This version is still in development and is not considered stable yet. For the latest stable version, please use Spring Security 6.1.12! |
Authorization Migrations
The following steps relate to changes around how authorization is performed.
Use AuthorizationManager
for Method Security
Method Security has been simplified through the AuthorizationManager
API and direct use of Spring AOP.
Should you run into trouble with making these changes, note that @EnableGlobalMethodSecurity
, while deprecated, will not be removed in 6.0, allowing you to opt out by sticking with the old annotation.
Replace global method security with method security
@EnableGlobalMethodSecurity
and <global-method-security>
are deprecated in favor of @EnableMethodSecurity
and <method-security>
, respectively.
The new annotation and XML element activate Spring’s pre-post annotations by default and use AuthorizationManager
internally.
This means that the following two listings are functionally equivalent:
-
Java
-
Kotlin
-
Xml
@EnableGlobalMethodSecurity(prePostEnabled = true)
@EnableGlobalMethodSecurity(prePostEnabled = true)
<global-method-security pre-post-enabled="true"/>
and:
-
Java
-
Kotlin
-
Xml
@EnableMethodSecurity
@EnableMethodSecurity
<method-security/>
For applications not using the pre-post annotations, make sure to turn it off to avoid activating unwanted behavior.
For example, a listing like:
-
Java
-
Kotlin
-
Xml
@EnableGlobalMethodSecurity(securedEnabled = true)
@EnableGlobalMethodSecurity(securedEnabled = true)
<global-method-security secured-enabled="true"/>
should change to:
-
Java
-
Kotlin
-
Xml
@EnableMethodSecurity(securedEnabled = true, prePostEnabled = false)
@EnableMethodSecurity(securedEnabled = true, prePostEnabled = false)
<method-security secured-enabled="true" pre-post-enabled="false"/>
Change the order
value in @EnableTransactionManagement
@EnableTransactionManagement
and @EnableGlobalMethodSecurity
have the same order
value, Integer.MAX_VALUE
.
This means that their order in the Spring AOP Advisor chain relative to each other is undefined.
This is often fine since most method security expressions don’t require an open transaction to function correctly; however, historically it was sometimes necessary to ensure one happens before the other by setting their order
values.
@EnableMethodSecurity
does not have an order
value since it publishes multiple interceptors.
Indeed, it cannot attempt backward-compatibility with @EnableTransactionManagement
since it cannot set all the interceptors to be in the same advisor chain location.
Instead, the values for the @EnableMethodSecurity
interceptors are based off of an offset of 0.
The @PreFilter
interceptor has an order of 100; @PostAuthorize
, 200; and so on.
So, if after updating you find that your method security expressions are not working due to not having an open transaction, please change your transaction annotation definition from the following:
-
Java
-
Kotlin
-
Xml
@EnableTransactionManagement
@EnableTransactionManagement
<tx:annotation-driven ref="txManager"/>
to:
-
Java
-
Kotlin
-
Xml
@EnableTransactionManagement(order = 0)
@EnableTransactionManagement(order = 0)
<tx:annotation-driven ref="txManager" order="0"/>
In this way, the transaction AOP advice will be placed before Spring Security’s advice and the transaction will be open when your authorization SpEL expressions are evaluated.
Use a Custom @Bean
instead of subclassing DefaultMethodSecurityExpressionHandler
As a performance optimization, a new method was introduced to MethodSecurityExpressionHandler
that takes a Supplier<Authentication>
instead of an Authentication
.
This allows Spring Security to defer the lookup of the Authentication
, and is taken advantage of automatically when you use @EnableMethodSecurity
instead of @EnableGlobalMethodSecurity
.
However, let’s say that your code extends DefaultMethodSecurityExpressionHandler
and overrides createSecurityExpressionRoot(Authentication, MethodInvocation)
to return a custom SecurityExpressionRoot
instance.
This will no longer work because the arrangement that @EnableMethodSecurity
sets up calls createEvaluationContext(Supplier<Authentication>, MethodInvocation)
instead.
Happily, such a level of customization is often unnecessary. Instead, you can create a custom bean with the authorization methods that you need.
For example, let’s say you are wanting a custom evaluation of @PostAuthorize("hasAuthority('ADMIN')")
.
You can create a custom @Bean
like this one:
-
Java
-
Kotlin
class MyAuthorizer {
boolean isAdmin(MethodSecurityExpressionOperations root) {
boolean decision = root.hasAuthority("ADMIN");
// custom work ...
return decision;
}
}
class MyAuthorizer {
fun isAdmin(val root: MethodSecurityExpressionOperations): boolean {
val decision = root.hasAuthority("ADMIN");
// custom work ...
return decision;
}
}
and then refer to it in the annotation like so:
-
Java
-
Kotlin
@PreAuthorize("@authz.isAdmin(#root)")
@PreAuthorize("@authz.isAdmin(#root)")
I’d still prefer to subclass DefaultMethodSecurityExpressionHandler
If you must continue subclassing DefaultMethodSecurityExpressionHandler
, you can still do so.
