Traffic-aware stress testing of distributed systems based on UML models

Proceedings of the 28th international conference on Software engineering Pub Date : 2006-05-28 DOI:10.1145/1134285.1134340

V. Garousi, L. Briand, Y. Labiche

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引用次数: 69

Abstract

A stress test methodology aimed at increasing chances of discovering faults related to network traffic in distributed systems is presented. The technique uses the UML 2.0 model of the distributed system under test, augmented with timing information, and is based on an analysis of the control flow in sequence diagrams. It yields stress test requirements that are made of specific control flow paths along with time values indicating when to trigger them. Different variants of our stress testing technique already exist (they stress different aspects of a distributed system) and we focus here on one variant that is designed to identify and to stress test the system at the instant when data traffic on a network is maximal. Using a real-world distributed system specification, we design and implement a prototype distributed system and describe, for that particular system, how the stress test cases are derived and executed using our methodology. The stress test results indicate that the technique is significantly more effective at detecting network traffic-related faults when compared to test cases based on an operational profile.

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基于UML模型的分布式系统的流量感知压力测试

提出了一种压力测试方法，旨在增加发现分布式系统中与网络流量有关的故障的机会。该技术使用了被测分布式系统的UML 2.0模型，增加了时序信息，并基于对序列图中的控制流的分析。它产生由特定控制流路径组成的压力测试需求，以及指示何时触发它们的时间值。我们的压力测试技术的不同变体已经存在(它们强调分布式系统的不同方面)，我们在这里集中讨论一种变体，它被设计用于识别和在网络上数据流量最大的瞬间对系统进行压力测试。使用真实世界的分布式系统规范，我们设计并实现了一个原型分布式系统，并描述了该特定系统的压力测试用例是如何使用我们的方法派生和执行的。压力测试结果表明，与基于操作概要的测试用例相比，该技术在检测网络流量相关故障方面明显更有效。

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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Proceedings of the 28th international conference on Software engineering

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