import asyncio import itertools import random import time import typing from .. import events, utils, errors from ..events.common import EventBuilder, EventCommon from ..tl import types, functions if typing.TYPE_CHECKING: from .telegramclient import TelegramClient class UpdateMethods: # region Public methods async def _run_until_disconnected(self: 'TelegramClient'): try: # Make a high-level request to notify that we want updates await self(functions.updates.GetStateRequest()) return await self.disconnected except KeyboardInterrupt: pass finally: await self.disconnect() def run_until_disconnected(self: 'TelegramClient'): """ Runs the event loop until the library is disconnected. It also notifies Telegram that we want to receive updates as described in https://core.telegram.org/api/updates. Manual disconnections can be made by calling `disconnect() ` or sending a ``KeyboardInterrupt`` (e.g. by pressing ``Ctrl+C`` on the console window running the script). If a disconnection error occurs (i.e. the library fails to reconnect automatically), said error will be raised through here, so you have a chance to ``except`` it on your own code. If the loop is already running, this method returns a coroutine that you should await on your own code. .. note:: If you want to handle ``KeyboardInterrupt`` in your code, simply run the event loop in your code too in any way, such as ``loop.run_forever()`` or ``await client.disconnected`` (e.g. ``loop.run_until_complete(client.disconnected)``). Example .. code-block:: python # Blocks the current task here until a disconnection occurs. # # You will still receive updates, since this prevents the # script from exiting. await client.run_until_disconnected() """ if self.loop.is_running(): return self._run_until_disconnected() try: return self.loop.run_until_complete(self._run_until_disconnected()) except KeyboardInterrupt: pass finally: # No loop.run_until_complete; it's already syncified self.disconnect() def on(self: 'TelegramClient', event: EventBuilder): """ Decorator used to `add_event_handler` more conveniently. Arguments event (`_EventBuilder` | `type`): The event builder class or instance to be used, for instance ``events.NewMessage``. Example .. code-block:: python from telethon import TelegramClient, events client = TelegramClient(...) # Here we use client.on @client.on(events.NewMessage) async def handler(event): ... """ def decorator(f): self.add_event_handler(f, event) return f return decorator def add_event_handler( self: 'TelegramClient', callback: callable, event: EventBuilder = None): """ Registers a new event handler callback. The callback will be called when the specified event occurs. Arguments callback (`callable`): The callable function accepting one parameter to be used. Note that if you have used `telethon.events.register` in the callback, ``event`` will be ignored, and instead the events you previously registered will be used. event (`_EventBuilder` | `type`, optional): The event builder class or instance to be used, for instance ``events.NewMessage``. If left unspecified, `telethon.events.raw.Raw` (the :tl:`Update` objects with no further processing) will be passed instead. Example .. code-block:: python from telethon import TelegramClient, events client = TelegramClient(...) async def handler(event): ... client.add_event_handler(handler, events.NewMessage) """ builders = events._get_handlers(callback) if builders is not None: for event in builders: self._event_builders.append((event, callback)) return if isinstance(event, type): event = event() elif not event: event = events.Raw() self._event_builders.append((event, callback)) def remove_event_handler( self: 'TelegramClient', callback: callable, event: EventBuilder = None) -> int: """ Inverse operation of `add_event_handler()`. If no event is given, all events for this callback are removed. Returns how many callbacks were removed. Example .. code-block:: python @client.on(events.Raw) @client.on(events.NewMessage) async def handler(event): ... # Removes only the "Raw" handling # "handler" will still receive "events.NewMessage" client.remove_event_handler(handler, events.Raw) # "handler" will stop receiving anything client.remove_event_handler(handler) """ found = 0 if event and not isinstance(event, type): event = type(event) i = len(self._event_builders) while i: i -= 1 ev, cb = self._event_builders[i] if cb == callback and (not event or isinstance(ev, event)): del self._event_builders[i] found += 1 return found def list_event_handlers(self: 'TelegramClient')\ -> 'typing.Sequence[typing.Tuple[callable, EventBuilder]]': """ Lists all registered event handlers. Returns A list of pairs consisting of ``(callback, event)``. Example .. code-block:: python @client.on(events.NewMessage(pattern='hello')) async def on_greeting(event): '''Greets someone''' await event.reply('Hi') for callback, event in client.list_event_handlers(): print(id(callback), type(event)) """ return [(callback, event) for event, callback in self._event_builders] async def catch_up(self: 'TelegramClient'): """ "Catches up" on the missed updates while the client was offline. You should call this method after registering the event handlers so that the updates it loads can by processed by your script. This can also be used to forcibly fetch new updates if there are any. Example .. code-block:: python await client.catch_up() """ pts, date = self._state_cache[None] if not