// Package point is a shell of V2Ray to run on various of systems. // Point server is a full functionality proxying system. It consists of an inbound and an outbound // connection, as well as any number of inbound and outbound detours. It provides a way internally // to route network packets. package point import ( "github.com/v2ray/v2ray-core/app" "github.com/v2ray/v2ray-core/app/dispatcher" "github.com/v2ray/v2ray-core/app/proxyman" "github.com/v2ray/v2ray-core/app/router" "github.com/v2ray/v2ray-core/common/log" v2net "github.com/v2ray/v2ray-core/common/net" "github.com/v2ray/v2ray-core/common/retry" "github.com/v2ray/v2ray-core/proxy" proxyrepo "github.com/v2ray/v2ray-core/proxy/repo" "github.com/v2ray/v2ray-core/transport/ray" ) // Point shell of V2Ray. type Point struct { port v2net.Port ich proxy.InboundHandler och proxy.OutboundHandler idh []InboundDetourHandler taggedIdh map[string]InboundDetourHandler odh map[string]proxy.OutboundHandler router router.Router space *app.SpaceController } // NewPoint returns a new Point server based on given configuration. // The server is not started at this point. func NewPoint(pConfig *Config) (*Point, error) { var vpoint = new(Point) vpoint.port = pConfig.Port if pConfig.LogConfig != nil { logConfig := pConfig.LogConfig if len(logConfig.AccessLog) > 0 { err := log.InitAccessLogger(logConfig.AccessLog) if err != nil { return nil, err } } if len(logConfig.ErrorLog) > 0 { err := log.InitErrorLogger(logConfig.ErrorLog) if err != nil { return nil, err } } log.SetLogLevel(logConfig.LogLevel) } vpoint.space = app.NewController() vpoint.space.Bind(dispatcher.APP_ID, vpoint) vpoint.space.Bind(proxyman.APP_ID_INBOUND_MANAGER, vpoint) ichConfig := pConfig.InboundConfig.Settings ich, err := proxyrepo.CreateInboundHandler(pConfig.InboundConfig.Protocol, vpoint.space.ForContext("vpoint-default-inbound"), ichConfig) if err != nil { log.Error("Failed to create inbound connection handler: ", err) return nil, err } vpoint.ich = ich ochConfig := pConfig.OutboundConfig.Settings och, err := proxyrepo.CreateOutboundHandler(pConfig.OutboundConfig.Protocol, vpoint.space.ForContext("vpoint-default-outbound"), ochConfig) if err != nil { log.Error("Failed to create outbound connection handler: ", err) return nil, err } vpoint.och = och vpoint.taggedIdh = make(map[string]InboundDetourHandler) detours := pConfig.InboundDetours if len(detours) > 0 { vpoint.idh = make([]InboundDetourHandler, len(detours)) for idx, detourConfig := range detours { allocConfig := detourConfig.Allocation var detourHandler InboundDetourHandler switch allocConfig.Strategy { case AllocationStrategyAlways: dh, err := NewInboundDetourHandlerAlways(vpoint.space.ForContext(detourConfig.Tag), detourConfig) if err != nil { log.Error("Point: Failed to create detour handler: ", err) return nil, ErrorBadConfiguration } detourHandler = dh case AllocationStrategyRandom: dh, err := NewInboundDetourHandlerDynamic(vpoint.space.ForContext(detourConfig.Tag), detourConfig) if err != nil { log.Error("Point: Failed to create detour handler: ", err) return nil, ErrorBadConfiguration } detourHandler = dh default: log.Error("Point: Unknown allocation strategy: ", allocConfig.Strategy) return nil, ErrorBadConfiguration } vpoint.idh[idx] = detourHandler if len(detourConfig.Tag) > 0 { vpoint.taggedIdh[detourConfig.Tag] = detourHandler } } } outboundDetours := pConfig.OutboundDetours if len(outboundDetours) > 0 { vpoint.odh = make(map[string]proxy.OutboundHandler) for _, detourConfig := range outboundDetours { detourHandler, err := proxyrepo.CreateOutboundHandler(detourConfig.Protocol, vpoint.space.ForContext(detourConfig.Tag), detourConfig.Settings) if err != nil { log.Error("Failed to create detour outbound connection handler: ", err) return nil, err } vpoint.odh[detourConfig.Tag] = detourHandler } } routerConfig := pConfig.RouterConfig if routerConfig != nil { r, err := router.CreateRouter(routerConfig.Strategy, routerConfig.Settings) if err != nil { log.Error("Failed to create router: ", err) return nil, ErrorBadConfiguration } vpoint.router = r } return vpoint, nil } func (this *Point) Close() { this.ich.Close() for _, idh := range this.idh { idh.Close() } } // Start starts the Point server, and return any error during the process. // In the case of any errors, the state of the server is unpredicatable. func (this *Point) Start() error { if this.port <= 0 { log.Error("Invalid port ", this.port) return ErrorBadConfiguration } err := retry.Timed(100 /* times */, 100 /* ms */).On(func() error { err := this.ich.Listen(this.port) if err != nil { return err } log.Warning("Point server started on port ", this.port) return nil }) if err != nil { return err } for _, detourHandler := range this.idh { err := detourHandler.Start() if err != nil { return err } } return nil } // Dispatches a Packet to an OutboundConnection. // The packet will be passed through the router (if configured), and then sent to an outbound // connection with matching tag. func (this *Point) DispatchToOutbound(context app.Context, destination v2net.Destination) ray.InboundRay { direct := ray.NewRay() dispatcher := this.och if this.router != nil { if tag, err := this.router.TakeDetour(destination); err == nil { if handler, found := this.odh[tag]; found { log.Info("Point: Taking detour [", tag, "] for [", destination, "]") dispatcher = handler } else { log.Warning("Point: Unable to find routing destination: ", tag) } } } go this.FilterPacketAndDispatch(destination, direct, dispatcher) return direct } func (this *Point) FilterPacketAndDispatch(destination v2net.Destination, link ray.OutboundRay, dispatcher proxy.OutboundHandler) { payload, err := link.OutboundInput().Read() if err != nil { log.Info("Point: No payload to dispatch, stopping dispatching now.") link.OutboundOutput().Release() link.OutboundInput().Release() return } dispatcher.Dispatch(destination, payload, link) } func (this *Point) GetHandler(context app.Context, tag string) (proxy.InboundHandler, int) { handler, found := this.taggedIdh[tag] if !found { log.Warning("Point: Unable to find an inbound handler with tag: ", tag) return nil, 0 } return handler.GetConnectionHandler() }