// Copyright (C) 2016 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 ( "context" "crypto/tls" "fmt" "io" "net" "net/url" "time" "github.com/syncthing/syncthing/lib/config" "github.com/syncthing/syncthing/lib/nat" "github.com/syncthing/syncthing/lib/protocol" "github.com/thejerf/suture/v4" ) // Connection is what we expose to the outside. It is a protocol.Connection // that can be closed and has some metadata. type Connection interface { protocol.Connection Type() string Transport() string RemoteAddr() net.Addr Priority() int String() string Crypto() string } // completeConn is the aggregation of an internalConn and the // protocol.Connection running on top of it. It implements the Connection // interface. type completeConn struct { internalConn protocol.Connection } func (c completeConn) Close(err error) { c.Connection.Close(err) c.internalConn.Close() } type tlsConn interface { io.ReadWriteCloser ConnectionState() tls.ConnectionState RemoteAddr() net.Addr SetDeadline(time.Time) error SetWriteDeadline(time.Time) error LocalAddr() net.Addr } // internalConn is the raw TLS connection plus some metadata on where it // came from (type, priority). type internalConn struct { tlsConn connType connType priority int } type connType int const ( connTypeRelayClient connType = iota connTypeRelayServer connTypeTCPClient connTypeTCPServer connTypeQUICClient connTypeQUICServer ) func (t connType) String() string { switch t { case connTypeRelayClient: return "relay-client" case connTypeRelayServer: return "relay-server" case connTypeTCPClient: return "tcp-client" case connTypeTCPServer: return "tcp-server" case connTypeQUICClient: return "quic-client" case connTypeQUICServer: return "quic-server" default: return "unknown-type" } } func (t connType) Transport() string { switch t { case connTypeRelayClient, connTypeRelayServer: return "relay" case connTypeTCPClient, connTypeTCPServer: return "tcp" case connTypeQUICClient, connTypeQUICServer: return "quic" default: return "unknown" } } func (c internalConn) Close() { // *tls.Conn.Close() does more than it says on the tin. Specifically, it // sends a TLS alert message, which might block forever if the // connection is dead and we don't have a deadline set. _ = c.SetWriteDeadline(time.Now().Add(250 * time.Millisecond)) _ = c.tlsConn.Close() } func (c internalConn) Type() string { return c.connType.String() } func (c internalConn) Priority() int { return c.priority } func (c internalConn) Crypto() string { cs := c.ConnectionState() return fmt.Sprintf("%s-%s", tlsVersionNames[cs.Version], tlsCipherSuiteNames[cs.CipherSuite]) } func (c internalConn) Transport() string { transport := c.connType.Transport() host, _, err := net.SplitHostPort(c.LocalAddr().String()) if err != nil { return transport } ip := net.ParseIP(host) if ip == nil { return transport } if ip.To4() != nil { return transport + "4" } return transport + "6" } func (c internalConn) String() string { return fmt.Sprintf("%s-%s/%s/%s", c.LocalAddr(), c.RemoteAddr(), c.Type(), c.Crypto()) } type dialerFactory interface { New(config.OptionsConfiguration, *tls.Config) genericDialer Priority() int AlwaysWAN() bool Valid(config.Configuration) error String() string } type commonDialer struct { trafficClass int reconnectInterval time.Duration tlsCfg *tls.Config } func (d *commonDialer) RedialFrequency() time.Duration { return d.reconnectInterval } type genericDialer interface { Dial(context.Context, protocol.DeviceID, *url.URL) (internalConn, error) RedialFrequency() time.Duration } type listenerFactory interface { New(*url.URL, config.Wrapper, *tls.Config, chan internalConn, *nat.Service) genericListener Valid(config.Configuration) error } type ListenerAddresses struct { URI *url.URL WANAddresses []*url.URL LANAddresses []*url.URL } type genericListener interface { suture.Service URI() *url.URL // A given address can potentially be mutated by the listener. // For example we bind to tcp://0.0.0.0, but that for example might return // tcp://gateway1.ip and tcp://gateway2.ip as WAN addresses due to there // being multiple gateways, and us managing to get a UPnP mapping on both // and tcp://192.168.0.1 and tcp://10.0.0.1 due to there being multiple // network interfaces. (The later case for LAN addresses is made up just // to provide an example) WANAddresses() []*url.URL LANAddresses() []*url.URL Error() error OnAddressesChanged(func(ListenerAddresses)) String() string Factory() listenerFactory NATType() string } type Model interface { protocol.Model AddConnection(conn Connection, hello protocol.Hello) Connection(remoteID protocol.DeviceID) (Connection, bool) OnHello(protocol.DeviceID, net.Addr, protocol.Hello) error GetHello(protocol.DeviceID) protocol.HelloIntf } type onAddressesChangedNotifier struct { callbacks []func(ListenerAddresses) } func (o *onAddressesChangedNotifier) OnAddressesChanged(callback func(ListenerAddresses)) { o.callbacks = append(o.callbacks, callback) } func (o *onAddressesChangedNotifier) notifyAddressesChanged(l genericListener) { o.notifyAddresses(ListenerAddresses{ URI: l.URI(), WANAddresses: l.WANAddresses(), LANAddresses: l.LANAddresses(), }) } func (o *onAddressesChangedNotifier) clearAddresses(l genericListener) { o.notifyAddresses(ListenerAddresses{ URI: l.URI(), }) } func (o *onAddressesChangedNotifier) notifyAddresses(l ListenerAddresses) { for _, callback := range o.callbacks { callback(l) } } type dialTarget struct { addr string dialer genericDialer priority int uri *url.URL deviceID protocol.DeviceID } func (t dialTarget) Dial(ctx context.Context) (internalConn, error) { l.Debugln("dialing", t.deviceID, t.uri, "prio", t.priority) return t.dialer.Dial(ctx, t.deviceID, t.uri) }