All-Path Reachability Logic

Ştefănescu, AndreiŞtefan CiobâcăMereuţă, RaduMoore, Brandon M.Şerbănuţă, Traian FlorinRoşu, Grigore
RTA’14

Abstract. This paper presents a language-independent proof system for reachability properties of programs written in non-deterministic (e.g. concurrent) languages, referred to as *all-path reachability logic*. It derives partial-correctness properties with all-path semantics (a state satisfying a given precondition reaches states satisfying a given postcondition on all terminating execution paths). The proof system takes as axioms any unconditional operational semantics, and is sound (partially correct) and (relatively) complete, independent of the object language; the soundness has also been mechanized (Coq). This approach is implemented in a tool for semantics-based verification as part of the K framework.