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iris.go
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package iris
import (
// std packages
stdContext "context"
"io"
"log"
"net"
"net/http"
"sync"
"time"
"github.com/kataras/golog"
// context for the handlers
"github.com/kataras/iris/context"
// core packages, needed to build the application
"github.com/kataras/iris/core/errors"
"github.com/kataras/iris/core/host"
"github.com/kataras/iris/core/maintenance"
"github.com/kataras/iris/core/netutil"
"github.com/kataras/iris/core/router"
// handlerconv conversions
"github.com/kataras/iris/core/handlerconv"
// cache conversions
"github.com/kataras/iris/cache"
// view
"github.com/kataras/iris/view"
// middleware used in Default method
requestLogger "github.com/kataras/iris/middleware/logger"
"github.com/kataras/iris/middleware/recover"
)
var (
// Version is the current version number of the Iris Web Framework.
Version = maintenance.Version
)
// HTTP status codes as registered with IANA.
// See: http://www.iana.org/assignments/http-status-codes/http-status-codes.xhtml
// Raw Copy from the net/http std package in order to recude the import path of "net/http" for the users.
//
// Copied from `net/http` package.
const (
StatusContinue = 100 // RFC 7231, 6.2.1
StatusSwitchingProtocols = 101 // RFC 7231, 6.2.2
StatusProcessing = 102 // RFC 2518, 10.1
StatusOK = 200 // RFC 7231, 6.3.1
StatusCreated = 201 // RFC 7231, 6.3.2
StatusAccepted = 202 // RFC 7231, 6.3.3
StatusNonAuthoritativeInfo = 203 // RFC 7231, 6.3.4
StatusNoContent = 204 // RFC 7231, 6.3.5
StatusResetContent = 205 // RFC 7231, 6.3.6
StatusPartialContent = 206 // RFC 7233, 4.1
StatusMultiStatus = 207 // RFC 4918, 11.1
StatusAlreadyReported = 208 // RFC 5842, 7.1
StatusIMUsed = 226 // RFC 3229, 10.4.1
StatusMultipleChoices = 300 // RFC 7231, 6.4.1
StatusMovedPermanently = 301 // RFC 7231, 6.4.2
StatusFound = 302 // RFC 7231, 6.4.3
StatusSeeOther = 303 // RFC 7231, 6.4.4
StatusNotModified = 304 // RFC 7232, 4.1
StatusUseProxy = 305 // RFC 7231, 6.4.5
_ = 306 // RFC 7231, 6.4.6 (Unused)
StatusTemporaryRedirect = 307 // RFC 7231, 6.4.7
StatusPermanentRedirect = 308 // RFC 7538, 3
StatusBadRequest = 400 // RFC 7231, 6.5.1
StatusUnauthorized = 401 // RFC 7235, 3.1
StatusPaymentRequired = 402 // RFC 7231, 6.5.2
StatusForbidden = 403 // RFC 7231, 6.5.3
StatusNotFound = 404 // RFC 7231, 6.5.4
StatusMethodNotAllowed = 405 // RFC 7231, 6.5.5
StatusNotAcceptable = 406 // RFC 7231, 6.5.6
StatusProxyAuthRequired = 407 // RFC 7235, 3.2
StatusRequestTimeout = 408 // RFC 7231, 6.5.7
StatusConflict = 409 // RFC 7231, 6.5.8
StatusGone = 410 // RFC 7231, 6.5.9
StatusLengthRequired = 411 // RFC 7231, 6.5.10
StatusPreconditionFailed = 412 // RFC 7232, 4.2
StatusRequestEntityTooLarge = 413 // RFC 7231, 6.5.11
StatusRequestURITooLong = 414 // RFC 7231, 6.5.12
StatusUnsupportedMediaType = 415 // RFC 7231, 6.5.13
StatusRequestedRangeNotSatisfiable = 416 // RFC 7233, 4.4
StatusExpectationFailed = 417 // RFC 7231, 6.5.14
StatusTeapot = 418 // RFC 7168, 2.3.3
StatusUnprocessableEntity = 422 // RFC 4918, 11.2
StatusLocked = 423 // RFC 4918, 11.3
StatusFailedDependency = 424 // RFC 4918, 11.4
StatusUpgradeRequired = 426 // RFC 7231, 6.5.15
StatusPreconditionRequired = 428 // RFC 6585, 3
StatusTooManyRequests = 429 // RFC 6585, 4
StatusRequestHeaderFieldsTooLarge = 431 // RFC 6585, 5
