Partial Network Partitioning

IF 2 4区计算机科学 Q2 COMPUTER SCIENCE, THEORY & METHODS

ACM Transactions on Computer Systems Pub Date : 2022-12-19 DOI:10.1145/3576192

Basil Alkhatib, Sreeharsha Udayashankar, Sara Qunaibi, Ahmed Alquraan, Mohammed Alfatafta, Wael Al-Manasrah, Alex Depoutovitch, S. Al-Kiswany

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引用次数: 1

Abstract

We present an extensive study focused on partial network partitioning. Partial network partitions disrupt the communication between some but not all nodes in a cluster. First, we conduct a comprehensive study of system failures caused by this fault in 13 popular systems. Our study reveals that the studied failures are catastrophic (e.g., lead to data loss), easily manifest, and are mainly due to design flaws. Our analysis identifies vulnerabilities in core systems mechanisms including scheduling, membership management, and ZooKeeper-based configuration management. Second, we dissect the design of nine popular systems and identify four principled approaches for tolerating partial partitions. Unfortunately, our analysis shows that implemented fault tolerance techniques are inadequate for modern systems; they either patch a particular mechanism or lead to a complete cluster shutdown, even when alternative network paths exist. Finally, our findings motivate us to build Nifty, a transparent communication layer that masks partial network partitions. Nifty builds an overlay between nodes to detour packets around partial partitions. Nifty provides an approach for applications to optimize their operation during a partial partition. We demonstrate the benefit of this approach through integrating Nifty with VoltDB, HDFS, and Kafka.

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部分网络分区

我们提出了一个广泛的研究集中在部分网络划分。部分网络分区会中断集群中某些但不是所有节点之间的通信。首先，我们对13个流行系统中由该故障引起的系统故障进行了全面研究。我们的研究表明，所研究的故障是灾难性的（例如，导致数据丢失），很容易表现出来，并且主要是由于设计缺陷造成的。我们的分析发现了核心系统机制中的漏洞，包括调度、成员管理和基于ZooKeeper的配置管理。其次，我们剖析了九个流行系统的设计，并确定了容忍部分分区的四种原则性方法。不幸的是，我们的分析表明，实现的容错技术不适合现代系统；它们要么修补特定的机制，要么导致集群完全关闭，即使存在替代网络路径。最后，我们的发现激励我们构建Nifty，这是一个透明的通信层，可以屏蔽部分网络分区。Nifty在节点之间构建了一个覆盖层，以绕过部分分区的数据包。Nifty为应用程序在部分分区期间优化其操作提供了一种方法。我们通过将Nifty与VoltDB、HDFS和Kafka集成，展示了这种方法的好处。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

ACM Transactions on Computer Systems 工程技术-计算机：理论方法

CiteScore

4.00

自引率

0.00%

发文量

审稿时长

1 months

期刊介绍： ACM Transactions on Computer Systems (TOCS) presents research and development results on the design, implementation, analysis, evaluation, and use of computer systems and systems software. The term "computer systems" is interpreted broadly and includes operating systems, systems architecture and hardware, distributed systems, optimizing compilers, and the interaction between systems and computer networks. Articles appearing in TOCS will tend either to present new techniques and concepts, or to report on experiences and experiments with actual systems. Insights useful to system designers, builders, and users will be emphasized. TOCS publishes research and technical papers, both short and long. It includes technical correspondence to permit commentary on technical topics and on previously published papers.