// Copyright 2014 beego Author. All Rights Reserved. // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. package web import ( "crypto/tls" "crypto/x509" "fmt" "io/ioutil" "net" "net/http" "net/http/fcgi" "os" "path" "strconv" "strings" "text/template" "time" "golang.org/x/crypto/acme/autocert" "github.com/astaxie/beego/pkg/infrastructure/logs" beecontext "github.com/astaxie/beego/pkg/server/web/context" "github.com/astaxie/beego/pkg/infrastructure/utils" "github.com/astaxie/beego/pkg/server/web/grace" ) var ( // BeeApp is an application instance // If you are using single server, you could use this // But if you need multiple servers, do not use this BeeApp *HttpServer ) func init() { // create beego application BeeApp = NewHttpSever() } // HttpServer defines beego application with a new PatternServeMux. type HttpServer struct { Handlers *ControllerRegister Server *http.Server Cfg *Config } // NewHttpSever returns a new beego application. // this method will use the BConfig as the configure to create HttpServer // Be careful that when you update BConfig, the server's Cfg will not be updated func NewHttpSever() *HttpServer { return NewHttpServerWithCfg(*BConfig) } // NewHttpServerWithCfg will create an sever with specific cfg func NewHttpServerWithCfg(cfg Config) *HttpServer { cfgPtr := &cfg cr := NewControllerRegisterWithCfg(cfgPtr) app := &HttpServer{ Handlers: cr, Server: &http.Server{}, Cfg: cfgPtr, } return app } // MiddleWare function for http.Handler type MiddleWare func(http.Handler) http.Handler // Run beego application. func (app *HttpServer) Run(addr string, mws ...MiddleWare) { initBeforeHTTPRun() app.initAddr(addr) addr = app.Cfg.Listen.HTTPAddr if app.Cfg.Listen.HTTPPort != 0 { addr = fmt.Sprintf("%s:%d", app.Cfg.Listen.HTTPAddr, app.Cfg.Listen.HTTPPort) } var ( err error l net.Listener endRunning = make(chan bool, 1) ) // run cgi server if app.Cfg.Listen.EnableFcgi { if app.Cfg.Listen.EnableStdIo { if err = fcgi.Serve(nil, app.Handlers); err == nil { // standard I/O logs.Info("Use FCGI via standard I/O") } else { logs.Critical("Cannot use FCGI via standard I/O", err) } return } if app.Cfg.Listen.HTTPPort == 0 { // remove the Socket file before start if utils.FileExists(addr) { os.Remove(addr) } l, err = net.Listen("unix", addr) } else { l, err = net.Listen("tcp", addr) } if err != nil { logs.Critical("Listen: ", err) } if err = fcgi.Serve(l, app.Handlers); err != nil { logs.Critical("fcgi.Serve: ", err) } return } app.Server.Handler = app.Handlers for i := len(mws) - 1; i >= 0; i-- { if mws[i] == nil { continue } app.Server.Handler = mws[i](app.Server.Handler) } app.Server.ReadTimeout = time.Duration(app.Cfg.Listen.ServerTimeOut) * time.Second app.Server.WriteTimeout = time.Duration(app.Cfg.Listen.ServerTimeOut) * time.Second app.Server.ErrorLog = logs.GetLogger("HTTP") // run graceful mode if app.Cfg.Listen.Graceful { httpsAddr := app.Cfg.Listen.HTTPSAddr app.Server.Addr = httpsAddr if app.Cfg.Listen.EnableHTTPS || app.Cfg.Listen.EnableMutualHTTPS { go func() { time.Sleep(1000 * time.Microsecond) if app.Cfg.Listen.HTTPSPort != 0 { httpsAddr = fmt.Sprintf("%s:%d", app.Cfg.Listen.HTTPSAddr, app.Cfg.Listen.HTTPSPort) app.Server.Addr = httpsAddr } server := grace.NewServer(httpsAddr, app.Server.Handler) server.Server.ReadTimeout = app.Server.ReadTimeout server.Server.WriteTimeout = app.Server.WriteTimeout if app.Cfg.Listen.EnableMutualHTTPS { if err := server.ListenAndServeMutualTLS(app.Cfg.Listen.HTTPSCertFile, app.Cfg.Listen.HTTPSKeyFile, app.Cfg.Listen.TrustCaFile); err != nil { logs.Critical("ListenAndServeTLS: ", err, fmt.Sprintf("%d", os.Getpid())) time.Sleep(100 * time.Microsecond) } } else { if app.Cfg.Listen.AutoTLS { m := autocert.Manager{ Prompt: autocert.AcceptTOS, HostPolicy: autocert.HostWhitelist(app.Cfg.Listen.Domains...), Cache: autocert.DirCache(app.Cfg.Listen.TLSCacheDir), } app.Server.TLSConfig = &tls.Config{GetCertificate: m.GetCertificate} app.Cfg.Listen.HTTPSCertFile, app.Cfg.Listen.HTTPSKeyFile = "", "" } if err := server.ListenAndServeTLS(app.Cfg.Listen.HTTPSCertFile, app.Cfg.Listen.HTTPSKeyFile); err != nil { logs.Critical("ListenAndServeTLS: ", err, fmt.Sprintf("%d", os.Getpid())) time.Sleep(100 * time.Microsecond) } } endRunning <- true }() } if app.Cfg.Listen.EnableHTTP { go func() { server := grace.NewServer(addr, app.Server.Handler) server.Server.ReadTimeout = app.Server.ReadTimeout server.Server.WriteTimeout = app.Server.WriteTimeout if app.Cfg.Listen.ListenTCP4 { server.Network = "tcp4" } if err := server.ListenAndServe(); err != nil { logs.Critical("ListenAndServe: ", err, fmt.Sprintf("%d", os.Getpid())) time.Sleep(100 * time.Microsecond) } endRunning <- true }() } <-endRunning return } // run normal mode if app.Cfg.Listen.EnableHTTPS || app.Cfg.Listen.EnableMutualHTTPS { go func() { time.Sleep(1000 * time.Microsecond) if app.Cfg.Listen.HTTPSPort != 0 { app.Server.Addr = fmt.Sprintf("%s:%d", app.Cfg.Listen.HTTPSAddr, app.Cfg.Listen.HTTPSPort) } else if app.Cfg.Listen.EnableHTTP { logs.Info("Start https server error, conflict with http. Please reset https port") return } logs.Info("https server Running on https://%s", app.Server.Addr) if app.Cfg.Listen.AutoTLS { m := autocert.Manager{ Prompt: autocert.AcceptTOS, HostPolicy: autocert.HostWhitelist(app.Cfg.Listen.Domains...), Cache: autocert.DirCache(app.Cfg.Listen.TLSCacheDir), } app.Server.TLSConfig = &tls.Config{GetCertificate: m.GetCertificate} app.Cfg.Listen.HTTPSCertFile, app.Cfg.Listen.HTTPSKeyFile = "", "" } else if app.Cfg.Listen.EnableMutualHTTPS { pool := x509.NewCertPool() data, err := ioutil.ReadFile(app.Cfg.Listen.TrustCaFile) if err != nil { logs.Info("MutualHTTPS should provide TrustCaFile") return } pool.AppendCertsFromPEM(data) app.Server.TLSConfig = &tls.Config{ ClientCAs: pool, ClientAuth: tls.ClientAuthType(app.Cfg.Listen.ClientAuth), } } if err := app.Server.ListenAndServeTLS(app.Cfg.Listen.HTTPSCertFile, app.Cfg.Listen.HTTPSKeyFile); err != nil { logs.Critical("ListenAndServeTLS: ", err) time.Sleep(100 * time.Microsecond) endRunning <- true } }() } if app.Cfg.Listen.EnableHTTP { go func() { app.Server.Addr = addr logs.Info("http server Running on http://%s", app.Server.Addr) if app.Cfg.Listen.ListenTCP4 { ln, err := net.Listen("tcp4", app.Server.Addr) if err != nil { logs.Critical("ListenAndServe: ", err) time.Sleep(100 * time.Microsecond) endRunning <- true return } if err = app.Server.Serve(ln); err != nil { logs.Critical("ListenAndServe: ", err) time.Sleep(100 * time.Microsecond) endRunning <- true return } } else { if err := app.Server.ListenAndServe(); err != nil { logs.Critical("ListenAndServe: ", err) time.Sleep(100 * time.Microsecond) endRunning <- true } } }() } <-endRunning } func (app *HttpServer) Start() { } // Router see HttpServer.Router func Router(rootpath string, c ControllerInterface, mappingMethods ...string) *HttpServer { return BeeApp.Router(rootpath, c, mappingMethods...) } // Router adds a patterned controller handler to BeeApp. // it's an alias method of HttpServer.Router. // usage: // simple router // beego.Router("/admin", &admin.UserController{}) // beego.Router("/admin/index", &admin.ArticleController{}) // // regex router // // beego.Router("/api/:id([0-9]+)", &controllers.RController{}) // // custom rules // beego.Router("/api/list",&RestController{},"*:ListFood") // beego.Router("/api/create",&RestController{},"post:CreateFood") // beego.Router("/api/update",&RestController{},"put:UpdateFood") // beego.Router("/api/delete",&RestController{},"delete:DeleteFood") func (app *HttpServer) Router(rootPath string, c ControllerInterface, mappingMethods ...string) *HttpServer { app.Handlers.Add(rootPath, c, mappingMethods...) return app } // UnregisterFixedRoute see HttpServer.UnregisterFixedRoute func UnregisterFixedRoute(fixedRoute string, method string) *HttpServer { return BeeApp.UnregisterFixedRoute(fixedRoute, method) } // UnregisterFixedRoute unregisters the route with the specified fixedRoute. It is particularly useful // in web applications that inherit most routes from a base webapp via the underscore // import, and aim to overwrite only certain paths. // The method parameter can be empty or "*" for all HTTP methods, or a particular // method type (e.g. "GET" or "POST") for selective removal. // // Usage (replace "GET" with "*" for all methods): // beego.UnregisterFixedRoute("/yourpreviouspath", "GET") // beego.Router("/yourpreviouspath", yourControllerAddress, "get:GetNewPage") func (app *HttpServer) UnregisterFixedRoute(fixedRoute string, method string) *HttpServer { subPaths := splitPath(fixedRoute) if method == "" || method == "*" { for m := range HTTPMETHOD { if _, ok := app.Handlers.routers[m]; !ok { continue } if app.Handlers.routers[m].prefix == strings.Trim(fixedRoute, "/ ") { findAndRemoveSingleTree(app.Handlers.routers[m]) continue } findAndRemoveTree(subPaths, app.Handlers.routers[m], m) } return app } // Single HTTP method um := strings.ToUpper(method) if _, ok := app.Handlers.routers[um]; ok { if app.Handlers.routers[um].prefix == strings.Trim(fixedRoute, "/ ") { findAndRemoveSingleTree(app.Handlers.routers[um]) return app } findAndRemoveTree(subPaths, app.Handlers.routers[um], um) } return app } func findAndRemoveTree(paths []string, entryPointTree *Tree, method string) { for i := range entryPointTree.fixrouters { if entryPointTree.fixrouters[i].prefix == paths[0] { if len(paths) == 1 { if len(entryPointTree.fixrouters[i].fixrouters) > 0 { // If the route had children subtrees, remove just the functional leaf, // to allow children to function as before if len(entryPointTree.fixrouters[i].leaves) > 0 { entryPointTree.fixrouters[i].leaves[0] = nil entryPointTree.fixrouters[i].leaves = entryPointTree.fixrouters[i].leaves[1:] } } else { // Remove the *Tree from the fixrouters slice entryPointTree.fixrouters[i] = nil if i == len(entryPointTree.fixrouters)-1 { entryPointTree.fixrouters = entryPointTree.fixrouters[:i] } else { entryPointTree.fixrouters = append(entryPointTree.fixrouters[:i], entryPointTree.fixrouters[i+1:len(entryPointTree.fixrouters)]...) } } return } findAndRemoveTree(paths[1:], entryPointTree.fixrouters[i], method) } } } func findAndRemoveSingleTree(entryPointTree *Tree) { if entryPointTree == nil { return } if len(entryPointTree.fixrouters) > 0 { // If the route had children subtrees, remove just the functional leaf, // to allow children to function as before if len(entryPointTree.leaves) > 0 { entryPointTree.leaves[0] = nil entryPointTree.leaves = entryPointTree.leaves[1:] } } } // Include see HttpServer.Include func Include(cList ...ControllerInterface) *HttpServer { return BeeApp.Include(cList...) } // Include