1.Design principles
2.Quickstart
3.General structure
4.Modifying components
5.Build
This framework is made specifically for applications relying heavily on the HTTP protocol and the Post-Redirect-Get (PRG) design pattern. From our point of view it could be extended to create any kind of application, you just need to extend the HttpKernel or write your own Kernel. But currently this is not our intention.
To use the automatic form population, you need to use bootstrap (getbootstrap.com) as your frontend framework. If you do not want to use it, you need to write your own FormPopulation class and replace the existing with it. We will write a tutorial for it in future. See the mofifying components.
This framework was created in collaboration with Stefan Priebsch from the PHP Consulting Company (thePHP.cc). It aims to provide a solid solution to create a modular maintainable product out of our monolithic application. It should be easy to understand for young and inexperienced developers and delivers solid boundaries to develop new features in a maintainable way. A way of doing CQRS (Command Query Responsibility Segregation) is embedded into it, but if you do not need or want to use it, you can just ignore it (but we would not recommend it).
Post-Redirect-Get is a common web development design pattern. See https://en.wikipedia.org/wiki/Post/Redirect/Get
This framework doesn't aim to provide a solution for every problem your application can possibly encounter, instead it tries to provide an elegant way to implement a very specific task. Unlike other frameworks it doesn't try to be a foundation for everything, but rather a solid solution for your applications very specific PRG needs. We also implement the majority of all other HTTP-Methods, so it is also easy to use for a SPA as Backend or to implement a Web-Api.
It aims to be compatible with other frameworks for other tasks. The commands are re-usable and you should be able to inject any kind of action you already have into the framework using the command-interfaces.
PHP 7.1 and up for now. We will remove the support for the older PHP versions very soon, so if you aim to stay on 7.1 or older, you should not use this framework.
This section explains how you can get the framework up and running as
fast as possible.
Note: Registering the framework into an existing application is out of
scope of this guide, but shouldn't be a big problem, as we also did this.
Install with composer
php composer.phar require simovative/zeus
And let the cli help you in setting up a default application
vendor/bin/zeus c:a Simovative\\Demo Demo
This will create a folder public with an index.php file and a folder "bundles" containing the ApplicationBundle and ApplicationKernel.
You might want to configure your webserver right away to test if this worked.
Point your web-root to the $cwd/public
RewriteEngine on
RewriteCond %{REQUEST_FILENAME} !-f
RewriteCond %{REQUEST_FILENAME} !-d
RewriteRule ^(.*)$ /index.php [NC,L,QSA]
location / {
try_files = $uri index.php?$args;
root /var/www/site/public;
index index.php;
}
Just run the webserver and use the public/index.php as router script:
php -S localhost:8000 public/index.php
If everything worked you should see a basic setup page, telling you to add another bundle.
vendor/bin/zeus c:b Test
Next, register the bundle, which we named "Test" in your Applications Kernel (in this case bundles/Application/DemoKernel.php)
protected function registerBundles(HttpRequestInterface $request) {
$bundles = array();
$bundles[] = new DemoApplicationBundle();
$bundles[] = new \Simovative\Demo\Test\TestBundle();
return $bundles;
}
If everything worked the Router should take over and you'll see a page with the message:
Replace me with some serious content, please
vendor/bin/zeus c:p Home Test
This will create two files in you bundles/Test/Page folder:
- HomePage.php: That's the page to show
- HomePageFactoryMethods.txt: Move this code into your Bundle-Factory (TestFactory.php) to create the page from the router. (The file can be deleted afterwards)
To create a route for this page add something similar to your GetRequestRouter
if ($request->getUrl() == '/test/home') {
return $this->factory->createTestHomePage();
}
vendor/bin/zeus c:f Login Test
This will create two files in you bundles/Test/Page folder:
- LoginForm.php
- LoginFormFactoryMethods.txt They contain the same type of code as in a normal page and should be treated the same way. Also use the similar code to create a route for it.
