Liveness and latency of Byzantine state-machine replication

IF 1.3 4区 计算机科学 Q3 COMPUTER SCIENCE, THEORY & METHODS Distributed Computing Pub Date : 2024-05-03 DOI:10.1007/s00446-024-00466-4
Manuel Bravo, Gregory Chockler, Alexey Gotsman
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Abstract

Byzantine state-machine replication (SMR) ensures the consistency of replicated state in the presence of malicious replicas and lies at the heart of the modern blockchain technology. Byzantine SMR protocols often guarantee safety under all circumstances and liveness only under synchrony. However, guaranteeing liveness even under this assumption is nontrivial. So far we have lacked systematic ways of incorporating liveness mechanisms into Byzantine SMR protocols, which often led to subtle bugs. To close this gap, we introduce a modular framework to facilitate the design of provably live and efficient Byzantine SMR protocols. Our framework relies on a view abstraction generated by a special SMR synchronizer primitive to drive the agreement on command ordering. We present a simple formal specification of an SMR synchronizer and its bounded-space implementation under partial synchrony. We also apply our specification to prove liveness and analyze the latency of three Byzantine SMR protocols via a uniform methodology. In particular, one of these results yields what we believe is the first rigorous liveness proof for the algorithmic core of the seminal PBFT protocol.

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拜占庭状态机复制的有效性和延迟
拜占庭状态机复制(SMR)可确保在存在恶意复制的情况下复制状态的一致性,是现代区块链技术的核心。拜占庭状态机复制协议通常在所有情况下都能保证安全性,而只有在同步情况下才能保证有效性。然而,即使在这种假设下保证有效性也并非易事。迄今为止,我们还缺乏将有效性机制纳入拜占庭 SMR 协议的系统方法,这往往会导致微妙的错误。为了弥补这一缺陷,我们引入了一个模块化框架,以方便设计可证明有效的拜占庭 SMR 协议。我们的框架依赖于由特殊的 SMR 同步器基元生成的视图抽象来驱动命令排序协议。我们介绍了 SMR 同步器的简单形式规范及其在部分同步下的有界空间实现。我们还应用我们的规范证明了有效性,并通过统一方法分析了三个拜占庭 SMR 协议的延迟。特别是,其中一个结果产生了我们认为是开创性的 PBFT 协议算法核心的第一个严格的有效性证明。
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来源期刊
Distributed Computing
Distributed Computing 工程技术-计算机:理论方法
CiteScore
3.20
自引率
0.00%
发文量
24
审稿时长
>12 weeks
期刊介绍: The international journal Distributed Computing provides a forum for original and significant contributions to the theory, design, specification and implementation of distributed systems. Topics covered by the journal include but are not limited to: design and analysis of distributed algorithms; multiprocessor and multi-core architectures and algorithms; synchronization protocols and concurrent programming; distributed operating systems and middleware; fault-tolerance, reliability and availability; architectures and protocols for communication networks and peer-to-peer systems; security in distributed computing, cryptographic protocols; mobile, sensor, and ad hoc networks; internet applications; concurrency theory; specification, semantics, verification, and testing of distributed systems. In general, only original papers will be considered. By virtue of submitting a manuscript to the journal, the authors attest that it has not been published or submitted simultaneously for publication elsewhere. However, papers previously presented in conference proceedings may be submitted in enhanced form. If a paper has appeared previously, in any form, the authors must clearly indicate this and provide an account of the differences between the previously appeared form and the submission.
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