Flow-Sensitive Composition of Thread-Modular Abstract Interpretation
Abstract
We propose a constraint-based flow-sensitive static analysis for concurrent programs by iteratively composing thread-modular abstract interpreters via the use of a system of lightweight constraints. Our method is compositional in that it first applies sequential abstract interpreters to individual threads and then composes their results. It is flow-sensitive in that the causality ordering of interferences (flow of data from global writes to reads) is modeled by a system of constraints. These interference constraints are lightweight since they only refer to the execution order of program statements as opposed to their numerical properties: they can be decided efficiently using an off-the-shelf Datalog engine. Our new method has the advantage of being more accurate than existing, flow-insensitive, static analyzers while remaining scalable and providing the expected soundness and termination guarantees even for programs with unbounded data. We implemented our method and evaluated it on a large number of benchmarks, demonstrating its effectiveness at increasing the accuracy of thread-modular abstract interpretation.
Keywords
Cite
@article{arxiv.1709.10116,
title = {Flow-Sensitive Composition of Thread-Modular Abstract Interpretation},
author = {Markus Kusano and Chao Wang},
journal= {arXiv preprint arXiv:1709.10116},
year = {2017}
}
Comments
revised version of the FSE 2016 paper