package router import ( "net/http" "os" "path" "strings" "time" "github.com/kataras/iris/context" "github.com/kataras/iris/core/errors" "github.com/kataras/iris/core/router/macro" ) const ( // MethodNone is a Virtual method // to store the "offline" routes. MethodNone = "NONE" ) var ( // AllMethods contains the valid http methods: // "GET", "POST", "PUT", "DELETE", "CONNECT", "HEAD", // "PATCH", "OPTIONS", "TRACE". AllMethods = [...]string{ "GET", "POST", "PUT", "DELETE", "CONNECT", "HEAD", "PATCH", "OPTIONS", "TRACE", } ) // repository passed to all parties(subrouters), it's the object witch keeps // all the routes. type repository struct { routes []*Route } func (r *repository) register(route *Route) { for _, r := range r.routes { if r.String() == route.String() { return // do not register any duplicates, the sooner the better. } } r.routes = append(r.routes, route) } func (r *repository) get(routeName string) *Route { for _, r := range r.routes { if r.Name == routeName { return r } } return nil } func (r *repository) getAll() []*Route { return r.routes } // APIBuilder the visible API for constructing the router // and child routers. type APIBuilder struct { // the api builder global macros registry macros *macro.Map // the api builder global handlers per status code registry (used for custom http errors) errorCodeHandlers *ErrorCodeHandlers // the api builder global routes repository routes *repository // the api builder global route path reverser object // used by the view engine but it can be used anywhere. reverser *RoutePathReverser // the api builder global errors, can be filled by the Subdomain, WildcardSubdomain, Handle... // the list of possible errors that can be // collected on the build state to log // to the end-user. reporter *errors.Reporter // the per-party handlers, order // of handlers registration matters. middleware context.Handlers // the global middleware handlers, order of call doesn't matters, order // of handlers registration matters. We need a secondary field for this // because `UseGlobal` registers handlers that should be executed // even before the `middleware` handlers, and in the same time keep the order // of handlers registration, so the same type of handlers are being called in order. beginGlobalHandlers context.Handlers // the per-party done handlers, order matters. doneHandlers context.Handlers // global done handlers, order doesn't matter doneGlobalHandlers context.Handlers // the per-party relativePath string // allowMethods are filled with the `AllowMethods` func. // They are used to create new routes // per any party's (and its children) routes registered // if the method "x" wasn't registered already via the `Handle` (and its extensions like `Get`, `Post`...). allowMethods []string } var _ Party = (*APIBuilder)(nil) var _ RoutesProvider = (*APIBuilder)(nil) // passed to the default request handler (routerHandler) // NewAPIBuilder creates & returns a new builder // which is responsible to build the API and the router handler. func NewAPIBuilder() *APIBuilder { api := &APIBuilder{ macros: defaultMacros(), errorCodeHandlers: defaultErrorCodeHandlers(), reporter: errors.NewReporter(), relativePath: "/", routes: new(repository), } return api } // GetRelPath returns the current party's relative path. // i.e: // if r := app.Party("/users"), then the `r.GetRelPath()` is the "/users". // if r := app.Party("www.") or app.Subdomain("www") then the `r.GetRelPath()` is the "www.". func (api *APIBuilder) GetRelPath() string { return api.relativePath } // GetReport returns an error may caused by party's methods. func (api *APIBuilder) GetReport() error { return api.reporter.Return() } // GetReporter returns the reporter for adding errors func (api *APIBuilder) GetReporter() *errors.Reporter { return api.reporter } // AllowMethods will re-register the future routes that will be registered // via `Handle`, `Get`, `Post`, ... to the given "methods" on that Party and its children "Parties", // duplicates are not registered. // // Call of `AllowMethod` will override any previous allow methods. func (api *APIBuilder) AllowMethods(methods ...string) Party { api.allowMethods = methods return api } // Handle registers a route to the server's api. // if empty method is passed then handler(s) are being registered to all methods, same as .Any. // // Returns a *Route, app will throw any errors later on. func (api *APIBuilder) Handle(method string, relativePath string, handlers ...context.Handler) *Route { // if relativePath[0] != '/' { // return nil, errors.New("path should start with slash and should not be empty") // } if method == "" || method == "ALL" || method == "ANY" { // then use like it was .Any return api.Any(relativePath, handlers...)