//Package iris the fastest go web framework in (this) Earth.
///NOTE: When you see 'framework' or 'station' we mean the Iris web framework's main implementation.
//
//
// Basic usage
// ----------------------------------------------------------------------
//
// package main
//
// import "github.com/kataras/iris"
//
// func main() {
// iris.Get("/hi_json", func(c *iris.Context) {
// c.JSON(200, iris.Map{
// "Name": "Iris",
// "Age": 2,
// })
// })
// iris.Listen(":8080")
// }
//
// ----------------------------------------------------------------------
//
// package main
//
// import "github.com/kataras/iris"
//
// func main() {
// s1 := iris.New()
// s1.Get("/hi_json", func(c *iris.Context) {
// c.JSON(200, iris.Map{
// "Name": "Iris",
// "Age": 2,
// })
// })
//
// s2 := iris.New()
// s2.Get("/hi_raw_html", func(c *iris.Context) {
// c.HTML(iris.StatusOK, "<b> Iris </b> welcomes <h1>you!</h1>")
// })
//
// go s1.Listen(":8080")
// s2.Listen(":1993")
// }
//
// -----------------------------DOCUMENTATION----------------------------
// ----------------------------_______________---------------------------
// For middleware, template engines, response engines, sessions, websockets, mails, subdomains,
// dynamic subdomains, routes, party of subdomains & routes and much more
// visit https://www.gitbook.com/book/kataras/iris/details
package iris // import "github.com/kataras/iris"
import (
"fmt"
"io"
"net/http"
"os"
"path"
"reflect"
"strconv"
"strings"
"testing"
"time"
"github.com/klauspost/compress/gzip"
"sync"
"github.com/gavv/httpexpect"
"github.com/iris-contrib/errors"
"github.com/iris-contrib/logger"
"github.com/iris-contrib/response/data"
"github.com/iris-contrib/response/json"
"github.com/iris-contrib/response/jsonp"
"github.com/iris-contrib/response/markdown"
"github.com/iris-contrib/response/text"
"github.com/iris-contrib/response/xml"
"github.com/iris-contrib/template/html"
"github.com/kataras/iris/config"
"github.com/kataras/iris/context"
"github.com/kataras/iris/utils"
"github.com/valyala/fasthttp"
)
const (
// Version of the iris
Version = "4.0.0-alpha.4"
banner = ` _____ _
|_ _| (_)
| | ____ _ ___
| | | __|| |/ __|
_| |_| | | |\__ \
|_____|_| |_||___/ ` + Version + ` `
)
// Default entry, use it with iris.$anyPublicFunc
var (
Default *Framework
Config *config.Iris
Logger *logger.Logger
Plugins PluginContainer
Websocket WebsocketServer
Servers *ServerList
// Available is a channel type of bool, fired to true when the server is opened and all plugins ran
// never fires false, if the .Close called then the channel is re-allocating.
// the channel is closed only when .ListenVirtual is used, otherwise it remains open until you close it.
//
// Note: it is a simple channel and decided to put it here and no inside HTTPServer, doesn't have statuses just true and false, simple as possible
// Where to use that?
// this is used on extreme cases when you don't know which .Listen/.ListenVirtual will be called
// and you want to run/declare something external-not-Iris (all Iris functionality declared before .Listen/.ListenVirtual) AFTER the server is started and plugins finished.
// see the server_test.go for an example
Available chan bool
)
func initDefault() {
Default = New()
Config = Default.Config
Logger = Default.Logger
Plugins = Default.Plugins
Websocket = Default.Websocket
Servers = Default.Servers
Available = Default.Available
}
func init() {
initDefault()
}
// -------------------------------------------------------------------------------------
// -------------------------------------------------------------------------------------
// --------------------------------Framework implementation-----------------------------
// -------------------------------------------------------------------------------------
// -------------------------------------------------------------------------------------
type (
// FrameworkAPI contains the main Iris Public API
FrameworkAPI interface {
MuxAPI
Must(error)
AddServer(config.Server) *Server
ListenTo(config.Server) error
Listen(string)
ListenTLS(string, string, string)
ListenUNIX(string, os.FileMode)
ListenVirtual(...string) *Server
Go() error
Close() error
UseSessionDB(SessionDatabase)
UseResponse(ResponseEngine, ...string) func(string)
UseTemplate(TemplateEngine) *TemplateEngineLocation
UseGlobal(...Handler)
UseGlobalFunc(...HandlerFunc)
OnError(int, HandlerFunc)
EmitError(int, *Context)
Lookup(string) Route
Lookups() []Route
Path(string, ...interface{}) string
URL(string, ...interface{}) string
TemplateString(string, interface{}, ...map[string]interface{}) string
ResponseString(string, interface{}, ...map[string]interface{}) string
Tester(t *testing.T) *httpexpect.Expect
}
// Framework is our God |\| Google.Search('Greek mythology Iris')
//
// Implements the FrameworkAPI
Framework struct {
*muxAPI
Config *config.Iris
gzipWriterPool sync.Pool // used for several methods, usually inside context
sessions *sessionsManager
responses *responseEngines
templates *templateEngines
// fields which are useful to the user/dev
// the last added server is the main server
Servers *ServerList
// configuration by instance.Logger.Config
Logger *logger.Logger
Plugins PluginContainer
Websocket WebsocketServer
Available chan bool
// this is setted once when .Tester(t) is called
testFramework *httpexpect.Expect
}
)
var _ FrameworkAPI = &Framework{}
// New creates and returns a new Iris station aka Framework.
//
// Receives an optional config.Iris as parameter
// If empty then config.Default() is used instead
func New(cfg ...config.Iris) *Framework {
c := config.Default().Merge(cfg)
// we always use 's' no 'f' because 's' is easier for me to remember because of 'station'
// some things never change :)
s := &Framework{
Config: &c,
gzipWriterPool: sync.Pool{New: func() interface{} {
return &gzip.Writer{}
}},
responses: &responseEngines{},
Available: make(chan bool),
}
{
///NOTE: set all with s.Config pointer
// set the Logger
s.Logger = logger.New(logger.DefaultConfig())
// set the plugin container
s.Plugins = &pluginContainer{logger: s.Logger}
// set the templates
s.templates = &templateEngines{
helpers: map[string]interface{}{
"url": s.URL,
"urlpath": s.Path,
},
engines: make([]*templateEngineWrapper, 0),
}
// set the websocket server
s.Websocket = NewWebsocketServer(s.Config.Websocket)
// set the servemux, which will provide us the public API also, with its context pool
mux := newServeMux(sync.Pool{New: func() interface{} { return &Context{framework: s} }}, s.Logger)
mux.onLookup = s.Plugins.DoPreLookup
// set the public router API (and party)
s.muxAPI = &muxAPI{mux: mux, relativePath: "/"}
s.Servers = &ServerList{mux: mux, servers: make([]*Server, 0)}
}
return s
}
func (s *Framework) initialize() {
if s.Config.Sessions.Cookie != "" {
//set the session manager
s.sessions = newSessionsManager(s.Config.Sessions)
}
// prepare the response engines, if no response engines setted for the default content-types
// then add them
for _, ctype := range defaultResponseKeys {
if rengine := s.responses.getBy(ctype); rengine == nil {
// if not exists
switch ctype {
case contentText:
s.UseResponse(text.New(), ctype)
case contentBinary:
s.UseResponse(data.New(), ctype)
case contentJSON:
s.UseResponse(json.New(), ctype)
case contentJSONP:
s.UseResponse(jsonp.New(), ctype)
case contentXML:
s.UseResponse(xml.New(), ctype)
case contentMarkdown:
s.UseResponse(markdown.New(), ctype)
}
}
}
// prepare the templates if enabled
if !s.Config.DisableTemplateEngines {
s.templates.reload = s.Config.IsDevelopment
// check and prepare the templates
if len(s.templates.engines) == 0 { // no template engine is registered, let's use the default
s.UseTemplate(html.New())
}
if err := s.templates.loadAll(); err != nil {
s.Logger.Panic(err) // panic on templates loading before listening if we have an error.
