Monitoring data-aware business constraints with finite state automata.

Checking the compliance of a business process execution with respect to a set of regulations is an important issue in several settings. A common way of representing the expected behavior of a process is to describe it as a set of business constraints. Runtime verification and monitoring facilities allow us to continuously determine the state of constraints on the current process execution, and to promptly detect violations at runtime. A plethora of studies has demonstrated that in several settings business constraints can be formalized in terms of temporal logic rules. However, in virtually all existing works the process behavior is mainly modeled in terms of control-flow rules, neglecting the equally important data perspective. In this paper, we overcome this limitation by presenting a novel monitoring approach that tracks streams of process events (that possibly carry data) and verifies if the process execution is compliant with a set of data-aware business constraints, namely constraints not only referring to the temporal evolution of events, but also to the temporal evolution of data. The framework is based on the formal specification of business constraints in terms of first-order linear temporal logic rules. Operationally, these rules are translated into finite state automata for dynamically reasoning on partial, evolving execution traces. We show the versatility of our approach by formalizing (the data-aware extension of) Declare, a declarative, constraint-based process modeling language, and by demonstrating its application on a concrete case dealing with web security.