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Beego/router.go
2014-05-19 18:52:48 +08:00

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// Beego (http://beego.me/)
// @description beego is an open-source, high-performance web framework for the Go programming language.
// @link http://github.com/astaxie/beego for the canonical source repository
// @license http://github.com/astaxie/beego/blob/master/LICENSE
// @authors astaxie
package beego
import (
"bufio"
"errors"
"fmt"
"net"
"net/http"
"net/url"
"reflect"
"regexp"
"runtime"
"strconv"
"strings"
"time"
beecontext "github.com/astaxie/beego/context"
"github.com/astaxie/beego/middleware"
"github.com/astaxie/beego/toolbox"
"github.com/astaxie/beego/utils"
)
const (
// default filter execution points
BeforeRouter = iota
AfterStatic
BeforeExec
AfterExec
FinishRouter
)
const (
routerTypeBeego = iota
routerTypeRESTFul
routerTypeHandler
)
var (
// supported http methods.
HTTPMETHOD = []string{"get", "post", "put", "delete", "patch", "options", "head", "trace", "connect"}
// these beego.Controller's methods shouldn't reflect to AutoRouter
exceptMethod = []string{"Init", "Prepare", "Finish", "Render", "RenderString",
"RenderBytes", "Redirect", "Abort", "StopRun", "UrlFor", "ServeJson", "ServeJsonp",
"ServeXml", "Input", "ParseForm", "GetString", "GetStrings", "GetInt", "GetBool",
"GetFloat", "GetFile", "SaveToFile", "StartSession", "SetSession", "GetSession",
"DelSession", "SessionRegenerateID", "DestroySession", "IsAjax", "GetSecureCookie",
"SetSecureCookie", "XsrfToken", "CheckXsrfCookie", "XsrfFormHtml",
"GetControllerAndAction"}
)
// To append a slice's value into "exceptMethod", for controller's methods shouldn't reflect to AutoRouter
func ExceptMethodAppend(action string) {
exceptMethod = append(exceptMethod, action)
}
type controllerInfo struct {
pattern string
regex *regexp.Regexp
params map[int]string
controllerType reflect.Type
methods map[string]string
hasMethod bool
handler http.Handler
runfunction FilterFunc
routerType int
isPrefix bool
}
// ControllerRegistor containers registered router rules, controller handlers and filters.
type ControllerRegistor struct {
routers []*controllerInfo // regexp router storage
fixrouters []*controllerInfo // fixed router storage
enableFilter bool
filters map[int][]*FilterRouter
enableAuto bool
autoRouter map[string]map[string]reflect.Type //key:controller key:method value:reflect.type
}
// NewControllerRegistor returns a new ControllerRegistor.
func NewControllerRegistor() *ControllerRegistor {
return &ControllerRegistor{
routers: make([]*controllerInfo, 0),
autoRouter: make(map[string]map[string]reflect.Type),
filters: make(map[int][]*FilterRouter),
}
}
// Add controller handler and pattern rules to ControllerRegistor.
