CryptoDB
Nir Bitanksy
Publications
Year
Venue
Title
2020
TCC
Characterizing Deterministic-Prover Zero Knowledge
📺
Abstract
Randomness is typically thought to be essential for zero knowledge protocols. Following this intuition, Goldreich and Oren (Journal of Cryptology 94) proved that auxiliary-input zero knowledge cannot be achieved with a deterministic prover. On the other hand, positive results are only known in the honest-verifier setting, or when the prover is given at least a restricted source of entropy.
We prove that removing (or just bounding) the verifier's auxiliary input, deterministic-prover zero knowledge becomes feasible:
- Assuming non-interactive witness-indistinguishable proofs and subexponential indistinguishability obfuscation and one-way functions, we construct deterministic-prover zero-knowledge arguments for $\NP\cap \coNP$ against verifiers with bounded non-uniform auxiliary input.
- Assuming also keyless hash functions that are collision-resistant against bounded-auxiliary-input quasipolynomial-time attackers, we construct similar arguments for all of $\NP$.
Together with the result of Goldreich and Oren, this characterizes when deterministic-prover zero knowledge is feasible. We also demonstrate the necessity of strong assumptions, by showing that deterministic prover zero knowledge arguments for a given language imply witness encryption for that language. We further prove that such arguments can always be collapsed to two messages and be made laconic. These implications rely on a more general connection with the notion of predictable arguments by Faonio, Nielsen, and Venturi (PKC 17).
Coauthors
- Nir Bitanksy (1)
- Arka Rai Choudhuri (1)