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Learn from Your Faults: Leakage Assessment in Fault Attacks Using Deep Learning

Authors:
Sayandeep Saha
Manaar Alam
Arnab Bag
Debdeep Mukhopadhyay
Pallab Dasgupta
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DOI: 10.1007/s00145-023-09462-6
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Abstract: Generic vulnerability assessment of cipher implementations against Fault Attacks (FA) is a largely unexplored research area. Security assessment against FA is critical for FA countermeasures. On several occasions, countermeasures fail to fulfil their sole purpose of preventing FA due to flawed design or implementation. This paper proposes a generic, simulation-based, statistical yes/no experiment for evaluating fault-assisted information leakage based on the principle of non-interference . It builds on an initial idea called ALAFA that utilizes t -test and its higher-order variants for detecting leakage at different moments of ciphertext distributions. In this paper, we improve this idea with a Deep Learning (DL)-based leakage detection test. The DL-based detection test is not specific to only moment-based leakages. It thus can expose leakages in several cases where t -test-based technique demands a prohibitively large number of ciphertexts. Further, we present two generalizations of the leakage assessment experiment—one for evaluating against the statistical ineffective fault model and another for assessing fault-induced leakages originating from “non-cryptographic” peripheral components of a security module. Finally, we explore techniques for efficiently covering the fault space of a block cipher by exploiting logic-level and cipher-level fault equivalences. The efficacy of our proposals has been evaluated on a rich test suite of hardened implementations, including an open-source Statistical Ineffective Fault Attack countermeasure and a hardware security module called Secured-Hardware-Extension.
BibTeX
@article{jofc-2023-33332,
  title={Learn from Your Faults: Leakage Assessment in Fault Attacks Using Deep Learning},
  journal={Journal of Cryptology},
  publisher={Springer},
  volume={36},
  doi={10.1007/s00145-023-09462-6},
  author={Sayandeep Saha and Manaar Alam and Arnab Bag and Debdeep Mukhopadhyay and Pallab Dasgupta},
  year=2023
}