Reviving instruction set randomization

2017 IEEE International Symposium on Hardware Oriented Security and Trust (HOST) Pub Date : 2017-05-01 DOI:10.1109/HST.2017.7951732

Kanad Sinha, V. Kemerlis, S. Sethumadhavan

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引用次数: 29

Abstract

Instruction set randomization (ISR) was proposed early in the last decade as a countermeasure against code injection attacks. However, it is considered to have lost its relevance; with the pervasiveness of code-reuse techniques in modern attacks, code injection no longer remains a foundational component in contemporary exploits. This paper revisits the relevance of ISR in the current security landscape. We show that prior ISR schemes are ineffective against code injection, but can be made effective against code-reuse attacks, and even counter state-of-the-art variants, such as “just-in-time” ROP (JIT-ROP). Yet, certain key architectural features are necessary for enabling these capabilities. We implement a new ISR system, namely Polyglot, on a SPARC32-based Leon3 FPGA that runs Linux. We show that our system incurs a low performance overhead (4.6% on a subset of SPEC CINT2006) and defends against real-world (JIT-)ROP exploits, while still supporting critical features like page sharing. Polyglot is also the first ISR implementation to be applicable to the entire software stack: from the bootloader to user applications.

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恢复指令集随机化

指令集随机化(ISR)是近十年来提出的一种对抗代码注入攻击的方法。然而，它被认为已经失去了相关性;随着代码重用技术在现代攻击中的普及，代码注入不再是当代攻击的基本组成部分。本文回顾了ISR在当前安全格局中的相关性。我们表明，先前的ISR方案对代码注入无效，但可以有效地对抗代码重用攻击，甚至对抗最先进的变体，如“即时”ROP (JIT-ROP)。然而，某些关键的体系结构特性对于启用这些功能是必要的。我们实现了一个新的ISR系统，即Polyglot，在基于sparc32的Leon3 FPGA上运行Linux。我们表明，我们的系统产生了较低的性能开销(在SPEC CINT2006的一个子集上为4.6%)，并防御了现实世界(JIT-)ROP漏洞，同时仍然支持页面共享等关键功能。Polyglot也是第一个适用于整个软件栈的ISR实现:从引导加载程序到用户应用程序。

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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2017 IEEE International Symposium on Hardware Oriented Security and Trust (HOST)

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