Visible to the public Lattice-Based Zk-SNARKs from Square Span Programs

TitleLattice-Based Zk-SNARKs from Square Span Programs
Publication TypeConference Paper
Year of Publication2018
AuthorsGennaro, Rosario, Minelli, Michele, Nitulescu, Anca, Orrù, Michele
Conference NameProceedings of the 2018 ACM SIGSAC Conference on Computer and Communications Security
PublisherACM
ISBN Number978-1-4503-5693-0
KeywordsHuman Behavior, human factors, policy-based governance, Post-quantum, pubcrawl, resilience, Resiliency, Scalability, snark, zero trust, zero-knowledge
Abstract

Zero-knowledge SNARKs (zk-SNARKs) are non-interactive proof systems with short and efficiently verifiable proofs. They elegantly resolve the juxtaposition of individual privacy and public trust, by providing an efficient way of demonstrating knowledge of secret information without actually revealing it. To this day, zk-SNARKs are being used for delegating computation, electronic cryptocurrencies, and anonymous credentials. However, all current SNARKs implementations rely on pre-quantum assumptions and, for this reason, are not expected to withstand cryptanalitic efforts over the next few decades. In this work, we introduce the first designated-verifier zk-SNARK based on lattice assumptions, which are believed to be post-quantum secure. We provide a generalization in the spirit of Gennaro et al. (Eurocrypt'13) to the SNARK of Danezis et al. (Asiacrypt'14) that is based on Square Span Programs (SSPs) and relies on weaker computational assumptions. We focus on designated-verifier proofs and propose a protocol in which a proof consists of just 5 LWE encodings. We provide a concrete choice of parameters as well as extensive benchmarks on a C implementation, showing that our construction is practically instantiable.

URLhttps://dl.acm.org/citation.cfm?doid=3243734.3243845
DOI10.1145/3243734.3243845
Citation Keygennaro_lattice-based_2018