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matterbridge/vendor/github.com/bwmarrin/discordgo/wsapi.go

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// Discordgo - Discord bindings for Go
// Available at https://github.com/bwmarrin/discordgo
// Copyright 2015-2016 Bruce Marriner <bruce@sqls.net>. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
// This file contains low level functions for interacting with the Discord
// data websocket interface.
package discordgo
import (
"bytes"
"compress/zlib"
"encoding/json"
"errors"
"fmt"
"io"
"net/http"
"runtime"
"time"
"github.com/gorilla/websocket"
)
type resumePacket struct {
Op int `json:"op"`
Data struct {
Token string `json:"token"`
SessionID string `json:"session_id"`
Sequence int `json:"seq"`
} `json:"d"`
}
// Open opens a websocket connection to Discord.
func (s *Session) Open() (err error) {
s.log(LogInformational, "called")
s.Lock()
defer func() {
if err != nil {
s.Unlock()
}
}()
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// A basic state is a hard requirement for Voice.
if s.State == nil {
state := NewState()
state.TrackChannels = false
state.TrackEmojis = false
state.TrackMembers = false
state.TrackRoles = false
state.TrackVoice = false
s.State = state
}
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if s.wsConn != nil {
err = errors.New("Web socket already opened.")
return
}
if s.VoiceConnections == nil {
s.log(LogInformational, "creating new VoiceConnections map")
s.VoiceConnections = make(map[string]*VoiceConnection)
}
// Get the gateway to use for the Websocket connection
if s.gateway == "" {
s.gateway, err = s.Gateway()
if err != nil {
return
}
// Add the version and encoding to the URL
s.gateway = fmt.Sprintf("%s?v=4&encoding=json", s.gateway)
}
header := http.Header{}
header.Add("accept-encoding", "zlib")
s.log(LogInformational, "connecting to gateway %s", s.gateway)
s.wsConn, _, err = websocket.DefaultDialer.Dial(s.gateway, header)
if err != nil {
s.log(LogWarning, "error connecting to gateway %s, %s", s.gateway, err)
s.gateway = "" // clear cached gateway
// TODO: should we add a retry block here?
return
}
if s.sessionID != "" && s.sequence > 0 {
p := resumePacket{}
p.Op = 6
p.Data.Token = s.Token
p.Data.SessionID = s.sessionID
p.Data.Sequence = s.sequence
s.log(LogInformational, "sending resume packet to gateway")
err = s.wsConn.WriteJSON(p)
if err != nil {
s.log(LogWarning, "error sending gateway resume packet, %s, %s", s.gateway, err)
return
}
} else {
err = s.identify()
if err != nil {
s.log(LogWarning, "error sending gateway identify packet, %s, %s", s.gateway, err)
return
}
}
// Create listening outside of listen, as it needs to happen inside the mutex
// lock.
s.listening = make(chan interface{})
go s.listen(s.wsConn, s.listening)
s.Unlock()
s.log(LogInformational, "emit connect event")
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s.handleEvent(connectEventType, &Connect{})
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s.log(LogInformational, "exiting")
return
}
// listen polls the websocket connection for events, it will stop when the
// listening channel is closed, or an error occurs.
func (s *Session) listen(wsConn *websocket.Conn, listening <-chan interface{}) {
s.log(LogInformational, "called")
for {
messageType, message, err := wsConn.ReadMessage()
if err != nil {
// Detect if we have been closed manually. If a Close() has already
// happened, the websocket we are listening on will be different to
// the current session.
s.RLock()
sameConnection := s.wsConn == wsConn
s.RUnlock()
if sameConnection {
s.log(LogWarning, "error reading from gateway %s websocket, %s", s.gateway, err)
// There has been an error reading, close the websocket so that
// OnDisconnect event is emitted.
err := s.Close()
if err != nil {
s.log(LogWarning, "error closing session connection, %s", err)
}
s.log(LogInformational, "calling reconnect() now")
s.reconnect()
}
return
}
select {
case <-listening:
return
default:
s.onEvent(messageType, message)
}
}
}
type heartbeatOp struct {
Op int `json:"op"`
Data int `json:"d"`
}
// heartbeat sends regular heartbeats to Discord so it knows the client
// is still connected. If you do not send these heartbeats Discord will
// disconnect the websocket connection after a few seconds.