}
}
// listen to websocket connections
RegisterWebsocketServer(s, s.Websocket, s.Logger)
// prepare the mux & the server
s.mux.setCorrectPath(!s.Config.DisablePathCorrection)
s.mux.setEscapePath(!s.Config.DisablePathEscape)
// set the debug profiling handlers if ProfilePath is setted
if debugPath := s.Config.ProfilePath; debugPath != "" {
s.Handle(MethodGet, debugPath+"/*action", profileMiddleware(debugPath)...)
}
}
// Go starts the iris station, listens to all registered servers, and prepare only if Virtual
func Go() error {
return Default.Go()
}
// Go starts the iris station, listens to all registered servers, and prepare only if Virtual
func (s *Framework) Go() error {
s.initialize()
s.Plugins.DoPreListen(s)
if firstErr := s.Servers.OpenAll(); firstErr != nil {
return firstErr
}
// print the banner
if !s.Config.DisableBanner {
openedServers := s.Servers.GetAllOpened()
l := len(openedServers)
hosts := make([]string, l, l)
for i, srv := range openedServers {
hosts[i] = srv.Host()
}
bannerMessage := time.Now().Format(config.TimeFormat) + ": Running at " + strings.Join(hosts, ", ")
s.Logger.PrintBanner(banner, "\n"+bannerMessage)
}
s.Plugins.DoPostListen(s)
go func() { s.Available <- true }()
ch := make(chan os.Signal)
<-ch
s.Close() // btw, don't panic here
return nil
}
// Must panics on error, it panics on registed iris' logger
func Must(err error) {
Default.Must(err)
}
// Must panics on error, it panics on registed iris' logger
func (s *Framework) Must(err error) {
if err != nil {
s.Logger.Panic(err.Error())
}
}
// AddServer same as .Servers.Add(config.Server)
//
// AddServer starts a server which listens to this station
// Note that the view engine's functions {{ url }} and {{ urlpath }} will return the first's registered server's scheme (http/https)
//
// this is useful mostly when you want to have two or more listening ports ( two or more servers ) for the same station
//
// receives one parameter which is the config.Server for the new server
// returns the new standalone server( you can close this server by the returning reference)
//
// If you need only one server you can use the blocking-funcs: .Listen/ListenTLS/ListenUNIX/ListenTo
//
// this is a NOT A BLOCKING version, the main .Listen/ListenTLS/ListenUNIX/ListenTo should be always executed LAST, so this function goes before the main .Listen/ListenTLS/ListenUNIX/ListenTo
func AddServer(cfg config.Server) *Server {
return Default.AddServer(cfg)
}
// AddServer same as .Servers.Add(config.Server)
//
// AddServer starts a server which listens to this station
// Note that the view engine's functions {{ url }} and {{ urlpath }} will return the last registered server's scheme (http/https)
//
// this is useful mostly when you want to have two or more listening ports ( two or more servers ) for the same station
//
// receives one parameter which is the config.Server for the new server
// returns the new standalone server( you can close this server by the returning reference)
//
// If you need only one server you can use the blocking-funcs: .Listen/ListenTLS/ListenUNIX/ListenTo
//
// this is a NOT A BLOCKING version, the main .Listen/ListenTLS/ListenUNIX/ListenTo should be always executed LAST, so this function goes before the main .Listen/ListenTLS/ListenUNIX/ListenTo
func (s *Framework) AddServer(cfg config.Server) *Server {
return s.Servers.Add(cfg)
}
// ListenTo listens to a server but accepts the full server's configuration
// returns an error, you're responsible to handle that
// or use the iris.Must(iris.ListenTo(config.Server{}))
//
// it's a blocking func
func ListenTo(cfg config.Server) error {
return Default.ListenTo(cfg)
}
// ListenTo listens to a server but acceots the full server's configuration
// returns an error, you're responsible to handle that
// or use the iris.Must(iris.ListenTo(config.Server{}))
//
// it's a blocking func
func (s *Framework) ListenTo(cfg config.Server) (err error) {
if cfg.ReadBufferSize == 0 {
cfg.ReadBufferSize = config.DefaultReadBufferSize
}
if cfg.WriteBufferSize == 0 {
cfg.WriteBufferSize = config.DefaultWriteBufferSize
}
if cfg.MaxRequestBodySize == 0 {
cfg.MaxRequestBodySize = config.DefaultMaxRequestBodySize
}
if cfg.ListeningAddr == "" {
cfg.ListeningAddr = config.DefaultServerAddr
}
s.Servers.Add(cfg)
return s.Go()
}
// Listen starts the standalone http server
// which listens to the addr parameter which as the form of
// host:port
//
// It panics on error if you need a func to return an error, use the ListenTo
// ex: err := iris.ListenTo(config.Server{ListeningAddr:":8080"})
func Listen(addr string) {
Default.Listen(addr)
}
// Listen starts the standalone http server
// which listens to the addr parameter which as the form of
// host:port
//
// It panics on error if you need a func to return an error, use the ListenTo
// ex: err := iris.ListenTo(config.Server{ListeningAddr:":8080"})
func (s *Framework) Listen(addr string) {
s.Must(s.ListenTo(config.Server{ListeningAddr: addr}))
}
// ListenTLS Starts a https server with certificates,
// if you use this method the requests of the form of 'http://' will fail
// only https:// connections are allowed
// which listens to the addr parameter which as the form of
// host:port
//
// It panics on error if you need a func to return an error, use the ListenTo
// ex: err := iris.ListenTo(":8080","yourfile.cert","yourfile.key")
func ListenTLS(addr string, certFile string, keyFile string) {
Default.ListenTLS(addr, certFile, keyFile)
}
// ListenTLS Starts a https server with certificates,
// if you use this method the requests of the form of 'http://' will fail
// only https:// connections are allowed
// which listens to the addr parameter which as the form of
// host:port
//
// It panics on error if you need a func to return an error, use the ListenTo
// ex: err := iris.ListenTo(":8080","yourfile.cert","yourfile.key")
func (s *Framework) ListenTLS(addr string, certFile, keyFile string) {
if certFile == "" || keyFile == "" {
s.Logger.Panic("You should provide certFile and keyFile for TLS/SSL")
}
s.Must(s.ListenTo(config.Server{ListeningAddr: addr, CertFile: certFile, KeyFile: keyFile}))
}
// ListenUNIX starts the process of listening to the new requests using a 'socket file', this works only on unix
//
// It panics on error if you need a func to return an error, use the ListenTo
// ex: err := iris.ListenTo(":8080", Mode: os.FileMode)
func ListenUNIX(addr string, mode os.FileMode) {
Default.ListenUNIX(addr, mode)
}
// ListenUNIX starts the process of listening to the new requests using a 'socket file', this works only on unix
//
// It panics on error if you need a func to return an error, use the ListenTo
// ex: err := iris.ListenTo(":8080", Mode: os.FileMode)
func (s *Framework) ListenUNIX(addr string, mode os.FileMode) {
s.Must(ListenTo(config.Server{ListeningAddr: addr, Mode: mode}))
}
// ListenVirtual is useful only when you want to test Iris, it doesn't starts the server but it configures and returns it
// initializes the whole framework but server doesn't listens to a specific net.Listener
// it is not blocking the app
func ListenVirtual(optionalAddr ...string) *Server {
return Default.ListenVirtual(optionalAddr...)
