RISC CPU数据序列化效应导致信息泄露的对策

Qi Chen, Liang Liu, Xuesong Yan, Dongyan Zhao, Yidong Yuan, Hongmei Wu, Rui Tian
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摘要

侧信道攻击(Side-channel attack, SCAs)利用设备侧信道信息泄露获取敏感信息,已成为嵌入式系统安全面临的主要威胁之一。数据序列化效应引起的信息泄露是设计sca对策的关键问题。本文研究了一种具有三级流水线的通用RISC CPU中数据序列化效应引起的信息泄漏问题。侧通道分析基于网表级模拟,以保证“洁净室”环境。基于相关功率分析(CPA)方法实现的sca,在CPU中信息泄露显著,仅借助几十条功率走线就能成功猜出正确的密钥。从CPU安全性、性能和功耗等方面考虑,提出了三种基于软件和硬件的解决方案,并进行了比较。实施对策后,信息泄漏明显减少,CPU抗攻击能力提高(最高可达4个数量级)。此外,当在实际噪声环境中实施对策时,将进一步提高CPU的安全性。需要在CPU安全性和实现开销之间做出合理的折衷,以便在不同条件下选择合适的抗sca对策。
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Countermeasures Against Information Leakage Induced by Data Serialization Effects in a RISC CPU
Side-channel attacks (SCAs) utilize the side-channel information leakage of devices to obtain sensitive information, which have become one of the most prominent threats to the security of embedded systems. Information leakage induced by data serialization effects is a critical problem in designing countermeasures against SCAs. In this paper, information leakage induced by data serialization effects in a general-purpose RISC CPU with a three-stage pipeline is studied. The side-channel analysis is based on the netlist-level simulation to guarantee a "clean room" environment. Based on the implementation of SCAs by using correlation power analysis (CPA) method, information leakage is significant in the CPU and the correct key is successfully guessed with the help of only tens of power traces. Three countermeasures based on software and hardware are proposed and compared with consideration of CPU security, performance and power consumption. After implementing the countermeasures, the information leakage is reduced significantly and the anti-attack ability of the CPU is improved (up to four orders of magnitude). Moreover, when the countermeasures are implemented in actual noisy environment, the CPU security will be further improved. Reasonable compromise needs to be made between the CPU security and implementation overhead to choose suitable SCA-resistant countermeasures under different conditions.
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