ProvUSB: Block-level Provenance-Based Data Protection for USB Storage Devices

Proceedings of the 2016 ACM SIGSAC Conference on Computer and Communications Security Pub Date : 2016-10-24 DOI:10.1145/2976749.2978398

D. Tian, Adam Bates, Kevin R. B. Butler, R. Rangaswami

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引用次数: 23

Abstract

Defenders of enterprise networks have a critical need to quickly identify the root causes of malware and data leakage. Increasingly, USB storage devices are the media of choice for data exfiltration, malware propagation, and even cyber-warfare. We observe that a critical aspect of explaining and preventing such attacks is understanding the provenance of data (i.e., the lineage of data from its creation to current state) on USB devices as a means of ensuring their safe usage. Unfortunately, provenance tracking is not offered by even sophisticated modern devices. This work presents ProvUSB, an architecture for fine-grained provenance collection and tracking on smart USB devices. ProvUSB maintains data provenance by recording reads and writes at the block layer and reliably identifying hosts editing those blocks through attestation over the USB channel. Our evaluation finds that ProvUSB imposes a one-time 850 ms overhead during USB enumeration, but approaches nearly-bare-metal runtime performance (90% of throughput) on larger files during normal execution, and less than 0.1% storage overhead for provenance in real-world workloads. ProvUSB thus provides essential new techniques in the defense of computer systems and USB storage devices.

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ProvUSB: USB存储设备的块级基于溯源的数据保护

企业网络的防御者迫切需要快速识别恶意软件和数据泄漏的根本原因。USB存储设备越来越多地成为数据泄露、恶意软件传播甚至网络战争的首选媒体。我们观察到，解释和防止此类攻击的一个关键方面是了解USB设备上数据的来源(即，从其创建到当前状态的数据沿袭)，作为确保其安全使用的一种手段。不幸的是，即使是复杂的现代设备也无法提供来源跟踪。这项工作提出了ProvUSB，一种在智能USB设备上进行细粒度来源收集和跟踪的架构。ProvUSB通过在块层记录读取和写入来维护数据来源，并通过USB通道上的认证可靠地识别编辑这些块的主机。我们的评估发现，ProvUSB在USB枚举期间会造成一次性850毫秒的开销，但在正常执行期间，对于较大的文件，它的运行时性能接近裸机(吞吐量的90%)，而在实际工作负载中，ProvUSB的存储开销不到0.1%。因此，ProvUSB为计算机系统和USB存储设备的防御提供了必要的新技术。

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 2016 ACM SIGSAC Conference on Computer and Communications Security

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