Home
You are not currently signed in.

RFC4857

  1. RFC 4857
Network Working Group                                     E. Fogelstroem
Request for Comments: 4857                                    A. Jonsson
Category: Experimental                                          Ericsson
                                                              C. Perkins
                                                  Nokia Siemens Networks
                                                               June 2007


                   Mobile IPv4 Regional Registration

Status of This Memo

   This memo defines an Experimental Protocol for the Internet
   community.  It does not specify an Internet standard of any kind.
   Discussion and suggestions for improvement are requested.
   Distribution of this memo is unlimited.

Copyright Notice

   Copyright (C) The IETF Trust (2007).

Abstract

   Using Mobile IP, a mobile node registers with its home agent each
   time it changes care-of address.  This document describes a new kind
   of "regional registrations", i.e., registrations local to the visited
   domain.  The regional registrations are performed via a new network
   entity called a Gateway Foreign Agent (GFA) and introduce a layer of
   hierarchy in the visited domain.  Regional registrations reduce the
   number of signaling messages to the home network, and reduce the
   signaling delay when a mobile node moves from one foreign agent to
   another within the same visited domain.  This document is an optional
   extension to the Mobile IPv4 protocol.

Table of Contents

   1. Introduction ....................................................3
   2. Overview of Regional Registrations ..............................4
   3. Terminology .....................................................5
   4. Description of the Protocol .....................................7
      4.1. General Assumptions ........................................7
           4.1.1. Visited Domain ......................................8
           4.1.2. Authentication ......................................8
      4.2. Protocol Overview ..........................................9
      4.3. Advertising Foreign Agent and GFA .........................10
      4.4. Backwards Compatibility with RFC 3344 .....................10
   5. Home Registration ..............................................11
      5.1. Mobile Node Considerations ................................11



Fogelstroem, et al.           Experimental                      [Page 1]
RFC 4857           Mobile IPv4 Regional Registration           June 2007


      5.2. Foreign Agent Considerations ..............................12
      5.3. GFA Considerations ........................................13
      5.4. Home Agent Considerations .................................14
   6. Regional Registration ..........................................14
      6.1. Mobile Node Considerations ................................15
      6.2. Foreign Agent Considerations ..............................16
      6.3. GFA Considerations ........................................16
   7. Dynamic GFA Assignment .........................................17
      7.1. Mobile Node Considerations for Dynamic GFA Assignment .....17
      7.2. Foreign Agent Considerations for Dynamic GFA Assignment ...17
      7.3. GFA Considerations for Dynamic GFA Assignment .............18
      7.4. Home Agent Considerations for Dynamic GFA Assignment ......18
      7.5. Regional Registration .....................................19
   8. Router Discovery Extensions ....................................19
      8.1. Regional Registration Flag ................................19
      8.2. Foreign Agent NAI Extension ...............................19
   9. Regional Extensions to Mobile IPv4 Registration Messages .......20
      9.1. GFA IP Address Extension ..................................20
      9.2. Hierarchical Foreign Agent Extension ......................21
      9.3. Replay Protection Style ...................................22
      9.4. Regional Registration Lifetime Extension ..................23
      9.5. New Code Values for Registration Reply ....................24
   10. Regional Registration Message Formats .........................25
      10.1. Regional Registration Request ............................26
      10.2. Regional Registration Reply ..............................27
      10.3. New Regional Registration Reply Code Values ..............28
   11. Authentication Extensions .....................................29
   12. Security Considerations .......................................29
   13. IANA Considerations ...........................................30
   14. Acknowledgements ..............................................31
   15. References ....................................................32
      15.1. Normative References .....................................32
      15.2. Informative References ...................................32
   Appendix A. Authentication, Authorization, and Accounting (AAA)
               Interactions ..........................................33
   Appendix B. Anchoring at a GFA ....................................33















Fogelstroem, et al.           Experimental                      [Page 2]
RFC 4857           Mobile IPv4 Regional Registration           June 2007


1.  Introduction

   This document is an optional extension to the Mobile IPv4 protocol,
   and proposes a means for mobile nodes to register locally within a
   visited domain.  By registering locally, the number of signaling
   messages to the home network are kept to a minimum, and the signaling
   delay is reduced.

   In Mobile IP, as specified in [RFC3344], a mobile node registers with
   its home agent each time it changes care-of address.  If the distance
   between the visited network and the home network of the mobile node
   is large, the signaling delay for these registrations may be long.
   We propose a solution for performing registrations locally in the
   visited domain: regional registrations.  Regional registrations
   minimize the number of signaling messages to the home network, and
   reduce the signaling delay when a mobile node moves from one foreign
   agent to another within the same visited domain.  This will both
   decrease the load on the home network, and speed up the process of
   handover within the visited domain.

   Regional registrations introduce a new network node: the Gateway
   Foreign Agent (GFA).  The address of the GFA is advertised by the
   foreign agents in a visited domain.  When a mobile node first arrives
   at this visited domain, it performs a home registration -- that is, a
   registration with its home agent.  At this registration, the mobile
   node registers the address of the GFA as its care-of address with its
   home agent.  When moving between different foreign agents within the
   same visited domain, the mobile node only needs to make a regional
   registration to the GFA.

   In their simplest form, regional registrations are performed
   transparently to the home agent.  Additionally, regional
   registrations may also allow dynamic assignment of GFA.  The solution
   for dynamic GFA assignment requires support in the mobile node, the
   foreign agent, the GFA, and the home agent.

   The proposed regional registration protocol supports one level of
   foreign agent hierarchy beneath the GFA, but the protocol may be
   utilized to support several levels of hierarchy.  Multiple levels of
   hierarchy are not discussed in this document.

   Although this document focuses on regional registrations in visited
   domains, regional registrations are also possible in the home domain.

   Foreign agents that support regional registrations are also required
   to support registrations according to Mobile IPv4 [RFC3344].

   The following section gives an overview of regional registrations.



Fogelstroem, et al.           Experimental                      [Page 3]
RFC 4857           Mobile IPv4 Regional Registration           June 2007


2.  Overview of Regional Registrations

   In standard Mobile IP, there are three entities of interest.  The
   Mobile Node (MN), the Foreign Agent (FA), and the Home Agent (HA).
   The MN communicates with the HA, either through an FA or directly (if
   it has a co-located care-of address).  With Regional Registrations, a
   new entity is defined: the Gateway Foreign Agent (GFA).  The GFA sits
   between the MN/FA and HA, and to the HA, it appears as if the MN's
   temporary care-of address is that of the GFA.  When a MN moves within
   a site, it only need interact with the GFA, so that the GFA knows at
   what temporary address the MN is currently reachable.

   Two types of registration messages are used.  Regular [RFC3344]
   Registration Requests/Replies are still used for when the MN
   exchanges Registration Requests/Replies with the HA, but these
   messages get forwarded through a GFA, and include new extensions.

   In addition, a new pair of registration messages, Regional
   Registration Requests/Replies, are used between MNs/FAs/GFAs for
   intra-site signaling.  A MN uses these messages to communicate its
   new addresses to the GFA as it moves around within a site.

   There are two models of how the MN uses Regional Registrations.  The
   FA can advertise a GFA to the MN.  Alternatively, the FA can indicate
   that dynamic assignment of GFA is to be used.  With dynamic GFA
   assignment, the MN does not choose the GFA, rather the FA (or GFA)
   does so after receiving a Registration Request from the MN.  However,
   in this mode the HA must understand (and support) Regional
   Registrations in order for them to be used.  This last form is not
   transparent because the MN doesn't know in advance what GFA will be
   used, and cannot include it in a signed message to the HA.

   When a MN moves to a new domain (determined by comparing its Network
   Access Identifier (NAI) [RFC4282] with the FA-NAI included in
   received Agent Advertisements), it can opt to use Regional
   Registrations.  A site indicates support for Regional Registrations
   by setting the I-bit of the Mobile IP Agent Advertisement extension.
   In addition, such advertisements include a list of one or more care-
   of addresses.  If there is only one care-of address, this is the
   address of the FA itself.  In addition, the advertisement may include
   the address of the GFA.  A GFA care-of address of all-ones indicates
   that dynamic assignment of GFA is supported.

