package inbound import ( "context" "io" "sync" "sync/atomic" "time" "v2ray.com/core" "v2ray.com/core/app/proxyman" "v2ray.com/core/common" "v2ray.com/core/common/buf" "v2ray.com/core/common/net" "v2ray.com/core/common/serial" "v2ray.com/core/common/session" "v2ray.com/core/common/signal/done" "v2ray.com/core/common/task" "v2ray.com/core/proxy" "v2ray.com/core/transport/internet" "v2ray.com/core/transport/internet/tcp" "v2ray.com/core/transport/internet/udp" ) type worker interface { Start() error Close() error Port() net.Port Proxy() proxy.Inbound } type tcpWorker struct { address net.Address port net.Port proxy proxy.Inbound stream *internet.StreamConfig recvOrigDest bool tag string dispatcher core.Dispatcher sniffers []proxyman.KnownProtocols uplinkCounter core.StatCounter downlinkCounter core.StatCounter hub internet.Listener } func (w *tcpWorker) callback(conn internet.Connection) { ctx, cancel := context.WithCancel(context.Background()) sid := session.NewID() ctx = session.ContextWithID(ctx, sid) if w.recvOrigDest { dest, err := tcp.GetOriginalDestination(conn) if err != nil { newError("failed to get original destination").WithContext(ctx).Base(err).WriteToLog() } if dest.IsValid() { ctx = proxy.ContextWithOriginalTarget(ctx, dest) } } if len(w.tag) > 0 { ctx = proxy.ContextWithInboundTag(ctx, w.tag) } ctx = proxy.ContextWithInboundEntryPoint(ctx, net.TCPDestination(w.address, w.port)) ctx = proxy.ContextWithSource(ctx, net.DestinationFromAddr(conn.RemoteAddr())) if len(w.sniffers) > 0 { ctx = proxyman.ContextWithProtocolSniffers(ctx, w.sniffers) } if w.uplinkCounter != nil || w.downlinkCounter != nil { conn = &internet.StatCouterConnection{ Connection: conn, Uplink: w.uplinkCounter, Downlink: w.downlinkCounter, } } if err := w.proxy.Process(ctx, net.Network_TCP, conn, w.dispatcher); err != nil { newError("connection ends").Base(err).WithContext(ctx).WriteToLog() } cancel() if err := conn.Close(); err != nil { newError("failed to close connection").Base(err).WithContext(ctx).WriteToLog() } } func (w *tcpWorker) Proxy() proxy.Inbound { return w.proxy } func (w *tcpWorker) Start() error { ctx := internet.ContextWithStreamSettings(context.Background(), w.stream) hub, err := internet.ListenTCP(ctx, w.address, w.port, func(conn internet.Connection) { go w.callback(conn) }) if err != nil { return newError("failed to listen TCP on ", w.port).AtWarning().Base(err) } w.hub = hub return nil } func (w *tcpWorker) Close() error { var errors []interface{} if w.hub != nil { if err := common.Close(w.hub); err != nil { errors = append(errors, err) } if err := common.Close(w.proxy); err != nil { errors = append(errors, err) } } if len(errors) > 0 { return newError("failed to close all resources").Base(newError(serial.Concat(errors...))) } return nil } func (w *tcpWorker) Port() net.Port { return w.port } type udpConn struct { lastActivityTime int64 // in seconds input chan *buf.Buffer output func([]byte) (int, error) remote net.Addr local net.Addr done *done.Instance uplink core.StatCounter downlink core.StatCounter } func (c *udpConn) updateActivity() { atomic.StoreInt64(&c.lastActivityTime, time.Now().Unix()) } // ReadMultiBuffer implements buf.Reader func (c *udpConn) ReadMultiBuffer() (buf.MultiBuffer, error) { var payload buf.MultiBuffer select { case in := <-c.input: payload.Append(in) default: select { case in := <-c.input: payload.Append(in) case <-c.done.Wait(): return nil, io.EOF } } L: for { select { case in := <-c.input: payload.Append(in) default: break L } } if c.uplink != nil { c.uplink.Add(int64(payload.Len())) } return payload, nil } func (c *udpConn) Read(buf []byte) (int, error) { select { case in := <-c.input: defer in.Release() c.updateActivity() nBytes := copy(buf, in.Bytes()) if c.uplink != nil { c.uplink.Add(int64(nBytes)) } return nBytes, nil case <-c.done.Wait(): return 