package tuic import ( "net" "sync" "sync/atomic" "time" "github.com/metacubex/quic-go" N "github.com/Dreamacro/clash/common/net" "github.com/Dreamacro/clash/common/pool" "github.com/Dreamacro/clash/transport/tuic/congestion" ) const ( DefaultStreamReceiveWindow = 15728640 // 15 MB/s DefaultConnectionReceiveWindow = 67108864 // 64 MB/s ) func SetCongestionController(quicConn quic.Connection, cc string) { switch cc { case "cubic": quicConn.SetCongestionControl( congestion.NewCubicSender( congestion.DefaultClock{}, congestion.GetInitialPacketSize(quicConn.RemoteAddr()), false, nil, ), ) case "new_reno": quicConn.SetCongestionControl( congestion.NewCubicSender( congestion.DefaultClock{}, congestion.GetInitialPacketSize(quicConn.RemoteAddr()), true, nil, ), ) case "bbr": quicConn.SetCongestionControl( congestion.NewBBRSender( congestion.DefaultClock{}, congestion.GetInitialPacketSize(quicConn.RemoteAddr()), congestion.InitialCongestionWindow*congestion.InitialMaxDatagramSize, congestion.DefaultBBRMaxCongestionWindow*congestion.InitialMaxDatagramSize, ), ) } } type quicStreamConn struct { quic.Stream lock sync.Mutex lAddr net.Addr rAddr net.Addr closeDeferFn func() closeOnce sync.Once closeErr error } func (q *quicStreamConn) Write(p []byte) (n int, err error) { q.lock.Lock() defer q.lock.Unlock() return q.Stream.Write(p) } func (q *quicStreamConn) Close() error { q.closeOnce.Do(func() { q.closeErr = q.close() }) return q.closeErr } func (q *quicStreamConn) close() error { if q.closeDeferFn != nil { defer q.closeDeferFn() } // https://github.com/cloudflare/cloudflared/commit/ed2bac026db46b239699ac5ce4fcf122d7cab2cd // Make sure a possible writer does not block the lock forever. We need it, so we can close the writer // side of the stream safely. _ = q.Stream.SetWriteDeadline(time.Now()) // This lock is eventually acquired despite Write also acquiring it, because we set a deadline to writes. q.lock.Lock() defer q.lock.Unlock() // We have to clean up the receiving stream ourselves since the Close in the bottom does not handle that. q.Stream.CancelRead(0) return q.Stream.Close() } func (q *quicStreamConn) LocalAddr() net.Addr { return q.lAddr } func (q *quicStreamConn) RemoteAddr() net.Addr { return q.rAddr } var _ net.Conn = (*quicStreamConn)(nil) type quicStreamPacketConn struct { connId uint32 quicConn quic.Connection inputConn *N.BufferedConn udpRelayMode string maxUdpRelayPacketSize int deferQuicConnFn func(quicConn quic.Connection, err error) closeDeferFn func() writeClosed *atomic.Bool closeOnce sync.Once closeErr error closed bool } func (q *quicStreamPacketConn) Close() error { q.closeOnce.Do(func() { q.closed = true q.closeErr = q.close() }) return q.closeErr } func (q *quicStreamPacketConn) close() (err error) { if q.closeDeferFn != nil { defer q.closeDeferFn() } if q.deferQuicConnFn != nil { defer func() { q.deferQuicConnFn(q.quicConn, err) }() } if q.inputConn != nil { _ = q.inputConn.Close() q.inputConn = nil buf := pool.GetBuffer() defer pool.PutBuffer(buf) err = NewDissociate(q.connId).WriteTo(buf) if err != nil { return } var stream quic.SendStream stream, err = q.quicConn.OpenUniStream() if err != nil { return } _, err = buf.WriteTo(stream) if err != nil { return } err = stream.Close() if err != nil { return } } return } func (q *quicStreamPacketConn) SetDeadline(t time.Time) error { //TODO implement me return nil } func (q *quicStreamPacketConn) SetReadDeadline(t time.Time) error { if q.inputConn != nil { return q.inputConn.SetReadDeadline(t) } return nil } func (q *quicStreamPacketConn) SetWriteDeadline(t time.Time) error { //TODO implement me return nil } func (q *quicStreamPacketConn) ReadFrom(p []byte) (n int, addr net.Addr, err error) { if q.inputConn != nil { var packet Packet packet, err = ReadPacket(q.inputConn) if err != nil { return } n = copy(p, packet.DATA) addr = packet.ADDR.UDPAddr() } else { err = net.ErrClosed } return } func (q *quicStreamPacketConn) WaitReadFrom() (data []byte, put func(), addr net.Addr, err error) { if q.inputConn != nil { var packet Packet packet, err = ReadPacket(q.inputConn) if err != nil { return } data = packet.DATA put = N.NilPut addr = packet.ADDR.UDPAddr() } else { err = net.ErrClosed } return } func (q *quicStreamPacketConn) WriteTo(p []byte, addr net.Addr) (n int, err error) { if q.udpRelayMode != "quic" && len(p) > q.maxUdpRelayPacketSize { return 0, quic.ErrMessageTooLarge(q.maxUdpRelayPacketSize) } if q.closed { return 0, net.ErrClosed } if q.writeClosed != nil && q.writeClosed.Load() { _ = q.Close() return 0, net.ErrClosed } if q.deferQuicConnFn != nil { defer func() { q.deferQuicConnFn(q.quicConn, err) }() } buf := pool.GetBuffer() defer pool.PutBuffer(buf) address, err := NewAddressNetAddr(addr) if err != nil { return } err = NewPacket(q.connId, uint16(len(p)), address, p).WriteTo(buf) if err != nil { return } switch q.udpRelayMode { case "quic": var stream quic.SendStream stream, err = q.quicConn.OpenUniStream() if err != nil { return } defer stream.Close() _, err = buf.WriteTo(stream) if err != nil { return } default: // native data := buf.Bytes() err = q.quicConn.SendMessage(data) if err != nil { return } } n = len(p) return } func (q *quicStreamPacketConn) LocalAddr() net.Addr { return q.quicConn.LocalAddr() } var _ net.PacketConn = (*quicStreamPacketConn)(nil)