   A MN requests initial Regional Registration by sending a normal
   Registration Request to the FA, but setting the care-of address to
   that of the GFA (i.e., if it has selected it wishes to use this GFA)
   or all-zeros (which signals a dynamic GFA assignment request).  The
   FA adds a Hierarchical FA (HFA) extension and relays the request to



Fogelstroem, et al.           Experimental                      [Page 4]
RFC 4857           Mobile IPv4 Regional Registration           June 2007


   the appropriate GFA.  The HFA extension contains a single field: the
   IP address of the FA.

   Note: the algorithm for MNs with co-located care-of addresses is
   similar, except that there is no FA, so the MN behaves as the FA in
   terms of the messages it sends.

   A GFA receives Registration Requests relayed from an FA.  If the
   care-of address in the received Registration Request is zero, the GFA
   assigns one.  A GFA IP Address extension is then added to the
   Registration Request, and the message is forwarded to the HA.  The
   GFA IP Address extension contains a single field: the IP address of
   the GFA.  (A separate field is needed for this because the
   Registration Request message between the MN/HA is signed and cannot
   be modified.)

   HAs process received Registration Requests in the same way as before,
   except in the case of dynamic GFA assignment.  In this case, the HA
   uses the GFA address from the GFA IP Address extension as the MN's
   current care-of address.  In addition, the Registration Reply message
   must include the GFA IP Address extension.

   The regular Registration Requests/Replies are protected as described
   in [RFC3344], by use of the mobility security association between the
   MN and the HA.  For regional registrations, it is assumed that a
   mobility security association is established between the MN and GFA
   during registration with the HA.  Regional Registration Requests/
   Replies are protected by use of this security association between the
   MN and the GFA, e.g., by use of a MN-GFA Authentication extension.

   HFA extensions, added by an FA to a Registration Request or Regional
   Registration Request, are protected by an FA-FA Authentication
   extension.  Security associations between FAs and GFAs within a
   domain are assumed to exist prior to regional registrations.

   Dynamic GFA assignment requires means for securely sending
   Registration Requests from the GFA to the HA, in order to protect the
   GFA IP Address extension.

3.  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].







Fogelstroem, et al.           Experimental                      [Page 5]
RFC 4857           Mobile IPv4 Regional Registration           June 2007


   This document uses the following terms:

   Critical type
      A type value for an extension in the range 0-127, which indicates
      that the extension MUST either be known to the recipient, or that
      the message containing the extension MUST be rejected.  In other
      words, an extension with a critical type value is non-skippable.

   Domain
      A collection of networks sharing a common network administration.

   Foreign Agent (FA)
      As defined in [RFC3344].

   Gateway Foreign Agent (GFA)
      A Foreign Agent which has a publicly routable IP address.  A GFA
      may, for instance, be placed in or near a firewall.

   Home Agent (HA)
      As defined in [RFC3344].

   Home domain
      The domain where the home network and home agent are located.

   Home network
      As defined in [RFC3344].

   Home Registration
      A registration, processed by the home agent and the GFA, using the
      specification in [RFC3344] possibly with additional extensions
      defined in this document.

   Local Care-of Address
      A care-of address that is assigned to either a mobile node or a
      foreign agent offering local connectivity to a mobile node.  A
      registration message from the mobile node is subsequently sent to
      a GFA via the local care-of address.

   Mobile Node (MN)
      As defined in [RFC3344].

   Mobility Agent (MA)
      As defined in [RFC3344].

   Network Access Identifier(NAI)
      Some features of this protocol specification rely on use of the
      Network Access Identifier (NAI) [RFC2794].




Fogelstroem, et al.           Experimental                      [Page 6]
RFC 4857           Mobile IPv4 Regional Registration           June 2007


   Regional Registration
      A mobile node performs registration locally at the visited domain,
      by sending a Regional Registration Request to a GFA, and receiving
      a Regional Registration Reply in return.

   Registration Key
      A key used by mobile nodes and mobility agents to secure certain
      signals and control messages specified by Mobile IP.

   Visited domain
      The domain where the visited network, the current foreign agent,
      and the GFA are located.

   Visited network
      As defined in [RFC3344].

4.  Description of the Protocol

   This section provides an overview of the regional registration
   protocol.

4.1.  General Assumptions

   Our general model of operation is illustrated in Figure 1, showing a
   visited domain with FA and GFA, and a home network with a HA:

        +---------------------------+                 +----------------+
        |       Visited Domain      |                 |      Home      |
        |                           |   +---------+   |     Network    |
        |                           |   |         |   |                |
        |  +------+      +-------+  |   | Public  |   |    +------+    |
        |  |  FA  |------|  GFA  |-------------------------|  HA  |    |
        |  +--+---+      +-------+  |   | Network |   |    +------+    |
        |     |                     |   |         |   |                |
        +-----|---------------------+   +---------+   +----------------+
              |
           +--+---+
           |  MN  |
           +------+

                          Figure 1: Model of Operation

   For MNs that cannot process a NAI, or with mobility agents that are
   not configured to advertise their NAI, regional registration is still
   useful, but processing the NAI makes it easier for the mobile node to
   reliably detect domain changes.





Fogelstroem, et al.           Experimental                      [Page 7]
RFC 4857           Mobile IPv4 Regional Registration           June 2007


4.1.1.  Visited Domain

   We assume two hierarchy levels of FAs in the visited domain.  At the
   top level of the hierarchy, there is at least one GFA, which is an FA
   with additional features.  A GFA must have a publicly routable
   address.  Beneath a GFA, there are one or more FAs.  We assume that
   there exist established security associations between a GFA and the
   FAs beneath it.  When designing a domain supporting regional
   registrations, the FAs and GFAs in this domain must be compatible.
   That is, they should support the same encapsulation types,
   compression mechanisms, etc.

   When a MN changes care-of address under the same GFA, it MAY perform
   a regional registration.  If the MN changes GFA, within a visited
   domain or between visited domains, it MUST perform a home
   registration.

4.1.2.  Authentication

   With regional registrations, a GFA address is registered at the HA as
   the care-of address of the MN.  If a Mobile-Foreign (MN-FA)
   Authentication extension is present in a Registration Request message
   directed to the HA, the GFA will perform the authentication.
   Similarly, if a Foreign-Home (FA-HA) Authentication extension is
   present in a Registration Request message, the authentication is
   performed between the GFA and the HA.  To summarize, the GFA takes
   the role of an FA with regard to security associations in the home
   registrations.

   Regional registration messages also need to be protected with
   authentication extensions in the same way as registrations with the
   HA.  This means that the MN and the GFA MUST have received the keys
   needed to construct the authentication extensions before any regional
   registration is performed.  As described above, since the GFA address
   is the registered care-of address of the MN at its home network, the
   GFA is the agent within the visited domain that has to have the
   appropriate security associations with the HA and the MN.  The GFA's
   security association with the MN is then used to enable proper
   authentication for regional registrations (see Section 6).  How the
   keys are distributed is outside the scope of this draft.  One example
   is to distribute the keys as part of the home registration, for
   example according to [RFC4004] and [RFC3957].  Another example is
   pre-configured keys.








Fogelstroem, et al.           Experimental                      [Page 8]
RFC 4857           Mobile IPv4 Regional Registration           June 2007


4.2.  Protocol Overview

   When a MN first arrives at a visited domain, it performs a
   registration with its home network.  During this registration, the HA
   registers the care-of address of the MN.  In case the visited domain
   supports regional registrations, the care-of address that is
   registered at the HA is the address of a GFA.  The GFA keeps a
   visitor list of all the MNs currently registered with it.

   Since the care-of address registered at the HA is the GFA address, it
   will not change when the MN changes FA under the same GFA.  Thus, the
   HA does not need to be informed of further MN movements within the
   visited domain.

