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Keywords: [--------|b], open shortest path first







Network Working Group                                        K. Kompella
Request for Comments: 4940                              Juniper Networks
BCP: 130                                                       B. Fenner
Category: Best Current Practice                      AT&T Labs--Research
                                                               June 2007


                      IANA Considerations for OSPF

Status of This Memo

   This document specifies an Internet Best Current Practices for the
   Internet Community, and requests discussion and suggestions for
   improvements.  Distribution of this memo is unlimited.

Copyright Notice

   Copyright (C) The IETF Trust (2007).

Abstract

   This memo creates a number of OSPF registries and provides guidance
   to IANA for assignment of code points within these registries.




























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Table of Contents

   1. Introduction ....................................................3
      1.1. Conventions Used in This Document ..........................4
   2. OSPF Registries .................................................4
      2.1. OSPFv2 Options .............................................4
      2.2. OSPFv3 Options .............................................4
      2.3. OSPF Packet Type (Both v2 and v3) ..........................4
           2.3.1. OSPF Authentication Type ............................5
      2.4. OSPFv2 Link State (LS) Type ................................5
           2.4.1. OSPFv2 Router LSA Link Type .........................5
           2.4.2. OSPFv2 Router Properties ............................6
      2.5. OSPFv3 LSA Function Code ...................................6
           2.5.1. OSPFv3 Prefix Options ...............................6
           2.5.2. OSPFv3 Router LSA Link Type .........................6
      2.6. OSPFv2 Opaque LSA Type .....................................7
           2.6.1. OSPFv2 Grace LSA Top Level TLVs .....................7
   3. Acknowledgments .................................................8
   4. Security Considerations .........................................8
   5. IANA Considerations .............................................8
      5.1. OSPFv2 Options Registry ....................................8
      5.2. OSPFv3 Options Registry ....................................8
      5.3. OSPF Packet Type Registry ..................................9
      5.4. OSPF Authentication Type Registry ..........................9
      5.5. OSPFv2 Link State Type Registry ............................9
      5.6. OSPFv2 Router LSA Link Type Registry ......................10
      5.7. OSPFv2 Router Properties Registry .........................10
      5.8. OSPFv3 LSA Function Code Registry .........................11
      5.9. OSPFv3 Prefix Options Registry ............................12
      5.10. OSPFv3 Router LSA Link Type Registry .....................12
      5.11. OSPFv2 Opaque LSA Type Registry ..........................13
      5.12. OSPFv2 Grace LSA Top Level TLV Registry ..................13
   6. References .....................................................13
      6.1. Normative References ......................................13
      6.2. Informative References ....................................14
















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1.  Introduction

   This memo defines various OSPF registries for IANA to set up and
   maintain for OSPF code points.  In some cases, this memo defines
   ranges of code point values within these registries; each such range
   has a different assignment policy.

   The terms used in describing the assignment policies are as follows:

      o  Standards Action

      o  Experimentation

      o  Vendor Private Use

      o  Reserved

   Standards Action means that assignments in that range MUST only be
   made for Standards Track RFCs (as defined in [RFC2434]).

   Some of the registries defined below reserve a range of values for
   Experimentation.  For guidelines regarding the use of such values see
   [RFC3692].  Values from this range MUST NOT be assigned by IANA.
   Further guidance on the use of the Experimentation range may be found
   in paragraphs 4, 5, and 6 of [RFC3692].  An implementation MAY choose
   to not support values from the Experimentation range.  In such a
   case, the protocol data structure with a code point from the
   Experimentation range is ignored, unless other protocol machinery
   says how to deal with it.  "Ignored" in this context means that the
   associated data structure is removed from the received packet before
   further processing, including flooding.

   Values set aside as Vendor Private Use MUST NOT be assigned by IANA.
   A protocol data structure whose code point falls in this range MUST
   have a disambiguating field identifying the Vendor.  This identifier
   consists of four octets of the Vendor's SMI (Structure of Management
   Information) enterprise code (see [ENTERPRISE-NUMBERS]) in network
   byte order; the location of this code must be well-defined per data
   structure.  An implementation that encounters a Vendor Private code
   point SHOULD check whether the enterprise code is one that it
   recognizes; if so, the implementation MAY choose to interpret the
   code point and data structure.  Otherwise, it SHOULD ignore the code
   point, unless the protocol machinery says how to deal with the data
   structure (as defined in the previous paragraph).  This allows
   multiple vendor private extensions to coexist in a network.

   Values in the Reserved range MUST NOT be assigned until a Standards
   Track or Best Common Practices RFC is published defining the



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   assignment policy for that range.  This RFC MUST be the product of
   the OSPF Working Group; if the OSPF WG is terminated, then it MUST be
   reviewed by an Expert Reviewer designated by the IESG.

