wdiff rfc9542.original.xml rfc9542.xml

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<!-- ____________________FRONT_MATTER____________________ -->
<front>
   <title abbrev="IANA/IETF and IEEE 802 Parameters">IANA
   Considerations and IETF Protocol and Documentation Usage for IEEE
   802 Parameters</title>
   <!--  The abbreviated title is required if the full title is
        longer than 39 characters -->
   <seriesInfo name="Internet-Draft"
               value="&filename;"/> name="RFC" value="9542"/>
   <seriesInfo name="BCP" value="141"/>
   <author fullname="Donald E. Eastlake 3rd" initials="D."
           surname="Eastlake">
     <organization>Futurewei Technologies</organization> surname="Eastlake 3rd">
     <organization>Independent</organization>
     <address>
       <postal>
         <street>2386 Panoramic Circle</street>
         <city>Apopka</city>
         <region>Florida</region>
         <code>32703</code>
         <country>US</country>
         <country>United States of America</country>
       </postal>
       <phone>+1-508-333-2270</phone>
       <email>d3e3e3@gmail.com</email>
       <email>donald.eastlake@futurewei.com</email>
     </address>
   </author>

   <author fullname="Joe Abley" initials="J.N." initials="J."
           surname="Abley">
     <organization>Cloudflare</organization>
     <address>
       <postal>
         <city>Amsterdam</city>
         <country>Netherlands</country>
         <postalLine>Amsterdam</postalLine>
         <postalLine>The Netherlands</postalLine>
       </postal>
       <phone>+31 45 56 36 34</phone>
       <email>jabley@strandkip.nl</email>
     </address>
   </author>

   <author fullname="Yizhou Li" initials="Y."
           surname="Li">
     <organization>Huawei Technologies</organization>
     <address>
       <postal>
         <street>101 Software Avenue</street>
         <city>Nanjing</city>
         <region>Jiangsu</region>
         <code>210012</code>
         <country>China</country>
       </postal>
       <phone>+86-13809002299</phone>
       <email>liyizhou@huawei.com</email>
     </address>
   </author>

   <date year="2023" month="11" day="6"/>

   <area>Internet</area>
   <workgroup>INTAREA Working Group</workgroup>
   <!-- "Internet Engineering Task Force" is fine for individual
        submissions.  If this element is not present, the default is
        "Network Working Group", which is used by the RFC Editor as a
        nod to the history of the RFC Series. -->

   <keyword></keyword>
   <!-- Multiple keywords are allowed.  Keywords are incorporated
        into HTML output files for use by search engines. --> year="2024" month="April"/>

   <area>int</area>
   <workgroup>intarea</workgroup>

<keyword>Ethernet</keyword>
<keyword>EtherType</keyword>
<keyword>802</keyword>
<keyword>OUI</keyword>
<keyword>EUI</keyword>
<keyword>LSAP</keyword>
<keyword>AFN</keyword>
<keyword>CBOR</keyword>
<keyword>LLC</keyword>
<keyword>SLAP</keyword>
<keyword>SNAP</keyword>
<keyword>CID</keyword>

<abstract>
  <t>Some IETF protocols make use of Ethernet frame formats and IEEE
  802 parameters.  This document discusses several aspects of such
  parameters and their use in IETF protocols, specifies IANA
  considerations for assignment of points under the IANA OUI
  (Organizationally
  Organizationally Unique Identifier), Identifier (OUI), and provides some values for
  use in documentation.  This document obsoletes RFC 7042.</t>
</abstract>

</front>

<!-- ____________________MIDDLE_MATTER____________________ -->

<middle>

<section> <!-- 1. -->
  <name>Introduction</name>
  <t>Some IETF protocols use Ethernet or other IEEE 802-related communication frame formats
  and parameters related to IEEE 802 <xref target="IEEE802"/>.
  These include MAC (Media Media Access Control) Control (MAC) addresses and protocol
  identifiers. The IEEE Registration Authority <xref
  target="IEEE_RA"/> manages the assignment of identifiers used in
  IEEE 802 networks, in some cases assigning blocks of such
  identifiers whose sub-assignment is managed by the entity to which
  the block is assigned. The IEEE RA also provides a number of
  tutorials concerning these parameters <xref
  target="IEEEtutorials"/>.</t>

  <t>IANA has been assigned an Organizationally Unique Identifier
  (OUI) by the IEEE RA and an associated set of MAC addresses and
  other organizationally unique code points based on that OUI.  This
  document specifies IANA considerations for the assignment of code
  points under that IANA OUI, including MAC addresses and protocol
  identifiers, and provides some values for use in documentation. As
  noted in <xref target="RFC2606"/> and <xref target="RFC5737"/>, the
  use of designated code values reserved for documentation and
  examples reduces the likelihood of conflicts and confusion arising
  from such code points conflicting with code points assigned for some
  deployed use. This document also discusses several other uses by the
  IETF of IEEE 802 code points, including IEEE 802 Connectivity Fault
  Management (CFM) code points <xref target="RFC7319"/> and IEEE 802
  Link Local Discovery Protocol (LLDP (LLDP) <xref target="IEEE802.1AB"/>)
  Vendor Specific target="IEEE802.1AB"/>
  Vendor-Specific TLV Sub-Types <xref target="RFC8520"/>. It
  also specifies CBOR Concise Binary Object Representation (CBOR) tags for MAC addresses and OUI/CIDs.</t> OUIs / Company Identifiers (CIDs).</t>

  <t>Descriptions herein of <xref target="IANA"/> policies and
  procedures are authoritative authoritative, but descriptions of IEEE registration
  policies, procedures, and standards are only informative; for
  authoritative IEEE information, consult the IEEE sources.</t>

  <t><xref target="RFC8126"/> is incorporated herein except where
  there are contrary provisions in this document.  In this document,
  "IESG Ratification", specified in Section 5.1, <xref target="ex-rev-iesg-rat"/>, refers to a
  combination of Expert Review and IESG Approval as those are defined
  in <xref target="RFC8126"/> target="RFC8126"/>, where IESG Approval is required only if
  the Expert does not reject the request. It is NOT the same as just
  "IESG Approval" in <xref target="RFC8126"/>.</t>

  <section> <!-- 1.1 -->
    <name>Notations Used in This Document</name>

<t>This document uses hexadecimal notation.  Each octet (that is,
8-bit byte) is represented by two hexadecimal digits giving the value
of the octet as an unsigned integer.  Successive octets are separated
by a hyphen.  This document consistently uses IETF ("network") bit
ordering although the physical order of bit transmission within an
octet on an IEEE <xref target="IEEE.802.3_2012"/> link is from the lowest
order bit to the highest order bit (i.e., the reverse of the IETF's
ordering).</t>

<t>In this document:</t>

<dl>

<dl newline="false" indent="12">
<dt>"AFN"</dt><dd>Address Family Number <xref target="RFC4760"/>.</dd>

<dt>"CBOR"</dt><dd>Concise Binary Object Representation <xref
target="RFC8949"/>.</dd>

<dt>"CFM"</dt><dd>Connectivity Fault Management <xref
target="RFC7319"/>.</dd>

<dt>"CID"</dt><dd>Company Identifier. (See Section 2.1.2.)</dd> See <xref target="oui-cid"/>.</dd>

<dt>"DSAP"</dt><dd>Destination Service Access Point. See Section
3.</dd> <xref target="eth-pro-param"/>.</dd>

<dt>"EUI"</dt><dd>Extended Unique Identifier.</dd>

<dt>"EUI-48"</dt><dd>48-bit EUI</dd>

<dt>"IEEE"</dt><dd>Institute for of Electrical and Electronics Engineers
<xref target="IEEE"/>.</dd>

<dt>"IEEE 802"</dt><dd>The LAN/MAN Standards Committee <xref
target="IEEE802"/>.</dd>

<dt>"IEEE RA"</dt><dd>IEEE Registration Authority <xref
target="IEEE_RA"/>.</dd>

<dt>"IEEE SA"</dt><dd>IEEE Standards Association <xref
target="IEEE_SA"/>.</dd>

<dt>"LLC"</dt><dd>Logical Link Control. The type of frame header where
the protocol is identified by source and destination LSAP
fields. See Section 3.</dd> <xref target="eth-pro-param"/>.</dd>

<dt>"LSAP"</dt><dd>Link-Layer Service Access Point. See Section
3.</dd> <xref target="eth-pro-param"/>.</dd>

<dt>"MA-L"</dt><dd>MAC Address Block Large.</dd>

<dt>"MA-M"</dt><dd>MAC Address Block Medium.</dd>

<dt>"MA-S"</dt><dd>MAC Address Block Small.</dd>

<dt>"MAC"</dt><dd>Media Access Control, not Message Authentication
Code.</dd>

<dt>"MAC-48"</dt><dd>A 48-bit MAC address. This term is obsolete. If
globally unique, use EUI&nbhy;48.</dd>

<dt>"OUI"</dt><dd>Organizationally Unique Identifier. (See Section
2.1.2.)</dd> See <xref target="oui-cid"/>.</dd>

<dt>"RRTYPE"</dt><dd>A DNS Resource Record type <xref
target="RFC6895"/>.</dd>

<dt>"SLAP"</dt><dd>IEEE 802 Structured Local Address Plan <xref
target="IEEE802_OandA"/>. See Section 2.1.1.</dd> <xref target="first-oct-bit"/>.</dd>

<dt>"SNAP"</dt><dd>Subnetwork Access Protocol. See Section 3.</dd> <xref target="eth-pro-param"/>.</dd>

<dt>"SSAP"</dt><dd>Source Service Access Point. See Section 3.</dd> <xref target="eth-pro-param"/>.</dd>

<dt>"tag"</dt><dd>"Tag" is used in two contexts in this document. For
"Ethernet tag", see Section 3. <xref target="eth-pro-param"/>. For "CBOR tag", see Section 2.4.</dd>

<dt>"TLV"</dt><dd>Type, Length, Value.</dd> <xref target="cbor-tags"/>.</dd>

<dt>"TLV"</dt><dd>Type-Length-Value.</dd>

<dt>"**"</dt><dd>The double asterisk symbol indicates exponentiation.
For example, 2**24 is two to the twenty-fourth power.</dd>
</dl>

  </section>

  <section anchor="IEEEregAuth"> <!-- 1.2 -->
    <name>The IEEE Registration Authority</name>

<t>Originally the responsibility of the Xerox Corporation, the
registration authority for Ethernet parameters since 1986 has been the
IEEE Registration Authority, available on the web Web at <xref
target="IEEE_RA"/>.</t>

<t>The IEEE Registration Authority operates under the direction of the
IEEE Standards Association (IEEE SA) Board of Governors, with
oversight by the IEEE Registration Authority Committee (RAC). (IEEE RAC). The IEEE
RAC is a committee of the Board of Governors.</t>

<t>Anyone may apply to that Authority authority for parameter assignments.  The
IEEE Registration Authority may impose fees or other requirements but
commonly waives fees for applications from standards development
organizations. Lists of assignments and their holders are downloadable
from the IEEE Registration Authority site.</t>

  </section>

  <section anchor="IANAOUI"> <!-- 1.3 -->
    <name>The IANA Organizationally Unique Identifier</name>

<t>The Organizationally Unique Identifier (OUI) 00&nbhy;00&nbhy;5E has
been assigned to IANA by the IEEE Registration Authority.</t>

<t>There is no OUI value reserved at this time for documentation, but
there are documentation code points under the IANA OUI specified
below.</t>

  </section>

  <section anchor="CFM"> <!-- 1.4 -->
    <name>CFM Code Points</name>

<t>IEEE Std 802.1Q <xref target="IEEE.802.1Q_2014"/> allocates two
blocks of 802 Connectivity Fault Management (CFM) code points to the
IETF, one for CFM OpCodes and one for CFM TLV Types.  For further
information
information, see <xref target="RFC7319"/>. The IANA "Connectivity Fault
Management (CFM) OAM IETF Parameters" Registry registry has subregistries for
these code points.  This document does not further discuss these
blocks of code points.</t>

  </section>
</section> <!-- end 1. Introduction -->

<section> <!-- 2. -->
  <name>Ethernet Identifier Parameters</name>

<t>This section includes information summarized from <xref
target="IEEE802_OandA"/> that is being provided for context. The
definitive information, which prevails in case of any discrepancy, is
in <xref target="IEEE802_OandA"/>.</t>

<t>Section 2.1

<t><xref target="bit-48"/> discusses 48-bit MAC identifiers, their relationship to
OUIs and other prefixes, and assignment under the IANA OUI.  Section
2.2  <xref target="bit-64"/> extends this to 64-bit identifiers.  Section 2.3  <xref target="bit-48-ietf"/> discusses other
IETF MAC identifier use uses not under the IANA OUI. Section 2.4 <xref target="cbor-tags"/> specifies
CBOR tags for MAC addresses and OUI/CIDs.</t>

<t indent="3">Historical OUIs/CIDs.</t>

<aside>
<t>Historical Note: <xref target="RAC_OUI"/> target="I-D.ieee-rac-oui-restructuring"/> is an expired
draft
Internet-Draft that provides additional historic information on <xref
target="IEEE802"/> registries.</t>

