Paper 2021/375
Round and Communication Balanced Protocols for Oblivious Evaluation of Finite State Machines
Rafael Dowsley and Caleb Horst and Anderson C A Nascimento
Abstract
We propose protocols for obliviously evaluating finite-state machines, i.e., the evaluation is shared between the provider of the finite-state machine and the provider of the input string in such a manner that neither party learns the other's input, and the states being visited are hidden from both. For alphabet size $|\Sigma|$, number of states $|Q|$, and input length $n$, previous solutions have either required a number of rounds linear in $n$ or communication $\Omega(n|\Sigma||Q|\log|Q|)$. Our solutions require 2 rounds with communication $O(n(|\Sigma|+|Q|\log|Q|))$. We present two different solutions to this problem, a two-party one and a setting with an untrusted but non-colluding helper.
Metadata
- Available format(s)
- Category
- Cryptographic protocols
- Publication info
- Preprint. MINOR revision.
- Contact author(s)
- rafael dowsley @ monash edu,calebjh @ uw edu,andclay @ uw edu
- History
- 2022-01-06: revised
- 2021-03-22: received
- See all versions
- Short URL
- https://ia.cr/2021/375
- License
-
CC BY