def test_emitter_sequential():
emitter = Emitter()
class TestEvent(object):
pass
def handler_contained(event):
time.sleep(random.randint(1, 100) / 100)
event.value += 1
event.order.append(event.value)
if event.value == 3:
event.result.set()
event = TestEvent()
event.order = []
event.value = 0
event.result = AsyncResult()
emitter.on('test', handler_contained, priority=Priority.SEQUENTIAL)
emitter.emit('test', event)
emitter.emit('test', event)
emitter.emit('test', event)
event.result.wait()
assert event.order == [1, 2, 3]
assert event.value == 3
def test_emitter_before():
emitter = Emitter()
class TestEvent(object):
pass
def handler_before(event):
time.sleep(1)
event.value = 1
def handler_default(event):
event.result.set(event.value)
event = TestEvent()
event.result = AsyncResult()
emitter.on('test', handler_before, priority=Priority.BEFORE)
emitter.on('test', handler_default)
emitter.emit('test', event)
assert event.result.wait() == 1
class VoiceClient(LoggingClass):
def __init__(self, channel, encoder=None):
super(VoiceClient, self).__init__()
if not channel.is_voice:
raise ValueError(
'Cannot spawn a VoiceClient for a non-voice channel')
self.channel = channel
self.client = self.channel.client
self.encoder = encoder or JSONEncoder
# Bind to some WS packets
self.packets = Emitter(gevent.spawn)
self.packets.on(VoiceOPCode.READY, self.on_voice_ready)
self.packets.on(VoiceOPCode.SESSION_DESCRIPTION, self.on_voice_sdp)
# State + state change emitter
self.state = VoiceState.DISCONNECTED
self.state_emitter = Emitter(gevent.spawn)
# Connection metadata
self.token = None
self.endpoint = None
self.ssrc = None
self.port = None
self.secret_box = None
self.udp = None
# Voice data state
self.sequence = 0
self.timestamp = 0
self.update_listener = None
# Websocket connection
self.ws = None
self.heartbeat_task = None
def __repr__(self):
return u'<VoiceClient {}>'.format(self.channel)
def set_state(self, state):
self.log.debug('[%s] state %s -> %s', self, self.state, state)
prev_state = self.state
self.state = state
self.state_emitter.emit(state, prev_state)
def heartbeat(self, interval):
while True:
self.send(VoiceOPCode.HEARTBEAT, time.time() * 1000)
gevent.sleep(interval / 1000)
def set_speaking(self, value):
self.send(VoiceOPCode.SPEAKING, {
'speaking': value,
'delay': 0,
})
def send(self, op, data):
self.log.debug('[%s] sending OP %s (data = %s)', self, op, data)
self.ws.send(self.encoder.encode({
'op': op.value,
'd': data,
}), self.encoder.OPCODE)
def on_voice_ready(self, data):
self.log.info(
'[%s] Recived Voice READY payload, attempting to negotiate voice connection w/ remote',
self)
self.set_state(VoiceState.CONNECTING)
self.ssrc = data['ssrc']
self.port = data['port']
self.heartbeat_task = gevent.spawn(self.heartbeat,
data['heartbeat_interval'])
self.log.debug('[%s] Attempting IP discovery over UDP to %s:%s', self,
self.endpoint, self.port)
self.udp = UDPVoiceClient(self)
ip, port = self.udp.connect(self.endpoint, self.port)
if not ip:
self.log.error(
'Failed to discover our IP, perhaps a NAT or firewall is f*****g us'
)
self.disconnect()
return
self.log.debug(
'[%s] IP discovery completed (ip = %s, port = %s), sending SELECT_PROTOCOL',
self, ip, port)
self.send(
VoiceOPCode.SELECT_PROTOCOL, {
'protocol': 'udp',
'data': {
'port': port,
'address': ip,
'mode': 'xsalsa20_poly1305'
}
})
def on_voice_sdp(self, sdp):
self.log.info(
'[%s] Recieved session description, connection completed', self)
