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// 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.
package websocket
// This file implements a protocol of Hixie draft version 75 and 76
// (draft 76 equals to hybi 00)
import (
"bufio"
"bytes"
"crypto/md5"
"encoding/binary"
"fmt"
"http"
"io"
"io/ioutil"
"os"
"rand"
"strconv"
"strings"
"url"
)
// An aray of characters to be randomly inserted to construct Sec-WebSocket-Key
// value. It holds characters from ranges U+0021 to U+002F and U+003A to U+007E.
// See Step 21 in Section 4.1 Opening handshake.
// http://tools.ietf.org/html/draft-ietf-hybi-thewebsocketprotocol-00#page-22
var secKeyRandomChars [0x30 - 0x21 + 0x7F - 0x3A]byte
func init() {
i := 0
for ch := byte(0x21); ch < 0x30; ch++ {
secKeyRandomChars[i] = ch
i++
}
for ch := byte(0x3a); ch < 0x7F; ch++ {
secKeyRandomChars[i] = ch
i++
}
}
type byteReader interface {
ReadByte() (byte, os.Error)
}
// readHixieLength reads frame length for frame type 0x80-0xFF
// as defined in Hixie draft.
// See section 4.2 Data framing.
// http://tools.ietf.org/html/draft-ietf-hybi-thewebsocketprotocol-00#section-4.2
func readHixieLength(r byteReader) (length int64, lengthFields []byte, err os.Error) {
for {
c, err := r.ReadByte()
if err != nil {
return 0, nil, err
}
lengthFields = append(lengthFields, c)
length = length*128 + int64(c&0x7f)
if c&0x80 == 0 {
break
}
}
return
}
// A hixieLengthFrameReader is a reader for frame type 0x80-0xFF
// as defined in hixie draft.
type hixieLengthFrameReader struct {
reader io.Reader
FrameType byte
Length int64
header *bytes.Buffer
length int
}
func (frame *hixieLengthFrameReader) Read(msg []byte) (n int, err os.Error) {
return frame.reader.Read(msg)
}
func (frame *hixieLengthFrameReader) PayloadType() byte {
if frame.FrameType == '\xff' && frame.Length == 0 {
return CloseFrame
}
return UnknownFrame
}
func (frame *hixieLengthFrameReader) HeaderReader() io.Reader {
if frame.header == nil {
return nil
}
if frame.header.Len() == 0 {
frame.header = nil
return nil
}
return frame.header
}
func (frame *hixieLengthFrameReader) TrailerReader() io.Reader { return nil }
func (frame *hixieLengthFrameReader) Len() (n int) { return frame.length }
// A HixieSentinelFrameReader is a reader for frame type 0x00-0x7F
// as defined in hixie draft.
type hixieSentinelFrameReader struct {
reader *bufio.Reader
FrameType byte
header *bytes.Buffer
data []byte
seenTrailer bool
trailer *bytes.Buffer
}
func (frame *hixieSentinelFrameReader) Read(msg []byte) (n int, err os.Error) {
if len(frame.data) == 0 {
if frame.seenTrailer {
return 0, os.EOF
}
frame.data, err = frame.reader.ReadSlice('\xff')
if err == nil {
frame.seenTrailer = true
frame.data = frame.data[:len(frame.data)-1] // trim \xff
frame.trailer = bytes.NewBuffer([]byte{0xff})
}
}
n = copy(msg, frame.data)
frame.data = frame.data[n:]
return n, err
}
func (frame *hixieSentinelFrameReader) PayloadType() byte {
if frame.FrameType == 0 {
return TextFrame
}
return UnknownFrame
}
func (frame *hixieSentinelFrameReader) HeaderReader() io.Reader {
if frame.header == nil {
return nil
}
if frame.header.Len() == 0 {
frame.header = nil
return nil
}
return frame.header
}
func (frame *hixieSentinelFrameReader) TrailerReader() io.Reader {
if frame.trailer == nil {
return nil
}
if frame.trailer.Len() == 0 {
frame.trailer = nil
return nil
}
return frame.trailer
}
func (frame *hixieSentinelFrameReader) Len() int { return -1 }
// A HixieFrameReaderFactory creates new frame reader based on its frame type.