func (s *Session) heartbeat(wsConn *websocket.Conn, listening <-chan interface{}, i time.Duration) {
s.log(LogInformational, "called")
if listening == nil || wsConn == nil {
return
}
var err error
ticker := time.NewTicker(i * time.Millisecond)
for {
s.log(LogInformational, "sending gateway websocket heartbeat seq %d", s.sequence)
s.wsMutex.Lock()
err = wsConn.WriteJSON(heartbeatOp{1, s.sequence})
s.wsMutex.Unlock()
if err != nil {
s.log(LogError, "error sending heartbeat to gateway %s, %s", s.gateway, err)
s.Lock()
s.DataReady = false
s.Unlock()
return
}
s.Lock()
s.DataReady = true
s.Unlock()
select {
case <-ticker.C:
// continue loop and send heartbeat
case <-listening:
return
}
}
}
type updateStatusData struct {
IdleSince *int `json:"idle_since"`
Game *Game `json:"game"`
}
type updateStatusOp struct {
Op int `json:"op"`
Data updateStatusData `json:"d"`
}
// UpdateStreamingStatus is used to update the user's streaming status.
// If idle>0 then set status to idle.
// If game!="" then set game.
// If game!="" and url!="" then set the status type to streaming with the URL set.
// if otherwise, set status to active, and no game.
func (s *Session) UpdateStreamingStatus(idle int, game string, url string) (err error) {
s.log(LogInformational, "called")
s.RLock()
defer s.RUnlock()
if s.wsConn == nil {
return errors.New("no websocket connection exists")
}
var usd updateStatusData
if idle > 0 {
usd.IdleSince = &idle
}
if game != "" {
gameType := 0
if url != "" {
gameType = 1
}
usd.Game = &Game{
Name: game,
Type: gameType,
URL: url,
}
}
s.wsMutex.Lock()
err = s.wsConn.WriteJSON(updateStatusOp{3, usd})
s.wsMutex.Unlock()
return
}
// UpdateStatus is used to update the user's status.
// If idle>0 then set status to idle.
// If game!="" then set game.
// if otherwise, set status to active, and no game.
func (s *Session) UpdateStatus(idle int, game string) (err error) {
return s.UpdateStreamingStatus(idle, game, "")
}
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type requestGuildMembersData struct {
GuildID string `json:"guild_id"`
Query string `json:"query"`
Limit int `json:"limit"`
}
type requestGuildMembersOp struct {
Op int `json:"op"`
Data requestGuildMembersData `json:"d"`
}
// RequestGuildMembers requests guild members from the gateway
// The gateway responds with GuildMembersChunk events
// guildID : The ID of the guild to request members of
// query : String that username starts with, leave empty to return all members
// limit : Max number of items to return, or 0 to request all members matched
func (s *Session) RequestGuildMembers(guildID, query string, limit int) (err error) {
s.log(LogInformational, "called")
s.RLock()
defer s.RUnlock()
if s.wsConn == nil {
return errors.New("no websocket connection exists")
}
data := requestGuildMembersData{
GuildID: guildID,
Query: query,
Limit: limit,
}
s.wsMutex.Lock()
err = s.wsConn.WriteJSON(requestGuildMembersOp{8, data})
s.wsMutex.Unlock()
return
}
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// onEvent is the "event handler" for all messages received on the
// Discord Gateway API websocket connection.
//
// If you use the AddHandler() function to register a handler for a
// specific event this function will pass the event along to that handler.
//
// If you use the AddHandler() function to register a handler for the
// "OnEvent" event then all events will be passed to that handler.
//
// TODO: You may also register a custom event handler entirely using...
func (s *Session) onEvent(messageType int, message []byte) {
var err error
var reader io.Reader
reader = bytes.NewBuffer(message)
// If this is a compressed message, uncompress it.
if messageType == websocket.BinaryMessage {
z, err2 := zlib.NewReader(reader)
if err2 != nil {
s.log(LogError, "error uncompressing websocket message, %s", err)
return
}
defer func() {
err3 := z.Close()
if err3 != nil {
s.log(LogWarning, "error closing zlib, %s", err)
}
}()
reader = z
}
// Decode the event into an Event struct.
var e *Event
decoder := json.NewDecoder(reader)
if err = decoder.Decode(&e); err != nil {
s.log(LogError, "error decoding websocket message, %s", err)
return
}
s.log(LogDebug, "Op: %d, Seq: %d, Type: %s, Data: %s\n\n", e.Operation, e.Sequence, e.Type, string(e.RawData))
// Ping request.