# Create a secret box for encryption/decryption
self.secret_box = nacl.secret.SecretBox(
bytes(bytearray(sdp['secret_key'])))
# Toggle speaking state so clients learn of our SSRC
self.set_speaking(True)
self.set_speaking(False)
gevent.sleep(0.25)
self.set_state(VoiceState.CONNECTED)
def on_voice_server_update(self, data):
if self.channel.guild_id != data.guild_id or not data.token:
return
if self.token and self.token != data.token:
return
self.log.info('[%s] Recieved VOICE_SERVER_UPDATE (state = %s)', self,
self.state)
self.token = data.token
self.set_state(VoiceState.AUTHENTICATING)
self.endpoint = data.endpoint.split(':', 1)[0]
self.ws = Websocket('wss://' + self.endpoint)
self.ws.emitter.on('on_open', self.on_open)
self.ws.emitter.on('on_error', self.on_error)
self.ws.emitter.on('on_close', self.on_close)
self.ws.emitter.on('on_message', self.on_message)
self.ws.run_forever()
def on_message(self, msg):
try:
data = self.encoder.decode(msg)
self.packets.emit(VoiceOPCode[data['op']], data['d'])
except:
self.log.exception('Failed to parse voice gateway message: ')
def on_error(self, err):
# TODO: raise an exception here
self.log.error('[%s] Voice websocket error: %s', self, err)
def on_open(self):
self.send(
VoiceOPCode.IDENTIFY, {
'server_id': self.channel.guild_id,
'user_id': self.client.state.me.id,
'session_id': self.client.gw.session_id,
'token': self.token
})
def on_close(self, code, error):
self.log.warning('[%s] Voice websocket disconnected (%s, %s)', self,
code, error)
if self.state == VoiceState.CONNECTED:
self.log.info('Attempting voice reconnection')
self.connect()
def connect(self, timeout=5, mute=False, deaf=False):
self.log.debug('[%s] Attempting connection', self)
self.set_state(VoiceState.AWAITING_ENDPOINT)
self.update_listener = self.client.events.on(
'VoiceServerUpdate', self.on_voice_server_update)
self.client.gw.send(
OPCode.VOICE_STATE_UPDATE, {
'self_mute': mute,
'self_deaf': deaf,
'guild_id': int(self.channel.guild_id),
'channel_id': int(self.channel.id),
})
if not self.state_emitter.once(VoiceState.CONNECTED, timeout=timeout):
raise VoiceException('Failed to connect to voice', self)
def disconnect(self):
self.log.debug('[%s] disconnect called', self)
self.set_state(VoiceState.DISCONNECTED)
if self.heartbeat_task:
self.heartbeat_task.kill()
self.heartbeat_task = None
if self.ws and self.ws.sock.connected:
self.ws.close()
if self.udp and self.udp.connected:
self.udp.disconnect()
self.client.gw.send(
OPCode.VOICE_STATE_UPDATE, {
'self_mute': False,
'self_deaf': False,
'guild_id': int(self.channel.guild_id),
'channel_id': None,
})
def send_frame(self, *args, **kwargs):
self.udp.send_frame(*args, **kwargs)
class VoiceClient(LoggingClass):
VOICE_GATEWAY_VERSION = 3
SUPPORTED_MODES = {
'xsalsa20_poly1305_lite',
'xsalsa20_poly1305_suffix',
'xsalsa20_poly1305',
}
def __init__(self, channel, encoder=None, max_reconnects=5):
super(VoiceClient, self).__init__()
if not channel.is_voice:
raise ValueError(
'Cannot spawn a VoiceClient for a non-voice channel')
self.channel = channel
self.client = self.channel.client
self.encoder = encoder or JSONEncoder
self.max_reconnects = max_reconnects
# Bind to some WS packets
self.packets = Emitter()
self.packets.on(VoiceOPCode.HELLO, self.on_voice_hello)
self.packets.on(VoiceOPCode.READY, self.on_voice_ready)
self.packets.on(VoiceOPCode.RESUMED, self.on_voice_resumed)
self.packets.on(VoiceOPCode.SESSION_DESCRIPTION, self.on_voice_sdp)
