RAZOR 面向物联网安全的轻量级区块密码

Pub Date : 2024-01-12 DOI:10.14429/dsj.74.18421
Dheeraj Singh, Manoj Kumar, T. Yadav
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引用次数: 0

摘要

技术的飞速发展促使人们需要随时随地做任何事情,而这种需求因现代生活方式而日益增长。物联网(IoT)技术通过将智能设备相互连接来提供解决方案。部署轻量级块密码可确保此类设备的安全性。本文提出了一种基于混合设计技术的新型轻量级块密码 RAZOR。RAZOR 的轮函数是通过混合使用 Feistel 和置换置换网络技术设计的。基于旋转和 XOR 的扩散函数应用于 32 位输入,有 8 个分支,分支数为 7,以优化安全性。RAZOR 对差分攻击、线性攻击和不可能的差分攻击都有很强的抵御能力。与 PRESENT、Rectangle、LBlock、GIFT 和 SCENERY 的 10、6、4、7 和 6 相比,RAZOR 在任何 5 轮差分特征中的有效 S 盒数量为 21。与现有的轻量级设计相比,RAZOR 提供了更好的安全性。平均每秒 1.47 兆字节的大文件加密吞吐量使其成为面向软件的物联网应用的更好选择。
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RAZOR A Lightweight Block Cipher for Security in IoT
Rapid technological developments prompted a need to do everything from anywhere and that is growing due to modern lifestyle. The Internet of Things (IoT) technology is helping to provide the solutions by inter-connecting the smart devices. Lightweight block ciphers are deployed to enable the security in such devices. In this paper, a new lightweight block cipher RAZOR is proposed that is based on a hybrid design technique. The round function of RAZOR is designed by mixing the Feistel and substitution permutation network techniques. The rotation and XOR based diffusion function is applied on 32-bit input with 8 branches and branch number 7 to optimize the security. The strength of RAZOR is proved against differential, linear, and impossible differential attacks. The number of active S-boxes in any 5-round differential characteristic of RAZOR is 21 in comparison to the 10, 6, 4, 7, and 6 for PRESENT, Rectangle, LBlock, GIFT, and SCENERY respectively. RAZOR provides better security than the existing lightweight designs. The average throughput of 1.47 mega bytes per second to encrypt the large files makes it a better choice for software oriented IoT applications.
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