will generate router file in the router/xxx.go from the controller's comments // usage: // beego.Include(&BankAccount{}, &OrderController{},&RefundController{},&ReceiptController{}) // type BankAccount struct{ // beego.Controller // } // // register the function // func (b *BankAccount)Mapping(){ // b.Mapping("ShowAccount" , b.ShowAccount) // b.Mapping("ModifyAccount", b.ModifyAccount) // } // // //@router /account/:id [get] // func (b *BankAccount) ShowAccount(){ // //logic // } // // // //@router /account/:id [post] // func (b *BankAccount) ModifyAccount(){ // //logic // } // // the comments @router url methodlist // url support all the function Router's pattern // methodlist [get post head put delete options *] func (app *HttpServer) Include(cList ...ControllerInterface) *HttpServer { app.Handlers.Include(cList...) return app } // RESTRouter see HttpServer.RESTRouter func RESTRouter(rootpath string, c ControllerInterface) *HttpServer { return BeeApp.RESTRouter(rootpath, c) } // RESTRouter adds a restful controller handler to BeeApp. // its' controller implements beego.ControllerInterface and // defines a param "pattern/:objectId" to visit each resource. func (app *HttpServer) RESTRouter(rootpath string, c ControllerInterface) *HttpServer { app.Router(rootpath, c) app.Router(path.Join(rootpath, ":objectId"), c) return app } // AutoRouter see HttpServer.AutoRouter func AutoRouter(c ControllerInterface) *HttpServer { return BeeApp.AutoRouter(c) } // AutoRouter adds defined controller handler to BeeApp. // it's same to HttpServer.AutoRouter. // if beego.AddAuto(&MainContorlller{}) and MainController has methods List and Page, // visit the url /main/list to exec List function or /main/page to exec Page function. func (app *HttpServer) AutoRouter(c ControllerInterface) *HttpServer { app.Handlers.AddAuto(c) return app } // AutoPrefix see HttpServer.AutoPrefix func AutoPrefix(prefix string, c ControllerInterface) *HttpServer { return BeeApp.AutoPrefix(prefix, c) } // AutoPrefix adds controller handler to BeeApp with prefix. // it's same to HttpServer.AutoRouterWithPrefix. // if beego.AutoPrefix("/admin",&MainContorlller{}) and MainController has methods List and Page, // visit the url /admin/main/list to exec List function or /admin/main/page to exec Page function. func (app *HttpServer) AutoPrefix(prefix string, c ControllerInterface) *HttpServer { app.Handlers.AddAutoPrefix(prefix, c) return app } // Get see HttpServer.Get func Get(rootpath string, f FilterFunc) *HttpServer { return BeeApp.Get(rootpath, f) } // Get used to register router for Get method // usage: // beego.Get("/", func(ctx *context.Context){ // ctx.Output.Body("hello world") // }) func (app *HttpServer) Get(rootpath string, f FilterFunc) *HttpServer { app.Handlers.Get(rootpath, f) return app } // Post see HttpServer.Post func Post(rootpath string, f FilterFunc) *HttpServer { return BeeApp.Post(rootpath, f) } // Post used to register router for Post method // usage: // beego.Post("/api", func(ctx *context.Context){ // ctx.Output.Body("hello world") // }) func (app *HttpServer) Post(rootpath string, f FilterFunc) *HttpServer { app.Handlers.Post(rootpath, f) return app } // Delete see HttpServer.Delete func Delete(rootpath string, f FilterFunc) *HttpServer { return BeeApp.Delete(rootpath, f) } // Delete used to register router for Delete method // usage: // beego.Delete("/api", func(ctx *context.Context){ // ctx.Output.Body("hello world") // }) func (app *HttpServer) Delete(rootpath string, f FilterFunc) *HttpServer { app.Handlers.Delete(rootpath, f) return app } // Put see HttpServer.Put func Put(rootpath string, f FilterFunc) *HttpServer { return BeeApp.Put(rootpath, f) } // Put used to register router for Put method // usage: // beego.Put("/api", func(ctx *context.Context){ // ctx.Output.Body("hello world") // }) func (app *HttpServer) Put(rootpath string, f FilterFunc) *HttpServer { app.Handlers.Put(rootpath, f) return app } // Head see HttpServer.Head func Head(rootpath string, f FilterFunc) *HttpServer { return BeeApp.Head(rootpath, f) } // Head used to register router for Head method // usage: // beego.Head("/api", func(ctx *context.Context){ // ctx.Output.Body("hello world") // }) func (app *HttpServer) Head(rootpath string, f FilterFunc) *HttpServer { app.Handlers.Head(rootpath, f) return app } // Options see HttpServer.Options func Options(rootpath string, f FilterFunc) *HttpServer { BeeApp.Handlers.Options(rootpath, f) return BeeApp } // Options used to register router for Options method // usage: // beego.Options("/api", func(ctx *context.Context){ // ctx.Output.Body("hello world") // }) func (app *HttpServer) Options(rootpath string, f FilterFunc) *HttpServer { app.Handlers.Options(rootpath, f) return app } // Patch see HttpServer.Patch func Patch(rootpath string, f FilterFunc) *HttpServer { return BeeApp.Patch(rootpath, f) } // Patch used to register router for Patch method // usage: // beego.Patch("/api", func(ctx *context.Context){ // ctx.Output.Body("hello world") // }) func (app *HttpServer) Patch(rootpath string, f FilterFunc) *HttpServer { app.Handlers.Patch(rootpath, f) return app } // Any see HttpServer.Any func Any(rootpath string, f FilterFunc) *HttpServer { return BeeApp.Any(rootpath, f) } // Any used to register router for all methods // usage: // beego.Any("/api", func(ctx *context.Context){ // ctx.Output.Body("hello world") // }) func (app *HttpServer) Any(rootpath string, f FilterFunc) *HttpServer { app.Handlers.Any(rootpath, f) return app } // Handler see HttpServer.Handler func Handler(rootpath string, h http.Handler, options ...interface{}) *HttpServer { return BeeApp.Handler(rootpath, h, options...) } // Handler used to register a Handler router // usage: // beego.Handler("/api", http.HandlerFunc(func (w http.ResponseWriter, r *http.Request) { // fmt.Fprintf(w, "Hello, %q", html.EscapeString(r.URL.Path)) // })) func (app *HttpServer) Handler(rootpath string, h http.Handler, options ...interface{}) *HttpServer { app.Handlers.Handler(rootpath, h, options...) return app } // InserFilter see HttpServer.InsertFilter func InsertFilter(pattern string, pos int, filter FilterFunc, opts ...FilterOpt) *HttpServer { return BeeApp.InsertFilter(pattern, pos, filter, opts...) } // InsertFilter adds a FilterFunc with pattern condition and action constant. // The pos means action constant including // beego.BeforeStatic, beego.BeforeRouter, beego.BeforeExec, beego.AfterExec and beego.FinishRouter. // The bool params is for setting the returnOnOutput value (false allows multiple filters to execute) func (app *HttpServer) InsertFilter(pattern string, pos int, filter FilterFunc, opts ...FilterOpt) *HttpServer { app.Handlers.InsertFilter(pattern, pos, filter, opts...) return app } // InsertFilterChain see HttpServer.InsertFilterChain func InsertFilterChain(pattern string, filterChain FilterChain, opts ...FilterOpt) *HttpServer { return BeeApp.InsertFilterChain(pattern, filterChain, opts...) } // InsertFilterChain adds a FilterFunc built by filterChain. // This filter will be executed before all