The Price of Active Security in Cryptographic Protocols

Carmit Hazay, Muthuramakrishnan Venkitasubramaniam, Mor Weiss

Research output: Contribution to journalArticlepeer-review

Abstract

We construct the first actively-secure Multi-Party Computation (MPC) protocols with an arbitrary number of parties in the dishonest majority setting, for an arbitrary field F with constant communication overhead over the “passive-GMW” protocol (Goldreich, Micali and Wigderson, STOC ‘87). Our protocols rely on passive implementations of Oblivious Transfer (OT) in the Boolean setting and Oblivious Linear function Evaluation (OLE) in the arithmetic setting. Previously, such protocols were only known over sufficiently large fields (Genkin et al. STOC ‘14) or a constant number of parties (Ishai et al. CRYPTO ‘08). Conceptually, our protocols are obtained via a new compiler from a passively-secure protocol for a distributed multiplication fuiptlevel="2">MULT, to an actively-secure protocol for general functionalitieiptlevel="2">MULT is parameterized by a linear-secret sharing scheme S, where it takes S-shares of two secrets and returns S-shares of their product. We show that our compilation is concretely efficient for sufficiently large fields, resulting in an overhead of 2 when securely computing natural circuits. Our compiler has two additional benefits: (1) It can rely on any passive implemiptlevel="2">MULT, which, besides the standard implementation based on OT (for Boolean) and OLE (for arithmetic), allows us to rely on implementations based on threshold cryptosystems (Cramer et al. Eurocrypt ‘01), and (2) it can rely on weaker-than-passive (i.e., imperfect/leaky) implementations, which in some parameter regimes yield actively-secure protocols with overhead less than 2. Instantiating this compiler with an “honest-majority” e" scriptlevel="2">MULT, we obtain the first honest-majority protocol (with up to one-third corruptions) for Boolean circuits with constant communication overhead over the best passive protocol (Damgård and Nielsen, CRYPTO ‘07).

Original languageEnglish
Article number30
JournalJournal of Cryptology
Volume37
Issue number3
DOIs
StatePublished - Jul 2024

Bibliographical note

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© The Author(s) 2024.

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