Mojolicious::Guides::Growing - Growing Mojolicious applications

  1. OVERVIEW
  2. CONCEPTS
    1. Model View Controller
    2. REpresentational State Transfer
    3. Sessions
    4. Test-Driven Development
  3. PROTOTYPE
    1. Differences
    2. Foundation
    3. A bird's-eye view
    4. Model
    5. Testing
    6. State keeping
    7. Final prototype
  4. WELL-STRUCTURED APPLICATION
    1. Inflating templates
    2. Simplified application class
    3. Simplified application script
    4. Controller class
    5. Application class
    6. Templates
    7. Script
    8. Simplified tests
  5. MORE
  6. SUPPORT

OVERVIEW

This document explains the process of starting a Mojolicious::Lite prototype from scratch and growing it into a well-structured Mojolicious application. The final result of this guide is also available as an example application.

CONCEPTS

Essentials every Mojolicious developer should know.

Model View Controller

MVC is a software architectural pattern for graphical user interface programming originating in Smalltalk-80, that separates application logic, presentation and input.

         +------------+    +-------+    +------+
Input -> | Controller | -> | Model | -> | View | -> Output
         +------------+    +-------+    +------+

A slightly modified version of the pattern moving some application logic into the controller is the foundation of pretty much every web framework these days, including Mojolicious.

            +----------------+     +-------+
Request  -> |                | <-> | Model |
            |                |     +-------+
            |   Controller   |
            |                |     +-------+
Response <- |                | <-> | View  |
            +----------------+     +-------+

The controller receives a request from a user, passes incoming data to the model and retrieves data from it, which then gets turned into an actual response by the view. But note that this pattern is just a guideline that most of the time results in cleaner more maintainable code, not a rule that should be followed at all costs.

REpresentational State Transfer

REST is a software architectural style for distributed hypermedia systems such as the web. While it can be applied to many protocols it is most commonly used with HTTP these days. In REST terms, when you are opening a URL like http://mojolicious.org/foo with your browser, you are basically asking the web server for the HTML representation of the http://mojolicious.org/foo resource.

+--------+                                  +--------+
|        | -> http://mojolicious.org/foo -> |        |
| Client |                                  | Server |
|        | <-  <html>Mojo rocks!</html>  <- |        |
+--------+                                  +--------+

The fundamental idea here is that all resources are uniquely addressable with URLs and every resource can have different representations such as HTML, RSS or JSON. User interface concerns are separated from data storage concerns and all session state is kept client-side.

+---------+                        +------------+
|         | ->    PUT /foo      -> |            |
|         | ->    Hello World!  -> |            |
|         |                        |            |
|         | <-    201 CREATED   <- |            |
|         |                        |            |
|         | ->    GET /foo      -> |            |
| Browser |                        | Web Server |
|         | <-    200 OK        <- |            |
|         | <-    Hello World!  <- |            |
|         |                        |            |
|         | ->    DELETE /foo   -> |            |
|         |                        |            |
|         | <-    200 OK        <- |            |
+---------+                        +------------+

While HTTP methods such as PUT, GET and DELETE are not directly part of REST they go well with it and are commonly used to manipulate resources.

Sessions

HTTP was designed as a stateless protocol, web servers don't know anything about previous requests, which makes user-friendly login systems tricky. Sessions solve this problem by allowing web applications to keep stateful information across several HTTP requests.

GET /login?user=sebastian&pass=s3cret HTTP/1.1
Host: mojolicious.org

HTTP/1.1 200 OK
Set-Cookie: sessionid=987654321
Content-Length: 10
Hello sebastian.

GET /protected HTTP/1.1
Host: mojolicious.org
Cookie: sessionid=987654321

HTTP/1.1 200 OK
Set-Cookie: sessionid=987654321
Content-Length: 16
Hello again sebastian.

Traditionally all session data was stored on the server-side and only session IDs were exchanged between browser and web server in the form of cookies.

Set-Cookie: session=hmac-sha256(base64(json($session)))

In Mojolicious however we are taking this concept one step further by storing everything JSON serialized and Base64 encoded in HMAC-SHA256 signed cookies, which is more compatible with the REST philosophy and reduces infrastructure requirements.

Test-Driven Development

TDD is a software development process where the developer starts writing failing test cases that define the desired functionality and then moves on to producing code that passes these tests. There are many advantages such as always having good test coverage and code being designed for testability, which will in turn often prevent future changes from breaking old code. Much of Mojolicious was developed using TDD.

