = errors.New("disabled by configuration") ) func (s *Service) handle() { next: for c := range s.conns { cs := c.ConnectionState() // We should have negotiated the next level protocol "bep/1.0" as part // of the TLS handshake. Unfortunately this can't be a hard error, // because there are implementations out there that don't support // protocol negotiation (iOS for one...). if !cs.NegotiatedProtocolIsMutual || cs.NegotiatedProtocol != s.bepProtocolName { l.Infof("Peer %s did not negotiate bep/1.0", c.RemoteAddr()) } // We should have received exactly one certificate from the other // side. If we didn't, they don't have a device ID and we drop the // connection. certs := cs.PeerCertificates if cl := len(certs); cl != 1 { l.Infof("Got peer certificate list of length %d != 1 from %s; protocol error", cl, c.RemoteAddr()) c.Close() continue } remoteCert := certs[0] remoteID := protocol.NewDeviceID(remoteCert.Raw) // The device ID should not be that of ourselves. It can happen // though, especially in the presence of NAT hairpinning, multiple // clients between the same NAT gateway, and global discovery. if remoteID == s.myID { l.Infof("Connected to myself (%s) - should not happen", remoteID) c.Close() continue } c.SetDeadline(time.Now().Add(20 * time.Second)) hello, err := protocol.ExchangeHello(c, s.model.GetHello(remoteID)) if err != nil { if protocol.IsVersionMismatch(err) { // The error will be a relatively user friendly description // of what's wrong with the version compatibility. By // default identify the other side by device ID and IP. remote := fmt.Sprintf("%v (%v)", remoteID, c.RemoteAddr()) if hello.DeviceName != "" { // If the name was set in the hello return, use that to // give the user more info about which device is the // affected one. It probably says more than the remote // IP. remote = fmt.Sprintf("%q (%s %s, %v)", hello.DeviceName, hello.ClientName, hello.ClientVersion, remoteID) } msg := fmt.Sprintf("Connecting to %s: %s", remote, err) warningFor(remoteID, msg) } else { // It's something else - connection reset or whatever l.Infof("Failed to exchange Hello messages with %s (%s): %s", remoteID, c.RemoteAddr(), err) } c.Close() continue } c.SetDeadline(time.Time{}) // The Model will return an error for devices that we don't want to // have a connection with for whatever reason, for example unknown devices. if err := s.model.OnHello(remoteID, c.RemoteAddr(), hello); err != nil { l.Infof("Connection from %s at %s (%s) rejected: %v", remoteID, c.RemoteAddr(), c.Type(), err) c.Close() continue } // If we have a relay connection, and the new incoming connection is // not a relay connection, we should drop that, and prefer the this one. connected := s.model.ConnectedTo(remoteID) s.curConMut.Lock() ct, ok := s.currentConnection[remoteID] s.curConMut.Unlock() priorityKnown := ok && connected // Lower priority is better, just like nice etc. if priorityKnown && ct.internalConn.priority > c.priority { l.Debugln("Switching connections", remoteID) } else if connected { // We should not already be connected to the other party. TODO: This // could use some better handling. If the old connection is dead but // hasn't timed out yet we may want to drop *that* connection and keep // this one. But in case we are two devices connecting to each other // in parallel we don't want to do that or we end up with no // connections still established... l.Infof("Connected to already connected device (%s)", remoteID) c.Close() continue } deviceCfg, ok := s.cfg.Device(remoteID) if !ok { panic("bug: unknown device should already have been rejected") } // Verify the name on the certificate. By default we set it to // "syncthing" when generating, but the user may have replaced // the certificate and used another name. certName := deviceCfg.CertName if certName == "" { certName = s.tlsDefaultCommonName } if err := remoteCert.VerifyHostname(certName); err != nil { // Incorrect certificate name is something the user most // likely wants to know about, since it's an advanced // config. Warn instead of Info. l.Warnf("Bad certificate from %s (%v): %v", remoteID, c.RemoteAddr(), err) c.Close() continue next } // Wrap the connection in rate limiters. The limiter itself will // keep up with config changes to the rate and whether or not LAN // connections are limited. isLAN := s.isLAN(c.RemoteAddr()) wr := s.limiter.newWriteLimiter(c, isLAN) rd := s.limiter.newReadLimiter(c, isLAN) name := fmt.Sprintf("%s-%s (%s)", c.LocalAddr(), c.RemoteAddr(), c.Type()) protoConn := protocol.NewConnection(remoteID, rd, wr, s.model, name, deviceCfg.Compression) modelConn := completeConn{c, protoConn} l.Infof("Established secure