Dynamic Host Configuration C. Porfiri
Internet-Draft Ericsson
Intended status: Standards Track S. Krishnan
Expires: 15 February 2026 Cisco
J. Arkko
M. Kühlewind
Ericsson
14 August 2025
DHCPv4-over-DHCPv6 with Relay Agent Support
draft-ietf-dhc-dhcpv4-over-dhcpv6-ra-05
Abstract
This document describes a mechanism for networks with legacy
IPv4-only clients to use services provided by DHCPv4-over-DHCPv6 in a
Relay Agent. RFC7341 specifies use of DHCPv4-over-DHCPv6 in the
client only. This document specifies a RFC7341-based approach that
allows a Relay Agent to implement the DHCP 4o6 encapsulation and
decapsulation of DHCPv4 messages in DHCPv6 messages on behalf of a
DHCPv4 client.
About This Document
This note is to be removed before publishing as an RFC.
Status information for this document may be found at
https://datatracker.ietf.org/doc/draft-ietf-dhc-dhcpv4-over-
dhcpv6-ra/.
Source for this draft and an issue tracker can be found at
https://github.com/mirjak/draft-dhc-dhcpv4-over-dhcpv6-ra.
Status of This Memo
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This Internet-Draft will expire on 15 February 2026.
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Table of Contents
1. Introduction . . . . . . . . . . . . . . . . . . . . . . . . 2
1.1. Applicability Scope . . . . . . . . . . . . . . . . . . . 3
2. Conventions and Definitions . . . . . . . . . . . . . . . . . 3
3. DHCPv4 over DHCPv6 Relay Agent (4o6RA) . . . . . . . . . . . 4
3.1. Intermediate relays . . . . . . . . . . . . . . . . . . . 5
3.2. 4o6RA and Topology Discovery . . . . . . . . . . . . . . 5
4. Deployment Considerations . . . . . . . . . . . . . . . . . . 7
5. Security Considerations . . . . . . . . . . . . . . . . . . . 8
6. IANA Considerations . . . . . . . . . . . . . . . . . . . . . 8
7. References . . . . . . . . . . . . . . . . . . . . . . . . . 8
7.1. Normative References . . . . . . . . . . . . . . . . . . 8
7.2. Informative References . . . . . . . . . . . . . . . . . 9
Appendix A. Example Use Case: Topology Discovery for IPv4-only
Radio Unit in 3GPP RAN with Switched Fronthaul . . . . . 9
Acknowledgments . . . . . . . . . . . . . . . . . . . . . . . . . 11
Authors' Addresses . . . . . . . . . . . . . . . . . . . . . . . 11
1. Introduction
[RFC7341] describes a transport mechanism for carrying DHCPv4
[RFC2131] messages using DHCPv6 [draft-ietf-dhc-rfc8415bis] for
dynamic provisioning of IPv4 addresses and other DHCPv4 specific
configuration parameters across IPv6-only networks. The deployment
of [RFC7341] requires support in DHCP clients and at the DHCPv6
server. However, if a client is embedded in a host that only
supports IPv4 and cannot easily be replaced or updated (which could
be due to any number of technical or business reasons), this approach
does not work.
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Similarly, the specifications for DHCPv6 Relay Agents such as
Lightweight DHCPv6 Relay Agent (LDRA) [RFC6221] or DHCPv6 Relay Agent
(L3RA) [draft-ietf-dhc-rfc8415bis] do not foresee the possibility to
handle legacy DHCPv4, other than implementing DHCP 4o6 in the client.
This document specifies an [RFC7341] based solution that can be
implemented in intermediate nodes such as switches or routers,
without putting any requirements on clients. No new protocols or
extensions are needed; instead, this document specifies an amendment
to [RFC7341] that allows a Relay Agent to perform the DHCP 4o6
encapsulation and decapsulation instead of the client.
1.1. Applicability Scope
The mechanisms described in this document apply to the configuration
phase of hosts that need to receive an IPv4 address but a DHCP server
for IPv4 [RFC2131] is not reachable directly from the host.
