Building a Web Application with PushAuth™

Welcome back to the Power of PushAuth™ blog series! This is the fifth post of the Power of PushAuth™ blog series. The first post of the series was a comprehensive guide to push authentication. The subsequent three posts comprised an end-to-end sample implementation of PushAuth™ in a simple user login flow:

  1. Web Server tutorial
  2. iOS Mobile App tutorial
  3. Android Mobile App tutorial

In this post, we will create a sample website from scratch using Rails, and will integrate PushAuth™ APIs into the user login flow. Along the way, we will also provide technical details on how the website interacts with PushAuth™ APIs, which can help readers incorporate PushAuth™ into any existing website. The end result of this tutorial will be similar to the sample web server we deployed in Web Server tutorial.


To follow this tutorial, you will need:

This tutorial assumes a basic familiarity with the Rails framework.

Step 1: Make basic Rails app with simple session-based authentication

First, we will create website with a simple username/password authentication, without incorporating UnifyID PushAuth™. Step 2 will integrate PushAuth™ into the website we create in Step 1.

Project Initialization

$ rails new push_auth_demo
$ cd push_auth_demo

Let’s add the bcrypt gem to our Gemfile by uncommenting this line in Gemfile:

gem 'bcrypt', '~> 3.1.7'

Now, we will run bundle install to update the Gemfile.lock.

Next, we can add the User model to our database; each User will have a username and a password hash.

$ rails generate model user username:uniq password:digest 
$ rails db:migrate

Now, we can generate the controller for handling sessions.

$ rails generate controller sessions new create destroy

Controller Logic

The basic idea of session-based authentication is pretty simple:

  • When a user logs in, session[:user_id] is set to be the unique index of the corresponding User in the database.
  • When no one is logged in, session[:user_id] should be unset.

We’ll start with writing the Application controller, where we have a couple of simple page actions:

  • GET / (application#home) renders a page that shows links to other pages and actions
  • GET /restricted (application#restricted) renders a page that is only accessible when logged in.

A few helper functions will live here as well:

  • current_user should either return a User object, or nil if there’s no one logged in.
  • logged_in? should return whether someone is logged in
  • authorized is an action that is called before loading pages that require the a user to be logged in.
# app/controllers/application_controller.rb

class ApplicationController < ActionController::Base
  before_action :authorized
  helper_method :current_user
  helper_method :logged_in?

  skip_before_action :authorized, only: [:home]

  def current_user
    User.find_by(id: session[:user_id])

  def logged_in?

  def authorized
    unless logged_in?
      redirect_to login_path, alert: "You must be logged in to perform that action."

Now, we’ll handle users logging in or out through the Sessions controller.

  • GET /login (sessions#new) action displays a login page unless the user is already logged in
  • POST /login (sessions#create) will authenticate the user and set the session.
  • DELETE /logout (sessions#destroy) action will clear the user’s session cookie.
# app/controllers/sessions_controller.rb

class SessionsController < ApplicationController
  skip_before_action :authorized, except: [:destroy]

  def new
    redirect_to root_path if logged_in?

  def create
    @user = User.find_by("lower(username) = ?", params[:username].downcase)
    if @user && @user.authenticate(params[:password])
      session[:user_id] =
      redirect_to root_path, notice: "Successfully logged in!"
      redirect_to login_path, alert: "Sorry, that didn't work."

  def destroy
    session[:user_id] = nil
    redirect_to root_path, notice: "Successfully logged out."

We also need to add routes for these actions.

