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suppose I want to allow people run simple console java programs on my server without ability to access the file system, the network or other IO except via my own highly restricted API. But, I don't want to get too deep into operating system level restrictions, so for the sake of the current discussion I want to consider code level sanitization methods.

So suppose I try to achieve this restriction as follows. I will prohibit all "import" statements except for those explicitly whitelisted (let's say "import SanitizedSystemIO." is allowed while "import java.io." is not) and I will prohibit the string "java.*" anywhere in the code. So this way the user would be able to write code referencing File class from SanitizedSystemIO, but he will not be able to reference java.io.File. This way the user is forced to use my sanitized wrapper apis, while my own framework code (which will compile and run together with user's code, such as in order to provide the IO functionality) can access all regular java apis.

Will this approach work? Or is there a way to hack it to get access to the standard java api?

ETA: ok, first of all, it should of course be java.* strings not system.*. I think in C#, basically...

Second, ok, so people say, "use security manager" or "use class loader" approaches. But what, if anything, is wrong with the code analysis approach? One benefit of it to my mind is the sheer KISS simplicity - instead of figuring out all the things to check and sanitize in SecurityManager we just allow a small whitelist of functionality and block everything else. Implementation-wise this is a trivial exercise for people with minimal knowledge of java.

And to reiterate my original question, so can this be hacked? Is there some java language construct that would allow access to the underlying api despite such code restrictions?

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javaworld.com/javaworld/jw-05-1997/jw-05-security.html this article mentions some of the tings you're aiming for :) –  MDeSchaepmeester Apr 9 '12 at 16:50

3 Answers 3

In your shoes I'd rather run the loaded apps inside a custom ClassLoader.

Maybe I'm mistaken, but if he wants to allow limited access to IO through his own functions, wouldn't SecurityManager prevent those as well? With a custom ClassLoader, he could provide his SanitizedSystemIO while refusing to load the things he doesn't want people to load.

However, checking for strings inside code is definitely not the way to go.

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+1, With a custom SecurityManager, he could inspect the stack trace and allow access to IO if the request came from his own library, but this is an equally valid option. –  Jeffrey Apr 9 '12 at 16:58
    
@Jeffrey: Ah, I see. I didn't think of examining the stack trace. But isn't that an expensive operation? Custom ClassLoader should incur no runtime costs. –  Amadan Apr 9 '12 at 17:04
    
It is fairly expensive, but check methods aren't invoked all that often. –  Jeffrey Apr 9 '12 at 17:13
    
your answer is interesting (I was ignorant of the Class Loader thingie previously) but I really do want an answer about source code scrubbing approach. Whether it can be hacked or not, and if yes how. –  EndangeringSpecies Apr 14 '12 at 13:59
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Source scrubbing is much easier to screw up than a proper security strategy. You might accidentally leave holes (such as using reflection to load classes by name, using "ja" + "va." to avoid detection). –  Amadan Apr 14 '12 at 18:18

You need to check the SecurityManager. It is called by lots of JVM classes to check, before they perform their work, if they have the permission needed.

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You can implement your own SecurityManager. Tutorial.

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