# State + state change emitter
self.state = VoiceState.DISCONNECTED
self.state_emitter = Emitter()
# Connection metadata
self.token = None
self.endpoint = None
self.ssrc = None
self.port = None
self.mode = None
self.udp = None
# Websocket connection
self.ws = None
self._session_id = None
self._reconnects = 0
self._update_listener = None
self._heartbeat_task = None
def __repr__(self):
return u'<VoiceClient {}>'.format(self.channel)
def set_state(self, state):
self.log.debug('[%s] state %s -> %s', self, self.state, state)
prev_state = self.state
self.state = state
self.state_emitter.emit(state, prev_state)
def _connect_and_run(self):
self.ws = Websocket('wss://' + self.endpoint +
'/v={}'.format(self.VOICE_GATEWAY_VERSION))
self.ws.emitter.on('on_open', self.on_open)
self.ws.emitter.on('on_error', self.on_error)
self.ws.emitter.on('on_close', self.on_close)
self.ws.emitter.on('on_message', self.on_message)
self.ws.run_forever()
def _heartbeat(self, interval):
while True:
self.send(VoiceOPCode.HEARTBEAT, time.time())
gevent.sleep(interval / 1000)
def set_speaking(self, value):
self.send(VoiceOPCode.SPEAKING, {
'speaking': value,
'delay': 0,
})
def send(self, op, data):
self.log.debug('[%s] sending OP %s (data = %s)', self, op, data)
self.ws.send(self.encoder.encode({
'op': op.value,
'd': data,
}), self.encoder.OPCODE)
def on_voice_hello(self, data):
self.log.info(
'[%s] Recieved Voice HELLO payload, starting heartbeater', self)
self._heartbeat_task = gevent.spawn(self._heartbeat,
data['heartbeat_interval'] * 0.75)
self.set_state(VoiceState.AUTHENTICATED)
def on_voice_ready(self, data):
self.log.info(
'[%s] Recived Voice READY payload, attempting to negotiate voice connection w/ remote',
self)
self.set_state(VoiceState.CONNECTING)
self.ssrc = data['ssrc']
self.port = data['port']
for mode in self.SUPPORTED_MODES:
if mode in data['modes']:
self.mode = mode
self.log.debug('[%s] Selected mode %s', self, mode)
break
else:
raise Exception('Failed to find a supported voice mode')
self.log.debug('[%s] Attempting IP discovery over UDP to %s:%s', self,
self.endpoint, self.port)
self.udp = UDPVoiceClient(self)
ip, port = self.udp.connect(self.endpoint, self.port)
if not ip:
self.log.error(
'Failed to discover our IP, perhaps a NAT or firewall is f*****g us'
)
self.disconnect()
return
self.log.debug(
'[%s] IP discovery completed (ip = %s, port = %s), sending SELECT_PROTOCOL',
self, ip, port)
self.send(
VoiceOPCode.SELECT_PROTOCOL, {
'protocol': 'udp',
'data': {
'port': port,
'address': ip,
'mode': self.mode,
},
})
def on_voice_resumed(self, data):
self.log.info('[%s] Recieved resumed', self)
self.set_state(VoiceState.CONNECTED)
def on_voice_sdp(self, sdp):
self.log.info(
'[%s] Recieved session description, connection completed', self)
# Create a secret box for encryption/decryption
self.udp.setup_encryption(bytes(bytearray(sdp['secret_key'])))
# Toggle speaking state so clients learn of our SSRC
self.set_speaking(True)
self.set_speaking(False)
gevent.sleep(0.25)
self.set_state(VoiceState.CONNECTED)
def on_voice_server_update(self, data):
if self.channel.guild_id != data.guild_id or not data.token:
return
if self.token and self.token != data.token:
return
self.log.info(
'[%s] Recieved VOICE_SERVER_UPDATE (state = %s / endpoint = %s)',
self, self.state, data.endpoint)
self.token = data.token
self.set_state(VoiceState.AUTHENTICATING)
self.endpoint = data.endpoint.split(':', 1)[0]