1.1.  Conventions Used in This Document

   The key words "MUST", "MUST NOT", "REQUIRED", "SHALL", "SHALL NOT",
   "SHOULD", "SHOULD NOT", "RECOMMENDED", "MAY", and "OPTIONAL" in this
   document are to be interpreted as described in RFC 2119 [RFC2119].

2.  OSPF Registries

   This section lists the various registries for OSPF protocol code
   points.  Note that some of these are for OSPF, and some are specific
   to a particular version of OSPF; also, some registries predate this
   memo.

   Registries that are specific to one version of OSPF reflect the
   version number in the registry name (e.g., OSPFv2 Options).  A
   registry whose name does not mention a version number applies to both
   OSPFv2 and OSPFv3 (e.g., OSPF Packet Type).

2.1.  OSPFv2 Options

   (Defined in Section A.2 of [RFC2328], updated in Section A.1 of
   [RFC2370].  See also [RFC3101].)

   Assignment policy: Standards Action.

2.2.  OSPFv3 Options

   (Defined in Section A.2 of [RFC2740])

   Assignment policy: Standards Action.

2.3.  OSPF Packet Type (Both v2 and v3)

   (Defined in Section A.3.1 of [RFC2328])

                     +---------+--------------------+
                     | Range   | Assignment Policy  |
                     +---------+--------------------+
                     | 0       | Not to be assigned |
                     | 1-5     | Already assigned   |
                     | 6-127   | Standards Action   |
                     | 128-255 | Reserved           |
                     +---------+--------------------+




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2.3.1.  OSPF Authentication Type

   (Defined in Section A.3.1 of [RFC2328])

   (Note: this registry is called "OSPF AUTHENTICATION CODES" by IANA.)

                    +-------------+-------------------+
                    | Range       | Assignment Policy |
                    +-------------+-------------------+
                    | 0-2         | Already assigned  |
                    | 3-247       | Standards Action  |
                    | 248-65519   | Reserved          |
                    | 65520-65535 | Experimentation   |
                    +-------------+-------------------+

2.4.  OSPFv2 Link State (LS) Type

   (Defined in Section A.4.1 of [RFC2328])

                     +---------+--------------------+
                     | Range   | Assignment Policy  |
                     +---------+--------------------+
                     | 0       | Not to be assigned |
                     | 1-11    | Already assigned   |
                     | 12-127  | Standards Action   |
                     | 128-255 | Reserved           |
                     +---------+--------------------+

   If a new LS Type is documented, the documentation MUST say how the
   Link State ID is to be filled in, what the flooding scope of the LSA
   (Link State Advertisement) is, and how backward compatibility is
   maintained.

2.4.1.  OSPFv2 Router LSA Link Type

   (Defined in Section A.4.2 of [RFC2328])

                     +---------+--------------------+
                     | Range   | Assignment Policy  |
                     +---------+--------------------+
                     | 0       | Not to be assigned |
                     | 1-4     | Already assigned   |
                     | 5-127   | Standards Action   |
                     | 128-255 | Reserved           |
                     +---------+--------------------+

   There is no range for Vendor Private Use, as there is no space for an
   enterprise code to identify the Vendor.



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   No Experimental range is defined, due to possible backwards
   compatibility issues.

   If a new Router LSA Link Type is documented, the documentation SHOULD
   say how the Link State ID, Link ID, and Link Data fields are to be
   filled in, and how backward compatibility is maintained.

2.4.2.  OSPFv2 Router Properties

   (Defined in Section A.4.2 of [RFC2328], updated in [RFC3101])

   This 8-bit field in the Router LSA is unnamed; it is the field
   immediately following the Router LSA length.

   Assignment policy: Standards Action.

2.5.  OSPFv3 LSA Function Code

   This registry is created by [OSPF-CAP].  This document provides the
   values to be populated for values defined in Section A.4.2.1 of
   [RFC2740].

2.5.1.  OSPFv3 Prefix Options

   (Defined in Section A.4.1.1 of [RFC2740])

   Assignment policy: Standards Action.

2.5.2.  OSPFv3 Router LSA Link Type

   (Defined in Section A.4.3 of [RFC2740])

                     +---------+--------------------+
                     | Range   | Assignment Policy  |
                     +---------+--------------------+
                     | 0       | Not to be assigned |
                     | 1-4     | Already assigned   |
                     | 5-127   | Standards Action   |
                     | 128-255 | Reserved           |
                     +---------+--------------------+

   There is no range for Vendor Private Use, as there is no space for an
   enterprise code to identify the Vendor.

