<--- Back to Details
First PageDocument Content
Computer network security / Kerberos / Diffie–Hellman key exchange / Cipher suite / Elliptic curve Diffie–Hellman / Shared secret / Whitfield Diffie / Ticket Granting Ticket / Key exchange / Cryptography / Cryptographic protocols / Key management
Date: 2015-04-26 16:01:52
Computer network security
Kerberos
Diffie–Hellman key exchange
Cipher suite
Elliptic curve Diffie–Hellman
Shared secret
Whitfield Diffie
Ticket Granting Ticket
Key exchange
Cryptography
Cryptographic protocols
Key management

draft-vanrein-krb5-kdh-00 - KRB5-KDH: Cryptographically binding Kerberos5 with Diffie-Hellman

Add to Reading List

Source URL: tools.ietf.org

Download Document from Source Website

File Size: 31,35 KB

Share Document on Facebook

Similar Documents

Cryptography / Abstract algebra / Algebra / Computational hardness assumptions / Finite fields / DiffieHellman problem / Group theory / Elliptic curve cryptography / Provable security / Whitfield Diffie / DiffieHellman key exchange / Elliptic curve

Motivation - Exotic Security Assumptions in Cryptography Main Algorithm and Results Oracle-assisted Static DHP for binary curves On the Static Diffie-Hellman Problem on Elliptic Curves over Extension Fields

DocID: 1miS9 - View Document

Cryptography / Transport Layer Security / Secure communication / Finite fields / Cryptographic protocols / Public-key cryptography / Logjam / DiffieHellman key exchange / Index calculus algorithm / XTR / Elliptic curve DiffieHellman / Key size

Imperfect Forward Secrecy: How Diffie-Hellman Fails in Practice

DocID: 1lyXQ - View Document

Transport Layer Security / Secure communication / Finite fields / Cryptographic protocols / Public-key cryptography / Logjam / DiffieHellman key exchange / Index calculus algorithm / XTR / Elliptic curve DiffieHellman / Key size / Safe prime

Imperfect Forward Secrecy: How Diffie-Hellman Fails in Practice

DocID: 1ll2N - View Document

Cryptography / Abstract algebra / Algebra / Finite fields / Public-key cryptography / Computational hardness assumptions / Group theory / DiffieHellman key exchange / Index calculus algorithm / RSA / Discrete logarithm / Elliptic curve cryptography

E-th roots and static Diffie-Hellman using index calculus Antoine Joux1 Joint work with Reynald Lercier2 , David Naccache3 , Emmanuel Thome´ 4 Elliptic Curve Cryptography 2008

DocID: 1kZmW - View Document

Information / NSA Suite B Cryptography / Internet Key Exchange / IPsec / Elliptic curve cryptography / Elliptic curve Diffie–Hellman / Elliptic Curve DSA / Key-agreement protocol / Diffie–Hellman key exchange / Cryptographic protocols / Cryptography / Data

Internet Engineering Task Force (IETF) Request for Comments: 6380 Category: Informational ISSN: K. Burgin

DocID: 1avEc - View Document