How to Use MQTT in Python (Paho)

Python is an interpreted, high-level, general-purpose programming language. Created by Guido van Rossum and first released in 1991, Python’s design philosophy emphasizes code readability with its notable use of significant whitespace. Its language constructs and object-oriented approach aiming to help programmers write clear, logical code for small and large-scale projects.1

MQTT is a kind of lightweight IoT messaging protocol based on the publish/subscribe model, which can provide real-time and reliable messaging service for IoT devices, only using very little code and bandwidth. It is suitable for devices with limited hardware resources and a network environment with limited bandwidth. Therefore, the MQTT protocol is widely used in IoT, mobile internet, IoV, electricity power, and other industries.

This article mainly introduces how to use the paho-mqtt client and implements connection, subscribe, messaging, and other functions between the MQTT client and MQTT broker in the Python project.

Project Initialization

This project uses Python 3.6 to develop and test. Readers can use the following command to confirm the Python version.

➜  ~ python3 --version             
Python 3.6.7

Choose the MQTT Client

The Paho Python Client provides a client class with support for both MQTT v3.1 and v3.1.1 on Python 2.7 or 3.x. It also provides some helper functions to make publishing one-off messages to an MQTT server very straightforward.

Using pip to Install the Paho MQTT Client

Pip is a management tool for the Python package. This tool provides find, download, install and uninstall functions for the Python package.

pip3 install paho-mqtt

The Use of Python MQTT

Connect to the MQTT Broker

This article will use the free public MQTT broker EMQX. This service is based on MQTT IoT cloud platform to create. The accessing information of the broker is as follows:

  • Broker: broker.emqx.io
  • TCP Port: 1883
  • Websocket Port: 8083

Import the Paho MQTT Client

from paho.mqtt import client as mqtt_client

Set the Parameter of MQTT Broker Connection

Set the address, port, and topic of the MQTT Broker connection. At the same time, we call the Python function random.randint to randomly generate the MQTT client id.

broker="broker.emqx.io"
port = 1883
topic = "python/mqtt"
client_id = f'python-mqtt-{random.randint(0, 1000)}'
# username="emqx"
# password = 'public'

Write the MQTT Connect Function

Write the connect callback function on_connect. This function will be called after connecting the client, and we can determine whether the client is connected successfully according to rc in this function. Usually, we will create an MQTT client at the same time and this client will connect to broker.emqx.io.

def connect_mqtt():
    def on_connect(client, userdata, flags, rc):
        if rc == 0:
            print("Connected to MQTT Broker!")
        else:
            print("Failed to connect, return code %dn", rc)
    # Set Connecting Client ID
    client = mqtt_client.Client(client_id)
    client.username_pw_set(username, password)
    client.on_connect = on_connect
    client.connect(broker, port)
    return client

Publish Messages

First, we define a while loop. In this loop, we will set the MQTT client publishfunction to send messages to the topic python/mqtt every second.

 def publish(client):
     msg_count = 0
     while True:
         time.sleep(1)
         msg = f"messages: {msg_count}"
         result = client.publish(topic, msg)
         # result: [0, 1]
         status = result[0]
         if status == 0:
             print(f"Send `{msg}` to topic `{topic}`")
         else:
             print(f"Failed to send message to topic {topic}")
         msg_count += 1

Subscribe

Write the message callback function on_message. This function will be called after the client received messages from the MQTT Broker. In this function, we will print out the name of subscribed topics and the received messages.