   Figure 2 illustrates the signaling message flow for home
   registration.  During the home registration, the HA records the GFA
   address as the care-of address of the MN.

     MN                     FA1                     GFA              HA
     |                       |                       |                |
     | Registration Request  |                       |                |
     |---------------------->|  Reg.  Request        |                |
     |                       |---------------------->|  Reg.  Request |
     |                       |                       |--------------->|
     |                       |                       |   Reg.  Reply  |
     |                       |  Reg.  Reply          |<---------------|
     |  Registration Reply   |<----------------------|                |
     |<----------------------|                       |                |
     |                       |                       |                |

                        Figure 2:  Home Registration

   Figure 3 illustrates the signaling message flow for regional
   registration.  Even though the MN's local care-of address changes,
   the HA continues to use the GFA address as the care-of address of the
   MN.  We introduce two new message types for regional registrations:
   Regional Registration Request and Regional Registration Reply.














Fogelstroem, et al.           Experimental                      [Page 9]
RFC 4857           Mobile IPv4 Regional Registration           June 2007


     MN                     FA2                            GFA       HA
     |                       |                              |         |
     | Regional Reg.  Req.   |                              |         |
     |---------------------->| Regional Registration  Req.  |         |
     |                       |----------------------------->|         |
     |                       | Regional Registration Reply  |         |
     | Regional Reg.  Reply  |<-----------------------------|         |
     |<----------------------|                              |         |
     |                       |                              |         |

                        Figure 3: Regional Registration

4.3.  Advertising Foreign Agent and GFA

   A FA typically announces its presence via an Agent Advertisement
   message [RFC3344].  If the domain to which an FA belongs supports
   regional registrations, the following changes apply to the Agent
   Advertisement.

   The 'I' flag (see Section 8.1) MUST be set to indicate that the
   domain supports regional registrations.  If the 'I' flag is set,
   there MUST be at least one care-of address in the Agent
   Advertisement.  If the 'I' flag is set and there is only one care-of
   address, it is the address of the FA.  If the 'I' flag is set, and
   there is more than one care-of address, the first care-of address is
   the local FA, and the last care-of address is the GFA.  (Any care-of
   addresses advertised in addition to these two are out of scope for
   this document).

   The FA-NAI (see Section 8.2) SHOULD also be present in the Agent
   Advertisement to enable the MN to decide whether or not it has moved
   to a new domain since its last registration.  The decision is based
   on whether the realm part of the advertised FA-NAI matches the realm
   of the FA-NAI advertised by the MN's previous FA.

4.4.  Backwards Compatibility with RFC 3344

   A domain that supports regional registrations should also be
   backwards compatible.

   An FA MUST support registrations according to Mobile IPv4 as defined
   in [RFC3344].  This allows MNs that don't support regional
   registrations to register via this FA using standard Mobile IPv4.  If
   the FA advertises both its own care-of address and a GFA care-of
   address, a MN that supports regional registrations but has a HA that
   doesn't, will still be able to make use of regional registrations
   through that GFA care-of address.




Fogelstroem, et al.           Experimental                     [Page 10]
RFC 4857           Mobile IPv4 Regional Registration           June 2007


   The advertised GFA care-of address MAY be set to all-ones, to
   indicate dynamic GFA assignment.  If the MN supports regional
   registrations, and an all-ones GFA care-of address is advertised, the
   MN SHOULD use dynamic GFA assignment (see Section 7.1).

5.  Home Registration

   This section gives a detailed description of home registration, i.e.,
   registration with the HA (on the home network).  Home registration is
   performed when a MN first arrives at a visited domain, when it
   requests a new HA, or when it changes GFA.  Home registration is also
   performed to renew bindings which would otherwise expire.

5.1.  Mobile Node Considerations

   Upon receipt of an Agent Advertisement message with the 'I' flag set
   and an FA-NAI extension, the MN compares the domain part of the FA
   NAI with the one received in the previous Agent Advertisement, to
   determine whether it has moved to a new domain since its last
   registration.  If the NAIs do not match, the MN MUST assume it has
   moved to a new domain.

   If the MN determines that it has moved to a new domain, it SHOULD
   insert the advertised GFA address in the care-of address field in the
   Registration Request message.  For dynamic GFA assignment, see
   Section 7.1.

   A MN with a co-located care-of address might also want to use
   regional registrations.  It then finds out the address of a GFA,
   either from Agent Advertisements sent by an FA, or by some means not
   described in this document.  The MN MAY then generate a Registration
   Request message, with the GFA address in the care-of address field,
   and send it directly to the GFA (not via an FA).  In this case, the
   MN MUST add a Hierarchical Foreign Agent (HFA) extension (see Section
   9.2), including its co-located care-of address, to the Registration
   Request before sending it.  The HFA extension MUST be protected by an
   authentication extension.  If the MN has established a mobility
   security association with the GFA, the HFA extension MUST be placed
   before the MN-FA Authentication extension, and it SHOULD be placed
   after the Mobile-Home (MN-HA) Authentication extension.  Otherwise,
   if the MN has no established mobility security association with the
   GFA, the HFA extension MUST be placed before the MN-HA authentication
   extension.

   If the MN receives an Agent Advertisement with the 'R' bit set, even
   if it has a co-located care-of address, it still formulates the same
   Registration Request message with extensions, but it sends the
   message to the advertising FA instead of to the GFA.



Fogelstroem, et al.           Experimental                     [Page 11]
RFC 4857           Mobile IPv4 Regional Registration           June 2007


   If the home registration is about to expire, the MN performs a new
   home registration using the same GFA care-of address to refresh the
   binding [RFC3344].  If the MN has just moved to a new FA and not yet
   sent a Regional Registration Request when the home registration is
   due to expire, the MN sends only a Registration Request, as this will
   update both the GFA and the HA.

   If the Registration Reply includes a Replay Protection Style
   extension, the value in the Initial Identification field is the value
   to be used for replay protection in the next Regional Registration
   Request (see Section 6.1).

5.2.  Foreign Agent Considerations

   When the FA receives a Registration Request message from a MN, it
   extracts the care-of address field to find the GFA to which the
   message shall be relayed.  All FAs that advertise the 'I' flag MUST
   also be able to handle Registration Requests with an all-zeros care-
   of address (used for dynamic GFA assignment).

   If the FA receives a Registration Request where the care-of address
   is set to all-ones (which could happen if a MN that doesn't support
   Regional Registrations copied an all-ones care-of address from an
   Agent Advertisement), it MUST reply with the Code field set to
   "poorly formed request" [RFC3344].

   If the Registration Request has the 'T' bit set, the MN is requesting
   Reverse Tunneling [RFC3024].  In this case, the FA has to tunnel
   packets from the MN to the GFA for further handling.

   If the care-of address in the Registration Request is the address of
   the FA, the FA relays the message directly to the HA, as described in
   [RFC3344].  For each pending or current home registration, the FA
   maintains a visitor list entry as described in [RFC3344].  If reverse
   tunneling is being used, the visitor list MUST contain the address of
   the GFA, in addition to the fields required in [RFC3344].

   Otherwise, if the care-of address in the Registration Request is the
   address of a GFA (or all-zeros), the FA adds a Hierarchical Foreign
   Agent (HFA) extension, including its own address, to the Registration
   Request, and relays it to the GFA.  The HFA extension MUST be
   appended at the end of all previous extensions that were included in
   the Registration Request when the FA received it, and it MUST be
   protected by a Foreign-Foreign (FA-FA) Authentication extension (see
   Section 11).






Fogelstroem, et al.           Experimental                     [Page 12]
RFC 4857           Mobile IPv4 Regional Registration           June 2007


5.3.  GFA Considerations

   For each pending or current home registration, the GFA maintains a
   visitor list entry as described in [RFC3344].  This visitor list
   entry is also updated for the regional registrations performed by the
   MN.  In addition to the fields required in [RFC3344], the list entry
   MUST contain:

   o  the current care-of address of the MN (i.e., the FA or co-located
      address) received in the HFA extension
   o  the remaining Lifetime of the regional registration
   o  the style of replay protection in use for the regional
      registration
   o  the Identification value for the regional registration.

