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I have been trying to use a custom SecurityManager to sandbox some externally loaded code. The SecurityManager I have works fine. I have taken the same approach as numerous posts here suggested: set the custom manager whenever the potentially dangerous code executes, then revert back to the standard manager. This works fine and does what I want. However, the application is multi-threaded: 2 threads using the custom manager, one using the default one. This leads to the situation where the trusted code might be prevented from running properly as another thread just set the custom security manager. Is there a way to work around this? Alternatively, is there a better way altogether? I saw some posts talking about using different policies with the same security manager but I could not find a good example of this. Any help greatly appreciated.

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Which way round is this? Is it the externally loaded code that requires ( and is being granted ) the higher permissions? – DaveH May 10 '11 at 12:07
The externally loaded code should have minimal permissions, the main code / main thread (which loads the external code) should have all permissions. – coderino May 10 '11 at 12:12
We had a similar problem too, as far as I know, the security manager is unique and shared for the entire VM and you cannot concurrently have different security managers. You would have to run some portions of your threaded code in synchronized blocks or something like that (ugly) – Danilo Tommasina May 10 '11 at 12:21
OK - my suggestion was going to be along the lines of Peter's below. – DaveH May 10 '11 at 12:21
I have taken the same approach as numerous posts here suggested: set the custom manager whenever the potentially dangerous code executes, then revert back to the standard manager. Ughh, who has advised to do so? You can always determine the calling thread and the calling AccessControlContext... that's how it should not be done (in a nutshell, setting/unsetting the SM is not the way to go) – bestsss May 10 '11 at 14:54

3 Answers 3

up vote 2 down vote accepted

Your SecurityManager can check which thread is running. A simple thread local will do this, however, you may want an InheritableThreadLocal so that any additional Threads created "inherit" the threads security level.

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this seems "tricky" to get right. presumably a given thread may operate in different contexts over time, so you need to propagate the current context when a new thread is launched (and probably not change it back with any changes to the old thread). additionally, you need to worry about thread pools or other places where threads could be shared. – jtahlborn May 10 '11 at 14:22
thanks for the answer. I have now implemented something similar: the main thread "registers" those threads deemed untrusted (using their ids) and the checkPermission method in SecurityManger checks for the id of the calling thread. However, this does probably not work in case the untrusted code creates sub-threads. At the moment, this would not be allowed. But if it would be required, then the above method would likely fail. – coderino May 10 '11 at 14:40
@coderino - i don't know how long you maintain the thread ids, but beware that there is no guarantee that a thread id is unique for the lifetime of a jvm (as mentioned in the javadoc… ). – jtahlborn May 10 '11 at 15:08
Using InheritableThreadLocal solves the problem of sub-threads and non-unique thread names. You can call all your thread "main" and you can change it with Thread.setName(). – Peter Lawrey May 10 '11 at 15:24
@Peter Lawrey - ITL will work for directly spawned threads as long as the value is an immutable object (so that changing the parent thread's value does not change the child's value). it doesn't solve the shared thread problem (e.g. thread pools). ultimately, i still think it's preferable to use the java security architecture as designed, much less risk of "accidental" privilege leakage. (also, the uniqueness problem is for thread ids, not names). – jtahlborn May 10 '11 at 16:06

Testing the current thread or removing security restrictions is not a good idea. Just as a for instance, suppose the untrusted code has a finaliser that likes to sleep?

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You use one securitymanager for your entire application. the java security framework was designed to handle this scenario. the way you get things to work is using the codebases feature of the policy file, which enables you to assign different permissions to different codebases. you can assign your "main" codebase "all permissions" and it will function as normal. you can assign any imported code to a restricted codebase.

this is all heavily documented here, probably the part most relevant to this issue is the policy file information.

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I will give this a go. Is there any good documentation on this including examples? – coderino May 10 '11 at 14:46
added links to the relevant sun/oracle documentation. – jtahlborn May 10 '11 at 15:06
Great, thanks. I will go through these references to see what I can use. – coderino May 10 '11 at 15:16

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