// Must respond with a heartbeat packet within 5 seconds
if e.Operation == 1 {
s.log(LogInformational, "sending heartbeat in response to Op1")
s.wsMutex.Lock()
err = s.wsConn.WriteJSON(heartbeatOp{1, s.sequence})
s.wsMutex.Unlock()
if err != nil {
s.log(LogError, "error sending heartbeat in response to Op1")
return
}
return
}
// Reconnect
// Must immediately disconnect from gateway and reconnect to new gateway.
if e.Operation == 7 {
// TODO
}
// Invalid Session
// Must respond with a Identify packet.
if e.Operation == 9 {
s.log(LogInformational, "sending identify packet to gateway in response to Op9")
err = s.identify()
if err != nil {
s.log(LogWarning, "error sending gateway identify packet, %s, %s", s.gateway, err)
return
}
return
}
// Do not try to Dispatch a non-Dispatch Message
if e.Operation != 0 {
// But we probably should be doing something with them.
// TEMP
s.log(LogWarning, "unknown Op: %d, Seq: %d, Type: %s, Data: %s, message: %s", e.Operation, e.Sequence, e.Type, string(e.RawData), string(message))
return
}
// Store the message sequence
s.sequence = e.Sequence
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// Map event to registered event handlers and pass it along to any registered handlers.
if eh, ok := registeredInterfaceProviders[e.Type]; ok {
e.Struct = eh.New()
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// Attempt to unmarshal our event.
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if err = json.Unmarshal(e.RawData, e.Struct); err != nil {
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s.log(LogError, "error unmarshalling %s event, %s", e.Type, err)
}
// Send event to any registered event handlers for it's type.
// Because the above doesn't cancel this, in case of an error
// the struct could be partially populated or at default values.
// However, most errors are due to a single field and I feel
// it's better to pass along what we received than nothing at all.
// TODO: Think about that decision :)
// Either way, READY events must fire, even with errors.
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s.handleEvent(e.Type, e.Struct)
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} else {
s.log(LogWarning, "unknown event: Op: %d, Seq: %d, Type: %s, Data: %s", e.Operation, e.Sequence, e.Type, string(e.RawData))
}
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// For legacy reasons, we send the raw event also, this could be useful for handling unknown events.
s.handleEvent(eventEventType, e)
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}
// ------------------------------------------------------------------------------------------------
// Code related to voice connections that initiate over the data websocket
// ------------------------------------------------------------------------------------------------
type voiceChannelJoinData struct {
GuildID *string `json:"guild_id"`
ChannelID *string `json:"channel_id"`
SelfMute bool `json:"self_mute"`
SelfDeaf bool `json:"self_deaf"`
}
type voiceChannelJoinOp struct {
Op int `json:"op"`
Data voiceChannelJoinData `json:"d"`
}
// ChannelVoiceJoin joins the session user to a voice channel.
//
// gID : Guild ID of the channel to join.
// cID : Channel ID of the channel to join.
// mute : If true, you will be set to muted upon joining.
// deaf : If true, you will be set to deafened upon joining.
func (s *Session) ChannelVoiceJoin(gID, cID string, mute, deaf bool) (voice *VoiceConnection, err error) {
s.log(LogInformational, "called")
voice, _ = s.VoiceConnections[gID]
if voice == nil {
voice = &VoiceConnection{}
s.VoiceConnections[gID] = voice
}
voice.GuildID = gID
voice.ChannelID = cID
voice.deaf = deaf
voice.mute = mute
voice.session = s
// Send the request to Discord that we want to join the voice channel
data := voiceChannelJoinOp{4, voiceChannelJoinData{&gID, &cID, mute, deaf}}
s.wsMutex.Lock()
err = s.wsConn.WriteJSON(data)
s.wsMutex.Unlock()
if err != nil {
return
}
// doesn't exactly work perfect yet.. TODO
err = voice.waitUntilConnected()
if err != nil {
s.log(LogWarning, "error waiting for voice to connect, %s", err)
voice.Close()
return
}
return
}
// onVoiceStateUpdate handles Voice State Update events on the data websocket.
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func (s *Session) onVoiceStateUpdate(st *VoiceStateUpdate) {
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// If we don't have a connection for the channel, don't bother
if st.ChannelID == "" {
return
}
// Check if we have a voice connection to update
voice, exists := s.VoiceConnections[st.GuildID]
if !exists {
return
}
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// We only care about events that are about us.
if s.State.User.ID != st.UserID {
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return
}
// Store the SessionID for later use.
