On hardware Trojan design and implementation at register-transfer level

Jie Zhang, Q. Xu
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引用次数: 46

Abstract

There have been a number of hardware Trojan (HT) designs at register-transfer level (RTL) in the literature, which mainly describe their malicious behaviors and trigger mechanisms. Generally speaking, the stealthiness of the HTs is shown with extremely low sensitization probability of the trigger events. In practice, however, based on the fact that HTs are not sensitized with verification test cases (otherwise their malicious behaviors would have manifested themselves), designers could focus on verification corners for HT detection. Consequently, a stealthy HT not only requires to be hard to trigger, but also needs to be able to evade those hardware trust verification techniques based on “unused circuit identification (UCI)”. In this paper, we present new HT design and implementation techniques that are able to achieve the above objectives. In addition, attackers would like to be able to control their HTs easily, which is also considered in the proposed HT design methodology. Experimental results demonstrate that HTs constructed with the proposed technique are both hard to be detected and easy to be controlled when compared to existing HTs shown in the literature.
寄存器传输级硬件木马的设计与实现
文献中已经出现了许多寄存器-传输级(RTL)硬件木马(HT)的设计,主要描述了它们的恶意行为和触发机制。一般来说,高温超导的隐身性表现为触发事件的极低敏化概率。然而,在实践中,基于验证测试用例对HT不敏感的事实(否则它们的恶意行为就会表现出来),设计人员可以关注HT检测的验证角。因此,隐形HT不仅要求难以触发,而且需要能够规避基于“未使用电路识别(UCI)”的硬件信任验证技术。在本文中,我们提出了能够实现上述目标的新的HT设计和实现技术。此外,攻击者希望能够轻松地控制他们的HT,这也在提出的HT设计方法中得到了考虑。实验结果表明,与现有文献相比,利用该技术构建的高温超导既难以检测又易于控制。
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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