// usage:
// default methods is the same name as method
// Add("/user",&UserController{})
// Add("/api/list",&RestController{},"*:ListFood")
// Add("/api/create",&RestController{},"post:CreateFood")
// Add("/api/update",&RestController{},"put:UpdateFood")
// Add("/api/delete",&RestController{},"delete:DeleteFood")
// Add("/api",&RestController{},"get,post:ApiFunc")
// Add("/simple",&SimpleController{},"get:GetFunc;post:PostFunc")
func (p *ControllerRegistor) Add(pattern string, c ControllerInterface, mappingMethods ...string) {
j, params, parts := p.splitRoute(pattern)
reflectVal := reflect.ValueOf(c)
t := reflect.Indirect(reflectVal).Type()
methods := make(map[string]string)
if len(mappingMethods) > 0 {
semi := strings.Split(mappingMethods[0], ";")
for _, v := range semi {
colon := strings.Split(v, ":")
if len(colon) != 2 {
panic("method mapping format is invalid")
}
comma := strings.Split(colon[0], ",")
for _, m := range comma {
if m == "*" || utils.InSlice(strings.ToLower(m), HTTPMETHOD) {
if val := reflectVal.MethodByName(colon[1]); val.IsValid() {
methods[strings.ToLower(m)] = colon[1]
} else {
panic(colon[1] + " method doesn't exist in the controller " + t.Name())
}
} else {
panic(v + " is an invalid method mapping. Method doesn't exist " + m)
}
}
}
}
if j == 0 {
//now create the Route
route := &controllerInfo{}
route.pattern = pattern
route.controllerType = t
route.methods = methods
route.routerType = routerTypeBeego
if len(methods) > 0 {
route.hasMethod = true
}
p.fixrouters = append(p.fixrouters, route)
} else { // add regexp routers
//recreate the url pattern, with parameters replaced
//by regular expressions. then compile the regex
pattern = strings.Join(parts, "/")
regex, regexErr := regexp.Compile(pattern)
if regexErr != nil {
//TODO add error handling here to avoid panic
panic(regexErr)
}
//now create the Route
route := &controllerInfo{}
route.regex = regex
route.params = params
route.pattern = pattern
route.methods = methods
route.routerType = routerTypeBeego
if len(methods) > 0 {
route.hasMethod = true
}
route.controllerType = t
p.routers = append(p.routers, route)
}
}
// add get method
// usage:
// Get("/", func(ctx *context.Context){
// ctx.Output.Body("hello world")
// })
func (p *ControllerRegistor) Get(pattern string, f FilterFunc) {
p.AddMethod("get", pattern, f)
}
// add post method
// usage:
// Post("/api", func(ctx *context.Context){
// ctx.Output.Body("hello world")
// })
func (p *ControllerRegistor) Post(pattern string, f FilterFunc) {
p.AddMethod("post", pattern, f)
}
// add put method
// usage:
// Put("/api/:id", func(ctx *context.Context){
// ctx.Output.Body("hello world")
// })
func (p *ControllerRegistor) Put(pattern string, f FilterFunc) {
p.AddMethod("put", pattern, f)
}
// add delete method
// usage:
// Delete("/api/:id", func(ctx *context.Context){
// ctx.Output.Body("hello world")
// })
func (p *ControllerRegistor) Delete(pattern string, f FilterFunc) {
p.AddMethod("delete", pattern, f)
}
// add head method
// usage:
// Head("/api/:id", func(ctx *context.Context){
// ctx.Output.Body("hello world")
// })
func (p *ControllerRegistor) Head(pattern string, f FilterFunc) {
p.AddMethod("head", pattern, f)
}
// add patch method
// usage:
// Patch("/api/:id", func(ctx *context.Context){
// ctx.Output.Body("hello world")
// })
func (p *ControllerRegistor) Patch(pattern string, f FilterFunc) {
p.AddMethod("patch", pattern, f)
}
// add options method
// usage:
// Options("/api/:id", func(ctx *context.Context){
// ctx.Output.Body("hello world")
// })
func (p *ControllerRegistor) Options(pattern string, f FilterFunc) {
p.AddMethod("options", pattern, f)
}
// add all method
// usage:
// Any("/api/:id", func(ctx *context.Context){
// ctx.Output.Body("hello world")
// })
func (p *ControllerRegistor) Any(pattern string, f FilterFunc) {
p.AddMethod("*", pattern, f)
}
// add http method router
// usage:
// AddMethod("get","/api/:id", func(ctx *context.Context){
// ctx.Output.Body("hello world")
// })
func (p *ControllerRegistor) AddMethod(method, pattern string, f FilterFunc) {
if method != "*" && !utils.InSlice(strings.ToLower(method), HTTPMETHOD) {
panic("not support http method: " + method)
}
route := &controllerInfo{}
route.routerType = routerTypeRESTFul
