用异步方法调用验证并发对象

IEEE International Conference on Software - Science, Technology & Engineering (SwSTE'05) Pub Date : 2005-02-22 DOI:10.1109/SWSTE.2005.24

Johan Dovland, E. Johnsen, Olaf Owe

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引用次数: 40

摘要

当前面向对象的分布式程序方法可能在几个方面受到批评。首先，方法调用通常是同步的，这在分布式和不稳定的网络中导致了大量等待。其次，线程并发的通用模型使得对程序行为的推理非常具有挑战性。提出了一种基于异步方法调用的并发对象通信模型，将面向对象和分布较好地结合起来。本文介绍了该模型的推理系统，着重于简单性和模块化。我们认为，一个简单和组合的证明系统是最重要的，以允许验证真实的程序。所提出的证明规则是从标准顺序语言的Hoare规则中导出的，通过语义编码来保持健全和相对完备性。

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Verification of concurrent objects with asynchronous method calls

Current object-oriented approaches to distributed programs may be criticized in several respects. First, method calls are generally synchronous, which leads to much waiting in distributed and unstable networks. Second, the common model of thread concurrency makes reasoning about program behavior very challenging. A model based on concurrent objects communicating by means of asynchronous method calls has been proposed to combine object orientation and distribution in a more satisfactory way. This paper introduces a reasoning system for this model, focusing on simplicity and modularity. We believe that a simple and compositional proof system is paramount to allow verification of real programs. The proposed proof rules are derived from the Hoare rules of a standard sequential language by means of a semantic encoding preserving soundness and relative completeness.

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IEEE International Conference on Software - Science, Technology & Engineering (SwSTE'05)

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