This section discusses Spring Security’s Cross Site Request Forgery (CSRF) support for WebFlux environments.
Using Spring Security CSRF Protection
The steps to using Spring Security’s CSRF protection are outlined below:
Use Proper HTTP Verbs
The first step to protecting against CSRF attacks is to ensure your website uses proper HTTP verbs. This is covered in detail in Safe Methods Must be Read-only.
Configure CSRF Protection
The next step is to configure Spring Security’s CSRF protection within your application. By default, Spring Security’s CSRF protection is enabled, but you may need to customize the configuration. The next few subsections cover a few common customizations.
Custom CsrfTokenRepository
By default, Spring Security stores the expected CSRF token in the WebSession
by using WebSessionServerCsrfTokenRepository
.
Sometimes, you may need to configure a custom ServerCsrfTokenRepository
.
For example, you may want to persist the CsrfToken
in a cookie to support a JavaScript-based application.
By default, the CookieServerCsrfTokenRepository
writes to a cookie named XSRF-TOKEN
and read its from a header named X-XSRF-TOKEN
or the HTTP _csrf
parameter.
These defaults come from AngularJS
You can configure CookieServerCsrfTokenRepository
in Java Configuration:
-
Java
-
Kotlin
@Bean
public SecurityWebFilterChain springSecurityFilterChain(ServerHttpSecurity http) {
http
// ...
.csrf(csrf -> csrf.csrfTokenRepository(CookieServerCsrfTokenRepository.withHttpOnlyFalse()))
return http.build();
}
@Bean
fun springSecurityFilterChain(http: ServerHttpSecurity): SecurityWebFilterChain {
return http {
// ...
csrf {
csrfTokenRepository = CookieServerCsrfTokenRepository.withHttpOnlyFalse()
}
}
}
The preceding sample explicitly sets |
Disable CSRF Protection
By default, CSRF protection is enabled. However, you can disable CSRF protection if it makes sense for your application.
The Java configuration below will disable CSRF protection.
-
Java
-
Kotlin
@Bean
public SecurityWebFilterChain springSecurityFilterChain(ServerHttpSecurity http) {
http
// ...
.csrf(csrf -> csrf.disable()))
return http.build();
}
@Bean
fun springSecurityFilterChain(http: ServerHttpSecurity): SecurityWebFilterChain {
return http {
// ...
csrf {
disable()
}
}
}
Configure ServerCsrfTokenRequestHandler
Spring Security’s CsrfWebFilter
exposes a Mono<CsrfToken>
as a ServerWebExchange
attribute named org.springframework.security.web.server.csrf.CsrfToken
with the help of a ServerCsrfTokenRequestHandler
.
In 5.8, the default implementation was ServerCsrfTokenRequestAttributeHandler
, which simply makes the Mono<CsrfToken>
available as an exchange attribute.
As of 6.0, the default implementation is XorServerCsrfTokenRequestAttributeHandler
, which provides protection for BREACH (see gh-4001).
If you wish to disable BREACH protection of the CsrfToken
and revert to the 5.8 default, you can configure ServerCsrfTokenRequestAttributeHandler
using the following Java configuration:
-
Java
-
Kotlin
@Bean
public SecurityWebFilterChain springSecurityFilterChain(ServerHttpSecurity http) {
http
// ...
.csrf(csrf -> csrf
.csrfTokenRequestHandler(new ServerCsrfTokenRequestAttributeHandler())
)
return http.build();
}
@Bean
fun springSecurityFilterChain(http: ServerHttpSecurity): SecurityWebFilterChain {
return http {
// ...
csrf {
csrfTokenRequestHandler = ServerCsrfTokenRequestAttributeHandler()
}
}
}
Include the CSRF Token
For the synchronizer token pattern to protect against CSRF attacks, we must include the actual CSRF token in the HTTP request. It must be included in a part of the request (a form parameter, an HTTP header, or other option) that is not automatically included in the HTTP request by the browser.
We’ve seen that the Mono<CsrfToken>
is exposed as a ServerWebExchange
attribute.