connection to %s at %s (%s)", remoteID, name, tlsCipherSuiteNames[c.ConnectionState().CipherSuite]) s.model.AddConnection(modelConn, hello) s.curConMut.Lock() s.currentConnection[remoteID] = modelConn s.curConMut.Unlock() continue next } } func (s *Service) connect() { nextDial := make(map[string]time.Time) // Used as delay for the first few connection attempts, increases // exponentially initialRampup := time.Second // Calculated from actual dialers reconnectInterval var sleep time.Duration for { cfg := s.cfg.RawCopy() bestDialerPrio := 1<<31 - 1 // worse prio won't build on 32 bit for _, df := range dialers { if !df.Enabled(cfg) { continue } if prio := df.Priority(); prio < bestDialerPrio { bestDialerPrio = prio } } l.Debugln("Reconnect loop") now := time.Now() var seen []string nextDevice: for _, deviceCfg := range cfg.Devices { deviceID := deviceCfg.DeviceID if deviceID == s.myID { continue } if deviceCfg.Paused { continue } connected := s.model.ConnectedTo(deviceID) s.curConMut.Lock() ct, ok := s.currentConnection[deviceID] s.curConMut.Unlock() priorityKnown := ok && connected if priorityKnown && ct.internalConn.priority == bestDialerPrio { // Things are already as good as they can get. continue } l.Debugln("Reconnect loop for", deviceID) var addrs []string for _, addr := range deviceCfg.Addresses { if addr == "dynamic" { if s.discoverer != nil { if t, err := s.discoverer.Lookup(deviceID); err == nil { addrs = append(addrs, t...) } } } else { addrs = append(addrs, addr) } } seen = append(seen, addrs...) for _, addr := range addrs { nextDialAt, ok := nextDial[addr] if ok && initialRampup >= sleep && nextDialAt.After(now) { l.Debugf("Not dialing %v as sleep is %v, next dial is at %s and current time is %s", addr, sleep, nextDialAt, now) continue } // If we fail at any step before actually getting the dialer // retry in a minute nextDial[addr] = now.Add(time.Minute) uri, err := url.Parse(addr) if err != nil { l.Infof("Dialer for %s: %v", addr, err) continue } if len(deviceCfg.AllowedNetworks) > 0 { if !IsAllowedNetwork(uri.Host, deviceCfg.AllowedNetworks) { l.Debugln("Network for", uri, "is disallowed") continue } } dialerFactory, err := s.getDialerFactory(cfg, uri) if err == errDisabled { l.Debugln("Dialer for", uri, "is disabled") continue } if err != nil { l.Infof("Dialer for %v: %v", uri, err) continue } if priorityKnown && dialerFactory.Priority() >= ct.internalConn.priority { l.Debugf("Not dialing using %s as priority is less than current connection (%d >= %d)", dialerFactory, dialerFactory.Priority(), ct.internalConn.priority) continue } dialer := dialerFactory.New(s.cfg, s.tlsCfg) l.Debugln("dial", deviceCfg.DeviceID, uri) nextDial[addr] = now.Add(dialer.RedialFrequency()) conn, err := dialer.Dial(deviceID, uri) if err != nil { l.Debugln("dial failed", deviceCfg.DeviceID, uri, err) continue } s.conns <- conn continue nextDevice } } nextDial, sleep = filterAndFindSleepDuration(nextDial, seen, now) if initialRampup < sleep { l.Debugln("initial rampup; sleep", initialRampup, "and update to", initialRampup*2) time.Sleep(initialRampup) initialRampup *= 2 } else { l.Debugln("sleep until next dial", sleep) time.Sleep(sleep) } } } func (s *Service) isLAN(addr net.Addr) bool { tcpaddr, ok := addr.(*net.TCPAddr) if !ok { return false } for _, lan := range s.lans { if lan.Contains(tcpaddr.IP) { return true } } return tcpaddr.IP.IsLoopback() } func (s *Service) createListener(factory listenerFactory, uri *url.URL) bool { // must be called with listenerMut held l.Debugln("Starting listener", uri) listener := factory.New(uri, s.cfg, s.tlsCfg, s.conns, s.natService) listener.OnAddressesChanged(s.logListenAddressesChangedEvent) s.listeners[uri.String()] = listener s.listenerTokens[uri.String()] = s.listenerSupervisor.Add(listener) return true } func (s *Service) logListenAddressesChangedEvent(l genericListener) { events.Default.Log(events.ListenAddressesChanged, map[string]interface{}{ "address": l.URI(), "lan": l.LANAddresses(), "wan": l.WANAddresses(), }) } func (s *Service) VerifyConfiguration(from, to config.Configuration) error { return nil } func (s *Service) CommitConfiguration(from, to config.Configuration) bool { newDevices := make(map[protocol.DeviceID]bool, len(to.Devices)) for _, dev := range to.Devices { newDevices[dev.DeviceID] = true } for _, dev := range from.Devices { if !newDevices[dev.DeviceID] { s.curConMut.Lock() delete(s.currentConnection, dev.DeviceID) s.curConMut.Unlock() warningLimitersMut.Lock() delete(warningLimiters, dev.DeviceID) warningLimitersMut.Unlock() } } s.listenersMut.Lock() seen := make(map[string]struct{}) for _, addr := range