Using WebSockets on Heroku with Ruby
Last updated December 02, 2024
Table of Contents
This quickstart will get you going with a Sinatra application that uses a WebSocket, deployed to Heroku.
Sample code for the demo application is available on GitHub. Edits and enhancements are welcome. Just fork the repository, make your changes and send us a pull request.
Prerequisites
- A Heroku user account. Signup is free and instant.
- Ruby 2.1.2+ and the Heroku CLI (as described in the basic Ruby Getting Started guide)
- Working knowledge of Rack Middleware
Create WebSocket app
The sample application provides a simple example of using WebSockets with Ruby. You can clone the sample and follow along with the code as you read.
Option 1. Clone sample app
$ git clone git@github.com:heroku-examples/ruby-websockets-chat-demo.git
Cloning into 'ruby-websockets-chat-demo'...
remote: Counting objects: 31, done.
remote: Compressing objects: 100% (24/24), done.
remote: Total 31 (delta 0), reused 31 (delta 0)
Receiving objects: 100% (31/31), 38.33 KiB | 0 bytes/s, done.
Option 2. Create a new app
$ mkdir ruby-websockets-chat-demo
$ cd ruby-websockets-chat-demo
Functionality
The demo app is a simple chat application that will open a WebSocket to the back-end. Any time a chat message is sent from the browser, it’s sent to the server and then broadcasted to each connecting client and displayed on the page.
There are a few key pieces to this implementation. We’re using Faye’s WebSockets implementation that provides the standard WebSockets API. This allows us to build a Rack middleware that responds to WebSockets.
JavaScript on the browser opens a WebSocket connection to the server and responds to a WebSocket message being received from the server to display the chat message. Let’s take a look at both the back-end and front-end in more detail.
Back-end
In the sample app, we create a Rack middleware to encapsulate the WebSockets logic called ChatBackend
. For organizational purposes we’re going to put all of our Rack middleware in a middlewares
directory.
Let’s walk through our ChatBackend
middleware. We need to keep track of all the clients that are connecting to the web app, so let’s setup a @clients
array along with some basic boilerplate code:
# middlewares/chat_backend.rb
require 'faye/websocket'
module ChatDemo
class ChatBackend
KEEPALIVE_TIME = 15 # in seconds
def initialize(app)
@app = app
@clients = []
end
def call(env)
end
end
end
Inside the call
method, Faye::Websocket
allows us to detect whether the incoming request is a WebSockets request by inspecting env
. If it is let’s do our WebSockets logic. If it isn’t, then we should just go through the rest of the stack (in our case this is the Sinatra app).
# middlewares/chat_backend.rb
def call(env)
if Faye::WebSocket.websocket?(env)
# WebSockets logic goes here
# Return async Rack response
ws.rack_response
else
@app.call(env)
end
end
Now let’s add the WebSockets code. We need to first create a new WebSockets object based off the env
. We can do this using the Faye::WebSocket
initializer. The options hash accepts a ping
option which sends a ping to each active connection every X number of seconds. In our case we’re going to use the KEEPALIVE_TIME
constant we set above to 15 seconds. We want to do this because if the connection is idle for 55 seconds, Heroku will terminate the connection.
Initialize the WebSocket in the call
method of your middleware with the ping
option.
# middlewares/chat_backend.rb#call
ws = Faye::WebSocket.new(env, nil, {ping: KEEPALIVE_TIME })
The three WebSocket events that are important for this app are open
, message
, close
. In each event we’re going to print messages to STDOUT
for demo purposes to see the lifecycle of WebSockets.
open
open
gets invoked when a new connection to the server happens. For open
, we’re just going to store that a client has connected in the @clients
array we set above.
# middlewares/chat_backend.rb#call
ws.on :open do |event|
p [:open, ws.object_id]
@clients << ws
end
message
message
gets invoked when a WebSockets message is received by the server. For message
, we need to broadcast the message to each connected client. The event
object passed in has a data
attribute which is the message.
# middlewares/chat_backend.rb#call
ws.on :message do |event|
p [:message, event.data]
@clients.each {|client| client.send(event.data) }
end
close
close
gets invoked when the client closes the connection. For close
, we just need to cleanup by removing the client from our store of clients.
# middlewarces/chat_backend.rb#call
ws.on :close do |event|
p [:close, ws.object_id, event.code, event.reason]
@clients.delete(ws)
ws = nil
end
Front-end
The second part of this is setting up the client side to actually open the WebSockets connection with the server. First, we need to finish setting up the Sinatra app to render the pages to use.
