package core import ( "context" "reflect" "sync" "time" "github.com/xtls/xray-core/common" "github.com/xtls/xray-core/common/errors" "github.com/xtls/xray-core/common/platform" "github.com/xtls/xray-core/common/serial" "github.com/xtls/xray-core/features" "github.com/xtls/xray-core/features/dns" "github.com/xtls/xray-core/features/dns/localdns" "github.com/xtls/xray-core/features/inbound" "github.com/xtls/xray-core/features/outbound" "github.com/xtls/xray-core/features/policy" "github.com/xtls/xray-core/features/routing" "github.com/xtls/xray-core/features/stats" "github.com/xtls/xray-core/transport/internet" ) // Server is an instance of Xray. At any time, there must be at most one Server instance running. type Server interface { common.Runnable } // ServerType returns the type of the server. func ServerType() interface{} { return (*Instance)(nil) } type resolution struct { deps []reflect.Type callback interface{} } func getFeature(allFeatures []features.Feature, t reflect.Type) features.Feature { for _, f := range allFeatures { if reflect.TypeOf(f.Type()) == t { return f } } return nil } func (r *resolution) resolve(allFeatures []features.Feature) (bool, error) { var fs []features.Feature for _, d := range r.deps { f := getFeature(allFeatures, d) if f == nil { return false, nil } fs = append(fs, f) } callback := reflect.ValueOf(r.callback) var input []reflect.Value callbackType := callback.Type() for i := 0; i < callbackType.NumIn(); i++ { pt := callbackType.In(i) for _, f := range fs { if reflect.TypeOf(f).AssignableTo(pt) { input = append(input, reflect.ValueOf(f)) break } } } if len(input) != callbackType.NumIn() { panic("Can't get all input parameters") } var err error ret := callback.Call(input) errInterface := reflect.TypeOf((*error)(nil)).Elem() for i := len(ret) - 1; i >= 0; i-- { if ret[i].Type() == errInterface { v := ret[i].Interface() if v != nil { err = v.(error) } break } } return true, err } // Instance combines all Xray features. type Instance struct { access sync.Mutex features []features.Feature featureResolutions []resolution running bool ctx context.Context } func AddInboundHandler(server *Instance, config *InboundHandlerConfig) error { inboundManager := server.GetFeature(inbound.ManagerType()).(inbound.Manager) rawHandler, err := CreateObject(server, config) if err != nil { return err } handler, ok := rawHandler.(inbound.Handler) if !ok { return errors.New("not an InboundHandler") } if err := inboundManager.AddHandler(server.ctx, handler); err != nil { return err } return nil } func addInboundHandlers(server *Instance, configs []*InboundHandlerConfig) error { for _, inboundConfig := range configs { if err := AddInboundHandler(server, inboundConfig); err != nil { return err } } return nil } func AddOutboundHandler(server *Instance, config *OutboundHandlerConfig) error { outboundManager := server.GetFeature(outbound.ManagerType()).(outbound.Manager) rawHandler, err := CreateObject(server, config) if err != nil { return err } handler, ok := rawHandler.(outbound.Handler) if !ok { return errors.New("not an OutboundHandler") } if err := outboundManager.AddHandler(server.ctx, handler); err != nil { return err } return nil } func addOutboundHandlers(server *Instance, configs []*OutboundHandlerConfig) error { for _, outboundConfig := range configs { if err := AddOutboundHandler(server, outboundConfig); err != nil { return err } } return nil } // RequireFeatures is a helper function to require features from Instance in context. // See Instance.RequireFeatures for more information. func RequireFeatures(ctx context.Context, callback interface{}) error { v := MustFromContext(ctx) return v.RequireFeatures(callback) } // RequireFeaturesAsync registers a callback, which will be called when all dependent features are registered. The order of app init doesn't matter func RequireFeaturesAsync(ctx context.Context, callback interface{}) { v := MustFromContext(ctx) v.RequireFeaturesAsync(callback) } // New returns a new Xray instance based on given configuration. // The instance is not started at this point. // To ensure Xray instance works properly, the config must contain one Dispatcher, one InboundHandlerManager and one OutboundHandlerManager. Other features are optional. func New(config *Config) (*Instance, error) { server := &Instance{ctx: context.Background()} done, err := initInstanceWithConfig(config, server) if done { return nil, err } return server, nil } func NewWithContext(ctx context.Context, config *Config) (*Instance, error) { server := &Instance{ctx: ctx} done, err := initInstanceWithConfig(config, server) if done { return nil, err } return server, nil } func initInstanceWithConfig(config *Config, server *Instance) (bool, error) { server.ctx = context.WithValue(server.ctx, "cone", platform.NewEnvFlag(platform.UseCone).GetValue(func() string { return "" }) != "true") for _, appSettings := range config.App { settings, err := appSettings.GetInstance() if err != nil { return true, err } obj, err := CreateObject(server, settings) if err != nil { return true, err } if feature, ok := obj.