Controllers
Controllers are used to connect routes with app logic. Think of it as callbacks that are executed once a request has come in. Controllers are defined inside the lib/Controller/ directory.
To create a controller, simply extend the Controller class and create a method that should be executed on a request:
<?php
namespace OCA\MyApp\Controller;
use OCP\AppFramework\Controller;
class AuthorController extends Controller {
public function index() {
}
}
Connecting a controller and a route
If you use a proper namespace for your app (see Classloader) Nextcloud will resolve your controller and its dependencies automatically.
An example route name would look like this:
author_api#some_method
This name is processed in the following way:
Remove the underscore and uppercase the next character:
authorApi#someMethod
Split at the # and uppercase the first letter of the left part:
AuthorApi
someMethod
Append Controller to the first part:
AuthorApiController
someMethod
Now retrieve the service listed under AuthorApiController from the container, look up the parameters of the someMethod method in the request, cast them if there are PHPDoc type annotations and execute the someMethod method on the controller with those parameters.
Getting request parameters
Parameters can be passed in many ways:
- Extracted from the URL using curly braces like {key} inside the URL (see routes)
- Appended to the URL as a GET request (e.g. ?something=true)
- application/x-www-form-urlencoded from a form or jQuery
- application/json from a POST, PATCH or PUT request
All those parameters can easily be accessed by adding them to the controller method:
<?php
namespace OCA\MyApp\Controller;
use OCP\AppFramework\Controller;
class PageController extends Controller {
// this method will be executed with the id and name parameter taken
// from the request
public function doSomething($id, $name) {
}
}
It is also possible to set default parameter values by using PHP default method values so common values can be omitted:
<?php
namespace OCA\MyApp\Controller;
use OCP\AppFramework\Controller;
class PageController extends Controller {
/**
* @param int $id
*/
public function doSomething($id, $name='john', $job='author') {
// GET ?id=3&job=killer
// $id = 3
// $name = 'john'
// $job = 'killer'
}
}
Casting parameters
URL, GET and application/x-www-form-urlencoded have the problem that every parameter is a string, meaning that:
?doMore=false
would be passed in as the string ‘false’ which is not what one would expect. To cast these to the correct types, simply add PHPDoc in the form of:
@param type $name
<?php
namespace OCA\MyApp\Controller;
use OCP\AppFramework\Controller;
class PageController extends Controller {
/**
* @param int $id
* @param bool $doMore
* @param float $value
*/
public function doSomething($id, $doMore, $value) {
// GET /index.php/apps/myapp?id=3&doMore=false&value=3.5
// => $id = 3
// $doMore = false
// $value = 3.5
}
}
The following types will be cast:
- bool or boolean
- float
- int or integer
JSON parameters
It is possible to pass JSON using a POST, PUT or PATCH request. To do that the Content-Type header has to be set to application/json. The JSON is being parsed as an array and the first level keys will be used to pass in the arguments, e.g.:
POST /index.php/apps/myapp/authors
Content-Type: application/json
{
"name": "test",
"number": 3,
"publisher": true,
"customFields": {
"mail": "test@example.com",
"address": "Somewhere"
}
}
<?php
namespace OCA\MyApp\Controller;
use OCP\AppFramework\Controller;
class PageController extends Controller {
public function create($name, $number, $publisher, $customFields) {
// $name = 'test'
// $number = 3
// $publisher = true
// $customFields = array("mail" => "test@example.com", "address" => "Somewhere")
}
}
Reading headers, files, cookies and environment variables
Headers, files, cookies and environment variables can be accessed directly from the request object:
<?php
namespace OCA\MyApp\Controller;
use OCP\AppFramework\Controller;
use OCP\IRequest;
class PageController extends Controller {
public function someMethod() {
$type = $this->request->getHeader('Content-Type'); // $_SERVER['HTTP_CONTENT_TYPE']
$cookie = $this->request->getCookie('myCookie'); // $_COOKIES['myCookie']
$file = $this->request->getUploadedFile('myfile'); // $_FILES['myfile']
$env = $this->request->getEnv('SOME_VAR'); // $_ENV['SOME_VAR']
}
}
Why should those values be accessed from the request object and not from the global array like $_FILES? Simple: because it’s bad practice and will make testing harder.
