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Mobile IPv6 Operation with IKEv2 and the Revised IPsec Architecture
draft-ietf-mip6-ikev2-ipsec-08

The information below is for an old version of the document that is already published as an RFC.
Document Type
This is an older version of an Internet-Draft that was ultimately published as RFC 4877.
Authors Francis Dupont , Vijay Devarapalli
Last updated 2020-01-21 (Latest revision 2006-12-18)
RFC stream Internet Engineering Task Force (IETF)
Intended RFC status Proposed Standard
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IESG IESG state Became RFC 4877 (Proposed Standard)
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Responsible AD Jari Arkko
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draft-ietf-mip6-ikev2-ipsec-08
MIP6 Working Group                                        V. Devarapalli
Internet-Draft                                           Azaire Networks
Updates: 3776 (if approved)                                    F. Dupont
Intended status: Standards Track                                   CELAR
Expires: June 19, 2007                                 December 16, 2006

  Mobile IPv6 Operation with IKEv2 and the revised IPsec Architecture
                   draft-ietf-mip6-ikev2-ipsec-08.txt

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   This Internet-Draft will expire on June 19, 2007.

Copyright Notice

   Copyright (C) The Internet Society (2006).

Abstract

   This document describes Mobile IPv6 operation with the revised IPsec
   architecture and IKEv2.

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Table of Contents

   1.  Introduction . . . . . . . . . . . . . . . . . . . . . . . . .  3
   2.  Terminology  . . . . . . . . . . . . . . . . . . . . . . . . .  3
   3.  Packet Formats . . . . . . . . . . . . . . . . . . . . . . . .  3
   4.  Requirements . . . . . . . . . . . . . . . . . . . . . . . . .  4
     4.1.  General Requirements . . . . . . . . . . . . . . . . . . .  4
     4.2.  Policy Requirements  . . . . . . . . . . . . . . . . . . .  5
     4.3.  IPsec Protocol Processing Requirements . . . . . . . . . .  7
     4.4.  Dynamic Keying Requirements  . . . . . . . . . . . . . . .  9
   5.  Selector Granularity Considerations  . . . . . . . . . . . . .  9
   6.  Manual Configuration . . . . . . . . . . . . . . . . . . . . . 11
     6.1.  Binding Updates and Acknowledgements . . . . . . . . . . . 11
     6.2.  Return Routabililty Messages . . . . . . . . . . . . . . . 12
     6.3.  Mobile Prefix Discovery Messages . . . . . . . . . . . . . 13
     6.4.  Payload Packets  . . . . . . . . . . . . . . . . . . . . . 14
   7.  Dynamic Configuration  . . . . . . . . . . . . . . . . . . . . 14
     7.1.  Peer Authorization Database Entries  . . . . . . . . . . . 15
     7.2.  Security Policy Database Entries . . . . . . . . . . . . . 15
       7.2.1.  Binding Updates and Acknowledgements . . . . . . . . . 15
       7.2.2.  Return Routability Messages  . . . . . . . . . . . . . 16
       7.2.3.  Mobile Prefix Discovery Messages . . . . . . . . . . . 17
       7.2.4.  Payload Packets  . . . . . . . . . . . . . . . . . . . 18
     7.3.  Security Association negotiation using IKEv2 . . . . . . . 18
     7.4.  Movements and Dynamic Keying . . . . . . . . . . . . . . . 20
   8.  The use of EAP authentication  . . . . . . . . . . . . . . . . 21
   9.  Dynamic Home Address Configuration . . . . . . . . . . . . . . 22
   10. Security Considerations  . . . . . . . . . . . . . . . . . . . 23
   11. IANA Considerations  . . . . . . . . . . . . . . . . . . . . . 24
   12. Acknowledgements . . . . . . . . . . . . . . . . . . . . . . . 24
   13. References . . . . . . . . . . . . . . . . . . . . . . . . . . 24
     13.1. Normative References . . . . . . . . . . . . . . . . . . . 24
     13.2. Informative References . . . . . . . . . . . . . . . . . . 24
   Authors' Addresses . . . . . . . . . . . . . . . . . . . . . . . . 25
   Intellectual Property and Copyright Statements . . . . . . . . . . 26

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1.  Introduction

   RFC 3776 describes how IPsec, as described in RFC 2401 [11], is used
   with Mobile IPv6 [2] to protect the signaling messages.  It also
   illustrates examples of Security Policy Database and Security
   Association Database entries that can be used to protect Mobile IPv6
   signaling messages.

   The IPsec architecture has been revised in RFC 4301 [5].  Among the
   many changes, the list of selectors has been expanded to include the
   Mobility Header message type.  This has an impact on how security
   policies and security associations are configured for protecting
   mobility header messages.  It becomes easier to differentiate between
   the various Mobility Header messages based on the type value instead
   of checking if a particular mobility header message is being sent on
   a tunnel interface between the mobile node and the home agent, as it
   was in RFC 3776.  The revised IPsec architecture specification also
   includes ICMP message type and code as selectors.  This makes it
   possible to protect Mobile Prefix Discovery messages without applying
   the same security associations to all ICMPv6 messages.

   This document discusses new requirements for the home agent and the
   mobile node to use the revised IPsec architecture and IKEv2.
   Section 4 lists the requirements.  Section 6 and Section 7 describe
   the required Security Policy Database (SPD) and Security Association
   Database (SAD) entries.

   The Internet Key Exchange (IKE) protocol has also been substantially
   revised and simplified [4].  Section 7.3 of this document describes
   how IKEv2 can be used to setup security associations for Mobile IPv6.

   The use of EAP within IKEv2 is allowed to authenticate the mobile
   node to the home agent.  This is described in Section 8.  A method
   for dynamically configuring a home address from the home agent using
   the Configuration Payload in IKEv2 is described in Section 9.

