I have a problem with logout in spring security and oauth2
We are securing out REST services using spring security OAuth2.The token and rest-api endpoints are stateless and do not need a session.I need my authserver only one time login verification,when i call the logout service in rest client it is showing 200 response but not removing the authorization.when i enter the user name and password agin same user should be logging.but not logouting.i cleared the context also.
here is my controller
`#Path("oauth2/logout")
public class LogoutImpl implements LogoutSuccessHandler{
private TokenStore tokenStore;
#Autowired
public LogoutImpl(TokenStore tokenStore) {
this.tokenStore = tokenStore;
}
public void setTokenStore(TokenStore tokenStore) {
this.tokenStore = tokenStore;
}
#Override
public void onLogoutSuccess(HttpServletRequest request, HttpServletResponse response, Authentication authentication)
throws IOException, ServletException {
removeaccess(request);
SecurityContextHolder.clearContext();
response.getOutputStream().write("\n\tYou Have Logged Out successfully.".getBytes());}
public void removeaccess(HttpServletRequest req) {
String tokens = req.getHeader("Authorization");
String value = tokens.substring(tokens.indexOf(" ")).trim();
OAuth2AccessToken token = tokenStore.readAccessToken(value.split(" ")[0]);
tokenStore.removeAccessToken(token);
System.out.println("\n\tAccess Token Removed Successfully!!!!!!!!");
}}
`
I see that you are using Authorization header and I presume the token to be a JWT. There is no concept of removing or revoking a JWT. It has to expire by itself. There are people with views who would point that to be a disadvantage when the server cannot revoke a token and cannot be used for enterprise applications.
When the same token is being used by client in another API and server analyses the token, and if it is within expiry time and untampered it will be validated to TRUE.
However the situation would be different and answer would be irrelevant if you arent using JWT.
Related
I'm trying to build an Identity Provider using Spring authorization-server that third party applications are going to use for FIM (federated identity management).
We want each OAuth client to require authentication (if a user tries to login with a different client they would need to authenticate for each client).
Out of the box the flow looks like this:
So there's 2 issues.
The /oauth2/authorize endpoint just checks whether or not the sessions principal is authenticated, it doesn't care or know which client the principal was meant for.
There's just a single /login endpoint, so during authentication it doesn't know which client is used.
My best bet here is that I should:
Make the oauth2/authorize endpoint redirection to /login include the query parameter client_id
Create a custom AuthenticationFilter that also adds the client_id to the User principal
Override the authorizationRequestConverter for the oauth2/authorize endpoint and validate that the client in the request is the same as the client stored on the authenticated principal
Am I missing anything or do anyone know of a simpler way of doing this?
Based on your last comment, it seems one possibility is to simply require authentication every time, or at least every time an authorization is requested. In that case, you could clear out the authentication after the authorization code is issued to the client, using a Filter. This doesn't seem ideal and will result in a poor user experience, but may achieve your requirement.
#Configuration
#EnableWebSecurity
public class SecurityConfig {
#Bean
#Order(1)
public SecurityFilterChain authorizationServerSecurityFilterChain(HttpSecurity http)
throws Exception {
OAuth2AuthorizationServerConfiguration.applyDefaultSecurity(http);
// ...
// Add filter to remove the SecurityContext after successful authorization
http.addFilterAfter(new RemoveSecurityContextOnAuthorizationFilter(), LogoutFilter.class);
return http.build();
}
private static final class RemoveSecurityContextOnAuthorizationFilter extends OncePerRequestFilter {
private SecurityContextHolderStrategy securityContextHolderStrategy =
SecurityContextHolder.getContextHolderStrategy();
private final LogoutHandler logoutHandler = new CompositeLogoutHandler(
new CookieClearingLogoutHandler("JSESSIONID"),
new SecurityContextLogoutHandler()
);
#Override
protected void doFilterInternal(HttpServletRequest request, HttpServletResponse response, FilterChain filterChain) throws ServletException, IOException {
try {
filterChain.doFilter(request, response);
} finally {
String locationHeader = response.getHeader(HttpHeaders.LOCATION);
if (locationHeader != null) {
UriComponents uriComponents = UriComponentsBuilder.fromUriString(locationHeader).build();
if (uriComponents.getQueryParams().containsKey("code")) {
Authentication authentication = this.securityContextHolderStrategy.getContext().getAuthentication();
this.logoutHandler.logout(request, response, authentication);
}
}
}
}
}
// ...
