async def main(broker_host, username, password):
client = MQTTClient("client-id-mitch", user_property=('hello', 'there'))
# client = MQTTClient("client-id-mitch")
client.on_connect = on_connect
client.on_message = on_message
client.on_disconnect = on_disconnect
client.on_subscribe = on_subscribe
client.set_auth_credentials(username, password.encode())
await client.connect(host=broker_host, port=1883)
# await client.connect()
print("connected, now ready to send...")
data = f"This is a test! {str(time.time())}"
hash = hashlib.sha256(data.encode()).hexdigest()
client.publish('test/time1',
"hello test/time1..",
qos=1,
message_expiry_interval=5,
content_type="json",
response_topic='RESPONSE/TOPIC2',
user_property=[('hash', hash), ('time', str(time.time()))])
client.publish('test/time2',
"hello test/time2..",
qos=1,
message_expiry_interval=5,
content_type="json",
response_topic='RESPONSE/TOPIC',
user_property=[('hash', hash), ('time', str(time.time()))])
await STOP.wait()
await client.disconnect()
def __init__(self, host, port, subscribe_topic, publish_topic, **kwargs):
self.host = host
self.port = port
# topics
self.subscribe_topic = subscribe_topic
self.publish_topic = publish_topic
# connection
self.connection_id = uuid.uuid4().hex[:8]
self.is_connected = False
self.client = MQTTClient(self.connection_id)
# callbacks
self.client.on_connect = self.on_connect
self.client.on_message = self.on_message
self.client.on_disconnect = self.on_disconnect
self.client.on_subscribe = self.on_subscribe
self.STOP = asyncio.Event()
# options
self.ack_topic = kwargs.get('ack_topic')
self.enable_ssl = kwargs.get('enable_ssl', False)
self.enable_auth = kwargs.get('enable_auth', False)
self.username = kwargs.get('username')
self.password = kwargs.get('password')
self.client_cert = kwargs.get('client_cert')
self.client_key = kwargs.get('client_key')
self.qos = kwargs.get('qos', 2)
async def connect_output_mqtt(self):
self.output_client = MQTTClient(None) # auto-generate client id
self.output_client.on_connect = self.output_on_connect
self.output_client.on_message = self.output_on_message
self.output_client.on_disconnect = self.output_on_disconnect
self.output_client.on_subscribe = self.output_on_subscribe
user = self.settings["output_mqtt"]["user"]
password = self.settings["output_mqtt"]["password"]
host = self.settings["output_mqtt"]["host"]
port = self.settings["output_mqtt"]["port"]
self.output_client.set_auth_credentials(user, password)
try:
await self.output_client.connect(host,
port,
keepalive=60,
version=MQTTv311)
except Exception as e:
if hasattr(e, 'args') and e.args[0] == 5:
print(
"{}\033[1;31m FAIL: Connect output_mqtt auth (as {} )\033[0;0m"
.format(self.ts_string(), user),
file=sys.stderr,
flush=True)
else:
print(
"{}\033[1;31m FAIL gmqtt connect exception\n{}\n{}\033[0;0m"
.format(self.ts_string(), e),
file=sys.stderr,
flush=True)
self.ask_exit()
async def _connect(self):
GmqttClient.counter += 1
client_id = f'client-id/{platform.node()}/pid_{os.getpid()}/{uuid.getnode()}/{GmqttClient.counter}'
self.client = MQTTClient(client_id)
self.PROCESS = asyncio.Event()
self.client.on_connect = self.on_connect
self.client.on_message = self.on_message
self.client.on_disconnect = self.on_disconnect
self.client.on_subscribe = self.on_subscribe
# print('set')
self.client.set_auth_credentials(self.config.username,
self.config.password)
while True:
try:
await self.client.connect(self.config.hostname,
port=self.config.port,
ssl=self.config.ssl,
version=self.config.mqtt_version)
break
except Exception as ex:
print('connect failed', ex)
time.sleep(1)
self.ready.set()
while True:
await self.PROCESS.wait()
self.PROCESS.clear()
# print('process signaled')
self._sync_subscriptions()
# await self.STOP.wait()
await self.client.disconnect()
async def main(broker_host):
print("creating client2")
client = MQTTClient("client2")
client.on_connect = on_connect
client.on_message = on_message
client.on_disconnect = on_disconnect
client.on_subscribe = on_subscribe
client.on_publish = on_publish
await client.connect(broker_host)
client.subscribe("org/responses/client2")
await asyncio.sleep(5)
client.publish('org/common',"client2 message",\
response_topic="org/responses/client2")
await asyncio.sleep(50) #wait to receive message
await client.disconnect()
async def connect(self):
try:
print(
'""""""""""""""""""""""""""""""""""""""""""""""""""""""""""""""""'
)
print('Attempting MQTT connection...')