self._connect_and_run()
def on_message(self, msg):
try:
data = self.encoder.decode(msg)
self.packets.emit(VoiceOPCode[data['op']], data['d'])
except Exception:
self.log.exception('Failed to parse voice gateway message: ')
def on_error(self, err):
self.log.error('[%s] Voice websocket error: %s', self, err)
def on_open(self):
if self._session_id:
return self.send(
VoiceOPCode.RESUME, {
'server_id': self.channel.guild_id,
'user_id': self.client.state.me.id,
'session_id': self._session_id,
'token': self.token,
})
self._session_id = self.client.gw.session_id
self.send(
VoiceOPCode.IDENTIFY, {
'server_id': self.channel.guild_id,
'user_id': self.client.state.me.id,
'session_id': self._session_id,
'token': self.token,
})
def on_close(self, code, reason):
self.log.warning('[%s] Voice websocket closed: [%s] %s (%s)', self,
code, reason, self._reconnects)
if self._heartbeat_task:
self._heartbeat_task.kill()
# If we're not in a connected state, don't try to resume/reconnect
if self.state != VoiceState.CONNECTED:
return
self.log.info('[%s] Attempting Websocket Resumption', self)
self._reconnects += 1
if self.max_reconnects and self._reconnects > self.max_reconnects:
raise VoiceException(
'Failed to reconnect after {} attempts, giving up'.format(
self.max_reconnects))
self.set_state(VoiceState.RECONNECTING)
# Don't resume for these error codes:
if code and 4000 <= code <= 4016:
self._session_id = None
if self.udp and self.udp.connected:
self.udp.disconnect()
wait_time = (self._reconnects - 1) * 5
self.log.info('[%s] Will attempt to %s after %s seconds', self,
'resume' if self._session_id else 'reconnect', wait_time)
gevent.sleep(wait_time)
self._connect_and_run()
def connect(self, timeout=5, mute=False, deaf=False):
self.log.debug('[%s] Attempting connection', self)
self.set_state(VoiceState.AWAITING_ENDPOINT)
self._update_listener = self.client.events.on(
'VoiceServerUpdate', self.on_voice_server_update)
self.client.gw.send(
OPCode.VOICE_STATE_UPDATE, {
'self_mute': mute,
'self_deaf': deaf,
'guild_id': int(self.channel.guild_id),
'channel_id': int(self.channel.id),
})
if not self.state_emitter.once(VoiceState.CONNECTED, timeout=timeout):
self.disconnect()
raise VoiceException('Failed to connect to voice', self)
def disconnect(self):
self.log.debug('[%s] disconnect called', self)
self.set_state(VoiceState.DISCONNECTED)
if self._heartbeat_task:
self._heartbeat_task.kill()
self._heartbeat_task = None
if self.ws and self.ws.sock and self.ws.sock.connected:
self.ws.close()
if self.udp and self.udp.connected:
self.udp.disconnect()
self.client.gw.send(
OPCode.VOICE_STATE_UPDATE, {
'self_mute': False,
'self_deaf': False,
'guild_id': int(self.channel.guild_id),
'channel_id': None,
})
def send_frame(self, *args, **kwargs):
self.udp.send_frame(*args, **kwargs)
def increment_timestamp(self, *args, **kwargs):
self.udp.increment_timestamp(*args, **kwargs)
class VoiceClient(LoggingClass):
def __init__(self, channel, encoder=None):
super(VoiceClient, self).__init__()
assert channel.is_voice, 'Cannot spawn a VoiceClient for a non-voice channel'
self.channel = channel
self.client = self.channel.client
self.encoder = encoder or JSONEncoder
self.packets = Emitter(gevent.spawn)
self.packets.on(VoiceOPCode.READY, self.on_voice_ready)
self.packets.on(VoiceOPCode.SESSION_DESCRIPTION, self.on_voice_sdp)
# State
self.state = VoiceState.DISCONNECTED
self.connected = gevent.event.Event()
self.token = None