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 [1].

3.  Packet Formats

   The mobile node and the home agent MUST support the packet formats as
   defined in Section 3 of RFC 3776.

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   In case the mobile node reverse tunnels all traffic including Mobile
   IPv6 signaling messages exchanged between the mobile node and the
   home agent, then the Home Address Option is not required to be
   present in the messages sent to the home agent.  The packet format
   for the binding update when sent in the tunnel mode looks as follows.

      IPv6 hdr (source = care-of address,
                destination = home agent)
      ESP header in tunnel mode
      IPv6 hdr (source = home address,
                destination = home agent)
      Mobility Header
         Binding Update
           Alternate Care-of Address option (care-of address)

   The binding acknowledgement sent to the mobile node when it is away
   from the home link looks as follows.

      IPv6 hdr (source = home agent,
                destination = care-of address)
      ESP header in tunnel mode
      IPv6 hdr (source = home agent,
                destination = home address)
      Mobility Header
         Binding Acknowledgement

   The packet formats for tunneled mobile prefix discovery messages is
   very similar with the home address as the source address in the inner
   IP header.

   The support for the above tunneled packet format is optional on the
   mobile node and the home agent.

4.  Requirements

   This section describes mandatory rules and requirements for all
   Mobile IPv6 mobile nodes and home agents so that IPsec, with IKEv2 as
   the key management protocol, can be used to protect traffic between
   the mobile node and the home agent.  Many of the requirements are
   repeated from RFC 3776 to make this document self-contained and
   complete.

4.1.  General Requirements

   o  RFC 3775 states that manual configuration of IPsec security
      associations MUST be supported and automated key management MAY be
      supported.  This document does not make any recommendations

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      regarding the support of manual IPsec configuration and dynamic
      IPsec configuration.  This document just describes the use of
      manually created IPsec security associations and the use of IKEv2
      as the automated IPsec key management protocol for protecting
      Mobile IPv6 signaling messages.

   o  ESP encapsulation for Binding Updates and Binding Acknowledgements
      MUST be supported and used.

   o  ESP encapsulation in tunnel mode for the Home Test Init and Home
      Test messages tunneled between the mobile node and the home agent
      MUST be supported and SHOULD be used.

   o  ESP encapsulation of the ICMPv6 messages related to mobile prefix
      discovery MUST be supported and SHOULD be used.

   o  ESP encapsulation of the payload packets tunneled between the
      mobile node and the home agent MAY be supported and used.

   o  If multicast group membership control protocols or stateful
      address autoconfiguration protocols are supported, payload data
      protection MUST be supported for those protocols.

   o  The home agent and the mobile node MAY support authentication
      using EAP in IKEv2 as described in Section 8.

   o  The home agent and the mobile node MAY support remote
      configuration of home address as described in Section 9.  When the
      home agent receives a configuration payload with a CFG_REQUEST for
      INTERNAL_IP6_ADDRESS, it must reply with a valid home address for
      the mobile node.  The home agent can pick a home address from a
      local database or from a DHCPv6 server on the home link.

4.2.  Policy Requirements

   The following requirements are related to the configuration of
   security policy database on the home agent and the mobile node.

   o  RFC 3776 required configuration of the security policies per
      interface in order to be able to differentiate between mobility
      header messages sent to the home agent and tunneled through the
      home agent to the correspondent node.  Since the Mobility Header
      message type is a selector, it is now easy to differentiate
      between HoTi and HoT messages from other mobility header messages.
      Therefore per-interface configuration of security policies is not
      required for protecting mobility header messages.  Note that
      without per-interface security policies. payload packet protection
      is limited to packets originating/terminating at the home address.

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      Traffic using link local address within the Mobile IP tunnel
      cannot be provided IPsec protection without per-interface security
      policies.

   o  The home agent MUST be able to prevent a mobile node from using
      its security association to send a Binding Update on behalf of
      another mobile node.  With manual IPsec configuration, the home
      agent MUST be able to verify that a security association was
      created for a particular home address.  With dynamic keying, the
      home agent MUST be able to verify that the identity presented in
      the IKE_AUTH exchange is allowed to create security associations
      for a particular home address.

   o  The home agent uses the Peer Authorization Database (PAD) [5] to
      store per-mobile node state.  More specifically the per-mobile
      state stores information that is used to authenticate the mobile
      node and the authorization information that ties the mobile node's
      identity to the home address of the mobile node.  This will allow
      the home agent to prevent a mobile node from creating IPsec
      security associations for another mobile node's home address.  In
      case of dynamic home address assignment, the home agent creates a
      temporary PAD entry linking the authenticated peer identity and
      the newly allocated home address.

   o  As required in the base specification [2], when a packet destined
      to the receiving node is matched against IPsec security policy or
      selectors of a security association, an address appearing in a
      Home Address destination option is considered as the source
      address of the packet.

      Note that the home address option appears before IPsec headers.
      Section 11.3.2 of the base specification describes one possible
      implementation approach for this: The IPsec policy operations can
      be performed at the time when the packet has not yet been modified
      per Mobile IPv6 rules, or has been brought back to its normal form
      after Mobile IPv6 processing.  That is, the processing of the Home
      Address option is seen as a fixed transformation of the packets
      that does not affect IPsec processing.

   o  Similarly, a home address within a Type 2 Routing header destined
      to the receiving node is considered as the destination address of
      the packet, when a packet is matched against IPsec security policy
      or selectors of a security association.

      Similar implementation considerations apply to the Routing header
      processing as was described above for the Home Address destination
      option.