This means that any view technology can access the Mono<CsrfToken>
to expose the expected token as either a form or a meta tag.
If your view technology does not provide a simple way to subscribe to the Mono<CsrfToken>
, a common pattern is to use Spring’s @ControllerAdvice
to expose the CsrfToken
directly.
The following example places the CsrfToken
on the default attribute name (_csrf
) used by Spring Security’s CsrfRequestDataValueProcessor to automatically include the CSRF token as a hidden input:
CsrfToken
as @ModelAttribute
-
Java
-
Kotlin
@ControllerAdvice
public class SecurityControllerAdvice {
@ModelAttribute
Mono<CsrfToken> csrfToken(ServerWebExchange exchange) {
Mono<CsrfToken> csrfToken = exchange.getAttribute(CsrfToken.class.getName());
return csrfToken.doOnSuccess(token -> exchange.getAttributes()
.put(CsrfRequestDataValueProcessor.DEFAULT_CSRF_ATTR_NAME, token));
}
}
@ControllerAdvice
class SecurityControllerAdvice {
@ModelAttribute
fun csrfToken(exchange: ServerWebExchange): Mono<CsrfToken> {
val csrfToken: Mono<CsrfToken>? = exchange.getAttribute(CsrfToken::class.java.name)
return csrfToken!!.doOnSuccess { token ->
exchange.attributes[CsrfRequestDataValueProcessor.DEFAULT_CSRF_ATTR_NAME] = token
}
}
}
Fortunately, Thymeleaf provides integration that works without any additional work.
Form URL Encoded
To post an HTML form, the CSRF token must be included in the form as a hidden input. The following example shows what the rendered HTML might look like:
<input type="hidden"
name="_csrf"
value="4bfd1575-3ad1-4d21-96c7-4ef2d9f86721"/>
Next, we discuss various ways of including the CSRF token in a form as a hidden input.
Automatic CSRF Token Inclusion
Spring Security’s CSRF support provides integration with Spring’s RequestDataValueProcessor
through its CsrfRequestDataValueProcessor
.
For CsrfRequestDataValueProcessor
to work, the Mono<CsrfToken>
must be subscribed to and the CsrfToken
must be exposed as an attribute that matches DEFAULT_CSRF_ATTR_NAME
.
Fortunately, Thymeleaf takes care of all the boilerplate for you by integrating with RequestDataValueProcessor
to ensure that forms that have an unsafe HTTP method (POST) automatically include the actual CSRF token.
CsrfToken Request Attribute
If the other options for including the actual CSRF token in the request do not work, you can take advantage of the fact that the Mono<CsrfToken>
is exposed as a ServerWebExchange
attribute named org.springframework.security.web.server.csrf.CsrfToken
.
The following Thymeleaf sample assumes that you expose the CsrfToken
on an attribute named _csrf
:
<form th:action="@{/logout}"
method="post">
<input type="submit"
value="Log out" />
<input type="hidden"
th:name="${_csrf.parameterName}"
th:value="${_csrf.token}"/>
</form>
Ajax and JSON Requests
If you use JSON, you cannot submit the CSRF token within an HTTP parameter. Instead, you can submit the token within a HTTP header.
In the following sections, we discuss various ways of including the CSRF token as an HTTP request header in JavaScript-based applications.
Meta Tags
An alternative pattern to exposing the CSRF in a cookie is to include the CSRF token within your meta
tags.
The HTML might look something like this:
<html>
<head>
<meta name="_csrf" content="4bfd1575-3ad1-4d21-96c7-4ef2d9f86721"/>
<meta name="_csrf_header" content="X-CSRF-TOKEN"/>
<!-- ... -->
</head>
<!-- ... -->
Once the meta tags contain the CSRF token, the JavaScript code can read the meta tags and include the CSRF token as a header. If you use jQuery, you could read the meta tags with the following code:
$(function () {
var token = $("meta[name='_csrf']").attr("content");
var header = $("meta[name='_csrf_header']").attr("content");
$(document).ajaxSend(function(e, xhr, options) {
xhr.setRequestHeader(header, token);
});
});
The following sample assumes that you expose the CsrfToken
on an attribute named _csrf
.
