RFC 3210 (rfc3210) - Page 2 of 8
Applicability Statement for Extensions to RSVP for LSP-Tunnels
Alternative Format: Original Text Document
RFC 3210 Applicability Statement for Extensions December 2001 submitted to the IETF MPLS working group. It contains all the necessary objects, packet formats, and procedures required to establish and maintain explicit label switched paths (LSPs). Explicit LSPs are foundational to the traffic engineering application in MPLS based IP networks. Besides the traffic engineering application, the RSVP-TE specification may have other uses within the Internet. This memo describes the applicability of the RSVP-TE specifications [1]. The protocol's principles of operation are highlighted, the network context for which it was developed is described, guidelines for deployment are offered, and known protocol limitations are indicated. This applicability statement concerns only the use of RSVP to set up unicast LSP-tunnels. It is noted that not all of the features described in RFC 2205 [3] are required to support the instantiation and maintenance of LSP-tunnels. Aspects related to the support of other features and capabilities of RSVP by an implementation that also supports LSP-tunnels are beyond the scope of this document. However, support of such additional features and capabilities should not introduce new security vulnerabilities in environments that only use RSVP to set up LSP-tunnels. This applicability statement does not preclude the use of other signaling and label distribution protocols for the traffic engineering application in MPLS based networks. Service providers are free to deploy whatever signaling protocol that meets their needs. In particular, CR-LDP [6] and RSVP-TE [1] are two signaling protocols that perform similar functions in MPLS networks. There is currently no consensus on which protocol is technically superior. Therefore, network administrators should make a choice between the two based upon their needs and particular situation. 2.0 Technical Overview of Extensions to RSVP for LSP Tunnels The RSVP-TE specification extends the original RSVP protocol by giving it new capabilities that support the following functions in an MPLS domain: (1) downstream-on-demand label distribution (2) instantiation of explicit label switched paths (3) allocation of network resources (e.g., bandwidth) to explicit LSPs (4) rerouting of established LSP-tunnels in a smooth fashion using the concept of make-before-break Awduche, et. al. Informational
