程序混淆的随机优化

Han Liu, Chengnian Sun, Z. Su, Yu Jiang, M. Gu, Jiaguang Sun
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引用次数: 28

摘要

程序混淆是软件开发中常见的一种做法,用于模糊源代码或二进制代码,以防止人们理解软件的目的或逻辑。它保护知识产权,阻止恶意攻击。尽管人们已经为开发各种混淆技术付出了巨大的努力,但我们对于如何最有效地将它们结合起来使用却知之甚少。最大的挑战在于确定最有效的混淆技术组合。本文提出了一个优化程序混淆的统一框架。给定一个输入程序P和一组混淆变换T,我们的技术可以自动识别序列seq = [t1, t2,…,tn›](∀i∈[1,n])。ti∈T),使得在P上依次应用ti可获得最佳的混淆性能。我们将搜索seq的过程建模为一个数学优化问题。本文的关键技术贡献是:(1)一个模糊语言模型来评估混淆有效性/最优性;(2)一个基于马尔可夫链蒙特卡罗方法的引导随机算法来搜索最优解序列。我们已经在JavaScript的Closure*工具中实现了这个框架,并在GitHub上25个最受好评的JavaScript项目(19K行代码)上对它进行了评估。我们的机器研究表明,Closure*通过防御由JSNice发起的26%的攻击,优于著名的Google Closure Compiler。我们的人类研究也表明,封闭*是实用的,可以减少人类攻击成功率30%。
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Stochastic Optimization of Program Obfuscation
Program obfuscation is a common practice in software development to obscure source code or binary code, in order to prevent humans from understanding the purpose or logic of software. It protects intellectual property and deters malicious attacks. While tremendous efforts have been devoted to the development of various obfuscation techniques, we have relatively little knowledge on how to most effectively use them together. The biggest challenge lies in identifying the most effective combination of obfuscation techniques. This paper presents a unified framework to optimize program obfuscation. Given an input program P and a set T of obfuscation transformations, our technique can automatically identify a sequence seq = ‹t1, t2, …, tn› (∀i ∈ [1, n]. ti ∈ T), such that applying ti in order on P yields the optimal obfuscation performance. We model the process of searching for seq as a mathematical optimization problem. The key technical contributions of this paper are: (1) an obscurity language model to assess obfuscation effectiveness/optimality, and (2) a guided stochastic algorithm based on Markov chain Monte Carlo methods to search for the optimal solution seq. We have realized the framework in a tool Closure* for JavaScript, and evaluated it on 25 most starred JavaScript projects on GitHub (19K lines of code). Our machinery study shows that Closure* outperforms the well-known Google Closure Compiler by defending 26% of the attacks initiated by JSNice. Our human study also reveals that Closure* is practical and can reduce the human attack success rate by 30%.
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