   No Experimental range is defined, due to possible backwards
   compatibility issues.





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2.6.  OSPFv2 Opaque LSA Type

   (Defined in Section A.2 of [RFC2370])

   (Note: this registry is called "OSPF Opaque LSA Option" by IANA.  See
   also [RFC3630].)

                     +---------+--------------------+
                     | Range   | Assignment Policy  |
                     +---------+--------------------+
                     | 0       | Not to be assigned |
                     | 1-3     | Already assigned   |
                     | 4-127   | Standards Action   |
                     | 128-247 | Reserved           |
                     | 248-251 | Experimentation    |
                     | 252-255 | Vendor Private Use |
                     +---------+--------------------+

   In an OSPFv2 Opaque LSA with Opaque LSA Type in the Vendor Private
   Use range, the first four octets of Opaque Information MUST be the
   Vendor enterprise code.

   A document defining a new Standards Track Opaque LSA with TLVs and
   sub-TLVs MUST describe ranges and assignment policies for these TLVs.

2.6.1.  OSPFv2 Grace LSA Top Level TLVs

   (Defined in Appendix A of [RFC3623])

                   +-------------+--------------------+
                   | Range       | Assignment Policy  |
                   +-------------+--------------------+
                   | 0           | Not to be assigned |
                   | 1-3         | Already assigned   |
                   | 4-255       | Standards Action   |
                   | 256-65519   | Reserved           |
                   | 65520-65527 | Experimentation    |
                   | 65528-65535 | Vendor Private Use |
                   +-------------+--------------------+

   In a Grace LSA, if a top-level TLV has a Type from the Vendor Private
   Use range, the Length MUST be at least four, and the first four
   octets of the Value field MUST be the Vendor enterprise code.








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3.  Acknowledgments

   Many thanks to Adrian Farrel and Acee Lindem for their review and
   comments.

4.  Security Considerations

   The lack of adequate IANA guidelines may be viewed as an avenue for
   Denial of Service attacks on IETF protocols (in this case, OSPFv2 and
   OSPFv3), and on the IETF Standards Process in general.  This memo
   attempts to close this loophole for OSPFv2 and OSPFv3.

   Authors contemplating extensions to OSPF SHOULD examine such
   extensions carefully, and consider whether new registries are needed,
   and if so, allocation policies within each registry.

5.  IANA Considerations

   This document specifies assignment policy for several existing IANA
   registries and creates several more.

5.1.  OSPFv2 Options Registry

   Section 2.1 defines the policy for allocation of bits from this
   registry as "Standards Action".  There are only 8 bits in this field,
   and 6 are already assigned.  The initial registry contents are given
   below.

   OSPFv2 Options Registry (Section 2.1)

   Value Description Reference
   ----- ----------- ---------
   0x02  E-bit       [RFC2328]
   0x04  MC-bit      [RFC1584]
   0x08  N/P-bit     [RFC3101]
   0x10  Reserved
   0x20  DC-bit      [RFC1793]
   0x40  O-bit       [RFC2370]

5.2.  OSPFv3 Options Registry

   Section 2.2 defines the policy for allocation of bits from this
   registry as "Standards Action".  There are 24 bits in this field, and
   6 are assigned.  The initial registry contents are given below.







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   OSPFv3 Options Registry (Section 2.2)

   Value    Description Reference
   -------- ----------- ---------
   0x000001 V6-bit      [RFC2740]
   0x000002 E-bit       [RFC2328]
   0x000004 MC-bit      [RFC1584]
   0x000008 N-bit       [RFC3101]
   0x000010 R-Bit       [RFC2740]
   0x000020 DC-bit      [RFC1793]

5.3.  OSPF Packet Type Registry

   Section 2.3 defines the policy for allocation of values from this
   registry for different ranges.  The initial registry contents are
   given below.

   OSPF Packet Type (Section 2.3)

   Value Description          Reference
   ----- -------------------- ---------
   1     Hello                [RFC2328]
   2     Database Description [RFC2328]
   3     Link State Request   [RFC2328]
   4     Link State Update    [RFC2328]
   5     Link State Ack       [RFC2328]

5.4.  OSPF Authentication Type Registry

   This registry already exists at IANA, called "ospf-authentication-
   codes".  Section 2.3.1 defines the policy for allocation from this
   registry for different ranges.

5.5.  OSPFv2 Link State Type Registry

   Section 2.4 defines the policy for allocations from this registry for
   different ranges.  The initial registry contents are given below.