}
Problem: My java springboot application receives JWT token from external system to authenticate a user with their external identity management provider which returns the user details upon success.
Once userdetails is received, the backend application must create a redirect url for the external system end user. The redirect url will land the user on my angular application to show the landing page.
Here on, all the rest api's should be allowed through an http session.
In case the user tries to access the rest api's directly, he should get an Authentication error.
How can we achieve authorization in this case since authentication was not done by my spring boot application. Can we create custom Spring session using spring security and manually put userDetails in the SecurityContext?
I am currently dealing JWT tokens obtained from Google. Including Google, pretty much all authorization servers provide rest APIs such as GET /userInfo, where you can carry the JWT token in the request header or in the URL as a GET parameter, and then verify if the JWT token is valid, non-expired, etc.
Because verifying a JWT token is usually stateless, these APIs generally come with a generous limit and you can call them as many times as you need.
I assume that you have Spring security integrated and then you can add a filter. In this way, every request has to be verified for its token in the header.
#Service
public class TokenAuthenticationFilter extends OncePerRequestFilter {
#Override
protected void doFilterInternal(HttpServletRequest request, HttpServletResponse response, FilterChain filterChain) throws ServletException, IOException {
try {
String header = request.getHeader("Authorization");
RestTemplate restTemplate = new RestTemplate(); // If you use Google SDK, xxx SDK, you do not have to use restTemplate
String userInfoUrl = "https://example.com/api/userInfo";
HttpHeaders headers = new HttpHeaders();
headers.set("Authorization", header);
HttpEntity entity = new HttpEntity(headers);
ResponseEntity<String> response = restTemplate.exchange(
userInfoUrl, HttpMethod.GET, entity, String.class, param);
User user = response.getBody(); // Get your response and figure out if the Token is valid.
// If the token is valid? Check it here....
UsernamePasswordAuthenticationToken authentication = new UsernamePasswordAuthenticationToken(user, null, user.getAuthorities());
authentication.setDetails(new WebAuthenticationDetailsSource().buildDetails(request));
SecurityContextHolder.getContext().setAuthentication(authentication);
} catch (Exception ex) {
logger.error("Could not set user authentication in security context", ex);
}
filterChain.doFilter(request, response);
}
}
Spring Boot 2 with Spring Security 5 can be configured to use an openID connect ID provider for authentication.
I managed to setup up my project just by configuring Spring Security - that works fine with all kinds of perfectly preconfigured security mechanisms like mitigation of session fixation.
But it seems that Spring Security does not refresh the tokens (which are stored in the session) by itself when they are expired.
Is there a setting for that or do I have to care for the refresh myself?
Update: Spring Boot 2.1 has been released, so it is time to revisit this problem. I still have no clue if the accessToken can now be automatically refreshed or if I have to write code for doing so...
According to the documentation,
https://docs.spring.io/spring-security/site/docs/current/reference/htmlsingle/#webclient
When using a WebClient configured correctly, as given in the documentation it will automatically be refreshed.
Spring Security will automatically refresh expired tokens (if a refresh token is present)
This is also supported by the features matrix that refresh tokens are supported.
https://github.com/spring-projects/spring-security/wiki/OAuth-2.0-Features-Matrix
There was an older blog on Spring Security 5 that gives you access to beans that you could do this manually,
Authentication authentication =
SecurityContextHolder
.getContext()
.getAuthentication();
OAuth2AuthenticationToken oauthToken =
(OAuth2AuthenticationToken) authentication;
There will be an OAuth2AuthorizedClientService automatically configured as a bean in the Spring application context, so you’ll only need to inject it into wherever you’ll use it.
OAuth2AuthorizedClient client =
clientService.loadAuthorizedClient(
oauthToken.getAuthorizedClientRegistrationId(),
oauthToken.getName());
String refreshToken = client.getRefreshToken();
And, failing to find it right now, but I assume as part of the OAuth2AuthorizedClientExchangeFilterFunction has the calls to do a refresh.
According to https://github.com/spring-projects/spring-security/issues/6742 it seems that the token is intentionally not refreshed:
An ID Token typically comes with an expiration date. The RP MAY
rely on it to expire the RP session.
Spring does not. There are two enhancements mentioned at the end which should solve some of the refresh issues - both are still open.
As a workaround, I implemented a GenericFilterBean which checks the token and clears the authentication in the current security context. Thus a new token is needed.
