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+Internet Engineering Task Force (IETF) K. Kinnear
+Request for Comments: 6607 R. Johnson
+Updates: 3046 M. Stapp
+Category: Standards Track Cisco Systems
+ISSN: 2070-1721 April 2012
+
+
+ Virtual Subnet Selection Options for DHCPv4 and DHCPv6
+
+Abstract
+
+ This memo defines a DHCPv4 Virtual Subnet Selection (VSS) option, a
+ DHCPv6 VSS option, and the DHCPv4 VSS and VSS-Control sub-options
+ carried in the DHCPv4 Relay Agent Information option. These are
+ intended for use by DHCP clients, relay agents, and proxy clients in
+ situations where VSS information needs to be passed to the DHCP
+ server for proper address or prefix allocation to take place.
+
+ For the DHCPv4 option and Relay Agent Information sub-options, this
+ memo documents and extends existing usage as per RFC 3942. This memo
+ updates RFC 3046 regarding details relating to the copying of sub-
+ options (see Section 8).
+
+Status of This Memo
+
+ This is an Internet Standards Track document.
+
+ This document is a product of the Internet Engineering Task Force
+ (IETF). It represents the consensus of the IETF community. It has
+ received public review and has been approved for publication by the
+ Internet Engineering Steering Group (IESG). Further information on
+ Internet Standards is available in Section 2 of RFC 5741.
+
+ Information about the current status of this document, any errata,
+ and how to provide feedback on it may be obtained at
+ http://www.rfc-editor.org/info/rfc6607.
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+Kinnear, et al. Standards Track [Page 1]
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+RFC 6607 Virtual Subnet Selection Options April 2012
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+Copyright Notice
+
+ Copyright (c) 2012 IETF Trust and the persons identified as the
+ document authors. All rights reserved.
+
+ This document is subject to BCP 78 and the IETF Trust's Legal
+ Provisions Relating to IETF Documents
+ (http://trustee.ietf.org/license-info) in effect on the date of
+ publication of this document. Please review these documents
+ carefully, as they describe your rights and restrictions with respect
+ to this document. Code Components extracted from this document must
+ include Simplified BSD License text as described in Section 4.e of
+ the Trust Legal Provisions and are provided without warranty as
+ described in the Simplified BSD License.
+
+ This document may contain material from IETF Documents or IETF
+ Contributions published or made publicly available before November
+ 10, 2008. The person(s) controlling the copyright in some of this
+ material may not have granted the IETF Trust the right to allow
+ modifications of such material outside the IETF Standards Process.
+ Without obtaining an adequate license from the person(s) controlling
+ the copyright in such materials, this document may not be modified
+ outside the IETF Standards Process, and derivative works of it may
+ not be created outside the IETF Standards Process, except to format
+ it for publication as an RFC or to translate it into languages other
+ than English.
+
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+Kinnear, et al. Standards Track [Page 2]
+
+RFC 6607 Virtual Subnet Selection Options April 2012
+
+
+Table of Contents
+
+ 1. Introduction ....................................................3
+ 2. Terminology .....................................................4
+ 3. Virtual Subnet Selection Options and Sub-Options: Definitions ...6
+ 3.1. DHCPv4 Virtual Subnet Selection Option .....................6
+ 3.2. DHCPv4 Virtual Subnet Selection Sub-Option .................6
+ 3.3. DHCPv4 Virtual Subnet Selection Control Sub-Option .........7
+ 3.4. DHCPv6 Virtual Subnet Selection Option .....................7
+ 3.5. Virtual Subnet Selection Type and Information ..............8
+ 4. Overview of Virtual Subnet Selection Usage ......................8
+ 4.1. VPN Assignment by the DHCP Relay Agent .....................9
+ 4.2. VPN Assignment by the DHCP Server .........................12
+ 4.3. Required Support ..........................................14
+ 4.4. Alternative VPN Assignment Approaches .....................14
+ 5. Relay Agent Behavior ...........................................15
+ 5.1. VPN Assignment by the DHCP Server .........................16
+ 5.2. DHCP Leasequery ...........................................17
+ 6. Client Behavior ................................................17
+ 7. Server Behavior ................................................19
+ 7.1. Returning the DHCPv4 or DHCPv6 Option .....................20
+ 7.2. Returning the DHCPv4 Sub-Option ...........................20
+ 7.3. Making Sense of Conflicting VSS Information ...............21
+ 8. Update to RFC 3046 .............................................22
+ 9. Security Considerations ........................................22
+ 10. IANA Considerations ...........................................23
+ 11. Acknowledgments ...............................................24
+ 12. References ....................................................25
+ 12.1. Normative References .....................................25
+ 12.2. Informative References ...................................25
+
+1. Introduction
+
+ There is a growing use of Virtual Private Network (VPN)
+ configurations. This growth comes from many areas: individual client
+ systems needing to appear to be on the home corporate network even
+ when traveling, ISPs providing extranet connectivity for customer
+ companies, etc. In some of these cases, there is a need for the DHCP
+ server to know the VPN (also called a "Virtual Subnet Selector" or
+ "VSS" in this document) from which an address, and other resources,
+ should be allocated.
+
+ This memo defines a DHCPv4 Virtual Subnet Selection (VSS) option, a
+ DHCPv6 VSS option, and two VSS sub-options carried in the DHCPv4
+ Relay Agent Information option. These are intended for use by DHCP
+ clients, relay agents, and proxy clients in situations where VSS
+ information needs to be passed to the DHCP server for proper address
+ or prefix allocation to take place. If the receiving DHCP server
+
+
+
+Kinnear, et al. Standards Track [Page 3]
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+RFC 6607 Virtual Subnet Selection Options April 2012
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+
+ understands the VSS option or sub-options, this information may be
+ used in conjunction with other information in determining the subnet
+ on which to select an address, as well as other information such as
+ DNS server, default router, etc.
+
+ If the allocation is being done through a DHCPv4 relay, then the
+ Relay Agent Information sub-options defined here should be included.
+ In some cases, however, an IP address is being sought by a DHCPv4
+ proxy on behalf of a client (which may be assigned the address via a
+ different protocol). In this case, there is a need to include VSS
+ information relating to the client as a DHCPv4 option.
+
+ If the allocation is being done through a DHCPv6 relay, then the
+ DHCPv6 VSS option defined in this document should be included in the
+ Relay-forward and Relay-reply messages going between the DHCPv6 relay
+ and server. In some cases, addresses or prefixes are being sought by
+ a DHCPv6 proxy on behalf of a client. In this case, there is a need
+ for the client itself to supply the VSS information using the DHCPv6
+ VSS option in the messages that it sends to the DHCPv6 server.