   The default replay protection style for regional registrations is
   timestamp-based replay protection, as defined in Mobile IPv4
   [RFC3344].  If the timestamp sent by the MN in the Registration
   Request is not close enough to the GFA's time-of-day clock, the GFA
   adds a Replay Protection Style extension (see Section 9.3) to the
   Registration Reply, with the GFA's time of day in the Identification
   field to synchronize the MN with the GFA for the regional
   registrations.

   If nonce-based replay protection is used, the GFA adds a Replay
   Protection Style extension to the Registration Reply, where the high-
   order 32 bits in the Identification fields is the nonce that should
   be used by the MN in the following regional registration.

   If the Registration Request contains a Replay Protection Style
   extension (see Section 9.3) requesting a style of replay protection
   not supported by the GFA, the GFA MUST reject the Registration
   Request and send a Registration Reply with the value in the Code
   field set to REPLAY_PROT_UNAVAIL (see Section 9.5).

   If the Hierarchical Foreign Agent (HFA) extension comes after the
   MN-FA Authentication extension, the GFA MUST remove it from the
   Registration Request.  The GFA then sends the Registration Request to
   the HA.  Upon receipt of the Registration Reply, the GFA consults its
   pending registration record to find the care-of address within its
   domain that is currently used by the MN, and sends the Registration
   Reply to that care-of address.

   If the Replay Protection Style extension (see Section 9.3) is present
   in a Registration Request, and follows the MN-HA Authentication
   extension, the GFA SHOULD remove the Replay Protection Style
   extension after performing any necessary processing and before
   sending the Registration Request to the HA.



Fogelstroem, et al.           Experimental                     [Page 13]
RFC 4857           Mobile IPv4 Regional Registration           June 2007


   If the GFA receives a Registration Request from a MN that it already
   has a mobility binding for, this is an update of a binding that is
   about to expire.  If the address in the Hierarchical Foreign Agent
   (HFA) extension is the same as the current care-of address in the
   visitor list for the MN, the entries in the visitor list concerning
   regional registrations are not changed, except to update the
   lifetime.  If the address in the HFA extension is a new address, the
   values for the regional registration are updated.

   If the Registration Request has the 'T' bit set, the GFA has to
   decapsulate the packets from the FA and re-encapsulate them for
   further delivery back to the HA.  These actions are required because
   the HA has to receive such packets from the expected care-of address
   (i.e., that of the GFA) instead of the local care-of address (i.e.,
   that of the FA).

   When receiving a Registration Reply from the HA, the GFA MAY add a
   Regional Registration Lifetime extension to the message before
   relaying it to the FA.  The extension defines the lifetime that the
   GFA allows the MN before it has to renew its regional registration.
   The GFA MUST set the lifetime of the regional registration to be no
   greater than the remaining lifetime of the MN's registration with its
   HA.  If used, the Regional Registration Lifetime extension MUST be
   added after any other extensions, and MUST be protected by an MN-FA
   Authentication extension.

5.4.  Home Agent Considerations

   The Registration Request is processed by the HA as described in
   [RFC3344].

6.  Regional Registration

   This section describes regional registrations.  Once the HA has
   registered the GFA address as the care-of address of the MN, the MN
   may perform regional registrations.  When performing regional
   registrations, the MN may either register an FA care-of address or a
   co-located address with the GFA.  In the following, we assume that a
   home registration has already occurred, as described in Section 5,
   and that the GFA has a mobility security association with the MN.

   Suppose the MN moves from one FA to another FA within the same
   visited domain.  It will then receive an Agent Advertisement from the
   new FA.  Suppose further that the Agent Advertisement indicates that
   the visited domain supports regional registrations, and either that
   the advertised GFA address is the same as the one the MN has
   registered as its care-of address during its last home registration,
   or that the realm part of the newly advertised FA-NAI matches the FA-



Fogelstroem, et al.           Experimental                     [Page 14]
RFC 4857           Mobile IPv4 Regional Registration           June 2007


   NAI advertised by the MN's previous FA.  Then, the MN can perform a
   regional registration with this FA and GFA.  The MN issues a Regional
   Registration Request to the GFA via the new FA.  The request is
   authenticated using the existing mobility security association
   between the GFA and the MN and the message is authenticated by the
   MN-GFA Authentication extension (see Section 11).  The care-of
   address should be set to the address of the local FA.

   If the Regional Registration Request contains a care-of address field
   of all-zeros, the FA adds a Hierarchical Foreign Agent (HFA)
   extension to the message and relays it to the GFA.  Based on the
   information in the HFA extension, the GFA updates the MN's current
   point of attachment in its visitor list.  The GFA then issues a
   Regional Registration Reply to the MN via the FA.

   If the advertised GFA is not the same as the one the MN has
   registered as its care-of address, and if the MN is still within the
   same domain as it was when it registered that care-of address, the MN
   MAY try to perform a regional registration with its registered GFA.
   If the FA cannot support regional registration to a GFA, other than
   advertised, the FA denies the Regional Registration Request with code
   UNKNOWN_GFA (see Section 10.3).  In this case, the MN has to do a new
   home registration via the new GFA.

   New message types are introduced for the Regional Registration
   Request and Reply.  The motivation for introducing new message types,
   rather than using the Registration Request and Reply defined in
   [RFC3344] is: (1) the MN must be able to distinguish regional
   registrations from home registrations, since in the former case the
   timestamps/nonces are synchronized with its GFA and in the latter
   with its HA; and (2) a home registration MUST be directed to the home
   network before the lifetime of the GFA care-of address expires.

6.1.  Mobile Node Considerations

   For each pending or current home registration, the MN maintains the
   information described in [RFC3344].  The information is also updated
   for the regional registrations performed by the MN.  In addition to
   the information described in [RFC3344], the MN MUST maintain the
   following information, if present:

   o  the GFA address
   o  the remaining Lifetime of the regional registration
   o  the style of replay protection in use for the regional
      registration
   o  the Identification value for the regional registration.





Fogelstroem, et al.           Experimental                     [Page 15]
RFC 4857           Mobile IPv4 Regional Registration           June 2007


   The replay protection for home registrations and regional
   registrations is performed as described in [RFC3344].  Since the MN
   performs regional registrations at the GFA in parallel with home
   registrations at the HA, the MN MUST be able to keep one replay
   protection mechanism and sequence for the GFA, and a separate
   mechanism and sequence for the HA.

   For regional registrations, replay protection may also be provided at
   the FA by the challenge-response mechanism, as described in
   [RFC4721].

6.2.  Foreign Agent Considerations

   When the FA receives a Regional Registration Request from a MN,
   addressed to a GFA, it generally processes the message according to
   the rules of processing a Registration Request addressed to a HA (see
   Section 5.2).  The only difference is that the GFA IP address field
   replaces the HA address field.  If that address belongs to a known
   GFA, the FA forwards the request to the indicated GFA.  Otherwise,
   the FA MUST generate a Regional Registration Reply with error code
   UNKNOWN_GFA.

   For each pending or current registration, the FA maintains a visitor
   list entry as described in [RFC3344].  If reverse tunneling is being
   used, the visitor list MUST contain the address of the GFA, in
   addition to the fields required in [RFC3344].  This is required so
   that the FA can tunnel datagrams, sent by the MN, to the GFA.  The
   GFA then decapsulates the datagrams, re-encapsulates them, and sends
   them to the HA.

6.3.  GFA Considerations

   If the GFA accepts a Regional Registration Request, it MUST set the
   lifetime of the regional registration to be no greater than the
   remaining lifetime of the MN's registration with its HA, and put this
   lifetime into the corresponding Regional Registration Reply.  The GFA
   MUST NOT accept a request for a regional registration if the lifetime
   of the MN's registration with its HA has expired.  In that case, the
   GFA sends a Regional Registration Reply with the value in the Code
   field set to NO_HOME_REG.

