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Modular Information Flow Through Ownership

Crichton, Will, Marco Patrignani, Maneesh Agrawala, Pat Hanrahan

2022Institutional Research Information System (Università degli Studi di Trento)13 citationsDOI

Abstract

Statically analyzing information flow, or how data influences other data within a program, is a challenging task in imperative languages. Analyzing pointers and mutations requires access to a program’s complete source. However, programs often use pre-compiled dependencies where only type signatures are available. We demonstrate that ownership types can be used to soundly and precisely analyze information flow through function calls given only their type signature. From this insight, we built Flowistry, a system for analyzing information flow in Rust, an ownership-based language. We prove the system’s soundness as a form of noninterference using the Oxide formal model of Rust. Then we empirically evaluate the precision of Flowistry, showing that modular flows are identical to whole-program flows in 94% of cases drawn from large Rust codebases. We illustrate the applicability of Flowistry by using it to implement prototypes of a program slicer and an information flow control system.

Topics & Concepts

Computer scienceSoundnessInformation flowModular designRust (programming language)Control flowProgramming languageSignature (topology)Data flow diagramTask (project management)Flow (mathematics)Function (biology)Theoretical computer scienceDatabaseEconomicsBiologyLinguisticsManagementPhilosophyEvolutionary biologyMathematicsGeometrySecurity and Verification in ComputingAdvanced Malware Detection TechniquesDistributed systems and fault tolerance
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