// Copyright 2020 The Gitea Authors. All rights reserved.
// SPDX-License-Identifier: MIT
package web
import (
"net/http"
"net/url"
"reflect"
"strings"
"code.gitea.io/gitea/modules/htmlutil"
"code.gitea.io/gitea/modules/reqctx"
"code.gitea.io/gitea/modules/setting"
"code.gitea.io/gitea/modules/web/middleware"
"gitea.com/go-chi/binding"
"github.com/go-chi/chi/v5"
)
// Bind binding an obj to a handler's context data
func Bind[T any](_ T) http.HandlerFunc {
return func(resp http.ResponseWriter, req *http.Request) {
theObj := new(T) // create a new form obj for every request but not use obj directly
data := middleware.GetContextData(req.Context())
binding.Bind(req, theObj)
SetForm(data, theObj)
middleware.AssignForm(theObj, data)
}
}
// SetForm set the form object
func SetForm(dataStore reqctx.ContextDataProvider, obj any) {
dataStore.GetData()["__form"] = obj
}
// GetForm returns the validate form information
func GetForm(dataStore reqctx.RequestDataStore) any {
return dataStore.GetData()["__form"]
}
// Router defines a route based on chi's router
type Router struct {
chiRouter *chi.Mux
curGroupPrefix string
curMiddlewares []any
}
// NewRouter creates a new route
func NewRouter() *Router {
r := chi.NewRouter()
return &Router{chiRouter: r}
}
// Use supports two middlewares
func (r *Router) Use(middlewares ...any) {
for _, m := range middlewares {
if m != nil {
r.chiRouter.Use(toHandlerProvider(m))
}
}
}
// Group mounts a sub-Router along a `pattern` string.
func (r *Router) Group(pattern string, fn func(), middlewares ...any) {
previousGroupPrefix := r.curGroupPrefix
previousMiddlewares := r.curMiddlewares
r.curGroupPrefix += pattern
r.curMiddlewares = append(r.curMiddlewares, middlewares...)
fn()
r.curGroupPrefix = previousGroupPrefix
r.curMiddlewares = previousMiddlewares
}
func (r *Router) getPattern(pattern string) string {
newPattern := r.curGroupPrefix + pattern
if !strings.HasPrefix(newPattern, "/") {
newPattern = "/" + newPattern
}
if newPattern == "/" {
return newPattern
}
return strings.TrimSuffix(newPattern, "/")
}
func isNilOrFuncNil(v any) bool {
if v == nil {
return true
}
r := reflect.ValueOf(v)
return r.Kind() == reflect.Func && r.IsNil()
}
func wrapMiddlewareAndHandler(curMiddlewares, h []any) ([]func(http.Handler) http.Handler, http.HandlerFunc) {
handlerProviders := make([]func(http.Handler) http.Handler, 0, len(curMiddlewares)+len(h)+1)
for _, m := range curMiddlewares {
if !isNilOrFuncNil(m) {
handlerProviders = append(handlerProviders, toHandlerProvider(m))
}
}
if len(h) == 0 {
panic("no endpoint handler provided")
}
for i, m := range h {
if !isNilOrFuncNil(m) {
handlerProviders = append(handlerProviders, toHandlerProvider(m))
} else if i == len(h)-1 {
panic("endpoint handler can't be nil")
}
}
middlewares := handlerProviders[:len(handlerProviders)-1]
handlerFunc := handlerProviders[len(handlerProviders)-1](nil).ServeHTTP
mockPoint := RouterMockPoint(MockAfterMiddlewares)
if mockPoint != nil {
middlewares = append(middlewares, mockPoint)
}
return middlewares, handlerFunc
}
// Methods adds the same handlers for multiple http "methods" (separated by ",").
// If any method is invalid, the lower level router will panic.
func (r *Router) Methods(methods, pattern string, h ...any) {
middlewares, handlerFunc := wrapMiddlewareAndHandler(r.curMiddlewares, h)
fullPattern := r.getPattern(pattern)
if strings.Contains(methods, ",") {
methods := strings.Split(methods, ",")
for _, method := range methods {
r.chiRouter.With(middlewares...).Method(strings.TrimSpace(method), fullPattern, handlerFunc)
}
} else {
r.chiRouter.With(middlewares...).Method(methods, fullPattern, handlerFunc)
}
}
// Mount attaches another Router along ./pattern/*
func (r *Router) Mount(pattern string, subRouter *Router) {
subRouter.Use(r.curMiddlewares...)
r.chiRouter.Mount(r.getPattern(pattern), subRouter.chiRouter)
}
// Any delegate requests for all methods
func (r *Router) Any(pattern string, h ...any) {
middlewares, handlerFunc := wrapMiddlewareAndHandler(r.curMiddlewares, h)
r.chiRouter.With(middlewares...).HandleFunc(r.getPattern(pattern), handlerFunc)
}
// Delete delegate delete method
func (r *Router) Delete(pattern string, h ...any) {
r.Methods("DELETE", pattern, h...)