   If the GFA receives a tunneled packet from an FA in its domain, then
   after decapsulation the GFA looks to see whether it has an entry in
   its visitor list for the source IP address of the inner IP header
   after decapsulation.  If so, it checks the visitor list to see
   whether reverse tunneling has been requested; if it was requested,
   the GFA re-encapsulates the packet with its own address as the source
   IP address, and the address of the HA as the destination IP address.



Fogelstroem, et al.           Experimental                     [Page 16]
RFC 4857           Mobile IPv4 Regional Registration           June 2007


7.  Dynamic GFA Assignment

   Regional registrations may also allow dynamic assignment of a GFA to
   a MN.  The visited network (i.e., the FA) indicates support for
   dynamic GFA assignment by advertising an all-ones care-of address in
   the Agent Advertisement.  The MN then sets the care-of address in the
   Registration Request to all-zeros to request a dynamically assigned
   GFA.  Upon receiving this Registration Request, the FA relays it to
   the appropriate GFA, and the GFA assigns its address to the MN by
   means of a GFA IP Address extension added to the Registration
   Request.

   In order for dynamic GFA assignment to work, the MN, GFA, and HA,
   respectively, MUST support the GFA IP Address extension.  Also, the
   FA MUST be able to advertise an all-ones care-of address and handle a
   Registration Request with an all-zeros care-of address.

   Note also that protection of the GFA IP Address extension, added to
   the Registration Request, requires either the use of an FA-HA
   Authentication extension or other means to secure the Registration
   Request when forwarded from the GFA to the HA.

7.1.  Mobile Node Considerations for Dynamic GFA Assignment

   If the 'I' flag in the Agent Advertisement sent out by the FA is set,
   and the care-of address indicating the GFA is set to all-ones, this
   indicates support for dynamic GFA assignment.

   If the MN supports dynamic GFA assignment, and if the advertised GFA
   address is all-ones, the MN SHOULD set the care-of address field in
   the Registration Request to all-zeros to request to be assigned a
   GFA.

   When requesting dynamic GFA assignment, the MN MUST check to make
   sure that it receives a GFA IP Address extension in the Registration
   Reply.

7.2.  Foreign Agent Considerations for Dynamic GFA Assignment

   If an FA supports dynamic GFA assignment, and receives a Registration
   Request with the care-of address field set to all-zeros, the FA
   assigns a GFA to the MN.  A FA can either have a default GFA that it
   assigns to all MNs or it can assign a GFA by some means not described
   in this specification.

   If an FA that does not support dynamic GFA assignment receives a
   Registration Request with the care-of address field set to all-zeros,
   the FA will deny the request as described in [RFC3344], i.e., by



Fogelstroem, et al.           Experimental                     [Page 17]
RFC 4857           Mobile IPv4 Regional Registration           June 2007


   sending a Registration Reply with the Code field set to "invalid
   care-of address".

7.3.  GFA Considerations for Dynamic GFA Assignment

   If a GFA supports dynamic GFA assignment, and receives a Registration
   Request with the care-of address field set to all-zeros, the GFA
   assigns its own IP address as care-of address for this MN, and adds a
   GFA IP Address extension with this address to the Registration
   Request.  The GFA MUST NOT insert the GFA IP address directly in the
   care-of address field in the Registration Request, since that would
   cause the MN-HA authentication to fail.

   The GFA IP Address extension has to be protected so that it cannot be
   changed by a malicious node when the Registration Request is
   forwarded to the HA.  If the HA and the GFA have a mobility security
   association, the GFA IP Address extension MUST be protected by the
   FA-HA authentication extension.  Otherwise, the Registration Request
   MUST be sent to the HA in a secure way, for example via a secure AAA
   protocol (e.g., [RFC4004], [RFC3957]).

   If the GFA does not support dynamic GFA assignment, it will deny the
   request by sending a Registration Reply with the Code field set to
   ZERO_COA_NOT_SUPP (see Section 9.5).

7.4.  Home Agent Considerations for Dynamic GFA Assignment

   If a HA receives a Registration Request with a GFA IP Address
   extension, and the HA does not allow the use of this extension, the
   HA MUST return a Registration Reply with the Code value set to
   DYN_GFA_NOT_SUPP (see Section 9.5).

   If a HA receives a Registration Request message with the care-of
   address set to all-zeros, but no GFA IP Address extension, it MUST
   deny the request by sending a Registration Reply message with the
   Code field set to ZERO_CAREOF_ADDRESS (see Section 9.5).

   If a HA that does not support dynamic GFA assignment receives a
   Registration Request with a GFA IP Address extension, the request
   will be denied by the HA, as described in [RFC3344].

   If a HA that supports dynamic GFA assignment receives a Registration
   Request with the care-of address set to all-zeros and a GFA IP
   Address extension, it MUST register the IP address of the GFA as the
   care-of address of the MN in its mobility binding list.  If the
   Registration Request is accepted, the HA MUST include the GFA IP
   Address extension in the Registration Reply, before the MN-HA
   Authentication extension.



Fogelstroem, et al.           Experimental                     [Page 18]
RFC 4857           Mobile IPv4 Regional Registration           June 2007


7.5.  Regional Registration

   If the MN receives an Agent Advertisement with the care-of address
   field indicating the GFA set to all-ones, and if the MN determines
   that it is within the same visited domain as when it did its last
   home registration, it MAY send a Regional Registration Request to its
   current GFA.  Otherwise, it MUST send a Registration Request to its
   HA as described in Section 7.1.

8.  Router Discovery Extensions

   This section specifies a new flag within the Mobile IP Agent
   Advertisement, and an optional extension to the ICMP Router Discovery
   Protocol [RFC1256].

8.1.  Regional Registration Flag

   The only change to the Mobility Agent Advertisement Extension defined
   in [RFC3344] is a flag indicating that the domain, to which the FA
   generating the Agent Advertisement belongs, supports regional
   registrations.  The flag is inserted after the flags defined in
   [RFC3344], [RFC3024], and [RFC3519].

   Regional Registration flag:

        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
       +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
       |     Type      |    Length     |        Sequence Number        |
       +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
       |           Lifetime            |R|B|H|F|M|G|r|T|U|I| reserved  |
       +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
       |                  zero or more Care-of Addresses               |
       |                              ...                              |

   The flag is defined as follows:

            Type    16 (Mobility Agent Advertisement)

            I       Regional Registration.  This domain supports
                    regional registration as specified in this document.

8.2.  Foreign Agent NAI Extension

   The FA-NAI extension is defined as subtype 3 of the NAI Carrying
   Extension [RFC3846].





Fogelstroem, et al.           Experimental                     [Page 19]
RFC 4857           Mobile IPv4 Regional Registration           June 2007


   The FA SHOULD include its NAI in the Agent Advertisement message.  If
   present, the Foreign Agent NAI (FA-NAI) extension MUST appear in the
   Agent Advertisement message after any of the advertisement extensions
   defined in [RFC3344].

   By comparing the domain part of the FA-NAI with the domain part of
   the FA-NAI it received in the previous Agent Advertisement, the MN
   can determine whether it has moved to a new domain since it last
   registered.

9.  Regional Extensions to Mobile IPv4 Registration Messages

   In this section, we specify new Mobile IP registration extensions for
   the purpose of managing regional registrations.

9.1.  GFA IP Address Extension

   The GFA IP Address extension is defined for the purpose of supporting
   dynamic GFA assignment.  If the MN requests a dynamically assigned
   GFA, the GFA adds a GFA IP Address extension to the Registration
   Request before relaying it to the HA.  The MN indicates that it wants
   a GFA to be assigned by sending a Registration Request with the
   care-of address field set to all-zeros.  The GFA IP Address extension
   MUST appear in the Registration Request before the FA-HA
   Authentication extension, if present.