<section>
</aside>

<section anchor="bit-48"> <!-- 2.1 -->
  <name>48-Bit MAC Identifiers, OUIs, and Other Prefixes</name>

<t>48-bit MAC "addresses" are the most commonly used Ethernet
interface identifiers.  Those that are globally unique are also called
EUI&nbhy;48 identifiers (Extended Unique Identifier 48).  An
EUI&nbhy;48 is structured into an initial prefix assigned by the IEEE
Registration Authority and additional bits assigned by the prefix
owner.  As of 2023 2024, there are three lengths of prefixes assigned, as
shown in the table below; however, some prefix bits can have special
meaning
meaning, as shown in <xref target="MACaddr"/>.</t>

<table align="center">
  <thead>
<tr><th>Prefix Length in bits</th><th>Name</th><th>Owner Bits</th><th>Name</th><th>Owner Supplied
Bits for 48&nbhy;bit MAC Addresses</th></tr>
  </thead>
  <tbody>
<tr><td align="center">24</td><td>MA-L</td><td
align="center">24</td></tr>
<tr><td align="center">28</td><td>MA-M</td><td align="center">20</td></tr>
<tr><td align="center">36</td><td>MA-S</td><td align="center">12</td></tr>
  </tbody>
</table>

<t>The bottom (least significant) four bits of the first octet of the
6-octet 48-bit MAC have special meaning, as shown in <xref
target="MACaddr"/>, and are referred to below as the M, X, Y, and Z
bits.</t>

  <figure anchor="MACaddr">
    <name>48-bit
    <name>48-Bit MAC Address Structure</name>
      <artwork type="ascii-art" align="center">
        <![CDATA[
  0  1  2  3  4  5  6  7  0  1  2  3  4  5  6  7
+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+
| .  .  .  .  Z  Y  X  M| .  .  .  .  .  .  .  .| octets 0+1
+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+
| .  .  .  .  .  .  .  .| .  .  .  .  .  .  .  .| octets 2+3
+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+
| .  .  .  .  .  .  .  .| .  .  .  .  .  .  .  .| octets 4+5
+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+
        ]]>
     </artwork>
  </figure>

<t>For global addresses, X=0 X = 0 and a MAC address begins with 3 octets or
a larger initial prefix indicating the assignee of the block of MAC
addresses. This prefix is followed by a sequence of additional octets
so as to add up to the total MAC address length.  For example, the
IEEE assigns MA-S (MAC MAC Address Block Small), Small (MA-S), where the first four and
a half octets (36 bits) are assigned, giving the holder of the MA-S
one and a half octets (12 bits) they can control in constructing
48-bit MAC addresses; other prefix lengths are also available <xref
target="IEEEtutorials"/>.</t>

<t>An AFN, a DNS RRTYPE, and a CBOR tag have been assigned for 48-bit
MAC addresses addresses, as discussed in Sections 2.4, 5.3 <xref target="cbor-tags" format="counter"/>, <xref target="mac-addresses" format="counter"/>, and 5.9.</t> <xref target="cbor-tag-assign" format="counter"/>.</t>

<t>IEEE Std 802 describes assignment procedures and policies for IEEE
802-related
identifiers related to IEEE 802 <xref target="IEEE802_OandA"/>. IEEE RA
documentation on EUIs, OUIs, and CIDs is available at <xref
target="IEEEtutorials"/>. </t>

<section>

<section anchor="first-oct-bit"> <!-- 2.1.1 -->
  <name>Special First Octet Bits</name>

<t>There are bits within the initial octet of an IEEE MAC address that
have special significance <xref target="IEEE802_OandA"/> target="IEEE802_OandA"/>, as described as
follows:</t>

<dl>
<dt>M bit</dt><dd>- This bit -</dt><dd>This bit is frequently referred to as the group "group" or
multicast
"multicast" bit.  If it is zero, the MAC address is unicast. If it is a
one, the address is groupcast (multicast or broadcast). This meaning
is independent of the values of the X, Y, and Z bits.</dd>

<dt>X bit</dt><dd>- This bit -</dt><dd>This bit is also called the "universal/local"
bit.
bit (formerly called the Local/Global bit). If it is zero, the MAC address is a global address under the
control of the owner of the IEEE assigned IEEE-assigned prefix. Previously, if it
was a one, the MAC address was considered "local" and under the
assignment and control of the local network operator (but see Section
2.3). <xref target="bit-48-ietf"/>). If it is a one and if the IEEE 802 Structured Local Address Plan
(SLAP) is in effect, the nature of the MAC address is optionally
determined by the Y and Z bits bits, as described below.</dd>

<dt>Y+Z bits</dt><dd>- These

<dt>Y&amp;Z bits -</dt><dd>These two bits have no special meaning if the X
bit is zero. If the X bit is one then, and if the IEEE 802 Structured
Local Address Plan (SLAP) is in effect, these two bits divide the
formerly uniform "local" MAC address space into four quadrants, quadrants as
follows and further described below:</dd>
</dl>

<table align="center">
  <thead>
    <tr><th>Y bit</th><th>Z bit</th><th>Quadrant</th></tr>
  </thead>
  <tbody>

<tr><td align="center">0</td><td
align="center">0</td><td>Administratively Assigned</td></tr>

<tr><td align="center">0</td><td align="center">1</td><td>Extended
Local</td></tr>

<tr><td align="center">1</td><td
align="center">0</td><td>Reserved</td></tr>

<tr><td align="center">1</td><td align="center">1</td><td>Standard
Assigned</td></tr>

  </tbody>
</table>

<t>While a local network administrator can assign any addresses with
the X bit a one, the optional SLAP characterizes the four quadrants of
the "local" address space using the Y and Z bits as follows:</t>

<dl>
  <dt>Administratively Assigned -</dt>
  <dd>MAC addresses in this quadrant are called Administratively
  Assigned Identifiers. This is intended for arbitrary local
  assignment, such as random assignment; however, see Section
  2.3.1.</dd> <xref target="id-33-33"/>.</dd>

  <dt>Extended Local -</dt>
  <dd>MAC addresses in this quadrant are called Extended Local
  Identifiers. These addresses are not actually "local" under
  SLAP. They are available to the organization that has been assigned
  the CID (see Section 2.1.2) <xref target="oui-cid"/>) specifying the other 20 bits of the
  24-bit prefix with X, Y, and Z bits having the values 1, 0, and 1 1,
  respectively.</dd>

  <dt>Reserved -</dt>
  <dd>MAC addresses in this quadrant are reserved for future use under
  the SLAP. Until such future use, they could be locally assigned as
  Administratively Assigned Identifiers are assigned assigned, but there is a
  danger that future SLAP use would conflict with such local
  assignments.</dd>

  <dt>Standard Assigned -</dt>
  <dd>MAC addresses in this quadrant are called Standard Assigned
  Identifiers (SAIs). An SAI is assigned by a protocol specified in an
  IEEE 802 standard, for example example, <xref target="IEEE802.1CQ"/> (but see
  the first NOTE below).</dd>
</dl>

<t indent="6">NOTE: While the SLAP has MAC addresses assigned through
a local protocol in the SAI quadrant and assigned by a protocol
specified in an IEEE 802 standard, the SLAP is optional. Local network
administrators may use the IETF protocol provisions in <xref
target="RFC8947"/> and <xref target="RFC8948"/> target="RFC8948"/>, which support
assignment of a MAC address in the local MAC address space using
DHCPv6 <xref target="RFC8415"/> or other protocol methods.</t>

<t indent="3">NOTE:

<t>NOTE: There isn't any automated way to determine if or
to what extent a local network is configured for and/or operating
according to SLAP.</t>

</section> <!-- 2.1.1 -->

<section>

<section anchor="oui-cid"> <!-- 2.1.2 -->
  <name>OUIs and CIDs</name>

<t>MA-L, MA-M, and MA-S MAC prefixes are assigned with the Local bit
zero.  The assignee of an OUI is exclusively authorized to assign
group MAC addresses by extending a modified version of the assigned
OUI in which the M bit (see <xref target="MACaddr"/>) is set to 1
<xref target="IEEEtutorials"/>.</t>

<t>The Local bit is zero for globally unique EUI&nbhy;48 identifiers
assigned by the owner of a MAC-L or owner of a longer prefix.  If the
Local bit is a one, the identifier has historically been a local
identifier under the control of the local network administrator;
however, there are now recommendations on optional management of the
local address space space, as discussed in Section 2.1.1. <xref target="first-oct-bit"/>.  If the Local bit
is a one, the holder of an OUI has no special authority over MAC
identifiers whose first 3 octets correspond to their OUI or the
beginning of their longer prefix.</t>

<t>A CID is a 24-bit Company Identifier. It is assigned for
organizations that need such an identifier that can be used in place
of an OUI, OUI but do not need to assign subsidiary global MAC
addresses. A CID has X and Z bits equal to 1 and its Y bit equal to 0
(see <xref target="MACaddr"/>).</t>

<t>An AFN and a CBOR tag have been assigned for OUI/CIDs OUIs/CIDs, as discussed
in Sections 2.4, 5.3 <xref target="cbor-tags" format="counter"/>, <xref target="mac-addresses" format="counter"/>, and 5.9.</t> <xref target="cbor-tag-assign" format="counter"/>.</t>

</section>
<section>
<section anchor="bit-48-MAC"> <!-- 2.1.3 -->
  <name>48-Bit MAC Assignments under the IANA OUI</name>

<t>The OUI 00&nbhy;00&nbhy;5E has been assigned to IANA IANA, as stated in
<xref target="IANAOUI"/> above.  This includes 2**24 48&nbhy;bit
multicast identifiers from 01&nbhy;00&nbhy;5E&nbhy;00&nbhy;00&nbhy;00
to 01&nbhy;00&nbhy;5E&nbhy;FF&nbhy;FF&nbhy;FF and 2**24 EUI&nbhy;48
unicast identifiers from 00&nbhy;00&nbhy;5E&nbhy;00&nbhy;00&nbhy;00 to
00&nbhy;00&nbhy;5E&nbhy;FF&nbhy;FF&nbhy;FF. </t>

<t>Of these identifiers, the sub-blocks reserved or thus far assigned
are as follows: </t>

<t>Unicast,

<dl newline="true" spacing="normal">
<dt>Unicast, all blocks of 2**8 addresses thus far: </t> </dt>
<dd>
<dl>
  <dt>00&nbhy;00&nbhy;5E&nbhy;00&nbhy;00&nbhy;00 through
  00&nbhy;00&nbhy;5E&nbhy;00&nbhy;00&nbhy;FF:</dt>
  <dd>reserved and require IESG Ratification for assignment (see
  Section 5.1).</dd>
  <xref target="ex-rev-iesg-rat"/>).</dd>

  <dt>00&nbhy;00&nbhy;5E&nbhy;00&nbhy;01&nbhy;00 through
  00&nbhy;00&nbhy;5E&nbhy;00&nbhy;01&nbhy;FF:</dt>
  <dd>assigned for the Virtual Router Redundancy Protocol (VRRP) <xref
  target="RFC5798"/>.</dd>

  <dt>00&nbhy;00&nbhy;5E&nbhy;00&nbhy;02&nbhy;00 through
  00&nbhy;00&nbhy;5E&nbhy;00&nbhy;02&nbhy;FF:</dt>
  <dd>assigned for the IPv6 Virtual Router Redundancy Protocol (IPv6
  VRRP) <xref target="RFC5798"/>.</dd>

  <dt>00&nbhy;00&nbhy;5E&nbhy;00&nbhy;52&nbhy;00 through
  00&nbhy;00&nbhy;5E&nbhy;00&nbhy;52&nbhy;FF:</dt>
  <dd>used for very small assignments. As of 2023, 2024, 4 out of these 256
  values have been assigned. See <xref target="EthernetNum"/>.</dd>

  <dt>00&nbhy;00&nbhy;5E&nbhy;00&nbhy;53&nbhy;00 through
  00&nbhy;00&nbhy;5E&nbhy;00&nbhy;53&nbhy;FF:</dt><dd>assigned for use
  in documentation by this document.</dd>

  <dt>00&nbhy;00&nbhy;5E&nbhy;90&nbhy;01&nbhy;00 through
  00&nbhy;00&nbhy;5E&nbhy;90&nbhy;01&nbhy;FF:</dt>
  <dd>used for very small assignments that need parallel unicast and
  multicast MAC addresses. As of 2023, 2024, 1 out of these 256 values has
  been assigned. See <xref target="EthernetNum"/>.</dd>
</dl>

<t>Multicast:</t>
</dd>
<dt>Multicast:</dt>
<dd>
<dl>
  <dt>01&nbhy;00&nbhy;5E&nbhy;00&nbhy;00&nbhy;00 through
  01&nbhy;00&nbhy;5E&nbhy;7F&nbhy;FF&nbhy;FF:</dt>
  <dd>2**23 addresses assigned for IPv4 multicast <xref
  target="RFC1112"/>.</dd>

  <dt>01&nbhy;00&nbhy;5E&nbhy;80&nbhy;00&nbhy;00 through
  01&nbhy;00&nbhy;5E&nbhy;8F&nbhy;FF&nbhy;FF:</dt>
  <dd>2**20 addresses assigned for MPLS multicast <xref
  target="RFC5332"/>. </dd>

