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matterbridge/vendor/github.com/mattermost/mattermost-server/v6/model/websocket_client.go

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// Copyright (c) 2015-present Mattermost, Inc. All Rights Reserved.
// See LICENSE.txt for license information.
package model
import (
"bytes"
"encoding/json"
"fmt"
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"net/http"
"sync/atomic"
"time"
"github.com/mattermost/mattermost-server/v6/shared/mlog"
"github.com/gorilla/websocket"
"github.com/vmihailenco/msgpack/v5"
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)
const (
SocketMaxMessageSizeKb = 8 * 1024 // 8KB
PingTimeoutBufferSeconds = 5
)
type msgType int
const (
msgTypeJSON msgType = iota + 1
msgTypePong
msgTypeBinary
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)
type writeMessage struct {
msgType msgType
data interface{}
}
const avgReadMsgSizeBytes = 1024
// WebSocketClient stores the necessary information required to
// communicate with a WebSocket endpoint.
// A client must read from PingTimeoutChannel, EventChannel and ResponseChannel to prevent
// deadlocks from occurring in the program.
type WebSocketClient struct {
URL string // The location of the server like "ws://localhost:8065"
APIURL string // The API location of the server like "ws://localhost:8065/api/v3"
ConnectURL string // The WebSocket URL to connect to like "ws://localhost:8065/api/v3/path/to/websocket"
Conn *websocket.Conn // The WebSocket connection
AuthToken string // The token used to open the WebSocket connection
Sequence int64 // The ever-incrementing sequence attached to each WebSocket action
PingTimeoutChannel chan bool // The channel used to signal ping timeouts
EventChannel chan *WebSocketEvent // The channel used to receive various events pushed from the server. For example: typing, posted
ResponseChannel chan *WebSocketResponse // The channel used to receive responses for requests made to the server
ListenError *AppError // A field that is set if there was an abnormal closure of the WebSocket connection
writeChan chan writeMessage
pingTimeoutTimer *time.Timer
quitPingWatchdog chan struct{}
quitWriterChan chan struct{}
resetTimerChan chan struct{}
closed int32
}
// NewWebSocketClient constructs a new WebSocket client with convenience
// methods for talking to the server.
func NewWebSocketClient(url, authToken string) (*WebSocketClient, error) {
return NewWebSocketClientWithDialer(websocket.DefaultDialer, url, authToken)
}
func NewReliableWebSocketClientWithDialer(dialer *websocket.Dialer, url, authToken, connID string, seqNo int, withAuthHeader bool) (*WebSocketClient, error) {
connectURL := url + APIURLSuffix + "/websocket" + fmt.Sprintf("?connection_id=%s&sequence_number=%d", connID, seqNo)
var header http.Header
if withAuthHeader {
header = http.Header{
"Authorization": []string{"Bearer " + authToken},
}
}
return makeClient(dialer, url, connectURL, authToken, header)
}
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// NewWebSocketClientWithDialer constructs a new WebSocket client with convenience
// methods for talking to the server using a custom dialer.
func NewWebSocketClientWithDialer(dialer *websocket.Dialer, url, authToken string) (*WebSocketClient, error) {
return makeClient(dialer, url, url+APIURLSuffix+"/websocket", authToken, nil)
}
func makeClient(dialer *websocket.Dialer, url, connectURL, authToken string, header http.Header) (*WebSocketClient, error) {
conn, _, err := dialer.Dial(connectURL, header)
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if err != nil {
return nil, NewAppError("NewWebSocketClient", "model.websocket_client.connect_fail.app_error", nil, err.Error(), http.StatusInternalServerError)
}
client := &WebSocketClient{
URL: url,
APIURL: url + APIURLSuffix,
ConnectURL: connectURL,
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Conn: conn,
AuthToken: authToken,
Sequence: 1,
PingTimeoutChannel: make(chan bool, 1),
EventChannel: make(chan *WebSocketEvent, 100),
ResponseChannel: make(chan *WebSocketResponse, 100),
writeChan: make(chan writeMessage),
quitPingWatchdog: make(chan struct{}),
quitWriterChan: make(chan struct{}),
resetTimerChan: make(chan struct{}),
}
client.configurePingHandling()
go client.writer()
client.SendMessage(WebsocketAuthenticationChallenge, map[string]interface{}{"token": authToken})
return client, nil
}
// NewWebSocketClient4 constructs a new WebSocket client with convenience
// methods for talking to the server. Uses the v4 endpoint.
func NewWebSocketClient4(url, authToken string) (*WebSocketClient, error) {
return NewWebSocketClient4WithDialer(websocket.DefaultDialer, url, authToken)
}
// NewWebSocketClient4WithDialer constructs a new WebSocket client with convenience
// methods for talking to the server using a custom dialer. Uses the v4 endpoint.
func NewWebSocketClient4WithDialer(dialer *websocket.Dialer, url, authToken string) (*WebSocketClient, error) {
return NewWebSocketClientWithDialer(dialer, url, authToken)
}
// Connect creates a websocket connection with the given ConnectURL.
