正在进行的工作:基于linux的嵌入式固件的反思

P. Dovgalyuk, N. Fursova, I. Vasiliev, V. Makarov
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引用次数: 0

摘要

提出了一种基于已知内核的未知版本对嵌入式系统进行虚拟机自省的新方法。现有的自省方法需要将代码嵌入到客户机中,以便为分析算法捕获数据。当从ROM中提取操作系统映像时,通常无法将分析代码加载到虚拟机中。我们提出了一种新的非侵入式方法来从这些虚拟机中提取内核和进程级信息。该方法基于应用程序二进制接口,该接口足够小并且通常是非易失性的。因此,一个分析配置可以用于具有同一家族内核的不同系统,而无需重新调优。提出了基于仿真器QEMU的分析框架。它包括用于从客户机提取进程级和内核级信息的仪器和一些工具。我们的框架可以应用于基于rom的客户机系统,并允许在分析期间使用系统执行的记录/重播。我们将我们的框架应用于一些公共固件,以评估我们的方法如何在带有定制Linux内核的嵌入式系统上工作。
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Work-in-Progress: Introspection of the Linux-Based Embedded Firmwares
This paper presents a novel approach for virtual machine introspection of the embedded systems based on the unknown revisions of the known kernels. Existing introspection methods require embedding the code into the guest to capture the data for analysis algorithms. When OS image is extracted from the ROM, usually no analysis code can be loaded into the virtual machine. We propose new non-intrusive method for extracting the kernel- and process-level information from such virtual machines. This method is based on the application binary interface, which is small enough and usually non-volatile. Therefore one analysis configuration may be used for different systems with the kernels from the same family without re-tuning them. We also present the analysis framework based on the simulator QEMU. It includes instrumentation and some tools for extracting the process- and kernel-level information from the guest. Our framework may be applied to ROM-based guest systems and enables using of record/replay of the system execution during the analysis. We applied our framework to some public firmwares to evaluate how our method works on the embedded systems with custom Linux kernel.
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