DHC Working Group L. Yeh
Internet-Draft Freelancer Technologies
Intended status: Standards Track T. Lemon
Expires: October 28, 2013 Nominum, Inc
M. Boucadair
France Telecom
April 26, 2013

Prefix Pool Option for DHCPv6 Relay Agent on the Provider Edge Routers
draft-ietf-dhc-dhcpv6-prefix-pool-opt-03

Abstract

The DHCPv6 Prefix Pool option provides a mechanism for DHCPv6 Prefix Delegation (DHCPv6-PD), allowing the DHCPv6 server to notify a DHCPv6 relay agent implemented on a Provider Edge (PE) router about active prefix pools allocated by the DHCPv6 server to the PE router. The information of active prefix pools can be used to enforce IPv6 route aggregation on the PE router through adding or removing aggregation routes according to the status of the prefix pools. The advertising of the aggregation routes in the routing protocol enabled on the network-facing interface of PE routers will dramatically decreases the number of the routing table entries in the ISP network.

Status of This Memo

This Internet-Draft is submitted in full conformance with the provisions of BCP 78 and BCP 79.

Internet-Drafts are working documents of the Internet Engineering Task Force (IETF). Note that other groups may also distribute working documents as Internet-Drafts. The list of current Internet-Drafts is at http://datatracker.ietf.org/drafts/current/.

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This Internet-Draft will expire on October 28, 2013.

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Table of Contents

1. Introduction

The DHCPv6 protocol [RFC3315] specifies a mechanism for the assignment of IPv6 address and configuration information to IPv6 nodes. The DHCPv6 Prefix Delegation (DHCPv6-PD) [RFC3633] specifies a mechanism for the delegation of IPv6 prefixes from the Delegating Router (DR) acting as the DHCPv6 server to the Requesting Routers (RR) acting as the DHCPv6 clients. The DHCPv6 servers always maintain authoritative information associated with their operations including, but not limited to, the binding data of the delegated IPv6 prefixes, the lease data of the delegated IPv6 prefixes, the status of their prefix pools, etc. A prefix pool configured and maintained on the server can usually be a short prefix (e.g., a /40 prefix), out of which a longer prefixes (e.g., /56 prefixes) are delegated to customer networks.

In the scenarios of a centralized DHCPv6 server, the Provider Edge (PE) routers act as DHCPv6 relay agents, when the DHCPv6 server and the Customer Edge (CE) router (a.k.a. Routed-RG or Routed-CPE) acting as RRs and the DHCPv6 clients, are not on the same link. For ensuring reachability, the PE routers always need to add or withdraw the route entries directing to each customer network in their routing table to reflect the status of IPv6 prefixes delegated by the DHCPv6 server to the CE routers (see Section 6.2, [BBF TR-177]).

When a routing protocol is enabled on the network-facing interface of the PE router, all the routes directing to the customer networks are advertised in the ISP network. It will make the number of route entries in the routing table on the ISP routers be unacceptable large. Hence, it is desirable to aggregate the routes directing to the customer networks on the PE router.

Because the prefixes of the customer networks can not be guaranteed to be active and continuous, the routing protocol enabled on the PE router in general can not create one aggregation route automatically to cover all the prefixes delegated within the prefix pool. When the PE router acts as the relay agent, it can not be aware about the status of the prefix pools in general. The way to make the aggregation routes (e.g., black-hole routes) pointing to each of the prefix pools could be to configure them manually and permanently, but it is meant to a large amount of the handwork on each PE router for its operation and maintenance.

This document proposes a new Prefix Pool option for the DHCPv6 relay agent implemented on PE routers, allowing the DHCPv6 server to notify the DHCPv6 relay agent the information about the prefix pools. After the PE router received the prefix pools, the aggregation route entries can be added or withdrawn in the routing table of the PE router according to the provision status of the prefix pools. The aggregation routes will then be advertised into the ISP network through the routing protocol enabled on the PE's network-facing interface.

DHCPv6 Bulk Leasequery [RFC5460] specifies a mechanism for bulk transfer of the binding data of each delegated prefix from the server to the requestor, typically a relay agent, to support the replacement or reboot event of a relay agent. In this document, the capability of DHCPv6 Bulk Leasequery will be extended to support the bulk transfer of the prefix and its status of the prefix pools for the route aggregation.

The automatic mechanisms described in this document depend on the existing DHCPv6 protocols and implementations without requiring a new DHCPv6 message or a new interface for the configuration of the aggregation route. The administrator of the ISP network can decide whether to inject the aggregation route or not based on the policies defined on the DHCPv6 server.

2. Terminology and Conventions

This document defines a new DHCPv6 option to communicate the prefix and its status of an IPv6 prefix pool. Definitions for terms and acronyms not specified in this document are defined in [RFC3315], [RFC3633], [RFC5007] and [RFC5460].