StatusUnavailableForLegalReasons = 451 // RFC 7725, 3
StatusInternalServerError = 500 // RFC 7231, 6.6.1
StatusNotImplemented = 501 // RFC 7231, 6.6.2
StatusBadGateway = 502 // RFC 7231, 6.6.3
StatusServiceUnavailable = 503 // RFC 7231, 6.6.4
StatusGatewayTimeout = 504 // RFC 7231, 6.6.5
StatusHTTPVersionNotSupported = 505 // RFC 7231, 6.6.6
StatusVariantAlsoNegotiates = 506 // RFC 2295, 8.1
StatusInsufficientStorage = 507 // RFC 4918, 11.5
StatusLoopDetected = 508 // RFC 5842, 7.2
StatusNotExtended = 510 // RFC 2774, 7
StatusNetworkAuthenticationRequired = 511 // RFC 6585, 6
)
// HTTP Methods copied from `net/http`.
const (
MethodGet = "GET"
MethodPost = "POST"
MethodPut = "PUT"
MethodDelete = "DELETE"
MethodConnect = "CONNECT"
MethodHead = "HEAD"
MethodPatch = "PATCH"
MethodOptions = "OPTIONS"
MethodTrace = "TRACE"
)
// MethodNone is an iris-specific "virtual" method
// to store the "offline" routes.
const MethodNone = "NONE"
// Application is responsible to manage the state of the application.
// It contains and handles all the necessary parts to create a fast web server.
type Application struct {
// routing embedded | exposing APIBuilder's and Router's public API.
*router.APIBuilder
*router.Router
ContextPool *context.Pool
// config contains the configuration fields
// all fields defaults to something that is working, developers don't have to set it.
config *Configuration
// the golog logger instance, defaults to "Info" level messages (all except "Debug")
logger *golog.Logger
// view engine
view view.View
// used for build
once sync.Once
mu sync.Mutex
// Hosts contains a list of all servers (Host Supervisors) that this app is running on.
//
// Hosts may be empty only if application ran(`app.Run`) with `iris.Raw` option runner,
// otherwise it contains a single host (`app.Hosts[0]`).
//
// Additional Host Supervisors can be added to that list by calling the `app.NewHost` manually.
//
// Hosts field is available after `Run` or `NewHost`.
Hosts []*host.Supervisor
hostConfigurators []host.Configurator
}
// New creates and returns a fresh empty iris *Application instance.
func New() *Application {
config := DefaultConfiguration()
app := &Application{
config: &config,
logger: golog.Default,
APIBuilder: router.NewAPIBuilder(),
Router: router.NewRouter(),
}
app.ContextPool = context.New(func() context.Context {
return context.NewContext(app)
})
return app
}
// Default returns a new Application instance which, unlike `New`,
// recovers on panics and logs the incoming http requests.
func Default() *Application {
app := New()
app.Use(recover.New())
app.Use(requestLogger.New())
return app
}
// WWW creates and returns a "www." subdomain.
// The difference from `app.Subdomain("www")` or `app.Party("www.")` is that the `app.WWW()` method
// wraps the router so all http(s)://mydomain.com will be redirect to http(s)://www.mydomain.com.
// Other subdomains can be registered using the app: `sub := app.Subdomain("mysubdomain")`,
// child subdomains can be registered using the www := app.WWW(); www.Subdomain("wwwchildSubdomain").
func (app *Application) WWW() router.Party {
return app.SubdomainRedirect(app, app.Subdomain("www"))
}
// SubdomainRedirect registers a router wrapper which
// redirects(StatusMovedPermanently) a (sub)domain to another subdomain or to the root domain as fast as possible,
// before the router's try to execute route's handler(s).