PROTOTYPE

One of the main differences between Mojolicious and other web frameworks is that it also includes Mojolicious::Lite, a micro web framework optimized for rapid prototyping.

Differences

You likely know the feeling, you've got a really cool idea and want to try it as quickly as possible, that's exactly why Mojolicious::Lite applications don't need more than a single file.

myapp.pl   # Templates and even static files can be inlined

Full Mojolicious applications on the other hand are much closer to a well organized CPAN distribution to maximize maintainability.

myapp                            # Application directory
|- script                        # Script directory
|  +- my_app                     # Application script
|- lib                           # Library directory
|  |- MyApp.pm                   # Application class
|  +- MyApp                      # Application namespace
|     +- Controller              # Controller namespace
|        +- Example.pm           # Controller class
|- my_app.yml                    # Configuration file
|- t                             # Test directory
|  +- basic.t                    # Random test
|- log                           # Log directory
|  +- development.log            # Development mode log file
|- public                        # Static file directory (served automatically)
|   |-- assets                   # Static assets created by bundlers
|   |   `-- *generated assets*
|   +- index.html                # Static HTML file
+- templates                     # Template directory
   |- layouts                    # Template directory for layouts
   |  +- default.html.ep         # Layout template
   +- example                    # Template directory for "Example" controller
      +- welcome.html.ep         # Template for "welcome" action

Both application skeletons can be automatically generated with the commands Mojolicious::Command::Author::generate::lite_app and Mojolicious::Command::Author::generate::app.

$ mojo generate lite-app myapp.pl
$ mojo generate app MyApp

Feature-wise both are almost equal, the only real differences are organizational, so each one can be gradually transformed into the other.

Foundation

We start our new application with a single executable Perl script.

$ mkdir myapp
$ cd myapp
$ touch myapp.pl
$ chmod 744 myapp.pl

This will be the foundation for our login manager example application.

#!/usr/bin/env perl
use Mojolicious::Lite -signatures;

get '/' => sub ($c) {
  $c->render(text => 'Hello World!');
};

app->start;

The built-in development web server makes working on your application a lot of fun thanks to automatic reloading.

$ morbo ./myapp.pl
Web application available at http://127.0.0.1:3000

Just save your changes and they will be automatically in effect the next time you refresh your browser.

A bird's-eye view

It all starts with an HTTP request like this, sent by your browser.

GET / HTTP/1.1
Host: localhost:3000

Once the request has been received by the web server through the event loop, it will be passed on to Mojolicious, where it will be handled in a few simple steps.

  1. Check if a static file exists that would meet the requirements.

  2. Try to find a route that would meet the requirements.

  3. Dispatch the request to this route, usually reaching one or more actions.

  4. Process the request, maybe generating a response with the renderer.

  5. Return control to the web server, and if no response has been generated yet, wait for a non-blocking operation to do so through the event loop.

With our application the router would have found an action in step 2, and rendered some text in step 4, resulting in an HTTP response like this being sent back to the browser.

HTTP/1.1 200 OK
Content-Length: 12
Hello World!

Model

In Mojolicious we consider web applications simple frontends for existing business logic. That means Mojolicious is by design entirely model layer agnostic, and you just use whatever Perl modules you like most.

$ mkdir -p lib/MyApp/Model
$ touch lib/MyApp/Model/Users.pm
$ chmod 644 lib/MyApp/Model/Users.pm

Our login manager will use a plain old Perl module abstracting away all logic related to matching usernames and passwords. The name MyApp::Model::Users is an arbitrary choice, and is simply used to make the separation of concerns more visible.

package MyApp::Model::Users;

use strict;
use warnings;
use experimental qw(signatures);

use Mojo::Util qw(secure_compare);

my $USERS = {
  joel      => 'las3rs',
  marcus    => 'lulz',
  sebastian => 'secr3t'
};

sub new ($class) { bless {}, $class }

sub check ($self, $user, $pass) {

  # Success
  return 1 if $USERS->{$user} && secure_compare $USERS->{$user}, $pass;

  # Fail
  return undef;
}

1;

A simple helper can be registered with the function "helper" in Mojolicious::Lite to make our model available to all actions and templates.