The following terms have been employed in this document:

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 [RFC2119].

3. Scenario and Network Architecture

Figure 1 and Figure 2 illustrate two typical cases of the targeted network architectures.

          +------+------+  DHCPv6 Server
          |    DHCPv6   |  (e.g. Binding entry:
          |    Server   |        Relay=nfi-GUA#1,
          |             |        Prefix Pool=2001:db8:3450::/44)
          +------+------+        
                 |
        _________|_________
       /                   \
      |   ISP Core Network  |
       \___________________/
                 |
                 |
                 |  Network-facing interface
                 |         (e.g. IPv6 address=nfi-GUA#1) 
          +------+------+
          |   Provider  |  
          |     Edge    |  DHCPv6 Relay Agent, DHCPv6 Requestor
          |    Router   |  (e.g. prefix pool=2001:db8:3450::/44)
          +------+------+
                 |  Customer-facing interface
                 |         
                 |
          +------+------+
          |   Customer  |  DHCPv6 Client
          |     Edge    |  DHCPv6-PD Requesting Router
          |    Router   |  (e.g. customer network
          +------+------+        =2001:db8:3456:7800:/56)
                 |
        _________|_________
       /                   \
      |  Customer Network   |
       \___________________/

Figure 1: ISP-to-Customer network where CE is directly connected to PE

          +------+------+  DHCPv6 Server
          |    DHCPv6   |  (e.g. Binding entry:
          |    Server   |        Relay=nfi-GUA#2,
          |             |        Interface-ID=cfi#3,
          +------+------+        Prefix Pool=2001:db8:1200::/40)
                 |
        _________|_________
       /                   \
      |  ISP Core Network   |
       \___________________/
                 |
                 |
                 |  Network-facing interface
                 |         (e.g. IPv6 address=nfi-GUA#2) 
          +------+------+
          |   Provider  |  
          |     Edge    |  DHCPv6 Relay Agent, DHCPv6 Requestor
          |    Router   |
          +------+------+
                 |  Customer-facing interface
                 |         (e.g. Interface-ID=cfi#3)
                 |               Prefix Pool=2001:db8:1200::/40)
        _________|_________
       /                   \
      |   Access Network    |
       \___________________/
                 |
                 |
          +------+------+
          |   Customer  |  DHCPv6 Client
          |     Edge    |  DHCPv6-PD Requesting Router
          |    Router   |  (e.g. customer network
          +------+------+        =2001:db8:1234:5600:/56)
                 |
        _________|_________
       /                   \
      |  Customer Network   |
       \___________________/

Figure 2: ISP-to-Customer network where CE is connected to PE through access network

4. Prefix Pool Option

The format of the Prefix Pool option is shown in Figure 3.

 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_PREFIX_POOL       |         option-length         |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
|    status     | pfx-pool-len  |                               |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+                               +
|                                                               |
|                 ipv6-prefix (variable length)                 |
|                                                               |
+                               +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
|                               |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

option-code:    OPTION_PREFIX_POOL (TBA-IANA)
option-length:  2 + length of ipv6-prefix in octets
status:         Status of the prefix pool, indicating the
                availability of the prefix pool maintained
                on the server.
pfx-pool-len:   Length for the prefix pool in bits
ipv6-prefix:    IPv6 prefix of the prefix pool, which is 
                floor((pfx-pool-len+7)/8) octets in length. 
                Bits outsides of the pfx-pool-len, if included, 
                MUST be zero.

The codes of the status are defined in the following table.

Name      Code
Active    0
Released  1
Reserved  2~255

The 'Active' status of the prefix pool indicated in this option can be used to add the prefix pool and its associated aggregation route on the relay agent; while the 'Released' status of prefix pool indicated in this option can be used to withdraw the prefix pool and its associated aggregation route on the relay agent.

If the administrative policy on the server permits to support route aggregation on the relay agent, the status of prefix pool can be determined by the delegated prefixes within the associated prefix pool: If there is one delegated prefix within the pool that has a valid lease, the status of the prefix pool will be 'Active'; otherwise, the status of the prefix pool is 'Released'. If the administrative policy on the server does not permit to support route aggregation on the relay agent, the status of the prefix pool will always be 'Released'.

Prefix Pool Option MAY be included by the DHCPv6 server in RELAY-REPL (13), LEASEQUERY-REPLY (15) and LEASEQUERY-DATA (17) message, and MAY be included by the DHCPv6 relay agent in the RELAY-FORW (12).

