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Leakage-Resilient Incompressible Cryptography: Constructions and Barriers
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| Conference: | ASIACRYPT 2024 |
| Abstract: | We introduce Leakage-Resilient Incompressible cryptography, which simultaneously addresses two variants of side-channel attacks that have been tackled in theoretical cryptography. Leakage-resilience seeks to provide security against an adversary who learns a part of the secret-key and the entire ciphertext or signature; conversely, incompressible cryptography provides security against an adversary who learns the entire secret-key, but only a part of the ciphertext or signature. However, constructions in either of these security models can fail against an attack in the other model. In this work, we define a new model of security that subsumes both leakage-resilient cryptography and incompressible cryptography, and we present several non-trivial positive and negative results. On the positive side, first we present a transformation from incompressible symmetric-key encryption (SKE) to leakage-resilient incompressible SKE in the information-theoretic setting. Next, as one of our main results, we construct a leakage-resilient incompressible public-key encryption (PKE), combining an incompressible SKE and a new primitive that we call leakage-resilient non-committing key encapsulation mechanism (LR-NC-KEM). While an incompressible SKE suitable for use in both these constructions already exists in the literature (Dziembowski, CRYPTO 2006), we present a new construction with better parameters, using an appropriate notion of invertible extractors; this leads to corresponding improvements in the final parameters we obtain in these constructions. We also design a leakage-resilient incompressible signature scheme. On the negative side, we show barriers to significantly improving the parameters we obtain, by showing impossibility of basing the security of such improved schemes on blackbox reductions. Apart from the general framework and the specific results we obtain, some of the intermediate tools that we define and instantiate, like LR-NC-KEM and invertible extractors, may be of independent interest. |
BibTeX
@inproceedings{asiacrypt-2024-34710,
title={Leakage-Resilient Incompressible Cryptography: Constructions and Barriers},
publisher={Springer-Verlag},
author={Kaartik Bhushan and Rishab Goyal and Venkata Koppula and Varun Narayanan and Manoj Prabhakaran and Mahesh Sreekumar Rajasree},
year=2024
}