Instead, override the createEvaluationContext(Supplier<Authentication>, MethodInvocation)
method like so:
-
Java
-
Kotlin
@Component
class MyExpressionHandler extends DefaultMethodSecurityExpressionHandler {
@Override
public EvaluationContext createEvaluationContext(
Supplier<Authentication> authentication, MethodInvocation mi) {
StandardEvaluationContext context = (StandardEvaluationContext) super.createEvaluationContext(authentication, mi);
MySecurityExpressionRoot root = new MySecurityExpressionRoot(authentication, invocation);
root.setPermissionEvaluator(getPermissionEvaluator());
root.setTrustResolver(new AuthenticationTrustResolverImpl());
root.setRoleHierarchy(getRoleHierarchy());
context.setRootObject(root);
return context;
}
}
@Component
class MyExpressionHandler: DefaultMethodSecurityExpressionHandler {
override fun createEvaluationContext(val authentication: Supplier<Authentication>,
val mi: MethodInvocation): EvaluationContext {
val context = super.createEvaluationContext(authentication, mi) as StandardEvaluationContext;
val root = new MySecurityExpressionRoot(authentication, invocation);
root.setPermissionEvaluator(getPermissionEvaluator());
root.setTrustResolver(new AuthenticationTrustResolverImpl());
root.setRoleHierarchy(getRoleHierarchy());
context.setRootObject(root);
return context;
}
}
Publish a MethodSecurityExpressionHandler
instead of a PermissionEvaluator
@EnableMethodSecurity
does not pick up a PermissionEvaluator
.
This helps keep its API simple.
If you have a custom PermissionEvaluator
@Bean
, please change it from:
-
Java
-
Kotlin
@Bean
static PermissionEvaluator permissionEvaluator() {
// ... your evaluator
}
companion object {
@Bean
fun permissionEvaluator(): PermissionEvaluator {
// ... your evaluator
}
}
to:
-
Java
-
Kotlin
@Bean
static MethodSecurityExpressionHandler expressionHandler() {
var expressionHandler = new DefaultMethodSecurityExpressionHandler();
expressionHandler.setPermissionEvaluator(myPermissionEvaluator);
return expressionHandler;
}
companion object {
@Bean
fun expressionHandler(): MethodSecurityExpressionHandler {
val expressionHandler = DefaultMethodSecurityExpressionHandler
expressionHandler.setPermissionEvaluator(myPermissionEvaluator)
return expressionHandler
}
}
Replace any custom method-security AccessDecisionManager
s
Your application may have a custom AccessDecisionManager
or AccessDecisionVoter
arrangement.
The preparation strategy will depend on your reason for each arrangement.
Read on to find the best match for your situation.
I use UnanimousBased
If your application uses UnanimousBased
with the default voters, you likely need do nothing since unanimous-based is the default behavior with @EnableMethodSecurity
.
However, if you do discover that you cannot accept the default authorization managers, you can use AuthorizationManagers.allOf
to compose your own arrangement.
Note that there is a difference with allOf
, which is that if all delegates abstain then it grants authorization.
If you must deny authorization when all delegates abstain, please implement a composite AuthorizationManager
that takes the set of delegate AuthorizationManager
s into account.
Having done that, please follow the details in the reference manual for adding a custom AuthorizationManager
.
I use AffirmativeBased
If your application uses AffirmativeBased
, then you can construct an equivalent AuthorizationManager
, like so:
-
Java
-
Kotlin
AuthorizationManager<MethodInvocation> authorization = AuthorizationManagers.anyOf(
// ... your list of authorization managers
)
val authorization = AuthorizationManagers.anyOf(
// ... your list of authorization managers
)
Once you have implemented AuthorizationManager
, please follow the details in the reference manual for adding a custom AuthorizationManager
.
I use ConsensusBased
There is no framework-provided equivalent for ConsensusBased
.
In that case, please implement a composite AuthorizationManager
that takes the set of delegate AuthorizationManager
s into account.
Once you have implemented AuthorizationManager
, please follow the details in the reference manual for adding a custom AuthorizationManager
.
I use a custom AccessDecisionVoter
You should either change the class to implement AuthorizationManager
or create an adapter.
Without knowing what your custom voter is doing, it is impossible to recommend a general-purpose solution.
By way of example, though, here is what adapting SecurityMetadataSource
and AccessDecisionVoter
for @PreAuthorize
would look like:
-
Java
public final class PreAuthorizeAuthorizationManagerAdapter implements AuthorizationManager<MethodInvocation> {
private final SecurityMetadataSource metadata;
private final AccessDecisionVoter voter;
public PreAuthorizeAuthorizationManagerAdapter(MethodSecurityExpressionHandler expressionHandler) {
ExpressionBasedAnnotationAttributeFactory attributeFactory =
new ExpressionBasedAnnotationAttributeFactory(expressionHandler);
this.metadata = new PrePostAnnotationSecurityMetadataSource(attributeFactory);
ExpressionBasedPreInvocationAdvice expressionAdvice = new ExpressionBasedPreInvocationAdvice();
expressionAdvice.setExpressionHandler(expressionHandler);
this.voter = new PreInvocationAuthorizationAdviceVoter(expressionAdvice);
}
public AuthorizationDecision check(Supplier<Authentication> authentication, MethodInvocation invocation) {
List<ConfigAttribute> attributes = this.metadata.getAttributes(invocation, AopUtils.getTargetClass(invocation.getThis()));
int decision = this.voter.vote(authentication.get(), invocation, attributes);
if (decision == ACCESS_GRANTED) {
return new AuthorizationDecision(true);
}
if (decision == ACCESS_DENIED) {
return new AuthorizationDecision(false);
}
return null; // abstain
}
}
Once you have implemented AuthorizationManager
, please follow the details in the reference manual for adding a custom AuthorizationManager
.
I use AfterInvocationManager
or AfterInvocationProvider
AfterInvocationManager
and AfterInvocationProvider
make an authorization decision about an invocation’s result.
For example, in the case of method invocation, these make an authorization decision about a method’s return value.
In Spring Security 3.0, authorization decision-making was standardized into the @PostAuthorize
and @PostFilter
annotations.
@PostAuthorize
is for deciding whether the return value as a whole was permitted to be returned.
