Documentation ¶
Index ¶
- Constants
- Variables
- func Abs(path string) string
- func DirectoryExists(dir string) bool
- func NewWrapper(...) http.Handler
- func Param(name string) string
- func StaticEmbeddedHandler(vdir string, assetFn func(name string) ([]byte, error), ...) context.Handler
- func StaticHandler(systemPath string, showList bool, gzip bool) context.Handler
- func StripPrefix(prefix string, h context.Handler) context.Handler
- func TypeByExtension(ext string) (typ string)
- func TypeByFilename(fullFilename string) string
- func WildcardParam(name string) string
- type APIBuilder
- func (api *APIBuilder) Any(relativePath string, handlers ...context.Handler) (routes []*Route)
- func (api *APIBuilder) Connect(relativePath string, handlers ...context.Handler) *Route
- func (api *APIBuilder) Controller(relativePath string, controller activator.BaseController, ...) (routes []*Route)
- func (api *APIBuilder) Delete(relativePath string, handlers ...context.Handler) *Route
- func (api *APIBuilder) Done(handlers ...context.Handler)
- func (api *APIBuilder) Favicon(favPath string, requestPath ...string) *Route
- func (api *APIBuilder) FireErrorCode(ctx context.Context)
- func (api *APIBuilder) Get(relativePath string, handlers ...context.Handler) *Route
- func (api *APIBuilder) GetReport() error
- func (api *APIBuilder) GetReporter() *errors.Reporter
- func (api *APIBuilder) GetRoute(routeName string) *Route
- func (api *APIBuilder) GetRouteReadOnly(routeName string) context.RouteReadOnly
- func (api *APIBuilder) GetRoutes() []*Route
- func (api *APIBuilder) Handle(method string, relativePath string, handlers ...context.Handler) *Route
- func (api *APIBuilder) HandleMany(methodOrMulti string, relativePathorMulti string, handlers ...context.Handler) (routes []*Route)
- func (api *APIBuilder) Head(relativePath string, handlers ...context.Handler) *Route
- func (api *APIBuilder) Layout(tmplLayoutFile string) Party
- func (api *APIBuilder) Macros() *macro.Map
- func (api *APIBuilder) None(relativePath string, handlers ...context.Handler) *Route
- func (api *APIBuilder) OnAnyErrorCode(handlers ...context.Handler)
- func (api *APIBuilder) OnErrorCode(statusCode int, handlers ...context.Handler)
- func (api *APIBuilder) Options(relativePath string, handlers ...context.Handler) *Route
- func (api *APIBuilder) Party(relativePath string, handlers ...context.Handler) Party
- func (api *APIBuilder) PartyFunc(relativePath string, partyBuilderFunc func(p Party)) Party
- func (api *APIBuilder) Patch(relativePath string, handlers ...context.Handler) *Route
- func (api *APIBuilder) Post(relativePath string, handlers ...context.Handler) *Route
- func (api *APIBuilder) Put(relativePath string, handlers ...context.Handler) *Route
- func (api *APIBuilder) StaticContent(reqPath string, cType string, content []byte) *Route
- func (api *APIBuilder) StaticEmbedded(requestPath string, vdir string, assetFn func(name string) ([]byte, error), ...) *Route
- func (api *APIBuilder) StaticEmbeddedHandler(vdir string, assetFn func(name string) ([]byte, error), ...) context.Handler
- func (api *APIBuilder) StaticHandler(systemPath string, showList bool, gzip bool) context.Handler
- func (api *APIBuilder) StaticServe(systemPath string, requestPath ...string) *Route
- func (api *APIBuilder) StaticWeb(requestPath string, systemPath string) *Route
- func (api *APIBuilder) Subdomain(subdomain string, middleware ...context.Handler) Party
- func (api *APIBuilder) Trace(relativePath string, handlers ...context.Handler) *Route
- func (api *APIBuilder) Use(handlers ...context.Handler)
- func (api *APIBuilder) UseGlobal(handlers ...context.Handler)
- func (api *APIBuilder) WildcardSubdomain(middleware ...context.Handler) Party
- type AssetValidator
- type ErrorCodeHandler
- type ErrorCodeHandlers
- type Party
- type RequestHandler
- type Route
- type RoutePathReverser
- type RoutePathReverserOption
- type Router
- func (router *Router) BuildRouter(cPool *context.Pool, requestHandler RequestHandler, ...) error
