Finding $\forall\exists$ Hyperbugs using Symbolic Execution
Abstract
Many important hyperproperties, such as refinement and generalized non-interference, fall into the class of hyperproperties and require, for each execution trace of a system, the existence of another trace relating to the first one in a certain way. The alternation of quantifiers renders hyperproperties extremely difficult to verify, or even just to test. Indeed, contrary to trace properties, where it suffices to find a single counterexample trace, refuting a hyperproperty requires not only to find a trace, but also a proof that no second trace satisfies the specified relation with the first trace. As a consequence, automated testing of hyperproperties falls out of the scope of existing automated testing tools. In this paper, we present a fully automated approach to detect violations of hyperproperties in software systems. Our approach extends bug-finding techniques based on symbolic execution with support for trace quantification. We provide a prototype implementation of our approach, and demonstrate its effectiveness on a set of challenging examples.
Cite
@article{arxiv.2501.07918,
title = {Finding $\forall\exists$ Hyperbugs using Symbolic Execution},
author = {Arthur Correnson and Tobias Niessen and Bernd Finkbeiner and Georg Weissenbacher},
journal= {arXiv preprint arXiv:2501.07918},
year = {2025}
}