route.runfunction = f
methods := make(map[string]string)
if method == "*" {
for _, val := range HTTPMETHOD {
methods[val] = val
}
} else {
methods[method] = method
}
route.methods = methods
paramnums, params, parts := p.splitRoute(pattern)
if paramnums == 0 {
//now create the Route
route.pattern = pattern
p.fixrouters = append(p.fixrouters, route)
} else {
//recreate the url pattern, with parameters replaced
//by regular expressions. then compile the regex
pattern = strings.Join(parts, "/")
regex, regexErr := regexp.Compile(pattern)
if regexErr != nil {
panic(regexErr)
}
//now create the Route
route.regex = regex
route.params = params
route.pattern = pattern
p.routers = append(p.routers, route)
}
}
func (p *ControllerRegistor) Handler(pattern string, h http.Handler, options ...interface{}) {
paramnums, params, parts := p.splitRoute(pattern)
route := &controllerInfo{}
route.routerType = routerTypeHandler
route.handler = h
if len(options) > 0 {
if v, ok := options[0].(bool); ok {
route.isPrefix = v
}
}
if paramnums == 0 {
route.pattern = pattern
p.fixrouters = append(p.fixrouters, route)
} else {
//recreate the url pattern, with parameters replaced
//by regular expressions. then compile the regex
pattern = strings.Join(parts, "/")
regex, regexErr := regexp.Compile(pattern)
if regexErr != nil {
panic(regexErr)
}
//now create the Route
route.regex = regex
route.params = params
route.pattern = pattern
p.routers = append(p.routers, route)
}
}
// analisys the patter to params & parts
func (p *ControllerRegistor) splitRoute(pattern string) (paramnums int, params map[int]string, parts []string) {
parts = strings.Split(pattern, "/")
j := 0
params = make(map[int]string)
for i, part := range parts {
if strings.HasPrefix(part, ":") {
expr := "(.*)"
//a user may choose to override the defult expression
// similar to expressjs: /user/:id([0-9]+)
if index := strings.Index(part, "("); index != -1 {
expr = part[index:]
part = part[:index]
//match /user/:id:int ([0-9]+)
//match /post/:username:string ([\w]+)
} else if lindex := strings.LastIndex(part, ":"); lindex != 0 {
switch part[lindex:] {
case ":int":
expr = "([0-9]+)"
part = part[:lindex]
case ":string":
expr = `([\w]+)`
part = part[:lindex]
}
//marth /user/:id! non-empty value
} else if part[len(part)-1] == '!' {
expr = `(.+)`
part = part[:len(part)-1]
}
params[j] = part
parts[i] = expr
j++
}
if strings.HasPrefix(part, "*") {
expr := "(.*)"
if part == "*.*" {
params[j] = ":path"
parts[i] = "([^.]+).([^.]+)"
j++
params[j] = ":ext"
j++
} else {
params[j] = ":splat"
parts[i] = expr
j++
}
}
//url like someprefix:id(xxx).html
if strings.Contains(part, ":") && strings.Contains(part, "(") && strings.Contains(part, ")") {
var out []rune
var start bool
var startexp bool
var param []rune
var expt []rune
for _, v := range part {
if start {
if v != '(' {
param = append(param, v)
continue
}
}
if startexp {
if v != ')' {
expt = append(expt, v)
continue
}
}
if v == ':' {
param = make([]rune, 0)
param = append(param, ':')
start = true
} else if v == '(' {
startexp = true
start = false
params[j] = string(param)
j++
expt = make([]rune, 0)
expt = append(expt, '(')
} else if v == ')' {
startexp = false
expt = append(expt, ')')
out = append(out, expt...)
} else {
out = append(out, v)
}
}
parts[i] = string(out)
}
}
return j, params, parts
}
// Add auto router to ControllerRegistor.
// example beego.AddAuto(&MainContorlller{}),
// MainController has method List and Page.
// visit the url /main/list to execute List function
// /main/page to execute Page function.
func (p *ControllerRegistor) AddAuto(c ControllerInterface) {
p.enableAuto = true
reflectVal := reflect.ValueOf(c)
rt := reflectVal.Type()
ct := reflect.Indirect(reflectVal).Type()
firstParam := strings.ToLower(strings.TrimSuffix(ct.Name(), "Controller"))
if _, ok := p.autoRouter[firstParam]; ok {
return
} else {
p.autoRouter[firstParam] = make(map[string]reflect.Type)
}
for i := 0; i < rt.NumMethod(); i++ {
if !utils.InSlice(rt.Method(i).Name, exceptMethod) {
p.autoRouter[firstParam][rt.Method(i).Name] = ct
}
}
}
// Add auto router to ControllerRegistor with prefix.
// example beego.AddAutoPrefix("/admin",&MainContorlller{}),
// MainController has method List and Page.