pts: return self.session.catching_up = True try: while True: d = await self(functions.updates.GetDifferenceRequest( pts, date, 0 )) if isinstance(d, (types.updates.DifferenceSlice, types.updates.Difference)): if isinstance(d, types.updates.Difference): state = d.state else: state = d.intermediate_state pts, date = state.pts, state.date self._handle_update(types.Updates( users=d.users, chats=d.chats, date=state.date, seq=state.seq, updates=d.other_updates + [ types.UpdateNewMessage(m, 0, 0) for m in d.new_messages ] )) # TODO Implement upper limit (max_pts) # We don't want to fetch updates we already know about. # # We may still get duplicates because the Difference # contains a lot of updates and presumably only has # the state for the last one, but at least we don't # unnecessarily fetch too many. # # updates.getDifference's pts_total_limit seems to mean # "how many pts is the request allowed to return", and # if there is more than that, it returns "too long" (so # there would be duplicate updates since we know about # some). This can be used to detect collisions (i.e. # it would return an update we have already seen). else: if isinstance(d, types.updates.DifferenceEmpty): date = d.date elif isinstance(d, types.updates.DifferenceTooLong): pts = d.pts break except (ConnectionError, asyncio.CancelledError): pass finally: # TODO Save new pts to session self._state_cache._pts_date = (pts, date) self.session.catching_up = False # endregion # region Private methods # It is important to not make _handle_update async because we rely on # the order that the updates arrive in to update the pts and date to # be always-increasing. There is also no need to make this async. def _handle_update(self: 'TelegramClient', update): self.session.process_entities(update) self._entity_cache.add(update) if isinstance(update, (types.Updates, types.UpdatesCombined)): entities = {utils.get_peer_id(x): x for x in itertools.chain(update.users, update.chats)} for u in update.updates: self._process_update(u, update.updates, entities=entities) elif isinstance(update, types.UpdateShort): self._process_update(update.update, None) else: self._process_update(update, None) self._state_cache.update(update) def _process_update(self: 'TelegramClient', update, others, entities=None): update._entities = entities or {} # This part is somewhat hot so we don't bother patching # update with channel ID/its state. Instead we just pass # arguments which is faster. channel_id = self._state_cache.get_channel_id(update) args = (update, others, channel_id, self._state_cache[channel_id]) if self._dispatching_updates_queue is None: task = self._loop.create_task(self._dispatch_update(*args)) self._updates_queue.add(task) task.add_done_callback(lambda _: self._updates_queue.discard(task)) else: self._updates_queue.put_nowait(args) if not self._dispatching_updates_queue.is_set(): self._dispatching_updates_queue.set() self._loop.create_task(self._dispatch_queue_updates()) self._state_cache.update(update) async def _update_loop(self: 'TelegramClient'): # Pings' ID don't really need to be secure, just "random" rnd = lambda: random.randrange(-2**63, 2**63) while self.is_connected(): try: await asyncio.wait_for( self.disconnected, timeout=60, loop=self._loop ) continue # We actually just want to act upon timeout except asyncio.TimeoutError: pass except asyncio.CancelledError: return except Exception: continue # Any disconnected exception should be ignored # Check if we have any exported senders to clean-up periodically await self._clean_exported_senders() # Don't bother sending pings until the low-level connection is # ready, otherwise a lot of pings will be batched to be sent upon # reconnect, when we really don't care about that. if not self._sender._transport_connected(): continue # We also don't really care about their result. # Just send them periodically. try: self._sender.send(functions.PingRequest(rnd())) except (ConnectionError, asyncio.CancelledError): return # Entities and cached files are not saved when they are # inserted because this is a rather expensive operation # (default's sqlite3 takes ~0.1s to commit changes). Do # it every minute instead. No-op if there's nothing new. self.session.save() # We need to send some content-related request at least hourly # for Telegram to keep delivering updates, otherwise they will # just stop even if we're connected. Do so every 30 minutes. # # TODO Call getDifference instead since it's more relevant if time.time() - self._last_request > 30 * 60: if not await self.is_user_authorized(): # What can be the user doing for so # long without being logged in...? continue try: await self(functions.updates.GetStateRequest()) except (ConnectionError, asyncio.CancelledError): return async def _dispatch_queue_updates(self: 'TelegramClient'): while not self._updates_queue.empty(): await self._dispatch_update(*self._updates_queue.get_nowait()) self._dispatching_updates_queue.clear() async def _dispatch_update(self: 'TelegramClient', update, others, channel_id, pts_date): if not self._entity_cache.ensure_cached(update): # We could add a lock to not fetch the same pts twice if we are # already fetching it. However this does not happen in practice, # which makes sense, because different updates have different pts. if self._state_cache.update(update, check_only=True): # If the update doesn't have pts, fetching won't do anything. # For example, UpdateUserStatus