  <dt>01&nbhy;00&nbhy;5E&nbhy;90&nbhy;00&nbhy;00 through
  01&nbhy;00&nbhy;5E&nbhy;90&nbhy;00&nbhy;FF:</dt>
  <dd>2**8 addresses being used for very small assignments.  As of
  2023,
  2024, 4 out of these 256 values have been assigned. See <xref
  target="EthernetNum"/>.</dd>

  <dt>01&nbhy;00&nbhy;5E&nbhy;90&nbhy;01&nbhy;00 through
  01&nbhy;00&nbhy;5E&nbhy;90&nbhy;01&nbhy;FF:</dt>
  <dd>used for very small assignments that need parallel unicast and
  multicast MAC addresses. As of 2023, 2024, 1 out of these 256 values has
  been assigned. See <xref target="EthernetNum"/>.</dd>

  <dt>01&nbhy;00&nbhy;5E&nbhy;90&nbhy;10&nbhy;00 through
  01&nbhy;00&nbhy;5E&nbhy;90&nbhy;10&nbhy;FF:</dt>
  <dd>2**8 addresses assigned for use in documentation by this
  document.</dd>
</dl>
</dd>
</dl>

<t>For more detailed and up-to-date information, see the "Ethernet "IANA OUI Ethernet Numbers" registry at <xref target="EthernetNum"/>.</t>

</section>

<section> <!-- 2.1.4 -->
  <name>48-Bit MAC Documentation Values</name>

<t>The following values have been assigned for use in
documentation:</t>

<ul>
  <li>00&nbhy;00&nbhy;5E&nbhy;00&nbhy;53&nbhy;00 through
  00&nbhy;00&nbhy;5E&nbhy;00&nbhy;53&nbhy;FF for unicast and</li>

  <li>01&nbhy;00&nbhy;5E&nbhy;90&nbhy;10&nbhy;00 through
  01&nbhy;00&nbhy;5E&nbhy;90&nbhy;10&nbhy;FF for multicast.</li>
</ul>

</section>

<section>

<section anchor="bit-48-assign-con"> <!-- 2.1.5 -->
  <name>48-Bit IANA MAC Assignment Considerations</name>

<t>48-bit assignments under the current or a future IANA OUI (see
Section 5.6)
<xref target="oui-ex"/>) must meet the following requirements:</t>

<ul>
  <li>must be for standards purposes (either for an IETF Standard or
  other standard related to IETF work),</li>

  <li>must be for a power-of-two size power-of-two-sized block of identifiers starting at
  a boundary that is an equal or greater power of two, including the
  assignment of one (2**0) identifier, </li>

  <li>must not be used to evade the requirement for network interface
  vendors to obtain their own block of identifiers from the IEEE, and
  </li>

  <li>must be documented in an Internet-Draft or RFC. </li>
</ul>

<t>In addition, approval must be obtained as follows (see the
procedure in Section 5.1):</t> <xref target="ex-rev-iesg-rat"/>):</t>

<ul>
  <li>Small to medium assignments of a block of 1, 2, 4, ..., 32768,
  65536 (2**0, 2**1, 2**2, ..., 2**15, 2**16) EUI&nbhy;48 identifiers
  require Expert Review (see Section 5.1).</li> <xref target="ex-rev-iesg-rat"/>).</li>

  <li>Large assignments of 131072 (2**17) or more EUI&nbhy;48
  identifiers require IESG Ratification (see Section 5.1).</li> <xref target="ex-rev-iesg-rat"/>).</li>
</ul>

</section>

</section>

<section>

<section anchor="bit-64"> <!-- 2.2 -->
  <name>64-Bit MAC Identifiers</name>

<t>IEEE also defines a system of 64-bit MAC identifiers identifiers, including
EUI&nbhy;64s.  EUI&nbhy;64 identifiers are used as follows:</t>

<ul>
  <li>In IEEE Std 1394 <xref target="IEEE1394"/> (also known as
  FireWire and i.Link)</li>

  <li>In IEEE Std 802.15.4 <xref target="IEEE802.15.4"/> (also known
  as ZigBee)</li> Zigbee)</li>

  <li>In <xref target="InfiniBand"/></li>

  <li>In a modified form to construct some IPv6 interface identifiers Interface Identifiers,
  as described in Section 2.2.1, <xref target="ipv6"/>, although this use is now
  deprecated</li>
</ul>

<t>Adding a 5-octet (40-bit) extension to a 3-octet (24-bit)
assignment, or a shorter extension to longer assigned prefixes <xref
target="RAC_OUI"/>
target="I-D.ieee-rac-oui-restructuring"/> so as to total 64 bits, produces an EUI&nbhy;64
identifier under that OUI or longer prefix.  As with EUI&nbhy;48
identifiers, the first octet has the same special low order low-order bits.</t>

<t>An AFN, a DNS RRTYPE, and CBOR tag have been assigned for 64-bit
MAC addresses addresses, as discussed in Sections 2.4, 5.3, <xref target="cbor-tags" format="counter"/>, <xref target="mac-addresses" format="counter"/>, and 5.9. <xref target="cbor-tag-assign" format="counter"/>. </t>

<t>The discussion below is almost entirely in terms of the "Modified"
form of EUI&nbhy;64 identifiers; however, anyone assigned such an
identifier can also use the unmodified form as a MAC identifier on any
link that uses such 64-bit identifiers for interfaces. </t>

<section>

<section anchor="ipv6">  <!-- 2.2.1 -->
  <name>IPv6 Use of Modified EUI&nbhy;64 Identifiers</name>

<t>The approach described below for constructing IPv6 Interface
Identifiers is now deprecated deprecated, and the method specified in <xref
target="RFC8064"/> is recommended.</t>

<t>EUI&nbhy;64 identifiers have been used to form the lower 64 bits of
some IPv6 addresses (Section 2.5.1 <xref target="RFC4291" section="2.5.1" sectionFormat="bare"/> and Appendix A <xref target="RFC4291" section="A" sectionFormat="bare"/> of <xref
target="RFC4291"/> and Appendix A of <xref target="RFC5214"/>). target="RFC5214" sectionFormat="of" section="A"/>).  When
so used, the EUI&nbhy;64 is modified by inverting the X (Local/Global) (universal/local)
bit to form an IETF "Modified EUI&nbhy;64 identifier".  Below is an
illustration of a Modified EUI&nbhy;64 unicast identifier under the
IANA OUI, where aa-bb-cc-dd-ee is the extension. </t>

<t indent="3">02-00-5E-aa-bb-cc-dd-ee</t>

<t>The first octet is shown as 02 rather than 00 because, in Modified
EUI&nbhy;64 identifiers, the sense of the X bit is inverted compared
with EUI&nbhy;48 identifiers.  It is the globally unique values
(universal scope) that have the 0x02 bit (also known as the X or
universal/local bit) on in the first octet, while those with this bit
off are typically locally assigned and out of scope for global
assignment. </t>

<t>The X (Local/Global) (universal/local) bit was inverted to make it easier for network
operators to type in local-scope identifiers.  Thus, such Modified
EUI&nbhy;64 identifiers as 1, 2, etc. (ignoring leading zeros) are
local.  Without the modification, they would have to be
02-00-00-00-00-00-00-01, 02-00-00-00-00-00-00-02, etc. to be
local.</t>

<t>As with 48-bit MAC identifiers, the M-bit M bit (0x01) on in the first
octet indicates a group identifier (multicast or broadcast). </t>

<t>When the first two octets of the extension of a Modified
EUI&nbhy;64 identifier are FF-FE, the remainder of the extension is a
24-bit value value, as assigned by the OUI owner for an EUI&nbhy;48.  For
example: </t>

<t indent="3">02-00-5E-FF-FE-yy-yy-yy</t>
<t>or</t>
<t indent="3">03-00-5E-FF-FE-yy-yy-yy</t>

<t>where yy-yy-yy is the portion (of an EUI&nbhy;48 global unicast or
multicast identifier) that is assigned by the OUI owner (IANA in this
case).  Thus, any holder of one or more EUI&nbhy;48 identifiers under
the IANA OUI also has an equal number of Modified EUI&nbhy;64
identifiers that can be formed by inserting FF-FE in the middle of
their EUI&nbhy;48 identifiers and inverting the Local/Global universal/local bit.</t>

<t>In addition, certain Modified EUI&nbhy;64 identifiers under the
IANA OUI are reserved for holders of IPv4 addresses as follows:</t>

<t indent="3">02-00-5E-FE-xx-xx-xx-xx</t>

<t>where xx-xx-xx-xx is a 32-bit IPv4 address.  The owner of an IPv4
address has both a unicast- and multicast-derived EUI&nbhy;64 address.
Modified EUI&nbhy;64 identifiers from </t>

<t indent="3">02-00-5E-FE-F0-00-00-00 to 02-00-5E-FE-FF-FF-FF-FF</t>

<t>are effectively reserved pending the specification of IPv4 "Class
E" addresses <xref target="RFC1112"/>.  However, for Modified
EUI&nbhy;64 identifiers based on an IPv4 address, the Local/Global universal/local bit
should be set to correspond to whether the IPv4 address is local or
global.  (Keep in mind that the sense of the Modified EUI&nbhy;64
identifier Local/Global universal/local bit is reversed from that in (unmodified)
EUI&nbhy;64 identifiers.)</t>

</section>
<section>
<section anchor="eui-64-assign-con">
  <name>EUI&nbhy;64 IANA Assignment Considerations</name>

<t>The following table shows which Modified EUI&nbhy;64 identifiers
under the IANA OUI are reserved, assigned, or available as indicated.
As noted above, the corresponding MAC addresses can be determined by
complementing the 02 bit in the first octet.  In all cases, the
corresponding multicast 64-bit MAC addresses formed by complementing
the 01 bit in the first octet have the same status as the modified
64-bit unicast address blocks listed below.</t>

<dl>
  <dt>02&nbhy;00&nbhy;5E&nbhy;00&nbhy;00&nbhy;00&nbhy;00&nbhy;00 to
  02&nbhy;00&nbhy;5E&nbhy;0F&nbhy;FF&nbhy;FF&nbhy;FF&nbhy;FF</dt>
  <dd>reserved</dd>

<dt>02&nbhy;00&nbhy;5E&nbhy;10&nbhy;00&nbhy;00&nbhy;00&nbhy;00 to
02&nbhy;00&nbhy;5E&nbhy;10&nbhy;00&nbhy;00&nbhy;00&nbhy;FF</dt>
  <dd>assigned for documentation use</dd>

<dt>02&nbhy;00&nbhy;5E&nbhy;10&nbhy;00&nbhy;00&nbhy;01&nbhy;00 to
02&nbhy;00&nbhy;5E&nbhy;EF&nbhy;FF&nbhy;FF&nbhy;FF&nbhy;FF</dt>
  <dd>available for assignment</dd>

<dt>02&nbhy;00&nbhy;5E&nbhy;F0&nbhy;00&nbhy;00&nbhy;00&nbhy;00 to
02&nbhy;00&nbhy;5E&nbhy;FD&nbhy;FF&nbhy;FF&nbhy;FF&nbhy;FF</dt>
  <dd>reserved</dd>

<dt>02&nbhy;00&nbhy;5E&nbhy;FE&nbhy;00&nbhy;00&nbhy;00&nbhy;00 to
02&nbhy;00&nbhy;5E&nbhy;FE&nbhy;FF&nbhy;FF&nbhy;FF&nbhy;FF</dt>
  <dd>assigned to IPv4 address holders as described above</dd>

<dt>02&nbhy;00&nbhy;5E&nbhy;FF&nbhy;00&nbhy;00&nbhy;00&nbhy;00 to
02&nbhy;00&nbhy;5E&nbhy;FF&nbhy;FD&nbhy;FF&nbhy;FF&nbhy;FF</dt>
  <dd>reserved</dd>

<dt>02&nbhy;00&nbhy;5E&nbhy;FF&nbhy;FE&nbhy;00&nbhy;00&nbhy;00 below. These values are prefixed with
02-00-5E to
02&nbhy;00&nbhy;5E&nbhy;FF&nbhy;FE&nbhy;FF&nbhy;FF&nbhy;FF</dt>
<dd>assigned for holders of EUI&nbhy;48 identifiers under the IANA OUI
as described above</dd>

<dt>02&nbhy;00&nbhy;5E&nbhy;FF&nbhy;FF&nbhy;00&nbhy;00&nbhy;00 form unicast modified EUI-64 addresses.</t>