- func (router *Router) Downgrade(newMainHandler http.HandlerFunc)
- func (router *Router) Downgraded() bool
- func (router *Router) RefreshRouter() error
- func (router *Router) ServeHTTP(w http.ResponseWriter, r *http.Request)
- func (router *Router) ServeHTTPC(ctx context.Context)
- func (router *Router) WrapRouter(wrapperFunc WrapperFunc)
- type RoutesProvider
- type SPABuilder
- type StaticHandlerBuilder
- type WrapperFunc
Constants ¶
const ( // ParamStart the character in string representation where the underline router starts its dynamic named parameter. ParamStart = ":" // WildcardParamStart the character in string representation where the underline router starts its dynamic wildcard // path parameter. WildcardParamStart = "*" )
const ( // SubdomainWildcardIndicator where a registered path starts with '*.'. // if subdomain == "*." then its wildcard. // // used internally by router and api builder. SubdomainWildcardIndicator = "*." // SubdomainWildcardPrefix where a registered path starts with "*./", // then this route should accept any subdomain. SubdomainWildcardPrefix = SubdomainWildcardIndicator + "/" // SubdomainPrefix where './' exists in a registered path then it contains subdomain // // used on api builder. SubdomainPrefix = "./" // i.e subdomain./ -> Subdomain: subdomain. Path: / )
const ( // MethodNone is a Virtual method // to store the "offline" routes. MethodNone = "NONE" )
Variables ¶
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", } )
var StaticCacheDuration = 20 * time.Second
StaticCacheDuration expiration duration for INACTIVE file handlers, it's the only one global configuration which can be changed.
Functions ¶
func Abs ¶
Abs calls filepath.Abs but ignores the error and returns the original value if any error occurred.
func DirectoryExists ¶
DirectoryExists returns true if a directory(or file) exists, otherwise false
func NewWrapper ¶
func NewWrapper(wrapperFunc func(w http.ResponseWriter, r *http.Request, routerNext http.HandlerFunc), wrapped http.HandlerFunc) http.Handler
NewWrapper returns a new http.Handler wrapped by the 'wrapperFunc' the "next" is the final "wrapped" input parameter.
Application is responsible to make it to work on more than one wrappers via composition or func clojure.
func StaticEmbeddedHandler ¶
func StaticEmbeddedHandler(vdir string, assetFn func(name string) ([]byte, error), namesFn func() []string) context.Handler
StaticEmbeddedHandler returns a Handler which can serve embedded into executable files.
Examples: https://github.com/kataras/iris/tree/master/_examples/file-server
func StaticHandler ¶
StaticHandler returns a new Handler which is ready to serve all kind of static files.
Developers can wrap this handler using the `router.StripPrefix` for a fixed static path when the result handler is being, finally, registered to a route.
Usage: app := iris.New() ... fileserver := iris.StaticHandler("./static_files", false, false) h := router.StripPrefix("/static", fileserver) /* http://mydomain.com/static/css/style.css */ app.Get("/static", h) ...
func StripPrefix ¶
StripPrefix returns a handler that serves HTTP requests by removing the given prefix from the request URL's Path and invoking the handler h. StripPrefix handles a request for a path that doesn't begin with prefix by replying with an HTTP 404 not found error.
Usage: fileserver := iris.StaticHandler("./static_files", false, false) h := router.StripPrefix("/static", fileserver) app.Get("/static", h)
func TypeByExtension ¶
TypeByExtension returns the MIME type associated with the file extension ext. The extension ext should begin with a leading dot, as in ".html". When ext has no associated type, typeByExtension returns "".
Extensions are looked up first case-sensitively, then case-insensitively.
The built-in table is small but on unix it is augmented by the local system's mime.types file(s) if available under one or more of these names:
/etc/mime.types /etc/apache2/mime.types /etc/apache/mime.types
On Windows, MIME types are extracted from the registry.