#!/usr/bin/env perl
use Mojolicious::Lite -signatures;

use lib qw(lib);
use MyApp::Model::Users;

# Helper to lazy initialize and store our model object
helper users => sub { state $users = MyApp::Model::Users->new };

# /?user=sebastian&pass=secr3t
any '/' => sub ($c) {

  # Query parameters
  my $user = $c->param('user') || '';
  my $pass = $c->param('pass') || '';

  # Check password
  return $c->render(text => "Welcome $user.") if $c->users->check($user, $pass);

  # Failed
  $c->render(text => 'Wrong username or password.');
};

app->start;

The method "param" in Mojolicious::Controller is used to access query parameters, POST parameters, file uploads and route placeholders, all at once.

Testing

In Mojolicious we take testing very seriously and try to make it a pleasant experience.

$ mkdir t
$ touch t/login.t
$ chmod 644 t/login.t

Test::Mojo is a scriptable HTTP user agent designed specifically for testing, with many fun state-of-the-art features such as CSS selectors based on Mojo::DOM.

use Test::More;
use Test::Mojo;

# Include application
use Mojo::File qw(curfile);
require(curfile->dirname->sibling('myapp.pl'));

# Allow 302 redirect responses
my $t = Test::Mojo->new;
$t->ua->max_redirects(1);

# Test if the HTML login form exists
$t->get_ok('/')
  ->status_is(200)
  ->element_exists('form input[name="user"]')
  ->element_exists('form input[name="pass"]')
  ->element_exists('form input[type="submit"]');

# Test login with valid credentials
$t->post_ok('/' => form => {user => 'sebastian', pass => 'secr3t'})
  ->status_is(200)
  ->text_like('html body' => qr/Welcome sebastian/);

# Test accessing a protected page
$t->get_ok('/protected')->status_is(200)->text_like('a' => qr/Logout/);

# Test if HTML login form shows up again after logout
$t->get_ok('/logout')
  ->status_is(200)
  ->element_exists('form input[name="user"]')
  ->element_exists('form input[name="pass"]')
  ->element_exists('form input[type="submit"]');

done_testing();

Your application won't pass these tests, but from now on you can use them to check your progress.

$ prove -l
$ prove -l t/login.t
$ prove -l -v t/login.t

Or perform quick requests right from the command line with Mojolicious::Command::get.

$ ./myapp.pl get /
Wrong username or password.

$ ./myapp.pl get -v '/?user=sebastian&pass=secr3t'
GET /?user=sebastian&pass=secr3t HTTP/1.1
User-Agent: Mojolicious (Perl)
Accept-Encoding: gzip
Content-Length: 0
Host: localhost:59472

HTTP/1.1 200 OK
Date: Sun, 18 Jul 2010 13:09:58 GMT
Server: Mojolicious (Perl)
Content-Length: 12
Content-Type: text/plain

Welcome sebastian.

State keeping

Sessions in Mojolicious pretty much just work out of the box once you start using the method "session" in Mojolicious::Controller, there is no setup required, but we suggest setting a more secure passphrase with "secrets" in Mojolicious.

app->secrets(['Mojolicious rocks']);

This passphrase is used by the HMAC-SHA256 algorithm to make signed cookies tamper resistant and can be changed at any time to invalidate all existing sessions.

$c->session(user => 'sebastian');
my $user = $c->session('user');

By default all sessions expire after one hour, for more control you can use the expiration session value to set an expiration date in seconds from now.

$c->session(expiration => 3600);

And the whole session can be deleted by using the expires session value to set an absolute expiration date in the past.

$c->session(expires => 1);

For data that should only be visible on the next request, like a confirmation message after a 302 redirect performed with "redirect_to" in Mojolicious::Plugin::DefaultHelpers, you can use the flash, accessible through "flash" in Mojolicious::Plugin::DefaultHelpers.

$c->flash(message => 'Everything is fine.');
$c->redirect_to('goodbye');

Just remember that all session data gets serialized with Mojo::JSON and stored in HMAC-SHA256 signed cookies, which usually have a 4096 byte (4KiB) limit, depending on browser.

Final prototype

A final myapp.pl prototype passing all of the tests above could look like this.

