1. Enabling privacy and leakage resistance for dynamic blockchain-based access control systems.
- Author
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Wang, Xin, Jiang, Peng, Baker, Thar, Li, Tielei, and Zhu, Liehuang
- Subjects
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ACCESS control , *PRIVACY , *BLOCKCHAINS , *NETWORK performance , *LEAKAGE , *INFORMATION sharing - Abstract
With rise of 5G/6G network, low-storage devices usually outsource data for higher rate and less latency. Non-controlled outsourcing and complex communications incur security issues for IoT applications. Specially, user privacy and access reliability pose technical challenges for sensitive data outsourcing and sharing. In this paper, we harmonize functional encryption and blockchain to propose a r eliable and p rivacy-aware a ccess c ontrol system named R-PAC. It allows a result-form access without learning raw information and fair interaction against malicious users. With a combination of all-or-nothing encapsulation technology, R-PAC supports users' dynamic joining and key leakage resistance. We design R-PAC from Boneh–Franklin identity-based encryption, with forward-coverable encryption and reverse-discoverable decryption, and formally prove its indistinguishability security. We implement a R-PAC prototype and deploy it to a simulated Ethereum network to evaluate its performance. Experiments from both data access and transaction overhead show that R-PAC is with reasonable cost and has a trade-off between efficiency and strong security/functionality. • We propose R-PAC, a reliable and privacy-aware access control system. • We design R-PAC from Boneh–Franklin IBE, and formally prove its IND security. • We implement a R-PAC prototype and deploy it to a simulated Ethereum network. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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