DHCPv4 over DHCPv6 Source Address OptionDeutsche Telekom AGCTO-ATI, Landgrabenweg 151BonnNRW53227Germanyian.farrer@telekom.deTsinghua UniversityBeijing100084P.R. China+86-10-6278-5822sunqi.csnet.thu@gmail.comTsinghua UniversityBeijing100084P.R. China+86-10-6260-3059yong@csnet1.cs.tsinghua.edu.cn
Internet
Softwire WGDHCPv4 over DHCPv6 describes a mechanism for
dynamically configuring IPv4 over an IPv6-only network. For DHCPv4 over
DHCPv6 to function with some IPv4-over-IPv6 softwire mechanisms and
deployment scenarios, the operator must learn the /128 IPv6 address that
the client will use as the source of IPv4-in-IPv6 tunnel. This address,
in conjunction with the IPv4 address and the Port Set ID allocated to
the DHCP 4o6 client are used to create a binding table entry in the
softwire tunnel concentrator. This memo defines two DHCPv6 options used
to communicate the source tunnel IPv6 address between the DHCP 4o6 client
and server. It also describes a method for configuring the client
with the IPv6 address of the border router so that the softwire can
be established. It is designed to work in conjunction with the IPv4
address allocation process.Deterministic IPv4-over-IPv6 transition technologies require
that elements are pre-configured with binding rules for routing traffic
to clients. This places a constraint on the location of the
client's tunnel endpoint: The tunnel endpoint has to be a pre-determined
prefix which is usually be configured on the home gateway device.
describes a DHCPv6 based mechanism for
provisioning such deterministic softwires.A dynamic provisioning model, such as using DHCPv4
over DHCPv6 allows much more flexibility in
the location of the IPv4-over-IPv6 tunnel endpoint, as the IPv6 address
is dynamically signalled back to the service provider so that the
corresponding tunnel configuration in the border router (BR) can be
created. The DHCP 4o6 client and tunnel client could be run on end
devices attached to any routable IPv6 prefix allocated to an end-user,
located anywhere within an arbitrary home network topology. Dynamic
allocation also helps to optimize IPv4 resource usage as only clients
which are currently active are allocated IPv4 addresses.This document describes a mechanism for provisioning dynamically
created softwires using DHCPv4 over DHCPv4 (DHCP 4o6), including
proivisioning the client with the address of the softwire border
router (BR) and informing the service provider of client's binding
between the dynamically allocated IPv4 address and Port Set ID
and the IPv6 address that the softwire Initiator will use for
accessing IPv4-over-IPv6 services.It is used with DHCP 4o6 message flows to communicate the binding
over the IPv6-only network. The service provider can then use this
binding information to provision other functional elements in their
network accordingly, e.g. using the client's binding information to
synchronise the binding table in the border router.The mechanism described in this document is only suitable for use for
provisioning softwire clients via DHCP 4o6. The options described here are only
applicable within the DHCP 4o6 message exchange process. Current
mechanisms suitable for extending to incorporate DHCPv4 over DHCPv6
with dynamic IPv4 address leasing include
and
.The key words "MUST", "MUST NOT", "REQUIRED", "SHALL", "SHALL NOT",
"SHOULD", "SHOULD NOT", "RECOMMENDED", "MAY", and "OPTIONAL" in this
document are to be interpreted as described in RFC 2119.The solution in this document is intended for the dynamic establishment
of IPv4-over-IPv6 softwires. DHCP 4o6 supports
dynamically allocating (shared) IPv4 address. For a softwire to be successfully
created, the IPv4 address has to be linked to the client's IPv6 tunnel source
address. Within this process, the DHCP 4o6 client uses a
DHCPv6 option to signal its tunnel source IPv6 address to the DHCP
4o6 server so that the operator's provisioning system can create the binding
and configure the tunnel concentrator accordingly.Two new DHCPv6 options are defined in this memo: OPTION_DHCP4O6_SADDR_HINT
and OPTION_DHCP4O6_SADDR. They are intended to be used alongside the
normal DHCPv4 IPv4 address allocation message flow in the context of
DHCPv4 over DHCPv6 . If a DHCP 4o6 client supports
this mechanism, it MUST include the code of OPTION_DHCP4O6_SADDR_HINT
in the Option Request Option (ORO) when requesting
IPv4 configuration through DHCP 4o6.The communication of parameters between the client and server is a
two-way process: OPTION_DHCP4O6_SADDR_HINT is optionally used by
the DHCP 4o6 server to indicate to the client a preferred IPv6 prefix for
binding the received IPv4 configuration and sourcing tunnel traffic.
