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JavaScript Architecture

Client-side architecture of OroPlatform, OroCRM, and OroCommerce is built on Chaplin architecture for JavaScript Web applications based on the Backbone.js library).

The Backbone provides little structure above simple routing, individual models, views and their binding. Chaplin addresses these limitations by providing a light-weight but flexible structure which leverages well-proven design patterns and best practices.

However, as we distribute functionality of some pages over multiple bundles (several bundles can extend a page with their own functionalities), we had to extend the Chaplin approach.

Technology Stack

Libraries used by OroPlatform on the client side:

  • jQuery + jQuery-UI
  • Bootstrap
  • Backbone + underscore
  • Chaplin

It is not the whole list, but only the main items that make the skeleton of the client.

Most of these libraries are placed in OroUIBundle (as the bundle which is responsible for the user interface). Each of these libraries is defined as a module in JS config with short module_id, so there is no need to use the full path every time (e.g., the module_id is jquery instead of oroui/lib/jquery).


The application gets initialized by the oroui/js/app module that is entry point of webpack build.

This module exports an instance of the application (extension of Chaplin.Application); it depends on:

  • oroui/js/app/application, Application class
  • oroui/js/app/routes, collection of routers
  • configuration of oroui/js/app
  • and some app modules (optional)


Routes module (oroui/js/app/routes) is an array with only one route, which matches any URL and refers to the index method of controllers/page-controller:

    ['*pathname', 'page#index']

Application Configuration

Macros from @OroAsset/Asset.html.twig is utilized for passing options to the application’s constructor. The configuration is placed in @OroUI/js_modules_config.html.twig template:

{% import '@OroAsset/Asset.html.twig' as Asset %}
{{ Asset.js_modules_config({
    'oroui/js/app': {
        baseUrl: app.request.getSchemeAndHttpHost(),
        headerId: oro_hash_navigation_header(),
        userName: app.user ? app.user.username : null,
        root: app.request.getBaseURL() ~ '\/',
        publicPath: asset('build/')|split('?', 2)[0],
        startRouteName: app.request.attributes.get('_master_request_route'),
        debug: app.debug ? true : false,
        skipRouting: '[data-nohash=true], .no-hash',
        controllerPath: 'controllers/',
        controllerSuffix: '-controller',
        trailing: null
}) }}

It is placed in a twig-template in order to get access to backend variables in runtime, which is impossible to do in jsmodules.yml file.

Naming Conventions

File structures and naming conventions use best practices of Backbone development adopted for Oro needs.

├── css
│   └── style.css
├── templates // frontend templates
│   ├── projects
│   │   ├── project-item.html
│   │   └── projects-list.html
│   └── users
│       ├── user-item.html
│       └── users-list.html
├── js
│   ├── app // code that fully supports Chaplin architecture
│   │   ├── components
│   │   │   ├── view-component.js
│   │   │   └── widget-component.js
│   │   ├── controllers // Chaplin controllers
│   │   │   └── page-controller.js
│   │   ├── models
│   │   │   ├── projects
│   │   │   │   ├── project-model.js
│   │   │   │   └── projects-collection.js
│   │   │   └── users
│   │   │       ├── user-model.js
│   │   │       └── users-collection.js
│   │   ├── modules
│   │   │   ├── layout-module.js
│   │   │   └── views-module.js
│   │   └── views
│   │       ├── projects
│   │       │   ├── project-item-view.js
│   │       │   └── projects-view.js
│   │       └── users
│   │           ├── user-item-view.js
│   │           └── users-view.js
│   │ // utility code or other kind of architectural solutions
│   ├── app.js
│   ├── tools.js
│   └── ...
└── lib // for the third party libraries
    ├── jquery
    │   └── jquery.min.js
    ├── backbone
    │   └── backbone.min.js
    └── underscore
        └── underscore.min.js


  • Modules that fully support Chaplin architecture are placed in the app folder.
  • There are five folders inside the “app” directory, one for each module with the following roles:
    • components – page components, described in the Page Component section
    • controllers – Chaplin controllers. Currently, PageController is the only controller in the application
    • models – a folder for Chaplin (Backbone) models and collections; modules inside the folder may be grouped by their functionality
    • modules – app modules, described in the App Modules section
    • views – a common folder for Chaplin views and collection views; the files inside the folder are grouped by their functionality
  • each file name ends with a suffix that corresponds to its type (e.g., -view.js, -model.js, -component.js)
  • names of all the files and folders can contain only lowercase alphabetic symbols with the minus (-) symbol as a word separator
  • outside the app folder, there is a utility code or other kinds of architectural solutions (e.g., jQuery-UI widgets)

Application Lifecycle

Chaplin extends Backbone concept introducing missing parts (such as a controller) and providing a solid life cycle for the application components:


As a result, a controller and all of its models and views exist only between the navigation actions. Once the route is changed, the active controller gets disposed, as well as all of its nested views and related models. A new controller is created for the current route, and new views and models are created in the new active controller. This approach of the limited life cycle of application components solves memory leak issues. The rest of the components, such as the application itself, router, dispatcher, layout, and composer (see the picture above) exist all through the navigation.