+
+ In the remaining text of this document, when a DHCPv6 address is
+ indicated, the same information applies to DHCPv6 prefix delegation
+ [RFC3633] as well.
+
+ In the remaining text of this document, when the term "VSS
+ sub-option" is used, it refers to the VSS sub-option carried in the
+ DHCPv4 Relay Agent Information option.
+
+2. Terminology
+
+ The key words "MUST", "MUST NOT", "REQUIRED", "SHALL", "SHALL NOT",
+ "SHOULD", "SHOULD NOT", "RECOMMENDED", "MAY", and "OPTIONAL" in this
+ document are to be interpreted as described in RFC 2119 [RFC2119].
+
+ This document uses the following terms:
+
+ o DHCP client
+
+ A DHCP client is a host using DHCP to obtain configuration
+ parameters such as a network address.
+
+ o DHCP proxy
+
+ A DHCP proxy is a DHCP client that acquires IP addresses not for
+ its own use but rather on behalf of another entity. There are a
+ variety of ways that a DHCP proxy can supply the addresses it
+ acquires to other entities that need them.
+
+
+
+
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+ o DHCP relay agent
+
+ A DHCP relay agent is an agent that transfers BOOTP and DHCP
+ messages between clients and servers residing on different
+ subnets, per [RFC951], [RFC1542], and [RFC3315].
+
+ o DHCP server
+
+ A DHCP server is a host that returns configuration parameters to
+ DHCP clients.
+
+ o DHCPv4 option
+
+ A DHCPv4 option is an option used to implement a capability
+ defined by the DHCPv4 RFCs ([RFC2131] [RFC2132]). This option has
+ one-octet code and size fields.
+
+ o DHCPv4 sub-option
+
+ As used in this document, a DHCPv4 sub-option refers to a
+ sub-option of the Relay Agent Information option [RFC3046]. This
+ sub-option has one-octet code and size fields.
+
+ o DHCPv6 option
+
+ A DHCPv6 option is an option used to implement a capability
+ defined by the DHCPv6 RFC [RFC3315]. This option has two-octet
+ code and size fields.
+
+ o Global VPN
+
+ This term indicates that the address being described belongs to
+ the set of addresses not part of any VPN -- in other words, the
+ normal address space operated on by DHCP. This includes private
+ addresses -- for example, the 10.x.x.x addresses as well as the
+ other private subnets that are not routed on the open Internet.
+
+ o NVT ASCII identifier
+
+ A Network Virtual Terminal (NVT) identifier is an identifier
+ containing only characters from the ASCII repertoire and using the
+ Network Virtual Terminal encoding (see Appendix B of [RFC5198]).
+
+ o VSS information
+
+ VSS information provides information about a VPN necessary to
+ allocate an address to a DHCP client on that VPN and necessary to
+ forward a DHCP reply packet to a DHCP client on that VPN.
+
+
+
+Kinnear, et al. Standards Track [Page 5]
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+RFC 6607 Virtual Subnet Selection Options April 2012
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+ o VPN
+
+ This term refers to a virtual private network. A VPN appears to
+ the client to be a private network.
+
+ o VPN identifier
+
+ The VPN-ID is defined by [RFC2685] to be a sequence of 7 octets.
+
+3. Virtual Subnet Selection Options and Sub-Options: Definitions
+
+ The VSS options and sub-options contain a generalized way to specify
+ the VSS information about a VPN. There are two options and two
+ sub-options defined in this section. The actual VSS information is
+ identical for both options and for one of the two sub-options.
+
+3.1. DHCPv4 Virtual Subnet Selection Option
+
+ The format of the option is shown below.
+
+ 0 1 2 3
+ 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1
+ +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
+ | Code | Length | Type | VSS Info. ...
+ +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
+
+ Code The option code (221).
+
+ Length The option length, minimum 1 octet.
+
+ Type and VSS Information -- see Section 3.5.
+
+3.2. DHCPv4 Virtual Subnet Selection Sub-Option
+
+ This is a sub-option of the Relay Agent Information option [RFC3046].
+ The format of the sub-option is shown below.
+
+ 0 1 2 3
+ 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1
+ +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
+ | Code | Length | Type | VSS Info. ...
+ +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
+
+ Code The sub-option code (151).
+
+ Length The sub-option length, minimum 1 octet.
+
+ Type and VSS Information -- see Section 3.5.
+
+
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+3.3. DHCPv4 Virtual Subnet Selection Control Sub-Option
+
+ This is a sub-option of the Relay Agent Information option [RFC3046].
+ The format of the sub-option is shown below.
+
+ 0 1
+ 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5
+ +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
+ | Code | Length |
+ +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
+
+ Code The sub-option code (152).
+
+ Length The sub-option length, 0.
+
+ This sub-option only appears in the DHCPv4 Relay Agent Information
+ option. In a DHCP request, it indicates that a DHCPv4 VSS sub-option
+ is also present in the Relay Agent Information option. In a DHCP
+ reply, if it appears in the Relay Agent Information option, it
+ indicates that the DHCP server did not understand any DHCPv4 VSS
+ sub-option that also appears in the Relay Agent Information option.
+
+3.4. DHCPv6 Virtual Subnet Selection Option
+
+ The format of the DHCPv6 VSS option is shown below. This option may
+ be included by a client or relay agent (or both).
+
+ 0 1 2 3
+ 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1
+ +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
+ | OPTION_VSS | option-len |
+ +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
+ | Type | VSS Information ... |
+ +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
+
+ option-code OPTION_VSS (68).
+
+ option-len The number of octets in the option, minimum 1.
+
+ Type and VSS Information -- see Section 3.5.
+
+
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+3.5. Virtual Subnet Selection Type and Information
+
+ All of the (sub-)options defined above that carry VSS information use
+ identical payloads consisting of a Type value and additional VSS
+ information, as follows:
+
+ Type VSS Information Format
+ ------------------------------------------------------------
+ 0 Network Virtual Terminal (NVT) ASCII VPN identifier
+ 1 RFC 2685 VPN-ID
+ 2-254 Unassigned
+ 255 Global, default VPN
+
+ o Type 0 -- Network Virtual Terminal (NVT) ASCII VPN identifier
+
+ Indicates that the VSS information consists of an NVT ASCII
+ string. It MUST NOT be terminated with a zero byte.
+
+ o Type 1 -- RFC 2685 VPN-ID
+
+ Indicates that the VSS information consists of an RFC 2685 VPN-ID
+ [RFC2685], which is defined to be 7 octets in length.
