CryptoDB
Raymond K. Zhao
Publications
Year
Venue
Title
2022
PKC
Efficient Verifiable Partially-Decryptable Commitments from Lattices and Applications
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Abstract
We introduce verifiable partially-decryptable commitments (VPDC), as a building block for constructing efficient privacy-preserving protocols supporting auditability by a trusted party. A VPDC is an extension of a commitment along with an accompanying proof, convincing a verifier that (i) the given commitment is well-formed and (ii) a certain part of the committed message can be decrypted using a (secret) trapdoor known to a trusted party.
We first formalize VPDCs and then introduce a general decryption feasibility result that overcomes the challenges in relaxed proofs arising in the lattice setting. Our general result can be applied to a wide class of Fiat-Shamir based protocols and may be of independent interest.
Next, we show how to extend the commonly used lattice-based `Hashed-Message Commitment' (HMC) scheme into a succinct and efficient VPDC. In particular, we devise a novel `gadget'-based Regev-style (partial) decryption method, compatible with efficient relaxed lattice-based zero-knowledge proofs. We prove the soundness of our VPDC in the setting of adversarial proofs, where a prover tries to create a valid VPDC output that fails in decryption.
To demonstrate the effectiveness of our results, we extend a private blockchain payment protocol, MatRiCT, by Esgin et al. (ACM CCS '19) into a formally auditable construction, which we call MatRiCT-Au, with very low communication and computation overheads over MatRiCT.
Program Committees
- Asiacrypt 2023
Coauthors
- Muhammed F. Esgin (1)
- Ron Steinfeld (1)
- Raymond K. Zhao (1)