def on_message(mosq, obj, msg): # This is the Master Call for saving MQTT Data into DB # For details of "Sensor_Data_Handler" function please refer "sensor_data_to_db.py" print "MQTT Data Received..." print "MQTT Topic: " + msg.topic print "Data: " + msg.payload sensor_Data_Handler(msg.topic, msg.payload)
def on_message(mosq, obj, msg): # This is the Master Call for saving MQTT Data into DB # For details of "sensor_Data_Handler" function please refer "sensor_data_to_db.py" print ("MQTT Data Received...") print ("MQTT Topic: " + str(msg.topic)) print ("Data: " + str(msg.payload)) sensor_Data_Handler(msg.topic, msg.payload)
def handle_mqtt_message(client, userdata, message): data = dict( topic=message.topic, payload=message.payload.decode(), qos=message.qos, ) sensor_Data_Handler(message.topic, message.payload) socketio.emit('mqtt_message', data=data)
def on_message(mosq, obj, msg): print "Call when ENTER ON_MESSAGE" # This is the Master Call for saving MQTT Data into DB # For details of "sensor_Data_Handler" function please refer "sensor_data_to_db.py" print "MQTT Data Received..." print "MQTT Topic: " + msg.topic print "Data: " + msg.payload sensor_Data_Handler(msg.topic, msg.payload)
def on_message(client, userdata, msg): # This is the Master Call for saving MQTT Data into DB # For details of "sensor_Data_Handler" function please refer "sensor_data_to_db.py" print("MQTT Data Received...") print("MQTT Topic: " + msg.topic) payload = str(msg.payload)[2:-1] print("Data: " + payload) sensor_Data_Handler(msg.topic, payload)
def on_message(mosq, obj, msg): # This is the Master Call for saving MQTT Data into DB # For details of "sensor_Data_Handler" function please refer "sensor_data_to_db.py" # print ("MQTT Data Received...") # print ("MQTT Topic: " + msg.topic) # print ("Data: " + msg.payload) try: sensor_Data_Handler(msg.topic, msg.payload) except UnknownTopicError as e: print("unknown topic received: ", str(e.args))
def on_message(client, userdata, msg): count = 0 # print("Message: " + count) print("Stepped into 'on_message'... Count = ", count) print(msg.topic) print(msg.payload) # # This is the Master Call for saving MQTT Data into DB # # For details of "sensor_Data_Handler" function please refer "sensor_data_to_db.py" print("MQTT Data Received...") print("MQTT Topic: ", msg.topic) print("Data: ", msg.payload) sensor_Data_Handler(msg.topic, msg.payload)
def on_circle_draw(self, color, x, y, nodo_id, ssid, rssi, canal, bit_rate, radio, snr, ocupacion, ruido): tasa_transmision="bit rate: "+ str(bit_rate) + "Mbps" interferencia= "SNR: "+str(ocupacion)+ "dB" nodo="N" + str(nodo_id) potencia = "RSSI: "+ str(rssi) + "dBm" channel = "Canal: "+ str(canal) #vlightgray self.canvas.create_oval(x -90, y -90, x + 90, y + 150, fill="lightgray", width=0) self.canvas.create_oval(x - radio, y - radio, x + radio, y + radio, fill=color, width=0) self.canvas.create_text(x-x+725,y-y+54,fill="black",font="Times 20 italic bold", text=channel) self.canvas.create_text(x,y,fill="black",font="Times 20 italic bold", text=nodo) self.canvas.create_text(x,y+20,fill="black",font="Times 15 italic bold", text=potencia) self.canvas.create_text(x,y+(90),fill="black",font="Times 15 italic bold", text=tasa_transmision) self.canvas.create_text(x,y+(110),fill="black",font="Times 15 italic bold", text=interferencia) self.canvas.create_text(x,y+(130),fill="black",font="Times 15 italic bold", text=snr) sensor_Data_Handler(nodo_id, ssid, rssi, canal, bit_rate, ocupacion, ruido)
def on_message(client, userdata, msg): # This function is called everytime the topic is published to. # If you want to check each message, and do something depending on # the content, the code to do this should be run in this function # print "Topic: ", msg.topic + ": " + str(msg.payload) if msg.topic == "Temperature": Temperature_Data = {} Temperature_Data['Sensor_ID'] = '1' Temperature_Data['Date'] = ( datetime.today()).strftime("%d-%b-%Y %H:%M:%S:%f") Temperature_Data['Temperature'] = str(msg.payload) temperature_json_data = json.dumps(Temperature_Data) sensor_Data_Handler(msg.topic, temperature_json_data) CSV_export() if msg.topic == "Humidity": Humidity_Data = {} Humidity_Data['Sensor_ID'] = '1' Humidity_Data['Date'] = ( datetime.today()).strftime("%d-%b-%Y %H:%M:%S:%f") Humidity_Data['Humidity'] = str(msg.payload) humidity_json_data = json.dumps(Humidity_Data) sensor_Data_Handler(msg.topic, humidity_json_data) CSV_export()
def on_message(client, userdata, msg): print('-------------') print('topic: %s' % msg.topic) print('payload: %s' % msg.payload) sensor_Data_Handler(msg.topic, msg.payload)
def on_message(client, userdata, msg): print("MQTT Data Received...") print("MQTT Topic: " + msg.topic) print("Data: " + str(msg.payload)) sensor_Data_Handler(msg.topic, msg.payload)
def on_message(client, userdata, msg): print("message received " ,str(msg.payload.decode("utf-8"))) #print("message topic=",msg.topic) #print("message qos=",msg.qos) #print("message retain flag=",msg.retain) sensor_Data_Handler(msg.topic, msg.payload)
def on_message(client, userdata, message): print('\n') sensor_Data_Handler(message.topic, message.payload)
def on_message(mosq, obj, msg): # This is the Master Call for saving MQTT Data into DB print "MQTT Data Received..." print "MQTT Topic: " + msg.topic print "Data: " + msg.payload sensor_Data_Handler(msg.topic, msg.payload, FVNPnum)
def on_message(mqtt_client, obj, msg): sensor_Data_Handler(msg.topic, msg.payload)