This may be necessary if there are multiple IPv6 prefixes in use in the
customer network (e.g. ULAs), or if the specific IPv4-over-IPv6 transition
mechanism requires the use of a particular prefix for any reason. When the
client has selected an IPv6 address to bind the IPv4 configuration to, it
passes the address back to the DHCP 4o6 server using
OPTION_DHCP4O6_SADDR.To configure a softwire, the initiator also requires the IPv6 address of the
BR. Section 4.2 of defines option 90 (OPTION_S46_BR)
for this purpose, but mandates that the option can only be used when
when encapsulated within one of the softwire container options:
OPTION_S46_CONT_MAPE, OPTION_S46_CONT_MAPT or OPTION_S46_CONT_LW. From
Section 3 of :"Softwire46 DHCPv6 clients that receive provisioning options that
are not encapsulated in container options MUST silently ignore these
options."This document updates to remove this restriction
for DHCPv6 option 90 (OPTION_S46_BR) allowing it to appear directly
within the list of options in the client's ORO request and directly within
subsequent messages sent by the DHCPv6 server.The following diagram shows the client/server message flow and how
the options defined in this document are used. In each step, the
relevant DHCPv4 message is given above the arrow and the relevant
options below the arrow. The DHCPv4 messages are encapsulated in
DHCPv4-query or DHCPv4-response messages, and those options are included
in the 'options' field of the DHCPv4-query or DHCPv4-response message.A client attempting dynamic softwire configuration includes the
option code for OPTION_BR_PREFIX, OPTION_DHCP4O6_SADDR_HINT in the
DHCPv6 ORO in all DHCPv4-query messages it sends.When a DHCP 4o6 Server replies with a DHCPOFFER message, it SHOULD include
OPTION_S46_BR. It MAY also include OPTION_DHCP4O6_SADDR_HINT, which is
used to indicate a preferred prefix that the client should use to bind IPv4
configuration to. If this option is received, the client MUST perform a
longest prefix match between cipv6-prefix-hint and all prefixes/addresses
in use on the device. If a match is found, the selected prefix MUST then be
used to bind the received IPv4 configuration to and source the tunnel
from. If no match is found, or the client doesn't receive
OPTION_DHCP4O6_SADDR_HINT the client MAY select any valid IPv6
address to use as the tunnel source.OPTION_DHCP4O6_SADDR is used by the client to inform the DHCP 4o6 Server
which IPv6 address the IPv4 configuration has been bound to. The client MUST
put the selected IPv6 address into this option and include it
in the DHCPv4-response message when it sends the DHCPREQUEST message.option-code: OPTION_DHCP4O6_SADDR_HINT (TBA1)option-length: 1 + length of cipv6-prefix-hint, specified in bytes.cipv6-hintlen: 8-bit field expressing the bit mask length of the
IPv6 prefix specified in cipv6-prefix-hint.cipv6-prefix-hint: The IPv6 prefix indicating the preferred
prefix for the client to bind the received IPv4 configuration
to.The format of DHCPv4 over DHCPv6 Source address option is defined
as follows:option-code: OPTION_DHCP4O6_SADDR (TBA2)option-length: 16.cipv6-src-address: The IPv6 address that the client has bound
the allocated IPv4 configuration to.TBDIANA is requested to allocate the DHCPv6 option codes:
OPTION_DHCP4O6_SADDR_HINT and OPTION_DHCP4O6_SADDR.The authors would like to thank Ted Lemon and Lishan Li for their
contributions.