Reading and writing session variables
To set, get or modify session variables, the ISession object has to be injected into the controller.
Then session variables can be accessed like this:
Note
The session is closed automatically for writing, unless you add the @UseSession annotation!
<?php
namespace OCA\MyApp\Controller;
use OCP\ISession;
use OCP\IRequest;
use OCP\AppFramework\Controller;
class PageController extends Controller {
private $session;
public function __construct($AppName, IRequest $request, ISession $session) {
parent::__construct($AppName, $request);
$this->session = $session;
}
/**
* The following annotation is only needed for writing session values
* @UseSession
*/
public function writeASessionVariable() {
// read a session variable
$value = $this->session['value'];
// write a session variable
$this->session['value'] = 'new value';
}
}
Setting cookies
Cookies can be set or modified directly on the response class:
<?php
namespace OCA\MyApp\Controller;
use DateTime;
use OCP\AppFramework\Controller;
use OCP\AppFramework\Http\TemplateResponse;
use OCP\IRequest;
class BakeryController extends Controller {
/**
* Adds a cookie "foo" with value "bar" that expires after user closes the browser
* Adds a cookie "bar" with value "foo" that expires 2015-01-01
*/
public function addCookie() {
$response = new TemplateResponse(...);
$response->addCookie('foo', 'bar');
$response->addCookie('bar', 'foo', new DateTime('2015-01-01 00:00'));
return $response;
}
/**
* Invalidates the cookie "foo"
* Invalidates the cookie "bar" and "bazinga"
*/
public function invalidateCookie() {
$response = new TemplateResponse(...);
$response->invalidateCookie('foo');
$response->invalidateCookies(array('bar', 'bazinga'));
return $response;
}
}
Responses
Similar to how every controller receives a request object, every controller method has to return a Response. This can be in the form of a Response subclass or in the form of a value that can be handled by a registered responder.
JSON
Returning JSON is simple, just pass an array to a JSONResponse:
<?php
namespace OCA\MyApp\Controller;
use OCP\AppFramework\Controller;
use OCP\AppFramework\Http\JSONResponse;
class PageController extends Controller {
public function returnJSON() {
$params = array('test' => 'hi');
return new JSONResponse($params);
}
}
Because returning JSON is such a common task, there’s even a shorter way to do this:
<?php
namespace OCA\MyApp\Controller;
use OCP\AppFramework\Controller;
class PageController extends Controller {
public function returnJSON() {
return array('test' => 'hi');
}
}
Why does this work? Because the dispatcher sees that the controller did not return a subclass of a Response and asks the controller to turn the value into a Response. That’s where responders come in.
Responders
Responders are short functions that take a value and return a response. They are used to return different kinds of responses based on a format parameter which is supplied by the client. Think of an API that is able to return both XML and JSON depending on if you call the URL with:
?format=xml
or:
?format=json
The appropriate responder is being chosen by the following criteria:
First the dispatcher checks the Request if there is a format parameter, e.g.:
?format=xml
or:
/index.php/apps/myapp/authors.{format}
If there is none, take the Accept header, use the first mimetype and cut off application/. In the following example the format would be xml:
Accept: application/xml, application/json
If there is no Accept header or the responder does not exist, format defaults to json.
By default there is only a responder for JSON but more can be added easily:
<?php
namespace OCA\MyApp\Controller;
use OCP\AppFramework\Controller;
use OCP\AppFramework\Http\DataResponse;
class PageController extends Controller {
public function returnHi() {
// XMLResponse has to be implemented
$this->registerResponder('xml', function($value) {
if ($value instanceof DataResponse) {
return new XMLResponse(
$value->getData(),
$value->getStatus(),
$value->getHeaders()
);
} else {
return new XMLResponse($value);
}
});
return array('test' => 'hi');
}
}
Note
The above example would only return XML if the format parameter was xml. If you want to return an XMLResponse regardless of the format parameter, extend the Response class and return a new instance of it from the controller method instead.
