/* Package echo implements high performance, minimalist Go web framework. Example: package main import ( "github.com/labstack/echo/v5" "github.com/labstack/echo/v5/middleware" "log" "net/http" ) // Handler func hello(c echo.Context) error { return c.String(http.StatusOK, "Hello, World!") } func main() { // Echo instance e := echo.New() // Middleware e.Use(middleware.Logger()) e.Use(middleware.Recover()) // Routes e.GET("/", hello) // Start server if err := e.Start(":8080"); err != http.ErrServerClosed { log.Fatal(err) } } Learn more at https://echo.labstack.com */ package echo import ( stdContext "context" "errors" "fmt" "io" "io/fs" "net/http" "net/url" "os" "os/signal" "path/filepath" "runtime" "strings" "sync" ) // Echo is the top-level framework instance. // Note: replacing/nilling public fields is not coroutine/thread-safe and can cause data-races/panics. type Echo struct { // premiddleware are middlewares that are run for every request before routing is done premiddleware []MiddlewareFunc // middleware are middlewares that are run after router found a matching route (not found and method not found are also matches) middleware []MiddlewareFunc router Router routers map[string]Router routerCreator func(e *Echo) Router contextPool sync.Pool // contextPathParamAllocSize holds maximum parameter count for all added routes. This is necessary info for context // creation time so we can allocate path parameter values slice. contextPathParamAllocSize int // NewContextFunc allows using custom context implementations, instead of default *echo.context NewContextFunc func(e *Echo, pathParamAllocSize int) ServableContext Debug bool HTTPErrorHandler HTTPErrorHandler Binder Binder JSONSerializer JSONSerializer Validator Validator Renderer Renderer Logger Logger IPExtractor IPExtractor // Filesystem is file system used by Static and File handlers to access files. // Defaults to os.DirFS(".") // // When dealing with `embed.FS` use `fs := echo.MustSubFS(fs, "rootDirectory") to create sub fs which uses necessary // prefix for directory path. This is necessary as `//go:embed assets/images` embeds files with paths // including `assets/images` as their prefix. Filesystem fs.FS } // JSONSerializer is the interface that encodes and decodes JSON to and from interfaces. type JSONSerializer interface { Serialize(c Context, i interface{}, indent string) error Deserialize(c Context, i interface{}) error } // HTTPErrorHandler is a centralized HTTP error handler. type HTTPErrorHandler func(c Context, err error) // HandlerFunc defines a function to serve HTTP requests. type HandlerFunc func(c Context) error // MiddlewareFunc defines a function to process middleware. type MiddlewareFunc func(next HandlerFunc) HandlerFunc // MiddlewareConfigurator defines interface for creating middleware handlers with possibility to return configuration errors instead of panicking. type MiddlewareConfigurator interface { ToMiddleware() (MiddlewareFunc, error) } // Validator is the interface that wraps the Validate function. type Validator interface { Validate(i interface{}) error } // Renderer is the interface that wraps the Render function. type Renderer interface { Render(io.Writer, string, interface{}, Context) error } // Map defines a generic map of type `map[string]interface{}`. type Map map[string]interface{} // MIME types const ( MIMEApplicationJSON = "application/json" MIMEApplicationJSONCharsetUTF8 = MIMEApplicationJSON + "; " + charsetUTF8 MIMEApplicationJavaScript = "application/javascript" MIMEApplicationJavaScriptCharsetUTF8 = MIMEApplicationJavaScript + "; " + charsetUTF8 MIMEApplicationXML = "application/xml" MIMEApplicationXMLCharsetUTF8 = MIMEApplicationXML + "; " + charsetUTF8 MIMETextXML = "text/xml" MIMETextXMLCharsetUTF8 = MIMETextXML + "; " + charsetUTF8 MIMEApplicationForm = "application/x-www-form-urlencoded" MIMEApplicationProtobuf = "application/protobuf" MIMEApplicationMsgpack = "application/msgpack" MIMETextHTML = "text/html" MIMETextHTMLCharsetUTF8 = MIMETextHTML + "; " + charsetUTF8 MIMETextPlain = "text/plain" MIMETextPlainCharsetUTF8 = MIMETextPlain + "; " + charsetUTF8 MIMEMultipartForm = "multipart/form-data" MIMEOctetStream = "application/octet-stream" ) const ( charsetUTF8 = "charset=UTF-8" // PROPFIND Method can be used on collection and property resources. PROPFIND = "PROPFIND" // REPORT Method can be used to get information about a resource, see rfc 3253 REPORT = "REPORT" ) // Headers const ( HeaderAccept = "Accept" HeaderAcceptEncoding = "Accept-Encoding" // HeaderAllow is the name of the "Allow" header field used to list the set of methods // advertised as supported by the target resource. Returning an Allow header is mandatory // for status 405 (method not found) and useful for the OPTIONS method in responses. // See RFC 7231: https://datatracker.ietf.org/doc/html/rfc7231#section-7.4.1 HeaderAllow = "Allow" HeaderAuthorization = "Authorization" HeaderContentDisposition = "Content-Disposition" HeaderContentEncoding = "Content-Encoding" HeaderContentLength = "Content-Length" HeaderContentType = "Content-Type" HeaderCookie = "Cookie" HeaderSetCookie = "Set-Cookie" HeaderIfModifiedSince = "If-Modified-Since" HeaderLastModified = "Last-Modified" HeaderLocation = "Location" HeaderRetryAfter = "Retry-After" HeaderUpgrade = "Upgrade" HeaderVary = "Vary" HeaderWWWAuthenticate = "WWW-Authenticate" HeaderXForwardedFor = "X-Forwarded-For" HeaderXForwardedProto = "X-Forwarded-Proto" HeaderXForwardedProtocol = "X-Forwarded-Protocol" HeaderXForwardedSsl = "X-Forwarded-Ssl" HeaderXUrlScheme = "X-Url-Scheme" HeaderXHTTPMethodOverride = "X-HTTP-Method-Override" HeaderXRealIP = "X-Real-Ip" HeaderXRequestID = "X-Request-Id" HeaderXCorrelationID = "X-Correlation-Id" HeaderXRequestedWith = "X-Requested-With" HeaderServer = "Server" HeaderOrigin = "Origin" HeaderCacheControl = "Cache-Control" HeaderConnection = "Connection" // Access control HeaderAccessControlRequestMethod = "Access-Control-Request-Method" HeaderAccessControlRequestHeaders = "Access-Control-Request-Headers" HeaderAccessControlAllowOrigin = "Access-Control-Allow-Origin" HeaderAccessControlAllowMethods = "Access-Control-Allow-Methods" HeaderAccessControlAllowHeaders = "Access-Control-Allow-Headers" HeaderAccessControlAllowCredentials = "Access-Control-Allow-Credentials" HeaderAccessControlExposeHeaders = "Access-Control-Expose-Headers" HeaderAccessControlMaxAge = "Access-Control-Max-Age" // Security HeaderStrictTransportSecurity = "Strict-Transport-Security" HeaderXContentTypeOptions = "X-Content-Type-Options" HeaderXXSSProtection = "X-XSS-Protection" HeaderXFrameOptions = "X-Frame-Options" HeaderContentSecurityPolicy = "Content-Security-Policy" HeaderContentSecurityPolicyReportOnly = "Content-Security-Policy-Report-Only" HeaderXCSRFToken = "X-CSRF-Token" HeaderReferrerPolicy = "Referrer-Policy" ) const ( // Version of Echo Version = "5.0.0-alpha" ) var methods = [...]string{ http.MethodConnect, http.MethodDelete, http.MethodGet, http.MethodHead, http.MethodOptions, http.MethodPatch, http.MethodPost, PROPFIND, http.MethodPut, http.MethodTrace, REPORT, } // New creates an instance of Echo. func New() *Echo { logger := newJSONLogger(os.Stdout) e := &Echo{ Logger: logger, Filesystem: newDefaultFS(), Binder: &DefaultBinder{}, JSONSerializer: &DefaultJSONSerializer{}, routers: make(map[string]Router), routerCreator: func(ec *Echo) Router { return NewRouter(RouterConfig{}) }, } e.router = NewRouter(RouterConfig{}) e.HTTPErrorHandler = DefaultHTTPErrorHandler(false) e.contextPool.New = func() interface{} { return e.NewContext(nil, nil) } return e } // NewContext returns a new Context instance. // // Note: both request and response can be left to nil as Echo.ServeHTTP will call c.Reset(req,resp) anyway // these arguments are useful when creating context for tests and cases like that. func (e *Echo) NewContext(r *http.Request, w http.ResponseWriter) Context { var c Context if e.NewContextFunc != nil { c = e.NewContextFunc(e, e.contextPathParamAllocSize) } else { c = NewDefaultContext(e, e.contextPathParamAllocSize) } c.SetRequest(r) c.SetResponse(NewResponse(w, e)) return c } // Router returns the default router. func (e *Echo) Router() Router { return e.router } // Routers returns the map of host => router. func (e *Echo) Routers() map[string]Router { return e.routers } // RouterFor returns Router for given