SIAT: A systematic inter-component communication real-time analysis technique for detecting data leak threats on Android

IF 0.9 Q4 COMPUTER SCIENCE, INFORMATION SYSTEMS Journal of Computer Security Pub Date : 2023-11-28 DOI:10.3233/jcs-220044
Yupeng Hu, Wenxin Kuang, Jin Zhe, Wenjia Li, Keqin Li, Jiliang Zhang, Qiao Hu
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Abstract

This paper presents the design and implementation of a systematic Inter-Component Communications (ICCs) dynamic Analysis Technique (SIAT) for detecting privacy-sensitive data leak threats. SIAT’s specific approach involves the identification of malicious ICC patterns by actively tracing both data flows and implicit control flows within ICC processes during runtime. This is achieved by utilizing the taint tagging methodology, a technique utilized by TaintDroid. As a result, it can discover the malicious intent usage pattern and further resolve the coincidental malicious ICCs and bypass cases without incurring performance degradation. SIAT comprises two key modules: Monitor and Analyzer. The Monitor makes the first attempt to revise the taint tag approach named TaintDroid by developing the built-in intent service primitives to help Android capture the intent-related taint propagation at multi-level for malicious ICC detection. Specifically, we enable the Monitor to perform systemwide tracking of intent with five abstraction functionalities embedded in the interactive workflow of components. By analyzing the taint logs offered by the Monitor, the Analyzer can build the accurate and integrated ICC patterns adopted to identify the specific leak threat patterns with the identification algorithms and predefined rules. Meanwhile, we employ the patterns’ deflation technique to improve the efficiency of the Analyzer. We implement the SIAT with Android Open Source Project and evaluate its performance through extensive experiments on a particular dataset consisting of well-known datasets and real-world apps. The experimental results show that, compared to state-of-the-art approaches, the SIAT can achieve about 25% ∼200% accuracy improvements with 1.0 precision and 0.98 recall at negligible runtime overhead. Apart from that, the SIAT can identify two undisclosed cases of bypassing that prior technologies cannot detect and quite a few malicious ICC threats in real-world apps with lots of downloads on the Google Play market.
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SIAT:用于检测安卓系统数据泄露威胁的系统化组件间通信实时分析技术
本文介绍了用于检测隐私敏感数据泄漏威胁的系统化组件间通信(ICC)动态分析技术(SIAT)的设计与实现。SIAT 的具体方法包括在运行期间主动跟踪 ICC 进程内的数据流和隐式控制流,从而识别恶意 ICC 模式。这是通过利用 TaintDroid 使用的污点标记方法实现的。因此,它可以发现恶意意图的使用模式,并进一步解决巧合的恶意 ICC 和旁路情况,而不会导致性能下降。SIAT 包括两个关键模块:监控器和分析器。监控器首次尝试修改名为 TaintDroid 的污点标签方法,开发了内置的意图服务原语,以帮助 Android 捕捉多层次的意图相关污点传播,从而实现恶意 ICC 检测。具体来说,我们在组件的交互式工作流程中嵌入了五个抽象功能,使监控器能够执行全系统的意图跟踪。通过分析监控器提供的污点日志,分析器可以建立准确、综合的 ICC 模式,采用识别算法和预定义规则识别特定的泄漏威胁模式。同时,我们还采用了模式放缩技术来提高分析器的效率。我们利用安卓开源项目实现了 SIAT,并通过在由知名数据集和真实应用程序组成的特定数据集上进行大量实验来评估其性能。实验结果表明,与最先进的方法相比,SIAT 在精度为 1.0、召回率为 0.98 的情况下,准确率提高了约 25% ∼ 200%,运行时开销几乎可以忽略不计。除此以外,SIAT 还能在 Google Play 市场上下载量较大的真实应用程序中识别出两种之前的技术无法检测到的未公开绕过情况和大量恶意 ICC 威胁。
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来源期刊
Journal of Computer Security
Journal of Computer Security COMPUTER SCIENCE, INFORMATION SYSTEMS-
CiteScore
1.70
自引率
0.00%
发文量
35
期刊介绍: The Journal of Computer Security presents research and development results of lasting significance in the theory, design, implementation, analysis, and application of secure computer systems and networks. It will also provide a forum for ideas about the meaning and implications of security and privacy, particularly those with important consequences for the technical community. The Journal provides an opportunity to publish articles of greater depth and length than is possible in the proceedings of various existing conferences, while addressing an audience of researchers in computer security who can be assumed to have a more specialized background than the readership of other archival publications.
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