Experimental analysis of the electromagnetic instruction skip fault model and consequences for software countermeasures

Dutertre Jean-Max; Menu Alexandre; Potin Olivier; Rigaud Jean-Baptiste; Danger Jean-Luc

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Experimental analysis of the electromagnetic instruction skip fault model and consequences for software countermeasures

机译：电磁指令跳过故障模型的实验分析及软件对策后果

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Microcontrollers storing valuable data or using security functions are vulnerable to fault injection attacks. Among the various types of faults, instruction skips induced at runtime proved to be effective against identification routines or encryption algorithms. Until recently, most research works assessed a fault model that consists in a single instruction skip, i.e. the ability to prevent one chosen instruction in a program from being executed. We question this fault model for EM fault injection on experimental basis and report the possibility to induce several consecutive instructions skips. Such an extended fault model proved to be effective against a duplicationbased software countermeasure as our experiments revealed.

机译：存储有价值的数据或使用安全功能的微控制器容易受到故障注入攻击。在各种类型的故障中，在运行时感应的指令跳过证明是对识别例程或加密算法有效的。直到最近，大多数研究工作评估了一个故障模型，该故障模型包括在单个指令跳过中，即防止程序中的一个所选指令的能力。我们质疑实验基础上的EM故障注射故障模型，并报告可能诱导连续几个指令跳过的可能性。在我们的实验揭示时，这种扩展的故障模型被证明是对重复基础的软件对策。

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来源
《Microelectronics reliability》 |2021年第6期|114133.1-114133.9|共9页
作者
Dutertre Jean-Max; Menu Alexandre; Potin Olivier; Rigaud Jean-Baptiste; Danger Jean-Luc;
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作者单位

Mines St Etienne Ctr CMP CEA Tech F-13541 Gardanne France;

Mines St Etienne Ctr CMP CEA Tech F-13541 Gardanne France;

Mines St Etienne Ctr CMP CEA Tech F-13541 Gardanne France;

Mines St Etienne Ctr CMP CEA Tech F-13541 Gardanne France;

IP Telecom Paris LTCI Paris France;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
Hardware attacks; EM fault injection; Fault model;

机译：硬件攻击;EM故障注射;故障模型;

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1. Cross-layer analysis of software fault models and countermeasures against hardware fault attacks in a RISC-V processor [J] . Laurent Johan, Beroulle Vincent, Deleuze Christophe, Microprocessors and microsystems . 2019,第Nova期

机译：RISC-V处理器中软件故障模型的跨层分析和针对硬件故障攻击的对策
2. Formal verification of a software countermeasure against instruction skip attacks [J] . N. Moro, K. Heydemann, E. Encrenaz, Journal of cryptographic engineering . 2014,第3期

机译：正式验证针对指令跳过攻击的软件对策
3. Modeling and analysis of software fault detectability and removability with time variant fault exposure ratio, fault removal efficiency, and change point [J] . Chatterjee Subhashis, Shukla Ankur, Pham Hoang Proceedings of the Institution of Mechanical Engineers, Part O. Journal of Risk and Reliability . 2019,第2期

机译：软件故障检测的建模与分析及时变量故障曝光比，故障去除效率和变化点
4. Experimental Analysis of the Electromagnetic Instruction Skip Fault Model [C] . Alexandre Menu, Jean-Max Dutertre, Olivier Potin, International Conference on Design Technology of Integrated Systems In Nanoscale Era . 2020

机译：电磁指令跳过故障模型的实验分析
5. Mathematical modeling and decision analysis for terrorism defense: Assessing chlorine truck attack consequence and countermeasure cost effectiveness. [D] . Barrett, Anthony Michael. 2009

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6. An Effective Simulation Analysis of Transient Electromagnetic Multiple Faults [O] . Liang Dong, Hongxin Zhang, Shaofei Sun, 2020

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7. Experimental Analysis of the Electromagnetic Instruction Skip Fault Model [O] . Alexandre Menu, Jean-Max Dutertre, Olivier Potin, 2020

机译：电磁指令跳过故障模型的实验分析
8. Fault Tree and Cause Consequence Analysis for Control Software Validation [R] . Taylor, J. R. 1982

机译：控制软件验证的故障树及原因后果分析

Experimental analysis of the electromagnetic instruction skip fault model and consequences for software countermeasures

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