Rocca: An Efficient AES-based Encryption Scheme for Beyond 5G

IF 1.7 Q3 COMPUTER SCIENCE, SOFTWARE ENGINEERING

IACR Transactions on Symmetric Cryptology Pub Date : 2021-06-11 DOI:10.46586/tosc.v2021.i2.1-30

Kosei Sakamoto, Fukang Liu, Yuto Nakano, S. Kiyomoto, Takanori Isobe

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引用次数: 9

Abstract

In this paper, we present an AES-based authenticated-encryption with associated-data scheme called Rocca, with the purpose to reach the requirements on the speed and security in 6G systems. To achieve ultra-fast software implementations, the basic design strategy is to take full advantage of the AES-NI and SIMD instructions as that of the AEGIS family and Tiaoxin-346. Although Jean and Nikolić have generalized the way to construct efficient round functions using only one round of AES (aesenc) and 128-bit XOR operation and have found several efficient candidates, there still seems to exist potential to further improve it regarding speed and state size. In order to minimize the critical path of one round, we remove the case of applying both aesenc and XOR in a cascade way for one round. By introducing a cost-free block permutation in the round function, we are able to search for candidates in a larger space without sacrificing the performance. Consequently, we obtain more efficient constructions with a smaller state size than candidates by Jean and Nikolić. Based on the newly-discovered round function, we carefully design the corresponding AEAD scheme with 256-bit security by taking several reported attacks on the AEGIS family and Tiaxion-346 into account. Our AEAD scheme can reach 138Gbps which is 4 times faster than the AEAD scheme of SNOW-V. Rocca is also much faster than other efficient schemes with 256-bit key length, e.g. AEGIS-256 and AES-256-GCM. As far as we know, Rocca is the first dedicated cryptographic algorithm targeting 6 systems, i.e., 256-bit key length and the speed of more than 100 Gbps.

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罗卡:一种高效的基于aes的超5G加密方案

为了满足6G系统对速度和安全性的要求，本文提出了一种基于aes的关联数据认证加密方案——Rocca。为了实现超快速的软件实现，基本的设计策略是充分利用AES-NI和SIMD指令，就像AEGIS系列和调新-346一样。尽管Jean和nikoliki已经推广了仅使用一轮AES (aesenc)和128位异或运算来构建有效的轮函数的方法，并找到了几种有效的候选方法，但在速度和状态大小方面似乎仍然存在进一步改进的潜力。为了最小化一轮的关键路径，我们删除了在一轮中以级联方式同时应用aesenc和XOR的情况。通过在round函数中引入无成本的块排列，我们能够在不牺牲性能的情况下在更大的空间中搜索候选对象。因此，我们获得了比Jean和nikoliki的候选更小的状态大小的更有效的结构。基于新发现的round函数，我们结合多次报道的针对AEGIS家族和Tiaxion-346的攻击，精心设计了相应的256位安全性的AEAD方案。我们的AEAD方案可以达到138Gbps，比SNOW-V的AEAD方案快4倍。Rocca也比其他256位密钥长度的高效方案快得多，例如AEGIS-256和AES-256-GCM。据我们所知，Rocca是第一个针对6个系统的专用加密算法，即256位密钥长度和超过100gbps的速度。

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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来源期刊

IACR Transactions on Symmetric Cryptology Mathematics-Applied Mathematics

CiteScore

5.50

自引率

22.90%

发文量