Text types have the charset parameter set to "utf-8" by default.
func TypeByFilename ¶
TypeByFilename same as TypeByExtension but receives a filename path instead.
func WildcardParam ¶
WildcardParam receives a parameter name prefixed with the WildcardParamStart symbol.
Types ¶
type APIBuilder ¶
type APIBuilder struct {
// contains filtered or unexported fields
}
APIBuilder the visible API for constructing the router and child routers.
func NewAPIBuilder ¶
func NewAPIBuilder() *APIBuilder
NewAPIBuilder creates & returns a new builder which is responsible to build the API and the router handler.
func (*APIBuilder) Any ¶
func (api *APIBuilder) Any(relativePath string, handlers ...context.Handler) (routes []*Route)
Any registers a route for ALL of the http methods (Get,Post,Put,Head,Patch,Options,Connect,Delete).
func (*APIBuilder) Connect ¶
func (api *APIBuilder) Connect(relativePath string, handlers ...context.Handler) *Route
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 (*APIBuilder) Controller ¶
func (api *APIBuilder) Controller(relativePath string, controller activator.BaseController, bindValues ...interface{}) (routes []*Route)
Controller registers a `Controller` instance and returns the registered Routes. The "controller" receiver should embed a field of `Controller` in order to be compatible Iris `Controller`.
It's just an alternative way of building an API for a specific path, the controller can register all type of http methods.
Keep note that controllers are bit slow because of the reflection use however it's as fast as possible because it does preparation before the serve-time handler but still remains slower than the low-level handlers such as `Handle, Get, Post, Put, Delete, Connect, Head, Trace, Patch`.
All fields that are tagged with iris:"persistence"` or binded are being persistence and kept the same between the different requests.
An Example Controller can be:
type IndexController struct { Controller }
func (c *IndexController) Get() { c.Tmpl = "index.html" c.Data["title"] = "Index page" c.Data["message"] = "Hello world!" }
Usage: app.Controller("/", new(IndexController))
Another example with bind:
type UserController struct { Controller DB *DB CreatedAt time.Time
}
// Get serves using the User controller when HTTP Method is "GET".
func (c *UserController) Get() { c.Tmpl = "user/index.html" c.Data["title"] = "User Page" c.Data["username"] = "kataras " + c.Params.Get("userid") c.Data["connstring"] = c.DB.Connstring c.Data["uptime"] = time.Now().Sub(c.CreatedAt).Seconds() }
Usage: app.Controller("/user/{id:int}", new(UserController), db, time.Now()) Note: Binded values of context.Handler type are being recognised as middlewares by the router.
Read more at `/mvc#Controller`.
func (*APIBuilder) Delete ¶
func (api *APIBuilder) Delete(relativePath string, handlers ...context.Handler) *Route
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 (*APIBuilder) Done ¶
func (api *APIBuilder) Done(handlers ...context.Handler)
Done appends to the very end, Handler(s) to the current Party's routes and child routes The difference from .Use is that this/or these Handler(s) are being always running last.
func (*APIBuilder) Favicon ¶
func (api *APIBuilder) Favicon(favPath string, requestPath ...string) *Route
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 (*APIBuilder) FireErrorCode ¶
func (api *APIBuilder) FireErrorCode(ctx context.Context)
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 (*APIBuilder) Get ¶
func (api *APIBuilder) Get(relativePath string, handlers ...context.Handler) *Route
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 (*APIBuilder) GetReport ¶
func (api *APIBuilder) GetReport() error
GetReport returns an error may caused by party's methods.
func (*APIBuilder) GetReporter ¶
func (api *APIBuilder) GetReporter() *errors.Reporter
GetReporter returns the reporter for adding errors
func (*APIBuilder) GetRoute ¶
func (api *APIBuilder) GetRoute(routeName string) *Route
GetRoute returns the registered route based on its name, otherwise nil. One note: "routeName" should be case-sensitive.
