Fully Secure Traceable and Revocable-Storage Attribute-Based Encryption with Short Update Keys via Subset Difference Method

2018 Third International Conference on Security of Smart Cities, Industrial Control System and Communications (SSIC) Pub Date : 2018-10-01 DOI:10.1109/SSIC.2018.8556734

Huijie Lian, Guangbo Wang, Qingxian Wang

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引用次数: 2

Abstract

In order to achieve access control in cloud storage, we consider making use of attribute-based encryption (AUE) which has many excellent properties and can achieve fine-grained access control. Revocable-storage AUE (RS-AUE) is an extension of revocable ABE (R-ABE) which supports not only the revocation functionality but also the ciphertext update functionality. But nearly all known RS-AUE schemes used the complete subtree (CS) method for key revocation which would result in long update keys. In this paper, we construct a comprehensive traceable and revocable-storage AUE (TRS-ABE) scheme with the properties of traceability and revocation simultaneously with full security. In addition, we propose a novel technique to use the subset difference (SD) method instead of the CS method for our TRS- AUE scheme to efficiently reduce the size of update keys based on the recent work of Lee, Choi, Lee, Park, and Yung (Asiacrypt 2013) who firstly introduced a new cryptographic primitive called self-updatable encryption (SUE) which realized a time-updating mechanism. At last, we give its overview proof of full security in the standard model under three static assumptions.

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基于子集差分法的基于短更新密钥的完全安全的可跟踪和可撤销存储属性加密

为了实现云存储中的访问控制，我们考虑使用基于属性的加密(AUE)，它具有许多优良的特性，可以实现细粒度的访问控制。可撤销存储AUE (RS-AUE)是可撤销ABE (R-ABE)的扩展，它不仅支持撤销功能，还支持密文更新功能。但是，几乎所有已知的RS-AUE方案都使用完整子树(CS)方法进行密钥撤销，这将导致较长的更新密钥。本文构造了一种综合的可追溯、可撤销存储AUE (TRS-ABE)方案，该方案具有可追溯性和可撤销性，同时具有充分的安全性。此外，基于Lee, Choi, Lee, Park, and Yung (Asiacrypt 2013)最近的工作，我们提出了一种新的技术，即在我们的TRS- AUE方案中使用子集差分(SD)方法而不是CS方法来有效地减少更新密钥的大小，他们首次引入了一种新的密码原语，称为自更新加密(SUE)，实现了时间更新机制。最后，在三个静态假设条件下，给出了标准模型下完全安全性的概括性证明。

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

2018 Third International Conference on Security of Smart Cities, Industrial Control System and Communications (SSIC)

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