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RFC 4167
Network Working Group A. Lindem
Request for Comments: 4167 Cisco Systems, Inc
Category: Informational October 2005
Graceful OSPF Restart Implementation Report
Status of This Memo
This memo provides information for the Internet community. It does
not specify an Internet standard of any kind. Distribution of this
memo is unlimited.
Copyright Notice
Copyright (C) The Internet Society (2005).
Abstract
Graceful OSPF Restart, as specified in RFC 3623, provides a mechanism
whereby an OSPF router can stay on the forwarding path even as its
OSPF software is restarted. This document provides an implementation
report for this extension to the base OSPF protocol.
Table of Contents
1. Overview ........................................................2
2. Implementation Experience .......................................2
2.1. Implementation Differences .................................2
3. MIB Reference ...................................................3
4. Authentication Mechanisms .......................................3
5. List of Implementations .........................................3
6. Test Scenarios ..................................................3
7. Operational Experience ..........................................4
8. Security Considerations .........................................4
9. Normative References ............................................4
10. Informative References .........................................4
11. Acknowledgments ................................................5
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RFC 4167 Graceful OSPF Restart Implementation Report October 2005
1. Overview
Today, many Internet routers implement a separation of control and
forwarding functions. Certain processors are dedicated to control
and management tasks such as OSPF routing, while other processors
perform the data forwarding tasks. This separation creates the
possibility of maintaining a router's data forwarding capability
while the router's control software is restarted/reloaded. For the
OSPF protocol [OSPF], the protocol mechanisms necessary to accomplish
this are described in Graceful OSPF Restart [GRACE].
This document satisfies the RFC 1264 [CRITERIA] requirement for a
report on implementation experience for Graceful OSPF Restart.
Section 2 of this document contains the results of an implementation
survey. It also documents implementation differences between the
vendors responding to the survey. Section 3 contains a MIB
reference. Section 4 provide an authentication reference. Section 5
simply refers to the implementations listed in section 2. Section 6
includes a minimal set of test scenarios. Finally, section 7
includes a disclaimer with respect to operational experience.
2. Implementation Experience
Eleven vendors have implemented graceful OSPF and have completed the
implementation survey. These include Redback, Juniper, Motorola
Computer Group (formerly Netplane Systems), Mahi Networks, Nexthop
technologies, Force10 Networks, Procket, Alcatel, Laurel Networks,
DCL (Data Connection Limited), and Ericsson. All have implemented
restart from the perspective of both a restarting and helper router.
All but one vendor implemented both planned and unplanned restart.
All implementations are original. Seven successfully tested
interoperability with Juniper. Juniper successfully tested
interoperability with Force10 Networks. One vendor tested with John
Moy's GNU Public License implementation [OSPFD]. Two vendors had not
tested interoperability at the time of the survey.
2.1. Implementation Differences
The first difference was whether strict LSA checking was implemented
and, if so, whether it was configurable. In the context of graceful
OSPF restart, strict LSA checking indicates whether a changed LSA
will result in the termination of graceful restart by a helping
router. Four vendors made it configurable (three defaulted it to
enabled and one to disabled), another made it a compile option
(shipping with strict LSA checking disabled), another didn't
implement it at all, and five implemented strict LSA checking with no
configuration option to disable it.
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RFC 4167 Graceful OSPF Restart Implementation Report October 2005
The second was whether a received grace LSA would be taken to apply
only to the adjacency on which it was received or to all adjacencies
with the restarting router. This is a rather subtle difference since
it only applies to helping and restarting routers with more than one
full adjacency at the time of restart. Eight vendors implemented the
option of the received grace LSA only applying to the adjacency on
which it was received. Three vendors applied the grace LSA to all
adjacencies with the grace LSA originator (i.e., the restarting
router).
The final difference was in whether additional extensions were
implemented to accommodate other features such as protocol
redistribution or interaction with MPLS VPNs [VPN]. Five vendors
implemented extensions and six did not. It should be noted that such
extensions are beyond the scope of Graceful OSPF Restart [GRACE].