The following example does this with Thymeleaf:
<html>
<head>
<meta name="_csrf" th:content="${_csrf.token}"/>
<!-- default header name is X-CSRF-TOKEN -->
<meta name="_csrf_header" th:content="${_csrf.headerName}"/>
<!-- ... -->
</head>
<!-- ... -->
The preceding sample explicitly sets |
CSRF Considerations
There are a few special considerations to consider when implementing protection against CSRF attacks. This section discusses those considerations as it pertains to WebFlux environments. See CSRF Considerations for a more general discussion.
Logging In
You should require CSRF for login requests to protect against forged login attempts. Spring Security’s WebFlux support automatically does this.
Logging Out
You should require CSRF for logout requests to protect against forging logout attempts.
By default, Spring Security’s LogoutWebFilter
only processes only HTTP post requests.
This ensures that logout requires a CSRF token and that a malicious user cannot forcibly log out your users.
The easiest approach is to use a form to log out. If you really want a link, you can use JavaScript to have the link perform a POST (maybe on a hidden form). For browsers with JavaScript that is disabled, you can optionally have the link take the user to a logout confirmation page that performs the POST.
If you really want to use HTTP GET with logout, you can do so, but remember that doing so is generally not recommended.
For example, the following Java Configuration logs out when the /logout
URL is requested with any HTTP method:
-
Java
-
Kotlin
@Bean
public SecurityWebFilterChain springSecurityFilterChain(ServerHttpSecurity http) {
http
// ...
.logout(logout -> logout.requiresLogout(new PathPatternParserServerWebExchangeMatcher("/logout")))
return http.build();
}
@Bean
fun springSecurityFilterChain(http: ServerHttpSecurity): SecurityWebFilterChain {
return http {
// ...
logout {
requiresLogout = PathPatternParserServerWebExchangeMatcher("/logout")
}
}
}
CSRF and Session Timeouts
By default, Spring Security stores the CSRF token in the WebSession
.
This arrangement can lead to a situation where the session expires, which means that there is not an expected CSRF token to validate against.
We have already discussed general solutions to session timeouts. This section discusses the specifics of CSRF timeouts as it pertains to the WebFlux support.
You can change storage of the expected CSRF token to be in a cookie. For details, see the Custom CsrfTokenRepository section.
Multipart (file upload)
We have already discussed how protecting multipart requests (file uploads) from CSRF attacks causes a chicken and the egg problem. This section discusses how to implement placing the CSRF token in the body and url within a WebFlux application.
For more information about using multipart forms with Spring, see the Multipart Data section of the Spring reference. |
Place CSRF Token in the Body
We have already discussed the trade-offs of placing the CSRF token in the body.
In a WebFlux application, you can do so with the following configuration:
-
Java
-
Kotlin
@Bean
public SecurityWebFilterChain springSecurityFilterChain(ServerHttpSecurity http) {
http
// ...
.csrf(csrf -> csrf.tokenFromMultipartDataEnabled(true))
return http.build();
}
@Bean
fun springSecurityFilterChain(http: ServerHttpSecurity): SecurityWebFilterChain {
return http {
// ...
csrf {
tokenFromMultipartDataEnabled = true
}
}
}
Include CSRF Token in URL
We have already discussed the trade-offs of placing the CSRF token in the URL.
Since the CsrfToken
is exposed as an ServerHttpRequest
request attribute, we can use that to create an action
with the CSRF token in it.
An example with Thymeleaf is shown below:
<form method="post"
th:action="@{/upload(${_csrf.parameterName}=${_csrf.token})}"
enctype="multipart/form-data">
HiddenHttpMethodFilter
We have already discussed overriding the HTTP method.
In a Spring WebFlux application, overriding the HTTP method is done by using HiddenHttpMethodFilter
.
For more information about using multipart forms with Spring, see the Multipart Data section of the Spring reference. |