Constraint-based oracles for timed distributed systems

Abstract

© 2017, IFIP International Federation for Information Processing. This paper studies the situation in which the system under test and the system model are distributed and have the same structure; they have corresponding remote components that communicate asynchronously. In testing, a component with interface C i has its own local tester that interacts with C i and this local tester observes a local trace consisting of inputs, outputs and durations as perceived by C i . An observation made in testing is thus a multi-trace: a tuple of (timed) local traces, one for each C i . The conformance relation for such distributed systems combines a classical unitary conformance relation for localised components and the requirement that the communication policy was satisfied. By expressing the communication policy as a constraint satisfaction problem, we were able to implement the computation of test verdicts by orchestrating localised off-line testing algorithms and the verification of constraints defined by message passing between components. Lastly, we illustrate our approach on a telecommunications system.