func (*APIBuilder) GetRouteReadOnly ¶
func (api *APIBuilder) GetRouteReadOnly(routeName string) context.RouteReadOnly
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 (*APIBuilder) GetRoutes ¶
func (api *APIBuilder) GetRoutes() []*Route
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 (*APIBuilder) Handle ¶
func (api *APIBuilder) Handle(method string, relativePath string, handlers ...context.Handler) *Route
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 (*APIBuilder) HandleMany ¶
func (api *APIBuilder) HandleMany(methodOrMulti string, relativePathorMulti string, handlers ...context.Handler) (routes []*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(iris.MethodGet, "/user /user/{id:int} /user/me", userHandler)
At the other side, with `Handle` we've had to write:
app.Handle(iris.MethodGet, "/user", userHandler) app.Handle(iris.MethodGet, "/user/{id:int}", userHandler) app.Handle(iris.MethodGet, "/user/me", userHandler)
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 (*APIBuilder) Head ¶
func (api *APIBuilder) Head(relativePath string, handlers ...context.Handler) *Route
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 (*APIBuilder) Layout ¶
func (api *APIBuilder) Layout(tmplLayoutFile string) Party
Layout oerrides the parent template layout with a more specific layout for this Party returns this Party, to continue as normal Usage: app := iris.New() my := app.Party("/my").Layout("layouts/mylayout.html")
{ my.Get("/", func(ctx context.Context) { ctx.MustRender("page1.html", nil) }) }
func (*APIBuilder) Macros ¶
func (api *APIBuilder) Macros() *macro.Map
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 (*APIBuilder) None ¶
func (api *APIBuilder) None(relativePath string, handlers ...context.Handler) *Route
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 (*APIBuilder) OnAnyErrorCode ¶
func (api *APIBuilder) OnAnyErrorCode(handlers ...context.Handler)
OnAnyErrorCode registers a handler which called when error status code written. Same as `OnErrorCode` but registers all http error codes. See: http://www.iana.org/assignments/http-status-codes/http-status-codes.xhtml
func (*APIBuilder) OnErrorCode ¶
func (api *APIBuilder) OnErrorCode(statusCode int, handlers ...context.Handler)
OnErrorCode registers an error http status code based on the "statusCode" >= 400. 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 (*APIBuilder) Options ¶
func (api *APIBuilder) Options(relativePath string, handlers ...context.Handler) *Route
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 (*APIBuilder) Party ¶
func (api *APIBuilder) Party(relativePath string, handlers ...context.Handler) Party
Party is just a group joiner of routes which have the same prefix and share same middleware(s) also. Party could also be named as 'Join' or 'Node' or 'Group' , Party chosen because it is fun.
func (*APIBuilder) PartyFunc ¶
func (api *APIBuilder) PartyFunc(relativePath string, partyBuilderFunc func(p Party)) Party
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 (*APIBuilder) Patch ¶
func (api *APIBuilder) Patch(relativePath string, handlers ...context.Handler) *Route
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 (*APIBuilder) Post ¶
func (api *APIBuilder) Post(relativePath string, handlers ...context.Handler) *Route
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 (*APIBuilder) Put ¶
func (api *APIBuilder) Put(relativePath string, handlers ...context.Handler) *Route
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 (*APIBuilder) StaticContent ¶
func (api *APIBuilder) StaticContent(reqPath string, cType string, content []byte) *Route
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 (*APIBuilder) StaticEmbedded ¶
func (api *APIBuilder) StaticEmbedded(requestPath string, vdir string, assetFn func(name string) ([]byte, error), namesFn func() []string) *Route
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" Third parameter is the Asset function Forth parameter is the AssetNames function.
Returns the GET *Route.
Examples: https://github.com/kataras/iris/tree/master/_examples/file-server
func (*APIBuilder) StaticEmbeddedHandler ¶
func (api *APIBuilder) StaticEmbeddedHandler(vdir string, assetFn func(name string) ([]byte, error), namesFn func() []string) context.Handler
StaticEmbeddedHandler returns a Handler which can serve embedded into executable files.
