Paper 2020/130
Succinctly Reconstructed Distributed Signatures and Balanced Byzantine Agreement
Elette Boyle and Ran Cohen and Aarushi Goel
Abstract
Byzantine agreement (BA), the task of $n$ parties to agree on one of their input bits in the face of malicious agents, is a powerful primitive that lies at the core of virtually every multi-party cryptographic protocol. Interestingly, in protocols with the best overall communication complexity, the communication demands of the parties are highly unbalanced: the amortized cost is $\tilde O(1)$ bits per party, but some parties must send $\Omega(n)$ bits. In best known balanced protocols, the overall communication is sub-optimal, with each party communicating $\tilde O(\sqrt{n})$. In this work, we ask whether asymmetry is inherent for optimizing total communication. Our contributions in this line are as follows: 1) We identify a cryptographic primitive, succinctly reconstructed distributed signatures (SRDS), that suffices for constructing $\tilde O(1)$ balanced BA. We provide two constructions of SRDS from different cryptographic and Public-Key Infrastructure (PKI) assumptions. 2) The SRDS-based BA follows a paradigm of boosting from "almost-everywhere" agreement to full agreement, and does so in a single round. We prove that PKI setup and cryptographic assumptions are necessary for such protocols in which every party sends $o(n)$ messages. 3) We further explore connections between a natural approach toward attaining SRDS and average-case succinct non-interactive argument systems for a particular type of "Subset-$f$" problems (generalizing Subset-Sum and Subset-Product). Collectively, our results provide an initial mapping for the feasibility landscape of $\tilde O(1)$ balanced BA, including new approaches forward, as well as limitations and barriers. Our approach yields the first two BA protocols with $\tilde O(1)$ balanced communication, offering a tradeoff between setup and cryptographic assumptions, and answering an open question presented by King and Saia (DISC'09).
Metadata
- Available format(s)
- Category
- Cryptographic protocols
- Publication info
- Preprint. MINOR revision.
- Keywords
- Byzantine agreementcommunication complexity
- Contact author(s)
- elette boyle @ idc ac il,rancohen @ ccs neu edu,aarushig @ cs jhu edu
- History
- 2023-10-20: last of 6 revisions
- 2020-02-10: received
- See all versions
- Short URL
- https://ia.cr/2020/130
- License
-
CC BY