// 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 nat import ( "context" "fmt" "hash/fnv" "math/rand" "net" stdsync "sync" "time" "github.com/syncthing/syncthing/lib/config" "github.com/syncthing/syncthing/lib/protocol" "github.com/syncthing/syncthing/lib/sync" ) // Service runs a loop for discovery of IGDs (Internet Gateway Devices) and // setup/renewal of a port mapping. type Service struct { id protocol.DeviceID cfg config.Wrapper processScheduled chan struct{} mappings []*Mapping enabled bool mut sync.RWMutex } func NewService(id protocol.DeviceID, cfg config.Wrapper) *Service { s := &Service{ id: id, cfg: cfg, processScheduled: make(chan struct{}, 1), mut: sync.NewRWMutex(), } cfgCopy := cfg.RawCopy() s.CommitConfiguration(cfgCopy, cfgCopy) return s } func (s *Service) CommitConfiguration(from, to config.Configuration) bool { s.mut.Lock() if !s.enabled && to.Options.NATEnabled { l.Debugln("Starting NAT service") s.enabled = true s.scheduleProcess() } else if s.enabled && !to.Options.NATEnabled { l.Debugln("Stopping NAT service") s.enabled = false } s.mut.Unlock() return true } func (s *Service) Serve(ctx context.Context) error { s.cfg.Subscribe(s) defer s.cfg.Unsubscribe(s) announce := stdsync.Once{} timer := time.NewTimer(0) for { select { case <-timer.C: case <-s.processScheduled: if !timer.Stop() { select { case <-timer.C: default: } } case <-ctx.Done(): timer.Stop() s.mut.RLock() for _, mapping := range s.mappings { mapping.clearAddresses() } s.mut.RUnlock() return ctx.Err() } s.mut.RLock() enabled := s.enabled s.mut.RUnlock() if !enabled { continue } found, renewIn := s.process(ctx) timer.Reset(renewIn) if found != -1 { announce.Do(func() { suffix := "s" if found == 1 { suffix = "" } l.Infoln("Detected", found, "NAT service"+suffix) }) } } } func (s *Service) process(ctx context.Context) (int, time.Duration) { // toRenew are mappings which are due for renewal // toUpdate are the remaining mappings, which will only be updated if one of // the old IGDs has gone away, or a new IGD has appeared, but only if we // actually need to perform a renewal. var toRenew, toUpdate []*Mapping renewIn := time.Duration(s.cfg.Options().NATRenewalM) * time.Minute if renewIn == 0 { // We always want to do renewal so lets just pick a nice sane number. renewIn = 30 * time.Minute } s.mut.RLock() for _, mapping := range s.mappings { mapping.mut.RLock() expires := mapping.expires mapping.mut.RUnlock() if expires.Before(time.Now()) { toRenew = append(toRenew, mapping) } else { toUpdate = append(toUpdate, mapping) mappingRenewIn := time.Until(expires) if mappingRenewIn < renewIn { renewIn = mappingRenewIn } } } s.mut.RUnlock() // Don't do anything, unless we really need to renew if len(toRenew) == 0 { return -1, renewIn } nats := discoverAll(ctx, time.Duration(s.cfg.Options().NATRenewalM)*time.Minute, time.Duration(s.cfg.Options().NATTimeoutS)*time.Second) for _, mapping := range toRenew { s.updateMapping(ctx, mapping, nats, true) } for _, mapping := range toUpdate { s.updateMapping(ctx, mapping, nats, false) } return len(nats), renewIn } func (s *Service) scheduleProcess() { select { case s.processScheduled <- struct{}{}: // 1-buffered default: } } func (s *Service) NewMapping(protocol Protocol, ip net.IP, port int) *Mapping { mapping := &Mapping{ protocol: protocol, address: Address{ IP: ip, Port: port, }, extAddresses: make(map[string]Address), mut: sync.NewRWMutex(), } s.mut.Lock() s.mappings = append(s.mappings, mapping) s.mut.Unlock() s.scheduleProcess() return mapping } // RemoveMapping does not actually remove the mapping from the IGD, it just // internally removes it which stops renewing the mapping. Also, it clears any // existing mapped addresses from the mapping, which as a result should cause // discovery to reannounce the new addresses. func (s *Service) RemoveMapping(mapping *Mapping) { s.mut.Lock() defer s.mut.Unlock() for i, existing := range s.mappings { if existing == mapping { mapping.clearAddresses() last := len(s.mappings) - 1 s.mappings[i] = s.mappings[last] s.mappings[last] = nil s.mappings = s.mappings[:last] return } } } // updateMapping compares the addresses of the existing mapping versus the natds // discovered, and removes any addresses of natds that do not exist, or tries to // acquire mappings for natds which the mapping was unaware of before. // Optionally takes renew flag which indicates