Side-Channel Information Leakage of Code-Based Masked Implementations

Wei Cheng; Olivier Rioul; Yi Liu; Julien Beguinot; Sylvain Guilley

doi:10.1109/CWIT55308.2022.9817673

Side-Channel Information Leakage of Code-Based Masked Implementations

Wei Cheng
, Olivier Rioul
, Yi Liu
, Julien Beguinot
, Sylvain Guilley

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

Side-channel attacks (SCAs) are among the most powerful physical attacks against cryptographic implementations. To thwart SCAs, a well-established countermeasure is random masking. A recent code-based masking formalism unifies several known masking schemes and allows one to carry out an all-in-one leakage quantification. In this paper, we investigate how a code-based masked imple-mentation leaks in an information-Theoretic setting, where the mutual information measures the impact of both number and positions of probes in the probing attack model. We also establish that the mutual information decreases as the measurement noise variance increases, with an exponent equal to the dual distance of the masking code. Our findings quantitatively connect the attacker's capability to recover secret keys with the actual mutual information leakage of the protected implementation.

Original language	English
Title of host publication	2022 17th Canadian Workshop on Information Theory, CWIT 2022
Publisher	Institute of Electrical and Electronics Engineers Inc.
Pages	51-56
Number of pages	6
ISBN (Electronic)	9781665499088
DOIs	https://doi.org/10.1109/CWIT55308.2022.9817673
Publication status	Published - 1 Jan 2022
Event	17th Canadian Workshop on Information Theory, CWIT 2022 - Ottawa, Canada Duration: 5 Jun 2022 → 8 Jun 2022

Publication series

Name	2022 17th Canadian Workshop on Information Theory, CWIT 2022

Conference

Conference	17th Canadian Workshop on Information Theory, CWIT 2022
Country/Territory	Canada
City	Ottawa
Period	5/06/22 → 8/06/22

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10.1109/CWIT55308.2022.9817673

Cite this

Cheng, W., Rioul, O., Liu, Y., Beguinot, J., & Guilley, S. (2022). Side-Channel Information Leakage of Code-Based Masked Implementations. In 2022 17th Canadian Workshop on Information Theory, CWIT 2022 (pp. 51-56). (2022 17th Canadian Workshop on Information Theory, CWIT 2022). Institute of Electrical and Electronics Engineers Inc.. https://doi.org/10.1109/CWIT55308.2022.9817673

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title = "Side-Channel Information Leakage of Code-Based Masked Implementations",

abstract = "Side-channel attacks (SCAs) are among the most powerful physical attacks against cryptographic implementations. To thwart SCAs, a well-established countermeasure is random masking. A recent code-based masking formalism unifies several known masking schemes and allows one to carry out an all-in-one leakage quantification. In this paper, we investigate how a code-based masked imple-mentation leaks in an information-Theoretic setting, where the mutual information measures the impact of both number and positions of probes in the probing attack model. We also establish that the mutual information decreases as the measurement noise variance increases, with an exponent equal to the dual distance of the masking code. Our findings quantitatively connect the attacker's capability to recover secret keys with the actual mutual information leakage of the protected implementation.",

author = "Wei Cheng and Olivier Rioul and Yi Liu and Julien Beguinot and Sylvain Guilley",

note = "Publisher Copyright: {\textcopyright} 2022 IEEE.; 17th Canadian Workshop on Information Theory, CWIT 2022 ; Conference date: 05-06-2022 Through 08-06-2022",

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doi = "10.1109/CWIT55308.2022.9817673",

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Cheng, W, Rioul, O, Liu, Y, Beguinot, J & Guilley, S 2022, Side-Channel Information Leakage of Code-Based Masked Implementations. in 2022 17th Canadian Workshop on Information Theory, CWIT 2022. 2022 17th Canadian Workshop on Information Theory, CWIT 2022, Institute of Electrical and Electronics Engineers Inc., pp. 51-56, 17th Canadian Workshop on Information Theory, CWIT 2022, Ottawa, Canada, 5/06/22. https://doi.org/10.1109/CWIT55308.2022.9817673

Side-Channel Information Leakage of Code-Based Masked Implementations. / Cheng, Wei; Rioul, Olivier; Liu, Yi et al.
2022 17th Canadian Workshop on Information Theory, CWIT 2022. Institute of Electrical and Electronics Engineers Inc., 2022. p. 51-56 (2022 17th Canadian Workshop on Information Theory, CWIT 2022).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

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T1 - Side-Channel Information Leakage of Code-Based Masked Implementations

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AU - Beguinot, Julien

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PY - 2022/1/1

Y1 - 2022/1/1

N2 - Side-channel attacks (SCAs) are among the most powerful physical attacks against cryptographic implementations. To thwart SCAs, a well-established countermeasure is random masking. A recent code-based masking formalism unifies several known masking schemes and allows one to carry out an all-in-one leakage quantification. In this paper, we investigate how a code-based masked imple-mentation leaks in an information-Theoretic setting, where the mutual information measures the impact of both number and positions of probes in the probing attack model. We also establish that the mutual information decreases as the measurement noise variance increases, with an exponent equal to the dual distance of the masking code. Our findings quantitatively connect the attacker's capability to recover secret keys with the actual mutual information leakage of the protected implementation.

AB - Side-channel attacks (SCAs) are among the most powerful physical attacks against cryptographic implementations. To thwart SCAs, a well-established countermeasure is random masking. A recent code-based masking formalism unifies several known masking schemes and allows one to carry out an all-in-one leakage quantification. In this paper, we investigate how a code-based masked imple-mentation leaks in an information-Theoretic setting, where the mutual information measures the impact of both number and positions of probes in the probing attack model. We also establish that the mutual information decreases as the measurement noise variance increases, with an exponent equal to the dual distance of the masking code. Our findings quantitatively connect the attacker's capability to recover secret keys with the actual mutual information leakage of the protected implementation.

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Side-Channel Information Leakage of Code-Based Masked Implementations

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