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route_mappings.go
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/
route_mappings.go
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package buffalo
import (
"fmt"
"net/http"
"net/url"
"os"
"path"
"reflect"
"strings"
"github.com/gobuffalo/envy"
"github.com/gobuffalo/flect/name"
"github.com/gorilla/handlers"
)
const (
// AssetsAgeVarName is the ENV variable used to specify max age when ServeFiles is used.
AssetsAgeVarName = "ASSETS_MAX_AGE"
)
// These method functions will be moved to Home structure.
// GET maps an HTTP "GET" request to the path and the specified handler.
func (a *App) GET(p string, h Handler) *RouteInfo {
return a.addRoute("GET", p, h)
}
// POST maps an HTTP "POST" request to the path and the specified handler.
func (a *App) POST(p string, h Handler) *RouteInfo {
return a.addRoute("POST", p, h)
}
// PUT maps an HTTP "PUT" request to the path and the specified handler.
func (a *App) PUT(p string, h Handler) *RouteInfo {
return a.addRoute("PUT", p, h)
}
// DELETE maps an HTTP "DELETE" request to the path and the specified handler.
func (a *App) DELETE(p string, h Handler) *RouteInfo {
return a.addRoute("DELETE", p, h)
}
// HEAD maps an HTTP "HEAD" request to the path and the specified handler.
func (a *App) HEAD(p string, h Handler) *RouteInfo {
return a.addRoute("HEAD", p, h)
}
// OPTIONS maps an HTTP "OPTIONS" request to the path and the specified handler.
func (a *App) OPTIONS(p string, h Handler) *RouteInfo {
return a.addRoute("OPTIONS", p, h)
}
// PATCH maps an HTTP "PATCH" request to the path and the specified handler.
func (a *App) PATCH(p string, h Handler) *RouteInfo {
return a.addRoute("PATCH", p, h)
}
// Redirect from one URL to another URL. Only works for "GET" requests.
func (a *App) Redirect(status int, from, to string) *RouteInfo {
return a.GET(from, func(c Context) error {
return c.Redirect(status, to)
})
}
// Mount mounts a http.Handler (or Buffalo app) and passes through all requests to it.
//
// func muxer() http.Handler {
// f := func(res http.ResponseWriter, req *http.Request) {
// fmt.Fprintf(res, "%s - %s", req.Method, req.URL.String())
// }
// mux := mux.NewRouter()
// mux.HandleFunc("/foo", f).Methods("GET")
// mux.HandleFunc("/bar", f).Methods("POST")
// mux.HandleFunc("/baz/baz", f).Methods("DELETE")
// return mux
// }
//
// a.Mount("/admin", muxer())
//
// $ curl -X DELETE http://localhost:3000/admin/baz/baz
func (a *App) Mount(p string, h http.Handler) {
prefix := path.Join(a.Prefix, p)
path := path.Join(p, "{path:.+}")
a.ANY(path, WrapHandler(http.StripPrefix(prefix, h)))
}
// ServeFiles maps an path to a directory on disk to serve static files.
// Useful for JavaScript, images, CSS, etc...
/*
a.ServeFiles("/assets", http.Dir("path/to/assets"))
*/
func (a *App) ServeFiles(p string, root http.FileSystem) {
path := path.Join(a.Prefix, p)
a.filepaths = append(a.filepaths, path)
h := stripAsset(path, a.fileServer(root), a)
a.router.PathPrefix(path).Handler(h)
}
func (a *App) fileServer(fs http.FileSystem) http.Handler {
fsh := http.FileServer(fs)
baseHandler := http.HandlerFunc(func(w http.ResponseWriter, r *http.Request) {
f, err := fs.Open(path.Clean(r.URL.Path))
if os.IsNotExist(err) {
eh := a.ErrorHandlers.Get(http.StatusNotFound)
eh(http.StatusNotFound, fmt.Errorf("could not find %s", r.URL.Path), a.newContext(RouteInfo{}, w, r))
return
}
stat, _ := f.Stat()
maxAge := envy.Get(AssetsAgeVarName, "31536000")
w.Header().Add("ETag", fmt.Sprintf("%x", stat.ModTime().UnixNano()))
w.Header().Add("Cache-Control", fmt.Sprintf("max-age=%s", maxAge))
fsh.ServeHTTP(w, r)
})
if a.CompressFiles {
return handlers.CompressHandler(baseHandler)
}
return baseHandler
}
type newable interface {
New(Context) error
}
type editable interface {
Edit(Context) error
}
// Resource maps an implementation of the Resource interface
// to the appropriate RESTful mappings. Resource returns the *App
// associated with this group of mappings so you can set middleware, etc...
