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<?xml version='1.0' ?>
<!-- $Id: References.xml,v 1.8 2012/01/05 00:03:17 sar Exp $ -->
<?rfc private="ISC-DHCP-REFERENCES" ?>
<?rfc toc="yes"?>
<?rfc compact="yes"?>
<?rfc subcompact="no"?>
<?rfc tocompact="no"?>
<?rfc symrefs="yes"?>
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]>
<rfc ipr="none">
<front>
<title>ISC DHCP References Collection</title>
<author initials="D.H." surname="Hankins" fullname="David W. Hankins">
<organization abbrev="ISC">Internet Systems Consortium,
Inc.
</organization>
<address>
<postal>
<street>950 Charter Street</street>
<city>Redwood City</city>
<region>CA</region>
<code>94063</code>
</postal>
</address>
</author>
<author initials="T." surname="Mrugalski" fullname="Tomasz Mrugalski">
<organization abbrev="ISC">Internet Systems Consortium,
Inc.
</organization>
<address>
<postal>
<street>950 Charter Street</street>
<city>Redwood City</city>
<region>CA</region>
<code>94063</code>
</postal>
<phone>+1 650 423 1345</phone>
<email>Tomasz_Mrugalski@isc.org</email>
</address>
</author>
<date day="04" month="January" year="2012"/>
<keyword>ISC</keyword>
<keyword>DHCP</keyword>
<keyword>Reference Implementation</keyword>
<abstract>
<t>This document describes a collection of reference material
to which ISC DHCP has been implemented as well as a more
complete listing of references for DHCP and DHCPv6 protocols.</t>
</abstract>
<note title="Copyright Notice">
<t>Copyright (c) 2006-2017 by Internet Systems
Consortium, Inc. ("ISC")</t>
<t>This Source Code Form is subject to the terms of the Mozilla Public
License, v. 2.0. If a copy of the MPL was not distributed with this
file, You can obtain one at http://mozilla.org/MPL/2.0/.
</t>
<t>THE SOFTWARE IS PROVIDED "AS IS" AND ISC DISCLAIMS ALL WARRANTIES
WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL ISC BE LIABLE FOR
ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT
OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.</t>
</note>
</front>
<middle>
<section title="Introduction">
<t>As a little historical anecdote, ISC DHCP once packaged all the
relevant RFCs and standards documents along with the software
package. Until one day when a voice was heard from one of the
many fine institutions that build and distribute this software...
they took issue with the IETF's copyright on the RFC's. It
seems the IETF's copyrights don't allow modification of RFC's
(except for translation purposes).</t>
<t>Our main purpose in providing the RFCs is to aid in
documentation, but since RFCs are now available widely from many
points of distribution on the Internet, there is no real need to
provide the documents themselves. So, this document has been
created in their stead, to list the various IETF RFCs one might
want to read, and to comment on how well (or poorly) we have
managed to implement them.</t>
</section>
<section title="Definition: Reference Implementation">
<t>ISC DHCP, much like its other cousins in ISC software, is
self-described as a 'Reference Implementation.' There has been
a great deal of confusion about this term. Some people seem to
think that this term applies to any software that once passed
a piece of reference material on its way to market (but may do
quite a lot of things that aren't described in any reference, or
may choose to ignore the reference it saw entirely). Other folks
get confused by the word 'reference' and understand that to mean
that there is some special status applied to the software - that
the software itself is the reference by which all other software
is measured. Something along the lines of being "The DHCP
Protocol's Reference Clock," it is supposed.</t>
<t>The truth is actually quite a lot simpler. Reference
implementations are software packages which were written
to behave precisely as appears in reference material. They
are written "to match reference."</t>
<t>If the software has a behaviour that manifests itself
externally (whether it be something as simple as the 'wire
format' or something higher level, such as a complicated
behaviour that arises from multiple message exchanges), that
behaviour must be found in a reference document.</t>
<t>Anything else is a bug, the only question is whether the
bug is in reference or software (failing to implement the
reference).</t>
<t>This means:</t>
<t>
<list style="symbols">