Examples: https://github.com/kataras/iris/tree/master/_examples/file-server
func (*APIBuilder) StaticHandler ¶
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 (*APIBuilder) StaticServe ¶
func (api *APIBuilder) StaticServe(systemPath string, requestPath ...string) *Route
StaticServe serves a directory as web resource. Same as `StaticWeb`. DEPRECATED; use `StaticWeb` or `StaticHandler` (for more options) instead.
func (*APIBuilder) StaticWeb ¶
func (api *APIBuilder) StaticWeb(requestPath string, systemPath string) *Route
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 (*APIBuilder) Subdomain ¶
func (api *APIBuilder) Subdomain(subdomain string, middleware ...context.Handler) Party
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 (*APIBuilder) Trace ¶
func (api *APIBuilder) Trace(relativePath string, handlers ...context.Handler) *Route
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 (*APIBuilder) Use ¶
func (api *APIBuilder) Use(handlers ...context.Handler)
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 (*APIBuilder) UseGlobal ¶
func (api *APIBuilder) UseGlobal(handlers ...context.Handler)
UseGlobal registers handlers that should run before all routes, including all parties, subdomains and other middleware that were registered before or will be after. It doesn't care about call order, it will prepend the handlers to all existing routes and the future routes that may being registered.
It's always a good practise to call it right before the `Application#Run` function.
func (*APIBuilder) WildcardSubdomain ¶
func (api *APIBuilder) WildcardSubdomain(middleware ...context.Handler) Party
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.
type AssetValidator ¶
AssetValidator returns true if "filename" is asset, i.e: strings.Contains(filename, ".").
type ErrorCodeHandler ¶
type ErrorCodeHandler struct { StatusCode int Handlers context.Handlers // contains filtered or unexported fields }
ErrorCodeHandler is the entry of the list of all http error code handlers.
func (*ErrorCodeHandler) Fire ¶
func (ch *ErrorCodeHandler) Fire(ctx context.Context)
Fire executes the specific an error http error status. it's being wrapped to make sure that the handler will render correctly.
type ErrorCodeHandlers ¶
type ErrorCodeHandlers struct {
// contains filtered or unexported fields
}
ErrorCodeHandlers contains the http error code handlers. User of this struct can register, get a status code handler based on a status code or fire based on a receiver context.
func (*ErrorCodeHandlers) Fire ¶
func (s *ErrorCodeHandlers) Fire(ctx context.Context)
Fire 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 (*ErrorCodeHandlers) Get ¶
func (s *ErrorCodeHandlers) Get(statusCode int) *ErrorCodeHandler
Get returns an http error handler based on the "statusCode". If not found it returns nil.
func (*ErrorCodeHandlers) Register ¶
func (s *ErrorCodeHandlers) Register(statusCode int, handlers ...context.Handler) *ErrorCodeHandler
Register registers an error http status code based on the "statusCode" >= 400. 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.
type Party ¶
type Party interface { // Party creates and returns a new child Party with the following features. Party(relativePath string, middleware ...context.Handler) Party // 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. PartyFunc(relativePath string, partyBuilderFunc func(p Party)) Party // 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.". Subdomain(subdomain string, middleware ...context.Handler) Party // 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. Use(middleware ...context.Handler) // Done appends to the very end, Handler(s) to the current Party's routes and child routes // The difference from .Use is that this/or these Handler(s) are being always running last. Done(handlers ...context.Handler) // Handle registers a route to the server's router. // if empty method is passed then handler(s) are being registered to all methods, same as .Any. // // Returns the read-only route information. Handle(method string, registeredPath string, handlers ...context.Handler) *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(iris.MethodGet, "/user /user/{id:int} /user/me", userHandler) // At the other side, with `Handle` we've had to write: // app.Handle(iris.MethodGet, "/user", userHandler) // app.Handle(iris.MethodGet, "/user/{id:int}", userHandler) // app.Handle(iris.MethodGet, "/user/me", userHandler) // // This method is used behind the scenes at the `Controller` function // in order to handle more than one paths for the same controller instance. HandleMany(method string, relativePath string, handlers ...context.Handler) []*Route // None registers an "offline" route // see context.ExecRoute(routeName) and // party.Routes().Online(handleResultregistry.*Route, "GET") and // Offline(handleResultregistry.