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   o  When the mobile node returns home and de-registers with the Home
      Agent, the tunnel between the home agent and the mobile node's
      care-of address is torn down.  The security policy entries, which
      were used for protecting tunneled traffic between the mobile node
      and the home agent SHOULD be made inactive (for instance, by
      removing them and installing them back later through an API).  The
      corresponding security associations could be kept as they are or
      deleted depending on how they were created.  If the security
      associations were created dynamically using IKE, they are
      automatically deleted when they expire.  If the security
      associations were created through manual configuration, they MUST
      be retained and used later when the mobile node moves away from
      home again.  The security associations protecting Binding Updates
      and Acknowledgements, and prefix discovery SHOULD NOT be deleted
      as they do not depend on care-of addresses and can be used again.

   o  The mobile node MUST use the Home Address destination option in
      Binding Updates and Mobile Prefix Solicitations when transport
      mode IPsec protection is used, so that the home address is visible
      when the IPsec policy checks are made.

   o  The home agent MUST use the Type 2 Routing header in Binding
      Acknowledgements and Mobile Prefix Advertisements sent to the
      mobile node when transport mode IPsec protection is used, again
      due to the need to have the home address visible when the policy
      checks are made.

4.3.  IPsec Protocol Processing Requirements

   The following lists requirements for IPsec processing at the Home
   Agent and the mobile node.

   o  The home agent and mobile node SHOULD support Mobility Header
      message type as an IPsec selector.

   o  The home agent and mobile node SHOULD support ICMPv6 message type
      as an IPsec selector.

   o  The home agent MUST be able to distinguish between HoTi messages
      sent to itself, when it is acting as a Correspondent Node, from
      those sent to Correspondent Nodes when it is acting as a home
      agent, based on the destination address of the packet.

   o  When securing Binding Updates, Binding Acknowledgements, and
      Mobile Prefix Discovery messages, both the mobile node and the
      home agent MUST support the use of Encapsulating Security Payload
      (ESP) [6] header in transport mode and MUST use a non-null payload
      authentication algorithm to provide data origin authentication,

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      connectionless integrity and optional anti-replay protection.  The
      use of sequence number in the ESP header to provide anti-replay
      protection is optional because the sequence numbers in the Binding
      Updates provide anti-replay protection.  However, the anti-replay
      protection fails if the home agent looses the binding cache state,
      for example, due to a reboot.  Since the IPsec security
      association state can be also be assumed to be lost, ESP cannot
      provide anti-replay protection in this case.  Complete anti-replay
      protection can only be provided by the use of a dynamic keying
      mechanism, like IKEv2.

      Support for protecting these messages using ESP in tunnel mode is
      optional.

   o  Tunnel mode IPsec ESP MUST be supported and SHOULD be used for the
      protection of packets belonging to the return routability
      procedure.  A non-null encryption transform and a non-null
      authentication algorithm MUST be applied.

   o  When ESP is used to protect Binding Updates, there is no
      protection for the care-of address that appears in the IPv6 header
      outside the area protected by ESP.  It is important for the home
      agent to verify that the care-of address has not been tampered
      with.  As a result, the attacker would have redirected the mobile
      node's traffic to another address.  In order to prevent this,
      Mobile IPv6 implementations MUST use the Alternate Care-of Address
      mobility option in Binding Updates sent by mobile nodes while away
      from home.  The exception to this is when the mobile node returns
      home and sends a Binding Update to the home agent in order to de-
      register.

      When IPsec is used to protect return routability signaling or
      payload packets, the mobile node MUST set the source address it
      uses for the outgoing tunnel packets to the current primary care-
      of address.

   o  When IPsec is used to protect return routability signaling or
      payload packets, IPsec security associations are needed to provide
      this protection.  When the care-of address for the mobile node
      changes as a result of an accepted Binding Update, special
      treatment is needed for the next packets sent using these security
      associations.  The home agent MUST set the new care-of address as
      the destination address of these packets, as if the outer header
      destination address in the security association had changed.
      Similarly, the home agent starts to expect the new source address
      in the tunnel packets received from the mobile node.

      Such address changes can be implemented, for instance, through an

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      API from the Mobile IPv6 implementation to the IPsec
      implementation.  One such API is described in [12].  It should be
      noted that the use of such an API and the address changes MUST
      only be done based on the Binding Updates received by the home
      agent and protected by the use of IPsec.  Address modifications
      based on other sources, such as Binding Updates to the
      correspondent nodes protected by return routability, or open
      access to an API from any application may result in security
      vulnerabilities.

4.4.  Dynamic Keying Requirements

   The following requirements are related to the use of a dynamic key
   management protocol by the mobile node and the home agent.
   Section 7.3 describes the use of IKEv2 as the dynamic key management
   protocol.

   o  The mobile node MUST use its care-of address as source address in
      protocol exchanges, when using dynamic keying.

   o  The mobile node and the home agent MUST create security
      associations based on the home address, so that the security
      associations survive change in care-of address.  When using IKEv2
      as the key exchange protocol, the home address should be carried
      as the initiator IP address in the TSi payload during the
      CREATE_CHILD_SA exchange [4].

   o  If the mobile node has used IKEv2 to establish security
      associations with its home agent, it should follow the procedures
      discussed in Section 11.7.1 and 11.7.3 of the base specification
      [2] to determine whether the IKE endpoints can be moved or if the
      SAs, including the IKEv2 SA, have to be re-established.

   o  If the home agent has used IKEv2 to establish security
      associations with the mobile node, it should follow the procedures
      discussed in Section 10.3.1 and 10.3.2 of the base specification
      [2] to determine whether the IKE endpoints can be moved or if the
      SAs, including the IKEv2 SA, have to be re-established.

