コード例 #1
0
ファイル: client.py プロジェクト: Mikeses/aiotfm
	def __init__(self, community=Community.en, auto_restart=False, loop=None):
		self.loop = loop or asyncio.get_event_loop()

		self.main = Connection('main', self, self.loop)
		self.bulle = None

		self._waiters = {}

		self.room = None
		self.trade = None
		self.trades = {}
		self.inventory = None

		self.username = None
		self.locale = Locale()
		self.community = Community(community)
		self.cp_fingerprint = 0

		self.keys = None
		self.authkey = 0

		self.auto_restart = auto_restart
		self.api_tfmid = None
		self.api_token = None

		self._channels = []
コード例 #2
0
    def __init__(self, community=0, loop=None):
        self.loop = loop or asyncio.get_event_loop()

        self.main = Connection('main', self, self.loop)
        self.bulle = None

        self._waiters = {}

        self.room = None
        self.trade = None
        self.trades = []
        self.inventory = None

        self.username = None
        self.locale = Locale()
        self.community = community  # EN
        self.cp_fingerprint = 0

        self._channels = []
コード例 #3
0
	async def restart(self, keys=None):
		"""Restarts the client.

		:param keys:"""

		# :desc: Notify when the client restarts.
		self.dispatch("restart")

		self.close()

		# If we don't recreate the connection, we won't be able to connect.
		self.main = Connection('main', self, self.loop)
		self.bulle = None

		if keys is not None:
			self.keys = keys
		else:
			self.keys = keys = await get_keys(self.loop)

		await self.connect()
		await self.sendHandshake()
		await self.locale.load()
コード例 #4
0
ファイル: client.py プロジェクト: Mikeses/aiotfm
class Client:
	"""Represents a client that connects to Transformice.
	Two argument can be passed to the :class:`Client`.

	.. _event loop: https://docs.python.org/3/library/asyncio-eventloops.html

	Parameters
	----------
	community: Optional[:class:`int`]
		Defines the community of the client. Defaults to 0 (EN community).
	auto_restart: Optional[:class:`bool`]
		Whether the client should automatically restart on error. Defaults to False.
	loop: Optional[event loop]
		The `event loop`_ to use for asynchronous operations. If ``None`` is passed (defaults),
		the event loop used will be ``asyncio.get_event_loop()``.

	Attributes
	----------
	username: Optional[:class:`str`]
		The bot's username received from the server. Might be None if the bot didn't log in yet.
	room: Optional[:class:`aiotfm.room.Room`]
		The bot's room. Might be None if the bot didn't log in yet or couldn't join any room yet.
	trade: Optional[:class:`aiotfm.inventory.Trade`]
		The current trade that's going on (i.e: both traders accepted it).
	trades: :class:`list`[:class:`aiotfm.inventory.Trade`]
		All the trades that the bot participates. Most of them might be invitations only.
	inventory: Optional[:class:`aiotfm.inventory.Inventory`]
		The bot's inventory. Might be None if the bot didn't log in yet or it didn't receive
		anything.
	locale: :class:`aiotfm.locale.Locale`
		The bot's locale (translations).
	"""
	LOG_UNHANDLED_PACKETS = False

	def __init__(self, community=Community.en, auto_restart=False, loop=None):
		self.loop = loop or asyncio.get_event_loop()

		self.main = Connection('main', self, self.loop)
		self.bulle = None

		self._waiters = {}

		self.room = None
		self.trade = None
		self.trades = {}
		self.inventory = None

		self.username = None
		self.locale = Locale()
		self.community = Community(community)
		self.cp_fingerprint = 0

		self.keys = None
		self.authkey = 0

		self.auto_restart = auto_restart
		self.api_tfmid = None
		self.api_token = None

		self._channels = []

	def data_received(self, data, connection):
		"""|coro|
		Dispatches the received data.

		:param data: :class:`bytes` the received data.
		:param connection: :class:`aiotfm.Connection` the connection that received
			the data.
		"""
		# :desc: Called when a socket receives a packet. Does not interfere
		# with :meth:`Client.handle_packet`.
		# :param connection: :class:`aiotfm.Connection` the connection that received
		# the packet.
		# :param packet: :class:`aiotfm.Packet` a copy of the packet.
		self.dispatch('raw_socket', connection, Packet(data))
		try:
			self.loop.create_task(self.handle_packet(connection, Packet(data)))
		except Exception:
			traceback.print_exc()

	async def handle_packet(self, connection: Connection, packet: Packet):
		"""|coro|
		Handles the known packets and dispatches events.
		Subclasses should handle only the unhandled packets from this method.

		Example: ::
			class Bot(aiotfm.Client):
				async def handle_packet(self, conn, packet):
					handled = await super().handle_packet(conn, packet.copy())

					if not handled:
						# Handle here the unhandled packets.
						pass

		:param connection: :class:`aiotfm.Connection` the connection that received
			the packet.
		:param packet: :class:`aiotfm.Packet` the packet.
		:return: True if the packet got handled, False otherwise.
		"""
		CCC = packet.readCode()
		if CCC == (1, 1): # Old packets
			oldCCC, *data = packet.readString().split(b'\x01')
			data = list(map(bytes.decode, data))
			oldCCC = tuple(oldCCC[:2])

			# :desc: Called when an old packet is received. Does not interfere
			# with :meth:`Client.handle_old_packet`.
			# :param connection: :class:`aiotfm.Connection` the connection that received
			# the packet.
			# :param oldCCC: :class:`tuple` the packet identifiers on the old protocol.
			# :param data: :class:`list` the packet data.
			self.dispatch('old_packet', connection, oldCCC, data)
			return await self.handle_old_packet(connection, oldCCC, data)

		if CCC == (5, 21): # Joined room
			self.room = Room(official=packet.readBool(), name=packet.readUTF())

			# :desc: Called when the client has joined a room.
			# :param room: :class:`aiotfm.room.Room` the room the client has entered.
			self.dispatch('joined_room', self.room)

		elif CCC == (5, 39): # Password required for the room

			# :desc: Called when a password is required to enter a room
			# :param room: :class:`aiotfm.room.Room` the room the server is asking for a password.
			self.dispatch('room_password', Room(packet.readUTF()))

		elif CCC == (6, 6): # Room message
			player_id = packet.read32()
			username = packet.readUTF()
			commu = packet.read8()
			message = packet.readUTF()
			player = self.room.get_player(pid=player_id)

			if player is None:
				player = Player(username, pid=player_id)

			# :desc: Called when the client receives a message from the room.
			# :param message: :class:`aiotfm.message.Message` the message.
			self.dispatch('room_message', Message(player, message, commu, self))

		elif CCC == (6, 20): # Server message
			packet.readBool() # if False then the message will appear in the #Server channel
			t_key = packet.readUTF()
			t_args = [packet.readUTF() for i in range(packet.read8())]

			# :desc: Called when the client receives a message from the server that needs to be translated.
			# :param message: :class:`aiotfm.locale.Translation` the message translated with the
			# current locale.
			# :param *args: a list of string used as replacement inside the message.
			self.dispatch('server_message', self.locale[t_key], *t_args)

		elif CCC == (8, 5): # Show emoji
			player = self.room.get_player(pid=packet.read32())
			emoji = packet.read8()

			# :desc: Called a player is showing an emoji above its head.
			# :param player: :class:`aiotfm.Player` the player.
			# :param emoji: :class:`int` the emoji's id.
			self.dispatch('emoji', player, emoji)

		elif CCC == (8, 6): # Player won
			packet.read8()
			player = self.room.get_player(pid=packet.read32())
			player.score = packet.read16()
			order = packet.read8()
			player_time = packet.read16() / 100

			# :desc: Called a player get the cheese to the hole.
			# :param player: :class:`aiotfm.Player` the player.
			# :param order: :class:`int` the order of the player in the hole.
			# :param player_time: :class:`float` player's time in the hole in seconds.
			self.dispatch('player_won', player, order, player_time)

		elif CCC == (8, 16): # Profile
			# :desc: Called when the client receives the result of a /profile command.
			# :param profile: :class:`aiotfm.player.Profile` the profile.
			self.dispatch('profile', Profile(packet))

		elif CCC == (8, 20): # Shop
			# :desc: Called when the client receives the content of the shop.
			# :param shop: :class:`aiotfm.shop.Shop` the shop.
			self.dispatch('shop', Shop(packet))

		elif CCC == (8, 22): # Skills
			skills = {}
			for _ in range(packet.read8()):
				key, value = packet.read8(), packet.read8()
				skills[key] = value

			# :desc: Called when the client receives its skill tree.
			# :param skills: :class:`dict` the skills.
			self.dispatch('skills', skills)

		elif CCC == (16, 2): # Tribe invitation received
			author = packet.readUTF()
			tribe = packet.readUTF()

			# :desc: Called when the client receives an invitation to a tribe. (/inv)
			# :param author: :class:`str` the player that invited you.
			# :param tribe: :class:`str` the tribe.
			self.dispatch('tribe_inv', author, tribe)

		elif CCC == (26, 2): # Logged in successfully
			player_id = packet.read32()
			self.username = username = packet.readUTF()
			played_time = packet.read32()
			community = Community(packet.read8())
			pid = packet.read32()

			# :desc: Called when the client successfully logged in.
			# :param uid: :class:`int` the client's unique id.
			# :param username: :class:`str` the client's username.
			# :param played_time: :class:`int` the total number of minutes the client has played.
			# :param community: :class:`aiotfm.enums.Community` the community the client has connected to.
			# :param pid: :class:`int` the client's player id.
			self.dispatch('logged', player_id, username, played_time, community, pid)

		elif CCC == (26, 3): # Handshake OK
			online_players = packet.read32()
			connection.fingerprint = packet.read8()
			community = Community[packet.readUTF()]
			country = packet.readUTF()
			self.authkey = packet.read32()

			self.loop.create_task(self._heartbeat_loop())

			await connection.send(Packet.new(8, 2).write8(self.community.value).write8(0))

			os_info = Packet.new(28, 17).writeString('en').writeString('Linux')
			os_info.writeString('LNX 29,0,0,140').write8(0)

			await connection.send(os_info)

			# :desc: Called when the client can login through the game.
			# :param online_players: :class:`int` the number of player connected to the game.
			# :param community: :class:`aiotfm.enums.Community` the community the server suggest.
			# :param country: :class:`str` the country detected from your ip.
			self.dispatch('login_ready', online_players, community, country)

		elif CCC == (26, 12): # Login result
			# :desc: Called when the client failed logging.
			# :param code: :class:`int` the error code.
			# :param code: :class:`str` error messages.
			# :param code: :class:`str` error messages.
			self.dispatch('login_result', packet.read8(), packet.readUTF(), packet.readUTF())

		elif CCC == (26, 25): # Ping
			# :desc: Called when the client receives the ping response from the server.
			self.dispatch('ping')

		elif CCC == (28, 6): # Server ping
			await connection.send(Packet.new(28, 6).write8(packet.read8()))

		elif CCC == (29, 6): # Lua logs
			# :desc: Called when the client receives lua logs from #Lua.
			# :param log: :class:`str` a log message.
			self.dispatch('lua_log', packet.readUTF())

		elif CCC == (31, 1): # Inventory data
			self.inventory = Inventory.from_packet(packet)
			self.inventory.client = self

			# :desc: Called when the client receives its inventory's content.
			# :param inventory: :class:`aiotfm.inventory.Inventory` the client's inventory.
			self.dispatch('inventory_update', self.inventory)

		elif CCC == (31, 2): # Update inventory item
			item_id = packet.read16()
			quantity = packet.read8()

			if item_id in self.inventory.items:
				item = self.inventory.items[item_id]
				previous = item.quantity
				item.quantity = quantity

				# :desc: Called when the quantity of an item has been updated.
				# :param item: :class:`aiotfm.inventory.InventoryItem` the new item.
				# :param previous: :class:`aiotfm.inventory.InventoryItem` the previous item.
				self.dispatch('item_update', item, previous)

			else:
				item = InventoryItem(item_id=item_id, quantity=quantity)
				self.inventory.items[item.id] = item

