Visible to the public Supporting Transparent Snapshot for Bare-metal Malware Analysis on Mobile Devices

TitleSupporting Transparent Snapshot for Bare-metal Malware Analysis on Mobile Devices
Publication TypeConference Paper
Year of Publication2017
AuthorsGuan, Le, Jia, Shijie, Chen, Bo, Zhang, Fengwei, Luo, Bo, Lin, Jingqiang, Liu, Peng, Xing, Xinyu, Xia, Luning
Conference NameProceedings of the 33rd Annual Computer Security Applications Conference
Date PublishedDecember 2017
PublisherACM
Conference LocationNew York, NY, USA
ISBN Number978-1-4503-5345-8
Keywordsbare-metal analysis, Evasive Malware, Flash-based Block Device, Human Behavior, malware analysis, Metrics, privacy, pubcrawl, Resiliency, Snapshot
Abstract

The increasing growth of cybercrimes targeting mobile devices urges an efficient malware analysis platform. With the emergence of evasive malware, which is capable of detecting that it is being analyzed in virtualized environments, bare-metal analysis has become the definitive resort. Existing works mainly focus on extracting the malicious behaviors exposed during bare-metal analysis. However, after malware analysis, it is equally important to quickly restore the system to a clean state to examine the next sample. Unfortunately, state-of-the-art solutions on mobile platforms can only restore the disk, and require a time-consuming system reboot. In addition, all of the existing works require some in-guest components to assist the restoration. Therefore, a kernel-level malware is still able to detect the presence of the in-guest components. We propose Bolt, a transparent restoration mechanism for bare-metal analysis on mobile platform without rebooting. Bolt achieves a reboot-less restoration by simultaneously making a snapshot for both the physical memory and the disk. Memory snapshot is enabled by an isolated operating system (BoltOS) in the ARM TrustZone secure world, and disk snapshot is accomplished by a piece of customized firmware (BoltFTL) for flash-based block devices. Because both the BoltOS and the BoltFTL are isolated from the guest system, even kernel-level malware cannot interfere with the restoration. More importantly, Bolt does not require any modifications into the guest system. As such, Bolt is the first that simultaneously achieves efficiency, isolation, and stealthiness to recover from infection due to malware execution. We have implemented a Bolt prototype working with the Android OS. Experimental results show that Bolt can restore the guest system to a clean state in only 2.80 seconds.

URLhttps://dl.acm.org/doi/10.1145/3134600.3134647
DOI10.1145/3134600.3134647
Citation Keyguan_supporting_2017