On the Complexity of Parameterized Reachability in Reconfigurable Broadcast Networks

We investigate the impact of dynamic topology reconfiguration on the complexity of verification problems for models of protocols with broadcast communication. We first consider reachability of a configuration with a given set of control states and show that parameterized verification is decidable with polynomial time complexity. We then move to richer queries and show how the complexity changes when considering properties with negation or cardinality constraints

Verifying Mutable Systems

Model checking has had much success in the verification of single-process and multi-process programs. However, model checkers assume an immutable topology which limits the verification in several areas. Consider the security domain, model checkers have had success in the verification of unicast structurally static protocols, but struggle to verify dynamic multicast cryptographic protocols. We give a formulation of dynamic model checking which extends traditional model checking by allowing structural changes, mutations, to the topology of multi-process network models. We introduce new mutation models when the structural mutations take either a primitive, non-primitive, or a non-deterministic form, and analyze the general complexities of each. This extends traditional model checking and allows analysis in new areas. We provide a set of proof rules to verify safety properties on dynamic models and outline its automizability. We relate dynamic models to compositional reasoning, dynamic cutoffs, parametrized analysis, and previously established parametric assertions.We provide a proof of concept by analyzing a dynamic mutual exclusion protocol and a multicast cryptography protocol

On the Complexity of Parameterized Reachability in Reconfigurable Broadcast Networks

none4sinoneG. Delzanno;A. Sangnier;R. Traverso;G. ZavattaroG. Delzanno;A. Sangnier;R. Traverso;G. Zavattar