Welcome to the resource topic for 2025/1848
Title:
Revisiting Lattice-based Non-interactive Blind Signature
Authors: Anindya Ganguly, Angshuman Karmakar, Suparna Kundu, Debranjan Pal, Sumanta Sarkar
Abstract:Blind signatures (BS) allow a signer to produce a valid signature on a message without learning the message itself. They have niche applications in privacy-preserving protocols such as digital cash and electronic voting. Non-interactive blind signatures (NIBS) remove the need for interaction between the signer and the user. In the post-quantum era, lattice-based NIBS schemes are studied as candidates for long-term security.
In Asiacrypt 2024, Baldimtsi et al. proposed the first lattice-based NIBS construction, whose security relies on the random one-more inhomogeneous short integer solution (rOM-ISIS) assumption. This rOM-ISIS is considered to be a non-standard assumption. Later, Zhang et al. introduced another lattice-based construction in ProvSec 2024, and proved its security under the standard module short integer solution (MSIS) assumption. We analyse the security of the latter scheme. In the random oracle model, we show that it fails to achieve both nonce blindness and receiver blindness. We present explicit attacks where an adversary breaks both properties with probability~1. Our attack is based on a crucial observation that uncovers a flaw in the design. Specifically, this flaw allows an attacker to link a message-signature pair with its presignature-nonce pair. In addition, we also identify a flaw in the unforgeability proof. Finally, we suggest a modification to address the issue, which is similar to Baldimtsi et al. construction, and its security relies again on the non-standard rOM-ISIS assumption. This work again raises the question of the feasibility of achieving NIBS from standard assumptions.
ePrint: https://eprint.iacr.org/2025/1848
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