Access-Path Abstraction: Scaling Field-Sensitive Data-Flow Analysis with Unbounded Access Paths (T)

2015 30th IEEE/ACM International Conference on Automated Software Engineering (ASE) Pub Date : 2015-11-09 DOI:10.1109/ASE.2015.9

Johannes Lerch, Johannes Späth, E. Bodden, M. Mezini

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引用次数: 37

Abstract

Precise data-flow analyses frequently model field accesses through access paths with varying length. While using longer access paths increases precision, their size must be bounded to assure termination, and should anyway be small to enable a scalable analysis. We present Access-Path Abstraction, which for the first time combines efficiency with maximal precision. At control-flow merge points Access-Path Abstraction represents all those access paths that are rooted at the same base variable through this base variable only. The full access paths are reconstructed on demand where required. This makes it unnecessary to bound access paths to a fixed maximal length. Experiments with Stanford SecuriBench and the Java Class Library compare our open-source implementation against a field-based approach and against a field-sensitive approach that uses bounded access paths. The results show that the proposed approach scales as well as a field-based approach, whereas the approach using bounded access paths runs out of memory.

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访问路径抽象:具有无界访问路径(T)的伸缩域敏感数据流分析

精确的数据流分析经常通过不同长度的访问路径对字段访问进行建模。虽然使用较长的访问路径可以提高精度，但必须限制其大小以确保终止，并且无论如何都应该很小以支持可伸缩的分析。我们提出了存取路径抽象，首次将效率与最大精度结合起来。在控制流合并点上，访问路径抽象仅通过此基本变量表示根于同一基本变量的所有访问路径。在需要的地方，根据需要重建完整的访问路径。这使得没有必要将访问路径绑定到固定的最大长度。使用Stanford SecuriBench和Java类库的实验将我们的开源实现与基于字段的方法和使用有界访问路径的字段敏感方法进行了比较。结果表明，该方法具有良好的可扩展性和基于字段的方法，而使用有界访问路径的方法会耗尽内存。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2015 30th IEEE/ACM International Conference on Automated Software Engineering (ASE)

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