package dialer import ( "context" "net" "time" "github.com/sagernet/sing-box/adapter" "github.com/sagernet/sing-box/common/warning" C "github.com/sagernet/sing-box/constant" "github.com/sagernet/sing-box/option" "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" "github.com/database64128/tfo-go/v2" ) var warnBindInterfaceOnUnsupportedPlatform = warning.New( func() bool { return !(C.IsLinux || C.IsWindows || C.IsDarwin) }, "outbound option `bind_interface` is only supported on Linux and Windows", ) var warnRoutingMarkOnUnsupportedPlatform = warning.New( func() bool { return !C.IsLinux }, "outbound option `routing_mark` is only supported on Linux", ) var warnReuseAdderOnUnsupportedPlatform = warning.New( func() bool { return !(C.IsDarwin || C.IsDragonfly || C.IsFreebsd || C.IsLinux || C.IsNetbsd || C.IsOpenbsd || C.IsSolaris || C.IsWindows) }, "outbound option `reuse_addr` is unsupported on current platform", ) var warnProtectPathOnNonAndroid = warning.New( func() bool { return !C.IsAndroid }, "outbound option `protect_path` is only supported on Android", ) var warnTFOOnUnsupportedPlatform = warning.New( func() bool { return !(C.IsDarwin || C.IsFreebsd || C.IsLinux || C.IsWindows) }, "outbound option `tcp_fast_open` is unsupported on current platform", ) type DefaultDialer struct { dialer4 tfo.Dialer dialer6 tfo.Dialer udpDialer4 net.Dialer udpDialer6 net.Dialer udpListener net.ListenConfig udpAddr4 string udpAddr6 string } func NewDefault(router adapter.Router, options option.DialerOptions) *DefaultDialer { var dialer net.Dialer var listener net.ListenConfig if options.BindInterface != "" { warnBindInterfaceOnUnsupportedPlatform.Check() bindFunc := control.BindToInterface(router.InterfaceFinder(), options.BindInterface, -1) dialer.Control = control.Append(dialer.Control, bindFunc) listener.Control = control.Append(listener.Control, bindFunc) } else if router.AutoDetectInterface() { const useInterfaceName = C.IsLinux bindFunc := control.BindToInterfaceFunc(router.InterfaceFinder(), func(network string, address string) (interfaceName string, interfaceIndex int) { remoteAddr := M.ParseSocksaddr(address).Addr if C.IsLinux { return router.InterfaceMonitor().DefaultInterfaceName(remoteAddr), -1 } else { return "", router.InterfaceMonitor().DefaultInterfaceIndex(remoteAddr) } }) dialer.Control = control.Append(dialer.Control, bindFunc) listener.Control = control.Append(listener.Control, bindFunc) } else if router.DefaultInterface() != "" { bindFunc := control.BindToInterface(router.InterfaceFinder(), router.DefaultInterface(), -1) dialer.Control = control.Append(dialer.Control, bindFunc) listener.Control = control.Append(listener.Control, bindFunc) } if options.RoutingMark != 0 { warnRoutingMarkOnUnsupportedPlatform.Check() dialer.Control = control.Append(dialer.Control, control.RoutingMark(options.RoutingMark)) listener.Control = control.Append(listener.Control, control.RoutingMark(options.RoutingMark)) } else if router.DefaultMark() != 0 { dialer.Control = control.Append(dialer.Control, control.RoutingMark(router.DefaultMark())) listener.Control = control.Append(listener.Control, control.RoutingMark(router.DefaultMark())) } if options.ReuseAddr { warnReuseAdderOnUnsupportedPlatform.Check() listener.Control = control.Append(listener.Control, control.ReuseAddr()) } if options.ProtectPath != "" { warnProtectPathOnNonAndroid.Check() dialer.Control = control.Append(dialer.Control, control.ProtectPath(options.ProtectPath)) listener.Control = control.Append(listener.Control, control.ProtectPath(options.ProtectPath)) } if options.ConnectTimeout != 0 { dialer.Timeout = time.Duration(options.ConnectTimeout) } else { dialer.Timeout = C.TCPTimeout } if options.TCPFastOpen { warnTFOOnUnsupportedPlatform.Check() } var udpFragment bool if options.UDPFragment != nil { udpFragment = *options.UDPFragment } else { udpFragment = options.UDPFragmentDefault } if !udpFragment { dialer.Control = control.Append(dialer.Control, control.DisableUDPFragment()) listener.Control = control.Append(listener.Control, control.DisableUDPFragment()) } var ( dialer4 = dialer udpDialer4 = dialer udpAddr4 string ) if options.Inet4BindAddress != nil { bindAddr := options.Inet4BindAddress.Build() dialer4.LocalAddr = &net.TCPAddr{IP: bindAddr.AsSlice()} udpDialer4.LocalAddr = &net.UDPAddr{IP: bindAddr.AsSlice()} udpAddr4 = M.SocksaddrFrom(bindAddr, 0).String() } var ( dialer6 = dialer udpDialer6 = dialer udpAddr6 string ) if options.Inet6BindAddress != nil { bindAddr := options.Inet6BindAddress.Build() dialer6.LocalAddr = &net.TCPAddr{IP: bindAddr.AsSlice()} udpDialer6.LocalAddr = &net.UDPAddr{IP: bindAddr.AsSlice()} udpAddr6 = M.SocksaddrFrom(bindAddr, 0).String() } return &DefaultDialer{ tfo.Dialer{Dialer: dialer4, DisableTFO: !options.TCPFastOpen}, tfo.Dialer{Dialer: dialer6, DisableTFO: !options.TCPFastOpen}, udpDialer4, udpDialer6, listener, udpAddr4, udpAddr6, } } func (d *DefaultDialer) DialContext(ctx context.Context, network string, address M.Socksaddr) (net.Conn, error) { if !address.IsValid() { return nil, E.New("invalid address") } switch N.NetworkName(network) { case N.NetworkUDP: if !address.IsIPv6() { return d.udpDialer4.DialContext(ctx, network, address.String()) } else { return d.udpDialer6.DialContext(ctx, network, address.String()) } } if !address.IsIPv6() { return DialSlowContext(&d.dialer4, ctx, network, address) } else { return DialSlowContext(&d.dialer6, ctx, network, address) } } func (d *DefaultDialer) ListenPacket(ctx context.Context, destination M.Socksaddr) (net.PacketConn, error) { if !destination.IsIPv6() { return d.udpListener.ListenPacket(ctx, N.NetworkUDP, d.udpAddr4) } else { return d.udpListener.ListenPacket(ctx, N.NetworkUDP, d.udpAddr6) } }