Because returning values works fine in case of a success but not in case of failure that requires a custom HTTP error code, you can always wrap the value in a DataResponse. This works for both normal responses and error responses.
<?php
namespace OCA\MyApp\Controller;
use OCP\AppFramework\Controller;
use OCP\AppFramework\Http\DataResponse;
use OCP\AppFramework\Http\Http;
class PageController extends Controller {
public function returnHi() {
try {
return new DataResponse(calculate_hi());
} catch (\Exception $ex) {
return new DataResponse(array('msg' => 'not found!'), Http::STATUS_NOT_FOUND);
}
}
}
Templates
A template can be rendered by returning a TemplateResponse. A TemplateResponse takes the following parameters:
appName: tells the template engine in which app the template should be located
templateName: the name of the template inside the template/ folder without the .php extension
parameters: optional array parameters that are available in the template through $_, e.g.:
array('key' => 'something')
can be accessed through:
$_['key']
renderAs: defaults to user, tells Nextcloud if it should include it in the web interface, or in case blank is passed solely render the template
<?php
namespace OCA\MyApp\Controller;
use OCP\AppFramework\Controller;
use OCP\AppFramework\Http\TemplateResponse;
class PageController extends Controller {
public function index() {
$templateName = 'main'; // will use templates/main.php
$parameters = array('key' => 'hi');
return new TemplateResponse($this->appName, $templateName, $parameters);
}
}
Public page templates
For public pages, that are rendered to users who are not logged in to the Nextcloud instance, a PublicTemplateResponse
should be used, to load the correct base template. It also allows adding an optional set of actions that will be shown in the top right corner of the public page.
<?php
namespace OCA\MyApp\Controller;
use OCP\AppFramework\Controller;
use OCP\AppFramework\Http\Template\SimpleMenuAction;
use OCP\AppFramework\Http\Template\PublicTemplateResponse;
class PageController extends Controller {
public function index() {
$template = new PublicTemplateResponse($this->appName, 'main', []);
$template->setHeaderTitle('Public page');
$template->setHeaderDetails('some details');
$response->setHeaderActions([
new SimpleMenuAction('download', 'Label 1', 'icon-css-class1', 'link-url', 0),
new SimpleMenuAction('share', 'Label 2', 'icon-css-class2', 'link-url', 10),
]);
return $template;
}
}
The header title and subtitle will be rendered in the header, next to the logo. The action with the highest priority (lowest number) will be used as the primary action, others will shown in the popover menu on demand.
A SimpleMenuAction
will be a link with an icon added to the menu. App developers can implement their own types of menu renderings by adding a custom class implementing the IMenuAction
interface.
Redirects
A redirect can be achieved by returning a RedirectResponse:
<?php
namespace OCA\MyApp\Controller;
use OCP\AppFramework\Controller;
use OCP\AppFramework\Http\RedirectResponse;
class PageController extends Controller {
public function toGoogle() {
return new RedirectResponse('https://google.com');
}
}
Downloads
A file download can be triggered by returning a DownloadResponse:
<?php
namespace OCA\MyApp\Controller;
use OCP\AppFramework\Controller;
use OCP\AppFramework\Http\DownloadResponse;
class PageController extends Controller {
public function downloadXMLFile() {
$path = '/some/path/to/file.xml';
$contentType = 'application/xml';
return new DownloadResponse($path, $contentType);
}
}
Creating custom responses
If no premade Response fits the needed usecase, it is possible to extend the Response base class and custom Response. The only thing that needs to be implemented is the render method which returns the result as string.
