I actually don't know what i want to implement here. There are quite to many CMS out there with alot of vulnerabilities. There also exist some frameworks already. This project is meant to provide a stable project base to implement what ever a developer wants to: Dynamic Homepages, Webshops, ..
2. Create a [mysql](https://dev.mysql.com/doc/refman/5.7/en/creating-database.html) or [postgresql](https://www.postgresql.org/docs/9.0/sql-createdatabase.html) database
Each API endpoint has usually one overlying category, for example all user and authorization endpoints belong to the [UserAPI](/core/Api/UserAPI.class.php).
These endpoints can be accessed by requesting URLs starting with `/api/user`, for example: `/api/user/login`. There are also endpoints, which don't have
a category, e.g. [VerifyCaptcha](/core/Api/VerifyCaptcha.class.php). These functions can be called directly, for example with `/api/verifyCaptcha`. Both methods have one thing in common:
1. the constructor defining the expected parameters as well as some restrictions and endpoint configuration.
2. the execute function, checking all requirements by calling the parent, and then executing the own method.
To create an API category containing multiple endpoints, a parent class inheriting from `Request`, e.g. `class MultipleAPI extends Request` is required.
All endpoints inside this category then inherit from the `MultipleAPI` class.
The classes must be present inside the [Api](/core/Api) directory according to the other endpoints.
### Access Control
By default, and if not further specified or restricted, all endpoints have the following access rules:
1. Allowed methods: GET and POST (`$this->allowedMethods`)
2. No login is required (`$this->loginRequired`)
3. CSRF-Token is required, if the user is logged in (`$this->csrfTokenRequired`)
4. The function can be called from outside (`$this->isPublic`)
5. An API-Key can be used to access this method (`$this->apiKeyAllowed`)
6. All user groups can access the method (Database, Table: `ApiPermission`)
The first five restrictions can be modified inside the constructor, while the group permissions are changed using
the [Admin Dashboard](/adminPanel). It's default values are set inside the [database script](/core/Configuration/CreateDatabase.class.php).
### Using the API internally
Some endpoints are set to private, which means, they can be only accessed inside the backend. These functions, as well as the public ones,
can be used by creating the desired request object, and calling the execute function with our parameters like shown below:
located in [/core/Configuration/Patch](/core/Configuration/Patch) and have the following structure:
```php
namespace Configuration\Patch;
use Configuration\DatabaseScript;
use Driver\SQL\SQL;
class example_patch extends DatabaseScript {
public static function createQueries(SQL $sql): array {
$queries = [];
$queries[] = $sql->createTable("ExampleTable")
->addSerial("exampleCol")
->addString("someString", 32)
->primaryKey("exampleCol");
return $queries;
}
}
```
### Routing
To access and view any frontend pages, the internal router is used. Available routes can be customized on the admin dashboard. There are four types of routes:
1. Permanent redirect (http status code: 308)
2. Temporary redirect (http status code: 307)
3. Static Route
4. Dynamic Content
A static route targets a file, usually located in [/static](/static) and does nothing more, than returning its content. A dynamic route is usually the way to go:
It takes two parameters, firstly the target document and secondly, an optional view. For example, take the following routing table:
The first route would return the cat image, if the case-insensitive path `/funnyCatImage` is requested.
The second route is more interesting, as it firstly contains regex, which means, any route starting with `/someRoute/` or just `/someRoute` is accepted.
Secondly, it passes the second group (`$2`), which is all the text after the last slash (or `null`) to the dynamically loaded document `MyDocument`.
### Creating and Modifying documents
A frontend page consists of a document, which again consists of a head and a body. Furthermore, a document can have various views, which have to be implemented
programmatically. Usually, all pages inside a document look somehow similar, for example share a common side- or navbar, a header or a footer. If we think of a web-shop,
we could have one document, when showing different articles and products, and a view for various pages, e.g. the dashboard with all the products, a single product view and so on.
To create a new document, a class inside [/core/Documents](/core/Documents) is created with the following scheme:
Currently, there are two languages specified, which are stored in the database: `en_US` and `de_DE`.
A language is dynamically loaded according to the sent `Accept-Language`-Header, but can also be set using the `lang` parameter
or [/api/language/set](/core/Api/LanguageAPI.class.php) endpoint. Localization of strings can be achieved using the [LanguageModule](/core/Objects/lang/LanguageModule.php)-Class.
Let's look at this example:
```php
class ExampleLangModule extends \Objects\lang\LanguageModule {
public function getEntries(string $langCode) {
$entries = array();
switch ($langCode) {
case 'de_DE':
$entries["EXAMPLE_KEY"] = "Das ist eine Beispielübersetzung";
$entries["Welcome"] = "Willkommen";
break;
default:
$entries["EXAMPLE_KEY"] = "This is an example translation";
break;
}
return $entries;
}
}
```
If any translation key is not defined, the key is returned, which means, we don't need to specify the string `Welcome` again. To access the translations,
we firstly have to load the module. This is done by adding the class, or the object inside the constructor.
To translate the defined strings, we can use the global `L()` function. The following code snipped shows the use of
our sample language module:
```php
class SomeView extends \Elements\View {
public function __construct(\Elements\Document $document) {