//
// It receives two arguments, they are the from and to/target locations,
// 'from' can be a wildcard subdomain as well (app.WildcardSubdomain())
// 'to' is not allowed to be a wildcard for obvious reasons,
// 'from' can be the root domain(app) when the 'to' is not the root domain and visa-versa.
//
// Usage:
// www := app.Subdomain("www") <- same as app.Party("www.")
// app.SubdomainRedirect(app, www)
// This will redirect all http(s)://mydomain.com/%anypath% to http(s)://www.mydomain.com/%anypath%.
//
// One or more subdomain redirects can be used to the same app instance.
//
// If you need more information about this implementation then you have to navigate through
// the `core/router#NewSubdomainRedirectWrapper` function instead.
//
// Example: https://github.com/kataras/iris/tree/master/_examples/subdomains/redirect
func (app *Application) SubdomainRedirect(from, to router.Party) router.Party {
sd := router.NewSubdomainRedirectWrapper(app.ConfigurationReadOnly().GetVHost, from.GetRelPath(), to.GetRelPath())
app.WrapRouter(sd)
return to
}
// Configure can called when modifications to the framework instance needed.
// It accepts the framework instance
// and returns an error which if it's not nil it's printed to the logger.
// See configuration.go for more.
//
// Returns itself in order to be used like `app:= New().Configure(...)`
func (app *Application) Configure(configurators ...Configurator) *Application {
for _, cfg := range configurators {
cfg(app)
}
return app
}
// ConfigurationReadOnly returns an object which doesn't allow field writing.
func (app *Application) ConfigurationReadOnly() context.ConfigurationReadOnly {
return app.config
}
// Logger returns the golog logger instance(pointer) that is being used inside the "app".
//
// Available levels:
// - "disable"
// - "fatal"
// - "error"
// - "warn"
// - "info"
// - "debug"
// Usage: app.Logger().SetLevel("error")
// Defaults to "info" level.
//
// Callers can use the application's logger which is
// the same `golog.Default` logger,
// to print custom logs too.
// Usage:
// app.Logger().Error/Errorf("...")
// app.Logger().Warn/Warnf("...")
// app.Logger().Info/Infof("...")
// app.Logger().Debug/Debugf("...")
//
// Setting one or more outputs: app.Logger().SetOutput(io.Writer...)
// Adding one or more outputs : app.Logger().AddOutput(io.Writer...)
//
// Adding custom levels requires import of the `github.com/kataras/golog` package:
// First we create our level to a golog.Level
// in order to be used in the Log functions.
// var SuccessLevel golog.Level = 6
// Register our level, just three fields.
// golog.Levels[SuccessLevel] = &golog.LevelMetadata{
// Name: "success",
// RawText: "[SUCC]",
// // ColorfulText (Green Color[SUCC])
// ColorfulText: "\x1b[32m[SUCC]\x1b[0m",
// }
// Usage:
// app.Logger().SetLevel("success")
// app.Logger().Logf(SuccessLevel, "a custom leveled log message")
func (app *Application) Logger() *golog.Logger {
return app.logger
}
var (
// HTML view engine.
// Conversion for the view.HTML.
HTML = view.HTML
// Django view engine.
// Conversion for the view.Django.
Django = view.Django
// Handlebars view engine.
// Conversion for the view.Handlebars.
Handlebars = view.Handlebars
// Pug view engine.
// Conversion for the view.Pug.
Pug = view.Pug
// Amber view engine.
// Conversion for the view.Amber.
Amber = view.Amber
)
// NoLayout to disable layout for a particular template file
// A shortcut for the `view#NoLayout`.
const NoLayout = view.NoLayout
// RegisterView should be used to register view engines mapping to a root directory
// and the template file(s) extension.
func (app *Application) RegisterView(viewEngine view.Engine) {
app.view.Register(viewEngine)
}
// View executes and writes the result of a template file to the writer.