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voice.UserID = st.UserID
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voice.sessionID = st.SessionID
}
// onVoiceServerUpdate handles the Voice Server Update data websocket event.
//
// This is also fired if the Guild's voice region changes while connected
// to a voice channel. In that case, need to re-establish connection to
// the new region endpoint.
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func (s *Session) onVoiceServerUpdate(st *VoiceServerUpdate) {
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s.log(LogInformational, "called")
voice, exists := s.VoiceConnections[st.GuildID]
// If no VoiceConnection exists, just skip this
if !exists {
return
}
// If currently connected to voice ws/udp, then disconnect.
// Has no effect if not connected.
voice.Close()
// Store values for later use
voice.token = st.Token
voice.endpoint = st.Endpoint
voice.GuildID = st.GuildID
// Open a conenction to the voice server
err := voice.open()
if err != nil {
s.log(LogError, "onVoiceServerUpdate voice.open, %s", err)
}
}
type identifyProperties struct {
OS string `json:"$os"`
Browser string `json:"$browser"`
Device string `json:"$device"`
Referer string `json:"$referer"`
ReferringDomain string `json:"$referring_domain"`
}
type identifyData struct {
Token string `json:"token"`
Properties identifyProperties `json:"properties"`
LargeThreshold int `json:"large_threshold"`
Compress bool `json:"compress"`
Shard *[2]int `json:"shard,omitempty"`
}
type identifyOp struct {
Op int `json:"op"`
Data identifyData `json:"d"`
}
// identify sends the identify packet to the gateway
func (s *Session) identify() error {
properties := identifyProperties{runtime.GOOS,
"Discordgo v" + VERSION,
"",
"",
"",
}
data := identifyData{s.Token,
properties,
250,
s.Compress,
nil,
}
if s.ShardCount > 1 {
if s.ShardID >= s.ShardCount {
return errors.New("ShardID must be less than ShardCount")
}
data.Shard = &[2]int{s.ShardID, s.ShardCount}
}
op := identifyOp{2, data}
s.wsMutex.Lock()
err := s.wsConn.WriteJSON(op)
s.wsMutex.Unlock()
if err != nil {
return err
}
return nil
}
func (s *Session) reconnect() {
s.log(LogInformational, "called")
var err error
if s.ShouldReconnectOnError {
wait := time.Duration(1)
for {
s.log(LogInformational, "trying to reconnect to gateway")
err = s.Open()
if err == nil {
s.log(LogInformational, "successfully reconnected to gateway")
// I'm not sure if this is actually needed.
// if the gw reconnect works properly, voice should stay alive
// However, there seems to be cases where something "weird"
// happens. So we're doing this for now just to improve
// stability in those edge cases.
for _, v := range s.VoiceConnections {
s.log(LogInformational, "reconnecting voice connection to guild %s", v.GuildID)
go v.reconnect()
// This is here just to prevent violently spamming the
// voice reconnects
time.Sleep(1 * time.Second)
}
return
}
s.log(LogError, "error reconnecting to gateway, %s", err)
<-time.After(wait * time.Second)
wait *= 2
if wait > 600 {
wait = 600
}
}
}
}
// Close closes a websocket and stops all listening/heartbeat goroutines.
// TODO: Add support for Voice WS/UDP connections
func (s *Session) Close() (err error) {
s.log(LogInformational, "called")
s.Lock()
s.DataReady = false
if s.listening != nil {
s.log(LogInformational, "closing listening channel")
close(s.listening)
s.listening = nil
}
// TODO: Close all active Voice Connections too
// this should force stop any reconnecting voice channels too
if s.wsConn != nil {
s.log(LogInformational, "sending close frame")
// To cleanly close a connection, a client should send a close
// frame and wait for the server to close the connection.
err := s.wsConn.WriteMessage(websocket.CloseMessage, websocket.FormatCloseMessage(websocket.CloseNormalClosure, ""))
if err != nil {
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s.log(LogInformational, "error closing websocket, %s", err)
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}
// TODO: Wait for Discord to actually close the connection.
time.Sleep(1 * time.Second)
s.log(LogInformational, "closing gateway websocket")
err = s.wsConn.Close()
if err != nil {
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s.log(LogInformational, "error closing websocket, %s", err)
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}
s.wsConn = nil
}
s.Unlock()
s.log(LogInformational, "emit disconnect event")
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s.handleEvent(disconnectEventType, &Disconnect{})
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return
}