To meet our needs, we had to extend this solution. In OroPlatform, a page content is defined by one bundle and might be extended by many other bundles. This way, there is no place where a client-side controller can be defined. As a solution, we have a common controller for all pages (PageController) that handles route changes and numerous small controllers (PageComponent) defined in the HTML and dedicated to certain feature implementation.

JS Templates (Underscore.js)

For Front-rendered templates, Oro applications use Underscore.js templates. JS templates belong to specific JS components defined as JS modules and can be overridden the same way as any other JS modules.

Fore more details see:

Page Layout View

Chaplin introduces Chaplin.Layout, which is the top-level application view. The view is initialized for the body element and is kept in memory, even when the active controller is changed. We have extended this approach and created PageLayoutView. In addition to handling clicks on the application-internal links, it collects form data and prepares navigation options for the AJAX POST request. It also implements the ComponentContainer interface and initializes the top-level Page Component defined in the page’s HTML. This enables to create the so-called global views. These views are kept in the memory, as well as PageLayoutView, when the active controller is changed.

Page Controller

The route module contains the only route mask that always leads to the PageController::index action point.

module.exports = [
    ['*pathname', 'page#index']

This way, the disposed and created controllers for each navigation action are instances of the same constructor, which exists in different life cycles of the application.

This PageController loads the page content over PageModel and sends a series of system events to notify the environment that the page content has changed.


The page update flow contains the following system events:

  • page:beforeChange
  • page:request
  • page:update
  • page:afterChange
Page Controller

These events are handled by global views (views and components that exist throughout the navigation and are not deleted by the page change. See Page Layout View for more information). One of them is PageContentView that listens to page:update and updates page content area with HTML from PageModel.

Page Component

As the functionality of a page depends on its content, and this content is generated by multiple bundles, we cannot use a single controller to be responsible for it. We have introduced an alternative approach that enables to use multiple controllers, each of which is responsible for certain functionality and is related to a certain part of the HTML.

Such controllers are called a Page Component. Functionally, a “Page Component” is similar to the “Controller” component in Chaplin, however, it implements a different flow:

  • The “Controller” represents one screen of the application and is created when the page URL is changed
  • The “Page Component” represents part of the page with certain functionality and is created in the course of page processing, subject to the settings declared in the HTML.

Define a Page Component

To define PageComponent for a block, specify the following two data-attributes in the HTML node:

  • data-page-component-module — the name of the module
  • data-page-component-options — a safe JSON-string
{% set options  = {
    metadata: metaData,
    data: data
} %}
<div data-page-component-module="mybundle/js/app/components/grid-component"
     data-page-component-options="{{ options|json_encode }}"></div>

How It Works

The PageController loads a page and, thus, triggers the page:update event. Global views (see Page Layout View) handle the event and update its HTML content. After that, views invoke the initLayout method. It performs a series of actions to its element. One of the actions is initPageComponents. This method performs the following:

  • collects all the elements with proper data-attributes
  • loads defined modules of PageComponents
  • executes the init method with the received options to initialize the PageComponents
  • resolves the initialization promise with the array of components after all components initialization

The PageController collects all promises from page:update event handlers, and once all of them are resolved, it triggers the page:afterChange event.

See also

For more details, see the Page Component documentation.

App Module

App Modules are atomic parts of the general application, and they are responsible for the following:

  • register handlers in mediator (see Chaplin.mediator )
  • subscribe to the mediator events
  • perform all the preliminary actions before an instance of the application is created

App modules export nothing. They are the callback functions executed before launching the application. They make the whole application modular and the functionality distributed among the bundles ready to work.

App Modules are declared in the jsmodules.yml configuration file in the custom app-modules section:

    - oroui/js/app/modules/messenger-module

This way, you can define the code to be executed at the application start for every bundle.

An example of using App Modules is provided in the section below.


oroui/js/app/modules/messenger-module declares handlers of the messenger in mediator.

import mediator from 'oroui/js/mediator';
import messenger from 'oroui/js/messenger';

 * Init messenger's handlers
    messenger.notificationMessage, messenger);
    messenger.notificationFlashMessage, messenger);
/* ... */

This way, we guarantee that all the necessary handlers are declared before they are used. The handlers can be executed by any component or view in the Chaplin life cycle.

mediator.execute('showMessage', 'success', 'Record is saved');

See also

For more details, see Chaplin documentation.

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