有效地显示Android应用程序中的异步编程错误

Lingling Fan, Ting Su, Sen Chen, Guozhu Meng, Yang Liu, Lihua Xu, G. Pu
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引用次数: 57

摘要

Android,排名第一的移动应用框架,执行单GUI线程模型,其中单个UI线程管理GUI渲染和事件调度。由于这个模型,避免阻塞UI线程的响应性是至关重要的。一种常见的做法是将长时间运行的任务卸载到异步线程中。为了实现这一点,Android提供了各种异步编程结构,并让开发人员自己遵守模型隐含的规则。然而,正如我们的研究显示的那样,超过25%的应用违反了这些规则,引入了难以检测的、无法停止的错误,我们将其称为aysnc编程错误(ape)。为此,本文介绍了一种自动高效显示类人猿的技术——APEChecker。关键思想是将ape描述为特定的故障模式,并将静态分析和动态UI探索协同结合起来,以检测和验证此类错误。在40个真实的Android应用中,APEChecker公布并处理了61个ape,其中51个被确认(命中率为83.6%)。具体来说,APEChecker检测到的猿类比目前最先进的测试工具(Monkey、Sapienz和Stoat)多3倍,并将测试时间从半小时缩短到几分钟。在特定类型的猿上,APEChecker确认的错误比数据竞争检测工具EventRacer多5倍,并且很少有假警报。
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Efficiently Manifesting Asynchronous Programming Errors in Android Apps
Android, the #1 mobile app framework, enforces the single-GUI-thread model, in which a single UI thread manages GUI rendering and event dispatching. Due to this model, it is vital to avoid blocking the UI thread for responsiveness. One common practice is to offload long-running tasks into async threads. To achieve this, Android provides various async programming constructs, and leaves developers themselves to obey the rules implied by the model. However, as our study reveals, more than 25% apps violate these rules and introduce hard-to-detect, fail-stop errors, which we term as aysnc programming errors (APEs). To this end, this paper introduces APEChecker, a technique to automatically and efficiently manifest APEs. The key idea is to characterize APEs as specific fault patterns, and synergistically combine static analysis and dynamic UI exploration to detect and verify such errors. Among the 40 real-world Android apps, APEChecker unveils and processes 61 APEs, of which 51 are confirmed (83.6% hit rate). Specifically, APEChecker detects 3X more APEs than the state-of-art testing tools (Monkey, Sapienz and Stoat), and reduces testing time from half an hour to a few minutes. On a specific type of APEs, APEChecker confirms 5X more errors than the data race detection tool, EventRacer, with very few false alarms.
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