# config/routes.rb

Rails.application.routes.draw do
  root "application#home"

  get "restricted", to: "application#restricted"

  get "login", to: "sessions#new"

  post "login", to: "sessions#create"

  delete "logout", to: "sessions#destroy"


home page where you can click on the link to log in/out:

<!-- app/views/application/home.html.erb -->

<h1> Welcome! </h1>

<% if logged_in? %>
  Welcome, <%= current_user.username %>. <br />
  <%= link_to "Log out", logout_path, method: :delete %> <br />
  Click <%= link_to "here", restricted_path %> to see a super secret page!
<% else %>
  Please <%= link_to "log in", login_path %>.
<% end %>

restricted page to test access control:

<!-- app/views/application/restricted.html.erb -->

Shhh, this page is a secret!

sessions#new renders simple login form:

<!-- app/views/sessions/new.html.erb -->


<%= form_tag "/login", {class: "form-signin"} do %>
  <%= label_tag :username, nil, class: "sr-only" %>
  <%= text_field_tag :username, nil, class: "form-control", placeholder: "Username", required: true, autofocus: true %>

  <%= label_tag :password, nil, class: "sr-only" %>
  <%= password_field_tag :password, nil, class: "form-control", placeholder: "Password", required: true%>

  <%= submit_tag "Log in", {class: ["btn", "btn-lg", "btn-primary", "btn-block"]} %>
<% end %>

Lastly, we’ll modify the default template to include a navigation bar at the top and flash messages for notice and alert from controllers:

<!-- Replace the contents of the <body> tag in app/views/layouts/application.html.erb with the following -->

    <nav class="navbar navbar-dark bg-dark">
      <a class="navbar-brand" href="/">
        <span class="logo d-inline-block align-top"></span>
        UnifyID PushAuth Sample
    <% if flash[:notice] %>
      <div class="alert alert-primary alert-dismissible fade show" role="alert">
        <%= flash[:notice] %>
        <button type="button" class="close" data-dismiss="alert" aria-label="Close">
          <span aria-hidden="true">×</span>
    <% end %>
    <% if flash[:alert] %>
      <div class="alert alert-danger alert-dismissible fade show" role="alert">
        <%= flash[:alert] %>
        <button type="button" class="close" data-dismiss="alert" aria-label="Close">
          <span aria-hidden="true">×</span>
    <% end %>

    <main role="main" class="container">
      <div class="main-content">
        <%= yield %>


We can add styling to our website by simply adding bootstrap. The views we created above already use class names that are recognized by bootstrap.

First, add bootstrap and some of its dependencies.

$ yarn add bootstrap jquery popper.js

Then, add the following to the end of app/javascript/packs/application.js:

import 'bootstrap'
import 'stylesheets/application.scss'

Next, make a file called app/javascript/stylesheets/application.scss and add this:

@import "~bootstrap/scss/bootstrap";

Optionally, you may add your own custom CSS files as well. See an example in our sample code.

At this point, you should be able to run rails server and navigate to http://localhost:3000 to interact with the basic authentication server! You can create sample users as follows:

$ bundle exec rails console
> User.create(:username => "<your_username>", :password => "<your_password>").save
> exit

Step 2 – Integrate with UnifyID PushAuth™ APIs

Now that we have a website with a simple username/password authentication, let’s incorporate UnifyID PushAuth™ APIs to further enhance security.

Interface to PushAuth™ APIs

First, let’s tell Rails about your UnifyID API key.

Run rails credentials:edit and add the following

  server_api_key: <Your UnifyID API Key created from dashboard>

Next, add the following to config/application.rb, after the config.load_defaults line:

config.x.pushauth.base_uri = ""

Let’s also add the httparty gem to easily make HTTP/S requests. To do this, add the following to your Gemfile and run bundle install:

gem 'httparty', '~> 0.18.0'

Now, we will make a file called app/services/push_auth.rb which contains the interface for our Rails app to interact with the PushAuth™ APIs:

  • create_session method calls POST /v1/push/sessions to initiate PushAuth™ session (API doc).
  • get_session_status method calls GET /v1/push/sessions/{id} to retrieve the status of PushAuth™ session (API doc).
# app/services/push_auth.rb

class PushAuth
  include HTTParty
  base_uri Rails.configuration.x.pushauth.base_uri

  @@options = {
    headers: {
      "Content-Type": "application/json",
      "X-API-Key": Rails.application.credentials.unifyid[:server_api_key]

  def self.create_session(user_id, notification_title, notification_body)
    body = {
      "user" => user_id,
      "notification" => {
        "title" => notification_title,
        "body" => notification_body
    post("/v1/push/sessions", @@options.merge({body: body.to_json}))

  def self.get_session_status(api_id)
    get("/v1/push/sessions/#{api_id}", @@options)

