a framework for automated similarity analysis of malware

Malware, a category of software including viruses, worms, and other malicious programs, is developed by hackers to damage, disrupt, or perform other harmful actions on data, computer systems and networks. Malware analysis, as an indispensable part of the work of IT security specialists, aims to gain an in-depth understanding of malware code. Manual analysis of malware is a very costly and time-consuming process. As more malware variants are evolved by hackers who occasionally use a copy-paste-modify programming style to accelerate the generation of large number of malware, the effort spent in analyzing similar pieces of malicious code has dramatically grown. One approach to remedy this situation is to automatically perform similarity analysis on malware samples and identify the functions they share in order to minimize duplicated effort in analyzing similar codes of malware variants. In this thesis, we present a framework to match cloned functions in a large chunk of malware samples. Firstly, the instructions of the functions to be analyzed are extracted from the disassembled malware binary code and then normalized. We propose a new similarity metric and use it to determine the pair-wise similarity among malware samples based on the calculated similarity of their functions. The developed tool also includes an API class recognizer designed to determine probable malicious operations that can be performed by malware functions. Furthermore, it allows us to visualize the relationship among functions inside malware codes and locate similar functions importing the same API class. We evaluate this framework on three malware datasets including metamorphic viruses created by malware generation tools, real-life malware variants in the wild, and two well-known botnet trojans. The obtained experimental results confirm that the proposed framework is effective in detecting similar malware code

Software similarity and classification

This thesis analyses software programs in the context of their similarity to other software programs. Applications proposed and implemented include detecting malicious software and discovering security vulnerabilities