[0] } // no clean path yet because of subdomain indicator/separator which contains a dot. // but remove the first slash if the relative has already ending with a slash // it's not needed because later on we do normalize/clean the path, but better do it here too // for any future updates. if api.relativePath[len(api.relativePath)-1] == '/' { if relativePath[0] == '/' { relativePath = relativePath[1:] } } fullpath := api.relativePath + relativePath // for now, keep the last "/" if any, "/xyz/" if len(handlers) == 0 { api.reporter.Add("missing handlers for route %s: %s", method, fullpath) return nil } // before join the middleware + handlers + done handlers. possibleMainHandlerName := context.HandlerName(handlers[0]) // global begin handlers -> middleware that are registered before route registration // -> handlers that are passed to this Handle function. routeHandlers := joinHandlers(api.middleware, handlers) // -> done handlers routeHandlers = joinHandlers(routeHandlers, api.doneHandlers) // here we separate the subdomain and relative path subdomain, path := splitSubdomainAndPath(fullpath) // if allowMethods are empty, then simply register with the passed, main, method. methods := append(api.allowMethods, method) var ( route *Route // the latest one is this route registered, see methods append. err error // not used outside of loop scope. ) for _, m := range methods { route, err = NewRoute(m, subdomain, path, possibleMainHandlerName, routeHandlers, api.macros) if err != nil { // template path parser errors: api.reporter.Add("%v -> %s:%s:%s", err, method, subdomain, path) return nil // fail on first error. } // Add UseGlobal & DoneGlobal Handlers route.use(api.beginGlobalHandlers) route.done(api.doneGlobalHandlers) // global api.routes.register(route) } return route } // HandleMany works like `Handle` but can receive more than one // paths separated by spaces and returns always a slice of *Route instead of a single instance of Route. // // It's useful only if the same handler can handle more than one request paths, // otherwise use `Party` which can handle many paths with different handlers and middlewares. // // Usage: // app.HandleMany("GET", "/user /user/{id:int} /user/me", genericUserHandler) // At the other side, with `Handle` we've had to write: // app.Handle("GET", "/user", userHandler) // app.Handle("GET", "/user/{id:int}", userByIDHandler) // app.Handle("GET", "/user/me", userMeHandler) // // This method is used behind the scenes at the `Controller` function // in order to handle more than one paths for the same controller instance. func (api *APIBuilder) HandleMany(methodOrMulti string, relativePathorMulti string, handlers ...context.Handler) (routes []*Route) { // at least slash // a space // at least one other slash for the next path paths := splitPath(relativePathorMulti) methods := splitMethod(methodOrMulti) for _, p := range paths { if p != "" { for _, method := range methods { if method == "" { method = "ANY" } if method == "ANY" || method == "ALL" { routes = append(routes, api.Any(p, handlers...)...) continue } routes = append(routes, api.Handle(method, p, handlers...)) } } } return } // Party groups routes which may have the same prefix and share same handlers, // returns that new rich subrouter. // // You can even declare a subdomain with relativePath as "mysub." or see `Subdomain`. func (api *APIBuilder) Party(relativePath string, handlers ...context.Handler) Party { parentPath := api.relativePath dot := string(SubdomainPrefix[0]) if len(parentPath) > 0 && parentPath[0] == '/' && strings.HasSuffix(relativePath, dot) { // if ends with . , i.e admin., it's subdomain-> parentPath = parentPath[1:] // remove first slash } // this is checked later on but for easier debug is better to do it here: if api.relativePath[len(api.relativePath)-1] == '/' && relativePath[0] == '/' { relativePath = relativePath[1:] // remove first slash if parent ended with / and new one started with /. } // if it's subdomain then it has priority, i.e: // api.relativePath == "admin." // relativePath == "panel." // then it should be panel.admin. // instead of admin.panel. if hasSubdomain(parentPath) && hasSubdomain(relativePath) { relativePath = relativePath + parentPath parentPath = "" } fullpath := parentPath + relativePath // append the parent's + child's handlers middleware := joinHandlers(api.middleware, handlers) // the allow methods per party and its children. allowMethods := make([]string, len(api.allowMethods)) copy(allowMethods, api.allowMethods) return &APIBuilder{ // global/api builder macros: api.macros, routes: api.routes, errorCodeHandlers: api.errorCodeHandlers, beginGlobalHandlers: api.beginGlobalHandlers, doneGlobalHandlers: api.doneGlobalHandlers, reporter: api.reporter, // per-party/children middleware: middleware, doneHandlers: api.doneHandlers[0:], relativePath: fullpath, allowMethods: allowMethods, } } // PartyFunc same as `Party`, groups routes that share a base path or/and same handlers. // However this function accepts a function that receives this created Party instead. // Returns the Party in order the caller to be able to use this created Party to continue the // top-bottom routes "tree". // // Note: `iris#Party` and `core/router#Party` describes the exactly same interface. // // Usage: // app.PartyFunc("/users", func(u iris.Party){ // u.Use(authMiddleware, logMiddleware) // u.Get("/", getAllUsers) // u.Post("/", createOrUpdateUser) // u.Delete("/", deleteUser) // }) // // Look `Party` for more. func (api *APIBuilder) PartyFunc(relativePath string, partyBuilderFunc func(p Party)) Party { p := api.Party(relativePath) partyBuilderFunc(p) return p } // Subdomain returns a new party which is responsible to register routes to // this specific "subdomain". // // If called from a child party then the subdomain will be prepended to the path instead of appended. // So if app.Subdomain("admin").Subdomain("panel") then the result is: "panel.admin.". func (api *APIBuilder) Subdomain(subdomain string, middleware ...context.Handler) Party { if api.relativePath == SubdomainWildcardIndicator { // cannot concat wildcard subdomain with something else api.reporter.Add("cannot concat parent wildcard subdomain with anything else -> %s , %s", api.relativePath, subdomain) return api } if l := len(subdomain); l < 1 { return api } else if subdomain[l-1] != '.' { subdomain += "." } return api.Party(subdomain, middleware...) } // WildcardSubdomain returns a new party which is responsible to register routes to // a dynamic, wildcard(ed) subdomain. A dynamic subdomain is a subdomain which // can reply to any subdomain requests. Server will accept any subdomain // (if not static subdomain found) and it will search and execute the handlers of this party. func (api *APIBuilder) WildcardSubdomain(middleware ...context.Handler) Party { if hasSubdomain(api.relativePath) { // cannot concat static subdomain with a dynamic one, wildcard should be at the root level api.reporter.Add("cannot concat static subdomain with a dynamic one. Dynamic subdomains should be at the root level -> %s", api.relativePath) return api } return api.Subdomain(SubdomainWildcardIndicator, middleware...) } // Macros returns the macro map which is responsible // to register custom macro functions for all routes. // // Learn more at: https://github.com/kataras/iris/tree/master/_examples/routing/dynamic-path func (api *APIBuilder) Macros() *macro.Map { return api.macros } // GetRoutes returns the routes information, // some of them can be changed at runtime some others not. // // Needs refresh of the router to Method or Path or Handlers changes to take place. func (api *APIBuilder) GetRoutes() []*Route { return api.routes.getAll() } // GetRoute returns the registered route based on its name, otherwise nil. // One note: "routeName" should be case-sensitive. func (api *APIBuilder) GetRoute(routeName string) *Route { return api.routes.get(routeName) } // GetRouteReadOnly returns the registered "read-only" route based on its name, otherwise nil. // One note: "routeName" should be case-sensitive. Used by the context to get the current route. // It returns an interface instead to reduce wrong usage and to keep the decoupled design between // the context and the routes. // // Look `GetRoute` for more. func (api *APIBuilder) GetRouteReadOnly(routeName string) context.RouteReadOnly { r := api.GetRoute(routeName) if r == nil { return nil } return routeReadOnlyWrapper{r} } // Use appends Handler(s) to the current Party's routes and child routes. // If the current Party is the root, then it registers the middleware to all child Parties' routes too. // // Call order matters, it should be called right before the routes that they care about these