Furthermore, the host is unable to implement a DHCP client conformant
to [RFC7341] as it is connected to an IPv4-only network. But there
is a DHCPv6 server that can provide IPv4 addresses by means of the
mechanisms specified in [RFC7341].
2. Conventions and Definitions
The following terms and acronyms are used in this document:
* DHCP: If not otherwise specified, DHCP refers to DHCPv4 and/or
DHCPv6.
* DHCPv4: DHCP as defined in [RFC2131].
* DHCPv4 over DHCPv6 (or 4o6): The architecture, the procedures, and
the protocols specified in the DHCPv4-over-DHCPv6 document
[RFC7341].
* DHCP Relay Agent: This is a concept in all of the following
protocols, although the details differ between them: BOOTP
[RFC951] [RFC1542], DHCPv4 [RFC2131] [RFC2132], and DHCPv6
[draft-ietf-dhc-rfc8415bis].
* Lightweight DHCPv6 Relay Agent (or LDRA): This is an extension of
the original DHCPv6 Relay Agent specification, to allow layer-
2-only devices to perform a Relay Agent function [RFC6221].
* DHCPv4 over DHCPv6 Relay Agent (or 4o6RA): Refers to a Relay Agent
that implements the 4o6 transport as specified in this document.
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The key words "MUST", "MUST NOT", "REQUIRED", "SHALL", "SHALL NOT",
"SHOULD", "SHOULD NOT", "RECOMMENDED", "NOT RECOMMENDED", "MAY", and
"OPTIONAL" in this document are to be interpreted as described in
BCP 14 [RFC2119] [RFC8174] when, and only when, they appear in all
capitals, as shown here.
3. DHCPv4 over DHCPv6 Relay Agent (4o6RA)
This document assumes a network, where IPv4-only hosts are connected
to a network that supports IPv6 and limited IPv4 services.
To address such a network setup, this document extends DHCPv6 Relay
Agents with DHCPv4-over-DHCPv6, as shown in Figure 1.
.-----------. .-----------.
| | | |
+--------+-+ L2 +-+-----------+-+ IPv6 +-+--------+
| DHCPv4 | Network | DHCPv6 | Network | DHCP 4o6 |
| Client +---------+ Relay Agent +---------+ Server |
| | | with 4o6RA | | |
+--------+-+ +-+-----------+-+ +-+--------+
| | | |
'-----------' '-----------'
Figure 1: Architecture Example with Legacy DHCP Client
This document specifies the encapsulation and decapsulation specified
in [RFC7341] to be performed in the Relay Agent without requiring any
changes on the DHCPv4 client. In this case it is up to the Relay
Agent to provide the full DHCP 4o6 support and the legacy DHCPv4
client is not aware that it is being served via a DHCP 4o6 service.
As the 4o6RA acts as a DHCP 4o6 client, all prerequisites and
configuration that apply to the DHCP client in Section 5 of [RFC7341]
are also applied to the 4o6RA.
As the 4o6RA takes the role of the client in respect to [RFC7341], it
is responsible for determining a suitable interface where it acts as
a DHCPv6 client, and it is responsible for locating a suitable DHCPv6
server or relay agent and obtain the necessary IPv6 configuration..
As specified in [RFC7341], the 4o6RA, acting as 4o6 client, therefore
has to request the DHCP 4o6 Server Address option from the server by
sending the Option Request option as described in
[draft-ietf-dhc-rfc8415bis] before it can use the 4o6 transport.
To maintain interoperability with existing DHCPv6 relays and servers,
the message format is unchanged from [draft-ietf-dhc-rfc8415bis].
The 4o6RA implements the same message types as a DHCPv6 Relay Agent
Section 6 of [RFC7341].
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However, in this specification, the 4o6RA, instead of the client,
creates the DHCPV4-QUERY Message and encapsulates the DHCP request
message received from the legacy DHCPv4 client.
When DHCPV4-RESPONSE Message is received by the 4o6 Relay Agent, it
looks for the DHCPv4 Message option within this message. If this
option is not found or the DHCPv4-RESPONSE message is not well-
formed, it MUST be discarded. If the DHCPv4 Message option is
present, the 4o6RA MUST extract the DHCPv4 message and forward the
encapsulated DHCPv4-response to the requesting DHCPv4 client, given
that the encapsulated DHCPv4-response is correct and can be actually
forwarded.