Controller Logic Modification

Now, we will modify the login flow to incorporate PushAuth™ as the second factor authentication. The new login flow will consist of the following:

  1. The client submits the username and password via a POST request to /login (sessions#create)
  2. The controller validates that the user exists and the password matches. If not, it displays an error message.
  3. Upon successful username/password authentication, the controller creates a PushAuth™ session and redirects to GET /mfa (sessions#init_mfa)
  4. The Javascript in /mfa page repeatedly queries GET /mfa/check (sessions#check_mfa), which checks the PushAuth™ session status until the session status is no longer pending.
  5. Upon receiving a non-pending session status, the client submits a request to PATCH /mfa/finalize (sessions#finalize_mfa) that completes the login process.

First, let’s replace the create action in app/controllers/sessions_controller.rb:

  def create
    @user = User.find_by("lower(username) = ?", params[:username].downcase)
    if @user && @user.authenticate(params[:password])
      session[:pre_mfa_user_id] =

      pushauth_title = "Authenticate with #{Rails.application.class.module_parent.to_s}?"
      pushauth_body = "Login request from #{request.remote_ip}"

      response = PushAuth.create_session(@user.username, pushauth_title, pushauth_body)

      session[:pushauth_id] = response["id"]

      redirect_to mfa_path
      redirect_to login_path, alert: "Sorry, that didn't work."

Next, let’s also add check_mfa and finalize_mfa actions in this controller:

  def check_mfa
    status = PushAuth.get_session_status(session[:pushauth_id])["status"]

    render plain: status

  def finalize_mfa
    case PushAuth.get_session_status(session[:pushauth_id])["status"]
    when "accepted"
      session[:user_id] = session[:pre_mfa_user_id]
      session[:pushauth_id] = nil
      session[:pre_mfa_user_id] = nil
      flash.notice = "Successfully logged in!"
    when "rejected"
      session[:pre_mfa_user_id] = nil
      flash.alert = "Your request was denied."

We also want to make sure that only users who completed the password authentication are able to access actions for the PushAuth™ authentication. Thus, within sessions_controller we will add:

# app/controllers/sessions_controller.rb

# Add this just under the skip_before_action line
  before_action :semi_authorized!, only: [:init_mfa, :check_mfa, :finalize_mfa]

# And add this after action methods
  def semi_authorized
    session[:pre_mfa_user_id] && session[:pushauth_id]

  def unauthorized
    redirect_to login_path, alert: "You are not authorized to view this page."

  def semi_authorized!
    unauthorized unless semi_authorized


Now, we need a page that uses AJAX to determine whether the PushAuth™ request has been completed.

First, let’s add a line in our application template that allows us to add content inside the <head> tag.
Add this to app/views/layouts/application.html.erb, right before the </head> tag:

<%= yield :head %>

Next, let’s add the Javascript code we want to run on the init_mfa page:

// app/javascript/packs/init_mfa.js

import Rails from "@rails/ujs";
let check_status = window.setInterval(function() {
    type: "GET",
    url: "/mfa/check",
    success: function(r) {
      if (r !== "sent") {
          type: "PATCH",
          url: "/mfa/finalize",
          success: function() {
            window.location.href = "/";
          error: function() {
            console.log("Promoting PushAuth status failed.");
    error: function() {
      console.log("Checking for PushAuth status failed.");
}, 2000);

This will poll /mfa/check every 2 seconds, until the Rails app reports that the PushAuth™ request has been accepted, rejected, or expired. At this point, the browser will ask the Rails app to complete the login process by submitting a /mfa/finalize request.

Now, let’s add a view file for init_mfa that includes the Javascript above.

<!-- app/views/sessions/init_mfa.html.erb -->

<% content_for :head do %>
  <%= javascript_pack_tag 'init_mfa' %>
<% end %>

<div class="spinner-border" role="status" ></div>

Waiting for a response to the push notification...