print('MQTT host : ', self.broker_host)
print('MQTT user : '******'MQTT error, restarting in 8s...')
await asyncio.sleep(8)
await self.connect()
async def main(broker_host, token):
print("main started")
client = MQTTClient(None)
client.on_connect = on_connect
client.on_message = on_message
client.on_disconnect = on_disconnect
client.on_subscribe = on_subscribe
print("connecting")
# client.set_auth_credentials(token, None)
await client.connect(broker_host, version=MQTTv311)
print("connected... publishing")
client.publish('foo', str(time.time()), qos=1)
print("published")
await STOP.wait()
await client.disconnect()
print("finished")
async def main(broker_host):
print("creating client")
client = MQTTClient("client1")
client.on_connect = on_connect
client.on_message = on_message
client.on_disconnect = on_disconnect
client.on_subscribe = on_subscribe
client.on_publish = on_publish
await client.connect(broker_host)
client.subscribe('org/common', no_local=True)
await asyncio.sleep(5)
print("Publish response topic")
msg_out1 = "test message"
client.publish('org/common', "aa", response_topic="org/responses/client1")
await asyncio.sleep(50) #wait to receive message
if len(messages) == 0:
print("test failed")
else:
msg = messages.pop()
if msg == msg_out1:
print("test succeeded")
await client.disconnect()
async def main(broker_host, token):
client = MQTTClient(__name__)
client.on_connect = on_connect
client.on_disconnect = on_disconnect
client.on_message = on_message
client.on_subscribe = on_subscribe
if token:
client.set_auth_credentials(token)
log.debug(f'Connecting to {broker_host}')
await client.connect(broker_host)
def on_app_changed(status, payload):
client.publish(BASETOPIC + "/app", payload)
def on_volume_changed(status, payload):
client.publish(BASETOPIC + "/volume", payload)
lg = LGClient()
lg.ac.subscribe_get_current(on_app_changed)
lg.mc.subscribe_get_volume(on_volume_changed)
# Periodic heartbeat from the bridge
def heartbeat():
while True:
client.publish(f"{BASETOPIC}/heartbeat/{client._client_id}",
str(datetime.datetime.now()))
time.sleep(1)
threading.Thread(target=heartbeat, daemon=True).start()
await stopEvent.wait()
await client.disconnect()
async def publish_mqtt():
client = MQTTClient("client-id")
await client.connect("maggie-kafka-1.thenetcircle.lab",
port=1883,
version=MQTTv50)
client.publish("1972", str(time.time()), qos=1, message_expiry_interval=10)
await client.disconnect()
async def main(broker_host, username, password):
client = MQTTClient(client_id="pub-client-id", receive_maximum=24000)
client.on_disconnect = on_disconnect
client.set_auth_credentials(username=username, password=password)
await client.connect(broker_host)
for i in range(10000):
client.publish(message_or_topic='TEST/T1', payload=str(i), qos=1, retain=True, message_expiry_interval=60)
def __init__(self, loop: asyncio.AbstractEventLoop, device_registry):
self.loop = loop
self.device_registry = device_registry
self.client = MQTTClient("client-id")
self.client.on_connect = self.on_connect
self.client.on_message = self.on_message
self.client.on_disconnect = self.on_disconnect
self.client.on_subscribe = self.on_subscribe
async def init_mqtt(self):
if self.args.mqtt_broker is not None:
self.mqtt = MQTTClient('deepdish')
if self.args.mqtt_user is not None:
self.mqtt.set_auth_credentials(self.args.mqtt_user,
self.args.mqtt_pass)
