抗崩溃、不受时间限制的最终领导

A. Mostéfaoui, M. Raynal, Corentin Travers
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引用次数: 43

摘要

基于leader的协议依赖于能够为进程提供相同唯一leader的原语。这种协议在分布式计算中非常常见,用于解决同步或协调问题。不幸的是,在容易发生进程崩溃的异步分布式系统中,提供这样的原语远非微不足道。(这在容易出错的纯异步系统中甚至是不可能的。)为了克服这个困难,已经提出了几个协议,这些协议在异步分布式系统上建立了一个具有丰富同步假设的领导者设施。本文考虑另一种构建领导者设施的方法,即考虑交换消息流的行为属性。这个属性有一个值得注意的特点,它不涉及时间假设。描述了两个基于这种无时间特性的协议,它们实现了领导者原语。第一个使用可能无限的计数器,而第二个(稍微复杂一点)只需要有限的内存。这些协议依赖于简单的设计原则,使它们具有吸引力,易于理解并且可证明是正确的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Crash-resilient time-free eventual leadership
Leader-based protocols rest on a primitive able to provide the processes with the same unique leader. Such protocols are very common in distributed computing to solve synchronization or coordination problems. Unfortunately, providing such a primitive is far from being trivial in asynchronous distributed systems prone to process crashes. (It is even impossible in fault-prone purely asynchronous systems.) To circumvent this difficulty, several protocols have been proposed that build a leader facility on top of an asynchronous distributed system enriched with synchrony assumptions. This paper consider another approach to build a leader facility, namely, it considers a behavioral property on the flow of messages that are exchanged. This property has the noteworthy feature not to involve timing assumptions. Two protocols based on this time-free property that implement a leader primitive are described. The first one uses potentially unbounded counters, while the second one (which is a little more involved) requires only finite memory. These protocols rely on simple design principles that make them attractive, easy to understand and provably correct.
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