or UpdateChatUserTyping. try: await self._get_difference(update, channel_id, pts_date) except OSError: pass # We were disconnected, that's okay if not self._self_input_peer: # Some updates require our own ID, so we must make sure # that the event builder has offline access to it. Calling # `get_me()` will cache it under `self._self_input_peer`. await self.get_me(input_peer=True) built = EventBuilderDict(self, update, others) for conv_set in self._conversations.values(): for conv in conv_set: ev = built[events.NewMessage] if ev: conv._on_new_message(ev) ev = built[events.MessageEdited] if ev: conv._on_edit(ev) ev = built[events.MessageRead] if ev: conv._on_read(ev) if conv._custom: await conv._check_custom(built) for builder, callback in self._event_builders: event = built[type(builder)] if not event: continue if not builder.resolved: await builder.resolve(self) if not builder.filter(event): continue try: await callback(event) except errors.AlreadyInConversationError: name = getattr(callback, '__name__', repr(callback)) self._log[__name__].debug( 'Event handler "%s" already has an open conversation, ' 'ignoring new one', name) except events.StopPropagation: name = getattr(callback, '__name__', repr(callback)) self._log[__name__].debug( 'Event handler "%s" stopped chain of propagation ' 'for event %s.', name, type(event).__name__ ) break except Exception as e: if not isinstance(e, asyncio.CancelledError) or self.is_connected(): name = getattr(callback, '__name__', repr(callback)) self._log[__name__].exception('Unhandled exception on %s', name) async def _get_difference(self: 'TelegramClient', update, channel_id, pts_date): """ Get the difference for this `channel_id` if any, then load entities. Calls :tl:`updates.getDifference`, which fills the entities cache (always done by `__call__`) and lets us know about the full entities. """ # Fetch since the last known pts/date before this update arrived, # in order to fetch this update at full, including its entities. self._log[__name__].debug('Getting difference for entities ' 'for %r', update.__class__) if channel_id: try: where = await self.get_input_entity(channel_id) except ValueError: # There's a high chance that this fails, since # we are getting the difference to fetch entities. return if not pts_date: # First-time, can't get difference. Get pts instead. result = await self(functions.channels.GetFullChannelRequest( utils.get_input_channel(where) )) self._state_cache[channel_id] = result.full_chat.pts return result = await self(functions.updates.GetChannelDifferenceRequest( channel=where, filter=types.ChannelMessagesFilterEmpty(), pts=pts_date, # just pts limit=100, force=True )) else: if not pts_date[0]: # First-time, can't get difference. Get pts instead. result = await self(functions.updates.GetStateRequest()) self._state_cache[None] = result.pts, result.date return result = await self(functions.updates.GetDifferenceRequest( pts=pts_date[0], date=pts_date[1], qts=0 )) if isinstance(result, (types.updates.Difference, types.updates.DifferenceSlice, types.updates.ChannelDifference, types.updates.ChannelDifferenceTooLong)): update._entities.update({ utils.get_peer_id(x): x for x in itertools.chain(result.users, result.chats) }) async def _handle_auto_reconnect(self: 'TelegramClient'): # TODO Catch-up # For now we make a high-level request to let Telegram # know we are still interested in receiving more updates. try: await self.get_me() except Exception as e: self._log[__name__].warning('Error executing high-level request ' 'after reconnect: %s: %s', type(e), e) return try: self._log[__name__].info( 'Asking for the current state after reconnect...') # TODO consider: # If there aren't many updates while the client is disconnected # (I tried with up to 20), Telegram seems to send them without # asking for them (via updates.getDifference). # # On disconnection, the library should probably set a "need # difference" or "catching up" flag so that any new updates are # ignored, and then the library should call updates.getDifference # itself to fetch them. # # In any case (either there are too many updates and Telegram # didn't send them, or there isn't a lot and Telegram sent them # but we dropped them), we fetch the new difference to get all # missed updates. I feel like this would be the best solution. # If a disconnection occurs, the old known state will be # the latest one we were aware of, so we can catch up since # the most recent state we were aware of. await self.catch_up() self._log[__name__].info('Successfully fetched missed updates') except errors.RPCError as e: self._log[__name__].warning('Failed to get missed updates after ' 'reconnect: %r', e) except Exception: self._log[__name__].exception('Unhandled exception while getting ' 'update difference after reconnect') # endregion class EventBuilderDict: """ Helper "dictionary" to return events from types and cache them. """ def __init__(self, client: 'TelegramClient', update, others): self.client = client self.update = update self.others = others def __getitem__(self, builder): try: return self.__dict__[builder] except KeyError: event = self.__dict__[builder] = builder.build( self.update, self.others, self.client._self_input_peer.user_id) if isinstance(event, EventCommon): event.original_update = self.update event._entities = self.update._entities event._set_client(self.client) elif event: event._client = self.client return event