了解trustzone辅助TEE系统中普遍存在的安全漏洞

David Cerdeira, Nuno Santos, Pedro Fonseca, S. Pinto
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引用次数: 117

摘要

全球数以亿计的移动设备依赖于由Arm TrustZone构建的可信执行环境(tee)来保护安全关键型应用程序(例如,DRM)和操作系统(OS)组件(例如,Android密钥库)。tee通常被认为是高度安全的;然而,在过去的几年里,tee已经多次被成功攻击,对各种平台造成了高度破坏性的影响。不幸的是,由于TEE系统中存在安全漏洞,这些攻击成为可能。在本文中,我们的目标是了解哪些类型的漏洞和限制会影响现有的trustzone辅助TEE系统,正确构建它们的主要挑战是什么,以及可以从研究界借鉴哪些贡献来克服它们。为此,我们对高通、Trustonic、华为、Nvidia和Linaro开发的流行trustzone辅助TEE系统(针对Cortex-A处理器)进行了安全性分析。通过研究公开记录的漏洞利用和漏洞,以及通过对TEE固件进行逆向工程,我们确定了现有系统中的几个关键漏洞,这使得对商业TEE实现的安全性提出合理的关注是合理的。
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SoK: Understanding the Prevailing Security Vulnerabilities in TrustZone-assisted TEE Systems
Hundreds of millions of mobile devices worldwide rely on Trusted Execution Environments (TEEs) built with Arm TrustZone for the protection of security-critical applications (e.g., DRM) and operating system (OS) components (e.g., Android keystore). TEEs are often assumed to be highly secure; however, over the past years, TEEs have been successfully attacked multiple times, with highly damaging impact across various platforms. Unfortunately, these attacks have been possible by the presence of security flaws in TEE systems. In this paper, we aim to understand which types of vulnerabilities and limitations affect existing TrustZone-assisted TEE systems, what are the main challenges to build them correctly, and what contributions can be borrowed from the research community to overcome them. To this end, we present a security analysis of popular TrustZone-assisted TEE systems (targeting Cortex-A processors) developed by Qualcomm, Trustonic, Huawei, Nvidia, and Linaro. By studying publicly documented exploits and vulnerabilities as well as by reverse engineering the TEE firmware, we identified several critical vulnerabilities across existing systems which makes it legitimate to raise reasonable concerns about the security of commercial TEE implementations.
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