#Configuration
public class RefreshTokenFilterConfig {
#Bean
GenericFilterBean refreshTokenFilter(OAuth2AuthorizedClientService clientService) {
return new GenericFilterBean() {
#Override
public void doFilter(ServletRequest servletRequest, ServletResponse servletResponse, FilterChain filterChain) throws IOException, ServletException {
Authentication authentication = SecurityContextHolder.getContext().getAuthentication();
if (authentication != null && authentication instanceof OAuth2AuthenticationToken) {
OAuth2AuthenticationToken token = (OAuth2AuthenticationToken) authentication;
OAuth2AuthorizedClient client =
clientService.loadAuthorizedClient(
token.getAuthorizedClientRegistrationId(),
token.getName());
OAuth2AccessToken accessToken = client.getAccessToken();
if (accessToken.getExpiresAt().isBefore(Instant.now())) {
SecurityContextHolder.getContext().setAuthentication(null);
}
}
filterChain.doFilter(servletRequest, servletResponse);
}
};
}
}
Additionally I had to add the filter to the security config:
#Bean
public WebSecurityConfigurerAdapter webSecurityConfigurer(GenericFilterBean refreshTokenFilter) {
return new WebSecurityConfigurerAdapter() {
#Override
protected void configure(HttpSecurity http) throws Exception {
http
.addFilterBefore(refreshTokenFilter, AnonymousAuthenticationFilter.class)
Implemented with spring-boot-starter-parent and dependencies in version 2.2.7.RELEASE:
spring-boot-starter-web
spring-boot-starter-security
spring-boot-starter-oauth2-client
I appreciate opinions about this workaround since I'm still not sure if such an overhead is really needed in Spring Boot.
even a bounty of 100 rep points did not yield an answer. So I guess there is currently no mechanism implemented to automatically refresh the access token with Spring Security.
A valid alternative seems to use the spring boot keycloak adapter which is capable of refreshing the token.
I'm working with a Spring Boot + Spring Security OAuth2 application that I believe was inspired by examples from Dave Syer. The application is configured to be an OAuth2 authorization server, with a single public client using the Resource Owner Password Credentials flow. A successful token is configured to be a JWT.
The public Angular client sends a POST request to /oauth/token with a basic auth header containing the client id and secret (this was the easiest way to get the client to authenticate, even though the secret is not private). The body of the request contains username, password, and grant type of "password".
In addition to being an authentication server, the application is a RESTful resource server for users, teams, and organizations.
I'm trying to add an additional SSO authentication flow using Spring Social. I've got Spring Social configured to authenticate through external providers via /auth/[provider]; however, following requests no longer have the SecurityContext correctly set. Possibly, Spring Security OAuth server or client is overriding the SecurityContext?
If I can get the SecurityContext correctly set after the Spring Social flow, I've got a new TokenGranter that allows a new grant type of "social" that would check the SecurityContextHolder for the pre authenticated user.
I'm interested in both a solution to my specific problem with the SecurityContext (I believe it's an issue with Spring OAuth + Social integration), or a different approach for authenticating with external providers and getting a valid JWT from our own auth server.
Thanks!
I had a similar problem on a JHipster-generated web application. Finally I decided to go with the SocialAuthenticationFilter option from Spring Social (via the SpringSocialConfigurer). After a successful social login, the server automatically generates and returns the "own" access token via redirection to the client app.
Here's my try:
#Configuration
#EnableResourceServer
protected static class ResourceServerConfiguration extends ResourceServerConfigurerAdapter implements EnvironmentAware {
//...
#Inject
private AuthorizationServerTokenServices authTokenServices;
#Override
public void configure(HttpSecurity http) throws Exception {
SpringSocialConfigurer socialCfg = new SpringSocialConfigurer();
socialCfg
.addObjectPostProcessor(new ObjectPostProcessor<SocialAuthenticationFilter>() {
#SuppressWarnings("unchecked")
public SocialAuthenticationFilter postProcess(SocialAuthenticationFilter filter){
filter.setAuthenticationSuccessHandler(
new SocialAuthenticationSuccessHandler(
authTokenServices,
YOUR_APP_CLIENT_ID
)
);
return filter;
}
});
http
//... lots of other configuration ...
