Prior to Spring Security 2.0, securing MethodInvocations needed
quite a lot of boiler plate configuration. Now the recommended approach for method security is
to use namespace configuration. This way the
method security infrastructure beans are configured automatically for you so you don't really
need to know about the implementation classes. We'll just provide a quick overview of the
classes that are involved here.
Method security in enforced using a MethodSecurityInterceptor,
which secures MethodInvocations. Depending on the configuration
approach, an interceptor may be specific to a single bean or shared between multiple beans.
The interceptor uses a MethodDefinitionSource instance to
obtain the configuration attributes that apply to a particular method invocation.
MapBasedMethodDefinitionSource is used to store configuration
attributes keyed by method names (which can be wildcarded) and will be used internally when
the attributes are defined in the application context using the
<intercept-methods> or <protect-point>
elements. Other implementations will be used to handle annotation-based configuration.
You can of course configure a MethodSecurityIterceptor directly
in your application context for use with one of Spring AOP's proxying mechanisms:
<bean id="bankManagerSecurity"
class="org.springframework.security.intercept.aopalliance.MethodSecurityInterceptor">
<property name="authenticationManager" ref="authenticationManager"/>
<property name="accessDecisionManager" ref="accessDecisionManager"/>
<property name="afterInvocationManager" ref="afterInvocationManager"/>
<property name="securityMetadataSource">
<value>
com.mycompany.BankManager.delete*=ROLE_SUPERVISOR
com.mycompany.BankManager.getBalance=ROLE_TELLER,ROLE_SUPERVISOR
</value>
</property>
</bean>
The AspectJ security interceptor is very similar to the AOP Alliance security interceptor discussed in the previous section. Indeed we will only discuss the differences in this section.
The AspectJ interceptor is named AspectJSecurityInterceptor. Unlike the
AOP Alliance security interceptor, which relies on the Spring application context to weave in
the security interceptor via proxying, the AspectJSecurityInterceptor is
weaved in via the AspectJ compiler. It would not be uncommon to use both types of security
interceptors in the same application, with AspectJSecurityInterceptor being
used for domain object instance security and the AOP Alliance
MethodSecurityInterceptor being used for services layer
security.
Let's first consider how the AspectJSecurityInterceptor is configured
in the Spring application context:
<bean id="bankManagerSecurity"
class="org.springframework.security.intercept.aspectj.AspectJSecurityInterceptor">
<property name="authenticationManager" ref="authenticationManager"/>
<property name="accessDecisionManager" ref="accessDecisionManager"/>
<property name="afterInvocationManager" ref="afterInvocationManager"/>
<property name="securityMetadataSource">
<value>
com.mycompany.BankManager.delete*=ROLE_SUPERVISOR
com.mycompany.BankManager.getBalance=ROLE_TELLER,ROLE_SUPERVISOR
</value>
</property>
</bean>
As you can see, aside from the class name, the
AspectJSecurityInterceptor is exactly the same as the AOP Alliance
security interceptor. Indeed the two interceptors can share the same
securityMetadataSource, as the
SecurityMetadataSource works with
java.lang.reflect.Methods rather than an AOP library-specific class. Of
course, your access decisions have access to the relevant AOP library-specific invocation (ie
MethodInvocation or JoinPoint) and as such can
consider a range of addition criteria when making access decisions (such as method
arguments).
Next you'll need to define an AspectJ aspect. For example:
package org.springframework.security.samples.aspectj; import org.springframework.security.intercept.aspectj.AspectJSecurityInterceptor; import org.springframework.security.intercept.aspectj.AspectJCallback; import org.springframework.beans.factory.InitializingBean; public aspect DomainObjectInstanceSecurityAspect implements InitializingBean { private AspectJSecurityInterceptor securityInterceptor; pointcut domainObjectInstanceExecution(): target(PersistableEntity) && execution(public * *(..)) && !within(DomainObjectInstanceSecurityAspect); Object around(): domainObjectInstanceExecution() { if (this.securityInterceptor == null) { return proceed(); } AspectJCallback callback = new AspectJCallback() { public Object proceedWithObject() { return proceed(); } }; return this.securityInterceptor.invoke(thisJoinPoint, callback); } public AspectJSecurityInterceptor getSecurityInterceptor() { return securityInterceptor; } public void setSecurityInterceptor(AspectJSecurityInterceptor securityInterceptor) { this.securityInterceptor = securityInterceptor; } public void afterPropertiesSet() throws Exception { if (this.securityInterceptor == null) throw new IllegalArgumentException("securityInterceptor required"); } }
In the above example, the security interceptor will be applied to every instance of
PersistableEntity, which is an abstract class not shown (you can use any
other class or pointcut expression you like). For those curious,
AspectJCallback is needed because the proceed();
statement has special meaning only within an around() body. The
AspectJSecurityInterceptor calls this anonymous
AspectJCallback class when it wants the target object to continue.
You will need to configure Spring to load the aspect and wire it with the
AspectJSecurityInterceptor. A bean declaration which achieves this is
shown below:
<bean id="domainObjectInstanceSecurityAspect"
class="org.springframework.security.samples.aspectj.DomainObjectInstanceSecurityAspect"
factory-method="aspectOf">
<property name="securityInterceptor" ref="aspectJSecurityInterceptor"/>
</bean>
That's it! Now you can create your beans from anywhere within your application, using
whatever means you think fit (eg new Person();) and they will have the
security interceptor applied.