// visit the url /admin/main/list to execute List function
// /admin/main/page to execute Page function.
func (p *ControllerRegistor) AddAutoPrefix(prefix string, c ControllerInterface) {
p.enableAuto = true
reflectVal := reflect.ValueOf(c)
rt := reflectVal.Type()
ct := reflect.Indirect(reflectVal).Type()
firstParam := strings.Trim(prefix, "/") + "/" + strings.ToLower(strings.TrimSuffix(ct.Name(), "Controller"))
if _, ok := p.autoRouter[firstParam]; ok {
return
} else {
p.autoRouter[firstParam] = make(map[string]reflect.Type)
}
for i := 0; i < rt.NumMethod(); i++ {
if !utils.InSlice(rt.Method(i).Name, exceptMethod) {
p.autoRouter[firstParam][rt.Method(i).Name] = ct
}
}
}
// [Deprecated] use InsertFilter.
// Add FilterFunc with pattern for action.
func (p *ControllerRegistor) AddFilter(pattern, action string, filter FilterFunc) error {
mr, err := buildFilter(pattern, filter)
if err != nil {
return err
}
switch action {
case "BeforeRouter":
p.filters[BeforeRouter] = append(p.filters[BeforeRouter], mr)
case "AfterStatic":
p.filters[AfterStatic] = append(p.filters[AfterStatic], mr)
case "BeforeExec":
p.filters[BeforeExec] = append(p.filters[BeforeExec], mr)
case "AfterExec":
p.filters[AfterExec] = append(p.filters[AfterExec], mr)
case "FinishRouter":
p.filters[FinishRouter] = append(p.filters[FinishRouter], mr)
}
p.enableFilter = true
return nil
}
// Add a FilterFunc with pattern rule and action constant.
func (p *ControllerRegistor) InsertFilter(pattern string, pos int, filter FilterFunc) error {
mr, err := buildFilter(pattern, filter)
if err != nil {
return err
}
p.filters[pos] = append(p.filters[pos], mr)
p.enableFilter = true
return nil
}
// UrlFor does another controller handler in this request function.
// it can access any controller method.
func (p *ControllerRegistor) UrlFor(endpoint string, values ...string) string {
paths := strings.Split(endpoint, ".")
if len(paths) <= 1 {
Warn("urlfor endpoint must like path.controller.method")
return ""
}
if len(values)%2 != 0 {
Warn("urlfor params must key-value pair")
return ""
}
urlv := url.Values{}
if len(values) > 0 {
key := ""
for k, v := range values {
if k%2 == 0 {
key = v
} else {
urlv.Set(key, v)
}
}
}
controllName := strings.Join(paths[:len(paths)-1], ".")
methodName := paths[len(paths)-1]
for _, route := range p.fixrouters {
if route.controllerType.Name() == controllName {
var finded bool
if utils.InSlice(strings.ToLower(methodName), HTTPMETHOD) {
if route.hasMethod {
if m, ok := route.methods[strings.ToLower(methodName)]; ok && m != methodName {
finded = false
} else if m, ok = route.methods["*"]; ok && m != methodName {
finded = false
} else {
finded = true
}
} else {
finded = true
}
} else if route.hasMethod {
for _, md := range route.methods {
if md == methodName {
finded = true
}
}
}
if !finded {
continue
}
if len(values) > 0 {
return route.pattern + "?" + urlv.Encode()
}
return route.pattern
}
}
for _, route := range p.routers {
if route.controllerType.Name() == controllName {
var finded bool
if utils.InSlice(strings.ToLower(methodName), HTTPMETHOD) {
if route.hasMethod {
if m, ok := route.methods[strings.ToLower(methodName)]; ok && m != methodName {
finded = false
} else if m, ok = route.methods["*"]; ok && m != methodName {
finded = false
} else {
finded = true
}
} else {
finded = true
}
} else if route.hasMethod {
for _, md := range route.methods {
if md == methodName {
finded = true
}
}
}
if !finded {
continue
}
var returnurl string
var i int
var startreg bool
for _, v := range route.regex.String() {
if v == '(' {
startreg = true
continue
} else if v == ')' {
startreg = false
returnurl = returnurl + urlv.Get(route.params[i])
i++
} else if !startreg {
returnurl = string(append([]rune(returnurl), v))
}
}
if route.regex.MatchString(returnurl) {
return returnurl
}
}
}
if p.enableAuto {
for cName, methodList := range p.autoRouter {
if strings.ToLower(strings.TrimSuffix(paths[len(paths)-2], "Controller")) == cName {
if _, ok := methodList[methodName]; ok {
if len(values) > 0 {
return "/" + strings.TrimSuffix(paths[len(paths)-2], "Controller") + "/" + methodName + "?" + urlv.Encode()
} else {
return "/" + strings.TrimSuffix(paths[len(paths)-2], "Controller") + "/" + methodName
}
}
}
}
}
return ""
}
// Implement http.Handler interface.
