// ⚡️ 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 ( "bytes" "context" "crypto/tls" "encoding/json" "encoding/xml" "errors" "fmt" "io" "mime/multipart" "net" "net/http" "path/filepath" "reflect" "strconv" "strings" "sync" "text/template" "time" "github.com/gofiber/fiber/v2/internal/schema" "github.com/gofiber/fiber/v2/utils" "github.com/valyala/bytebufferpool" "github.com/valyala/fasthttp" ) const ( schemeHTTP = "http" schemeHTTPS = "https" ) // maxParams defines the maximum number of parameters per route. const maxParams = 30 // Some constants for BodyParser, QueryParser and ReqHeaderParser. const ( queryTag = "query" reqHeaderTag = "reqHeader" bodyTag = "form" paramsTag = "params" ) // userContextKey define the key name for storing context.Context in *fasthttp.RequestCtx const userContextKey = "__local_user_context__" var ( // decoderPoolMap helps to improve BodyParser's, QueryParser's and ReqHeaderParser's performance decoderPoolMap = map[string]*sync.Pool{} // tags is used to classify parser's pool tags = []string{queryTag, bodyTag, reqHeaderTag, paramsTag} ) func init() { for _, tag := range tags { decoderPoolMap[tag] = &sync.Pool{New: func() interface{} { return decoderBuilder(ParserConfig{ IgnoreUnknownKeys: true, ZeroEmpty: true, }) }} } } // SetParserDecoder allow globally change the option of form decoder, update decoderPool func SetParserDecoder(parserConfig ParserConfig) { for _, tag := range tags { decoderPoolMap[tag] = &sync.Pool{New: func() interface{} { return decoderBuilder(parserConfig) }} } } // Ctx represents the Context which hold the HTTP request and response. // It has methods for the request query string, parameters, body, HTTP headers and so on. type Ctx struct { app *App // Reference to *App route *Route // Reference to *Route indexRoute int // Index of the current route indexHandler int // Index of the current handler method string // HTTP method methodINT int // HTTP method INT equivalent baseURI string // HTTP base uri path string // HTTP path with the modifications by the configuration -> string copy from pathBuffer pathBuffer []byte // HTTP path buffer detectionPath string // Route detection path -> string copy from detectionPathBuffer detectionPathBuffer []byte // HTTP detectionPath buffer treePath string // Path for the search in the tree pathOriginal string // Original HTTP path values [maxParams]string // Route parameter values fasthttp *fasthttp.RequestCtx // Reference to *fasthttp.RequestCtx matched bool // Non use route matched viewBindMap sync.Map // Default view map to bind template engine } // TLSHandler object type TLSHandler struct { clientHelloInfo *tls.ClientHelloInfo } // GetClientInfo Callback function to set CHI // TODO: Why is this a getter which sets stuff? func (t *TLSHandler) GetClientInfo(info *tls.ClientHelloInfo) (*tls.Certificate, error) { t.clientHelloInfo = info return nil, nil //nolint:nilnil // Not returning anything useful here is probably fine } // Range data for c.Range type Range struct { Type string Ranges []struct { Start int End int } } // Cookie data for c.Cookie type Cookie struct { Name string `json:"name"` Value string `json:"value"` Path string `json:"path"` Domain string `json:"domain"` MaxAge int `json:"max_age"` Expires time.Time `json:"expires"` Secure bool `json:"secure"` HTTPOnly bool `json:"http_only"` SameSite string `json:"same_site"` SessionOnly bool `json:"session_only"` } // Views is the interface that wraps the Render function. type Views interface { Load() error Render(io.Writer, string, interface{}, ...string) error } // ParserType require two element, type and converter for register. // Use ParserType with BodyParser for parsing custom type in form data. type ParserType struct { Customtype interface{} Converter func(string) reflect.Value } // ParserConfig form decoder config for SetParserDecoder type ParserConfig struct { IgnoreUnknownKeys bool SetAliasTag string ParserType []ParserType ZeroEmpty bool } // AcquireCtx retrieves a new Ctx from the pool. func (app *App) AcquireCtx(fctx *fasthttp.RequestCtx) *Ctx { c, ok := app.pool.Get().(*Ctx) if !ok { panic(fmt.Errorf("failed to type-assert to *Ctx")) } // Set app reference c.app = app // Reset route and handler index c.indexRoute = -1 c.indexHandler = 0 // Reset matched flag c.matched = false // Set paths c.pathOriginal = app.getString(fctx.URI().PathOriginal()) // Set method c.method = app.getString(fctx.Request.Header.Method()) c.methodINT = app.methodInt(c.method) // Attach *fasthttp.RequestCtx to ctx c.fasthttp = fctx // reset base uri c.baseURI = "" // Prettify path c.configDependentPaths() return c } // ReleaseCtx releases the ctx back into the pool. func (app *App) ReleaseCtx(c *Ctx) { // Reset values c.route = nil c.fasthttp = nil c.viewBindMap = sync.Map{} app.pool.Put(c) } // Accepts checks if the specified extensions or content types are acceptable. func (c *Ctx) Accepts(offers ...string) string { return getOffer(c.Get(HeaderAccept), acceptsOfferType, offers...) } // AcceptsCharsets checks if the specified charset is acceptable. func (c *Ctx) AcceptsCharsets(offers ...string) string { return getOffer(c.Get(HeaderAcceptCharset), acceptsOffer, offers...) } // AcceptsEncodings checks if the specified encoding is acceptable. func (c *Ctx) AcceptsEncodings(offers ...string) string { return getOffer(c.Get(HeaderAcceptEncoding), acceptsOffer, offers...) } // AcceptsLanguages checks if the specified language is acceptable. func (c *Ctx) AcceptsLanguages(offers ...string) string { return getOffer(c.Get(HeaderAcceptLanguage), acceptsOffer, offers...) } // App returns the *App reference to the instance of the Fiber application func (c *Ctx) App() *App { return c.app } // Append the specified value to the HTTP response header field. // If the header is not already set, it creates the header with the specified value. func (c *Ctx) Append(field string, values ...string) { if len(values) == 0 { return } h := c.app.getString(c.fasthttp.Response.Header.Peek(field)) originalH := h for _, value := range values { if len(h) == 0 { h = value } else if h != value && !strings.HasPrefix(h, value+",") && !strings.HasSuffix(h, " "+value) && !strings.Contains(h, " "+value+",") { h += ", " + value } } if originalH != h { c.Set(field, h) } } // Attachment sets the HTTP response Content-Disposition header field to attachment. func (c *Ctx) Attachment(filename ...string) { if len(filename) > 0 { fname := filepath.Base(filename[0]) c.Type(filepath.Ext(fname)) c.setCanonical(HeaderContentDisposition, `attachment; filename="`+c.app.quoteString(fname)+`"`) return } c.setCanonical(HeaderContentDisposition, "attachment") } // BaseURL returns (protocol + host + base path). func (c *Ctx) BaseURL() string { // TODO: Could be improved: 53.8 ns/op 32 B/op 1 allocs/op // Should work like https://codeigniter.com/user_guide/helpers/url_helper.html if c.baseURI != "" { return c.baseURI } c.baseURI = c.Protocol() + "://" + c.Hostname() return c.baseURI } // Body contains the raw body submitted in a POST request. // Returned value is only valid within the handler. Do not store any references. // Make copies or use the Immutable setting instead. func (c *Ctx) Body() []byte { var err error var encoding string var body []byte // faster than peek c.Request().Header.VisitAll(func(key, value []byte) { if c.app.getString(key) == HeaderContentEncoding { encoding = c.app.getString(value) } }) switch encoding { case StrGzip: body, err = c.fasthttp.Request.BodyGunzip() case StrBr, StrBrotli: body, err = c.fasthttp.Request.BodyUnbrotli() case StrDeflate: body, err = c.fasthttp.Request.BodyInflate() default: body = c.fasthttp.Request.Body() } if err != nil { return []byte(err.Error()) } return body } func decoderBuilder(parserConfig ParserConfig) interface{} { decoder := schema.NewDecoder() decoder.IgnoreUnknownKeys(parserConfig.IgnoreUnknownKeys) if parserConfig.SetAliasTag != "" { decoder.SetAliasTag(parserConfig.SetAliasTag) } for _, v := range parserConfig.ParserType { decoder.RegisterConverter(reflect.ValueOf(v.Customtype).Interface(), v.Converter) } decoder.ZeroEmpty(parserConfig.ZeroEmpty) return decoder } // BodyParser binds the request body to a struct. // It supports decoding the following content types based on the Content-Type header: // application/json, application/xml, application/x-www-form-urlencoded, multipart/form-data // If none of the content types above are matched, it will return a ErrUnprocessableEntity error func (c *Ctx) BodyParser(out interface{}) error { // Get content-type ctype := utils.ToLower(c.app.getString(c.fasthttp.Request.Header.ContentType())) ctype = utils.ParseVendorSpecificContentType(ctype) // Parse body accordingly if strings.HasPrefix(ctype, MIMEApplicationJSON) { return c.app.config.JSONDecoder(c.Body(), out) } if strings.HasPrefix(ctype, MIMEApplicationForm) { data := make(map[string][]string) var err error c.fasthttp.PostArgs().VisitAll(func(key, val []byte) { if err != nil { return } k := c.app.getString(key) v := c.app.getString(val) if strings.Contains(k, "[") { k, err = parseParamSquareBrackets(k) } if strings.Contains(v, ",") && equalFieldType(out, reflect.Slice, k) { values := strings.Split(v, ",") for i := 0; i < len(values); i++ { data[k] = append(data[k], values[i]) } } else { data[k] = append(data[k], v) } }) return c.parseToStruct(bodyTag, out, data) } if strings.HasPrefix(ctype, MIMEMultipartForm) { data, err := c.fasthttp.MultipartForm() if err != nil { return err } return c.parseToStruct(bodyTag, out, data.Value) } if strings.HasPrefix(ctype, MIMETextXML) || strings.HasPrefix(ctype, MIMEApplicationXML) { if err := xml.Unmarshal(c.Body(), out); err != nil { return fmt.Errorf("failed to unmarshal: %w", err) } return nil } // No suitable content type found return ErrUnprocessableEntity } // ClearCookie expires a specific cookie by key on the client side. // If no key is provided it expires all cookies that came with the request. func (c *Ctx) ClearCookie(key ...string) { if len(key) > 0 { for i := range key { c.fasthttp.Response.Header.DelClientCookie(key[i]) } return } c.fasthttp.Request.Header.VisitAllCookie(func(k, v []byte) { c.fasthttp.Response.Header.DelClientCookieBytes(k) }) } // Context returns *fasthttp.RequestCtx that carries a deadline // a cancellation signal, and other values across API boundaries. func (c *Ctx) Context() *fasthttp.RequestCtx { return c.fasthttp } // UserContext returns a context implementation that was set by // user earlier or returns a non-nil, empty context,if it was not set earlier. func (c *Ctx) UserContext() context.Context { ctx, ok := c.fasthttp.UserValue(userContextKey).(context.Context) if !ok { ctx = context.Background() c.SetUserContext(ctx) } return ctx } // SetUserContext sets a context implementation by user. func (c *Ctx) SetUserContext(ctx context.Context) { c.fasthttp.SetUserValue(userContextKey, ctx) } // Cookie sets a cookie by passing a cookie struct. func (c *Ctx) Cookie(cookie *Cookie) { fcookie := fasthttp.AcquireCookie() fcookie.SetKey(cookie.Name) fcookie.SetValue(cookie.Value) fcookie.SetPath(cookie.Path) fcookie.SetDomain(cookie.Domain) // only set max age and expiry when SessionOnly is false // i.e. cookie supposed to last beyond browser session // refer: https://developer.mozilla.org/en-US/docs/Web/HTTP/Cookies#define_the_lifetime_of_a_cookie if !cookie.SessionOnly { fcookie.SetMaxAge(cookie.MaxAge) fcookie.SetExpire(cookie.Expires) } fcookie.SetSecure(cookie.Secure) fcookie.SetHTTPOnly(cookie.HTTPOnly) switch utils.ToLower(cookie.SameSite) { case CookieSameSiteStrictMode: fcookie.SetSameSite(fasthttp.CookieSameSiteStrictMode) case CookieSameSiteNoneMode: fcookie.SetSameSite(fasthttp.CookieSameSiteNoneMode) case CookieSameSiteDisabled: fcookie.SetSameSite(fasthttp.CookieSameSiteDisabled) default: fcookie.SetSameSite(fasthttp.CookieSameSiteLaxMode) } c.fasthttp.Response.Header.SetCookie(fcookie) fasthttp.ReleaseCookie(fcookie) } // Cookies are used for getting a cookie value by key. // Defaults to the empty string "" if the cookie doesn't exist. // If a default value is given, it will return that value if the cookie doesn't exist. // The returned value is only valid within the handler. Do not store any references. // Make copies or use the Immutable setting to use the value outside the Handler. func (c *Ctx) Cookies(key string, defaultValue ...string) string { return defaultString(c.app.getString(c.fasthttp.Request.Header.Cookie(key)), defaultValue) } // Download transfers the file from path as an attachment. // Typically, browsers will prompt the user for download. // By default, the Content-Disposition header filename= parameter is the filepath (this typically appears in the browser dialog). // Override this default with the filename parameter. func (c *Ctx) Download(file string, filename ...string) error { var fname string if len(filename) > 0 { fname = filename[0] } else { fname = filepath.Base(file) } c.setCanonical(HeaderContentDisposition, `attachment; filename="`+c.app.quoteString(fname)+`"`) return c.SendFile(file) } // Request return the *fasthttp.Request object // This allows you to use all fasthttp request methods // https://godoc.org/github.com/valyala/fasthttp#Request func (c *Ctx) Request() *fasthttp.Request { return &c.fasthttp.Request } // Response return the *fasthttp.Response object // This allows you to use all fasthttp response methods // https://godoc.org/github.com/valyala/fasthttp#Response func (c *Ctx) Response() *fasthttp.Response { return &c.fasthttp.Response } // Format performs content-negotiation on the Accept HTTP header. // It uses Accepts to select a proper format. // If the header is not specified or there is no proper format, text/plain is used. func (c *Ctx) Format(body interface{}) error { // Get accepted content type accept := c.Accepts("html", "json", "txt", "xml") // Set accepted content type c.Type(accept) // Type convert provided body var b string switch val := body.(type) { case string: b = val case []byte: b = c.app.getString(val) default: b = fmt.Sprintf("%v", val) } // Format based on the accept content type switch accept { case "html": return c.SendString("
