WAGE: An Authenticated Encryption with a Twist

Title WAGE: An Authenticated Encryption with a Twist
Author
Abstract

This paper presents WAGE, a new lightweight sponge-based authenticated cipher whose underlying permutation is based on a 37-stage Galois NLFSR over\ F_2^7. At its core, the round function of the permutation consists of the well-analyzed Welch-Gong permutation (WGP), primitive feedback polynomial, a newly designed 7-bit SB sbox and partial word-wise XORs. The construction of the permutation is carried out such that the design of individual components is highly coupled with cryptanalysis and hardware efficiency. As such, we analyze the security of WAGE against differential, linear, algebraic and meet/miss-in-the-middle attacks. For 128-bit authenticated encryption security, WAGE achieves a throughput of 535 Mbps with hardware area of 2540 GE in ASIC ST Micro 90 nm standard cell library. Additionally, WAGE is designed with a twist where its underlying permutation can be efficiently turned into a pseudorandom bit generator based on the WG transformation (WG-PRBG) whose output bits have theoretically proved randomness properties.

Year of Publication
2020
Journal
IACR Transactions on Symmetric Cryptology - Special Issue on Designs for the NIST Lightweight Standardisation Process
Volume
2020
Number of Pages
132\textendash159
Date Published
06/2020
ISSN Number
2519-173X
URL
https://tosc.iacr.org/index.php/ToSC/article/view/8620/8186
DOI
10.13154/tosc.v2020.iS1.132-159
Download citation