func (p *ControllerRegistor) ServeHTTP(rw http.ResponseWriter, r *http.Request) {
defer func() {
if err := recover(); err != nil {
if err == USERSTOPRUN {
return
}
if _, ok := err.(middleware.HTTPException); ok {
// catch intented errors, only for HTTP 4XX and 5XX
} else {
if RunMode == "dev" {
if !RecoverPanic {
panic(err)
} else {
if ErrorsShow {
if handler, ok := middleware.ErrorMaps[fmt.Sprint(err)]; ok {
handler(rw, r)
return
}
}
var stack string
Critical("the request url is ", r.URL.Path)
Critical("Handler crashed with error", err)
for i := 1; ; i++ {
_, file, line, ok := runtime.Caller(i)
if !ok {
break
}
Critical(file, line)
stack = stack + fmt.Sprintln(file, line)
}
middleware.ShowErr(err, rw, r, stack)
}
} else {
if !RecoverPanic {
panic(err)
} else {
// in production model show all infomation
if ErrorsShow {
handler := p.getErrorHandler(fmt.Sprint(err))
handler(rw, r)
return
} else {
Critical("the request url is ", r.URL.Path)
Critical("Handler crashed with error", err)
for i := 1; ; i++ {
_, file, line, ok := runtime.Caller(i)
if !ok {
break
}
Critical(file, line)
}
}
}
}
}
}
}()
starttime := time.Now()
requestPath := r.URL.Path
var runrouter reflect.Type
var findrouter bool
var runMethod string
var routerInfo *controllerInfo
params := make(map[string]string)
w := &responseWriter{writer: rw}
w.Header().Set("Server", BeegoServerName)
// init context
context := &beecontext.Context{
ResponseWriter: w,
Request: r,
Input: beecontext.NewInput(r),
Output: beecontext.NewOutput(),
}
context.Output.Context = context
context.Output.EnableGzip = EnableGzip
if context.Input.IsWebsocket() {
context.ResponseWriter = rw
}
// defined filter function
do_filter := func(pos int) (started bool) {
if p.enableFilter {
if l, ok := p.filters[pos]; ok {
for _, filterR := range l {
if ok, p := filterR.ValidRouter(r.URL.Path); ok {
context.Input.Params = p
filterR.filterFunc(context)
if w.started {
return true
}
}
}
}
}
return false
}
// session init
if SessionOn {
context.Input.CruSession = GlobalSessions.SessionStart(w, r)
defer func() {
context.Input.CruSession.SessionRelease(w)
}()
}
if !utils.InSlice(strings.ToLower(r.Method), HTTPMETHOD) {
http.Error(w, "Method Not Allowed", 405)
goto Admin
}
//static file server
if serverStaticRouter(context) {
goto Admin
}
if !context.Input.IsGet() && !context.Input.IsHead() {
if CopyRequestBody && !context.Input.IsUpload() {
context.Input.CopyBody()
}
context.Input.ParseFormOrMulitForm(MaxMemory)
}
if do_filter(BeforeRouter) {
goto Admin
}
if do_filter(AfterStatic) {
goto Admin
}
if context.Input.RunController != nil && context.Input.RunMethod != "" {
findrouter = true
runMethod = context.Input.RunMethod
runrouter = context.Input.RunController
}
//first find path from the fixrouters to Improve Performance
if !findrouter {
for _, route := range p.fixrouters {
n := len(requestPath)
if requestPath == route.pattern {
runMethod = p.getRunMethod(r.Method, context, route)
if runMethod != "" {
routerInfo = route
runrouter = route.controllerType
findrouter = true
break
}
}
// pattern /admin url /admin 200 /admin/ 200
// pattern /admin/ url /admin 301 /admin/ 200
if requestPath[n-1] != '/' && requestPath+"/" == route.pattern {
http.Redirect(w, r, requestPath+"/", 301)
goto Admin
}
if requestPath[n-1] == '/' && route.pattern+"/" == requestPath {
runMethod = p.getRunMethod(r.Method, context, route)
if runMethod != "" {
routerInfo = route
runrouter = route.controllerType
findrouter = true
break
}
}
if route.routerType == routerTypeHandler && route.isPrefix &&
strings.HasPrefix(requestPath, route.pattern) {
routerInfo = route
runrouter = route.controllerType
findrouter = true
break
}
}
}
//find regex's router
if !findrouter {
//find a matching Route
for _, route := range p.routers {
//check if Route pattern matches url
if !route.regex.MatchString(requestPath) {
continue
}
//get submatches (params)
matches := route.regex.FindStringSubmatch(requestPath)
//double check that the Route matches the URL pattern.