}
// ListenVirtual is useful only when you want to test Iris, it doesn't starts the server but it configures and returns it
// initializes the whole framework but server doesn't listens to a specific net.Listener
// it is not blocking the app
func (s *Framework) ListenVirtual(optionalAddr ...string) *Server {
s.Config.DisableBanner = true
cfg := config.DefaultServer()
if len(optionalAddr) > 0 && optionalAddr[0] != "" {
cfg.ListeningAddr = optionalAddr[0]
}
cfg.Virtual = true
go func() {
s.Must(s.ListenTo(cfg))
}()
if ok := <-s.Available; !ok {
s.Logger.Panic("Unexpected error:Virtual server cannot start, please report this as bug!!")
}
close(s.Available)
return s.Servers.Main()
}
// Close terminates all the registered servers and returns an error if any
// if you want to panic on this error use the iris.Must(iris.Close())
func Close() error {
return Default.Close()
}
// Close terminates all the registered servers and returns an error if any
// if you want to panic on this error use the iris.Must(iris.Close())
func (s *Framework) Close() error {
s.Plugins.DoPreClose(s)
s.Available = make(chan bool)
return s.Servers.CloseAll()
}
// UseSessionDB registers a session database, you can register more than one
// accepts a session database which implements a Load(sid string) map[string]interface{} and an Update(sid string, newValues map[string]interface{})
// the only reason that a session database will be useful for you is when you want to keep the session's values/data after the app restart
// a session database doesn't have write access to the session, it doesn't accept the context, so forget 'cookie database' for sessions, I will never allow that, for your protection.
//
// Note: Don't worry if no session database is registered, your context.Session will continue to work.
func UseSessionDB(db SessionDatabase) {
Default.UseSessionDB(db)
}
// UseSessionDB registers a session database, you can register more than one
// accepts a session database which implements a Load(sid string) map[string]interface{} and an Update(sid string, newValues map[string]interface{})
// the only reason that a session database will be useful for you is when you want to keep the session's values/data after the app restart
// a session database doesn't have write access to the session, it doesn't accept the context, so forget 'cookie database' for sessions, I will never allow that, for your protection.
//
// Note: Don't worry if no session database is registered, your context.Session will continue to work.
func (s *Framework) UseSessionDB(db SessionDatabase) {
s.sessions.provider.registerDatabase(db)
}
// UseResponse accepts a ResponseEngine and the key or content type on which the developer wants to register this response engine
// the gzip and charset are automatically supported by Iris, by passing the iris.RenderOptions{} map on the context.Render
// context.Render renders this response or a template engine if no response engine with the 'key' found
// with these engines you can inject the context.JSON,Text,Data,JSONP,XML also
// to do that just register with UseResponse(myEngine,"application/json") and so on
// look at the https://github.com/iris-contrib/response for examples
//
// if more than one respone engine with the same key/content type exists then the results will be appended to the final request's body
// this allows the developer to be able to create 'middleware' responses engines
//
// Note: if you pass an engine which contains a dot('.') as key, then the engine will not be registered.
// you don't have to import and use github.com/iris-contrib/json, jsonp, xml, data, text, markdown
// because iris uses these by default if no other response engine is registered for these content types
//
// Note 2:
// one key has one content type but many response engines ( one to many)
//
// returns a function(string) which you can set the content type, if it's not already declared from the key.
// careful you should call this in the same execution.
// one last thing, you can have unlimited number of response engines for the same key and same content type.
// key and content type may be different, but one key is only for one content type,
// Do not use different content types with more than one response engine on the same key
func UseResponse(e ResponseEngine, forContentTypesOrKeys ...string) func(string) {
return Default.UseResponse(e, forContentTypesOrKeys...)
}
// UseResponse accepts a ResponseEngine and the key or content type on which the developer wants to register this response engine
// the gzip and charset are automatically supported by Iris, by passing the iris.RenderOptions{} map on the context.Render
// context.Render renders this response or a template engine if no response engine with the 'key' found
// with these engines you can inject the context.JSON,Text,Data,JSONP,XML also
// to do that just register with UseResponse(myEngine,"application/json") and so on
// look at the https://github.com/iris-contrib/response for examples
//
// if more than one respone engine with the same key/content type exists then the results will be appended to the final request's body
// this allows the developer to be able to create 'middleware' responses engines
//
// Note: if you pass an engine which contains a dot('.') as key, then the engine will not be registered.
// you don't have to import and use github.com/iris-contrib/json, jsonp, xml, data, text, markdown
// because iris uses these by default if no other response engine is registered for these content types
//
// Note 2:
// one key has one content type but many response engines ( one to many)
//
// returns a function(string) which you can set the content type, if it's not already declared from the key.
// careful you should call this in the same execution.
// one last thing, you can have unlimited number of response engines for the same key and same content type.
// key and content type may be different, but one key is only for one content type,
// Do not use different content types with more than one response engine on the same key
func (s *Framework) UseResponse(e ResponseEngine, forContentTypesOrKeys ...string) func(string) {
return s.responses.add(e, forContentTypesOrKeys...)
}
// UseTemplate adds a template engine to the iris view system
// it does not build/load them yet
func UseTemplate(e TemplateEngine) *TemplateEngineLocation {
return Default.UseTemplate(e)
}
// UseTemplate adds a template engine to the iris view system
// it does not build/load them yet
func (s *Framework) UseTemplate(e TemplateEngine) *TemplateEngineLocation {
return s.templates.add(e)
}
// UseGlobal registers Handler middleware to the beginning, prepends them instead of append
//
// Use it when you want to add a global middleware to all parties, to all routes in all subdomains
// It can be called after other, (but before .Listen of course)
func UseGlobal(handlers ...Handler) {
Default.UseGlobal(handlers...)
}
// UseGlobalFunc registers HandlerFunc middleware to the beginning, prepends them instead of append
//
// Use it when you want to add a global middleware to all parties, to all routes in all subdomains
// It can be called after other, (but before .Listen of course)
func UseGlobalFunc(handlersFn ...HandlerFunc) {
Default.UseGlobalFunc(handlersFn...)
}
// UseGlobal registers Handler middleware to the beginning, prepends them instead of append
//
// Use it when you want to add a global middleware to all parties, to all routes in all subdomains
// It can be called after other, (but before .Listen of course)
func (s *Framework) UseGlobal(handlers ...Handler) {
for _, r := range s.mux.lookups {
r.middleware = append(handlers, r.middleware...)
}
}
// UseGlobalFunc registers HandlerFunc middleware to the beginning, prepends them instead of append
//
// Use it when you want to add a global middleware to all parties, to all routes in all subdomains
// It can be called after other, (but before .Listen of course)
func (s *Framework) UseGlobalFunc(handlersFn ...HandlerFunc) {
s.UseGlobal(convertToHandlers(handlersFn)...)