#!/usr/bin/env perl
use Mojolicious::Lite -signatures;

use lib qw(lib);
use MyApp::Model::Users;

# Make signed cookies tamper resistant
app->secrets(['Mojolicious rocks']);

helper users => sub { state $users = MyApp::Model::Users->new };

# Main login action
any '/' => sub ($c) {

  # Query or POST parameters
  my $user = $c->param('user') || '';
  my $pass = $c->param('pass') || '';

  # Check password and render "index.html.ep" if necessary
  return $c->render unless $c->users->check($user, $pass);

  # Store username in session
  $c->session(user => $user);

  # Store a friendly message for the next page in flash
  $c->flash(message => 'Thanks for logging in.');

  # Redirect to protected page with a 302 response
  $c->redirect_to('protected');
} => 'index';

# Make sure user is logged in for actions in this group
group {
  under sub ($c) {

    # Redirect to main page with a 302 response if user is not logged in
    return 1 if $c->session('user');
    $c->redirect_to('index');
    return undef;
  };

  # A protected page auto rendering "protected.html.ep"
  get '/protected';
};

# Logout action
get '/logout' => sub ($c) {

  # Expire and in turn clear session automatically
  $c->session(expires => 1);

  # Redirect to main page with a 302 response
  $c->redirect_to('index');
};

app->start;
__DATA__

@@ index.html.ep
% layout 'default';
%= form_for index => begin
  % if (param 'user') {
    <b>Wrong name or password, please try again.</b><br>
  % }
  Name:<br>
  %= text_field 'user'
  <br>Password:<br>
  %= password_field 'pass'
  <br>
  %= submit_button 'Login'
% end

@@ protected.html.ep
% layout 'default';
% if (my $msg = flash 'message') {
  <b><%= $msg %></b><br>
% }
Welcome <%= session 'user' %>.<br>
%= link_to Logout => 'logout'

@@ layouts/default.html.ep
<!DOCTYPE html>
<html>
  <head><title>Login Manager</title></head>
  <body><%= content %></body>
</html>

And the directory structure should be looking like this now.

myapp
|- myapp.pl
|- lib
|  +- MyApp
|     +- Model
|        +- Users.pm
+- t
   +- login.t

Our templates are using quite a few features of the renderer, Mojolicious::Guides::Rendering explains them all in great detail.

WELL-STRUCTURED APPLICATION

Due to the flexibility of Mojolicious there are many variations of the actual growing process, but this should give you a good overview of the possibilities.

Inflating templates

All templates and static files inlined in the DATA section can be automatically turned into separate files in the templates and public directories with the command Mojolicious::Command::Author::inflate.

$ ./myapp.pl inflate

Those directories have a higher precedence, so inflating can also be a great way to allow your users to customize their applications.

Simplified application class

This is the heart of every full Mojolicious application and always gets instantiated during server startup.

$ touch lib/MyApp.pm
$ chmod 644 lib/MyApp.pm

We will start by extracting all actions from myapp.pl and turn them into simplified hybrid routes in the Mojolicious::Routes router, none of the actual action code needs to be changed.

package MyApp;
use Mojo::Base 'Mojolicious', -signatures;

use MyApp::Model::Users;

sub startup ($self) {

  $self->secrets(['Mojolicious rocks']);
  $self->helper(users => sub { state $users = MyApp::Model::Users->new });

  my $r = $self->routes;

  $r->any('/' => sub ($c) {

    my $user = $c->param('user') || '';
    my $pass = $c->param('pass') || '';
    return $c->render unless $c->users->check($user, $pass);

    $c->session(user => $user);
    $c->flash(message => 'Thanks for logging in.');
    $c->redirect_to('protected');
  } => 'index');

  my $logged_in = $r->under(sub ($c) {
    return 1 if $c->session('user');
    $c->redirect_to('index');
    return undef;
  });
  $logged_in->get('/protected');

  $r->get('/logout' => sub ($c) {
    $c->session(expires => 1);
    $c->redirect_to('index');
  });
}

1;

The startup method gets called right after instantiation and is the place where the whole application gets set up. Since full Mojolicious applications can use nested routes they have no need for group blocks.

Simplified application script

myapp.pl itself can now be turned into a simplified application script to allow running tests again.

#!/usr/bin/env perl

use Mojo::Base -strict;
use lib qw(lib);
use Mojolicious::Commands;

# Start command line interface for application
Mojolicious::Commands->start_app('MyApp');

And the directory structure of our hybrid application should be looking like this.

myapp
|- myapp.pl
|- lib
|  |- MyApp.pm
|  +- MyApp
|     +- Model
|        +- Users.pm
|- t
|  +- login.t
+- templates
   |- layouts
   |  +- default.html.ep
   |- index.html.ep
   +- protected.html.ep

Controller class

Hybrid routes are a nice intermediate step, but to maximize maintainability it makes sense to split our action code from its routing information.

