// Copyright 2009 The Go Authors. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. // HTTP Request reading and parsing. package http import ( "bufio" "bytes" "crypto/tls" "encoding/base64" "errors" "fmt" "io" "io/ioutil" "mime" "mime/multipart" "net/textproto" "net/url" "strconv" "strings" "sync" ) const ( defaultMaxMemory = 32 << 20 // 32 MB ) // ErrMissingFile is returned by FormFile when the provided file field name // is either not present in the request or not a file field. var ErrMissingFile = errors.New("http: no such file") // HTTP request parsing errors. type ProtocolError struct { ErrorString string } func (err *ProtocolError) Error() string { return err.ErrorString } var ( ErrHeaderTooLong = &ProtocolError{"header too long"} ErrShortBody = &ProtocolError{"entity body too short"} ErrNotSupported = &ProtocolError{"feature not supported"} ErrUnexpectedTrailer = &ProtocolError{"trailer header without chunked transfer encoding"} ErrMissingContentLength = &ProtocolError{"missing ContentLength in HEAD response"} ErrNotMultipart = &ProtocolError{"request Content-Type isn't multipart/form-data"} ErrMissingBoundary = &ProtocolError{"no multipart boundary param in Content-Type"} ) type badStringError struct { what string str string } func (e *badStringError) Error() string { return fmt.Sprintf("%s %q", e.what, e.str) } // Headers that Request.Write handles itself and should be skipped. var reqWriteExcludeHeader = map[string]bool{ "Host": true, // not in Header map anyway "User-Agent": true, "Content-Length": true, "Transfer-Encoding": true, "Trailer": true, } // A Request represents an HTTP request received by a server // or to be sent by a client. // // The field semantics differ slightly between client and server // usage. In addition to the notes on the fields below, see the // documentation for Request.Write and RoundTripper. type Request struct { // Method specifies the HTTP method (GET, POST, PUT, etc.). // For client requests an empty string means GET. Method string // URL specifies either the URI being requested (for server // requests) or the URL to access (for client requests). // // For server requests the URL is parsed from the URI // supplied on the Request-Line as stored in RequestURI. For // most requests, fields other than Path and RawQuery will be // empty. (See RFC 2616, Section 5.1.2) // // For client requests, the URL's Host specifies the server to // connect to, while the Request's Host field optionally // specifies the Host header value to send in the HTTP // request. URL *url.URL // The protocol version for incoming requests. // Client requests always use HTTP/1.1. Proto string // "HTTP/1.0" ProtoMajor int // 1 ProtoMinor int // 0 // A header maps request lines to their values. // If the header says // // accept-encoding: gzip, deflate // Accept-Language: en-us // Connection: keep-alive // // then // // Header = map[string][]string{ // "Accept-Encoding": {"gzip, deflate"}, // "Accept-Language": {"en-us"}, // "Connection": {"keep-alive"}, // } // // HTTP defines that header names are case-insensitive. // The request parser implements this by canonicalizing the // name, making the first character and any characters // following a hyphen uppercase and the rest lowercase. // // For client requests certain headers are automatically // added and may override values in Header. // // See the documentation for the Request.Write method. Header Header // Body is the request's body. // // For client requests a nil body means the request has no // body, such as a GET request. The HTTP Client's Transport // is responsible for calling the Close method. // // For server requests the Request Body is always non-nil // but will return EOF immediately when no body is present. // The Server will close the request body. The ServeHTTP // Handler does not need to. Body io.ReadCloser // ContentLength records the length of the associated content. // The value -1 indicates that the length is unknown. // Values >= 0 indicate that the given number of bytes may // be read from Body. // For client requests, a value of 0 means unknown if Body is