// This is racy and error-prone should not be used. Use any of the New* functions to create a websocket.
func (wsc *WebSocketClient) Connect() *AppError {
return wsc.ConnectWithDialer(websocket.DefaultDialer)
}
// ConnectWithDialer creates a websocket connection with the given ConnectURL using the dialer.
// This is racy and error-prone and should not be used. Use any of the New* functions to create a websocket.
func (wsc *WebSocketClient) ConnectWithDialer(dialer *websocket.Dialer) *AppError {
var err error
wsc.Conn, _, err = dialer.Dial(wsc.ConnectURL, nil)
if err != nil {
return NewAppError("Connect", "model.websocket_client.connect_fail.app_error", nil, err.Error(), http.StatusInternalServerError)
}
// Super racy and should not be done anyways.
// All of this needs to be redesigned for v6.
wsc.configurePingHandling()
// If it has been closed before, we just restart the writer.
if atomic.CompareAndSwapInt32(&wsc.closed, 1, 0) {
wsc.writeChan = make(chan writeMessage)
wsc.quitWriterChan = make(chan struct{})
go wsc.writer()
wsc.resetTimerChan = make(chan struct{})
wsc.quitPingWatchdog = make(chan struct{})
}
wsc.EventChannel = make(chan *WebSocketEvent, 100)
wsc.ResponseChannel = make(chan *WebSocketResponse, 100)
wsc.SendMessage(WebsocketAuthenticationChallenge, map[string]interface{}{"token": wsc.AuthToken})
return nil
}
// Close closes the websocket client. It is recommended that a closed client should not be
// reused again. Rather a new client should be created anew.
func (wsc *WebSocketClient) Close() {
// CAS to 1 and proceed. Return if already 1.
if !atomic.CompareAndSwapInt32(&wsc.closed, 0, 1) {
return
}
wsc.quitWriterChan <- struct{}{}
close(wsc.writeChan)
// We close the connection, which breaks the reader loop.
// Then we let the defer block in the reader do further cleanup.
wsc.Conn.Close()
}
// TODO: un-export the Conn so that Write methods go through the writer
func (wsc *WebSocketClient) writer() {
for {
select {
case msg := <-wsc.writeChan:
switch msg.msgType {
case msgTypeJSON:
wsc.Conn.WriteJSON(msg.data)
case msgTypeBinary:
if data, ok := msg.data.([]byte); ok {
wsc.Conn.WriteMessage(websocket.BinaryMessage, data)
}
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case msgTypePong:
wsc.Conn.WriteMessage(websocket.PongMessage, []byte{})
}
case <-wsc.quitWriterChan:
return
}
}
}
// Listen starts the read loop of the websocket client.
func (wsc *WebSocketClient) Listen() {
// This loop can exit in 2 conditions:
// 1. Either the connection breaks naturally.
// 2. Close was explicitly called, which closes the connection manually.
//
// Due to the way the API is written, there is a requirement that a client may NOT
// call Listen at all and can still call Close and Connect.
// Therefore, we let the cleanup of the reader stuff rely on closing the connection
// and then we do the cleanup in the defer block.
//
// First, we close some channels and then CAS to 1 and proceed to close the writer chan also.
// This is needed because then the defer clause does not double-close the writer when (2) happens.
// But if (1) happens, we set the closed bit, and close the rest of the stuff.
go func() {
defer func() {
close(wsc.EventChannel)
close(wsc.ResponseChannel)
close(wsc.quitPingWatchdog)
close(wsc.resetTimerChan)
// We CAS to 1 and proceed.
if !atomic.CompareAndSwapInt32(&wsc.closed, 0, 1) {
return
}
wsc.quitWriterChan <- struct{}{}
close(wsc.writeChan)
wsc.Conn.Close() // This can most likely be removed. Needs to be checked.
