Improving the Performance of CPA Attacks for Ciphers Using Parallel Implementation of S-Boxes

IF 1.3 4区计算机科学 Q3 COMPUTER SCIENCE, INFORMATION SYSTEMS

IET Information Security Pub Date : 2023-12-12 DOI:10.1049/2023/6653956

Fu Yao, Yongzhuang Wei, Hua Chen, E. Pasalic

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Abstract

Since their introduction in early 2000, CPA (correlation power analysis), as a cryptographic tool, has been widely used in the cryptanalysis of cryptographic algorithms (being applicable to both symmetric key ciphers as well as to public key encryption schemes). An application of the classical CPA method, along with its variants, to cryptographic algorithms that use parallel implementation of its substitution boxes (S-boxes) commonly requires more power traces to extract the secret key compared to the case when serial implementation of S-boxes is employed. To reduce the amount of power traces in this scenario, we propose a modification of the standard CPA approaches and demonstrate practically that our method performs better than the existing ones in this respect. To verify the efficiency of our improved CPA method, we apply it to the public databases of DPA Contest V2. In particular, the experimental results show that only 495 power traces are required to recover the secret key of AES. We also compare the performance of our attack to the relevant methods whose parameters are available at DPA Contest V2. The results show that compared to the best nonprofiling side-channel attack (SCA) attack, our method reduces the number of power traces required to recover the secret key by 6,566. Also, our new method performs almost similarly as the best profiling SCA attack of Benoit Gerard (in terms of the required number of power traces), thus reducing the gap in the performance of profiling and nonprofiling SCA attacks.

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利用并行 S 盒提高密码的 CPA 攻击性能

自 2000 年初推出以来，CPA（相关幂分析）作为一种密码学工具，已广泛应用于密码算法的密码分析（既适用于对称密钥密码，也适用于公钥加密方案）。经典 CPA 方法及其变体在加密算法中的应用，如果使用并行执行替换盒（S-boxes），通常需要比使用串行执行 S-boxes 时更多的功率轨迹来提取密钥。为了减少这种情况下的功率轨迹量，我们提出了一种对标准 CPA 方法的修改，并实际证明我们的方法在这方面比现有方法性能更好。为了验证改进后的 CPA 方法的效率，我们将其应用于 DPA Contest V2 的公共数据库。实验结果特别表明，只需要 495 个功率跟踪就能恢复 AES 密钥。我们还将我们的攻击性能与 DPA Contest V2 提供参数的相关方法进行了比较。结果表明，与最好的非仿真侧信道攻击（SCA）方法相比，我们的方法将恢复密钥所需的功率轨迹数量减少了 6566 个。此外，我们的新方法与 Benoit Gerard 的最佳剖析式 SCA 攻击（所需功率轨迹数）性能几乎相似，从而缩小了剖析式和非剖析式 SCA 攻击的性能差距。

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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来源期刊

IET Information Security 工程技术-计算机：理论方法

CiteScore

3.80

自引率

7.10%

发文量

审稿时长

8.6 months

期刊介绍： IET Information Security publishes original research papers in the following areas of information security and cryptography. Submitting authors should specify clearly in their covering statement the area into which their paper falls. Scope: Access Control and Database Security Ad-Hoc Network Aspects Anonymity and E-Voting Authentication Block Ciphers and Hash Functions Blockchain, Bitcoin (Technical aspects only) Broadcast Encryption and Traitor Tracing Combinatorial Aspects Covert Channels and Information Flow Critical Infrastructures Cryptanalysis Dependability Digital Rights Management Digital Signature Schemes Digital Steganography Economic Aspects of Information Security Elliptic Curve Cryptography and Number Theory Embedded Systems Aspects Embedded Systems Security and Forensics Financial Cryptography Firewall Security Formal Methods and Security Verification Human Aspects Information Warfare and Survivability Intrusion Detection Java and XML Security Key Distribution Key Management Malware Multi-Party Computation and Threshold Cryptography Peer-to-peer Security PKIs Public-Key and Hybrid Encryption Quantum Cryptography Risks of using Computers Robust Networks Secret Sharing Secure Electronic Commerce Software Obfuscation Stream Ciphers Trust Models Watermarking and Fingerprinting Special Issues. Current Call for Papers: Security on Mobile and IoT devices - https://digital-library.theiet.org/files/IET_IFS_SMID_CFP.pdf