Welcome to the resource topic for 2020/1250

Title:
A New Code Based Signature Scheme without Trapdoors

Authors: Zhe Li, Chaoping Xing, Sze Ling Yeo

We present a signature scheme for Hamming metric random linear codes via the Schnorr-Lyubashevsky framework that employs the rejection sampling on appropriate probability distributions instead of using trapdoors. Such an approach has been widely believed to be more challenging for linear codes as compared to lattices with Gaussian distributions. We prove that our signature scheme achieves EUF-CMA security under the assumption of the decoding one out of many problem or achieves strong EUF-CMA security under the assumption of the codeword finding problem under relaxed parameters. We provide an instantiation of the signature scheme based on Ring-LPN instances as well as quasi-cyclic codes and present some concrete parameters. In addition, a proof of concept implementation of the scheme is provided. We compare our scheme with previous unsuccessful similar attempts and provide a rigorous security analysis of our scheme. Our construction primarily relies on an efficient rejection sampling lemma for binary linear codes with respect to suitably defined variants of the binomial distribution. Essentially, the rejection sampling lemma indicates that adding a small weight vector to a large weight vector has no significant effect on the distribution of the large weight vector. Concretely, we prove that if the large weight is at least the square of the small weight and the large weight vector admits binomial distribution, the sum distribution of the two vectors can be efficiently adjusted to a binomial distribution via the rejection step and independent from the small weight vector. As a result, our scheme outputs a signature distribution that is independent of the secret key. Compared to two existing code based signature schemes, namely Durandal and Wave, the security of our scheme is reduced to full-fledged hard coding problems i.e., codeword finding problem and syndrome decoding problem for random linear codes. By contrast, the security of the Durandal and Wave schemes is reduced to newly introduced product spaces subspaces indistinguishability problem and the indistinguishability of generalized (U,U+V) codes problem, respectively. We believe that building our scheme upon the more mature hard coding problems provides stronger confidence to the security of our signature scheme.

ePrint: https://eprint.iacr.org/2020/1250

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