type hixieFrameReaderFactory struct {
*bufio.Reader
}
func (buf hixieFrameReaderFactory) NewFrameReader() (r frameReader, err os.Error) {
var header []byte
var b byte
b, err = buf.ReadByte()
if err != nil {
return
}
header = append(header, b)
if b&0x80 == 0x80 {
length, lengthFields, err := readHixieLength(buf.Reader)
if err != nil {
return nil, err
}
if length == 0 {
return nil, os.EOF
}
header = append(header, lengthFields...)
return &hixieLengthFrameReader{
reader: io.LimitReader(buf.Reader, length),
FrameType: b,
Length: length,
header: bytes.NewBuffer(header)}, err
}
return &hixieSentinelFrameReader{
reader: buf.Reader,
FrameType: b,
header: bytes.NewBuffer(header)}, err
}
type hixiFrameWriter struct {
writer *bufio.Writer
}
func (frame *hixiFrameWriter) Write(msg []byte) (n int, err os.Error) {
frame.writer.WriteByte(0)
frame.writer.Write(msg)
frame.writer.WriteByte(0xff)
err = frame.writer.Flush()
return len(msg), err
}
func (frame *hixiFrameWriter) Close() os.Error { return nil }
type hixiFrameWriterFactory struct {
*bufio.Writer
}
func (buf hixiFrameWriterFactory) NewFrameWriter(payloadType byte) (frame frameWriter, err os.Error) {
if payloadType != TextFrame {
return nil, ErrNotSupported
}
return &hixiFrameWriter{writer: buf.Writer}, nil
}
type hixiFrameHandler struct {
conn *Conn
}
func (handler *hixiFrameHandler) HandleFrame(frame frameReader) (r frameReader, err os.Error) {
if header := frame.HeaderReader(); header != nil {
io.Copy(ioutil.Discard, header)
}
if frame.PayloadType() != TextFrame {
io.Copy(ioutil.Discard, frame)
return nil, nil
}
return frame, nil
}
func (handler *hixiFrameHandler) WriteClose(_ int) (err os.Error) {
handler.conn.wio.Lock()
defer handler.conn.wio.Unlock()
closingFrame := []byte{'\xff', '\x00'}
handler.conn.buf.Write(closingFrame)
return handler.conn.buf.Flush()
}
// newHixiConn creates a new WebSocket connection speaking hixie draft protocol.
func newHixieConn(config *Config, buf *bufio.ReadWriter, rwc io.ReadWriteCloser, request *http.Request) *Conn {
if buf == nil {
br := bufio.NewReader(rwc)
bw := bufio.NewWriter(rwc)
buf = bufio.NewReadWriter(br, bw)
}
ws := &Conn{config: config, request: request, buf: buf, rwc: rwc,
frameReaderFactory: hixieFrameReaderFactory{buf.Reader},
frameWriterFactory: hixiFrameWriterFactory{buf.Writer},
PayloadType: TextFrame}
ws.frameHandler = &hixiFrameHandler{ws}
return ws
}
// getChallengeResponse computes the expected response from the
// challenge as described in section 5.1 Opening Handshake steps 42 to
// 43 of http://www.whatwg.org/specs/web-socket-protocol/
func getChallengeResponse(number1, number2 uint32, key3 []byte) (expected []byte, err os.Error) {
// 41. Let /challenge/ be the concatenation of /number_1/, expressed
// a big-endian 32 bit integer, /number_2/, expressed in a big-
// endian 32 bit integer, and the eight bytes of /key_3/ in the
// order they were sent to the wire.
challenge := make([]byte, 16)
binary.BigEndian.PutUint32(challenge[0:], number1)
binary.BigEndian.PutUint32(challenge[4:], number2)
copy(challenge[8:], key3)
// 42. Let /expected/ be the MD5 fingerprint of /challenge/ as a big-
// endian 128 bit string.
h := md5.New()
if _, err = h.Write(challenge); err != nil {
return
}
expected = h.Sum()
return
}
// Generates handshake key as described in 4.1 Opening handshake step 16 to 22.
