package identify import ( "strings" "sync" context "github.com/jbenet/go-ipfs/Godeps/_workspace/src/code.google.com/p/go.net/context" ggio "github.com/jbenet/go-ipfs/Godeps/_workspace/src/code.google.com/p/gogoprotobuf/io" semver "github.com/jbenet/go-ipfs/Godeps/_workspace/src/github.com/coreos/go-semver/semver" ma "github.com/jbenet/go-ipfs/Godeps/_workspace/src/github.com/jbenet/go-multiaddr" host "github.com/jbenet/go-ipfs/p2p/host" inet "github.com/jbenet/go-ipfs/p2p/net" peer "github.com/jbenet/go-ipfs/p2p/peer" protocol "github.com/jbenet/go-ipfs/p2p/protocol" pb "github.com/jbenet/go-ipfs/p2p/protocol/identify/pb" config "github.com/jbenet/go-ipfs/repo/config" eventlog "github.com/jbenet/go-ipfs/thirdparty/eventlog" lgbl "github.com/jbenet/go-ipfs/util/eventlog/loggables" ) var log = eventlog.Logger("net/identify") // ID is the protocol.ID of the Identify Service. const ID protocol.ID = "/ipfs/identify" // IpfsVersion holds the current protocol version for a client running this code // TODO(jbenet): fix the versioning mess. const IpfsVersion = "ipfs/0.1.0" const ClientVersion = "go-ipfs/" + config.CurrentVersionNumber // IDService is a structure that implements ProtocolIdentify. // It is a trivial service that gives the other peer some // useful information about the local peer. A sort of hello. // // The IDService sends: // * Our IPFS Protocol Version // * Our IPFS Agent Version // * Our public Listen Addresses type IDService struct { Host host.Host // connections undergoing identification // for wait purposes currid map[inet.Conn]chan struct{} currmu sync.RWMutex // our own observed addresses. // TODO: instead of expiring, remove these when we disconnect observedAddrs ObservedAddrSet } func NewIDService(h host.Host) *IDService { s := &IDService{ Host: h, currid: make(map[inet.Conn]chan struct{}), } h.SetStreamHandler(ID, s.RequestHandler) return s } // OwnObservedAddrs returns the addresses peers have reported we've dialed from func (ids *IDService) OwnObservedAddrs() []ma.Multiaddr { return ids.observedAddrs.Addrs() } func (ids *IDService) IdentifyConn(c inet.Conn) { ids.currmu.Lock() if wait, found := ids.currid[c]; found { ids.currmu.Unlock() log.Debugf("IdentifyConn called twice on: %s", c) <-wait // already identifying it. wait for it. return } ids.currid[c] = make(chan struct{}) ids.currmu.Unlock() s, err := c.NewStream() if err != nil { log.Debugf("error opening initial stream for %s", ID) log.Event(context.TODO(), "IdentifyOpenFailed", c.RemotePeer()) } else { // ok give the response to our handler. if err := protocol.WriteHeader(s, ID); err != nil { log.Debugf("error writing stream header for %s", ID) log.Event(context.TODO(), "IdentifyOpenFailed", c.RemotePeer()) } ids.ResponseHandler(s) } ids.currmu.Lock() ch, found := ids.currid[c] delete(ids.currid, c) ids.currmu.Unlock() if !found { log.Debugf("IdentifyConn failed to find channel (programmer error) for %s", c) return } close(ch) // release everyone waiting. } func (ids *IDService) RequestHandler(s inet.Stream) { defer s.Close() c := s.Conn() w := ggio.NewDelimitedWriter(s) mes := pb.Identify{} ids.populateMessage(&mes, s.Conn()) w.WriteMsg(&mes) log.Debugf("%s sent message to %s %s", ID, c.RemotePeer(), c.RemoteMultiaddr()) } func (ids *IDService) ResponseHandler(s inet.Stream) { defer s.Close() c := s.Conn() r := ggio.NewDelimitedReader(s, 2048) mes := pb.Identify{} if err := r.ReadMsg(&mes); err != nil { return } ids.consumeMessage(&mes, c) log.Debugf("%s received message from %s %s", ID, c.RemotePeer(), c.RemoteMultiaddr()) } func (ids *IDService) populateMessage(mes *pb.Identify, c inet.Conn) { // set protocols this node is currently handling protos := ids.Host.Mux().Protocols() mes.Protocols = make([]string, len(protos)) for i, p := range protos { mes.Protocols[i] = string(p) } // observed address so other side is informed of their // "public" address, at least in relation to us. mes.ObservedAddr = c.RemoteMultiaddr().Bytes() // set listen addrs, get our latest addrs from Host. laddrs := ids.Host.Addrs() mes.ListenAddrs = make([][]byte, len(laddrs)) for i, addr := range laddrs { mes.ListenAddrs[i] = addr.Bytes() } log.Debugf("%s sent listen addrs to %s: %s", c.LocalPeer(), c.RemotePeer(), laddrs) // set protocol versions pv := IpfsVersion av := ClientVersion mes.ProtocolVersion = &pv mes.AgentVersion = &av } func (ids *IDService) consumeMessage(mes *pb.Identify, c inet.Conn) { p := c.RemotePeer() // mes.Protocols // mes.ObservedAddr ids.consumeObservedAddress(mes.GetObservedAddr(), c) // mes.ListenAddrs laddrs := mes.GetListenAddrs() lmaddrs := make([]ma.Multiaddr, 0, len(laddrs)) for _, addr := range laddrs { maddr, err := ma.NewMultiaddrBytes(addr) if err != nil { log.Debugf("%s failed to parse multiaddr from %s %s", ID, p, c.RemoteMultiaddr()) continue } lmaddrs = append(lmaddrs, maddr) } // update our peerstore with the addresses. here, we SET the addresses, clearing old ones. // We are receiving from the peer itself. this is current address ground truth. ids.Host.Peerstore().SetAddrs(p, lmaddrs, peer.ConnectedAddrTTL) log.Debugf("%s received listen addrs for %s: %s", c.LocalPeer(), c.RemotePeer(), lmaddrs) // get protocol versions pv := mes.GetProtocolVersion() av := mes.GetAgentVersion() // version check. if we shouldn't talk, bail. // TODO: at this point, we've already exchanged information. // move this into a first handshake before the connection can open streams. if !protocolVersionsAreCompatible(pv, IpfsVersion) { logProtocolMismatchDisconnect(c, pv, av) c.Close() return } ids.Host.Peerstore().Put(p, "ProtocolVersion", pv) ids.Host.Peerstore().Put(p, "AgentVersion", av) } // IdentifyWait returns a channel which will be closed once // "ProtocolIdentify" (handshake3) finishes on given conn. // This happens async so the connection can start to be used // even if handshake3 knowledge is not necesary. // Users **MUST** call IdentifyWait _after_ IdentifyConn func (ids *IDService) IdentifyWait(c inet.Conn) <-chan struct{} { ids.currmu.Lock() ch, found := ids.currid[c] ids.currmu.Unlock() if found { return ch } // if not found, it means we are already done identifying it, or // haven't even started. either way, return a new channel closed. ch = make(chan struct{}) close(ch) return ch } func (ids *IDService) consumeObservedAddress(observed []byte, c inet.Conn) { if observed == nil { return } maddr, err := ma.NewMultiaddrBytes(observed) if err != nil { log.Debugf("error parsing received observed addr for %s: %s", c, err) return } // we should only use ObservedAddr when our connection's LocalAddr is one // of our ListenAddrs. If we Dial out using an ephemeral addr, knowing that // address's external mapping is not very useful because the port will not be // the same as the listen addr. ifaceaddrs, err := ids.Host.Network().InterfaceListenAddresses() if err != nil { log.Infof("failed to get interface listen addrs", err) return } log.Debugf("identify identifying observed multiaddr: %s %s", c.LocalMultiaddr(), ifaceaddrs) if !addrInAddrs(c.LocalMultiaddr(), ifaceaddrs) { // not in our list return } // ok! we have the observed version of one of our ListenAddresses! log.Debugf("added own observed listen addr: %s --> %s", c.LocalMultiaddr(), maddr) ids.observedAddrs.Add(maddr) } func addrInAddrs(a ma.Multiaddr, as []ma.Multiaddr) bool { for _, b := range as { if a.Equal(b) { return true } } return false } // protocolVersionsAreCompatible checks that the two implementations // can talk to each other. It will use semver, but for now while // we're in tight development, we will return false for minor version // changes too. func protocolVersionsAreCompatible(v1, v2 string) bool { if strings.HasPrefix(v1, "ipfs/") { v1 = v1[5:] } if strings.HasPrefix(v2, "ipfs/") { v2 = v2[5:] } v1s, err := semver.NewVersion(v1) if err != nil { return false } v2s, err := semver.NewVersion(v2) if err != nil { return false } return v1s.Major == v2s.Major && v1s.Minor == v2s.Minor } // netNotifiee defines methods to be used with the IpfsDHT type netNotifiee IDService func (nn *netNotifiee) IDService() *IDService { return (*IDService)(nn) } func (nn *netNotifiee) Connected(n inet.Network, v inet.Conn) { // TODO: deprecate the setConnHandler hook, and kick off // identification here. } func (nn *netNotifiee) Disconnected(n inet.Network, v inet.Conn) { // undo the setting of addresses to peer.ConnectedAddrTTL we did ids := nn.IDService() ps := ids.Host.Peerstore() addrs := ps.Addrs(v.RemotePeer()) ps.SetAddrs(v.RemotePeer(), addrs, peer.RecentlyConnectedAddrTTL) } func (nn *netNotifiee) OpenedStream(n inet.Network, v inet.Stream) {} func (nn *netNotifiee) ClosedStream(n inet.Network, v inet.Stream) {} func (nn *netNotifiee) Listen(n inet.Network, a ma.Multiaddr) {} func (nn *netNotifiee) ListenClose(n inet.Network, a ma.Multiaddr) {} func logProtocolMismatchDisconnect(c inet.Conn, protocol, agent string) { lm := make(lgbl.DeferredMap) lm["remotePeer"] = func() interface{} { return c.RemotePeer().Pretty() } lm["remoteAddr"] = func() interface{} { return c.RemoteMultiaddr().String() } lm["protocolVersion"] = protocol lm["agentVersion"] = agent log.Event(context.TODO(), "IdentifyProtocolMismatch", lm) log.Debug("IdentifyProtocolMismatch %s %s %s (disconnected)", c.RemotePeer(), protocol, agent) }