We propose a novel approach to the formal specification and verification of dynamic architectures that are at the core of adaptive systems such as critical infrastructure protection. Key features include run-time reconfiguration based on adding and removing components and connections, resulting in systems with unbounded number of components. We provide a logic-based specification of a Dynamic Parametrized Architecture (DPA), where parameters represent the infinite-state space of possible configurations, and first-order formulas represent the sets of initial configurations and reconfiguration transitions. We encode information flow properties as reachability problems of such DPAs, define a translation into an array-based transition system, and use a Satisfiability Modulo Theories (SMT)-based model checker to tackle a number of case studies.
Formal Specification and Verification of Dynamic Parametrized Architectures
Alessandro Cimatti;Ivan Stojic;Stefano Tonetta
2018-01-01
Abstract
We propose a novel approach to the formal specification and verification of dynamic architectures that are at the core of adaptive systems such as critical infrastructure protection. Key features include run-time reconfiguration based on adding and removing components and connections, resulting in systems with unbounded number of components. We provide a logic-based specification of a Dynamic Parametrized Architecture (DPA), where parameters represent the infinite-state space of possible configurations, and first-order formulas represent the sets of initial configurations and reconfiguration transitions. We encode information flow properties as reachability problems of such DPAs, define a translation into an array-based transition system, and use a Satisfiability Modulo Theories (SMT)-based model checker to tackle a number of case studies.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
