Paper 2024/651
A New Hash-based Enhanced Privacy ID Signature Scheme
Abstract
The elliptic curve-based Enhanced Privacy ID (EPID) signature scheme is broadly used for hardware enclave attestation by many platforms that implement Intel Software Guard Extensions (SGX) and other devices. This scheme has also been included in the Trusted Platform Module (TPM) specifications and ISO/IEC standards. However, it is insecure against quantum attackers. While research into quantum-resistant EPID has resulted in several lattice-based schemes, Boneh et al. have initiated the study of EPID signature schemes built only from symmetric primitives. We observe that for this line of research, there is still room for improvement. In this paper, we propose a new hash-based EPID scheme, which includes a novel and efficient signature revocation scheme. In addition, our scheme can handle a large group size (up to $2^{60}$ group members), which meets the requirements of rapidly developing hardware enclave attestation applications. The security of our scheme is proved under the Universal Composability (UC) model. Finally, we have implemented our EPID scheme, which, to our best knowledge, is the first implementation of EPID from symmetric primitives.
Metadata
- Available format(s)
- Category
- Cryptographic protocols
- Publication info
- Published elsewhere. Proceedings of PQCrypto 2024
- Keywords
- Hash-based signaturesEnhanced Privacy IDSignature-based revocation
- Contact author(s)
-
liqun chen @ surrey ac uk
changyu dong @ gzhu edu cn
nada elkassem @ surrey ac uk
c newton @ surrey ac uk
yalan wang @ surrey ac uk - History
- 2024-04-29: approved
- 2024-04-28: received
- See all versions
- Short URL
- https://ia.cr/2024/651
- License
-
CC BY
BibTeX
@misc{cryptoeprint:2024/651, author = {Liqun Chen and Changyu Dong and Nada El Kassem and Christopher J.P. Newton and Yalan Wang}, title = {A New Hash-based Enhanced Privacy {ID} Signature Scheme}, howpublished = {Cryptology {ePrint} Archive, Paper 2024/651}, year = {2024}, url = {https://eprint.iacr.org/2024/651} }