+
+ o Type 255 -- Global, default VPN
+
+ Indicates that there is no explicit, non-default VSS information
+ but rather that this option references the normal, global, default
+ address space. In this case, there MUST NOT be any VSS
+ information included in the VSS option or sub-option, and the
+ length of the option or sub-option MUST be 1.
+
+ All other values of the Type field are unassigned.
+
+4. Overview of Virtual Subnet Selection Usage
+
+ At the highest level, the VSS option or sub-option determines the VPN
+ on which a DHCP client is supposed to receive an IP address. How the
+ option or sub-option is entered and processed is discussed below, but
+ the point of all of the discussion is to determine the VPN on which
+ the DHCP client resides. This will affect a relay agent, in that it
+ will have to ensure that DHCP packets sent to and received from the
+ DHCP client flow over the correct VPN. This will affect the DHCP
+ server in that it determines the IP address space used for the IP
+ address allocation.
+
+
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+ A DHCP server has as part of its configuration some IP address space
+ from which it allocates IP addresses to DHCP clients. These
+ allocations are typically for a limited time, and thus the DHCP
+ client gets a lease on the IP address. In the absence of any VPN
+ information, the IP address space is in the global or default VPN
+ used throughout the Internet. When a DHCP server deals with VPN
+ information, each VPN defines a new address space inside the server,
+ one distinct from the global or default IP address space. A server
+ that supports the VSS option or sub-option thereby supports
+ allocation of IP addresses from multiple different VPNs. Supporting
+ IP address allocation from multiple different VPNs means that the
+ DHCP server must be prepared to configure multiple different address
+ spaces (one per distinct VPN) and allocate IP addresses from these
+ different address spaces.
+
+ These address spaces are typically independent, so that the same IP
+ address (consisting of the same string of bytes) could be allocated
+ to one client in the global, default VPN, and to a different client
+ residing in a different VPN. There is no conflict in this
+ allocation, since the clients have essentially different addresses,
+ even though these addresses consist of the same string of bytes,
+ because the IPv4 or IPv6 address is qualified by the VPN.
+
+ Thus, a VSS option or sub-option is a way of signaling the use of a
+ VPN other than the global or default VPN. This brings up the
+ question of who decides what VPN a DHCP client should be using.
+
+ There are three entities that can insert either a VSS option or
+ sub-option into a DHCPv4 packet or DHCPv6 message: a DHCP client, a
+ relay agent, or a DHCPv4 or DHCPv6 server. While all of these
+ entities could include a different VSS option or sub-option in every
+ request or response, this situation is neither typical nor useful.
+ There are two known paradigms for use of the VSS option or
+ sub-option; these are discussed below.
+
+4.1. VPN Assignment by the DHCP Relay Agent
+
+ The typical use of the VSS option or sub-option is for the relay
+ agent to know the VPN on which the DHCP client is operating. The
+ DHCP client itself does not, in this approach, know the VPN on which
+ it resides. The relay agent is responsible for mediating the access
+ between the VPN on which the DHCP client resides and the DHCP server.
+ In this situation, the relay agent will insert two DHCPv4
+ Relay Agent Information sub-options (one VSS sub-option, and one
+ VSS-Control sub-option) into the Relay Agent Information option, or a
+ DHCPv6 VSS option into the Relay-forward message of every request it
+
+
+
+
+
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+ forwards from the DHCP client. The server will use the DHCPv6 VSS
+ option or DHCPv4 VSS sub-option to determine the VPN on which the
+ client resides and will use that VPN information to select the
+ address space within its configuration from which to allocate an IP
+ address to the DHCP client.
+
+ When, using this approach, a DHCPv4 relay agent inserts a VSS
+ sub-option into the Relay Agent Information option, it MUST also
+ insert a VSS-Control sub-option into the Relay Agent Information
+ option. This is to allow the determination of whether or not the
+ DHCPv4 server actually processes the VSS information provided by the
+ DHCPv4 relay agent. If the DHCPv4 server supports the VSS
+ capabilities described in this document, it will remove the
+ VSS-Control sub-option from the Relay Agent Information option that
+ it returns to the DHCPv4 relay agent. See Section 5 for more
+ information.
+
+ In this approach, the relay agent might also send a VSS option or
+ sub-option in either a DHCPv4 or DHCPv6 Leasequery request [RFC4388]
+ [RFC5007], but in this case, it would use the VSS option in the
+ Leasequery request to select the correct address space for the
+ Leasequery. In this approach, the relay agent would be acting as a
+ DHCP client from a leasequery standpoint, but it would not be as if a
+ DHCP client were sending in a VSS option in a standard DHCP address
+ allocation request, say a DHCPDISCOVER.
+
+ In this approach, only one relay agent would mediate the VPN access
+ for the DHCP client to the DHCP server, and it would be the relay
+ agent that inserts the VSS information into the request packet and
+ that would remove it prior to forwarding the response packet.
+
+
+
+
+
+
+
+
+
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+ The diagram below shows an example of a DHCPv4 client, DHCPv4 relay
+ agent, and DHCPv4 server. The DHCPv6 situation is similar but uses
+ the DHCPv6 VSS option.
+
+ DHCPv4
+ DHCPv4 Relay DHCPv4
+ Client Agent Server
+
+ | | |
+ | >--DHCPDISCOVER--> | |
+ | on VPN "abc" | |
+ | | >--DHCPDISCOVER----> |
+ | | Relay Agent Info: |
+ | | VSS type 0:"abc" |
+ | | VSS-Control |
+ | | |
+ | | <----DHCPOFFER-----< |
+ | | Relay Agent Info: |
+ | | VSS type 0:"abc" |
+ | | |
+ | <---DHCPOFFER----< | |
+ | on VPN "abc" | |
+ | | |
+ | >--DHCPREQUEST---> | |
+ | on VPN "abc" | |
+ | | >--DHCPREQUEST-----> |
+ | | Relay Agent Info: |
+ | | VSS type 0:"abc" |
+ | | VSS-Control |
+ | | |
+ | | <----DHCPACK-------< |
+ | | Relay Agent Info: |
+ | | VSS type 0:"abc" |
+ | | |
+ | <---DHCPACK------< | |
+ | on VPN "abc" | |
+ | | |
+ ... ... ...
+
+ Figure 4.1-1: DHCPv4 - Relay Agent Knows VPN
+
+ The DHCP server would know that it should respond to VPN information
+ specified in a VSS option or sub-option, and it would be configured
+ with appropriate VPN address spaces to service the projected client
+ requirements. Thus, in this common approach, the DHCP client knows
+ nothing of any VPN access, the relay agent has been configured in
+ some way that allows it to determine the VPN of the DHCP client and
+ transmit that using a VSS option or sub-option to the DHCP server,
+
+
+
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+ and the DHCP server responds to the VPN specified by the relay agent.