}()
var buf bytes.Buffer
buf.Grow(avgReadMsgSizeBytes)
for {
// Reset buffer.
buf.Reset()
_, r, err := wsc.Conn.NextReader()
if err != nil {
if !websocket.IsCloseError(err, websocket.CloseNormalClosure, websocket.CloseNoStatusReceived) {
wsc.ListenError = NewAppError("NewWebSocketClient", "model.websocket_client.connect_fail.app_error", nil, err.Error(), http.StatusInternalServerError)
}
return
}
// Use pre-allocated buffer.
_, err = buf.ReadFrom(r)
if err != nil {
// This should use a different error ID, but en.json is not imported anyways.
// It's a different bug altogether but we let it be for now.
// See MM-24520.
wsc.ListenError = NewAppError("NewWebSocketClient", "model.websocket_client.connect_fail.app_error", nil, err.Error(), http.StatusInternalServerError)
return
}
event, jsonErr := WebSocketEventFromJSON(bytes.NewReader(buf.Bytes()))
if jsonErr != nil {
mlog.Warn("Failed to decode from JSON", mlog.Err(jsonErr))
continue
}
if event.IsValid() {
wsc.EventChannel <- event
continue
}
var response WebSocketResponse
if err := json.Unmarshal(buf.Bytes(), &response); err == nil && response.IsValid() {
wsc.ResponseChannel <- &response
continue
}
}
}()
}
func (wsc *WebSocketClient) SendMessage(action string, data map[string]interface{}) {
req := &WebSocketRequest{}
req.Seq = wsc.Sequence
req.Action = action
req.Data = data
wsc.Sequence++
wsc.writeChan <- writeMessage{
msgType: msgTypeJSON,
data: req,
}
}
func (wsc *WebSocketClient) SendBinaryMessage(action string, data map[string]interface{}) error {
req := &WebSocketRequest{}
req.Seq = wsc.Sequence
req.Action = action
req.Data = data
binaryData, err := msgpack.Marshal(req)
if err != nil {
return fmt.Errorf("failed to marshal request to msgpack: %w", err)
}
wsc.Sequence++
wsc.writeChan <- writeMessage{
msgType: msgTypeBinary,
data: binaryData,
}
return nil
}
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// UserTyping will push a user_typing event out to all connected users
// who are in the specified channel
func (wsc *WebSocketClient) UserTyping(channelId, parentId string) {
data := map[string]interface{}{
"channel_id": channelId,
"parent_id": parentId,
}
wsc.SendMessage("user_typing", data)
}
// GetStatuses will return a map of string statuses using user id as the key
func (wsc *WebSocketClient) GetStatuses() {
wsc.SendMessage("get_statuses", nil)
}
// GetStatusesByIds will fetch certain user statuses based on ids and return
// a map of string statuses using user id as the key
func (wsc *WebSocketClient) GetStatusesByIds(userIds []string) {
data := map[string]interface{}{
"user_ids": userIds,
}
wsc.SendMessage("get_statuses_by_ids", data)
}
func (wsc *WebSocketClient) configurePingHandling() {
wsc.Conn.SetPingHandler(wsc.pingHandler)
wsc.pingTimeoutTimer = time.NewTimer(time.Second * (60 + PingTimeoutBufferSeconds))
go wsc.pingWatchdog()
}
func (wsc *WebSocketClient) pingHandler(appData string) error {
if atomic.LoadInt32(&wsc.closed) == 1 {
return nil
}
wsc.resetTimerChan <- struct{}{}
wsc.writeChan <- writeMessage{
msgType: msgTypePong,
}
return nil
}
// pingWatchdog is used to send values to the PingTimeoutChannel whenever a timeout occurs.
// We use the resetTimerChan from the pingHandler to pass the signal, and then reset the timer
// after draining it. And if the timer naturally expires, we also extend it to prevent it from
// being deadlocked when the resetTimerChan case runs. Because timer.Stop would return false,
// and the code would be forever stuck trying to read from C.
func (wsc *WebSocketClient) pingWatchdog() {
for {
select {
case <-wsc.resetTimerChan:
if !wsc.pingTimeoutTimer.Stop() {
<-wsc.pingTimeoutTimer.C
}
wsc.pingTimeoutTimer.Reset(time.Second * (60 + PingTimeoutBufferSeconds))
case <-wsc.pingTimeoutTimer.C:
wsc.PingTimeoutChannel <- true
wsc.pingTimeoutTimer.Reset(time.Second * (60 + PingTimeoutBufferSeconds))
case <-wsc.quitPingWatchdog:
return
}
}
}