*Route) // // Returns the read-only route information. None(path string, handlers ...context.Handler) *Route // Get registers a route for the Get http method. // // Returns the read-only route information. Get(path string, handlers ...context.Handler) *Route // Post registers a route for the Post http method. // // Returns the read-only route information. Post(path string, handlers ...context.Handler) *Route // Put registers a route for the Put http method. // // Returns the read-only route information. Put(path string, handlers ...context.Handler) *Route // Delete registers a route for the Delete http method. // // Returns the read-only route information. Delete(path string, handlers ...context.Handler) *Route // Connect registers a route for the Connect http method. // // Returns the read-only route information. Connect(path string, handlers ...context.Handler) *Route // Head registers a route for the Head http method. // // Returns the read-only route information. Head(path string, handlers ...context.Handler) *Route // Options registers a route for the Options http method. // // Returns the read-only route information. Options(path string, handlers ...context.Handler) *Route // Patch registers a route for the Patch http method. // // Returns the read-only route information. Patch(path string, handlers ...context.Handler) *Route // Trace registers a route for the Trace http method. // // Returns the read-only route information. Trace(path string, handlers ...context.Handler) *Route // Any registers a route for ALL of the http methods // (Get,Post,Put,Head,Patch,Options,Connect,Delete). Any(registeredPath string, handlers ...context.Handler) []*Route // Controller registers a `Controller` instance and returns the registered Routes. // The "controller" receiver should embed a field of `Controller` in order // to be compatible Iris `Controller`. // // It's just an alternative way of building an API for a specific // path, the controller can register all type of http methods. // // Keep note that controllers are bit slow // because of the reflection use however it's as fast as possible because // it does preparation before the serve-time handler but still // remains slower than the low-level handlers // such as `Handle, Get, Post, Put, Delete, Connect, Head, Trace, Patch`. // // // All fields that are tagged with iris:"persistence"` or binded // are being persistence and kept the same between the different requests. // // An Example Controller can be: // // type IndexController struct { // Controller // } // // func (c *IndexController) Get() { // c.Tmpl = "index.html" // c.Data["title"] = "Index page" // c.Data["message"] = "Hello world!" // } // // Usage: app.Controller("/", new(IndexController)) // // // Another example with bind: // // type UserController struct { // Controller // // DB *DB // CreatedAt time.Time // // } // // // Get serves using the User controller when HTTP Method is "GET". // func (c *UserController) Get() { // c.Tmpl = "user/index.html" // c.Data["title"] = "User Page" // c.Data["username"] = "kataras " + c.Params.Get("userid") // c.Data["connstring"] = c.DB.Connstring // c.Data["uptime"] = time.Now().Sub(c.CreatedAt).Seconds() // } // // Usage: app.Controller("/user/{id:int}", new(UserController), db, time.Now()) // Note: Binded values of context.Handler type are being recognised as middlewares by the router. // // Read more at `/mvc#Controller`. Controller(relativePath string, controller activator.BaseController, bindValues ...interface{}) []*Route // 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) // ... // StaticHandler(systemPath string, showList bool, gzip bool) context.Handler // StaticServe serves a directory as web resource // it's the simpliest form of the Static* functions // Almost same usage as StaticWeb // accepts only one required parameter which is the systemPath, // the same path will be used to register the GET and HEAD method routes. // If second parameter is empty, otherwise the requestPath is the second parameter // it uses gzip compression (compression on each request, no file cache). // // Returns the GET *Route. StaticServe(systemPath string, requestPath ...string) *Route // 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. StaticContent(requestPath string, cType string, content []byte) *Route // 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" // 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 StaticEmbedded(requestPath string, vdir string, assetFn func(name string) ([]byte, error), namesFn func() []string) *Route // 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. Favicon(favPath string, requestPath ...string) *Route // 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. // // router.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. StaticWeb(requestPath string, systemPath string) *Route // Layout oerrides the parent template layout with a more specific layout for this Party // returns this Party, to continue as normal // Usage: // app := iris.New() // my := app.Party("/my").Layout("layouts/mylayout.html") // { // my.Get("/", func(ctx context.Context) { // ctx.MustRender("page1.html", nil) // }) // } Layout(tmplLayoutFile string) Party }
Party is just a group joiner of routes which have the same prefix and share same middleware(s) also. Party could also be named as 'Join' or 'Node' or 'Group' , Party chosen because it is fun.
