info:eu-repo/semantics/article
Doping Tests for Cyber-physical Systems
Fecha
2021-07Registro en:
Biewer, Sebastian; D'argenio, Pedro Ruben; Hermanns, Holger; Doping Tests for Cyber-physical Systems; Association for Computing Machinery; Acm Transactions On Modeling And Computer Simulation; 31; 3; 7-2021; 1-27
1049-3301
1558-1195
CONICET Digital
CONICET
Autor
Biewer, Sebastian
D'argenio, Pedro Ruben
Hermanns, Holger
Resumen
The software running in embedded or cyber-physical systems is typically of proprietary nature, so users do not know precisely what the systems they own are (in)capable of doing. Most malfunctionings of such systems are not intended by the manufacturer, but some are, which means these cannot be classified as bugs or security loopholes. The most prominent examples have become public in the diesel emissions scandal, where millions of cars were found to be equipped with software violating the law, altogether polluting the environment and putting human health at risk. The behaviour of the software embedded in these cars was intended by the manufacturer, but it was not in the interest of society, a phenomenon that has been called software doping. Due to the unavailability of a specification, the analysis of doped software is significantly different from that for buggy or insecure software and hence classical verification and testing techniques have to be adapted. The work presented in this article builds on existing definitions of software doping and lays the theoretical foundations for conducting software doping tests, so as to enable uncovering unethical manufacturers. The complex nature of software doping makes it very hard to effectuate doping tests in practice. We explain the main challenges and provide efficient solutions to realise doping tests despite this complexity.