				# :desc: Called when the client receives a new item in its inventory.
				# :param item: :class:`aiotfm.inventory.InventoryItem` the new item.
				self.dispatch('new_item', item)

		elif CCC == (31, 5): # Trade invite
			pid = packet.read32()

			self.trades[pid] = Trade(self, self.room.get_player(pid=pid))

			# :desc: Called when received an invitation to trade.
			# :param trade: :class:`aiotfm.inventory.Trade` the trade object.
			self.dispatch('trade_invite', self.trades[pid])

		elif CCC == (31, 6): # Trade error
			name = packet.readUTF().lower()
			error = packet.read8()

			if name == self.username.lower():
				trade = self.trade
			else:
				for t in self.trades.values():
					if t.trader.lower() == name:
						trade = t
						break

			# :desc: Called when an error occurred with a trade.
			# :param trade: :class:`aiotfm.inventory.Trade` the trade that failed.
			# :param error: :class:`aiotfm.enums.TradeError` the error.
			self.dispatch('trade_error', trade, TradeError[error])
			trade._close()

		elif CCC == (31, 7): # Trade start
			pid = packet.read32()
			trade = self.trades.get(pid)

			if trade is None:
				raise AiotfmException(f'Cannot find the trade from pid {pid}.')

			trade._start()
			self.trade = trade

			# :desc: Called when a trade starts. You can access the trade object with `Client.trade`.
			self.dispatch('trade_start')

		elif CCC == (31, 8): # Trade items
			export = packet.readBool()
			id_ = packet.read16()
			quantity = (1 if packet.readBool() else -1) * packet.read8()

			items = self.trade.exports if export else self.trade.imports
			items.add(id_, quantity)

			trader = self if export else self.trade.trader
			self.trade.locked = [False, False]

			# :desc: Called when an item has been added/removed from the current trade.
			# :param trader: :class:`aiotfm.Player` the player that triggered the event.
			# :param id: :class:`int` the item's id.
			# :param quantity: :class:`int` the quantity added/removed. Can be negative.
			# :param item: :class:`aiotfm.inventory.InventoryItem` the item after the change.
			self.dispatch('trade_item_change', trader, id_, quantity, items.get(id_))

		elif CCC == (31, 9): # Trade lock
			index = packet.read8()
			locked = packet.readBool()
			if index > 1:
				self.trade.locked = [locked, locked]
				who = "both"
			else:
				self.trade.locked[index] = locked
				who = self.trade.trader if index == 0 else self

			# :desc: Called when the trade got (un)locked.
			# :param who: :class:`aiotfm.Player` the player that triggered the event.
			# :param locked: :class:`bool` either the trade got locked or unlocked.
			self.dispatch('trade_lock', who, locked)

		elif CCC == (31, 10): # Trade complete
			trade = self.trade
			self.trade._close(succeed=True)

		elif CCC == (44, 1): # Bulle switching
			timestamp = packet.read32()
			player_id = packet.read32()
			bulle_ip = packet.readUTF()
			ports = packet.readUTF().split('-')

			if self.bulle is not None:
				self.bulle.close()

			self.bulle = Connection('bulle', self, self.loop)
			await self.bulle.connect(bulle_ip, random.choice(ports))
			await self.bulle.send(Packet.new(*CCC).write32(timestamp).write32(player_id))

		elif CCC == (44, 22): # Fingerprint offset changed
			connection.fingerprint = packet.read8()

		elif CCC == (60, 3): # Community platform
			TC = packet.read16()

			# :desc: Called when the client receives a packet from the community platform.
			# :param TC: :class:`int` the packet's code.
			# :param packet: :class:`aiotfm.Packet` the packet.
			self.dispatch('raw_cp', TC, packet.copy(copy_pos=True))

			if TC == 3: # Connected to the community platform
				# :desc: Called when the client is successfully connected to the community platform.
				self.dispatch('ready')

			elif TC == 55: # Channel join result
				result = packet.read8()

				# :desc: Called when the client receives the result of joining a channel.
				# :param result: :class:`int` result code.
				self.dispatch('channel_joined_result', result)

			elif TC == 57: # Channel leave result
				result = packet.read8()

				# :desc: Called when the client receives the result of leaving a channel.
				# :param result: :class:`int` result code.
				self.dispatch('channel_leaved_result', result)

			elif TC == 59: # Channel /who result
				idSequence = packet.read32()
				result = packet.read8()
				players = [Player(packet.readUTF()) for _ in range(packet.read16())]

				# :desc: Called when the client receives the result of the /who command in a channel.
				# :param idSequence: :class:`int` the reference to the packet that performed the request.
				# :param players: List[:class:`aiotfm.Player`] the list of players inside the channel.
				self.dispatch('channel_who', idSequence, players)

			elif TC == 62: # Joined a channel
				name = packet.readUTF()

				if name in self._channels:
					channel = [c for c in self._channels if c == name][0]
				else:
					channel = Channel(name, self)
					self._channels.append(channel)

				# :desc: Called when the client joined a channel.
				# :param channel: :class:`aiotfm.message.Channel` the channel.
				self.dispatch('channel_joined', channel)

			elif TC == 63: # Quit a channel
				name = packet.readUTF()
				if name in self._channels:
					self._channels.remove(name)

				# :desc: Called when the client leaves a channel.
				# :param name: :class:`str` the channel's name.
				self.dispatch('channel_closed', name)

			elif TC == 64: # Channel message
				author, community = packet.readUTF(), packet.read32()
				channel_name, message = packet.readUTF(), packet.readUTF()
				channel = self.get_channel(channel_name)

				if channel is None:
					channel = Channel(channel_name, self)
					self._channels.append(channel)

				channel_message = ChannelMessage(author, community, message, channel)

				# :desc: Called when the client receives a message from a channel.
				# :param message: :class:`aiotfm.message.ChannelMessage` the message.
				self.dispatch('channel_message', channel_message)

			elif TC == 65: # Tribe message
				author, message = packet.readUTF(), packet.readUTF()

				# :desc: Called when the client receives a message from the tribe.
				# :param author: :class:`str` the message's author.
				# :param message: :class:`str` the message's content.
				self.dispatch('tribe_message', author, message)

			elif TC == 66: # Whisper
				author = Player(packet.readUTF())
				commu = packet.read32()
				receiver = Player(packet.readUTF())
				message = packet.readUTF()

				author = self.room.get_player(name=author, default=author)
				receiver = self.room.get_player(name=receiver, default=receiver)

				# :desc: Called when the client receives a whisper.
				# :param message: :class:`aiotfm.message.Whisper` the message.
				self.dispatch('whisper', Whisper(author, commu, receiver, message, self))

			elif TC == 88: # tribe member connected
				# :desc: Called when a tribe member connected.
				# :param name: :class:`str` the member's name.
				self.dispatch('member_connected', packet.readUTF())

			elif TC == 90: # tribe member disconnected
				# :desc: Called when a tribe member disconnected.
				# :param name: :class:`str` the member's name.
				self.dispatch('member_disconnected', packet.readUTF())

			else:
				if self.LOG_UNHANDLED_PACKETS:
					print(CCC, TC, bytes(packet.buffer)[4:])
				return False

		elif CCC == (100, 67): # New inventory item
			slot = packet.read8()
			slot = None if slot == 0 else slot
			item_id = packet.read16()
			quantity = packet.read8()

			item = InventoryItem(item_id=item_id, quantity=quantity, slot=slot)
			self.inventory[item_id] = item
			self.dispatch('new_item', item)

		elif CCC == (144, 1): # Set player list
			before = self.room.players
			self.room.players = {}

			for _ in range(packet.read16()):
				player = Player.from_packet(packet)
				self.room.players[player.pid] = player

			# :desc: Called when the client receives an update of all player in the room.
			# :param before: Dict[:class:`aiotfm.Player`] the list of player before the update.
			# :param players: Dict[:class:`aiotfm.Player`] the list of player updated.
			self.dispatch('bulk_player_update', before, self.room.players)

		elif CCC == (144, 2): # Add a player
			after = Player.from_packet(packet)
			before = self.room.players.pop(after.pid, None)

			self.room.players[after.pid] = after
			if before is None:
				# :desc: Called when a player joined the room.
				# :param player: :class:`aiotfm.Player` the player.
				self.dispatch('player_join', after)
			else:
				# :desc: Called when a player's data on the room has been updated.
				# :param before: :class:`aiotfm.Player` the player before the update.
				# :param player: :class:`aiotfm.Player` the player updated.
				self.dispatch('player_update', before, after)

		else:
			if self.LOG_UNHANDLED_PACKETS:
				print(CCC, bytes(packet.buffer)[2:])
			return False

		return True

	async def handle_old_packet(self, connection: Connection, oldCCC: tuple, data: list):
		"""|coro|
		Handles the known packets from the old protocol and dispatches events.
		Subclasses should handle only the unhandled packets from this method.

		Example: ::
			class Bot(aiotfm.Client):
				async def handle_old_packet(self, conn, oldCCC, data):
					handled = await super().handle_old_packet(conn, data.copy())

					if not handled:
						# Handle here the unhandled packets.
						pass

		:param connection: :class:`aiotfm.Connection` the connection that received
			the packet.
		:param oldCCC: :class:`tuple` the packet identifiers on the old protocol.
		:param data: :class:`list` the packet data.
		:return: True if the packet got handled, False otherwise.
		"""
		if oldCCC == (8, 5): # Player died
			player = self.room.get_player(pid=data[0])
			player.score = int(data[2])

			# :desc: Called when a player dies.
			# :param player: :class:`aiotfm.Player` the player.
			self.dispatch('player_died', player)

		elif oldCCC == (8, 7): # Remove a player
			player = self.room.players.pop(int(data[0]), None)

			if player is not None:
				# :desc: Called when a player leaves the room.
				# :param player: :class:`aiotfm.Player` the player.
				self.dispatch('player_remove', player)

		else:
			if self.LOG_UNHANDLED_PACKETS:
				print("[OLD]", oldCCC, data)
			return False

		return True

	async def _heartbeat_loop(self):
		"""|coro|
		Send a packet every fifteen seconds to stay connected to the game.
		"""
		last_heartbeat = 0
		while self.main.open:
			if self.loop.time() - last_heartbeat >= 15:
				t = time.perf_counter()
				await self.main.send(Packet.new(26, 26))
				if self.bulle is not None and self.bulle.open:
					await self.bulle.send(Packet.new(26, 26))

				# :desc: Called at each heartbeat.
				# :param time: :class:`float` the time took to send the keep-alive packet.
				self.dispatch('heartbeat', (time.perf_counter() - t) * 1000)
				last_heartbeat = self.loop.time()
			await asyncio.sleep(.5)

	def get_channel(self, name):
		"""Returns a channel from it's name or None if not found.
		:param name: :class:`str` the name of the channel.
		:return: :class:`aiotfm.message.ChannelMessage` or None
		"""
		if name is None:
			return None

		for channel in self._channels:
			if channel.name == name:
				return channel

	def get_trade(self, player):
		"""Returns the pending/current trade with a player.
		:param player: :class:`aiotfm.Player` or :class:`str` the player.
		:return: :class:`aiotfm.inventory.Trade` the trade with the player.
		"""
		if not isinstance(player, (str, Player)):
			raise TypeError(f"Expected Player or str types got {type(player)}")

		if isinstance(player, Player):
			return self.trades.get(player.pid)

		player = player.lower()
		for trade in self.trades.values():
			if trade.trader.lower() == player:
				return trade

	def event(self, coro):
		"""A decorator that registers an event.

		More about events [here](Events.md).
		"""
		name = coro.__name__
		if not name.startswith('on_'):
			raise InvalidEvent("'{}' isn't a correct event naming.".format(name))
		if not asyncio.iscoroutinefunction(coro):
			message = "Couldn't register a non-coroutine function for the event {}.".format(name)
			raise InvalidEvent(message)

		setattr(self, name, coro)
		return coro

	def wait_for(self, event, condition=None, timeout=None, stopPropagation=False):
		"""Wait for an event.