}
// OnError registers a custom http error handler
func OnError(statusCode int, handlerFn HandlerFunc) {
Default.OnError(statusCode, handlerFn)
}
// EmitError fires a custom http error handler to the client
//
// if no custom error defined with this statuscode, then iris creates one, and once at runtime
func EmitError(statusCode int, ctx *Context) {
Default.EmitError(statusCode, ctx)
}
// OnError registers a custom http error handler
func (s *Framework) OnError(statusCode int, handlerFn HandlerFunc) {
s.mux.registerError(statusCode, handlerFn)
}
// EmitError fires a custom http error handler to the client
//
// if no custom error defined with this statuscode, then iris creates one, and once at runtime
func (s *Framework) EmitError(statusCode int, ctx *Context) {
s.mux.fireError(statusCode, ctx)
}
// Lookup returns a registed route by its name
func Lookup(routeName string) Route {
return Default.Lookup(routeName)
}
// Lookups returns all registed routes
func Lookups() []Route {
return Default.Lookups()
}
// Lookup returns a registed route by its name
func (s *Framework) Lookup(routeName string) Route {
return s.mux.lookup(routeName)
}
// Lookups returns all registed routes
func (s *Framework) Lookups() (routes []Route) {
// silly but...
for i := range s.mux.lookups {
routes = append(routes, s.mux.lookups[i])
}
return
}
// Path used to check arguments with the route's named parameters and return the correct url
// if parse failed returns empty string
func Path(routeName string, args ...interface{}) string {
return Default.Path(routeName, args...)
}
// Path used to check arguments with the route's named parameters and return the correct url
// if parse failed returns empty string
func (s *Framework) Path(routeName string, args ...interface{}) string {
r := s.mux.lookup(routeName)
if r == nil {
return ""
}
argsLen := len(args)
// we have named parameters but arguments not given
if argsLen == 0 && r.formattedParts > 0 {
return ""
} else if argsLen == 0 && r.formattedParts == 0 {
// it's static then just return the path
return r.path
}
// we have arguments but they are much more than the named parameters
// 1 check if we have /*, if yes then join all arguments to one as path and pass that as parameter
if argsLen > r.formattedParts {
if r.path[len(r.path)-1] == matchEverythingByte {
// we have to convert each argument to a string in this case
argsString := make([]string, argsLen, argsLen)
for i, v := range args {
if s, ok := v.(string); ok {
argsString[i] = s
} else if num, ok := v.(int); ok {
argsString[i] = strconv.Itoa(num)
} else if b, ok := v.(bool); ok {
argsString[i] = strconv.FormatBool(b)
} else if arr, ok := v.([]string); ok {
if len(arr) > 0 {
argsString[i] = arr[0]
argsString = append(argsString, arr[1:]...)
}
}
}
parameter := strings.Join(argsString, slash)
result := fmt.Sprintf(r.formattedPath, parameter)
return result
}
// 2 if !1 return false
return ""
}
arguments := args[0:]
// check for arrays
for i, v := range arguments {
if arr, ok := v.([]string); ok {
if len(arr) > 0 {
interfaceArr := make([]interface{}, len(arr))
for j, sv := range arr {
interfaceArr[j] = sv
}
arguments[i] = interfaceArr[0]
arguments = append(arguments, interfaceArr[1:]...)
}
}
}
return fmt.Sprintf(r.formattedPath, arguments...)
}
// URL returns the subdomain+ host + Path(...optional named parameters if route is dynamic)
// returns an empty string if parse is failed
func URL(routeName string, args ...interface{}) (url string) {
return Default.URL(routeName, args...)
}
// URL returns the subdomain+ host + Path(...optional named parameters if route is dynamic)
// returns an empty string if parse is failed
func (s *Framework) URL(routeName string, args ...interface{}) (url string) {
r := s.mux.lookup(routeName)
if r == nil {
return
}
srv := s.Servers.Main()
scheme := "http://"
if srv.IsSecure() {
scheme = "https://"
}
host := srv.Host()
arguments := args[0:]
// join arrays as arguments
for i, v := range arguments {
if arr, ok := v.([]string); ok {
if len(arr) > 0 {
interfaceArr := make([]interface{}, len(arr))
for j, sv := range arr {
interfaceArr[j] = sv
}
arguments[i] = interfaceArr[0]
arguments = append(arguments, interfaceArr[1:]...)
}
}
}
// if it's dynamic subdomain then the first argument is the subdomain part
if r.subdomain == dynamicSubdomainIndicator {
if len(arguments) == 0 { // it's a wildcard subdomain but not arguments
return
}
if subdomain, ok := arguments[0].(string); ok {
host = subdomain + "." + host
} else {
// it is not array because we join them before. if not pass a string then this is not a subdomain part, return empty uri
return
}
arguments = arguments[1:]
}
if parsedPath := s.Path(routeName, arguments...); parsedPath != "" {
url = scheme + host + parsedPath
}
return
}
// AcquireGzip prepares a gzip writer and returns it
//
// Note that: each iris station has its own pool
// see ReleaseGzip
func (s *Framework) AcquireGzip(w io.Writer) *gzip.Writer {
gzipWriter := s.gzipWriterPool.Get().(*gzip.Writer)
gzipWriter.Reset(w)
return gzipWriter
}
// ReleaseGzip called when flush/close and put the gzip writer back to the pool
//
// Note that: each iris station has its own pool
// see AcquireGzip
func (s *Framework) ReleaseGzip(gzipWriter *gzip.Writer) {
gzipWriter.Close()
s.gzipWriterPool.Put(gzipWriter)
}
// TemplateString executes a template from the default template engine and returns its result as string, useful when you want it for sending rich e-mails
// returns empty string on error
func TemplateString(templateFile string, pageContext interface{}, options ...map[string]interface{}) string {
return Default.TemplateString(templateFile, pageContext, options...)
}
// TemplateString executes a template from the default template engine and returns its result as string, useful when you want it for sending rich e-mails
// returns empty string on error
func (s *Framework) TemplateString(templateFile string, pageContext interface{}, options ...map[string]interface{}) string {
if s.Config.DisableTemplateEngines {
return ""
}
res, err := s.templates.getBy(templateFile).executeToString(templateFile, pageContext, options...)
if err != nil {
return ""
}
return res
}
// ResponseString returns the string of a response engine,
// does not render it to the client
// returns empty string on error
func ResponseString(keyOrContentType string, obj interface{}, options ...map[string]interface{}) string {
return Default.ResponseString(keyOrContentType, obj, options...)
}
// ResponseString returns the string of a response engine,
// does not render it to the client
// returns empty string on error
func (s *Framework) ResponseString(keyOrContentType string, obj interface{}, options ...map[string]interface{}) string {
res, err := s.responses.getBy(keyOrContentType).toString(obj, options...)