host. func (e *Echo) RouterFor(host string) Router { return e.routers[host] } // ResetRouterCreator resets callback for creating new router instances. // Note: current (default) router is immediately replaced with router created with creator func and vhost routers are cleared. func (e *Echo) ResetRouterCreator(creator func(e *Echo) Router) { e.routerCreator = creator e.router = creator(e) e.routers = make(map[string]Router) } // DefaultHTTPErrorHandler creates new default HTTP error handler implementation. It sends a JSON response // with status code. `exposeError` parameter decides if returned message will contain also error message or not // // Note: DefaultHTTPErrorHandler does not log errors. Use middleware for it if errors need to be logged (separately) // Note: In case errors happens in middleware call-chain that is returning from handler (which did not return an error). // When handler has already sent response (ala c.JSON()) and there is error in middleware that is returning from // handler. Then the error that global error handler received will be ignored because we have already "commited" the // response and status code header has been sent to the client. func DefaultHTTPErrorHandler(exposeError bool) HTTPErrorHandler { return func(c Context, err error) { if c.Response().Committed { return } he := &HTTPError{ Code: http.StatusInternalServerError, Message: http.StatusText(http.StatusInternalServerError), } if errors.As(err, &he) { if he.Internal != nil { // max 2 levels of checks even if internal could have also internal errors.As(he.Internal, &he) } } // Issue #1426 code := he.Code message := he.Message if m, ok := he.Message.(string); ok { if exposeError { message = Map{"message": m, "error": err.Error()} } else { message = Map{"message": m} } } // Send response var cErr error if c.Request().Method == http.MethodHead { // Issue #608 cErr = c.NoContent(he.Code) } else { cErr = c.JSON(code, message) } if cErr != nil { c.Echo().Logger.Error(err) // truly rare case. ala client already disconnected } } } // Pre adds middleware to the chain which is run before router tries to find matching route. // Meaning middleware is executed even for 404 (not found) cases. func (e *Echo) Pre(middleware ...MiddlewareFunc) { e.premiddleware = append(e.premiddleware, middleware...) } // Use adds middleware to the chain which is run after router has found matching route and before route/request handler method is executed. func (e *Echo) Use(middleware ...MiddlewareFunc) { e.middleware = append(e.middleware, middleware...) } // CONNECT registers a new CONNECT route for a path with matching handler in the // router with optional route-level middleware. Panics on error. func (e *Echo) CONNECT(path string, h HandlerFunc, m ...MiddlewareFunc) RouteInfo { return e.Add(http.MethodConnect, path, h, m...) } // DELETE registers a new DELETE route for a path with matching handler in the router // with optional route-level middleware. Panics on error. func (e *Echo) DELETE(path string, h HandlerFunc, m ...MiddlewareFunc) RouteInfo { return e.Add(http.MethodDelete, path, h, m...) } // GET registers a new GET route for a path with matching handler in the router // with optional route-level middleware. Panics on error. func (e *Echo) GET(path string, h HandlerFunc, m ...MiddlewareFunc) RouteInfo { return e.Add(http.MethodGet, path, h, m...) } // HEAD registers a new HEAD route for a path with matching handler in the // router with optional route-level middleware. Panics on error. func (e *Echo) HEAD(path string, h HandlerFunc, m ...MiddlewareFunc) RouteInfo { return e.Add(http.MethodHead, path, h, m...) } // OPTIONS registers a new OPTIONS route for a path with matching handler in the // router with optional route-level middleware. Panics on error. func (e *Echo) OPTIONS(path string, h HandlerFunc, m ...MiddlewareFunc) RouteInfo { return e.Add(http.MethodOptions, path, h, m...) } // PATCH registers a new PATCH route for a path with matching handler in the // router with optional route-level middleware. Panics on error. func (e *Echo) PATCH(path string, h HandlerFunc, m ...MiddlewareFunc) RouteInfo { return e.Add(http.MethodPatch, path, h, m...) } // POST