电磁注入诱发本地定时故障

M. Ghodrati, Bilgiday Yuce, S. Gujar, Chinmay Deshpande, L. Nazhandali, P. Schaumont
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引用次数: 12

摘要

电磁故障注入(EMFI)是一类有效的物理攻击,它可以破坏安全密码算法的免疫力。尽管成功的EMFI攻击,电磁注入(EM)对处理器的影响还不是很清楚。本文从下至上的角度分析了EMFI对RISC微处理器的影响。我们在三个层面研究这些影响:在导线层面,在芯片网络层面,在考虑电磁注入位置和时间等参数的栅极层面。我们得出结论,EMFI会引起局部定时错误,这意味着当前的定时攻击检测和预防技术可以适应克服EMFI。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Inducing Local Timing Fault Through EM Injection
Electromagnetic fault injection (EMFI) is an efficient class of physical attacks that can compromise the immunity of secure cryptographic algorithms. Despite successful EMFI attacks, the effects of electromagnetic injection (EM) on a processor are not well understood. This paper presents a bottom-up analysis of EMFI effects on a RISC microprocessor. We study these effects at three levels: at the wire-level, at the chip-network level, and at the gate-level considering parameters such as EM-injection location and timing. We conclude that EMFI induces local timing errors implying current timing attack detection and prevention techniques can be adapted to overcome EMFI.
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