Look the "APIBuilder" for its implementation.
type RequestHandler ¶
type RequestHandler interface { // HandleRequest is same as context.Handler but its usage is only about routing, // separate the concept here. HandleRequest(context.Context) // Build should builds the handler, it's being called on router's BuildRouter. Build(provider RoutesProvider) error }
RequestHandler the middle man between acquiring a context and releasing it. By-default is the router algorithm.
func NewDefaultHandler ¶
func NewDefaultHandler() RequestHandler
NewDefaultHandler returns the handler which is responsible to map the request with a route (aka mux implementation).
type Route ¶
type Route struct { Name string // "userRoute" Method string // "GET" Subdomain string // "admin." Path string // "/api/user/:id" // Handlers are the main route's handlers, executed by order. // Cannot be empty. Handlers context.Handlers // FormattedPath all dynamic named parameters (if any) replaced with %v, // used by Application to validate param values of a Route based on its name. FormattedPath string // contains filtered or unexported fields }
Route contains the information about a registered Route. If any of the following fields are changed then the caller should Refresh the router.
func NewRoute ¶
func NewRoute(method, subdomain, unparsedPath, mainHandlerName string, handlers context.Handlers, macros *macro.Map) (*Route, error)
NewRoute returns a new route based on its method, subdomain, the path (unparsed or original), handlers and the macro container which all routes should share. It parses the path based on the "macros", handlers are being changed to validate the macros at serve time, if needed.
func (*Route) BuildHandlers ¶
func (r *Route) BuildHandlers()
BuildHandlers is executed automatically by the router handler at the `Application#Build` state. Do not call it manually, unless you were defined your own request mux handler.
func (Route) ResolvePath ¶
ResolvePath returns the formatted path's %v replaced with the args.
func (Route) StaticPath ¶
StaticPath returns the static part of the original, registered route path. if /user/{id} it will return /user if /user/{id}/friend/{friendid:int} it will return /user too if /assets/{filepath:path} it will return /assets.
type RoutePathReverser ¶
type RoutePathReverser struct {
// contains filtered or unexported fields
}
RoutePathReverser contains methods that helps to reverse a (dynamic) path from a specific route, route name is required because a route may being registered on more than one http method.
func NewRoutePathReverser ¶
func NewRoutePathReverser(apiRoutesProvider RoutesProvider, options ...RoutePathReverserOption) *RoutePathReverser
NewRoutePathReverser returns a new path reverser based on a routes provider, needed to get a route based on its name. Options is required for the URL function. See WithScheme and WithHost or WithServer.
func (*RoutePathReverser) Path ¶
func (ps *RoutePathReverser) Path(routeName string, paramValues ...interface{}) string
Path returns a route path based on a route name and any dynamic named parameter's values-only.
func (*RoutePathReverser) URL ¶
func (ps *RoutePathReverser) URL(routeName string, paramValues ...interface{}) (url string)
URL same as Path but returns the full uri, i.e https://mysubdomain.mydomain.com/hello/iris
type RoutePathReverserOption ¶
type RoutePathReverserOption func(*RoutePathReverser)
RoutePathReverserOption option signature for the RoutePathReverser.
func WithHost ¶
func WithHost(host string) RoutePathReverserOption
WithHost enables the RoutePathReverser's URL feature. Both "WithHost" and "WithScheme" can be different from the real server's listening address, i.e nginx in front.
func WithScheme ¶
func WithScheme(scheme string) RoutePathReverserOption
WithScheme is an option for the RoutepathReverser, it sets the optional field "vscheme", v for virtual. if vscheme is empty then it will try to resolve it from the RoutePathReverser's vhost field.
See WithHost or WithServer to enable the URL feature.
func WithServer ¶
func WithServer(srv *http.Server) RoutePathReverserOption
WithServer enables the RoutePathReverser's URL feature. It receives an *http.Server and tries to resolve a scheme and a host to be used in the URL function.
type Router ¶
type Router struct {
// contains filtered or unexported fields
}
Router is the "director". Caller should provide a request handler (router implementation or root handler). Router is responsible to build the received request handler and run it to serve requests, based on the received context.Pool.