//
// First parameter is the writer to write the parsed template.
// Second parameter is the relative, to templates directory, template filename, including extension.
// Third parameter is the layout, can be empty string.
// Forth parameter is the bindable data to the template, can be nil.
//
// Use context.View to render templates to the client instead.
// Returns an error on failure, otherwise nil.
func (app *Application) View(writer io.Writer, filename string, layout string, bindingData interface{}) error {
if app.view.Len() == 0 {
err := errors.New("view engine is missing, use `RegisterView`")
app.Logger().Error(err)
return err
}
err := app.view.ExecuteWriter(writer, filename, layout, bindingData)
if err != nil {
app.Logger().Error(err)
}
return err
}
var (
// LimitRequestBodySize is a middleware which sets a request body size limit
// for all next handlers in the chain.
//
// A shortcut for the `context#LimitRequestBodySize`.
LimitRequestBodySize = context.LimitRequestBodySize
// StaticEmbeddedHandler returns a Handler which can serve
// embedded into executable files.
//
//
// Examples: https://github.com/kataras/iris/tree/master/_examples/file-server
StaticEmbeddedHandler = router.StaticEmbeddedHandler
// 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 := Party#StaticHandler("./static_files", false, false)
// h := iris.StripPrefix("/static", fileserver)
// app.Get("/static/{f:path}", h)
// app.Head("/static/{f:path}", h)
StripPrefix = router.StripPrefix
// Gzip is a middleware which enables writing
// using gzip compression, if client supports.
//
// A shortcut for the `context#Gzip`.
Gzip = context.Gzip
// FromStd converts native http.Handler, http.HandlerFunc & func(w, r, next) to context.Handler.
//
// Supported form types:
// .FromStd(h http.Handler)
// .FromStd(func(w http.ResponseWriter, r *http.Request))
// .FromStd(func(w http.ResponseWriter, r *http.Request, next http.HandlerFunc))
//
// A shortcut for the `handlerconv#FromStd`.
FromStd = handlerconv.FromStd
// Cache is a middleware providing server-side cache functionalities
// to the next handlers, can be used as: `app.Get("/", iris.Cache, aboutHandler)`.
// It should be used after Static methods.
// See `iris#Cache304` for an alternative, faster way.
//
// Examples can be found at: https://github.com/kataras/iris/tree/master/_examples/#caching
Cache = cache.Handler
// NoCache is a middleware which overrides the Cache-Control, Pragma and Expires headers
// in order to disable the cache during the browser's back and forward feature.
//
// A good use of this middleware is on HTML routes; to refresh the page even on "back" and "forward" browser's arrow buttons.
//
// See `iris#StaticCache` for the opposite behavior.
//
// A shortcut of the `cache#NoCache`
NoCache = cache.NoCache
// StaticCache middleware for caching static files by sending the "Cache-Control" and "Expires" headers to the client.
// It accepts a single input parameter, the "cacheDur", a time.Duration that it's used to calculate the expiration.
//
// If "cacheDur" <=0 then it returns the `NoCache` middleware instaed to disable the caching between browser's "back" and "forward" actions.
//
// Usage: `app.Use(iris.StaticCache(24 * time.Hour))` or `app.Use(iris.Staticcache(-1))`.
// A middleware, which is a simple Handler can be called inside another handler as well, example:
// cacheMiddleware := iris.StaticCache(...)
// func(ctx iris.Context){
// cacheMiddleware(ctx)
// [...]
// }
//
// A shortcut of the `cache#StaticCache`
StaticCache = cache.StaticCache
// Cache304 sends a `StatusNotModified` (304) whenever
// the "If-Modified-Since" request header (time) is before the
// time.Now() + expiresEvery (always compared to their UTC values).
// Use this, which is a shortcut of the, `chache#Cache304` instead of the "github.com/kataras/iris/cache" or iris.Cache
// for better performance.