" + b + "
") case "json": return c.JSON(body) case "txt": return c.SendString(b) case "xml": return c.XML(body) } return c.SendString(b) } // FormFile returns the first file by key from a MultipartForm. func (c *Ctx) FormFile(key string) (*multipart.FileHeader, error) { return c.fasthttp.FormFile(key) } // FormValue returns the first value by key from a MultipartForm. // Search is performed in QueryArgs, PostArgs, MultipartForm and FormFile in this particular order. // Defaults to the empty string "" if the form value doesn't exist. // If a default value is given, it will return that value if the form value does not exist. // Returned value is only valid within the handler. Do not store any references. // Make copies or use the Immutable setting instead. func (c *Ctx) FormValue(key string, defaultValue ...string) string { return defaultString(c.app.getString(c.fasthttp.FormValue(key)), defaultValue) } // Fresh returns true when the response is still “fresh” in the client's cache, // otherwise false is returned to indicate that the client cache is now stale // and the full response should be sent. // When a client sends the Cache-Control: no-cache request header to indicate an end-to-end // reload request, this module will return false to make handling these requests transparent. // https://github.com/jshttp/fresh/blob/10e0471669dbbfbfd8de65bc6efac2ddd0bfa057/index.js#L33 func (c *Ctx) Fresh() bool { // fields modifiedSince := c.Get(HeaderIfModifiedSince) noneMatch := c.Get(HeaderIfNoneMatch) // unconditional request if modifiedSince == "" && noneMatch == "" { return false } // Always return stale when Cache-Control: no-cache // to support end-to-end reload requests // https://tools.ietf.org/html/rfc2616#section-14.9.4 cacheControl := c.Get(HeaderCacheControl) if cacheControl != "" && isNoCache(cacheControl) { return false } // if-none-match if noneMatch != "" && noneMatch != "*" { etag := c.app.getString(c.fasthttp.Response.Header.Peek(HeaderETag)) if etag == "" { return false } if c.app.isEtagStale(etag, c.app.getBytes(noneMatch)) { return false } if modifiedSince != "" { lastModified := c.app.getString(c.fasthttp.Response.Header.Peek(HeaderLastModified)) if lastModified != "" { lastModifiedTime, err := http.ParseTime(lastModified) if err != nil { return false } modifiedSinceTime, err := http.ParseTime(modifiedSince) if err != nil { return false } return lastModifiedTime.Before(modifiedSinceTime) } } } return true } // Get returns the HTTP request header specified by field. // Field names are case-insensitive // Returned value is only valid within the handler. Do not store any references. // Make copies or use the Immutable setting instead. func (c *Ctx) Get(key string, defaultValue ...string) string { return defaultString(c.app.getString(c.fasthttp.Request.Header.Peek(key)), defaultValue) } // GetRespHeader returns the HTTP response header specified by field. // Field names are case-insensitive // Returned value is only valid within the handler. Do not store any references. // Make copies or use the Immutable setting instead. func (c *Ctx) GetRespHeader(key string, defaultValue ...string) string { return defaultString(c.app.getString(c.fasthttp.Response.Header.Peek(key)), defaultValue) } // GetReqHeaders returns the HTTP request headers. // Returned value is only valid within the handler. Do not store any references. // Make copies or use the Immutable setting instead. func (c *Ctx) GetReqHeaders() map[string]string { headers := make(map[string]string) c.Request().Header.VisitAll(func(k, v []byte) { headers[c.app.getString(k)] = c.app.getString(v) }) return headers } // GetRespHeaders returns the HTTP response headers. // Returned value is only valid within the handler. Do not store any references. // Make copies or use the Immutable setting instead. func (c *Ctx) GetRespHeaders() map[string]string { headers := make(map[string]string) c.Response().Header.VisitAll(func(k, v []byte) { headers[c.app.getString(k)] = c.app.getString(v) }) return headers } // Hostname contains the hostname derived from the X-Forwarded-Host or Host HTTP header. // Returned value is only valid within the handler. Do not store any references. // Make copies or use the Immutable setting instead. // Please use Config.EnableTrustedProxyCheck to prevent header spoofing, in case when your app is behind the proxy. func (c *Ctx) Hostname() string { if c.IsProxyTrusted() { if host := c.Get(HeaderXForwardedHost); len(host) > 0 { commaPos := strings.Index(host, ",") if commaPos != -1 { return host[:commaPos] } return host } } return c.app.getString(c.fasthttp.Request.URI().Host()) } // Port returns the remote port of the request. func (c *Ctx) Port() string { tcpaddr, ok := c.fasthttp.RemoteAddr().(*net.TCPAddr) if !ok { panic(fmt.Errorf("failed to type-assert to *net.TCPAddr")) } return strconv.Itoa(tcpaddr.Port) } // IP returns the remote IP address of the request. // If ProxyHeader and IP Validation is configured, it will parse that header and return the first valid IP address. // Please use Config.EnableTrustedProxyCheck to prevent header spoofing, in case when your app is behind the proxy. func (c *Ctx) IP() string { if c.IsProxyTrusted() && len(c.app.config.ProxyHeader) > 0 { return c.extractIPFromHeader(c.app.config.ProxyHeader) } return c.fasthttp.RemoteIP().String() } // extractIPsFromHeader will return a slice of IPs it found given a header name in the order they appear. // When IP validation is enabled, any invalid IPs will be omitted. func (c *Ctx) extractIPsFromHeader(header string) []string { // TODO: Reuse the c.extractIPFromHeader func somehow in here headerValue := c.Get(header) // We can't know how many IPs we will return, but we will try to guess with this constant division. // Counting ',' makes function slower for about 50ns in general case. const maxEstimatedCount = 8 estimatedCount := len(headerValue) / maxEstimatedCount if estimatedCount > maxEstimatedCount { estimatedCount = maxEstimatedCount // Avoid big allocation on big header } ipsFound := make([]string, 0, estimatedCount) i := 0 j := -1 iploop: for { var v4, v6 bool // Manually splitting string without allocating slice, working with parts directly i, j = j+1, j+2 if j > len(headerValue) { break } for j < len(headerValue) && headerValue[j] != ',' { if headerValue[j] == ':' { v6 = true } else if headerValue[j] == '.' { v4 = true } j++ } for i < j && headerValue[i] == ' ' { i++ } s := utils.TrimRight(headerValue[i:j], ' ') if c.app.config.EnableIPValidation { // Skip validation if IP is clearly not IPv4/IPv6, otherwise validate without allocations if (!v6 && !v4) || (v6 && !utils.IsIPv6(s)) || (v4 && !utils.IsIPv4(s)) { continue iploop } } ipsFound = append(ipsFound, s) } return ipsFound } // extractIPFromHeader will attempt to pull the real client IP from the given header when IP validation is enabled. // currently, it will return the first valid IP address in header. // when IP validation is disabled, it will simply return the value of the header without any inspection. // Implementation is almost the same as in extractIPsFromHeader, but without allocation of []string. func (c *Ctx) extractIPFromHeader(header string) string { if c.app.config.EnableIPValidation { headerValue := c.Get(header) i := 0 j := -1 iploop: for { var v4, v6 bool // Manually splitting string without allocating slice, working with parts directly i, j = j+1, j+2 if j > len(headerValue) { break } for j < len(headerValue) && headerValue[j] != ',' { if headerValue[j] == ':' { v6 = true } else if headerValue[j] == '.' { v4 = true } j++ } for i < j && headerValue[i] == ' ' { i++ } s := utils.TrimRight(headerValue[i:j], ' ') if c.app.config.EnableIPValidation { if (!v6 && !v4) || (v6 && !utils.IsIPv6(s)) || (v4 && !utils.IsIPv4(s)) { continue iploop } } return s } return c.fasthttp.RemoteIP().String() } // default behavior if IP validation is not enabled is just to return whatever value is // in the proxy header. Even if it is empty or invalid return c.Get(c.app.config.ProxyHeader) } // IPs returns a string slice of IP addresses specified in the X-Forwarded-For request header. // When IP validation is enabled, only valid IPs are returned. func (c *Ctx) IPs() []string { return c.extractIPsFromHeader(HeaderXForwardedFor) } // Is returns the matching content type, // if the incoming request's Content-Type HTTP header field matches the MIME type specified by the type parameter func (c *Ctx) Is(extension string) bool { extensionHeader := utils.GetMIME(extension) if extensionHeader == "" { return false } return strings.HasPrefix( utils.TrimLeft(c.app.getString(c.fasthttp.Request.Header.ContentType()), ' '), extensionHeader, ) } // JSON converts any interface or string to JSON. // Array and slice values encode as JSON arrays, // except that []byte encodes as a base64-encoded string, // and a nil slice encodes as the null JSON value. // This method also sets the content header to application/json. func (c *Ctx) JSON(data interface{}) error { raw, err := c.app.config.JSONEncoder(data) if err != nil { return err } c.fasthttp.Response.SetBodyRaw(raw) c.fasthttp.Response.Header.SetContentType(MIMEApplicationJSON) return nil } // JSONP sends a JSON response with JSONP support. // This method is identical to JSON, except that it opts-in to JSONP callback support. // By default, the callback name is simply callback. func (c *Ctx) JSONP(data interface{}, callback ...string) error { raw, err := json.Marshal(data) if err != nil { return fmt.Errorf("failed to marshal: %w", err) } var result, cb string if len(callback) > 0 { cb = callback[0] } else { cb = "callback" } result = cb + "(" + c.app.getString(raw) + ");" c.setCanonical(HeaderXContentTypeOptions, "nosniff") c.fasthttp.Response.Header.SetContentType(MIMETextJavaScriptCharsetUTF8) return c.SendString(result) } // XML converts any interface or string to XML. // This method also sets the content header to application/xml. func (c *Ctx) XML(data interface{}) error { raw, err := c.app.config.XMLEncoder(data) if err != nil { return err } c.fasthttp.Response.SetBodyRaw(raw) c.fasthttp.Response.Header.SetContentType(MIMEApplicationXML) return nil } // Links joins the links followed by the property to populate the response's Link HTTP header field. func (c *Ctx) Links(link ...string) { if len(link) == 0 { return } bb := bytebufferpool.Get() for i := range link { if i%2 == 0 { _ = bb.WriteByte('<') //nolint:errcheck // This will never fail _, _ = bb.WriteString(link[i]) //nolint:errcheck // This will never fail _ = bb.WriteByte('>') //nolint:errcheck // This will never fail } else { _, _ = bb.WriteString(`; rel="` + link[i] + `",`) //nolint:errcheck // This will never fail } } c.setCanonical(HeaderLink, utils.TrimRight(c.app.getString(bb.Bytes()), ',')) bytebufferpool.Put(bb) } // Locals makes it possible to pass interface{} values under keys scoped to the request // and therefore available to all following routes that match the request. func (c *Ctx) Locals(key interface{}, value ...interface{}) interface{} { if len(value) == 0 { return c.fasthttp.UserValue(key) } c.fasthttp.SetUserValue(key, value[0]) return value[0] } // Location sets the response Location HTTP header to the specified path parameter. func (c *Ctx) Location(path string) { c.setCanonical(HeaderLocation, path) } // Method contains a string corresponding to the HTTP method of the request: GET, POST, PUT and so on. func (c *Ctx) Method(override ...string) string { if len(override) > 0 { method := utils.ToUpper(override[0]) mINT := c.app.methodInt(method) if mINT == -1 { return c.method } c.method = method c.methodINT = mINT } return c.method } // MultipartForm parse form entries from binary. // This returns a map[string][]string, so given a key the value will be a string slice. func (c *Ctx) MultipartForm() (*multipart.Form, error) { return c.fasthttp.MultipartForm() } // ClientHelloInfo return CHI from context func (c *Ctx) ClientHelloInfo() *tls.ClientHelloInfo { if c.app.tlsHandler != nil { return c.app.tlsHandler.clientHelloInfo } return nil } // Next executes the next method in the stack that matches the current route. func (c *Ctx) Next() error { // Increment handler index c.indexHandler++ var err error // Did we execute all route handlers? if c.indexHandler < len(c.route.Handlers) { // Continue route stack err = c.route.Handlers[c.indexHandler](c) } else { // Continue handler stack _, err = c.app.next(c) } return err } // RestartRouting instead of going to the next handler. This may be useful after // changing the request path. Note that handlers might be executed again. func (c *Ctx) RestartRouting() error { c.indexRoute = -1 _, err := c.app.next(c) return err } // OriginalURL contains the original request URL. // Returned value is only valid within the handler. Do not store any references. // Make copies or use the Immutable setting to use the value outside the Handler. func (c *Ctx) OriginalURL() string { return c.app.getString(c.fasthttp.Request.Header.RequestURI()) } // Params is used to get the route parameters. // Defaults to empty string "" if the param doesn't exist. // If a default value is given, it will return that value if the param doesn't exist. // Returned value is only valid within the handler. Do not store any references. // Make copies or use the Immutable setting to use the value outside the Handler. func (c *Ctx) Params(key string, defaultValue ...string) string { if key == "*" || key == "+" { key += "1" } for i := range c.route.Params { if len(key) != len(c.route.Params[i]) { continue } if c.route.Params[i] == key || (!c.app.config.CaseSensitive && utils.EqualFold(c.route.Params[i], key)) { // in case values are not here if len(c.values) <= i || len(c.values[i]) == 0 { break } return c.values[i] } } return defaultString("", defaultValue) } // AllParams Params is used to get all route parameters. // Using Params method to get params. func (c *Ctx) AllParams() map[string]string { params := make(map[string]string, len(c.route.Params)) for _, param := range c.route.Params { params[param] = c.Params(param) } return params } // ParamsParser binds the param string to a struct. func (c *Ctx) ParamsParser(out interface{}) error { params := make(map[string][]string, len(c.route.Params)) for _, param := range c.route.Params { params[param] = append(params[param], c.Params(param)) } return c.parseToStruct(paramsTag, out, params) } // ParamsInt is used to get an integer from the route parameters // it defaults to zero if the parameter is not found or if the // parameter cannot be converted to an integer // If a default value is given, it will return that value in case the param // doesn't exist or cannot be converted to an integer func (c *Ctx) ParamsInt(key string, defaultValue ...int) (int, error) { // Use Atoi to convert the param to an int or return zero and an error value, err := strconv.Atoi(c.Params(key)) if err != nil { if len(defaultValue) > 0 { return defaultValue[0], nil } return 0, fmt.Errorf("failed to convert: %w", err) } return value, nil } // Path returns the path part of the request URL. // Optionally, you could override the path. func (c *Ctx) Path(override ...string) string { if len(override) != 0 && c.path != override[0] { // Set new path to context c.pathOriginal = override[0] // Set new path to request context c.fasthttp.Request.URI().SetPath(c.pathOriginal) // Prettify path c.configDependentPaths() } return c.path } // Protocol contains the request protocol string: http or https for TLS requests. // Please use Config.EnableTrustedProxyCheck to prevent header spoofing, in case when your app is behind the proxy. func (c *Ctx) Protocol() string { if c.fasthttp.IsTLS() { return schemeHTTPS } if !c.IsProxyTrusted() { return schemeHTTP } scheme := schemeHTTP const lenXHeaderName = 12 c.fasthttp.Request.Header.VisitAll(func(key, val []byte) { if len(key) < lenXHeaderName { return // Neither "X-Forwarded-" nor "X-Url-Scheme" } switch { case bytes.HasPrefix(key, []byte("X-Forwarded-")): if bytes.Equal(key, []byte(HeaderXForwardedProto)) || bytes.Equal(key, []byte(HeaderXForwardedProtocol)) { v := c.app.getString(val) commaPos := strings.Index(v, ",") if commaPos != -1 { scheme = v[:commaPos] } else { scheme = v } } else if bytes.Equal(key, []byte(HeaderXForwardedSsl)) && bytes.Equal(val, []byte("on")) { scheme = schemeHTTPS } case bytes.Equal(key, []byte(HeaderXUrlScheme)): scheme = c.app.getString(val) } }) return scheme } // Query returns the query string parameter in the url. // Defaults to empty string "" if the query doesn't exist. // If a default value is given, it will return that value if the query doesn't exist. // Returned value is only valid within the handler. Do not store any references. // Make copies or use the Immutable setting to use the value outside the Handler. func (c *Ctx) Query(key string, defaultValue ...string) string { return defaultString(c.app.getString(c.fasthttp.QueryArgs().Peek(key)), defaultValue) } // Queries returns a map of query parameters and their values. // // GET /?name=alex&wanna_cake=2&id= // Queries()["name"] == "alex" // Queries()["wanna_cake"] == "2" // Queries()["id"] == "" // // GET /?field1=value1&field1=value2&field2=value3 // Queries()["field1"] == "value2" // Queries()["field2"] == "value3" // // GET /?list_a=1&list_a=2&list_a=3&list_b[]=1&list_b[]=2&list_b[]=3&list_c=1,2,3 // Queries()["list_a"] == "3" // Queries()["list_b[]"] == "3" // Queries()["list_c"] == "1,2,3" // // GET /api/search?filters.author.name=John&filters.category.name=Technology&filters[customer][name]=Alice&filters[status]=pending // Queries()["filters.author.name"] == "John" // Queries()["filters.category.name"] == "Technology" // Queries()["filters[customer][name]"] == "Alice" // Queries()["filters[status]"] == "pending" func (c *Ctx) Queries() map[string]string { m := make(map[string]string, c.Context().QueryArgs().Len()) c.Context().QueryArgs().VisitAll(func(key, value []byte) { m[c.app.getString(key)] = c.app.getString(value) }) return m } // QueryInt returns integer value of key string parameter in the url. // Default to empty or invalid key is 0. // // GET /?name=alex&wanna_cake=2&id= // QueryInt("wanna_cake", 1) == 2 // QueryInt("name", 1) == 1 // QueryInt("id", 1) == 1 // QueryInt("id") == 0 func (c *Ctx) QueryInt(key string, defaultValue ...int) int { // Use Atoi to convert the param to an int or return zero and an error value, err := strconv.Atoi(c.app.getString(c.fasthttp.QueryArgs().Peek(key))) if err != nil { if len(defaultValue) > 0 { return defaultValue[0] } return 0 } return value } // QueryBool returns bool value of key string parameter in the url. // Default to empty or invalid key is true. // // Get /?name=alex&want_pizza=false&id= // QueryBool("want_pizza") == false // QueryBool("want_pizza", true) == false // QueryBool("name") == false // QueryBool("name", true) == true // QueryBool("id") == false // QueryBool("id", true) == true func (c *Ctx) QueryBool(key string, defaultValue ...bool) bool { value, err := strconv.ParseBool(c.app.getString(c.fasthttp.QueryArgs().Peek(key))) if err != nil { if len(defaultValue) > 0 { return defaultValue[0] } return false } return value } // QueryFloat returns float64 value of key string parameter in the url. // Default to empty or invalid key is 0. // // GET /?name=alex&amount=32.23&id= // QueryFloat("amount") = 32.23 // QueryFloat("amount", 3) = 32.23 // QueryFloat("name", 1) = 1 // QueryFloat("name") = 0 // QueryFloat("id", 3) = 3 func (c *Ctx) QueryFloat(key string, defaultValue ...float64) float64 { // use strconv.ParseFloat to convert the param to a float or return zero and an error. value, err := strconv.ParseFloat(c.app.getString(c.fasthttp.QueryArgs().Peek(key)), 64) if err != nil { if len(defaultValue) > 0 { return defaultValue[0] } return 0 } return value } // QueryParser binds the query string to a struct. func (c *Ctx) QueryParser(out interface{}) error { data := make(map[string][]string) var err error c.fasthttp.QueryArgs().VisitAll(func(key, val []byte) { if err != nil { return } k := c.app.getString(key) v := c.app.getString(val) if strings.Contains(k, "[") { k, err = parseParamSquareBrackets(k) } if strings.Contains(v, ",") && equalFieldType(out, reflect.Slice, k) { values := strings.Split(v, ",") for i := 0; i < len(values); i++ { data[k] = append(data[k], values[i]) } } else { data[k] = append(data[k], v) } }) if err != nil { return err } return c.parseToStruct(queryTag, out, data) } func parseParamSquareBrackets(k string) (string, error) { bb := bytebufferpool.Get() defer bytebufferpool.Put(bb) kbytes := []byte(k) for i, b := range kbytes { if b == '[' && kbytes[i+1] != ']' { if err := bb.WriteByte('.'); err != nil { return "", fmt.Errorf("failed to write: %w", err) } } if b == '[' || b == ']' { continue } if err := bb.WriteByte(b); err != nil { return "", fmt.Errorf("failed to write: %w", err) } } return bb.String(), nil } // ReqHeaderParser binds the request header strings to a struct. func (c *Ctx) ReqHeaderParser(out interface{}) error { data := make(map[string][]string) c.fasthttp.Request.Header.VisitAll(func(key, val []byte) { k := c.app.getString(key) v := c.app.getString(val) if strings.Contains(v, ",") && equalFieldType(out, reflect.Slice, k) { values := strings.Split(v, ",") for i := 0; i < len(values); i++ { data[k] = append(data[k], values[i]) } } else { data[k] = append(data[k], v) } }) return c.parseToStruct(reqHeaderTag, out, data) } func (*Ctx) parseToStruct(aliasTag string, out interface{}, data map[string][]string) error { // Get decoder from pool schemaDecoder, ok := decoderPoolMap[aliasTag].Get().(*schema.Decoder) if !ok { panic(fmt.Errorf("failed to type-assert to *schema.Decoder")) } defer decoderPoolMap[aliasTag].Put(schemaDecoder) // Set alias tag schemaDecoder.SetAliasTag(aliasTag) if err := schemaDecoder.Decode(out, data); err != nil { return fmt.Errorf("failed to decode: %w", err) } return nil } func equalFieldType(out interface{}, kind reflect.Kind, key string) bool { // Get type of interface outTyp := reflect.TypeOf(out).Elem() key = utils.ToLower(key) // Must be a struct to match a field if outTyp.Kind() != reflect.Struct { return false } // Copy interface to an value to be used outVal := reflect.ValueOf(out).Elem() // Loop over each field for i := 0; i < outTyp.NumField(); i++ { // Get field value data structField := outVal.Field(i) // Can this field be changed? if !structField.CanSet() { continue } // Get field key data typeField := outTyp.Field(i) // Get type of field key structFieldKind := structField.Kind() // Does the field type equals input? if structFieldKind != kind { continue } // Get tag from field if exist inputFieldName := typeField.Tag.Get(queryTag) if inputFieldName == "" { inputFieldName = typeField.Name } else { inputFieldName = strings.Split(inputFieldName, ",")[0] } // Compare field/tag with provided key if utils.ToLower(inputFieldName) == key { return true } } return false } var ( ErrRangeMalformed = errors.New("range: malformed range header string") ErrRangeUnsatisfiable = errors.New("range: unsatisfiable range") ) // Range returns a struct containing the type and a slice of ranges. func (c *Ctx) Range(size int) (Range, error) { var rangeData Range rangeStr := c.Get(HeaderRange) if rangeStr == "" || !strings.Contains(rangeStr, "=") { return rangeData, ErrRangeMalformed } data := strings.Split(rangeStr, "=") const expectedDataParts = 2 if len(data) != expectedDataParts { return rangeData, ErrRangeMalformed } rangeData.Type = data[0] arr := strings.Split(data[1], ",") for i := 0; i < len(arr); i++ { item := strings.Split(arr[i], "-") if len(item) == 1 { return rangeData, ErrRangeMalformed } start, startErr := strconv.Atoi(item[0]) end, endErr := strconv.Atoi(item[1]) if startErr != nil { // -nnn start = size - end end = size - 1 } else if endErr != nil { // nnn- end = size - 1 } if end > size-1 { // limit last-byte-pos to current length end = size - 1 } if start > end || start < 0 { continue } rangeData.Ranges = append(rangeData.Ranges, struct { Start int End int }{ start, end, }) } if len(rangeData.Ranges) < 1 { return rangeData, ErrRangeUnsatisfiable } return rangeData, nil } // Redirect to the URL derived from the specified path, with specified status. // If status is not specified, status defaults to 302 Found. func (c *Ctx) Redirect(location string, status ...int) error { c.setCanonical(HeaderLocation, location) if len(status) > 0 { c.Status(status[0]) } else { c.Status(StatusFound) } return nil } // Bind Add vars to default view var map binding to template engine. // Variables are read by the Render method and may be overwritten. func (c *Ctx) Bind(vars Map) error { // init viewBindMap - lazy map for k, v := range vars { c.viewBindMap.Store(k, v) } return nil } // getLocationFromRoute get URL location from route using parameters func (c *Ctx) getLocationFromRoute(route Route, params Map) (string, error) { buf := bytebufferpool.Get() for _, segment := range route.routeParser.segs { if !segment.IsParam { _, err := buf.WriteString(segment.Const) if err != nil { return "", fmt.Errorf("failed to write string: %w", err) } continue } for key, val := range params { isSame := key == segment.ParamName || (!c.app.config.CaseSensitive && utils.EqualFold(key, segment.ParamName)) isGreedy := segment.IsGreedy && len(key) == 1 && isInCharset(key[0], greedyParameters) if isSame || isGreedy { _, err := buf.WriteString(utils.ToString(val)) if err != nil { return "", fmt.Errorf("failed to write string: %w", err) } } } } location := buf.String() // release buffer bytebufferpool.Put(buf) return location, nil } // GetRouteURL generates URLs to named routes, with parameters. URLs are relative, for example: "/user/1831" func (c *Ctx) GetRouteURL(routeName string, params Map) (string, error) { return c.getLocationFromRoute(c.App().GetRoute(routeName), params) } // RedirectToRoute to the Route registered in the app with appropriate parameters // If status is not specified, status defaults to 302 Found. // If you want to send queries to route, you must add "queries" key typed as map[string]string to params. func (c *Ctx) RedirectToRoute(routeName string, params Map, status ...int) error { location, err := c.getLocationFromRoute(c.App().GetRoute(routeName), params) if err != nil { return err } // Check queries if queries, ok := params["queries"].