not nil. ContentLength int64 // TransferEncoding lists the transfer encodings from outermost to // innermost. An empty list denotes the "identity" encoding. // TransferEncoding can usually be ignored; chunked encoding is // automatically added and removed as necessary when sending and // receiving requests. TransferEncoding []string // Close indicates whether to close the connection after // replying to this request (for servers) or after sending // the request (for clients). Close bool // For server requests Host specifies the host on which the // URL is sought. Per RFC 2616, this is either the value of // the "Host" header or the host name given in the URL itself. // It may be of the form "host:port". // // For client requests Host optionally overrides the Host // header to send. If empty, the Request.Write method uses // the value of URL.Host. Host string // Form contains the parsed form data, including both the URL // field's query parameters and the POST or PUT form data. // This field is only available after ParseForm is called. // The HTTP client ignores Form and uses Body instead. Form url.Values // PostForm contains the parsed form data from POST, PATCH, // or PUT body parameters. // // This field is only available after ParseForm is called. // The HTTP client ignores PostForm and uses Body instead. PostForm url.Values // MultipartForm is the parsed multipart form, including file uploads. // This field is only available after ParseMultipartForm is called. // The HTTP client ignores MultipartForm and uses Body instead. MultipartForm *multipart.Form // Trailer specifies additional headers that are sent after the request // body. // // For server requests the Trailer map initially contains only the // trailer keys, with nil values. (The client declares which trailers it // will later send.) While the handler is reading from Body, it must // not reference Trailer. After reading from Body returns EOF, Trailer // can be read again and will contain non-nil values, if they were sent // by the client. // // For client requests Trailer must be initialized to a map containing // the trailer keys to later send. The values may be nil or their final // values. The ContentLength must be 0 or -1, to send a chunked request. // After the HTTP request is sent the map values can be updated while // the request body is read. Once the body returns EOF, the caller must // not mutate Trailer. // // Few HTTP clients, servers, or proxies support HTTP trailers. Trailer Header // RemoteAddr allows HTTP servers and other software to record // the network address that sent the request, usually for // logging. This field is not filled in by ReadRequest and // has no defined format. The HTTP server in this package // sets RemoteAddr to an "IP:port" address before invoking a // handler. // This field is ignored by the HTTP client. RemoteAddr string // RequestURI is the unmodified Request-URI of the // Request-Line (RFC 2616, Section 5.1) as sent by the client // to a server. Usually the URL field should be used instead. // It is an error to set this field in an HTTP client request. RequestURI string // TLS allows HTTP servers and other software to record // information about the TLS connection on which the request // was received. This field is not filled in by ReadRequest. // The HTTP server in this package sets the field for // TLS-enabled connections before invoking a handler; // otherwise it leaves the field nil. // This field is ignored by the HTTP client. TLS *tls.ConnectionState // Cancel is an optional channel whose closure indicates that the client // request should be regarded as canceled. Not all implementations of // RoundTripper may support Cancel. // // For server requests, this field is not applicable. Cancel <-chan struct{} } // ProtoAtLeast reports whether the HTTP protocol used // in the request is at least major.minor. func (r *Request) ProtoAtLeast(major, minor int) bool { return r.ProtoMajor > major || r.ProtoMajor == major && r.ProtoMinor >= minor } // UserAgent returns the client's User-Agent, if sent in the request. func (r *Request) UserAgent() string { return r.Header.Get("User-Agent") } // Cookies parses and returns the HTTP cookies sent with the request. func (r *Request) Cookies() []*Cookie { return readCookies(r.Header, "") } // ErrNoCookie is returned by Request's Cookie method when a cookie is not found. var ErrNoCookie = errors.New("http: named cookie not present") // Cookie returns the named cookie provided in the request or // ErrNoCookie if not found. func (r *Request) Cookie(name string) (*Cookie, error) { for _, c := range readCookies(r.Header, name) { return c, nil } return nil, ErrNoCookie } // AddCookie adds a cookie to the request. Per RFC 6265 section 5.4, // AddCookie does not attach more than one Cookie header field. That // means all cookies, if any, are written into the same line, // separated by semicolon. func (r *Request) AddCookie(c *Cookie) { s := fmt.Sprintf("%s=%s", sanitizeCookieName(c.Name), sanitizeCookieValue(c.Value)) if c := r.Header.Get("Cookie"); c != "" { r.Header.Set("Cookie", c+"; "+s) } else { r.Header.Set("Cookie", s) } } // Referer returns the referring URL, if sent in the request. // // Referer is misspelled as in the request itself, a mistake from the // earliest days of HTTP. This value can also be fetched from the // Header map as Header["Referer"]; the benefit of making it available // as a method is that the compiler can diagnose programs that use the // alternate (correct English) spelling req.Referrer() but cannot // diagnose programs that use Header["Referrer"]. func (r *Request) Referer() string { return r.Header.Get("Referer") } // multipartByReader is a sentinel value. // Its presence in Request.MultipartForm indicates that parsing of the request // body has been handed off to a MultipartReader instead of ParseMultipartFrom. var multipartByReader = &multipart.Form{ Value: make(map[string][]string), File: make(map[string][]*multipart.FileHeader), } // MultipartReader returns a MIME multipart reader if this is a // multipart/form-data POST request, else returns nil and an error. // Use this function instead of ParseMultipartForm to // process the request body as a stream. func (r *Request) MultipartReader() (*multipart.Reader, error) { if r.MultipartForm == multipartByReader { return nil, errors.New("http: MultipartReader called twice") } if r.MultipartForm != nil { return nil, errors.New("http: multipart handled by ParseMultipartForm") } r.MultipartForm = multipartByReader return r.multipartReader() } func (r *Request) multipartReader() (*multipart.Reader, error) { v := r.Header.Get("Content-Type") if v == "" { return nil, ErrNotMultipart } d, params, err := mime.ParseMediaType(v) if err != nil || d != "multipart/form-data" { return nil, ErrNotMultipart } boundary, ok := params["boundary"] if !ok { return nil, ErrMissingBoundary } return multipart.NewReader(r.Body, boundary), nil } // Return value if nonempty, def otherwise. func valueOrDefault(value, def string) string { if value != "" { return value } return def } // NOTE: This is not intended to reflect the actual Go version being used. // It was changed at the time of Go 1.1 release because the former User-Agent // had ended up on a blacklist for some intrusion detection systems. // See https://codereview.appspot.com/7532043. const defaultUserAgent = "Go-http-client/1.1" // Write writes an HTTP/1.1 request, which is the header and body, in wire format. // This method consults the following fields of the request: // Host // URL // Method (defaults to "GET") // Header // ContentLength // TransferEncoding // Body // // If Body is present, Content-Length is <= 0 and TransferEncoding // hasn't been set to "identity", Write adds "Transfer-Encoding: // chunked" to the header. Body is closed after it is sent. func (r *Request) Write(w io.Writer) error { return r.write(w, false, nil) } // WriteProxy is like Write but writes the request in the form // expected by an HTTP proxy. In particular, WriteProxy writes the // initial Request-URI line of the request with an absolute URI, per // section 5.1.2 of RFC 2616, including the scheme and host. // In either case, WriteProxy also writes