self.endpoint = None
self.ssrc = None
self.port = None
self.update_listener = None
# Websocket connection
self.ws = None
self.heartbeat_task = None
def heartbeat(self, interval):
while True:
self.send(VoiceOPCode.HEARTBEAT, time.time() * 1000)
gevent.sleep(interval / 1000)
def set_speaking(self, value):
self.send(VoiceOPCode.SPEAKING, {
'speaking': value,
'delay': 0,
})
def send(self, op, data):
self.ws.send(self.encoder.encode({
'op': op.value,
'd': data,
}), self.encoder.OPCODE)
def on_voice_ready(self, data):
self.state = VoiceState.CONNECTING
self.ssrc = data['ssrc']
self.port = data['port']
self.heartbeat_task = gevent.spawn(self.heartbeat,
data['heartbeat_interval'])
self.udp = UDPVoiceClient(self)
ip, port = self.udp.connect(self.endpoint, self.port)
if not ip:
self.disconnect()
return
self.send(
VoiceOPCode.SELECT_PROTOCOL, {
'protocol': 'udp',
'data': {
'port': port,
'address': ip,
'mode': 'plain'
}
})
def on_voice_sdp(self, data):
# Toggle speaking state so clients learn of our SSRC
self.set_speaking(True)
self.set_speaking(False)
gevent.sleep(0.25)
self.state = VoiceState.CONNECTED
self.connected.set()
def on_voice_server_update(self, data):
if self.channel.guild_id != data.guild_id or not data.token:
return
if self.token and self.token != data.token:
return
self.token = data.token
self.state = VoiceState.AUTHENTICATING
self.endpoint = data.endpoint.split(':', 1)[0]
self.ws = Websocket(
'wss://' + self.endpoint,
on_message=self.on_message,
on_error=self.on_error,
on_open=self.on_open,
on_close=self.on_close,
)
self.ws.run_forever()
def on_message(self, ws, msg):
try:
data = self.encoder.decode(msg)
except:
self.log.exception('Failed to parse voice gateway message: ')
self.packets.emit(VoiceOPCode[data['op']], data['d'])
def on_error(self, ws, err):
# TODO
self.log.warning('Voice websocket error: {}'.format(err))
def on_open(self, ws):
self.send(
VoiceOPCode.IDENTIFY, {
'server_id': self.channel.guild_id,
'user_id': self.client.state.me.id,
'session_id': self.client.gw.session_id,
'token': self.token
})
def on_close(self, ws, code, error):
# TODO
self.log.warning('Voice websocket disconnected (%s, %s)', code, error)
def connect(self, timeout=5, mute=False, deaf=False):
self.state = VoiceState.AWAITING_ENDPOINT
self.update_listener = self.client.events.on(
'VoiceServerUpdate', self.on_voice_server_update)
self.client.gw.send(
OPCode.VOICE_STATE_UPDATE, {
'self_mute': mute,
'self_deaf': deaf,
'guild_id': int(self.channel.guild_id),
'channel_id': int(self.channel.id),
})
if not self.connected.wait(
timeout) or self.state != VoiceState.CONNECTED:
raise VoiceException('Failed to connect to voice', self)
def disconnect(self):
self.state = VoiceState.DISCONNECTED
if self.heartbeat_task:
self.heartbeat_task.kill()
self.heartbeat_task = None
if self.ws and self.ws.sock.connected:
self.ws.close()
if self.udp and self.udp.connected:
self.udp.disconnect()
self.client.gw.send(
OPCode.VOICE_STATE_UPDATE, {
'self_mute': False,
'self_deaf': False,
'guild_id': int(self.channel.guild_id),
'channel_id': None,
})
class VoiceClient(LoggingClass):
VOICE_GATEWAY_VERSION = 4
SUPPORTED_MODES = {
'xsalsa20_poly1305_lite',
'xsalsa20_poly1305_suffix',
'xsalsa20_poly1305',
}
def __init__(self,
client,
server_id,
is_dm=False,
encoder=None,
max_reconnects=5):
super(VoiceClient, self).__init__()
self.client = client
self.server_id = server_id
self.channel_id = None
self.is_dm = is_dm
