Mechanized Proofs of Adversarial Complexity and Application to Universal Composability

IF 3 4区 计算机科学 Q2 COMPUTER SCIENCE, INFORMATION SYSTEMS ACM Transactions on Privacy and Security Pub Date : 2023-03-31 DOI:10.1145/3589962
Manuel Barbosa, Gilles Barthe, Benjamin Grégoire, Adrien Koutsos, Pierre-Yves Strub
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引用次数: 1

Abstract

In this work, we enhance the EasyCrypt proof assistant to reason about the computational complexity of adversaries. The key technical tool is a Hoare logic for reasoning about computational complexity (execution time and oracle calls) of adversarial computations. Our Hoare logic is built on top of the module system used by EasyCrypt for modeling adversaries. We prove that our logic is sound w.r.t. the semantics of EasyCrypt programs—we also provide full semantics for the EasyCrypt module system, which was lacking previously. We showcase (for the first time in EasyCrypt and in other computer-aided cryptographic tools) how our approach can express precise relationships between the probability of adversarial success and their execution time. In particular, we can quantify existentially over adversaries in a complexity class and express general composition statements in simulation-based frameworks. Moreover, such statements can be composed to derive standard concrete security bounds for cryptographic constructions whose security is proved in a modular way. As a main benefit of our approach, we revisit security proofs of some well-known cryptographic constructions and present a new formalization of universal composability.
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对抗性复杂性的机械化证明及其在普遍可组合性中的应用
在这项工作中,我们增强了EasyCrypt证明助手来推断对手的计算复杂性。关键的技术工具是用于对抗性计算的计算复杂性(执行时间和oracle调用)推理的Hoare逻辑。我们的Hoare逻辑建立在EasyCrypt用于对对手建模的模块系统之上。我们证明了我们的逻辑除了EasyCrypt程序的语义之外是合理的——我们还为EasyCrypt模块系统提供了以前所缺乏的完整语义。我们(首次在EasyCrypt和其他计算机辅助加密工具中)展示了我们的方法如何表达对抗性成功概率与其执行时间之间的精确关系。特别是,我们可以在复杂性类中对对手进行存在性量化,并在基于模拟的框架中表达通用组合语句。此外,还可以将这些语句组合起来,以导出以模块化方式证明其安全性的加密结构的标准具体安全界。作为我们的方法的主要优点,我们重新审视了一些著名的加密结构的安全性证明,并提出了通用可组合性的新形式化。
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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来源期刊
ACM Transactions on Privacy and Security
ACM Transactions on Privacy and Security Computer Science-General Computer Science
CiteScore
5.20
自引率
0.00%
发文量
52
期刊介绍: ACM Transactions on Privacy and Security (TOPS) (formerly known as TISSEC) publishes high-quality research results in the fields of information and system security and privacy. Studies addressing all aspects of these fields are welcomed, ranging from technologies, to systems and applications, to the crafting of policies.
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