$ mkdir lib/MyApp/Controller
$ touch lib/MyApp/Controller/Login.pm
$ chmod 644 lib/MyApp/Controller/Login.pm

Once again the actual action code does not need to change, we just rename $c to $self since the controller is now the invocant.

package MyApp::Controller::Login;
use Mojo::Base 'Mojolicious::Controller', -signatures;

sub index ($self) {
  my $user = $self->param('user') || '';
  my $pass = $self->param('pass') || '';
  return $self->render unless $self->users->check($user, $pass);

  $self->session(user => $user);
  $self->flash(message => 'Thanks for logging in.');
  $self->redirect_to('protected');
}

sub logged_in ($self) {
  return 1 if $self->session('user');
  $self->redirect_to('index');
  return undef;
}

sub logout ($self) {
  $self->session(expires => 1);
  $self->redirect_to('index');
}

1;

All Mojolicious::Controller controllers are plain old Perl classes and get instantiated on demand.

Application class

The application class lib/MyApp.pm can now be reduced to model and routing information.

package MyApp;
use Mojo::Base 'Mojolicious', -signatures;

use MyApp::Model::Users;

sub startup ($self) {

  $self->secrets(['Mojolicious rocks']);
  $self->helper(users => sub { state $users = MyApp::Model::Users->new });

  my $r = $self->routes;
  $r->any('/')->to('login#index')->name('index');

  my $logged_in = $r->under('/')->to('login#logged_in');
  $logged_in->get('/protected')->to('login#protected');

  $r->get('/logout')->to('login#logout');
}

1;

The router allows many different route variations, Mojolicious::Guides::Routing explains them all in great detail.

Templates

Templates are our views, and usually bound to controllers, so they need to be moved into the appropriate directories.

$ mkdir templates/login
$ mv templates/index.html.ep templates/login/index.html.ep
$ mv templates/protected.html.ep templates/login/protected.html.ep

Script

Finally myapp.pl can be moved into a script directory and renamed to my_app to follow the CPAN standard.

$ mkdir script
$ mv myapp.pl script/my_app

Just a few small details change, instead of a relative path to lib we now use Mojo::File to get an absolute path, allowing us to start the application from outside its home directory.

#!/usr/bin/env perl

use strict;
use warnings;

use Mojo::File qw(curfile);
use lib curfile->dirname->sibling('lib')->to_string;
use Mojolicious::Commands;

# Start command line interface for application
Mojolicious::Commands->start_app('MyApp');

Simplified tests

Full Mojolicious applications are a little easier to test, so t/login.t can be simplified.

use Mojo::Base -strict;

use Test::More;
use Test::Mojo;

my $t = Test::Mojo->new('MyApp');
$t->ua->max_redirects(1);

subtest 'Test login workflow' => sub {
  $t->get_ok('/')
    ->status_is(200)
    ->element_exists('form input[name="user"]')
    ->element_exists('form input[name="pass"]')
    ->element_exists('form input[type="submit"]');

  $t->post_ok('/' => form => {user => 'sebastian', pass => 'secr3t'})
    ->status_is(200)
    ->text_like('html body' => qr/Welcome sebastian/);

  $t->get_ok('/protected')->status_is(200)->text_like('a' => qr/Logout/);

  $t->get_ok('/logout')
    ->status_is(200)
    ->element_exists('form input[name="user"]')
    ->element_exists('form input[name="pass"]')
    ->element_exists('form input[type="submit"]');
};

done_testing();

And our final directory structure should be looking like this.

myapp
|- script
|  +- my_app
|- lib
|  |- MyApp.pm
|  +- MyApp
|     |- Controller
|     |  +- Login.pm
|     +- Model
|        +- Users.pm
|- t
|  +- login.t
+- templates
   |- layouts
   |  +- default.html.ep
   +- login
      |- index.html.ep
      +- protected.html.ep

Test-driven development takes a little getting used to, but can be a very powerful tool.

MORE

You can continue with Mojolicious::Guides now or take a look at the Mojolicious wiki, which contains a lot more documentation and examples by many different authors.

SUPPORT

If you have any questions the documentation might not yet answer, don't hesitate to ask in the Forum, on IRC, or Matrix.