5.  Selector Granularity Considerations

   IPsec implementations are compatible with this document even if they
   do not support fine grain selectors such as the Mobility Header
   message type and ICMPv6 message type.  Note that such IPsec
   implementations are not compliant to RFC 4301 [5].  For various
   reasons, some implementations may choose to support only coarse grain
   selectors (i.e., addresses and in some cases the protocol field) for

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   forwarded traffic.  As finer grain selectors give better control,
   i.e., the protection is only applied when required, the examples in
   the document always use the finest granularity.

   The following describes different ways of setting up IPsec policies
   for protecting Mobile IPv6 messages:

   o  The IPsec implementations on the mobile node and the home agent
      support fine grain selectors, including the Mobility Header
      message type.  This is the case assumed in the IPsec SPD and SAD
      examples in this document.

   o  The IPsec implementations only support selectors at a protocol
      level.  In such implementations, the IPsec implementation can only
      identify mobility header traffic and cannot identify the
      individual mobility header messages.  In this case, the protection
      of Return Routability Messages uses a setup similar to the regular
      payload packets to the correspondent node with the protocol
      selector set to Mobility Header messages.  All tunneled Mobility
      Header messages will be protected.

   o  The third case is where the protocol selector is not available in
      the IPsec implementation.  In this case all traffic sent by the
      mobile node reverse tunneled through the home agent is protected
      using ESP in tunnel mode.  This case is also applicable when the
      mobile node, due to privacy considerations, tunnels all traffic to
      the home agent.  This includes Mobile IPv6 signaling messages
      exchanged between the mobile node and the home agent and all
      traffic exchanged between the mobile node and the correspondent
      node.  This case uses IPsec tunnel mode SA with the protocol
      selector set to 'any'.

   The third case where all tunneled traffic is protected introduces
   some additional considerations:

   o  If there is just one IPsec SA providing protection for all
      traffic, then the SA MUST fulfill the requirements for protecting
      the Return Routability messages which require confidentiality
      protection.  If the third case is being used for privacy
      considerations, then there can also be separate tunnel mode SPD
      entries for protecting the Return Routability messages with a
      higher priority in the SPD so that the SPD entry with the higher
      priority gets applied first.

   o  The receipt of a Binding Update from the new care-of address
      updates the tunnel endpoint of the IPsec SA as described in
      Section 4.3.  Since the Binding Update that updates the tunnel
      endpoint is received through the same tunnel interface that needs

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      to be updated, special care should be taken on the home agent to
      ensure that the Binding Update is not dropped.  This can be
      achieved by either performing the source address check on the
      outer IPv6 header after the binding update is processed or have
      exception handling to check the inner packet for a Binding Update
      when the source address match on the outer source address fails.
      Typical IPsec processing does not check the outer source address
      when the originator of the packet has already been authenticated.

6.  Manual Configuration

   This section describes the SPD and SAD entries that can be used to
   protect Mobile IPv6 signaling messages.  The SPD and SAD entries are
   only example configurations.  A particular mobile node implementation
   and a home agent implementation could configure different SPD and SAD
   entries as long as they provide the required security of the Mobile
   IPv6 signaling messages.

   For the examples described in this document, a mobile node with home
   address, "home_address_1", primary care-of address,
   "care_of_address_1", a home agent with address, "home_agent_1" and a
   user of the mobile node with identity "user_1" are assumed.  If the
   home address of the mobile node changes, the SPD and SAD entries need
   to be re-created or updated for the new home address.

   The Peer Authorization Database is not used when manual IPsec
   configuration is used for setting up security associations for
   protecting Mobile IPv6 signaling messages.

6.1.  Binding Updates and Acknowledgements

   The following are the SPD and SAD entries on the mobile node and the
   home agent to protect Binding Updates and Acknowledgements.

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        mobile node SPD-S:
          - IF local_address = home_address_1 &
               remote_address = home_agent_1 & proto = MH &
               local_mh_type = BU & remote_mh_type = BAck
            Then use SA SA1 (OUT) and SA2 (IN)

        mobile node SAD:
          - SA1(OUT, spi_a, home_agent_1, ESP, TRANSPORT):
            local_address = home_address_1 &
            remote_address = home_agent_1 &
            proto = MH & mh_type = BU
          - SA2(IN, spi_b, home_address_1, ESP, TRANSPORT):
            local_address = home_agent_1 &
            remote_address = home_address_1 &
            proto = MH & mh_type = BAck

        home agent SPD-S:
          - IF local_address = home_agent_1 &
               remote_address = home_address_1 & proto = MH &
               local_mh_type = BAck & remote_mh_type = BU
            Then use SA SA2 (OUT) and SA1 (IN)

        home agent SAD:
          - SA2(OUT, spi_b, home_address_1, ESP, TRANSPORT):
            local_address = home_agent_1 &
            remote_address = home_address_1 &
            proto = MH & mh_type = BAck
          - SA1(IN, spi_a, home_agent_1, ESP, TRANSPORT):
            local_address = home_address_1 &
            remote_address = home_agent_1 &
            proto = MH & mh_type = BU

6.2.  Return Routabililty Messages

   The following are the SPD and SAD entries on the mobile node and the
   home agent to protect Return Routability messages.

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        mobile node SPD-S:
          - IF local_address = home_address_1 & remote_address = any &
            proto = MH & local_mh_type = HoTi & remote_mh_type = HoT
            Then use SA SA3 (OUT) and SA4 (IN)

        mobile node SAD:
          - SA3(OUT, spi_c, home_agent_1, ESP, TUNNEL):
            local_address = home_address_1 & remote_address = any &
            proto = MH & mh_type = HoTi
          - SA4(IN, spi_d, care_of_address_1, ESP, TUNNEL):
            local_address = any & remote_address = home_address_1 &
            proto = MH & mh_type = HoT

        home agent SPD-S:
          - IF remote_address = home_address_1 & local_address = any &
            proto = MH & local_mh_type = HoT & remote_mh_type = HoTi
            Then use SA SA4 (OUT) and SA3 (IN)

        home agent SAD:
          - SA4(OUT, spi_d, care_of_address_1, ESP, TUNNEL):
            local_address = any & remote_address = home_address_1 &
            proto = MH & mh_type = HoT
          - SA3(IN, spi_c, home_agent_1, ESP, TUNNEL):
            local_address = home_address_1 & remote_address = any &
            proto = MH & mh_type = HoTi

6.3.  Mobile Prefix Discovery Messages

   The following are the SPD and SAD entries used to protect Mobile
   Prefix Discovery messages.

