English

Attacking Masked Cryptographic Implementations: Information-Theoretic Bounds

Information Theory 2022-05-17 v2 Cryptography and Security math.IT

Abstract

Measuring the information leakage is critical for evaluating the practical security of cryptographic devices against side-channel analysis. Information-theoretic measures can be used (along with Fano's inequality) to derive upper bounds on the success rate of any possible attack in terms of the number of side-channel measurements. Equivalently, this gives lower bounds on the number of queries for a given success probability of attack. In this paper, we consider cryptographic implementations protected by (first-order) masking schemes, and derive several information-theoretic bounds on the efficiency of any (second-order) attack. The obtained bounds are generic in that they do not depend on a specific attack but only on the leakage and masking models, through the mutual information between side-channel measurements and the secret key. Numerical evaluations confirm that our bounds reflect the practical performance of optimal maximum likelihood attacks.

Keywords

Cite

@article{arxiv.2105.07436,
  title  = {Attacking Masked Cryptographic Implementations: Information-Theoretic Bounds},
  author = {Wei Cheng and Yi Liu and Sylvain Guilley and Olivier Rioul},
  journal= {arXiv preprint arXiv:2105.07436},
  year   = {2022}
}

Comments

The revised version will appear in ISIT 2022

R2 v1 2026-06-24T02:09:18.110Z