Tightly Seal Your Sensitive Pointers with PACTight

Proceedings of the ... USENIX Security Symposium. UNIX Security Symposium Pub Date : 2022-03-28 DOI:10.48550/arXiv.2203.15121

Mohannad Ismail, Andrew S. Quach, Christopher Jelesnianski, Yeongjin Jang, Changwoo Min

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引用次数: 7

Abstract

ARM is becoming more popular in desktops and data centers, opening a new realm in terms of security attacks against ARM. ARM has released Pointer Authentication, a new hardware security feature that is intended to ensure pointer integrity with cryptographic primitives. In this paper, we utilize Pointer Authentication (PA) to build a novel scheme to completely prevent any misuse of security-sensitive pointers. We propose PACTight to tightly seal these pointers. PACTight utilizes a strong and unique modifier that addresses the current issues with the state-of-the-art PA defense mechanisms. We implement four defenses based on the PACTight mechanism. Our security and performance evaluation results show that PACTight defenses are more efficient and secure. Using real PA instructions, we evaluated PACTight on 30 different applications, including NGINX web server, with an average performance overhead of 4.07% even when enforcing our strongest defense. PACTight demonstrates its effectiveness and efficiency with real PA instructions on real hardware.

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用PACTight紧密密封您的敏感指针

ARM在台式机和数据中心越来越受欢迎，这为针对ARM的安全攻击开辟了一个新的领域。ARM发布了指针认证，这是一个新的硬件安全特性，旨在确保指针与加密原语的完整性。在本文中，我们利用指针认证(Pointer Authentication, PA)建立了一个全新的方案来完全防止安全敏感指针的滥用。我们建议PACTight将这些指针严密密封。pacight利用强大而独特的修饰剂，解决了当前最先进的PA防御机制的问题。我们基于pacight机制实现了四种防御。我们的安全性和性能评估结果表明，pacht防御更加高效和安全。使用真实的PA指令，我们在30个不同的应用程序(包括NGINX web服务器)上评估了pacight，即使在实施最强防御时，平均性能开销也为4.07%。通过在实际硬件上的实际PA指令，pacight证明了它的有效性和效率。

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 ... USENIX Security Symposium. UNIX Security Symposium

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