package inbound import ( "net" "os" "time" "github.com/sagernet/sing-box/adapter" "github.com/sagernet/sing/common" "github.com/sagernet/sing/common/buf" "github.com/sagernet/sing/common/control" E "github.com/sagernet/sing/common/exceptions" M "github.com/sagernet/sing/common/metadata" N "github.com/sagernet/sing/common/network" ) func (a *myInboundAdapter) ListenUDP() (net.PacketConn, error) { bindAddr := M.SocksaddrFrom(a.listenOptions.Listen.Build(), a.listenOptions.ListenPort) var lc net.ListenConfig var udpFragment bool if a.listenOptions.UDPFragment != nil { udpFragment = *a.listenOptions.UDPFragment } else { udpFragment = a.listenOptions.UDPFragmentDefault } if !udpFragment { lc.Control = control.Append(lc.Control, control.DisableUDPFragment()) } udpConn, err := lc.ListenPacket(a.ctx, M.NetworkFromNetAddr(N.NetworkUDP, bindAddr.Addr), bindAddr.String()) if err != nil { return nil, err } a.udpConn = udpConn.(*net.UDPConn) a.udpAddr = bindAddr a.logger.Info("udp server started at ", udpConn.LocalAddr()) return udpConn, err } func (a *myInboundAdapter) loopUDPIn() { defer close(a.packetOutboundClosed) buffer := buf.NewPacket() defer buffer.Release() buffer.IncRef() defer buffer.DecRef() packetService := (*myInboundPacketAdapter)(a) for { buffer.Reset() n, addr, err := a.udpConn.ReadFromUDPAddrPort(buffer.FreeBytes()) if err != nil { return } buffer.Truncate(n) var metadata adapter.InboundContext metadata.Inbound = a.tag metadata.InboundType = a.protocol metadata.InboundOptions = a.listenOptions.InboundOptions metadata.Source = M.SocksaddrFromNetIP(addr).Unwrap() metadata.OriginDestination = a.udpAddr err = a.packetHandler.NewPacket(a.ctx, packetService, buffer, metadata) if err != nil { a.newError(E.Cause(err, "process packet from ", metadata.Source)) } } } func (a *myInboundAdapter) loopUDPOOBIn() { defer close(a.packetOutboundClosed) buffer := buf.NewPacket() defer buffer.Release() buffer.IncRef() defer buffer.DecRef() packetService := (*myInboundPacketAdapter)(a) oob := make([]byte, 1024) for { buffer.Reset() n, oobN, _, addr, err := a.udpConn.ReadMsgUDPAddrPort(buffer.FreeBytes(), oob) if err != nil { return } buffer.Truncate(n) var metadata adapter.InboundContext metadata.Inbound = a.tag metadata.InboundType = a.protocol metadata.InboundOptions = a.listenOptions.InboundOptions metadata.Source = M.SocksaddrFromNetIP(addr).Unwrap() metadata.OriginDestination = a.udpAddr err = a.oobPacketHandler.NewPacket(a.ctx, packetService, buffer, oob[:oobN], metadata) if err != nil { a.newError(E.Cause(err, "process packet from ", metadata.Source)) } } } func (a *myInboundAdapter) loopUDPInThreadSafe() { defer close(a.packetOutboundClosed) packetService := (*myInboundPacketAdapter)(a) for { buffer := buf.NewPacket() n, addr, err := a.udpConn.ReadFromUDPAddrPort(buffer.FreeBytes()) if err != nil { buffer.Release() return } buffer.Truncate(n) var metadata adapter.InboundContext metadata.Inbound = a.tag metadata.InboundType = a.protocol metadata.InboundOptions = a.listenOptions.InboundOptions metadata.Source = M.SocksaddrFromNetIP(addr).Unwrap() metadata.OriginDestination = a.udpAddr err = a.packetHandler.NewPacket(a.ctx, packetService, buffer, metadata) if err != nil { buffer.Release() a.newError(E.Cause(err, "process packet from ", metadata.Source)) } } } func (a *myInboundAdapter) loopUDPOOBInThreadSafe() { defer close(a.packetOutboundClosed) packetService := (*myInboundPacketAdapter)(a) oob := make([]byte, 1024) for { buffer := buf.NewPacket() n, oobN, _, addr, err := a.udpConn.ReadMsgUDPAddrPort(buffer.FreeBytes(), oob) if err != nil { buffer.Release() return } buffer.Truncate(n) var metadata adapter.InboundContext metadata.Inbound = a.tag metadata.InboundType = a.protocol metadata.InboundOptions = a.listenOptions.InboundOptions metadata.Source = M.SocksaddrFromNetIP(addr).Unwrap() metadata.OriginDestination = a.udpAddr err = a.oobPacketHandler.NewPacket(a.ctx, packetService, buffer, oob[:oobN], metadata) if err != nil { buffer.Release() a.newError(E.Cause(err, "process packet from ", metadata.Source)) } } } func (a *myInboundAdapter) loopUDPOut() { for { select { case packet := <-a.packetOutbound: err := a.writePacket(packet.buffer, packet.destination) if err != nil && !E.IsClosed(err) { a.newError(E.New("write back udp: ", err)) } continue case <-a.packetOutboundClosed: } for { select { case packet := <-a.packetOutbound: packet.buffer.Release() default: return } } } } func (a *myInboundAdapter) writePacket(buffer *buf.Buffer, destination M.Socksaddr) error { defer buffer.Release() if destination.IsFqdn() { udpAddr, err := net.ResolveUDPAddr(N.NetworkUDP, destination.String()) if err != nil { return err } return common.Error(a.udpConn.WriteTo(buffer.Bytes(), udpAddr)) } return common.Error(a.udpConn.WriteToUDPAddrPort(buffer.Bytes(), destination.AddrPort())) } type myInboundPacketAdapter myInboundAdapter func (s *myInboundPacketAdapter) ReadPacket(buffer *buf.Buffer) (M.Socksaddr, error) { n, addr, err := s.udpConn.ReadFromUDPAddrPort(buffer.FreeBytes()) if err != nil { return M.Socksaddr{}, err } buffer.Truncate(n) return M.SocksaddrFromNetIP(addr), nil } func (s *myInboundPacketAdapter) WriteIsThreadUnsafe() { } type myInboundPacket struct { buffer *buf.Buffer destination M.Socksaddr } func (s *myInboundPacketAdapter) Upstream() any { return s.udpConn } func (s *myInboundPacketAdapter) WritePacket(buffer *buf.Buffer, destination M.Socksaddr) error { select { case s.packetOutbound <- &myInboundPacket{buffer, destination}: return nil case <-s.packetOutboundClosed: return os.ErrClosed } } func (s *myInboundPacketAdapter) Close() error { return s.udpConn.Close() } func (s *myInboundPacketAdapter) LocalAddr() net.Addr { return s.udpConn.LocalAddr() } func (s *myInboundPacketAdapter) SetDeadline(t time.Time) error { return s.udpConn.SetDeadline(t) } func (s *myInboundPacketAdapter) SetReadDeadline(t time.Time) error { return s.udpConn.SetReadDeadline(t) } func (s *myInboundPacketAdapter) SetWriteDeadline(t time.Time) error { return s.udpConn.SetWriteDeadline(t) }