Secure and Efficient White-box Encryption Scheme for Data Protection against Shared Cache Attacks in Cloud Computing

2021 IEEE 32nd International Symposium on Software Reliability Engineering (ISSRE) Pub Date : 2021-10-01 DOI:10.1109/ISSRE52982.2021.00053

Yang Shi, Mianhong Li, Wujing Wei, Yangyang Liu, Xiapu Luo

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Abstract

In cloud computing, since virtual machines (VMs) running on the same physical server share CPU caches, adversaries can exploit CPU's vulnerabilities to launch shared cache attacks (e.g., Spectre vulnerability) for illegally accessing sensitive data (e.g., key of symmetric encryption) on other VMs. Since it is difficult to fix such vulnerabilities, in this paper, we propose a novel solution that leverages two salient features of white-box encryption to protect data against such attacks: white-box encryption turns the keys and code into unintelligible programs; it is provably secure even if part of its critical data is accessed by adversaries. Although there are many white-box schemes, they cannot be used in our solution due to their limitations. Therefore, we propose a new white-box encryption scheme with highly efficient instances. These instances are parameterized, and can be configured according to the tradeoff between security margin and storage cost. Moreover, our scheme is provably secure in the space-hardness model. The evaluation shows that our solution works well in public clouds and outperforms other methods.

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云计算环境下安全高效的数据保护白盒加密方案

在云计算中，由于运行在同一物理服务器上的虚拟机共享CPU缓存，攻击者可以利用CPU的漏洞发起共享缓存攻击(例如Spectre漏洞)，非法访问其他虚拟机上的敏感数据(例如对称加密密钥)。由于此类漏洞难以修复，在本文中，我们提出了一种新的解决方案，利用白盒加密的两个显著特征来保护数据免受此类攻击:白盒加密将密钥和代码变成难以理解的程序;即使它的部分关键数据被对手访问，它也可以证明是安全的。尽管有许多白盒方案，但由于它们的局限性，它们不能在我们的解决方案中使用。因此，我们提出了一种新的具有高效实例的白盒加密方案。这些实例是参数化的，可以根据安全裕度和存储成本之间的权衡进行配置。此外，我们的方案在空间硬度模型中是安全的。评估结果表明，我们的解决方案在公共云中运行良好，优于其他方法。

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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来源期刊

2021 IEEE 32nd International Symposium on Software Reliability Engineering (ISSRE)

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