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websocket.go
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websocket.go
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package gotalk
import (
"bytes"
"compress/gzip"
"context"
"fmt"
"golang.org/x/net/websocket"
"net/http"
"strconv"
"strings"
"sync"
"time"
)
// WebSocketConnection is an alias for the websocket connection type, to spare the use
// from having to import golang.org/x/net/websocket
type WebSocketConnection = websocket.Conn
// WebSocket is a type of gotalk.Sock used for web socket connections,
// managed by a WebSocketServer.
type WebSocket struct {
Sock
// A function to be called when the socket closes. See Socket.CloseHandler for details.
CloseHandler func(s *WebSocket, code int)
}
// Conn returns the underlying web socket connection.
//
// Accessing the web socket connection inside a handler function:
// Handler functions can opt in to receive a pointer to a Sock but not a WebSocket.
// This makes handlers more portable, testable and the implementation becomes simpler.
// However, sometimes you might need to access the web socket connection anyhow:
//
// gotalk.Handle("foo", func(s *gotalk.Sock, m FooMessage) error {
// ws := s.Conn().(*gotalk.WebSocketConnection)
// // do something with ws
// return nil
// })
//
func (s *WebSocket) Conn() *WebSocketConnection { return s.Sock.conn.(*WebSocketConnection) }
// Request returns the http request upgraded to the WebSocket
func (s *WebSocket) Request() *http.Request { return s.Conn().Request() }
// Context returns the http request's context. The returned context is never nil.
func (s *WebSocket) Context() context.Context { return s.Request().Context() }
// ---------------------------------------------------------------------------------
// WebSocketServer conforms to http.HandlerFunc and is used to serve Gotalk over HTTP or HTTPS
type WebSocketServer struct {
// Handlers describe what this server is capable of responding to.
// Initially set to gotalk.DefaultHandlers by NewWebSocketServer().
//
// Handler can be assigned a new set of handlers at any time.
// Whenever a new socket is connected, it references the current value of Handlers, therefore
// changes to Handlers has an effect for newly connected sockets only.
*Handlers
// Limits control resource limits.
// Initially set to gotalk.DefaultLimits by NewWebSocketServer().
*Limits
// OnConnect is an optional handler to be invoked when a new socket is connected.
// This handler is only called for sockets which passed the protocol handshake.
// If you want to deny a connection, simply call s.Close() on the socket in this handler.
//
// Gotalk checks if Origin header is a valid URL by default but does nothing else in terms of
// origin validation. You might want to verify s.Conn().Config().Origin in OnConnect.
OnConnect func(s *WebSocket)
// HeartbeatInterval is not used directly by WebSocketServer but assigned to every new socket
// that is connected. The default initial value (0) means "no automatic heartbeats" (disabled.)
//
// Note that automatic heartbeats are usually not a good idea for web sockets for two reasons:
//
// a) You usually want to keep as few connections open as possible; letting them time out is
// often desired (heartbeats prevent connection timeout.)
//
// b) Automatic timeout uses more resources
//
HeartbeatInterval time.Duration
// OnHeartbeat is an optional callback for heartbeat confirmation messages.
// Not used directly by WebSocketServer but assigned to every new socket that is connected.
OnHeartbeat func(load int, t time.Time)
// Underlying websocket server (will become a function in gotalk 2)
Server *websocket.Server
// DEPRECATED use OnConnect instead
OnAccept SockHandler
// storage for underlying web socket server.
// Server is a pointer to this for legacy reasons.
// Gotalk <=1.1.5 allocated websocket.Server separately on the heap and assigned it to Server.
