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Issue title: Selected papers from the 12th Conference on Security and Cryptography for Networks
Guest editors: Clemente Galdi and Vladimir Kolesnikov
Article type: Research Article
Authors: Baum, Carstena | Escudero, Daniela | Pedrouzo-Ulloa, Albertob; * | Scholl, Petera | Troncoso-Pastoriza, Juan Ramónc
Affiliations: [a] Computer Science, Aarhus University, Aarhus, Denmark. E-mails: [email protected], [email protected], [email protected] | [b] atlanTTic Research Center, University of Vigo, Vigo, Galicia, Spain. E-mail: [email protected] | [c] Laboratory for Data Security, EPFL, Lausanne, Switzerland. E-mail: [email protected]
Correspondence: [*] Corresponding author. E-mail: [email protected].
Note: [1] This paper is an extended and revised version of a paper presented at the 12th Conference on Security and Cryptography for Networks.
Abstract: An oblivious linear function evaluation protocol, or OLE, is a two-party protocol for the function f(x)=ax+b, where a sender inputs the field elements a, b, and a receiver inputs x and learns f(x). OLE can be used to build secret-shared multiplication, and is an essential component of many secure computation applications including general-purpose multi-party computation, private set intersection and more. In this work, we present several efficient OLE protocols from the ring learning with errors (RLWE) assumption. Technically, we build two new passively secure protocols, which build upon recent advances in homomorphic secret sharing from (R)LWE (Boyle et al. in: EUROCRYPT 2019, Part II (2019) 3–33 Springer), with optimizations tailored to the setting of OLE. We upgrade these to active security using efficient amortized zero-knowledge techniques for lattice relations (Baum et al. in: CRYPTO 2018, Part II (2018) 669–699 Springer), and design new variants of zero-knowledge arguments that are necessary for some of our constructions. Our protocols offer several advantages over existing constructions. Firstly, they have the lowest communication complexity amongst previous, practical protocols from RLWE and other assumptions; secondly, they are conceptually very simple, and have just one round of interaction for the case of OLE where b is randomly chosen. We demonstrate this with an implementation of one of our passively secure protocols, which can perform more than 1 million OLEs per second over the ring Zm, for a 120-bit modulus m, on standard hardware.
Keywords: Oblivious linear evaluation, two-party computation, cryptographic protocols, ring learning with errors, zero-knowledge arguments
DOI: 10.3233/JCS-200116
Journal: Journal of Computer Security, vol. 30, no. 1, pp. 39-78, 2022
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