Layer-2 Relay Agents receiving DHCPV4-QUERY or DHCPV4-RESPONSE
messages MUST handle them as specified in Section 6 of [RFC6221].
In any given environment, DHCPv6 servers to which DHCPV4-QUERY
requests are routed are expected to be compliant with 4o6 according
to [RFC7341]. No additional requirements on DHCPv6 servers are set
by this specification.
3.1. Intermediate relays
Intermediate relays shall behave according to section 10 of
[RFC7341].
3.2. 4o6RA and Topology Discovery
In some networks the configuration of a host may depend on the
topology. However, when the new host attaches to a network, it may
be unaware of the topology and respectively how it has to be
configured.
DHCPv4 [RFC2131] and DHCPv6 [draft-ietf-dhc-rfc8415bis]
specifications describe how addresses can be allocated to clients
based on network topology information provided by a DHCP relay,
typically.
Address/prefix allocation decisions are integral to the allocation of
addresses and prefixes in DHCP, as described in detail in [RFC7969].
This specification aims to guarantee that the 4o6RA does not break
any legacy capability when used for topology discovery.
Topology discovery as described in [RFC7969] differs between IPv4 and
IPv6:
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* IPv4: when using DHCP on IPv4 only the first Relay Agent SHOULD
set the giaddr field (section 3.1 of [RFC7969]). Thus, in a
network that has more than one Relay Agent only part of the
topology is transported via DHCPv4.
* IPv6: when using DHCPv6, all Relay Agents SHOULD send link-address
and Interface-ID options, that provide information about the
complete path between the DHCPv6 client and the DHCPv6 server to
the DHCPv6 server.
In Layer-2 networks, Lightweight DHCPv6 Relay Agents [RFC6221] can be
used.
When provided, the topology information is available at the DHCPv6
server in form of sequence of the link-address field and Interface-ID
option.
Then, topology information for the given IP address can be obtained
from the DHCPv6 server and used for configuration or other purposes.
[RFC7341] enables the client to use DHCPv6 for topology discovery
even within an DHCPv4 context, as the DHCPv6 Relay Agent knows the
interface where the encapsulated DHCP request is received. As shown
in Figure 2, the introduction of 4o6 at the edge of the IPv6 network,
however, hides the Layer-2 network from the DHCPv6 RA. As such,
moving 4o6 in a intermediate node rather than performing it at the
client, breaks the topology propagation as 4o6RA-only does not
provide any interface information in the encapsulated message.
.-----------------. .-------------------------.
| L2 Network | | IPv6 Network |
+--------+-+ +---------+ +-+---+---+ +--------+ +-+--------+
| DHCPv4 | | L2 | | 4o6 | | DHCPv6 | | DHCP 4o6 |
| Client +--+ Switch +--+ Relay +----+ Relay +-------+ Server |
| | | | | Agent | | Agent | | |
+--------+-+ +---------+ +-+---+---+ +--------+ +-+--------+
| | | |
'-----------------' '-------------------------'
Figure 2: Broken topology information
In order to provide full topology information, it is RECOMMENDED that
any implementation of 4o6RA be combined with an implementation of an
LDRA [RFC6221] in a back-to-back structure, and that the LDRA
implementation has a mechanism to get interface information that can
be used to provide the Interface-ID option to outgoing DHCPV4-QUERY
messages, as specified in Section 5.3.2 of [RFC6221].
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The internal mechanisms to exchange interface information, their
format and whether the interface information contains an indication
that a 4o6RA is involved are out of the scope for this document.
The resulting architecture is shown in Figure 3 where the Relay Agent
is implementing 4o6RA and LDRA, and has an internal interface to
propagate topology information from 4o6RA to LDRA.
