HTTP Header Security

The HTTP Header Security mechanism allows you to add security-related response headers which enable browser-side security mechanisms.

What are the headers supposed to be?

This section briefly describes the purpose of the headers. You can find more information about the XSS Protection, Content Security Policy, Content-Type Options
as well as Strict Transport Security header in Mozilla’s Developer Guide.

XSS Protection

If the XSS Protection header is enabled some cross-site scripting (XSS) attacks are detected, and the malicious parts of the page are either sanitized, or the rendering of the page is blocked entirely.

Content Security Policy

The Content Security Policy is a mighty tool to prevent cross-site scripting and code injection attacks.

It is a common practice to extend the Camunda Platform web applications by custom scripts & forms. To ensure that these user customizations work without any problems, by default, the Content Security Policy is configured very lax. It is highly recommended to strengthen the default policy based on your requirements.

Default Policy

For the default policy, only the base-uri directive is set to 'self' which restricts the HTML Base Tag to point to the same-origin.

The header value of the default policy looks as follows:

base-uri 'self'

Strengthen the Default Policy

We encourage you to use a stricter Content Security Policy than the default policy to mitigate attacks. This section describes how to configure several directives more strict and explains the resulting impact:

  • base-uri 'self'
    • The URI of the HTML Base Tag must not point to a cross-origin
  • default-src 'self' 'unsafe-inline' 'unsafe-eval'
    • Resources (e. g. scripts, styles, fonts, etc.) must not point to a cross-origin
    • Inline styles/scripts must be allowed since the web applications make use of it
    • JavaScript’s eval(…) calls must be allowed to execute cam-script in Tasklist
  • img-src 'self' data:
    • Images must not point to a cross-origin
    • Data URIs are allowed since the web applications make use of it
  • block-all-mixed-content
    • When accessed via HTTPS, all resources loaded via HTTP are blocked
    • Mixed content is allowed when the site is accessed via HTTP
  • form-action 'self'
    • A form must not be submitted against a cross-origin
    • JavaScript in the action attribute of a form is not executed
  • frame-ancestors 'none'
    • Embedding the web applications via an iframe is forbidden; Mitigates clickjacking attacks
  • object-src 'none'
    • Resources embedded via object, embed or applet tags are not loaded
    • Mitigates the exploitation of bugs that are included in third-party plugins (e. g. Adobe Flash, Java Applets, etc.)
  • sandbox allow-forms allow-scripts allow-same-origin allow-popups allow-downloads
    • The site is rendered inside a sandbox.
    • Submitting forms, executing scripts, accessing the local storage, opening popups as well as downloading files must be allowed since the web applications make use of these mechanisms.

If you want to configure all of the directives introduced above, the policy would look as follows:

base-uri 'self';
default-src 'self' 'unsafe-inline' 'unsafe-eval';
img-src 'self' data:;
block-all-mixed-content;
form-action 'self';
frame-ancestors 'none';
object-src 'none';
sandbox
  allow-forms
  allow-scripts
  allow-same-origin
  allow-popups
  allow-downloads

Heads-up!

Please keep in mind that a configuration which is more strict than the one introduced above might break the functionality of the web applications.

Content-Type Options

If the Content-Type Options header is enabled, the browser uses the mime type declared in the Content-Type header to render a resource and prevents trying to guess the mime type by inspecting the actual content of the byte stream (sniffing).

Strict Transport Security

When enabled, the browser remembers that the Webapps must be accessed via HTTPS. After the initial HTTPS request, all subsequent requests will be redirected to HTTPS on the client-level — even though the user tries to access the Webapps via HTTP.

Heads-up!

  • The Strict Transport Security header is disabled by default. When going into production, it is highly recommended to enable Strict Transport Security and Strengthen the Base Configuration to protect the Webapps against man-in-the-middle attacks.
  • When accessing the Webapps via HTTP, the Strict Transport Security header is ignored. Therefore, make sure to redirect HTTP requests to HTTPS.

Base Configuration

After enabling the Strict Transport Security header, the base configuration is relatively lax:

max-age=31536000

Strengthen the Base Configuration

We encourage you to use a stricter configuration. Here you can find hints on how to strengthen the Base Configuration. Please also see the section on How to Configure?

Max Age

The higher the value, the better: after expiration, the Webapps can be accessed via HTTP, which is prone to be exploited by attackers.

Include Subdomains

If you can answer the questions below with yes, you should consider enabling the includeSubdomains flag:

  • Are the Webapps the only web services provided under your domain?
  • Additionally to the main domain, are there any subdomains redirected to the Webapps (e.g., www.example.com is redirected to example.com)?

Preload

To even avoid the initial HTTP request (redirected to HTTPS), you can submit your domain to the Preload List Service maintained by Google and set the Strict Transport Security header according to the Submission Requirements with the help of the config property hstsValue.

Where to Configure?

Choose a container from the list and learn where to configure the HTTP Security Headers:

How to Configure?

The following table shows the possible configuration settings and the default behavior:

Name Attribute Configuration Default
X-XSS-Protection xssProtectionDisabled The header can be entirely disabled if set to true.
Allowed set of values is true and false.
false
xssProtectionOption The allowed set of values:
  • BLOCK: If the browser detects a cross-site scripting attack, the page is blocked completely
  • SANITIZE: If the browser detects a cross-site scripting attack, the page is sanitized from suspicious parts (value 0)

Note:
  • Is ignored when xssProtectionDisabled is set to true
  • Cannot be set in conjunction with xssProtectionValue
BLOCK
xssProtectionValue A custom value for the header can be specified.

Note:
  • Is ignored when xssProtectionDisabled is set to true
  • Cannot be set in conjunction with xssProtectionOption
1; mode=block
Content-Security-Policy contentSecurityPolicyDisabled The header can be entirely disabled if set to true.
Allowed set of values is true and false.
false
contentSecurityPolicyValue A custom value for the header can be specified.

Note: Property is ignored when contentSecurityPolicyDisabled is set to true
base-uri 'self'
X-Content-Type-Options contentTypeOptionsDisabled The header can be entirely disabled if set to true.
Allowed set of values is true and false.
false
contentTypeOptionsValue A custom value for the header can be specified.

Note: Property is ignored when contentSecurityPolicyDisabled is set to true
nosniff
Strict-Transport-Security hstsDisabled Set to false to enable the header. The header is disabled by default.
Allowed set of values is true and false.
true
hstsMaxAge Amount of seconds, the browser should remember to access the webapp via HTTPS.

Note:
  • Corresponds by default to one year
  • Is ignored when hstsDisabled is true
  • Cannot be set in conjunction with hstsValue
  • Allows a maximum value of 231-1
31536000
hstsIncludeSubdomainsDisabled HSTS is additionally to the domain of the webapp enabled for all its subdomains.

Note:
  • Is ignored when hstsDisabled is true
  • Cannot be set in conjunction with hstsValue
true
hstsValue A custom value for the header can be specified.

Note:
  • Is ignored when hstsDisabled is true
  • Cannot be set in conjunction with hstsMaxAge or hstsIncludeSubdomainsDisabled
max-age=31536000

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