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Quantum Attacks on Type‐1 Generalized Feistel Schemes

Hongwei Sun, Bin‐Bin Cai, Su‐Juan Qin, Qiaoyan Wen, Fei Gao

2023Advanced Quantum Technologies16 citationsDOIOpen Access PDF

Abstract

Abstract Generalized Feistel schemes (GFSs) are extremely important and extensively researched cryptographic schemes. In this paper, the security of Type‐1 GFS in quantum circumstances is investigated. On the one hand, in the qCCA setting, a new quantum polynomial‐time distinguisher on ‐round Type‐1 GFS with branches is given, which extends the previous results by rounds. This leads to a more efficient analysis of type‐1 GFS, that is, the complexity of some previous key‐recovery attacks is reduced by a factor of , where k is the key length of the internal round function. On the other hand, for CAST‐256, which is a certain block cipher based on Type‐1 GFS, a 17‐round quantum distinguisher in the qCPA setting is given. Based on this, an ‐round quantum key‐recovery attack with complexity is constructed.

Topics & Concepts

Block cipherComputer scienceQuantumType (biology)CryptographyKey (lock)Theoretical computer scienceAlgorithmComputer securityPhysicsQuantum mechanicsBiologyEcologyQuantum Computing Algorithms and ArchitectureCoding theory and cryptographyCryptographic Implementations and Security
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