<table anchor="table_iana_64_bit_macs">
  <name>IANA 64-bit MAC Addresses </name>
  <thead>
    <tr>
      <th>Addresses</th>
      <th>Usage</th>
      <th>Reference</th>
    </tr>
  </thead>
  <tbody>
    <tr>
      <td>00-00-00-00-00 to
02&nbhy;00&nbhy;5E&nbhy;FF&nbhy;FF&nbhy;FF&nbhy;FF&nbhy;FF</dt>
  <dd>reserved</dd>
</dl> 0F-FF-FF-FF-FF</td>
      <td>Reserved</td>
      <td>RFC 9542</td>
    </tr>
    <tr>
      <td>10-00-00-00-00 to 10-00-00-00-FF </td>
      <td>Documentation</td>
      <td>RFC 9542</td>
    </tr>
    <tr>
      <td>10-00-00-01-00 to EF-FF-FF-FF-FF</td>
      <td>Unassigned</td>
      <td></td>
    </tr>
    <tr>
      <td>FD-00-00-00-00 to FD-FF-FF-FF-FF</td>
      <td>Reserved</td>
      <td>RFC 9542</td>
    </tr>
    <tr>
      <td>FE-00-00-00-00 to FE-FF-FF-FF-FF</td>
      <td>IPv4 Addr Holders</td>
      <td>RFC 9542</td>
    </tr>
    <tr>
      <td>FF-00-00-00-00 to FF-FD-FF-FF-FF</td>
      <td>Reserved</td>
      <td>RFC 9542</td>
    </tr>
    <tr>
      <td>FF-FE-00-00-00 to FF-FE-FF-FF-FF</td>
      <td>IANA EUI-48 Holders</td>
      <td>RFC 9542</td>
    </tr>
    <tr>
      <td>FF-FF-00-00-00 to FF-FF-FF-FF-FF</td>
      <td>Reserved</td>
      <td>RFC 9542</td>
    </tr>
  </tbody>
</table>

<t>The reserved identifiers above require IESG Ratification (see
Section 5.1)
<xref target="ex-rev-iesg-rat"/>) for assignment. IANA EUI&nbhy;64 identifier assignments
under the IANA OUI must meet the following requirements:</t>

<ul>
  <li>must be for standards purposes (either for an IETF Standard or
  other standard related to IETF work), </li>

  <li>must be for a power-of-two size power-of-two-sized block of identifiers starting at
  a boundary that is an equal or greater power of two, including the
  assignment of one (2**0) identifier, </li>

  <li>must not be used to evade the requirement for network interface
  vendors to obtain their own block of identifiers from the IEEE, and
  </li>

  <li>must be documented in an Internet-Draft or RFC. </li>
</ul>

<t>In addition, approval must be obtained as follows (see the
procedure in Section 5.1):</t> <xref target="ex-rev-iesg-rat"/>):</t>

<ul>
  <li>Small to medium assignments of a block of 1, 2, 4, ...,
  134217728, 268435456 (2**0, 2**1, 2**2, ..., 2**27, 2**28)
  EUI&nbhy;64 identifiers require Expert Review (see Section
  5.1).</li> <xref target="ex-rev-iesg-rat"/>).</li>

  <li>Large assignments of 536870912 (2**29) or more EUI&nbhy;64
  identifiers require IESG Ratification (see Section 5.1).</li> <xref target="ex-rev-iesg-rat"/>).</li>
</ul>

</section>

<section>
  <name>EUI&nbhy;64 Documentation Values</name>

<t>The following blocks of unmodified 64-bit MAC addresses are for
documentation use.  The IPv4-derived addresses are based on the IPv4
documentation addresses <xref target="RFC5737"/>, and the MAC-derived
addresses are based on the EUI&nbhy;48 documentation addresses
above.</t>

<t>Unicast values for Documentation Use:</t> documentation use:</t>

<t
indent="3">00&nbhy;00&nbhy;5E&nbhy;EF&nbhy;10&nbhy;00&nbhy;00&nbhy;00
to 00&nbhy;00&nbhy;5E&nbhy;EF&nbhy;10&nbhy;00&nbhy;00&nbhy;FF
general</t>

<t
indent="3">00&nbhy;00&nbhy;5E&nbhy;FE&nbhy;C0&nbhy;00&nbhy;02&nbhy;00
to 00&nbhy;00&nbhy;5E&nbhy;FE&nbhy;C0&nbhy;00&nbhy;02&nbhy;FF and
00&nbhy;00&nbhy;5E&nbhy;FE&nbhy;C6&nbhy;33&nbhy;64&nbhy;00 to
00&nbhy;00&nbhy;5E&nbhy;FE&nbhy;C6&nbhy;33&nbhy;64&nbhy;FF and
00&nbhy;00&nbhy;5E&nbhy;FE&nbhy;CB&nbhy;00&nbhy;71&nbhy;00 to
00&nbhy;00&nbhy;5E&nbhy;FE&nbhy;CB&nbhy;00&nbhy;71&nbhy;FF IPv4
derived</t>

<t
indent="3">00&nbhy;00&nbhy;5E&nbhy;FF&nbhy;FE&nbhy;00&nbhy;53&nbhy;00
to 00&nbhy;00&nbhy;5E&nbhy;FF&nbhy;FE&nbhy;00&nbhy;53&nbhy;FF
EUI&nbhy;48 derived</t>

<t
indent="3">00&nbhy;00&nbhy;5E&nbhy;FE&nbhy;EA&nbhy;C0&nbhy;00&nbhy;02
and 00&nbhy;00&nbhy;5E&nbhy;FE&nbhy;EA&nbhy;C6&nbhy;33&nbhy;64 and
00&nbhy;00&nbhy;5E&nbhy;FE&nbhy;EA&nbhy;CB&nbhy;00&nbhy;71 IPv4
multicast derived from IPv4 unicast <xref target="RFC6034"/></t>

<t>Multicast values for Documentation Use:</t> documentation use:</t>

<t
indent="3">01&nbhy;00&nbhy;5E&nbhy;EF&nbhy;10&nbhy;00&nbhy;00&nbhy;00
to 01&nbhy;00&nbhy;5E&nbhy;EF&nbhy;10&nbhy;00&nbhy;00&nbhy;FF
general</t>

<t
indent="3">01&nbhy;00&nbhy;5E&nbhy;FE&nbhy;C0&nbhy;00&nbhy;02&nbhy;00
to 01&nbhy;00&nbhy;5E&nbhy;FE&nbhy;C0&nbhy;00&nbhy;02&nbhy;FF and
01&nbhy;00&nbhy;5E&nbhy;FE&nbhy;C6&nbhy;33&nbhy;64&nbhy;00 to
01&nbhy;00&nbhy;5E&nbhy;FE&nbhy;C6&nbhy;33&nbhy;64&nbhy;FF and
01&nbhy;00&nbhy;5E&nbhy;FE&nbhy;CB&nbhy;00&nbhy;71&nbhy;00 to
01&nbhy;00&nbhy;5E&nbhy;FE&nbhy;CB&nbhy;00&nbhy;71&nbhy;FF IPv4
derived</t>

<t
indent="3">01&nbhy;00&nbhy;5E&nbhy;FE&nbhy;EA&nbhy;C0&nbhy;00&nbhy;02
and 01&nbhy;00&nbhy;5E&nbhy;FE&nbhy;EA&nbhy;C6&nbhy;33&nbhy;64 and
01&nbhy;00&nbhy;5E&nbhy;FE&nbhy;EA&nbhy;CB&nbhy;00&nbhy;71 IPv4
multicast derived from IPv4 unicast <xref target="RFC6034"/></t>

<t
indent="3">01&nbhy;00&nbhy;5E&nbhy;FF&nbhy;FE&nbhy;90&nbhy;10&nbhy;00
to 01&nbhy;00&nbhy;5E&nbhy;FF&nbhy;FE&nbhy;90&nbhy;10&nbhy;FF
EUI&nbhy;48 derived</t>

</section>

</section> <!-- 2.2 -->

<section>

<section anchor="bit-48-ietf">
  <name>Other 48-bit 48-Bit MAC Identifiers Used by the IETF</name>

<t>There are two other blocks of 48-bit MAC identifiers that are used
by the IETF as described below.</t>

  <section>

  <section anchor="id-33-33">
    <name>Identifiers with a '33-33' Prefix</name>

<t>All 48-bit multicast MAC identifiers prefixed with "33-33" (that is, the
2**32 multicast MAC identifiers in the range from 33-33-00-00-00-00 to
33-33-FF-FF-FF-FF) are used as specified in <xref target="RFC2464"/>
for IPv6 multicast.  In all of these identifiers, the Group bit (the
bottom bit of the first octet) is on, as is required to work properly
with existing hardware as a multicast identifier.  They also have the
Local bit on on, but any Ethernet using standard IPv6 multicast should
note that these addresses will be used for that purpose. These
multicast MAC addresses fall into the Administratively Assigned SLAP
quadrant (see Section 2.1.1).</t>

<t indent="3">Historical notes: <xref target="first-oct-bit"/>).</t>

<aside>
<t>Historical Notes: It was the custom during IPv6 design
to use "3" for unknown or example values values, and 3333 Coyote Hill Road,
Palo Alto, California, California is the address of PARC (Palo Alto Research
Center,
Center), formerly "Xerox PARC"). PARC."  Ethernet was originally specified by
the Digital Equipment Corporation, Intel Corporation, and Xerox
Corporation.  The pre-IEEE <xref target="IEEE.802.3_2012"/> Ethernet
protocol has sometimes been known as "DIX" Ethernet from the first
letters of the names of these companies.</t>
</aside>

  </section>
  <section>

    <name>The 'CF Series'</name> CF Series</name>

<t>The Informational <xref target="RFC2153"/> declared the 3-octet
values from CF&nbhy;00&nbhy;00 through CF&nbhy;FF&nbhy;FF to be "OUIs"
available for assignment by IANA to software vendors for use in PPP
<xref target="RFC1661"/> or for other uses where vendors do not
otherwise need an IEEE-assigned OUI. When used as 48-bit MAC prefixes,
these values have all of the Z, Y, X (Local), (Local) and M (Group) special
bits at the bottom of the first octet equal to one, while all
IEEE-assigned OUIs thus far have the X and M bits as zero and all CIDs
have bits the Y and M bits as zero; thus, there can be no conflict between CF
Series "OUI"s
series "OUIs" and IEEE assigned OUI/CIDs. IEEE-assigned OUIs/CIDs. Multicast MAC addresses
constructed with a "CF" CF series OUI would fall into the Standard
Assigned SLAP quadrant (see Section 2.1.1). <xref target="first-oct-bit"/>). The Group bit is
meaningless in PPP.  To quote <xref target="RFC2153"/>: "The 'CF0000'
series was arbitrarily chosen to match the PPP NLPID 'CF', as a matter
of mnemonic convenience."  (For further information on NLPIDs, Network Layer Protocol Identifiers (NLPIDs), see
<xref target="RFC6328"/>.)</t>

<t indent="3">CF&nbhy;00&nbhy;00 is reserved, and IANA lists reserved.  CF&nbhy;00&nbhy;00&nbhy;00&nbhy;00&nbhy;00 is a multicast identifier</t>

<t indent="3">CF&nbhy;00&nbhy;00&nbhy;00&nbhy;00&nbhy;00 identifier
listed by IANA as used for Ethernet loopback tests.</t>

<t>In over a decade of availability, only a handful of values in the
CF Series series have been assigned.  (See the "IANA OUI Ethernet Numbers" <xref
target="EthernetNum"/> and "PPP Numbers" "Point-to-Point (PPP) Protocol Field Assignments" <xref target="PPPNum"/>
).</t> registry groups.)</t>

    <section>
      <name>Changes to RFC 2153</name>

<t>The IANA Considerations in <xref target="RFC2153"/> were updated as
follows by the approval of <xref target="RFC5342"/> and remain so updated (no
technical changes have been made):</t>

<ul>
<li>Use of these 'CF Series' CF series identifiers based on IANA assignment was
deprecated.</li>

<li>IANA was instructed not to assign any further values in the 'CF
Series'.</li> CF
series.</li>
</ul>

    </section>
  </section>
  </section> <!-- 2.3 -->

  <section>

  <section anchor="cbor-tags">
    <name>CBOR Tags</name>

<t>The Concise Binary Object Representation (CBOR (CBOR) <xref
target="RFC8949"/>)
target="RFC8949"/> is a data format whose design goals include the
possibility of very small code size, fairly small message size, and
extensibility. In CBOR, a data item can be enclosed by a CBOR tag to
give it some additional semantics identified by that tag. CBOR tagged CBOR-tagged
data items (fields) are not used in actual IEEE 802 address fields but
may be used in CBOR encoded CBOR-encoded parts of protocol messages.</t>

<t>IANA has assigned TBD1 48 as the CBOR tag to indicate a MAC
address. The enclosed data item is an octet string. The length of the
octet string indicates whether a 48-bit (6 octet) or 64-bit (8 octet) MAC
address is encoded. Should some other multiple of 8 bits length MAC
addresses be used in the future,
future for the length of MAC addresses, such as a 128-bit (16 octet) (16-octet) MAC
address, the TBD1 48 tag will be used.</t>

<t>IANA has assigned TDB2 1048 as the CBOR tag to indicate an OUI, CID, or
"CF"
CF series organizational identifier. The enclosed data item is an
octet string of length 3 to hold the 24-bit OUI or CID (see Section
2.1.2).</t> <xref target="oui-cid"/>).</t>

</section> <!-- 2.4 -->

</section> <!-- 2. Ethernet Identifier Parameters -->

<section>

<section anchor="eth-pro-param"> <!-- 3. -->
  <name>Ethernet Protocol Parameters</name>