self.encoder = encoder or JSONEncoder
self.max_reconnects = max_reconnects
self.video_enabled = False
# Set the VoiceClient in the state's voice clients
self.client.state.voice_clients[self.server_id] = self
# Bind to some WS packets
self.packets = Emitter()
self.packets.on(VoiceOPCode.HELLO, self.on_voice_hello)
self.packets.on(VoiceOPCode.READY, self.on_voice_ready)
self.packets.on(VoiceOPCode.RESUMED, self.on_voice_resumed)
self.packets.on(VoiceOPCode.SESSION_DESCRIPTION, self.on_voice_sdp)
self.packets.on(VoiceOPCode.SPEAKING, self.on_voice_speaking)
self.packets.on(VoiceOPCode.CLIENT_CONNECT,
self.on_voice_client_connect)
self.packets.on(VoiceOPCode.CLIENT_DISCONNECT,
self.on_voice_client_disconnect)
self.packets.on(VoiceOPCode.CODECS, self.on_voice_codecs)
# State + state change emitter
self.state = VoiceState.DISCONNECTED
self.state_emitter = Emitter()
# Connection metadata
self.token = None
self.endpoint = None
self.ssrc = None
self.ip = None
self.port = None
self.mode = None
self.udp = None
self.audio_codec = None
self.video_codec = None
self.transport_id = None
# Websocket connection
self.ws = None
self._session_id = self.client.gw.session_id
self._reconnects = 0
self._heartbeat_task = None
self._identified = False
# SSRCs
self.audio_ssrcs = {}
def __repr__(self):
return u'<VoiceClient {}>'.format(self.server_id)
@cached_property
def guild(self):
return self.client.state.guilds.get(
self.server_id) if not self.is_dm else None
@cached_property
def channel(self):
return self.client.state.channels.get(self.channel_id)
@property
def user_id(self):
return self.client.state.me.id
@property
def ssrc_audio(self):
return self.ssrc
@property
def ssrc_video(self):
return self.ssrc + 1
@property
def ssrc_rtx(self):
return self.ssrc + 2
@property
def ssrc_rtcp(self):
return self.ssrc + 3
def set_state(self, state):
self.log.debug('[%s] state %s -> %s', self, self.state, state)
prev_state = self.state
self.state = state
self.state_emitter.emit(state, prev_state)
def set_endpoint(self, endpoint):
endpoint = endpoint.split(':', 1)[0]
if self.endpoint == endpoint:
return
self.log.info(
'[%s] Set endpoint from VOICE_SERVER_UPDATE (state = %s / endpoint = %s)',
self, self.state, endpoint)
self.endpoint = endpoint
if self.ws and self.ws.sock and self.ws.sock.connected:
self.ws.close()
self.ws = None
self._identified = False
def set_token(self, token):
if self.token == token:
return
self.token = token
if not self._identified:
self._connect_and_run()
def _connect_and_run(self):
self.ws = Websocket('wss://' + self.endpoint +
'/?v={}'.format(self.VOICE_GATEWAY_VERSION))
self.ws.emitter.on('on_open', self.on_open)
self.ws.emitter.on('on_error', self.on_error)
self.ws.emitter.on('on_close', self.on_close)
self.ws.emitter.on('on_message', self.on_message)
self.ws.run_forever()
def _heartbeat(self, interval):
while True:
self.send(VoiceOPCode.HEARTBEAT, time.time())
gevent.sleep(interval / 1000)
def set_speaking(self,
voice=False,
soundshare=False,
priority=False,
delay=0):
value = SpeakingFlags.NONE.value
if voice:
value |= SpeakingFlags.VOICE.value
if soundshare:
value |= SpeakingFlags.SOUNDSHARE.value
if priority:
value |= SpeakingFlags.PRIORITY.value
self.send(VoiceOPCode.SPEAKING, {
'speaking': value,
'delay': delay,
'ssrc': self.ssrc,
})
def set_voice_state(self, channel_id, mute=False, deaf=False, video=False):
self.client.gw.send(
OPCode.VOICE_STATE_UPDATE, {
'self_mute': bool(mute),
'self_deaf': bool(deaf),
