package mvc import ( "fmt" "reflect" "strings" "github.com/kataras/iris/mvc/di" "github.com/kataras/iris/context" "github.com/kataras/iris/core/router" "github.com/kataras/iris/core/router/macro" ) // BaseController is the optional controller interface, if it's // completed by the end controller then the BeginRequest and EndRequest // are called between the controller's method responsible for the incoming request. type BaseController interface { BeginRequest(context.Context) EndRequest(context.Context) } // ControllerActivator returns a new controller type info description. // Its functionality can be overriden by the end-dev. type ControllerActivator struct { // the router is used on the `Activate` and can be used by end-dev on the `BeforeActivate` // to register any custom controller's functions as handlers but we will need it here // in order to not create a new type like `ActivationPayload` for the `BeforeActivate`. Router router.Party // initRef BaseController // the BaseController as it's passed from the end-dev. Value reflect.Value // the BaseController's Value. Type reflect.Type // raw type of the BaseController (initRef). // FullName it's the last package path segment + "." + the Name. // i.e: if login-example/user/controller.go, the FullName is "user.Controller". FullName string // the methods names that is already binded to a handler, // the BeginRequest, EndRequest and BeforeActivate are reserved by the internal implementation. reservedMethods []string // the bindings that comes from the Engine and the controller's filled fields if any. // Can be binded to the the new controller's fields and method that is fired // on incoming requests. Dependencies *di.D // on activate. injector *di.StructInjector } func getNameOf(typ reflect.Type) string { elemTyp := di.IndirectType(typ) typName := elemTyp.Name() pkgPath := elemTyp.PkgPath() fullname := pkgPath[strings.LastIndexByte(pkgPath, '/')+1:] + "." + typName return fullname } func newControllerActivator(router router.Party, controller interface{}, d *di.D) *ControllerActivator { var ( val = reflect.ValueOf(controller) typ = val.Type() // the full name of the controller, it's its type including the package path. fullName = getNameOf(typ) ) // the following will make sure that if // the controller's has set-ed pointer struct fields by the end-dev // we will include them to the bindings. // set bindings to the non-zero pointer fields' values that may be set-ed by // the end-developer when declaring the controller, // activate listeners needs them in order to know if something set-ed already or not, // look `BindTypeExists`. d.Values = append(di.LookupNonZeroFieldsValues(val), d.Values...) c := &ControllerActivator{ // give access to the Router to the end-devs if they need it for some reason, // i.e register done handlers. Router: router, Value: val, Type: typ, FullName: fullName, // set some methods that end-dev cann't use accidentally // to register a route via the `Handle`, // all available exported and compatible methods // are being appended to the slice at the `parseMethods`, // if a new method is registered via `Handle` its function name // is also appended to that slice. // // TODO: now that BaseController is totally optionally // we have to check if BeginRequest and EndRequest should be here. reservedMethods: whatReservedMethods(typ), Dependencies: d, } return c } func whatReservedMethods(typ reflect.Type) []string { methods := []string{"BeforeActivate"} if isBaseController(typ) { methods = append(methods, "BeginRequest", "EndRequest") } return methods } // checks if a method is already registered. func (c *ControllerActivator) isReservedMethod(name string) bool { for _, s := range c.reservedMethods { if s == name { return true } } return false } func (c *ControllerActivator) parseMethod(m reflect.Method) { httpMethod, httpPath, err := parseMethod(m, c.isReservedMethod) if err != nil { if err != errSkip { err = fmt.Errorf("MVC: fail to parse the route path and HTTP method for '%s.%s': %v", c.FullName, m.Name, err) c.Router.GetReporter().AddErr(err) } return } c.Handle(httpMethod, httpPath, m.Name) } // register all available, exported methods to handlers if possible. func (c *ControllerActivator) parseMethods() { n := c.Type.NumMethod() // wg := &sync.WaitGroup{} // wg.Add(n) for i := 0; i < n; i++ { m := c.Type.Method(i) c.parseMethod(m) } // wg.Wait() } func (c *ControllerActivator) activate() { c.parseMethods() } var emptyIn = []reflect.Value{} // Handle registers a route based on a http method, the route's path // and a function name that belongs to the controller, it accepts // a forth, optionally, variadic parameter which is the before handlers. // // Just like `APIBuilder`, it returns the `*router.Route`, if failed // then it logs the errors and it returns nil, you can check the errors // programmatically by the `APIBuilder#GetReporter`. func (c *ControllerActivator) Handle(method, path, funcName string, middleware ...context.Handler) *router.Route { if method == "" || path == "" || funcName == "" || c.isReservedMethod(funcName) { // isReservedMethod -> if it's already registered // by a previous Handle or analyze methods internally. return nil } // get the method from the controller type. m, ok := c.Type.MethodByName(funcName) if !ok { err := fmt.Errorf("MVC: function '%s' doesn't exist inside the '%s' controller", funcName, c.FullName) c.Router.GetReporter().AddErr(err) return nil } // parse a route template which contains the parameters organised. tmpl, err := macro.Parse(path, c.Router.Macros()) if err != nil { err = fmt.Errorf("MVC: fail to parse the path for '%s.