Creating a custom XMLResponse class could look like this:
<?php
namespace OCA\MyApp\Http;
use OCP\AppFramework\Http\Response;
class XMLResponse extends Response {
private $xml;
public function __construct(array $xml) {
$this->addHeader('Content-Type', 'application/xml');
$this->xml = $xml;
}
public function render() {
$root = new SimpleXMLElement('<root/>');
array_walk_recursive($this->xml, array ($root, 'addChild'));
return $xml->asXML();
}
}
Streamed and lazily rendered responses
By default all responses are rendered at once and sent as a string through middleware. In certain cases this is not a desirable behavior, for instance if you want to stream a file in order to save memory. To do that use the now available OCP\AppFramework\Http\StreamResponse class:
<?php
namespace OCA\MyApp\Controller;
use OCP\AppFramework\Controller;
use OCP\AppFramework\Http\StreamResponse;
class PageController extends Controller {
public function downloadXMLFile() {
return new StreamResponse('/some/path/to/file.xml');
}
}
If you want to use a custom, lazily rendered response simply implement the interface OCP\AppFramework\Http\ICallbackResponse for your response:
<?php
namespace OCA\MyApp\Http;
use OCP\AppFramework\Http\Response;
use OCP\AppFramework\Http\ICallbackResponse;
class LazyResponse extends Response implements ICallbackResponse {
public function callback(IOutput $output) {
// custom code in here
}
}
Note
Because this code is rendered after several usually built in helpers, you need to take care of errors and proper HTTP caching by yourself.
Modifying the content security policy
By default Nextcloud disables all resources which are not served on the same domain, forbids cross domain requests and disables inline CSS and JavaScript by setting a Content Security Policy. However if an app relies on third-party media or other features which are forbidden by the current policy the policy can be relaxed.
Note
Double check your content and edge cases before you relax the policy! Also read the documentation provided by MDN
To relax the policy pass an instance of the ContentSecurityPolicy class to your response. The methods on the class can be chained.
The following methods turn off security features by passing in true as the $isAllowed parameter
- allowInlineScript (bool $isAllowed)
- allowInlineStyle (bool $isAllowed)
- allowEvalScript (bool $isAllowed)
The following methods whitelist domains by passing in a domain or * for any domain:
- addAllowedScriptDomain (string $domain)
- addAllowedStyleDomain (string $domain)
- addAllowedFontDomain (string $domain)
- addAllowedImageDomain (string $domain)
- addAllowedConnectDomain (string $domain)
- addAllowedMediaDomain (string $domain)
- addAllowedObjectDomain (string $domain)
- addAllowedFrameDomain (string $domain)
- addAllowedChildSrcDomain (string $domain)
The following policy for instance allows images, audio and videos from other domains:
<?php
namespace OCA\MyApp\Controller;
use OCP\AppFramework\Controller;
use OCP\AppFramework\Http\TemplateResponse;
use OCP\AppFramework\Http\ContentSecurityPolicy;
class PageController extends Controller {
public function index() {
$response = new TemplateResponse('myapp', 'main');
$csp = new ContentSecurityPolicy();
$csp->addAllowedImageDomain('*');
->addAllowedMediaDomain('*');
$response->setContentSecurityPolicy($csp);
}
}
OCS
Note
This is purely for compatibility reasons. If you are planning to offer an external API, go for a api instead.
In order to ease migration from OCS API routes to the App Framework, an additional controller and response have been added. To migrate your API you can use the OCP\AppFramework\OCSController base class and return your data in the form of a DataResponse in the following way:
<?php
namespace OCA\MyApp\Controller;
use OCP\AppFramework\Http\DataResponse;
use OCP\AppFramework\OCSController;
class ShareController extends OCSController {
/**
* @NoAdminRequired
* @NoCSRFRequired
* @PublicPage
* @CORS
*/
public function getShares() {
return new DataResponse([
//Your data here
]);
}
}
The format parameter works out of the box, no intervention is required.
In order to make routing work for OCS routes you need to add a seperate ‘ocs’ entry to the routing table of your app. Inside these are normal routes.
<?php
return [
'ocs' => [
[
'name' => 'Share#getShares',
'url' => '/api/v1/shares',
'verb' => 'GET',
],
],
];
Now your method will be reachable via <server>/ocs/v2.php/apps/<APPNAME>/api/v1/shares
Handling errors
Sometimes a request should fail, for instance if an author with id 1 is requested but does not exist. In that case use an appropriate HTTP error code to signal the client that an error occurred.