config.Wrap("", to).ListenAddresses() { if _, ok := s.listeners[addr]; ok { seen[addr] = struct{}{} continue } uri, err := url.Parse(addr) if err != nil { l.Infof("Listener for %s: %v", addr, err) continue } factory, err := s.getListenerFactory(to, uri) if err == errDisabled { l.Debugln("Listener for", uri, "is disabled") continue } if err != nil { l.Infof("Listener for %v: %v", uri, err) continue } s.createListener(factory, uri) seen[addr] = struct{}{} } for addr, listener := range s.listeners { if _, ok := seen[addr]; !ok || !listener.Factory().Enabled(to) { l.Debugln("Stopping listener", addr) s.listenerSupervisor.Remove(s.listenerTokens[addr]) delete(s.listenerTokens, addr) delete(s.listeners, addr) } } s.listenersMut.Unlock() if to.Options.NATEnabled && s.natServiceToken == nil { l.Debugln("Starting NAT service") token := s.Add(s.natService) s.natServiceToken = &token } else if !to.Options.NATEnabled && s.natServiceToken != nil { l.Debugln("Stopping NAT service") s.Remove(*s.natServiceToken) s.natServiceToken = nil } return true } func (s *Service) AllAddresses() []string { s.listenersMut.RLock() var addrs []string for _, listener := range s.listeners { for _, lanAddr := range listener.LANAddresses() { addrs = append(addrs, lanAddr.String()) } for _, wanAddr := range listener.WANAddresses() { addrs = append(addrs, wanAddr.String()) } } s.listenersMut.RUnlock() return util.UniqueStrings(addrs) } func (s *Service) ExternalAddresses() []string { s.listenersMut.RLock() var addrs []string for _, listener := range s.listeners { for _, wanAddr := range listener.WANAddresses() { addrs = append(addrs, wanAddr.String()) } } s.listenersMut.RUnlock() return util.UniqueStrings(addrs) } func (s *Service) Status() map[string]interface{} { s.listenersMut.RLock() result := make(map[string]interface{}) for addr, listener := range s.listeners { status := make(map[string]interface{}) err := listener.Error() if err != nil { status["error"] = err.Error() } status["lanAddresses"] = urlsToStrings(listener.LANAddresses()) status["wanAddresses"] = urlsToStrings(listener.WANAddresses()) result[addr] = status } s.listenersMut.RUnlock() return result } func (s *Service) NATType() string { s.listenersMut.RLock() defer s.listenersMut.RUnlock() for _, listener := range s.listeners { natType := listener.NATType() if natType != "unknown" { return natType } } return "unknown" } func (s *Service) getDialerFactory(cfg config.Configuration, uri *url.URL) (dialerFactory, error) { dialerFactory, ok := dialers[uri.Scheme] if !ok { return nil, fmt.Errorf("unknown address scheme %q", uri.Scheme) } if !dialerFactory.Enabled(cfg) { return nil, errDisabled } return dialerFactory, nil } func (s *Service) getListenerFactory(cfg config.Configuration, uri *url.URL) (listenerFactory, error) { listenerFactory, ok := listeners[uri.Scheme] if !ok { return nil, fmt.Errorf("unknown address scheme %q", uri.Scheme) } if !listenerFactory.Enabled(cfg) { return nil, errDisabled } return listenerFactory, nil } func filterAndFindSleepDuration(nextDial map[string]time.Time, seen []string, now time.Time) (map[string]time.Time, time.Duration) { newNextDial := make(map[string]time.Time) for _, addr := range seen { nextDialAt, ok := nextDial[addr] if ok { newNextDial[addr] = nextDialAt } } min := time.Minute for _, next := range newNextDial { cur := next.Sub(now) if cur < min { min = cur } } return newNextDial, min } func urlsToStrings(urls []*url.URL) []string { strings := make([]string, len(urls)) for i, url := range urls { strings[i] = url.String() } return strings } var warningLimiters = make(map[protocol.DeviceID]*rate.Limiter) var warningLimitersMut = sync.NewMutex() func warningFor(dev protocol.DeviceID, msg string) { warningLimitersMut.Lock() defer warningLimitersMut.Unlock() lim, ok := warningLimiters[dev] if !ok { lim = rate.NewLimiter(rate.Every(perDeviceWarningIntv), 1) warningLimiters[dev] = lim } if lim.Allow() { l.Warnln(msg) } } func tlsTimedHandshake(tc *tls.Conn) error { tc.SetDeadline(time.Now().Add(tlsHandshakeTimeout)) defer tc.SetDeadline(time.Time{}) return tc.Handshake() } // IsAllowedNetwork returns true if the given host (IP or resolvable // hostname) is in the set of allowed networks (CIDR format only). func IsAllowedNetwork(host string, allowed []string) bool { if hostNoPort, _, err := net.SplitHostPort(host); err == nil { host = hostNoPort } addr, err := net.ResolveIPAddr("ip", host) if err != nil { return false } for _, n := range allowed { result := true if strings.HasPrefix(n, "!") { result = false n = n[1:] } _, cidr, err := net.ParseCIDR(n) if err != nil { continue } if cidr.Contains(addr.IP) { return result } } return false }