.apply(socialCfg);
}
}
And the SocialAuthenticationSuccessHandler class:
public class SocialAuthenticationSuccessHandler implements AuthenticationSuccessHandler {
public static final String REDIRECT_PATH_BASE = "/#/login";
public static final String FIELD_TOKEN = "access_token";
public static final String FIELD_EXPIRATION_SECS = "expires_in";
private final Logger log = LoggerFactory.getLogger(getClass());
private final AuthorizationServerTokenServices authTokenServices;
private final String localClientId;
public SocialAuthenticationSuccessHandler(AuthorizationServerTokenServices authTokenServices, String localClientId){
this.authTokenServices = authTokenServices;
this.localClientId = localClientId;
}
#Override
public void onAuthenticationSuccess(HttpServletRequest request,
HttpServletResponse response, Authentication authentication)
throws IOException, ServletException {
log.debug("Social user authenticated: " + authentication.getPrincipal() + ", generating and sending local auth");
OAuth2AccessToken oauth2Token = authTokenServices.createAccessToken(convertAuthentication(authentication)); //Automatically checks validity
String redirectUrl = new StringBuilder(REDIRECT_PATH_BASE)
.append("?").append(FIELD_TOKEN).append("=")
.append(encode(oauth2Token.getValue()))
.append("&").append(FIELD_EXPIRATION_SECS).append("=")
.append(oauth2Token.getExpiresIn())
.toString();
log.debug("Sending redirection to " + redirectUrl);
response.sendRedirect(redirectUrl);
}
private OAuth2Authentication convertAuthentication(Authentication authentication) {
OAuth2Request request = new OAuth2Request(null, localClientId, null, true, null,
null, null, null, null);
return new OAuth2Authentication(request,
//Other option: new UsernamePasswordAuthenticationToken(authentication.getPrincipal(), "N/A", authorities)
new PreAuthenticatedAuthenticationToken(authentication.getPrincipal(), "N/A")
);
}
private String encode(String in){
String res = in;
try {
res = UriUtils.encode(in, GeneralConstants.ENCODING_UTF8);
} catch(UnsupportedEncodingException e){
log.error("ERROR: unsupported encoding: " + GeneralConstants.ENCODING_UTF8, e);
}
return res;
}
}
This way your client app will receive your web app's access token via redirection to /#/login?access_token=my_access_token&expires_in=seconds_to_expiration, as long as you set the corresponding REDIRECT_PATH_BASE in SocialAuthenticationSuccessHandler.
I hope it helps.
First, I would strongly recommend you to move away from the password grant for such a use case.
Public clients (JavaScript, installed applications) cannot keep their client secret confidential, that's why they MUST NOT be assigned one : any visitor inspecting your JavaScript code can discover the secret, and thus implement the same authentication page you have, storing your users passwords in the process.
The implicit grant has been created exactly for what you are doing.
Using a redirection-based flow has the advantage of leaving the authentication mechanism up to the authorization server, instead of having each of your applications have a piece of it : that's mostly the definition of Single Sign On (SSO).
With that said, your question is tightly related to this one I just answered : Own Spring OAuth2 server together with 3rdparty OAuth providers
To sum up the answer :
In the end, it's about how your authorization server secures the AuthorizationEndpoint : /oauth/authorize. Since your authorization server works, you already have a configuration class extending WebSecurityConfigurerAdapter that handles the security for /oauth/authorize with formLogin. That's where you need to integrate social stuff.
You simply cannot use a password grant for what you're trying to achieve, you must have your public client redirect to the authorization server. The authorization server will then redirect to the social login as its security mechanism for the /oauth/authorize endpoint.
I was starting with the good answer of above (https://stackoverflow.com/a/33963286/3351474) however with my version of Spring Security (4.2.8.RELEASE) this fails. The reason is that in org.springframework.security.access.intercept.AbstractSecurityInterceptor#authenticateIfRequired the PreAuthenticatedAuthenticationToken of the answer is not authenticated. Some GrantedAuthorities have to be passed.
In addition sharing the token in an URL parameter is not good, it should always be hidden in an HTTPs payload or header. Instead a HTML template is loaded and the token value is inserted into a ${token} placeholder field.