		Example: ::
			@client.event
			async def on_room_message(author, message):
				if message == 'id':
					await client.sendCommand('profile '+author)
					profile = await client.wait_for('on_profile', lambda p: p.username == author)
					await client.sendRoomMessage('Your id: {}'.format(profile.id))

		:param event: :class:`str` the event name.
		:param condition: Optionnal[`function`] A predicate to check what to wait for.
			The arguments must meet the parameters of the event being waited for.
		:param timeout: Optionnal[:class:`int`] the number of seconds before
			throwing asyncio.TimeoutError
		:return: [`asyncio.Future`](https://docs.python.org/3/library/asyncio-future.html#asyncio.Future)
			a future that you must await.
		"""
		event = event.lower()
		future = self.loop.create_future()

		if condition is None:
			def everything(*a):
				return True
			condition = everything

		if event not in self._waiters:
			self._waiters[event] = []

		self._waiters[event].append((condition, future, stopPropagation))

		return asyncio.wait_for(future, timeout)

	async def _run_event(self, coro, event_name, *args, **kwargs):
		"""|coro|
		Runs an event and handle the error if any.

		:param coro: a coroutine function.
		:param event_name: :class:`str` the event's name.
		:param args: arguments to pass to the coro.
		:param kwargs: keyword arguments to pass to the coro.

		:return: :class:`bool` whether the event ran successfully or not
		"""
		try:
			await coro(*args, **kwargs)
			return True
		# except asyncio.CancelledError:
		# 	raise
		except Exception as e:
			if hasattr(self, 'on_error'):
				try:
					await self.on_error(event_name, e, *args, **kwargs)
				# except asyncio.CancelledError:
				# 	raise
				except Exception:
					if not self.auto_restart:
						self.close()
				finally:
					if self.auto_restart:
						asyncio.ensure_future(self.restart_soon(), loop=self.loop)
		return False

	def dispatch(self, event, *args, **kwargs):
		"""Dispatches events

		:param event: :class:`str` event's name. (without 'on_')
		:param args: arguments to pass to the coro.
		:param kwargs: keyword arguments to pass to the coro.

		:return: [`Task`](https://docs.python.org/3/library/asyncio-task.html#asyncio.Task)
			the _run_event wrapper task
		"""
		method = 'on_' + event

		if method in self._waiters:
			to_remove = []
			waiters = self._waiters[method]
			for i, (cond, fut, stop) in enumerate(waiters):
				if fut.cancelled():
					to_remove.append(i)
					continue

				try:
					result = bool(cond(*args))
				except Exception as e:
					fut.set_exception(e)
				else:
					if result:
						fut.set_result(args[0] if len(args) == 1 else args if len(args) > 0 else None)
						if stop:
							del waiters[i]
							return None
						to_remove.append(i)

			if len(to_remove) == len(waiters):
				del self._waiters[method]
			else:
				for i in to_remove[::-1]:
					del waiters[i]

		coro = getattr(self, method, None)
		if coro is not None:
			dispatch = self._run_event(coro, method, *args, **kwargs)
			return asyncio.ensure_future(dispatch, loop=self.loop)

	async def on_error(self, event, err, *a, **kw):
		"""Default on_error event handler. Prints the traceback of the error."""
		message = '\nAn error occurred while dispatching the event "{0}":\n\n{2}'
		tb = traceback.format_exc(limit=-3)
		print(message.format(event, err, tb), file=sys.stderr)
		return message.format(event, err, tb)

	async def on_connection_error(self, conn, error):
		"""Default on_connection_error event handler. Prints the error."""
		print('{0.__class__.__name__}: {0}'.format(error), file=sys.stderr)

	async def on_login_result(self, code, *args):
		"""Default on_login_result handler. Raise an error and closes the connection."""
		self.loop.call_later(5, self.close)
		if code == 1:
			raise AlreadyConnected()
		if code == 2:
			raise IncorrectPassword()
		raise LoginError(code)

	async def connect(self):
		"""|coro|
		Creates a connection with the main server.
		"""

		for port in random.sample([13801, 11801, 12801, 14801], 4):
			try:
				await self.main.connect(self.keys.server_ip, port)
			except Exception:
				pass
			else:
				break
		else:
			raise ServerUnreachable('Unable to connect to the server.')

		while not self.main.open:
			await asyncio.sleep(.1)

	async def sendHandshake(self):
		"""|coro|
		Sends the handshake packet so the server recognizes this socket as a player.
		"""
		packet = Packet.new(28, 1).write16(self.keys.version).writeString(self.keys.connection)
		packet.writeString('Desktop').writeString('-').write32(0x1fbd).writeString('')
		packet.writeString('74696720697320676f6e6e61206b696c6c206d7920626f742e20736f20736164')
		packet.writeString(
			"A=t&SA=t&SV=t&EV=t&MP3=t&AE=t&VE=t&ACC=t&PR=t&SP=f&SB=f&DEB=f&V=LNX 29,0,0,140&M=Adobe"
			" Linux&R=1920x1080&COL=color&AR=1.0&OS=Linux&ARCH=x86&L=en&IME=t&PR32=t&PR64=t&LS=en-U"
			"S&PT=Desktop&AVD=f&LFD=f&WD=f&TLS=t&ML=5.1&DP=72")
		packet.write32(0).write32(0x6257).writeString('')

		await self.main.send(packet)

	async def start(self, api_tfmid, api_token, keys=None):
		"""|coro|
		Starts the client.

		:param api_tfmid: :class:`int` or :class:`str` your Transformice id.
		:param api_token: :class:`str` your token to access the API.
		"""
		if keys is not None:
			self.keys = keys
		else:
			self.api_tfmid = api_tfmid
			self.api_token = api_token
			self.keys = await get_keys(api_tfmid, api_token)

		await self.connect()
		await self.sendHandshake()
		await self.locale.load()

	async def restart_soon(self, *args, delay=5.0, **kwargs):
		"""Restarts the client in several seconds.

		:param delay: :class:`int` the delay before restarting. Default is 5 seconds.
		:param args: arguments to pass to the :meth:`Client.restart` method.
		:param kwargs: keyword arguments to pass to the :meth:`Client.restart` method."""
		await asyncio.sleep(delay)
		await self.restart(*args, **kwargs)

	async def restart(self, keys=None):
		"""Restarts the client.

		:param keys:"""

		# :desc: Notify when the client restarts.
		self.dispatch("restart")

		self.close()

		if keys is not None:
			self.keys = keys
		else:
			self.keys = keys = await get_keys(self.api_tfmid, self.api_token)

		await self.connect()
		await self.sendHandshake()
		await self.locale.load()

	async def login(self, username, password, encrypted=True, room='1'):
		"""|coro|
		Log in the game.

		:param username: :class:`str` the client username.
		:param password: :class:`str` the client password.
		:param encrypted: Optional[:class:`bool`] whether the password is already encrypted or not.
		:param room: Optional[:class:`str`] the room where the client will be logged in.
		"""
		if not encrypted:
			password = shakikoo(password)

		packet = Packet.new(26, 8).writeString(username).writeString(password)
		packet.writeString("app:/TransformiceAIR.swf/[[DYNAMIC]]/2/[[DYNAMIC]]/4")
		packet.writeString(room).write32(self.authkey ^ self.keys.auth).write8(0).writeString('')
		packet.cipher(self.keys.identification).write8(0)

		await self.main.send(packet)

	def run(self, api_tfmid, api_token, username, password, **kwargs):
		"""A blocking call that do the event loop initialization for you.

		Equivalent to: ::
			@bot.event
			async def on_login_ready(*a):
				await bot.login(username, password)

			loop = asyncio.get_event_loop()
			loop.create_task(bot.start(api_id, api_token))
			loop.run_forever()
		"""
		if self.auto_restart:
			self.auto_restart = False
			warnings.warn(
				"The usage of Client.run and Client.auto_restart is not allowed. "
				"Use Client.start method to enable automatic restart."
			)

		keys = kwargs.pop('keys', None)
		asyncio.ensure_future(self.start(api_tfmid, api_token, keys=keys), loop=self.loop)
		self.loop.run_until_complete(self.wait_for('on_login_ready'))
		asyncio.ensure_future(self.login(username, password, **kwargs), loop=self.loop)

		self.loop.run_forever()
		# try:
		# 	self.loop.run_forever()
		# except:
		# 	# add self.close
		# 	# asyncio.ensure_future(self.close())
		# 	raise

	def close(self):
		"""Closes the sockets."""
		self.main.close()
		if self.bulle is not None:
			self.bulle.close()

		if not self.auto_restart:
			# The process is not exited if the loop is still running
			self.loop.close()

	async def sendCP(self, code, data=b''):
		"""|coro|
		Send a packet to the community platform.

		:param code: :class:`int` the community platform code.
		:param data: :class:`aiotfm.Packet` or :class:`bytes` the data.
		"""
		self.cp_fingerprint = fp = (self.cp_fingerprint + 1) % 0XFFFFFFFF

		packet = Packet.new(60, 3).write16(code)
		packet.write32(self.cp_fingerprint).writeBytes(data)
		await self.main.send(packet, cipher=True)

		return fp

	async def sendRoomMessage(self, message):
		"""|coro|
		Send a message to the room.

		:param message: :class:`str` the content of the message.
		"""
		packet = Packet.new(6, 6).writeString(message)

		await self.bulle.send(packet, cipher=True)

	async def sendTribeMessage(self, message):
		"""|coro|
		Send a message to the tribe.

		:param message: :class:`str` the content of the message.
		"""
		await self.sendCP(50, Packet().writeString(message))

	async def sendChannelMessage(self, channel, message):
		"""|coro|
		Send a message to a public channel.

		:param channel: :class:`str` the channel's name.
		:param message: :class:`str` the content of the message.
		"""
		if isinstance(channel, Channel):
			channel = channel.name

		return await self.sendCP(48, Packet().writeString(channel).writeString(message))

	async def whisper(self, username, message, overflow=False):
		"""|coro|
		Whisper to a player.

		:param username: :class:`str` the player to whisper.
		:param message: :class:`str` the content of the whisper.
		:param overflow: :class:`bool` will send the complete message if True, splitted
			in several messages.
		"""
		if isinstance(username, Player):
			username = username.username

		async def send(msg):
			await self.sendCP(52, Packet().writeString(username).writeString(msg))

		if isinstance(message, str):
			message = message.encode()
		message = message.replace(b'<', b'&lt;').replace(b'>', b'&gt;')

		await send(message[:255])
		for i in range(255, len(message), 255):
			await asyncio.sleep(1)
			await self.whisper(username, message[i:i + 255])

	async def getTribe(self, disconnected=True):
		"""|coro|
		Gets the client's :class:`aiotfm.Tribe` and return it

		:param disconnected: :class:`bool` if True retrieves also the disconnected members.
		:return: :class:`aiotfm.Tribe` or ``None``.
		"""
		sid = self.cp_fingerprint + 1
		await self.sendCP(108, Packet().writeBool(disconnected))

		def is_tribe(tc, packet):
			return (tc == 109 and packet.read32() == sid) or tc == 130

		tc, packet = await self.wait_for('on_raw_cp', is_tribe)
		if tc == 109:
			result = packet.readByte()
			if result == 1:
				tc, packet = await self.wait_for('on_raw_cp', lambda tc, p: tc == 130)
			elif result == 17:
				return None
			else:
				raise CommunityPlatformError(118, result)
		return Tribe(packet)

	async def playEmote(self, emote, flag='be'):
		"""|coro|
		Play an emote.