a Host header, using // either r.Host or r.URL.Host. func (r *Request) WriteProxy(w io.Writer) error { return r.write(w, true, nil) } // extraHeaders may be nil func (req *Request) write(w io.Writer, usingProxy bool, extraHeaders Header) error { // Find the target host. Prefer the Host: header, but if that // is not given, use the host from the request URL. // // Clean the host, in case it arrives with unexpected stuff in it. host := cleanHost(req.Host) if host == "" { if req.URL == nil { return errors.New("http: Request.Write on Request with no Host or URL set") } host = cleanHost(req.URL.Host) } // According to RFC 6874, an HTTP client, proxy, or other // intermediary must remove any IPv6 zone identifier attached // to an outgoing URI. host = removeZone(host) ruri := req.URL.RequestURI() if usingProxy && req.URL.Scheme != "" && req.URL.Opaque == "" { ruri = req.URL.Scheme + "://" + host + ruri } else if req.Method == "CONNECT" && req.URL.Path == "" { // CONNECT requests normally give just the host and port, not a full URL. ruri = host } // TODO(bradfitz): escape at least newlines in ruri? // Wrap the writer in a bufio Writer if it's not already buffered. // Don't always call NewWriter, as that forces a bytes.Buffer // and other small bufio Writers to have a minimum 4k buffer // size. var bw *bufio.Writer if _, ok := w.(io.ByteWriter); !ok { bw = bufio.NewWriter(w) w = bw } _, err := fmt.Fprintf(w, "%s %s HTTP/1.1\r\n", valueOrDefault(req.Method, "GET"), ruri) if err != nil { return err } // Header lines _, err = fmt.Fprintf(w, "Host: %s\r\n", host) if err != nil { return err } // Use the defaultUserAgent unless the Header contains one, which // may be blank to not send the header. userAgent := defaultUserAgent if req.Header != nil { if ua := req.Header["User-Agent"]; len(ua) > 0 { userAgent = ua[0] } } if userAgent != "" { _, err = fmt.Fprintf(w, "User-Agent: %s\r\n", userAgent) if err != nil { return err } } // Process Body,ContentLength,Close,Trailer tw, err := newTransferWriter(req) if err != nil { return err } err = tw.WriteHeader(w) if err != nil { return err } err = req.Header.WriteSubset(w, reqWriteExcludeHeader) if err != nil { return err } if extraHeaders != nil { err = extraHeaders.Write(w) if err != nil { return err } } _, err = io.WriteString(w, "\r\n") if err != nil { return err } // Write body and trailer err = tw.WriteBody(w) if err != nil { return err } if bw != nil { return bw.Flush() } return nil } // cleanHost strips anything after '/' or ' '. // Ideally we'd clean the Host header according to the spec: // https://tools.ietf.org/html/rfc7230#section-5.4 (Host = uri-host [ ":" port ]") // https://tools.ietf.org/html/rfc7230#section-2.7 (uri-host -> rfc3986's host) // https://tools.ietf.org/html/rfc3986#section-3.2.2 (definition of host) // But practically, what we are trying to avoid is the situation in // issue 11206, where a malformed Host header used in the proxy context // would create a bad request. So it is enough to just truncate at the // first offending character. func cleanHost(in string) string { if i := strings.IndexAny(in, " /"); i != -1 { return in[:i] } return in } // removeZone removes IPv6 zone identifer from host. // E.g., "[fe80::1%en0]:8080" to "[fe80::1]:8080" func removeZone(host string) string { if !strings.HasPrefix(host, "[") { return host } i := strings.LastIndex(host, "]") if i < 0 { return host } j := strings.LastIndex(host[:i], "%") if j < 0 { return host } return host[:j] + host[i:] } // ParseHTTPVersion parses a HTTP version string. // "HTTP/1.0" returns (1, 0, true). func ParseHTTPVersion(vers string) (major, minor int, ok bool) { const Big = 1000000 // arbitrary upper bound switch vers { case "HTTP/1.1": return 1, 1, true case "HTTP/1.0": return 1, 0, true } if !strings.HasPrefix(vers, "HTTP/") { return 0, 0, false } dot := strings.Index(vers, ".") if dot < 0 { return 0, 0, false } major, err := strconv.Atoi(vers[5:dot]) if err != nil || major < 0 || major > Big { return 0, 0, false } minor, err = strconv.Atoi(vers[dot+1:]) if err != nil || minor < 0 || minor > Big { return 0, 0, false } return