await self.mqtt.connect(self.args.mqtt_broker)
if self.topic is None:
self.topic = 'default/topic'
def __init__(self, their_vk, endpoint):
self.client = MQTTClient("client-id")
self.client.on_connect = self.on_connect
self.client.on_message = self.on_message
self.client.on_disconnect = self.on_disconnect
self.client.on_subscribe = self.on_subscribe
self.did_conn = StaticConnection(crypto.create_keypair(),
their_vk=their_vk,
endpoint=endpoint)
def __init__(self, settings=None):
print("LinkGMQTT __init__()")
self.settings = settings
self.client = MQTTClient(None) # None => autogenerated client id
self.client.on_connect = self.on_connect
self.client.on_message = self.on_message
self.client.on_disconnect = self.on_disconnect
self.client.on_subscribe = self.on_subscribe
self.subscription_queue = asyncio.Queue()
print("LinkGMQTT __init__ completed")
async def connect(self):
self.client = MQTTClient(self.asm.name)
self.client.on_message = on_message
self.client.set_auth_credentials(
os.getenv('MQTT_USER', "arcus"),
os.getenv('MQTT_PASSWORD', "arcusarcus"))
await self.client.connect(os.getenv('MQTT_HOST', "mqtt"),
1883,
keepalive=60,
version=MQTTv311)
_LOGGER.info("Connected to MQTT")
def __init__(
self,
broker: str,
port: int = 1883,
keepalive: int = 60,
auth: List[str] = [None, None],
event_functions=None,
client_id: str = "client_id",
event_loop=None,
**kwargs,
) -> None:
default_events = {
"on_connect": self.on_connect,
"on_message": self.on_message,
"on_disconnect": self.on_disconnect,
"on_subscribe": self.on_subscribe,
}
if event_functions is None:
event_functions = {}
self.event_functions = default_events
self.event_functions.update(event_functions)
# self.client = MQTTClient(client_id)
self.auth = auth
self.broker = broker
self.port = port
self.keepalive = keepalive
self.stop = asyncio.Event()
if event_loop is None:
loop = asyncio.get_event_loop()
else:
loop = event_loop
loop.add_signal_handler(signal.SIGINT, self.ask_exit)
loop.add_signal_handler(signal.SIGTERM, self.ask_exit)
# passing any extra kwargs to the call to be used for e.g. on_connect
self.client = MQTTClient(client_id, **kwargs)
for _ in [k for k, v in self.event_functions.items() if v is None]:
logger.warning(f"mqtt no function assigned to {_}")
self.event_functions.pop(k)
for k, v in self.event_functions.items():
setattr(self.client, k, v)
if any(self.auth):
self.client.set_auth_credentials(*self.auth)
loop.create_task(self.start(self.broker))
def prepare_client(token):
CLIENT_ID = create_uid()
client = MQTTClient(CLIENT_ID)
client.on_connect = on_connect
client.on_message = on_message
client.on_disconnect = on_disconnect
client.on_subscribe = on_subscribe
client.set_auth_credentials(token, None)
return client
async def main():
client = MQTTClient(mqtt_client_id,
session_expiry_interval=86400 * 10,
clean_session=False)
client.on_connect = on_connect
client.on_message = on_message
client.on_disconnect = on_disconnect
client.on_subscribe = on_subscribe
client.set_auth_credentials(username, None)
await client.connect(broker_host)
await STOP.wait()
await client.disconnect()
def __init__(self,
config: MQQTConfig,
*,
client_id: Optional[Type[str]] = None,
clean_session: bool = True,
optimistic_acknowledgement: bool = True,
**kwargs: Any) -> None:
'''
FastMQTT client object to establish connection parametrs beforeconnect and manipulate MQTT service.
