Paper 2020/197
Dynamic Decentralized Functional Encryption
Jérémy Chotard and Edouard Dufour-Sans and Romain Gay and Duong Hieu Phan and David Pointcheval
Abstract
We introduce Dynamic Decentralized Functional Encryption (DDFE), a generalization of Functional Encryption which allows multiple users to join the system dynamically, without relying on a trusted third party or on expensive and interactive Multi-Party Computation protocols. This notion subsumes existing multi-user extensions of Functional Encryption, such as Multi-Input, Multi-Client, and Ad Hoc Multi-Input Functional Encryption. We define and construct schemes for various functionalities which serve as building-blocks for latter primitives and may be useful in their own right, such as a scheme for dynamically computing sums in any Abelian group. These constructions build upon simple primitives in a modular way, and have instantiations from well-studied assumptions, such as DDH or LWE. Our constructions culminate in an Inner-Product scheme for computing weighted sums on aggregated encrypted data, from standard assumptions in prime-order groups in the Random Oracle Model.
Metadata
- Available format(s)
- Category
- Public-key cryptography
- Publication info
- Preprint. MINOR revision.
- Keywords
- DynamicDecentralizedFunctional EncryptionInner Product.
- Contact author(s)
- e dufoursans @ gmail com,romain rgay @ gmail com,david pointcheval @ ens fr
- History
- 2020-09-06: last of 2 revisions
- 2020-02-18: received
- See all versions
- Short URL
- https://ia.cr/2020/197
- License
-
CC BY