设计基于属性的量子安全加密

Y. Sreenivasa Rao, Vikas Srivastava, Tapaswini Mohanty, Sumit Kumar Debnath
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引用次数: 0

摘要

在过去几十年里,基于属性的加密(ABE)一直是一种很有前途的加密技术,可实现对加密数据的细粒度访问控制。ABE 具有以下吸引人的功能:(i) 通过加密实现访问控制;(ii) 在不知道一组接收者实际身份的情况下为他们加密信息。然而,现有的最先进 ABE 都基于数论硬度假设。这些设计无法抵御 Shor 算法等量子算法的攻击。此外,现有的基于后量子密码学(PQC)的 ABE 无法提供长期安全性。因此,需要能抵御量子攻击并提供长期安全性的量子安全 ABE。在这项研究中,我们首次提出了量子安全 ABE(qABE)框架的概念,它既保留了经典 ABE 的功能,又能抵御量子攻击。接下来,我们提供了一种 qABE 的通用构造,它能够将任何现有 ABE 转换为 qABE 方案。之后,我们将说明基于我们的通用转换 qABE 和沃特斯密码策略 ABE 方案的量子 ABE 的具体构造。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Designing quantum-secure attribute-based encryption

Designing quantum-secure attribute-based encryption

In the last couple of decades, Attribute-Based Encryption (ABE) has been a promising encryption technique to realize fine-grained access control over encrypted data. ABE has appealing functionalities such as (i) access control through encryption and (ii) encrypting a message to a group of recipients without knowing their actual identities. However, the existing state-of-the-art ABEs are based on number-theoretic hardness assumptions. These designs are not secure against attacks by quantum algorithms such as Shor algorithm. Moreover, existing Post-Quantum Cryptography (PQC)-based ABEs fail to provide long-term security. Therefore, there is a need for quantum secure ABE that can withstand quantum attacks and provides long-term security. In this work, for the first time, we introduce the notion of a quantum-secure ABE (qABE) framework that preserves the classical ABE’s functionalities and resists quantum attacks. Next, we provide a generic construction of qABE which is able to transform any existing ABE into qABE scheme. Thereafter, we illustrate a concrete construction of a quantum ABE based on our generic transformation qABE and the Waters’ ciphertext-policy ABE scheme.

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