Security

This component aids the developer in common security tasks such as password hashing and Cross-Site Request Forgery protection (CSRF).

Password Hashing

Storing passwords in plain text is a bad security practice. Anyone with access to the database will immediately have access to all user accounts thus being able to engage in unauthorized activities. To combat that, many applications use the familiar one way hashing methods “md5” and “sha1”. However, hardware evolves each day, and becomes faster, these algorithms are becoming vulnerable to brute force attacks. These attacks are also known as rainbow tables.

To solve this problem we can use hash algorithms as bcrypt. Why bcrypt? Thanks to its “Eksblowfish” key setup algorithm we can make the password encryption as “slow” as we want. Slow algorithms make the process to calculate the real password behind a hash extremely difficult if not impossible. This will protect your for a long time from a possible attack using rainbow tables.

This component gives you the ability to use this algorithm in a simple way:

use Phalcon\Mvc\Controller;

class UsersController extends Controller
{
    public function registerAction()
    {
        $user = new Users();

        $login    = $this->request->getPost("login");
        $password = $this->request->getPost("password");

        $user->login = $login;

        // Store the password hashed
        $user->password = $this->security->hash($password);

        $user->save();
    }
}

We saved the password hashed with a default work factor. A higher work factor will make the password less vulnerable as its encryption will be slow. We can check if the password is correct as follows:

use Phalcon\Mvc\Controller;

class SessionController extends Controller
{
    public function loginAction()
    {
        $login    = $this->request->getPost("login");
        $password = $this->request->getPost("password");

        $user = Users::findFirstByLogin($login);
        if ($user) {
            if ($this->security->checkHash($password, $user->password)) {
                // The password is valid
            }
        } else {
            // To protect against timing attacks. Regardless of whether a user exists or not, the script will take roughly the same amount as it will always be computing a hash.
            $this->security->hash(rand());
        }

        // The validation has failed
    }
}

The salt is generated using pseudo-random bytes with the PHP’s function openssl_random_pseudo_bytes so is required to have the openssl extension loaded.

Cross-Site Request Forgery (CSRF) protection

This is another common attack against web sites and applications. Forms designed to perform tasks such as user registration or adding comments are vulnerable to this attack.

The idea is to prevent the form values from being sent outside our application. To fix this, we generate a random nonce (token) in each form, add the token in the session and then validate the token once the form posts data back to our application by comparing the stored token in the session to the one submitted by the form:

<?php echo Tag::form('session/login') ?>

    <!-- Login and password inputs ... -->

    <input type="hidden" name="<?php echo $this->security->getTokenKey() ?>"
        value="<?php echo $this->security->getToken() ?>"/>

</form>

Then in the controller’s action you can check if the CSRF token is valid:

use Phalcon\Mvc\Controller;

class SessionController extends Controller
{
    public function loginAction()
    {
        if ($this->request->isPost()) {
            if ($this->security->checkToken()) {
                // The token is OK
            }
        }
    }
}

Remember to add a session adapter to your Dependency Injector, otherwise the token check won’t work:

$di->setShared(
    "session",
    function () {
        $session = new \Phalcon\Session\Adapter\Files();

        $session->start();

        return $session;
    }
);

Adding a captcha to the form is also recommended to completely avoid the risks of this attack.

Setting up the component

This component is automatically registered in the services container as ‘security’, you can re-register it to setup its options:

use Phalcon\Security;

$di->set(
    "security",
    function () {
        $security = new Security();

        // Set the password hashing factor to 12 rounds
        $security->setWorkFactor(12);

        return $security;
    },
    true
);

Random

The Phalcon\Security\Random class makes it really easy to generate lots of types of random data.

use Phalcon\Security\Random;

$random = new Random();

// ...
$bytes      = $random->bytes();

// Generate a random hex string of length $len.
$hex        = $random->hex($len);

// Generate a random base64 string of length $len.
$base64     = $random->base64($len);

// Generate a random URL-safe base64 string of length $len.
$base64Safe = $random->base64Safe($len);

// Generate a UUID (version 4). See https://en.wikipedia.org/wiki/Universally_unique_identifier
$uuid       = $random->uuid();

// Generate a random integer between 0 and $n.
$number     = $random->number($n);

External Resources

  • Vökuró, is a sample application that uses the Security component for avoid CSRF and password hashing, [Github]
doc_Phalcon
2016-10-16 09:56:25
Comments
Leave a Comment

Please login to continue.