Daniel Heinz scite author profile

Daniel Heinz

3Publications

26Citation Statements Received

64Citation Statements Given

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Affiliations

Universität der Bundeswehr München, Infineon Technologies (Germany)

Publications

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Attacking and Defending Masked Polynomial Comparison for Lattice-Based Cryptography

Bhasin

D’Anvers

Heinz

et al. 2021

TCHES

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In this work, we are concerned with the hardening of post-quantum key encapsulation mechanisms (KEM) against side-channel attacks, with a focus on the comparison operation required for the Fujisaki-Okamoto (FO) transform. We identify critical vulnerabilities in two proposals for masked comparison and successfully attack the masked comparison algorithms from TCHES 2018 and TCHES 2020. To do so, we use first-order side-channel attacks and show that the advertised security properties do not hold. Additionally, we break the higher-order secured masked comparison from TCHES 2020 using a collision attack, which does not require side-channel information. To enable implementers to spot such flaws in the implementation or underlying algorithms, we propose a framework that is designed to test the re-encryption step of the FO transform for information leakage. Our framework relies on a specifically parametrized t-test and would have identified the previously mentioned flaws in the masked comparison. Our framework can be used to test both the comparison itself and the full decapsulation implementation.

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Higher-Order Masked Ciphertext Comparison for Lattice-Based Cryptography

D’Anvers

Heinz

Pessl

et al. 2022

TCHES

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Checking the equality of two arrays is a crucial building block of the Fujisaki-Okamoto transformation, and as such it is used in several post-quantum key encapsulation mechanisms including Kyber and Saber. While this comparison operation is easy to perform in a black box setting, it is hard to efficiently protect against side-channel attacks. For instance, the hash-based method by Oder et al. is limited to first-order masking, a higher-order method by Bache et al. was shown to be flawed, and a very recent higher-order technique by Bos et al. suffers in runtime. In this paper, we first demonstrate that the hash-based approach, and likely many similar first-order techniques, succumb to a relatively simple side-channel collision attack. We can successfully recover a Kyber512 key using just 6000 traces. While this does not break the security claims, it does show the need for efficient higher-order methods. We then present a new higher-order masked comparison algorithm based on the (insecure) higher-order method of Bache et al. Our new method is 4.2x, resp. 7.5x, faster than the method of Bos et al. for a 2nd, resp. 3rd, -order masking on the ARM Cortex-M4, and unlike the method of Bache et al., the new technique takes ciphertext compression into account. We prove correctness, security, and masking security in detail and provide performance numbers for 2nd and 3rd-order implementations. Finally, we verify our the side-channel security of our implementation using the test vector leakage assessment (TVLA) methodology.

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Combined Fault and DPA Protection for Lattice-Based Cryptography

Heinz

Pöppelmann

2023

IEEE Trans. Comput.

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Daniel Heinz

Attacking and Defending Masked Polynomial Comparison for Lattice-Based Cryptography

Higher-Order Masked Ciphertext Comparison for Lattice-Based Cryptography

Combined Fault and DPA Protection for Lattice-Based Cryptography

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