高阶定时攻击

CS2 '14 Pub Date : 2014-01-20 DOI:10.1145/2556315.2556316

J. Danger, Nicolas Debande, S. Guilley, Youssef Souissi

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引用次数: 10

摘要

定时攻击(TA)是一种侧信道分析(SCA)变体，它利用计算持续时间中的信息泄漏。以前，在时间上的泄漏被利用比较分析，最常见的是由于“相关碰撞”或克隆设备上的预表征。时间偏差也可以用于在非轮廓设置中通过线性相关来破坏秘密密码系统。相关功率攻击(CPA)与TA有直接的相似之处，区别是相同的，但被利用的数据是垂直的或水平的。针对这种攻击的对策包括使算法在随机或恒定时间内运行。在本文中，我们证明了前者容易受到高阶攻击，这些攻击分析了代码执行过程中时间计算的较高时刻。我们提出了基于相关的二阶时序攻击(20 - ta)，并将其与二阶功率攻击进行了比较。所有实验都是在运行AES-128的8位处理器上进行的。

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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High-order timing attacks

The timing attack (TA) is a side-channel analysis (SCA) variant that exploits information leakage through the computation duration. Previously, leakages in timing have been exploited by comparison analysis, most often thanks to "correlation - collision" or pre-characterization on a clone device. Time bias can also be used to break a secret crypto-system by linear correlations in a non-profiled setting. There is direct parallel between the Correlation Power Attack (CPA) and TA, the distinguisher being the same, but the exploited data being either vertical or horizontal. The countermeasures against such attacks consist in making the algorithm run in either random or constant time. In this paper, we show that the former is prone to high-order attacks that analyse the higher moments of the time computation during code execution. We present successful second-order timing attacks (2O-TA) based on a correlation and compare it to the second-order power attack. All experiments have been conducted on an 8-bit processor running an AES-128.

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CS2 '14

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