registers a new POST route for a path with matching handler in the // router with optional route-level middleware. Panics on error. func (e *Echo) POST(path string, h HandlerFunc, m ...MiddlewareFunc) RouteInfo { return e.Add(http.MethodPost, path, h, m...) } // PUT registers a new PUT route for a path with matching handler in the // router with optional route-level middleware. Panics on error. func (e *Echo) PUT(path string, h HandlerFunc, m ...MiddlewareFunc) RouteInfo { return e.Add(http.MethodPut, path, h, m...) } // TRACE registers a new TRACE route for a path with matching handler in the // router with optional route-level middleware. Panics on error. func (e *Echo) TRACE(path string, h HandlerFunc, m ...MiddlewareFunc) RouteInfo { return e.Add(http.MethodTrace, path, h, m...) } // Any registers a new route for all supported HTTP methods and path with matching handler // in the router with optional route-level middleware. Panics on error. func (e *Echo) Any(path string, handler HandlerFunc, middleware ...MiddlewareFunc) Routes { errs := make([]error, 0) ris := make(Routes, 0) for _, m := range methods { ri, err := e.AddRoute(Route{ Method: m, Path: path, Handler: handler, Middlewares: middleware, }) if err != nil { errs = append(errs, err) continue } ris = append(ris, ri) } if len(errs) > 0 { panic(errs) // this is how `v4` handles errors. `v5` has methods to have panic-free usage } return ris } // Match registers a new route for multiple HTTP methods and path with matching // handler in the router with optional route-level middleware. Panics on error. func (e *Echo) Match(methods []string, path string, handler HandlerFunc, middleware ...MiddlewareFunc) Routes { errs := make([]error, 0) ris := make(Routes, 0) for _, m := range methods { ri, err := e.AddRoute(Route{ Method: m, Path: path, Handler: handler, Middlewares: middleware, }) if err != nil { errs = append(errs, err) continue } ris = append(ris, ri) } if len(errs) > 0 { panic(errs) // this is how `v4` handles errors. `v5` has methods to have panic-free usage } return ris } // Static registers a new route with path prefix to serve static files from the provided root directory. func (e *Echo) Static(pathPrefix, fsRoot string) RouteInfo { subFs := MustSubFS(e.Filesystem, fsRoot) return e.Add( http.MethodGet, pathPrefix+"*", StaticDirectoryHandler(subFs, false), ) } // StaticFS registers a new route with path prefix to serve static files from the provided file system. // // When dealing with `embed.FS` use `fs := echo.MustSubFS(fs, "rootDirectory") to create sub fs which uses necessary // prefix for directory path. This is necessary as `//go:embed assets/images` embeds files with paths // including `assets/images` as their prefix. func (e *Echo) StaticFS(pathPrefix string, filesystem fs.FS) RouteInfo { return e.Add( http.MethodGet, pathPrefix+"*", StaticDirectoryHandler(filesystem, false), ) } // StaticDirectoryHandler creates handler function to serve files from provided file system // When disablePathUnescaping is set then file name from path is not unescaped and is served as is. func StaticDirectoryHandler(fileSystem fs.FS, disablePathUnescaping bool) HandlerFunc { return func(c Context) error { p := c.PathParam("*") if !disablePathUnescaping { // when router is already unescaping we do not want to do is twice tmpPath, err := url.PathUnescape(p) if err != nil { return fmt.Errorf("failed to unescape path variable: %w", err) } p = tmpPath } // fs.FS.Open() already assumes that file names are relative to FS root path and considers name with prefix `/` as invalid name := filepath.ToSlash(filepath.Clean(strings.TrimPrefix(p, "/"))) fi, err := fs.Stat(fileSystem, name) if err != nil { return ErrNotFound } // If the request is for a directory and does not end with "/" p = c.Request().URL.Path // path must not be empty. if fi.IsDir() && len(p) > 0 && p[len(p)-1] != '/' { // Redirect to ends with "/" return c.Redirect(http.StatusMovedPermanently, p+"/") } return fsFile(c, name, fileSystem) } } // FileFS registers a new route with path to serve file from the provided file system. func (e *Echo) FileFS(path, file string, filesystem fs.FS, m ...MiddlewareFunc) RouteInfo { return e.GET(path, StaticFileHandler(file, filesystem), m...) } // StaticFileHandler creates handler function to serve file from provided file system func StaticFileHandler(file string, filesystem fs.FS) HandlerFunc { return func(c Context) error { return fsFile(c, file, filesystem) } } // File registers a new route with path to serve a static file with optional route-level middleware. Panics on error. func (e *Echo) File(path, file string, middleware ...MiddlewareFunc) RouteInfo { handler := func(c Context) error { return c.File(file) } return e.Add(http.MethodGet, path, handler, middleware...) } // AddRoute registers a new Route with default host Router func (e *Echo) AddRoute(route Routable) (RouteInfo, error) { return e.add("", route) } func (e *Echo) add(host string, route Routable) (RouteInfo, error) { router := e.findRouter(host) ri, err := router.Add(route) if err != nil { return nil, err } paramsCount := len(ri.Params()) if paramsCount > e.contextPathParamAllocSize { e.contextPathParamAllocSize = paramsCount } return ri, nil } // Add registers a new route for an HTTP method and path with matching handler // in the router with optional route-level middleware. func (e *Echo) Add(method, path string, handler HandlerFunc, middleware ...MiddlewareFunc) RouteInfo { ri, err := e.add( "", Route{ Method: method, Path: path, Handler: handler, Middlewares: middleware, Name: "", }, ) if err != nil { panic(err) // this is how `v4` handles errors. `v5` has methods to have panic-free usage } return ri } // Host creates a new router group for the provided host and optional host-level middleware. func (e *Echo) Host(name string, m ...MiddlewareFunc) (g *Group) { e.routers[name] = e.routerCreator(e) g = &Group{host: name, echo: e} g.Use(m...) return } // Group creates a new router group with prefix and optional group-level middleware. func (e *Echo) Group(prefix string, m ...MiddlewareFunc) (g *Group) { g = &Group{prefix: prefix, echo: e} g.Use(m...) return } // AcquireContext returns an empty `Context` instance from the pool. // You must return the context by calling `ReleaseContext()`. func (e *Echo) AcquireContext() Context { return e.contextPool.Get().(Context) } // ReleaseContext returns the `Context` instance back to the pool. // You must call it after `AcquireContext()`. func (e *Echo) ReleaseContext(c Context) { e.contextPool.Put(c) } // ServeHTTP implements `http.Handler` interface, which serves HTTP requests. func (e *Echo) ServeHTTP(w http.ResponseWriter, r *http.Request) { var c ServableContext if e.NewContextFunc != nil { // NOTE: we are not casting always context to RoutableContext because casting to interface vs pointer to struct is // "significantly" slower. Echo Context interface has way to many methods so these checks take time. // These are benchmarks with 1.16: // * interface extending another interface = +24% slower (3233 ns/op vs 2605 ns/op) // * interface (not extending any, just methods)= +14% slower // // Quote from https://stackoverflow.com/a/31584377 // "it's even worse with interface-to-interface assertion, because you also need to ensure that the type implements the interface." // // So most of the time we do not need custom context type and simple IF + cast to pointer to struct is fast enough. c = e.contextPool.Get().(ServableContext) } else { c = e.contextPool.Get().(*DefaultContext) } c.Reset(r, w) var h func(Context) error if e.premiddleware == nil { h = applyMiddleware(e.findRouter(r.Host).Route(c), e.middleware...) } else { h = func(cc Context) error { // NOTE: router will be executed after pre middlewares have been run. We assume here that context we receive after pre middlewares // is the same we began with. If not - this is use-case we do not support and is probably abuse from developer. h1 := applyMiddleware(e.findRouter(r.Host).Route(c), e.middleware...) return h1(cc) } h = applyMiddleware(h, e.premiddleware...) } // Execute chain if err := h(c); err != nil { e.HTTPErrorHandler(c, err) } e.contextPool.Put(c) } // Start stars HTTP server on given address with Echo as a handler serving requests. The server can be shutdown by // sending os.Interrupt signal with `ctrl+c`. // // Note: this method is