   If a HA receives a Registration Request message with the care-of
   address set to all-zeros, and a GFA IP Address extension, it MUST
   register the IP address of the GFA as the care-of address of the MN.
   When generating a Registration Reply message, the HA MUST include the
   GFA IP Address extension from the Registration Request in the
   Registration Reply message.  The GFA IP Address extension MUST appear
   in the Registration Reply message before the MN-HA Authentication
   extension.

   The GFA IP Address Extension is defined as follows:

        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
       +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
       |     Type      |     Length    |           reserved            |
       +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
       |                         GFA IP Address                        |
       +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   Type
      46 (GFA IP Address) (non-skippable)




Fogelstroem, et al.           Experimental                     [Page 20]
RFC 4857           Mobile IPv4 Regional Registration           June 2007


   Length
      6

   GFA IP Address
      The GFA IP Address field contains the Gateway Foreign Agent's
      (GFA) publicly routable address.

9.2.  Hierarchical Foreign Agent Extension

   The Hierarchical Foreign Agent (HFA) extension may be present in a
   Registration Request or Regional Registration Request.  When an FA
   adds this extension to a Registration Request, the receiving mobility
   agent (GFA) sets up a pending registration record for the MN, using
   the IP address in the HFA extension as the care-of address for the
   MN.  Furthermore, in this case, the extension MUST be appended at the
   end of all previous extensions that had been included in the
   registration message as received by the FA.  The HFA extension MUST
   be protected by an FA-FA Authentication extension.  When the
   receiving mobility agent (GFA) receives the registration message, it
   MUST remove the HFA extension added by the sending FA.

   If a MN with a co-located care-of address adds the HFA extension to a
   Registration Request, the receiving mobility agent (GFA) sets up a
   pending registration record for the MN, using the IP address in the
   HFA extension as the care-of address for the MN.  The extension MUST
   be protected by an authentication extension.  If the MN has
   established a mobility security association with the GFA, the HFA
   extension MUST be placed before the MN-FA Authentication extension,
   and it SHOULD be placed after the Mobile-Home (MN-HA) Authentication
   extension.  Otherwise, if the MN has no established mobility security
   association with the GFA, the HFA extension MUST be placed before the
   MN-HA authentication extension.  If the HFA extension is placed after
   all other extensions, the receiving mobility agent (GFA) MUST remove
   the HFA extension added by the MN.  Otherwise, when the HA receives
   the registration message, it ignores the HFA extension.

   The Hierarchical Foreign Agent (HFA) Extension is defined as follows:

        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
       +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
       |     Type      |     Length    |           reserved            |
       +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
       |                         FA IP Address                         |
       +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   Type
      140 (Hierarchical Foreign Agent) (skippable)



Fogelstroem, et al.           Experimental                     [Page 21]
RFC 4857           Mobile IPv4 Regional Registration           June 2007


   Length
      6

   FA IP Address
      The IP Address of the FA relaying the Registration Request.

9.3.  Replay Protection Style

   When a MN uses Mobile IPv4 to register a care-of address with its HA,
   the style of replay protection used for the registration messages is
   assumed to be known by way of a mobility security association that is
   required to exist between the MN and the HA receiving the request.
   No such pre-existing security association between the MN and the GFA
   is likely to be available.  By default, the MN SHOULD treat replay
   protection for Regional Registration messages exactly as specified in
   Mobile IPv4 [RFC3344] for timestamp-based replay protection.

   If the MN requires nonce-based replay protection, also as specified
   in Mobile IPv4, it MAY append a Replay Protection Style extension to
   a Registration Request.  Since Registration Requests are forwarded to
   the HA by way of the GFA, the GFA will be able to establish the
   selected replay protection (see Section 5.3).

   The GFA also uses this extension by adding a Replay Protection Style
   extension to a Registration Reply to synchronize the replay
   protection for Regional Registrations (see Section 5.3).

   The format of the Replay Protection Style extension is:

        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
       +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
       |     Type      |     Length    |    Replay Protection Style    |
       +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
       |                                                               |
       +                   Initial Identification                      +
       |                                                               |
       +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   Type
      141 (Replay Protection Style) (skippable)

   Length
      2

   Replay Protection Style
      An integer specifying the style of replay protection desired by
      the MN.



Fogelstroem, et al.           Experimental                     [Page 22]
RFC 4857           Mobile IPv4 Regional Registration           June 2007


   Initial Identification
      The timestamp or nonce to be used for initial synchronization for
      the replay mechanism.

   Admissible values for the Replay Protection Style are as follows:

                    +-------+-------------------------+
                    | Value | Replay Protection Style |
                    +-------+-------------------------+
                    | 0     | timestamp [RFC3344]     |
                    | 1     | nonce [RFC3344]         |
                    +-------+-------------------------+

   The Replay Protection Style extension MUST be protected by an
   authentication extension.  If the MN has an established mobility
   security association with the GFA, the Replay Protection Style
   extension MUST be placed before the MN-FA Authentication extension in
   the Registration Request, and SHOULD be placed after the MN-HA
   Authentication extension.  Otherwise, the Replay Protection Style
   extension MUST be placed before the MN-HA Authentication extension in
   the Registration Request.

   If the GFA adds a Replay Protection Style extension to a Registration
   Reply, it SHOULD be placed before the MN-FA Authentication extension.
   The MN-FA Authentication extension should be based on security
   associations between the MN and GFA established during home
   registration.

   Replay protection MAY also be provided through a challenge-response
   mechanism, at the FA issuing the Agent Advertisement, as described in
   [RFC4721].

9.4.  Regional Registration Lifetime Extension

   The Regional Registration Lifetime extension allows the GFA to set a
   lifetime for the regional registration with an MN during its home
   registration.  When receiving a Registration Reply from the HA, the
   GFA MAY add this extension to the Registration Reply before relaying
   it to the FA.  The GFA MUST set the Regional Registration Lifetime to
   be no greater than the remaining lifetime of the MN's home
   registration.










Fogelstroem, et al.           Experimental                     [Page 23]
RFC 4857           Mobile IPv4 Regional Registration           June 2007


   The Regional Registration Lifetime Extension is defined as follows:

       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
       +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
       |     Type      |     Length    |           reserved            |
       +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
       |                Regional Registration Lifetime                 |
       +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   Type
      142 (Regional Registration Lifetime) (skippable)

   Length
      6

   Regional Registration Lifetime
      If the Code field indicates that the registration was accepted,
      the Regional Registration Lifetime field is set to the number of
      seconds remaining before the regional registration is considered
      expired.  A value of zero indicates that the MN has been
      deregistered with the GFA.  A value of 0xffff indicates infinity.
      If the Code field indicates that the home registration was denied,
      the contents of the Regional Registration Lifetime field are
      unspecified and MUST be ignored on reception.

   If the GFA adds a Regional Registration Lifetime extension to a
   Registration Reply, it MUST be placed before the MN-FA Authentication
   extension.  The MN-FA Authentication extension should be based on
   security associations between the MN and GFA established during home
   registration.

9.5.  New Code Values for Registration Reply

   The values to use within the Code field of the Registration Reply are
   defined in [RFC3344].  In addition, the following values are defined:

                      Registration denied by the GFA:

           +---------------------+-------+---------------------+
           | Error Name          | Value | Section of Document |
           +---------------------+-------+---------------------+
           | REPLAY_PROT_UNAVAIL | 110   | Section 5.3         |
           | ZERO_COA_NOT_SUPP   | 111   | Section 7.3         |
           +---------------------+-------+---------------------+






Fogelstroem, et al.           Experimental                     [Page 24]
RFC 4857           Mobile IPv4 Regional Registration           June 2007


        Registration denied by the HA (for dynamic GFA assignment):

           +---------------------+-------+---------------------+
           | Error Name          | Value | Section of Document |
           +---------------------+-------+---------------------+
           | ZERO_CAREOF_ADDRESS | 145   | Section 7.4         |
           | DYN_GFA_NOT_SUPP    | 146   | Section 7.4         |
           +---------------------+-------+---------------------+

10.  Regional Registration Message Formats

   This section specifies two new registration message types: Regional
   Registration Request and Regional Registration Reply.  These messages
   are used by the MN instead of the existing Mobile IPv4 Registration
   Request and Registration Reply, as described in Section 6.