Each response subclass has access to the setStatus method which lets you set an HTTP status code. To return a JSONResponse signaling that the author with id 1 has not been found, use the following code:
<?php
namespace OCA\MyApp\Controller;
use OCP\AppFramework\Controller;
use OCP\AppFramework\Http;
use OCP\AppFramework\Http\JSONResponse;
class AuthorController extends Controller {
public function show($id) {
try {
// try to get author with $id
} catch (NotFoundException $ex) {
return new JSONResponse(array(), Http::STATUS_NOT_FOUND);
}
}
}
Authentication
By default every controller method enforces the maximum security, which is:
- Ensure that the user is admin
- Ensure that the user is logged in
- Check the CSRF token
Most of the time though it makes sense to also allow normal users to access the page and the PageController->index() method should not check the CSRF token because it has not yet been sent to the client and because of that can’t work.
To turn off checks the following Annotations can be added before the controller:
- @NoAdminRequired: Also users that are not admins can access the page
- @NoCSRFRequired: Don’t check the CSRF token (use this wisely since you might create a security hole; to understand what it does see ../../general/security)
- @PublicPage: Everyone can access the page without having to log in
A controller method that turns off all checks would look like this:
<?php
namespace OCA\MyApp\Controller;
use OCP\IRequest;
use OCP\AppFramework\Controller;
class PageController extends Controller {
/**
* @NoAdminRequired
* @NoCSRFRequired
* @PublicPage
*/
public function freeForAll() {
}
}
Rate limiting
Nextcloud supports rate limiting on a controller method basis. By default controller methods are not rate limited. Rate limiting should be used on expensive or security sensitive functions (e.g. password resets) to increase the overall security of your application.
The native rate limiting will return a 429 status code to clients when the limit is reached and a default Nextcloud error page. When implementing rate limiting in your application, you should thus consider handling error situations where a 429 is returned by Nextcloud.
To enable rate limiting the following Annotations can be added to the controller:
- @UserRateThrottle(limit=int, period=int): The rate limiting that is applied to logged-in users. If not specified Nextcloud will fallback to AnonUserRateThrottle.
- @AnonRateThrottle(limit=int, period=int): The rate limiting that is applied to guests.
A controller method that would allow five requests for logged-in users and one request for anonymous users within the last 100 seconds would look as following:
<?php
namespace OCA\MyApp\Controller;
use OCP\IRequest;
use OCP\AppFramework\Controller;
class PageController extends Controller {
/**
* @PublicPage
* @UserRateThrottle(limit=5, period=100)
* @AnonRateThrottle(limit=1, period=100)
*/
public function rateLimitedForAll() {
}
}
Brute-force protection
Nextcloud supports brute-force protection on an action basis. By default controller methods are not protected. Brute-force protection should be used on security sensitive functions (e.g. login attempts) to increase the overall security of your application.
The native brute-force protection will slow down requests if too many violations have been found. This slow down will be applied to all requests against a brute-force protected controller with the same action from the affected IP.
To enable brute force protection the following Annotation can be added to the controller:
- @BruteForceProtection(action=string): “string” is the name of the action. Such as “login” or “reset”. Brute-force attempts are on a per-action basis; this means if a violation for the “login” action is triggered, other actions such as “reset” or “foobar” are not affected.
Then the throttle() method has to be called on the response in case of a violation. Doing so will increase the throttle counter and make following requests slower.
A controller method that would employ brute-force protection with an action of “foobar” would look as following:
<?php
namespace OCA\MyApp\Controller;
use OCP\IRequest;
use OCP\AppFramework\Controller;
use OCP\AppFramework\Http\TemplateResponse;
class PageController extends Controller {
/**
* @BruteForceProtection(action=foobar)
*/
public function rateLimitedForAll() {
$templateResponse = new TemplateResponse(…);
// In case of a violation increase the throttle counter
// note that $this->auth->isSuccessful here is just an
// example.
if(!$this->auth->isSuccessful()) {
$templateResponse->throttle();
}
return $templateResponse;
}
}