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        mobile node SPD-S:
          - IF local_address = home_address_1 &
               remote_address = home_agent_1 & proto = ICMPv6 &
               local_icmp6_type = MPS & remote_icmp6_type = MPA
            Then use SA SA5 (OUT) and SA6 (IN)

        mobile node SAD:
          - SA5(OUT, spi_e, home_agent_1, ESP, TRANSPORT):
            local_address = home_address_1 &
            remote_address = home_agent_1 &
            proto = ICMPv6 & icmp6_type = MPS
          - SA6(IN, spi_f, home_address_1, ESP, TRANSPORT):
            local_address = home_agent_1 &
            remote_address = home_address_1 &
            proto = ICMPv6 & icmp6_type = MPA

        home agent SPD-S:
          - IF local_address = home_agent_1 &
               remote_address = home_address_1 & proto = ICMPv6 &
               local_icmp6_type = MPA & remote_icmp6_type = MPS
            Then use SA SA6 (OUT) and SA5 (IN)

        home agent SAD:
          - SA6(OUT, spi_f, home_address_1, ESP, TRANSPORT):
            local_address = home_agent_1 &
            remote_address = home_address_1 &
            proto = ICMPv6 & icmp6_type = MPA
          - SA5(IN, spi_e, home_agent_1, ESP, TRANSPORT):
            local_address = home_address_1 &
            remote_address = home_agent_1 &
            proto = ICMPv6 & icmp6_type = MPS

6.4.  Payload Packets

   Regular payload traffic between the mobile node and the correspondent
   node tunneled through the home agent can be protected by IPsec, if
   required.  The mobile node and the home agent use ESP in tunnel mode
   to protect the tunneled traffic.  The SPD and SAD entries shown in
   Section 5.2.4 of [3] are applicable here.

7.  Dynamic Configuration

   This section describes the use of IKEv2 to setup the required
   security associations.

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7.1.  Peer Authorization Database Entries

   The following describes PAD entries on the mobile node and the home
   agent.  The PAD entries are only example configurations.  Note that
   the PAD is a logical concept and a particular mobile node and a home
   agent implementation can implement the PAD in an implementation
   specific manner.  The PAD state may also be distributed across
   various databases in a specific implementation.

       mobile node PAD:
         - IF remote_identity = home_agent_identity_1
              Then authenticate (shared secret/certificate/)
              and authorize CHILD_SA for remote address home_agent_1

       home agent PAD:
         - IF remote_identity = user_1
              Then authenticate (shared secret/certificate/EAP)
              and authorize CHILD_SAs for remote address home_address_1

   The list of authentication mechanisms in the above examples is not
   exhaustive.  There could be other credentials used for authentication
   stored in the PAD.

   In case of dynamic home address assignment, the home agent creates a
   temporary PAD entry linking the authenticated peer identity and the
   newly allocated home address.

7.2.  Security Policy Database Entries

   The following sections describe the security policy entries on the
   mobile node and the home agent.  The SPD entries are only example
   configurations.  A particular mobile node implementation and a Home
   Agent implementation could configure different SPD entries as long as
   they provide the required security of the Mobile IPv6 signaling
   messages.

   In the examples shown below, the identity of the user of the mobile
   node is assumed to be user_1, the home address of the mobile node is
   assumed to be home_address_1, the primary care-of address of the
   mobile node is assumed to be care_of_address_1 and the IPv6 address
   of the Home Agent is assumed to be home_agent_1.

7.2.1.  Binding Updates and Acknowledgements

   The following are the SPD entries on the mobile node and the home
   agent for protecting Binding Updates and Acknowledgements.

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       mobile node SPD-S:
         - IF local_address = home_address_1 &
              remote_address = home_agent_1 &
              proto = MH & local_mh_type = BU & remote_mh_type = BAck
           Then use SA ESP transport mode
           Initiate using IDi = user_1 to address home_agent_1

       home agent SPD-S:
         - IF local_address = home_agent_1 &
              remote_address = home_address_1 &
              proto = MH & local_mh_type = BAck & remote_mh_type = BU
           Then use SA ESP transport mode

   In the examples shown above, the home address of the mobile node
   might not be available all the time.  For instance, the mobile node
   might have not configured a home address yet.  When the mobile node
   acquires a new home address, it must either add the address to the
   corresponding SPD entries or create the SPD entries for the home
   address.

   The home agent should have named SPD entries per mobile node, based
   on the identity of the mobile node.  The identity of the mobile node
   is stored in the "Name" selector in the SPD [5].  The home address
   presented by the mobile node during the IKE negotiation is stored as
   the remote IP address in the resultant IPsec security associations.
   If the mobile node dynamically configures a home agent and the home
   address, the home agent may not know which mobile nodes it is
   supposed to be serving.  Therefore the home agent cannot have SPD
   entries configured per mobile node.  Instead the home agent should
   have have generic SPD entries to prevent mobility header traffic that
   requires IPsec protection from bypassing the IPsec filters.  Once a
   mobile node authenticates to the home agent and configures a home
   address, appropriate SPD entries are created for the mobile node.

