An Efficient Threshold Access-Structure for RLWE-Based Multiparty Homomorphic Encryption

An Efficient Threshold Access-Structure for RLWE-Based Multiparty Homomorphic Encryption

연구 분야: Cryptography

학회: Journal of Cryptology

We propose and implement a multiparty homomorphic encryption (MHE) scheme with a \(t\)-out-of-\(N\)-threshold access-structure that is efficient and does not require a trusted dealer in the common random string model. We construct this scheme from the ring-learning-with-error assumptions and as an extension of the MHE scheme of Mouchet et al. (PETS 21). By means of a specially adapted share re-sharing procedure, this extension can be used to relax the \(N\)-out-of-\(N\)-threshold access-structure of the original scheme into a \(t\)-out-of-\(N\)-threshold one. This procedure introduces only a single round of communication during the setup phase, after which any set of at least t parties can compute a t-out-of-t additive sharing of the secret-key with no interaction; this new sharing can be used directly in the scheme of Mouchet et al. We show that, by performing Shamir re-sharing over the MHE ciphertext-space ring with a carefully chosen exceptional set, this reconstruction procedure can be made secure and has negligible overhead. Moreover, it only requires the parties to store a constant-size state after its setup phase. Hence, in addition to fault tolerance, lowering the corruption threshold also yields considerable efficiency benefits, by enabling the distribution of batched secret-key operations among the online parties. We implemented and open-sourced our scheme in the Lattigo library.