}
// Get delegate get method
func (r *Router) Get(pattern string, h ...any) {
r.Methods("GET", pattern, h...)
}
// Head delegate head method
func (r *Router) Head(pattern string, h ...any) {
r.Methods("HEAD", pattern, h...)
}
// Post delegate post method
func (r *Router) Post(pattern string, h ...any) {
r.Methods("POST", pattern, h...)
}
// Put delegate put method
func (r *Router) Put(pattern string, h ...any) {
r.Methods("PUT", pattern, h...)
}
// Patch delegate patch method
func (r *Router) Patch(pattern string, h ...any) {
r.Methods("PATCH", pattern, h...)
}
// ServeHTTP implements http.Handler
func (r *Router) ServeHTTP(w http.ResponseWriter, req *http.Request) {
r.normalizeRequestPath(w, req, r.chiRouter)
}
// NotFound defines a handler to respond whenever a route could not be found.
func (r *Router) NotFound(h http.HandlerFunc) {
r.chiRouter.NotFound(h)
}
func (r *Router) normalizeRequestPath(resp http.ResponseWriter, req *http.Request, next http.Handler) {
normalized := false
normalizedPath := req.URL.EscapedPath()
if normalizedPath == "" {
normalizedPath, normalized = "/", true
} else if normalizedPath != "/" {
normalized = strings.HasSuffix(normalizedPath, "/")
normalizedPath = strings.TrimRight(normalizedPath, "/")
}
removeRepeatedSlashes := strings.Contains(normalizedPath, "//")
normalized = normalized || removeRepeatedSlashes
// the following code block is a slow-path for replacing all repeated slashes "//" to one single "/"
// if the path doesn't have repeated slashes, then no need to execute it
if removeRepeatedSlashes {
buf := &strings.Builder{}
for i := 0; i < len(normalizedPath); i++ {
if i == 0 || normalizedPath[i-1] != '/' || normalizedPath[i] != '/' {
buf.WriteByte(normalizedPath[i])
}
}
normalizedPath = buf.String()
}
// If the config tells Gitea to use a sub-url path directly without reverse proxy,
// then we need to remove the sub-url path from the request URL path.
// But "/v2" is special for OCI container registry, it should always be in the root of the site.
if setting.UseSubURLPath {
remainingPath, ok := strings.CutPrefix(normalizedPath, setting.AppSubURL+"/")
if ok {
normalizedPath = "/" + remainingPath
} else if normalizedPath == setting.AppSubURL {
normalizedPath = "/"
} else if !strings.HasPrefix(normalizedPath+"/", "/v2/") {
// do not respond to other requests, to simulate a real sub-path environment
resp.Header().Add("Content-Type", "text/html; charset=utf-8")
resp.WriteHeader(http.StatusNotFound)
_, _ = resp.Write([]byte(htmlutil.HTMLFormat(`404 page not found, sub-path is: <a href="%s">%s</a>`, setting.AppSubURL, setting.AppSubURL)))
return
}
normalized = true
}
// if the path is normalized, then fill it back to the request
if normalized {
decodedPath, err := url.PathUnescape(normalizedPath)
if err != nil {
http.Error(resp, "400 Bad Request: unable to unescape path "+normalizedPath, http.StatusBadRequest)
return
}
req.URL.RawPath = normalizedPath
req.URL.Path = decodedPath
}
next.ServeHTTP(resp, req)
}
// Combo delegates requests to Combo
func (r *Router) Combo(pattern string, h ...any) *Combo {
return &Combo{r, pattern, h}
}
// PathGroup creates a group of paths which could be matched by regexp.
// It is only designed to resolve some special cases which chi router can't handle.
// For most cases, it shouldn't be used because it needs to iterate all rules to find the matched one (inefficient).
func (r *Router) PathGroup(pattern string, fn func(g *RouterPathGroup), h ...any) {
g := &RouterPathGroup{r: r, pathParam: "*"}
fn(g)
r.Any(pattern, append(h, g.ServeHTTP)...)
}