   The Mobility Header message type is negotiated by placing it in the
   most significant eight bits of the 16 bit local "port" selector
   during IKEv2 exchange.  For more details, refer to [5].  The TSi and
   TSr payloads in the above examples will contain many other selectors
   apart from home_address_1.  For the sake of brevity, we show only
   those values that are relevant for Mobile IPv6.

7.2.2.  Return Routability Messages

   The following are the SPD entries on the mobile node and the home
   agent for protecting the Return Routability messages.

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       mobile node SPD-S:
         - IF local_address = home_address_1 & remote_address = any &
              proto = MH & local_mh_type = HoTi & remote_mh_type = HoT
           Then use SA ESP tunnel mode
           Initiate using IDi = user_1 to address home_agent_1

       home agent SPD-S:
         - IF local_address = any & remote_address = home_address_1 &
              proto = MH & local_mh_type = HoT & remote_mh_type = HoTi
           Then use SA ESP tunnel mode

   When the mobile node's care-of address changes the SPD entries on
   both the mobile node and the home agent must be updated.  The home
   agent knows about the change in care-of address of the mobile node
   when it receives a Binding Update from the mobile node.

7.2.3.  Mobile Prefix Discovery Messages

   The following are the SPD entries on the mobile node and the home
   agent for protecting Mobile Prefix Discovery messages.

       mobile node SPD-S:
         - IF local_address = home_address_1 &
              remote_address = home_agent_1 &
              proto = ICMPv6 & local_icmp6_type = MPS &
              remote_icmp6_type = MPA
           Then use SA ESP transport mode
           Initiate using IDi = user_1 to address home_agent_1

        home agent SPD-S:
         - IF local_address = home_agent_1 &
              remote_address = home_address_1 &
              proto = ICMPv6 & local_icmp6_type = MPA &
              remote_icmp6_type = MPS
           Then use SA ESP transport mode

   In the examples shown above, the home address of the mobile node
   might not be available all the time.  When the mobile node acquires a
   new home address, it must add the address to the corresponding SPD
   entries.

   The TSi and TSr payloads in the above examples will contain many
   other selectors apart from home_address_1.  For brevity, they are not
   show here.

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7.2.4.  Payload Packets

   The following are the SPD entries on the mobile node and the home
   agent if payload traffic exchanged between the mobile node and its
   Correspondent Node needs to be protected.  The SPD entries are
   similar to the entries for protecting Return Routability messages and
   have lower priority than the above SPD entries.

       mobile node SPD-S:
         - IF interface = IPv6 tunnel to home_agent_1 &
           source = home_address_1 & destination = any & proto = X
           Then use SA ESP tunnel mode
           Initiate using IDi = user_1 to address home_agent_1

       home agent SPD-S:
         - IF interface = IPv6 tunnel to home_address_1 &
           source = any & destination = home_address_1 & proto = X
           Then use SA ESP tunnel mode

7.3.  Security Association negotiation using IKEv2

   Mobile IPv6 signaling messages are typically initiated by the mobile
   node.  The mobile node sends a Binding Update to the home agent
   whenever it moves and acquires a new care-of address.

   The mobile node initiates an IKEv2 protocol exchange if the required
   security associations are not present.  A possible mechanism used for
   mutual authentication is a shared secret between the mobile node and
   the home agent.  The home agent uses the identity of the mobile node
   to identify the corresponding shared secret.  When a public key based
   mechanism is available, it should be the preferred mechanism for
   mutual authentication.

   If a shared secret is being used, the mobile node uses the shared
   secret to generate the AUTH payload in the IKE_AUTH exchange.  If the
   mobile node is using a public key based mechanism, then it uses its
   private key to generate the AUTH payload in the IKE_AUTH exchange.

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        Mobile Node                      Home Agent
        -----------                      ----------
        HDR, SAi1, KEi, Ni      -->

                               <--      HDR, SAr1, KEr, Nr, [CERTREQ]

        HDR, SK {IDi, [CERT,] [CERTREQ,] [IDr,]
                 AUTH, SAi2, TSi, TSr}
                                -->

                               <--      HDR, SK {IDr, [CERT,] AUTH,
                                                  SAr2, TSi, TSr}

   The mobile node always includes its identity in the IDi payload in
   the IKE_AUTH exchange.  The mobile node could use the following
   different types of identities to identity itself to the home agent.

   o  Home Address - The mobile node could use its statically configured
      home address as its identity.  In this case the ID Type field is
      set to ID_IPV6_ADDR.
   o  FQDN - The mobile node can use a Fully Qualified Domain Name as
      the identifier and set the ID Type field to ID_FQDN.
   o  RFC 822 identifier - If the mobile node uses a RFC 822 identifier
      [9], it sets the ID Type field to ID_RFC822_ADDR.

   The above list of identities is not exhaustive.

   In the IKE_AUTH exchange, the mobile node includes the home address
   and the appropriate selectors in the TSi (Traffic Selector-initiator)
   payload to negotiate IPsec security associations for protecting the
   Binding Update and Binding Acknowledgement messages.  The mobile node
   MAY use a range of selectors that includes the mobility message types
   for Binding Update and Binding Acknowledgement to use the same pair
   of IPsec security association for both messages.

   After the IKE_AUTH exchange completes, the mobile node initiates
   CREATE_CHILD_SA exchanges to negotiate additional security
   associations for protecting Return Routability signaling, Mobile
   Prefix Discovery messages and optionally payload traffic.  The
   CREATE_CHILD_SA exchanges are protected by IKEv2 security association
   created during the IKE_SA_INIT exchange.  If a correspondent node,
   that is also a mobile node, initiates the return routability
   exchange, then the home agent initiates the CREATE_CHILD_SA exchange
   to negotiate security associations for protecting Return Routabilty
   messages.

