Node.js and Raspberry Pi - Webserver with WebSocket

 

What is WebSocket?

WebSocket enables bidirectional communication in real time over the web.

WebSocket can be run together with a normal HTTP server. You can click a button in a web browser, and enable a GPIO on your Raspberry Pi which turns on a light in your house. All in real time, and with communication going both ways!

In this chapter, we will set up a web server with WebSocket. Then create a browser UI to interact with our earlier example of .

 

What Do I Need?

For this tutorial you need a Raspberry Pi. In our examples we use a a Raspberry Pi 3, but this tutorial should work for most versions.

For this you need:

  • A Raspberry Pi with Raspian, internet, SSH, with Node.js installed
  • The for Node.js
  • The for Node.js
  • 1 x
  • 1 x
  • 1 x
  • 1 x
  • 1 x
  • 4 x
  • 1 x

Click the links in the list above for descriptions of the different components.

Note: The resistor you need can be different from what we use depending on the type of LED you use. Most small LEDs only need a small resistor, around 200-500 ohms. It is generally not critical what exact value you use, but the smaller the value of the resistor, the brighter the LED will shine.

Compared to our earlier example, the only new thing we need is to set up a web server, and install the socket.io module.


Webserver for Raspberry Pi and Node.js

Following the earlier chapters in this Node.js tutorial, lets set up a web server that can serve HTML files.

In our "nodetest" directory create a new directory we can use for static html files:

pi@w3demopi:~/nodetest $ mkdir public

Now lets set up a webserver. Create a Node.js file that opens the requested file and returns the content to the client. If anything goes wrong, throw a 404 error.

pi@w3demopi:~/nodetest $ nano webserver.js

webserver.js:

var http = require('http').createServer(handler); //require http server, and create server with function handler()
var fs = require('fs'); //require filesystem module

http.listen(8080); //listen to port 8080

function handler (req, res) { //create server
  fs.readFile(__dirname + '/public/index.html', function(err, data) { //read file index.html in public folder
    if (err) {
      res.writeHead(404, {'Content-Type': 'text/html'}); //display 404 on error
      return res.end("404 Not Found");
    }
    res.writeHead(200, {'Content-Type': 'text/html'}); //write HTML
    res.write(data); //write data from index.html
    return res.end();
  });
}

Go to the folder "public":

pi@w3demopi:~/nodetest $ cd public

And create a HTML file, index.html:

pi@w3demopi:~/nodetest/public $ nano index.html

index.html:

This file will not have any functionality yet. For now it is just a placeholder. Lets see if the webserver is working:

pi@w3demopi:~/nodetest/public $ cd ..
pi@w3demopi:~/nodetest $ node webserver.js

Open the website in a browser using http://[RaspberryPi_IP]:8080/:

The webserver should now be up and running, and we can move on to the WebSocket part.


Install socket.io for Node.js

With the webserver set up, update your Raspberry Pi system packages to their latest versions.

Update your system package list:

pi@w3demopi:~ $ sudo apt-get update

Upgrade all your installed packages to their latest version:

pi@w3demopi:~ $ sudo apt-get dist-upgrade

Doing this regularly will keep your Raspberry Pi installation up to date.

To download and install newest version of socket.io, use the following command:

pi@w3demopi:~ $ npm install socket.io --save


Adding WebSocket to our Webserver

Now we can use WebSocket in our application. Lets update our index.html file:

index.html:





Control LED light








And our webserver.js file:

webserver.js:

var http = require('http').createServer(handler); //require http server, and create server with function handler()
var fs = require('fs'); //require filesystem module
var io = require('socket.io')(http) //require socket.io module and pass the http object (server)

http.listen(8080); //listen to port 8080

function handler (req, res) { //create server
  fs.readFile(__dirname + '/public/index.html', function(err, data) { //read file index.html in public folder
    if (err) {
      res.writeHead(404, {'Content-Type': 'text/html'}); //display 404 on error
      return res.end("404 Not Found");
    }
    res.writeHead(200, {'Content-Type': 'text/html'}); //write HTML
    res.write(data); //write data from index.html
    return res.end();
  });
}

io.sockets.on('connection', function (socket) {// WebSocket Connection
  var lightvalue = 0; //static variable for current status
  socket.on('light', function(data) { //get light switch status from client
    lightvalue = data;
    if (lightvalue) {
      console.log(lightvalue); //turn LED on or off, for now we will just show it in console.log
    }
  });
});

Lets test the server:

pi@w3demopi:~ $ node webserver.js

Open the website in a browser using http://[RaspberryPi_IP]:8080/:

Now the server should output all the changes to the checkbox to the console on the Raspberry Pi.

The client is sending the changes to the server, and the server is responding.

Lets add the from a previous chapter.


Adding Hardware, and sending a response to the Client

Lets update our webserver.js file again. We will use a lot of the code from the Pushbutton controlled LED chapter.

webserver.js:

var http = require('http').createServer(handler); //require http server, and create server with function handler()
var fs = require('fs'); //require filesystem module
var io = require('socket.io')(http) //require socket.io module and pass the http object (server)
var Gpio = require('onoff').Gpio; //include onoff to interact with the GPIO
var LED = new Gpio(4, 'out'); //use GPIO pin 4 as output
var pushButton = new Gpio(17, 'in', 'both'); //use GPIO pin 17 as input, and 'both' button presses, and releases should be handled

http.listen(8080); //listen to port 8080

function handler (req, res) { //create server
  fs.readFile(__dirname + '/public/index.html', function(err, data) { //read file index.html in public folder
    if (err) {
      res.writeHead(404, {'Content-Type': 'text/html'}); //display 404 on error
      return res.end("404 Not Found");
    }
    res.writeHead(200, {'Content-Type': 'text/html'}); //write HTML
    res.write(data); //write data from index.html
    return res.end();
  });
}

io.sockets.on('connection', function (socket) {// WebSocket Connection
  var lightvalue = 0; //static variable for current status
  pushButton.watch(function (err, value) { //Watch for hardware interrupts on pushButton
    if (err) { //if an error
      console.error('There was an error', err); //output error message to console
      return;
    }
    lightvalue = value;
    socket.emit('light', lightvalue); //send button status to client
  });
  socket.on('light', function(data) { //get light switch status from client
    lightvalue = data;
    if (lightvalue != LED.readSync()) { //only change LED if status has changed
      LED.writeSync(lightvalue); //turn LED on or off
    }
  });
});

process.on('SIGINT', function () { //on ctrl+c
  LED.writeSync(0); // Turn LED off
  LED.unexport(); // Unexport LED GPIO to free resources
  pushButton.unexport(); // Unexport Button GPIO to free resources
  process.exit(); //exit completely
});

Lets test the server:

pi@w3demopi:~ $ node webserver.js

Open the website in a browser using http://[RaspberryPi_IP]:8080/:

Now the server should output all the changes to the checkbox to the console on the Raspberry Pi.

The client is sending the changes to the server, and the server is responding.

End the program with Ctrl+c.


 

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