+ There is no conflict between different entities trying to specify
+ different VSS information -- each entity knows its role through
+ policy or configuration external to this document.
+
+ If any misconfiguration exists, it SHOULD result in a DHCP client
+ being unable to acquire an IP address. For instance, a relay agent
+ that supports VPN access SHOULD couple transmission of VSS options or
+ sub-options to the configuration of VPN support and not allow one
+ without the other.
+
+ It is important to ensure that the relay agent and DHCP server both
+ support the VSS option and sub-options (for DHCPv4) or the VSS option
+ (for DHCPv6). Deploying DHCPv4 relay agents that support and emit
+ VSS sub-options in concert with DHCPv4 servers that do not support
+ the VSS option or sub-option as defined in this document SHOULD NOT
+ be done, as such an ensemble will not operate correctly. Should this
+ situation occur, however, the relay agent can detect the problem
+ (since the VSS-Control sub-option will appear in the packets it
+ receives from the DHCPv4 server, indicating the server did not
+ effectively process the VSS sub-option), and it can issue appropriate
+ diagnostic messages.
+
+4.2. VPN Assignment by the DHCP Server
+
+ In this approach, the DHCP server would be configured in some way to
+ know the VPN on which a particular DHCP client should be given
+ access. The DHCP server would in this case include the VSS
+ sub-option in the Relay Agent Information option for DHCPv4 or the
+ VSS option in the Relay-reply message for DHCPv6. The relay agent
+ responsible for mediating VPN access would use this information to
+ select the correct VPN for the DHCP client. In the unusual event
+ that there were more than one relay agent involved in this
+ transaction, some external configuration or policy would be needed to
+ inform the DHCPv6 server into which Relay-reply message the VSS
+ option should go.
+
+ Once the relay agent has placed the DHCP client into the proper VPN,
+ it SHOULD begin including VSS information in requests that it
+ forwards to the DHCP server. Since this information does not
+ conflict with the DHCP server's idea of the proper VPN for the
+ client, everything works correctly.
+
+
+
+
+
+
+
+
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+
+ The diagram below shows this approach using DHCPv4. The DHCPv6
+ situation is similar but uses the DHCPv6 VSS option instead.
+
+ DHCPv4
+ DHCPv4 Relay DHCPv4
+ Client Agent Server
+
+ | | |
+ | >--DHCPDISCOVER--> | |
+ | on unknown VPN | |
+ | | >--DHCPDISCOVER----> |
+ | | |
+ | | <----DHCPOFFER-----< |
+ | | Relay Agent Info: |
+ | | VSS type 0:"abc" |
+ | | |
+ | <---DHCPOFFER----< | |
+ | on VPN "abc" | |
+ | | |
+ | >--DHCPREQUEST---> | |
+ | on VPN "abc" | |
+ | | >--DHCPREQUEST-----> |
+ | | Relay Agent Info: |
+ | | VSS type 0:"abc" |
+ | | VSS-Control |
+ | | |
+ | | <----DHCPACK-------< |
+ | | Relay Agent Info: |
+ | | VSS type 0:"abc" |
+ | | |
+ | <---DHCPACK------< | |
+ | on VPN "abc" | |
+ | | |
+ | | |
+ ... ... ...
+
+ Figure 4.2-1: DHCPv4 - DHCPv4 Server Knows VPN
+
+ In this approach, the DHCP client is again unaware of any VPN
+ activity. In this case, however, the DHCP server knows the VPN for
+ the client, and the relay agent responds to the VSS information
+ specified by the DHCP server. Similar to the previous approach, each
+ entity knows its role through a means external to this document, and
+ no two entities try to specify VSS information in conflict.
+
+
+
+
+
+
+
+Kinnear, et al. Standards Track [Page 13]
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+RFC 6607 Virtual Subnet Selection Options April 2012
+
+
+ It is important that both the relay agent and the DHCP server support
+ the VSS option and sub-options (for DHCPv4) and the VSS option (for
+ DHCPv6). Deploying and configuring VPN support in one element and
+ not in the other is not a practical approach.
+
+4.3. Required Support
+
+ DHCP relay agents and servers MUST support the approach discussed in
+ Section 4.1. DHCP relay agents and servers SHOULD support the
+ approach discussed in Section 4.2. DHCP relay agents and servers
+ SHOULD NOT be configured to operate with both approaches
+ simultaneously.
+
+4.4. Alternative VPN Assignment Approaches
+
+ There are many other approaches that can be created with multiple
+ relay agents each inserting VSS information into different
+ Relay-forward messages, relay agent VSS information conflicting with
+ client VSS information, or DHCP server VSS information conflicting
+ with relay agent and client VSS information. Since these approaches
+ do not describe situations that are useful today, specifying
+ precisely how to resolve all of these conflicts is not likely to be
+ valuable in the event that these approaches actually become practical
+ in the future.
+
+ The current use of the VSS option and sub-option requires that each
+ entity know the part that it plays in dealing with VPN data. Each
+ entity -- client, relay agent or agents, and server -- SHOULD know
+ through some policy or configuration beyond the scope of this
+ document whether it is responsible for specifying VPN information
+ using the VSS option or sub-option or responsible for responding to
+ VSS information specified by another entity, or whether it should
+ simply ignore any VSS information that it might see.
+
+ Some simple conflict-resolution approaches are discussed below, in
+ the hopes that they will cover simple cases that may arise from
+ situations beyond those envisioned today. However, for more complex
+ situations, or simple situations where appropriate conflict-
+ resolution strategies differ from those discussed in this document, a
+ document detailing the usage situations and appropriate conflict-
+ resolution strategies SHOULD be created and submitted for discussion
+ and approval.
+
+
+
+
+
+
+
+
+
+Kinnear, et al. Standards Track [Page 14]
+
+RFC 6607 Virtual Subnet Selection Options April 2012
+
+
+5. Relay Agent Behavior
+
+ Implementers MAY provide a policy or configuration capability to
+ enable or disable VSS support.
+
+ A relay agent that receives a DHCP request from a DHCP client on a
+ VPN SHOULD include VSS information in the DHCP packet prior to
+ forwarding the packet to the DHCP server unless inhibited from doing
+ so by configuration information or policy to the contrary.
+
+ In this situation, a DHCPv4 relay agent MUST include a DHCPv4 VSS
+ sub-option in a Relay Agent Information option [RFC3046], while a
+ DHCPv6 relay agent MUST include a DHCPv6 VSS option in the
+ Relay-forward message.