@PostFilter
is for filtering individual entries from a returned collection, array, or stream.
These two annotations should serve most needs, and you are encouraged to migrate to one or both of them since AfterInvocationProvider
and AfterInvocationManager
are now deprecated.
If you’ve implemented your own AfterInvocationManager
or AfterInvocationProvider
, you should first ask yourself what it is trying to do.
If it is trying to authorize the return type, consider implementing AuthorizationManager<MethodInvocationResult>
and using AfterMethodAuthorizationManagerInterceptor
. Or publishing a custom bean and using @PostAuthorize("@myBean.authorize(#root)")
.
If it is trying to filter, then consider publishing a custom bean and using @PostFilter("@mybean.authorize(#root)")
.
Or, if needed, you can implement your own MethodInterceptor
, taking a look at PostFilterAuthorizationMethodInterceptor
and PrePostMethodSecurityConfiguration
for an example.
I use RunAsManager
There is currently no replacement for RunAsManager
though one is being considered.
It is quite straightforward to adapt a RunAsManager
, though, to the AuthorizationManager
API, if needed.
Here is some pseudocode to get you started:
-
Java
public final class RunAsAuthorizationManagerAdapter<T> implements AuthorizationManager<T> {
private final RunAsManager runAs = new RunAsManagerImpl();
private final SecurityMetadataSource metadata;
private final AuthorizationManager<T> authorization;
// ... constructor
public AuthorizationDecision check(Supplier<Authentication> authentication, T object) {
Supplier<Authentication> wrapped = (auth) -> {
List<ConfigAttribute> attributes = this.metadata.getAttributes(object);
return this.runAs.buildRunAs(auth, object, attributes);
};
return this.authorization.check(wrapped, object);
}
}
Once you have implemented AuthorizationManager
, please follow the details in the reference manual for adding a custom AuthorizationManager
.
Check for AnnotationConfigurationException
s
@EnableMethodSecurity
and <method-security>
activate stricter enforcement of Spring Security’s non-repeatable or otherwise incompatible annotations.
If after moving to either you see AnnotationConfigurationException
s in your logs, follow the instructions in the exception message to clean up your application’s method security annotation usage.
Use AuthorizationManager
for Message Security
Message Security has been improved through the AuthorizationManager
API and direct use of Spring AOP.
Should you run into trouble with making these changes, you can follow the opt out steps at the end of this section.
Ensure all messages have defined authorization rules
The now-deprecated message security support permits all messages by default. The new support has the stronger default of denying all messages.
To prepare for this, ensure that authorization rules exist are declared for every request.
For example, an application configuration like:
-
Java
-
Kotlin
-
Xml
@Override
protected void configureInbound(MessageSecurityMetadataSourceRegistry messages) {
messages
.simpDestMatchers("/user/queue/errors").permitAll()
.simpDestMatchers("/admin/**").hasRole("ADMIN");
}
override fun configureInbound(messages: MessageSecurityMetadataSourceRegistry) {
messages
.simpDestMatchers("/user/queue/errors").permitAll()
.simpDestMatchers("/admin/**").hasRole("ADMIN")
}
<websocket-message-broker>
<intercept-message pattern="/user/queue/errors" access="permitAll"/>
<intercept-message pattern="/admin/**" access="hasRole('ADMIN')"/>
</websocket-message-broker>
should change to:
-
Java
-
Kotlin
-
Xml
@Override
protected void configureInbound(MessageSecurityMetadataSourceRegistry messages) {
messages
.simpTypeMatchers(CONNECT, DISCONNECT, UNSUBSCRIBE).permitAll()
.simpDestMatchers("/user/queue/errors").permitAll()
.simpDestMatchers("/admin/**").hasRole("ADMIN")
.anyMessage().denyAll();
}
override fun configureInbound(messages: MessageSecurityMetadataSourceRegistry) {
messages
.simpTypeMatchers(CONNECT, DISCONNECT, UNSUBSCRIBE).permitAll()
.simpDestMatchers("/user/queue/errors").permitAll()
.simpDestMatchers("/admin/**").hasRole("ADMIN")
.anyMessage().denyAll()
}
<websocket-message-broker>
<intercept-message type="CONNECT" access="permitAll"/>
<intercept-message type="DISCONNECT" access="permitAll"/>
<intercept-message type="UNSUBSCRIBE" access="permitAll"/>
<intercept-message pattern="/user/queue/errors" access="permitAll"/>
<intercept-message pattern="/admin/**" access="hasRole('ADMIN')"/>
<intercept-message pattern="/**" access="denyAll"/>
</websocket-message-broker>
Add @EnableWebSocketSecurity
If you want to have CSRF disabled and you are using Java configuration, the migration steps are slightly different.
Instead of using |
If you are using Java Configuration, add @EnableWebSocketSecurity
to your application.
For example, you can add it to your websocket security configuration class, like so:
-
Java
-
Kotlin
@EnableWebSocketSecurity
@Configuration
public class WebSocketSecurityConfig extends AbstractSecurityWebSocketMessageBrokerConfigurer {
// ...
}
@EnableWebSocketSecurity
@Configuration
class WebSocketSecurityConfig: AbstractSecurityWebSocketMessageBrokerConfigurer() {
// ...
}
This will make a prototype instance of MessageMatcherDelegatingAuthorizationManager.Builder
available to encourage configuration by composition instead of extension.
Use an AuthorizationManager<Message<?>>
instance
To start using AuthorizationManager
, you can set the use-authorization-manager
attribute in XML or you can publish an AuthorizationManager<Message<?>>
@Bean
in Java.