(map[string]string); ok { queryText := bytebufferpool.Get() defer bytebufferpool.Put(queryText) i := 1 for k, v := range queries { _, _ = queryText.WriteString(k + "=" + v) //nolint:errcheck // This will never fail if i != len(queries) { _, _ = queryText.WriteString("&") //nolint:errcheck // This will never fail } i++ } return c.Redirect(location+"?"+queryText.String(), status...) } return c.Redirect(location, status...) } // RedirectBack to the URL to referer // If status is not specified, status defaults to 302 Found. func (c *Ctx) RedirectBack(fallback string, status ...int) error { location := c.Get(HeaderReferer) if location == "" { location = fallback } return c.Redirect(location, status...) } // Render a template with data and sends a text/html response. // We support the following engines: html, amber, handlebars, mustache, pug func (c *Ctx) Render(name string, bind interface{}, layouts ...string) error { // Get new buffer from pool buf := bytebufferpool.Get() defer bytebufferpool.Put(buf) // Pass-locals-to-views, bind, appListKeys c.renderExtensions(bind) var rendered bool for i := len(c.app.mountFields.appListKeys) - 1; i >= 0; i-- { prefix := c.app.mountFields.appListKeys[i] app := c.app.mountFields.appList[prefix] if prefix == "" || strings.Contains(c.OriginalURL(), prefix) { if len(layouts) == 0 && app.config.ViewsLayout != "" { layouts = []string{ app.config.ViewsLayout, } } // Render template from Views if app.config.Views != nil { if err := app.config.Views.Render(buf, name, bind, layouts...); err != nil { return fmt.Errorf("failed to render: %w", err) } rendered = true break } } } if !rendered { // Render raw template using 'name' as filepath if no engine is set var tmpl *template.Template if _, err := readContent(buf, name); err != nil { return err } // Parse template tmpl, err := template.New("").Parse(c.app.getString(buf.Bytes())) if err != nil { return fmt.Errorf("failed to parse: %w", err) } buf.Reset() // Render template if err := tmpl.Execute(buf, bind); err != nil { return fmt.Errorf("failed to execute: %w", err) } } // Set Content-Type to text/html c.fasthttp.Response.Header.SetContentType(MIMETextHTMLCharsetUTF8) // Set rendered template to body c.fasthttp.Response.SetBody(buf.Bytes()) return nil } func (c *Ctx) renderExtensions(bind interface{}) { if bindMap, ok := bind.(Map); ok { // Bind view map c.viewBindMap.Range(func(key, value interface{}) bool { keyValue, ok := key.(string) if !ok { return true } if _, ok := bindMap[keyValue]; !ok { bindMap[keyValue] = value } return true }) // Check if the PassLocalsToViews option is enabled (by default it is disabled) if c.app.config.PassLocalsToViews { // Loop through each local and set it in the map c.fasthttp.VisitUserValues(func(key []byte, val interface{}) { // check if bindMap doesn't contain the key if _, ok := bindMap[c.app.getString(key)]; !ok { // Set the key and value in the bindMap bindMap[c.app.getString(key)] = val } }) } } if len(c.app.mountFields.appListKeys) == 0 { c.app.generateAppListKeys() } } // Route returns the matched Route struct. func (c *Ctx) Route() *Route { if c.route == nil { // Fallback for fasthttp error handler return &Route{ path: c.pathOriginal, Path: c.pathOriginal, Method: c.method, Handlers: make([]Handler, 0), Params: make([]string, 0), } } return c.route } // SaveFile saves any multipart file to disk. func (*Ctx) SaveFile(fileheader *multipart.FileHeader, path string) error { return fasthttp.SaveMultipartFile(fileheader, path) } // SaveFileToStorage saves any multipart file to an external storage system. func (*Ctx) SaveFileToStorage(fileheader *multipart.FileHeader, path string, storage Storage) error { file, err := fileheader.Open() if err != nil { return fmt.Errorf("failed to open: %w", err) } content, err := io.ReadAll(file) if err != nil { return fmt.Errorf("failed to read: %w", err) } if err := storage.Set(path, content, 0); err != nil { return fmt.Errorf("failed to store: %w", err) } return nil } // Secure returns whether a secure connection was established. func (c *Ctx) Secure() bool { return c.Protocol() == schemeHTTPS } // Send sets the HTTP response body without copying it. // From this point onward the body argument must not be changed. func (c *Ctx) Send(body []byte) error { // Write response body c.fasthttp.Response.SetBodyRaw(body) return nil } var ( sendFileOnce sync.Once sendFileFS *fasthttp.FS sendFileHandler fasthttp.RequestHandler ) // SendFile transfers the file from the given path. // The file is not compressed by default, enable this by passing a 'true' argument // Sets the Content-Type response HTTP header field based on the filenames extension. func (c *Ctx) SendFile(file string, compress ...bool) error { // Save the filename, we will need it in the error message if the file isn't found filename := file // https://github.com/valyala/fasthttp/blob/c7576cc10cabfc9c993317a2d3f8355497bea156/fs.go#L129-L134 sendFileOnce.Do(func() { const cacheDuration = 10 * time.Second sendFileFS = &fasthttp.FS{ Root: "", AllowEmptyRoot: true, GenerateIndexPages: false, AcceptByteRange: true, Compress: true, CompressedFileSuffix: c.app.config.CompressedFileSuffix, CacheDuration: cacheDuration, IndexNames: []string{"index.html"}, PathNotFound: func(ctx *fasthttp.RequestCtx) { ctx.Response.SetStatusCode(StatusNotFound) }, } sendFileHandler = sendFileFS.NewRequestHandler() }) // Keep original path for mutable params c.pathOriginal = utils.CopyString(c.pathOriginal) // Disable compression if len(compress) == 0 || !compress[0] { // https://github.com/valyala/fasthttp/blob/7cc6f4c513f9e0d3686142e0a1a5aa2f76b3194a/fs.go#L55 c.fasthttp.Request.Header.Del(HeaderAcceptEncoding) } // copy of https://github.com/valyala/fasthttp/blob/7cc6f4c513f9e0d3686142e0a1a5aa2f76b3194a/fs.go#L103-L121 with small adjustments if len(file) == 0 || !filepath.IsAbs(file) { // extend relative path to absolute path hasTrailingSlash := len(file) > 0 && (file[len(file)-1] == '/' || file[len(file)-1] == '\\') var err error file = filepath.FromSlash(file) if file, err = filepath.Abs(file); err != nil { return fmt.Errorf("failed to determine abs file path: %w", err) } if hasTrailingSlash { file += "/" } } // convert the path to forward slashes regardless the OS in order to set the URI properly // the handler will convert back to OS path separator before opening the file file = filepath.ToSlash(file) // Restore the original requested URL