craftbeerpi4-pione/venv3/lib/python3.7/site-packages/asyncio_mqtt/client.py

# SPDX-License-Identifier: BSD-3-Clause
import asyncio
import logging
import socket
from contextlib import contextmanager, suppress
try:
    from contextlib import asynccontextmanager
except ImportError:
    from async_generator import asynccontextmanager
import paho.mqtt.client as mqtt
from .error import MqttError, MqttCodeError, MqttConnectError


MQTT_LOGGER = logging.getLogger('mqtt')
MQTT_LOGGER.setLevel(logging.WARNING)


class Client:
    def __init__(self, hostname, port=1883, *, username=None, password=None,
                 logger=None, client_id=None, tls_context=None, protocol=None,
                 will=None, clean_session=None, transport="tcp"):
        self._hostname = hostname
        self._port = port
        self._loop = asyncio.get_event_loop()
        self._connected = asyncio.Future()
        self._disconnected = asyncio.Future()
        self._pending_calls = {}  # Pending subscribe, unsubscribe, and publish calls
        self._pending_calls_threshold = 10
        self._misc_task = None

        if protocol is None:
            protocol = mqtt.MQTTv311

        self._client = mqtt.Client(client_id=client_id, protocol=protocol, clean_session=clean_session, transport=transport)
        self._client.on_connect = self._on_connect
        self._client.on_disconnect = self._on_disconnect
        self._client.on_subscribe = self._on_subscribe
        self._client.on_unsubscribe = self._on_unsubscribe
        self._client.on_message = None
        self._client.on_publish = self._on_publish
        # Callbacks for custom event loop
        self._client.on_socket_open = self._on_socket_open
        self._client.on_socket_close = self._on_socket_close
        self._client.on_socket_register_write = self._on_socket_register_write
        self._client.on_socket_unregister_write = self._on_socket_unregister_write

        if logger is None:
            logger = MQTT_LOGGER
        self._client.enable_logger(logger)

        if username is not None and password is not None:
            self._client.username_pw_set(username=username, password=password)

        if tls_context is not None:
            self._client.tls_set_context(tls_context)

        if will is not None:
            self._client.will_set(
                will.topic,
                will.payload,
                will.qos,
                will.retain,
                will.properties
            )

    @property
    def id(self):
        """Return the client ID.

        Note that paho-mqtt stores the client ID as `bytes` internally.
        We assume that the client ID is a UTF8-encoded string and decode
        it first.
        """
        return self._client._client_id.decode()

    async def connect(self, *, timeout=10):
        try:
            loop = asyncio.get_running_loop()
            await loop.run_in_executor(None, self._client.connect, self._hostname, self._port, 60)
            # paho.mqttClient.socket() return non-None after the call to connect.
            client_socket = self._client.socket()
            if not isinstance(client_socket, mqtt.WebsocketWrapper):
                client_socket.setsockopt(socket.SOL_SOCKET, socket.SO_SNDBUF, 2048)
        # paho.mqtt.Client.connect may raise one of several exceptions.
        # We convert all of them to the common MqttError for user convenience.
        # See: https://github.com/eclipse/paho.mqtt.python/blob/v1.5.0/src/paho/mqtt/client.py#L1770
        except (socket.error, OSError, mqtt.WebsocketConnectionError) as error:
            raise MqttError(str(error))
        await self._wait_for(self._connected, timeout=timeout)

    async def disconnect(self, *, timeout=10):
        rc = self._client.disconnect()
        # Early out on error
        if rc != mqtt.MQTT_ERR_SUCCESS:
            raise MqttCodeError(rc, "Could not disconnect")
        # Wait for acknowledgement
        await self._wait_for(self._disconnected, timeout=timeout)

    async def force_disconnect(self):
        self._disconnected.set_result(None)

    async def subscribe(self, *args, timeout=10, **kwargs):
        result, mid = self._client.subscribe(*args, **kwargs)
        # Early out on error
        if result != mqtt.MQTT_ERR_SUCCESS:
            raise MqttCodeError(result, 'Could not subscribe to topic')
        # Create future for when the on_subscribe callback is called
        cb_result = asyncio.Future()
        with self._pending_call(mid, cb_result):
            # Wait for cb_result
            return await self._wait_for(cb_result, timeout=timeout)