if err != nil {
return ""
}
return res
}
// NewTester Prepares and returns a new test framework based on the api
// is useful when you need to have more than one test framework for the same iris insttance, otherwise you can use the iris.Tester(t *testing.T)/variable.Tester(t *testing.T)
func NewTester(api *Framework, t *testing.T) *httpexpect.Expect {
srv := api.Servers.Main()
if srv == nil { // maybe the user called this after .Listen/ListenTLS/ListenUNIX, the tester can be used as standalone (with no running iris instance) or inside a running instance/app
srv = api.ListenVirtual(api.Config.Tester.ListeningAddr)
}
opened := api.Servers.GetAllOpened()
h := srv.Handler
baseURL := srv.FullHost()
if len(opened) > 1 {
baseURL = ""
//we have more than one server, so we will create a handler here and redirect by registered listening addresses
h = func(reqCtx *fasthttp.RequestCtx) {
for _, s := range opened {
if strings.HasPrefix(reqCtx.URI().String(), s.FullHost()) { // yes on :80 should be passed :80 also, this is inneed for multiserver testing
s.Handler(reqCtx)
break
}
}
}
}
if api.Config.Tester.ExplicitURL {
baseURL = ""
}
testConfiguration := httpexpect.Config{
BaseURL: baseURL,
Client: &http.Client{
Transport: httpexpect.NewFastBinder(h),
Jar: httpexpect.NewJar(),
},
Reporter: httpexpect.NewAssertReporter(t),
}
if api.Config.Tester.Debug {
testConfiguration.Printers = []httpexpect.Printer{
httpexpect.NewDebugPrinter(t, true),
}
}
return httpexpect.WithConfig(testConfiguration)
}
// Tester returns the test framework for this default insance
func Tester(t *testing.T) *httpexpect.Expect {
return Default.Tester(t)
}
// Tester returns the test framework for this iris insance
func (s *Framework) Tester(t *testing.T) *httpexpect.Expect {
if s.testFramework == nil {
s.testFramework = NewTester(s, t)
}
return s.testFramework
}
// -------------------------------------------------------------------------------------
// -------------------------------------------------------------------------------------
// ----------------------------------MuxAPI implementation------------------------------
// -------------------------------------------------------------------------------------
// -------------------------------------------------------------------------------------
type (
// RouteNameFunc the func returns from the MuxAPi's methods, optionally sets the name of the Route (*route)
RouteNameFunc func(string)
// MuxAPI the visible api for the serveMux
MuxAPI interface {
Party(string, ...HandlerFunc) MuxAPI
// middleware serial, appending
Use(...Handler)
UseFunc(...HandlerFunc)
// main handlers
Handle(string, string, ...Handler) RouteNameFunc
HandleFunc(string, string, ...HandlerFunc) RouteNameFunc
// H_ is used to convert a context.IContext handler func to iris.HandlerFunc, is used only inside iris internal package to avoid import cycles
H_(string, string, func(context.IContext)) func(string)
API(string, HandlerAPI, ...HandlerFunc)
// http methods
Get(string, ...HandlerFunc) RouteNameFunc
Post(string, ...HandlerFunc) RouteNameFunc
Put(string, ...HandlerFunc) RouteNameFunc
Delete(string, ...HandlerFunc) RouteNameFunc
Connect(string, ...HandlerFunc) RouteNameFunc
Head(string, ...HandlerFunc) RouteNameFunc
Options(string, ...HandlerFunc) RouteNameFunc
Patch(string, ...HandlerFunc) RouteNameFunc
Trace(string, ...HandlerFunc) RouteNameFunc
Any(string, ...HandlerFunc)
// static content
StaticHandler(string, int, bool, bool, []string) HandlerFunc
Static(string, string, int) RouteNameFunc
StaticFS(string, string, int) RouteNameFunc
StaticWeb(string, string, int) RouteNameFunc
StaticServe(string, ...string) RouteNameFunc
StaticContent(string, string, []byte) func(string)
Favicon(string, ...string) RouteNameFunc
// templates
Layout(string) MuxAPI // returns itself
}
muxAPI struct {
mux *serveMux
relativePath string
middleware Middleware
}
)
var _ MuxAPI = &muxAPI{}
var (
// errAPIContextNotFound returns an error with message: 'From .API: "Context *iris.Context could not be found..'
errAPIContextNotFound = errors.New("From .API: Context *iris.Context could not be found.")
// errDirectoryFileNotFound returns an error with message: 'Directory or file %s couldn't found. Trace: +error trace'
errDirectoryFileNotFound = errors.New("Directory or file %s couldn't found. Trace: %s")
)
// Party is just a group joiner of routes which have the same prefix and share same middleware(s) also.
// Party can also be named as 'Join' or 'Node' or 'Group' , Party chosen because it has more fun
func Party(relativePath string, handlersFn ...HandlerFunc) MuxAPI {
return Default.Party(relativePath, handlersFn...)
}
// Party is just a group joiner of routes which have the same prefix and share same middleware(s) also.
// Party can also be named as 'Join' or 'Node' or 'Group' , Party chosen because it has more fun
func (api *muxAPI) Party(relativePath string, handlersFn ...HandlerFunc) MuxAPI {
parentPath := api.relativePath
dot := string(subdomainIndicator[0])
if len(parentPath) > 0 && parentPath[0] == slashByte && strings.HasSuffix(relativePath, dot) { // if ends with . , example: admin., it's subdomain->
parentPath = parentPath[1:] // remove first slash
}
fullpath := parentPath + relativePath
middleware := convertToHandlers(handlersFn)
// append the parent's +child's handlers
middleware = joinMiddleware(api.middleware, middleware)
return &muxAPI{relativePath: fullpath, mux: api.mux, middleware: middleware}
}
// Use registers Handler middleware
func Use(handlers ...Handler) {
Default.Use(handlers...)
}
// UseFunc registers HandlerFunc middleware
func UseFunc(handlersFn ...HandlerFunc) {
Default.UseFunc(handlersFn...)
}
// Use registers Handler middleware
func (api *muxAPI) Use(handlers ...Handler) {
api.middleware = append(api.middleware, handlers...)
}
// UseFunc registers HandlerFunc middleware
func (api *muxAPI) UseFunc(handlersFn ...HandlerFunc) {
api.Use(convertToHandlers(handlersFn)...)
}
// Handle registers a route to the server's router
// if empty method is passed then registers handler(s) for all methods, same as .Any, but returns nil as result
func Handle(method string, registedPath string, handlers ...Handler) RouteNameFunc {
return Default.Handle(method, registedPath, handlers...)
}
// HandleFunc registers and returns a route with a method string, path string and a handler
// registedPath is the relative url path
func HandleFunc(method string, registedPath string, handlersFn ...HandlerFunc) RouteNameFunc {
return Default.HandleFunc(method, registedPath, handlersFn...)
}
// Handle registers a route to the server's router
// if empty method is passed then registers handler(s) for all methods, same as .Any, but returns nil as result
func (api *muxAPI) Handle(method string, registedPath string, handlers ...Handler) RouteNameFunc {
if method == "" { // then use like it was .Any
for _, k := range AllMethods {
api.Handle(k, registedPath, handlers...)
}
return nil
}
fullpath := api.relativePath + registedPath // keep the last "/" if any, "/xyz/"
middleware := joinMiddleware(api.middleware, handlers)
// here we separate the subdomain and relative path
subdomain := ""
path := fullpath
if dotWSlashIdx := strings.Index(path, subdomainIndicator); dotWSlashIdx > 0 {
subdomain = fullpath[0 : dotWSlashIdx+1] // admin.
path = fullpath[dotWSlashIdx+1:] // /
}
path = strings.Replace(path, "//", "/", -1) // fix the path if double //
return api.mux.register([]byte(method), subdomain, path, middleware).setName
}
// HandleFunc registers and returns a route with a method string, path string and a handler
// registedPath is the relative url path
func (api *muxAPI) HandleFunc(method string, registedPath string, handlersFn ...HandlerFunc) RouteNameFunc {
return api.Handle(method, registedPath, convertToHandlers(handlersFn)...)
}
// H_ is used to convert a context.IContext handler func to iris.HandlerFunc, is used only inside iris internal package to avoid import cycles
func (api *muxAPI) H_(method string, registedPath string, fn func(context.IContext)) func(string) {
return api.HandleFunc(method, registedPath, func(ctx *Context) {
fn(ctx)
})
}
// API converts & registers a custom struct to the router
// receives two parameters
// first is the request path (string)
// second is the custom struct (interface{}) which can be anything that has a *iris.Context as field.