The class object holds session information necesseary to connect MQTT broker.
param :: config : Config parameters for gmqtt.Client
type :: config: MQQTConfig
param :: client_id : client_id should be unique identfiyer for connection to MQQT broker
type :: client_id: Any
param :: clean_session : The clean session flag tells the broker whether the client wants to establish
a persistent session or not. In a persistent session clean_session = False, the broker stores all subscriptions for the client and all missed messages for the client that subscribed with a Quality of Service (QoS) level 1 or 2. If the session is not persistent (clean_session = True), the broker does not store anything for the client and purges all information from any previous persistent session. The client_id that the client provides when it establishes connection to the broker identifies the session.
type :: clean_session: bool
param :: optimistic_acknowledgement : #TODO more info needed
type :: optimistic_acknowledgement: bool
'''
if not client_id: client_id = uuid.uuid4().hex
self.client: MQTTClient = MQTTClient(client_id)
self.config: Dict[Any, Any] = config
self.client._clean_session = clean_session
self.client._username: Optional[str] = config.username or None
self.client._password: Optional[str] = config.password or None
self.client._host: str = config.host
self.client._port: int = config.port
self.client._keepalive: int = config.keepalive
self.client._ssl: Union[bool, SSLContext] = config.ssl
self.client.optimistic_acknowledgement: bool = optimistic_acknowledgement
self.client._connect_properties: Any = kwargs
self.executor = ThreadPoolExecutor()
self.loop = asyncio.get_event_loop()
if self.config.will_message_topic and self.config.will_message_payload and self.config.will_delay_interval:
print("WILL MESSAGE INITILAZIED")
self.client._will_message = Message(
self.config.will_message_topic,
self.config.will_message_payload,
self.config.will_delay_interval)
async def main(broker_host):
client = MQTTClient('client-id')
client.on_connect = on_connect
client.on_message = on_message
client.on_disconnect = on_disconnect
client.on_subscribe = on_subscribe
await client.connect(broker_host, 1883)
for x in range(100):
client.publish('TEST/TIME', time.time(), qos=1)
await STOP.wait()
await client.disconnect()
async def main(broker_host, token):
client = MQTTClient("vscode-client")
client.on_connect = on_connect
client.on_message = on_message
client.on_disconnect = on_disconnect
client.on_subscribe = on_subscribe
client.set_auth_credentials(token, None)
await client.connect(broker_host)
# client.publish('TEST/TIME', str(time.time()), qos=0)
await STOP.wait()
await client.disconnect()
async def main(broker_host, username, password):
client = MQTTClient(client_id="sub-client-id",
receive_maximum=24000,
clean_session=False,
session_expiry_interval=60)
client.on_connect = on_connect
client.on_message = on_message
client.on_disconnect = on_disconnect
client.on_subscribe = on_subscribe
client.set_auth_credentials(username=username, password=password)
await client.connect(broker_host)
await STOP.wait()
await client.disconnect()
async def Main(self, aHost, aToken, aTopic):
print('Main()', aHost, aToken)
self.Topic = aTopic
self.Last = time.time()
client = MQTTClient('asdfghjk')
client.on_message = self.on_message
client.on_connect = self.on_connect
#client.set_auth_credentials(aToken, None)
await client.connect(aHost, 1883, keepalive=60)
#client.publish(TOPIC, 'Message payload', response_topic='RESPONSE/TOPIC')
#client.publish(TOPIC, 'Message payload', response_topic=TOPIC)
await AEvent.wait()
await client.disconnect()
async def main(broker_host):
client = MQTTClient("client-id")
client.on_connect = on_connect
client.on_message = on_message
client.on_disconnect = on_disconnect
client.on_subscribe = on_subscribe
client.set_auth_credentials('admin', 'admin')
await client.connect(broker_host, 8080, keepalive=60, version=MQTTv50)
#client.publish('TEST/TIME', str(time.time()), qos=1)
time.sleep(30)
await STOP.wait()
await client.disconnect()
def __init__(self, sensor_id=None, event_buffer=None, settings=None):
print("SmartPlug init()", sensor_id)
#debug will put these in settings
self.broker_host = 'localhost'
self.broker_port = 1883
self.sensor_id = sensor_id
self.STOP = asyncio.Event()
self.client = MQTTClient(self.sensor_id + "_node")
self.client.on_connect = self.on_connect
self.client.on_message = self.on_message
self.client.on_disconnect = self.on_disconnect
self.client.on_subscribe = self.on_subscribe
async def main():
client = MQTTClient('flespi-examples-mqtt-client-python',
clean_session=True)
client.on_connect = on_connect
client.on_message = on_message
client.on_disconnect = on_disconnect
client.on_subscribe = on_subscribe
# see https://flespi.com/kb/tokens-access-keys-to-flespi-platform to read about flespi tokens
client.set_auth_credentials(
'FlespiToken {}'.format(os.environ.get("FlespiToken")), None)
print('mqtt client created, connecting...')