Here the revised version:
NOTE: The used UserDetails here is implementing org.springframework.security.core.userdetails.UserDetails
#Component
public class SocialAuthenticationSuccessHandler implements AuthenticationSuccessHandler {
#Autowired
private OAuth2TokenStore tokenStore;
#Qualifier("tokenServices")
#Autowired
private AuthorizationServerTokenServices authTokenServices;
public void onAuthenticationSuccess(HttpServletRequest request,
HttpServletResponse response, Authentication authentication)
throws IOException, ServletException {
IClient user = ((SocialUserDetails) authentication.getPrincipal()).getUser();
// registration is not finished, forward the user, a marker interface
// IRegistration is used here, remove this if there no two step approach to
// create a user from a social network
if (user instanceof IRegistration) {
response.sendRedirect(subscriberRegistrationUrl + "/" + user.getId());
}
OAuth2AccessToken token = loginUser(user);
// load a HTML template from the class path and replace the token placeholder within, the HTML should contain a redirect to the actual page, but must store the token in a safe place, e.g. for preventing CSRF in the `sessionStorage` JavaScript storage.
String html = IOUtils.toString(getClass().getResourceAsStream("/html/socialLoginRedirect.html"));
html = html.replace("${token}", token.getValue());
response.getOutputStream().write(html.getBytes(StandardCharsets.UTF_8));
}
private OAuth2Authentication convertAuthentication(Authentication authentication) {
OAuth2Request request = new OAuth2Request(null, authentication.getName(),
authentication.getAuthorities(), true, null,
null, null, null, null);
// note here the passing of the authentication.getAuthorities()
return new OAuth2Authentication(request,
new PreAuthenticatedAuthenticationToken(authentication.getPrincipal(), "N/A", authentication.getAuthorities())
);
}
/**
* Logs in a user.
*/
public OAuth2AccessToken loginUser(IClient user) {
SecurityContext securityContext = SecurityContextHolder.getContext();
UserDetails userDetails = new UserDetails(user);
Authentication authentication = new UsernamePasswordAuthenticationToken(userDetails, "N/A", userDetails.getAuthorities());
securityContext.setAuthentication(authentication);
OAuth2Authentication oAuth2Authentication = convertAuthentication(authentication);
// delete the token because the client id in the DB is calculated as hash of the username and client id (here also also identical to username), this would be identical to the
// to an existing user. This existing one can come from a user registration or a previous user with the same name.
// If a new entity with a different ID is used the stored token hash would differ and the the wrong token would be retrieved
tokenStore.deleteTokensForUserId(user.getUsername());
OAuth2AccessToken oAuth2AccessToken = authTokenServices.createAccessToken(oAuth2Authentication);
// the DB id of the created user is returned as additional data, can be
// removed if not needed
((DefaultOAuth2AccessToken) oAuth2AccessToken).setAdditionalInformation(new HashMap<>());
oAuth2AccessToken.getAdditionalInformation().put("userId", user.getId());
return oAuth2AccessToken;
}
}
Example socialLoginRedirect.html:
<!doctype html>
<html lang="en">
<head>
<meta charset="utf-8">
<title>Example App</title>
<meta http-equiv="Refresh" content="0; url=/index.html#/home"/>
</head>
<script>
window.sessionStorage.setItem('access_token', '${token}');
</script>
<body>
<p>Please follow this link.</p>
</body>
</html>
The configuration wiring in a WebSecurityConfigurerAdapter:
#Configuration
#EnableWebSecurity
#EnableWebMvc
#Import(WebServiceConfig.class)
public class AuthenticationConfig extends WebSecurityConfigurerAdapter {
#Value("${registrationUrl}")
private String registrationUrl;
#Autowired
private SocialAuthenticationSuccessHandler socialAuthenticationSuccessHandler;
#Value("${loginUrl}")
private String loginUrl;
#Override
protected void configure(HttpSecurity http) throws Exception {
List<String> permitAllUrls = new ArrayList<>();
// permit social log in
permitAllUrls.add("/auth/**");
http.authorizeRequests().antMatchers(permitAllUrls.toArray(new String[0])).permitAll();
SpringSocialConfigurer springSocialConfigurer = new SpringSocialConfigurer();
springSocialConfigurer.signupUrl(registrationUrl);
springSocialConfigurer.postFailureUrl(loginUrl);
springSocialConfigurer
.addObjectPostProcessor(new ObjectPostProcessor<SocialAuthenticationFilter>() {
#SuppressWarnings("unchecked")
public SocialAuthenticationFilter postProcess(SocialAuthenticationFilter filter){
filter.setAuthenticationSuccessHandler(socialAuthenticationSuccessHandler);
return filter;
}
});
http.apply(springSocialConfigurer);
http.logout().disable().csrf().disable();
http.requiresChannel().anyRequest().requiresSecure();
http.sessionManagement().sessionCreationPolicy(SessionCreationPolicy.STATELESS);
}
I implemented spring oauth2 to secure my rest services and additionally add social login and implicit signup for first time login . for user user you can generate the token using username and password only problem with generate the token for social user . for that you have to implement the Filter that will intercept your /oauth/token request before processing . here if you want to generate the the token for social user pass the username and facebook token , here you can use facebook token as password and generate the token for facebook user also . if facebook token updated then you have to write a db trigger also to update you token in user table .... may be it will help you
I have questions on the following areas: spring-session and spring-security.