		:param emote: :class:`int` the emote's id.
		:param flag: Optional[:class:`str`] the flag for the emote id 10. Defaults to 'be'.
		"""
		packet = Packet.new(8, 1).write8(id).write32(0)
		if emote == 10:
			packet.writeString(flag)

		await self.bulle.send(packet)

	async def sendSmiley(self, smiley):
		"""|coro|
		Makes the client showing a smiley above it's head.

		:param smiley: :class:`int` the smiley's id. (from 0 to 9)
		"""
		if smiley < 0 or smiley > 9:
			raise AiotfmException('Invalid smiley id')

		packet = Packet.new(8, 5).write8(smiley).write32(0)

		await self.bulle.send(packet)

	async def loadLua(self, lua_code):
		"""|coro|
		Load a lua code in the room.

		:param lua_code: :class:`str` or :class:`bytes` the lua code to send.
		"""
		if isinstance(lua_code, str):
			lua_code = lua_code.encode()

		packet = Packet.new(29, 1).write24(len(lua_code)).writeBytes(lua_code)

		await self.bulle.send(packet)

	async def sendCommand(self, command):
		"""|coro|
		Send a command to the game.

		:param command: :class:`str` the command to send.
		"""
		packet = Packet.new(6, 26).writeString(command[:255])

		await self.main.send(packet, cipher=True)

	async def enterTribe(self):
		"""|coro|
		Enter the tribe house
		"""
		await self.main.send(Packet.new(16, 1))

	async def enterTribeHouse(self):
		"""|coro|
		Alias for :meth:`Client.enterTribe`
		"""
		await self.enterTribe()

	async def joinRoom(self, room_name, password=None, community=None, auto=False):
		"""|coro|
		Join a room.
		The event 'on_joined_room' is dispatched when the client has successfully joined the room.

		:param password: :class:`str` if given the client will ignore `community` and `auto` parameters
			and will connect to the room with the given password.
		:param room_name: :class:`str` the room's name.
		:param community: Optional[:class:`int`] the room's community.
		:param auto: Optional[:class:`bool`] joins a random room (I think).
		"""
		if password is not None:
			packet = Packet.new(5, 39).writeString(password).writeString(room_name)
		else:
			packet = Packet.new(5, 38).write8(Community(community or self.community).value)
			packet.writeString(room_name).writeBool(auto)

		await self.main.send(packet)

	async def joinChannel(self, name, permanent=True):
		"""|coro|
		Join a #channel.
		The event 'on_channel_joined' is dispatched when the client has successfully joined
		a channel.

		:param name: :class:`str` the channel's name
		:param permanent: Optional[:class:`bool`] if True (default) the server will automatically
		reconnect the user to this channel when logged in.
		"""
		await self.sendCP(54, Packet().writeString(name).writeBool(permanent))

	async def leaveChannel(self, channel):
		"""|coro|
		Leaves a #channel.

		:param channel: :class:`aiotfm.message.Channel` channel to leave.
		"""
		if isinstance(channel, Channel):
			name = channel.name
		else:
			name = channel

		await self.sendCP(56, Packet().writeString(name))

	async def enterInvTribeHouse(self, author):
		"""|coro|
		Join the tribe house of another player after receiving an /inv.

		:param author: :class:`str` the author's username who sent the invitation.
		"""
		await self.main.send(Packet.new(16, 2).writeString(author))

	async def recruit(self, player):
		"""|coro|
		Send a recruit request to a player.

		:param player: :class:`str` the player's username you want to recruit.
		"""
		await self.sendCP(78, Packet().writeString(player))

	async def requestShopList(self):
		"""|coro|
		Send a request to the server to get the shop list."""
		await self.main.send(Packet.new(8, 20))

	async def startTrade(self, player):
		"""|coro|
		Starts a trade with the given player.

		:param player: :class:`aiotfm.Player` the player to trade with.
		:return: :class:`aiotfm.inventory.Trade` the resulting trade"""
		if isinstance(player, Player) and player.pid == -1:
			player = player.username

		if isinstance(player, str):
			player = self.room.get_player(username=player)
			if player is None:
				raise AiotfmException("The player must be in your room to start a trade.")

		trade = Trade(self, player)

		self.trades[player.pid] = trade
		await trade.accept()
		return trade

	async def requestInventory(self):
		"""|coro|
		Send a request to the server to get the bot's inventory."""
		await self.main.send(Packet.new(31, 1))
コード例 #5
0
ファイル: client.py プロジェクト: Mikeses/aiotfm
	async def handle_packet(self, connection: Connection, packet: Packet):
		"""|coro|
		Handles the known packets and dispatches events.
		Subclasses should handle only the unhandled packets from this method.

		Example: ::
			class Bot(aiotfm.Client):
				async def handle_packet(self, conn, packet):
					handled = await super().handle_packet(conn, packet.copy())

					if not handled:
						# Handle here the unhandled packets.
						pass

		:param connection: :class:`aiotfm.Connection` the connection that received
			the packet.
		:param packet: :class:`aiotfm.Packet` the packet.
		:return: True if the packet got handled, False otherwise.
		"""
		CCC = packet.readCode()
		if CCC == (1, 1): # Old packets
			oldCCC, *data = packet.readString().split(b'\x01')
			data = list(map(bytes.decode, data))
			oldCCC = tuple(oldCCC[:2])

			# :desc: Called when an old packet is received. Does not interfere
			# with :meth:`Client.handle_old_packet`.
			# :param connection: :class:`aiotfm.Connection` the connection that received
			# the packet.
			# :param oldCCC: :class:`tuple` the packet identifiers on the old protocol.
			# :param data: :class:`list` the packet data.
			self.dispatch('old_packet', connection, oldCCC, data)
			return await self.handle_old_packet(connection, oldCCC, data)

		if CCC == (5, 21): # Joined room
			self.room = Room(official=packet.readBool(), name=packet.readUTF())

			# :desc: Called when the client has joined a room.
			# :param room: :class:`aiotfm.room.Room` the room the client has entered.
			self.dispatch('joined_room', self.room)

		elif CCC == (5, 39): # Password required for the room

			# :desc: Called when a password is required to enter a room
			# :param room: :class:`aiotfm.room.Room` the room the server is asking for a password.
			self.dispatch('room_password', Room(packet.readUTF()))

		elif CCC == (6, 6): # Room message
			player_id = packet.read32()
			username = packet.readUTF()
			commu = packet.read8()
			message = packet.readUTF()
			player = self.room.get_player(pid=player_id)

			if player is None:
				player = Player(username, pid=player_id)

			# :desc: Called when the client receives a message from the room.
			# :param message: :class:`aiotfm.message.Message` the message.
			self.dispatch('room_message', Message(player, message, commu, self))

		elif CCC == (6, 20): # Server message
			packet.readBool() # if False then the message will appear in the #Server channel
			t_key = packet.readUTF()
			t_args = [packet.readUTF() for i in range(packet.read8())]

			# :desc: Called when the client receives a message from the server that needs to be translated.
			# :param message: :class:`aiotfm.locale.Translation` the message translated with the
			# current locale.
			# :param *args: a list of string used as replacement inside the message.
			self.dispatch('server_message', self.locale[t_key], *t_args)

		elif CCC == (8, 5): # Show emoji
			player = self.room.get_player(pid=packet.read32())
			emoji = packet.read8()

			# :desc: Called a player is showing an emoji above its head.
			# :param player: :class:`aiotfm.Player` the player.
			# :param emoji: :class:`int` the emoji's id.
			self.dispatch('emoji', player, emoji)

		elif CCC == (8, 6): # Player won
			packet.read8()
			player = self.room.get_player(pid=packet.read32())
			player.score = packet.read16()
			order = packet.read8()
			player_time = packet.read16() / 100

			# :desc: Called a player get the cheese to the hole.
			# :param player: :class:`aiotfm.Player` the player.
			# :param order: :class:`int` the order of the player in the hole.
			# :param player_time: :class:`float` player's time in the hole in seconds.
			self.dispatch('player_won', player, order, player_time)

		elif CCC == (8, 16): # Profile
			# :desc: Called when the client receives the result of a /profile command.
			# :param profile: :class:`aiotfm.player.Profile` the profile.
			self.dispatch('profile', Profile(packet))

		elif CCC == (8, 20): # Shop
			# :desc: Called when the client receives the content of the shop.
			# :param shop: :class:`aiotfm.shop.Shop` the shop.
			self.dispatch('shop', Shop(packet))

		elif CCC == (8, 22): # Skills
			skills = {}
			for _ in range(packet.read8()):
				key, value = packet.read8(), packet.read8()
				skills[key] = value

			# :desc: Called when the client receives its skill tree.
			# :param skills: :class:`dict` the skills.
			self.dispatch('skills', skills)

		elif CCC == (16, 2): # Tribe invitation received
			author = packet.readUTF()
			tribe = packet.readUTF()

			# :desc: Called when the client receives an invitation to a tribe. (/inv)
			# :param author: :class:`str` the player that invited you.
			# :param tribe: :class:`str` the tribe.
			self.dispatch('tribe_inv', author, tribe)

		elif CCC == (26, 2): # Logged in successfully
			player_id = packet.read32()
			self.username = username = packet.readUTF()
			played_time = packet.read32()
			community = Community(packet.read8())
			pid = packet.read32()

			# :desc: Called when the client successfully logged in.
			# :param uid: :class:`int` the client's unique id.
			# :param username: :class:`str` the client's username.
			# :param played_time: :class:`int` the total number of minutes the client has played.
			# :param community: :class:`aiotfm.enums.Community` the community the client has connected to.
			# :param pid: :class:`int` the client's player id.
			self.dispatch('logged', player_id, username, played_time, community, pid)

		elif CCC == (26, 3): # Handshake OK
			online_players = packet.read32()
			connection.fingerprint = packet.read8()
			community = Community[packet.readUTF()]
			country = packet.readUTF()
			self.authkey = packet.read32()

			self.loop.create_task(self._heartbeat_loop())

			await connection.send(Packet.new(8, 2).write8(self.community.value).write8(0))

			os_info = Packet.new(28, 17).writeString('en').writeString('Linux')
			os_info.writeString('LNX 29,0,0,140').write8(0)

			await connection.send(os_info)

			# :desc: Called when the client can login through the game.
			# :param online_players: :class:`int` the number of player connected to the game.
			# :param community: :class:`aiotfm.enums.Community` the community the server suggest.
			# :param country: :class:`str` the country detected from your ip.
			self.dispatch('login_ready', online_players, community, country)

		elif CCC == (26, 12): # Login result
			# :desc: Called when the client failed logging.
			# :param code: :class:`int` the error code.
			# :param code: :class:`str` error messages.
			# :param code: :class:`str` error messages.
			self.dispatch('login_result', packet.read8(), packet.readUTF(), packet.readUTF())

		elif CCC == (26, 25): # Ping
			# :desc: Called when the client receives the ping response from the server.
			self.dispatch('ping')

		elif CCC == (28, 6): # Server ping
			await connection.send(Packet.new(28, 6).write8(packet.read8()))

		elif CCC == (29, 6): # Lua logs
			# :desc: Called when the client receives lua logs from #Lua.
			# :param log: :class:`str` a log message.
			self.dispatch('lua_log', packet.readUTF())

		elif CCC == (31, 1): # Inventory data
			self.inventory = Inventory.from_packet(packet)
			self.inventory.client = self

			# :desc: Called when the client receives its inventory's content.
			# :param inventory: :class:`aiotfm.inventory.Inventory` the client's inventory.
			self.dispatch('inventory_update', self.inventory)

		elif CCC == (31, 2): # Update inventory item
			item_id = packet.read16()
			quantity = packet.read8()

			if item_id in self.inventory.items:
				item = self.inventory.items[item_id]
				previous = item.quantity
				item.quantity = quantity

				# :desc: Called when the quantity of an item has been updated.
				# :param item: :class:`aiotfm.inventory.InventoryItem` the new item.
				# :param previous: :class:`aiotfm.inventory.InventoryItem` the previous item.
				self.dispatch('item_update', item, previous)

			else:
				item = InventoryItem(item_id=item_id, quantity=quantity)
				self.inventory.items[item.id] = item