<t>To produce new externally-visible behaviour, one must first
provide a reference.</t>
<t>Before changing externally visible behaviour to work around
simple incompatibilities in any other implementation, one must
first provide a reference.</t>
</list>
</t>
<t>That is the lofty goal, at any rate. It's well understood that,
especially because the ISC DHCP Software package has not always been
held to this standard (but not entirely due to it), there are many
non-referenced behaviours within ISC DHCP.</t>
<t>The primary goal of reference implementation is to prove the
reference material. If the reference material is good, then you
should be able to sit down and write a program that implements the
reference, to the word, and come to an implementation that
is distinguishable from others in the details, but not in the
facts of operating the protocol. This means that there is no
need for 'special knowledge' to work around arcane problems that
were left undocumented. No secret handshakes need to be learned
to be imparted with the necessary "real documentation".</t>
<t>Also, by accepting only reference as the guidebook for ISC
DHCP's software implementation, anyone who can make an impact on
the color texture or form of that reference has a (somewhat
indirect) voice in ISC DHCP's software design. As the IETF RFC's
have been selected as the source of reference, that means everyone
on the Internet with the will to participate has a say.</t>
</section>
<section title="Low Layer References">
<t>It may surprise you to realize that ISC DHCP implements 802.1
'Ethernet' framing, Token Ring, and FDDI. In order to bridge the
gap there between these physical and DHCP layers, it must also
implement IP and UDP framing.</t>
<t>The reason for this stems from Unix systems' handling of BSD
sockets (the general way one might engage in transmission of UDP
packets) on unconfigured interfaces, or even the handling of
broadcast addressing on configured interfaces.</t>
<t>There are a few things that DHCP servers, relays, and clients all
need to do in order to speak the DHCP protocol in strict compliance
with <xref target="RFC2131"/>.
<list style="numbers">
<t>Transmit a UDP packet from IP:0.0.0.0 Ethernet:Self, destined to
IP:255.255.255.255 LinkLayer:Broadcast on an unconfigured (no IP
address yet) interface.</t>
<t>Receive a UDP packet from IP:remote-system LinkLayer:remote-system,
destined to IP:255.255.255.255 LinkLayer:Broadcast, again on an
unconfigured interface.</t>
<t>Transmit a UDP packet from IP:Self, Ethernet:Self, destined to
IP:remote-system LinkLayer:remote-system, without transmitting a
single ARP.</t>
<t>And of course the simple case, a regular IP unicast that is
routed via the usual means (so it may be direct to a local system,
with ARP providing the glue, or it may be to a remote system via
one or more routers as normal). In this case, the interfaces are
always configured.</t>
</list></t>
<t>The above isn't as simple as it sounds on a regular BSD socket.
Many unix implementations will transmit broadcasts not to
255.255.255.255, but to x.y.z.255 (where x.y.z is the system's local
subnet). Such packets are not received by several known DHCP client
implementations - and it's not their fault, <xref target="RFC2131"/>
very explicitly demands that these packets' IP destination
addresses be set to 255.255.255.255.</t>
<t>Receiving packets sent to 255.255.255.255 isn't a problem on most
modern unixes...so long as the interface is configured. When there
is no IPv4 address on the interface, things become much more murky.</t>
<t>So, for this convoluted and unfortunate state of affairs in the
unix systems of the day ISC DHCP was manufactured, in order to do
what it needs not only to implement the reference but to interoperate
with other implementations, the software must create some form of
raw socket to operate on.</t>
<t>What it actually does is create, for each interface detected on
the system, a Berkeley Packet Filter socket (or equivalent), and
program it with a filter that brings in only DHCP packets. A
"fallback" UDP Berkeley socket is generally also created, a single
one no matter how many interfaces. Should the software need to
transmit a contrived packet to the local network the packet is
formed piece by piece and transmitted via the BPF socket. Hence
the need to implement many forms of Link Layer framing and above.