.-----------------. .------------------------.
| L2 Network or | | IPv6 Network |
| IPv6-only link | | |
+--------+-+ +---------+ +-+---+--+---------+ +------+---+
| DHCPv4 | | L2 | | 4o6 | LDRA | | DHCP 4o6 |
| Client +--+ Switch +--+ Relay + RFC6221 +------+ Server |
| | | | | Agent | | | |
+--------+-+ +---------+ +-+---+--+---------+ +------+---+
| | | |
'-----------------' '------------------------'
Figure 3: Topology information preserved with LDRA
In a simple case, where the same node hosts the 4o6RA and the DHCP4o6
server, it might be enough to only use 4o6RA, as shown in Figure 4.
.-----------.
| L2 Network |
+--------+-+ +-+------+----------+
| DHCP | | 4o6 | DHCP 4o6 |
| Client +---------+ Relay + Server |
| on CPE | | Agent | |
+--------+-+ +-+------+----------+
| |
'-----------'
Figure 4: Topology information preserved by 4o6 Relay Agent in
DHCP server
4. Deployment Considerations
As clients are not aware of the presence of 4o6RA, the network
deployment needs to ensure that all DHCPv4 broadcast and unicast
messages from and to clients are steered via a 4o6RA. This can be
achieved by placing the 4o6RA in a central position that can observe
all traffic from the clients or use Network Address Translation (NAT)
with the 4o6RA address for unicast messages.
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5. Security Considerations
This document specifies the applicability of 4o6 DHCP in a scenario
where legacy IPv4 clients are connected to 4o6 DHCP Relay Agents that
perform the encapsulation and decapsulation. This document does not
change anything else in the 4o6 DHCP specification and therefore the
security considerations of [RFC7341] still apply.
The mechanisms defined here differ from [RFC7341] as they allow the
DHCP client to send and receive DHCPv4 messages, whereas in [RFC7341]
the client only sends DHCPv6 messages. This makes it possible that
in improperly configured networks where the client is located on the
same Layer-2 scope of a DHCPv4 server, DHCPv4 messages could reach a
DHCPv4 server without using the 4o6RA. While this can cause
erroneous state in both clients and servers and potentially even lead
to misconfigurations that impact reachability, this is seen as a
deployment error rather than a security concern. Further, even
though this mechanism may be used for attacks from within the
network, this is not a new concern introduced by this specification.
More generally, legacy IPv4 clients are not aware of this mechanism,
however, even when DHCP 4o6 is used, the client does not have any
control about the information provided by the Relay agent. As such
this change does not raise any additional security concerns.
6. IANA Considerations
This document has no IANA actions.
7. References
7.1. Normative References
[draft-ietf-dhc-rfc8415bis]
"Dynamic Host Configuration Protocol for IPv6 (DHCPv6)",
June 2025, .
[RFC2119] Bradner, S., "Key words for use in RFCs to Indicate
Requirement Levels", BCP 14, RFC 2119,
DOI 10.17487/RFC2119, March 1997,
.
[RFC6221] Miles, D., Ed., Ooghe, S., Dec, W., Krishnan, S., and A.
Kavanagh, "Lightweight DHCPv6 Relay Agent", RFC 6221,
DOI 10.17487/RFC6221, May 2011,
.
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[RFC7341] Sun, Q., Cui, Y., Siodelski, M., Krishnan, S., and I.
Farrer, "DHCPv4-over-DHCPv6 (DHCP 4o6) Transport",
RFC 7341, DOI 10.17487/RFC7341, August 2014,
.
[RFC8174] Leiba, B., "Ambiguity of Uppercase vs Lowercase in RFC
2119 Key Words", BCP 14, RFC 8174, DOI 10.17487/RFC8174,
May 2017, .
7.2. Informative References
[RFC1542] Wimer, W., "Clarifications and Extensions for the
Bootstrap Protocol", RFC 1542, DOI 10.17487/RFC1542,
October 1993, .
[RFC2131] Droms, R., "Dynamic Host Configuration Protocol",
RFC 2131, DOI 10.17487/RFC2131, March 1997,
.
[RFC2132] Alexander, S. and R. Droms, "DHCP Options and BOOTP Vendor
Extensions", RFC 2132, DOI 10.17487/RFC2132, March 1997,
.
[RFC7969] Lemon, T. and T. Mrugalski, "Customizing DHCP
Configuration on the Basis of Network Topology", RFC 7969,
DOI 10.17487/RFC7969, October 2016,
.