await client.connect('mqtt.flespi.io', port=8883, ssl=True)
await STOP.wait()
await client.disconnect()
print('disconnected')
async def main(host):
client = MQTTClient("smart-agri-data-publisher")
# client.on_connect = on_connect
# client.on_message = on_message
client.on_disconnect = on_disconnect
# client.on_subscribe = on_subscribe
#client.set_auth_credentials(token, None)
#await client.connect(broker_host)
await client.connect(host)
with open('./20200701_0830_Outdoor-utf8.csv') as fo:
with open('./20200701_0830_South-utf8.csv') as fs:
readero = csv.reader(fo)
readerio = iter(readero)
next(readerio)
headero = next(readerio)
print(headero)
next(readerio)
readers = csv.reader(fs)
readeris = iter(readers)
next(readeris)
headers = next(readeris)
print(headers)
next(readeris)
while True:
try:
for rowo, rows in zip(readero, readers):
print(rowo)
for ent in (1, 6, 21, 26, 31, 36, 41, 46, 51):
pubtopic = TOPIC+'outdoor/'+headero[ent]
pubdata = str(rowo[ent])
print(pubtopic, pubdata)
client.publish(pubtopic, pubdata, qos=1)
for ent in (1, 6, 11, 16, 21, 26):
pubtopic = TOPIC+'south/'+headers[ent]
pubdata = str(rows[ent])
print(pubtopic, pubdata)
client.publish(pubtopic, pubdata, qos=1)
time.sleep(1)
except StopIteration:
fo.close()
fs.close()
return
# await STOP.wait()
await client.disconnect()
def connect(self):
MQTT_Base.connect(self)
self.mqtt_client = MQTTClient(
'gmqtt' #self.mqtt_settings["MQTT_CLIENT_ID"]
)
self.mqtt_client.on_connect = self._on_connect
self.mqtt_client.on_message = self._on_message
self.mqtt_client.on_disconnect = self._on_disconnect
if self.mqtt_settings["MQTT_USERNAME"]:
self.mqtt_client.set_auth_credentials(
self.mqtt_settings["MQTT_USERNAME"],
self.mqtt_settings["MQTT_PASSWORD"],
)
def start():
try:
logger.warning('Connecting to MQTT')
asyncio.set_event_loop(self.event_loop)
# self.event_loop.run_until_complete(
# self.mqtt_client.connect(self.mqtt_settings["MQTT_BROKER"], self.mqtt_settings["MQTT_PORT"],keepalive=self.mqtt_settings["MQTT_KEEPALIVE"], version=MQTTv311)
# )
logger.warning('Looping forever')
self.event_loop.run_forever()
logger.warning('Event loop stopped')
#self.session.close()
except Exception as e:
logger.error('Error in event loop {}'.format(e))
self.event_loop = asyncio.new_event_loop()
logger.warning("Starting MQTT thread")
self._ws_thread = threading.Thread(target=start, args=())
self._ws_thread.daemon = True
self._ws_thread.start()
future = asyncio.run_coroutine_threadsafe(
self.mqtt_client.connect(
self.mqtt_settings["MQTT_BROKER"],
self.mqtt_settings["MQTT_PORT"],
keepalive=self.mqtt_settings["MQTT_KEEPALIVE"],
version=MQTTv311), self.event_loop)
async def main(broker_host):
client = MQTTClient(client_id)
assign_callbacks_to_client(client)
await client.connect(broker_host)
print('Subscribe topic for the Last Will and Testament (LWT)...')
client.subscribe(status_topic)
print('Subscribe response topic...')
client.subscribe(res_topic)
print('Publish request message with response topic...')
client.publish(teds_topic, req_msg, response_topic=res_topic)
await STOP.wait()
await client.disconnect()