3. MIB Reference
MIB objects for the Graceful OSPF Restart have been added to the OSPF
Version 2 Management Information Base [OSPFMIB]. Additions include:
- Objects ospfRestartSupport, ospfRestartInterval, ospfRestartAge,
ospfRestartExitReason, and ospfRestartStrictLsaChecking to
ospfGeneralGroup.
- Objects ospfNbrRestartHelperStatus, ospfNbrRestartHelperAge, and
ospfNbrRestartHelperExitReason to ospfNbrEntry.
- Objects ospfVirtNbrRestartHelperStatus,
ospfVirtNbrRestartHelperAge, and
ospfVirtNbrRestartHelperExitReason to ospfVirtNbrEntry.
4. Authentication Mechanisms
The authentication mechanisms are the same as those implemented by
the base OSPF protocol [OSPF].
5. List of Implementations
Refer to section 2.
6. Test Scenarios
A router implementing graceful restart should test, at a minimum, the
following scenarios as both a restarting and helping router. For all
scenarios, monitoring data plane traffic may be used to ensure that
the restart is non-disruptive:
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RFC 4167 Graceful OSPF Restart Implementation Report October 2005
1. Operation over a broadcast network.
2. Operation over a P2P network.
3. Operation over a virtual link.
4. Operation using OSPF MD5 authentication.
5. Early graceful restart termination when an LSA inconsistency is
detected.
6. Early graceful restart termination when a flooded LSA changes (if
implemented).
7. Operational Experience
Since OSPF graceful restart is configurable, it is difficult to gage
operational experience at this juncture. However, multiple service
providers have tested and evaluated it.
8. Security Considerations
This document does not discuss implementation and interoperability
aspects of the security mechanisms in great detail, as no new
security mechanisms are introduced with Graceful OSPF Restart.
Security considerations for the OSPF protocol are included in RFC
2328 [OSPF]. Security considerations for Graceful OSPF Restart are
included in [GRACE].
9. Normative References
[OSPF] Moy, J., "OSPF Version 2", STD 54, RFC 2328, April 1998.
[GRACE] Moy, J., Pillay-Esnault, P., and A. Lindem, "Graceful
OSPF Restart", RFC 3623, November 2003.
[CRITERIA] Hinden, R., "Internet Engineering Task Force Internet
Routing Protocol Standardization Criteria", RFC 1264,
October 1991.
10. Informative References
[VPN] Rosen, E. and Y Rekhter, "BGP/MPLS IP VPNs", Work in
Progress, September 2003.
[OSPFD] Moy, J., "OSPF Complete Implementation", Addison-Wesley,
1991, ISBN 0-201-30966-1
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RFC 4167 Graceful OSPF Restart Implementation Report October 2005
[OSPFMIB] Joyal, D., et al, "OSPF Version 2 Management Information
Base", Work in Progress, December 2003.
11. Acknowledgments
The author wishes to acknowledge the individuals/vendors who have
completed the implementation survey.
- Anand Oswal (Redback Networks)
- Padma Pillay-Esnault (Juniper Networks)
- Vishwas Manral (Motorola Computer Group, formerly Netplane
System).
- Sriganesh Kini (Mahi Networks)
- Jason Chen (Force10 Networks)
- Daniel Gryniewicz (NextHop Technologies)
- Hasmit Grover (Procket Networks)
- Pramoda Nallur (Alcatel)
- Ardas Cilingiroglu (Laurel Networks)
- Philip Crocker (Data Connection Limited)
- Le-Vinh Hoang (Ericsson)
Author's Address
Acee Lindem
Cisco Systems, Inc
7025 Kit Creek Road
Research Triangle Park, NC 27709
USA
EMail: acee@cisco.com
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RFC 4167 Graceful OSPF Restart Implementation Report October 2005
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Acknowledgement
Funding for the RFC Editor function is currently provided by the
Internet Society.
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