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Collision Attacks on Round-Reduced SHA-3 Using Conditional Internal Differentials

Authors:
Zhongyi Zhang , State Key Laboratory of Information Security, Institute of Information Engineering, Chinese Academy of Sciences
Chengan Hou , State Key Laboratory of Information Security, Institute of Information Engineering, Chinese Academy of Sciences
Meicheng Liu , State Key Laboratory of Information Security, Institute of Information Engineering, Chinese Academy of Sciences
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DOI: 10.1007/978-3-031-30634-1_8 (login may be required)
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Presentation: Slides
Conference: EUROCRYPT 2023
Abstract: The KECCAK hash function was selected by NIST as the winner of the SHA-3 competition in 2012 and became the SHA-3 hash standard of NIST in 2015. On account of SHA-3’s importance in theory and applications, the analysis of its security has attracted increasing attention. In the SHA-3 family, SHA3-512 shows the strongest resistance against collision attacks: the theoretical attacks of SHA3-512 only extend to four rounds by solving polynomial systems with 64 times faster than the birthday attack. Yet for the SHA-3 instance SHAKE256, there are no results on collision attacks that we are aware of in the literatures. In this paper, we study the collision attacks against round-reduced SHA-3. Inspired by the work of Dinur, Dunkelman and Shamir in 2013, we propose a variant of birthday attack and improve the internal differential cryptanalysis by abstracting new concepts such as differential transition conditions and difference conditions table. With the help of these techniques, we develop new collision attacks on round-reduced SHA-3 using conditional internal differentials. More exactly, the initial messages constrained by linear conditions pass through the first two rounds of internal differential, and their corresponding inputs entering the last two rounds are divided into different subsets for collision search according to the values of linear conditions. Together with an improved target internal difference algorithm (TIDA), collision attacks on up to 5 rounds of all the six SHA-3 functions are obtained. In particular, collision attacks on 4-round SHA3-512 and 5-round SHAKE256 are achieved with complexity of $2^{237}$ and $2^{185}$ respectively. As far as we know, this is the best collision attack on reduced SHA3-512, and it is the first collision attack on reduced SHAKE256.
BibTeX
@inproceedings{eurocrypt-2023-33020,
  title={Collision Attacks on Round-Reduced SHA-3 Using Conditional Internal Differentials},
  publisher={Springer-Verlag},
  doi={10.1007/978-3-031-30634-1_8},
  author={Zhongyi Zhang and Chengan Hou and Meicheng Liu},
  year=2023
}