The only difference is, if the form is submitted to an command, and the validator invalidates it, the error messages and form content will be automatically populated to the form. This happens in the CommandDispatcher if you want to have a look at it.
vendor/bin/zeus c:c Login Test
This will create five files in you bundles/Test/Command folder:
- LoginCommand.php: The command object that holds all the data needed for execution.
- LoginCommandBuilder.php The command builder connects all the command classes and will be used by the command dispatcher to get the single components.
- LoginCommandHandler.php: The handler does the command execution.
- LoginCommandValidator.php: The validator checks the command request if the provided data is valid to create a command and execute the handler. We recommend basic checks for required data and if the data types are correct and data is in the correct format (e.g. like e-mail addresses). If the command can not be successfully executed because of the current state of the application (e.g. some data in the database is missing), the command handler should return a response that indicates that.
- LoginCommandFactoryMethods.txt: Move this code into your Bundle-Factory (TestFactory.php) to create all required components and access the builder creation method from the command router.
To create a route for this command add something similar to your CommandRouter
if ($request->getUrl() == '/test/login') {
return $this->factory->createTestLoginCommandBuilder();
}
How you implement environments is up to you. Doing so can be really simple, like writing a small ini file containing information.
<?php
/* public/index.php */
$basePath = __DIR__ . '/..';
require_once $basePath . '/vendor/autoload.php';
if (is_readable($basePath . '/config.ini')) {
$config = parse_ini_file($basePath . '/config.ini');
} else {
$config = array();
}
$masterFactory = new Simovative\Zeus\Dependency\MasterFactory(
new \Simovative\Zeus\Configuration\Configuration($config, $basePath)
);
$kernel = new \Simovative\Skeleton\Application\SkeletonKernel($masterFactory);
$kernel->run($masterFactory->createRequestFromGlobals());
A more sophisticated way would be fetching the configuration values from the environment.
<?php
/* public/index.php */
$basePath = __DIR__ . '/..';
require_once $basePath . '/vendor/autoload.php';
$config = array(
getenv('database_url'),
getenv('redis_url'),
getenv('queue_url'),
);
$masterFactory = new Simovative\Zeus\Dependency\MasterFactory(
new \Simovative\Zeus\Configuration\Configuration($config, $basePath)
);
$kernel = new \Simovative\Skeleton\Application\SkeletonKernel($masterFactory);
$kernel->run($masterFactory->createRequestFromGlobals());
However, if your environments grow very complex you'll need a more sophisticated solution. The framework can handle everything as long as the resulting configuration can be narrowed down to a key-value array.
All components of the framework are accessible through this factory
Other factories can register in this factory using the Factory Interface.
Conventions: All components of the framework usually call the factorymethods
with a "get" prefix for singletons and a "create" prefix if they explicitly require
a new instance of a class. Thus, when injecting another factory into the master
factory, methods not beginning with either "get" or "create" will be ignored.
The framework has its own request classes that will be used to access the request values.
As mentioned previously, the framework does not ship a complete kernel, instead you have to extend the abstract HttpKernel or implement your own using the KernelInterface. The default HttpKernel will:
- Handle the (optional) ApplicationState
- Register bundles
- Dispatch request
- Handle response
Example Implementation:
<?php
namespace Simovative\Skeleton\Application;
use Simovative\Zeus\Http\HttpKernel;
use Simovative\Zeus\Http\Request\HttpRequestInterface;
/**
* My Applications wonderful Kernel
*/
class Kernel extends HttpKernel {
/**
* @inheritdoc
*/
protected function registerBundles(HttpRequestInterface $request) {
return array(new ApplicationBundle());
}
/**
* @inheritdoc
*/
protected function getApplicationState() {
return $this->getMasterFactory()->createApplicationState();
}
}
In most cases everything you need is to provide the bundles to be loaded and an ApplicationState (to handle sessions and such).
Bundles are a collection of commands, factories, routers, controllers and models. When your application grows bigger, you might want to split up the code in different bundles, handling different parts. You should create at least one bundle to be able to register routers and factories. Although, you are not forced to, we highly encourage you to create one "ApplicationBundle", that handles the very basic things of your application, like its core elements, dependencies to other software packages, connections to persistent storage systems, the ApplicationState and so on. Everything else should be put in other bundles. For example a "UserBundle" to handle everything related to user login, registration, password changes, displaying profile pages and stuff like that. You should keep your bundles as independent as possible from any other bundles, otherwise you will create a dependency hell.