User can refresh the router with `RefreshRouter` whenever a route's field is changed by him.
func (*Router) BuildRouter ¶
func (router *Router) BuildRouter(cPool *context.Pool, requestHandler RequestHandler, routesProvider RoutesProvider) error
BuildRouter builds the router based on the context factory (explicit pool in this case), the request handler which manages how the main handler will multiplexes the routes provided by the third parameter, routerProvider (it's the api builder in this case) and its wrapper.
Use of RefreshRouter to re-build the router if needed.
func (*Router) Downgrade ¶
func (router *Router) Downgrade(newMainHandler http.HandlerFunc)
Downgrade "downgrades", alters the router supervisor service(Router.mainHandler)
algorithm to a custom one,
be aware to change the global variables of 'ParamStart' and 'ParamWildcardStart'. can be used to implement a custom proxy or a custom router which should work with raw ResponseWriter, *Request instead of the Context(which agaiin, can be retrieved by the Cramework's context pool).
Note: Downgrade will by-pass the Wrapper, the caller is responsible for everything. Downgrade is thread-safe.
func (*Router) Downgraded ¶
Downgraded returns true if this router is downgraded.
func (*Router) RefreshRouter ¶
RefreshRouter re-builds the router. Should be called when a route's state changed (i.e Method changed at serve-time).
func (*Router) ServeHTTPC ¶
ServeHTTPC serves the raw context, useful if we have already a context, it by-pass the wrapper.
func (*Router) WrapRouter ¶
func (router *Router) WrapRouter(wrapperFunc WrapperFunc)
WrapRouter adds a wrapper on the top of the main router. Usually it's useful for third-party middleware when need to wrap the entire application with a middleware like CORS.
Developers can add more than one wrappers, those wrappers' execution comes from last to first. That means that the second wrapper will wrap the first, and so on.
Before build.
type RoutesProvider ¶
RoutesProvider should be implemented by iteral which contains the registered routes.
type SPABuilder ¶
type SPABuilder struct { IndexNames []string AssetHandler context.Handler AssetValidators []AssetValidator }
SPABuilder helps building a single page application server which serves both routes and files from the root path.
func NewSPABuilder ¶
func NewSPABuilder(assetHandler context.Handler) *SPABuilder
NewSPABuilder returns a new Single Page Application builder It does what StaticWeb expected to do when serving files and routes at the same time from the root "/" path.
Accepts a static asset handler, which can be an app.StaticHandler, app.StaticEmbeddedHandler...
func (*SPABuilder) BuildWrapper ¶
func (s *SPABuilder) BuildWrapper(cPool *context.Pool) WrapperFunc
BuildWrapper returns a wrapper which serves the single page application with the declared configuration.
It should be passed to the router's `WrapRouter`: https://godoc.org/github.com/kataras/iris/core/router#Router.WrapRouter
Example: https://github.com/kataras/iris/tree/master/_examples/file-server/single-page-application-builder
type StaticHandlerBuilder ¶
type StaticHandlerBuilder interface { Gzip(enable bool) StaticHandlerBuilder Listing(listDirectoriesOnOff bool) StaticHandlerBuilder Build() context.Handler }
StaticHandlerBuilder is the web file system's Handler builder use that or the iris.StaticHandler/StaticWeb methods.
func NewStaticHandlerBuilder ¶
func NewStaticHandlerBuilder(dir string) StaticHandlerBuilder
NewStaticHandlerBuilder returns a new Handler which serves static files supports gzip, no listing and much more Note that, this static builder returns a Handler it doesn't cares about the rest of your iris configuration.
Use the iris.StaticHandler/StaticWeb in order to serve static files on more automatic way this builder is used by people who have more complicated application structure and want a fluent api to work on.
type WrapperFunc ¶
type WrapperFunc func(w http.ResponseWriter, r *http.Request, firstNextIsTheRouter http.HandlerFunc)
WrapperFunc is used as an expected input parameter signature for the WrapRouter. It's a "low-level" signature which is compatible with the net/http. It's being used to run or no run the router based on a custom logic.