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Service Function Chaining using Virtual Networks with BGP VPNs
draft-ietf-bess-service-chaining-06

Document Type Expired Internet-Draft (bess WG)
Expired & archived
Authors Rex Fernando , Stuart Mackie , Dhananjaya Rao , Bruno Rijsman , Maria Napierala , Thomas Morin
Last updated 2019-08-20 (Latest revision 2018-12-04)
Replaces draft-fm-bess-service-chaining
RFC stream Internet Engineering Task Force (IETF)
Intended RFC status Proposed Standard
Formats
Additional resources Mailing list discussion
Stream WG state Parked WG Document
Other - see Comment Log
Document shepherd Stephane Litkowski
IESG IESG state Expired
Consensus boilerplate Yes
Telechat date (None)
Responsible AD (None)
Send notices to Stephane Litkowski <stephane.litkowski@orange.com>

This Internet-Draft is no longer active. A copy of the expired Internet-Draft is available in these formats:

Abstract

This document describes how service function chains (SFC) can be applied to traffic flows using routing in a virtual (overlay) network to steer traffic between service nodes. Chains can include services running in routers, on physical appliances or in virtual machines. Service chains have applicability at the subscriber edge, business edge and in multi-tenant datacenters. The routing function into SFCs and between service functions within an SFC can be performed by physical devices (routers), be virtualized inside hypervisors, or run as part of a host OS. A BGP control plane for route distribution is used to create virtual networks implemented using IP MPLS, VXLAN or other suitable encapsulation, where the routes within the virtual networks cause traffic to flow through a sequence of service nodes that apply packet processing functions to the flows. Two techniques are described: in one the service chain is implemented as a sequence of distinct VPNs between sets of service nodes that apply each service function; in the other, the routes within a VPN are modified through the use of special route targets and modified next-hop resolution to achieve the desired result. In both techniques, service chains can be created by manual configuration of routes and route targets in routing systems, or through the use of a controller which contains a topological model of the desired service chains. This document also contains discussion of load balancing between network functions, symmetric forward and reverse paths when stateful services are involved, and use of classifiers to direct traffic into a service chain.

Authors

Rex Fernando
Stuart Mackie
Dhananjaya Rao
Bruno Rijsman
Maria Napierala
Thomas Morin

(Note: The e-mail addresses provided for the authors of this Internet-Draft may no longer be valid.)