5. Relay Agent Behavior

The DHCPv6 relay agent who needs the information of prefix pools, SHOULD include the associated requested-option-code in Option Request option (OPTION_ORO, 6) to request the Prefix Pool option (OPTION_PREFIX_POOL, TBD) from the DHCPv6 server, who maintains the status of the prefix pools associated with the relay agent itself (Figure 1) or its particular customer-facing interface (Figure 2), when receiving the DHCPv6-PD message from clients. The relay agent SHOULD include this Option Request option for the Prefix Pool option in the RELAY-FORW (12) message of SOLICIT (1), REQUEST (3), RENEW(5), REBIND (6) and RELEASE (8). The relay agent MAY also include the Prefix Pool option with the values of 'pfx-pool-len' and 'ip6-prefix' to indicate its preference for which prefix pool the relay agent would like the server to return.

The relay agent SHOULD include Interface-ID option (OPTION_INTERFACE_ID, 18) so that the server can identify the particular customer-facing interface of the relay agent (i.e., the PE router) with which the prefix pool is associated, if the server can not use the link-address field specified in the encapsulation of the DHCPv6 RELAY-FORW message to identify the interface of the link on which the client is located.

After receiving the Prefix Pool option for the relay agent itself or its particular customer-facing interface in the RELAY-REPL (13) message of REPLY (7) from the server, the PE router acting as the relay agent SHOULD confirm the status of the prefix pool according to the leases of delegated customer prefixes within it. If the status of the prefix pool received and confirmed is 'Active', the PE router acting as the relay agent SHOULD add an aggregation route entry in its routing table, if the same entry has not been added before. If the status of the prefix pool received is 'Released', the PE router acting as the relay agent SHOULD withdraw the associated aggregation route entry in its routing table, if the same entry has not been withdrawn before.

The PE router acting as the relay agent MAY set up a table for the lease or status of the prefix pools on it according to the leases of the delegated customer prefixes within the prefix pools. The lease of the prefix pool SHOULD dynamically set to be the maximum lease of the delegated customer prefix within it. If there is no route entry directing to the customer network within the aggregation route associated with the prefix pool or the lease of prefix pool runs out, the PE router acting as the relay agent SHOULD automatically withdraw the aggregation route.

The PE router acting as the relay agent advertises its routing table including the entries of the aggregation routes based on the information of prefix pools when the routing protocol is enabled on its network-facing interface.

5.1. Leasequery Requestor Behavior

The PE router acting as the relay agent (i.e., Requestor) can use the DHCPv6 Bulk Leasequery [RFC5460] to query the binding data of prefix pools in the 'Active' status from the server. After established a TCP connection with the server, the relay agent SHOULD include Query option (OPTION_LQ_QUERY, 44) and set the proper query-type (QUERY_BY_RELAY_ID, QUERY_BY_LINK_ADDRESS or QUERY_BY_REMOTE_ID), link-address and query-options in the LEASEQUERY (14) message. The query options SHOULD include Option Request option to request the Prefix Pool option from the server.

6. Server Behavior

According to DHCPv6-PD [RFC3633], if the prefix of the customer network requested in RELAY-FORW (12) message of SOLICIT (1), REQUEST (3), RENEW(5), REBIND (6) from the DHCPv6 client (i.e., the RR) has a valid lease, the DHCPv6 server (i.e., the DR) will delegate the prefix with the relevant parameters in the RELAY-REPL (13) message of REPLY (7). In order to give a meaningful reply, the server has always to maintain the binding data of the prefix pool in association with the identification of the relay itself (Figure 1) or its customer-facing interface (Figure 2).

The source address in the IPv6 packet header of RELAY-FORW message can be used to identify the DHCPv6 relay agent (i.e., the PE router) in the case when there is only one relay between the server and the client; or the peer-address nested in the RELAY-FORW message can be used to identify the DHCPv6 relay agent (i.e., the PE router) in the case when there are multiple relays between the server and the client. The source address or the peer-address mentioned here is always the globe unique address (GUA) of the network-facing interface of the PE router. The Interface ID option (OPTION_INTERFACE_ID, 18) nested in the RELAY-FORW message can be used to identify the access line of the client.

The server MAY use the link-address specified in RELAY-FORW message to identify the relay agent itself and its particular customer-facing interface where the prefix pool is associated, if these link-address are possible GUA, but the server has to maintain the binding data of prefix pools in association with these GUA of link-addresses.

After receiving the Option Request option (OPTION_ORO, 6) requesting the Prefix Pool option (OPTION_PREFIX_POOL, TBD) in the RELAY-FORW messages of the DHCPv6-PD, the server SHOULD include the Prefix Pool option with the prefix and its status indicated for the associated relay agent itself or its customer-facing interface in the RELAY-REPL messages, if the RELAY-FORW messages received are valid. As per DHCPv6 [RFC3315], the server SHOULD copy the Interface-ID option from the RELAY-FORW message into the RELAY-REPL message.