// cf. http://tools.ietf.org/html/draft-ietf-hybi-thewebsocketprotocol-00
func generateKeyNumber() (key string, number uint32) {
// 16. Let /spaces_n/ be a random integer from 1 to 12 inclusive.
spaces := rand.Intn(12) + 1
// 17. Let /max_n/ be the largest integer not greater than
// 4,294,967,295 divided by /spaces_n/
max := int(4294967295 / uint32(spaces))
// 18. Let /number_n/ be a random integer from 0 to /max_n/ inclusive.
number = uint32(rand.Intn(max + 1))
// 19. Let /product_n/ be the result of multiplying /number_n/ and
// /spaces_n/ together.
product := number * uint32(spaces)
// 20. Let /key_n/ be a string consisting of /product_n/, expressed
// in base ten using the numerals in the range U+0030 DIGIT ZERO (0)
// to U+0039 DIGIT NINE (9).
key = fmt.Sprintf("%d", product)
// 21. Insert between one and twelve random characters from the ranges
// U+0021 to U+002F and U+003A to U+007E into /key_n/ at random
// positions.
n := rand.Intn(12) + 1
for i := 0; i < n; i++ {
pos := rand.Intn(len(key)) + 1
ch := secKeyRandomChars[rand.Intn(len(secKeyRandomChars))]
key = key[0:pos] + string(ch) + key[pos:]
}
// 22. Insert /spaces_n/ U+0020 SPACE characters into /key_n/ at random
// positions other than the start or end of the string.
for i := 0; i < spaces; i++ {
pos := rand.Intn(len(key)-1) + 1
key = key[0:pos] + " " + key[pos:]
}
return
}
// Generates handshake key_3 as described in 4.1 Opening handshake step 26.
// cf. http://tools.ietf.org/html/draft-ietf-hybi-thewebsocketprotocol-00
func generateKey3() (key []byte) {
// 26. Let /key3/ be a string consisting of eight random bytes (or
// equivalently, a random 64 bit integer encoded in big-endian order).
key = make([]byte, 8)
for i := 0; i < 8; i++ {
key[i] = byte(rand.Intn(256))
}
return
}
// Cilent handhake described in (soon obsolete)
// draft-ietf-hybi-thewebsocket-protocol-00
// (draft-hixie-thewebsocket-protocol-76)
func hixie76ClientHandshake(config *Config, br *bufio.Reader, bw *bufio.Writer) (err os.Error) {
switch config.Version {
case ProtocolVersionHixie76, ProtocolVersionHybi00:
default:
panic("wrong protocol version.")
}
// 4.1. Opening handshake.
// Step 5. send a request line.
bw.WriteString("GET " + config.Location.RawPath + " HTTP/1.1\r\n")
// Step 6-14. push request headers in fields.
fields := []string{
"Upgrade: WebSocket\r\n",
"Connection: Upgrade\r\n",
"Host: " + config.Location.Host + "\r\n",
"Origin: " + config.Origin.String() + "\r\n",
}
if len(config.Protocol) > 0 {
if len(config.Protocol) != 1 {
return ErrBadWebSocketProtocol
}
fields = append(fields, "Sec-WebSocket-Protocol: "+config.Protocol[0]+"\r\n")
}
// TODO(ukai): Step 15. send cookie if any.
