Litcius/Paper detail

Signed (Group) Diffie–Hellman Key Exchange with Tight Security

Jiaxin Pan, Chen Qian, Magnus Ringerud

2022Journal of Cryptology20 citationsDOIOpen Access PDF

Abstract

Abstract We propose the first tight security proof for the ordinary two-message signed Diffie–Hellman key exchange protocol in the random oracle model. Our proof is based on the strong computational Diffie–Hellman assumption and the multiuser security of a digital signature scheme. With our security proof, the signed DH protocol can be deployed with optimal parameters, independent of the number of users or sessions, without the need to compensate any security loss. We abstract our approach with a new notion called verifiable key exchange. In contrast to a known tight three-message variant of the signed Diffie–Hellman protocol (Gjøsteen and Jager, in: Shacham, Boldyreva (eds) CRYPTO 2018, Part II. LNCS, Springer, Heidelberg, 2018), we do not require any modification to the original protocol, and our tightness result is proven in the “Single-Bit-Guess” model which we know can be tightly composed with symmetric cryptographic primitives to establish a secure channel. Finally, we extend our approach to the group setting and construct the first tightly secure group authenticated key exchange protocol.

Topics & Concepts

Random oracleDiffie–Hellman key exchangeComputer scienceKey exchangeProtocol (science)Verifiable secret sharingDigital signatureComputer security modelComputer securityCryptographyAuthenticated Key ExchangeTheoretical computer scienceComputer networkPublic-key cryptographyEncryptionHash functionSet (abstract data type)Alternative medicinePathologyProgramming languageMedicineCryptography and Data SecurityAdvanced Authentication Protocols SecuritySecurity in Wireless Sensor Networks