package basichost import ( "context" "sync" inat "github.com/libp2p/go-libp2p/p2p/nat" lgbl "github.com/ipfs/go-libp2p-loggables" ma "github.com/jbenet/go-multiaddr" goprocess "github.com/jbenet/goprocess" inet "github.com/libp2p/go-libp2p-net" ) // natManager takes care of adding + removing port mappings to the nat. // Initialized with the host if it has a NATPortMap option enabled. // natManager receives signals from the network, and check on nat mappings: // * natManager listens to the network and adds or closes port mappings // as the network signals Listen() or ListenClose(). // * closing the natManager closes the nat and its mappings. type natManager struct { host *BasicHost natmu sync.RWMutex // guards nat (ready could obviate this mutex, but safety first.) nat *inat.NAT ready chan struct{} // closed once the nat is ready to process port mappings proc goprocess.Process // natManager has a process + children. can be closed. } func newNatManager(host *BasicHost) *natManager { nmgr := &natManager{ host: host, ready: make(chan struct{}), proc: goprocess.WithParent(host.proc), } // teardown nmgr.proc = goprocess.WithTeardown(func() error { // on closing, unregister from network notifications. host.Network().StopNotify((*nmgrNetNotifiee)(nmgr)) return nil }) // host is our parent. close when host closes. host.proc.AddChild(nmgr.proc) // discover the nat. nmgr.discoverNAT() return nmgr } // Close closes the natManager, closing the underlying nat // and unregistering from network events. func (nmgr *natManager) Close() error { return nmgr.proc.Close() } // Ready returns a channel which will be closed when the NAT has been found // and is ready to be used, or the search process is done. func (nmgr *natManager) Ready() <-chan struct{} { return nmgr.ready } func (nmgr *natManager) discoverNAT() { nmgr.proc.Go(func(worker goprocess.Process) { // inat.DiscoverNAT blocks until the nat is found or a timeout // is reached. we unfortunately cannot specify timeouts-- the // library we're using just blocks. // // Note: on early shutdown, there may be a case where we're trying // to close before DiscoverNAT() returns. Since we cant cancel it // (library) we can choose to (1) drop the result and return early, // or (2) wait until it times out to exit. For now we choose (2), // to avoid leaking resources in a non-obvious way. the only case // this affects is when the daemon is being started up and _immediately_ // asked to close. other services are also starting up, so ok to wait. discoverdone := make(chan struct{}) var nat *inat.NAT go func() { defer close(discoverdone) nat = inat.DiscoverNAT() }() // by this point -- after finding the NAT -- we may have already // be closing. if so, just exit. select { case <-worker.Closing(): return case <-discoverdone: if nat == nil { // no nat, or failed to get it. return } } // wire up the nat to close when nmgr closes. // nmgr.proc is our parent, and waiting for us. nmgr.proc.AddChild(nat.Process()) // set the nat. nmgr.natmu.Lock() nmgr.nat = nat nmgr.natmu.Unlock() // signal that we're ready to process nat mappings: close(nmgr.ready) // sign natManager up for network notifications // we need to sign up here to avoid missing some notifs // before the NAT has been found. nmgr.host.Network().Notify((*nmgrNetNotifiee)(nmgr)) // if any interfaces were brought up while we were setting up // the nat, now is the time to setup port mappings for them. // we release ready, then grab them to avoid losing any. adding // a port mapping is idempotent, so its ok to add the same twice. addrs := nmgr.host.Network().ListenAddresses() for _, addr := range addrs { // we do it async because it's slow and we may want to close beforehand go addPortMapping(nmgr, addr) } }) } // NAT returns the natManager's nat object. this may be nil, if // (a) the search process is still ongoing, or (b) the search process // found no nat. Clients must check whether the return value is nil. func (nmgr *natManager) NAT() *inat.NAT { nmgr.natmu.Lock() defer nmgr.natmu.Unlock() return nmgr.nat } func addPortMapping(nmgr *natManager, intaddr ma.Multiaddr) { nat := nmgr.NAT() if nat == nil { panic("natManager addPortMapping called without a nat.") } // first, check if the port mapping already exists. for _, mapping := range nat.Mappings() { if mapping.InternalAddr().Equal(intaddr) { return // it exists! return. } } ctx := context.TODO() lm := make(lgbl.DeferredMap) lm["internalAddr"] = func() interface{} { return intaddr.String() } defer log.EventBegin(ctx, "natMgrAddPortMappingWait", lm).Done() select { case <-nmgr.proc.Closing(): lm["outcome"] = "cancelled" return // no use. case <-nmgr.ready: // wait until it's ready. } // actually start the port map (sub-event because waiting may take a while) defer log.EventBegin(ctx, "natMgrAddPortMapping", lm).Done() // get the nat m, err := nat.NewMapping(intaddr) if err != nil { lm["outcome"] = "failure" lm["error"] = err return } extaddr, err := m.ExternalAddr() if err != nil { lm["outcome"] = "failure" lm["error"] = err return } lm["outcome"] = "success" lm["externalAddr"] = func() interface{} { return extaddr.String() } log.Infof("established nat port mapping: %s <--> %s", intaddr, extaddr) } func rmPortMapping(nmgr *natManager, intaddr ma.Multiaddr) { nat := nmgr.NAT() if nat == nil { panic("natManager rmPortMapping called without a nat.") } // list the port mappings (it may be gone on it's own, so we need to // check this list, and not store it ourselves behind the scenes) // close mappings for this internal address. for _, mapping := range nat.Mappings() { if mapping.InternalAddr().Equal(intaddr) { mapping.Close() } } } // nmgrNetNotifiee implements the network notification listening part // of the natManager. this is merely listening to Listen() and ListenClose() // events. type nmgrNetNotifiee natManager func (nn *nmgrNetNotifiee) natManager() *natManager { return (*natManager)(nn) } func (nn *nmgrNetNotifiee) Listen(n inet.Network, addr ma.Multiaddr) { if nn.natManager().NAT() == nil { return // not ready or doesnt exist. } addPortMapping(nn.natManager(), addr) } func (nn *nmgrNetNotifiee) ListenClose(n inet.Network, addr ma.Multiaddr) { if nn.natManager().NAT() == nil { return // not ready or doesnt exist. } rmPortMapping(nn.natManager(), addr) } func (nn *nmgrNetNotifiee) Connected(inet.Network, inet.Conn) {} func (nn *nmgrNetNotifiee) Disconnected(inet.Network, inet.Conn) {} func (nn *nmgrNetNotifiee) OpenedStream(inet.Network, inet.Stream) {} func (nn *nmgrNetNotifiee) ClosedStream(inet.Network, inet.Stream) {}