(features.Feature); ok { if err := server.AddFeature(feature); err != nil { return true, err } } } essentialFeatures := []struct { Type interface{} Instance features.Feature }{ {dns.ClientType(), localdns.New()}, {policy.ManagerType(), policy.DefaultManager{}}, {routing.RouterType(), routing.DefaultRouter{}}, {stats.ManagerType(), stats.NoopManager{}}, } for _, f := range essentialFeatures { if server.GetFeature(f.Type) == nil { if err := server.AddFeature(f.Instance); err != nil { return true, err } } } internet.InitSystemDialer( server.GetFeature(dns.ClientType()).(dns.Client), func() outbound.Manager { obm, _ := server.GetFeature(outbound.ManagerType()).(outbound.Manager) return obm }(), ) if server.featureResolutions != nil { return true, errors.New("not all dependencies are resolved.") } if err := addInboundHandlers(server, config.Inbound); err != nil { return true, err } if err := addOutboundHandlers(server, config.Outbound); err != nil { return true, err } return false, nil } // Type implements common.HasType. func (s *Instance) Type() interface{} { return ServerType() } // Close shutdown the Xray instance. func (s *Instance) Close() error { s.access.Lock() defer s.access.Unlock() s.running = false var errs []interface{} for _, f := range s.features { if err := f.Close(); err != nil { errs = append(errs, err) } } if len(errs) > 0 { return errors.New("failed to close all features").Base(errors.New(serial.Concat(errs...))) } return nil } // RequireFeatures registers a callback, which will be called when all dependent features are registered. // The callback must be a func(). All its parameters must be features.Feature. func (s *Instance) RequireFeatures(callback interface{}) error { callbackType := reflect.TypeOf(callback) if callbackType.Kind() != reflect.Func { panic("not a function") } var featureTypes []reflect.Type for i := 0; i < callbackType.NumIn(); i++ { featureTypes = append(featureTypes, reflect.PtrTo(callbackType.In(i))) } r := resolution{ deps: featureTypes, callback: callback, } if finished, err := r.resolve(s.features); finished { return err } s.featureResolutions = append(s.featureResolutions, r) return nil } // RequireFeaturesAsync registers a callback, which will be called when all dependent features are registered. The order of app init doesn't matter func (s *Instance) RequireFeaturesAsync(callback interface{}) { callbackType := reflect.TypeOf(callback) if callbackType.Kind() != reflect.Func { panic("not a function") } var featureTypes []reflect.Type for i := 0; i < callbackType.NumIn(); i++ { featureTypes = append(featureTypes, reflect.PtrTo(callbackType.In(i))) } r := resolution{ deps: featureTypes, callback: callback, } go func() { var finished = false for i := 0; !finished; i++ { if i > 100000 { errors.LogError(s.ctx, "RequireFeaturesAsync failed after count ", i) break; } finished, _ = r.resolve(s.features) time.Sleep(time.Millisecond) } s.featureResolutions = append(s.featureResolutions, r) }() } // AddFeature registers a feature into current Instance. func (s *Instance) AddFeature(feature features.Feature) error { s.features = append(s.features, feature) if s.running { if err := feature.Start(); err != nil { errors.LogInfoInner(s.ctx, err, "failed to start feature") } return nil } if s.featureResolutions == nil { return nil } var pendingResolutions []resolution for _, r := range s.featureResolutions { finished, err := r.resolve(s.features) if finished && err != nil { return err } if !finished { pendingResolutions = append(pendingResolutions, r) } } if len(pendingResolutions) == 0 { s.featureResolutions = nil } else if len(pendingResolutions) < len(s.featureResolutions) { s.featureResolutions = pendingResolutions } return nil } // GetFeature returns a feature of the given type, or nil if such feature is not registered. func (s *Instance) GetFeature(featureType interface{}) features.Feature { return getFeature(s.features, reflect.TypeOf(featureType)) } // Start starts the Xray instance, including all registered features. When Start returns error, the state of the instance is unknown. // A Xray instance can be started only once. Upon closing, the instance is not guaranteed to start again. // // xray:api:stable func (s *Instance) Start() error { s.access.Lock() defer s.access.Unlock() s.running = true for _, f := range s.features { if err := f.Start(); err != nil { return err } } errors.LogWarning(s.ctx, "Xray ", Version(), " started") return nil }