				# :desc: Called when the client receives a new item in its inventory.
				# :param item: :class:`aiotfm.inventory.InventoryItem` the new item.
				self.dispatch('new_item', item)

		elif CCC == (31, 5): # Trade invite
			pid = packet.read32()

			self.trades[pid] = Trade(self, self.room.get_player(pid=pid))

			# :desc: Called when received an invitation to trade.
			# :param trade: :class:`aiotfm.inventory.Trade` the trade object.
			self.dispatch('trade_invite', self.trades[pid])

		elif CCC == (31, 6): # Trade error
			name = packet.readUTF().lower()
			error = packet.read8()

			if name == self.username.lower():
				trade = self.trade
			else:
				for t in self.trades.values():
					if t.trader.lower() == name:
						trade = t
						break

			# :desc: Called when an error occurred with a trade.
			# :param trade: :class:`aiotfm.inventory.Trade` the trade that failed.
			# :param error: :class:`aiotfm.enums.TradeError` the error.
			self.dispatch('trade_error', trade, TradeError[error])
			trade._close()

		elif CCC == (31, 7): # Trade start
			pid = packet.read32()
			trade = self.trades.get(pid)

			if trade is None:
				raise AiotfmException(f'Cannot find the trade from pid {pid}.')

			trade._start()
			self.trade = trade

			# :desc: Called when a trade starts. You can access the trade object with `Client.trade`.
			self.dispatch('trade_start')

		elif CCC == (31, 8): # Trade items
			export = packet.readBool()
			id_ = packet.read16()
			quantity = (1 if packet.readBool() else -1) * packet.read8()

			items = self.trade.exports if export else self.trade.imports
			items.add(id_, quantity)

			trader = self if export else self.trade.trader
			self.trade.locked = [False, False]

			# :desc: Called when an item has been added/removed from the current trade.
			# :param trader: :class:`aiotfm.Player` the player that triggered the event.
			# :param id: :class:`int` the item's id.
			# :param quantity: :class:`int` the quantity added/removed. Can be negative.
			# :param item: :class:`aiotfm.inventory.InventoryItem` the item after the change.
			self.dispatch('trade_item_change', trader, id_, quantity, items.get(id_))

		elif CCC == (31, 9): # Trade lock
			index = packet.read8()
			locked = packet.readBool()
			if index > 1:
				self.trade.locked = [locked, locked]
				who = "both"
			else:
				self.trade.locked[index] = locked
				who = self.trade.trader if index == 0 else self

			# :desc: Called when the trade got (un)locked.
			# :param who: :class:`aiotfm.Player` the player that triggered the event.
			# :param locked: :class:`bool` either the trade got locked or unlocked.
			self.dispatch('trade_lock', who, locked)

		elif CCC == (31, 10): # Trade complete
			trade = self.trade
			self.trade._close(succeed=True)

		elif CCC == (44, 1): # Bulle switching
			timestamp = packet.read32()
			player_id = packet.read32()
			bulle_ip = packet.readUTF()
			ports = packet.readUTF().split('-')

			if self.bulle is not None:
				self.bulle.close()

			self.bulle = Connection('bulle', self, self.loop)
			await self.bulle.connect(bulle_ip, random.choice(ports))
			await self.bulle.send(Packet.new(*CCC).write32(timestamp).write32(player_id))

		elif CCC == (44, 22): # Fingerprint offset changed
			connection.fingerprint = packet.read8()

		elif CCC == (60, 3): # Community platform
			TC = packet.read16()

			# :desc: Called when the client receives a packet from the community platform.
			# :param TC: :class:`int` the packet's code.
			# :param packet: :class:`aiotfm.Packet` the packet.
			self.dispatch('raw_cp', TC, packet.copy(copy_pos=True))

			if TC == 3: # Connected to the community platform
				# :desc: Called when the client is successfully connected to the community platform.
				self.dispatch('ready')

			elif TC == 55: # Channel join result
				result = packet.read8()

				# :desc: Called when the client receives the result of joining a channel.
				# :param result: :class:`int` result code.
				self.dispatch('channel_joined_result', result)

			elif TC == 57: # Channel leave result
				result = packet.read8()

				# :desc: Called when the client receives the result of leaving a channel.
				# :param result: :class:`int` result code.
				self.dispatch('channel_leaved_result', result)

			elif TC == 59: # Channel /who result
				idSequence = packet.read32()
				result = packet.read8()
				players = [Player(packet.readUTF()) for _ in range(packet.read16())]

				# :desc: Called when the client receives the result of the /who command in a channel.
				# :param idSequence: :class:`int` the reference to the packet that performed the request.
				# :param players: List[:class:`aiotfm.Player`] the list of players inside the channel.
				self.dispatch('channel_who', idSequence, players)

			elif TC == 62: # Joined a channel
				name = packet.readUTF()

				if name in self._channels:
					channel = [c for c in self._channels if c == name][0]
				else:
					channel = Channel(name, self)
					self._channels.append(channel)

				# :desc: Called when the client joined a channel.
				# :param channel: :class:`aiotfm.message.Channel` the channel.
				self.dispatch('channel_joined', channel)

			elif TC == 63: # Quit a channel
				name = packet.readUTF()
				if name in self._channels:
					self._channels.remove(name)

				# :desc: Called when the client leaves a channel.
				# :param name: :class:`str` the channel's name.
				self.dispatch('channel_closed', name)

			elif TC == 64: # Channel message
				author, community = packet.readUTF(), packet.read32()
				channel_name, message = packet.readUTF(), packet.readUTF()
				channel = self.get_channel(channel_name)

				if channel is None:
					channel = Channel(channel_name, self)
					self._channels.append(channel)

				channel_message = ChannelMessage(author, community, message, channel)

				# :desc: Called when the client receives a message from a channel.
				# :param message: :class:`aiotfm.message.ChannelMessage` the message.
				self.dispatch('channel_message', channel_message)

			elif TC == 65: # Tribe message
				author, message = packet.readUTF(), packet.readUTF()

				# :desc: Called when the client receives a message from the tribe.
				# :param author: :class:`str` the message's author.
				# :param message: :class:`str` the message's content.
				self.dispatch('tribe_message', author, message)

			elif TC == 66: # Whisper
				author = Player(packet.readUTF())
				commu = packet.read32()
				receiver = Player(packet.readUTF())
				message = packet.readUTF()

				author = self.room.get_player(name=author, default=author)
				receiver = self.room.get_player(name=receiver, default=receiver)

				# :desc: Called when the client receives a whisper.
				# :param message: :class:`aiotfm.message.Whisper` the message.
				self.dispatch('whisper', Whisper(author, commu, receiver, message, self))

			elif TC == 88: # tribe member connected
				# :desc: Called when a tribe member connected.
				# :param name: :class:`str` the member's name.
				self.dispatch('member_connected', packet.readUTF())

			elif TC == 90: # tribe member disconnected
				# :desc: Called when a tribe member disconnected.
				# :param name: :class:`str` the member's name.
				self.dispatch('member_disconnected', packet.readUTF())

			else:
				if self.LOG_UNHANDLED_PACKETS:
					print(CCC, TC, bytes(packet.buffer)[4:])
				return False

		elif CCC == (100, 67): # New inventory item
			slot = packet.read8()
			slot = None if slot == 0 else slot
			item_id = packet.read16()
			quantity = packet.read8()

			item = InventoryItem(item_id=item_id, quantity=quantity, slot=slot)
			self.inventory[item_id] = item
			self.dispatch('new_item', item)

		elif CCC == (144, 1): # Set player list
			before = self.room.players
			self.room.players = {}

			for _ in range(packet.read16()):
				player = Player.from_packet(packet)
				self.room.players[player.pid] = player

			# :desc: Called when the client receives an update of all player in the room.
			# :param before: Dict[:class:`aiotfm.Player`] the list of player before the update.
			# :param players: Dict[:class:`aiotfm.Player`] the list of player updated.
			self.dispatch('bulk_player_update', before, self.room.players)

		elif CCC == (144, 2): # Add a player
			after = Player.from_packet(packet)
			before = self.room.players.pop(after.pid, None)

			self.room.players[after.pid] = after
			if before is None:
				# :desc: Called when a player joined the room.
				# :param player: :class:`aiotfm.Player` the player.
				self.dispatch('player_join', after)
			else:
				# :desc: Called when a player's data on the room has been updated.
				# :param before: :class:`aiotfm.Player` the player before the update.
				# :param player: :class:`aiotfm.Player` the player updated.
				self.dispatch('player_update', before, after)

		else:
			if self.LOG_UNHANDLED_PACKETS:
				print(CCC, bytes(packet.buffer)[2:])
			return False

		return True
コード例 #6
0
    async def handle_packet(self, connection: Connection, packet: Packet):
        """|coro|
		Handles the known packets and dispatches events.
		Subclasses should handle only the unhandled packets from this method.

		Example: ::
			class Bot(aiotfm.Client):
				async def handle_packet(self, conn, packet):
					handled = await super().handle_packet(conn, packet.copy())

					if not handled:
						# Handle here the unhandled packets.
						pass

		:param connection: :class:`aiotfm.connection.Connection` the connection that received the packet.
		:param packet: :class:`aiotfm.Packet` the packet.
		:return: True if the packet got handled, False otherwise.
		"""
        CCC = packet.readCode()
        if CCC == (1, 1):  # Old packets
            data = packet.readBytes().split(b'\x01')
            oldCCC = tuple(data.pop(0)[:2])
            self.dispatch('old_packet', connection, oldCCC, data)
            return await self.handle_old_packet(connection, oldCCC, data)

        elif CCC == (5, 21):  # Joined room
            room = self.room = Room(private=not packet.readBool(),
                                    name=packet.readUTF())
            self.dispatch('joined_room', room)

        elif CCC == (6, 6):  # Room message
            player_id = packet.read32()
            username = packet.readUTF()
            commu = packet.read8()
            message = packet.readUTF()
            self.dispatch(
                'room_message',
                Message(Player(username, pid=player_id), message, commu, self))

        elif CCC == (6, 20):  # Server message
            packet.readBool(
            )  # if False then the message will appear in the #Server channel
            t_key = packet.readUTF()
            t_args = [packet.readUTF() for i in range(packet.read8())]
            self.dispatch('server_message', self.locale[t_key], *t_args)

        elif CCC == (8, 5):  # Show emoji
            player = self.room.get_player(pid=packet.read32())
            emoji = packet.read8()
            self.dispatch('emoji', player, emoji)

        elif CCC == (8, 16):  # Profile
            self.dispatch('profile', Profile(packet))

        elif CCC == (8, 20):  # Shop
            self.dispatch('shop', Shop(packet))

        elif CCC == (8, 22):  # Skills
            skills = {}
            for i in range(packet.read8()):
                key, value = packet.read8(), packet.read8()
                skills[key] = value
            self.dispatch('skills', skills)

        elif CCC == (16, 2):  # Tribe invitation received
            author = packet.readUTF()
            tribe = packet.readUTF()
            self.dispatch('tribe_inv', author, tribe)

        elif CCC == (26, 2):  # Logged in successfully
            player_id = packet.read32()
            self.username = username = packet.readUTF()
            played_time = packet.read32()
            community = packet.read8()
            pid = packet.read32()
            self.dispatch('logged', player_id, username, played_time,
                          community, pid)

        elif CCC == (26, 3):  # Handshake OK
            online_players = packet.read32()  # online players
            connection.fingerprint = packet.read8()
            community = packet.readUTF()  # community
            country = packet.readUTF()  # country
            self.authkey = packet.read32()

            self.loop.create_task(self._heartbeat_loop())

            await connection.send(
                Packet.new(8, 2).write8(self.community).write8(0))

            os_info = Packet.new(28, 17).writeString('en').writeString('Linux')
            os_info.writeString('LNX 29,0,0,140').write8(0)

            await connection.send(os_info)
            self.dispatch('login_ready', online_players, community, country)