For example, the following application configuration:
-
Java
-
Kotlin
-
Xml
@Override
protected void configureInbound(MessageSecurityMetadataSourceRegistry messages) {
messages
.simpTypeMatchers(CONNECT, DISCONNECT, UNSUBSCRIBE).permitAll()
.simpDestMatchers("/user/queue/errors").permitAll()
.simpDestMatchers("/admin/**").hasRole("ADMIN")
.anyMessage().denyAll();
}
override fun configureInbound(messages: MessageSecurityMetadataSourceRegistry) {
messages
.simpTypeMatchers(CONNECT, DISCONNECT, UNSUBSCRIBE).permitAll()
.simpDestMatchers("/user/queue/errors").permitAll()
.simpDestMatchers("/admin/**").hasRole("ADMIN")
.anyMessage().denyAll()
}
<websocket-message-broker>
<intercept-message type="CONNECT" access="permitAll"/>
<intercept-message type="DISCONNECT" access="permitAll"/>
<intercept-message type="UNSUBSCRIBE" access="permitAll"/>
<intercept-message pattern="/user/queue/errors" access="permitAll"/>
<intercept-message pattern="/admin/**" access="hasRole('ADMIN')"/>
<intercept-message pattern="/**" access="denyAll"/>
</websocket-message-broker>
changes to:
-
Java
-
Kotlin
-
Xml
@Bean
AuthorizationManager<Message<?>> messageSecurity(MessageMatcherDelegatingAuthorizationManager.Builder messages) {
messages
.simpTypeMatchers(CONNECT, DISCONNECT, UNSUBSCRIBE).permitAll()
.simpDestMatchers("/user/queue/errors").permitAll()
.simpDestMatchers("/admin/**").hasRole("ADMIN")
.anyMessage().denyAll();
return messages.build();
}
@Bean
fun messageSecurity(val messages: MessageMatcherDelegatingAuthorizationManager.Builder): AuthorizationManager<Message<?>> {
messages
.simpTypeMatchers(CONNECT, DISCONNECT, UNSUBSCRIBE).permitAll()
.simpDestMatchers("/user/queue/errors").permitAll()
.simpDestMatchers("/admin/**").hasRole("ADMIN")
.anyMessage().denyAll()
return messages.build()
}
<websocket-message-broker use-authorization-manager="true">
<intercept-message type="CONNECT" access="permitAll"/>
<intercept-message type="DISCONNECT" access="permitAll"/>
<intercept-message type="UNSUBSCRIBE" access="permitAll"/>
<intercept-message pattern="/user/queue/errors" access="permitAll"/>
<intercept-message pattern="/admin/**" access="hasRole('ADMIN')"/>
<intercept-message pattern="/**" access="denyAll"/>
</websocket-message-broker>
Stop Implementing AbstractSecurityWebSocketMessageBrokerConfigurer
If you are using Java configuration, you can now simply extend WebSocketMessageBrokerConfigurer
.
For example, if your class that extends AbstractSecurityWebSocketMessageBrokerConfigurer
is called WebSocketSecurityConfig
, then:
-
Java
-
Kotlin
@EnableWebSocketSecurity
@Configuration
public class WebSocketSecurityConfig extends AbstractSecurityWebSocketMessageBrokerConfigurer {
// ...
}
@EnableWebSocketSecurity
@Configuration
class WebSocketSecurityConfig: AbstractSecurityWebSocketMessageBrokerConfigurer() {
// ...
}
changes to:
-
Java
-
Kotlin
@EnableWebSocketSecurity
@Configuration
public class WebSocketSecurityConfig implements WebSocketMessageBrokerConfigurer {
// ...
}
@EnableWebSocketSecurity
@Configuration
class WebSocketSecurityConfig: WebSocketMessageBrokerConfigurer {
// ...
}
This also implies that you will need to use a MessageMatcherDelegationAuthorizationManager
to specify your authorization rules.
Opt-out Steps
In case you had trouble, take a look at these scenarios for optimal opt out behavior:
I cannot declare an authorization rule for all requests
If you are having trouble setting an anyRequest
authorization rule of denyAll
, please use permitAll
instead, like so:
-
Java
-
Kotlin
-
Xml
@Bean
AuthorizationManager<Message<?>> messageSecurity(MessageMatcherDelegatingAuthorizationManager.Builder messages) {
messages
.simpDestMatchers("/user/queue/errors").permitAll()
.simpDestMatchers("/admin/**").hasRole("ADMIN")
// ...
.anyMessage().permitAll();
return messages.build();
}
@Bean
fun messageSecurity(val messages: MessageMatcherDelegatingAuthorizationManager.Builder): AuthorizationManager<Message<?>> {
messages
.simpDestMatchers("/user/queue/errors").permitAll()
.simpDestMatchers("/admin/**").hasRole("ADMIN")
// ...
.anyMessage().permitAll();
return messages.build()
}
<websocket-message-broker use-authorization-manager="true">
<intercept-message pattern="/user/queue/errors" access="permitAll"/>
<intercept-message pattern="/admin/**" access="hasRole('ADMIN')"/>
<!-- ... -->
<intercept-message pattern="/**" access="permitAll"/>
</websocket-message-broker>
I cannot get CSRF working, need some other AbstractSecurityWebSocketMessageBrokerConfigurer
feature, or am having trouble with AuthorizationManager
In the case of Java, you may continue using AbstractMessageSecurityWebSocketMessageBrokerConfigurer
.
Even though it is deprecated, it will not be removed in 6.0.
