English

Byzantine-tolerant Distributed Grow-only Sets: Specification and Applications

Distributed, Parallel, and Cluster Computing 2021-03-17 v1 Data Structures and Algorithms

Abstract

In order to formalize Distributed Ledger Technologies and their interconnections, a recent line of research work has formulated the notion of Distributed Ledger Object (DLO), which is a concurrent object that maintains a totally ordered sequence of records, abstracting blockchains and distributed ledgers. Through DLO, the Atomic Appends problem, intended as the need of a primitive able to append multiple records to distinct ledgers in an atomic way, is studied as a basic interconnection problem among ledgers. In this work, we propose the Distributed Grow-only Set object (DSO), which instead of maintaining a sequence of records, as in a DLO, maintains a set of records in an immutable way: only Add and Get operations are provided. This object is inspired by the Grow-only Set (G-Set) data type which is part of the Conflict-free Replicated Data Types. We formally specify the object and we provide a consensus-free Byzantine-tolerant implementation that guarantees eventual consistency. We then use our Byzantine-tolerant DSO (BDSO) implementation to provide consensus-free algorithmic solutions to the Atomic Appends and Atomic Adds (the analogous problem of atomic appends applied on G-Sets) problems, as well as to construct consensus-free Single-Writer BDLOs. We believe that the BDSO has applications beyond the above-mentioned problems.

Cite

@article{arxiv.2103.08936,
  title  = {Byzantine-tolerant Distributed Grow-only Sets: Specification and Applications},
  author = {Vicent Cholvi and Antonio Fernández Anta and Chryssis Georgiou and Nicolas Nicolaou and Michel Raynal and Antonio Russo},
  journal= {arXiv preprint arXiv:2103.08936},
  year   = {2021}
}
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