package udp import ( "net" "sync" "v2ray.com/core/common/buf" "v2ray.com/core/common/dice" "v2ray.com/core/common/log" v2net "v2ray.com/core/common/net" "v2ray.com/core/common/signal" "v2ray.com/core/proxy" "v2ray.com/core/transport/internet/internal" ) // Payload represents a single UDP payload. type Payload struct { payload *buf.Buffer session *proxy.SessionInfo } // PayloadHandler is function to handle Payload. type PayloadHandler func(*buf.Buffer, *proxy.SessionInfo) // PayloadQueue is a queue of Payload. type PayloadQueue struct { queue []chan Payload callback PayloadHandler } // NewPayloadQueue returns a new PayloadQueue. func NewPayloadQueue(option ListenOption) *PayloadQueue { queue := &PayloadQueue{ callback: option.Callback, queue: make([]chan Payload, option.Concurrency), } for i := range queue.queue { queue.queue[i] = make(chan Payload, 64) go queue.Dequeue(queue.queue[i]) } return queue } func (v *PayloadQueue) Enqueue(payload Payload) { size := len(v.queue) idx := 0 if size > 1 { idx = dice.Roll(size) } for i := 0; i < size; i++ { select { case v.queue[idx%size] <- payload: return default: idx++ } } } func (v *PayloadQueue) Dequeue(queue <-chan Payload) { for payload := range queue { v.callback(payload.payload, payload.session) } } func (v *PayloadQueue) Close() { for _, queue := range v.queue { close(queue) } } type ListenOption struct { Callback PayloadHandler ReceiveOriginalDest bool Concurrency int } type Hub struct { sync.RWMutex conn *net.UDPConn cancel *signal.CancelSignal queue *PayloadQueue option ListenOption } func ListenUDP(address v2net.Address, port v2net.Port, option ListenOption) (*Hub, error) { if option.Concurrency < 1 { option.Concurrency = 1 } udpConn, err := net.ListenUDP("udp", &net.UDPAddr{ IP: address.IP(), Port: int(port), }) if err != nil { return nil, err } if option.ReceiveOriginalDest { fd, err := internal.GetSysFd(udpConn) if err != nil { log.Warning("UDP|Listener: Failed to get fd: ", err) return nil, err } err = SetOriginalDestOptions(fd) if err != nil { log.Warning("UDP|Listener: Failed to set socket options: ", err) return nil, err } } hub := &Hub{ conn: udpConn, queue: NewPayloadQueue(option), option: option, cancel: signal.NewCloseSignal(), } go hub.start() return hub, nil } func (v *Hub) Close() { v.Lock() defer v.Unlock() v.cancel.Cancel() v.conn.Close() v.cancel.WaitForDone() v.queue.Close() } func (v *Hub) WriteTo(payload []byte, dest v2net.Destination) (int, error) { return v.conn.WriteToUDP(payload, &net.UDPAddr{ IP: dest.Address.IP(), Port: int(dest.Port), }) } func (v *Hub) start() { v.cancel.WaitThread() defer v.cancel.FinishThread() oobBytes := make([]byte, 256) for v.Running() { buffer := buf.NewSmall() var noob int var addr *net.UDPAddr err := buffer.AppendSupplier(func(b []byte) (int, error) { n, nb, _, a, e := ReadUDPMsg(v.conn, b, oobBytes) noob = nb addr = a return n, e }) if err != nil { log.Info("UDP|Hub: Failed to read UDP msg: ", err) buffer.Release() continue } session := new(proxy.SessionInfo) session.Source = v2net.UDPDestination(v2net.IPAddress(addr.IP), v2net.Port(addr.Port)) if v.option.ReceiveOriginalDest && noob > 0 { session.Destination = RetrieveOriginalDest(oobBytes[:noob]) } v.queue.Enqueue(Payload{ payload: buffer, session: session, }) } } func (v *Hub) Running() bool { return !v.cancel.Cancelled() } // Connection return the net.Conn underneath this hub. // Private: Visible for testing only func (v *Hub) Connection() net.Conn { return v.conn } func (v *Hub) Addr() net.Addr { return v.conn.LocalAddr() }