Optimal Self-Stabilizing Mobile Byzantine-Tolerant Regular Register with bounded timestamp

Abstract

This paper proposes the first implementation of a self-stabilizing regular register emulated by n servers that is tolerant to both mobile Byzantine agents, and transient failures in a round-free synchronous model. Differently from existing Mobile Byzantine tolerant register implementations, this paper considers a more powerful adversary where (i) the message delay (i.e., δ) and the period of mobile Byzantine agents movement (i.e., ) are completely decoupled and (ii) servers are not aware of their state i.e., they do not know if they have been corrupted or not by a mobile Byzantine agent.The proposed protocol tolerates (i) any number of transient failures, and (ii) up to f Mobile Byzantine agents. In addition, our implementation uses bounded timestamps from the Z\13 domain and it is optimal with respect to the number of servers needed to tolerate f mobile Byzantine agents in the given model.