0, io.EOF } } // Write implements io.Writer. func (c *udpConn) Write(buf []byte) (int, error) { n, err := c.output(buf) if c.downlink != nil { c.downlink.Add(int64(n)) } if err == nil { c.updateActivity() } return n, err } func (c *udpConn) Close() error { common.Must(c.done.Close()) return nil } func (c *udpConn) RemoteAddr() net.Addr { return c.remote } func (c *udpConn) LocalAddr() net.Addr { return c.remote } func (*udpConn) SetDeadline(time.Time) error { return nil } func (*udpConn) SetReadDeadline(time.Time) error { return nil } func (*udpConn) SetWriteDeadline(time.Time) error { return nil } type connID struct { src net.Destination dest net.Destination } type udpWorker struct { sync.RWMutex proxy proxy.Inbound hub *udp.Hub address net.Address port net.Port recvOrigDest bool tag string dispatcher core.Dispatcher uplinkCounter core.StatCounter downlinkCounter core.StatCounter checker *task.Periodic activeConn map[connID]*udpConn } func (w *udpWorker) getConnection(id connID) (*udpConn, bool) { w.Lock() defer w.Unlock() if conn, found := w.activeConn[id]; found && !conn.done.Done() { return conn, true } conn := &udpConn{ input: make(chan *buf.Buffer, 32), output: func(b []byte) (int, error) { return w.hub.WriteTo(b, id.src) }, remote: &net.UDPAddr{ IP: id.src.Address.IP(), Port: int(id.src.Port), }, local: &net.UDPAddr{ IP: w.address.IP(), Port: int(w.port), }, done: done.New(), uplink: w.uplinkCounter, downlink: w.downlinkCounter, } w.activeConn[id] = conn conn.updateActivity() return conn, false } func (w *udpWorker) callback(b *buf.Buffer, source net.Destination, originalDest net.Destination) { id := connID{ src: source, } if originalDest.IsValid() { id.dest = originalDest } conn, existing := w.getConnection(id) select { case conn.input <- b: case <-conn.done.Wait(): b.Release() default: b.Release() } if !existing { go func() { ctx := context.Background() sid := session.NewID() ctx = session.ContextWithID(ctx, sid) if originalDest.IsValid() { ctx = proxy.ContextWithOriginalTarget(ctx, originalDest) } if len(w.tag) > 0 { ctx = proxy.ContextWithInboundTag(ctx, w.tag) } ctx = proxy.ContextWithSource(ctx, source) ctx = proxy.ContextWithInboundEntryPoint(ctx, net.UDPDestination(w.address, w.port)) if err := w.proxy.Process(ctx, net.Network_UDP, conn, w.dispatcher); err != nil { newError("connection ends").Base(err).WriteToLog() } conn.Close() // nolint: errcheck w.removeConn(id) }() } } func (w *udpWorker) removeConn(id connID) { w.Lock() delete(w.activeConn, id) w.Unlock() } func (w *udpWorker) Start() error { w.activeConn = make(map[connID]*udpConn, 16) h, err := udp.ListenUDP(w.address, w.port, w.callback, udp.HubReceiveOriginalDestination(w.recvOrigDest), udp.HubCapacity(256)) if err != nil { return err } w.checker = &task.Periodic{ Interval: time.Second * 16, Execute: func() error { nowSec := time.Now().Unix() w.Lock() if len(w.activeConn) == 0 { return nil } for addr, conn := range w.activeConn { if nowSec-atomic.LoadInt64(&conn.lastActivityTime) > 8 { delete(w.activeConn, addr) conn.Close() // nolint: errcheck } } if len(w.activeConn) == 0 { w.activeConn = make(map[connID]*udpConn, 16) } w.Unlock() return nil }, } if err := w.checker.Start(); err != nil { return err } w.hub = h return nil } func (w *udpWorker) Close() error { w.Lock() defer w.Unlock() var errors []interface{} if w.hub != nil { if err := w.hub.Close(); err != nil { errors = append(errors, err) } } if w.checker != nil { if err := w.checker.Close(); err != nil { errors = append(errors, err) } } if err := common.Close(w.proxy); err != nil { errors = append(errors, err) } if len(errors) > 0 { return newError("failed to close all resources").Base(newError(serial.Concat(errors...))) } return nil } func (w *udpWorker) Port() net.Port { return w.port } func (w *udpWorker) Proxy() proxy.Inbound { return w.proxy }