// Step 16-23. generate keys and push Sec-WebSocket-Key<n> in fields.
key1, number1 := generateKeyNumber()
key2, number2 := generateKeyNumber()
if config.handshakeData != nil {
key1 = config.handshakeData["key1"]
n, err := strconv.Atoui(config.handshakeData["number1"])
if err != nil {
panic(err)
}
number1 = uint32(n)
key2 = config.handshakeData["key2"]
n, err = strconv.Atoui(config.handshakeData["number2"])
if err != nil {
panic(err)
}
number2 = uint32(n)
}
fields = append(fields, "Sec-WebSocket-Key1: "+key1+"\r\n")
fields = append(fields, "Sec-WebSocket-Key2: "+key2+"\r\n")
// Step 24. shuffle fields and send them out.
for i := 1; i < len(fields); i++ {
j := rand.Intn(i)
fields[i], fields[j] = fields[j], fields[i]
}
for i := 0; i < len(fields); i++ {
bw.WriteString(fields[i])
}
// Step 25. send CRLF.
bw.WriteString("\r\n")
// Step 26. generate 8 bytes random key.
key3 := generateKey3()
if config.handshakeData != nil {
key3 = []byte(config.handshakeData["key3"])
}
// Step 27. send it out.
bw.Write(key3)
if err = bw.Flush(); err != nil {
return
}
// Step 28-29, 32-40. read response from server.
resp, err := http.ReadResponse(br, &http.Request{Method: "GET"})
if err != nil {
return err
}
// Step 30. check response code is 101.
if resp.StatusCode != 101 {
return ErrBadStatus
}
// Step 41. check websocket headers.
if resp.Header.Get("Upgrade") != "WebSocket" ||
strings.ToLower(resp.Header.Get("Connection")) != "upgrade" {
return ErrBadUpgrade
}
if resp.Header.Get("Sec-Websocket-Origin") != config.Origin.String() {
return ErrBadWebSocketOrigin
}
if resp.Header.Get("Sec-Websocket-Location") != config.Location.String() {
return ErrBadWebSocketLocation
}
if len(config.Protocol) > 0 && resp.Header.Get("Sec-Websocket-Protocol") != config.Protocol[0] {
return ErrBadWebSocketProtocol
}
// Step 42-43. get expected data from challenge data.
expected, err := getChallengeResponse(number1, number2, key3)
if err != nil {
return err
}
// Step 44. read 16 bytes from server.
reply := make([]byte, 16)
if _, err = io.ReadFull(br, reply); err != nil {
return err
}
// Step 45. check the reply equals to expected data.
if !bytes.Equal(expected, reply) {
return ErrChallengeResponse
}
// WebSocket connection is established.
return
}
// Client Handshake described in (soon obsolete)
// draft-hixie-thewebsocket-protocol-75.
func hixie75ClientHandshake(config *Config, br *bufio.Reader, bw *bufio.Writer) (err os.Error) {
if config.Version != ProtocolVersionHixie75 {
panic("wrong protocol version.")
}
bw.WriteString("GET " + config.Location.RawPath + " HTTP/1.1\r\n")
bw.WriteString("Upgrade: WebSocket\r\n")
bw.WriteString("Connection: Upgrade\r\n")
bw.WriteString("Host: " + config.Location.Host + "\r\n")
bw.WriteString("Origin: " + config.Origin.String() + "\r\n")
if len(config.Protocol) > 0 {
if len(config.Protocol) != 1 {
return ErrBadWebSocketProtocol
}
bw.WriteString("WebSocket-Protocol: " + config.Protocol[0] + "\r\n")
}
bw.WriteString("\r\n")
bw.Flush()
resp, err := http.ReadResponse(br, &http.Request{Method: "GET"})
if err != nil {
return
}
if resp.Status != "101 Web Socket Protocol Handshake" {
return ErrBadStatus
}
if resp.Header.Get("Upgrade") != "WebSocket" ||
resp.Header.Get("Connection") != "Upgrade" {
return ErrBadUpgrade
}
if resp.Header.Get("Websocket-Origin") != config.Origin.String() {
return ErrBadWebSocketOrigin
}
if resp.Header.Get("Websocket-Location") != config.Location.String() {
return ErrBadWebSocketLocation
}
if len(config.Protocol) > 0 && resp.Header.Get("Websocket-Protocol") != config.Protocol[0] {
return ErrBadWebSocketProtocol
}
return
}
// newHixieClientConn returns new WebSocket connection speaking hixie draft protocol.