The software gets away with not having to implement IP routing
tables as well by simply utilizing the aforementioned 'fallback'
UDP socket when unicasting between two configured systems is
needed.</t>
<t>Modern unixes have opened up some facilities that diminish how
much of this sort of nefarious kludgery is necessary, but have not
found the state of affairs absolutely resolved. In particular,
one might now unicast without ARP by inserting an entry into the
ARP cache prior to transmitting. Unconfigured interfaces remain
the sticking point, however...on virtually no modern unixes is
it possible to receive broadcast packets unless a local IPv4
address has been configured, unless it is done with raw sockets.</t>
<section title="Ethernet Protocol References">
<t>ISC DHCP Implements Ethernet Version 2 ("DIX"), which is a variant
of IEEE 802.2. No good reference of this framing is known to exist
at this time, but it is vaguely described in <xref target="RFC0894"/>
see the section titled "Packet format"), and
the following URL is also thought to be useful.</t>
<t><eref target="http://en.wikipedia.org/wiki/DIX_Ethernet">http://en.wikipedia.org/wiki/DIX_Ethernet</eref></t>
</section>
<section title="Token Ring Protocol References">
<t>IEEE 802.5 defines the Token Ring framing format used by ISC
DHCP.</t>
</section>
<section title="FDDI Protocol References">
<t><xref target="RFC1188"/> is the most helpful
reference ISC DHCP has used to form FDDI packets.</t>
</section>
<section title="Internet Protocol Version 4 References">
<t><xref target="RFC0760">RFC760</xref> fundamentally defines the
bare IPv4 protocol which ISC DHCP implements.</t>
</section>
<section title="Unicast Datagram Protocol References">
<t><xref target="RFC0768">RFC768</xref> defines the User Datagram
Protocol that ultimately carries the DHCP or BOOTP protocol. The
destination DHCP server port is 67, the client port is 68. Source
ports are irrelevant.</t>
</section>
</section>
<section title="BOOTP Protocol References">
<t>The DHCP Protocol is strange among protocols in that it is
grafted over the top of another protocol - BOOTP (but we don't
call it "DHCP over BOOTP" like we do, say "TCP over IP"). BOOTP
and DHCP share UDP packet formats - DHCP is merely a conventional
use of both BOOTP header fields and the trailing 'options' space.</t>
<t>The ISC DHCP server supports BOOTP clients conforming to
<xref target="RFC0951">RFC951</xref> and <xref target="RFC1542">
RFC1542</xref>.</t>
</section>
<section title="DHCPv4 Protocol References">
<section title="DHCPv4 Protocol">
<t>"The DHCP[v4] Protocol" is not defined in a single document. The
following collection of references of what ISC DHCP terms "The
DHCPv4 Protocol".</t>
<section title="Core Protocol References">
<t><xref target="RFC2131">RFC2131</xref> defines the protocol format
and procedures. ISC DHCP is not known to diverge from this document
in any way. There are, however, a few points on which different
implementations have arisen out of vagueries in the document.