filters. // the filter's behavior like stack's behavior // and the last filter is serving the http request func (app *HttpServer) InsertFilterChain(pattern string, filterChain FilterChain, opts ...FilterOpt) *HttpServer { app.Handlers.InsertFilterChain(pattern, filterChain, opts...) return app } func (app *HttpServer) initAddr(addr string) { strs := strings.Split(addr, ":") if len(strs) > 0 && strs[0] != "" { app.Cfg.Listen.HTTPAddr = strs[0] app.Cfg.Listen.Domains = []string{strs[0]} } if len(strs) > 1 && strs[1] != "" { app.Cfg.Listen.HTTPPort, _ = strconv.Atoi(strs[1]) } } func (app *HttpServer) LogAccess(ctx *beecontext.Context, startTime *time.Time, statusCode int) { // Skip logging if AccessLogs config is false if !app.Cfg.Log.AccessLogs { return } // Skip logging static requests unless EnableStaticLogs config is true if !app.Cfg.Log.EnableStaticLogs && DefaultAccessLogFilter.Filter(ctx) { return } var ( requestTime time.Time elapsedTime time.Duration r = ctx.Request ) if startTime != nil { requestTime = *startTime elapsedTime = time.Since(*startTime) } record := &logs.AccessLogRecord{ RemoteAddr: ctx.Input.IP(), RequestTime: requestTime, RequestMethod: r.Method, Request: fmt.Sprintf("%s %s %s", r.Method, r.RequestURI, r.Proto), ServerProtocol: r.Proto, Host: r.Host, Status: statusCode, ElapsedTime: elapsedTime, HTTPReferrer: r.Header.Get("Referer"), HTTPUserAgent: r.Header.Get("User-Agent"), RemoteUser: r.Header.Get("Remote-User"), BodyBytesSent: r.ContentLength, } logs.AccessLog(record, app.Cfg.Log.AccessLogsFormat) } // PrintTree prints all registered routers. func (app *HttpServer) PrintTree() M { var ( content = M{} methods = []string{} methodsData = make(M) ) for method, t := range app.Handlers.routers { resultList := new([][]string) printTree(resultList, t) methods = append(methods, template.HTMLEscapeString(method)) methodsData[template.HTMLEscapeString(method)] = resultList } content["Data"] = methodsData content["Methods"] = methods return content } func printTree(resultList *[][]string, t *Tree) { for _, tr := range t.fixrouters { printTree(resultList, tr) } if t.wildcard != nil { printTree(resultList, t.wildcard) } for _, l := range t.leaves { if v, ok := l.runObject.(*ControllerInfo); ok { if v.routerType == routerTypeBeego { var result = []string{ template.HTMLEscapeString(v.pattern), template.HTMLEscapeString(fmt.Sprintf("%s", v.methods)), template.HTMLEscapeString(v.controllerType.String()), } *resultList = append(*resultList, result) } else if v.routerType == routerTypeRESTFul { var result = []string{ template.HTMLEscapeString(v.pattern), template.HTMLEscapeString(fmt.Sprintf("%s", v.methods)), "", } *resultList = append(*resultList, result) } else if v.routerType == routerTypeHandler { var result = []string{ template.HTMLEscapeString(v.pattern), "", "", } *resultList = append(*resultList, result) } } } } func (app *HttpServer) reportFilter() M { filterTypeData := make(M) // filterTypes := []string{} if app.Handlers.enableFilter { // var filterType string for k, fr := range map[int]string{ BeforeStatic: "Before Static", BeforeRouter: "Before Router", BeforeExec: "Before Exec", AfterExec: "After Exec", FinishRouter: "Finish Router", } { if bf := app.Handlers.filters[k]; len(bf) > 0 { resultList := new([][]string) for _, f := range bf { var result = []string{ // void xss template.HTMLEscapeString(f.pattern), template.HTMLEscapeString(utils.GetFuncName(f.filterFunc)), } *resultList = append(*resultList, result) } filterTypeData[fr] = resultList } } } return filterTypeData }