// 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 Response reading and parsing. package http import ( "bufio" "bytes" "crypto/tls" "errors" "io" "net/textproto" "net/url" "strconv" "strings" ) var respExcludeHeader = map[string]bool{ "Content-Length": true, "Transfer-Encoding": true, "Trailer": true, } // Response represents the response from an HTTP request. // type Response struct { Status string // e.g. "200 OK" StatusCode int // e.g. 200 Proto string // e.g. "HTTP/1.0" ProtoMajor int // e.g. 1 ProtoMinor int // e.g. 0 // Header maps header keys to values. If the response had multiple // headers with the same key, they may be concatenated, with comma // delimiters. (Section 4.2 of RFC 2616 requires that multiple headers // be semantically equivalent to a comma-delimited sequence.) Values // duplicated by other fields in this struct (e.g., ContentLength) are // omitted from Header. // // Keys in the map are canonicalized (see CanonicalHeaderKey). Header Header // Body represents the response body. // // The http Client and Transport guarantee that Body is always // non-nil, even on responses without a body or responses with // a zero-length body. It is the caller's responsibility to // close Body. The default HTTP client's Transport does not // attempt to reuse HTTP/1.0 or HTTP/1.1 TCP connections // ("keep-alive") unless the Body is read to completion and is // closed. // // The Body is automatically dechunked if the server replied // with a "chunked" Transfer-Encoding. Body io.ReadCloser // ContentLength records the length of the associated content. The // value -1 indicates that the length is unknown. Unless Request.Method // is "HEAD", values >= 0 indicate that the given number of bytes may // be read from Body. ContentLength int64 // Contains transfer encodings from outer-most to inner-most. Value is // nil, means that "identity" encoding is used. TransferEncoding []string // Close records whether the header directed that the connection be // closed after reading Body. The value is advice for clients: neither // ReadResponse nor Response.Write ever closes a connection. Close bool // Trailer maps trailer keys to values, in the same // format as the header. Trailer Header // The Request that was sent to obtain this Response. // Request's Body is nil (having already been consumed). // This is only populated for Client requests. Request *Request // TLS contains information about the TLS connection on which the // response was received. It is nil for unencrypted responses. // The pointer is shared between responses and should not be // modified. TLS *tls.ConnectionState } // Cookies parses and returns the cookies set in the Set-Cookie headers. func (r *Response) Cookies() []*Cookie { return readSetCookies(r.Header) } // ErrNoLocation is returned by Response's Location method // when no Location header is present. var ErrNoLocation = errors.New("http: no Location header in response") // Location returns the URL of the response's "Location" header, // if present. Relative redirects are resolved relative to // the Response's Request. ErrNoLocation is returned if no // Location header is present. func (r *Response) Location() (*url.URL, error) { lv := r.Header.Get("Location") if lv == "" { return nil, ErrNoLocation } if r.Request != nil && r.Request.URL != nil { return r.Request.URL.Parse(lv) } return url.Parse(lv) } // ReadResponse reads and returns an HTTP response from r. // The req parameter optionally specifies the Request that corresponds // to this Response. If nil, a GET request is assumed. // Clients must call resp.Body.Close when finished reading resp.Body. // After that call, clients can inspect resp.Trailer to find key/value // pairs included in the response trailer. func ReadResponse(r *bufio.Reader, req *Request) (*Response, error) { tp := textproto.NewReader(r) resp := &Response{ Request: req, } // Parse the first line of the response. line, err := tp.ReadLine() if err != nil { if err == io.EOF { err = io.ErrUnexpectedEOF } return nil, err } f := strings.SplitN(line, " ", 3) if len(f) < 2 { return nil, &badStringError{"malformed HTTP response", line} } reasonPhrase := "" if len(f) > 2 { reasonPhrase = f[2] } resp.Status = f[1] + " " + reasonPhrase resp.StatusCode, err = strconv.Atoi(f[1]) if err != nil { return nil, &badStringError{"malformed HTTP status code", f[1]} } resp.Proto = f[0] var ok bool if resp.ProtoMajor, resp.ProtoMinor, ok = ParseHTTPVersion(resp.Proto); !ok { return nil, &badStringError{"malformed HTTP version", resp.Proto} } // Parse the response headers. mimeHeader, err := tp.ReadMIMEHeader() if err != nil { if err == io.EOF { err = io.ErrUnexpectedEOF } return nil, err } resp.Header = Header(mimeHeader) fixPragmaCacheControl(resp.Header) err = readTransfer(resp, r) if err != nil { return nil, err } return resp, nil } // RFC2616: Should treat // Pragma: no-cache // like // Cache-Control: no-cache func fixPragmaCacheControl(header Header) { if hp, ok := header["Pragma"]; ok && len(hp) > 0 && hp[0] == "no-cache" { if _, presentcc := header["Cache-Control"]; !presentcc { header["Cache-Control"] = []string{"no-cache"} } } } // ProtoAtLeast reports whether the HTTP protocol used // in the response is at least major.minor. func (r *Response) ProtoAtLeast(major, minor int) bool { return r.ProtoMajor > major || r.ProtoMajor == major && r.ProtoMinor >= minor } // Write writes r to w in the HTTP/1.n server response format, // including the status line, headers, body, and optional trailer. // // This method consults the following fields of the response r: // // StatusCode // ProtoMajor // ProtoMinor // Request.Method // TransferEncoding // Trailer // Body // ContentLength // Header, values for non-canonical keys will have unpredictable behavior // // The Response Body is closed after it is sent. func (r *Response) Write(w io.Writer) error { // Status line text := r.Status if text == "" { var ok bool text, ok = statusText[r.StatusCode] if !ok { text = "status code " + strconv.Itoa(r.StatusCode) } } protoMajor, protoMinor := strconv.Itoa(r.ProtoMajor), strconv.Itoa(r.ProtoMinor) statusCode := strconv.Itoa(r.StatusCode) + " " text = strings.TrimPrefix(text, statusCode) if _, err := io.WriteString(w, "HTTP/"+protoMajor+"."+protoMinor+" "+statusCode+text+"\r\n"); err != nil { return err } // Clone it, so we can modify r1 as needed. r1 := new(Response) *r1 = *r if r1.ContentLength == 0 && r1.Body != nil { // Is it actually 0 length? Or just unknown? var buf [1]byte n, err := r1.Body.Read(buf[:]) if err != nil && err != io.EOF { return err } if n == 0 { // Reset it to a known zero reader, in case underlying one // is unhappy being read repeatedly. r1.Body = eofReader } else { r1.ContentLength = -1 r1.Body = struct { io.Reader io.Closer }{ io.MultiReader(bytes.NewReader(buf[:1]), r.Body), r.Body, } } } // If we're sending a non-chunked HTTP/1.1 response without a // content-length, the only way to do that is the old HTTP/1.0 // way, by noting the EOF with a connection close, so we need // to set Close. if r1.ContentLength == -1 && !r1.Close && r1.ProtoAtLeast(1, 1) && !chunked(r1.TransferEncoding) { r1.Close = true } // Process Body,ContentLength,Close,Trailer tw, err := newTransferWriter(r1) if err != nil { return err } err = tw.WriteHeader(w) if err != nil { return err } // Rest of header err = r.Header.WriteSubset(w, respExcludeHeader) if err != nil { return err } // contentLengthAlreadySent may have been already sent for // POST/PUT requests, even if zero length. See Issue 8180. contentLengthAlreadySent := tw.shouldSendContentLength() if r1.ContentLength == 0 && !chunked(r1.TransferEncoding) && !contentLengthAlreadySent { if _, err := io.WriteString(w, "Content-Length: 0\r\n"); err != nil { return err } } // End-of-header if _, err := io.WriteString(w, "\r\n"); err != nil { return err } // Write body and trailer err = tw.WriteBody(w) if err != nil { return err } // Success return nil }