多通道时频融合攻击

Int. J. Inf. Comput. Secur. Pub Date : 2021-08-27 DOI:10.1504/ijics.2021.10040714

Yuchen Cao, Yongbin Zhou, Hailong Zhang

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引用次数: 2

摘要

侧信道分析(SCA)是针对加密实现的最强大的攻击之一。多通道融合攻击(MCFA)是一种新型的多通道融合攻击，它可以利用从不同侧通道测量到的泄漏量。到目前为止，现有的mcfa主要工作在时域。考虑时频联合信息，提出时频融合攻击(TFFA)。TFFA可以很容易地扩展到多通道情况，这种攻击被称为多通道时频融合攻击(MCTFFA)。与现有的mcfa相比，TFFA和MCTFFA更有效。针对无保护AES-128(在MCU和FPGA上实现)和掩码AES-128(在FPGA上实现)的实际实验表明，与MCFA相比，适当的MCTFFA可以将实现1成功率所需的走线数量减少23%至60%。这些改进可以在没有测量复杂性开销的情况下实现。

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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Multi-channel time-frequency fusion attacks

Side-channel analysis (SCA) is one of the most powerful attacks against cryptographic implementations. Multi-channel fusion attack (MCFA) which can utilise leakages measured from different side channels is a new type of SCA. Till now, existing MCFAs mainly work in the time domain. This paper take time-frequency joint information into consideration, and proposes time-frequency fusion attacks (TFFA). TFFA can be easily expanded to multi-channel case, and this kind of attack is named multi-channel time-frequency fusion attack (MCTFFA). In comparison to existing MCFAs, TFFA and MCTFFA are more effective. Practical experiments against unprotected AES-128 (implemented on MCU and FPGA) and masked AES-128 (implemented on FPGA) show that proper MCTFFA can reduce the number of traces needed to achieve a success rate of 1 by 23% to 60%, compared to that of MCFA. These improvements can be achieved without overhead in measurement complexity.

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Int. J. Inf. Comput. Secur.

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