        elif CCC == (26, 12):  # Login result
            self.dispatch('login_result', packet.read8(), packet.readUTF(),
                          packet.readUTF())

        elif CCC == (26, 25):  # Ping
            self.dispatch('ping')

        elif CCC == (28, 6):  # Server ping
            await connection.send(Packet.new(28, 6).write8(packet.read8()))

        elif CCC == (29, 6):  # Lua logs
            self.dispatch('lua_log', packet.readUTF())

        elif CCC == (31, 1):  # Inventory data
            self.inventory = Inventory.from_packet(packet)
            self.inventory.client = self
            self.dispatch('inventory_update', self.inventory)

        elif CCC == (31, 2):  # Update inventory item
            id = packet.read16()
            quantity = packet.read8()

            if id in self.inventory.items:
                item = self.inventory.items[id]
                previous = item.quantity
                item.quantity = quantity
                self.dispatch('item_update', item, previous)

            else:
                item = InventoryItem(id=id, quantity=quantity)
                self.inventory.items[item.id] = item
                self.dispatch('new_item', item)

        elif CCC == (31, 5):  # Trade invite
            player = self.room.get_player(pid=packet.read32())
            trade = Trade(player, self)
            self.trades.append(trade)
            trade.alive = True
            trade.on_invite = True
            self.dispatch('trade_invite', trade)

        elif CCC == (31, 6):  # Trade error
            name = packet.readUTF()
            error = packet.read8()

            if name == "":
                if self.trade._other.username == name:
                    self.trade._close()
                    self.dispatch('trade_error', self.trade, error)
                    self.dispatch('trade_close', self.trade)

            else:
                for trade in self.trades:
                    if trade._other.username == name:
                        trade._close()
                        self.dispatch('trade_error', trade, error)
                        self.dispatch('trade_close', trade)
                        break

        elif CCC == (31, 7):  # Trade start
            player = self.room.get_player(pid=packet.read32())
            player.trade.on_invite = False
            player.trade.alive = True

            if self.trade is not None:
                trade = self.trade
                self.trade._close()
                self.dispatch('trade_close', trade)
            self.trade = player.trade
            self.dispatch('trade_start', self.trade)

        elif CCC == (31, 8):  # Trade items
            me = packet.readBool()
            id = packet.read16()
            adding = packet.readBool()
            quantity = packet.read8()
            quantity = (1 if adding else -1) * quantity

            items = self.trade.items_me if me else self.trade.items_other
            if id in items:
                items[id] += quantity
            else:
                items[id] = quantity
            if items[id] == 0:
                del items[id]

            self.trade.locked_me = False
            self.trade.locked_other = False

            self.dispatch('trade_item_change', self.trade,
                          self if me else self.trade._other, id, quantity,
                          items[id] if id in items else 0)

        elif CCC == (31, 9):  # Trade lock
            if packet.readBool():
                self.trade.locked_me = packet.readBool()
                self.dispatch('trade_lock', self.trade, self,
                              self.trade.locked_me)
            else:
                self.trade.locked_other = packet.readBool()
                self.dispatch('trade_lock', self.trade, self.trade._other,
                              self.trade.locked_other)

        elif CCC == (31, 10):  # Trade complete
            trade = self.trade
            self.trade._close()
            self.dispatch('trade_complete', trade)

        elif CCC == (44, 1):  # Bulle switching
            bulle_id = packet.read32()
            bulle_ip = packet.readString().decode()

            if self.bulle is not None:
                self.bulle.close()

            self.bulle = Connection('bulle', self, self.loop)
            await self.bulle.connect(bulle_ip, self.main.address[1])
            await self.bulle.send(Packet.new(*CCC).write32(bulle_id))

        elif CCC == (44, 22):  # Fingerprint offset changed
            connection.fingerprint = packet.read8()

        elif CCC == (60, 3):  # Community platform
            TC = packet.read16()
            self.dispatch('raw_cp', TC, packet.copy(True))

            if TC == 3:  # Connected to the community platform
                self.dispatch('ready')

            elif TC == 55:  # Channel join result
                result = packet.read8()
                self.dispatch('channel_joined_result', result)

            elif TC == 57:  # Channel leave result
                result = packet.read8()
                self.dispatch('channel_leaved_result', result)

            elif TC == 59:  # Channel /who result
                idSequence = packet.read32()
                result = packet.read8()
                players = [
                    Player(packet.readUTF()) for _ in range(packet.read16())
                ]
                self.dispatch('channel_who', idSequence, players)

            elif TC == 62:  # Joined a channel
                name = packet.readUTF()

                if name in self._channels:
                    channel = [c for c in self._channels if c == name][0]
                else:
                    channel = Channel(name, self)
                    self._channels.append(channel)

                self.dispatch('channel_joined', channel)

            elif TC == 63:  # Quit a channel
                name = packet.readUTF()
                if name in self._channels:
                    self._channels.remove(name)

                self.dispatch('channel_closed', name)

            elif TC == 64:  # Channel message
                author, community = packet.readUTF(), packet.read32()
                channel_name, message = packet.readUTF(), packet.readUTF()
                channel = self.get_channel(channel_name)

                if channel is None:
                    channel = Channel(channel_name, self)
                    self._channels.append(channel)

                self.dispatch(
                    'channel_message',
                    ChannelMessage(author, community, message, channel))

            elif TC == 65:  # Tribe message
                author, message = packet.readUTF(), packet.readUTF()
                self.dispatch('tribe_message', author, message)

            elif TC == 66:  # Whisper
                author, commu, receiver, message = Player(
                    packet.readUTF()), packet.read32(), Player(
                        packet.readUTF()), packet.readUTF()
                self.dispatch('whisper',
                              Whisper(author, commu, receiver, message, self))

            elif TC == 88:  # tribe member connected
                self.dispatch('member_connected', packet.readUTF())

            elif TC == 90:  # tribe member disconnected
                self.dispatch('member_disconnected', packet.readUTF())

            else:
                if self.LOG_UNHANDLED_PACKETS:
                    print(CCC, TC, bytes(packet.buffer)[4:])
                return False

        elif CCC == (100, 67):  # New inventory item
            slot = packet.read8()
            id = packet.read16()
            quantity = packet.read8()

            item = InventoryItem(id=id,
                                 quantity=quantity,
                                 slot=None if slot == 0 else slot)
            self.inventory[id] = item
            self.dispatch('new_item', item)

        elif CCC == (144, 1):  # Set player list
            before = self.room.players
            self.room.players = []

            for player in range(packet.read16()):
                self.room.players.append(Player.from_packet(packet))

            for player in before:
                if player.trade is not None:
                    after = self.room.get_player(pid=player.pid)

                    if after is not None:
                        player.trade._update_player(after)
                    else:
                        trade = player.trade
                        player.trade._close()
                        self.dispatch('trade_close', trade)

            self.dispatch('bulk_player_update', before, self.room.players)

        elif CCC == (144, 2):  # Add a player
            after = Player.from_packet(packet)
            before = self.room.get_player(pid=after.pid)

            self.room.players.append(after)
            if before is None:
                self.dispatch('player_join', after)
            else:
                self.room.players.remove(before)
                if before.trade is not None:
                    before.trade._update_player(after)
                self.dispatch('player_update', before, after)

        else:
            if self.LOG_UNHANDLED_PACKETS:
                print(CCC, bytes(packet.buffer)[2:])
            return False

        return True
コード例 #7
0
class Client:
    """Represents a client that connects to Transformice.
	Two argument can be passed to the :class:`Client`.

	.. _event loop: https://docs.python.org/3/library/asyncio-eventloops.html

	Parameters
	----------
	community: Optional[:class:`int`]
		Defines the community of the client. Defaults to 0 (EN community).
	loop: Optional[event loop]
		The `event loop`_ to use for asynchronous operations. If ``None`` is passed (defaults),
		the event loop used will be ``asyncio.get_event_loop()``.

	Attributes
	----------
	username: Optional[:class:`str`]
		The bot's username received from the server. Might be None if the bot didn't log in yet.
	room: Optional[:class:`aiotfm.room.Room`]
		The bot's room. Might be None if the bot didn't log in yet or couldn't join any room yet.
	trade: Optional[:class:`aiotfm.inventory.Trade`]
		The current trade that's going on (i.e: both traders accepted it).
	trades: :class:`list`[:class:`aiotfm.inventory.Trade`]
		All the trades that the bot participates. Most of them might be invitations only.
	inventory: Optional[:class:`aiotfm.inventory.Inventory`]
		The bot's inventory. Might be None if the bot didn't log in yet or it didn't receive anything.
	locale: :class:`aiotfm.locale.Locale`
		The bot's locale (translations).
	"""
    LOG_UNHANDLED_PACKETS = False

    def __init__(self, community=0, loop=None):
        self.loop = loop or asyncio.get_event_loop()

        self.main = Connection('main', self, self.loop)
        self.bulle = None

        self._waiters = {}

        self.room = None
        self.trade = None
        self.trades = []
        self.inventory = None

        self.username = None
        self.locale = Locale()
        self.community = community  # EN
        self.cp_fingerprint = 0

        self._channels = []

    async def received_data(self, data, connection):
        """|coro|
		Dispatches the received data.

		:param data: :class:`bytes` the received data.
		:param connection: :class:`aiotfm.connection.Connection` the connection that received the data.
		"""
        self.dispatch('raw_socket', connection, Packet(data))
        try:
            await self.handle_packet(connection, Packet(data))
        except Exception:
            traceback.print_exc()

    async def handle_packet(self, connection: Connection, packet: Packet):
        """|coro|
		Handles the known packets and dispatches events.
		Subclasses should handle only the unhandled packets from this method.

		Example: ::
			class Bot(aiotfm.Client):
				async def handle_packet(self, conn, packet):
					handled = await super().handle_packet(conn, packet.copy())

					if not handled:
						# Handle here the unhandled packets.
						pass

		:param connection: :class:`aiotfm.connection.Connection` the connection that received the packet.
		:param packet: :class:`aiotfm.Packet` the packet.
		:return: True if the packet got handled, False otherwise.
		"""
        CCC = packet.readCode()
        if CCC == (1, 1):  # Old packets
            data = packet.readBytes().split(b'\x01')
            oldCCC = tuple(data.pop(0)[:2])
            self.dispatch('old_packet', connection, oldCCC, data)
            return await self.handle_old_packet(connection, oldCCC, data)

        elif CCC == (5, 21):  # Joined room
            room = self.room = Room(private=not packet.readBool(),
                                    name=packet.readUTF())
            self.dispatch('joined_room', room)

        elif CCC == (6, 6):  # Room message
            player_id = packet.read32()
            username = packet.readUTF()
            commu = packet.read8()
            message = packet.readUTF()
            self.dispatch(
                'room_message',
                Message(Player(username, pid=player_id), message, commu, self))

        elif CCC == (6, 20):  # Server message
            packet.readBool(
            )  # if False then the message will appear in the #Server channel
            t_key = packet.readUTF()
            t_args = [packet.readUTF() for i in range(packet.read8())]
            self.dispatch('server_message', self.locale[t_key], *t_args)

        elif CCC == (8, 5):  # Show emoji
            player = self.room.get_player(pid=packet.read32())
            emoji = packet.read8()
            self.dispatch('emoji', player, emoji)

        elif CCC == (8, 16):  # Profile
            self.dispatch('profile', Profile(packet))

        elif CCC == (8, 20):  # Shop
            self.dispatch('shop', Shop(packet))

        elif CCC == (8, 22):  # Skills
            skills = {}
            for i in range(packet.read8()):
                key, value = packet.read8(), packet.read8()
                skills[key] = value
            self.dispatch('skills', skills)

        elif CCC == (16, 2):  # Tribe invitation received
            author = packet.readUTF()
            tribe = packet.readUTF()
            self.dispatch('tribe_inv', author, tribe)