View
In the Sinatra app, we just need to render the index view which we’ll use the built in ERB
.
# app.rb
require 'sinatra/base'
module ChatDemo
class App < Sinatra::Base
get "/" do
erb :"index.html"
end
end
end
Sinatra stores its views in the views
directory. Create an index.html.erb
with a basic chat form.
Receive messages
Now back to WebSockets. Let’s write the public/assets/js/application.js
that gets loaded by the main page and establishes a WebSocket connection to the back-end.
var scheme = "ws://";
var uri = scheme + window.document.location.host + "/";
var ws = new WebSocket(uri);
With an open WebSocket, the browser will receive messages. These messages are structured as a JSON response with two keys: handle
(user’s handle) and text
(user’s message). When the message is received, it’s inserted as a new entry in the page.
// public/assets/js/application.js
ws.onmessage = function(message) {
var data = JSON.parse(message.data);
$("#chat-text").append("<div class='panel panel-default'><div class='panel-heading'>" + data.handle + "</div><div class='panel-body'>" + data.text + "</div></div>");
$("#chat-text").stop().animate({
scrollTop: $('#chat-text')[0].scrollHeight
}, 800);
};
Send messages
The now that the page can receive messages from the server, we need a way to actually send messages. We’ll override the form submit button to grab the the values from the form and send them as a JSON message over the WebSocket to the server.
// public/assets/js/application.js
$("#input-form").on("submit", function(event) {
event.preventDefault();
var handle = $("#input-handle")[0].value;
var text = $("#input-text")[0].value;
ws.send(JSON.stringify({ handle: handle, text: text }));
$("#input-text")[0].value = "";
});
Your final application.js
file should now define the complete send and receive functionality.
Local execution
To wire up the application, we’ll use config.ru
which sets up Rack::Builder
. This tells Rack and the server how to load the application. We want to setup our WebSockets middleware, so requests go through this first.
# config.ru
require './app'
require './middlewares/chat_backend'
use ChatDemo::ChatBackend
run ChatDemo::App
We need to download and fetch the dependencies, so we need to setup a Gemfile
.
# Gemfile
source "https://rubygems.org"
ruby "2.0.0"
gem "faye-websocket"
gem "sinatra"
gem "puma"
And install all dependencies.
$ bundle install
We’ll now setup a Procfile, so we have a documented way of running our web service. We’ll be using the puma webserver which is one of the webservers supported by faye-websocket
.
web: bundle exec puma -p $PORT
Run the app locally.
$ heroku local --port 5001
Puma starting in single mode...
* Version 2.6.0, codename: Pantsuit Party
* Min threads: 0, max threads: 16
* Environment: development
* Listening on tcp://0.0.0.0:5001
Use Ctrl-C to stop
Open the app at http://localhost:5001 and enter a chat message. You should see the following in the server output:
127.0.0.1 - - [03/Oct/2013 17:16:25] "GET / HTTP/1.1" 200 1430 0.0115
127.0.0.1 - - [03/Oct/2013 17:16:25] "GET /assets/css/application.css HTTP/1.1" 304 - 0.0164
127.0.0.1 - - [03/Oct/2013 17:16:25] "GET /assets/css/bootstrap.min.css HTTP/1.1" 304 - 0.0046
127.0.0.1 - - [03/Oct/2013 17:16:25] "GET /assets/js/jquery-2.0.3.min.js HTTP/1.1" 304 - 0.0007
127.0.0.1 - - [03/Oct/2013 17:16:25] "GET /assets/js/application.js HTTP/1.1" 200 716 0.0063
127.0.0.1 - - [03/Oct/2013 17:16:25] "GET / HTTP/1.1" HIJACKED -1 0.0059
[:open, 7612540]
127.0.0.1 - - [03/Oct/2013 17:16:25] "GET /favicon.ico HTTP/1.1" 404 490 0.0012
[:message, "{\"handle\":\"hone\",\"text\":\"test\"}"]
Deploy
After the app is running locally, it’s time to deploy it to Heroku. If you haven’t done so already put your application into a git repository:
$ git init
$ git add .
$ git commit -m "Ready to deploy"
Create the app to deploy to on Heroku.