// third is the common middlewares, it's optional
//
// Note that API's routes have their default-name to the full registed path,
// no need to give a special name for it, because it's not supposed to be used inside your templates.
//
// Recommend to use when you retrieve data from an external database,
// and the router-performance is not the (only) thing which slows the server's overall performance.
//
// This is a slow method, if you care about router-performance use the Handle/HandleFunc/Get/Post/Put/Delete/Trace/Options... instead
func API(path string, restAPI HandlerAPI, middleware ...HandlerFunc) {
Default.API(path, restAPI, middleware...)
}
// API converts & registers a custom struct to the router
// receives two parameters
// first is the request path (string)
// second is the custom struct (interface{}) which can be anything that has a *iris.Context as field.
// third is the common middleware, it's optional
//
// Note that API's routes have their default-name to the full registed path,
// no need to give a special name for it, because it's not supposed to be used inside your templates.
//
// Recommend to use when you retrieve data from an external database,
// and the router-performance is not the (only) thing which slows the server's overall performance.
//
// This is a slow method, if you care about router-performance use the Handle/HandleFunc/Get/Post/Put/Delete/Trace/Options... instead
func (api *muxAPI) API(path string, restAPI HandlerAPI, middleware ...HandlerFunc) {
// here we need to find the registed methods and convert them to handler funcs
// methods are collected by method naming: Get(),GetBy(...), Post(),PostBy(...), Put() and so on
typ := reflect.ValueOf(restAPI).Type()
contextField, found := typ.FieldByName("Context")
if !found {
panic(errAPIContextNotFound.Return())
}
// check & register the Get(),Post(),Put(),Delete() and so on
for _, methodName := range AllMethods {
methodCapitalName := strings.Title(strings.ToLower(methodName))
if method, found := typ.MethodByName(methodCapitalName); found {
methodFunc := method.Func
if !methodFunc.IsValid() || methodFunc.Type().NumIn() > 1 { // for any case
continue
}
func(path string, typ reflect.Type, contextField reflect.StructField, methodFunc reflect.Value, method string) {
var handlersFn []HandlerFunc
handlersFn = append(handlersFn, middleware...)
handlersFn = append(handlersFn, func(ctx *Context) {
newController := reflect.New(typ).Elem()
newController.FieldByName("Context").Set(reflect.ValueOf(ctx))
methodFunc.Call([]reflect.Value{newController})
})
// register route
api.HandleFunc(method, path, handlersFn...)
}(path, typ, contextField, methodFunc, methodName)
}
}
// check for GetBy/PostBy(id string, something_else string) , these must be requested by the same order.
// (we could do this in the same top loop but I don't want)
// GET, DELETE -> with url named parameters (/users/:id/:secondArgumentIfExists)
// POST, PUT -> with post values (form)
// all other with URL Parameters (?something=this&else=other
//
// or no, I changed my mind, let all be named parameters and let users to decide what info they need,
// using the Context to take more values (post form,url params and so on).-
for _, methodName := range AllMethods {
methodWithBy := strings.Title(strings.ToLower(methodName)) + "By"
if method, found := typ.MethodByName(methodWithBy); found {
methodFunc := method.Func
if !methodFunc.IsValid() || methodFunc.Type().NumIn() < 2 { //it's By but it has not receive any arguments so its not api's
continue
}
methodFuncType := methodFunc.Type()
numInLen := methodFuncType.NumIn() // how much data we should receive from the request
registedPath := path
for i := 1; i < numInLen; i++ { // from 1 because the first is the 'object'
if registedPath[len(registedPath)-1] == slashByte {
registedPath += ":param" + strconv.Itoa(i)
} else {
registedPath += "/:param" + strconv.Itoa(i)
}
}
func(registedPath string, typ reflect.Type, contextField reflect.StructField, methodFunc reflect.Value, paramsLen int, method string) {
var handlersFn []HandlerFunc
handlersFn = append(handlersFn, middleware...)
handlersFn = append(handlersFn, func(ctx *Context) {
newController := reflect.New(typ).Elem()
newController.FieldByName("Context").Set(reflect.ValueOf(ctx))
args := make([]reflect.Value, paramsLen+1, paramsLen+1)
args[0] = newController
for i := 0; i < paramsLen; i++ {
args[i+1] = reflect.ValueOf(ctx.Params[i].Value)
}
methodFunc.Call(args)
})
// register route
api.HandleFunc(method, registedPath, handlersFn...)
}(registedPath, typ, contextField, methodFunc, numInLen-1, methodName)
}
}
}
// Get registers a route for the Get http method
func Get(path string, handlersFn ...HandlerFunc) RouteNameFunc {
return Default.Get(path, handlersFn...)
}
// Post registers a route for the Post http method
func Post(path string, handlersFn ...HandlerFunc) RouteNameFunc {
return Default.Post(path, handlersFn...)
}
// Put registers a route for the Put http method
func Put(path string, handlersFn ...HandlerFunc) RouteNameFunc {
return Default.Put(path, handlersFn...)
}
// Delete registers a route for the Delete http method
func Delete(path string, handlersFn ...HandlerFunc) RouteNameFunc {
return Default.Delete(path, handlersFn...)
}
// Connect registers a route for the Connect http method
func Connect(path string, handlersFn ...HandlerFunc) RouteNameFunc {
return Default.Connect(path, handlersFn...)
}
// Head registers a route for the Head http method
func Head(path string, handlersFn ...HandlerFunc) RouteNameFunc {
return Default.Head(path, handlersFn...)
}
// Options registers a route for the Options http method
func Options(path string, handlersFn ...HandlerFunc) RouteNameFunc {
return Default.Options(path, handlersFn...)
}
// Patch registers a route for the Patch http method
func Patch(path string, handlersFn ...HandlerFunc) RouteNameFunc {
return Default.Patch(path, handlersFn...)
}
// Trace registers a route for the Trace http method
func Trace(path string, handlersFn ...HandlerFunc) RouteNameFunc {
return Default.Trace(path, handlersFn...)
}
// Any registers a route for ALL of the http methods (Get,Post,Put,Head,Patch,Options,Connect,Delete)
func Any(registedPath string, handlersFn ...HandlerFunc) {
Default.Any(registedPath, handlersFn...)
}
// Get registers a route for the Get http method
func (api *muxAPI) Get(path string, handlersFn ...HandlerFunc) RouteNameFunc {
return api.HandleFunc(MethodGet, path, handlersFn...)
}
// Post registers a route for the Post http method
func (api *muxAPI) Post(path string, handlersFn ...HandlerFunc) RouteNameFunc {
return api.HandleFunc(MethodPost, path, handlersFn...)
}
// Put registers a route for the Put http method
func (api *muxAPI) Put(path string, handlersFn ...HandlerFunc) RouteNameFunc {
return api.HandleFunc(MethodPut, path, handlersFn...)
}
// Delete registers a route for the Delete http method
func (api *muxAPI) Delete(path string, handlersFn ...HandlerFunc) RouteNameFunc {
return api.HandleFunc(MethodDelete, path, handlersFn...)
}
// Connect registers a route for the Connect http method
func (api *muxAPI) Connect(path string, handlersFn ...HandlerFunc) RouteNameFunc {
return api.HandleFunc(MethodConnect, path, handlersFn...)
}
// Head registers a route for the Head http method
func (api *muxAPI) Head(path string, handlersFn ...HandlerFunc) RouteNameFunc {
return api.HandleFunc(MethodHead, path, handlersFn...)
}
// Options registers a route for the Options http method
func (api *muxAPI) Options(path string, handlersFn ...HandlerFunc) RouteNameFunc {
return api.HandleFunc(MethodOptions, path, handlersFn...)
