Model-Driven Engineering for Formal Verification and Security Testing of Authentication Protocols
Abstract
Even if the verification of authentication protocols can be achieved by means of formal analysis, the modelling of such an activity is an error-prone task due to the lack of automated and integrated processes. This paper proposes a comprehensive approach, based on the Unified Modeling Language (UML) profiling technique and on model-transformation, to enable automatic analysis of authentication protocols starting from high-level models. In particular, a UML-based approach is able to generate an annotated model of communication protocols from which formal notations (e.g., AnBx, Tamarin) can be generated. Such models in lower-level languages can be analysed with existing solvers and/or with traditional testing techniques by means of test case generation approaches. The industrial impact of the research is high due to the growing need of security and the necessity to connect industrial processes and equipment to virtualised computing infrastructures. The research is conducted on two case studies: railway signalling systems and blockchain based applications.
Cite
@article{arxiv.2210.03020,
title = {Model-Driven Engineering for Formal Verification and Security Testing of Authentication Protocols},
author = {Mariapia Raimondo and Stefano Marrone and Angelo Palladino},
journal= {arXiv preprint arXiv:2210.03020},
year = {2022}
}
Comments
Editor: Ib\'eria Medeiros. 18th European Dependable Computing Conference (EDCC 2022), September 12-15, 2022, Zaragoza, Spain. Student Forum Proceedings - EDCC 2022