The registration of bundles happens in the kernel
For bundles to work properly with the HttpKernel shipped by the framework, they have to implement the BundleInterface.
A bundle is able to provide one or more factories that are being registered into the MasterFactory.
Todo: Example/Code
Whatever your application wants to do, it'll happen inside commands. For the commands to be reusable by other frameworks and other entry-points of your application (like APIs or CLI for cronjobs and so on) the requests are separated in CommandRequest, Command, CommandValidation and CommandHandler. All Commands are supposed to be handled inside a Bundle.
Commands will be executed in Post-Requests only
Extend the abstract class CommandRequest. You have to implement two Methods:
- createCommand: Takes a Request and assembles the Command
- createCommandHandler: Assembles the commandHandler using the bundle Factory.
Todo: Example/Code
The Command itself is basically just a container to store all information needed in handling a specific task.
Takes the PostRequest and validates the parameters used by the command.
The framework does not enforce validation.
That means if you're too lazy to validate properly your application might end up easily exploitable.
The CommandHandler makes a Command executable with everything Transport- Protocol related already abstracted. It consists of a single execute Method taking the Command and returning a CommandResponse.
The framework does handle POST, GET and all other type of HTTP-requests separately. There are different RouterChains for all types in which routers can be registered. Bundles will register only the appropriate chain depending on the request type.
Todo: Example
Controllers are used for Command-Requests only. The CommandDispatcher will use Controllers provided by the bundle to determine which Content to display after the command execution. It is important for the framework to know what to do in case a command doesn't execute or the validation fails.
A command response signals the application/bundle controller the result of a command handler and lets the application react accordingly. Two default responses are already implemented that should fit most cases (CommandSuccessResponse, CommandFailureResponse), but you can implement any kind of response yourself.
This HttpResponseLocator class will translate a content into its http representation. Not all kind of possible content and responses are available in the framework. In case you need something that is not yet implemented, you can use your own HttpResponseLocator class and implement any content with any kind of http response for it. For very special cases you can bypass this and directly return a http response in the router or controller.
The default template engine that is used is smarty. You can replace it with any your want in your application factory.
This is the equivalent of a session, but it can be anything that represents the current state of your application.
A very common case for a application is having a login wall and all other functionality is hidden behind this. Zeus does provide a very simple way of doing this. We recommend implementing the login functionality and the login check in a separate bundle and registering this bundle directly after the application bundle in the "registerBundles" method of your kernel.
protected function registerBundles(HttpRequestInterface $request) {
return array(
new ApplicationBundle(),
new LoginBundle(),
new OtherBundleThatNeedsLogin(),
);
}
The LoginBundle will implement a login check in its routers and return the login page if the user is not logged in. In that way the routers of the other bundles will never get the request, because zeus does call the routers in the order in which the bundles are registered. In this way you can do any kind of pre processing.
These examples should make you familiar with the process of modifying the behaviour of the framework with your application. Note: It should not be necessary to modify the sources of the framework in any way.
Scenario: We do not want to use bootstrap as frontend framework but we love the automatic form population
TODO
Scenario: We have a huge application with hundreds of routes and didn't care about localisation. Now the team decided to implement locales by adding en/ fr/ de/ es/ and so on at the beginning of the URI. TODO
TODO
TODO
TODO
TODO
TODO
TODO
TODO
Windows:
cd {YOUR_PATH_TO_PROJECTS}/zeus
docker run --rm --interactive --tty --volume %cd%:/app composer install --ignore-platform-reqs --no-scripts --prefer-dist -v
docker-compose up -d --build
Linux:
cd {YOUR_PATH_TO_PROJECTS}/zeus
docker run --rm -it --volume $PWD:/app composer install --ignore-platform-reqs --prefer-dist -v
docker-compose up -d --build
cd tests
php ../build/phpunit.phar