DHCP Clients exist which, at one time, present themselves as using
a Client Identifier Option which is equal to the client's hardware
address. Later, the client transmits DHCP packets with no Client
Identifier Option present - essentially identifying themselves using
the hardware address. Some DHCP Servers have been developed which
identify this client as a single client. ISC has interpreted
RFC2131 to indicate that these clients must be treated as two
separate entities (and hence two, separate addresses). Client
behaviour (Embedded Windows products) has developed that relies on
the former implementation, and hence is incompatible with the
latter. Also, RFC2131 demands explicitly that some header fields
be zeroed upon certain message types. The ISC DHCP Server instead
copies many of these fields from the packet received from the client
or relay, which may not be zero. It is not known if there is a good
reason for this that has not been documented.</t>
<t><xref target="RFC2132">RFC2132</xref> defines the initial set of
DHCP Options and provides a great deal of guidance on how to go about
formatting and processing options. The document unfortunately
waffles to a great extent about the NULL termination of DHCP Options,
and some DHCP Clients (Windows 95) have been implemented that rely
upon DHCP Options containing text strings to be NULL-terminated (or
else they crash). So, ISC DHCP detects if clients null-terminate the
host-name option and, if so, null terminates any text options it
transmits to the client. It also removes NULL termination from any
known text option it receives prior to any other processing.</t>
</section>
</section>
<section title="DHCPv4 Option References">
<t><xref target="RFC2241">RFC2241</xref> defines options for
Novell Directory Services.</t>
<t><xref target="RFC2242">RFC2242</xref> defines an encapsulated
option space for NWIP configuration.</t>
<t><xref target="RFC2485">RFC2485</xref> defines the Open Group's
UAP option.</t>
<t><xref target="RFC2610">RFC2610</xref> defines options for
the Service Location Protocol (SLP).</t>
<t><xref target="RFC2937">RFC2937</xref> defines the Name Service
Search Option (not to be confused with the domain-search option).
The Name Service Search Option allows eg nsswitch.conf to be
reconfigured via dhcp. The ISC DHCP server implements this option,
and the ISC DHCP client is compatible...but does not by default
install this option's value. One would need to make their relevant
dhclient-script process this option in a way that is suitable for
the system.</t>
<t><xref target="RFC3004">RFC3004</xref> defines the User-Class
option. Note carefully that ISC DHCP currently does not implement
to this reference, but has (inexplicably) selected an incompatible
format: a plain text string.</t>
<t><xref target="RFC3011">RFC3011</xref> defines the Subnet-Selection
plain DHCPv4 option. Do not confuse this option with the relay agent
"link selection" sub-option, although their behaviour is
similar.</t>
<t><xref target="RFC3396">RFC3396</xref> documents both how long
options may be encoded in DHCPv4 packets, and also how multiple
instances of the same option code within a DHCPv4 packet will be
decoded by receivers.</t>
<t><xref target="RFC3397">RFC3397</xref> documents the Domain-Search
Option, which allows the configuration of the /etc/resolv.conf
'search' parameter in a way that is <xref target="RFC1035">RFC1035
</xref> wire format compatible (in fact, it uses the RFC1035 wire
format). ISC DHCP has both client and server support, and supports
RFC1035 name compression.</t>
<t><xref target="RFC3679">RFC3679</xref> documents a number of
options that were documented earlier in history, but were not
made use of.</t>
<t><xref target="RFC3925">RFC3925</xref> documents a pair of
Enterprise-ID delimited option spaces for vendors to use in order
to inform servers of their "vendor class" (sort of like 'uname'
or 'who and what am I'), and a means to deliver vendor-specific
and vendor-documented option codes and values.</t>
<t><xref target="RFC3942">RFC3942</xref> redefined the 'site local'
option space.</t>
<t><xref target="RFC4280" /> defines two BCMS server options
for each protocol family.</t>
<t><xref target="RFC4388">RFC4388</xref> defined the DHCPv4
LEASEQUERY message type and a number of suitable response messages,
for the purpose of sharing information about DHCP served addresses
and clients.</t>
<section title="Relay Agent Information Option Options">
<t><xref target="RFC3046">RFC3046</xref> defines the Relay Agent
Information Option and provides a number of sub-option
definitions.</t>
<t><xref target="RFC3256">RFC3256</xref> defines the DOCSIS Device
Class sub-option.</t>
<t><xref target="RFC3527">RFC3527</xref> defines the Link Selection
sub-option.</t>
</section>
<section title="Dynamic DNS Updates References">
<t>The collection of documents that describe the standards-based
method to update dns names of DHCP clients starts most easily
with <xref target="RFC4703">RFC4703</xref> to define the overall
architecture, travels through RFCs <xref target="RFC4702">4702</xref>
and <xref target="RFC4704">4704</xref> to describe the DHCPv4 and
DHCPv6 FQDN options (to carry the client name), and ends up at
<xref target="RFC4701">RFC4701</xref> which describes the DHCID
RR used in DNS to perform a kind of atomic locking.</t>
<t>ISC DHCP adopted early versions of these documents, and has not
yet synchronized with the final standards versions.</t>
<t>For RFCs 4702 and 4704, the 'N' bit is not yet supported. The
result is that it is always set zero, and is ignored if set.</t>
<t>For RFC4701, which is used to match client identities with names
in the DNS as part of name conflict resolution. Note that ISC DHCP's
implementation of DHCIDs vary wildly from this specification.