   Regional registration messages are protected by required
   authentication extensions, in the same way as the existing Mobile
   IPv4 registration messages are protected.  The following rules apply
   to authentication extensions:

   o  The MN-GFA Authentication extension [RFC3344] MUST be included in
      all regional registration messages.
   o  The MN-FA Authentication extension [RFC3344] MAY be included in
      regional registration messages.
   o  The FA-HA Authentication extension [RFC3344] MUST NOT be included
      in any regional registration message.
























Fogelstroem, et al.           Experimental                     [Page 25]
RFC 4857           Mobile IPv4 Regional Registration           June 2007


10.1.  Regional Registration Request

   The Regional Registration Request is used by a MN to register with
   its current GFA.

   Regional Registration Request:

        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
       +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
       |     Type      |S|B|D|M|G|r|T|x|          Lifetime             |
       +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
       |                          Home Address                         |
       +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
       |                         GFA IP Address                        |
       +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
       |                        Care-of Address                        |
       +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
       |                                                               |
       +                         Identification                        +
       |                                                               |
       +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
       | Extensions ...
       +-+-+-+-+-+-+-+-

   The Regional Registration Request is defined as the Registration
   Request in [RFC3344], but with the following changes:

   Type
      18 (Regional Registration Request)

   Lifetime
      The number of seconds remaining before the Regional Registration
      is considered expired.  A value of zero indicates a request for
      deregistration with the GFA.  A value of 0xffff indicates
      infinity.

   GFA IP Address
      The IP address of the Gateway Foreign Agent (GFA).  (Replaces Home
      Agent field in Registration Request message in [RFC3344].)

   Care-of Address
      Care-of address of local FA; MAY be set to all-ones.








Fogelstroem, et al.           Experimental                     [Page 26]
RFC 4857           Mobile IPv4 Regional Registration           June 2007


   Identification
      A 64-bit number, constructed by the MN, used for matching Regional
      Registration Requests with Regional Registration Replies, and for
      protecting against replay attacks of regional registration
      messages.

   Extensions
      For the Regional Registration Request, the Hierarchical Foreign
      Agent (HFA) Extension is an allowable extension (in addition to
      those which are allowable for the Registration Request).

10.2.  Regional Registration Reply

   The Regional Registration Reply delivers the indication of regional
   registration acceptance or denial to a MN.

   In the Regional Registration Reply, the UDP header is followed by the
   Mobile IP fields 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
       +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
       |     Type      |     Code      |           Lifetime            |
       +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
       |                          Home Address                         |
       +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
       |                        GFA IP Address                         |
       +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
       |                                                               |
       +                         Identification                        +
       |                                                               |
       +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
       | Extensions ...
       +-+-+-+-+-+-+-+-

   This message is defined as the Registration Reply message in
   [RFC3344], but with the following changes:

   Type
      19 (Regional Registration Reply)

   Code
      A value indicating the result of the Regional Registration
      Request.  See [RFC3344] for a list of currently defined Code
      values.






Fogelstroem, et al.           Experimental                     [Page 27]
RFC 4857           Mobile IPv4 Regional Registration           June 2007


   Lifetime
      If the Code field indicates that the regional registration was
      accepted, the Lifetime field is set to the number of seconds
      remaining before the regional registration is considered expired.
      A value of zero indicates that the MN has been deregistered with
      the GFA.  A value of 0xffff indicates infinity.  If the Code field
      indicates that the regional registration was denied, the contents
      of the Lifetime field are unspecified and MUST be ignored on
      reception.

   GFA IP Address
      The IP address of the Gateway Foreign Agent (GFA) generating the
      Regional Registration Reply.  (Replaces Home Agent field specified
      in Mobile IPv4 [RFC3344].)

   Identification
      A 64-bit number used for matching Regional Registration Requests
      with Regional Registration Replies, and for protecting against
      replay attacks of regional registration messages.  The value is
      based on the Identification field from the Regional Registration
      Request message from the MN, and on the style of replay protection
      used in the security context between the MN and its GFA (defined
      by the mobility security association between them).

10.3.  New Regional Registration Reply Code Values

   For a Regional Registration Reply, the following additional Code
   values are defined in addition to those specified in Mobile IPv4
   [RFC3344].

                      Registration denied by the FA:

          +----------------------+-------+---------------------+
          | Error Name           | Value | Section of Document |
          +----------------------+-------+---------------------+
          | UNKNOWN_GFA          | 112   | Section 6.2         |
          | GFA_UNREACHABLE      | 113   |                     |
          | GFA_HOST_UNREACHABLE | 114   |                     |
          | GFA_PORT_UNREACHABLE | 115   |                     |
          +----------------------+-------+---------------------+

                      Registration denied by the GFA:

               +-------------+-------+---------------------+
               | Error Name  | Value | Section of Document |
               +-------------+-------+---------------------+
               | NO_HOME_REG | 193   | Section 6.3         |
               +-------------+-------+---------------------+



Fogelstroem, et al.           Experimental                     [Page 28]
RFC 4857           Mobile IPv4 Regional Registration           June 2007


   The four first Code values are returned to the MN in response to ICMP
   errors that may be received by the FA.

11.  Authentication Extensions

   In this section, two new subtypes for the Generalized Authentication
   Extension [RFC4721] are specified.  First, the FA-FA Authentication
   extension is used by FAs to secure the HFA extension to the
   Registration Request and Regional Registration Request messages.  A
   new authentication extension is necessary because the HFA extension
   is typically added after the MN-HA Authentication extension or, e.g.,
   the MN-AAA Authentication extension [RFC4721].

   The MN-GFA Authentication extension is used whenever the MN has a co-
   located address.  The MN-GFA Authentication extension is also used to
   provide authentication for a Regional Registration Request.

         The subtype values for these new subtypes are as follows:

                     +-----------------------+-------+
                     | Subtype Name          | Value |
                     +-----------------------+-------+
                     | FA-FA authentication  |  2    |
                     | MN-GFA authentication |  3    |
                     +-----------------------+-------+

   The default algorithm for computation of the authenticator is the
   same as for the MN-AAA Authentication subtype defined in [RFC4721].

12.  Security Considerations

   This document proposes a method for a MN to register locally in a
   visited domain.  The authentication extensions to be used are those
   defined in [RFC3344] and [RFC4721].  Key distribution, assumed to
   take place during home registration, is to be performed, for
   instance, according to [RFC4004] or [RFC3957].  Alternatively, the
   keys can be pre-configured.

   If the Hierarchical Foreign Agent (HFA) extension is appended to a
   Registration Request, this extension is to be followed by an FA-FA
   Authentication extension (see Section 11) to prevent any modification
   to the data.  Security associations between FAs and GFAs within a
   domain are assumed to exist prior to regional registrations.

   If the GFA IP Address extension is added to a registration message,
   it is to be followed by a authentication extension.  In case of the
   GFA IP Address extension being added to a Registration Request, it
   should be protected by an FA-HA Authentication extension.  If no



Fogelstroem, et al.           Experimental                     [Page 29]
RFC 4857           Mobile IPv4 Regional Registration           June 2007


   security association exists between the GFA and the HA, the
   Registration Request needs to be protected by other means not defined
   in this document.  When a GFA IP Address extension is added to a
   Registration Reply, it is protected by the Mobile-Home Authentication
   extension as defined in [RFC3344].

   Replay protection for regional registrations is defined similarly to
   [RFC3344], with the addition of a Replay Protection Style extension.
   If this extension is added to a Registration Reply by a GFA, it needs
   to be protected by a MN-FA Authentication extension.