handlers. // // If it's called after the routes then these handlers will never be executed. // Use `UseGlobal` if you want to register begin handlers(middleware) // that should be always run before all application's routes. func (api *APIBuilder) Use(handlers ...context.Handler) { api.middleware = append(api.middleware, handlers...) } // UseGlobal registers handlers that should run at the very beginning. // It prepends those handler(s) to all routes, // including all parties, subdomains. // It doesn't care about call order, it will prepend the handlers to all // existing routes and the future routes that may being registered. // // The difference from `.DoneGLobal` is that this/or these Handler(s) are being always running first. // Use of `ctx.Next()` of those handler(s) is necessary to call the main handler or the next middleware. // It's always a good practise to call it right before the `Application#Run` function. func (api *APIBuilder) UseGlobal(handlers ...context.Handler) { for _, r := range api.routes.routes { r.use(handlers) // prepend the handlers to the existing routes } // set as begin handlers for the next routes as well. api.beginGlobalHandlers = append(api.beginGlobalHandlers, handlers...) } // Done appends to the very end, Handler(s) to the current Party's routes and child routes. // // Call order matters, it should be called right before the routes that they care about these handlers. // // The difference from .Use is that this/or these Handler(s) are being always running last. func (api *APIBuilder) Done(handlers ...context.Handler) { api.doneHandlers = append(api.doneHandlers, handlers...) } // DoneGlobal registers handlers that should run at the very end. // It appends those handler(s) to all routes, // including all parties, subdomains. // It doesn't care about call order, it will append the handlers to all // existing routes and the future routes that may being registered. // // The difference from `.UseGlobal` is that this/or these Handler(s) are being always running last. // Use of `ctx.Next()` at the previous handler is necessary. // It's always a good practise to call it right before the `Application#Run` function. func (api *APIBuilder) DoneGlobal(handlers ...context.Handler) { for _, r := range api.routes.routes { r.done(handlers) // append the handlers to the existing routes } // set as done handlers for the next routes as well. api.doneGlobalHandlers = append(api.doneGlobalHandlers, handlers...) } // Reset removes all the begin and done handlers that may derived from the parent party via `Use` & `Done`, // note that the `Reset` will not reset the handlers that are registered via `UseGlobal` & `DoneGlobal`. // // Returns this Party. func (api *APIBuilder) Reset() Party { api.middleware = api.middleware[0:0] api.doneHandlers = api.doneHandlers[0:0] return api } // None registers an "offline" route // see context.ExecRoute(routeName) and // party.Routes().Online(handleResultRouteInfo, "GET") and // Offline(handleResultRouteInfo) // // Returns a *Route and an error which will be filled if route wasn't registered successfully. func (api *APIBuilder) None(relativePath string, handlers ...context.Handler) *Route { return api.Handle(MethodNone, relativePath, handlers...) } // Get registers a route for the Get http method. // // Returns a *Route and an error which will be filled if route wasn't registered successfully. func (api *APIBuilder) Get(relativePath string, handlers ...context.Handler) *Route { return api.Handle(http.MethodGet, relativePath, handlers...) } // Post registers a route for the Post http method. // // Returns a *Route and an error which will be filled if route wasn't registered successfully. func (api *APIBuilder) Post(relativePath string, handlers ...context.Handler) *Route { return api.Handle(http.MethodPost, relativePath, handlers...) } // Put registers a route for the Put http method. // // Returns a *Route and an error which will be filled if route wasn't registered successfully. func (api *APIBuilder) Put(relativePath string, handlers ...context.Handler) *Route { return api.Handle(http.MethodPut, relativePath, handlers...) } // Delete registers a route for the Delete http method. // // Returns a *Route and an error which will be filled if route wasn't registered successfully. func (api *APIBuilder) Delete(relativePath string, handlers ...context.Handler) *Route { return api.Handle(http.MethodDelete, relativePath, handlers...) } // Connect registers a route for the Connect