    async def unsubscribe(self, *args, timeout=10):
        result, mid = self._client.unsubscribe(*args)
        # Early out on error
        if result != mqtt.MQTT_ERR_SUCCESS:
            raise MqttCodeError(result, 'Could not unsubscribe from topic')
        # Create event for when the on_unsubscribe callback is called
        confirmation = asyncio.Event()
        with self._pending_call(mid, confirmation):
            # Wait for confirmation
            await self._wait_for(confirmation.wait(), timeout=timeout)

    async def publish(self, *args, timeout=10, **kwargs):
        info = self._client.publish(*args, **kwargs)  # [2]
        # Early out on error
        if info.rc != mqtt.MQTT_ERR_SUCCESS:
            raise MqttCodeError(info.rc, 'Could not publish message')
        # Early out on immediate success
        if info.is_published():
            return
        # Create event for when the on_publish callback is called
        confirmation = asyncio.Event()
        with self._pending_call(info.mid, confirmation):
            # Wait for confirmation
            await self._wait_for(confirmation.wait(), timeout=timeout)

    @asynccontextmanager
    async def filtered_messages(self, topic_filter, *, queue_maxsize=0):
        """Return async generator of messages that match the given filter.

        Use queue_maxsize to restrict the queue size. If the queue is full,
        incoming messages will be discarded (and a warning is logged).
        If queue_maxsize is less than or equal to zero, the queue size is infinite.

        Example use:
            async with client.filtered_messages('floors/+/humidity') as messages:
                async for message in messages:
                    print(f'Humidity reading: {message.payload.decode()}')
        """
        cb, generator = self._cb_and_generator(log_context=f'topic_filter="{topic_filter}"',
                                               queue_maxsize=queue_maxsize)
        try:
            self._client.message_callback_add(topic_filter, cb)
            # Back to the caller (run whatever is inside the with statement)
            yield generator
        finally:
            # We are exitting the with statement. Remove the topic filter.
            self._client.message_callback_remove(topic_filter)

    @asynccontextmanager
    async def unfiltered_messages(self, *, queue_maxsize=0):
        """Return async generator of all messages that are not caught in filters."""
        # Early out
        if self._client.on_message is not None:
            # TODO: This restriction can easily be removed.
            raise RuntimeError('Only a single unfiltered_messages generator can be used at a time.')
        cb, generator = self._cb_and_generator(log_context='unfiltered',
                                               queue_maxsize=queue_maxsize)
        try:
            self._client.on_message = cb
            # Back to the caller (run whatever is inside the with statement)
            yield generator
        finally:
            # We are exitting the with statement. Unset the callback.
            self._client.on_message = None

    def _cb_and_generator(self, *, log_context, queue_maxsize=0):
        # Queue to hold the incoming messages
        messages = asyncio.Queue(maxsize=queue_maxsize)
        # Callback for the underlying API
        def _put_in_queue(client, userdata, msg):
            try:
                messages.put_nowait(msg)
            except asyncio.QueueFull:
                MQTT_LOGGER.warning(f'[{log_context}] Message queue is full. Discarding message.')
        # The generator that we give to the caller
        async def _message_generator():
            # Forward all messages from the queue
            while True:
                # Wait until we either:
                #  1. Receive a message
                #  2. Disconnect from the broker
                get = self._loop.create_task(messages.get())
                try:
                    done, _ = await asyncio.wait(
                        (get, self._disconnected),
                        return_when=asyncio.FIRST_COMPLETED
                    )
                except asyncio.CancelledError:
                    # If the asyncio.wait is cancelled, we must make sure
                    # to also cancel the underlying tasks.
                    get.cancel()
                    raise
                if get in done:
                    # We received a message. Return the result.
                    yield get.result()
                else:
                    # We got disconnected from the broker. Cancel the "get" task.
                    get.cancel()
                    # Stop the generator with the following exception
                    raise MqttError("Disconnected during message iteration")
        return _put_in_queue, _message_generator()

    async def _wait_for(self, *args, **kwargs):
        try:
            return await asyncio.wait_for(*args, **kwargs)
        except asyncio.TimeoutError:
            raise MqttError('Operation timed out')

