ZCSP的自旋设计验证

Third International Conference on Application of Concurrency to System Design, 2003. Proceedings. Pub Date : 2003-06-18 DOI:10.1109/CSD.2003.1207704

Vincent Beaudenon, Emmanuelle Encrenaz-Tiphène, J. Desbarbieux

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引用次数: 5

摘要

我们考虑为使用SPIN模型检查器进行LTL验证而指定零副本安全协议模型的问题。ZCSP基于直接内存访问。数据直接在用户空间内存中读写，减少了延迟，节省了处理器的计算时间。我们首先介绍了ZCSP协议，然后分析了不同的建模方法。执行了两个主要步骤:有限和非有限序列模型。第一个模型为我们提供了协议鲁棒性的概述。第二个允许我们测试真实的属性。我们还描述了使用SPIN模型检查器检查的LTL属性。不幸的是，系统的大小常常令人望而却步。因此，我们解释了我们必须执行的所有最小化步骤:变量域限制，交错约简，公平约束的现实环境表示。

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Design validation of ZCSP with SPIN

We consider the problem of specifying a model of the zero copy secured protocol for the purpose of LTL verification with the SPIN model checker. ZCSP is based on direct memory access. Data is directly read/written in user space memory, decreasing latency and saving processor computing time. We first introduce the ZCSP protocol before analysing different ways of modelling it. Two main steps were performed: a finite and a nonfinite sequences model. The first model gave us an overview of the protocol robustness. The second allowed us to test realistic properties. We also describe LTL properties that were checked with the SPIN model checker. Unfortunately, the size of the system was frequently prohibitive. Thus, we explain all minimization steps we had to perform: variables' domains restriction, interleaving reduction, realistic environment representation by fairness constraints.

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来源期刊

Third International Conference on Application of Concurrency to System Design, 2003. Proceedings.

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