AESHA3: Efficient and Secure Sub-Key Generation for AES Using SHA-3

TL;DR

AESHA3 introduces a novel sub-key generation method for AES using SHA-3, significantly improving speed and resource efficiency, especially for IoT devices, while maintaining security.

Contribution

The paper proposes AESHA3, a new AES variant that uses SHA-3 for sub-key generation, enhancing speed and resource efficiency over standard AES.

Findings

AESHA3 is ~1300 times faster in sub-key generation.

AESHA3 reduces resource consumption in IoT devices.

Encryption performance improves with smaller data sizes.

Abstract

Advanced Encryption Standard (AES) is one of the most widely used symmetric cipher for the confidentiality of data. Also it is used for other security services, viz. integrity, authentication and key establishment. However, recently, authors have shown some weakness in the generation of sub-keys in AES, e.g. bit leakage attack, etc. Also, AES sub-keys are generated sequentially, which is an overhead, especially for resource-constrained devices. Therefore, we propose and investigate a novel encryption AESHA3, which uses sub-keys generated by Secure Hash Algorithm-3 (SHA3). The output of SHA3 is one-way and highly non-linear, and random. The experimental analysis shows that the average time taken for generating the sub-keys to be used for encrypting the data using our approach i.e. AESHA3 is ~1300 times faster than the sub-key generated by the standard AES. Accordingly, we find that AESHA3 will be very relevant not only in terms of security but also it will save the resources in IoT devices. We investigated AESHA3 in Intel Core i7, 6th Generation processor and Raspberry Pi 4B and found that up to two MB data encryption is very significant, and lesser the data size, more the resource saving compared to AES.