@techreport{mahesh-karp-rkmp-06,
    number =    {draft-mahesh-karp-rkmp-06},
    type =      {Internet-Draft},
    institution =   {Internet Engineering Task Force},
    publisher = {Internet Engineering Task Force},
    note =      {Work in Progress},
    url =       {https://datatracker.ietf.org/doc/draft-mahesh-karp-rkmp/06/},
    author =    {Mahesh Jethanandani and Brian Weis and Keyur Patel and Dacheng Zhang and Sam Hartman and Uma Chunduri and Albert Tian and Dr. Joseph D. Touch},
    title =     {{Negotiation for Keying Pairwise Routing Protocols in IKEv2}},
    pagetotal = 20,
    year =      2018,
    month =     jul,
    day =       21,
    abstract =  {This document describes a mechanism to secure the routing protocols which use unicast to transport their signaling messages. Most of such routing protocols are TCP-based (e.g., BGP and LDP), and the TCP Authentication Option (TCP-AO) is primarily employed for securing the signaling messages of these routing protocols. There are also two exceptions: BFD which is over UDP or MPLS, and RSVP-TE which is over IP (but employs an integrated approach to protecting the signaling messages instead of using IPsec). The proposed mechanism secures pairwise TCP-based Routing Protocol (RP) associations, BFD associations and RSVP-TE associations using the IKEv2 Key Management Protocol (KMP) integrated with TCP-AO, BFD, and RSVP-TE respectively. Included are extensions to IKEv2 and its Security Associations to enable its key negotiation to support TCP-AO, BFD, and RSVP-TE.},
}