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Concurrency Support
In most environments, Security is stored on a per Thread
basis.
This means that when work is done on a new Thread
, the SecurityContext
is lost.
Spring Security provides some infrastructure to help make this much easier for users.
Spring Security provides low level abstractions for working with Spring Security in multi-threaded environments.
In fact, this is what Spring Security builds on to integration with AsyncContext.start(Runnable) and Spring MVC Async Integration.
DelegatingSecurityContextRunnable
One of the most fundamental building blocks within Spring Security’s concurrency support is the DelegatingSecurityContextRunnable
.
It wraps a delegate Runnable
in order to initialize the SecurityContextHolder
with a specified SecurityContext
for the delegate.
It then invokes the delegate Runnable ensuring to clear the SecurityContextHolder
afterwards.
The DelegatingSecurityContextRunnable
looks something like this:
-
Java
-
Kotlin
public void run() {
try {
SecurityContextHolder.setContext(securityContext);
delegate.run();
} finally {
SecurityContextHolder.clearContext();
}
}
fun run() {
try {
SecurityContextHolder.setContext(securityContext)
delegate.run()
} finally {
SecurityContextHolder.clearContext()
}
}
While very simple, it makes it seamless to transfer the SecurityContext from one Thread to another.
This is important since, in most cases, the SecurityContextHolder acts on a per Thread basis.
For example, you might have used Spring Security’s <global-method-security> support to secure one of your services.
You can now easily transfer the SecurityContext
of the current Thread
to the Thread
that invokes the secured service.
An example of how you might do this can be found below:
-
Java
-
Kotlin
Runnable originalRunnable = new Runnable() {
public void run() {
// invoke secured service
}
};
SecurityContext context = SecurityContextHolder.getContext();
DelegatingSecurityContextRunnable wrappedRunnable =
new DelegatingSecurityContextRunnable(originalRunnable, context);
new Thread(wrappedRunnable).start();
val originalRunnable = Runnable {
// invoke secured service
}
val context: SecurityContext = SecurityContextHolder.getContext()
val wrappedRunnable = DelegatingSecurityContextRunnable(originalRunnable, context)
Thread(wrappedRunnable).start()
The code above performs the following steps:
-
Creates a
Runnable
that will be invoking our secured service. Notice that it is not aware of Spring Security -
Obtains the
SecurityContext
that we wish to use from theSecurityContextHolder
and initializes theDelegatingSecurityContextRunnable
-
Use the
DelegatingSecurityContextRunnable
to create a Thread -
Start the Thread we created
Since it is quite common to create a DelegatingSecurityContextRunnable
with the SecurityContext
from the SecurityContextHolder
there is a shortcut constructor for it.
The following code is the same as the code above:
-
Java
-
Kotlin
Runnable originalRunnable = new Runnable() {
public void run() {
// invoke secured service
}
};
DelegatingSecurityContextRunnable wrappedRunnable =
new DelegatingSecurityContextRunnable(originalRunnable);
new Thread(wrappedRunnable).start();
val originalRunnable = Runnable {
// invoke secured service
}
val wrappedRunnable = DelegatingSecurityContextRunnable(originalRunnable)
Thread(wrappedRunnable).start()
The code we have is simple to use, but it still requires knowledge that we are using Spring Security.
In the next section we will take a look at how we can utilize DelegatingSecurityContextExecutor
to hide the fact that we are using Spring Security.
DelegatingSecurityContextExecutor
In the previous section we found that it was easy to use the DelegatingSecurityContextRunnable
, but it was not ideal since we had to be aware of Spring Security in order to use it.
Let’s take a look at how DelegatingSecurityContextExecutor
can shield our code from any knowledge that we are using Spring Security.
The design of DelegatingSecurityContextExecutor
is very similar to that of DelegatingSecurityContextRunnable
except it accepts a delegate Executor
instead of a delegate Runnable
.