<t>Ethernet protocol parameters provide a means of indicating, near
the beginning of a frame, the contents of that frame -- for example,
that it contains IPv4 or IPv6.</t>

<t>There are two types of protocol identifier parameters (See (see <xref
target="EthernetNum"/>) that can occur in Ethernet frames as
follows:</t>

<dl> frames:</t>

<dl newline="true">
  <dt>EtherTypes:</dt>
  <dd>These are 16-bit identifiers which, that, when considered as an
  unsigned integer, are equal to or larger than 0x0600. <xref
  target="EtherType"/> shows the simplest case where the EtherType of the
  protocol data in the frame appears immediately after the destination
  and source MAC addresses. <xref target="IEEE802_OandA"/> specifies
  two EtherTypes for local, experimental use: 0x88B5 and 0x88B6.</dd>

  <dt>LSAPs:</dt>
  <dd>These are 8-bit protocol identifiers that occur in pairs after a
  field that gives the frame length. Such a length must, when
  considered as an unsigned integer, be less than 0x5DD, or it could
  be mistaken as an EtherType. However, the LLC encapsulation
  EtherType 0x8870 <xref target="IEEE802.1AC"/> may also be used in
  place of such a length as a "length indication" of nonspecific
  length. LSAPs occur in pairs pairs, where one is intended to indicate the
  source protocol handler (SSAP) and one the other the destination protocol
  handler (DSAP); however, use cases where the two are different have
  been relatively rare. See <xref target="LSAP"/> for the simplest
  case where the length field appears immediately after the
  destination and source MAC addresses. In that figure, the CTL
  (control) field value of 3 indicates datagram service. This type of
  protocol identification is sometimes called "LLC" (Logical Link
  Control).</dd>
</dl>

  <figure anchor="EtherType">
    <name>EtherType Frame Protocol Labeling</name>
      <artwork type="ascii-art" align="center">
        <![CDATA[
  0  1  2  3  4  5  6  7  0  1  2  3  4  5  6  7
+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+
|  Destination MAC Address                     ///
+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+
|  Source MAC Address                          ///
+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+
|  EtherType, greater than or equal to 0x0600   |
+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+
|  Protocol Data                               ///
+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+
        ]]>
     </artwork>
  </figure>

  <figure anchor="LSAP">
    <name>LSAP Frame Protocol Labeling</name>
      <artwork type="ascii-art" align="center">
        <![CDATA[
  0  1  2  3  4  5  6  7  0  1  2  3  4  5  6  7
+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+
|  Destination MAC Address                     ///
+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+
|  Source MAC Address                          ///
+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+
|  Frame length (or 0x8870)                     |
+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+
|  DSAP                 |  SSAP                 |
+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+
|  CTL = 0x03           |  Protocol Data       ///
+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+
        ]]>
     </artwork>
  </figure>

<t>The concept of EtherType labeling has been extended to labeling by
Ethernet "tags".  An Ethernet tag in this sense is a prefix whose type
is identified by an EtherType that is then followed by either another
tag, an EtherType, or an LLC LSAP (Link-Layer Link-Layer Service Access Point) Point (LSAP)
protocol indicator for the "main" body of the frame.  Customarily,
in the world of <xref target="IEEE802_OandA"/> world, target="IEEE802_OandA"/>, tags are a fixed length
and do not include any encoding of their own length.  An example is
the C-Tag (formerly the Q-Tag) <xref target="IEEE.802.1Q_2014"/>.  It
provides customer VLAN and priority information for a frame. Any
device that is processing a frame cannot, in general, safely process
anything in the frame past an EtherType it does not understand. </t>

<t>Neither EtherTypes nor LSAPs are assigned by IANA; they are
assigned by the IEEE Registration Authority <xref target="IEEE_RA"/>
(see <xref target="IEEEregAuth"/> above and Appendix B). <xref target="ethertypes"/>).  However,
both LSAPs and EtherTypes have extension mechanisms so that they can
be used with five-octet Ethernet protocol identifiers under an OUI,
including those assigned by IANA under the IANA OUI.</t>

<t>When using the IEEE 802 Logical Link Control (LLC) format
(Subnetwork Access Protocol (SNAP)) <xref target="IEEE802_OandA"/> for
a frame, an OUI-based protocol identifier can be expressed as
follows:</t>

<t
indent="3">xx&nbhy;xx&nbhy;AA&nbhy;AA&nbhy;03&nbhy;yy&nbhy;yy&nbhy;yy&nbhy;zz&nbhy;zz
</t>

<t>where xx&nbhy;xx is the frame length and, as above, must be small
enough not to be confused with an EtherType; "AA" is the LSAP that
indicates this use and is sometimes referred to as the SNAP Service
Access Point (SNAP SAP); "03" is the LLC control octet indicating
datagram service; yy&nbhy;yy&nbhy;yy is an OUI; and zz&nbhy;zz is a
protocol number, under that OUI, assigned by the OUI owner.  The
five-octet length for such OUI-based protocol identifiers results,
with the LLC control octet ("0x03"), in the preservation of 16-bit
alignment.</t>

<t>When using an EtherType to indicate the main type for a frame body,
the special "OUI Extended EtherType" 0x88B7 is available.  Using this
EtherType, a frame body can begin with </t>

<t indent="3">88&nbhy;B7&nbhy;yy&nbhy;yy&nbhy;yy&nbhy;zz&nbhy;zz</t>

<t>where yy&nbhy;yy&nbhy;yy and zz&nbhy;zz have the same meaning as in
the SNAP format described above; however, this format with EtherType
0x88B7 does not preserve 16-bit alignment. </t>

<t>It is also possible, within the SNAP format, to use an arbitrary
EtherType.  Putting the EtherType as the zz&nbhy;zz field after an
all-zeros OUI (00&nbhy;00&nbhy;00) does this. It looks like </t>

<t
indent="3">xx&nbhy;xx&nbhy;AA&nbhy;AA&nbhy;03&nbhy;00&nbhy;00&nbhy;00&nbhy;zz&nbhy;zz
</t>

<t>where zz&nbhy;zz is the EtherType.</t>

<t>As well as labeling frame contents, IEEE 802 protocol types appear
within NBMA (Non-Broadcast Multi-Access) Non-Broadcast Multi-Access (NBMA) Next Hop Resolution Protocol
<xref target="RFC2332"/> messages.  Such messages have provisions for
both two-octet EtherTypes and OUI-based protocol types. 16-bit
EtherTypes also occur in the Generic Router Routing Encapsulation (GRE (GRE) <xref
target="RFC2784"/>)
target="RFC2784"/> header and in the GENEVE (Generic Generic Network
Virtualization Encapsulation (Geneve) <xref target="RFC8926"/>) target="RFC8926"/> encapsulation
header.</t>

<section>

<section anchor="eth-pro-iana-oui">
  <name>Ethernet Protocol Assignment under the IANA OUI</name>

<t>Two-octet protocol numbers under the IANA OUI are available, as in
</t>

<t indent="3">88&nbhy;B7&nbhy;00&nbhy;00&nbhy;5E&nbhy;qq&nbhy;qq </t>

<t>or</t>

<t
indent="3">xx&nbhy;xx&nbhy;AA&nbhy;AA&nbhy;03&nbhy;00&nbhy;00&nbhy;5E&nbhy;qq&nbhy;qq
</t>

<t>where qq&nbhy;qq is the protocol number. </t>

<t>A number of such assignments have been made out of the 2**16
protocol numbers available from 00&nbhy;00&nbhy;5E&nbhy;00&nbhy;00 to
00&nbhy;00&nbhy;5E&nbhy;FF&nbhy;FF (see <xref target="EthernetNum"/>).
The extreme values of this range, 00&nbhy;00&nbhy;5E&nbhy;00&nbhy;00
and 00&nbhy;00&nbhy;5E&nbhy;FF&nbhy;FF, are reserved and require IESG
Ratification for assignment (see Section 5.1). <xref target="ex-rev-iesg-rat"/>).  New assignments of
protocol numbers (qq&nbhy;qq) under the IANA OUI must meet the
following requirements: </t>

<ul>
  <li>the assignment must be for standards use (either for an IETF
  Standard or other standard related to IETF work), </li>

  <li>the protocol must include a version field at a fixed offset or
  an equivalent marking such that later version versions can be indicated in a
  way recognizable by earlier versions, </li>

  <li>it

  <li>the protocol must be documented in an Internet-Draft or RFC, and </li>

  <li>such protocol numbers are not to be assigned for any protocol
  that has an EtherType. (Either that (That EtherType can be used directly
  or, directly, or
   -- in the LSAPs case, using case -- it can be used with the SNAP SAP and by putting
   an all-zeros all-zero "OUI" before the EtherType as described above.) </li> above.)</li>
</ul>

<t>In addition, the Expert Review (or IESG Ratification for the two
reserved values) must be obtained using the procedure specified in
Section 5.1.</t>
<xref target="ex-rev-iesg-rat"/>.</t>

</section> <!-- 3.1 -->

<section>
  <name>Documentation Protocol Number</name>

<t>0x0042 is a protocol number under the IANA OUI (that is,
00&nbhy;00&nbhy;5E&nbhy;00&nbhy;42) to be used as an example for
documentation purposes.</t>

</section> <!-- 3.2 -->

</section> <!-- 3. Ethernet Protocol Paraeeters -->

<section> <!-- 4. -->
  <name>Other OUI/CID-Based Parameters</name>

<t>Some IEEE 802 and other protocols provide for parameters based on
an OUI or CID beyond those discussed above.  Such parameters commonly
consist of an OUI or CID plus one octet of additional value.  They are
called Organizationally-Specific Organizationally Specific parameters (sometimes informally and
less accurately referred to as "vendor specific").  They would look
like</t>

<t indent="3">yy&nbhy;yy&nbhy;yy&nbhy;zz</t>

<t>where yy&nbhy;yy&nbhy;yy is the OUI/CID and zz is the additional
specifier.  An example is the Cipher Suite Selector in <xref
target="IEEE.802.11_2012"/>.</t>

<t>Values may be assigned under the IANA OUI for such other OUI-based
parameter usage by Expert Review Review, except that, for each use, the
additional specifier values consisting of all zero bits and all one
bits (0x00 (00&nbhy;00&nbhy;5E&nbhy;00) and 0xFF
(00&nbhy;00&nbhy;5E&nbhy;FF) for a one-octet specifier) are reserved
and require IESG Ratification (see Section 5.1) <xref target="ex-rev-iesg-rat"/>) for assignment; also,
the additional specifier value 0x42 (00&nbhy;00&nbhy;5E&nbhy;42 for a
one octet specifier, right justified and filled with zeros on the left
if the specifier is more than one octet) is assigned for use as an
example in documentation.</t>

<t>Assignments of such other IANA OUI-based parameters must be for
standards use (either for an IETF Standard or other standard related
to IETF work) and be documented in an Internet-Draft or RFC.  The
first time a value is assigned for a particular parameter of this
type, an IANA registry will be created to contain that assignment and
any subsequent assignments of values for that parameter under the IANA
OUI.  The Expert may specify the name of the registry.</t>

<t>If different policies from those above are required for such a
parameter, a BCP or Standards Track RFC should be adopted to update
this BCP and specify the new policy and parameter.</t>

<section>

<section anchor="lldp-ietf-tlv">
  <name>LLDP IETF Organizationally-Specific Organizationally Specific TLV Type</name>

<t>An example of such an "other IANA OUI based OUI-based parameter" is specified
in <xref target="RFC8520"/>. This provides for an
Organizationally-Specific
Organizationally Specific TLV type for announcing a Manufacturer Usage
Description (MUD) Uniform Resource Locator (URL) in the IEEE Link
Local Discovery Protocol (LLDP (LLDP) <xref
target="IEEE802.1AB"/>).
target="IEEE802.1AB"/>. Additional IETF use of code points in this
space have been proposed <xref target="BGP11dp"/>. target="I-D.acee-idr-lldp-peer-discovery"/>. (See also Section
5.8.)</t> <xref target="lldp-tlv"/>.)</t>

</section> <!-- 4.1 -->

</section> <!-- 4. Other OUI-Based Parameters -->

<section> <!-- 5. -->
  <name>IANA Considerations</name>

<t>This document concerns IANA considerations for the assignment of
Ethernet parameters in connection with the IANA OUI and related
matters.</t>

<t indent="3">Note: The "IETF "IANA OUI Ethernet Numbers" IANA Registry
Group registry
group (web page) is for registries of numbers assigned under the IANA
OUI
OUI, while the "IEEE 802 Numbers" IANA Registry Group registry group has informational
lists of numbers assigned by the IEEE Registration Authority.</t>

<t>This document does not create any new IANA registries.</t>

<t>The MAC address values assigned for documentation and the protocol
number for documentation were both assigned by <xref
target="RFC7042"/>. </t>

<t>No existing assignment is changed by this document.</t>

<section>

<section anchor="ex-rev-iesg-rat">  <!-- 5.1 -->
  <name>Expert Review and IESG Ratification</name>

