Interface Arduino to MySQL using Python
Here's a brief tutorial that should get you up and running interfacing your Adruino with a MySQL database. For the sake of this tutorial, I am assuming you know how to set up and use MySQL. This tutorial does not require much Python experience, but you will be required to install two Python libraries for this project.

Glad we're on the same page, let's get to it!

Step 1: Downloading and Installing the Python Libraries

Interface Arduino to MySQL using Python
First I'll point you in the right direction for installing the required Python libraries. First you'll need to install the pySerial library. Simply put, the pySerial library allows your Python script to talk with the serial port in which the Arduino is connected. I.e. you can kind of think of it as a stream connecting the Arduino code to the Python code (insert other silly analogies here).

1. You can download the pySerial library here:

2. For mac or linux users, download the file and extract it. Open terminal and cd into the extracted folder and run the following command:

python install

This will install the pySerial package. (screen shot below)

Next, we will install the library to allow Python to talk with MySQL called MySQLdb.
I just want to note, this step can be very annoying, but very rewarding once completed. I have included a guide for you to follow, but I recommend you have MySQL, python, and XCode(or the latest GCC) installed before you try and install MySQLdb.

1. download the library from source forge:

2. If you're lucky enough, you should just be able to download it, extract it, open Terminal, cd into the folder and run python install, just as you did before. If this works, you're awesome and you should awesome, but if not, this guide should help. Note, I had to do step 6 before step 3.

Step 2: Fewf, now let's set up our Arduino!

All right. Now that we've gotten all of the annoying steps out of the way, let's get to the fun parts!

For the sake of getting you up and running, I'll keep this short and concise.

1. Let's get our Arduino sending some output.

What we're going to do is essentially send data from our Arduino for our Python code to process, so let's first get our Arduino to send some data.

I have a temperature/humidity sensor lying around, so I'm going to take the readings from this and send them to my Python code.

Here's the sample code:

//you can ignore this part, just for the temperature sensor
#include "DHT.h"
#define DHTPIN 2
#define DHTTYPE DHT22

void setup() {
dht.begin(); //start the temp reading (agian only for temperature sensor

void loop() {
//read the temperature and humidity (temperature sensor specific code)
float h = dht.readHumidity(); //read humidity
float t = dht.readTemperature(); //read temperature (C)

// check if returns are valid
if (isnan(t) || isnan(h)) {
Serial.println("Failed to read from DHT");
} else { //if it read correctly
Serial.print(h); //humidity
Serial.print(" \t"); //tab
Serial.println(t); //temperature (C)

It should be pretty straight forward. Again, I'm using a temperature/humidity sensor to get some data to send to the Python, but this could obviously be substituted with anything other data; it's just used as an example!

Note: the Serial.print lines are the data that is being sent to the serial port that the Python code will be grabbing and doing all the wonderful things with it.

Step 3: Let's go ahead and set up our MySQL

Now that we have the code running on our Arduino, we need some Python code to talk to it, but first we need a MySQL database and table to store this data.

Our Arduino is reading the temp/humidity data every second and writing it with Serial.print(). So we're going to write some Python to grab this data and insert it into some MySQL.

First, I'll create a simple MySQL table to store this data.

create table weatherData (
weatherDataID int(11) AUTO_INCREMENT NOT NULL,
humidity decimal(4,2) NOT NULL,
tempC decimal(4,2) NOT NULL,
constraint weatherData_PK primary key (weatherDataID)

This table is simple enough, just going to store the humidity and temperature reading that I'm getting from the Arduino.

Attached is a screen shot of me setting up this database using the mysql command line. Here's a wonderful guide to refresh your memory on the process if need be (I know I reference it monthly).

Step 4: Python TIEM

Interface Arduino to MySQL using Python
Alright, fewf, now we've got our Arduino ready and a database all prepared for our data. Last step is to write the Python to get this data and insert it into our database.


import serial
import MySQLdb

#establish connection to MySQL. You'll have to change this for your database.
dbConn = MySQLdb.connect("localhost","database_username","password","database_name") or die ("could not connect to database")
#open a cursor to the database
cursor = dbConn.cursor()

device = '/dev/tty.usbmodem1411' #this will have to be changed to the serial port you are using
print "Trying...",device
arduino = serial.Serial(device, 9600)
print "Failed to connect on",device

data = arduino.readline() #read the data from the arduino
pieces = data.split("\t") #split the data by the tab
#Here we are going to insert the data into the Database
cursor.execute("INSERT INTO weatherData (humidity,tempC) VALUES (%s,%s)", (pieces[0],pieces[1]))
dbConn.commit() #commit the insert
cursor.close() #close the cursor
except MySQLdb.IntegrityError:
print "failed to insert data"
cursor.close() #close just incase it failed
print "Failed to get data from Arduino!"

Okay, so hopefully this is relatively understandable from the comments. The real important parts to note are to make sure you configure the connection to be specific to your data for your database (i.e. username/password/database name). Secondly, you're going to want to change the device='' line to point to the usb serial port that you are using.

Once you configure this script as you needed, you should see the data being populated in your MySQL table when you run the script. Here's an example below of what mine is populating like (see image).

Well that's about it! Hopefully you're all set up an good to go now. You should be able to do a number of cool things now with this basis, and I hope you have some fun with it. Go put this data on your website or do whatever your heart desires!

Thanks for reading, and please please please feel free to let me know if you have any suggestions to improve this tutorial, or have suggestions for any tutorials you'd like to see in the future.


Tag cloud

make build easy simple arduino making homemade solar laser printed portable cheap mini building custom cardboard wooden create super lego turn paracord chocolate your paper light intel