基于故障的AEZ v4.2攻击

2017 IEEE Trustcom/BigDataSE/ICESS Pub Date : 2017-08-01 DOI:10.1109/Trustcom/BigDataSE/ICESS.2017.294

Hassan Qahur Al Mahri, L. Simpson, Harry Bartlett, E. Dawson, Kenneth Koon-Ho Wong

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引用次数: 2

摘要

研究了针对AEZ v4.2认证加密方案的差分故障攻击。AEZ使用三个不同的128位密钥(I, J, L)，可以在没有nonce或重复nonce的情况下工作。在这些条件下，本文确定了应用微分故障攻击的最佳位置。我们利用AEZ的结构来最小化密钥恢复所需的故障总数。我们提出了一种方法，可以减少检索所有三个AEZ密钥(I, J和L)所需的错误注入次数，从6个减少到4个，从而使这些密钥是唯一确定的。第二步，在不降低密钥恢复攻击成功率的前提下，进一步将故障注入减少到3次。对AEZ的差分故障攻击的改进使这些攻击更加实用。本文中的攻击使用C语言开发的AEZ v4.2通用实现进行了实验验证。

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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A Fault-based Attack on AEZ v4.2

This paper investigates differential fault attacks against AEZ v4.2 authenticated encryption scheme. AEZ uses three different 128-bit keys (I, J, L) and can potentially work without a nonce or with a repeated nonce. Under these conditions, this paper identifies the best place to apply differential fault attacks. We exploit the structure of AEZ to minimise the total number of faults required for key recovery. We propose an approach that can reduce the number of fault injections required to retrieve all three AEZ keys, I, J and L, from six to four such that these keys are uniquely determined. As a second step, we further reduce the fault injections to three without reducing the success rate of the key recovery attack. This improvement to differential fault attacks on AEZ makes these attacks more practical. The attacks in this paper are verified experimentally using a generic implementation of AEZ v4.2 developed in C.

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2017 IEEE Trustcom/BigDataSE/ICESS

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