if len(matches[0]) != len(requestPath) {
continue
}
if len(route.params) > 0 {
for i, match := range matches[1:] {
params[route.params[i]] = match
}
}
runMethod = p.getRunMethod(r.Method, context, route)
if runMethod != "" {
routerInfo = route
runrouter = route.controllerType
context.Input.Params = params
findrouter = true
break
}
}
}
if !findrouter && p.enableAuto {
// deal with url with diffirent ext
// /controller/simple
// /controller/simple.html
// /controller/simple.json
// /controller/simple.rss
lastindex := strings.LastIndex(requestPath, "/")
lastsub := requestPath[lastindex+1:]
if subindex := strings.LastIndex(lastsub, "."); subindex != -1 {
context.Input.Params[":ext"] = lastsub[subindex+1:]
r.URL.Query().Add(":ext", lastsub[subindex+1:])
r.URL.RawQuery = r.URL.Query().Encode()
requestPath = requestPath[:len(requestPath)-len(lastsub[subindex:])]
}
for cName, methodmap := range p.autoRouter {
// if prev already find the router break
if findrouter {
break
}
if strings.ToLower(requestPath) == "/"+cName {
http.Redirect(w, r, requestPath+"/", 301)
goto Admin
}
// if there's no action, set the default action to index
if strings.ToLower(requestPath) == "/"+cName+"/" {
requestPath = requestPath + "index"
}
// if the request path start with controllerName
if strings.HasPrefix(strings.ToLower(requestPath), "/"+cName+"/") {
for mName, controllerType := range methodmap {
if strings.ToLower(requestPath) == "/"+cName+"/"+strings.ToLower(mName) ||
(strings.HasPrefix(strings.ToLower(requestPath), "/"+cName+"/"+strings.ToLower(mName)) &&
requestPath[len("/"+cName+"/"+strings.ToLower(mName)):len("/"+cName+"/"+strings.ToLower(mName))+1] == "/") {
runrouter = controllerType
runMethod = mName
findrouter = true
//parse params
otherurl := requestPath[len("/"+cName+"/"+strings.ToLower(mName)):]
if len(otherurl) > 1 {
plist := strings.Split(otherurl, "/")
for k, v := range plist[1:] {
context.Input.Params[strconv.Itoa(k)] = v
}
}
break
}
}
}
}
}
//if no matches to url, throw a not found exception
if !findrouter {
middleware.Exception("404", rw, r, "")
goto Admin
}
if findrouter {
//execute middleware filters
if do_filter(BeforeExec) {
goto Admin
}
isRunable := false
if routerInfo != nil {
if routerInfo.routerType == routerTypeRESTFul {
if _, ok := routerInfo.methods[strings.ToLower(r.Method)]; ok {
isRunable = true
routerInfo.runfunction(context)
} else {
middleware.Exception("405", rw, r, "Method Not Allowed")
goto Admin
}
} else if routerInfo.routerType == routerTypeHandler {
isRunable = true
routerInfo.handler.ServeHTTP(rw, r)
}
}
if !isRunable {
//Invoke the request handler
vc := reflect.New(runrouter)
execController, ok := vc.Interface().(ControllerInterface)
if !ok {
panic("controller is not ControllerInterface")
}
//call the controller init function
execController.Init(context, runrouter.Name(), runMethod, vc.Interface())
//call prepare function
execController.Prepare()
//if XSRF is Enable then check cookie where there has any cookie in the request's cookie _csrf
if EnableXSRF {
execController.XsrfToken()
if r.Method == "POST" || r.Method == "DELETE" || r.Method == "PUT" ||
(r.Method == "POST" && (r.Form.Get("_method") == "delete" || r.Form.Get("_method") == "put")) {
execController.CheckXsrfCookie()
}
}
if !w.started {
//exec main logic
switch runMethod {