originalURL := utils.CopyString(c.OriginalURL()) defer c.fasthttp.Request.SetRequestURI(originalURL) // Set new URI for fileHandler c.fasthttp.Request.SetRequestURI(file) // Save status code status := c.fasthttp.Response.StatusCode() // Serve file sendFileHandler(c.fasthttp) // Get the status code which is set by fasthttp fsStatus := c.fasthttp.Response.StatusCode() // Set the status code set by the user if it is different from the fasthttp status code and 200 if status != fsStatus && status != StatusOK { c.Status(status) } // Check for error if status != StatusNotFound && fsStatus == StatusNotFound { return NewError(StatusNotFound, fmt.Sprintf("sendfile: file %s not found", filename)) } return nil } // SendStatus sets the HTTP status code and if the response body is empty, // it sets the correct status message in the body. func (c *Ctx) SendStatus(status int) error { c.Status(status) // Only set status body when there is no response body if len(c.fasthttp.Response.Body()) == 0 { return c.SendString(utils.StatusMessage(status)) } return nil } // SendString sets the HTTP response body for string types. // This means no type assertion, recommended for faster performance func (c *Ctx) SendString(body string) error { c.fasthttp.Response.SetBodyString(body) return nil } // SendStream sets response body stream and optional body size. func (c *Ctx) SendStream(stream io.Reader, size ...int) error { if len(size) > 0 && size[0] >= 0 { c.fasthttp.Response.SetBodyStream(stream, size[0]) } else { c.fasthttp.Response.SetBodyStream(stream, -1) } return nil } // Set sets the response's HTTP header field to the specified key, value. func (c *Ctx) Set(key, val string) { c.fasthttp.Response.Header.Set(key, val) } func (c *Ctx) setCanonical(key, val string) { c.fasthttp.Response.Header.SetCanonical(c.app.getBytes(key), c.app.getBytes(val)) } // Subdomains returns a string slice of subdomains in the domain name of the request. // The subdomain offset, which defaults to 2, is used for determining the beginning of the subdomain segments. func (c *Ctx) Subdomains(offset ...int) []string { o := 2 if len(offset) > 0 { o = offset[0] } subdomains := strings.Split(c.Hostname(), ".") l := len(subdomains) - o // Check index to avoid slice bounds out of range panic if l < 0 { l = len(subdomains) } subdomains = subdomains[:l] return subdomains } // Stale is not implemented yet, pull requests are welcome! func (c *Ctx) Stale() bool { return !c.Fresh() } // Status sets the HTTP status for the response. // This method is chainable. func (c *Ctx) Status(status int) *Ctx { c.fasthttp.Response.SetStatusCode(status) return c } // String returns unique string representation of the ctx. // // The returned value may be useful for logging. func (c *Ctx) String() string { return fmt.Sprintf( "#%016X - %s <-> %s - %s %s", c.fasthttp.ID(), c.fasthttp.LocalAddr(), c.fasthttp.RemoteAddr(), c.fasthttp.Request.Header.Method(), c.fasthttp.URI().FullURI(), ) } // Type sets the Content-Type HTTP header to the MIME type specified by the file extension. func (c *Ctx) Type(extension string, charset ...string) *Ctx { if len(charset) > 0 { c.fasthttp.Response.Header.SetContentType(utils.GetMIME(extension) + "; charset=" + charset[0]) } else { c.fasthttp.Response.Header.SetContentType(utils.GetMIME(extension)) } return c } // Vary adds the given header field to the Vary response header. // This will append the header, if not already listed, otherwise leaves it listed in the current location. func (c *Ctx) Vary(fields ...string) { c.Append(HeaderVary, fields...) } // Write appends p into response body. func (c *Ctx) Write(p []byte) (int, error) { c.fasthttp.Response.AppendBody(p) return len(p), nil } // Writef appends f & a into response body writer. func (c *Ctx) Writef(f string, a ...interface{}) (int, error) { //nolint:wrapcheck // This must not be wrapped return fmt.Fprintf(c.fasthttp.Response.BodyWriter(), f, a...) } // WriteString appends s to response body. func (c *Ctx) WriteString(s string) (int, error) { c.fasthttp.Response.AppendBodyString(s) return len(s), nil } // XHR returns a Boolean property, that is true, if the request's X-Requested-With header field is XMLHttpRequest, // indicating that the request was issued by a client library (such as jQuery). func (c *Ctx) XHR() bool { return utils.EqualFoldBytes(c.app.getBytes(c.Get(HeaderXRequestedWith)), []byte("xmlhttprequest")) } // configDependentPaths set paths for route recognition and prepared paths for the user, // here the features for caseSensitive, decoded paths, strict paths are evaluated func (c *Ctx) configDependentPaths() { c.pathBuffer = append(c.pathBuffer[0:0], c.pathOriginal...) // If UnescapePath enabled, we decode the path and save it for the framework user if c.app.config.UnescapePath { c.pathBuffer = fasthttp.AppendUnquotedArg(c.pathBuffer[:0], c.pathBuffer) } c.path = c.app.getString(c.pathBuffer) // another path is specified which is for routing recognition only // use the path that was changed by the previous configuration flags c.detectionPathBuffer = append(c.detectionPathBuffer[0:0], c.pathBuffer...) // If CaseSensitive is disabled, we lowercase the original path if !c.app.config.CaseSensitive { c.detectionPathBuffer = utils.ToLowerBytes(c.detectionPathBuffer) } // If StrictRouting is disabled, we strip all trailing slashes if !c.app.config.StrictRouting && len(c.detectionPathBuffer) > 1 && c.detectionPathBuffer[len(c.detectionPathBuffer)-1] == '/' { c.detectionPathBuffer = utils.TrimRightBytes(c.detectionPathBuffer, '/') } c.detectionPath = c.app.getString(c.detectionPathBuffer) // Define the path for dividing routes into areas for fast tree detection, so that fewer routes need to be traversed, // since the first three characters area select a list of routes c.treePath = c.treePath[0:0] const maxDetectionPaths = 3 if len(c.detectionPath) >= maxDetectionPaths { c.treePath = c.detectionPath[:maxDetectionPaths] } } func (c *Ctx) IsProxyTrusted() bool { if !c.app.config.EnableTrustedProxyCheck { return true } ip := c.fasthttp.RemoteIP() if _, trusted := c.app.config.trustedProxiesMap[ip.String()]; trusted { return true } for _, ipNet := range c.app.config.trustedProxyRanges { if ipNet.Contains(ip) { return true } } return false } // IsLocalHost will return true if address is a localhost address. func (*Ctx) isLocalHost(address string) bool { localHosts := []string{"127.0.0.1", "0.0.0.0", "::1"} for _, h := range localHosts { if strings.Contains(address, h) { return true } } return false } // IsFromLocal will return true if request came from local. func (c *Ctx) IsFromLocal() bool { ips := c.IPs() if len(ips) == 0 { ips = append(ips, c.IP()) } return c.isLocalHost(ips[0]) }