// ⚡️ Fiber is an Express inspired web framework written in Go with ☕️ // 🤖 Github Repository: https://github.com/gofiber/fiber // 📌 API Documentation: https://docs.gofiber.io package fiber import ( "bufio" "crypto/tls" "fmt" "log" "net" "net/http" "net/http/httputil" "os" "reflect" "runtime" "sort" "strconv" "strings" "sync" "text/tabwriter" "time" utils "github.com/gofiber/utils" colorable "github.com/segrey/go-colorable" fasthttp "github.com/valyala/fasthttp" ) // Version of current package const Version = "1.12.1" // Map is a shortcut for map[string]interface{}, useful for JSON returns type Map map[string]interface{} // Handler defines a function to serve HTTP requests. type Handler = func(*Ctx) // Error represents an error that occurred while handling a request. type Error struct { Code int Message string } // App denotes the Fiber application. type App struct { mutex sync.Mutex // Route stack divided by HTTP methods stack [][]*Route // Amount of registered routes routes int // Ctx pool pool sync.Pool // Fasthttp server server *fasthttp.Server // App settings Settings *Settings } // Settings holds is a struct holding the server settings type Settings struct { // ErrorHandler is executed when you pass an error in the Next(err) method // This function is also executed when middleware.Recover() catches a panic // Default: func(ctx *Ctx, err error) { // code := StatusInternalServerError // if e, ok := err.(*Error); ok { // code = e.Code // } // ctx.Set(HeaderContentType, MIMETextPlainCharsetUTF8) // ctx.Status(code).SendString(err.Error()) // } ErrorHandler func(*Ctx, error) // Enables the "Server: value" HTTP header. // Default: "" ServerHeader string // Enable strict routing. When enabled, the router treats "/foo" and "/foo/" as different. // By default this is disabled and both "/foo" and "/foo/" will execute the same handler. StrictRouting bool // Enable case sensitive routing. When enabled, "/FoO" and "/foo" are different routes. // By default this is disabled and both "/FoO" and "/foo" will execute the same handler. CaseSensitive bool // Enables handler values to be immutable even if you return from handler // Default: false Immutable bool // Enable or disable ETag header generation, since both weak and strong etags are generated // using the same hashing method (CRC-32). Weak ETags are the default when enabled. // Default value false ETag bool // This will spawn multiple Go processes listening on the same port // Default: false Prefork bool // Max body size that the server accepts // Default: 4 * 1024 * 1024 BodyLimit int // Maximum number of concurrent connections. // Default: 256 * 1024 Concurrency int // Disable keep-alive connections, the server will close incoming connections after sending the first response to client // Default: false DisableKeepalive bool // When set to true causes the default date header to be excluded from the response. // Default: false DisableDefaultDate bool // When set to true, causes the default Content-Type header to be excluded from the Response. // Default: false DisableDefaultContentType bool // By default all header names are normalized: conteNT-tYPE -> Content-Type // Default: false DisableHeaderNormalizing bool // When set to true, it will not print out the «Fiber» ASCII art and listening address // Default: false DisableStartupMessage bool // Templates is deprecated please use Views // Default: nil Templates Templates // Views is the interface that wraps the Render function. // Default: nil Views Views // The amount of time allowed to read the full request including body. // It is reset after the request handler has returned. // The connection's read deadline is reset when the connection opens. // Default: unlimited ReadTimeout time.Duration // The maximum duration before timing out writes of the response. // It is reset after the request handler has returned. // Default: unlimited WriteTimeout time.Duration // The maximum amount of time to wait for the next request when keep-alive is enabled. // If IdleTimeout is zero, the value of ReadTimeout is used. // Default: unlimited IdleTimeout time.Duration // Per-connection buffer size for requests' reading. // This also limits the maximum header size. // Increase this buffer if your clients send multi-KB RequestURIs // and/or multi-KB headers (for example, BIG cookies). // Default 4096 ReadBufferSize int // Per-connection buffer size for responses' writing. // Default 