Feasibility of fault analysis based on intentional electromagnetic interference

2012 IEEE International Symposium on Electromagnetic Compatibility Pub Date : 2012-11-12 DOI:10.1109/ISEMC.2012.6351665

J. Takahashi, Yu-ichi Hayashi, N. Homma, H. Fuji, T. Aoki

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引用次数: 9

Abstract

This paper presents the feasibility of fault analysis using intentional electromagnetic interference (IEMI). Fault analysis (FA) is a kind of implementation attack that intentionally extracts a secret key embedded in a secure device such as a smart card. An attacker injects a computational fault during the cryptographic calculation and he can extract a secret key. Recently, Hayashi et al. showed that temporal faults could be remotely injected during the cryptographic calculation using IEMI. They showed a case study in which an Advanced Standard Encryption (AES) secret key could be extracted through fault analysis. However, the characteristics of faults that can be induced by IEMI were not described. And, a threat of various FAs was not clear. In this paper, we examine in detail how the IEMI fault injection affects the fault occurrence of intermediate states in a cryptographic module and investigate the distribution of the IEMI generated faults. Furthermore, we classify previous FAs with respect to an attack model such as the type of faults needed to achieve a successful attack, and discuss the feasibility of FAs using IEMI based on the experimental results.

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基于故意电磁干扰的故障分析的可行性

提出了利用故意电磁干扰(IEMI)进行故障分析的可行性。故障分析(FA)是一种故意提取嵌入在安全设备(如智能卡)中的密钥的实现攻击。攻击者在加密计算过程中注入计算错误，就可以提取密钥。最近，Hayashi等人利用IEMI证明了在加密计算过程中可以远程注入时间错误。他们展示了一个可以通过故障分析提取高级标准加密(AES)密钥的案例研究。然而，IEMI可能诱发的故障特征没有被描述。而且，各种FAs的威胁还不清楚。本文详细研究了IEMI故障注入对加密模块中间状态故障发生的影响，并研究了IEMI产生的故障分布。此外，我们根据攻击模型(如实现成功攻击所需的故障类型)对先前的FAs进行分类，并根据实验结果讨论了使用IEMI进行FAs的可行性。

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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2012 IEEE International Symposium on Electromagnetic Compatibility

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