Affiliation:
1. Department of Computer Science, Taibah University, Medina 42353, Saudi Arabia
2. Department of Computer Science, The George Washington University, Washington, DC 20052, USA
Abstract
The Simeck family of lightweight block ciphers was proposed by Yang et al. in 2015, which combines the design features of the NSA-designed block ciphers Simon and Speck. Previously, we proposed the use of linear cryptanalysis using super-rounds to increase the efficiency of implementing Matsui’s second algorithm and achieved good results on all variants of Simon. The improved linear attacks result from the observation that, after four rounds of encryption, one bit of the left half of the state of the cipher depends on only 17 key bits (19 key bits for the larger variants of the cipher). We were able to follow a similar approach, in all variants of Simeck, with an improvement in Simeck 32 and Simeck 48 by relaxing the previous constraint of a single active bit, using multiple active bits instead. In this paper we present improved linear attacks against all variants of Simeck: attacks on 19-rounds of Simeck 32/64, 28-rounds of Simeck 48/96, and 34-rounds of Simeck 64/128, often with the direct recovery of the full master key without repeating the attack over multiple rounds. We also verified the results of linear cryptanalysis on 8, 10, and 12 rounds for Simeck 32/64.
Funder
National Science Foundation
Subject
Applied Mathematics,Computational Theory and Mathematics,Computer Networks and Communications,Computer Science Applications,Software
Reference21 articles.
1. Almukhlifi, R., and Vora, P. (2020). Linear Cryptanalysis of Reduced-Round Simon Using Super Rounds. Cryptography, 4.
2. Bagheri, N. (2015, January 6–9). Linear Cryptanalysis of Reduced-Round SIMECK Variants. Proceedings of the Progress in Cryptology—INDOCRYPT 2015—16th International Conference On Cryptology In India, Bangalore, India.
3. Biryukov, A., Cannière, C., and Quisquater, M. (2004, January 15–19). On Multiple Linear Approximations. Proceedings of the Advances in Cryptology—CRYPTO 2004, 24th Annual International Cryptology Conference, Santa Barbara, CA, USA.
4. Yang, G., Zhu, B., Suder, V., Aagaard, M., and Gong, G. (2015, January 13–16). The Simeck Family of Lightweight Block Ciphers. Proceedings of the Cryptographic Hardware and Embedded Systems—CHES 2015—17th International Workshop, Saint-Malo, France.
5. Kölbl, S., and Roy, A. (2016, January 21–22). A Brief Comparison of Simon and Simeck. Proceedings of the Lightweight Cryptography for Security And Privacy—5th International Workshop, LightSec 2016, Aksaray, Turkey.
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