# -*- coding: utf-8 -*- """ The MIT License (MIT) Copyright (c) 2015-2020 Rapptz Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions: The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. """ import asyncio import itertools import logging import websockets from .state import AutoShardedConnectionState from .client import Client from .gateway import * from .errors import ClientException, InvalidArgument from . import utils from .enums import Status log = logging.getLogger(__name__) class Shard: def __init__(self, ws, client): self.ws = ws self._client = client self._dispatch = client.dispatch self.loop = self._client.loop self._current = self.loop.create_future() self._current.set_result(None) # we just need an already done future self._pending = asyncio.Event() self._pending_task = None @property def id(self): return self.ws.shard_id def is_pending(self): return not self._pending.is_set() def complete_pending_reads(self): self._pending.set() async def _pending_reads(self): try: while self.is_pending(): await self.poll() except asyncio.CancelledError: pass def launch_pending_reads(self): self._pending_task = asyncio.ensure_future(self._pending_reads(), loop=self.loop) def wait(self): return self._pending_task async def poll(self): try: await self.ws.poll_event() except ResumeWebSocket: log.info('Got a request to RESUME the websocket at Shard ID %s.', self.id) coro = DiscordWebSocket.from_client(self._client, resume=True, shard_id=self.id, session=self.ws.session_id, sequence=self.ws.sequence) self._dispatch('disconnect') self.ws = await asyncio.wait_for(coro, timeout=180.0) def get_future(self): if self._current.done(): self._current = asyncio.ensure_future(self.poll(), loop=self.loop) return self._current class AutoShardedClient(Client): """A client similar to :class:`Client` except it handles the complications of sharding for the user into a more manageable and transparent single process bot. When using this client, you will be able to use it as-if it was a regular :class:`Client` with a single shard when implementation wise internally it is split up into multiple shards. This allows you to not have to deal with IPC or other complicated infrastructure. It is recommended to use this client only if you have surpassed at least 1000 guilds. If no :attr:`.shard_count` is provided, then the library will use the Bot Gateway endpoint call to figure out how many shards to use. If a ``shard_ids`` parameter is given, then those shard IDs will be used to launch the internal shards. Note that :attr:`.shard_count` must be provided if this is used. By default, when omitted, the client will launch shards from 0 to ``shard_count - 1``. Attributes ------------ shard_ids: Optional[List[:class:`int`]] An optional list of shard_ids to launch the shards with. """ def __init__(self, *args, loop=None, **kwargs): kwargs.pop('shard_id', None) self.shard_ids = kwargs.pop('shard_ids', None) super().__init__(*args, loop=loop, **kwargs) if self.shard_ids is not None: if self.shard_count is None: raise ClientException('When passing manual shard_ids, you must provide a shard_count.') elif not isinstance(self.shard_ids, (list, tuple)): raise ClientException('shard_ids parameter must be a list or a tuple.') self._connection = AutoShardedConnectionState(dispatch=self.dispatch, chunker=self._chunker, handlers=self._handlers, syncer=self._syncer, http=self.http, loop=self.loop, **kwargs) # instead of a single websocket, we have multiple # the key is the shard_id self.shards = {} def _get_websocket(guild_id): i = (guild_id >> 22) % self.shard_count return self.shards[i].ws self._connection._get_websocket = _get_websocket async def _chunker(self, guild, *, shard_id=None): try: guild_id = guild.id shard_id = shard_id or guild.shard_id except AttributeError: guild_id = [s.id for s in guild] payload = { 'op': 8, 'd': { 'guild_id': guild_id, 'query': '', 'limit': 0 } } ws = self.shards[shard_id].ws await ws.send_as_json(payload) @property def latency(self): """:class:`float`: Measures latency between a HEARTBEAT and a HEARTBEAT_ACK in seconds. This operates similarly to :meth:`Client.latency` except it uses the average latency of every shard's latency. To get a list of shard latency, check the :attr:`latencies` property. Returns ``nan`` if there are no shards ready. """ if not self.shards: return float('nan') return sum(latency for _, latency in self.latencies) / len(self.shards) @property def latencies(self): """List[Tuple[:class:`int`, :class:`float`]]: A list of latencies between a HEARTBEAT and a HEARTBEAT_ACK in seconds. This returns a list of tuples with elements ``(shard_id, latency)``. """ return [(shard_id, shard.ws.latency) for shard_id, shard in self.shards.items()] async def request_offline_members(self, *guilds): r"""|coro| Requests previously offline members from the guild to be filled up into the :attr:`Guild.members` cache. This function is usually