// Clients that are compatible with the http RCF (all browsers are and tools like postman)
// will handle the caching.
// The only disadvantage of using that instead of server-side caching
// is that this method will send a 304 status code instead of 200,
// So, if you use it side by side with other micro services
// you have to check for that status code as well for a valid response.
//
// Developers are free to extend this method's behavior
// by watching system directories changes manually and use of the `ctx.WriteWithExpiration`
// with a "modtime" based on the file modified date,
// simillary to the `StaticWeb`(which sends status OK(200) and browser disk caching instead of 304).
//
// A shortcut of the `cache#Cache304`.
Cache304 = cache.Cache304
// CookiePath is a `CookieOption`.
// Use it to change the cookie's Path field.
//
// A shortcut for the `context#CookiePath`.
CookiePath = context.CookiePath
// CookieCleanPath is a `CookieOption`.
// Use it to clear the cookie's Path field, exactly the same as `CookiePath("")`.
//
// A shortcut for the `context#CookieCleanPath`.
CookieCleanPath = context.CookieCleanPath
// CookieExpires is a `CookieOption`.
// Use it to change the cookie's Expires and MaxAge fields by passing the lifetime of the cookie.
//
// A shortcut for the `context#CookieExpires`.
CookieExpires = context.CookieExpires
// CookieHTTPOnly is a `CookieOption`.
// Use it to set the cookie's HttpOnly field to false or true.
// HttpOnly field defaults to true for `RemoveCookie` and `SetCookieKV`.
//
// A shortcut for the `context#CookieHTTPOnly`.
CookieHTTPOnly = context.CookieHTTPOnly
// CookieEncode is a `CookieOption`.
// Provides encoding functionality when adding a cookie.
// Accepts a `context#CookieEncoder` and sets the cookie's value to the encoded value.
// Users of that is the `context#SetCookie` and `context#SetCookieKV`.
//
// Example: https://github.com/kataras/iris/tree/master/_examples/cookies/securecookie
//
// A shortcut for the `context#CookieEncode`.
CookieEncode = context.CookieEncode
// CookieDecode is a `CookieOption`.
// Provides decoding functionality when retrieving a cookie.
// Accepts a `context#CookieDecoder` and sets the cookie's value to the decoded value before return by the `GetCookie`.
// User of that is the `context#GetCookie`.
//
// Example: https://github.com/kataras/iris/tree/master/_examples/cookies/securecookie
//
// A shortcut for the `context#CookieDecode`.
CookieDecode = context.CookieDecode
)
// SPA accepts an "assetHandler" which can be the result of an
// app.StaticHandler or app.StaticEmbeddedHandler.
// Use that when you want to navigate from /index.html to / automatically
// it's a helper function which just makes some checks based on the `IndexNames` and `AssetValidators`
// before the assetHandler call.
//
// Example: https://github.com/kataras/iris/tree/master/_examples/file-server/single-page-application
func (app *Application) SPA(assetHandler context.Handler) *router.SPABuilder {
s := router.NewSPABuilder(assetHandler)
app.APIBuilder.HandleMany("GET HEAD", "/{f:path}", s.Handler)
return s
}
// ConfigureHost accepts one or more `host#Configuration`, these configurators functions
// can access the host created by `app.Run`,
// they're being executed when application is ready to being served to the public.
//
// It's an alternative way to interact with a host that is automatically created by
// `app.Run`.
//
// These "configurators" can work side-by-side with the `iris#Addr, iris#Server, iris#TLS, iris#AutoTLS, iris#Listener`
// final arguments("hostConfigs") too.
//
// Note that these application's host "configurators" will be shared with the rest of
// the hosts that this app will may create (using `app.NewHost`), meaning that
// `app.NewHost` will execute these "configurators" everytime that is being called as well.