In the case of XML, you can opt out of AuthorizationManager
by setting use-authorization-manager="false"
:
<websocket-message-broker>
<intercept-message pattern="/user/queue/errors" access="permitAll"/>
<intercept-message pattern="/admin/**" access="hasRole('ADMIN')"/>
</websocket-message-broker>
to:
<websocket-message-broker use-authorization-manager="false">
<intercept-message pattern="/user/queue/errors" access="permitAll"/>
<intercept-message pattern="/admin/**" access="hasRole('ADMIN')"/>
</websocket-message-broker>
Use AuthorizationManager
for Request Security
HTTP Request Security has been simplified through the AuthorizationManager
API.
Should you run into trouble with making these changes, you can follow the opt out steps at the end of this section.
Ensure that all requests have defined authorization rules
In Spring Security 5.8 and earlier, requests with no authorization rule are permitted by default. It is a stronger security position to deny by default, thus requiring that authorization rules be clearly defined for every endpoint. As such, in 6.0, Spring Security by default denies any request that is missing an authorization rule.
The simplest way to prepare for this change is to introduce an appropriate anyRequest
rule as the last authorization rule.
The recommendation is denyAll
since that is the implied 6.0 default.
You may already have an |
Adding denyAll
to the end looks like changing:
-
Java
-
Kotlin
-
Xml
http
.authorizeRequests((authorize) -> authorize
.filterSecurityInterceptorOncePerRequest(true)
.mvcMatchers("/app/**").hasRole("APP")
// ...
)
// ...
http {
authorizeRequests {
filterSecurityInterceptorOncePerRequest = true
authorize("/app/**", hasRole("APP"))
// ...
}
}
<http once-per-request="true">
<intercept-url pattern="/app/*" access="hasRole('APP')"/>
<!-- ... -->
</http>
to:
-
Java
-
Kotlin
-
Xml
http
.authorizeRequests((authorize) -> authorize
.filterSecurityInterceptorOncePerRequest(true)
.mvcMatchers("/app/**").hasRole("APP")
// ...
.anyRequest().denyAll()
)
// ...
http {
authorizeRequests {
filterSecurityInterceptorOncePerRequest = true
authorize("/app/**", hasRole("APP"))
// ...
authorize(anyRequest, denyAll)
}
}
<http once-per-request="true">
<intercept-url pattern="/app/*" access="hasRole('APP')"/>
<!-- ... -->
<intercept-url pattern="/**" access="denyAll"/>
</http>
If you have already migrated to authorizeHttpRequests
, the recommended change is the same.
Switch to AuthorizationManager
To opt in to using AuthorizationManager
, you can use authorizeHttpRequests
or use-authorization-manager
for Java or XML, respectively.
Change:
-
Java
-
Kotlin
-
Xml
http
.authorizeRequests((authorize) -> authorize
.filterSecurityInterceptorOncePerRequest(true)
.mvcMatchers("/app/**").hasRole("APP")
// ...
.anyRequest().denyAll()
)
// ...
http {
authorizeRequests {
filterSecurityInterceptorOncePerRequest = true
authorize("/app/**", hasRole("APP"))
// ...
authorize(anyRequest, denyAll)
}
}
<http once-per-request="true">
<intercept-url pattern="/app/*" access="hasRole('APP')"/>
<!-- ... -->
<intercept-url pattern="/**" access="denyAll"/>
</http>
to:
-
Java
-
Kotlin
-
Xml
http
.authorizeHttpRequests((authorize) -> authorize
.shouldFilterAllDispatcherTypes(false)
.mvcMatchers("/app/**").hasRole("APP")
// ...
.anyRequest().denyAll()
)
// ...
http {
authorizeHttpRequests {
shouldFilterAllDispatcherTypes = false
authorize("/app/**", hasRole("APP"))
// ...
authorize(anyRequest, denyAll)
}
}
<http filter-all-dispatcher-types="false" use-authorization-manager="true">
<intercept-url pattern="/app/*" access="hasRole('APP')"/>
<!-- ... -->
<intercept-url pattern="/**" access="denyAll"/>
</http>
Migrate hasIpAddress
to access(AuthorizationManager)
hasIpAddress
has no DSL equivalent in authorizeHttpRequests
.
As such, you need to change any called to hasIpAddress
to using an AuthorizationManager
.
First, construct an IpAddressMatcher
like so:
IpAddressMatcher hasIpAddress = new IpAddressMatcher("127.0.0.1");
And then change from this:
http
.authorizeRequests((authorize) -> authorize
.mvcMatchers("/app/**").hasIpAddress("127.0.0.1")
// ...
.anyRequest().denyAll()
)
// ...
to this:
http
.authorizeHttpRequests((authorize) -> authorize
.requestMatchers("/app/**").access((authentication, context) ->
new AuthorizationDecision(hasIpAddress.matches(context.getRequest()))
// ...
.anyRequest().denyAll()
)
// ...
Securing by IP Address is quite fragile to begin with.
For that reason, there are no plans to port this support over to authorizeHttpRequests .
|
Migrate SpEL expressions to AuthorizationManager
For authorization rules, Java tends to be easier to test and maintain than SpEL.
As such, authorizeHttpRequests
does not have a method for declaring a String
SpEL.
Instead, you can implement your own AuthorizationManager
implementation or use WebExpressionAuthorizationManager
.
For completeness, both options will be demonstrated.
First, if you have the following SpEL:
-
Java
-
Kotlin
http
.authorizeRequests((authorize) -> authorize
.filterSecurityInterceptorOncePerRequest(true)
.mvcMatchers("/complicated/**").access("hasRole('ADMIN') || hasAuthority('SCOPE_read')")
// ...
