用伽罗瓦/计数器模式保护白盒分组密码

2022 IEEE Conference on Dependable and Secure Computing (DSC) Pub Date : 2022-06-22 DOI:10.1109/DSC54232.2022.9888845

Nanjiang Xie, Zheng Gong, Yufeng Tang, Lei Wang, Yamin Wen

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引用次数: 0

摘要

一直以来，白盒密码学研究人员关注的是某些原语的设计和实现，而对密码工作模式的实践研究较少。例如，伽罗瓦/计数器模式(GCM)要求分组密码只执行加密操作，这在白盒安全模型下不可避免地面临代码提升攻击。本文提出了一种抗代码提升的GCM(称为WBGCM)来缓解白盒环境中的这种安全缺陷。其基本思想是将外部编码与GCM中的异或操作相结合，因此分别采用外部编码(WBGCM-EE)和掩码(wbgcm - making)设计了两种不同的方案。此外，利用Chow等人的白盒AES对WBGCM进行了实例化，实验表明，WBGCM- ee和WBGCM- masking的处理速度达到了5mbytes /Second左右，存储开销很小。

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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Protecting White-Box Block Ciphers with Galois/Counter Mode

All along, white-box cryptography researchers focus on the design and implementation of certain primitives but less to the practice of the cipher working modes. For example, the Galois/Counter Mode (GCM) requires block ciphers to perform only the encrypting operations, which inevitably facing code-lifting attacks under the white-box security model. In this paper, a code-lifting resisted GCM (which is named WBGCM) is proposed to mitigate this security drawbacks in the white-box context. The basic idea is to combining external encodings with exclusive-or operations in GCM, and therefore two different schemes are designed with external encodings (WBGCM-EE) and maskings (WBGCM-Maksing), respectively. Furthermore, WBGCM is instantiated with Chow et al.'s white-box AES, and the experiments show that the processing speeds of WBGCM-EE and WBGCM-Masking achieves about 5 MBytes/Second with a marginal storage overhead.

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2022 IEEE Conference on Dependable and Secure Computing (DSC)

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