server websocket.Server
}
// NewWebSocketServer creates a web socket server which is a http.Handler
func NewWebSocketServer() *WebSocketServer {
s := &WebSocketServer{
Handlers: DefaultHandlers,
Limits: DefaultLimits,
server: websocket.Server{
Handshake: checkOrigin,
},
}
s.Server = &s.server // legacy API
s.server.Handler = s.onAccept
return s
}
// DEPREACTED use NewWebSocketServer
func WebSocketHandler() *WebSocketServer {
return NewWebSocketServer()
}
func (s *WebSocketServer) ServeHTTP(w http.ResponseWriter, r *http.Request) {
if strings.HasSuffix(r.URL.Path, gotalkJSSuffix) {
if s.maybeReplyNotModified(w, r) {
return
}
contentLength := jslibLen
body := jslibBody
header := w.Header()
acceptEncoding := parseCommaStrSet(r.Header.Get("Accept-Encoding"))
if _, ok := acceptEncoding["gzip"]; ok {
header["Content-Encoding"] = []string{"gzip"}
contentLength = jslibLenGzip
body = jslibBodyGzip
}
header["Content-Length"] = contentLength
for k, v := range jslibHeader {
header[k] = v
}
w.WriteHeader(http.StatusOK)
w.Write(body)
} else {
// upgrade request connection to web socket protocol
s.server.ServeHTTP(w, r)
}
}
// ---------------------------------------------------------------------------------
// internal
// onAccept is called for new web socket connections
func (server *WebSocketServer) onAccept(ws *WebSocketConnection) {
// Set the frame payload type of the web socket
ws.PayloadType = websocket.BinaryFrame
// Create a new gotalk socket of the WebSocket flavor
sock := &WebSocket{
Sock: Sock{
Handlers: server.Handlers,
HeartbeatInterval: server.HeartbeatInterval,
OnHeartbeat: server.OnHeartbeat,
conn: ws,
},
}
sock.Sock.CloseHandler = func(_ *Sock, code int) {
if sock.CloseHandler != nil {
sock.CloseHandler(sock, code)
}
}
// Adopt the web socket
sock.Adopt(ws)
// perform protocol handshake
if err := sock.Handshake(); err != nil {
sock.Close()
return
}
// Call optional OnConnect handler
if server.OnConnect != nil {
server.OnConnect(sock)
} else if server.OnAccept != nil {
// legacy deprecated callback
server.OnAccept(&sock.Sock)
}
// If the OnConnect handler closed the connection, stop here
if sock.conn == nil {
return
}
// enter read loop
sock.Read(server.Limits)
}
func checkOrigin(config *websocket.Config, req *http.Request) (err error) {
config.Origin, err = websocket.Origin(config, req)
if err == nil && config.Origin == nil {
return fmt.Errorf("null origin")
}
return err
}
const gotalkJSSuffix = "/gotalk.js"
const gotalkJSMapSuffix = "/gotalk.js.map"
// js lib cache
var (
jslibInitOnce sync.Once
jslibETag string
jslibHeader http.Header // alias map[string][]string
jslibLen []string
jslibBody []byte
jslibLenGzip []string
jslibBodyGzip []byte
)
func init() {
jslibETag = "\"" + JSLibSHA1Base64 + "\""
jslibHeader = map[string][]string{
"Content-Type": {"application/javascript; charset=utf-8"},
"Cache-Control": {"public,max-age=300"}, // 5min
"ETag": {jslibETag},
}
// Note on Cache-Control:
// max-age is the max time a browser can hold on to a copy of gotalk.js without
// checking back with an etag. I.e. it does not limit the age of the cached resource
// but limits how often the browser revalidates. max-age should thus be relatively low
// as a revalidation request will in most cases end early with a HTTP 304 Not Modified
// response. 5min seems like a decent value.
// TODO: Consider making max-age configurable.
// uncompressed
jslibBody = []byte(JSLibString)
jslibLen = []string{strconv.FormatInt(int64(len(jslibBody)), 10)}
// gzip
var zbuf bytes.Buffer
zw, _ := gzip.NewWriterLevel(&zbuf, gzip.BestCompression)
_, err := zw.Write(jslibBody)
if err2 := zw.Close(); err2 != nil && err == nil {
err = err2
}
if err != nil {
panic(err)
}
jslibBodyGzip = zbuf.Bytes()
jslibLenGzip = []string{strconv.FormatInt(int64(len(jslibBodyGzip)), 10)}
}
func (s *WebSocketServer) maybeReplyNotModified(w http.ResponseWriter, r *http.Request) bool {
reqETag := r.Header["If-None-Match"]
if len(reqETag) != 0 && reqETag[0] == jslibETag {
w.WriteHeader(http.StatusNotModified)
return true
}
return false
}
func parseCommaStrSet(s string) map[string]struct{} {
m := make(map[string]struct{})
if len(s) == 0 {
return m
}
var start int = 0
var end int = -1
for i, b := range s {
if start == -1 {
if b != ' ' {
start = i
}
} else {
switch b {
case ' ':
end = i
case ',':
if end == -1 {
end = i
}
m[s[start:end]] = struct{}{}
end = -1
start = -1
break
}
}
}
if start != -1 {
end = len(s)
m[s[start:end]] = struct{}{}
}
return m
}