.anyRequest().denyAll()
)
// ...
http {
authorizeRequests {
filterSecurityInterceptorOncePerRequest = true
authorize("/complicated/**", access("hasRole('ADMIN') || hasAuthority('SCOPE_read')"))
// ...
authorize(anyRequest, denyAll)
}
}
Then you can compose your own AuthorizationManager
with Spring Security authorization primitives like so:
-
Java
-
Kotlin
http
.authorizeHttpRequests((authorize) -> authorize
.shouldFilterAllDispatcherTypes(false)
.mvcMatchers("/complicated/**").access(anyOf(hasRole("ADMIN"), hasAuthority("SCOPE_read"))
// ...
.anyRequest().denyAll()
)
// ...
http {
authorizeHttpRequests {
shouldFilterAllDispatcherTypes = false
authorize("/complicated/**", access(anyOf(hasRole("ADMIN"), hasAuthority("SCOPE_read"))
// ...
authorize(anyRequest, denyAll)
}
}
Or you can use WebExpressionAuthorizationManager
in the following way:
-
Java
-
Kotlin
http
.authorizeRequests((authorize) -> authorize
.filterSecurityInterceptorOncePerRequest(true)
.mvcMatchers("/complicated/**").access(
new WebExpressionAuthorizationManager("hasRole('ADMIN') || hasAuthority('SCOPE_read')")
)
// ...
.anyRequest().denyAll()
)
// ...
http {
authorizeRequests {
filterSecurityInterceptorOncePerRequest = true
authorize("/complicated/**", access(
WebExpressionAuthorizationManager("hasRole('ADMIN') || hasAuthority('SCOPE_read')"))
)
// ...
authorize(anyRequest, denyAll)
}
}
Switch to filter all dispatcher types
Spring Security 5.8 and earlier only perform authorization once per request.
This means that dispatcher types like FORWARD
and INCLUDE
that run after REQUEST
are not secured by default.
It’s recommended that Spring Security secure all dispatch types. As such, in 6.0, Spring Security changes this default.
So, finally, change your authorization rules to filter all dispatcher types.
To do this, you should change:
-
Java
-
Kotlin
-
Xml
http
.authorizeHttpRequests((authorize) -> authorize
.shouldFilterAllDispatcherTypes(false)
.mvcMatchers("/app/**").hasRole("APP")
// ...
.anyRequest().denyAll()
)
// ...
http {
authorizeHttpRequests {
shouldFilterAllDispatcherTypes = false
authorize("/app/**", hasRole("APP"))
// ...
authorize(anyRequest, denyAll)
}
}
<http filter-all-dispatcher-types="false" use-authorization-manager="true">
<intercept-url pattern="/app/*" access="hasRole('APP')"/>
<!-- ... -->
<intercept-url pattern="/**" access="denyAll"/>
</http>
to:
-
Java
-
Kotlin
-
Xml
http
.authorizeHttpRequests((authorize) -> authorize
.shouldFilterAllDispatcherTypes(true)
.mvcMatchers("/app/**").hasRole("APP")
// ...
.anyRequest().denyAll()
)
// ...
http {
authorizeHttpRequests {
shouldFilterAllDispatcherTypes = true
authorize("/app/**", hasRole("APP"))
// ...
authorize(anyRequest, denyAll)
}
}
<http filter-all-dispatcher-types="true" use-authorization-manager="true">
<intercept-url pattern="/app/*" access="hasRole('APP')"/>
<!-- ... -->
<intercept-url pattern="/**" access="denyAll"/>
</http>
And, the FilterChainProxy
should be registered for all dispatcher types as well.
If you are using Spring Boot, you have to change the spring.security.filter.dispatcher-types
property to include all dispatcher types:
-
application.properties
spring.security.filter.dispatcher-types=request,async,error,forward,include
If you are using the AbstractSecurityWebApplicationInitializer
you should override the getSecurityDispatcherTypes
method and return all dispatcher types:
-
Java
import org.springframework.security.web.context.*;
public class SecurityWebApplicationInitializer extends AbstractSecurityWebApplicationInitializer {
@Override
protected EnumSet<DispatcherType> getSecurityDispatcherTypes() {
return EnumSet.of(DispatcherType.REQUEST, DispatcherType.ERROR, DispatcherType.ASYNC,
DispatcherType.FORWARD, DispatcherType.INCLUDE);
}
}
Permit FORWARD
when using Spring MVC
If you are using Spring MVC to resolve view names, you will need to permit FORWARD
requests.
This is because when Spring MVC detects a mapping between view name and the actual views, it will perform a forward to the view.
As we saw on the previous section, Spring Security 6.0 will apply authorization to FORWARD
requests by default.
Consider the following common configuration:
-
Java
@Bean
public SecurityFilterChain securityFilterChain(HttpSecurity http) throws Exception {
http
.authorizeHttpRequests((authorize) -> authorize
.shouldFilterAllDispatcherTypes(true)
.requestMatchers("/").authenticated()
.anyRequest().denyAll()
)
.formLogin((form) -> form
.loginPage("/login")
.permitAll()
));
return http.build();
}
and one of the following equivalents MVC view mapping configurations:
-
Java
@Controller
public class MyController {
@GetMapping("/login")
public String login() {
return "login";
}
}
-
Java
@Configuration
public class MyWebMvcConfigurer implements WebMvcConfigurer {
@Override
public void addViewControllers(ViewControllerRegistry registry) {
registry.addViewController("/login").setViewName("login");
}
}
With either configuration, when there is a request to /login
, Spring MVC will perform a forward to the view login
, which, with the default configuration, is under src/main/resources/templates/login.html
path.