func newHixieClientConn(config *Config, buf *bufio.ReadWriter, rwc io.ReadWriteCloser) *Conn {
return newHixieConn(config, buf, rwc, nil)
}
// Gets key number from Sec-WebSocket-Key<n>: field as described
// in 5.2 Sending the server's opening handshake, 4.
func getKeyNumber(s string) (r uint32) {
// 4. Let /key-number_n/ be the digits (characters in the range
// U+0030 DIGIT ZERO (0) to U+0039 DIGIT NINE (9)) in /key_1/,
// interpreted as a base ten integer, ignoring all other characters
// in /key_n/.
r = 0
for i := 0; i < len(s); i++ {
if s[i] >= '0' && s[i] <= '9' {
r = r*10 + uint32(s[i]) - '0'
}
}
return
}
// A Hixie76ServerHandshaker performs a server handshake using
// hixie draft 76 protocol.
type hixie76ServerHandshaker struct {
*Config
challengeResponse []byte
}
func (c *hixie76ServerHandshaker) ReadHandshake(buf *bufio.Reader, req *http.Request) (code int, err os.Error) {
c.Version = ProtocolVersionHybi00
if req.Method != "GET" {
return http.StatusMethodNotAllowed, ErrBadRequestMethod
}
// HTTP version can be safely ignored.
if strings.ToLower(req.Header.Get("Upgrade")) != "websocket" ||
strings.ToLower(req.Header.Get("Connection")) != "upgrade" {
return http.StatusBadRequest, ErrNotWebSocket
}
// TODO(ukai): check Host
c.Origin, err = url.ParseRequest(req.Header.Get("Origin"))
if err != nil {
return http.StatusBadRequest, err
}
key1 := req.Header.Get("Sec-Websocket-Key1")
if key1 == "" {
return http.StatusBadRequest, ErrChallengeResponse
}
key2 := req.Header.Get("Sec-Websocket-Key2")
if key2 == "" {
return http.StatusBadRequest, ErrChallengeResponse
}
key3 := make([]byte, 8)
if _, err := io.ReadFull(buf, key3); err != nil {
return http.StatusBadRequest, ErrChallengeResponse
}
var scheme string
if req.TLS != nil {
scheme = "wss"
} else {
scheme = "ws"
}
c.Location, err = url.ParseRequest(scheme + "://" + req.Host + req.URL.RawPath)
if err != nil {
return http.StatusBadRequest, err
}
// Step 4. get key number in Sec-WebSocket-Key<n> fields.
keyNumber1 := getKeyNumber(key1)
keyNumber2 := getKeyNumber(key2)
// Step 5. get number of spaces in Sec-WebSocket-Key<n> fields.
space1 := uint32(strings.Count(key1, " "))
space2 := uint32(strings.Count(key2, " "))
if space1 == 0 || space2 == 0 {
return http.StatusBadRequest, ErrChallengeResponse
}
// Step 6. key number must be an integral multiple of spaces.
if keyNumber1%space1 != 0 || keyNumber2%space2 != 0 {
return http.StatusBadRequest, ErrChallengeResponse
}
// Step 7. let part be key number divided by spaces.
part1 := keyNumber1 / space1
part2 := keyNumber2 / space2
// Step 8. let challenge be concatenation of part1, part2 and key3.
// Step 9. get MD5 fingerprint of challenge.
c.challengeResponse, err = getChallengeResponse(part1, part2, key3)
if err != nil {
return http.StatusInternalServerError, err
}
protocol := strings.TrimSpace(req.Header.Get("Sec-Websocket-Protocol"))
protocols := strings.Split(protocol, ",")
for i := 0; i < len(protocols); i++ {
c.Protocol = append(c.Protocol, strings.TrimSpace(protocols[i]))
}
return http.StatusSwitchingProtocols, nil
}
func (c *hixie76ServerHandshaker) AcceptHandshake(buf *bufio.Writer) (err os.Error) {
if len(c.Protocol) > 0 {
if len(c.Protocol) != 1 {
return ErrBadWebSocketProtocol
}
}
// Step 10. send response status line.