<t>This section specifies the procedures for Expert Review and IESG
Ratification of MAC, protocol, and other IANA OUI-based identifiers.
The Expert(s) referred to in this document shall consist of one or
more persons appointed by and serving at the pleasure of the
IESG. </t>

<section>  <!-- 5.1.1 -->
  <name>Expert Review Guidance</name>

<t>The procedure described for Expert Review assignments in this
document is consistent with the IANA Expert Review policy described in
<xref target="RFC8126"/>. </t>

<t>While finite, the universe of MAC code points from which
Expert-judged assignments will be made is felt considered to be large enough that
the requirements given in this document and the Experts' good judgment
are sufficient guidance.  The idea is for the Expert to provide a
light sanity reasonableness check for small assignments of MAC identifiers, with
increased scrutiny by the Expert for medium-sized assignments of MAC
identifiers and assignments of protocol identifiers and other IANA
OUI-based parameters.</t>

</section>
<section>  <!-- 5.1.2 -->
  <name>Expert Review and IESG Ratification Procedure</name>

<t>It can make sense to assign very large portions of the MAC
identifier code point space.  (Note that existing assignments include
one for half of the entire multicast IANA 48&nbhy;bit code point space
and one for a sixteenth of that multicast code point space.)  In those
cases, and in cases of the assignment of "reserved" values, IESG
Ratification of an Expert Review approval recommendation is required
as described below. This can be viewed as a combination of Expert
Review and IESG Approval as defined in <xref target="RFC8126"/>. IESG
Approval is required only when the Expert does not reject the
request. The procedure is as follows: </t>

<t indent="3">The applicant always completes the appropriate template
from Appendix A <xref target="templates"/> below and sends it to IANA &lt;iana@iana.org&gt;.</t>

<t indent="3">IANA always sends the template to an appointed Expert.
If the Expert recuses themselves or is non-responsive, IANA may choose
an alternative appointed Expert or, if none is available, will contact
the IESG.</t>

<t indent="3">In all cases, if IANA receives a disapproval from an
Expert selected to review an application template, the application
will be denied. The Expert should provide a reason for refusal refusal, which
IANA will communicate back to the applicant.</t>

<t indent="3">If the assignment is based on Expert Review:</t>

<t indent="9">If indent="6">If IANA receives approval and code points are available,
IANA will make the requested assignment.</t>

<t indent="3">If the assignment is based on IESG Ratification:</t>

<t indent="9">The indent="6">The procedure starts with the first steps above for
Expert Review.  If the Expert disapproves the application, they simply
inform IANA IANA, who in turn informs the applicant that their request is
denied; however, if the Expert believes the application should be
approved,
approved or is uncertain and believes that the circumstances warrant
the attention of the IESG, the Expert will inform IANA about their
advice, and IANA will forward the application, together with the
reasons provided by the Expert for approval or uncertainty, to the
IESG.  The IESG must decide whether the assignment will be granted.
This can be accomplished by a management item in an IESG telechat telechat, as
is done for other types of requests.  If the IESG decides not to
ratify a favorable opinion by the Expert or decides against an
application where the Expert is uncertain, the application is denied;
otherwise, it is granted.  The IESG will communicate its decision to
the Expert and to IANA. In case of refusal, the IESG should provide a
reason
reason, which IANA will communicate to the applicant.</t>

</section>  <!-- 5.1.2 -->
</section>  <!-- 5.1 -->

<section>

<section anchor="iana-name-changes">  <!-- 5.2 -->
  <name>IANA Registry Group (Web Page) Name Changes</name>

<t>For clarity and parallelism with the IANA "IEEE 802 Numbers"
registry group, the IANA "Ethernet Numbers" registry group is re-named has been
renamed the "IANA OUI Ethernet Numbers" web page. registry. </t>

<t>As this document replaces <xref target="RFC7042"/>, references to
<xref target="RFC7042"/> in IANA registries in both the IANA IEEE "IEEE 802
Numbers
Numbers" and the IANA IETF "IANA OUI Ethernet Numbers Numbers" registry groups will
be have
been replaced by references to [this document]. this document. Other IANA registry
references to <xref target="RFC7042"/> are not changed. </t>

</section>  <!-- 5.2 -->

<section>

<section anchor="mac-addresses">  <!-- 5.3 -->
  <name>MAC Address AFNs and RRTYPEs</name>

<t>IANA has assigned Address Family Numbers (AFNs) for MAC addresses
as follows:</t>

<table>
  <thead>
<tr><th>AFN</th><th>Decimal</th><th>Hex</th><th>Reference</th></tr>
  </thead>
  <tbody>
<tr><td>48-bit MAC</td><td>16389</td><td>0x4005</td><td><xref
target="RFC7042"/></td></tr>

<tr><td>64-bit MAC</td><td>16390</td><td>0x4006</td><td><xref
target="RFC7042"/></td></tr>

<tr><td>24-bit OUI</td><td>16391</td><td>0x4007</td><td><xref

<tr><td>OUI</td><td>16391</td><td>0x4007</td><td><xref
target="RFC7961"/></td></tr>

<tr><td colspan="4"></td></tr>

<tr><td

<tr><th colspan="4">Lower 24 bits of a 48-bit MAC address:</td></tr> address:</th></tr>

<tr><td>MAC/24</td><td>16392</td><td>0x4008</td><td><xref
target="RFC7961"/></td></tr>

<tr><td colspan="4"></td></tr>

<tr><td

<tr><th colspan="4">Lower 40 bits of a 64-bit MAC address:</td></tr> address:</th></tr>
<tr><td>MAC/40</td><td>16393</td><td>0x4009</td><td><xref
target="RFC7961"/></td></tr>
  </tbody>
</table>

<t>IANA has assigned DNS RRTYPEs <xref target="RFC6895"/> for MAC
addresses as follows:</t>

<table>
  <thead>
<tr><th></th><th></th><th colspan="2" align="center">RRTYPE
Code</th><th></th></tr>
<tr><th>Data</th><th>Mnemonic</th><th>Decimal</th><th>Hex</th><th>
Reference</th></tr>
  </thead>

  <tbody>
<tr><td>48-bit MAC</td><td align="center">EUI48</td><td
align="center">108</td><td>0x006C</td><td><xref
target="RFC7043"/></td></tr>

<tr><td>64-bit MAC</td><td align="center">EUI64</td><td
align="center">109</td><td>0x006D</td><td><xref
target="RFC7043"/></td></tr>
  </tbody>
</table>

</section>  <!-- 5.3 -->

<section>

<section anchor="info-iana">  <!-- 5.4 -->
  <name>Informational IANA Registry Group Material</name>

<t>IANA maintains an informational registry group, currently
implemented as a webpage, web page, concerning EtherTypes, OUIs, and multicast
addresses assigned under OUIs other than the IANA OUI.  The title of
this informational registry group is "IEEE 802 Numbers". IANA will
update
updates that informational registry group when changes are provided by
or approved by the Expert(s).</t>

</section>  <!-- 5.4 -->

<section>

<section anchor="ethertype-assign-pro">  <!-- 5.5 -->
  <name>EtherType Assignment Process</name>

<t>Applying to the IEEE Registration Authority for an EtherType needed
by an IETF protocol requires IESG approval Approval, as stated in Appendix B. <xref target="ethertypes"/>. To
minimize confusion, this process will normally be done by the primary
expert for the informational IANA "EtherType" registry within the "IEEE 802 Numbers EtherType Numbers" registry group, as
described below (see also Section 5.4).</t> <xref target="info-iana"/>).</t>

<t>After IESG approval Approval of the requirement for an EtherType, the IESG
should refer the matter to IANA. In any case, IANA will ask the IANA
IEEE 802 Numbers EtherType "EtherType" registry expert to execute the IEEE
Registration Authority <xref target="IEEE_RA"/> EtherType request
process. This path is specified because the IESG usually deals with
IANA for assignment actions and because IANA should be aware of which
IANA IEEE 802 Numbers EtherType
"EtherType" registry expert(s) are available,
normally refering referring the making of the Ethertype EtherType assignment request to
the primary expert.</t>

<t>Here is sample text for an Internet Draft Internet-Draft where both IANA and IEEE
assignments are required, where "YYY" would be replaced by an
explanation of for what/why the EtherType is needed in whatever level
of detail is necessary and would normally include a reference or
references to other appropriate parts of the Internet Draft:</t> Internet-Draft:</t>

<blockquote>
  <t>X. Assignment Considerations</t>
  <t>X.1. IEEE Assignment Considerations</t>
  <t indent="3">The IESG is requested to approve applying to the IEEE
  Registration Authority for an EtherType for YYY. (The IESG should
  communicate its approval to IANA and to those concerned with this
  document. IANA will forward the IESG approval Approval to the IANA IEEE 802
  Numbers EtherType
  registry expert of the "EtherType" registry from the "IEEE 802 Numbers" registry group who will make the application to
  the IEEE Registration authority, Authority, keeping IANA informed.)</t>
  <t>X.2. IANA Considerations</t>
  <t indent="3">...</t>
</blockquote>

</section>  <!-- 5.5 -->

<section>

<section anchor="oui-ex">  <!-- 5.6 -->
  <name>OUI Exhaustion</name>

<t>When the available space for either multicast or unicast
EUI&nbhy;48 identifiers under OUI 00&nbhy;00&nbhy;5E has been 90% or
more exhausted, IANA should request an additional OUI from the IEEE
Registration Authority for further IANA assignment.  The appointed
Expert(s) should monitor for this condition and notify IANA.</t>

</section>  <!-- 5.6 -->

<section>  <!-- 5.7 -->
  <name>IANA OUI MAC Address Table</name>

<t>The following changes are made by this document to the Notes for
the "IANA Unicast 48-bit MAC Addresses", the "IANA Multicast 48-bit
MAC Addresses", and the "IANA 64-bit MAC Addresses" registries. In
addition, the references in those registries are updated updated, as specified
in Section 5.2.</t> <xref target="iana-name-changes"/>.</t>

<t>The Notes for the IANA "IANA Unicast 48-bit MAC Addresses Addresses" registry and
for the IANA "IANA Multicast 48-bit MAC Addresses Addresses" registry are changed to
the following:</t>

<t indent="3">"These

<blockquote>
<t>These values are prefixed with 00-00-5E. See Section
2.1.5 <xref target="bit-48-MAC"/> of [this document]."</t> RFC 9542.</t>
</blockquote>

<t>The Note for the IANA "IANA 64-bit MAC Addresses Addresses" registry is changed to
the following:</t>

<t indent="3">"These

<blockquote>
<t>These values are prefixed with 00-00-5E to form unicast
MAC addresses, with 01-00-5E to form multicast MAC addresses, with
02-00-5E to form unicast modified EUI-64 addresses, and with 03-00-5E
to form multicast modified EUI-64 addresses. See [this document], RFC 9542,
particularly Section 2.2.2, <xref target="eui-64-assign-con"/>, for more details."</t> details.</t>
</blockquote>

</section>  <!-- 5.7 -->

<section>

<section anchor="lldp-tlv">
  <name>IANA LLDP TLV Subtypes</name>

<t>IANA is requested to move has moved the "IANA Link Layer Discovery Protocol
(LLDP) TLV Subtypes" Registry registry from the IANA IEEE "IEEE 802 Numbers Numbers" registry
group to the IANA "IANA OUI Ethernet Numbers Numbers" registry group, since code
points within it are assigned by IANA, and to add [this document] has added RFC 9542 as
an additional reference for that registry.</t>

<t>In addition, IANA is requested to update has updated three entries in that
Registry
registry as follows:</t>

<table>
  <thead>
<tr><th>Value</th><th>Description</th><th>Reference</th></tr>
  </thead>
  <tbody>
<tr><td align="right">0</td><td>Reserved</td><td>[this
document]</td></tr> align="right">0</td><td>Reserved</td><td>RFC 9542</td></tr>

<tr><td align="right">42</td><td>Example for use in
documentation</td><td>[this document]</td></tr>
documentation</td><td>RFC 9542</td></tr>

<tr><td align="right">255</td><td>Reserved</td><td>[this
document]</td></tr> align="right">255</td><td>Reserved</td><td>RFC 9542</td></tr>
  </tbody>
</table>

<t>The entries for 1 (MUD), 2-41 (unassigned), and 43-254 (unassigned)
are unchanged.</t>

</section> <!-- 5.8 -->

<section>

<section anchor="cbor-tag-assign">
  <name>CBOR Tag Assignments</name>

<t>IANA is requested to assign has assigned two CBOR Tags as shown below in the
Concise
"Concise Binary Object Representation (CBOR) Tags registry. [The
values of 48 and 49 are requested for TBD1 and TBD2 respectively.]</t> Tags" registry.</t>

<table>
  <thead>
<tr><th>Tag</th><th>Data
Item</th><th>Semantics</th><th>Reference</th></tr>
  </thead>
  <tbody>
<tr><td>TBD1</td><td>byte
<tr><td>48</td><td>byte string</td><td>IEEE MAC
Address</td><td>[this document]</td></tr>

<tr><td>TBD2</td><td>byte
Address</td><td>RFC 9542</td></tr>

<tr><td>1048</td><td>byte string</td><td>IEEE OUI/CID</td><td>[this
document]</td></tr> OUI/CID</td><td>RFC 9542</td></tr>
  </tbody>
</table>

