Welcome to the resource topic for 2025/895
Title:
Blinding Post-Quantum Hash-and-Sign Signatures
Authors: Charles Bouillaguet, Thibauld Feneuil, Jules Maire, Matthieu Rivain, Julia Sauvage, Damien Vergnaud
Abstract:Blind signature schemes are essential for privacy-preserving applications such as electronic voting, digital currencies or anonymous credentials. In this paper, we revisit Fischlin’s framework for round-optimal blind signature schemes and its recent efficient lattice-based instantiations. Our proposed framework compiles any post-quantum hash-and-sign signature scheme into a blind signature scheme. The resulting scheme ensures blindness by design and achieves one-more unforgeability, relying solely on the unforgeability of the underlying signature scheme and the random oracle model.
To achieve this we introduce the notion of commit-append-and-prove (CAP) systems, which generalizes traditional commit-and-prove system by making their commitments updatable before proving. This building block allows us to unlock the technical challenges encountered when generalizing previous variants of the Fischlin’s framework to any hash-and-sign signature scheme. We provide efficient CAP system instantiations based on recent MPC-in-the-Head techniques.
We showcase our framework by constructing blind versions of UOV and Wave, thereby introducing the first practical blind signatures based on multivariate cryptography and code-based cryptography. Our blind UOV signatures range from 3.8 KB to 11 KB, significantly outperforming previous post-quantum blind signatures, such as the 22 KB lattice-based blind signatures, which were the most compact until now.
ePrint: https://eprint.iacr.org/2025/895
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