+
+ The value placed in the VSS sub-option or option would typically be
+ sufficient for the relay agent to properly route any DHCP reply
+ packet returned from the DHCP server to the DHCP client for which it
+ is destined. In some cases, the information in the VSS sub-option or
+ option might be an index to some internal table held in the relay
+ agent, though this document places no requirement on a relay agent to
+ have any such internal state.
+
+ A DHCPv4 relay agent MUST, in addition, include a DHCPv4 VSS-Control
+ sub-option (which has a length of zero) in the
+ Relay Agent Information option [RFC3046] whenever it includes a VSS
+ sub-option in the Relay Agent Information option. The inclusion of
+ the VSS sub-option and the VSS-Control sub-option in the
+ Relay Agent Information option will allow the DHCPv4 relay agent to
+ determine whether the DHCPv4 server actually processed the
+ information in the VSS sub-option when it receives the
+ Relay Agent Information option in the reply from the DHCPv4 server.
+
+ The reason to include this additional VSS DHCPv4 sub-option is that
+ [RFC3046] specifies (essentially) that a DHCPv4 server should copy
+ all sub-options that it receives in a Relay Agent Information option
+ in a request into a corresponding Relay Agent Information option in
+ the response. Thus, a server that didn't support the DHCPv4 VSS
+ sub-option would normally just copy it to the response packet,
+ leaving the relay agent to wonder if in fact the DHCPv4 server
+ actually used the VSS information when processing the request.
+
+ To alleviate this potential confusion, a DHCPv4 relay agent instead
+ sends in two sub-options: one VSS sub-option, and one VSS-Control
+ sub-option. If both sub-options appear in the response from the
+ DHCPv4 server, then the DHCPv4 relay agent MUST assume that the
+ DHCPv4 server did not act on the VSS information in the VSS
+ sub-option. If only the VSS sub-option appears in the response from
+
+
+
+Kinnear, et al. Standards Track [Page 15]
+
+RFC 6607 Virtual Subnet Selection Options April 2012
+
+
+ the DHCPv4 server and no VSS-Control sub-option appears in the
+ response from the DHCPv4 server, then the relay agent SHOULD assume
+ that the DHCPv4 server acted successfully on the VSS sub-option.
+
+ Any time a relay agent places a VSS option or sub-option in a DHCP
+ request, it SHOULD send it only to a DHCP server that supports the
+ VSS option or sub-option, and it MUST check the response to determine
+ if the DHCP server actually honored the requested VSS information.
+
+ In the DHCPv6 case, the appearance of the option in the Relay-reply
+ packet indicates that the DHCPv6 server understood and acted upon the
+ contents of the VSS option in the Relay-forward packet. In the
+ DHCPv4 case, as discussed above, the appearance of the VSS sub-option
+ without the appearance of a VSS-Control sub-option indicates that the
+ DHCPv4 server successfully acted upon the VSS sub-option.
+
+ This document does not create a requirement that a relay agent
+ remember the contents of a VSS DHCPv4 sub-option or VSS DHCPv6 option
+ sent to a DHCP server. In many cases, the relay agent may simply use
+ the value of the VSS option or sub-option returned by the DHCP server
+ to forward the response to the DHCP client. If the VSS information,
+ the IP address allocated, and the VPN capabilities of the relay agent
+ all interoperate correctly, then the DHCP client will receive a
+ working IP address. Alternatively, if any of these items don't
+ interoperate with the others, the DHCP client will not receive a
+ working address.
+
+ Note that in some environments a relay agent may choose to always
+ place a VSS option or sub-option into packets and messages that it
+ forwards in order to forestall any attempt by a relay agent closer to
+ the client or the client itself to specify VSS information. In this
+ case, a Type field of 255 is used to denote the global, default VPN.
+ When the Type field of 255 is used, there MUST NOT be any additional
+ VSS information in the VSS option or sub-option. In the DHCPv4 case,
+ an additional VSS-Control sub-option would be required, as discussed
+ above.
+
+5.1. VPN Assignment by the DHCP Server
+
+ In some cases, a DHCP server may use the VSS sub-option or option to
+ inform a relay agent that a particular DHCP client is associated with
+ a particular VPN. It does this by sending the VSS sub-option or
+ option with the appropriate information to the relay agent in the
+ Relay Agent Information option for DHCPv4 or the Relay-reply message
+ in DHCPv6. If the relay agent cannot respond correctly to the DHCP
+ server's requirement to place the DHCP client into that VPN (perhaps
+
+
+
+
+
+Kinnear, et al. Standards Track [Page 16]
+
+RFC 6607 Virtual Subnet Selection Options April 2012
+
+
+ because it has not been configured with a VPN that matches the VSS
+ information received from the DHCP server), it MUST drop the packet
+ and not send it to the DHCP client.
+
+ In this situation, once the relay agent has placed the DHCP client
+ into the VPN specified by the DHCP server, it will insert a VSS
+ option or sub-option when forwarding packets from the client. The
+ DHCP server in normal operation will echo this VSS information into
+ the outgoing replies.
+
+ In the event that the relay agent doesn't include VSS information on
+ subsequent requests after the DHCP server has included VSS
+ information in a reply to the relay agent, the DHCP server can
+ conclude that the relay agent doesn't support VSS processing, and the
+ DHCP server SHOULD stop processing this transaction and not respond
+ to the request.
+
+5.2. DHCP Leasequery
+
+ A relay agent sometimes needs to submit a DHCP Leasequery [RFC4388]
+ [RFC5007] packet to the DHCP server in order to recover information
+ about existing DHCP-allocated IP addresses on networks other than the
+ normal, global VPN. In the context of a DHCP Leasequery, the relay
+ agent is a direct client of the DHCP server and is not relaying a
+ packet for another DHCP client. Thus, the instructions in Section 6
+ ("Client Behavior") should be followed to include the necessary VSS
+ information.
+
+6. Client Behavior
+
+ Typically, DHCPv4 and DHCPv6 clients have no interaction with VSS
+ options or sub-options. The VSS information is handled by exchanges
+ between a DHCPv4 or DHCPv6 relay agent and the corresponding DHCPv4
+ or DHCPv6 server.
+
+ However, there are times when an entity is acting as a DHCPv4 or
+ DHCPv6 client in that it is communicating directly with a DHCPv4 or
+ DHCPv6 server. In these instances -- where communication is
+ occurring without employing the DHCPv4 Relay Agent Information option
+ or the DHCPv6 Relay-forward or Relay-reply messages -- the entity is
+ acting as a DHCPv4 or DHCPv6 client with regard to its communication
+ with the DHCPv4 or DHCPv6 server, but not necessarily as a DHCP
+ client that is requesting a DHCPv4 or DHCPv6 address for its own use.