   It is important that the security associations are created based on
   the home address of the mobile node, so that the security

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   associations survive care-of address change.  The mobile node MUST
   use its home address as the initiator IP address in the TSi payload
   in the CREATE_CHILD_SA exchange in order to create the IPsec security
   associations for the home address.

        Mobile Node                      Home Agent
        -----------                      ----------
        HDR, SK {[N], SA, Ni, [KEi],
                 [TSi, TSr]}    -->

                                <--      HDR, SK {SA, Nr, [KEr],
                                                  [TSi, TSr]}

   When PKI based authentication is used between the mobile node and the
   Home Agent, the identity presented by the mobile node in the IDi
   payload MUST correspond to the identity in the certificate obtained
   by the Home Agent.  The home agent uses the identity presented in the
   IDi payload to lookup the policy and the certificate that corresponds
   to the mobile node.  If the mobile node presents its home address in
   the IDi payload, then the home agent MUST verify that the home
   address matches the address in an iPAddress field in the
   SubjectAltName extension [8].

   When the mobile node uses its home address in the IDi field,
   implementations are not required to match the source address in the
   outermost IP header with the IP address in the IDi field.  According
   to RFC 4306 [4], the IP header fields in the IKEv2 messages are
   ignored and used only in the IP headers for IKEv2 messages sent as
   replies.

7.4.  Movements and Dynamic Keying

   If the mobile node moves and its care-of address changes, the IKEv2
   SA might not be valid.  RFC 3775 defines a mechanism based on the
   successful exchange of Binding Update and Binding Acknowledgement
   messages.  The mobile node establishes the IKE SA with the home agent
   using its primary care-of address.  The IKE SA endpoints are updated
   on the home agent when it receives the Binding Update from the mobile
   node's new care-of address and on the mobile node when it sends the
   Binding Update to the home agent or when it receives the Binding
   acknowledgement sent by the home agent.  This capability to change
   IKE endpoints is indicated through setting the Key Management
   Capability (K) flag [2] in the Binding Update and Binding
   Acknowledgement messages.  If the mobile node or the home agent does
   not support this capability, and has no other means to update the
   addresses, then an IKEv2 exchange MUST be initiated to re-establish a
   new IKE SA.

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8.  The use of EAP authentication

   In addition to using public key signatures and shared secrets, EAP
   [10] can be used with IKEv2 for authenticating the mobile node to the
   home agent.

   The mobile node indicates that it wants to use EAP by including the
   IDi payload but leaving out the AUTH payload in the first message
   during the IKE_AUTH exchange.  The home agent then includes an EAP
   payload if it is willing to use an extensible authentication method.
   Security associations are not created until the subsequent IKE_AUTH
   exchange after successful EAP authentication.  The use of EAP adds at
   least two round trips to the IKE negotiation.  The number of round
   trips depends on the EAP method used.

        Mobile Node                     Home Agent
        ------------                    ----------
        HDR, SAi1, KEi, Ni      -->

                                <--     HDR, SAr1, KEr, Nr, [CERTREQ]

        HDR, SK {IDi, [CERTREQ,] [IDr,]
                 SAi2, TSi, TSr}-->

                                <--     HDR, SK {IDr, [CERT,] AUTH,
                                                 EAP }
                                 .
                                 .
                                 .

        HDR, SK {EAP}           -->

                                <--     HDR, SK {EAP (success)}

        HDR, SK {AUTH}          -->

                                <--     HDR, SK {AUTH, SAr2, TSi,
                                                 TSr}

   When EAP is used, the identity presented by the mobile node in the
   IDi field may not be the actual identity of the mobile node.  It
   could be set to an identity that is used only for AAA routing
   purposes and selecting the right EAP method.  It is possible that the
   actual identity is carried inside EAP, invisible to the home agent.
   While IKEv2 does not allow an EAP Identity Request/Response message
   exchange, EAP methods may exchange identities within themselves.  In
   this case the home agent MUST acquire the mobile node's identity from
   the corresponding AAA server.  How the home agent acquires the mobile

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   node's identity is out of scope for this document.

   Some EAP methods, when used with IKEv2, generate a shared key on the
   mobile node and the Home Agent once the EAP authentication succeeds.
   This shared key is used to generate the AUTH payloads in the
   subsequent IKEv2 messages.  The shared key, if used to generate the
   AUTH payloads, MUST NOT be used for any other purpose.  For more
   details, refer to [4].

   The use of EAP between the mobile node and the home agent might
   require the home agent to contact an authorization server like the
   AAA Home server, on the home link, to authenticate the mobile node.
   Please refer to [7] for more details.

9.  Dynamic Home Address Configuration

   The mobile node can dynamically configure a home address by including
   a Configuration Payload in the IKE_AUTH exchange, with a request for
   an address from the home link.  The mobile node should include a
   zero-length INTERNAL_IP6_ADDRESS attribute in the CFG_REQUEST
   Payload.  The mobile node MAY include multiple instances of the
   INTERNAL_IP6_ADDRESS to request multiple home address to the assigned
   by the home agent.

   When the home agent receives a configuration payload with a
   CFG_REQUEST for INTERNAL_IP6_ADDRESS, it replies with a valid home
   address for the mobile node.  The INTERNAL_IP6_ADDRESS attribute in
   the CFG_REPLY contains the prefix length of the home prefix in
   addition to a 128 bit home address.  The home agent could use a local
   database or contact a DHCPv6 server on the home link to allocate a
   home address.  The duration for which the home address is allocated
   to the mobile node is the same as duration for which an IKEv2
   security association exists between the mobile node and the home
   agent.  If the IKEv2 security association is rekeyed, the home
   address lifetime is also extended.

