I upgraded my project to Spring Boot 3 and Spring Security 6, but since the upgrade the CSRF protection is no longer working.

I'm using the following configuration:

public SecurityFilterChain securityFilterChain(HttpSecurity http) throws Exception {
    return http
        .authorizeHttpRequests(authorize -> authorize
        .sessionManagement(session -> session
        .csrf(csrf -> csrf

public UserDetailsService userDetailsService() {
     UserDetails user = User.builder().username("user").password("{noop}test").authorities("user").build();
     return new InMemoryUserDetailsManager(user);

On my webpage I only have a single button:

<button id="test">Test CSRF</button>

And the following JavaScript code:

document.querySelector("#test").addEventListener('click', async function() {
  // This code reads the cookie from the browser
  // Source: https://stackoverflow.com/a/25490531
  const csrfToken = document.cookie.match('(^|;)\\s*XSRF-TOKEN\\s*=\\s*([^;]+)')?.pop();
  const result = await fetch('./api/foo', {
    method: 'POST',
    headers: {
      'X-XSRF-Token': csrfToken

In Spring Boot 2.7.x this setup works fine, but if I upgrade my project to Spring Boot 3 and Spring Security 6, I get a 403 error with the following debug logs:

15:10:51.858 D         o.s.security.web.csrf.CsrfFilter: Invalid CSRF token found for http://localhost:8080/api/foo
15:10:51.859 D   o.s.s.w.access.AccessDeniedHandlerImpl: Responding with 403 status code

My guess is that this is related to the changes for #4001. However I don't understand what I have to change to my code or if I have to XOR something.

I did check if it was due to the new deferred loading of the CSRF token, but even if I click the button a second time (and verifying that the XSRF-TOKEN cookie is set), it still doesn't work.

  • You must ensure that the webpage with the test button on it is loaded from the server each time with a fresh XSRF-TOKEN cookie, and is not taken from the browser cache (with an expired cookie). Check the network tab in the browser console whether this is the case. Nov 19, 2022 at 14:19
  • 1
    @HeikoTheißen I did that. From what I can see during debugging is that the new XOR CSRF request handler in Spring Security expects an XOR'ed CSRF token. But on the other hand, the cookie CSRF repository doesn't return an XOR'ed CSRF token but a normal one. So when I debug the CSRF handler, I see that they check the byte length of the two tokens (the expected one and the one passed as a header) and they don't match so the handler returns null and the call fails.
    – g00glen00b
    Nov 19, 2022 at 15:52
  • (That's also the reason why it works again if I change the CSRF handler back to the original one, as seen in the answers by both myself and Matt.)
    – g00glen00b
    Nov 19, 2022 at 15:54
  • I have the same problem in my app, the logout doesn't work for the same reason XSRF-TOKEN is absent from the cookie. I added this configuration CsrfTokenRequestAttributeHandler requestHandler = new CsrfTokenRequestAttributeHandler(); requestHandler.setCsrfRequestAttributeName(null); http.csrf() .csrfTokenRepository(getCookieCsrfTokenRepository()) .csrfTokenRequestHandler(requestHandler) Now the token exists in all request cookies, but the problem is that X-XSS-Protection is 0 , but should be 1; mode=block Do you have a solution for that? Jan 23 at 8:43

9 Answers 9


I have recently added a section to the reference documentation for migrating to 5.8 (in preparation to 6.0) that demonstrates a solution for this issue.

TL;DR See I am using AngularJS or another Javascript framework.

The issue here is that AngularJS (and your example code above) are using the XSRF-TOKEN cookie directly. Prior to Spring Security 6, this was fine. But unfortunately, the cookie is actually used to persist the raw token, and with Spring Security 6, the raw token is not accepted by default. Ideally, front-end frameworks would be able to use another source to get the token, such as an X-XSRF-TOKEN response header.

However, even with Spring Security 6, such a response header is not provided out of the box, though it could be a possible enhancement worth suggesting. I have not yet suggested such an enhancement since Javascript frameworks would not be able to use it by default.

For now, you will need to work around the problem by configuring Spring Security 6 to accept raw tokens, as suggested in the section I linked above. The suggestion allows raw tokens to be submitted, but continues to use the XorCsrfTokenRequestAttributeHandler to make available the hashed version of the request attribute (e.g. request.getAttribute(CsrfToken.class.getName()) or request.getAttribute("_csrf")), in case anything renders the CSRF token to an HTML response which could be vulnerable to BREACH.

I would recommend finding a reputable source for researching BREACH more thoroughly, but unfortunately I cannot claim to be such a source.

I would also recommend keeping an eye on Spring Security issues for now, as things may change quickly once the community begins consuming Spring Security 6. You can use this filter as a possible way to keep track of CSRF-related issues.

