| Abstrakt: |
As a general rule, copycats produce most of malware variants from an original malware strain. For this purpose, they widely perform black-box analyses of commercial scanners aiming at extracting malware detection patterns. In this paper, we first study the malware detection pattern extraction problem from a complexity point of view and provide the results of a wide-scale study of commercial scanners’ black-box analysis. These results clearly show that most of the tested commercial products fail to thwart black-box analysis. Such weaknesses therefore urge copycats to produce even more malware variants. Then, we present a new model of malware detection pattern based on Boolean functions and identify some properties that a reliable detection pattern should have. Lastly, we describe a combinatorial, probabilistic malware pattern scanning scheme that, on the one hand, highly limits black-box analysis and on the other hand can only be bypassed in the case where there is collusion between a number of copycats. This scheme can incidentally provide some useful technical information to malware crime investigators, thus allowing a faster identification of copycats. [ABSTRACT FROM AUTHOR] |
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