not called. It should only be used if you have the ``fetch_offline_members`` parameter set to ``False``. When the client logs on and connects to the websocket, Discord does not provide the library with offline members if the number of members in the guild is larger than 250. You can check if a guild is large if :attr:`Guild.large` is ``True``. Parameters ----------- \*guilds: :class:`Guild` An argument list of guilds to request offline members for. Raises ------- InvalidArgument If any guild is unavailable or not large in the collection. """ if any(not g.large or g.unavailable for g in guilds): raise InvalidArgument('An unavailable or non-large guild was passed.') _guilds = sorted(guilds, key=lambda g: g.shard_id) for shard_id, sub_guilds in itertools.groupby(_guilds, key=lambda g: g.shard_id): sub_guilds = list(sub_guilds) await self._connection.request_offline_members(sub_guilds, shard_id=shard_id) async def launch_shard(self, gateway, shard_id): try: coro = websockets.connect(gateway, loop=self.loop, klass=DiscordWebSocket, compression=None) ws = await asyncio.wait_for(coro, timeout=180.0) except Exception: log.info('Failed to connect for shard_id: %s. Retrying...', shard_id) await asyncio.sleep(5.0) return await self.launch_shard(gateway, shard_id) ws.token = self.http.token ws._connection = self._connection ws._discord_parsers = self._connection.parsers ws._dispatch = self.dispatch ws.gateway = gateway ws.shard_id = shard_id ws.shard_count = self.shard_count ws._max_heartbeat_timeout = self._connection.heartbeat_timeout try: # OP HELLO await asyncio.wait_for(ws.poll_event(), timeout=180.0) await asyncio.wait_for(ws.identify(), timeout=180.0) except asyncio.TimeoutError: log.info('Timed out when connecting for shard_id: %s. Retrying...', shard_id) await asyncio.sleep(5.0) return await self.launch_shard(gateway, shard_id) # keep reading the shard while others connect self.shards[shard_id] = ret = Shard(ws, self) ret.launch_pending_reads() await asyncio.sleep(5.0) async def launch_shards(self): if self.shard_count is None: self.shard_count, gateway = await self.http.get_bot_gateway() else: gateway = await self.http.get_gateway() self._connection.shard_count = self.shard_count shard_ids = self.shard_ids if self.shard_ids else range(self.shard_count) self._connection.shard_ids = shard_ids for shard_id in shard_ids: await self.launch_shard(gateway, shard_id) shards_to_wait_for = [] for shard in self.shards.values(): shard.complete_pending_reads() shards_to_wait_for.append(shard.wait()) # wait for all pending tasks to finish await utils.sane_wait_for(shards_to_wait_for, timeout=300.0) async def _connect(self): await self.launch_shards() while True: pollers = [shard.get_future() for shard in self.shards.values()] done, _ = await asyncio.wait(pollers, return_when=asyncio.FIRST_COMPLETED) for f in done: # we wanna re-raise to the main Client.connect handler if applicable f.result() async def close(self): """|coro| Closes the connection to Discord. """ if self.is_closed(): return self._closed = True for vc in self.voice_clients: try: await vc.disconnect() except Exception: pass to_close = [asyncio.ensure_future(shard.ws.close(code=1000), loop=self.loop) for shard in self.shards.values()] if to_close: await asyncio.wait(to_close) await self.http.close() async def change_presence(self, *, activity=None, status=None, afk=False, shard_id=None): """|coro| Changes the client's presence. Example: :: game = discord.Game("with the API") await client.change_presence(status=discord.Status.idle, activity=game) Parameters ---------- activity: Optional[:class:`BaseActivity`] The activity being done. ``None`` if no currently active activity is done. status: Optional[:class:`Status`] Indicates what status to change to. If ``None``, then :attr:`Status.online` is used. afk: :class:`bool` Indicates if you are going AFK. This allows the discord client to know how to handle push notifications better for you in case you are actually idle and not lying. shard_id: Optional[:class:`int`] The shard_id to change the presence to. If not specified or ``None``, then it will change the presence of every shard the bot can see. Raises ------ InvalidArgument If the ``activity`` parameter is not of proper type. """ if status is None: status = 'online' status_enum = Status.online elif status is Status.offline: status = 'invisible' status_enum = Status.offline else: status_enum = status status = str(status) if shard_id is None: for shard in self.shards.values(): await shard.ws.change_presence(activity=activity, status=status, afk=afk) guilds = self._connection.guilds else: shard = self.shards[shard_id] await shard.ws.change_presence(activity=activity, status=status, afk=afk) guilds = [g for g in self._connection.guilds if g.shard_id == shard_id] for guild in guilds: me = guild.me if me is None: continue if activity is not None: me.activities = (activity,) me.status = status_enum