Site icon High Voltages

How to make MQTT dashboard | MQTT in Python

How to make MQTT dashboard | MQTT in Python

Welcome to another tutorial of the “how to MQTT” series. In this tutorial, we will learn how to use the MQTT in python. Also, we will learn how to make MQTT dashboard in Python. That is really going to help in IoT-based projects.

The data which we will be showing on MQTT dashboard will be coming from ESP8266, DHT11 sensor which we programmed in our last tutorials.

To start this tutorial, i will recommend some pre-requisites, which i have covered in my previous tutorials. You should know what is mqtt protocol, how publish/subscribe model works, how to select topic names and how to usq MQTT protocol in ESP8266, MATLAB , Raspberry pi and how to make your own MQTT broker.

Talking about broker, i am using RYC1001 IoT cloud by REYAX technologies and they are the sponser of this tutorial.

The reason for choosing python is that python is easy to learn and use, and the community of python is very strong and there are hundreds of libraries and frameworks that you can use in python for free. Another reason is that when I made the last video MQTT in MATLAB, people complained that MATLAB is not free, so they can use python and they can do anything with data on python that they can do on MATLAB as well.

Buying guide

Development boardAmazon (US)Ali express
ESP32How to make MQTT dashboard | MQTT in PythonHow to make MQTT dashboard | MQTT in Python
Raspberry pi zeroHow to make MQTT dashboard | MQTT in PythonHow to make MQTT dashboard | MQTT in Python

Raspberry pi 4
How to make MQTT dashboard | MQTT in PythonHow to make MQTT dashboard | MQTT in Python
ESP8266How to make MQTT dashboard | MQTT in PythonHow to make MQTT dashboard | MQTT in Python
DHT11How to make MQTT dashboard | MQTT in PythonHow to make MQTT dashboard | MQTT in Python
Buying guide for How to MQTT series

MQTT in Python

The first step is to install the library, which you can do that by typing the following pip command in terminal,

pip3 install paho-mqtt

the following is the code which will help you do the publish or subscribe the message,

from paho.mqtt import client as mqtt_client
import json

broker = 'iot.reyax.com'
port = 1883
topic = "api/request"
topic_sub = "api/notification/37/#"
# generate client ID with pub prefix randomly
client_id = 'your client id'
username = 'your username'
password = 'your password'
deviceId = "your deviceId"

def connect_mqtt():
    def on_connect(client, userdata, flags, rc):
        if rc==0:
            print("Successfully connected to MQTT broker")
        else:
            print("Failed to connect, return code %d", 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, status):
    msg = "{\"action\":\"command/insert\",\"deviceId\":\""+deviceId+"\",\"command\":{\"command\":\"LED_control\",\"parameters\":{\"led\":\""+status+"\"}}}"
    result = client.publish(msg,topic)
    msg_status = result[0]
    if msg_status ==0:
        print(f"message : {msg} sent to topic {topic}")
    else:
        print(f"Failed to send message to topic {topic}")


def subscribe(client: mqtt_client):
    def on_message(client, userdata, msg):
        #print(f"Recieved '{msg.payload.decode()}' from '{msg.topic}' topic")
        y = json.loads(msg.payload.decode())
        temp = y["notification"]["parameters"]["temp"]
        hum = y["notification"]["parameters"]["humi"]
        print("temperature: ",temp,", humidity:",hum)



    client.subscribe(topic_sub)
    client.on_message = on_message

def main():
    client = connect_mqtt()
    subscribe(client)

    client.loop_forever()

if __name__ == '__main__':
    main()

