Dynamic formal verification is a key tool for providing ongoing confidence that a system is meeting its requirements while in use, especially when paired with static formal verification before the system is in use. This paper presents a workflow and Runtime Verification (RV) toolchain, Varanus, and their application to an industrial case study. Using the workflow we manually derive a Communicating Sequential Processes (CSP) model from natural-language safety requirements documents, which Varanus uses as the monitor oracle. This reuse of the model means that the monitor oracle does not have to be developed separately, risking inconsistencies between it and the model for static verification. The approach is demonstrated by the offline RV of a teleoperated manipulation system, called MASCOT, which enables remote operations inside the Joint European Torus (JET) fusion reactor. We describe our model of the MASCOT safety design documents (including how the modelling process revealed an underspecification in the design) and evaluate the Varanus toolchain's utility. The workflow and tool provide validation of the safety documents, traceability of the safety properties from the documentation to the system, and a verified oracle for RV.
翻译:动态的正式核查是一个关键工具,可以使人们持续相信一个系统在使用时,特别是在使用该系统之前,正在满足其要求,特别是在同时进行静态的正式核查时。本文件展示了工作流程和运行时核查工具链、Varanus及其在工业案例研究中的应用。利用工作流程,我们手工从语言安全要求文件(Varanus作为监测器或触碰器使用)中获取通信序列进程模型。这种对模型的重新利用意味着监视器或触角不必单独开发,这有可能使它与静态核查模式之间出现不一致。这种方法通过远程操作操作操作操作系统(称为MASCOT)的离线 RV 显示,它使欧洲联合托鲁斯(JET)核聚变反应堆内的远程操作得以进行。我们描述了我们的MASCOT安全设计文件模型(包括模拟程序如何在设计中揭示了不精确的特性),并评价了Varanus工具链的效用。该工作流程和工具提供了对安全文件的验证、安全特性从文档到系统的可追溯性,以及用于RACLV的核查或记录。