// on that group, just as if you had used the a.Group functionality.
//
// Resource automatically creates a URL `/resources/new` if the resource
// has a function `New()`. So it could act as a restriction for the value
// of `resource_id`. URL `/resources/new` will always show the resource
// creation page instead of showing the resource called `new`.
/*
a.Resource("/users", &UsersResource{})
// Is equal to this:
ur := &UsersResource{}
g := a.Group("/users")
g.GET("/", ur.List) // GET /users => ur.List
g.POST("/", ur.Create) // POST /users => ur.Create
g.GET("/new", ur.New) // GET /users/new => ur.New
g.GET("/{user_id}", ur.Show) // GET /users/{user_id} => ur.Show
g.PUT("/{user_id}", ur.Update) // PUT /users/{user_id} => ur.Update
g.DELETE("/{user_id}", ur.Destroy) // DELETE /users/{user_id} => ur.Destroy
g.GET("/{user_id}/edit", ur.Edit) // GET /users/{user_id}/edit => ur.Edit
*/
func (a *App) Resource(p string, r Resource) *App {
g := a.Group(p)
if mw, ok := r.(Middler); ok {
g.Use(mw.Use()...)
}
p = "/"
rv := reflect.ValueOf(r)
if rv.Kind() == reflect.Ptr {
rv = rv.Elem()
}
rt := rv.Type()
resourceName := rt.Name()
handlerName := fmt.Sprintf("%s.%s", rt.PkgPath(), resourceName) + ".%s"
n := strings.TrimSuffix(rt.Name(), "Resource")
paramName := name.New(n).ParamID().String()
type paramKeyable interface {
ParamKey() string
}
if pk, ok := r.(paramKeyable); ok {
paramName = pk.ParamKey()
}
spath := path.Join(p, "{"+paramName+"}")
// This order will become the order of route evaluation too.
setFuncKey(r.List, fmt.Sprintf(handlerName, "List"))
g.GET(p, r.List).ResourceName = resourceName
setFuncKey(r.Create, fmt.Sprintf(handlerName, "Create"))
g.POST(p, r.Create).ResourceName = resourceName
// NOTE: it makes restriction that resource id cannot be 'new'.
if n, ok := r.(newable); ok {
setFuncKey(n.New, fmt.Sprintf(handlerName, "New"))
g.GET(path.Join(p, "new"), n.New).ResourceName = resourceName
}
setFuncKey(r.Show, fmt.Sprintf(handlerName, "Show"))
g.GET(path.Join(spath), r.Show).ResourceName = resourceName
setFuncKey(r.Update, fmt.Sprintf(handlerName, "Update"))
g.PUT(path.Join(spath), r.Update).ResourceName = resourceName
setFuncKey(r.Destroy, fmt.Sprintf(handlerName, "Destroy"))
g.DELETE(path.Join(spath), r.Destroy).ResourceName = resourceName
if n, ok := r.(editable); ok {
setFuncKey(n.Edit, fmt.Sprintf(handlerName, "Edit"))
g.GET(path.Join(spath, "edit"), n.Edit).ResourceName = resourceName
}
g.Prefix = path.Join(g.Prefix, spath)
g.prefix = g.Prefix
return g
}
// ANY accepts a request across any HTTP method for the specified path
// and routes it to the specified Handler.
func (a *App) ANY(p string, h Handler) {
a.GET(p, h)
a.POST(p, h)
a.PUT(p, h)
a.PATCH(p, h)
a.HEAD(p, h)
a.OPTIONS(p, h)
a.DELETE(p, h)
}
// Group creates a new `*App` that inherits from it's parent `*App`.
