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arikawa/voice/session.go

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package voice
import (
"context"
"sync"
"time"
"github.com/diamondburned/arikawa/v2/state"
"github.com/diamondburned/arikawa/v2/utils/handler"
"github.com/pkg/errors"
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"github.com/diamondburned/arikawa/v2/discord"
"github.com/diamondburned/arikawa/v2/gateway"
"github.com/diamondburned/arikawa/v2/internal/handleloop"
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"github.com/diamondburned/arikawa/v2/internal/moreatomic"
"github.com/diamondburned/arikawa/v2/session"
"github.com/diamondburned/arikawa/v2/utils/wsutil"
"github.com/diamondburned/arikawa/v2/voice/udp"
"github.com/diamondburned/arikawa/v2/voice/voicegateway"
)
// Protocol is the encryption protocol that this library uses.
const Protocol = "xsalsa20_poly1305"
// ErrAlreadyConnecting is returned when the session is already connecting.
var ErrAlreadyConnecting = errors.New("already connecting")
// ErrCannotSend is an error when audio is sent to a closed channel.
var ErrCannotSend = errors.New("cannot send audio to closed channel")
// WSTimeout is the duration to wait for a gateway operation including Session
// to complete before erroring out. This only applies to functions that don't
// take in a context already.
var WSTimeout = 10 * time.Second
// Session is a single voice session that wraps around the voice gateway and UDP
// connection.
type Session struct {
*handler.Handler
ErrorLog func(err error)
session *session.Session
cancels []func()
looper *handleloop.Loop
// joining determines the behavior of incoming event callbacks (Update).
// If this is true, incoming events will just send into Updated channels. If
// false, events will trigger a reconnection.
joining moreatomic.Bool
incoming chan struct{} // used only when joining == true
mut sync.RWMutex
state voicegateway.State // guarded except UserID
// TODO: expose getters mutex-guarded.
gateway *voicegateway.Gateway
voiceUDP *udp.Connection
}
// NewSession creates a new voice session for the current user.
func NewSession(state *state.State) (*Session, error) {
u, err := state.Me()
if err != nil {
return nil, errors.Wrap(err, "failed to get me")
}
return NewSessionCustom(state.Session, u.ID), nil
}
// NewSessionCustom creates a new voice session from the given session and user
// ID.
func NewSessionCustom(ses *session.Session, userID discord.UserID) *Session {
handler := handler.New()
hlooper := handleloop.NewLoop(handler)
session := &Session{
Handler: handler,
looper: hlooper,
session: ses,
state: voicegateway.State{
UserID: userID,
},
ErrorLog: func(err error) {},
incoming: make(chan struct{}, 2),
}
session.cancels = []func(){
ses.AddHandler(session.updateServer),
ses.AddHandler(session.updateState),
}
return session
}
func (s *Session) updateServer(ev *gateway.VoiceServerUpdateEvent) {
// If this is true, then mutex is acquired already.
if s.joining.Get() {
if s.state.GuildID != ev.GuildID {
return
}
s.state.Endpoint = ev.Endpoint
s.state.Token = ev.Token
s.incoming <- struct{}{}
return
}
s.mut.Lock()
defer s.mut.Unlock()
if s.state.GuildID != ev.GuildID {
return
}
// Reconnect.
s.state.Endpoint = ev.Endpoint
s.state.Token = ev.Token
ctx, cancel := context.WithTimeout(context.Background(), WSTimeout)
defer cancel()
if err := s.reconnectCtx(ctx); err != nil {
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s.ErrorLog(errors.Wrap(err, "failed to reconnect after voice server update"))
}
}
func (s *Session) updateState(ev *gateway.VoiceStateUpdateEvent) {
if s.state.UserID != ev.UserID { // constant so no mutex
// Not our state.
return
}
// If this is true, then mutex is acquired already.
if s.joining.Get() {
if s.state.GuildID != ev.GuildID {
return
}
s.state.SessionID = ev.SessionID
s.state.ChannelID = ev.ChannelID
s.incoming <- struct{}{}
return
}
}
func (s *Session) JoinChannel(gID discord.GuildID, cID discord.ChannelID, mute, deaf bool) error {
ctx, cancel := context.WithTimeout(context.Background(), WSTimeout)
defer cancel()
return s.JoinChannelCtx(ctx, gID, cID, mute, deaf)
}
// JoinChannelCtx joins a voice channel. Callers shouldn't use this method
// directly, but rather Voice's. This method shouldn't ever be called
// concurrently.
func (s *Session) JoinChannelCtx(
ctx context.Context, gID discord.GuildID, cID discord.ChannelID, mute, deaf bool) error {
if s.joining.Get() {
return ErrAlreadyConnecting
}
// Acquire the mutex during join, locking during IO as well.
s.mut.Lock()
defer s.mut.Unlock()
// Set that we're joining.
s.joining.Set(true)
defer s.joining.Set(false) // reset when done
// Ensure gateway and voiceUDP are already closed.
s.ensureClosed()
// Set the state.
s.state.ChannelID = cID
s.state.GuildID = gID
// Ensure that if `cID` is zero that it passes null to the update event.
channelID := discord.NullChannelID
if cID.IsValid() {
channelID = cID
}
// https://discord.com/developers/docs/topics/voice-connections#retrieving-voice-server-information
// Send a Voice State Update event to the gateway.