First, ISC DHCP uses a TXT record in which the contents are stored
in hexadecimal. Second, there is a flaw in the selection of the
'Identifier Type', which results in a completely different value
being selected than was defined in an older revision of this
document...also this field is one byte prior to hexadecimal
encoding rather than two. Third, ISC DHCP does not use a digest
type code. Rather, all values for such TXT records are reached
via an MD5 sum. In short, nothing is compatible, but the
principle of the TXT record is the same as the standard DHCID
record. However, for DHCPv6 FQDN, we do use DHCID type code '2',
as no other value really makes sense in our context.</t>
</section>
<section title="Experimental: Failover References">
<t>The Failover Protocol defines means by which two DHCP Servers
can share all the relevant information about leases granted to
DHCP clients on given networks, so that one of the two servers may
fail and be survived by a server that can act responsibly.</t>
<t>Unfortunately it has been quite some years (2003) since the last
time this document was edited, and the authors no longer show any
interest in fielding comments or improving the document.</t>
<t>The status of this protocol is very unsure, but ISC's
implementation of it has proven stable and suitable for use in
sizable production environments.</t>
<t><xref target="draft-failover">draft-ietf-dhc-failover-12.txt</xref>
describes the Failover Protocol. In addition to what is described
in this document, ISC DHCP has elected to make some experimental
changes that may be revoked in a future version of ISC DHCP (if the
draft authors do not adopt the new behaviour). Specifically, ISC
DHCP's POOLREQ behaviour differs substantially from what is
documented in the draft, and the server also implements a form of
'MAC Address Affinity' which is not described in the failover
document. The full nature of these changes have been described on
the IETF DHC WG mailing list (which has archives), and also in ISC
DHCP's manual pages. Also note that although this document
references a RECOVER-WAIT state, it does not document a protocol
number assignment for this state. As a consequence, ISC DHCP has
elected to use the value 254.</t>
<t> An optimization described in the failover protocol draft
is included since 4.2.0a1. It permits a DHCP server
operating in communications-interrupted state to 'rewind' a
lease to the state most recently transmitted to its peer,
greatly increasing a server's endurance in
communications-interrupted. This is supported using a new
'rewind state' record on the dhcpd.leases entry for each
lease.
</t>
<t><xref target="RFC3074" /> describes the Load Balancing
Algorithm (LBA) that ISC DHCP uses in concert with the Failover
protocol. Note that versions 3.0.* are known to misimplement the
hash algorithm (it will only use the low 4 bits of every byte of
the hash bucket array).</t>
</section>
</section>
<section title="DHCP Procedures">
<t><xref target="RFC2939" /> explains how to go about
obtaining a new DHCP Option code assignment.</t>
</section>
</section>
<section title="DHCPv6 Protocol References">
<section title="DHCPv6 Protocol References">
<t>For now there is only one document that specifies the base
of the DHCPv6 protocol (there have been no updates yet),
<xref target="RFC3315"/>.</t>
<t>Support for DHCPv6 was first added in version 4.0.0. The server
and client support only IA_NA. While the server does support multiple
IA_NAs within one packet from the client, our client only supports
sending one. There is no relay support.</t>
<t>DHCPv6 introduces some new and uncomfortable ideas to the common
software library.</t>
<t>
<list style="numbers">
<t>Options sometimes may appear multiple times. The common
library used to treat all appearance of multiple options as
specified in RFC2131 - to be concatenated. DHCPv6 options
may sometimes appear multiple times (such as with IA_NA or
IAADDR), but often must not. As of 4.2.1-P1, multiple IA_NA, IA_PD
or IA_TA are not supported.</t>
<t>The same option space appears in DHCPv6 packets multiple times.