4096 WriteBufferSize int // CompressedFileSuffix adds suffix to the original file name and // tries saving the resulting compressed file under the new file name. // Default: ".fiber.gz" CompressedFileSuffix string // FEATURE: v1.13 // The router executes the same handler by default if StrictRouting or CaseSensitive is disabled. // Enabling RedirectFixedPath will change this behaviour into a client redirect to the original route path. // Using the status code 301 for GET requests and 308 for all other request methods. // RedirectFixedPath bool } // Static struct type Static struct { // This works differently than the github.com/gofiber/compression middleware // The server tries minimizing CPU usage by caching compressed files. // Optional. Default value false Compress bool // Enables byte range requests if set to true. // Optional. Default value false ByteRange bool // Enable directory browsing. // Optional. Default value false. Browse bool // Index file for serving a directory. // Optional. Default value "index.html". Index string } // default settings var ( defaultBodyLimit = 4 * 1024 * 1024 defaultConcurrency = 256 * 1024 defaultReadBufferSize = 4096 defaultWriteBufferSize = 4096 defaultErrorHandler = func(ctx *Ctx, err error) { code := StatusInternalServerError if e, ok := err.(*Error); ok { code = e.Code } ctx.Set(HeaderContentType, MIMETextPlainCharsetUTF8) ctx.Status(code).SendString(err.Error()) } defaultCompressedFileSuffix = ".fiber.gz" ) // New creates a new Fiber named instance. // You can pass optional settings when creating a new instance. func New(settings ...*Settings) *App { // Create a new app app := &App{ // Create router stack stack: make([][]*Route, len(methodINT)), // Create Ctx pool pool: sync.Pool{ New: func() interface{} { return new(Ctx) }, }, // Set settings Settings: &Settings{}, } // Overwrite settings if provided if len(settings) > 0 { app.Settings = settings[0] } if app.Settings.BodyLimit <= 0 { app.Settings.BodyLimit = defaultBodyLimit } if app.Settings.Concurrency <= 0 { app.Settings.Concurrency = defaultConcurrency } if app.Settings.ReadBufferSize <= 0 { app.Settings.ReadBufferSize = defaultReadBufferSize } if app.Settings.WriteBufferSize <= 0 { app.Settings.WriteBufferSize = defaultWriteBufferSize } // Set default compressed file suffix if app.Settings.CompressedFileSuffix == "" { app.Settings.CompressedFileSuffix = defaultCompressedFileSuffix } // Set default error if app.Settings.ErrorHandler == nil { app.Settings.ErrorHandler = defaultErrorHandler } if !app.Settings.Prefork { // Default to -prefork flag if false app.Settings.Prefork = utils.GetArgument(flagPrefork) } // Replace unsafe conversion functions if app.Settings.Immutable { getBytes, getString = getBytesImmutable, getStringImmutable } // Return app return app } // Use registers a middleware route. // Middleware matches requests beginning with the provided prefix. // Providing a prefix is optional, it defaults to "/". // // - app.Use(handler) // - app.Use("/api", handler) // - app.Use("/api", handler, handler) func (app *App) Use(args ...interface{}) *Route { var prefix string var handlers []Handler for i := 0; i < len(args); i++ { switch arg := args[i].(type) { case string: prefix = arg case Handler: handlers = append(handlers, arg) default: log.Fatalf("Use: Invalid Handler %v", reflect.TypeOf(arg)) } } return app.register("USE", prefix, handlers...) } // Get ... func (app *App) Get(path string, handlers ...Handler) *Route { return app.Add(MethodGet, path, handlers...) } // Head ... func (app *App) Head(path string, handlers ...Handler) *Route { return app.Add(MethodHead, path, handlers...) } // Post ... func (app *App) Post(path string, handlers ...Handler) *Route { return app.Add(MethodPost, path, handlers...) } // Put ... func (app *App) Put(path string, handlers ...Handler) *Route { return app.Add(MethodPut, path, handlers...) } // Delete ... func (app *App) Delete(path string, handlers ...Handler) *Route { return app.Add(MethodDelete, path, handlers...) } // Connect ... func (app *App) Connect(path string, handlers ...Handler) *Route { return app.Add(MethodConnect, path, handlers...) } // Options ... func (app *App) Options(path string, handlers ...Handler) *Route { return app.Add(MethodOptions, path, handlers...) } // Trace ... func (app *App) Trace(path string, handlers ...Handler) *Route { return app.Add(MethodTrace, path, handlers...) } // Patch ... func (app *App) Patch(path string, handlers ...Handler) *Route { return app.Add(MethodPatch, path, handlers...) } // Add ... func (app *App) Add(method, path string, handlers ...Handler) *Route { return app.register(method, path, handlers...) } // Static ... func (app *App) Static(prefix, root string, config ...Static) *Route { return app.registerStatic(prefix, root, config...) } // All ... func (app *App) All(path string, handlers ...Handler) []*Route { routes := make([]*Route, len(methodINT)) for method, i := range methodINT { routes[i] = app.Add(method, path, handlers...) } return routes } // Group is used for Routes with common prefix to define a new sub-router with optional middleware. func (app *App) Group(prefix string, handlers ...Handler) *Group { if len(handlers) > 0 { app.register("USE", prefix, handlers...) } return &Group{prefix: prefix, app: app} } // Error makes it compatible with `error` interface. func (e *Error) Error() string { return e.Message } // NewError creates a new HTTPError instance. func NewError(code int, message ...string) *Error { e := &Error{code, utils.StatusMessage(code)} if len(message) > 0 { e.Message = message[0] } return e } // Routes returns all registered routes // // for _, r := range app.Routes() { // fmt.Printf("%s\t%s\n", r.Method, r.Path) // } func (app *App) Routes() []*Route { routes := make([]*Route, 0) for m := range app.stack { for r := range app.stack[m] { // Ignore HEAD routes handling GET routes if m == 1 && app.stack[m][r].Method == MethodGet { continue } // Don't duplicate USE routes if app.stack[m][r].Method == "USE" { duplicate := false for i := range routes { if routes[i].Method == "USE" && routes[i].Name == app.stack[m][r].Name { duplicate = true } } if !duplicate { routes = append(routes, app.stack[m][r]) } } else { routes = append(routes, app.stack[m][r]) } } } // Sort routes by stack position sort.Slice(routes, func(i, k int) bool { return routes[i].pos < routes[k].pos }) return routes } // Serve can be used to pass a custom listener // This method does not support the Prefork feature // Prefork is not supported using app.Serve(ln net.Listener) // You can pass an optional *tls.Config to enable TLS. func (app *App) Serve(ln net.Listener, tlsconfig ...*tls.Config) error { // Update fiber server settings app.init() // TLS config if len(tlsconfig) > 0 { ln = tls.NewListener(ln, tlsconfig[0]) } // Print startup message if !app.Settings.DisableStartupMessage { app.startupMessage(ln.Addr().String()) } return app.server.Serve(ln) } // Listen serves HTTP requests from the given addr or port. // You can pass an optional *tls.Config to enable TLS. func (app *App) Listen(address interface{}, tlsconfig ...*tls.Config) error { // Convert address to string addr, ok := address.(string) if !ok { port, ok := address.(int) if !ok { return fmt.Errorf("listen: host must be an `int` port or `string` address") } addr = strconv.Itoa(port) } if !strings.Contains(addr, ":") { addr = ":" + addr } // Update fiber server settings app.init() // Print startup message if !app.Settings.DisableStartupMessage { app.startupMessage(addr) } // Start prefork if app.Settings.Prefork { return app.prefork(addr, tlsconfig...) } // Setup listener ln, err := net.Listen("tcp4", addr) if err != nil { return err } // Add TLS config if provided if len(tlsconfig) > 0 { ln = tls.NewListener(ln, tlsconfig[0]) } // Start listening return app.server.Serve(ln) } // Handler returns the server handler func (app *App) Handler() fasthttp.RequestHandler { return app.handler } // Shutdown gracefully shuts down the server without interrupting any active connections. // Shutdown works by first closing all open listeners and then waiting indefinitely for all connections to return to idle and then shut down. // // When Shutdown is called, Serve, ListenAndServe, and ListenAndServeTLS immediately return nil. // Make sure the program doesn't exit and waits instead for Shutdown to return. // // Shutdown does not close keepalive connections so its recommended to set ReadTimeout to something else than 0. func (app *App) Shutdown() error { app.mutex.Lock() defer app.mutex.Unlock() if app.server == nil { return fmt.Errorf("shutdown: server is not running") } return app.server.Shutdown() } // Test is used for internal debugging by passing a *http.Request // Timeout is optional and defaults to 1s, -1 will disable it completely. func (app *App) Test(request *http.Request, msTimeout ...int) (*http.Response, error) { timeout := 1000 // 1 second default if len(msTimeout) > 0 { timeout = msTimeout[0] } // Add Content-Length if not provided with body if request.Body != http.NoBody && request.Header.Get("Content-Length") == "" { request.Header.Add("Content-Length", strconv.FormatInt(request.ContentLength, 10)) } // Dump raw http request dump, err := httputil.DumpRequest(request, true) if err != nil { return nil, err } // Update server settings app.init() // Create test connection conn := new(testConn) // Write raw http request if _, err = conn.r.Write(dump); err != nil { return nil, err } // Serve conn to server channel := make(chan error) go func() { channel <- app.server.ServeConn(conn) }() // Wait for callback if timeout >= 0 { // With timeout select { case err = <-channel: case <-time.After(time.Duration(timeout) * time.Millisecond): return nil, fmt.Errorf("test: timeout error %vms", timeout) } } else { // Without timeout err = <-channel } // Check for errors if err != nil { return nil, err } // Read response buffer := bufio.NewReader(&conn.w) // Convert raw http response to *http.Response resp, err := http.ReadResponse(buffer, request) if err != nil { return nil, err } // Return *http.Response return resp, nil } type disableLogger struct{} func (dl *disableLogger) Printf(format string, args ...interface{}) { // fmt.Println(fmt.Sprintf(format, args...)) } func (app *App) init() *App { app.mutex.Lock() // Load view engine if provided if app.Settings != nil { // Templates is replaced by Views with layout support if app.Settings.Templates != nil { fmt.Println("`Templates` are deprecated since v1.12.x, please us `Views` instead") } // Only load templates if an view engine is specified if app.Settings.Views != nil { if err := app.Settings.Views.Load(); err != nil { fmt.Printf("views: %v\n", err) } } } if app.server == nil { app.server = &fasthttp.Server{ Logger: &disableLogger{}, LogAllErrors: false, ErrorHandler: func(fctx *fasthttp.RequestCtx, err error) { ctx := app.AcquireCtx(fctx) if _, ok := err.(*fasthttp.ErrSmallBuffer); ok { ctx.err = ErrRequestHeaderFieldsTooLarge } else if netErr, ok := err.(*net.OpError); ok && netErr.Timeout() { ctx.err = ErrRequestTimeout } else if len(err.Error()) == 33 && err.Error() == "body size exceeds the given limit" { ctx.err = ErrRequestEntityTooLarge } else { ctx.err = ErrBadRequest } app.Settings.ErrorHandler(ctx, ctx.err) app.ReleaseCtx(ctx) }, } } if app.server.Handler == nil { app.server.Handler = app.handler } app.server.Name = app.Settings.ServerHeader app.server.Concurrency = app.Settings.Concurrency app.server.NoDefaultDate = app.Settings.DisableDefaultDate app.server.NoDefaultContentType = app.Settings.DisableDefaultContentType app.server.DisableHeaderNamesNormalizing = app.Settings.DisableHeaderNormalizing app.server.DisableKeepalive = app.Settings.DisableKeepalive app.server.MaxRequestBodySize = app.Settings.BodyLimit app.server.NoDefaultServerHeader = app.Settings.ServerHeader == "" app.server.ReadTimeout = app.Settings.ReadTimeout app.server.WriteTimeout = app.Settings.WriteTimeout app.server.IdleTimeout = app.Settings.IdleTimeout app.server.ReadBufferSize = app.Settings.ReadBufferSize app.server.WriteBufferSize = app.Settings.WriteBufferSize app.mutex.Unlock() return app } const ( cBlack = "\u001b[90m" // cRed = "\u001b[91m" cGreen = "\u001b[92m" // cYellow = "\u001b[93m" // cBlue = "\u001b[94m" // cMagenta = "\u001b[95m" // cCyan = "\u001b[96m" // cWhite = "\u001b[97m" cReset = "\u001b[0m" ) func (app *App) startupMessage(port string) { // tabwriter makes sure the spacing are consistant across different values // colorable handles the escape sequence for stdout using ascii color codes out := tabwriter.NewWriter(colorable.NewColorableStdout(), 0, 8, 4, ' ', 0) if !utils.GetArgument(flagChild) { fmt.Fprintf(out, "%s _______ __\n ____ / ____(_) /_ ___ _____\n_____ / /_ / / __ \\/ _ \\/ ___/\n __ / __/ / / /_/ / __/ /\n /_/ /_/_.___/\\___/_/", cGreen) fmt.Fprintf(out, "%s v%s\n\n", cBlack, Version) fmt.Fprintf(out, "PORT: %s%s%s \tROUTES: %s%v%s\n", cGreen, port, cBlack, cGreen, len(app.Routes()), cBlack) fmt.Fprintf(out, "PPID: %s%v%s \tPREFORK: %s%v%s\n", cGreen, os.Getppid(), cBlack, cGreen, app.Settings.Prefork, cBlack) fmt.Fprintf(out, "OS: %s%v%s \tARCH: %s%v%s\n\n", cGreen, runtime.GOOS, cBlack, cGreen, runtime.GOARCH, cReset) } _ = out.Flush() }