If the administrative policy on the server permits to support route aggregation on the relay agents for some particular prefix pools, the status of prefix pool can be determined by the delegated prefixes within the associated prefix pool. If there is at least one delegated prefix within the pool that has a valid lease, the server SHOULD set the status of the associated prefix pool to be 'Active'. After the last prefix released in the associated prefix pool, the server SHOULD set the status of the associated prefix pool to be 'Released'. If the administrative policy on the server does not permit to support route aggregation on the relay agents, the server shall set the status of the associated prefix pools always to be 'Released'.

When the administrator of the server changes the setting to support route aggregation on the relay agent for the particular prefix pool, the status of the prefix pool SHOULD change from 'Released' to be 'Active' if at least one delegated prefix within the prefix pool has the valid lease. When the administrator of the server changes the setting not to support route aggregation on the relay agent for the particular prefix pool, the status of the prefix pool SHOULD change from 'Active' to be 'Released' if at least one delegated prefix within the prefix pool has the valid lease. The server MAY initiate a RELAY-REPL message of RECONFIGURE (10) to immediately trigger RENEW (5) and REPLY (7) prefix delegation message exchange with Prefix Pool option between one active client and the server.

Multiple prefix pools can be associated with the same PE router acting as the relay agent, or its customer-facing interface in the binding table on the server.

Note that the prefix pools SHOULD not overlap, and the delegated customer prefix is only from one prefix pool.

6.1. Leasequery Server Behavior

After receiving the LEASEQUERY (14) message from the relay agent with the OPTION_LQ_QUERY (44) including the OPTION_ORO (6) to request the Prefix Pool option, the server SHOULD include the OPTION_PREFIX_POOL (TBD) in the LEASEQUERY-REPLY (15) and LEASEQUERY-DATA (17) messages to convey the binding data of the associated prefix pools through the established TCP connection according to mechanism defined in the DHCPv6 Bulk Leasequery [RFC5460]. Each LEASEQUERY-REPLY (15) and LEASEQUERY-DATA (17) message MAY only contain one OPTION_PREFIX_POOL, or and the associated OPTION_INTERFACE_ID, if the status of the prefix pool is 'active'. In order to be able to provide meaningful replies to different query types, the server has to maintain the relevant association of prefix pools with the Relay_ID, link addresses or Remote_IDs of the relay agent in its binding database.

7. Security Considerations

Security issues related DHCPv6 are described in Section 23 of [RFC3315] and Section 15 of [RFC3633]. The administrator of the DHCPv6 server should pay more attention to the configuration of the prefix pools, for examples, a. ::/0 may cause a routing problem in the whole ISP network; b. the configuration of prefix pool should avoid overlap in the address plan, and etc.

8. IANA Considerations

This document requests to assign a new option code for Option_Prefix_Pool in the registry of DHCPv6 Option Codes (http://www.iana.org/assignments/dhcpv6-parameters/dhcpv6-parameters.xml).

9. Acknowledgements

Thanks to Ralph Droms for the inspiration from his expired [I-D.ietf-dhc-dhcpv6-agentopt-delegate-04], to Tomek Mrugalski, Bernie Volz, Ole Troan and Alexandru Petrescu for their discussion in the mailing list of DHC, to Acee Lindem for his discussion in the mailing list of routing-discussion, to Christian Jacquenet for pointing out the draft shall cover one more use case of ISP-to-Customer network where CPE is directly connected to PE, to Sven Ooghe, Juergen Schoenwaelder and Jie Hu for some revisions in the email review, to Shrinivas Ashok Joshi for pointing out the draft shall cover the mechanism against the case of reboot, to Adrian Farrel for the orientation guide on this draft in IETF80 at Prague.

10. References

10.1. Normative References

[RFC3315] Droms, R., 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.
[RFC2119] Bradner, S., "Key words for use in RFCs to Indicate Requirement Levels", BCP 14, RFC 2119, March 1997.
[RFC5007] Brzozowski, J., Kinnear, K., Volz, B. and S. Zeng, "DHCPv6 Leasequery", RFC 5007, September 2007.
[RFC5460] Stapp, M., "DHCPv6 Bulk Leasequery", RFC 5460, February 2009.

10.2. Informative References

[I-D.ietf-dhc-dhcpv6-agentopt-delegate-04] Droms, R., Volz, B. and O. Troan, "DHCPv6 Relay Agent Assignment Notification (RAAN) Option", July 2009.
[BBF TR-177] Broadband Forum, , "IPv6 in the context of TR-101, Issue 1", November 2010.

Authors' Addresses

Leaf Y. Yeh Freelancer Technologies P. R. China EMail: leaf.yeh.sdo@gmail.com
Ted Lemon Nominum, Inc USA EMail: Ted.Lemon@nominum.com
Mohamed Boucadair France Telecom France EMail: mohamed.boucadair@orange.com