    @contextmanager
    def _pending_call(self, mid, value):
        if mid in self._pending_calls:
            raise RuntimeError(f'There already exists a pending call for message ID "{mid}"')
        self._pending_calls[mid] = value  # [1]
        try:
            # Log a warning if there is a concerning number of pending calls
            pending = len(self._pending_calls)
            if pending > self._pending_calls_threshold:
                MQTT_LOGGER.warning(f'There are {pending} pending publish calls.')
            # Back to the caller (run whatever is inside the with statement)
            yield
        finally:
            # The normal procedure is:
            #  * We add the item at [1]
            #  * A callback will remove the item
            #
            # However, if the callback doesn't get called (e.g., due to a
            # network error) we still need to remove the item from the dict.
            self._pending_calls.pop(mid, None)

    def _on_connect(self, client, userdata, flags, rc, properties=None):
        # Return early if already connected. Sometimes, paho-mqtt calls _on_connect
        # multiple times. Maybe because we receive multiple CONNACK messages
        # from the server. In any case, we return early so that we don't set
        # self._connected twice (as it raises an asyncio.InvalidStateError).
        if self._connected.done():
            return
        
        if rc == mqtt.CONNACK_ACCEPTED:
            self._connected.set_result(rc)
        else:
            self._connected.set_exception(MqttConnectError(rc))

    def _on_disconnect(self, client, userdata, rc, properties=None):
        # Return early if the disconnect is already acknowledged.
        # Sometimes (e.g., due to timeouts), paho-mqtt calls _on_disconnect
        # twice. We return early to avoid setting self._disconnected twice
        # (as it raises an asyncio.InvalidStateError).
        if self._disconnected.done():
            return
        # Return early if we are not connected yet. This avoids calling
        # `_disconnected.set_exception` with an exception that will never
        # be retrieved (since `__aexit__` won't get called if `__aenter__`
        # fails). In turn, this avoids asyncio debug messages like the
        # following:
        #
        #   "[asyncio] Future exception was never retrieved"
        #
        # See also: https://docs.python.org/3/library/asyncio-dev.html#detect-never-retrieved-exceptions
        if not self._connected.done() or self._connected.exception() is not None:
            return
        if rc == mqtt.MQTT_ERR_SUCCESS:
            self._disconnected.set_result(rc)
        else:
            self._disconnected.set_exception(MqttCodeError(rc, 'Unexpected disconnect'))

    def _on_subscribe(self, client, userdata, mid, granted_qos, properties=None):
        try:
            self._pending_calls.pop(mid).set_result(granted_qos)
        except KeyError:
            MQTT_LOGGER.error(f'Unexpected message ID "{mid}" in on_subscribe callback')

    def _on_unsubscribe(self, client, userdata, mid, properties=None, reasonCodes=None):
        try:
            self._pending_calls.pop(mid).set()
        except KeyError:
            MQTT_LOGGER.error(f'Unexpected message ID "{mid}" in on_unsubscribe callback')

    def _on_publish(self, client, userdata, mid):
        try:
            self._pending_calls.pop(mid).set()
        except KeyError:
            # Do nothing since [2] may call on_publish before it even returns.
            # That is, the message may already be published before we even get a
            # chance to set up the 'pending_call' logic.
            pass

    def _on_socket_open(self, client, userdata, sock):
        def cb():
            client.loop_read()
        self._loop.add_reader(sock.fileno(), cb)
        self._misc_task = self._loop.create_task(self._misc_loop())

    def _on_socket_close(self, client, userdata, sock):
        self._loop.remove_reader(sock.fileno())
        with suppress(asyncio.CancelledError):
            self._misc_task.cancel()

    def _on_socket_register_write(self, client, userdata, sock):
        def cb():
            client.loop_write()
        self._loop.add_writer(sock, cb)