</section> <!-- 5.9 -->

</section> <!-- 5. IANA Considerations -->

<section>  <!-- 6. -->
  <name>Security Considerations</name>

<t>This document is concerned with assignment of IEEE 802 parameters
allocated to IANA, particularly those under the IANA OUI, and closely
related matters.  It is not directly concerned with security except as
follows:</t>

<t indent="3">Confusion and conflict can be caused by the use of MAC
addresses or other OUI-derived protocol parameters as examples in
documentation.  Examples that are "only" to be used in documentation
can end up being coded and released or cause conflicts due to later
real use and the possible acquisition of intellectual property rights
in such addresses or parameters.  The reservation herein of MAC
addresses and parameters for documentation purposes will minimize such
confusion and conflict.</t>

<t>MAC addresses are an identifier identifiers provided by a device to the
network.  On certain devices, MAC addresses are not static, static and can be
configured.  The network should exercise caution when using these
addresses to enforce policy because addresses can be spoofed and
previously seen devices can return to the network with a new
address.</t>

<t>MAC addresses identify a physical or virtual interface and can be
used for tracking the device with that interface. Thus, they can be
used to track users asociated associated with that device.  See <xref
target="madinas"/>
target="I-D.ietf-madinas-mac-address-randomization"/> for related privacy considerations and a discussion
of MAC address randomization to partially mitigate this threat.  Also,
see <xref target="RFC7043"/> for the security and privacy
considerations of publishing MAC addresses in DNS.</t>

</section> <!-- end 6. Security Considerations -->

</middle>

<!-- ____________________BACK_MATTER____________________ -->

<back>

<displayreference target="I-D.acee-idr-lldp-peer-discovery" to="BGP11dp"/>
<displayreference target="I-D.ietf-madinas-mac-address-randomization" to="madinas"/>
<displayreference target="I-D.ieee-rac-oui-restructuring" to="RAC_OUI"/>

<references>
  <name>References</name>
  <references>
  <name>Normative References</name>

  <referencegroup anchor="IEEE802_OandA">
    <reference anchor="x">
    <front>
      <title>IEEE Standard for Local and Metropolitan Area Networks:
      Overview and Architecture</title>
      <author>
	<organization>IEEE 802</organization>
	<organization>IEEE</organization>
      </author>
      <date year="2014" month="June" day="12"/> month="June"/>
    </front>
    <seriesInfo name="IEEE Std" value="802-2014"/>
    <seriesInfo name="DOI" value="10.1109/IEEESTD.2014.6847097"/>
    </reference>

    <reference anchor="y">
      <front>
      <title>IEEE Standard for Local and Metropolitan Area Networks:
      Overview and Architecture - -- Amendment 2: Local Medium Access
      Control (MAC) Address Usage</title>
      <author>
	<organization>IEEE 802</organization>
	<organization>IEEE</organization>
      </author>
      <date year="2017" month="April"/> month="August"/>
    </front>
    <seriesInfo name="IEEE Std" value="802c-2017"/>
    <seriesInfo name="DOI" value="10.1109/IEEESTD.2017.8016709"/>
    </reference>
  </referencegroup>

<reference anchor="IEEE802.1AB">
  <front>
    <title>IEEE Standard for Local and metropolitan area networks -
    Statin
    Station and Media Access Control Connectivity Discovery</title>
    <author>
      <organization>IEEE 802</organization>
      <organization>IEEE</organization>
    </author>
    <date year="2016" month="January" day="29"/> month="March"/>
  </front>
  <seriesInfo name="IEEE Std" value="802.1AB-2016"/>
  <seriesInfo name="DOI" value="10.1109/IEEESTD.2016.7433915"/>
</reference>

<xi:include
    href="https://www.rfc-editor.org/refs/bibxml6/reference.IEEE.802.1Q_2014.xml"/>

<xi:include
    href="https://www.rfc-editor.org/refs/bibxml/reference.RFC.8126.xml"/>
    href="https://bib.ietf.org/public/rfc/bibxml/reference.RFC.8126.xml"/>

</references>

<references>
  <name>Informative References</name>

<reference anchor="BGP11dp"
           target="https://datatracker.ietf.org/doc/draft-acee-idr-lldp-peer-discovery/">
  <front>
    <title>BGP Logical Link Discovery Protocol (LLDP) Peer
    Discovery</title>
    <author initials="A." surname="Lindem"/>
    <author initials="K." surname="Patel"/>
    <author initials="S." surname="Zandi"/>
    <author initials="J." surname="Haas"/>
    <author initials="X." surname="Xu"/>
    <date year="2022" month="December" day="6"/>
  </front>
  <seriesInfo name="work"
              value="in Progress"/>
</reference>

<xi:include href="https://datatracker.ietf.org/doc/bibxml3/reference.I-D.acee-idr-lldp-peer-discovery.xml"/>

<reference anchor="EthernetNum" target="https://www.iana.org/assignments/ethernet-numbers">
  <front>
    <title>Ethernet
    <title>IANA OUI Ethernet Numbers</title>
    <author>
      <organization>IANA</organization>
    </author>
  </front>
</reference>

<reference anchor="IANA" target="https://www.iana.org">
  <front>
    <title>Internet Assigned Numbers Authority</title>
    <author>
      <organization>IANA</organization>
    </author>
  </front>
</reference>

<reference anchor="IEEE" target="https://www.ieee.org">
  <front>
    <title>Institute for of Electrical and Electronics Engineers</title>
    <author>
      <organization>IEEE</organization>
    </author>
  </front>
</reference>

<reference anchor="IEEE1394">
  <front>
    <title>IEEE Standard for a High-Performance Serial Bus</title>
    <author>
      <organization>IEEE</organization>
    </author>
    <date year="2008" month="10" day="21"/> month="October"/>
  </front>
  <seriesInfo name="IEEE Std" value="1394-2008"/>
  <seriesInfo name="DOI" value="10.1109/IEEESTD.2008.4659233"/>
</reference>

<reference anchor="IEEE802" target="https://www.ieee802.org">
  <front>
    <title>IEEE 802 LAN/MAN Standards Committee</title> LMSC</title>
    <author>
      <organization>IEEE 802</organization>
    </author>
  </front>
</reference>

<reference anchor="IEEE802.15.4">
  <front>
    <title>IEEE Standard for Low-Rate Wireless Networks</title>
    <author>
      <organization>IEEE 802</organization>
      <organization>IEEE</organization>
    </author>
    <date year="2020"/> year="2020" month="July"/>
  </front>
  <seriesInfo name="IEEE Std" value="802.14.4"/> value="802.15.4-2020"/>
  <seriesInfo name="DOI" value="10.1109/IEEESTD.2020.9144691"/>
</reference>

<reference anchor="IEEE802.1AC">
  <front>
    <title>IEEE Standard for Local and Metropolitan Area Networks - metropolitan area networks --
    Media Access Control (MAC) Service Definition</title>
    <author>
      <organization>IEEE 802</organization>
    </author>
    <date year="2016" month="December" day="7"/> year="2017" month="March"/>
  </front>
  <seriesInfo name="IEEE Std" value="802.1AC-2016"/>
  <seriesInfo name="DOI" value="10.1109/IEEESTD.2017.7875381"/>
</reference>

<reference anchor="IEEE802.1CQ">
  <front>
    <title>IEEE
    <title>Draft Standard for Local and Metropolitan Area Networks - Networks: Multicast and Local Address Assignment</title>
    <author>
      <organization>IEEE 802</organization>
      <organization>IEEE</organization>
    </author>
    <date year="2022" month="July" day="31"/> month="July"/>
  </front>
  <seriesInfo name="draft" value="0.8"/>
  <refcontent>draft 0.8</refcontent>
  <seriesInfo name="IEEE Std" value="802.1CQ/D0.8"/>
</reference>

<xi:include href="https://www.rfc-editor.org/refs/bibxml6/reference.IEEE.802.11_2012.xml"/>
<xi:include
    href="https://www.rfc-editor.org/refs/bibxml6/reference.IEEE.802.3_2012.xml"/>

<reference anchor="IEEE.802.3_2012" target="http://ieeexplore.ieee.org/servlet/opac?punumber=6419733">
<front>
<title>IEEE Standard for Ethernet</title>
<author>
<organization>IEEE</organization>
</author>
<date day="24" month="January" year="2013"/>
</front>
<seriesInfo name="IEEE" value="802.3-2012"/>
<seriesInfo name="DOI" value="10.1109/ieeestd.2012.6419735"/>
</reference>

<reference anchor="IEEE_RA" target="https://standards.ieee.org/products-programs/regauth/">
  <front>
    <title>IEEE Standards Association Registration
    <title>Registration Authority</title>
    <author>
      <organization>IEEE RA</organization>
      <organization>IEEE</organization>
    </author>
  </front>
</reference>

<reference anchor="IEEE_SA" target="https://standards.ieee.org">
  <front>
    <title>IEEE Standards Association</title>
    <author>
      <organization>IEEE SA</organization>
      <organization>IEEE</organization>
    </author>
 </front>
</reference>

<reference anchor="IEEEtutorials" target="https://standards.ieee.org/wp-content/uploads/import/documents/tutorials/eui.pdf">
  <front>
    <title>Guidelines for Use of Extended Unique Identifier (EUI),
    Organizationally Unique Identifier (OUI), and Company ID
    (CID)</title>
    <author>
      <organization>IEEE</organization>
    </author>
    <date year="2017" month="August" day="3"/> month="August"/>
  </front>
</reference>

<reference anchor="InfiniBand" target="https://www.infinibandta.org/">
  <front>
    <title>InfiniBand Architecture Specification Volume 1</title>
    <author>
      <organization>InfiniBand Trade Association</organization>
    </author>
    <date year="2007" month="November"/>
  </front>
</reference>

<reference anchor="madinas"
	   target="https://datatracker.ietf.org/doc/draft-ietf-madinas-mac-address-randomization/"> anchor="I-D.ietf-madinas-mac-address-randomization" target="https://datatracker.ietf.org/doc/html/draft-ietf-madinas-mac-address-randomization-12">
   <front>
      <title>Randomized and Changing MAC Address</title> Address state of affairs</title>
      <author initials="JC." surname="Zuniga"/> surname="Zúñiga" fullname="Juan-Carlos Zúñiga">
         <organization>CISCO</organization>
      </author>
      <author initials="CJ." surname="Bernardos"/> surname="Bernardos" fullname="Carlos J. Bernardos" role="editor">
         <organization>Universidad Carlos III de Madrid</organization>
      </author>
      <author initials="A" surname="Andersdotter"/> initials="A." surname="Andersdotter" fullname="Amelia Andersdotter">
         <organization>Safespring AB</organization>
      </author>
      <date year="2023" month="September" day="13"/> month="February" day="28" year="2024" />
   </front>
   <seriesInfo name="work" value="in Progress"/> name="Internet-Draft" value="draft-ietf-madinas-mac-address-randomization-12" />

</reference>

<reference anchor="PPPNum" target="https://www.iana.org/assignments/ppp-numbers">
  <front>
    <title>PPP Numbers</title>
    <title>Point-to-Point (PPP) Protocol Field Assignments</title>
    <author>
      <organization>IANA</organization>
    </author>
  </front>
</reference>

<reference anchor="RAC_OUI"
	   target="https://www.ietf.org/archive/id/draft-ieee-rac-oui-restructuring-01.txt">
  <front>
    <title>OUI Registry Restructuring</title>
    <author fullname="Glenn Parsons"
	    initials="G."
	    surname="Parsons"/>
    <date year="2013" month="September"/>
  </front>
  <seriesInfo name="work in" value="Progress"/>
</reference>

<xi:include
    href="https://www.rfc-editor.org/refs/bibxml/reference.RFC.1112.xml"/> href="https://datatracker.ietf.org/doc/bibxml3/reference.I-D.ieee-rac-oui-restructuring.xml"/>

