Differential Electromagnetic Analysis on AES Cryptographic System

2009 Second Pacific-Asia Conference on Web Mining and Web-based Application Pub Date : 2009-06-06 DOI:10.1109/WMWA.2009.46

G. Ding, Zhi-Xiang Li, Xiao-long Chang, Qiang Zhao

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引用次数: 9

Abstract

To study vulnerability of Advanced Encryption Standard(AES) against Side Channel Attacks(SCAs), First, the article analyzes the CMOS logical gate's electric current characteristic under the active status, explains data and electromagnetic emissions correlation of ICs¿establishes the electromagnetic information leakage Hamming Weight model. Next, aimed at the AES(128 bits) cryptographic system realized by the P89C668 microcomputer, Differential Electromagnetic Analysis (DEMA) algorithm was described, the choosing of attack point and the computational method were analyzed, an attack experiment was processed by DEMA, thereby obtaining secret key of AES(128 bits). After analyzing the experiment result at the instruction level, we find that the most serious leakage of secret information happens in the MOVX instruction which writes the output of S-box into external RAM. The result shows that EM information leakage exists in CMOS integrated circuit during work. DEMA is an effective attack on AES. It can provide a basis for implementing protective measures in the cryptographic systems.

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AES密码系统的差分电磁分析

为了研究高级加密标准(Advanced Encryption Standard, AES)对侧信道攻击(Side Channel Attacks, sca)的脆弱性，本文首先分析了CMOS逻辑门在有源状态下的电流特性，解释了ic的数据与电磁发射的相关性，建立了电磁信息泄漏汉明权重模型。其次，针对P89C668单片机实现的AES(128位)密码系统，介绍了差分电磁分析(DEMA)算法，分析了攻击点的选择和计算方法，并进行了差分电磁分析(DEMA)攻击实验，从而获得AES(128位)的密钥。通过对指令级实验结果的分析，我们发现机密信息泄露最严重的是将S-box的输出写入外部RAM的MOVX指令。结果表明，CMOS集成电路在工作过程中存在电磁信息泄漏。DEMA是对AES的有效攻击。它可以为在密码系统中实施保护措施提供依据。

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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2009 Second Pacific-Asia Conference on Web Mining and Web-based Application

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