Searching for Safety Violations Using Estimation of Distribution Algorithms

2010 Third International Conference on Software Testing, Verification, and Validation Workshops Pub Date : 2010-04-06 DOI:10.1109/ICSTW.2010.24

J. Staunton, J. A. Clark

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引用次数: 18

Abstract

Using aspects of model checking to analyse multi- threaded software is a promising method for finding common concurrent errors such as deadlock. Traditional model checking tools exhaustively search the state space of a concurrent system in order to find faults. Unfortunately, model checking suffers from the state space explosion problem, limiting the applicability of the approach to commercial software. Metaheuristic search mechanisms have been used in an attempt to overcome this issue with good results. Techniques such as Genetic Algorithms (GAs) and Estimation of Distribution Algorithms (EDAs) focus the search of the state space on areas that are more likely to contain errors. In this work, a novel EDA-based approach to exploring the state space of a model is outlined. Experiments are performed on an implementation using the Java PathFinder (JPF) model checker and the ECJ toolkit. The EDA-based approach is shown to perform well against standard search procedures such as depth-first search, whilst also outperforming random search on a benchmark problem. On larger problems, the EDA is shown to be the only effective technique of those compared.

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基于分布估计算法的安全违规搜索

利用模型检查的各个方面来分析多线程软件是发现死锁等常见并发错误的一种很有前途的方法。传统的模型检测工具通过对并发系统的状态空间进行穷尽搜索来发现故障。不幸的是，模型检查存在状态空间爆炸问题，限制了该方法在商业软件中的适用性。元启发式搜索机制已经被用来尝试克服这个问题，并取得了良好的结果。遗传算法(GAs)和分布估计算法(EDAs)等技术将状态空间的搜索重点放在更可能包含错误的区域上。在这项工作中，概述了一种新的基于eda的方法来探索模型的状态空间。使用Java PathFinder (JPF)模型检查器和ECJ工具包对实现进行了实验。基于eda的方法在深度优先搜索等标准搜索过程中表现良好，同时在基准问题上也优于随机搜索。在较大的问题上，EDA被证明是这些比较中唯一有效的技术。

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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2010 Third International Conference on Software Testing, Verification, and Validation Workshops

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