MQTT dashboard

from tkinter import *
from paho.mqtt import client as mqtt_client
import json

broker = 'iot.reyax.com'
port = 1883
topic = "api/request"
topic_sub = "api/notification/37/#"
# generate client ID with pub prefix randomly
client_id = 'your client id'
username = 'your username'
password = 'your password'
deviceId = "your deviceId"


def connect_mqtt():
    def on_connect(client, userdata, flags, rc):
        if rc==0:
            print("Successfully connected to MQTT broker")
        else:
            print("Failed to connect, return code %d", 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,status):
    # msg = f"messages: {msg_count}"
    msg = "{\"action\":\"command/insert\",\"deviceId\":\""+deviceId+"\",\"command\":{\"command\":\"LED_control\",\"parameters\":{\"led\":\""+status+"\"}}}"
    # msg = '{"action":"command/insert","command":{"id":432436060,"command":"LED_control","timestamp":"2021-03-24T00:19:44.418","lastUpdated":"2021-03-24T00:19:44.418","userId":37,"deviceId":"s3s9TFhT9WbDsA0CxlWeAKuZykjcmO6PoxK6","networkId":37,"deviceTypeId":5,"parameters":{"led":"on"},"lifetime":null,"status":null,"result":null},"subscriptionId":1616544981034531}'
    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}")


def subscribe(client: mqtt_client):
    def on_message(client, userdata, msg):
        #print(f"Recieved '{msg.payload.decode()}' from '{msg.topic}' topic")
        y = json.loads(msg.payload.decode())
        temp = str(y["notification"]["parameters"]["temp"])
        hum = str(y["notification"]["parameters"]["humi"])
        print("temperature: ",temp,", humidity:",hum)
        temp_label.config(text=temp+" °C",
                        fg="black")

        hum_label.config(text=hum + "  %",
                          fg="black")




    client.subscribe(topic_sub)
    client.on_message = on_message


window = Tk()
window.title("MQTT Dashboard")
window.geometry('395x675')
window.resizable(False,False)
window.configure(bg="white")
canvas = Canvas(window, bg="white", width=395,height=135)
canvas.place(x=0,y=0)
img = PhotoImage(file="logo.png")
canvas.create_image(0,0,anchor=NW,image=img)

canvas2 = Canvas(window,width=100,height=100)
canvas2.place(x=50,y=165)
img2 = PhotoImage(file="temp2.png")
canvas2.create_image(0,0,anchor=NW,image=img2)

canvas3 = Canvas(window,width=100,height=100)
canvas3.place(x=50,y=295)
img3 = PhotoImage(file="hum.png")
canvas3.create_image(0,0,anchor=NW,image=img3)

is_on = False



# Create Label
my_label = Label(window,
                 text="OFF!",
                 bg="white",
                 fg="grey",
                 font=("Helvetica", 32))
my_label.place(x=180,y=430)

def switch():
    global is_on
    if is_on:
        on_button.config(image=off)
        my_label.config(text="OFF!",
                        fg="grey")
        print("LED is off now")
        publish(client,"0")
        is_on=False
    else:
        on_button.config(image=on)
        my_label.config(text="ON!",
                        fg="red")
        print("LED is On now")
        publish(client,"1")
        is_on=True

# Define Our Images
on = PhotoImage(file="on1.png")
off = PhotoImage(file="off1.png")

# Create A Button
on_button = Button(window, image=off, bd=0,
                   command=switch)
on_button.place(x=50,y=420)

canvas4 = Canvas(window, bg="white", width = 395, height = 135)
canvas4.place(x=0,y=545)
img4 = PhotoImage(file="hv.png")
canvas4.create_image(0,0, anchor=NW, image=img4)

# Create Label
temp_label = Label(window,
                 text=" °C",
                 bg="white",
                 fg="black",
                 font=("Helvetica", 32))

temp_label.place(x=180,y=190)

# Create Label
hum_label = Label(window,
                 text="  %",
                 bg="white",
                 fg="black",
                 font=("Helvetica", 32))

hum_label.place(x=180,y=325)
client = connect_mqtt()
subscribe(client)
client.loop_start()


window.mainloop()
client.loop_stop()

MQTT in Python | building IoT dashboard

MQTT in Python | building MQTT dashboard

Exit mobile version