//
// These "configurators" should be registered before the `app.Run` or `host.Serve/Listen` functions.
func (app *Application) ConfigureHost(configurators ...host.Configurator) *Application {
app.mu.Lock()
app.hostConfigurators = append(app.hostConfigurators, configurators...)
app.mu.Unlock()
return app
}
// NewHost accepts a standar *http.Server object,
// completes the necessary missing parts of that "srv"
// and returns a new, ready-to-use, host (supervisor).
func (app *Application) NewHost(srv *http.Server) *host.Supervisor {
app.mu.Lock()
defer app.mu.Unlock()
// set the server's handler to the framework's router
if srv.Handler == nil {
srv.Handler = app.Router
}
// check if different ErrorLog provided, if not bind it with the framework's logger
if srv.ErrorLog == nil {
srv.ErrorLog = log.New(app.logger.Printer.Output, "[HTTP Server] ", 0)
}
if srv.Addr == "" {
srv.Addr = ":8080"
}
app.logger.Debugf("Host: addr is %s", srv.Addr)
// create the new host supervisor
// bind the constructed server and return it
su := host.New(srv)
if app.config.vhost == "" { // vhost now is useful for router subdomain on wildcard subdomains,
// in order to correct decide what to do on:
// mydomain.com -> invalid
// localhost -> invalid
// sub.mydomain.com -> valid
// sub.localhost -> valid
// we need the host (without port if 80 or 443) in order to validate these, so:
app.config.vhost = netutil.ResolveVHost(srv.Addr)
}
app.logger.Debugf("Host: virtual host is %s", app.config.vhost)
// the below schedules some tasks that will run among the server
if !app.config.DisableStartupLog {
// show the available info to exit from app.
su.RegisterOnServe(host.WriteStartupLogOnServe(app.logger.Printer.Output)) // app.logger.Writer -> Info
app.logger.Debugf("Host: register startup notifier")
}
if !app.config.DisableInterruptHandler {
// when CTRL+C/CMD+C pressed.
shutdownTimeout := 5 * time.Second
host.RegisterOnInterrupt(host.ShutdownOnInterrupt(su, shutdownTimeout))
app.logger.Debugf("Host: register server shutdown on interrupt(CTRL+C/CMD+C)")
}
su.IgnoredErrors = append(su.IgnoredErrors, app.config.IgnoreServerErrors...)
if len(su.IgnoredErrors) > 0 {
app.logger.Debugf("Host: server will ignore the following errors: %s", su.IgnoredErrors)
}
su.Configure(app.hostConfigurators...)
app.Hosts = append(app.Hosts, su)
return su
}
// RegisterOnInterrupt registers a global function to call when CTRL+C/CMD+C pressed or a unix kill command received.
//
// A shortcut for the `host#RegisterOnInterrupt`.
var RegisterOnInterrupt = host.RegisterOnInterrupt
// Shutdown gracefully terminates all the application's server hosts.
// Returns an error on the first failure, otherwise nil.
func (app *Application) Shutdown(ctx stdContext.Context) error {
for i, su := range app.Hosts {
app.logger.Debugf("Host[%d]: Shutdown now", i)
if err := su.Shutdown(ctx); err != nil {
app.logger.Debugf("Host[%d]: Error while trying to shutdown", i)
return err
}
}
return nil
}
// Runner is just an interface which accepts the framework instance
// and returns an error.
//
// It can be used to register a custom runner with `Run` in order
// to set the framework's server listen action.
//
// Currently Runner is being used to declare the built'n server listeners.
//
// See `Run` for more.
type Runner func(*Application) error
// Listener can be used as an argument for the `Run` method.
// It can start a server with a custom net.Listener via server's `Serve`.
//
// Second argument is optional, it accepts one or more
// `func(*host.Configurator)` that are being executed
// on that specific host that this function will create to start the server.
// Via host configurators you can configure the back-end host supervisor,
// i.e to add events for shutdown, serve or error.
// An example of this use case can be found at:
// https://github.com/kataras/iris/blob/master/_examples/http-listening/notify-on-shutdown/main.go
// Look at the `ConfigureHost` too.