}
// Patch registers a route for the Patch http method
func (api *muxAPI) Patch(path string, handlersFn ...HandlerFunc) RouteNameFunc {
return api.HandleFunc(MethodPatch, path, handlersFn...)
}
// Trace registers a route for the Trace http method
func (api *muxAPI) Trace(path string, handlersFn ...HandlerFunc) RouteNameFunc {
return api.HandleFunc(MethodTrace, path, handlersFn...)
}
// Any registers a route for ALL of the http methods (Get,Post,Put,Head,Patch,Options,Connect,Delete)
func (api *muxAPI) Any(registedPath string, handlersFn ...HandlerFunc) {
for _, k := range AllMethods {
api.HandleFunc(k, registedPath, handlersFn...)
}
}
// StaticHandler returns a Handler to serve static system directory
// Accepts 5 parameters
//
// first is the systemPath (string)
// Path to the root directory to serve files from.
//
// second is the stripSlashes (int) level
// * stripSlashes = 0, original path: "/foo/bar", result: "/foo/bar"
// * stripSlashes = 1, original path: "/foo/bar", result: "/bar"
// * stripSlashes = 2, original path: "/foo/bar", result: ""
//
// third is the compress (bool)
// Transparently compresses responses if set to true.
//
// The server tries minimizing CPU usage by caching compressed files.
// It adds fasthttp.FSCompressedFileSuffix suffix to the original file name and
// tries saving the resulting compressed file under the new file name.
// So it is advisable to give the server write access to Root
// and to all inner folders in order to minimze CPU usage when serving
// compressed responses.
//
// fourth is the generateIndexPages (bool)
// Index pages for directories without files matching IndexNames
// are automatically generated if set.
//
// Directory index generation may be quite slow for directories
// with many files (more than 1K), so it is discouraged enabling
// index pages' generation for such directories.
//
// fifth is the indexNames ([]string)
// List of index file names to try opening during directory access.
//
// For example:
//
// * index.html
// * index.htm
// * my-super-index.xml
//
func StaticHandler(systemPath string, stripSlashes int, compress bool, generateIndexPages bool, indexNames []string) HandlerFunc {
return Default.StaticHandler(systemPath, stripSlashes, compress, generateIndexPages, indexNames)
}
// StaticHandler returns a Handler to serve static system directory
// Accepts 5 parameters
//
// first is the systemPath (string)
// Path to the root directory to serve files from.
//
// second is the stripSlashes (int) level
// * stripSlashes = 0, original path: "/foo/bar", result: "/foo/bar"
// * stripSlashes = 1, original path: "/foo/bar", result: "/bar"
// * stripSlashes = 2, original path: "/foo/bar", result: ""
//
// third is the compress (bool)
// Transparently compresses responses if set to true.
//
// The server tries minimizing CPU usage by caching compressed files.
// It adds fasthttp.FSCompressedFileSuffix suffix to the original file name and
// tries saving the resulting compressed file under the new file name.
// So it is advisable to give the server write access to Root
// and to all inner folders in order to minimze CPU usage when serving
// compressed responses.
//
// fourth is the generateIndexPages (bool)
// Index pages for directories without files matching IndexNames
// are automatically generated if set.
//
// Directory index generation may be quite slow for directories
// with many files (more than 1K), so it is discouraged enabling
// index pages' generation for such directories.
//
// fifth is the indexNames ([]string)
// List of index file names to try opening during directory access.
//
// For example:
//
// * index.html
// * index.htm
// * my-super-index.xml
//
func (api *muxAPI) StaticHandler(systemPath string, stripSlashes int, compress bool, generateIndexPages bool, indexNames []string) HandlerFunc {
if indexNames == nil {
indexNames = []string{}
}
fs := &fasthttp.FS{
// Path to directory to serve.
Root: systemPath,
IndexNames: indexNames,
// Generate index pages if client requests directory contents.
GenerateIndexPages: generateIndexPages,
// Enable transparent compression to save network traffic.
Compress: compress,
CacheDuration: config.StaticCacheDuration,
CompressedFileSuffix: config.CompressedFileSuffix,
}
if stripSlashes > 0 {
fs.PathRewrite = fasthttp.NewPathSlashesStripper(stripSlashes)
}
// Create request handler for serving static files.
h := fs.NewRequestHandler()
return HandlerFunc(func(ctx *Context) {
h(ctx.RequestCtx)
errCode := ctx.RequestCtx.Response.StatusCode()
if errCode == StatusNotFound || errCode == StatusBadRequest || errCode == StatusInternalServerError {
api.mux.fireError(errCode, ctx)
}
if ctx.pos < uint8(len(ctx.middleware))-1 {
ctx.Next() // for any case
}
})
}
// Static registers a route which serves a system directory
// this doesn't generates an index page which list all files
// no compression is used also, for these features look at StaticFS func
// accepts three parameters
// first parameter is the request url path (string)
// second parameter is the system directory (string)
// third parameter is the level (int) of stripSlashes
// * stripSlashes = 0, original path: "/foo/bar", result: "/foo/bar"
// * stripSlashes = 1, original path: "/foo/bar", result: "/bar"
// * stripSlashes = 2, original path: "/foo/bar", result: ""
func Static(relative string, systemPath string, stripSlashes int) RouteNameFunc {
return Default.Static(relative, systemPath, stripSlashes)
}
// Static registers a route which serves a system directory
// this doesn't generates an index page which list all files
// no compression is used also, for these features look at StaticFS func
// accepts three parameters
// first parameter is the request url path (string)
// second parameter is the system directory (string)
// third parameter is the level (int) of stripSlashes
// * stripSlashes = 0, original path: "/foo/bar", result: "/foo/bar"
// * stripSlashes = 1, original path: "/foo/bar", result: "/bar"
// * stripSlashes = 2, original path: "/foo/bar", result: ""
func (api *muxAPI) Static(relative string, systemPath string, stripSlashes int) RouteNameFunc {
if relative[len(relative)-1] != slashByte { // if / then /*filepath, if /something then /something/*filepath
relative += slash
}
h := api.StaticHandler(systemPath, stripSlashes, false, false, nil)
api.Head(relative+"*filepath", h)
return api.Get(relative+"*filepath", h)
}
// StaticFS registers a route which serves a system directory
// this is the fastest method to serve static files
// generates an index page which list all files
// if you use this method it will generate compressed files also
// think this function as small fileserver with http
// accepts three parameters
// first parameter is the request url path (string)
// second parameter is the system directory (string)
// third parameter is the level (int) of stripSlashes
// * stripSlashes = 0, original path: "/foo/bar", result: "/foo/bar"
// * stripSlashes = 1, original path: "/foo/bar", result: "/bar"
// * stripSlashes = 2, original path: "/foo/bar", result: ""
func StaticFS(reqPath string, systemPath string, stripSlashes int) RouteNameFunc {
return Default.StaticFS(reqPath, systemPath, stripSlashes)
}
// StaticFS registers a route which serves a system directory
// this is the fastest method to serve static files
// generates an index page which list all files
// if you use this method it will generate compressed files also