major, minor, true } // NewRequest returns a new Request given a method, URL, and optional body. // // If the provided body is also an io.Closer, the returned // Request.Body is set to body and will be closed by the Client // methods Do, Post, and PostForm, and Transport.RoundTrip. // // NewRequest returns a Request suitable for use with Client.Do or // Transport.RoundTrip. // To create a request for use with testing a Server Handler use either // ReadRequest or manually update the Request fields. See the Request // type's documentation for the difference between inbound and outbound // request fields. func NewRequest(method, urlStr string, body io.Reader) (*Request, error) { u, err := url.Parse(urlStr) if err != nil { return nil, err } rc, ok := body.(io.ReadCloser) if !ok && body != nil { rc = ioutil.NopCloser(body) } req := &Request{ Method: method, URL: u, Proto: "HTTP/1.1", ProtoMajor: 1, ProtoMinor: 1, Header: make(Header), Body: rc, Host: u.Host, } if body != nil { switch v := body.(type) { case *bytes.Buffer: req.ContentLength = int64(v.Len()) case *bytes.Reader: req.ContentLength = int64(v.Len()) case *strings.Reader: req.ContentLength = int64(v.Len()) } } return req, nil } // BasicAuth returns the username and password provided in the request's // Authorization header, if the request uses HTTP Basic Authentication. // See RFC 2617, Section 2. func (r *Request) BasicAuth() (username, password string, ok bool) { auth := r.Header.Get("Authorization") if auth == "" { return } return parseBasicAuth(auth) } // parseBasicAuth parses an HTTP Basic Authentication string. // "Basic QWxhZGRpbjpvcGVuIHNlc2FtZQ==" returns ("Aladdin", "open sesame", true). func parseBasicAuth(auth string) (username, password string, ok bool) { const prefix = "Basic " if !strings.HasPrefix(auth, prefix) { return } c, err := base64.StdEncoding.DecodeString(auth[len(prefix):]) if err != nil { return } cs := string(c) s := strings.IndexByte(cs, ':') if s < 0 { return } return cs[:s], cs[s+1:], true } // SetBasicAuth sets the request's Authorization header to use HTTP // Basic Authentication with the provided username and password. // // With HTTP Basic Authentication the provided username and password // are not encrypted. func (r *Request) SetBasicAuth(username, password string) { r.Header.Set("Authorization", "Basic "+basicAuth(username, password)) } // parseRequestLine parses "GET /foo HTTP/1.1" into its three parts. func parseRequestLine(line string) (method, requestURI, proto string, ok bool) { s1 := strings.Index(line, " ") s2 := strings.Index(line[s1+1:], " ") if s1 < 0 || s2 < 0 { return } s2 += s1 + 1 return line[:s1], line[s1+1 : s2], line[s2+1:], true } var textprotoReaderPool sync.Pool func newTextprotoReader(br *bufio.Reader) *textproto.Reader { if v := textprotoReaderPool.Get(); v != nil { tr := v.(*textproto.Reader) tr.R = br return tr } return textproto.NewReader(br) } func putTextprotoReader(r *textproto.Reader) { r.R = nil textprotoReaderPool.Put(r) } // ReadRequest reads and parses an incoming request from b. func ReadRequest(b *bufio.Reader) (req *Request, err error) { tp := newTextprotoReader(b) req = new(Request) // First line: GET /index.html HTTP/1.0 var s string if s, err = tp.ReadLine(); err != nil { return nil, err } defer func() { putTextprotoReader(tp) if err == io.EOF { err = io.ErrUnexpectedEOF } }() var ok bool req.Method, req.RequestURI, req.Proto, ok = parseRequestLine(s) if !ok { return nil, &badStringError{"malformed HTTP request", s} } rawurl := req.RequestURI if req.ProtoMajor, req.ProtoMinor, ok = ParseHTTPVersion(req.Proto); !ok { return nil, &badStringError{"malformed HTTP version", req.Proto} } // CONNECT requests are used two different ways, and neither uses a full URL: // The standard use is to tunnel HTTPS through an HTTP proxy. // It looks like "CONNECT www.google.com:443 HTTP/1.1", and the parameter is // just the authority section of a URL. This information should go in req.URL.Host. // // The net/rpc package also uses CONNECT, but there the parameter is a path // that starts with a slash. It can be parsed with the