//
// See `Run` for more.
func Listener(l net.Listener, hostConfigs ...host.Configurator) Runner {
return func(app *Application) error {
app.config.vhost = netutil.ResolveVHost(l.Addr().String())
return app.NewHost(&http.Server{Addr: l.Addr().String()}).
Configure(hostConfigs...).
Serve(l)
}
}
// Server can be used as an argument for the `Run` method.
// It can start a server with a *http.Server.
//
// Second argument is optional, it accepts one or more
// `func(*host.Configurator)` that are being executed
// on that specific host that this function will create to start the server.
// Via host configurators you can configure the back-end host supervisor,
// i.e to add events for shutdown, serve or error.
// An example of this use case can be found at:
// https://github.com/kataras/iris/blob/master/_examples/http-listening/notify-on-shutdown/main.go
// Look at the `ConfigureHost` too.
//
// See `Run` for more.
func Server(srv *http.Server, hostConfigs ...host.Configurator) Runner {
return func(app *Application) error {
return app.NewHost(srv).
Configure(hostConfigs...).
ListenAndServe()
}
}
// Addr can be used as an argument for the `Run` method.
// It accepts a host address which is used to build a server
// and a listener which listens on that host and port.
//
// Addr should have the form of [host]:port, i.e localhost:8080 or :8080.
//
// Second argument is optional, it accepts one or more
// `func(*host.Configurator)` that are being executed
// on that specific host that this function will create to start the server.
// Via host configurators you can configure the back-end host supervisor,
// i.e to add events for shutdown, serve or error.
// An example of this use case can be found at:
// https://github.com/kataras/iris/blob/master/_examples/http-listening/notify-on-shutdown/main.go
// Look at the `ConfigureHost` too.
//
// See `Run` for more.
func Addr(addr string, hostConfigs ...host.Configurator) Runner {
return func(app *Application) error {
return app.NewHost(&http.Server{Addr: addr}).
Configure(hostConfigs...).
ListenAndServe()
}
}
// TLS can be used as an argument for the `Run` method.
// It will start the Application's secure server.
//
// Use it like you used to use the http.ListenAndServeTLS function.
//
// Addr should have the form of [host]:port, i.e localhost:443 or :443.
// CertFile & KeyFile should be filenames with their extensions.
//
// Second argument is optional, it accepts one or more
// `func(*host.Configurator)` that are being executed
// on that specific host that this function will create to start the server.
// Via host configurators you can configure the back-end host supervisor,
// i.e to add events for shutdown, serve or error.
// An example of this use case can be found at:
// https://github.com/kataras/iris/blob/master/_examples/http-listening/notify-on-shutdown/main.go
// Look at the `ConfigureHost` too.
//
// See `Run` for more.
func TLS(addr string, certFile, keyFile string, hostConfigs ...host.Configurator) Runner {
return func(app *Application) error {
return app.NewHost(&http.Server{Addr: addr}).
Configure(hostConfigs...).
ListenAndServeTLS(certFile, keyFile)
}
}
// AutoTLS can be used as an argument for the `Run` method.
// It will start the Application's secure server using
// certifications created on the fly by the "autocert" golang/x package,
// so localhost may not be working, use it at "production" machine.
//
// Addr should have the form of [host]:port, i.e mydomain.com:443.
//
// The whitelisted domains are separated by whitespace in "domain" argument,
// i.e "iris-go.com", can be different than "addr".
// If empty, all hosts are currently allowed. This is not recommended,
// as it opens a potential attack where clients connect to a server
// by IP address and pretend to be asking for an incorrect host name.
// Manager will attempt to obtain a certificate for that host, incorrectly,
// eventually reaching the CA's rate limit for certificate requests
// and making it impossible to obtain actual certificates.
//
// For an "e-mail" use a non-public one, letsencrypt needs that for your own security.
//
// Note: `AutoTLS` will start a new server for you
// which will redirect all http versions to their https, including subdomains as well.
//
// Last argument is optional, it accepts one or more
// `func(*host.Configurator)` that are being executed
// on that specific host that this function will create to start the server.