'self_video': bool(video),
'guild_id': None if self.is_dm else self.server_id,
'channel_id': channel_id,
})
def send(self, op, data):
if self.ws and self.ws.sock and self.ws.sock.connected:
self.log.debug('[%s] sending OP %s (data = %s)', self, op, data)
self.ws.send(self.encoder.encode({
'op': op.value,
'd': data,
}), self.encoder.OPCODE)
else:
self.log.debug(
'[%s] dropping because ws is closed OP %s (data = %s)', self,
op, data)
def on_voice_client_connect(self, data):
user_id = int(data['user_id'])
self.audio_ssrcs[data['audio_ssrc']] = user_id
# ignore data['voice_ssrc'] for now
def on_voice_client_disconnect(self, data):
user_id = int(data['user_id'])
for ssrc in self.audio_ssrcs.keys():
if self.audio_ssrcs[ssrc] == user_id:
del self.audio_ssrcs[ssrc]
break
def on_voice_codecs(self, data):
self.audio_codec = data['audio_codec']
self.video_codec = data['video_codec']
self.transport_id = data['media_session_id']
# Set the UDP's RTP Audio Header's Payload Type
self.udp.set_audio_codec(data['audio_codec'])
def on_voice_hello(self, data):
self.log.info(
'[%s] Received Voice HELLO payload, starting heartbeater', self)
self._heartbeat_task = gevent.spawn(self._heartbeat,
data['heartbeat_interval'])
self.set_state(VoiceState.AUTHENTICATED)
def on_voice_ready(self, data):
self.log.info(
'[%s] Received Voice READY payload, attempting to negotiate voice connection w/ remote',
self)
self.set_state(VoiceState.CONNECTING)
self.ssrc = data['ssrc']
self.ip = data['ip']
self.port = data['port']
self._identified = True
for mode in self.SUPPORTED_MODES:
if mode in data['modes']:
self.mode = mode
self.log.debug('[%s] Selected mode %s', self, mode)
break
else:
raise Exception('Failed to find a supported voice mode')
self.log.debug('[%s] Attempting IP discovery over UDP to %s:%s', self,
self.ip, self.port)
self.udp = UDPVoiceClient(self)
ip, port = self.udp.connect(self.ip, self.port)
if not ip:
self.log.error(
'Failed to discover our IP, perhaps a NAT or firewall is f*****g us'
)
self.disconnect()
return
codecs = []
# Sending discord our available codecs and rtp payload type for it
for idx, codec in enumerate(AudioCodecs):
codecs.append({
'name': codec,
'type': 'audio',
'priority': (idx + 1) * 1000,
'payload_type': RTPPayloadTypes.get(codec).value,
})
self.log.debug(
'[%s] IP discovery completed (ip = %s, port = %s), sending SELECT_PROTOCOL',
self, ip, port)
self.send(
VoiceOPCode.SELECT_PROTOCOL, {
'protocol': 'udp',
'data': {
'port': port,
'address': ip,
'mode': self.mode,
},
'codecs': codecs,
})
self.send(VoiceOPCode.CLIENT_CONNECT, {
'audio_ssrc': self.ssrc,
'video_ssrc': 0,
'rtx_ssrc': 0,
})
def on_voice_resumed(self, data):
self.log.info('[%s] Received resumed', self)
self.set_state(VoiceState.CONNECTED)
def on_voice_sdp(self, sdp):
self.log.info(
'[%s] Received session description, connection completed', self)
self.mode = sdp['mode']
self.audio_codec = sdp['audio_codec']
self.video_codec = sdp['video_codec']
self.transport_id = sdp['media_session_id']
# Set the UDP's RTP Audio Header's Payload Type
self.udp.set_audio_codec(sdp['audio_codec'])
# Create a secret box for encryption/decryption
self.udp.setup_encryption(bytes(bytearray(sdp['secret_key'])))
self.set_state(VoiceState.CONNECTED)
def on_voice_speaking(self, data):
user_id = int(data['user_id'])
self.audio_ssrcs[data['ssrc']] = user_id
# Maybe rename speaking to voice in future
payload = VoiceSpeaking(
client=self,
