Extensible Technology-Agnostic Runtime Verification
Christian Colombo (University of Malta), Adrian Francalanza, (University of Malta), Ruth Mizzi (University of Malta), Gordon J. Pace, (University of Malta)
TL;DR
This paper introduces a framework for extensible, technology-agnostic runtime verification, allowing monitoring of heterogeneous systems composed of components built with different technologies like C and Java.
Contribution
It extends the polyLarva runtime-verification tool to support heterogeneous component systems, enabling verification across diverse technologies.
Findings
Successfully applied to a case study with C and Java components
Demonstrates extensibility and technology-agnostic capabilities
Enhances reliability of heterogeneous systems
Abstract
With numerous specialised technologies available to industry, it has become increasingly frequent for computer systems to be composed of heterogeneous components built over, and using, different technologies and languages. While this enables developers to use the appropriate technologies for specific contexts, it becomes more challenging to ensure the correctness of the overall system. In this paper we propose a framework to enable extensible technology agnostic runtime verification and we present an extension of polyLarva, a runtime-verification tool able to handle the monitoring of heterogeneous-component systems. The approach is then applied to a case study of a component-based artefact using different technologies, namely C and Java.
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