<xi:include
    href="https://www.rfc-editor.org/refs/bibxml/reference.RFC.1661.xml"/> href="https://bib.ietf.org/public/rfc/bibxml/reference.RFC.1112.xml"/>
<xi:include
    href="https://www.rfc-editor.org/refs/bibxml/reference.RFC.2153.xml"/> href="https://bib.ietf.org/public/rfc/bibxml/reference.RFC.1661.xml"/>
<xi:include
    href="https://www.rfc-editor.org/refs/bibxml/reference.RFC.2332.xml"/> href="https://bib.ietf.org/public/rfc/bibxml/reference.RFC.2153.xml"/>
<xi:include
    href="https://www.rfc-editor.org/refs/bibxml/reference.RFC.2464.xml"/> href="https://bib.ietf.org/public/rfc/bibxml/reference.RFC.2332.xml"/>
<xi:include
    href="https://www.rfc-editor.org/refs/bibxml/reference.RFC.2606.xml"/> href="https://bib.ietf.org/public/rfc/bibxml/reference.RFC.2464.xml"/>
<xi:include
    href="https://www.rfc-editor.org/refs/bibxml/reference.RFC.2784.xml"/> href="https://bib.ietf.org/public/rfc/bibxml/reference.RFC.2606.xml"/>
<xi:include
    href="https://www.rfc-editor.org/refs/bibxml/reference.RFC.3092.xml"/> href="https://bib.ietf.org/public/rfc/bibxml/reference.RFC.2784.xml"/>
<xi:include
    href="https://www.rfc-editor.org/refs/bibxml/reference.RFC.4291.xml"/> href="https://bib.ietf.org/public/rfc/bibxml/reference.RFC.3092.xml"/>
<xi:include
    href="https://www.rfc-editor.org/refs/bibxml/reference.RFC.4760.xml"/> href="https://bib.ietf.org/public/rfc/bibxml/reference.RFC.4291.xml"/>
<xi:include
    href="https://www.rfc-editor.org/refs/bibxml/reference.RFC.5214.xml"/> href="https://bib.ietf.org/public/rfc/bibxml/reference.RFC.4760.xml"/>
<xi:include
    href="https://www.rfc-editor.org/refs/bibxml/reference.RFC.5332.xml"/> href="https://bib.ietf.org/public/rfc/bibxml/reference.RFC.5214.xml"/>
<xi:include
    href="https://www.rfc-editor.org/refs/bibxml/reference.RFC.5342.xml"/> href="https://bib.ietf.org/public/rfc/bibxml/reference.RFC.5332.xml"/>
<xi:include
    href="https://www.rfc-editor.org/refs/bibxml/reference.RFC.5737.xml"/> href="https://bib.ietf.org/public/rfc/bibxml/reference.RFC.5342.xml"/>
<xi:include
    href="https://www.rfc-editor.org/refs/bibxml/reference.RFC.5798.xml"/> href="https://bib.ietf.org/public/rfc/bibxml/reference.RFC.5737.xml"/>
<xi:include
    href="https://www.rfc-editor.org/refs/bibxml/reference.RFC.6034.xml"/> href="https://bib.ietf.org/public/rfc/bibxml/reference.RFC.5798.xml"/>
<xi:include
    href="https://www.rfc-editor.org/refs/bibxml/reference.RFC.6328.xml"/> href="https://bib.ietf.org/public/rfc/bibxml/reference.RFC.6034.xml"/>
<xi:include
    href="https://www.rfc-editor.org/refs/bibxml/reference.RFC.6895.xml"/> href="https://bib.ietf.org/public/rfc/bibxml/reference.RFC.6328.xml"/>
<xi:include
    href="https://www.rfc-editor.org/refs/bibxml/reference.RFC.7042.xml"/> href="https://bib.ietf.org/public/rfc/bibxml/reference.RFC.6895.xml"/>
<xi:include
    href="https://www.rfc-editor.org/refs/bibxml/reference.RFC.7043.xml"/> href="https://bib.ietf.org/public/rfc/bibxml/reference.RFC.7042.xml"/>
<xi:include
    href="https://www.rfc-editor.org/refs/bibxml/reference.RFC.7319.xml"/> href="https://bib.ietf.org/public/rfc/bibxml/reference.RFC.7043.xml"/>
<xi:include
    href="https://www.rfc-editor.org/refs/bibxml/reference.RFC.7961.xml"/> href="https://bib.ietf.org/public/rfc/bibxml/reference.RFC.7319.xml"/>
<xi:include
    href="https://www.rfc-editor.org/refs/bibxml/reference.RFC.8064.xml"/> href="https://bib.ietf.org/public/rfc/bibxml/reference.RFC.7961.xml"/>
<xi:include
    href="https://www.rfc-editor.org/refs/bibxml/reference.RFC.8415.xml"/> href="https://bib.ietf.org/public/rfc/bibxml/reference.RFC.8064.xml"/>
<xi:include
    href="https://www.rfc-editor.org/refs/bibxml/reference.RFC.8520.xml"/> href="https://bib.ietf.org/public/rfc/bibxml/reference.RFC.8415.xml"/>
<xi:include
    href="https://www.rfc-editor.org/refs/bibxml/reference.RFC.8926.xml"/> href="https://bib.ietf.org/public/rfc/bibxml/reference.RFC.8520.xml"/>
<xi:include
    href="https://www.rfc-editor.org/refs/bibxml/reference.RFC.8947.xml"/> href="https://bib.ietf.org/public/rfc/bibxml/reference.RFC.8926.xml"/>
<xi:include
    href="https://www.rfc-editor.org/refs/bibxml/reference.RFC.8948.xml"/> href="https://bib.ietf.org/public/rfc/bibxml/reference.RFC.8947.xml"/>
<xi:include
    href="https://www.rfc-editor.org/refs/bibxml/reference.RFC.8949.xml"/> href="https://bib.ietf.org/public/rfc/bibxml/reference.RFC.8948.xml"/>
<xi:include href="https://bib.ietf.org/public/rfc/bibxml/reference.RFC.8949.xml"/>
</references>

<section>
</references>

<section anchor="templates">
  <name>Templates</name>

<t>This appendix provides the specific templates for IANA assignments
of parameters.  Explanatory words in parentheses in the templates
below may be deleted in a completed template as submitted to IANA.</t>

<section>
  <name>EUI&nbhy;48/EUI&nbhy;64 Identifier or Identifier Block
  Template</name>

<t>Applicant Name:</t>

<t>Applicant Email: </t>

<t>Applicant Telephone: (starting with the country code) </t>

<t>Use Name: (brief name of Parameter use use, such as "Foo Protocol"
<xref target="RFC3092"/>)</t>

<t>Document: (ID (I-D or RFC specifying use to which the identifier or block
of identifiers will be put.)</t> put)</t>

<t>Specify whether this is an application for EUI&nbhy;48 or EUI&nbhy;64
identifiers:</t>

<t>Size of Block requested: (must be a power-of-two-sized block, can be
a block of size one (2**0))</t>

<t>Specify multicast, unicast, or both:</t>

</section>
<section>
  <name>IANA OUI/CID-Based Protocol Number Template</name>

<t>Applicant Name: </t>

<t>Applicant Email: </t>

<t>Applicant Telephone: (starting with the country code) </t>

<t>Use Name: (brief name of use of code point point, such as "Foo Protocol") </t>

<t>Document: (ID (I-D or RFC specifying use to which the protocol identifier
will be put.) put) </t>

<t>Note: (any additional note) </t>

</section>
<section>
  <name>Other IANA OUI/CID-Based Parameter Template</name>

<t>Applicant Name: </t>

<t>Applicant Email: </t>

<t>Applicant Telephone: (starting with the country code) </t>

<t>Protocol where the OUI/CID-Based Parameter for which a value is being
requested appears: (such as: as Cipher Suite selection in IEEE 802.11) </t>

<t>Use Name: (brief name of use of code point to be assigned, such as
"Foo Cipher Suite" [RFC3092]) <xref target="RFC3092"/>) </t>

<t>Document: (ID (I-D or RFC specifying use to which the other IANA OUI-based
parameter value will be put.) put) </t>

<t>Note: (any additional note) </t>

</section>
</section> <!-- Appendix A -->

<section>

<section anchor="ethertypes">
  <name>EtherTypes</name>

<t>This appendix provides a copy of the IESG Statement issued in May
2023 on obtaining new IETF EtherTypes in Section B.1. <xref target="iesg-ethertypes"/>. Note that there
is an informational IANA registry of some important EtherTypes
specified for IETF protocols or by IEEE 802 available, currently at
<xref target="IANA"/>.  The IEEE Registration Authority page of
EtherTypes, https://standards.ieee.org/regauth/ethertype/eth.txt, on
EtherTypes <eref target="https://standards.ieee.org/regauth/ethertype/eth.txt" brackets="angle"/> may
also be useful.  See Section 3 <xref target="eth-pro-param"/> above. </t>

<section>

<section anchor="iesg-ethertypes">
  <name>IESG Statement on Ethertypes</name>

<t>From: IESG
Date: 1 EtherTypes</name>

<dl newline="false" spacing="compact">
  <dt>From:</dt>
  <dd>IESG</dd>
  <dt>Date:</dt>
  <dd>1 May 2023</t> 2023</dd>
</dl>

<t>The IEEE Registration Authority (IEEE RA) assigns EtherTypes with
oversight from the IEEE Registration Authority Committee (IEEE
RAC)</t> RAC).</t>

<t>(See
https://standards.ieee.org/products-programs/regauth/ethertype/.)
<eref target="https://standards.ieee.org/products-programs/regauth/ethertype/"/>.) Some
IETF protocol specifications make use of EtherTypes. All EtherType
applications are subject to IEEE RA technical review for consistency
with policy.</t>

<t>Since EtherTypes are a fairly scarce resource, the IEEE RAC has let
us know that they will not assign a new EtherType to a new IETF
protocol specification until the IESG has approved the protocol
specification for publication as an RFC. In exceptional cases, the
IEEE RA is willing to consider "early allocation" of an EtherType for
an IETF protocol that is still under development as long as the
request comes from and has been vetted by the IESG.</t>

<t>To let the IEEE RAC know that the IESG has approved the request for
an Ethernet assignment for an IETF protocol, all future requests for
assignment of EtherTypes for IETF protocols will be made by the
IESG.</t>

<t>Note that Local Experimental ("playpen") EtherTypes have been
assigned in IEEE 802 [1] for use during protocol development and
experimentation.</t>

<t indent="4">
[1]

<t>[1] IEEE Std 802.  IEEE standard for Local and Metropolitan Area Networks: Overview and Architecture.</t>

</section>
</section> <!-- Appendix B -->

<section> <!-- Appendix C -->
  <name>Changes from RFC 7042</name>

<t>This document obsoletes <xref target="RFC7042"/> and makes the
changes listed below. However, the completed application template
based upon which an IANA OUI-based protocol number value was assigned
for document use remains that in Appendix C of RFC 7042.</t> <xref target="RFC7042" sectionFormat="of" section="C"/>.</t>

<ul>

<li>Add information on MA-M (28-bit) and MA-S (36-bit) EUI prefixes
that the IEEE Registration Authority assigns.</li>

<li>Add information on the restructuring of the "local" MAC address
space into four quadrants under the Structured Local Address Plan
(SLAP
(SLAP) <xref target="IEEE802_OandA"/>).</li> target="IEEE802_OandA"/>.</li>

<li>Include the IESG Statement on EtherTypes (See Appendix B.1) (see <xref target="iesg-ethertypes"/>) and
more detailed IETF procedures for applying to the IEEE Registration
Authority for an EtherType for use in an IETF protocol (see Section
5.5). <xref target="ethertype-assign-pro"/>). </li>

<li>Mention that IEEE 802 CFM Codepoints that code points have been allocated to
the IETF (see <xref target="CFM"/>).</li>

<li>Mention the organizationally specific Organizationally Specific LLDP data element that has
been assigned under the IANA OUI and the registry set up for future
such assignments (see Section 4.1).</li> <xref target="lldp-ietf-tlv"/>).</li>

<li>Clarify minor details in Section 5.1 <xref target="ex-rev-iesg-rat"/> on Expert Review and IESG
Ratification.</li>

<li>Specify CBOR tags for MAC addresses and OUI/CIDs OUIs/CIDs (see
Section 2.4).</li>
<xref target="cbor-tags"/>).</li>

<li>Add a version field requirement for the allocation of protocol
numbers under the IANA OUI (see Section 3.1).</li> <xref target="eth-pro-iana-oui"/>).</li>

<li>Mention that EtherTypes are used in the GENEVE Geneve <xref
target="RFC8926"/> encapsulation header (see Section 3).</li> <xref target="eth-pro-param"/>).</li>

<li>Add "a combination of Expert Review and IESG Approal" Approval" as part of
the specification for "IESG Ratification".</li>

</ul>
</section>

<section anchor="Acknowledgements" numbered="false">
  <name>Acknowledgements</name>

  <t>The comments and suggestions of the following people persons and
  organizations are gratefully acknowledged:</t>

    <t indent="3">Comments and suggestions leading to this
    Document:</t>
    document:</t>

      <t indent="6">Carsten Bormann, Bob Hinden, The indent="6"><contact fullname="Carsten Bormann"/>, <contact fullname="Bob Hinden"/>, the IEEE 802.1
      Working Group, &#201;ric Vyncke, Dale Worley, and Amanda
      Baber</t> <contact fullname="Éric Vyncke"/>, <contact fullname="Dale Worley"/>, and <contact fullname="Amanda Baber"/></t>

    <t indent="3">Comments and suggestions leading to RFC 7042 <xref target="RFC7042"/> (which
    is obsoleted by this document):</t>

      <t indent="6">David Black, Adrian Farrel, Bob Grow, Joel
      Jaeggli, Pearl Liang, Glenn Parsons, Pete Resnick, and Dan
      Romascanu.</t> indent="6"><contact fullname="David Black"/>, <contact fullname="Adrian Farrel"/>, <contact fullname="Bob Grow"/>, <contact fullname="Joel
      Jaeggli"/>, <contact fullname="Pearl Liang"/>, <contact fullname="Glenn Parsons"/>, <contact fullname="Pete Resnick"/>, and <contact fullname="Dan Romascanu"/></t>

</section>
</back>
</rfc>