// Via host configurators you can configure the back-end host supervisor,
// i.e to add events for shutdown, serve or error.
// An example of this use case can be found at:
// https://github.com/kataras/iris/blob/master/_examples/http-listening/notify-on-shutdown/main.go
// Look at the `ConfigureHost` too.
//
// Usage:
// app.Run(iris.AutoTLS("iris-go.com:443", "iris-go.com www.iris-go.com", "[email protected]"))
//
// See `Run` and `core/host/Supervisor#ListenAndServeAutoTLS` for more.
func AutoTLS(
addr string,
domain string, email string,
hostConfigs ...host.Configurator) Runner {
return func(app *Application) error {
return app.NewHost(&http.Server{Addr: addr}).
Configure(hostConfigs...).
ListenAndServeAutoTLS(domain, email, "letscache")
}
}
// Raw can be used as an argument for the `Run` method.
// It accepts any (listen) function that returns an error,
// this function should be block and return an error
// only when the server exited or a fatal error caused.
//
// With this option you're not limited to the servers
// that iris can run by-default.
//
// See `Run` for more.
func Raw(f func() error) Runner {
return func(app *Application) error {
app.logger.Debugf("HTTP Server will start from unknown, external function")
return f()
}
}
// Build sets up, once, the framework.
// It builds the default router with its default macros
// and the template functions that are very-closed to iris.
func (app *Application) Build() error {
rp := errors.NewReporter()
app.once.Do(func() {
rp.Describe("api builder: %v", app.APIBuilder.GetReport())
if !app.Router.Downgraded() {
// router
// create the request handler, the default routing handler
routerHandler := router.NewDefaultHandler()
rp.Describe("router: %v", app.Router.BuildRouter(app.ContextPool, routerHandler, app.APIBuilder))
// re-build of the router from outside can be done with;
// app.RefreshRouter()
}
if app.view.Len() > 0 {
app.logger.Debugf("Application: %d registered view engine(s)", app.view.Len())
// view engine
// here is where we declare the closed-relative framework functions.
// Each engine has their defaults, i.e yield,render,render_r,partial, params...
rv := router.NewRoutePathReverser(app.APIBuilder)
app.view.AddFunc("urlpath", rv.Path)
// app.view.AddFunc("url", rv.URL)
rp.Describe("view: %v", app.view.Load())
}
})
return rp.Return()
}
// ErrServerClosed is returned by the Server's Serve, ServeTLS, ListenAndServe,
// and ListenAndServeTLS methods after a call to Shutdown or Close.
//
// A shortcut for the `http#ErrServerClosed`.
var ErrServerClosed = http.ErrServerClosed
// Run builds the framework and starts the desired `Runner` with or without configuration edits.
//
// Run should be called only once per Application instance, it blocks like http.Server.
//
// If more than one server needed to run on the same iris instance
// then create a new host and run it manually by `go NewHost(*http.Server).Serve/ListenAndServe` etc...
// or use an already created host:
// h := NewHost(*http.Server)
// Run(Raw(h.ListenAndServe), WithCharset("UTF-8"), WithRemoteAddrHeader("CF-Connecting-IP"))
//
// The Application can go online with any type of server or iris's host with the help of
// the following runners:
// `Listener`, `Server`, `Addr`, `TLS`, `AutoTLS` and `Raw`.
func (app *Application) Run(serve Runner, withOrWithout ...Configurator) error {
// first Build because it doesn't need anything from configuration,
// this gives the user the chance to modify the router inside a configurator as well.
if err := app.Build(); err != nil {
return errors.PrintAndReturnErrors(err, app.logger.Errorf)
}
app.Configure(withOrWithout...)
app.logger.Debugf("Application: running using %d host(s)", len(app.Hosts)+1)
if !app.config.DisableVersionChecker {
go maintenance.Start()
}
// this will block until an error(unless supervisor's DeferFlow called from a Task).
err := serve(app)
if err != nil {
app.Logger().Error(err)
}
return err
}