If the packet was got via a relay, then the client's packet is
stored to an option within the relay's packet...if there were two
relays, this recurses. At each of these steps, the root "DHCPv6
option space" is used. Further, a client packet may contain an
IA_NA, which may contain an IAADDR - but really, in an abstract
sense, this is again re-encapsulation of the DHCPv6 option space
beneath options it also contains.</t>
</list>
</t>
<t>Precisely how to correctly support the above conundrums has not
quite yet been settled, so support is incomplete.</t>
<t><xref target="RFC5453"/> creates a registry at IANA to reserve
interface identifiers and specifies a starting set. These IIDs should
not be used when constructing addresses to avoid possible conflicts.</t>
</section>
<section title="DHCPv6 Options References">
<t><xref target="RFC3319"/> defines the SIP server
options for DHCPv6.</t>
<t><xref target="RFC3646"/> documents the DHCPv6
name-servers and domain-search options.</t>
<t><xref target="RFC3633"/> documents the Identity
Association Prefix Delegation for DHCPv6, which is included
here for protocol wire reference, but which is not supported
by ISC DHCP.</t>
<t><xref target="RFC3898"/> documents four NIS options
for delivering NIS servers and domain information in DHCPv6.</t>
<t><xref target="RFC4075"/> defines the DHCPv6 SNTP
Servers option.</t>
<t><xref target="RFC4242"/> defines the Information
Refresh Time option, which advises DHCPv6 Information-Request
clients to return for updated information.</t>
<t><xref target="RFC4280"/> defines two BCMS server options
for each protocol family.</t>
<t><xref target="RFC4580"/> defines a DHCPv6
subscriber-id option, which is similar in principle to the DHCPv4
relay agent option of the same name.</t>
<t><xref target="RFC4649"/> defines a DHCPv6 remote-id
option, which is similar in principle to the DHCPv4 relay agent
remote-id.</t>
</section>
</section>
</middle>
<back>
<references title="Published DHCPv4 References">
&rfc760;
&rfc768;
&rfc894;
&rfc951;
&rfc1035;
&rfc1188;
&rfc1542;
&rfc2131;
&rfc2132;
&rfc2241;
&rfc2242;
&rfc2485;
<?rfc include='http://xml.resource.org/public/rfc/bibxml/reference.RFC.2563'?>
&rfc2610;
<?rfc include='http://xml.resource.org/public/rfc/bibxml/reference.RFC.2855'?>
&rfc2937;
&rfc2939;
&rfc3004;
&rfc3011;
&rfc3046;
&rfc3074;
<?rfc include='http://xml.resource.org/public/rfc/bibxml/reference.RFC.3118'?>
<?rfc include='http://xml.resource.org/public/rfc/bibxml/reference.RFC.3203'?>
&rfc3256;
<?rfc include='http://xml.resource.org/public/rfc/bibxml/reference.RFC.3361'?>
&rfc3396;
&rfc3397;
<?rfc include='http://xml.resource.org/public/rfc/bibxml/reference.RFC.3442'?>
<?rfc include='http://xml.resource.org/public/rfc/bibxml/reference.RFC.3456'?>
<?rfc include='http://xml.resource.org/public/rfc/bibxml/reference.RFC.3495'?>
&rfc3527;
<?rfc include='http://xml.resource.org/public/rfc/bibxml/reference.RFC.3594'?>