    def _on_socket_unregister_write(self, client, userdata, sock):
        self._loop.remove_writer(sock)

    async def _misc_loop(self):
        while self._client.loop_misc() == mqtt.MQTT_ERR_SUCCESS:
            await asyncio.sleep(1)

    async def __aenter__(self):
        """Connect to the broker."""
        await self.connect()
        return self

    async def __aexit__(self, exc_type, exc, tb):
        """Disconnect from the broker."""
        # Early out if already disconnected...
        if self._disconnected.done():
            disc_exc = self._disconnected.exception()
            if disc_exc is not None:
                # ...by raising the error that caused the disconnect
                raise disc_exc
            # ...by returning since the disconnect was intentional
            return
        # Try to gracefully disconnect from the broker
        try:
            await self.disconnect()
        except MqttError as error:
            # We tried to be graceful. Now there is no mercy.
            MQTT_LOGGER.warning(f'Could not gracefully disconnect due to "{error}". Forcing disconnection.')
            await self.force_disconnect()


# TODO: This should be a (frozen) dataclass (from Python 3.7)
# when we drop Python 3.6 support
class Will:
    def __init__(self, topic, payload=None, qos=0, retain=False, properties=None):
        self.topic = topic
        self.payload = payload
        self.qos = qos
        self.retain = retain
        self.properties = properties
"fix cli main_dir error" 2021-03-03 23:49:41 +01:00			`# SPDX-License-Identifier: BSD-3-Clause`
			`import asyncio`
			`import logging`
			`import socket`
			`from contextlib import contextmanager, suppress`
			`try:`
			`from contextlib import asynccontextmanager`
			`except ImportError:`
			`from async_generator import asynccontextmanager`
			`import paho.mqtt.client as mqtt`
			`from .error import MqttError, MqttCodeError, MqttConnectError`


			`MQTT_LOGGER = logging.getLogger('mqtt')`
			`MQTT_LOGGER.setLevel(logging.WARNING)`


			`class Client:`
			`def __init__(self, hostname, port=1883, *, username=None, password=None,`
			`logger=None, client_id=None, tls_context=None, protocol=None,`
			`will=None, clean_session=None, transport="tcp"):`
			`self._hostname = hostname`
			`self._port = port`
			`self._loop = asyncio.get_event_loop()`
			`self._connected = asyncio.Future()`
			`self._disconnected = asyncio.Future()`
			`self._pending_calls = {} # Pending subscribe, unsubscribe, and publish calls`
			`self._pending_calls_threshold = 10`
			`self._misc_task = None`

			`if protocol is None:`
			`protocol = mqtt.MQTTv311`

			`self._client = mqtt.Client(client_id=client_id, protocol=protocol, clean_session=clean_session, transport=transport)`
			`self._client.on_connect = self._on_connect`
			`self._client.on_disconnect = self._on_disconnect`
			`self._client.on_subscribe = self._on_subscribe`
			`self._client.on_unsubscribe = self._on_unsubscribe`
			`self._client.on_message = None`
			`self._client.on_publish = self._on_publish`
			`# Callbacks for custom event loop`
			`self._client.on_socket_open = self._on_socket_open`
			`self._client.on_socket_close = self._on_socket_close`
			`self._client.on_socket_register_write = self._on_socket_register_write`
			`self._client.on_socket_unregister_write = self._on_socket_unregister_write`

			`if logger is None:`
			`logger = MQTT_LOGGER`
			`self._client.enable_logger(logger)`

			`if username is not None and password is not None:`
			`self._client.username_pw_set(username=username, password=password)`

			`if tls_context is not None:`
			`self._client.tls_set_context(tls_context)`

			`if will is not None:`
			`self._client.will_set(`
			`will.topic,`
			`will.payload,`
			`will.qos,`
			`will.retain,`
			`will.properties`
			`)`

			`@property`
			`def id(self):`
			`"""Return the client ID.`

			Note that paho-mqtt stores the client ID as `bytes` internally.
			`We assume that the client ID is a UTF8-encoded string and decode`
			`it first.`
			`"""`
			`return self._client._client_id.decode()`