def subscribe(client: mqtt_client):
    def on_message(client, userdata, msg):
        print(f"Received `{msg.payload.decode()}` from `{msg.topic}` topic")

    client.subscribe(topic)
    client.on_message = on_message

The Full Code

The code of publishing messages

# python 3.6

import random
import time

from paho.mqtt import client as mqtt_client


broker="broker.emqx.io"
port = 1883
topic = "python/mqtt"
# generate client ID with pub prefix randomly
client_id = f'python-mqtt-{random.randint(0, 1000)}'
# username="emqx"
# password = 'public'

def connect_mqtt():
    def on_connect(client, userdata, flags, rc):
        if rc == 0:
            print("Connected to MQTT Broker!")
        else:
            print("Failed to connect, return code %dn", rc)

    client = mqtt_client.Client(client_id)
    client.username_pw_set(username, password)
    client.on_connect = on_connect
    client.connect(broker, port)
    return client


def publish(client):
    msg_count = 0
    while True:
        time.sleep(1)
        msg = f"messages: {msg_count}"
        result = client.publish(topic, msg)
        # result: [0, 1]
        status = result[0]
        if status == 0:
            print(f"Send `{msg}` to topic `{topic}`")
        else:
            print(f"Failed to send message to topic {topic}")
        msg_count += 1


def run():
    client = connect_mqtt()
    client.loop_start()
    publish(client)


if __name__ == '__main__':
    run()

The code of subscribing

mqtt_client: def on_connect(client, userdata, flags, rc): if rc == 0: print(“Connected to MQTT Broker!”) else: print(“Failed to connect, return code %dn”, rc) client = mqtt_client.Client(client_id) client.username_pw_set(username, password) client.on_connect = on_connect client.connect(broker, port) return client def subscribe(client: mqtt_client): def on_message(client, userdata, msg): print( f”Received `{msg.payload.decode()}` from `{msg.topic}` topic”) client.subscribe(topic) client.on_message = on_message def run(): client = connect_mqtt() subscribe(client) client.loop_forever() if __name__ == ‘__main__’: run()” data-lang=””>

# python3.6

import random

from paho.mqtt import client as mqtt_client


broker="broker.emqx.io"
port = 1883
topic = "python/mqtt"
# generate client ID with pub prefix randomly
client_id = f'python-mqtt-{random.randint(0, 100)}'
# username="emqx"
# password = 'public'


def connect_mqtt() -> mqtt_client:
    def on_connect(client, userdata, flags, rc):
        if rc == 0:
            print("Connected to MQTT Broker!")
        else:
            print("Failed to connect, return code %dn", rc)

    client = mqtt_client.Client(client_id)
    client.username_pw_set(username, password)
    client.on_connect = on_connect
    client.connect(broker, port)
    return client


def subscribe(client: mqtt_client):
    def on_message(client, userdata, msg):
        print(f"Received `{msg.payload.decode()}` from `{msg.topic}` topic")

    client.subscribe(topic)
    client.on_message = on_message


def run():
    client = connect_mqtt()
    subscribe(client)
    client.loop_forever()


if __name__ == '__main__':
    run()

mqtt_client: def on_connect(client, userdata, flags, rc): if rc == 0: print(“Connected to MQTT Broker!”) else: print(“Failed to connect, return code %dn”, rc) client = mqtt_client.Client(client_id) client.username_pw_set(username, password) client.on_connect = on_connect client.connect(broker, port) return client def subscribe(client: mqtt_client): def on_message(client, userdata, msg): print( f”Received `{msg.payload.decode()}` from `{msg.topic}` topic”) client.subscribe(topic) client.on_message = on_message def run(): client = connect_mqtt() subscribe(client) client.loop_forever() if __name__ == ‘__main__’: run() “>

Test

Publish Messages

Run the code of publishing messages, we will see that the client connects successfully and publishes messages successfully

python3 pub.py

Subscribe

Run the code of subscribing to messages, we will see that the client connects successfully and receives the published messages successfully

python3 sub.py

python mqtt subscribe

Summary

So far, we have finished that use the paho-mqtt client to connect to the free public MQTT broker and implemented the connect, publish messages, and subscribe to messages between the test client and MQTT broker.

Python is different from high-level languages ​​like C++ or Java, it is more suitable for implementing the business logic on the device side. Using Python can reduce the logic complexity of code and reduce the cost of interaction with the device. We believe that Python will have wider applications in the field of IoT.


  1. https://en.wikipedia.org/wiki/Python_(programming_language)↩

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