CryptoDB
Multi-Authority Registered Attribute-Based Encryption
| Authors: |
|
|---|---|
| Download: | |
| Presentation: | Slides |
| Conference: | EUROCRYPT 2025 |
| Abstract: | Registered attribute-based encryption (ABE) enables fine-grained access control to encrypted data without a trusted authority. In this model, users generate their own public keys and register their public key along with a set of attributes with a key curator. The key curator aggregates the public keys into a short master public key that functions as the public key for an ABE scheme. A limitation of ABE (registered or centralized) is the assumption that a single entity manages all of the attributes in a system. In many settings, the attributes belong to different organizations, making it unrealistic to expect that a single entity manage all of them. In the centralized setting, this motivated the notion of multi-authority ABE, where multiple independent authorities control their individual set of attributes. Access policies are then defined over attributes across multiple authorities. In this work, we introduce multi-authority registered ABE, where multiple (independent) key curators each manage their individual sets of attributes. Users can register their public keys with any key curator, and access policies can be defined over attributes from multiple key curators. Multi-authority registered ABE combines the trustless nature of registered ABE with the decentralized nature of multi-authority ABE. We start by constructing a multi-authority registered ABE scheme from composite-order pairing groups. This scheme supports an a priori bounded number of users and access policies that can be represented by a linear secret sharing scheme (which includes monotone Boolean formulas). Our construction relies on a careful integration of ideas from pairing-based registered ABE and multi-authority ABE schemes. We also construct a multi-authority registered ABE scheme that supports an unbounded number of users and arbitrary monotone policies using indistinguishability obfuscation (and function-binding hash functions). |
BibTeX
@inproceedings{eurocrypt-2025-35045,
title={Multi-Authority Registered Attribute-Based Encryption},
publisher={Springer-Verlag},
author={George Lu and Brent Waters and David J. Wu},
year=2025
}