对 FLIP 和 FiLIP 的理论差分故障攻击

Pierrick Méaux, Dibyendu Roy
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摘要

本文研究了针对 FLIP 和 FiLIP 两种流密码的差分故障攻击(DFA)。我们探讨了对手在未知位置翻转密钥单比特的故障模型。我们的分析包括建立这些攻击的复杂度边界,取决于作为过滤器使用的布尔函数的加密参数和密钥大小。首先,我们展示了灵敏度的概念如何使我们只需使用几个密钥流比特就能检测到故障位置。这比以前应用于这些密码的 DFA 方法更先进。随后,我们利用滤波器导数的特性来实施攻击。这种方法普遍适用于任何滤波器,我们还为这些密码中先前实现的两个函数族划分了具体的攻击策略。
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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Theoretical differential fault attacks on FLIP and FiLIP

In this article, we examine Differential Fault Attacks (DFA) targeting two stream ciphers, FLIP and FiLIP. We explore the fault model where an adversary flips a single bit of the key at an unknown position. Our analysis involves establishing complexity bounds for these attacks, contingent upon the cryptographic parameters of the Boolean functions employed as filters and the key size. Initially, we demonstrate how the concept of sensitivity enables the detection of the fault position using only a few keystream bits. This represents an enhancement over previous DFA methodologies applied to these ciphers. Subsequently, we leverage the properties of the filter’s derivatives to execute attacks. This approach is universally applicable to any filter, and we delineate specific attack strategies for the two function families previously implemented in these ciphers.

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