regular URL parser, // and the path will end up in req.URL.Path, where it needs to be in order for // RPC to work. justAuthority := req.Method == "CONNECT" && !strings.HasPrefix(rawurl, "/") if justAuthority { rawurl = "http://" + rawurl } if req.URL, err = url.ParseRequestURI(rawurl); err != nil { return nil, err } if justAuthority { // Strip the bogus "http://" back off. req.URL.Scheme = "" } // Subsequent lines: Key: value. mimeHeader, err := tp.ReadMIMEHeader() if err != nil { return nil, err } req.Header = Header(mimeHeader) // RFC2616: Must treat // GET /index.html HTTP/1.1 // Host: www.google.com // and // GET http://www.google.com/index.html HTTP/1.1 // Host: doesntmatter // the same. In the second case, any Host line is ignored. req.Host = req.URL.Host if req.Host == "" { req.Host = req.Header.get("Host") } delete(req.Header, "Host") fixPragmaCacheControl(req.Header) req.Close = shouldClose(req.ProtoMajor, req.ProtoMinor, req.Header, false) err = readTransfer(req, b) if err != nil { return nil, err } return req, nil } // MaxBytesReader is similar to io.LimitReader but is intended for // limiting the size of incoming request bodies. In contrast to // io.LimitReader, MaxBytesReader's result is a ReadCloser, returns a // non-EOF error for a Read beyond the limit, and closes the // underlying reader when its Close method is called. // // MaxBytesReader prevents clients from accidentally or maliciously // sending a large request and wasting server resources. func MaxBytesReader(w ResponseWriter, r io.ReadCloser, n int64) io.ReadCloser { return &maxBytesReader{w: w, r: r, n: n} } type maxBytesReader struct { w ResponseWriter r io.ReadCloser // underlying reader n int64 // max bytes remaining stopped bool sawEOF bool } func (l *maxBytesReader) tooLarge() (n int, err error) { if !l.stopped { l.stopped = true if res, ok := l.w.(*response); ok { res.requestTooLarge() } } return 0, errors.New("http: request body too large") } func (l *maxBytesReader) Read(p []byte) (n int, err error) { toRead := l.n if l.n == 0 { if l.sawEOF { return l.tooLarge() } // The underlying io.Reader may not return (0, io.EOF) // at EOF if the requested size is 0, so read 1 byte // instead. The io.Reader docs are a bit ambiguous // about the return value of Read when 0 bytes are // requested, and {bytes,strings}.Reader gets it wrong // too (it returns (0, nil) even at EOF). toRead = 1 } if int64(len(p)) > toRead { p = p[:toRead] } n, err = l.r.Read(p) if err == io.EOF { l.sawEOF = true } if l.n == 0 { // If we had zero bytes to read remaining (but hadn't seen EOF) // and we get a byte here, that means we went over our limit. if n > 0 { return l.tooLarge() } return 0, err } l.n -= int64(n) if l.n < 0 { l.n = 0 } return } func (l *maxBytesReader) Close() error { return l.r.Close() } func copyValues(dst, src url.Values) { for k, vs := range src { for _, value := range vs { dst.Add(k, value) } } } func parsePostForm(r *Request) (vs url.Values, err error) { if r.Body == nil { err = errors.New("missing form body") return } ct := r.Header.Get("Content-Type") // RFC 2616, section 7.2.1 - empty type // SHOULD be treated as application/octet-stream if ct == "" { ct = "application/octet-stream" } ct, _, err = mime.ParseMediaType(ct) switch { case ct == "application/x-www-form-urlencoded": var reader io.Reader = r.Body maxFormSize := int64(1<<63 - 1) if _, ok := r.Body.(*maxBytesReader); !ok { maxFormSize = int64(10 << 20) // 10 MB is a lot of text. reader = io.LimitReader(r.Body, maxFormSize+1) } b, e := ioutil.ReadAll(reader) if e != nil { if err == nil { err = e } break } if int64(len(b)) > maxFormSize { err = errors.New("http: POST too large") return } vs, e = url.ParseQuery(string(b)) if err == nil { err = e } case ct == "multipart/form-data": // handled by ParseMultipartForm (which is calling us, or should be) // TODO(bradfitz): there are too many possible // orders to call too many functions here. // Clean this up and write more tests. // request_test.go contains the start of this, // in TestParseMultipartFormOrder and others. } return } // ParseForm parses the raw query from