http method. // // Returns a *Route and an error which will be filled if route wasn't registered successfully. func (api *APIBuilder) Connect(relativePath string, handlers ...context.Handler) *Route { return api.Handle(http.MethodConnect, relativePath, handlers...) } // Head registers a route for the Head http method. // // Returns a *Route and an error which will be filled if route wasn't registered successfully. func (api *APIBuilder) Head(relativePath string, handlers ...context.Handler) *Route { return api.Handle(http.MethodHead, relativePath, handlers...) } // Options registers a route for the Options http method. // // Returns a *Route and an error which will be filled if route wasn't registered successfully. func (api *APIBuilder) Options(relativePath string, handlers ...context.Handler) *Route { return api.Handle(http.MethodOptions, relativePath, handlers...) } // Patch registers a route for the Patch http method. // // Returns a *Route and an error which will be filled if route wasn't registered successfully. func (api *APIBuilder) Patch(relativePath string, handlers ...context.Handler) *Route { return api.Handle(http.MethodPatch, relativePath, handlers...) } // Trace registers a route for the Trace http method. // // Returns a *Route and an error which will be filled if route wasn't registered successfully. func (api *APIBuilder) Trace(relativePath string, handlers ...context.Handler) *Route { return api.Handle(http.MethodTrace, relativePath, handlers...) } // Any registers a route for ALL of the http methods // (Get,Post,Put,Head,Patch,Options,Connect,Delete). func (api *APIBuilder) Any(relativePath string, handlers ...context.Handler) (routes []*Route) { for _, m := range AllMethods { r := api.HandleMany(m, relativePath, handlers...) routes = append(routes, r...) } return } // StaticCacheDuration expiration duration for INACTIVE file handlers, it's the only one global configuration // which can be changed. var StaticCacheDuration = 20 * time.Second const ( lastModifiedHeaderKey = "Last-Modified" ifModifiedSinceHeaderKey = "If-Modified-Since" contentDispositionHeaderKey = "Content-Disposition" cacheControlHeaderKey = "Cache-Control" contentEncodingHeaderKey = "Content-Encoding" acceptEncodingHeaderKey = "Accept-Encoding" // contentLengthHeaderKey represents the header["Content-Length"] contentLengthHeaderKey = "Content-Length" contentTypeHeaderKey = "Content-Type" varyHeaderKey = "Vary" ) func (api *APIBuilder) registerResourceRoute(reqPath string, h context.Handler) *Route { api.Head(reqPath, h) return api.Get(reqPath, h) } // StaticHandler returns a new Handler which is ready // to serve all kind of static files. // // Note: // The only difference from package-level `StaticHandler` // is that this `StaticHandler`` receives a request path which // is appended to the party's relative path and stripped here. // // Usage: // app := iris.New() // ... // mySubdomainFsServer := app.Party("mysubdomain.") // h := mySubdomainFsServer.StaticHandler("./static_files", false, false) // /* http://mysubdomain.mydomain.com/static/css/style.css */ // mySubdomainFsServer.Get("/static", h) // ... // func (api *APIBuilder) StaticHandler(systemPath string, showList bool, gzip bool) context.Handler { // Note: this doesn't need to be here but we'll keep it for consistently return StaticHandler(systemPath, showList, gzip) } // StaticServe serves a directory as web resource. // Same as `StaticWeb`. // DEPRECATED; use `StaticWeb` or `StaticHandler` (for more options) instead. func (api *APIBuilder) StaticServe(systemPath string, requestPath ...string) *Route { var reqPath string if len(requestPath) == 0 { reqPath = strings.Replace(systemPath, string(os.PathSeparator), "/", -1) // replaces any \ to / reqPath = strings.Replace(reqPath, "//", "/", -1) // for any case, replaces // to / reqPath = strings.Replace(reqPath, ".", "", -1) // replace any dots (./mypath -> /mypath) } else { reqPath = requestPath[0] } return api.StaticWeb(reqPath, systemPath) } // StaticContent registers a GET and HEAD method routes to the requestPath // that are ready to serve raw static bytes, memory cached. // // Returns the GET *Route. func (api *APIBuilder) StaticContent(reqPath string, cType string, content []byte) *Route { modtime := time.Now() h := func(ctx context.Context) { ctx.ContentType(cType) if _, err := ctx.WriteWithExpiration(content, modtime); err != nil { ctx.StatusCode(http.StatusInternalServerError) // ctx.Application().Logger().Infof("error