%s': %v", c.FullName, funcName, err) c.Router.GetReporter().AddErr(err) return nil } // add this as a reserved method name in order to // be sure that the same func will not be registered again, even if a custom .Handle later on. c.reservedMethods = append(c.reservedMethods, funcName) // get the function's input. funcIn := getInputArgsFromFunc(m.Type) // get the path parameters bindings from the template, // use the function's input except the receiver which is the // end-dev's controller pointer. pathParams := getPathParamsForInput(tmpl.Params, funcIn[1:]...) // get the function's input arguments' bindings. funcDependencies := c.Dependencies.Clone() funcDependencies.AddValue(pathParams...) // fmt.Printf("for %s | values: %s\n", funcName, funcDependencies.Values) funcInjector := funcDependencies.Func(m.Func) // fmt.Printf("actual injector's inputs length: %d\n", funcInjector.Length) // the element value, not the pointer, wil lbe used to create a // new controller on each incoming request. // Remember: // we cannot simply do that and expect to work: // hasStructInjector = c.injector != nil && c.injector.Valid // hasFuncInjector = funcInjector != nil && funcInjector.Valid // because // the `Handle` can be called from `BeforeActivate` callbacks // and before activation, the c.injector is nil because // we may not have the dependencies binded yet. But if `c.injector.Valid` // inside the Handelr works because it's set on the `activate()` method. // To solve this we can make check on the FIRST `Handle`, // if c.injector is nil, then set it with the current bindings, // so the user should bind the dependencies needed before the `Handle` // this is a logical flow, so we will choose that one -> if c.injector == nil { c.injector = c.Dependencies.Struct(c.Value) } handler := buildHandler(m, c.Type, c.Value, c.injector, funcInjector, funcIn) // register the handler now. route := c.Router.Handle(method, path, append(middleware, handler)...) if route != nil { // change the main handler's name in order to respect the controller's and give // a proper debug message. route.MainHandlerName = fmt.Sprintf("%s.%s", c.FullName, funcName) } return route } // buildHandler has many many dublications but we do that to achieve the best // performance possible, to use the information we know // and calculate what is needed and what not in serve-time. func buildHandler(m reflect.Method, typ reflect.Type, initRef reflect.Value, structInjector *di.StructInjector, funcInjector *di.FuncInjector, funcIn []reflect.Type) context.Handler { var ( hasStructInjector = structInjector != nil && structInjector.Valid hasFuncInjector = funcInjector != nil && funcInjector.Valid implementsBase = isBaseController(typ) // we will make use of 'n' to make a slice of reflect.Value // to pass into if the function has input arguments that // are will being filled by the funcDependencies. n = len(funcIn) elemTyp = di.IndirectType(typ) ) // if it doesn't implement the base controller, // it may have struct injector and/or func injector. if !implementsBase { if !hasStructInjector { // if the controller doesn't have a struct injector // and the controller's fields are empty // then we don't need a new controller instance, we use the passed controller instance. if elemTyp.NumField() == 0 { if !hasFuncInjector { return func(ctx context.Context) { DispatchFuncResult(ctx, initRef.Method(m.Index).Call(emptyIn)) } } return func(ctx context.Context) { in := make([]reflect.Value, n, n) in[0] = initRef funcInjector.Inject(&in, reflect.ValueOf(ctx)) if ctx.IsStopped() { return } DispatchFuncResult(ctx, m.Func.Call(in)) } } // it has fields, so it's request-scoped, even without struct injector // it's safe to create a new controller on each request because the end-dev // may use the controller's fields for request-scoping, so they should be // zero on the next request. if !hasFuncInjector { return func(ctx context.Context) { DispatchFuncResult(ctx, reflect.New(elemTyp).Method(m.Index).Call(emptyIn)) } } return func(ctx context.Context) { in := make([]reflect.Value, n, n) in[0] = reflect.New(elemTyp) funcInjector.Inject(&in, reflect.ValueOf(ctx)) if ctx.IsStopped() { return } DispatchFuncResult(ctx, m.Func.Call(in)) } } // it has struct injector for sure and maybe a func injector. if !hasFuncInjector { return func(ctx context.Context) { ctrl := reflect.New(elemTyp) ctxValue := reflect.ValueOf(ctx) elem := ctrl.Elem() structInjector.InjectElem(elem, ctxValue) if ctx.IsStopped() { return } DispatchFuncResult(ctx, ctrl.Method(m.Index).Call(emptyIn)) } } // has struct injector and func injector. return func(ctx context.Context) { ctrl := reflect.New(elemTyp) ctxValue := reflect.ValueOf(ctx) elem := ctrl.Elem() structInjector.InjectElem(elem, ctxValue) if ctx.IsStopped() { return } in := make([]reflect.Value, n, n) in[0] = ctrl funcInjector.Inject(&in, ctxValue) if ctx.IsStopped() { return } DispatchFuncResult(ctx, m.Func.Call(in)) } } // if implements the base controller, // it may have struct injector and func injector as well. return func(ctx context.Context) { ctrl := reflect.New(elemTyp) if implementsBase { // the Interface(). is faster than MethodByName or pre-selected methods. b := ctrl.Interface().(BaseController) // init the request. b.BeginRequest(ctx) // if begin request stopped the execution. if ctx.IsStopped() { return } defer b.EndRequest(ctx) } if !hasStructInjector && !hasFuncInjector { DispatchFuncResult(ctx, ctrl.Method(m.Index).Call(emptyIn)) } else { ctxValue := reflect.ValueOf(ctx) if hasStructInjector { elem := ctrl.Elem() structInjector.InjectElem(elem, ctxValue) if ctx.IsStopped() { return } // we do this in order to reduce in := make... // if not func input binders, we execute the handler with empty input args. if !hasFuncInjector { DispatchFuncResult(ctx, ctrl.Method(m.Index).Call(emptyIn)) } } // otherwise, it has one or more valid input binders, // make the input and call the func using those. if hasFuncInjector { in := make([]reflect.Value, n, n) in[0] = ctrl funcInjector.Inject(&in, ctxValue) if ctx.IsStopped() { return } DispatchFuncResult(ctx, m.Func.Call(in)) } } } }