Semi-Automated Verification of Interior Unsafe Code Encapsulation in Real-World Rust Systems

Interior unsafe is an essential design paradigm advocated by the Rust community in system software development. However, there is little official guidance or few best practices regarding how to encapsulate unsafe code and achieve interior unsafe. To address this issue, this paper studies how interio...

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Bibliographic Details
Published in:IEEE/ACM International Conference on Automated Software Engineering : [proceedings] pp. 2435 - 2437
Main Author: Rao, Zihao
Format: Conference Proceeding
Language:English
Published: ACM 27.10.2024
Subjects:
Analytical models
Best practices
Codes
Complexity theory
Encapsulation
Encoding
Software engineering
System software
ISSN:2643-1572
Online Access:Get full text
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Summary:Interior unsafe is an essential design paradigm advocated by the Rust community in system software development. However, there is little official guidance or few best practices regarding how to encapsulate unsafe code and achieve interior unsafe. To address this issue, this paper studies how interior unsafe is achieved in practice, aiming to identify best practices to guide Rust code design concerning unsafe code encapsulation. Specifically, we propose a novel unsafety isolation graph to model the essential usage and encapsulation of unsafe code. Based on the graph, we further propose four major isolation types and nine structural patterns to split a graph into several small self-contained subgraphs. These subgraphs can serve as useful audit units for examining the soundness of unsafe code encapsulation. We applied our approach to four real-world Rust projects. The experimental results demonstrate that our method is effective in characterizing their encapsulation code. Additionally, we identified three encapsulation patterns and two common issues in these projects that could complicate soundness verification or incur unsoundness issues.
ISSN:2643-1572
DOI:10.1145/3691620.3695373