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引用次数: 32
摘要
基于属性的加密(ABE)是一种加密原语,它支持对加密数据的细粒度访问控制,使其成为许多应用程序的一个吸引人的构建块。在本文中,我们提出、实现和评估了在一般双线性群模型(Boneh, Boyen, and Goh, 2005, Boyen, 2008)中证明ABE安全性的全自动方法,这是一种理想化的模型,它允许更简单、更有效的构造,也可用于发现攻击。我们的方法适用于有理分数诱导ABE,这是一个包含文献中大多数方案的大型ABE类,并依赖于一个主定理,该定理将GGM中的安全性降低为符号安全的(新)概念,该概念适用于使用基于约束的技术进行自动验证。我们将有理分数诱导ABE的符号安全概念与先前的对编码概念联系起来。最后,我们介绍了几个应用,包括新方案的自动证明。
Attribute-Based Encryption in the Generic Group Model: Automated Proofs and New Constructions
Attribute-based encryption (ABE) is a cryptographic primitive which supports fine-grained access control on encrypted data, making it an appealing building block for many applications. In this paper, we propose, implement, and evaluate fully automated methods for proving security of ABE in the Generic Bilinear Group Model (Boneh, Boyen, and Goh, 2005, Boyen, 2008), an idealized model which admits simpler and more efficient constructions, and can also be used to find attacks. Our method is applicable to Rational-Fraction Induced ABE, a large class of ABE that contains most of the schemes from the literature, and relies on a Master Theorem, which reduces security in the GGM to a (new) notion of symbolic security, which is amenable to automated verification using constraint-based techniques. We relate our notion of symbolic security for Rational-Fraction Induced ABE to prior notions for Pair Encodings. Finally, we present several applications, including automated proofs for new schemes.
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