+
+ The client, in this context, may be requesting an IP address for
+ another entity, thus acting as a DHCP proxy. The client may be
+ requesting information about another client-to-address binding, using
+ the DHCPv4 [RFC4388] or DHCPv6 [RFC5007] leasequery protocol.
+
+
+
+Kinnear, et al. Standards Track [Page 17]
+
+RFC 6607 Virtual Subnet Selection Options April 2012
+
+
+ In the rest of this section, the term "client" refers to an entity
+ communicating VSS information directly to a DHCPv4 or DHCPv6 server
+ without using the DHCPv4 Relay Agent Information option or the DHCPv6
+ Relay-forward or Relay-reply messages, and there is no requirement
+ that such a client be a traditional DHCPv4 or DHCPv6 client
+ requesting an IP address binding for itself.
+
+ DHCPv4 or DHCPv6 clients will employ the VSS option to communicate
+ VSS information to their respective servers. This information MUST
+ be included in every message concerning any IP address on a different
+ VPN than the global or default VPN. A DHCPv4 client will place the
+ DHCPv4 VSS option in its packets, and a DHCPv6 client will place the
+ DHCPv6 VSS option in its messages.
+
+ A DHCPv6 client that needs to place a VSS option into a DHCPv6
+ message SHOULD place a single VSS option into the DHCPv6 message at
+ the same level as the Client Identifier option. A DHCPv6 client MUST
+ NOT include different VSS options in the same DHCPv6 message.
+
+ Note that -- as mentioned in Section 1 -- throughout this document,
+ when a DHCPv6 address is indicated, the same information applies to
+ DHCPv6 prefix delegation [RFC3633] as well.
+
+ Since this option is placed in the packet in order to change the VPN
+ on which an IP address is allocated for a particular DHCP client, one
+ presumes that an allocation on that VPN is necessary for correct
+ operation. Thus, a client that places this option in a packet and
+ doesn't receive it or receives a different value in a returning
+ packet SHOULD drop the packet, since the IP address that was
+ allocated will not be in the requested VPN.
+
+ Clients should be aware that some DHCP servers will return a VSS
+ option with different values than the values sent by the client. In
+ addition, a client may receive a response from a DHCP server with a
+ VSS option when none was sent by the client.
+
+ Note that when sending a DHCP Leasequery request, a relay agent is
+ acting as a DHCP client, and so it SHOULD include the respective
+ DHCPv4 or DHCPv6 VSS option in its DHCPv4 or DHCPv6 Leasequery packet
+ if the DHCP Leasequery request is generated for other than the
+ default, global VPN. It SHOULD NOT include a DHCPv4 sub-option in
+ this case.
+
+
+
+
+
+
+
+
+
+Kinnear, et al. Standards Track [Page 18]
+
+RFC 6607 Virtual Subnet Selection Options April 2012
+
+
+7. Server Behavior
+
+ A DHCP server receiving the VSS option or sub-option SHOULD allocate
+ an IP address (or use the VSS information to access an already
+ allocated IP address) from the VPN specified by the included VSS
+ information.
+
+ In the case where the Type field of the VSS option or sub-option is
+ 255, the VSS option denotes the global, default VPN. In this case,
+ there is no explicit VSS information beyond the Type field.
+
+ This document does not prescribe any particular address allocation
+ policy. A DHCP server may choose to attempt to allocate an address
+ using the VSS information and, if this is impossible, to not allocate
+ an address. Alternatively, a DHCP server may choose to attempt
+ address allocation based on the VSS information and, if that is not
+ possible, it may fall back to allocating an address on the global or
+ default VPN. This, of course, is also the apparent behavior of any
+ DHCP server that doesn't implement support for the VSS option and
+ sub-option. Thus, DHCP clients and relay agents SHOULD be prepared
+ for either of these alternatives.
+
+ In some cases, a DHCP server may use the VSS sub-option or option to
+ inform a relay agent that a particular DHCP client is associated with
+ a particular VPN. It does this by sending the VSS sub-option or
+ option with the appropriate information to the relay agent in the
+ Relay Agent Information option for DHCPv4 or the Relay-reply message
+ in DHCPv6.
+
+ In this situation, the relay agent will place the client in the
+ proper VPN, and then it will insert a VSS option or sub-option in
+ subsequent forwarded requests. The DHCP server will see this VSS
+ information, and since it doesn't conflict in any way with the
+ server's notion of the VPN on which the client is supposed to reside,
+ it will process the requests based on the VPN specified in the VSS
+ option or sub-option, and echo the same VSS information in the
+ outgoing replies.
+
+ The relay agent receiving a reply containing a VSS option should
+ support the VSS option. Otherwise, the relay agent will end up
+ attempting to use the address as though it were a global address.
+ Should this happen, the subsequent DHCPREQUEST will not contain any
+ VSS information, in which case the DHCP server SHOULD NOT respond
+ with a DHCPACK.
+
+
+
+
+
+
+
+Kinnear, et al. Standards Track [Page 19]
+
+RFC 6607 Virtual Subnet Selection Options April 2012
+
+
+ If a server uses a different VPN than what was specified in the VSS
+ option or sub-option, it SHOULD send back the VPN information using
+ the same type as the received type. It MAY send back a different
+ type if it is not possible to use the same type (such as the RFC2685
+ VPN-ID if no ASCII VPN identifier exists).
+
+ A server that receives a VSS sub-option in the DHCPv4
+ Relay Agent Information option and does not receive a VSS-Control
+ sub-option in the Relay Agent Information option MUST process the
+ information specified in the VSS sub-option in the same fashion as it
+ would have if it received both sub-options.
+
+7.1. Returning the DHCPv4 or DHCPv6 Option
+
+ DHCPv4 or DHCPv6 servers receiving a VSS option (for sub-option
+ processing, see below) MUST return an instance of this option in the
+ reply packet or message if the server successfully uses this option
+ to allocate an IP address, and it MUST NOT include an instance of
+ this option if the server is unable to support, is not configured to
+ support, or does not implement support for VSS information in general
+ or the requested VPN in particular.
+
+ If they echo the option (based on the criteria above), servers SHOULD
+ return an exact copy of the option unless they desire to change the
+ VPN on which a client was configured.
+
+ The appearance of the DHCPv4 VSS option code in the DHCPv4 Parameter
+ Request List option [RFC2132] should not change the processing or
+ decision to return or not return the VSS option as specified in this
+ document. The appearance of the DHCPv6 VSS option in the OPTION_ORO
+ [RFC3315] or the OPTION_ERO [RFC4994] should not change the
+ processing or decision to return (or not to return) the VSS option as
+ specified in this document.
