Parametric Timed Model Checking for Guaranteeing Timed Opacity
Abstract
Information leakage can have dramatic consequences on systems security. Among harmful information leaks, the timing information leakage is the ability for an attacker to deduce internal information depending on the system execution time. We address the following problem: given a timed system, synthesize the execution times for which one cannot deduce whether the system performed some secret behavior. We solve this problem in the setting of timed automata (TAs). We first provide a general solution, and then extend the problem to parametric TAs, by synthesizing internal timings making the TA secure. We study decidability, devise algorithms, and show that our method can also apply to program analysis.
Cite
@article{arxiv.1907.00537,
title = {Parametric Timed Model Checking for Guaranteeing Timed Opacity},
author = {Étienne André and Jun Sun},
journal= {arXiv preprint arXiv:1907.00537},
year = {2020}
}
Comments
This is the author (and extended) version of the manuscript of the same name published in the proceedings of ATVA 2019. This work is partially supported by the ANR national research program PACS (ANR-14-CE28-0002), the ANR-NRF research program (ProMiS) and by ERATO HASUO Metamathematics for Systems Design Project (No. JPMJER1603), JST