[RFC951] Croft, W. and J. Gilmore, "Bootstrap Protocol", RFC 951,
DOI 10.17487/RFC0951, September 1985,
.
Appendix A. Example Use Case: Topology Discovery for IPv4-only Radio
Unit in 3GPP RAN with Switched Fronthaul
In 3GPP mobile network architecture, the User Equipments (UE) are
connected via Radio Access Network (RAN). RAN is built up with
Baseband Units (BB) and Radio Units (RU). Radio Fronthaul Network
(FH) connects RU and BB, each of RU and BB is an IP host, they may
support IPv4 only, IPv6 only or both depending on the vendor and the
model. Each RU is unique as it is tied to a set of antennas, and
each antenna is serving a specific Cell and Sector. Each RU is
configured by the BB depending on the Cell and Sectors it serves.
However, that dependency is only specified by the cabling between RU
and antennas. BB can be cabled to RU directly or via a Layer-2
switched network.
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+--------+
| RU2 +-----+
| | |
+--------+ |
|
+--------+ |
| RU3 | |
| +--+ | +-----------+
+--------+ | +--| |
+-----| Baseband |
| |
+--------+ +-----| Unit |
| RU4 +--+ +--| |
| | | +-----------+
+--------+ |
|
+--------+ |
| RU2 +-----+
| |
+--------+
Figure 5: 3GPP RAN where RU are cabled directly to BB
In Figure 5 BB is directly cabled to a set of RUs, the BB can
recognize the relationship between RUs and Cell/Sectors based on the
cabling between the RUs and antennas.
When BBs and RUs are connected via a Layer-2 switched network, the
added level of complexity requires the BBs to have a deeper knowledge
of the topology in order to properly configure the RUs, involving
knowledge of all the cabling in the switched network.
Examples for switched networks are shown in section 3 of [RFC7969]
and demonstrate the different levels of complexity. An example of a
FH is depicted in Figure 6.
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+--------+
| RU1 | P1 +-+------+ | |
| +--------| | L2RA | | +----+------+ |
+--------+ | +------+ | | | L3RA | |
| L2 | +--| +------+ |
+--------+ P2 | switch | | | | |
| RU2 +--------| #1 +-----| | Router +----|
| | +--------+ | +-----------+ | +---------+
+--------+ | | | |
| +--| DHCP |
+--------+ | | | Server |
| RU3 | P1 +-+------+ | | | #1 |
| +--------| | L2RA | | +-----------+ | +---------+
+--------+ | +------+ | | | |
| L2 | +--| Baseband | |
+--------+ P2 | switch | | | Unit | |
| RU4 +--------| #2 +-----| | +----|
| | +--------+ | +-----------+ |
+--------+ | |
Figure 6: 3GPP RAN with Layer-2 Switched Fronthaul Example
If IPv6 is used and all RU are capable of DHCPv6 in Figure 6, DHCP
topology knowledge can be used for solving the RU configuration
problem. Such solution would use the topology discovery mechanisms
described in section 3.2 of [RFC7969].
If RU are capable of IPv4 only but implement a 4o6 client according
to [RFC7341], the same topology discovery mechanisms are applicable.
If RU are capable of IPV4 only and cannot implement a 4o6 client
according to [RFC7341], the topology discovery mechanisms described
in section 3.2 of [RFC7969] can be used by introducing 4o6RA in the
switches as decribed in this document.
Acknowledgments
The authors would also like to acknowledge interesting discussions in
this problem space with Sarah Gannon, Ines Ramadza, and Siddharth
Sharma as well as reviews and comments provided by Eric Vyncke,
Mohamed Boucadair, David Lamparter, Michael Richardson, Alan DeKok
and Dale Worley.
Authors' Addresses
Claudio Porfiri
Ericsson
Email: claudio.porfiri@ericsson.com
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Suresh Krishnan
Cisco
Email: suresh.krishnan@gmail.com
Jari Arkko
Ericsson
Email: jari.arkko@ericsson.com
Mirja Kühlewind
Ericsson
Email: mirja.kuehlewind@ericsson.com
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