The security configuration permits requests to /login
but every other request will be denied, including the FORWARD
request to the view under /templates/login.html
.
To fix this, you should configure Spring Security to permit FORWARD
requests:
-
Java
-
Kotlin
-
Xml
http
.authorizeHttpRequests((authorize) -> authorize
.shouldFilterAllDispatcherTypes(true)
.dispatcherTypeMatchers(DispatcherType.FORWARD).permitAll()
.anyRequest().denyAll()
)
// ...
http {
authorizeHttpRequests {
shouldFilterAllDispatcherTypes = true
authorize(DispatcherTypeRequestMatcher(DispatcherType.FORWARD), permitAll)
authorize(anyRequest, denyAll)
}
}
<http filter-all-dispatcher-types="true" use-authorization-manager="true">
<intercept-url request-matcher-ref="forwardRequestMatcher" access="permitAll()" />
<!-- ... -->
<intercept-url pattern="/**" access="denyAll"/>
</http>
<bean name="forwardRequestMatcher" class="org.springframework.security.web.util.matcher.DispatcherTypeRequestMatcher">
<constructor-arg value="FORWARD"/>
</bean>
Replace any custom filter-security AccessDecisionManager
s
Your application may have a custom AccessDecisionManager
or AccessDecisionVoter
arrangement.
The preparation strategy will depend on your reason for each arrangement.
Read on to find the best match for your situation.
I use UnanimousBased
If your application uses UnanimousBased
, you should first adapt or replace any AccessDecisionVoter
s and then you can construct an AuthorizationManager
like so:
-
Java
-
Kotlin
-
Xml
@Bean
AuthorizationManager<RequestAuthorizationContext> requestAuthorization() {
PolicyAuthorizationManager policy = ...;
LocalAuthorizationManager local = ...;
return AuthorizationManagers.allOf(policy, local);
}
@Bean
fun requestAuthorization(): AuthorizationManager<RequestAuthorizationContext> {
val policy: PolicyAuthorizationManager = ...
val local: LocalAuthorizationManager = ...
return AuthorizationManagers.allOf(policy, local)
}
<bean id="requestAuthorization" class="org.springframework.security.authorization.AuthorizationManagers"
factory-method="allOf">
<constructor-arg>
<util:list>
<bean class="my.PolicyAuthorizationManager"/>
<bean class="my.LocalAuthorizationManager"/>
</util:list>
</constructor-arg>
</bean>
then, wire it into the DSL like so:
-
Java
-
Kotlin
-
Xml
http
.authorizeHttpRequests((authorize) -> authorize.anyRequest().access(requestAuthorization))
// ...
http {
authorizeHttpRequests {
authorize(anyRequest, requestAuthorization)
}
// ...
}
<http authorization-manager-ref="requestAuthorization"/>
|
I use AffirmativeBased
If your application uses AffirmativeBased
, then you can construct an equivalent AuthorizationManager
, like so:
-
Java
-
Kotlin
-
Xml
@Bean
AuthorizationManager<RequestAuthorizationContext> requestAuthorization() {
PolicyAuthorizationManager policy = ...;
LocalAuthorizationManager local = ...;
return AuthorizationManagers.anyOf(policy, local);
}
@Bean
fun requestAuthorization(): AuthorizationManager<RequestAuthorizationContext> {
val policy: PolicyAuthorizationManager = ...
val local: LocalAuthorizationManager = ...
return AuthorizationManagers.anyOf(policy, local)
}
<bean id="requestAuthorization" class="org.springframework.security.authorization.AuthorizationManagers"
factory-method="anyOf">
<constructor-arg>
<util:list>
<bean class="my.PolicyAuthorizationManager"/>
<bean class="my.LocalAuthorizationManager"/>
</util:list>
</constructor-arg>
</bean>
then, wire it into the DSL like so:
-
Java
-
Kotlin
-
Xml
http
.authorizeHttpRequests((authorize) -> authorize.anyRequest().access(requestAuthorization))
// ...
http {
authorizeHttpRequests {
authorize(anyRequest, requestAuthorization)
}
// ...
}
<http authorization-manager-ref="requestAuthorization"/>
|
I use ConsensusBased
There is no framework-provided equivalent for ConsensusBased
.
In that case, please implement a composite AuthorizationManager
that takes the set of delegate AuthorizationManager
s into account.
Once you have implemented AuthorizationManager
, please follow the details in the reference manual for adding a custom AuthorizationManager
.
I use a custom AccessDecisionVoter
You should either change the class to implement AuthorizationManager
or create an adapter.
Without knowing what your custom voter is doing, it is impossible to recommend a general-purpose solution.
By way of example, though, here is what adapting SecurityMetadataSource
and AccessDecisionVoter
for anyRequest().authenticated()
would look like:
-
Java
public final class AnyRequestAuthenticatedAuthorizationManagerAdapter implements AuthorizationManager<RequestAuthorizationContext> {
private final SecurityMetadataSource metadata;
private final AccessDecisionVoter voter;
public PreAuthorizeAuthorizationManagerAdapter(SecurityExpressionHandler expressionHandler) {
Map<RequestMatcher, List<ConfigAttribute>> requestMap = Collections.singletonMap(
AnyRequestMatcher.INSTANCE, Collections.singletonList(new SecurityConfig("authenticated")));
this.metadata = new DefaultFilterInvocationSecurityMetadataSource(requestMap);
WebExpressionVoter voter = new WebExpressionVoter();
voter.setExpressionHandler(expressionHandler);
this.voter = voter;
}
public AuthorizationDecision check(Supplier<Authentication> authentication, RequestAuthorizationContext context) {
List<ConfigAttribute> attributes = this.metadata.getAttributes(context);
int decision = this.voter.vote(authentication.get(), invocation, attributes);
if (decision == ACCESS_GRANTED) {
return new AuthorizationDecision(true);
}
if (decision == ACCESS_DENIED) {
return new AuthorizationDecision(false);
}
return null; // abstain
}
}
Once you have implemented AuthorizationManager
, please follow the details in the reference manual for adding a custom AuthorizationManager
.