// think this function as small fileserver with http
// accepts three parameters
// first parameter is the request url path (string)
// second parameter is the system directory (string)
// third parameter is the level (int) of stripSlashes
// * stripSlashes = 0, original path: "/foo/bar", result: "/foo/bar"
// * stripSlashes = 1, original path: "/foo/bar", result: "/bar"
// * stripSlashes = 2, original path: "/foo/bar", result: ""
func (api *muxAPI) StaticFS(reqPath string, systemPath string, stripSlashes int) RouteNameFunc {
if reqPath[len(reqPath)-1] != slashByte {
reqPath += slash
}
h := api.StaticHandler(systemPath, stripSlashes, true, true, nil)
api.Head(reqPath+"*filepath", h)
return api.Get(reqPath+"*filepath", h)
}
// StaticWeb same as Static but if index.html exists and request uri is '/' then display the index.html's contents
// accepts three parameters
// first parameter is the request url path (string)
// second parameter is the system directory (string)
// third parameter is the level (int) of stripSlashes
// * stripSlashes = 0, original path: "/foo/bar", result: "/foo/bar"
// * stripSlashes = 1, original path: "/foo/bar", result: "/bar"
// * stripSlashes = 2, original path: "/foo/bar", result: ""
// * if you don't know what to put on stripSlashes just 1
func StaticWeb(reqPath string, systemPath string, stripSlashes int) RouteNameFunc {
return Default.StaticWeb(reqPath, systemPath, stripSlashes)
}
// StaticWeb same as Static but if index.html exists and request uri is '/' then display the index.html's contents
// accepts three parameters
// first parameter is the request url path (string)
// second parameter is the system directory (string)
// third parameter is the level (int) of stripSlashes
// * stripSlashes = 0, original path: "/foo/bar", result: "/foo/bar"
// * stripSlashes = 1, original path: "/foo/bar", result: "/bar"
// * stripSlashes = 2, original path: "/foo/bar", result: ""
// * if you don't know what to put on stripSlashes just 1
func (api *muxAPI) StaticWeb(reqPath string, systemPath string, stripSlashes int) RouteNameFunc {
if reqPath[len(reqPath)-1] != slashByte { // if / then /*filepath, if /something then /something/*filepath
reqPath += slash
}
hasIndex := utils.Exists(systemPath + utils.PathSeparator + "index.html")
serveHandler := api.StaticHandler(systemPath, stripSlashes, false, !hasIndex, nil) // if not index.html exists then generate index.html which shows the list of files
indexHandler := func(ctx *Context) {
if len(ctx.Param("filepath")) < 2 && hasIndex {
ctx.Request.SetRequestURI("index.html")
}
ctx.Next()
}
api.Head(reqPath+"*filepath", indexHandler, serveHandler)
return api.Get(reqPath+"*filepath", indexHandler, serveHandler)
}
// 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&HEAD routes)
// if second parameter is empty, otherwise the requestPath is the second parameter
// it uses gzip compression (compression on each request, no file cache)
func StaticServe(systemPath string, requestPath ...string) RouteNameFunc {
return Default.StaticServe(systemPath, requestPath...)
}
// 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&HEAD routes)
// if second parameter is empty, otherwise the requestPath is the second parameter
// it uses gzip compression (compression on each request, no file cache)
func (api *muxAPI) StaticServe(systemPath string, requestPath ...string) RouteNameFunc {
var reqPath string
if len(requestPath) == 0 {
reqPath = strings.Replace(systemPath, utils.PathSeparator, slash, -1) // replaces any \ to /
reqPath = strings.Replace(reqPath, "//", slash, -1) // for any case, replaces // to /
reqPath = strings.Replace(reqPath, ".", "", -1) // replace any dots (./mypath -> /mypath)
} else {
reqPath = requestPath[0]
}
return api.Get(reqPath+"/*file", func(ctx *Context) {
filepath := ctx.Param("file")
spath := strings.Replace(filepath, "/", utils.PathSeparator, -1)
spath = path.Join(systemPath, spath)
if !utils.DirectoryExists(spath) {
ctx.NotFound()
return
}
ctx.ServeFile(spath, true)
})
}
// StaticContent serves bytes, memory cached, on the reqPath
// a good example of this is how the websocket server uses that to auto-register the /iris-ws.js
func StaticContent(reqPath string, contentType string, content []byte) RouteNameFunc {
return Default.StaticContent(reqPath, contentType, content)
}
// StaticContent serves bytes, memory cached, on the reqPath
// a good example of this is how the websocket server uses that to auto-register the /iris-ws.js
func (api *muxAPI) StaticContent(reqPath string, cType string, content []byte) func(string) { // func(string) because we use that on websockets
modtime := time.Now()
modtimeStr := modtime.UTC().Format(config.TimeFormat)
h := func(ctx *Context) {
if t, err := time.Parse(config.TimeFormat, ctx.RequestHeader(ifModifiedSince)); err == nil && modtime.Before(t.Add(config.StaticCacheDuration)) {
ctx.Response.Header.Del(contentType)
ctx.Response.Header.Del(contentLength)
ctx.SetStatusCode(StatusNotModified)
return
}
ctx.Response.Header.Set(contentType, cType)
ctx.Response.Header.Set(lastModified, modtimeStr)
ctx.SetStatusCode(StatusOK)
ctx.Response.SetBody(content)
}
api.Head(reqPath, h)
return api.Get(reqPath, h)
}
// 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 (dekstop, mobile and so on)
//
// panics on error
func Favicon(favPath string, requestPath ...string) RouteNameFunc {
return Default.Favicon(favPath, requestPath...)
}
// 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 (dekstop, mobile and so on)
//
// panics on error
func (api *muxAPI) Favicon(favPath string, requestPath ...string) RouteNameFunc {
f, err := os.Open(favPath)
if err != nil {
panic(errDirectoryFileNotFound.Format(favPath, err.Error()))
}
defer f.Close()
fi, _ := f.Stat()
if fi.IsDir() { // if it's dir the try to get the favicon.ico
fav := path.Join(favPath, "favicon.ico")
f, err = os.Open(fav)
if err != nil {
//we try again with .png
return api.Favicon(path.Join(favPath, "favicon.png"))
}
favPath = fav
fi, _ = f.Stat()
}
modtime := fi.ModTime().UTC().Format(config.TimeFormat)
cType := utils.TypeByExtension(favPath)
// 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 {
panic(errDirectoryFileNotFound.Format(favPath, "Couldn't read the data bytes for Favicon: "+err.Error()))
}
h := func(ctx *Context) {
if t, err := time.Parse(config.TimeFormat, ctx.RequestHeader(ifModifiedSince)); err == nil && fi.ModTime().Before(t.Add(config.StaticCacheDuration)) {
ctx.Response.Header.Del(contentType)
ctx.Response.Header.Del(contentLength)
ctx.SetStatusCode(StatusNotModified)
return
}
ctx.Response.Header.Set(contentType, cType)
ctx.Response.Header.Set(lastModified, modtime)
ctx.SetStatusCode(StatusOK)
ctx.Response.SetBody(cacheFav)
}
reqPath := "/favicon" + path.Ext(fi.Name()) //we could use the filename, but because standards is /favicon.ico/.png.
if len(requestPath) > 0 {
reqPath = requestPath[0]
}
api.Head(reqPath, h)
return api.Get(reqPath, h)
}
// Layout oerrides the parent template layout with a more specific layout for this Party
// returns this Party, to continue as normal
// example:
// my := iris.Party("/my").Layout("layouts/mylayout.html")
// {
// my.Get("/", func(ctx *iris.Context) {
// ctx.MustRender("page1.html", nil)
// })
// }
//
func (api *muxAPI) Layout(tmplLayoutFile string) MuxAPI {
api.UseFunc(func(ctx *Context) {
ctx.Set(TemplateLayoutContextKey, tmplLayoutFile)
ctx.Next()
})
return api
}