Network Working Group J. Rekhter
Request for Comments 1074 T.J. Watson Research Center
IBM Corporation
October 1988
The NSFNET Backbone SPF based Interior Gateway Protocol
Status of this Memo
This memo is an implementation description of the standard ANSI IS-IS
and ISO ES-IS routing protocols within the NSFNET backbone network.
Distribution of this memo is unlimited.
Acknowledgements
I would like to express my thanks to Hans-Werner Braun (MERIT) for
his contribution to this document.
This document provides an overview of the NSFNET Backbone routing
with specific emphasis on the intra-backbone routing.
By the end of 1987, the American National Standardization Institute
(ANSI) forwarded a specification for an Intermediate System to
Intermediate System routing protocol to the International
Standardization Organizations (ISO) for the adaptation as an
international standard. This ANSI IS-IS protocol is used as the
interior gateway protocol (IGP) of the NSFNET backbone. Documented
here is an implementation description which also includes further
definitions that were necessary for the integration into an Internet
Protocol (IP) environment. Therefore, it should be viewed as a
continuation of the specifications of the ANSI IS-IS protocol [1] and
the ISO standard End System to Intermediate System (ES-IS) protocol
[2]. While the ANSI IS-IS protocol suffices as an IGP, additional
methods are used to orchestrate routing between the backbone and the
attached mid-level networks; most notably the Exterior Gateway
Protocol (EGP). Further information about the overall NSFNET routing
as well as some future aspects can be found in [3], [4], [5] and [6].
The NSFNET backbone is a wide area network which currently connects
thirteen sites within the continental United States. All connections
are permanent point-to-point links at T1 speed (1.544Mbps). These T1
links may contain multiple logical links at sub-T1 and up to the full
T1 speed. The result is a hybrid circuit/packet switching network
able to contain a connectivity-richer logical topology than the
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underlying physical topology would allow by itself. Each site has a
Nodal Switching Subsystem (NSS) which is responsible for packet
switching. Each NSS is a RISC technology based multiprocessor system
using IBM RT/PC processors which operate a modified version of a
4.3BSD kernel. For the purpose of routing, each NSS is considered as
a single entity which has connections to both other NSS (via the
logical network infrastructure) and to regional networks (via local
area network attachments; typically an Ethernet).
The routing protocol which is used for the inter-NSS routing within
the NSFNET backbone is an adaptation of the ANSI IS-IS routing
protocol [1]. The routing protocol which is used between the
backbone and the attached mid-level networks is the Exterior Gateway
Protocol (EGP) [3]. The information exchange between the backbone
and its connected EGP peers is subject to policy based routing
restrictions which are maintained in the Policy Based Routing
Database [4,5].
The ANSI IS-IS routing protocol specifies a two level hierarchical
routing where Level 1 routing deals with routing within an area,
while Level 2 routing deals with routing between different areas.
This routing protocol belongs to a class of so called "Link State"
protocols where each node maintains a complete topology of the whole
network. The route computation is based on a modified version of
Dijkstra's Shortest Path First (SPF) algorithm.
Both Level 1 and Level 2 routing use two types of Protocol Data Units
(PDU):
The Level 1 Router Link PDU lists IS neighbors. The Level 1 End
System PDU lists ES neighbors.
The Level 2 Router Link PDU lists neighbor Level 2 routes. The
Level 2 End System PDU lists address prefixes for systems in
other Routing Domains.
The ANSI IS-IS document separates subnetwork independent functions
from the subnetwork dependent functions. Subnetwork independent
functions include dissemination of Router Link and End System Link
PDU's and the Routing Algorithm. The subnetwork dependent functions
cover different types of subnets such as X.25, permanent point-to-
point links and LANs.
The IS-IS Protocol is designed to interoperate with the End System to
Intermediate System (ES-IS) routing exchange protocol [2]. The ES-IS
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protocol is used to determine connectivity and network layer
addresses. This information is used to construct the Router Link
PDUs.
routing
The NSFNET backbone implements a subset of the ANSI IS-IS protocol.