You can see an example of how it might be used below:
-
Java
-
Kotlin
SecurityContext context = SecurityContextHolder.createEmptyContext();
Authentication authentication =
UsernamePasswordAuthenticationToken.authenticated("user","doesnotmatter", AuthorityUtils.createAuthorityList("ROLE_USER"));
context.setAuthentication(authentication);
SimpleAsyncTaskExecutor delegateExecutor =
new SimpleAsyncTaskExecutor();
DelegatingSecurityContextExecutor executor =
new DelegatingSecurityContextExecutor(delegateExecutor, context);
Runnable originalRunnable = new Runnable() {
public void run() {
// invoke secured service
}
};
executor.execute(originalRunnable);
val context: SecurityContext = SecurityContextHolder.createEmptyContext()
val authentication: Authentication =
UsernamePasswordAuthenticationToken("user", "doesnotmatter", AuthorityUtils.createAuthorityList("ROLE_USER"))
context.authentication = authentication
val delegateExecutor = SimpleAsyncTaskExecutor()
val executor = DelegatingSecurityContextExecutor(delegateExecutor, context)
val originalRunnable = Runnable {
// invoke secured service
}
executor.execute(originalRunnable)
The code performs the following steps:
-
Creates the
SecurityContext
to be used for ourDelegatingSecurityContextExecutor
. Note that in this example we simply create theSecurityContext
by hand. However, it does not matter where or how we get theSecurityContext
(i.e. we could obtain it from theSecurityContextHolder
if we wanted). -
Creates a delegateExecutor that is in charge of executing submitted
Runnable
s -
Finally we create a
DelegatingSecurityContextExecutor
which is in charge of wrapping any Runnable that is passed into the execute method with aDelegatingSecurityContextRunnable
. It then passes the wrapped Runnable to the delegateExecutor. In this instance, the sameSecurityContext
will be used for every Runnable submitted to ourDelegatingSecurityContextExecutor
. This is nice if we are running background tasks that need to be run by a user with elevated privileges. -
At this point you may be asking yourself "How does this shield my code of any knowledge of Spring Security?" Instead of creating the
SecurityContext
and theDelegatingSecurityContextExecutor
in our own code, we can inject an already initialized instance ofDelegatingSecurityContextExecutor
.
-
Java
-
Kotlin
@Autowired
private Executor executor; // becomes an instance of our DelegatingSecurityContextExecutor
public void submitRunnable() {
Runnable originalRunnable = new Runnable() {
public void run() {
// invoke secured service
}
};
executor.execute(originalRunnable);
}
@Autowired
lateinit var executor: Executor // becomes an instance of our DelegatingSecurityContextExecutor
fun submitRunnable() {
val originalRunnable = Runnable {
// invoke secured service
}
executor.execute(originalRunnable)
}
Now our code is unaware that the SecurityContext
is being propagated to the Thread
, then the originalRunnable
is run, and then the SecurityContextHolder
is cleared out.
In this example, the same user is being used to run each thread.
What if we wanted to use the user from SecurityContextHolder
at the time we invoked executor.execute(Runnable)
(i.e. the currently logged in user) to process originalRunnable
?
This can be done by removing the SecurityContext
argument from our DelegatingSecurityContextExecutor
constructor.
For example:
-
Java
-
Kotlin
SimpleAsyncTaskExecutor delegateExecutor = new SimpleAsyncTaskExecutor();
DelegatingSecurityContextExecutor executor =
new DelegatingSecurityContextExecutor(delegateExecutor);
val delegateExecutor = SimpleAsyncTaskExecutor()
val executor = DelegatingSecurityContextExecutor(delegateExecutor)
Now anytime executor.execute(Runnable)
is executed the SecurityContext
is first obtained by the SecurityContextHolder
and then that SecurityContext
is used to create our DelegatingSecurityContextRunnable
.
This means that we are running our Runnable
with the same user that was used to invoke the executor.execute(Runnable)
code.
Spring Security Concurrency Classes
Refer to the Javadoc for additional integrations with both the Java concurrent APIs and the Spring Task abstractions. They are quite self-explanatory once you understand the previous code.
-
DelegatingSecurityContextCallable
-
DelegatingSecurityContextExecutor
-
DelegatingSecurityContextExecutorService
-
DelegatingSecurityContextRunnable
-
DelegatingSecurityContextScheduledExecutorService
-
DelegatingSecurityContextSchedulingTaskExecutor
-
DelegatingSecurityContextAsyncTaskExecutor
-
DelegatingSecurityContextTaskExecutor
-
DelegatingSecurityContextTaskScheduler