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It should be the case that the Linux kernel, when it is a host kernel, should not be adversely affected by what a guest kernel executes inside a virtual machine.

I'd like to test that property by fuzzing the interface from the guest kernel to the host kernel. It seems clear to me that the test needs to run inside the guest kernel (say, in a kernel module), generate arbitrary code, and then execute that code. The test fails if the host kernel crashes (or does something "interesting").

So, my questions are:

  • Do you know of any tests that already accomplish this?
  • Are there instructions that are expected to crash the host kernel that I need to avoid?
  • What is the best way to generate garbage inside the Linux kernel?
  • Once I've generated the garbage, how do I execute it?

For the time being, I'd like to just focus on the general fuzzing approach. Later on after I get this test working, I'll change it to surgically fuzz different virtualized instructions and drivers in the kernel.

Update: After thinking about it further, fuzzing with complete garbage isn't going to work since I'll be crashing my guest machine way more often than I expect to be crashing my host. So, I think I need to approach this surgically from the start. Any advice?

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A bit ambitious, perhaps you should cut your teeth by hacking an easier project. –  Rook Apr 20 '11 at 16:24
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1 Answer 1

To a large extent finding serous 0-days is about writing imaginative tests. When you are building a test a system you need to identify its attack surface. In web applications this is easy, GET/POST requests. For something like a VM, its more complex. The actual hardware provided to you, is an illusion created by the KVM. At some point this data interaction with this device will be processed by the host.

Other important resource is looking for vulnerabilities that have already been found in your target. Often times programmers make very similar mistakes, and similar bugs are very common. These CVE's: CVE-2010-0297 CVE-2010-0298 CVE-2010-0306 CVE-2010-0309, are a good examples of vulnerabilities LInux's KVM. Two hardware devices that stick out are the CPU and USB, which where both compromised.

A very powerful fuzzing platform is Peach. Many tests can be created using XML alone, although if you know python you can extend peach to do anything.

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Is 'imaginative' similar to 'ambitious'? :) –  Jeremy Powell Apr 20 '11 at 16:59
    
Thanks for the pointer to those CVEs; I'm not yet familiar with out the virtualized devices work, so I'll use those as a starting point. –  Jeremy Powell Apr 20 '11 at 17:01
    
I wonder how I would go about interfacing Peach (python) with a kernel module, though? Or did you have something else in mind? –  Jeremy Powell Apr 20 '11 at 17:03
    
@Jeremy Powell, in linux everything is a file. Devices can be found in /dev/. A cheap way of fuzzing could be for peach to open one of these files and start writing to the device. Although if you learn how device drivers are written you will be more successful. –  Rook Apr 20 '11 at 17:53
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