        elif CCC == (26, 2):  # Logged in successfully
            player_id = packet.read32()
            self.username = username = packet.readUTF()
            played_time = packet.read32()
            community = packet.read8()
            pid = packet.read32()
            self.dispatch('logged', player_id, username, played_time,
                          community, pid)

        elif CCC == (26, 3):  # Handshake OK
            online_players = packet.read32()  # online players
            connection.fingerprint = packet.read8()
            community = packet.readUTF()  # community
            country = packet.readUTF()  # country
            self.authkey = packet.read32()

            self.loop.create_task(self._heartbeat_loop())

            await connection.send(
                Packet.new(8, 2).write8(self.community).write8(0))

            os_info = Packet.new(28, 17).writeString('en').writeString('Linux')
            os_info.writeString('LNX 29,0,0,140').write8(0)

            await connection.send(os_info)
            self.dispatch('login_ready', online_players, community, country)

        elif CCC == (26, 12):  # Login result
            self.dispatch('login_result', packet.read8(), packet.readUTF(),
                          packet.readUTF())

        elif CCC == (26, 25):  # Ping
            self.dispatch('ping')

        elif CCC == (28, 6):  # Server ping
            await connection.send(Packet.new(28, 6).write8(packet.read8()))

        elif CCC == (29, 6):  # Lua logs
            self.dispatch('lua_log', packet.readUTF())

        elif CCC == (31, 1):  # Inventory data
            self.inventory = Inventory.from_packet(packet)
            self.inventory.client = self
            self.dispatch('inventory_update', self.inventory)

        elif CCC == (31, 2):  # Update inventory item
            id = packet.read16()
            quantity = packet.read8()

            if id in self.inventory.items:
                item = self.inventory.items[id]
                previous = item.quantity
                item.quantity = quantity
                self.dispatch('item_update', item, previous)

            else:
                item = InventoryItem(id=id, quantity=quantity)
                self.inventory.items[item.id] = item
                self.dispatch('new_item', item)

        elif CCC == (31, 5):  # Trade invite
            player = self.room.get_player(pid=packet.read32())
            trade = Trade(player, self)
            self.trades.append(trade)
            trade.alive = True
            trade.on_invite = True
            self.dispatch('trade_invite', trade)

        elif CCC == (31, 6):  # Trade error
            name = packet.readUTF()
            error = packet.read8()

            if name == "":
                if self.trade._other.username == name:
                    self.trade._close()
                    self.dispatch('trade_error', self.trade, error)
                    self.dispatch('trade_close', self.trade)

            else:
                for trade in self.trades:
                    if trade._other.username == name:
                        trade._close()
                        self.dispatch('trade_error', trade, error)
                        self.dispatch('trade_close', trade)
                        break

        elif CCC == (31, 7):  # Trade start
            player = self.room.get_player(pid=packet.read32())
            player.trade.on_invite = False
            player.trade.alive = True

            if self.trade is not None:
                trade = self.trade
                self.trade._close()
                self.dispatch('trade_close', trade)
            self.trade = player.trade
            self.dispatch('trade_start', self.trade)

        elif CCC == (31, 8):  # Trade items
            me = packet.readBool()
            id = packet.read16()
            adding = packet.readBool()
            quantity = packet.read8()
            quantity = (1 if adding else -1) * quantity

            items = self.trade.items_me if me else self.trade.items_other
            if id in items:
                items[id] += quantity
            else:
                items[id] = quantity
            if items[id] == 0:
                del items[id]

            self.trade.locked_me = False
            self.trade.locked_other = False

            self.dispatch('trade_item_change', self.trade,
                          self if me else self.trade._other, id, quantity,
                          items[id] if id in items else 0)

        elif CCC == (31, 9):  # Trade lock
            if packet.readBool():
                self.trade.locked_me = packet.readBool()
                self.dispatch('trade_lock', self.trade, self,
                              self.trade.locked_me)
            else:
                self.trade.locked_other = packet.readBool()
                self.dispatch('trade_lock', self.trade, self.trade._other,
                              self.trade.locked_other)

        elif CCC == (31, 10):  # Trade complete
            trade = self.trade
            self.trade._close()
            self.dispatch('trade_complete', trade)

        elif CCC == (44, 1):  # Bulle switching
            bulle_id = packet.read32()
            bulle_ip = packet.readString().decode()

            if self.bulle is not None:
                self.bulle.close()

            self.bulle = Connection('bulle', self, self.loop)
            await self.bulle.connect(bulle_ip, self.main.address[1])
            await self.bulle.send(Packet.new(*CCC).write32(bulle_id))

        elif CCC == (44, 22):  # Fingerprint offset changed
            connection.fingerprint = packet.read8()

        elif CCC == (60, 3):  # Community platform
            TC = packet.read16()
            self.dispatch('raw_cp', TC, packet.copy(True))

            if TC == 3:  # Connected to the community platform
                self.dispatch('ready')

            elif TC == 55:  # Channel join result
                result = packet.read8()
                self.dispatch('channel_joined_result', result)

            elif TC == 57:  # Channel leave result
                result = packet.read8()
                self.dispatch('channel_leaved_result', result)

            elif TC == 59:  # Channel /who result
                idSequence = packet.read32()
                result = packet.read8()
                players = [
                    Player(packet.readUTF()) for _ in range(packet.read16())
                ]
                self.dispatch('channel_who', idSequence, players)

            elif TC == 62:  # Joined a channel
                name = packet.readUTF()

                if name in self._channels:
                    channel = [c for c in self._channels if c == name][0]
                else:
                    channel = Channel(name, self)
                    self._channels.append(channel)

                self.dispatch('channel_joined', channel)

            elif TC == 63:  # Quit a channel
                name = packet.readUTF()
                if name in self._channels:
                    self._channels.remove(name)

                self.dispatch('channel_closed', name)

            elif TC == 64:  # Channel message
                author, community = packet.readUTF(), packet.read32()
                channel_name, message = packet.readUTF(), packet.readUTF()
                channel = self.get_channel(channel_name)

                if channel is None:
                    channel = Channel(channel_name, self)
                    self._channels.append(channel)

                self.dispatch(
                    'channel_message',
                    ChannelMessage(author, community, message, channel))

            elif TC == 65:  # Tribe message
                author, message = packet.readUTF(), packet.readUTF()
                self.dispatch('tribe_message', author, message)

            elif TC == 66:  # Whisper
                author, commu, receiver, message = Player(
                    packet.readUTF()), packet.read32(), Player(
                        packet.readUTF()), packet.readUTF()
                self.dispatch('whisper',
                              Whisper(author, commu, receiver, message, self))

            elif TC == 88:  # tribe member connected
                self.dispatch('member_connected', packet.readUTF())

            elif TC == 90:  # tribe member disconnected
                self.dispatch('member_disconnected', packet.readUTF())

            else:
                if self.LOG_UNHANDLED_PACKETS:
                    print(CCC, TC, bytes(packet.buffer)[4:])
                return False

        elif CCC == (100, 67):  # New inventory item
            slot = packet.read8()
            id = packet.read16()
            quantity = packet.read8()

            item = InventoryItem(id=id,
                                 quantity=quantity,
                                 slot=None if slot == 0 else slot)
            self.inventory[id] = item
            self.dispatch('new_item', item)

        elif CCC == (144, 1):  # Set player list
            before = self.room.players
            self.room.players = []

            for player in range(packet.read16()):
                self.room.players.append(Player.from_packet(packet))

            for player in before:
                if player.trade is not None:
                    after = self.room.get_player(pid=player.pid)

                    if after is not None:
                        player.trade._update_player(after)
                    else:
                        trade = player.trade
                        player.trade._close()
                        self.dispatch('trade_close', trade)

            self.dispatch('bulk_player_update', before, self.room.players)

        elif CCC == (144, 2):  # Add a player
            after = Player.from_packet(packet)
            before = self.room.get_player(pid=after.pid)

            self.room.players.append(after)
            if before is None:
                self.dispatch('player_join', after)
            else:
                self.room.players.remove(before)
                if before.trade is not None:
                    before.trade._update_player(after)
                self.dispatch('player_update', before, after)

        else:
            if self.LOG_UNHANDLED_PACKETS:
                print(CCC, bytes(packet.buffer)[2:])
            return False

        return True

    async def handle_old_packet(self, connection: Connection, oldCCC: tuple,
                                data: list):
        """|coro|
		Handles the known packets from the old protocol and dispatches events.
		Subclasses should handle only the unhandled packets from this method.

		Example: ::
			class Bot(aiotfm.Client):
				async def handle_old_packet(self, conn, oldCCC, data):
					handled = await super().handle_old_packet(conn, data.copy())

					if not handled:
						# Handle here the unhandled packets.
						pass

		:param connection: :class:`aiotfm.connection.Connection` the connection that received the packet.
		:param oldCCC: :class:`tuple` the packet identifiers on the old protocol.
		:param data: :class:`list` the packet data.
		:return: True if the packet got handled, False otherwise.
		"""
        if oldCCC == (8, 7):  # Remove a player
            player = self.room.get_player(pid=int(data[0]))

            if player is not None:
                self.room.players.remove(player)
                if player.trade is not None:
                    trade = player[1].trade
                    player.trade._close()
                    self.dispatch('trade_close', trade)
                self.dispatch('player_remove', player)

        else:
            if self.LOG_UNHANDLED_PACKETS:
                print("[OLD]", oldCCC, data)
            return False

        return True

    async def _heartbeat_loop(self):
        """|coro|
		Send a packet every fifteen seconds to stay connected to the game.
		"""
        last_heartbeat = 0
        while self.main.open:
            if self.loop.time() - last_heartbeat >= 15:
                t = time.perf_counter()
                await self.main.send(Packet.new(26, 26))
                await self.main.send(Packet.new(26, 26))
                if self.bulle is not None and self.bulle.open:
                    await self.bulle.send(Packet.new(26, 26))

                self.dispatch('heartbeat', (time.perf_counter() - t) * 1000)
                last_heartbeat = self.loop.time()
            await asyncio.sleep(.5)

    def get_channel(self, name):
        if name is None:
            return None

        for channel in self._channels:
            if channel.name == name:
                return channel

    def event(self, coro):
        """A decorator that registers an event.

		More about events [here](Events.md).
		"""
        name = coro.__name__
        if not name.startswith('on_'):
            raise InvalidEvent(
                "'{}' isn't a correct event naming.".format(name))
        if not asyncio.iscoroutinefunction(coro):
            raise InvalidEvent(
                "Couldn't register a non-coroutine function for the event {}.".
                format(name))

        setattr(self, name, coro)
        return coro

    def wait_for(self,
                 event,
                 condition=None,
                 timeout=None,
                 stopPropagation=False):
        """Wait for an event.

		Example: ::
			@client.event
			async def on_room_message(author, message):
				if message=='id':
					await client.sendCommand('profile '+author)
					profile = await client.wait_for('on_profile', lambda p: p.username==author)
					await client.sendRoomMessage('Your id: {}'.format(profile.id))

		:param event: :class:`str` the event name.
		:param condition: Optionnal[:class:`function`] A predicate to check what to wait for. The arguments must meet the parameters of the event being waited for.
		:param timeout: Optionnal[:class:`int`] the number of seconds before raise asyncio.TimeoutError
		:return: :class:`asyncio.Future` a future that you must await.
		"""
        event = event.lower()
        future = self.loop.create_future()

        if condition is None:

            def condition(*a):
                return True

        if event not in self._waiters:
            self._waiters[event] = []

        self._waiters[event].append((condition, future, stopPropagation))

        return asyncio.wait_for(future, timeout, loop=self.loop)

    async def _run_event(self, coro, event_name, *args, **kwargs):
        """|coro|
		Runs an event and handle the error if any.

