[en] Transport Layer Security (TLS) is the backbone security protocol of the Internet. As this fundamental protocol is at risk from future quantum attackers, many proposals have been made to protect TLS against this threat by implementing post-quantum cryptography (PQC). The widespread interest in post-quantum TLS has given rise to a large number of solutions over the last decade. These proposals differ in many aspects, including the security properties they seek to protect, the efficiency and trustworthiness of their post-quantum building blocks, and the application scenarios they consider, to name a few.
Based on an extensive literature review, we classify existing solutions according to their general approaches, analyze their individual contributions, and present the results of our extensive performance experiments. Based on these insights, we identify the most reasonable candidates for post-quantum TLS, which research problems in this area have already been solved, and which are still open. Overall, our work provides a well-founded reference point for researching post-quantum TLS and preparing TLS in practice for the quantum age.
Research center :
Interdisciplinary Centre for Security, Reliability and Trust (SnT) > APSIA - Applied Security and Information Assurance
Disciplines :
Computer science
Author, co-author :
Alnahawi, Nouri ; Darmstadt University of Applied Sciences
MUELLER, Johannes ; University of Luxembourg > Interdisciplinary Centre for Security, Reliability and Trust > APSIA > Team Johannes MUELLER ; UL - University of Lorraine [FR] > CNRS/LORIA
Wiesmaier, Alexander ; Darmstadt University of Applied Sciences
External co-authors :
yes
Language :
English
Title :
A Comprehensive Survey on Post-Quantum TLS
Publication date :
08 July 2024
Journal title :
IACR Communications in Cryptology
ISSN :
3006-5496
Publisher :
International Association for Cryptologic Research
Volume :
1
Issue :
2
Peer reviewed :
Peer reviewed
Focus Area :
Security, Reliability and Trust
FnR Project :
FNR14698166 - Future-proofing Privacy In Secure Electronic Voting, 2020 (01/01/2021-31/12/2023) - Johannes Mueller
Name of the research project :
U-AGR-8026 - LuxTrust - RYAN Peter
Funders :
FNR - Fonds National de la Recherche LuxTrust German Federal Ministry of Education and Research Hessian State Ministry for Higher Education, Research and the Arts National Research Center for Applied CyberSecurity ATHENE ANR - French National Research Agency
Funding number :
U-AGR-8026; FNR14698166; ANR-22-PECY-0006
Funding text :
The research work by Nouri Alnahawi has been funded by the German Federal Ministry
of Education and Research and the Hessian State Ministry for Higher Education, Research
and the Arts within their joint support of the National Research Center for Applied CyberSecurity ATHENE. Johannes Müller was supported by the Luxembourg National Research
Fund (FNR), under the CORE Junior project FP2 (C20/IS/14698166/FP2 /Mueller). Jan
Oupický was supported by the industrial partnership project between the interdisciplinary
research center SnT and LuxTrust. This work benefited from funding managed by the
French National Research Agency under the France 2030 programme with the reference
ANR-22-PECY-0006.