        Mobile Node                        Home Agent
        -----------                        ----------
        HDR, SK {IDi, [CERT,] [CERTREQ,]
                 [IDr,] AUTH, CP(CFG_REQUEST),
                 SAi2, TSi, TSr}
                                 -->

                                 <--   HDR, SK {IDr, [CERT,] AUTH,
                                                CP(CFG_REPLY), SAr2,
                                                TSi, TSr}

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   The mobile node could suggest a home address that it wants to use in
   the CFG_REQUEST.  For example, this could be a home address that it
   was allocated before or could be an address the mobile node auto-
   configured from the IPv6 prefix on the home link.  The Home Agent
   could let the mobile node use the same home address by setting the
   INTERNAL_IP6_ADDRESS attribute in the CFG_REPLY payload to the same
   home address.  If the home agent wants the mobile node to use a
   different home address, it sends a new home address in the
   INTERNAL_IP6_ADDRESS attribute in the CFG_REPLY payload.  The Mobile
   Node MUST stop using its old home address and start using the newly
   allocated home address.

   In case the home agent is unable to allocate a home address for the
   mobile node during the IKE_AUTH exchange, it MUST send a Notify
   Payload with an INTERNAL_ADDRESS_FAILURE message.  When the mobile
   node receives a Notify Payload with an INTERNAL_ADDRESS_FAILURE
   message, it SHOULD terminate the IKE_AUTH exchange.  The mobile node
   then should initiate a new IKE_SA_INIT and IKE_AUTH exchange and try
   to auto-configure a home address as described in [13].  The mobile
   node MAY also switch to another home agent.  The new home agent
   address can be obtained by consulting a home agent list received
   during a previous home agent discovery phase or, if such list is
   empty or not available, by attempting a new home agent discovery.

   If the mobile node wants to configure a DNS server from the home link
   it can request for the DNS server information by including an
   INTERNAL_IP6_DNS attribute in the CFG_REQUEST payload.

10.  Security Considerations

   This document describes how IPsec can be used to secure Mobile IPv6
   signaling messages.  Please refer to RFC 3775 for security
   considerations related to the use of IPsec with Mobile IPv6.

   A misbehaving mobile node could create IPsec security associations
   for a home address that belongs to another mobile node.  Therefore,
   the home agent should check if a particular mobile node is authorized
   to use a home address before creating IPsec security associations for
   the home address.  If the home address is assigned as described in
   Section 9, the home agent MUST associate the home address with the
   identity used in IKE negotiation.  The home agent MAY store the
   assigned home address in the SPD entries created for the mobile node.

   The use of EAP for authenticating the mobile node to the home agent
   is described in Section 8.  Security considerations related to the
   use of EAP with IKEv2 are described in [4].

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11.  IANA Considerations

   This document requires no action from IANA.

12.  Acknowledgements

   The authors would like to thank Mika Joutsenvirta, Pasi Eronen, Jari
   Arkko, Gerardo Giaretta, Shinta Sugimoto, Tero Kivinen, Steve
   Bellovin, Kilian Weniger and Vijay Gurbani for reviewing the
   document.

   Many of the requirements listed in Section 4 are copied from RFC
   3776.  Therefore, the authors of RFC 3776 are acknowledged.

13.  References

13.1.  Normative References

   [1]  Bradner, S., "Key words for use in RFCs to Indicate Requirement
        Levels", BCP 14, RFC 2119, March 1997.

   [2]  Johnson, D., Perkins, C., and J. Arkko, "Mobility Support in
        IPv6", RFC 3775, June 2004.

   [3]  Arkko, J., Devarapalli, V., and F. Dupont, "Using IPsec to
        Protect Mobile IPv6 Signaling Between Mobile Nodes and Home
        Agents", RFC 3776, June 2004.

   [4]  Kaufman, C., "Internet Key Exchange (IKEv2) Protocol", RFC 4306,
        December 2005.

   [5]  Kent, S. and K. Seo, "Security Architecture for the Internet
        Protocol", RFC 4301, December 2005.

   [6]  Kent, S., "IP Encapsulating Security Payload (ESP)", RFC 4303,
        December 2005.

13.2.  Informative References

   [7]   Giaretta, G., "AAA Goals for Mobile IPv6",
         draft-ietf-mip6-aaa-ha-goals-03 (work in progress),
         September 2006.

   [8]   Korver, B., "The Internet IP Security PKI Profile of IKEv1/
         ISAKMP, IKEv2, and PKIX",
         draft-ietf-pki4ipsec-ikecert-profile-11 (work in progress),

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         September 2006.

   [9]   Crocker, D., "Standard for the format of ARPA Internet text
         messages", STD 11, RFC 822, August 1982.

   [10]  Aboba, B., Blunk, L., Vollbrecht, J., Carlson, J., and H.
         Levkowetz, "Extensible Authentication Protocol (EAP)",
         RFC 3748, June 2004.

   [11]  Kent, S. and R. Atkinson, "Security Architecture for the
         Internet Protocol", RFC 2401, November 1998.

   [12]  Sugimoto, S., "PF_KEY Extension as an Interface between Mobile
         IPv6 and IPsec/IKE", draft-sugimoto-mip6-pfkey-migrate-03 (work
         in progress), September 2006.

   [13]  Giaretta, G., "Mobile IPv6 bootstrapping in split scenario",
         draft-ietf-mip6-bootstrapping-split-03 (work in progress),
         October 2006.

Authors' Addresses

   Vijay Devarapalli
   Azaire Networks
   4800 Great America Pkwy
   Santa Clara, CA  95054
   USA

   Email: vijay.devarapalli@azairenet.com

   Francis Dupont
   CELAR

   Email: Francis.Dupont@fdupont.fr

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Full Copyright Statement

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Acknowledgment

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