case "Get":
execController.Get()
case "Post":
execController.Post()
case "Delete":
execController.Delete()
case "Put":
execController.Put()
case "Head":
execController.Head()
case "Patch":
execController.Patch()
case "Options":
execController.Options()
default:
in := make([]reflect.Value, 0)
method := vc.MethodByName(runMethod)
method.Call(in)
}
//render template
if !w.started && !context.Input.IsWebsocket() {
if AutoRender {
if err := execController.Render(); err != nil {
panic(err)
}
}
}
}
// finish all runrouter. release resource
execController.Finish()
}
//execute middleware filters
if do_filter(AfterExec) {
goto Admin
}
}
do_filter(FinishRouter)
Admin:
//admin module record QPS
if EnableAdmin {
timeend := time.Since(starttime)
if FilterMonitorFunc(r.Method, requestPath, timeend) {
if runrouter != nil {
go toolbox.StatisticsMap.AddStatistics(r.Method, requestPath, runrouter.Name(), timeend)
} else {
go toolbox.StatisticsMap.AddStatistics(r.Method, requestPath, "", timeend)
}
}
}
}
// there always should be error handler that sets error code accordingly for all unhandled errors.
// in order to have custom UI for error page it's necessary to override "500" error.
func (p *ControllerRegistor) getErrorHandler(errorCode string) func(rw http.ResponseWriter, r *http.Request) {
handler := middleware.SimpleServerError
ok := true
if errorCode != "" {
handler, ok = middleware.ErrorMaps[errorCode]
if !ok {
handler, ok = middleware.ErrorMaps["500"]
}
if !ok || handler == nil {
handler = middleware.SimpleServerError
}
}
return handler
}
// returns method name from request header or form field.
// sometimes browsers can't create PUT and DELETE request.
// set a form field "_method" instead.
func (p *ControllerRegistor) getRunMethod(method string, context *beecontext.Context, router *controllerInfo) string {
method = strings.ToLower(method)
if method == "post" && strings.ToLower(context.Input.Query("_method")) == "put" {
method = "put"
}
if method == "post" && strings.ToLower(context.Input.Query("_method")) == "delete" {
method = "delete"
}
if router.hasMethod {
if m, ok := router.methods[method]; ok {
return m
} else if m, ok = router.methods["*"]; ok {
return m
} else {
return ""
}
} else {
return strings.Title(method)
}
}
//responseWriter is a wrapper for the http.ResponseWriter
//started set to true if response was written to then don't execute other handler
type responseWriter struct {
writer http.ResponseWriter
started bool
status int
}
// Header returns the header map that will be sent by WriteHeader.
func (w *responseWriter) Header() http.Header {
return w.writer.Header()
}
// Write writes the data to the connection as part of an HTTP reply,
// and sets `started` to true.
// started means the response has sent out.
func (w *responseWriter) Write(p []byte) (int, error) {
w.started = true
return w.writer.Write(p)
}
// WriteHeader sends an HTTP response header with status code,
// and sets `started` to true.
func (w *responseWriter) WriteHeader(code int) {
w.status = code
w.started = true
w.writer.WriteHeader(code)
}
// hijacker for http
func (w *responseWriter) Hijack() (net.Conn, *bufio.ReadWriter, error) {
hj, ok := w.writer.(http.Hijacker)
if !ok {
println("supported?")
return nil, nil, errors.New("webserver doesn't support hijacking")
}
return hj.Hijack()
}