+
+7.2. Returning the DHCPv4 Sub-Option
+
+ The case of the DHCPv4 sub-option is a bit more complicated. Note
+ that [RFC3046] specifies that a DHCPv4 server that supports the
+ Relay Agent Information option SHALL copy all sub-options received in
+ a Relay Agent Information option into any outgoing
+ Relay Agent Information option. Thus, the default behavior for any
+ DHCPv4 server is to return any VSS sub-option received to the relay
+ agent whether or not the DHCPv4 server understands the VSS
+ sub-option.
+
+ In order to distinguish a DHCPv4 server that is simply copying
+ Relay Agent Information option sub-options from an incoming to an
+ outgoing Relay Agent Information option from a DHCPv4 server that
+
+
+
+Kinnear, et al. Standards Track [Page 20]
+
+RFC 6607 Virtual Subnet Selection Options April 2012
+
+
+ successfully acted upon the information in the VSS sub-option, DHCPv4
+ relay agents MUST include a VSS-Control sub-option in the
+ Relay Agent Information any time that it includes a VSS sub-option in
+ the Relay Agent Information option.
+
+ A DHCPv4 server that does not support the VSS sub-option will copy
+ both sub-options into the outgoing Relay Agent Information option,
+ thus signaling to the DHCPv4 relay agent that it did not understand
+ the VSS sub-option.
+
+ A DHCPv4 server that supports the VSS sub-option
+
+ o MUST copy the VSS sub-option into the outgoing
+ Relay Agent Information option
+
+ o MUST NOT copy the VSS-Control sub-option into the outgoing
+ Relay Agent Information option
+
+ Moreover, if a server uses different VSS information to allocate an
+ IP address than it receives in a particular DHCPv4 sub-option, it
+ MUST include that alternative VSS information in the VSS sub-option
+ that it returns to the DHCPv4 relay agent instead of the original VSS
+ information it was given.
+
+ If a DHCPv4 server supports this sub-option and for some reason
+ (perhaps administrative control) does not honor this sub-option from
+ the request, then it MUST NOT echo either sub-option into the
+ outgoing Relay Agent Information option.
+
+7.3. Making Sense of Conflicting VSS Information
+
+ It is possible for a DHCPv4 server to receive both a VSS option and
+ VSS sub-options in the same packet. Likewise, a DHCPv6 server can
+ receive multiple VSS options in nested Relay-forward messages as well
+ as in the client message itself. In either of these cases, the VSS
+ information from the relay agent closest to the DHCP server SHOULD be
+ used in preference to all other VSS information received. In the
+ DHCPv4 case, this means that the VSS sub-option takes precedence over
+ the VSS option, and in the DHCPv6 case, this means that the VSS
+ option from the outermost Relay-forward message in which a VSS option
+ appears takes precedence.
+
+ The reasoning behind this approach is that the relay agent closer to
+ the DHCP server is almost certainly more trusted than the DHCP client
+ or more distant relay agents, and therefore information in the
+ Relay Agent Information option or the Relay-forward message is more
+ likely to be correct.
+
+
+
+
+Kinnear, et al. Standards Track [Page 21]
+
+RFC 6607 Virtual Subnet Selection Options April 2012
+
+
+ In general, relay agents SHOULD be aware through configuration or
+ policy external to this document whether or not they should be
+ including VSS information in packets that they forward, and so these
+ relay agents should not specify any conflicting VSS information.
+
+ In situations where multiple VSS options or sub-options appear in the
+ incoming packet or message, when the DHCP server constructs the
+ response to be sent to the DHCP client or relay agent, all existing
+ VSS options or sub-options MUST be replicated in the appropriate
+ places in the response and MUST contain only the VSS information that
+ was used by the DHCP server to allocate the IP address (with, of
+ course, the exception of a VSS-Control sub-option of a DHCPv4
+ Relay Agent Information option).
+
+8. Update to RFC 3046
+
+ This document updates the specification of the
+ Relay Agent Information option in Section 2.2 of RFC 3046, in the
+ first sentence of the second paragraph, as follows:
+
+ o OLD:
+
+ DHCP servers claiming to support the Relay Agent Information
+ option SHALL echo the entire contents of the Relay Agent
+ Information option in all replies.
+
+ o NEW:
+
+ DHCP servers claiming to support the Relay Agent Information
+ option SHALL echo the entire contents of the
+ Relay Agent Information option in all replies, except if otherwise
+ specified in the definition of specific Relay Agent Information
+ sub-options.
+
+9. Security Considerations
+
+ Message authentication in DHCPv4 for intradomain use where the out-
+ of-band exchange of a shared secret is feasible is defined in
+ [RFC3118]. Potential exposures to attack are discussed in Section 7
+ of the DHCP protocol specification [RFC2131].
+
+ Implementations should consider using the DHCPv4 Authentication
+ option [RFC3118] to protect DHCPv4 client access in order to provide
+ a higher level of security if it is deemed necessary in their
+ environment.
+
+
+
+
+
+
+Kinnear, et al. Standards Track [Page 22]
+
+RFC 6607 Virtual Subnet Selection Options April 2012
+
+
+ Message authentication in DHCPv4 relay agents as defined in [RFC4030]
+ should be considered for DHCPv4 relay agents employing the
+ sub-options defined in this document. Potential exposures to attack
+ are discussed in Section 7 of the DHCP protocol specification
+ [RFC2131].
+
+ For use of the VSS option by DHCPv6, the Security Considerations
+ section of [RFC3315] details the general threats to DHCPv6, and thus
+ to messages using the VSS option. The "Authentication of DHCP
+ Messages" section of [RFC3315] describes securing communication
+ between relay agents and servers, as well as clients and servers.
+
+ The VSS option could be used by a client in order to obtain an IP
+ address from any VPN. This option would allow a client to perform a
+ more complete address-pool exhaustion attack, since the client would
+ no longer be restricted to attacking address pools on just its local
+ subnet.
+
+ A DHCP server that implements these VSS options and the VSS
+ sub-option should be aware of this possibility and use whatever
+ techniques can be devised to prevent such an attack. Information
+ such as the giaddr in DHCPv4 or link address in the Relay-forward
+ DHCPv6 message might be used to detect and prevent this sort of
+ attack.
+
+ One possible defense would be for the DHCP relay agent to insert a
+ VSS option or sub-option to override the DHCP client's VSS option.
+
+ Servers that implement the VSS option and sub-option MUST by default
+ disable use of the feature; it must specifically be enabled through
+ configuration. Moreover, a server SHOULD provide the ability to
+ selectively enable use of the feature under restricted conditions,
+ e.g., by enabling use of the option only from explicitly configured
+ client-ids, enabling its use only by clients on a particular subnet,
+ or restricting the VSSs from which addresses may be requested.
