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Security checklist

Security checklist¶

When getting ready to go live with your project for the first time, or when re-launching it, make sure that your setup is secure.

Caution

Security is an ongoing process. After going live, you should pay attention to security advisories released via your service portal, or via Security advisories if you're not a subscriber.

Symfony¶

`APP_SECRET`¶

APP_SECRET needs to be a strong, random, securely stored value.

Do not use a default value like ff6dc61a329dc96652bb092ec58981f7 or ThisTokenIsNotSoSecretChangeIt.
The secret must be secured against unwanted access. Do not commit the value to a version control system.
The secret must be long enough. 32 characters is minimum, longer is better.

Tip

The following command will generate a 64-character-long secure random value:

php -r "print bin2hex(random_bytes(32));"

Note

On Ibexa Cloud, if APP_SECRET is not set, the system sets it to PLATFORM_PROJECT_ENTROPY

Symfony production mode¶

Only expose Symfony production mode openly on the internet. Do not expose the dev mode on the internet, otherwise you may disclose things like phpinfo and environment variables. Exposing the dev mode exposes things like phpinfo, environment variables and so on.

More information about Symfony security

For more information about securing Symfony-based systems, see:

Authentication and authorisation, and more on this subject
Symfony's secrets management system

PHP¶

Enable `zend.exception_ignore_args` in PHP 7.4 and newer¶

PHP 7.4 introduced the zend.exception_ignore_args setting in php.ini. The default value is 0 (disabled) for backwards compatibility. On production sites this should be set to 1 (enabled), to ensure stack traces do not include arguments passed to functions. Such arguments could include passwords or other sensitive information. You should also make sure no stack trace is ever visible to end users of production sites, though visible arguments are unsafe even if the stack traces only show up in log files.

Ibexa DXP¶

Fully-vetted admin users¶

Make sure Admin users and other privileged users who have access to System Information and setup in the back end are vetted and fully trustworthy.

As administrator you have access to full information about the system through the setup/system_info Policy, and also to user data, Role editing, and many other critical aspects.

Strong passwords¶

Enforce strong passwords for all users. This is specially important for admin accounts and other privileged users.

Never go online with admin password set to publish or any other default value.
Introduce password quality checks. Make sure the checks are strict enough (length/complexity).
16 characters is a quite secure minimum length. Do not go below 10.
If using Ibexa DXP v4.5 or newer, enable the password rule that rejects any password which has been exposed in a public breach.

Password rules

See setting up password rules.

Secure secrets¶

Ensure all other secrets are similarly secured: Varnish invalidate token, JWT passphrase (if in use), and any other application-specific secrets.

Protect against brute force attacks¶

Consider introducing a measure against brute force login attacks, like CAPTCHA. Adjust timeout limits to your needs:

When using the "forgot password" feature, a token is created which expires if the user doesn't click the password reset link that gets mailed to them in time. The time before it expires is set in the parameter ibexa.site_access.config.default.security.token_interval_spec. By nature this feature must be available to users before they have logged in, including would-be attackers. If an attacker uses this feature with someone else's email address, the attacker does not receive the email. But they could still try to guess the password reset link. That's why this interval should be as short as possible. 5 minutes is often enough.

Ibexa DXP allows you to create and send invitations to create an account in the frontend as a customer, the Back Office as an employee, or the Corporate Portal as a business partner. You can send invitations to individual users or in bulk. These invitations time out according to the parameter ibexa.site_access.config.default.user_invitation.hash_expiration_time. This can safely be longer than the "forgot password" time, since attackers cannot generate invitations. Don't leave it longer than it needs to be, though.

These timeouts are both entered as PHP DateInterval duration strings. The forgot password feature defaults to "PT1H" (one hour). The account invitation feature defaults to "P7D" (seven days).

Disable Varnish when using Fastly¶

If you are using Fastly, disable Varnish. See Security advisory: EZSA-2020-002.

Block upload of unwanted file types¶

The ibexa.site_access.config.default.io.file_storage.file_type_blacklist setting is defined in the config file src/bundle/Core/Resources/config/default_settings.yml in the Core bundle. It prevents uploading files that might be executed on the server, a Remote Code Execution (RCE) vulnerability. The setting lists filename extensions for files that shouldn't be uploaded. Attempting to upload files from the list results in an error message. There are also other safety measures in place, like using the web server configuration to block execution of uploaded scripts, see the next point.

You should adapt this list to your needs. Note that svg images are blocked because they may contain JavaScript code. If you opt to allow them, make sure you take steps to mitigate the risk.

The default list of blocked file types contains: hta htm html jar js jse pgif phar php php3 php4 php5 phps phpt pht phtml svg swf xhtm xhtml.

Block execution of scripts in `var` directory¶

Make sure the web server blocks the execution of PHP files and other scripts in the var directory. See the line below # Disable .php(3) and other executable extensions in the var directory in the example virtual host files for Apache and Nginx, provided in the installation documentation.

Use secure password hashing¶

Use the most secure supported password hashing method. This is currently bcrypt, and it is enabled by default.

Use UTF8MB4 with MySQL/MariaDB¶

If you are using MySQL/MariaDB, use the UTF8MB4 database character set and related collation. The older UTF8 can lead to truncation with 4-byte characters, like some emoji, which may have unpredictable side effects.

See Change from UTF8 to UTF8MB4.

