package context
import (
stdContext "context"
"io"
"net/http"
"sync"
"github.com/kataras/golog"
"github.com/tdewolff/minify/v2"
)
// Application is the context's owner.
// This interface contains the functions that can be used with safety inside a Handler
// by `context.Application()`.
type Application interface {
// ConfigurationReadOnly returns all the available configuration values can be used on a request.
ConfigurationReadOnly() ConfigurationReadOnly
// Logger returns the golog logger instance(pointer) that is being used inside the "app".
Logger() *golog.Logger
// IsDebug reports whether the application is running
// under debug/development mode.
// It's just a shortcut of Logger().Level >= golog.DebugLevel.
// The same method existss as Context.IsDebug() too.
IsDebug() bool
// I18nReadOnly returns the i18n's read-only features.
I18nReadOnly() I18nReadOnly
// Validate validates a value and returns nil if passed or
// the failure reason if not.
Validate(interface{}) error
// Minifier returns the minifier instance.
// By default it can minifies:
// - text/html
// - text/css
// - image/svg+xml
// - application/text(javascript, ecmascript, json, xml).
// Use that instance to add custom Minifiers before server ran.
Minifier() *minify.M
// View executes and write the result of a template file to the writer.
//
// Use context.View to render templates to the client instead.
// Returns an error on failure, otherwise nil.
View(writer io.Writer, filename string, layout string, bindingData interface{}) error
// GetContextPool returns the Iris sync.Pool which holds the contexts values.
// Iris automatically releases the request context, so you don't have to use it.
// It's only useful to manually release the context on cases that connection
// is hijacked by a third-party middleware and the http handler return too fast.
GetContextPool() *Pool
// GetContextErrorHandler returns the handler which handles errors
// on JSON write failures.
GetContextErrorHandler() ErrorHandler
// ServeHTTPC is the internal router, it's visible because it can be used for advanced use cases,
// i.e: routing within a foreign context.
//
// It is ready to use after Build state.
ServeHTTPC(ctx *Context)
// ServeHTTP is the main router handler which calls the .Serve and acquires a new context from the pool.
//
// It is ready to use after Build state.
ServeHTTP(w http.ResponseWriter, r *http.Request)
// Shutdown gracefully terminates all the application's server hosts and any tunnels.
// Returns an error on the first failure, otherwise nil.
Shutdown(ctx stdContext.Context) error
// 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 core/router/APIBuilder#GetRoute for more.
GetRouteReadOnly(routeName string) RouteReadOnly
// GetRoutesReadOnly returns the registered "read-only" routes.
//
// Look core/router/APIBuilder#GetRoutes for more.
GetRoutesReadOnly() []RouteReadOnly
// FireErrorCode handles the response's error response.
// If `Configuration.ResetOnFireErrorCode()` is true
// and the response writer was a recorder or a gzip writer one
// then it will try to reset the headers and the body before calling the
// registered (or default) error handler for that error code set by
// `ctx.StatusCode` method.
FireErrorCode(ctx *Context)
// RouteExists reports whether a particular route exists
// It will search from the current subdomain of context's host, if not inside the root domain.
RouteExists(ctx *Context, method, path string) bool
// FindClosestPaths returns a list of "n" paths close to "path" under the given "subdomain".
//
// Order may change.
FindClosestPaths(subdomain, searchPath string, n int) []string
// String returns the Application's Name.
String() string
}
// Notes(@kataras):
// Alternative places...
// 1. in apps/store, but it would require an empty `import _ "....apps/store"
// from end-developers, to avoid the import cycle and *iris.Application access.
// 2. in root package level, that could be the best option, it has access to the *iris.Application
// instead of the context.Application interface, but we try to keep the root package
// as minimum as possible, however: if in the future, those Application instances
// can be registered through network instead of same-process then we must think of that choice.
// 3. this is the best possible place, as the root package and all subpackages
// have access to this context package without import cycles and they already using it,
// the only downside is that we don't have access to the *iris.Application instance
// but this context.Application is designed that way that can execute all important methods
// as the whole Iris code base is so well written.
var (
// registerApps holds all the created iris Applications by this process.
// It's slice instead of map because if IRIS_APP_NAME env var exists,
// by-default all applications running on the same machine
// will have the same name unless `Application.SetName` is called.
registeredApps []Application
onApplicationRegisteredListeners []func(Application)
mu sync.RWMutex
)
// RegisterApplication registers an application to the global shared storage.
func RegisterApplication(app Application) {
if app == nil {
return
}
mu.Lock()
registeredApps = append(registeredApps, app)
mu.Unlock()
mu.RLock()
for _, listener := range onApplicationRegisteredListeners {
listener(app)
}
mu.RUnlock()
}
// OnApplicationRegistered adds a function which fires when a new application
// is registered.
func OnApplicationRegistered(listeners ...func(app Application)) {
mu.Lock()
onApplicationRegisteredListeners = append(onApplicationRegisteredListeners, listeners...)
mu.Unlock()
}
// GetApplications returns a slice of all the registered Applications.
func GetApplications() []Application {
mu.RLock()
// a copy slice but the instances are pointers so be careful what modifications are done
// the return value is read-only but it can be casted to *iris.Application.
apps := make([]Application, 0, len(registeredApps))
copy(apps, registeredApps)
mu.RUnlock()
return apps
}
// LastApplication returns the last registered Application.
// Handlers has access to the current Application,
// use `Context.Application()` instead.
func LastApplication() Application {
mu.RLock()
for i := len(registeredApps) - 1; i >= 0; i-- {
if app := registeredApps[i]; app != nil {
mu.RUnlock()
return app
}
}
mu.RUnlock()
return nil
}
// GetApplication returns a registered Application
// based on its name. If the "appName" is not unique
// across Applications, then it will return the newest one.
func GetApplication(appName string) (Application, bool) {
mu.RLock()
for i := len(registeredApps) - 1; i >= 0; i-- {
if app := registeredApps[i]; app != nil && app.String() == appName {
mu.RUnlock()
return app, true
}
}
mu.RUnlock()
return nil, false
}
// MustGetApplication same as `GetApplication` but it
// panics if "appName" is not a registered Application's name.
func MustGetApplication(appName string) Application {
app, ok := GetApplication(appName)
if !ok || app == nil {
panic(appName + " is not a registered Application")
}
return app
}
// DefaultLogger returns a Logger instance for an Iris module.
// If the program contains at least one registered Iris Application
// before this call then it will return a child of that Application's Logger
// otherwise a fresh child of the `golog.Default` will be returned instead.
//
// It should be used when a module has no access to the Application or its Logger.
func DefaultLogger(prefix string) (logger *golog.Logger) {
if app := LastApplication(); app != nil {
logger = app.Logger()
} else {
logger = golog.Default
}
logger = logger.Child(prefix)
return
}