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   OSPFv2 Link State (LS) Type (Section 2.4)

   Value Description              Reference
   ----- ------------------------ ---------
   1     Router-LSA               [RFC2328]
   2     Network-LSA              [RFC2328]
   3     Summary-LSA (IP network) [RFC2328]
   4     Summary-LSA (ASBR)       [RFC2328]
   5     AS-external-LSA          [RFC2328]
   6     Group-membership-LSA     [RFC1584]
   7     NSSA AS-external LSA     [RFC3101]
   8     Reserved
   9     Link-local Opaque LSA    [RFC2370]
   10    Area-local Opaque LSA    [RFC2370]
   11    Opaque LSA               [RFC2370]

5.6.  OSPFv2 Router LSA Link Type Registry

   Section 2.4.1 defines the policy for allocations from this registry
   for different ranges.  The initial registry contents are given below.

   OSPFv2 Router LSA Link Type (Section 2.4.1)

   Value Description                                 Reference
   ----- ------------------------------------------- ---------
   1     Point-to-Point connection to another router [RFC2328]
   2     Transit Network                             [RFC2328]
   3     Stub Network                                [RFC2328]
   4     Virtual Link                                [RFC2328]

5.7.  OSPFv2 Router Properties Registry

   Section 2.4.2 defines the policy for allocation of bits from this
   registry as "Standards Action".  There are only 8 bits in this field,
   and 5 are already assigned.  The initial registry contents are given
   below.

   OSPFv2 Options Registry (Section 2.1)

   Value Description Reference
   ----- ----------- ---------
   0x01  B-bit       [RFC2328]
   0x02  W-bit       [RFC2328]
   0x04  V-bit       [RFC2328]
   0x08  W-bit       [RFC1584]
   0x10  Nt-bit      [RFC3101]





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5.8.  OSPFv3 LSA Function Code Registry

   This registry is created by [OSPF-CAP], which also defines the
   registration policy.  This section contains values that belong in
   this registry that were defined by [RFC2740].

   As defined in [RFC2740], the first 3 bits of the LSA Function
   Code are the U, S1, and S2 bits.  A given function code implies a
   specific setting for the U, S1, and S2 bits as shown in the "LS Type"
   column.
                                            1  1  1  1  1  1
              0  1  2  3  4  5  6  7  8  9  0  1  2  3  4  5
            +--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+
            |U |S2|S1|           LSA Function Code          |
            +--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+

   The U bit indicates how the LSA should be handled by a router which
   does not recognize the LSA's function code.  Its values are:

   U-bit LSA Handling
   ----- ----------------------------------------------------
   0     Treat the LSA as if it had link-local flooding scope
   1     Store and flood the LSA, as if type understood

   The S1 and S2 bits indicate the flooding scope of the LSA.  The
   values are:

   S1 S2 Flooding Scope
   -- -- --------------------------------------------------------------
   0  0  Link-Local Scoping.  Flooded only on link it is originated on
   0  1  Area Scoping.  Flooded to all routers in the originating area
   1  0  AS Scoping.  Flooded to all routers in the AS
   1  1  Reserved

   The initial registry contents are given below.
















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   OSPFv3 LSA Function Code (Section 2.5)

   LSA Function Code LS Type Description           Reference
   ----------------- ------- --------------------- ---------
   1                 0x2001  Router-LSA            [RFC2740]
   2                 0x2002  Network-LSA           [RFC2740]
   3                 0x2003  Inter-Area-Prefix-LSA [RFC2740]
   4                 0x2004  Inter-Area-Router-LSA [RFC2740]
   5                 0x4005  AS-External-LSA       [RFC2740]
   6                 0x2006  Group-membership-LSA  [RFC2740]
   7                 0x2007  Type-7-LSA            [RFC2740]
   8                 0x0008  Link-LSA              [RFC2740]
   9                 0x2009  Intra-Area-Prefix-LSA [RFC2740]

5.9.  OSPFv3 Prefix Options Registry

   Section 2.5.1 defines the policy for allocation of bits from this
   registry as "Standards Action".  There are only 8 bits in this field,
   and 4 are already assigned.  The initial registry contents are given
   below.

   OSPFv3 Prefix Options Registry (Section 2.5.1)

   Value Description Reference
   ----- ----------- ---------
   0x01  NU-bit      [RFC2740]
   0x02  LA-bit      [RFC2740]
   0x04  MC-bit      [RFC2740]
   0x08  P-bit       [RFC2740]

5.10.  OSPFv3 Router LSA Link Type Registry

   Section 2.5.2 defines the policy for allocations from this registry
   for different ranges.  The initial registry contents are given below.