buf.WriteString("HTTP/1.1 101 WebSocket Protocol Handshake\r\n")
// Step 11. send response headers.
buf.WriteString("Upgrade: WebSocket\r\n")
buf.WriteString("Connection: Upgrade\r\n")
buf.WriteString("Sec-WebSocket-Origin: " + c.Origin.String() + "\r\n")
buf.WriteString("Sec-WebSocket-Location: " + c.Location.String() + "\r\n")
if len(c.Protocol) > 0 {
buf.WriteString("Sec-WebSocket-Protocol: " + c.Protocol[0] + "\r\n")
}
// Step 12. send CRLF.
buf.WriteString("\r\n")
// Step 13. send response data.
buf.Write(c.challengeResponse)
return buf.Flush()
}
func (c *hixie76ServerHandshaker) NewServerConn(buf *bufio.ReadWriter, rwc io.ReadWriteCloser, request *http.Request) (conn *Conn) {
return newHixieServerConn(c.Config, buf, rwc, request)
}
// A hixie75ServerHandshaker performs a server handshake using
// hixie draft 75 protocol.
type hixie75ServerHandshaker struct {
*Config
}
func (c *hixie75ServerHandshaker) ReadHandshake(buf *bufio.Reader, req *http.Request) (code int, err os.Error) {
c.Version = ProtocolVersionHixie75
if req.Method != "GET" || req.Proto != "HTTP/1.1" {
return http.StatusMethodNotAllowed, ErrBadRequestMethod
}
if req.Header.Get("Upgrade") != "WebSocket" {
return http.StatusBadRequest, ErrNotWebSocket
}
if req.Header.Get("Connection") != "Upgrade" {
return http.StatusBadRequest, ErrNotWebSocket
}
c.Origin, err = url.ParseRequest(strings.TrimSpace(req.Header.Get("Origin")))
if err != nil {
return http.StatusBadRequest, err
}
var scheme string
if req.TLS != nil {
scheme = "wss"
} else {
scheme = "ws"
}
c.Location, err = url.ParseRequest(scheme + "://" + req.Host + req.URL.RawPath)
if err != nil {
return http.StatusBadRequest, err
}
protocol := strings.TrimSpace(req.Header.Get("Websocket-Protocol"))
protocols := strings.Split(protocol, ",")
for i := 0; i < len(protocols); i++ {
c.Protocol = append(c.Protocol, strings.TrimSpace(protocols[i]))
}
return http.StatusSwitchingProtocols, nil
}
func (c *hixie75ServerHandshaker) AcceptHandshake(buf *bufio.Writer) (err os.Error) {
if len(c.Protocol) > 0 {
if len(c.Protocol) != 1 {
return ErrBadWebSocketProtocol
}
}
buf.WriteString("HTTP/1.1 101 Web Socket Protocol Handshake\r\n")
buf.WriteString("Upgrade: WebSocket\r\n")
buf.WriteString("Connection: Upgrade\r\n")
buf.WriteString("WebSocket-Origin: " + c.Origin.String() + "\r\n")
buf.WriteString("WebSocket-Location: " + c.Location.String() + "\r\n")
if len(c.Protocol) > 0 {
buf.WriteString("WebSocket-Protocol: " + c.Protocol[0] + "\r\n")
}
buf.WriteString("\r\n")
return buf.Flush()
}
func (c *hixie75ServerHandshaker) NewServerConn(buf *bufio.ReadWriter, rwc io.ReadWriteCloser, request *http.Request) (conn *Conn) {
return newHixieServerConn(c.Config, buf, rwc, request)
}
// newHixieServerConn returns a new WebSocket connection speaking hixie draft protocol.
func newHixieServerConn(config *Config, buf *bufio.ReadWriter, rwc io.ReadWriteCloser, request *http.Request) *Conn {
return newHixieConn(config, buf, rwc, request)
}