		:param coro: a coroutine function.
		:param event_name: :class:`str` the event's name.
		:param args: arguments to pass to the coro.
		:param kwargs: keyword arguments to pass to the coro.
		"""
        try:
            await coro(*args, **kwargs)
        except asyncio.CancelledError:
            pass
        except Exception as e:
            if hasattr(self, 'on_error'):
                try:
                    await self.on_error(event_name, e, *args, **kwargs)
                except asyncio.CancelledError:
                    pass

    def dispatch(self, event, *args, **kwargs):
        """Dispatches events

		:param event: :class:`str` event's name. (without 'on_')
		:param args: arguments to pass to the coro.
		:param kwargs: keyword arguments to pass to the coro.
		"""
        method = 'on_' + event

        if method in self._waiters:
            to_remove = []
            waiters = self._waiters[method]
            for i, (cond, fut, stop) in enumerate(waiters):
                if fut.cancelled():
                    to_remove.append(i)
                    continue

                try:
                    result = bool(cond(*args))
                except Exception as e:
                    fut.set_exception(e)
                else:
                    if result:
                        fut.set_result(args[0] if len(args) ==
                                       1 else args if len(args) else None)
                        if stop:
                            del waiters[i]
                            return
                        else:
                            to_remove.append(i)

            if len(to_remove) == len(waiters):
                del self._waiters[method]
            else:
                for i in to_remove[::-1]:
                    del waiters[i]

        coro = getattr(self, method, None)
        if coro is not None:
            asyncio.ensure_future(self._run_event(coro, method, *args,
                                                  **kwargs),
                                  loop=self.loop)

    async def on_error(self, event, err, *a, **kw):
        message = '\nAn error occurred while dispatching the event "{0}":\n\n{2}'
        tb = traceback.format_exc(limit=-1)
        print(message.format(event, err, tb), file=sys.stderr)
        return message.format(event, err, tb)

    async def on_connection_error(self, conn, error):
        print('{0.__class__.__name__}: {0}'.format(error), file=sys.stderr)

        if isinstance(error, EOFError):
            self.close()

    async def start(self, api_tfmid, api_token, keys=None):
        """|coro|
		Connects the client to the game.

		:param api_tfmid: :class:`int` or :class:`str` your Transformice id.
		:param api_token: :class:`str` your token to access the API.
		"""
        if keys is not None:
            self.keys = keys
        else:
            self.keys = keys = await get_keys(api_tfmid, api_token)

        for port in [13801, 11801, 12801, 14801]:
            try:
                await self.main.connect('94.23.193.229', port)
            except:
                pass
            else:
                break
        else:
            raise ConnectionError('Unable to connect to the server.')

        while not self.main.socket.connected:
            await asyncio.sleep(.1)

        packet = Packet.new(28, 1).write16(keys.version).writeString(
            keys.connection)
        packet.writeString('Desktop').writeString('-').write32(
            0x1fbd).writeString('')
        packet.writeString(
            '74696720697320676f6e6e61206b696c6c206d7920626f742e20736f20736164')
        packet.writeString(
            "A=t&SA=t&SV=t&EV=t&MP3=t&AE=t&VE=t&ACC=t&PR=t&SP=f&SB=f&DEB=f&V=LNX 29,0,0,140&M=Adobe Linux&R=1920x1080&COL=color&AR=1.0&OS=Linux&ARCH=x86&L=en&IME=t&PR32=t&PR64=t&LS=en-US&PT=Desktop&AVD=f&LFD=f&WD=f&TLS=t&ML=5.1&DP=72"
        )
        packet.write32(0).write32(0x6257).writeString('')

        await self.main.send(packet)
        await self.locale.load()

    async def login(self, username, password, encrypted=True, room='1'):
        """|coro|
		Log in the game.

		:param username: :class:`str` the client username.
		:param password: :class:`str` the client password.
		:param encrypted: Optional[:class:`bool`] whether the password is already encrypted or not.
		:param room: Optional[:class:`str`] the room where the client will be logged in.
		"""
        if not encrypted:
            from .utils import shakikoo
            password = shakikoo(password)

        packet = Packet.new(26, 8).writeString(username).writeString(password)
        packet.writeString(
            "app:/TransformiceAIR.swf/[[DYNAMIC]]/2/[[DYNAMIC]]/4")
        packet.writeString(room).write32(self.authkey ^ self.keys.auth).write8(
            0).writeString('')
        packet.cipher(self.keys.identification).write8(0)

        await self.main.send(packet)

    def run(self, api_tfmid, api_token, username, password, **kwargs):
        """A blocking call that do the event loop initialization for you.

		Equivalent to ::
			@bot.event
			async def on_login_ready(*a):
				await bot.login(username, password)

			loop = asyncio.get_event_loop()
			loop.create_task(bot.start(api_id, api_token))
			loop.run_forever()
		"""
        asyncio.ensure_future(self.start(api_tfmid,
                                         api_token,
                                         keys=kwargs.pop('keys', None)),
                              loop=self.loop)
        self.loop.run_until_complete(self.wait_for('on_login_ready'))
        asyncio.ensure_future(self.login(username, password, **kwargs),
                              loop=self.loop)

        try:
            self.loop.run_forever()
        except Exception as e:
            # add self.close
            # asyncio.ensure_future(self.close())
            raise e

    def close(self):
        self.main.close()
        if self.bulle is not None:
            self.bulle.close()
        self.loop.stop()

    async def sendCP(self, code, data=b''):
        """|coro|
		Send a packet to the community platform.

		:param code: :class:`int` the community platform code.
		:param data: :class:`Packet` or :class:`bytes` the data.
		"""
        self.cp_fingerprint = fp = (self.cp_fingerprint + 1) % 0XFFFFFFFF

        packet = Packet.new(60, 3).write16(code)
        packet.write32(self.cp_fingerprint).writeBytes(data)
        await self.main.send(packet, cipher=True)

        return fp

    async def sendRoomMessage(self, message):
        """|coro|
		Send a message to the room.

		:param message: :class:`str` the content of the message.
		"""
        packet = Packet.new(6, 6).writeString(message)

        await self.bulle.send(packet, cipher=True)

    async def sendTribeMessage(self, message):
        """|coro|
		Send a message to the tribe.

		:param message: :class:`str` the content of the message.
		"""
        await self.sendCP(50, Packet().writeString(message))

    async def sendChannelMessage(self, channel, message):
        """|coro|
		Send a message to a public channel.

		:param channel: :class:`str` the channel's name.
		:param message: :class:`str` the content of the message.
		"""
        if isinstance(channel, Channel):
            channel = channel.name

        return await self.sendCP(
            48,
            Packet().writeString(channel).writeString(message))

    async def whisper(self, username, message, overflow=False):
        """|coro|
		Whisper to a player.

		:param username: :class:`str` the player to whisper.
		:param message: :class:`str` the content of the whisper.
		:param overflow: :class:`bool` will send the complete message if True, splitted in several messages.
		"""
        if isinstance(username, Player):
            username = username.username

        async def send(msg):
            await self.sendCP(52,
                              Packet().writeString(username).writeString(msg))

        if isinstance(message, str):
            message = message.encode()
        message = message.replace(b'<', b'&lt;').replace(b'>', b'&gt;')

        await send(message[:255])
        for i in range(255, len(message), 255):
            await asyncio.sleep(1)
            await self.whisper(username, message[i:i + 255])

    async def getTribe(self, disconnected=True):
        """|coro|
		Gets the client's :class:`Tribe` and return it

		:param disconnected: :class:`bool` if True retrieves also the disconnected members.
		:return: :class:`Tribe` or ``None``.
		"""
        sid = self.cp_fingerprint + 1
        await self.sendCP(108, Packet().writeBool(disconnected))
        tc, packet = await self.wait_for(
            'on_raw_cp', lambda tc, p:
            (tc == 109 and p.read32() == sid) or tc == 130)
        if tc == 109:
            result = packet.readByte()
            if result == 1:
                tc, packet = await self.wait_for('on_raw_cp',
                                                 lambda tc, p: tc == 130)
            elif result == 17:
                return None
            else:
                raise CommunityPlatformError(118, result)
        return Tribe(packet)

    async def playEmote(self, id, flag='be'):
        """|coro|
		Play an emote.

		:param id: :class:`int` the emote's id.
		:param flag: Optional[:class:`str`] the flag for the emote id 10. Defaults to 'be'.
		"""
        packet = Packet.new(8, 1).write8(id).write32(0)
        if id == 10:
            packet.writeString(flag)

        await self.bulle.send(packet)

    async def sendSmiley(self, id):
        """|coro|
		Makes the client showing a smiley above it's head.

		:param id: :class:`int` the smiley's id. (from 0 to 9)
		"""
        if id < 0 or id > 9:
            raise AiotfmException('Invalid smiley id')

        packet = Packet.new(8, 5).write8(id).write32(0)

        await self.bulle.send(packet)

    async def loadLua(self, lua_code):
        """|coro|
		Load a lua code in the room.

		:param lua_code: :class:`str` or :class:`bytes` the lua code to send.
		"""
        if isinstance(lua_code, str):
            lua_code = lua_code.encode()

        packet = Packet.new(29, 1).write24(len(lua_code)).writeBytes(lua_code)

        await self.bulle.send(packet)

    async def sendCommand(self, command):
        """|coro|
		Send a command to the game.

		:param command: :class:`str` the command to send.
		"""
        packet = Packet.new(6, 26).writeString(command[:255])

        await self.main.send(packet, cipher=True)

    async def enterTribe(self):
        """|coro|
		Enter the tribe house
		"""
        await self.main.send(Packet.new(16, 1))

    async def enterTribeHouse(self):
        """|coro|
		Alias for :meth:`enterTribe`
		"""
        await self.enterTribe()

    async def joinRoom(self, room_name, community=None, auto=False):
        """|coro|
		Join a room.
		The event 'on_joined_room' is dispatched when the client has successfully joined the room.

		:param room_name: :class:`str` the room's name.
		:param community: Optional[:class:`int`] the room's community.
		:param auto: Optional[:class:`bool`] joins a random room (I think).
		"""
        packet = Packet.new(5, 38).write8(community or self.community)
        packet.writeString(room_name).writeBool(auto)
        await self.main.send(packet)

    async def joinChannel(self, name, permanent=True):
        """|coro|
		Join a #channel.
		The event 'on_channel_joined' is dispatched when the client has successfully joined a channel.

		:param name: :class:`str` the channel's name
		:param permanent: Optional[:class:`bool`] if True (default) the server will automatically reconnect the user to this channel when logged in.
		"""
        await self.sendCP(54, Packet().writeString(name).writeBool(permanent))

    async def leaveChannel(self, channel):
        """|coro|
		Leaves a #channel.

		:param channel: :class:`aiotfm.Channel` channel to leave.
		"""
        if isinstance(channel, Channel):
            name = channel.name
        else:
            name = channel

        await self.sendCP(56, Packet().writeString(name))

    async def enterInvTribeHouse(self, author):
        """|coro|
		Join the tribe house of another player after receiving an /inv.

		:param author: :class:`str` the author's username who sent the invitation.
		"""
        await self.main.send(Packet.new(16, 2).writeString(author))

    async def recruit(self, player):
        """|coro|
		Send a recruit request to a player.

		:param player: :class:`str` the player's username you want to recruit.
		"""
        await self.sendCP(78, Packet().writeString(player))

    async def requestShopList(self):
        """|coro|
		Send a request to the server to get the shop list."""
        await self.main.send(Packet.new(8, 20))

    async def startTrade(self, player):
        """|coro|
		Starts a trade with the given player.

		:param player: :class:`aiotfm.player.Player` the player to trade with.
		:return: :class:`aiotfm.inventory.Trade` the resulting trade"""
        trade = Trade(self, player)
        self.trades.append(trade)
        trade.alive = True
        trade.on_invite = True
        await trade.accept()
        return trade

    async def requestInventory(self):
        """|coro|
		Send a request to the server to get the bot's inventory."""
        await self.main.send(Packet.new(31, 1))

    async def on_login_result(self, code, *args):
        self.loop.call_later(5, self.close)
        if code == 1:
            raise AlreadyConnected()
        elif code == 2:
            raise IncorrectPassword()
        raise LoginError(code)