开放分布式系统中基于解耦群体的拜占庭弹性协调

Sixth IEEE International Symposium on Network Computing and Applications (NCA 2007) Pub Date : 2006-09-18 DOI:10.1109/NCA.2007.14

A. Bessani, M. Correia, J. Fraga, L. Lung

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引用次数: 3

摘要

开放的分布式系统通常由在异构主机上运行的未知数量的进程组成。它们之间的通信通常需要容忍暂时的断开连接和防止恶意行为的安全性。元组空间是这类系统的一种众所周知的协调模型。它们可以支持在时间和空间上解耦的通信。目前有几种分布式容错元组空间的实现，但它们不是拜占庭弹性的，也就是说，如果某些副本受到攻击并开始行为不正常，它们不能提供正确的服务。本文给出了线性拜占庭容错元组空间LBTS的一种有效实现。LBTS使用一种新的拜占庭仲裁系统复制技术，其中大多数操作由仲裁协议实现，而更强的操作由基于共识的更昂贵的协议实现。LBTS是线性的，无等待的，与基于状态机复制的类似结构相比，显示出有趣的性能提升。

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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Decoupled Quorum-Based Byzantine-Resilient Coordination in Open Distributed Systems

Open distributed systems are typically composed by an unknown number of processes running in heterogeneous hosts. Their communication often requires tolerance to temporary disconnections and security against malicious actions. Tuple spaces are a well-known coordination model for this sort of systems. They can support communication that is decoupled both in time and space. There are currently several implementations of distributed fault-tolerant tuple spaces but they are not Byzantine-resilient, i.e., they do not provide a correct service if some replicas are attacked and start to misbehave. This paper presents an efficient implementation of LBTS, a linearizable Byzantine fault-tolerant tuple space. LBTS uses a novel Byzantine quorum systems replication technique in which most operations are implemented by quorum protocols while stronger operations are implemented by more expensive protocols based on consensus. LBTS is linearizable and wait-free, showing interesting performance gains when compared to a similar construction based on state machine replication.

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Sixth IEEE International Symposium on Network Computing and Applications (NCA 2007)

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