created for use in examples/demos and is deliberately simple without providing configuration // options. // // In need of customization use: // sc := echo.StartConfig{Address: ":8080"} // if err := sc.Start(e); err != http.ErrServerClosed { // log.Fatal(err) // } // // or standard library `http.Server` // s := http.Server{Addr: ":8080", Handler: e} // if err := s.ListenAndServe(); err != http.ErrServerClosed { // log.Fatal(err) // } func (e *Echo) Start(address string) error { sc := StartConfig{Address: address} ctx, cancel := signal.NotifyContext(stdContext.Background(), os.Interrupt) // start shutdown process on ctrl+c defer cancel() sc.GracefulContext = ctx return sc.Start(e) } // WrapHandler wraps `http.Handler` into `echo.HandlerFunc`. func WrapHandler(h http.Handler) HandlerFunc { return func(c Context) error { h.ServeHTTP(c.Response(), c.Request()) return nil } } // WrapMiddleware wraps `func(http.Handler) http.Handler` into `echo.MiddlewareFunc` func WrapMiddleware(m func(http.Handler) http.Handler) MiddlewareFunc { return func(next HandlerFunc) HandlerFunc { return func(c Context) (err error) { m(http.HandlerFunc(func(w http.ResponseWriter, r *http.Request) { c.SetRequest(r) c.SetResponse(NewResponse(w, c.Echo())) err = next(c) })).ServeHTTP(c.Response(), c.Request()) return } } } func (e *Echo) findRouter(host string) Router { if len(e.routers) > 0 { if r, ok := e.routers[host]; ok { return r } } return e.router } func applyMiddleware(h HandlerFunc, middleware ...MiddlewareFunc) HandlerFunc { for i := len(middleware) - 1; i >= 0; i-- { h = middleware[i](h) } return h } // defaultFS emulates os.Open behaviour with filesystem opened by `os.DirFs`. Difference between `os.Open` and `fs.Open` // is that FS does not allow to open path that start with `..` or `/` etc. For example previously you could have `../images` // in your application but `fs := os.DirFS("./")` would not allow you to use `fs.Open("../images")` and this would break // all old applications that rely on being able to traverse up from current executable run path. // NB: private because you really should use fs.FS implementation instances type defaultFS struct { prefix string fs fs.FS } func newDefaultFS() *defaultFS { dir, _ := os.Getwd() return &defaultFS{ prefix: dir, fs: nil, } } func (fs defaultFS) Open(name string) (fs.File, error) { if fs.fs == nil { return os.Open(name) } return fs.fs.Open(name) } func subFS(currentFs fs.FS, root string) (fs.FS, error) { root = filepath.ToSlash(filepath.Clean(root)) // note: fs.FS operates only with slashes. `ToSlash` is necessary for Windows if dFS, ok := currentFs.(*defaultFS); ok { // we need to make exception for `defaultFS` instances as it interprets root prefix differently from fs.FS. // fs.Fs.Open does not like relative paths ("./", "../") and absolute paths at all but prior echo.Filesystem we // were able to use paths like `./myfile.log`, `/etc/hosts` and these would work fine with `os.Open` but not with fs.Fs if isRelativePath(root) { root = filepath.Join(dFS.prefix, root) } return &defaultFS{ prefix: root, fs: os.DirFS(root), }, nil } return fs.Sub(currentFs, root) } func isRelativePath(path string) bool { if path == "" { return true } if path[0] == '/' { return false } if runtime.GOOS == "windows" && strings.IndexByte(path, ':') != -1 { // https://docs.microsoft.com/en-us/windows/win32/fileio/naming-a-file?redirectedfrom=MSDN#file_and_directory_names // https://docs.microsoft.com/en-us/dotnet/standard/io/file-path-formats return false } return true } // MustSubFS creates sub FS from current filesystem or panic on failure. // Panic happens when `fsRoot` contains invalid path according to `fs.ValidPath` rules. // // MustSubFS is helpful when dealing with `embed.FS` because for example `//go:embed assets/images` embeds files with // paths including `assets/images` as their prefix. In that case use `fs := echo.MustSubFS(fs, "rootDirectory") to // create sub fs which uses necessary prefix for directory path. func MustSubFS(currentFs fs.FS, fsRoot string) fs.FS { subFs, err := subFS(currentFs, fsRoot) if err != nil { panic(fmt.Errorf("can not create sub FS, invalid root given, err: %w", err)) } return subFs }