Replace hasRole
with hasAuthority
if using GrantedAuthorityDefaults
Currently, the hasRole
method inside authorizeHttpRequests
does not support the GrantedAuthorityDefaults
bean like the authorizeRequests
does.
Therefore, if you are using GrantedAuthorityDefaults
to change the prefix of your roles, you will need to use hasAuthority
instead of hasRole
.
For example, you will have to change from:
@Bean
public SecurityFilterChain filterChain(HttpSecurity http) throws Exception {
http
.authorizeRequests((authorize) -> authorize
.anyRequest().hasRole("ADMIN")
);
return http.build();
}
@Bean
public GrantedAuthorityDefaults grantedAuthorityDefaults() {
return new GrantedAuthorityDefaults("MYPREFIX_");
}
to:
@Bean
public SecurityFilterChain filterChain(HttpSecurity http) throws Exception {
http
.authorizeHttpRequests((authorize) -> authorize
.anyRequest().hasAuthority("MYPREFIX_ADMIN")
);
return http.build();
}
This should be supported in the future, see gh-13227 for more details.
Opt-out Steps
In case you had trouble, take a look at these scenarios for optimal opt out behavior:
I cannot secure all dispatcher types
If you cannot secure all dispatcher types, first try and declare which dispatcher types should not require authorization like so:
-
Java
-
Kotlin
-
Xml
http
.authorizeHttpRequests((authorize) -> authorize
.shouldFilterAllDispatcherTypes(true)
.dispatcherTypeMatchers(FORWARD, INCLUDE).permitAll()
.mvcMatchers("/app/**").hasRole("APP")
// ...
.anyRequest().denyAll()
)
// ...
http {
authorizeHttpRequests {
shouldFilterAllDispatcherTypes = true
authorize(DispatcherTypeRequestMatcher(FORWARD, INCLUDE), permitAll)
authorize("/app/**", hasRole("APP"))
// ...
authorize(anyRequest, denyAll)
}
}
<http filter-all-dispatcher-types="true" use-authorization-manager="true">
<intercept-url request-matcher-ref="dispatchers"/>
<intercept-url pattern="/app/*" access="hasRole('APP')"/>
<!-- ... -->
<intercept-url pattern="/**" access="denyAll"/>
</http>
<bean id="dispatchers" class="org.springframework.security.web.util.matcher.DispatcherTypeRequestMatcher">
<constructor-arg>
<util:list value-type="javax.servlet.DispatcherType">
<value>FORWARD</value>
<value>INCLUDE</value>
</util:list>
</constructor-arg>
</bean>
Or, if that doesn’t work, then you can explicitly opt out of the behavior by setting filter-all-dispatcher-types
and filterAllDispatcherTypes
to false
:
-
Java
-
Kotlin
-
Xml
http
.authorizeHttpRequests((authorize) -> authorize
.filterAllDispatcherTypes(false)
.mvcMatchers("/app/**").hasRole("APP")
// ...
)
// ...
http {
authorizeHttpRequests {
filterAllDispatcherTypes = false
authorize("/messages/**", hasRole("APP"))
// ...
}
}
<http filter-all-dispatcher-types="false" use-authorization-manager="true">
<intercept-url pattern="/app/*" access="hasRole('APP')"/>
<!-- ... -->
</http>
or, if you are still using authorizeRequests
or use-authorization-manager="false"
, set oncePerRequest
to true
:
-
Java
-
Kotlin
-
Xml
http
.authorizeRequests((authorize) -> authorize
.filterSecurityInterceptorOncePerRequest(true)
.mvcMatchers("/app/**").hasRole("APP")
// ...
)
// ...
http {
authorizeRequests {
filterSecurityInterceptorOncePerRequest = true
authorize("/messages/**", hasRole("APP"))
// ...
}
}
<http once-per-request="true" use-authorization-manager="false">
<intercept-url pattern="/app/*" access="hasRole('APP')"/>
<!-- ... -->
</http>
I cannot declare an authorization rule for all requests
If you are having trouble setting an anyRequest
authorization rule of denyAll
, please use permitAll
instead, like so:
-
Java
-
Kotlin
-
Xml
http
.authorizeHttpReqeusts((authorize) -> authorize
.mvcMatchers("/app/*").hasRole("APP")
// ...
.anyRequest().permitAll()
)
http {
authorizeHttpRequests {
authorize("/app*", hasRole("APP"))
// ...
authorize(anyRequest, permitAll)
}
}
<http>
<intercept-url pattern="/app/*" access="hasRole('APP')"/>
<!-- ... -->
<intercept-url pattern="/**" access="permitAll"/>
</http>
I cannot migrate my SpEL or my AccessDecisionManager
If you are having trouble with SpEL, AccessDecisionManager
, or there is some other feature that you are needing to keep using in <http>
or authorizeRequests
, try the following.
First, if you still need authorizeRequests
, you are welcome to keep using it. Even though it is deprecated, it is not removed in 6.0.
Second, if you still need your custom access-decision-manager-ref
or have some other reason to opt out of AuthorizationManager
, do:
<http use-authorization-manager="false">
<intercept-url pattern="/app/*" access="hasRole('APP')"/>
<!-- ... -->
</http>