  • Thanks for the response, but I fail to understand the implications. Given that the CSRF Token is never rendered to a HTML page it seems like I don't really need the new implementation anyway, right? Personally I don't get the feature as a whole. How can this "per request" CSRF Token even be generated in a world of multiple parallel calls? It's not like you can create a new one once the old one is handed in, since already running parallel requests can not now about it.
    – Mario B
    Nov 27, 2022 at 8:09
  • @MarioB, the underlying csrf token does not change per request, but is encoded with random bytes so it can provide out-of-the-box protection for BREACH. If you don't require this protection, you can certainly revert to normal CSRF protection using CsrfTokenRequestAttributeHandler. Nov 28, 2022 at 14:55
  • Was there a change about the creation of csrf token too? After upgrading, I now see the first protected request failing, only during the failed request the csrf token is created and subsequent requests succeed.
    – Felix
    Jan 5 at 1:52
  • Sorry @Felix, I think I'd need more details to fully answer your question. Mind opening a new SO question? Jan 5 at 15:46
  • @Felix My guess is that it's due to the deferred loading of the CSRF token. Check the chapter before the BREACH attack chapter in the documentation linked by Steve.
    – g00glen00b
    Jan 5 at 23:34

We have an angular angular application with spring-boot. We tried to migrate to spring-boot 3 (Spring Security 6). And we faced the same problem.

We tried many methods including some of the solutions from this question's answer but we failed. After spending time we found the solution from the spring security doc.

What we need to do is, set the CsrfRequestAttributeName to null in the configuration.


What actually happened:
The CsrfToken will be loaded on each request in Spring Security version 5 by default. This means that in a typical setup, every request—even those that are not necessary—must have the HttpSession read.

The default behavior of Spring Security 6 is to postpone looking up the CsrfToken until it is required.

Our application needs the token every time. So, We need to opt into the 5.8 defaults.

The example code is given below (from doc):

DefaultSecurityFilterChain springSecurity(HttpSecurity http) throws Exception {
    CsrfTokenRequestAttributeHandler requestHandler = new CsrfTokenRequestAttributeHandler();
    // set the name of the attribute the CsrfToken will be populated on
        // ...
        .csrf((csrf) -> csrf
    return http.build();
  • 1
    As far as I understand this solution, it is not using XorCsrfTokenRequestAttributeHandler and, as so, is exposed to BREACH. What about using new XorCsrfTokenRequestAttributeHandler() and then csrfTokenRequestHandler(requestHandler::handle) as instructed in the doc linked in the accepted answer?
    – ch4mp
    Mar 12 at 23:34
  • @ch4mp and others my use case and configuration is exactly as described in this answer. CsrfTokenRequestAttributeHandler works, but when i just replace it with XorCsrfTokenRequestAttributeHandler in the above snippet, csrf doesn't work. what am i missing?
    – keemahs
    Oct 28 at 12:52
  • 1
    Maybe you didn't configured the required filter. Also, In my answer below, I'm not passing the all XorCsrfTokenRequestAttributeHandler. I just give a reference to its handle method. You could give a try to my starter which auto configures the handler and the filter. If you don't want to use it, you can still read the source: github.com/ch4mpy/spring-addons/blob/…
    – ch4mp
    Oct 29 at 6:36
  • @keemahs XorCsrfTokenRequestAttributeHandler probably won't work out of the box as it expects encrypted tokens.
    – tschumann
    Nov 28 at 23:31

The documentation pointed by @steve-reisenberg is adapted to servlets (and is now outdated, the new version is there)

Here is the adaptation for webflux apps (like spring-cloud-gateway):

http.csrf(csrf -> csrf
    .csrfTokenRequestHandler(new SpaServerCsrfTokenRequestHandler()));


 * Adapted from https://docs.spring.io/spring-security/reference/servlet/exploits/csrf.html#csrf-integration-javascript-spa
static final class SpaServerCsrfTokenRequestHandler extends ServerCsrfTokenRequestAttributeHandler {
    private final ServerCsrfTokenRequestAttributeHandler delegate = new XorServerCsrfTokenRequestAttributeHandler();

    public void handle(ServerWebExchange exchange, Mono<CsrfToken> csrfToken) {
         * Always use XorCsrfTokenRequestAttributeHandler to provide BREACH protection of the CsrfToken when it is rendered in the response body.
        this.delegate.handle(exchange, csrfToken);

    public Mono<String> resolveCsrfTokenValue(ServerWebExchange exchange, CsrfToken csrfToken) {
        final var hasHeader = exchange.getRequest().getHeaders().get(csrfToken.getHeaderName()).stream().filter(StringUtils::hasText).count() > 0;
        return hasHeader ? super.resolveCsrfTokenValue(exchange, csrfToken) : this.delegate.resolveCsrfTokenValue(exchange, csrfToken);

WebFilter csrfCookieWebFilter() {
    return (exchange, chain) -> {
        exchange.getAttributeOrDefault(CsrfToken.class.getName(), Mono.empty()).subscribe();
        return chain.filter(exchange);

This should protect against both CSRF and BREACH (as opposed to the answers referencing (Server)CsrfTokenRequestAttributeHandler which are exposed to BREACH).