With respect to subnetwork independent functions, it only supports
Level 2 routing. With respect to subnetwork dependent functions, it
only supports general topology subnetworks with permanent point-to-
point links. Since the ANSI IS-IS protocol is designed for ISO
Network Service Access Point (NSAP) addresses, there is a need to
encapsulate IP addresses into NSAP addresses.
For this, the Initial Domain Part (IDP) is unused. The Domain
Specific Part (DSP) includes nine bytes which are partitioned as
follows:
2 bytes - administrative domain
2 bytes - empty
4 bytes - IP address
1 byte - empty
In the ANSI IS-IS protocol, each router has its own identifier (ID)
which is 6 bytes long. For the NSFNET implementation, the first 2
bytes of the ID are empty and the last four bytes include the IP
address of a particular router.
The NSFNET backbone PDUs (both IS-IS and IS-ES) are transmitted as a
protocol on top of IP, with "85" being the assigned protocol number
for this purpose. The IS-IS PDUs are distinguished from the IS-ES
PDUs by the Protocol Discriminator Field within the PDUs. The IP
fragmentation/reassembly mechanism provides support for transmission
of up to 64 kilobytes in a single IP packet. Within the backbone, it
is highly unlikely that the size of IS-IS PDUs will exceed this
limit. Therefore, no IS-IS fragmentation/reassembly is implemented
for this environment. This is different from the ISO framework where
the ISIS is located directly on top of the Data Link Layer.
For the purpose of the NSFNET Backbone routing, each Autonomous
System (AS) is treated as a separate Administrative Domain (AD). The
list of administrative domains (as obtained via EGP and filtered
through the Policy Based Routing Database) which are connected
directly to a particular NSS is distributed in the set of the
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partitionAreaAddresses part of the Level 2 Router Links PDU. Each
area address is 5 bytes long and consists of 3 empty bytes (IDP)
followed by 2 bytes of the Administrative Domain.
The reachability information obtained from regional networks via EGP
is distributed within the backbone by End System PDUs. In order to
support multi-domain topologies, the ANSI IS-IS protocol allows for a
set of Address Prefixes to be entered by the System Management at the
boundary IS. In the NSFNET Backbone, these Address Prefixes are
obtained via the Exterior Gateway Protocol. For each network listed
in EGP NR packets which is received from an EGP peer, the network and
administrative domain number of the EGP peer are encapsulated into
NSAP addresses (as described above). A complete NSAP address is used
as an address prefix in the reachable address prefix neighbor part of
the End System PDU. The cost field in the reachable address prefix
neighbor part of the End System PDU is derived from the Policy Based
Routing Database maintained in each NSS.
At each NSS, the reachability information obtained from other nodes
(via their End System PDU's) is passed on to the mid-level network
EGP peers, following the appropriate processing and filtering
according to the Policy Based Routing Database.
The Network Entity Title (NET) (which is used in the IS-ES protocol)
is eleven bytes long and is constructed by first encapsulating an IP
address into a NSAP address, then taking the first 11 bytes of this
address as a NET.
The following timer parameters are currently implemented:
Hello Interval (IS-ES Hello): 10 seconds
Hold Time (ES-IS protocol): 40 seconds
Other timer parameters for the IS-IS protocol are taken from the
section 6.3.7 of [1].
[1] "Intermediate System to Intermediate System Intra-Domain
Routing Exchange Protocol", ANSI X3S3.3/87-150R, 1987-10-29.
[2] "End System to Intermediate System Routing Exchange Protocol
for use in conjunction with the Protocol for providing the
Connectionless-Mode Network Service (ISO8473)", ISO
JTC1/SC6/N4802R, 1988-03-26.
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[3] Mills, D., "Exterior Gateway Formal Specification", RFC 904,
University of Delaware, April 1984.
[4] Rekhter, J., "EGP and Policy Based Routing in the New NSFNET
Backbone", IBM, March 1988.
[5] Braun, H-W., "The NSFNET Routing Architecture", Merit Computer
Network, University of Michigan, April 1988.
[6] Braun, H-W., "NSFNET Inter Autonomous System Routing", Merit
Computer Network, University of Michigan, September 1988.
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