   OSPFv3 Router LSA Link Type (Section 2.5.2)

   Value Description                                 Reference
   ----- ------------------------------------------- ---------
   1     Point-to-Point connection to another router [RFC2740]
   2     Transit Network                             [RFC2740]
   3     Reserved                                    [RFC2740]
   4     Virtual Link                                [RFC2740]








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5.11.  OSPFv2 Opaque LSA Type Registry

   This registry already exists at IANA, called "ospf-opaque-types".
   Section 2.6 defines the policy for allocation from this registry for
   different ranges.

5.12.  OSPFv2 Grace LSA Top Level TLV Registry

   Section 2.6.1 defines the policy for allocations from this registry
   for different ranges.  The initial registry contents are given below.

   OSPFv2 Grace LSA Top Level TLV (Section 2.6.1)

   Value Description             Reference
   ----- ----------------------- ---------
   1     Grace Period            [RFC3623]
   2     Graceful Restart reason [RFC3623]
   3     IP Interface Address    [RFC3623]

6.  References

6.1.  Normative References

   [RFC2119]  Bradner, S., "Key words for use in RFCs to Indicate
              Requirement Levels", BCP 14, RFC 2119, March 1997.

   [RFC1584]  Moy, J., "Multicast Extensions to OSPF", RFC 1584, March
              1994.

   [RFC1793]  Moy, J., "Extending OSPF to Support Demand Circuits", RFC
              1793, April 1995.

   [RFC2328]  Moy, J., "OSPF Version 2", STD 54, RFC 2328, April 1998.

   [RFC2370]  Coltun, R., "The OSPF Opaque LSA Option", RFC 2370, July
              1998.

   [RFC2434]  Narten, T. and H. Alvestrand, "Guidelines for Writing an
              IANA Considerations Section in RFCs", BCP 26, RFC 2434,
              October 1998.

   [RFC2740]  Coltun, R., Ferguson, D., and J. Moy, "OSPF for IPv6", RFC
              2740, December 1999.

   [RFC3101]  Murphy, P., "The OSPF Not-So-Stubby Area (NSSA) Option",
              RFC 3101, January 2003.





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   [RFC3623]  Moy, J., Pillay-Esnault, P., and A. Lindem, "Graceful OSPF
              Restart", RFC 3623, November 2003.

   [RFC3630]  Katz, D., Kompella, K., and D. Yeung, "Traffic Engineering
              (TE) Extensions to OSPF Version 2", RFC 3630, September
              2003.

   [RFC3692]  Narten, T., "Assigning Experimental and Testing Numbers
              Considered Useful", BCP 82, RFC 3692, January 2004.

6.2.  Informative References

   [ENTERPRISE-NUMBERS]
              "PRIVATE ENTERPRISE NUMBERS",
              http://www.iana.org/assignments/enterprise-numbers.

   [OSPF-CAP] Lindem, A., "Extensions to OSPF for Advertising Optional
              Router Capabilities", Work in Progress, May 2007.

Authors' Addresses

   Kireeti Kompella
   Juniper Networks
   1194 N. Mathilda Ave.
   Sunnyvale, CA  94089
   US

   EMail: kireeti@juniper.net


   Bill Fenner
   AT&T Labs--Research
   1 River Oaks Place
   San Jose, CA  95134
   US

   Phone: +1 (408) 493-8505
   EMail: fenner@research.att.com













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Full Copyright Statement

   Copyright (C) The IETF Trust (2007).

   This document is subject to the rights, licenses and restrictions
   contained in BCP 78, and except as set forth therein, the authors
   retain all their rights.

   This document and the information contained herein are provided on an
   "AS IS" basis and THE CONTRIBUTOR, THE ORGANIZATION HE/SHE REPRESENTS
   OR IS SPONSORED BY (IF ANY), THE INTERNET SOCIETY, THE IETF TRUST AND
   THE INTERNET ENGINEERING TASK FORCE DISCLAIM ALL WARRANTIES, EXPRESS
   OR IMPLIED, INCLUDING BUT NOT LIMITED TO ANY WARRANTY THAT THE USE OF
   THE INFORMATION HEREIN WILL NOT INFRINGE ANY RIGHTS OR ANY IMPLIED
   WARRANTIES OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE.

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   Intellectual Property Rights or other rights that might be claimed to
   pertain to the implementation or use of the technology described in
   this document or the extent to which any license under such rights
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   Copies of IPR disclosures made to the IETF Secretariat and any
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   The IETF invites any interested party to bring to its attention any
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   this standard.  Please address the information to the IETF at
   ietf-ipr@ietf.org.

Acknowledgement

   Funding for the RFC Editor function is currently provided by the
   Internet Society.







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