Welcome to the resource topic for 2025/455
Title:
StaMAC: Fault Protection via Stable-MAC Tags
Authors: Siemen Dhooghe, Artemii Ovchinnikov, Dilara Toprakhisar
Abstract:Fault attacks pose a significant threat to cryptographic implementations, motivating the development of countermeasures, primarily based on a combination of redundancy and masking techniques. Redundancy, in these countermeasures, is often implemented via duplication or linear codes. However, their inherent structure remains susceptible to strategic fault injections bypassing error checks. To address this, the CAPA countermeasure from CRYPTO 2018 leveraged information-theoretic MAC tags for protection against fault and combined attacks. However, a recent attack has shown that CAPA can only protect against either side-channel analysis or fault attacks, but not both simultaneously, and with significant hardware costs. Its successor, M&M, improves efficiency but lacks protection against ineffective faults.
In this paper, we propose StaMAC, a framework aimed at securely incorporating MAC tags against both side-channel and fault adversaries in a non-combined scenario. We extend the security notions outlined in StaTI from TCHES 2024, and propose the notion of MAC-stability, ensuring fault propagation in masked and MACed circuits, necessitating only a single error check at the end of the computation. Additionally, we show that the stability notion from StaTI is arbitrarily composable (whereas it was previously thought to be only serially composable), making it the first arbitrary composable fault security notion which does not require intermediate error checks or correction. Then, we establish the improved protection of masking combined with MAC tags compared to linear encoding techniques by showing bounds on the advantage considering several fault adversaries: a gate/register faulting adversary, an arbitrary register faulting adversary, and a random register faulting adversary. Then, we show how to transform any probing secure circuit to protect against fault attacks using the proposed MAC-stable gadgets implementing field operations. Finally, we demonstrate StaMAC on an AES implementation, evaluating its security and hardware costs compared to the countermeasures using MAC tags.
ePrint: https://eprint.iacr.org/2025/455
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