RunDroid: recovering execution call graphs for Android applications

Proceedings of the 2017 11th Joint Meeting on Foundations of Software Engineering Pub Date : 2017-08-21 DOI:10.1145/3106237.3122821

Yujie Yuan, Lihua Xu, Xusheng Xiao, Andy Podgurski, Huibiao Zhu

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引用次数: 11

Abstract

Fault localization is a well-received technique for helping developers to identify faulty statements of a program. Research has shown that the coverages of faulty statements and its predecessors in program dependence graph are important for effective fault localization. However, app executions in Android split into segments in different components, i.e., methods, threads, and processes, posing challenges for traditional program dependence computation, and in turn rendering fault localization less effective. We present RunDroid, a tool for recovering the dynamic call graphs of app executions in Android, assisting existing tools for more precise program dependence computation. For each exectuion, RunDroid captures and recovers method calls from not only the application layer, but also between applications and the Android framework. Moreover, to deal with the widely adopted multi-threaded communications in Android applications, RunDroid also captures methods calls that are split among threads. Demo : https://github.com/MiJack/RunDroid Video : https://youtu.be/EM7TJbE-Oaw

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RunDroid:恢复Android应用程序的执行调用图

故障定位是一种很受欢迎的技术，用于帮助开发人员识别程序的错误语句。研究表明，程序依赖图中错误语句及其前身的覆盖范围对有效的故障定位非常重要。然而，在Android中，应用程序的执行被分成不同的组件，即方法、线程和进程，这给传统的程序依赖计算带来了挑战，从而降低了错误定位的效率。我们提出了RunDroid，一个用于恢复Android中应用程序执行的动态调用图的工具，帮助现有工具进行更精确的程序依赖计算。对于每次执行，RunDroid不仅捕获和恢复来自应用层的方法调用，而且还捕获应用程序和Android框架之间的方法调用。此外，为了处理Android应用程序中广泛采用的多线程通信，RunDroid还捕获了在线程之间分裂的方法调用。演示:https://github.com/MiJack/RunDroid视频:https://youtu.be/EM7TJbE-Oaw

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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Proceedings of the 2017 11th Joint Meeting on Foundations of Software Engineering

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