Synthesizing Reactive Systems from Hyperproperties
Version 2 2023-12-11, 20:10Version 2 2023-12-11, 20:10
Version 1 2023-11-29, 18:09Version 1 2023-11-29, 18:09
conference contribution
posted on 2023-12-11, 20:10authored byBernd FinkbeinerBernd Finkbeiner, Christopher Hahn, Philip Lukert, Marvin Stenger, Leander Tentrup
We study the reactive synthesis problem for hyperproperties
given as formulas of the temporal logic HyperLTL. Hyperproperties generalize trace properties, i.e., sets of traces, to sets of sets of traces. Typical
examples are information-flow policies like noninterference, which stipulate that no sensitive data must leak into the public domain. Such properties cannot be expressed in standard linear or branching-time temporal
logics like LTL, CTL, or CTL∗
. We show that, while the synthesis problem is undecidable for full HyperLTL, it remains decidable for the ∃
∗
,
∃
∗∀
1
, and the linear ∀
∗
fragments. Beyond these fragments, the synthesis problem immediately becomes undecidable. For universal HyperLTL,
we present a semi-decision procedure that constructs implementations
and counterexamples up to a given bound. We report encouraging experimental results obtained with a prototype implementation on example specifications with hyperproperties like symmetric responses, secrecy,
and information-flow.
History
Preferred Citation
Bernd Finkbeiner, Christopher Hahn, Philip Lukert, Marvin Stenger and Leander Tentrup. Synthesizing Reactive Systems from Hyperproperties. In: Computer Aided Verification (CAV). 2018.
Primary Research Area
Reliable Security Guarantees
Name of Conference
Computer Aided Verification (CAV)
Legacy Posted Date
2019-06-23
Open Access Type
Unknown
BibTeX
@inproceedings{cispa_all_2929,
title = "Synthesizing Reactive Systems from Hyperproperties",
author = "Finkbeiner, Bernd and Hahn, Christopher and Lukert, Philip and Stenger, Marvin and Tentrup, Leander",
booktitle="{Computer Aided Verification (CAV)}",
year="2018",
}