   A co-operating malicious MN-HA pair can trick the GFA into setting up
   state for an incorrect MN home address.  This would result in
   redirection of data of the node that actually owns that IP address to
   the malicious MN.  Given that the forwarding happens based on the
   home address at the GFA, such an attack is scoped to the prefix of
   the HA, not that of the GFA.  This type of attack, or its
   consequences, is not considered in this document.

13.  IANA Considerations

   This document defines:

   o  A subtype for the NAI Carrying Extension [RFC3846] is specified in
      Section 8.2, which needs to have a value assigned from the space
      of NAI Carrying Extension subtypes.

   o  Four new extensions to Mobile IP Registration messages: GFA IP
      Address, Hierarchical Foreign Agent, Replay Protection Style, and
      Regional Registration Lifetime (see Sections 9.1, 9.2, 9.3, and
      9.4).  The Type values for the GFA IP Address extension must be
      within the range 0 through 127, while the other three must be
      within the range 128 through 255.

   o  New Code values for Registration Reply messages (see Section 9.5).

   o  Two new subtypes for the Generalized Authentication Extension
      [RFC4721]; see Section 11.

   o  Two new message types for Mobile IP: Regional Registration Request
      and Regional Registration Reply (see Sections 10.1 and 10.2).

   o  Code values for Regional Registration Reply messages (see Section
      10.3).







Fogelstroem, et al.           Experimental                     [Page 30]
RFC 4857           Mobile IPv4 Regional Registration           June 2007


14.  Acknowledgements

   This document is a logical successor to documents written with Pat
   Calhoun and Gabriel Montenegro; thanks to them and their many efforts
   to help explore this problem space.  Many thanks also to Jari Malinen
   for his commentary on a rough version of this document.













































Fogelstroem, et al.           Experimental                     [Page 31]
RFC 4857           Mobile IPv4 Regional Registration           June 2007


15.  References

15.1.  Normative References

   [RFC1256]  Deering, S., "ICMP Router Discovery Messages", RFC 1256,
              September 1991.

   [RFC2119]  Bradner, S., "Key words for use in RFCs to Indicate
              Requirement Levels", BCP 14, RFC 2119, March 1997.

   [RFC4282]  Aboba, B., Beadles, M., Arkko, J., and P. Eronen, "The
              Network Access Identifier", RFC 4282, December 2005.

   [RFC2794]  Calhoun, P. and C. Perkins, "Mobile IP Network Access
              Identifier Extension for IPv4", RFC 2794, March 2000.

   [RFC3024]  Montenegro, G., "Reverse Tunneling for Mobile IP,
              revised", RFC 3024, January 2001.

   [RFC3344]  Perkins, C., "IP Mobility Support for IPv4", RFC 3344,
              August 2002.

   [RFC3519]  Levkowetz, H. and S. Vaarala, "Mobile IP Traversal of
              Network Address Translation (NAT) Devices", RFC 3519, May
              2003.

   [RFC3846]  Johansson, F. and T. Johansson, "Mobile IPv4 Extension for
              Carrying Network Access Identifiers", RFC 3846, June 2004.

   [RFC4721]  Perkins, C., Calhoun, P., and J. Bharatia, "Mobile IPv4
              Challenge/Response Extensions (Revised)", RFC 4721,
              January 2007.

15.2.  Informative References

   [RFC3957]  Perkins, C. and P. Calhoun, "Authentication,
              Authorization, and Accounting (AAA) Registration Keys for
              Mobile IPv4", RFC 3957, March 2005.

   [RFC4004]  Calhoun, P., Johansson, T., Perkins, C., Hiller, T., and
              P. McCann, "Diameter Mobile IPv4 Application", RFC 4004,
              August 2005.









Fogelstroem, et al.           Experimental                     [Page 32]
RFC 4857           Mobile IPv4 Regional Registration           June 2007


Appendix A.  Authentication, Authorization, and Accounting (AAA)
             Interactions

   When the mobile node has to obtain authorization by way of
   Authentication, Authorization, and Accounting (AAA) infrastructure
   services, the control flow implicit in the main body of this
   specification is likely to be modified.  Typically, the mobile node
   will supply credentials for authorization by AAA as part of its
   registration messages.  The GFA will parse the credentials supplied
   by the mobile and forward the appropriate authorization request to a
   local AAA server (see [RFC3012] and [RFC4004]).

   Concretely, this means that:

   o  The GFA MAY include the Mobile IP Registration Request data inside
      an authorization request, directed to a local AAA server.

   o  The GFA MAY receive the Mobile IP Registration Reply data from a
      message granting authorization, received from the AAA
      infrastructure.

Appendix B.  Anchoring at a GFA

   As described earlier in this draft, once a mobile node has registered
   the address of a GFA as its care-of address with its home agent, it
   MAY perform regional registrations when changing foreign agent under
   the same GFA.  When detecting that is has changed foreign agent, and
   if the new foreign agent advertises the 'I' flag, the mobile node MAY
   address a Regional Registration Request message to its registered
   GFA, even if the address of that particular GFA is not advertised by
   the new foreign agent.  The foreign agent MAY then relay the request
   to the GFA in question, or deny the request with error code
   UNKNOWN_GFA.


















Fogelstroem, et al.           Experimental                     [Page 33]
RFC 4857           Mobile IPv4 Regional Registration           June 2007


Authors' Addresses

   Eva Fogelstroem
   Ericsson
   Torshamnsgatan 23
   SE-164 80 Stockholm
   Sweden

   EMail: eva.fogelstrom@ericsson.com


   Annika Jonsson
   Ericsson
   Tellusborgsvagen 83-87
   S-126 37 Hagersten
   Sweden

   EMail: annika.jonsson@ericsson.com


   Charles E. Perkins
   Nokia Siemens Networks
   313 Fairchild Drive
   Mountain View, California 94043
   USA

   EMail: charles.perkins@nsn.com
























Fogelstroem, et al.           Experimental                     [Page 34]
RFC 4857           Mobile IPv4 Regional Registration           June 2007


Full Copyright Statement

   Copyright (C) The IETF Trust (2007).

   This document is subject to the rights, licenses and restrictions
   contained in BCP 78, and except as set forth therein, the authors
   retain all their rights.

   This document and the information contained herein are provided on an
   "AS IS" basis and THE CONTRIBUTOR, THE ORGANIZATION HE/SHE REPRESENTS
   OR IS SPONSORED BY (IF ANY), THE INTERNET SOCIETY, THE IETF TRUST AND
   THE INTERNET ENGINEERING TASK FORCE DISCLAIM ALL WARRANTIES, EXPRESS
   OR IMPLIED, INCLUDING BUT NOT LIMITED TO ANY WARRANTY THAT THE USE OF
   THE INFORMATION HEREIN WILL NOT INFRINGE ANY RIGHTS OR ANY IMPLIED
   WARRANTIES OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE.

Intellectual Property

   The IETF takes no position regarding the validity or scope of any
   Intellectual Property Rights or other rights that might be claimed to
   pertain to the implementation or use of the technology described in
   this document or the extent to which any license under such rights
   might or might not be available; nor does it represent that it has
   made any independent effort to identify any such rights.  Information
   on the procedures with respect to rights in RFC documents can be
   found in BCP 78 and BCP 79.

   Copies of IPR disclosures made to the IETF Secretariat and any
   assurances of licenses to be made available, or the result of an
   attempt made to obtain a general license or permission for the use of
   such proprietary rights by implementers or users of this
   specification can be obtained from the IETF on-line IPR repository at
   http://www.ietf.org/ipr.

   The IETF invites any interested party to bring to its attention any
   copyrights, patents or patent applications, or other proprietary
   rights that may cover technology that may be required to implement
   this standard.  Please address the information to the IETF at
   ietf-ipr@ietf.org.

Acknowledgement

   Funding for the RFC Editor function is currently provided by the
   Internet Society.







Fogelstroem, et al.           Experimental                     [Page 35]
  1. RFC 4857