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Is it possible to produce compilers that heuristically check for malware behaviour? If it is possible why has not it been implemented? Wouldn't that strongly help preventing the production of such viruses, I mean why wait to stop them once they are out there?

Even if these people use a compiler that does not use the "proposed" built in AV, personal AV could detect that and grade the file as risky (sort of like SSL Certificates)

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3 Answers 3

up vote 11 down vote accepted

You're making a lot of assumptions:

  • That the virus writers couldn't disable the built-in AV of any open-source (or even closed-source) compilers. Given how DRM is consistently and quickly broken, this seems unlikely.
  • That the virus writers couldn't simply use an existing pre-AV compiler.
  • That the virus writers couldn't create their own non-AV compiler.
  • That there are no legitimate programs that would trigger the compiler's AV heuristics.
  • That today's compiler writers can accurately predict and model all current and future AV behavior in order to produce a heuristic that is even remotely effective.

Seems to me like it's a non-starter.

Your comment about using non-AV compilers is essentially "code signing", and has been a common practice for years (decades?). The barrier there, however, is distribution of certificates, and coming up with a reasonable list of trusted signers. They're big enough problems that noone's found a way to solve them yet without severely limiting the usefulness of computers.

For even more information closely related to this subject, see this paper by Ken Thompson.

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Fair points buddy. With the first 4 points - thats why i said - if the final "program" is not scanned then they dont get some sort of encrypted "pass certificate". If that file is released "unchecked" then the certificate will be missing or inaccurate, which could then be flagged risky by another AV on the receiving end, resulting in thorough-er scanning. –  Carlos Nov 16 '10 at 21:56
    
Ok, thanks for the info with ur update! makes sense –  Carlos Nov 16 '10 at 21:58
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Even if you solved the certificate-distribution problem and the who-to-trust problem, you'd still be left with the problem of virus writers disabling the check-for-viruses part of the compiler but not the mark-as-clean part. –  Mark Nov 16 '10 at 22:03
    
yeah that's actually another good point, thanks for the constructive criticism though :) –  Carlos Nov 16 '10 at 22:06
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One possible workaround for much of the preceding concerns is for the compiler to run it's analyses of the code and then embed into the executable a machine readable proof that the code fits some criteria. No certs needed, the user-AV just checks the proof. This would work for a wide variety of attributes that a program can claim to exhibit. If a standard set of attributes became prevalent, malware would generally be conspicuous by ommition. –  BCS Nov 18 '10 at 18:38
  • Existing AV generally works with a black-list approach. (Comparing threat signatures against files.) That would be, by definition, almost useless on an entirely new threat.

  • Every operation you could try to classify would end up blocking a legitimate program; if the operations didn't have a legitimate use, the OS designers would remove them for safety reasons.

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I am aware on your first point, as am developing a genetic algorithm AV at the moment for my undergrad project and that is one of the reasons why i decided to do it (static signature comparison being the main method used today for detection which IMO is rather poor). Yet there is heuristics. –  Carlos Nov 16 '10 at 22:51

There is the classical paper "Reflections on Trusting Trust" by Ken Thompson.

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Thanks for the resource buddy, although Mark also posted it. Ill give it a read –  Carlos Nov 16 '10 at 23:17

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