一种自动寻找良好输入差值的密码不可知神经训练管道

IF 1.7 Q3 COMPUTER SCIENCE, SOFTWARE ENGINEERING

IACR Transactions on Symmetric Cryptology Pub Date : 2023-09-19 DOI:10.46586/tosc.v2023.i3.184-212

Emanuele Bellini, David Gerault, Anna Hambitzer, Matteo Rossi

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引用次数: 3

摘要

神经密码分析是通过机器学习技术研究密码原语。在Gohr在CRYPTO 2019上发表的开创性论文之后，使用专门的训练方案，重点放在提高这些区分符对特定原语的准确性上，以便基于机器学习获得更好的密钥恢复攻击。这些区分符是高度专门化的，不能轻易适用于其他原语。在本文中，我们关注的是相反的问题:为神经密码分析构建一个通用的管道。我们的工具由两部分组成。第一部分是一种用于神经区分器搜索良好输入差的进化算法。第二部分是DBitNet，一种与密码结构无关的神经区分体系结构。我们表明，这种全自动管道与高度专业化的方法具有竞争力，特别是对于SPECK32和SIMON32。我们为几个原语(XTEA, LEA, ight, SIMON128, SPECK128)提供了新的神经区分器，并对PRESENT, KATAN, TEA和GIMLI的最新技术进行了改进。

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A Cipher-Agnostic Neural Training Pipeline with Automated Finding of Good Input Differences

Neural cryptanalysis is the study of cryptographic primitives through machine learning techniques. Following Gohr’s seminal paper at CRYPTO 2019, a focus has been placed on improving the accuracy of such distinguishers against specific primitives, using dedicated training schemes, in order to obtain better key recovery attacks based on machine learning. These distinguishers are highly specialized and not trivially applicable to other primitives. In this paper, we focus on the opposite problem: building a generic pipeline for neural cryptanalysis. Our tool is composed of two parts. The first part is an evolutionary algorithm for the search of good input differences for neural distinguishers. The second part is DBitNet, a neural distinguisher architecture agnostic to the structure of the cipher. We show that this fully automated pipeline is competitive with a highly specialized approach, in particular for SPECK32, and SIMON32. We provide new neural distinguishers for several primitives (XTEA, LEA, HIGHT, SIMON128, SPECK128) and improve over the state-of-the-art for PRESENT, KATAN, TEA and GIMLI.

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来源期刊

IACR Transactions on Symmetric Cryptology Mathematics-Applied Mathematics

CiteScore

5.50

自引率

22.90%

发文量