while serving []byte via StaticContent: %s", err.Error()) } } return api.registerResourceRoute(reqPath, h) } // StaticEmbedded used when files are distributed inside the app executable, using go-bindata mostly // First parameter is the request path, the path which the files in the vdir will be served to, for example "/static" // Second parameter is the (virtual) directory path, for example "./assets" (no trailing slash), // Third parameter is the Asset function // Forth parameter is the AssetNames function. // // Returns the GET *Route. // // Example: https://github.com/kataras/iris/tree/master/_examples/file-server/embedding-files-into-app func (api *APIBuilder) StaticEmbedded(requestPath string, vdir string, assetFn func(name string) ([]byte, error), namesFn func() []string) *Route { return api.staticEmbedded(requestPath, vdir, assetFn, namesFn, false) } // StaticEmbeddedGzip registers a route which can serve embedded gziped files // that are embedded using the https://github.com/kataras/bindata tool and only. // It's 8 times faster than the `StaticEmbeddedHandler` with `go-bindata` but // it sends gzip response only, so the client must be aware that is expecting a gzip body // (browsers and most modern browsers do that, so you can use it without fair). // // First parameter is the request path, the path which the files in the vdir will be served to, for example "/static" // Second parameter is the (virtual) directory path, for example "./assets" (no trailing slash), // Third parameter is the GzipAsset function // Forth parameter is the GzipAssetNames function. // // Example: https://github.com/kataras/iris/tree/master/_examples/file-server/embedding-gziped-files-into-app func (api *APIBuilder) StaticEmbeddedGzip(requestPath string, vdir string, gzipAssetFn func(name string) ([]byte, error), gzipNamesFn func() []string) *Route { return api.staticEmbedded(requestPath, vdir, gzipAssetFn, gzipNamesFn, true) } // look fs.go#StaticEmbeddedHandler func (api *APIBuilder) staticEmbedded(requestPath string, vdir string, assetFn func(name string) ([]byte, error), namesFn func() []string, assetsGziped bool) *Route { fullpath := joinPath(api.relativePath, requestPath) // if subdomain, // here we get the full path of the path only, // because a subdomain can have parties as well // and we need that path to call the `StripPrefix`. _, fullpath = splitSubdomainAndPath(fullpath) paramName := "file" requestPath = joinPath(requestPath, WildcardParam(paramName)) h := StaticEmbeddedHandler(vdir, assetFn, namesFn, assetsGziped) if fullpath != "/" { h = StripPrefix(fullpath, h) } // it handles the subdomain(root Party) of this party as well, if any. return api.registerResourceRoute(requestPath, h) } // errDirectoryFileNotFound returns an error with message: 'Directory or file %s couldn't found. Trace: +error trace' var errDirectoryFileNotFound = errors.New("Directory or file %s couldn't found. Trace: %s") // Favicon serves static favicon // accepts 2 parameters, second is optional // favPath (string), declare the system directory path of the __.ico // requestPath (string), it's the route's path, by default this is the "/favicon.ico" because some browsers tries to get this by default first, // you can declare your own path if you have more than one favicon (desktop, mobile and so on) // // this func will add a route for you which will static serve the /yuorpath/yourfile.ico to the /yourfile.ico // (nothing special that you can't handle by yourself). // Note that you have to call it on every favicon you have to serve automatically (desktop, mobile and so on). // // Returns the GET *Route. func (api *APIBuilder) Favicon(favPath string, requestPath ...string) *Route { favPath = Abs(favPath) f, err := os.Open(favPath) if err != nil { api.reporter.AddErr(errDirectoryFileNotFound.Format(favPath, err.Error())) return nil } defer f.Close() fi, _ := f.Stat() if fi.IsDir() { // if it's dir the try to get the favicon.ico return api.Favicon(path.Join(favPath, "favicon.ico")) } // copy the bytes here in order to cache and not read the ico on each request. cacheFav := make([]byte, fi.Size()) if _, err = f.Read(cacheFav); err != nil { // Here we are before actually run the server. // So we could panic but we don't, // we just interrupt with a message // to the (user-defined) logger. api.reporter.AddErr(errDirectoryFileNotFound. Format(favPath, "favicon: couldn't read the data bytes for file: "+err.Error())) return nil } modtime := time.Now() cType := TypeByFilename(favPath) h := func(ctx context.Context) { ctx.ContentType(cType) if _, err := ctx.WriteWithExpiration(cacheFav, modtime); err != nil { ctx.StatusCode(http.StatusInternalServerError) ctx.Application().Logger().Debugf("while trying to serve the favicon: %s", err.Error()) } } reqPath := "/favicon" + path.Ext(fi.Name()) // we could use the filename, but because standards is /favicon.ico if len(requestPath) > 0 && requestPath[0] != "" { reqPath = requestPath[0] } return api.registerResourceRoute(reqPath, h) } // StaticWeb returns a handler that serves HTTP requests // with the contents of the file system rooted at directory. // // first parameter: the route path // second parameter: the system directory // // for more options look router.StaticHandler. // // api.StaticWeb("/static", "./static") // // As a special case, the returned file server redirects any request // ending in "/index.html" to the same path, without the final // "index.html". // // StaticWeb calls the `StripPrefix(fullpath, NewStaticHandlerBuilder(systemPath).Listing(false).Build())`. // // Returns the GET *Route. func (api *APIBuilder) StaticWeb(requestPath string, systemPath string) *Route { fullpath := joinPath(api.relativePath, requestPath) // if subdomain, // here we get the full path of the path only, // because a subdomain can have parties as well // and we need that path to call the `StripPrefix`. _, fullpath = splitSubdomainAndPath(fullpath) paramName := "file" requestPath = joinPath(requestPath, WildcardParam(paramName)) h := NewStaticHandlerBuilder(systemPath).Listing(false).Build() if fullpath != "/" { h = StripPrefix(fullpath, h) } // it handles the subdomain(root Party) of this party as well, if any. return api.registerResourceRoute(requestPath, h) } // OnErrorCode registers an error http status code // based on the "statusCode" < 200 || >= 400 (came from `context.StatusCodeNotSuccessful`). // The handler is being wrapepd by a generic // handler which will try to reset // the body if recorder was enabled // and/or disable the gzip if gzip response recorder // was active. func (api *APIBuilder) OnErrorCode(statusCode int, handlers ...context.Handler) { if len(api.beginGlobalHandlers) > 0 { handlers = joinHandlers(api.beginGlobalHandlers, handlers) } api.errorCodeHandlers.Register(statusCode, handlers...) } // OnAnyErrorCode registers a handler which called when error status code written. // Same as `OnErrorCode` but registers all http error codes based on the `context.StatusCodeNotSuccessful` // which defaults to < 200 || >= 400 for an error code, any previous error code will be overridden, // so call it first if you want to use any custom handler for a specific error status code. // // Read more at: http://www.iana.org/assignments/http-status-codes/http-status-codes.xhtml func (api *APIBuilder) OnAnyErrorCode(handlers ...context.Handler) { for code := 100; code <= 511; code++ { if context.StatusCodeNotSuccessful(code) { api.OnErrorCode(code, handlers...) } } } // FireErrorCode executes an error http status code handler // based on the context's status code. // // If a handler is not already registered, // then it creates & registers a new trivial handler on the-fly. func (api *APIBuilder) FireErrorCode(ctx context.Context) { api.errorCodeHandlers.Fire(ctx) } // Layout overrides the parent template layout with a more specific layout for this Party. // It returns the current Party. // // The "tmplLayoutFile" should be a relative path to the templates dir. // Usage: // // app := iris.New() // app.RegisterView(iris.$VIEW_ENGINE("./views", ".$extension")) // my := app.Party("/my").Layout("layouts/mylayout.html") // my.Get("/", func(ctx iris.Context) { // ctx.View("page1.html") // }) // // Examples: https://github.com/kataras/iris/tree/master/_examples/view func (api *APIBuilder) Layout(tmplLayoutFile string) Party { api.Use(func(ctx context.Context) { ctx.ViewLayout(tmplLayoutFile) ctx.Next() }) return api } // joinHandlers uses to create a copy of all Handlers and return them in order to use inside the node func joinHandlers(h1 context.Handlers, h2 context.Handlers) context.Handlers { nowLen := len(h1) totalLen := nowLen + len(h2) // create a new slice of Handlers in order to merge the "h1" and "h2" newHandlers := make(context.Handlers, totalLen) // copy the already Handlers to the just created copy(newHandlers, h1) // start from there we finish, and store the new Handlers too copy(newHandlers[nowLen:], h2) return newHandlers }