$ heroku create
Creating limitless-ocean-5045... done, stack is heroku-18
http://limitless-ocean-5045.herokuapp.com/ | git@heroku.com:limitless-ocean-5045.git
Git remote heroku added
Deploy your app to Heroku with git push
:
$ git push heroku master
Counting objects: 9, done.
Delta compression using up to 4 threads.
Compressing objects: 100% (5/5), done.
Writing objects: 100% (5/5), 557 bytes, done.
Total 5 (delta 3), reused 0 (delta 0)
-----> Ruby/Rack app detected
-----> Using Ruby version: ruby-2.1.2
-----> Installing dependencies using Bundler version 1.6.3
Running: bundle install --without development:test --path vendor/bundle --binstubs vendor/bundle/bin --deployment
Installing eventmachine (1.0.3)
Installing websocket-driver (0.3.0)
Installing faye-websocket (0.7.0)
Installing rack (1.5.2)
Installing puma (2.6.0)
Installing rack-protection (1.5.0)
Installing redis (3.0.4)
Installing tilt (1.4.1)
Installing sinatra (1.4.3)
Installing bundler (1.3.2)
Your bundle is complete! It was installed into ./vendor/bundle
Cleaning up the bundler cache.
-----> Discovering process types
Procfile declares types -> web
Default types for Ruby/Rack -> console, rake
-----> Compiled slug size: 26.8MB
-----> Launching... done, v3
http://limitless-ocean-5045.herokuapp.com deployed to Heroku
Congratulations! Your web app should now be up and running on Heroku. use heroku open
to open it in your browser.
Scaling
Now that you have deployed your app and understand the very basics we’ll want to expand the app to be a bit more robust. This won’t encompass everything you’d want to do before going public, but it will get you along the a path where you’ll be thinking about the right things.
Currently, if you scale your app to more than a single dyno, not everyone will get all messages. Due to the stateless nature of the current app, clients connected to dyno #1 won’t get messages sent by clients connected to dyno #2. We can solve this in the chat example by storing the message state in a global storage system like Redis. This allows messages to be sent to every dyno connected to Redis and is explained in more detail in our WebSockets Application Architecture Section.
Add a Redis add-on:
$ heroku addons:create rediscloud:20
Adding rediscloud:20 on limitless-ocean-5045... v4 (free)
Make sure you have Redis set up locally. We’ll be using the redis
gem to interface with Redis from the ruby app. Like above, we’ll need to edit the Gemfile
to configure app dependencies. Add this line to the bottom of your Gemfile
.
gem 'redis'
Install the dependencies.
$ bundle install
We need to setup each dyno to use Redis’ pubsub system. All the dynos will subscribe to the same channel chat-demo
and wait for messages. When each server gets a message, it can publish it to the clients connected.
require 'redis'
module ChatDemo
class ChatBackend
...
CHANNEL = "chat-demo"
def initialize(app)
...
uri = URI.parse(ENV["REDISCLOUD_URL"])
@redis = Redis.new(host: uri.host, port: uri.port, password: uri.password)
Thread.new do
redis_sub = Redis.new(host: uri.host, port: uri.port, password: uri.password)
redis_sub.subscribe(CHANNEL) do |on|
on.message do |channel, msg|
@clients.each {|ws| ws.send(msg) }
end
end
end
end
...
end
We need to do the subscribe in a separate thread, because subscribe is blocking function, so it will stop the execution flow to wait for a message. In addition, a second redis connection is needed since once a subscribe command has been made on a connection, the connection can only unsubscribe or receive messages.
Now when the server receives a message, we want to publish it with Redis to the channel instead of sending it to the browser. This way every dyno will get notified of it, so every client can receive the message. Change middlewares/chat_backend#call
:
ws.on :message do |event|
p [:message, event.data]
@redis.publish(CHANNEL, event.data)
end
All these steps can be viewed in this commit.
Security
Currently, the application is exposed and vulnerable to many attacks. Please refer to WebSockets Security for more general guidelines on securing your WebSockets application. The example app on github sets up WSS and sanitizes input.
Using with Rails
In this sample app we created Rack middleware alongside a Sinatra app. Using the same middleware in a Rails app is trivial.
Copy the existing ChatBackend
middleware to app/middleware/chat_backend.rb
in your Rails project. Then insert the middleware into your stack, defined in config/application.rb
:
require 'chat_backend'
config.middleware.use ChatDemo::ChatBackend
WebSocket requests will now be handled by the custom chat middleware, embedded within your Rails app.