whether or not we should renew // mappings with existing natds func (s *Service) updateMapping(ctx context.Context, mapping *Mapping, nats map[string]Device, renew bool) { renewalTime := time.Duration(s.cfg.Options().NATRenewalM) * time.Minute mapping.mut.Lock() mapping.expires = time.Now().Add(renewalTime) change := s.verifyExistingLocked(ctx, mapping, nats, renew) add := s.acquireNewLocked(ctx, mapping, nats) mapping.mut.Unlock() if change || add { mapping.notify() } } func (s *Service) verifyExistingLocked(ctx context.Context, mapping *Mapping, nats map[string]Device, renew bool) (change bool) { leaseTime := time.Duration(s.cfg.Options().NATLeaseM) * time.Minute for id, address := range mapping.extAddresses { select { case <-ctx.Done(): return false default: } // Delete addresses for NATDevice's that do not exist anymore nat, ok := nats[id] if !ok { mapping.removeAddressLocked(id) change = true continue } else if renew { // Only perform renewals on the nat's that have the right local IP // address localIP := nat.GetLocalIPAddress() if !mapping.validGateway(localIP) { l.Debugf("Skipping %s for %s because of IP mismatch. %s != %s", id, mapping, mapping.address.IP, localIP) continue } l.Debugf("Renewing %s -> %s mapping on %s", mapping, address, id) addr, err := s.tryNATDevice(ctx, nat, mapping.address.Port, address.Port, leaseTime) if err != nil { l.Debugf("Failed to renew %s -> mapping on %s", mapping, address, id) mapping.removeAddressLocked(id) change = true continue } l.Debugf("Renewed %s -> %s mapping on %s", mapping, address, id) if !addr.Equal(address) { mapping.removeAddressLocked(id) mapping.setAddressLocked(id, addr) change = true } } } return change } func (s *Service) acquireNewLocked(ctx context.Context, mapping *Mapping, nats map[string]Device) (change bool) { leaseTime := time.Duration(s.cfg.Options().NATLeaseM) * time.Minute addrMap := mapping.extAddresses for id, nat := range nats { select { case <-ctx.Done(): return false default: } if _, ok := addrMap[id]; ok { continue } // Only perform mappings on the nat's that have the right local IP // address localIP := nat.GetLocalIPAddress() if !mapping.validGateway(localIP) { l.Debugf("Skipping %s for %s because of IP mismatch. %s != %s", id, mapping, mapping.address.IP, localIP) continue } l.Debugf("Acquiring %s mapping on %s", mapping, id) addr, err := s.tryNATDevice(ctx, nat, mapping.address.Port, 0, leaseTime) if err != nil { l.Debugf("Failed to acquire %s mapping on %s", mapping, id) continue } l.Debugf("Acquired %s -> %s mapping on %s", mapping, addr, id) mapping.setAddressLocked(id, addr) change = true } return change } // tryNATDevice tries to acquire a port mapping for the given internal address to // the given external port. If external port is 0, picks a pseudo-random port. func (s *Service) tryNATDevice(ctx context.Context, natd Device, intPort, extPort int, leaseTime time.Duration) (Address, error) { var err error var port int // Generate a predictable random which is based on device ID + local port + hash of the device ID // number so that the ports we'd try to acquire for the mapping would always be the same for the // same device trying to get the same internal port. predictableRand := rand.New(rand.NewSource(int64(s.id.Short()) + int64(intPort) + hash(natd.ID()))) if extPort != 0 { // First try renewing our existing mapping, if we have one. name := fmt.Sprintf("syncthing-%d", extPort) port, err = natd.AddPortMapping(ctx, TCP, intPort, extPort, name, leaseTime) if err == nil { extPort = port goto findIP } l.Debugln("Error extending lease on", natd.ID(), err) } for i := 0; i < 10; i++ { select { case <-ctx.Done(): return Address{}, ctx.Err() default: } // Then try up to ten random ports. extPort = 1024 + predictableRand.Intn(65535-1024) name := fmt.Sprintf("syncthing-%d", extPort) port, err = natd.AddPortMapping(ctx, TCP, intPort, extPort, name, leaseTime) if err == nil { extPort = port goto findIP } l.Debugln("Error getting new lease on", natd.ID(), err) } return Address{}, err findIP: ip, err := natd.GetExternalIPAddress(ctx) if err != nil { l.Debugln("Error getting external ip on", natd.ID(), err) ip = nil } return Address{ IP: ip, Port: extPort, }, nil } func (s *Service) String() string { return fmt.Sprintf("nat.Service@%p", s) } func hash(input string) int64 { h := fnv.New64a() h.Write([]byte(input)) return int64(h.Sum64()) }