			`async def connect(self, *, timeout=10):`
			`try:`
			`loop = asyncio.get_running_loop()`
			`await loop.run_in_executor(None, self._client.connect, self._hostname, self._port, 60)`
			`# paho.mqttClient.socket() return non-None after the call to connect.`
			`client_socket = self._client.socket()`
			`if not isinstance(client_socket, mqtt.WebsocketWrapper):`
			`client_socket.setsockopt(socket.SOL_SOCKET, socket.SO_SNDBUF, 2048)`
			`# paho.mqtt.Client.connect may raise one of several exceptions.`
			`# We convert all of them to the common MqttError for user convenience.`
			`# See: https://github.com/eclipse/paho.mqtt.python/blob/v1.5.0/src/paho/mqtt/client.py#L1770`
			`except (socket.error, OSError, mqtt.WebsocketConnectionError) as error:`
			`raise MqttError(str(error))`
			`await self._wait_for(self._connected, timeout=timeout)`

			`async def disconnect(self, *, timeout=10):`
			`rc = self._client.disconnect()`
			`# Early out on error`
			`if rc != mqtt.MQTT_ERR_SUCCESS:`
			`raise MqttCodeError(rc, "Could not disconnect")`
			`# Wait for acknowledgement`
			`await self._wait_for(self._disconnected, timeout=timeout)`

			`async def force_disconnect(self):`
			`self._disconnected.set_result(None)`

			`async def subscribe(self, args, timeout=10, *kwargs):`
			`result, mid = self._client.subscribe(args, *kwargs)`
			`# Early out on error`
			`if result != mqtt.MQTT_ERR_SUCCESS:`
			`raise MqttCodeError(result, 'Could not subscribe to topic')`
			`# Create future for when the on_subscribe callback is called`
			`cb_result = asyncio.Future()`
			`with self._pending_call(mid, cb_result):`
			`# Wait for cb_result`
			`return await self._wait_for(cb_result, timeout=timeout)`

			`async def unsubscribe(self, *args, timeout=10):`
			`result, mid = self._client.unsubscribe(*args)`
			`# Early out on error`
			`if result != mqtt.MQTT_ERR_SUCCESS:`
			`raise MqttCodeError(result, 'Could not unsubscribe from topic')`
			`# Create event for when the on_unsubscribe callback is called`
			`confirmation = asyncio.Event()`
			`with self._pending_call(mid, confirmation):`
			`# Wait for confirmation`
			`await self._wait_for(confirmation.wait(), timeout=timeout)`

			`async def publish(self, args, timeout=10, *kwargs):`
			`info = self._client.publish(args, *kwargs) # [2]`
			`# Early out on error`
			`if info.rc != mqtt.MQTT_ERR_SUCCESS:`
			`raise MqttCodeError(info.rc, 'Could not publish message')`
			`# Early out on immediate success`
			`if info.is_published():`
			`return`
			`# Create event for when the on_publish callback is called`
			`confirmation = asyncio.Event()`
			`with self._pending_call(info.mid, confirmation):`
			`# Wait for confirmation`
			`await self._wait_for(confirmation.wait(), timeout=timeout)`

			`@asynccontextmanager`
			`async def filtered_messages(self, topic_filter, *, queue_maxsize=0):`
			`"""Return async generator of messages that match the given filter.`

			`Use queue_maxsize to restrict the queue size. If the queue is full,`
			`incoming messages will be discarded (and a warning is logged).`
			`If queue_maxsize is less than or equal to zero, the queue size is infinite.`

			`Example use:`
			`async with client.filtered_messages('floors/+/humidity') as messages:`
			`async for message in messages:`
			`print(f'Humidity reading: {message.payload.decode()}')`
			`"""`
			`cb, generator = self._cb_and_generator(log_context=f'topic_filter="{topic_filter}"',`
			`queue_maxsize=queue_maxsize)`
			`try:`
			`self._client.message_callback_add(topic_filter, cb)`
			`# Back to the caller (run whatever is inside the with statement)`
			`yield generator`
			`finally:`
			`# We are exitting the with statement. Remove the topic filter.`
			`self._client.message_callback_remove(topic_filter)`