+
+10. IANA Considerations
+
+ IANA has assigned DHCPv4 option number 221 to the DHCPv4 Virtual
+ Subnet Selection option defined in Section 3.1, in accordance with
+ [RFC3942].
+
+ IANA has assigned sub-option number 151 to the DHCPv4 Virtual Subnet
+ Selection sub-option defined in Section 3.2 from the DHCP Relay Agent
+ Sub-options space [RFC3046], in accordance with the spirit of
+ [RFC3942]. While [RFC3942] doesn't explicitly mention the sub-option
+ space for the DHCP Relay Agent Information option [RFC3046],
+
+
+
+
+Kinnear, et al. Standards Track [Page 23]
+
+RFC 6607 Virtual Subnet Selection Options April 2012
+
+
+ sub-option 151 is already in use by existing implementations of this
+ sub-option, and this document is essentially upward-compatible with
+ these current implementations.
+
+ IANA has assigned the value of 152 to the DHCPv4 Virtual Subnet
+ Selection Control sub-option defined in Section 3.3.
+
+ IANA has assigned the value of 68 for the DHCPv6 Virtual Subnet
+ Selection option defined in Section 3.4 from the DHCP Option Codes
+ registry.
+
+ The Type byte defined in Section 3.5 defines a number space for which
+ IANA has created and will maintain a new sub-registry entitled "VSS
+ Type Options". This sub-registry needs to be related to both the
+ DHCPv4 and DHCPv6 VSS options and the DHCPv4 Relay Agent Information
+ option sub-option (all defined by this document), since the Type byte
+ in these two options and the VSS sub-option MUST have identical
+ definitions.
+
+ New values for the Type byte may only be defined by IETF Review, as
+ described in [RFC5226]. Basically, this means that they are defined
+ by RFCs approved by the IESG.
+
+11. Acknowledgments
+
+ Jay Kumarasamy contributed to earlier versions of this document.
+ Bernie Volz recommended consolidation of the DHCPv4 option and
+ sub-option documents after extensive review of those former
+ documents, and provided valuable assistance in structuring and
+ reviewing this document. Alper Yegin expressed interest in the
+ DHCPv6 VSS option, resulting in this combined document covering all
+ three areas. Alfred Hoenes provided assistance with editorial review
+ and also raised substantive protocol issues. David Hankins and
+ Bernie Volz each raised important protocol issues that resulted in a
+ clarified document. Josh Littlefield provided editorial assistance.
+ Several IESG reviewers took the time to substantially review this
+ document, resulting in much-improved clarity.
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+Kinnear, et al. Standards Track [Page 24]
+
+RFC 6607 Virtual Subnet Selection Options April 2012
+
+
+12. References
+
+12.1. Normative References
+
+ [RFC2119] Bradner, S., "Key words for use in RFCs to Indicate
+ Requirement Levels", RFC 2119, March 1997.
+
+ [RFC2131] Droms, R., "Dynamic Host Configuration Protocol",
+ RFC 2131, March 1997.
+
+ [RFC2132] Alexander, S. and R. Droms, "DHCP Options and BOOTP
+ Vendor Extensions", RFC 2132, March 1997.
+
+ [RFC2685] Fox, B. and B. Gleeson, "Virtual Private Networks
+ Identifier", RFC 2685, September 1999.
+
+ [RFC3046] Patrick, M., "DHCP Relay Agent Information Option",
+ RFC 3046, January 2001.
+
+ [RFC3315] Droms, R., Ed., Bound, J., Volz, B., Lemon, T., Perkins,
+ C., and M. Carney, "Dynamic Host Configuration Protocol
+ for IPv6 (DHCPv6)", RFC 3315, July 2003.
+
+ [RFC3633] Troan, O. and R. Droms, "IPv6 Prefix Options for Dynamic
+ Host Configuration Protocol (DHCP) version 6", RFC 3633,
+ December 2003.
+
+ [RFC4994] Zeng, S., Volz, B., Kinnear, K. and J. Brzozowski,
+ "DHCPv6 Relay Agent Echo Request Option", RFC 4994,
+ September 2007.
+
+12.2. Informative References
+
+ [RFC951] Croft, W. and J. Gilmore, "Bootstrap Protocol", RFC 951,
+ September 1985.
+
+ [RFC1542] Wimer, W., "Clarifications and Extensions for the
+ Bootstrap Protocol", RFC 1542, October 1993.
+
+ [RFC3118] Droms, R., Ed., and W. Arbaugh, Ed., "Authentication for
+ DHCP Messages", RFC 3118, June 2001.
+
+ [RFC3942] Volz, B., "Reclassifying Dynamic Host Configuration
+ Protocol version 4 (DHCPv4) Options", RFC 3942,
+ November 2004.
+
+
+
+
+
+
+Kinnear, et al. Standards Track [Page 25]
+
+RFC 6607 Virtual Subnet Selection Options April 2012
+
+
+ [RFC4030] Stapp, M. and T. Lemon, "The Authentication Suboption for
+ the Dynamic Host Configuration Protocol (DHCP) Relay
+ Agent Option", RFC 4030, March 2005.
+
+ [RFC4388] Woundy, R. and K. Kinnear, "Dynamic Host Configuration
+ Protocol (DHCP) Leasequery", RFC 4388, February 2006.
+
+ [RFC5007] Brzozowski, J., Kinnear, K., Volz, B., and S. Zeng,
+ "DHCPv6 Leasequery", RFC 5007, September 2007.
+
+ [RFC5198] Klensin, J. and M. Padlipsky, "Unicode Format for Network
+ Interchange", RFC 5198, March 2008.
+
+ [RFC5226] Narten, T. and H. Alvestrand, "Guidelines for Writing an
+ IANA Considerations Section in RFCs", BCP 26, RFC 5226,
+ May 2008.
+
+Authors' Addresses
+
+ Kim Kinnear
+ Cisco Systems
+ 1414 Massachusetts Ave.
+ Boxborough, MA 01719
+
+ Phone: (978) 936-0000
+ EMail: kkinnear@cisco.com
+
+
+ Richard Johnson
+ Cisco Systems
+ 170 W. Tasman Dr.
+ San Jose, CA 95134
+
+ Phone: (408) 526-4000
+ EMail: raj@cisco.com
+
+
+ Mark Stapp
+ Cisco Systems
+ 1414 Massachusetts Ave.
+ Boxborough, MA 01719
+
+ Phone: (978) 936-0000
+ EMail: mjs@cisco.com
+
+
+
+
+
+
+
+Kinnear, et al. Standards Track [Page 26]
+