the URL and updates r.Form. // // For POST or PUT requests, it also parses the request body as a form and // put the results into both r.PostForm and r.Form. // POST and PUT body parameters take precedence over URL query string values // in r.Form. // // If the request Body's size has not already been limited by MaxBytesReader, // the size is capped at 10MB. // // ParseMultipartForm calls ParseForm automatically. // It is idempotent. func (r *Request) ParseForm() error { var err error if r.PostForm == nil { if r.Method == "POST" || r.Method == "PUT" || r.Method == "PATCH" { r.PostForm, err = parsePostForm(r) } if r.PostForm == nil { r.PostForm = make(url.Values) } } if r.Form == nil { if len(r.PostForm) > 0 { r.Form = make(url.Values) copyValues(r.Form, r.PostForm) } var newValues url.Values if r.URL != nil { var e error newValues, e = url.ParseQuery(r.URL.RawQuery) if err == nil { err = e } } if newValues == nil { newValues = make(url.Values) } if r.Form == nil { r.Form = newValues } else { copyValues(r.Form, newValues) } } return err } // ParseMultipartForm parses a request body as multipart/form-data. // The whole request body is parsed and up to a total of maxMemory bytes of // its file parts are stored in memory, with the remainder stored on // disk in temporary files. // ParseMultipartForm calls ParseForm if necessary. // After one call to ParseMultipartForm, subsequent calls have no effect. func (r *Request) ParseMultipartForm(maxMemory int64) error { if r.MultipartForm == multipartByReader { return errors.New("http: multipart handled by MultipartReader") } if r.Form == nil { err := r.ParseForm() if err != nil { return err } } if r.MultipartForm != nil { return nil } mr, err := r.multipartReader() if err != nil { return err } f, err := mr.ReadForm(maxMemory) if err != nil { return err } for k, v := range f.Value { r.Form[k] = append(r.Form[k], v...) } r.MultipartForm = f return nil } // FormValue returns the first value for the named component of the query. // POST and PUT body parameters take precedence over URL query string values. // FormValue calls ParseMultipartForm and ParseForm if necessary and ignores // any errors returned by these functions. // If key is not present, FormValue returns the empty string. // To access multiple values of the same key, call ParseForm and // then inspect Request.Form directly. func (r *Request) FormValue(key string) string { if r.Form == nil { r.ParseMultipartForm(defaultMaxMemory) } if vs := r.Form[key]; len(vs) > 0 { return vs[0] } return "" } // PostFormValue returns the first value for the named component of the POST // or PUT request body. URL query parameters are ignored. // PostFormValue calls ParseMultipartForm and ParseForm if necessary and ignores // any errors returned by these functions. // If key is not present, PostFormValue returns the empty string. func (r *Request) PostFormValue(key string) string { if r.PostForm == nil { r.ParseMultipartForm(defaultMaxMemory) } if vs := r.PostForm[key]; len(vs) > 0 { return vs[0] } return "" } // FormFile returns the first file for the provided form key. // FormFile calls ParseMultipartForm and ParseForm if necessary. func (r *Request) FormFile(key string) (multipart.File, *multipart.FileHeader, error) { if r.MultipartForm == multipartByReader { return nil, nil, errors.New("http: multipart handled by MultipartReader") } if r.MultipartForm == nil { err := r.ParseMultipartForm(defaultMaxMemory) if err != nil { return nil, nil, err } } if r.MultipartForm != nil && r.MultipartForm.File != nil { if fhs := r.MultipartForm.File[key]; len(fhs) > 0 { f, err := fhs[0].Open() return f, fhs[0], err } } return nil, nil, ErrMissingFile } func (r *Request) expectsContinue() bool { return hasToken(r.Header.get("Expect"), "100-continue") } func (r *Request) wantsHttp10KeepAlive() bool { if r.ProtoMajor != 1 || r.ProtoMinor != 0 { return false } return hasToken(r.Header.get("Connection"), "keep-alive") } func (r *Request) wantsClose() bool { return hasToken(r.Header.get("Connection"), "close") } func (r *Request) closeBody() { if r.Body != nil { r.Body.Close() } }