			`@asynccontextmanager`
			`async def unfiltered_messages(self, *, queue_maxsize=0):`
			`"""Return async generator of all messages that are not caught in filters."""`
			`# Early out`
			`if self._client.on_message is not None:`
			`# TODO: This restriction can easily be removed.`
			`raise RuntimeError('Only a single unfiltered_messages generator can be used at a time.')`
			`cb, generator = self._cb_and_generator(log_context='unfiltered',`
			`queue_maxsize=queue_maxsize)`
			`try:`
			`self._client.on_message = cb`
			`# Back to the caller (run whatever is inside the with statement)`
			`yield generator`
			`finally:`
			`# We are exitting the with statement. Unset the callback.`
			`self._client.on_message = None`

			`def _cb_and_generator(self, *, log_context, queue_maxsize=0):`
			`# Queue to hold the incoming messages`
			`messages = asyncio.Queue(maxsize=queue_maxsize)`
			`# Callback for the underlying API`
			`def _put_in_queue(client, userdata, msg):`
			`try:`
			`messages.put_nowait(msg)`
			`except asyncio.QueueFull:`
			`MQTT_LOGGER.warning(f'[{log_context}] Message queue is full. Discarding message.')`
			`# The generator that we give to the caller`
			`async def _message_generator():`
			`# Forward all messages from the queue`
			`while True:`
			`# Wait until we either:`
			`# 1. Receive a message`
			`# 2. Disconnect from the broker`
			`get = self._loop.create_task(messages.get())`
			`try:`
			`done, _ = await asyncio.wait(`
			`(get, self._disconnected),`
			`return_when=asyncio.FIRST_COMPLETED`
			`)`
			`except asyncio.CancelledError:`
			`# If the asyncio.wait is cancelled, we must make sure`
			`# to also cancel the underlying tasks.`
			`get.cancel()`
			`raise`
			`if get in done:`
			`# We received a message. Return the result.`
			`yield get.result()`
			`else:`
			`# We got disconnected from the broker. Cancel the "get" task.`
			`get.cancel()`
			`# Stop the generator with the following exception`
			`raise MqttError("Disconnected during message iteration")`
			`return _put_in_queue, _message_generator()`

			`async def _wait_for(self, args, *kwargs):`
			`try:`
			`return await asyncio.wait_for(args, *kwargs)`
			`except asyncio.TimeoutError:`
			`raise MqttError('Operation timed out')`

			`@contextmanager`
			`def _pending_call(self, mid, value):`
			`if mid in self._pending_calls:`
			`raise RuntimeError(f'There already exists a pending call for message ID "{mid}"')`
			`self._pending_calls[mid] = value # [1]`
			`try:`
			`# Log a warning if there is a concerning number of pending calls`
			`pending = len(self._pending_calls)`
			`if pending > self._pending_calls_threshold:`
			`MQTT_LOGGER.warning(f'There are {pending} pending publish calls.')`
			`# Back to the caller (run whatever is inside the with statement)`
			`yield`
			`finally:`
			`# The normal procedure is:`
			`# * We add the item at [1]`
			`# * A callback will remove the item`
			`#`
			`# However, if the callback doesn't get called (e.g., due to a`
			`# network error) we still need to remove the item from the dict.`
			`self._pending_calls.pop(mid, None)`

			`def _on_connect(self, client, userdata, flags, rc, properties=None):`
			`# Return early if already connected. Sometimes, paho-mqtt calls _on_connect`
			`# multiple times. Maybe because we receive multiple CONNACK messages`
			`# from the server. In any case, we return early so that we don't set`
			`# self._connected twice (as it raises an asyncio.InvalidStateError).`
			`if self._connected.done():`
			`return`

			`if rc == mqtt.CONNACK_ACCEPTED:`
			`self._connected.set_result(rc)`
			`else:`
			`self._connected.set_exception(MqttConnectError(rc))`