Spring Session
I have a application protected with Spring Security through basic in-memory authentication as provided in the example sample.
I see spring is creating session id's even the authentication is not successful, meaning I am seeing x-auth-token in my response header as well in the Redis DB even if I don't supply basic authentication credential details.
How do we avoid creating sessions for authentication failures?
Spring Security
Want to use spring security to protect resources assuming spring session creates session only for the protected resources.
Assuming a Signin API (/signin - HTTP Post) validates (username & password) credentials against a third-party REST API .
Once the external API validates the credentials, how do I update the spring security context on the successful authentication?
Access to other secured resources with the x-auth-token needs to be validated and based on the information access to the secured resource should be provided.
Do we need to have Spring Security in this case or shall I use a basic filter and spring session? What is recommended?
Typically it would be best to break your questions into multiple StackOverflow questions since you are more likely to find someone that knows the answer to a single question than both.
How do we avoid creating sessions for authentication failures ?
By default Spring Security will save the last unauthenticated request to session so that after you authenticate it can automatically make the request again. For example, in a browser if you request example.com/a/b/c and are not authenticated, it will save example.com/a/b/c to the HttpSession and then have the user authenticate. After you are authenticated, it will automatically give you the result of example.com/a/b/c. This provides a nice user experience so that your users do not need to type the URL again.
In the case of a REST service this is not necessary since the client would remember which URL needs to be re-requested. You can prevent the saving by modifying the configuration to use a NullRequestCache as shown below:
protected void configure(HttpSecurity http) throws Exception {
http
.authorizeRequests()
.anyRequest().authenticated()
.and()
.requestCache()
.requestCache(new NullRequestCache())
.and()
.httpBasic();
}
You can provide custom authentication by providing your own AuthenticationProvider. For example:
import org.springframework.security.authentication.AuthenticationProvider;
import org.springframework.security.authentication.BadCredentialsException;
import org.springframework.security.authentication.UsernamePasswordAuthenticationToken;
import org.springframework.security.core.Authentication;
import org.springframework.security.core.AuthenticationException;
import org.springframework.security.core.authority.AuthorityUtils;
public class RestAuthenticationProvider implements AuthenticationProvider {
public Authentication authenticate(Authentication authentication)
throws AuthenticationException {
UsernamePasswordAuthenticationToken token = (UsernamePasswordAuthenticationToken) authentication;
String username = token.getName();
String password = (String) token.getCredentials();
// validate making REST call
boolean success = true;
// likely your REST call will return the roles for the user
String[] roles = new String[] { "ROLE_USER" };
if(!success) {
throw new BadCredentialsException("Bad credentials");
}
return new UsernamePasswordAuthenticationToken(username, null, AuthorityUtils.createAuthorityList(roles));
}
public boolean supports(Class<?> authentication) {
return (UsernamePasswordAuthenticationToken.class
.isAssignableFrom(authentication));
}
}
You can then configure your RestAuthenticationProvider using something like this:
#EnableWebSecurity
#Configuration
public class SecurityConfig extends WebSecurityConfigurerAdapter {
...
#Bean
public RestAuthenticationProvider restAuthenticationProvider() {
return new RestAuthenticationProvider();
}
#Autowired
public void configureGlobal(AuthenticationManagerBuilder auth, AuthenticationProvider provider) throws Exception {
auth
.authenticationProvider(provider);
}
}
Session IDs are getting stored in Redis even when authentication fails.
Rob's answer of setting NullRequestCache didn't work for me. That is, there were redis entries even after setting request cache to NullRequestCache. To make it work, I had to use an authentication failure handler.
http.formLogin().failureHandler(authenticationFailureHandler()).permitAll();
private AuthenticationFailureHandler authenticationFailureHandler() {
return new AuthenticationFailureHandler();
}
public class AuthenticationFailureHandler
extends SimpleUrlAuthenticationFailureHandler {
}
Note that the failure handler does nothing but extend the default handler explicitly. It returns a 401 in case of failure. If you were doing redirects, you can configure it in the handler easily.