err := s.session.Gateway.UpdateVoiceStateCtx(ctx, gateway.UpdateVoiceStateData{
GuildID: gID,
ChannelID: channelID,
SelfMute: mute,
SelfDeaf: deaf,
})
if err != nil {
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return errors.Wrap(err, "failed to send Voice State Update event")
}
// Wait for 2 replies. The above command should reply with these 2 events.
if err := s.waitForIncoming(ctx, 2); err != nil {
return errors.Wrap(err, "failed to wait for needed gateway events")
}
// These 2 methods should've updated s.state before sending into these
// channels. Since s.state is already filled, we can go ahead and connect.
return s.reconnectCtx(ctx)
}
func (s *Session) waitForIncoming(ctx context.Context, n int) error {
for i := 0; i < n; i++ {
select {
case <-s.incoming:
continue
case <-ctx.Done():
return ctx.Err()
}
}
return nil
}
// reconnect uses the current state to reconnect to a new gateway and UDP
// connection.
func (s *Session) reconnectCtx(ctx context.Context) (err error) {
wsutil.WSDebug("Sending stop handle.")
s.looper.Stop()
wsutil.WSDebug("Start gateway.")
s.gateway = voicegateway.New(s.state)
// Open the voice gateway. The function will block until Ready is received.
if err := s.gateway.OpenCtx(ctx); err != nil {
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return errors.Wrap(err, "failed to open voice gateway")
}
// Start the handler dispatching
s.looper.Start(s.gateway.Events)
// Get the Ready event.
voiceReady := s.gateway.Ready()
// Prepare the UDP voice connection.
s.voiceUDP, err = udp.DialConnectionCtx(ctx, voiceReady.Addr(), voiceReady.SSRC)
if err != nil {
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return errors.Wrap(err, "failed to open voice UDP connection")
}
// Get the session description from the voice gateway.
d, err := s.gateway.SessionDescriptionCtx(ctx, voicegateway.SelectProtocol{
Protocol: "udp",
Data: voicegateway.SelectProtocolData{
Address: s.voiceUDP.GatewayIP,
Port: s.voiceUDP.GatewayPort,
Mode: Protocol,
},
})
if err != nil {
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return errors.Wrap(err, "failed to select protocol")
}
s.voiceUDP.UseSecret(d.SecretKey)
return nil
}
// Speaking tells Discord we're speaking. This method should not be called
// concurrently.
func (s *Session) Speaking(flag voicegateway.SpeakingFlag) error {
s.mut.RLock()
gateway := s.gateway
s.mut.RUnlock()
return gateway.Speaking(flag)
}
// UseContext tells the UDP voice connection to write with the given context.
func (s *Session) UseContext(ctx context.Context) error {
s.mut.Lock()
defer s.mut.Unlock()
if s.voiceUDP == nil {
return ErrCannotSend
}
return s.voiceUDP.UseContext(ctx)
}
// VoiceUDPConn gets a voice UDP connection. The caller could use this method to
// circumvent the rapid mutex-read-lock acquire inside Write.
func (s *Session) VoiceUDPConn() *udp.Connection {
s.mut.RLock()
defer s.mut.RUnlock()
return s.voiceUDP
}
// Write writes into the UDP voice connection WITHOUT a timeout. Refer to
// WriteCtx for more information.
func (s *Session) Write(b []byte) (int, error) {
return s.WriteCtx(context.Background(), b)
}
// WriteCtx writes into the UDP voice connection with a context for timeout.
// This method is thread safe as far as calling other methods of Session goes;
// HOWEVER it is not thread safe to call Write itself concurrently.
func (s *Session) WriteCtx(ctx context.Context, b []byte) (int, error) {
voiceUDP := s.VoiceUDPConn()
if voiceUDP == nil {
return 0, ErrCannotSend
}
return voiceUDP.WriteCtx(ctx, b)
}
// Leave disconnects the current voice session from the currently connected
// channel.
func (s *Session) Leave() error {
ctx, cancel := context.WithTimeout(context.Background(), WSTimeout)
defer cancel()
return s.LeaveCtx(ctx)
}
// LeaveCtx disconencts with a context. Refer to Leave for more information.
func (s *Session) LeaveCtx(ctx context.Context) error {
s.mut.Lock()
defer s.mut.Unlock()
// If we're already closed.
if s.gateway == nil && s.voiceUDP == nil {
return nil
}
s.looper.Stop()
// Notify Discord that we're leaving. This will send a
// VoiceStateUpdateEvent, in which our handler will promptly remove the
// session from the map.
err := s.session.Gateway.UpdateVoiceStateCtx(ctx, gateway.UpdateVoiceStateData{
GuildID: s.state.GuildID,
ChannelID: discord.ChannelID(discord.NullSnowflake),
SelfMute: true,
SelfDeaf: true,
})
s.ensureClosed()
// wrap returns nil if err is nil
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return errors.Wrap(err, "failed to update voice state")
}
// close ensures everything is closed. It does not acquire the mutex.
func (s *Session) ensureClosed() {
s.looper.Stop()
// Disconnect the UDP connection.
if s.voiceUDP != nil {
s.voiceUDP.Close()
s.voiceUDP = nil
}
// Disconnect the voice gateway, ignoring the error.
if s.gateway != nil {
if err := s.gateway.Close(); err != nil {
wsutil.WSDebug("Uncaught voice gateway close error:", err)
}
s.gateway = nil
}
}
// ReadPacket reads a single packet from the UDP connection. This is NOT at all
// thread safe, and must be used very carefully. The backing buffer is always
// reused.
func (s *Session) ReadPacket() (*udp.Packet, error) {
return s.voiceUDP.ReadPacket()
}