<?rfc include='http://xml.resource.org/public/rfc/bibxml/reference.RFC.3634'?>
&rfc3679;
<?rfc include='http://xml.resource.org/public/rfc/bibxml/reference.RFC.3825'?>
&rfc3925;
&rfc3942;
<?rfc include='http://xml.resource.org/public/rfc/bibxml/reference.RFC.3993'?>
<?rfc include='http://xml.resource.org/public/rfc/bibxml/reference.RFC.4014'?>
<?rfc include='http://xml.resource.org/public/rfc/bibxml/reference.RFC.4030'?>
<?rfc include='http://xml.resource.org/public/rfc/bibxml/reference.RFC.4039'?>
<?rfc include='http://xml.resource.org/public/rfc/bibxml/reference.RFC.4174'?>
<?rfc include='http://xml.resource.org/public/rfc/bibxml/reference.RFC.4243'?>
&rfc4361;
&rfc4388;
<?rfc include='http://xml.resource.org/public/rfc/bibxml/reference.RFC.4390'?>
<?rfc include='http://xml.resource.org/public/rfc/bibxml/reference.RFC.4436'?>
<?rfc include='http://xml.resource.org/public/rfc/bibxml/reference.RFC.4701'?>
<?rfc include='http://xml.resource.org/public/rfc/bibxml/reference.RFC.4702'?>
<?rfc include='http://xml.resource.org/public/rfc/bibxml/reference.RFC.4703'?>
<?rfc include='http://xml.resource.org/public/rfc/bibxml/reference.RFC.5010'?>
<?rfc include='http://xml.resource.org/public/rfc/bibxml/reference.RFC.5071'?>
<?rfc include='http://xml.resource.org/public/rfc/bibxml/reference.RFC.5107'?>
<?rfc include='http://xml.resource.org/public/rfc/bibxml/reference.RFC.5192'?>
<?rfc include='http://xml.resource.org/public/rfc/bibxml/reference.RFC.5223'?>
<?rfc include='http://xml.resource.org/public/rfc/bibxml/reference.RFC.5859'?>
<?rfc include='http://xml.resource.org/public/rfc/bibxml/reference.RFC.5969'?>
<reference anchor='draft-failover'>
<front>
<title>DHCP Failover Protocol</title>
<author initials='R.' surname='Droms' fullname='Ralph Droms'>
<organization abbrev='Cisco'>Cisco Systems</organization>
</author>
<date month='March' year='2003'/>
</front>
<format type="TXT" octets="312151" target="https://www.isc.org/sw/dhcp/drafts/draft-ietf-dhc-failover-12.txt"/>
</reference>
<?rfc include='http://xml.resource.org/public/rfc/bibxml3/reference.I-D.draft-ietf-dhc-dhcpv4-relay-encapsulation-00.xml'?>
<?rfc include='http://xml.resource.org/public/rfc/bibxml3/reference.I-D.draft-ietf-dhc-dhcpv4-bulk-leasequery-03.xml'?>
<?rfc include='http://xml.resource.org/public/rfc/bibxml3/reference.I-D.draft-ietf-dhc-leasequery-by-remote-id-09.xml'?>
<?rfc include='http://xml.resource.org/public/rfc/bibxml3/reference.I-D.draft-ietf-dhc-relay-id-suboption-07.xml'?>
<?rfc include='http://xml.resource.org/public/rfc/bibxml3/reference.I-D.draft-ietf-mip6-hiopt-17.xml'?>
</references>
<references title="Published Common (DHCPv4/DHCPv6) References">
<?rfc include='http://xml.resource.org/public/rfc/bibxml/reference.RFC.4280'?>
<?rfc include='http://xml.resource.org/public/rfc/bibxml/reference.RFC.4477'?>
<?rfc include='http://xml.resource.org/public/rfc/bibxml/reference.RFC.4578'?>
