Probing the Limits of Virtualized Software Protection

Proceedings of the 4th Program Protection and Reverse Engineering Workshop Pub Date : 2014-12-09 DOI:10.1145/2689702.2689707

Joshua Cazalas, J. McDonald, T. Andel, Natalia Stakhanova

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引用次数: 9

Abstract

Virtualization is becoming a prominent field of research not only in distributed systems, but also in software protection and obfuscation. Software virtualization has given rise to advanced techniques that may provide intellectual property protection and anti-cloning resilience. We present results of an empirical study that answers whether integrity of execution can be preserved for process-level virtualization protection schemes in the face of adversarial analysis. Our particular approach considers exploits that target the virtual execution environment itself and how it interacts with the underlying host operating system and hardware. We give initial results that indicate such protection mechanisms may be vulnerable at the level where the virtualized code interacts with the underlying operating system. The resolution of whether such attacks can undermine security will help create better detection and analysis methods for malware that also employ software virtualization. Our findings help frame research for additional mitigation techniques using hardware-based integration or hybrid virtualization techniques that can better defend legitimate uses of virtualized software protection.

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探讨虚拟化软件保护的极限

虚拟化正在成为一个重要的研究领域，不仅在分布式系统，而且在软件保护和混淆。软件虚拟化已经产生了先进的技术，可以提供知识产权保护和反克隆弹性。我们提出了一项实证研究的结果，该研究回答了在面对对抗性分析时，是否可以保留进程级虚拟化保护方案的执行完整性。我们的特殊方法考虑了针对虚拟执行环境本身以及它如何与底层主机操作系统和硬件交互的漏洞利用。我们给出的初步结果表明，在虚拟代码与底层操作系统交互的级别上，这种保护机制可能是脆弱的。这类攻击是否会破坏安全的解决方案将有助于为同样采用软件虚拟化的恶意软件创建更好的检测和分析方法。我们的研究结果有助于研究使用基于硬件的集成或混合虚拟化技术的其他缓解技术，这些技术可以更好地保护虚拟化软件保护的合法使用。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Proceedings of the 4th Program Protection and Reverse Engineering Workshop

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