user_id=user_id,
speaking=bool(data['speaking'] & SpeakingFlags.VOICE.value),
soundshare=bool(data['speaking'] & SpeakingFlags.SOUNDSHARE.value),
priority=bool(data['speaking'] & SpeakingFlags.PRIORITY.value),
)
self.client.gw.events.emit('VoiceSpeaking', payload)
def on_message(self, msg):
try:
data = self.encoder.decode(msg)
self.packets.emit(VoiceOPCode[data['op']], data['d'])
except Exception:
self.log.exception('Failed to parse voice gateway message: ')
def on_error(self, err):
self.log.error('[%s] Voice websocket error: %s', self, err)
def on_open(self):
if self._identified:
self.send(
VoiceOPCode.RESUME, {
'server_id': self.server_id,
'session_id': self._session_id,
'token': self.token,
})
else:
self.send(
VoiceOPCode.IDENTIFY, {
'server_id': self.server_id,
'user_id': self.user_id,
'session_id': self._session_id,
'token': self.token,
'video': self.video_enabled,
})
def on_close(self, code, reason):
self.log.warning('[%s] Voice websocket closed: [%s] %s (%s)', self,
code, reason, self._reconnects)
if self._heartbeat_task:
self._heartbeat_task.kill()
self._heartbeat_task = None
self.ws = None
# If we killed the connection, don't try resuming
if self.state == VoiceState.DISCONNECTED:
return
self.log.info('[%s] Attempting Websocket Resumption', self)
self.set_state(VoiceState.RECONNECTING)
# Check if code is not None, was not from us
if code is not None:
self._reconnects += 1
if self.max_reconnects and self._reconnects > self.max_reconnects:
raise VoiceException(
'Failed to reconnect after {} attempts, giving up'.format(
self.max_reconnects), self)
# Don't resume for these error codes:
if 4000 <= code <= 4016:
self._identified = False
if self.udp and self.udp.connected:
self.udp.disconnect()
wait_time = 5
else:
wait_time = 1
self.log.info('[%s] Will attempt to %s after %s seconds', self,
'resume' if self._identified else 'reconnect', wait_time)
gevent.sleep(wait_time)
self._connect_and_run()
def connect(self, channel_id, timeout=10, **kwargs):
if self.is_dm:
channel_id = self.server_id
if not channel_id:
raise VoiceException(
'[{}] cannot connect to an empty channel id'.format(self))
if self.channel_id == channel_id:
if self.state == VoiceState.CONNECTED:
self.log.debug('[%s] Already connected to %s, returning', self,
self.channel)
return self
else:
if self.state == VoiceState.CONNECTED:
self.log.debug('[%s] Moving to channel %s', self, channel_id)
else:
self.log.debug('[%s] Attempting connection to channel id %s',
self, channel_id)
self.set_state(VoiceState.AWAITING_ENDPOINT)
self.set_voice_state(channel_id, **kwargs)
if not self.state_emitter.once(VoiceState.CONNECTED, timeout=timeout):
self.disconnect()
raise VoiceException('Failed to connect to voice', self)
else:
return self
def disconnect(self):
if self.state == VoiceState.DISCONNECTED:
return
self.log.debug('[%s] disconnect called', self)
self.set_state(VoiceState.DISCONNECTED)
del self.client.state.voice_clients[self.server_id]
if self._heartbeat_task:
self._heartbeat_task.kill()
self._heartbeat_task = None
if self.ws and self.ws.sock and self.ws.sock.connected:
self.ws.close()
self.ws = None
if self.udp and self.udp.connected:
self.udp.disconnect()
if self.channel_id:
self.set_voice_state(None)
self.client.gw.events.emit('VoiceDisconnect', self)
def send_frame(self, *args, **kwargs):
self.udp.send_frame(*args, **kwargs)
def increment_timestamp(self, *args, **kwargs):
self.udp.increment_timestamp(*args, **kwargs)