// This is useful for creating groups of end-points that need to share
// common functionality, like middleware.
/*
g := a.Group("/api/v1")
g.Use(AuthorizeAPIMiddleware)
g.GET("/users, APIUsersHandler)
g.GET("/users/:user_id, APIUserShowHandler)
*/
func (a *App) Group(groupPath string) *App {
// TODO: move this function to app.go or home.go eventually.
g := New(a.Options)
// keep them for v0 compatibility
g.Prefix = path.Join(a.Prefix, groupPath)
g.Name = g.Prefix
// for Home structure
g.prefix = path.Join(a.prefix, groupPath)
g.host = a.host
g.name = g.prefix
g.router = a.router
g.RouteNamer = a.RouteNamer
g.Middleware = a.Middleware.clone()
g.ErrorHandlers = a.ErrorHandlers
g.app = a.app // will replace g.root
g.root = g.app // will be deprecated
// to be replaced with child Homes. currently, only used in grifts.
a.children = append(a.children, g)
return g
}
// VirtualHost creates a new `*App` that inherits from it's parent `*App`.
// All pre-configured things on the parent App such as middlewares will be
// applied, and can be modified only for this child App.
//
// This is a multi-homing feature similar to the `VirtualHost` in Apache
// or multiple `server`s in nginx. One important different behavior is that
// there is no concept of the `default` host in buffalo (at least for now)
// and the routing decision will be made with the "first match" manner.
// (e.g. if you have already set the route for '/' for the root App before
// setting up a virualhost, the route of the root App will be picked up
// even if the client makes a request to the specified domain.)
/*
a.VirtualHost("www.example.com")
a.VirtualHost("{subdomain}.example.com")
a.VirtualHost("{subdomain:[a-z]+}.example.com")
*/
func (a *App) VirtualHost(h string) *App {
g := a.Group("/")
g.host = h
g.router = a.router.Host(h).Subrouter()
return g
}
// RouteHelpers returns a map of BuildPathHelper() for each route available in the app.
func (a *App) RouteHelpers() map[string]RouteHelperFunc {
rh := map[string]RouteHelperFunc{}
for _, route := range a.Routes() {
cRoute := route
rh[cRoute.PathName] = cRoute.BuildPathHelper()
}
return rh
}
func (e *Home) addRoute(method string, url string, h Handler) *RouteInfo {
// NOTE: lock the root app (not this app). only the root has the affective
// routes list.
e.app.moot.Lock()
defer e.app.moot.Unlock()
url = path.Join(e.prefix, url)
url = e.app.normalizePath(url)
name := e.app.RouteNamer.NameRoute(url)
hs := funcKey(h)
r := &RouteInfo{
Method: method,
Path: url,
HandlerName: hs,
Handler: h,
App: e.appSelf, // CHKME: to be replaced with Home
Aliases: []string{},
}
r.MuxRoute = e.router.Handle(url, r).Methods(method)
r.Name(name)
routes := e.app.Routes()
routes = append(routes, r)
// NOTE: sorting is fancy but we lose the evaluation order information
// of routing decision. Let's keep the routes as registered order so
// developers can easily evaluate the order with `buffalo routes` and
// can debug any routing priority issue. (just keep the original line
// as history reference)
//sort.Sort(routes)
e.app.routes = routes
return r
}
func stripAsset(path string, h http.Handler, a *App) http.Handler {
if path == "" {
return h
}
return http.HandlerFunc(func(w http.ResponseWriter, r *http.Request) {
up := r.URL.Path
up = strings.TrimPrefix(up, path)
up = strings.TrimSuffix(up, "/")
u, err := url.Parse(up)
if err != nil {
eh := a.ErrorHandlers.Get(http.StatusBadRequest)
eh(http.StatusBadRequest, err, a.newContext(RouteInfo{}, w, r))
return
}
r.URL = u
h.ServeHTTP(w, r)
})
}