As of Spring Security 6.0.1 and Spring Boot 3.0.2, following the instructions from the accepted answer fails on the first request but succeeds thereafter. The reason it fails on the first request is because the token's cookie never gets created until a protected method is invoked. This is because the method CookieCsrfTokenRepository.saveToken only gets called when the CsrfFilter calls deferredCsrfToken.get(), which only gets called on POST, PUT, PATCH, and DELETE methods. Unfortunately, under the current implementation, that means the client has to expect a failure on the first request. Under previous versions of Spring Security, we used to be able to count on the token's cookie being included in the response to GET, HEAD, or OPTIONS requests.

  • Any ideas on how to deal with this first failure? Are we expected to do some form of innocuous POST to get past this? Mar 10 at 14:27

I currently worked around the problem by disabling the XorCsrfTokenRequestAttributeHandler like this:

.csrf(csrf -> csrf
    // Added this:
    .csrfTokenRequestHandler(new CsrfTokenRequestAttributeHandler()))

However, this means that I'm likely vulnerable against the BREACH attack.

  • Yes, you are. The accepted answer (posted after yours) references a solution protecting against both CSRF and BREACH for servlets (like your app is, obviously) and I just posted the equivalent for reactive apps.
    – ch4mp
    Mar 12 at 23:29

Thanks for this! I was able to use it to solve a similar project in a JHipster + Spring Boot 3 app. However, it seems the class name might've changed recently. Here's what I had to use:

.csrf(csrf -> csrf
    .csrfTokenRequestHandler(new ServerCsrfTokenRequestAttributeHandler()))
  • Thanks for the information. I only took a quick look but that appears to be the reactive counterpart to the CsrfTokenRequestAttributeHandler class. I'm just not very experienced in security-stuff but I guess it's less secure than XorCsrfTokenRequestAttributeHandler (or the reactive XorServerCsrfTokenRequestAttributeHandler counterpart) so I wonder if there's a solution that utilizes the XOR-logic.
    – g00glen00b
    Nov 18, 2022 at 21:12
  • This is actually disabling the XorCsrfTokenRequestAttributeHandler and exposing to BREACH attacks.
    – ch4mp
    Mar 12 at 23:00
  • currently XorCsrfTokenRequestAttributeHandler cannot do test. with(csrf()) doesn't support XorCsrfTokenRequestAttributeHandler
    – jinseok.oh
    Oct 26 at 15:20
  • @jinseok.oh this only applies to the servlet implementation: SecurityMockServerConfigurers.csrf() works with XorServerCsrfTokenRequestAttributeHandler in reactive applications (like spring-cloud-gateway). I opened an issue for with(csrf()) used with XorCsrfTokenRequestAttributeHandler . As you had found this problem, maybe could you have considered opening such an issue yourself?
    – ch4mp
    Nov 10 at 10:57
  • @ch4mp github.com/spring-projects/spring-security/issues/12774 spring security dosn't support XorServerCsrfTokenRequestAttributeHandler to test
    – jinseok.oh
    Nov 11 at 18:10

Using the accepted answer breaks tests that require CSRF using Spring Security's SecurityMockMvcRequestPostProcessors.crsf() I can either only use CsrfTokenRequestAttributeHandler, or XorCsrfTokenRequestAttributeHandler in Spring Boot's CSRF configuration, both give positive test results.

Using the accepted answer makes Angular work but breaks tests.

So the only workaround at the moment seems to be using CsrfTokenRequestAttributeHandler and so effectively disabling Spring Security's BREACH-protection.


I have created an issue for a different scenario where you need to send the CSRF token with a header through JavaScript which wasn't clear in the documentation. If you have a multi-page app like one where you mostly mount React components inside the HTML, it might be useful for you.

Basically what you need is to use X-CSRF-TOKEN header using the default CSRF configuration.



This is what it works for me

CookieCsrfTokenRepository tokenRepository = CookieCsrfTokenRepository.withHttpOnlyFalse();
XorCsrfTokenRequestAttributeHandler delegate = new XorCsrfTokenRequestAttributeHandler();
// set the name of the attribute the CsrfToken will be populated on
// Use only the handle() method of XorCsrfTokenRequestAttributeHandler and the
// default implementation of resolveCsrfTokenValue() from CsrfTokenRequestHandler
CsrfTokenRequestHandler requestHandler = delegate::handle;


.csrf((csrf) -> csrf

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