<?rfc include='http://xml.resource.org/public/rfc/bibxml/reference.RFC.4776'?>
<?rfc include='http://xml.resource.org/public/rfc/bibxml/reference.RFC.4833'?>
<?rfc include='http://xml.resource.org/public/rfc/bibxml/reference.RFC.5417'?>
<?rfc include='http://xml.resource.org/public/rfc/bibxml/reference.RFC.5678'?>
<?rfc include='http://xml.resource.org/public/rfc/bibxml/reference.RFC.5908'?>
<?rfc include='http://xml.resource.org/public/rfc/bibxml/reference.RFC.5970'?>
<?rfc include='http://xml.resource.org/public/rfc/bibxml/reference.RFC.5986'?>
<?rfc include='http://xml.resource.org/public/rfc/bibxml3/reference.I-D.draft-ietf-dhc-vpn-option-12.xml'?>
</references>
<references title="Published DHCPv6 References">
&rfc3315;
&rfc3319;
&rfc3633;
&rfc3646;
<?rfc include='http://xml.resource.org/public/rfc/bibxml/reference.RFC.3736'?>
&rfc3898;
&rfc4075;
<?rfc include='http://xml.resource.org/public/rfc/bibxml/reference.RFC.4076'?>
&rfc4242;
&rfc4580;
&rfc4649;
<?rfc include='http://xml.resource.org/public/rfc/bibxml/reference.RFC.4704'?>
<?rfc include='http://xml.resource.org/public/rfc/bibxml/reference.RFC.4994'?>
<?rfc include='http://xml.resource.org/public/rfc/bibxml/reference.RFC.5007'?>
<?rfc include='http://xml.resource.org/public/rfc/bibxml/reference.RFC.5453'?>
<?rfc include='http://xml.resource.org/public/rfc/bibxml/reference.RFC.5460'?>
<?rfc include='http://xml.resource.org/public/rfc/bibxml3/reference.I-D.ietf-mif-dhcpv6-route-option'?>
<?rfc include='http://xml.resource.org/public/rfc/bibxml3/reference.I-D.ietf-dhc-dhcpv6-ldra'?>
<?rfc include='http://xml.resource.org/public/rfc/bibxml3/reference.I-D.ietf-dhc-dhcpv6-relay-supplied-options'?>
<?rfc include='http://xml.resource.org/public/rfc/bibxml3/reference.I-D.draft-ietf-dhc-pd-exclude-01.xml'?>
<?rfc include='http://xml.resource.org/public/rfc/bibxml3/reference.I-D.draft-ietf-dhc-secure-dhcpv6-02.xml'?>
<?rfc include='http://xml.resource.org/public/rfc/bibxml3/reference.I-D.ietf-mext-nemo-pd'?>
<?rfc include='http://xml.resource.org/public/rfc/bibxml3/reference.I-D.draft-ietf-dhc-duid-uuid-03.xml'?>
<?rfc include='http://xml.resource.org/public/rfc/bibxml3/reference.I-D.draft-ietf-softwire-ds-lite-tunnel-option-10.xml'?>
<?rfc include='http://xml.resource.org/public/rfc/bibxml3/reference.I-D.draft-ietf-mif-dns-server-selection-01.xml'?>
<?rfc include='http://xml.resource.org/public/rfc/bibxml3/reference.I-D.draft-ietf-geopriv-rfc3825bis-17.xml'?>
<reference anchor='draft-addr-params'>
<front>
<title>Address Parameters Option for DHCPv6</title>
<author initials='T.' surname='Mrugalski' fullname='Mrugalski'>
<organization abbrev='Cisco'>Gdansk University of Technology</organization>
</author>
<date month='April' year='2007'/>
</front>
<format type="TXT" target="http://klub.com.pl/dhcpv6/doc/draft-mrugalski-addropts-XX-2007-04-17.txt"/>
</reference>
</references>
</back>
</rfc>
|