Use secure Roles and Policies¶

Use the following checklist to ensure the Roles and Policies are secure:

Do Roles restrict read/write access to content as they should? Is read/write access to personal data, like User Content items, properly restricted?
Are the Roles and their use properly differentiated and restricted? Is an editor Role used for everyday editorial work?
Is the admin Role used only for high-level administrative work? Is the number of people with admin access properly restricted and vetted?
Should people be allowed to create new user accounts themselves? Should such accounts be enabled by default, or require vetting by admins?
Is the Role of self-created new users restricted as intended?
Is there a clear Role separation between the organisation's internal and external users?
Is access to user data properly restricted, in accordance with GDPR?

Do not use "hide" for read access restriction¶

The visibility switcher is a convenient feature for withdrawing content from the frontend. It acts as a filter in the frontend by default. You can choose to respect it or ignore it in your code. It isn't permission-based, and doesn't restrict read access to content. Hidden content can be read through other means, like the REST API or GraphQL.

If you need to restrict read access to a given Content item, you could create a role that grants read access for a given Section or Object State, and set a different Section or Object State for the given Content. Or use other permission-based Limitations.

Minimize exposure¶

Security should be a multi-layered exercise. It is wise to minimize what features you make available to the world, even if there are no known or suspected vulnerabilities in those features, and even if your content is properly protected by roles and policies. Reduce your attack surface by exposing only what you must.

If possible, make the Back Office unavailable on the open internet.
Symfony FOSJsRoutingBundle is required in those releases where it is included, to expose routes to JavaScript. It exposes only the required routes, nothing more. It is only required in the Back Office site access though, so you can consider blocking it in other site accesses. You should also go through your own custom routes, and decide for each if you need to expose them or not. See the documentation on YAML route definitions for exposure.
By default, a Powered-By header is set. It specifies what version of the DXP is running. For example, x-powered-by: Ibexa Experience v4. This doesn't expose anything that couldn't be detected through other means. But if you wish to obscure this, you can either omit the version number, or disable the header entirely.
Consider whether certain interfaces must be left available on the open internet. For example:
- The /search and /graphql endpoints
- The REST API endpoints

Access control

One way to lock down an endpoint that should not be openly available is to restrict access to logged-in users, by using the access_control feature. In your YAML configuration, under the security key, add an entry similar to the following one, which redirects requests to a login page:

security:
    access_control:
        - { path: ^/search, roles: ROLE_USER}

Underlying stack¶

Once you have properly configured secure user roles and permissions, to avoid exposing your application to any DDOS vulnerabilities or other yet unknown security threats, make sure that you do the following:

Avoid exposing servers on the open internet when not strictly required.
Ensure any servers, services, ports and virtual hosts that were opened for testing purposes are shut down before going live.
Ensure file system permissions are set up in such a way that the web server or PHP user can't access files they shouldn't be able to read.
Secure the database with a good password, keys, firewall, etc. Optionally, ensure that the database user used by the web app only has permissions to do the operations needed by Ibexa DXP. The Data Definition Language (DDL) commands (create, alter, drop, truncate, comment) are only needed for installing and upgrading Ibexa DXP, and not for running it. Not granting these rights to web app users reduces the damage that can result from a security breach.

Those steps aren't needed when using Ibexa Cloud, where the provider handles them.

Security headers¶

There are a number of security related HTTP response headers that you can use to improve your security. Headers must be adapted to the site in question, and in most cases it is site owner's responsibility. The headers can be set either by the web server, or by a proxy like Varnish. You can also set headers in PHP code by making a Symfony RequestListener for the kernel.response event and adding the header to the response object headers list.

You will likely need to vary the security headers based on the SiteAccess in question and site implementation details, such as frontend code and libraries used.

Strict-Transport-Security - ensures that all requests are sent over HTTPS, with no fallback to HTTP. All production sites should use HTTPS and this header unless they have very particular needs. This header is less important during development provided that the site is on an internal, protected network.
X-Frame-Options - ensures that the site is not be embedded in a frame by a compliant browser. Set the header to SAMEORIGIN to allow embedding by your own site, or DENY to block framing completely.
X-Content-Type-Options - prevents the browser from second-guessing the mime-type of delivered content. This header is less important if users cannot upload content and/or you trust your editors. However, it is safer to use it at all times. Make sure that the Content-Type header is also correctly set, including for the top-level document, to avoid issues with HTML documents being downloaded while they should be rendered.
Content-Security-Policy - blocks cross site scripting (XSS) attacks by setting an allowlist (whitelist) of resources to be loaded for a given page. You can set separate lists for scripts, images, fonts, and so on. For experimentation and testing, you can use Content-Security-Policy-Report-Only before activating the actual policy.
Referrer-Policy - limits what information is sent from the previous page or site when navigating to a new page or site. This header has several directives for fine-tuning the referrer information.
Permissions-Policy - limits what features the browser can use, such as fullscreen, notifications, location, camera, or microphone. For example, if someone succeeds in injecting their JavaScript into your site, this header prevents them from using those features to attack your users.

Track dependencies¶

Run servers on a recent operating system and install security patches for dependencies.
Configure servers to alert you about security updates from vendors. Pay special attention to dependencies used by your project directly, or by PHP. The provider of the operating system usually has a service for this.
Enable GitHub Dependabot to receive notifications when a security fix is released in a Github-hosted dependency.
If you're not using Github for your project, you can create a dummy project on Github with the same dependencies as your real project, and enable Dependabot notifications for that.
Ensure you get notifications about security fixes in JavaScript dependencies.