			`def _on_disconnect(self, client, userdata, rc, properties=None):`
			`# Return early if the disconnect is already acknowledged.`
			`# Sometimes (e.g., due to timeouts), paho-mqtt calls _on_disconnect`
			`# twice. We return early to avoid setting self._disconnected twice`
			`# (as it raises an asyncio.InvalidStateError).`
			`if self._disconnected.done():`
			`return`
			`# Return early if we are not connected yet. This avoids calling`
			# `_disconnected.set_exception` with an exception that will never
			# be retrieved (since `__aexit__` won't get called if `__aenter__`
			`# fails). In turn, this avoids asyncio debug messages like the`
			`# following:`
			`#`
			`# "[asyncio] Future exception was never retrieved"`
			`#`
			`# See also: https://docs.python.org/3/library/asyncio-dev.html#detect-never-retrieved-exceptions`
			`if not self._connected.done() or self._connected.exception() is not None:`
			`return`
			`if rc == mqtt.MQTT_ERR_SUCCESS:`
			`self._disconnected.set_result(rc)`
			`else:`
			`self._disconnected.set_exception(MqttCodeError(rc, 'Unexpected disconnect'))`

			`def _on_subscribe(self, client, userdata, mid, granted_qos, properties=None):`
			`try:`
			`self._pending_calls.pop(mid).set_result(granted_qos)`
			`except KeyError:`
			`MQTT_LOGGER.error(f'Unexpected message ID "{mid}" in on_subscribe callback')`

			`def _on_unsubscribe(self, client, userdata, mid, properties=None, reasonCodes=None):`
			`try:`
			`self._pending_calls.pop(mid).set()`
			`except KeyError:`
			`MQTT_LOGGER.error(f'Unexpected message ID "{mid}" in on_unsubscribe callback')`

			`def _on_publish(self, client, userdata, mid):`
			`try:`
			`self._pending_calls.pop(mid).set()`
			`except KeyError:`
			`# Do nothing since [2] may call on_publish before it even returns.`
			`# That is, the message may already be published before we even get a`
			`# chance to set up the 'pending_call' logic.`
			`pass`

			`def _on_socket_open(self, client, userdata, sock):`
			`def cb():`
			`client.loop_read()`
			`self._loop.add_reader(sock.fileno(), cb)`
			`self._misc_task = self._loop.create_task(self._misc_loop())`

			`def _on_socket_close(self, client, userdata, sock):`
			`self._loop.remove_reader(sock.fileno())`
			`with suppress(asyncio.CancelledError):`
			`self._misc_task.cancel()`

			`def _on_socket_register_write(self, client, userdata, sock):`
			`def cb():`
			`client.loop_write()`
			`self._loop.add_writer(sock, cb)`

			`def _on_socket_unregister_write(self, client, userdata, sock):`
			`self._loop.remove_writer(sock)`

			`async def _misc_loop(self):`
			`while self._client.loop_misc() == mqtt.MQTT_ERR_SUCCESS:`
			`await asyncio.sleep(1)`

			`async def __aenter__(self):`
			`"""Connect to the broker."""`
			`await self.connect()`
			`return self`

			`async def __aexit__(self, exc_type, exc, tb):`
			`"""Disconnect from the broker."""`
			`# Early out if already disconnected...`
			`if self._disconnected.done():`
			`disc_exc = self._disconnected.exception()`
			`if disc_exc is not None:`
			`# ...by raising the error that caused the disconnect`
			`raise disc_exc`
			`# ...by returning since the disconnect was intentional`
			`return`
			`# Try to gracefully disconnect from the broker`
			`try:`
			`await self.disconnect()`
			`except MqttError as error:`
			`# We tried to be graceful. Now there is no mercy.`
			`MQTT_LOGGER.warning(f'Could not gracefully disconnect due to "{error}". Forcing disconnection.')`
			`await self.force_disconnect()`


			`# TODO: This should be a (frozen) dataclass (from Python 3.7)`
			`# when we drop Python 3.6 support`
			`class Will:`
			`def __init__(self, topic, payload=None, qos=0, retain=False, properties=None):`
			`self.topic = topic`
			`self.payload = payload`
			`self.qos = qos`
			`self.retain = retain`
			`self.properties = properties`