The /spl phi/ accrual failure detector

Naohiro Hayashibara, X. Défago, Rami Yared, T. Katayama
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引用次数: 121

Abstract

The detection of failures is a fundamental issue for fault-tolerance in distributed systems. Recently, many people have come to realize that failure detection ought to be provided as some form of generic service, similar to IP address lookup or time synchronization. However, this has not been successful so far; one of the reasons being the fact that classical failure detectors were not designed to satisfy several application requirements simultaneously. We present a novel abstraction, called accrual failure detectors, that emphasizes flexibility and expressiveness and can serve as a basic building block to implementing failure detectors in distributed systems. Instead of providing information of a binary nature (trust vs. suspect), accrual failure detectors output a suspicion level on a continuous scale. The principal merit of this approach is that it favors a nearly complete decoupling between application requirements and the monitoring of the environment. In this paper, we describe an implementation of such an accrual failure detector, that we call the /spl phi/ failure detector. The particularity of the /spl phi/ failure detector is that it dynamically adjusts to current network conditions the scale on which the suspicion level is expressed. We analyzed the behavior of our /spl phi/ failure detector over an intercontinental communication link over a week. Our experimental results show that if performs equally well as other known adaptive failure detection mechanisms, with an improved flexibility.
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/spl phi/累计故障检测器
故障检测是分布式系统容错的一个基本问题。最近,许多人开始意识到故障检测应该作为某种形式的通用服务提供,类似于IP地址查找或时间同步。然而,到目前为止,这还没有成功;其中一个原因是传统的故障检测器不能同时满足多个应用程序的需求。我们提出了一种新的抽象,称为累积故障检测器,它强调灵活性和表达性,可以作为在分布式系统中实现故障检测器的基本构建块。与其提供二元性质的信息(信任vs.怀疑),累积故障检测器以连续刻度输出怀疑级别。这种方法的主要优点是,它支持在应用程序需求和环境监视之间几乎完全解耦。在本文中,我们描述了这样一个累加式故障检测器的实现,我们称之为/spl phi/故障检测器。/spl phi/故障检测器的特殊之处在于它能根据当前网络条件动态调整表示怀疑程度的尺度。我们分析了我们的/spl phi/故障检测器在洲际通信链路上一周的行为。实验结果表明,该方法的性能与其他已知的自适应故障检测机制一样好,并且具有更高的灵活性。
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