Finally, we will add new mfa routes.

# Add these to config/routes.rb

  get "mfa", to: "sessions#init_mfa"

  get "mfa/check", to: "sessions#check_mfa"

  patch "mfa/finalize", to: "sessions#finalize_mfa"

Congratulations! We have now integrated UnifyID’s PushAuth™. The final result should function just like the pushauth-sample-server project, which we introduced in our How to Implement PushAuth™: Web Server post. Please reach out to us if you have any questions, comments or suggestions, and feel free to share this post.

How to Implement PushAuth™: Web Server

Welcome back to the Power of PushAuth™ blog series! The first post provided a comprehensive guide to push authentication — check it out here if you missed it. The next three posts are tutorials offering an end-to-end implementation of PushAuth™ in a simple user login flow and will be broken down as follows:

  1. Web Server tutorial (this post)
  2. iOS Mobile App tutorial
  3. Android Mobile App tutorial

The first tutorial (this post) covers a Ruby on Rails backend that provides a basic user login authentication flow with PushAuth integrated. The second and third tutorials will be instructions on how to run sample iOS and Android apps, respectively. These will be the apps that receive and respond to push notifications initiated by the login process.

By the end of these three tutorials, you will have a website where a registered user can log in with their username and password, receive a push notification on their phone, accept the login request via the push notification, and subsequently be logged in on the website. This flow is shown in the video below.

This is a very simplified version of a real-world application and login flow. You might remember some of the security issues that can be present with push authentication from the previous post, such as trusted device registration, fallback resources, or access revocation. This tutorial does not include solutions for those or user sign-up. Future posts in the series will provide extensions of this simple flow to tackle some of those issues.

Alright, let’s get started!


To follow this tutorial, you will need:

Step 1: UnifyID Account, Project, and Keys

A UnifyID project will grant you access to UnifyID’s services. In order to create a project, you’ll need to first create a UnifyID account. Once you have an account and project, go to the Developer Dashboard to create an API key and SDK key. Make sure to copy the API key value somewhere safe – you won’t be able to access it later.

This tutorial is using PushAuth project as the UnifyID project name. You can see the configured API and SDK keys on the dashboard view above.

Step 2: Cloning the Project and Installing Dependencies

The pushauth-sample-server GitHub repository contains the code for this project. Clone the repository, navigate into it, install the project dependencies that are listed in the Gemfile, and ensure your Yarn packages are up-to-date:

$ git clone
$ cd pushauth-sample-server
$ bundle install
$ yarn install --check-files

Feel free to poke around the code if you’d like to get a better understanding of what’s going on under the hood. This tutorial won’t go into those details, but a future post in this series will.

Step 3: DB Setup and Running the Server

Now, initialize the database:

$ bundle exec rails db:migrate

Once the database has been initialized you can create users. To create a user, do the following (replacing <your_username> and <your_password> with the values you intend to use for username and password):

$ rails console
> User.create(:username => "<your_username>", :password => "<your_password>").save
> exit

Step 4: Server API Key Storage

This step requires the server API key value you copied in Step 1.

$ EDITOR=vim rails credentials:edit

The above command will open the credentials file in vim. You can replace vim with the name of whichever executable you are most comfortable (atom, sublime, etc.). This will decrypt and open the credentials file for editing, at which point you should add the following entry:

  server_api_key: <your_key_goes_here>

After saving and closing, the credentials file will be re-encrypted and your server API key value will be stored.

Step 5: Running the Server

Now you are able to run the server:

$ bundle exec rails server

Finally, connect to the server by opening http://localhost:3000/ in your browser. This will bring you to the landing page, where you can then navigate to the login page and enter your username and password from above in Step 3:

This brings you to the end of the web server tutorial. After entering the username and password on the login page, you can see that the server is polling for the push notification response before allowing or denying access to the website. Without a way to receive or respond to push notifications, you cannot successfully log in. Stay tuned for the next couple posts of this tutorial installment to complete the flow:

Thanks for following along! Please reach out to us if you have any questions, comments or suggestions, and feel free to share this post.