Cryptology ePrint Archive: Report 2012/419
DAC-MACS: Effective Data Access Control for Multi-Authority Cloud Storage Systems
Kan Yang and Xiaohua Jia and Kui Ren
Abstract: Data access control is an effective way to ensure the data security in the cloud. However, due to data outsourcing and untrusted cloud servers, the data access control becomes a challenging issue in cloud storage systems. Existing access control schemes are no longer applicable to cloud storage systems, because they either produce multiple encrypted copies of the same data or require a fully trusted cloud server.
Ciphertext-Policy Attribute-based Encryption (CP-ABE) is a promising technique for access control of encrypted data. It requires a trusted authority manages all the attributes and distributes keys in the system. In cloud storage systems, there are multiple authorities co-exist and each authority is able to issue attributes independently.
However, existing CP-ABE schemes cannot be directly applied to the access control for multi-authority cloud storage systems, due to the inefficiency of decryption and revocation. In this paper, we propose DAC-MACS (Data Access Control for Multi-Authority Cloud Storage), an effective and secure data access control scheme with efficient decryption and revocation. Specifically, we construct a new multi-authority CP-ABE scheme with efficient decryption and also design an efficient attribute revocation method that can achieve both forward security and backward security. The analysis and the simulation results show that our DAC-MACS is highly efficient and provably secure under the security model.
Category / Keywords: cryptographic protocols / Access Control, CP-ABE, Decryption Outsourcing, Attribute Revocation, Multi-authority Cloud
Date: received 26 Jul 2012
Contact author: kanyang3 at student cityu edu hk
Available format(s): PDF | BibTeX Citation
Version: 20120801:041159 (All versions of this report)
Short URL: ia.cr/2012/419
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