WDIFF

draft-ietf-mobileip-ipv6-19.txt --> draft-ietf-mobileip-ipv6-20.txt

IETF Mobile IP Working Group David B. D. Johnson
INTERNET-DRAFT
Internet-Draft Rice University
Charles E.
Expires: July 21, 2003 C. Perkins
Nokia Research Center
Jari
J. Arkko
Ericsson
29 Oct 2002
January 20, 2003

Mobility Support in IPv6
<draft-ietf-mobileip-ipv6-19.txt>
draft-ietf-mobileip-ipv6-20.txt

Status of This this Memo

This document is an Internet-Draft and is in full conformance with
all provisions of Section 10 of RFC 2026. RFC2026.

Internet-Drafts are working documents of the Internet Engineering
Task Force (IETF), its areas, and its working groups. Note that
other groups may also distribute working documents as
Internet-Drafts.

Internet-Drafts are draft documents, documents valid for a maximum of six
months, months
and may be updated, replaced, or obsoleted by other documents at any
time. It is inappropriate to use Internet-Drafts as reference
material or to cite them other than as "work in progress."

The list of current Internet-Drafts can be accessed at
http://www.ietf.org/ietf/1id-abstracts.txt. http://
www.ietf.org/ietf/1id-abstracts.txt.

The list of Internet-Draft Shadow Directories can be accessed at
http://www.ietf.org/shadow.html.

This Internet-Draft will expire on July 21, 2003.

Abstract

This document specifies the operation of the IPv6 Internet with
mobile computers. Each mobile node is always identified by its home
address, regardless of its current point of attachment to the
Internet. While situated away from its home, a mobile node is also
associated with a care-of address, which provides information about
the mobile node's current location. IPv6 packets addressed to a
mobile node's home address are transparently routed to its care-of
address. The protocol enables IPv6 nodes to cache the binding of a

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mobile node's home address with its care-of address, and to then send
any packets destined for the mobile node directly to it at this
care-of address. To support this operation, Mobile IPv6 defines a
new IPv6 protocol and a new destination option. All IPv6 nodes,
whether mobile or stationary can communicate with mobile nodes.

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Contents

Status

Table of This Memo i

Abstract i Contents

1. Introduction 1 . . . . . . . . . . . . . . . . . . . . . . . 6
2. Comparison with Mobile IP for IPv4 2 . . . . . . . . . . . . 8
3. Terminology 3
3.1. General Terms . . . . . . . . . . . . . . . . . . . . . . 3
3.2. Mobile IPv6 . 10
3.1 General Terms . . . . . . . . . . . . . . . . . . . 10
3.2 Mobile IPv6 Terms . 5 . . . . . . . . . . . . . . . . 12
4. Overview of Mobile IPv6 7
4.1. Basic Operation . . . . . . . . . . . . . . . . . 16
4.1 Basic Operation . . . . . 7
4.2. New IPv6 Protocol . . . . . . . . . . . . . 16
4.2 New IPv6 Protocol . . . . . . . . 9
4.3. . . . . . . . . . 18
4.3 New IPv6 Destination Option . . . . . . . . . . . . . . . 10
4.4. 19
4.4 New IPv6 ICMP Messages . . . . . . . . . . . . . . . . . 10
4.5. 19
4.5 Conceptual Data Structure Terminology . . . . . . . . . . 11
4.6. 19
4.6 Site-Local Addressability . . . . . . . . . . . . . . . . 11 20
5. Overview of Mobile IPv6 Security 12
5.1. . . . . . . . . . . . . . 21
5.1 Binding Updates to Home Agents . . . . . . . . . . . . . 12
5.2. 21
5.2 Binding Updates to Correspondent Nodes . . . . . . . . . 13
5.2.1. 22
5.2.1 Node Keys . . . . . . . . . . . . . . . . . . . . 13
5.2.2. 23
5.2.2 Nonces . . . . . . . . . . . . . . . . . . . . . 13
5.2.3. 23
5.2.3 Cookies and Tokens . . . . . . . . . . . . . . . 14
5.2.4. 24
5.2.4 Cryptographic Functions . . . . . . . . . . . . . 15
5.2.5. 24
5.2.5 Return Routability Procedure . . . . . . . . . . 15
5.2.6. 24
5.2.6 Authorizing Binding Management Messages . . . . . 19
5.2.7. 28
5.2.7 Updating Node Keys and Nonces . . . . . . . . . . 20
5.2.8. 30
5.2.8 Preventing Replay Attacks . . . . . . . . . . . . 22
5.3. 32
5.3 Dynamic Home Agent Address Discovery . . . . . . . . . . 22
5.4. 32
5.4 Prefix Discovery . . . . . . . . . . . . . . . . . . . . 22
5.5. 32
5.5 Payload Packets . . . . . . . . . . . . . . . . . . . . . 22 32
6. New IPv6 Protocol, Message Types, and Destination Option 23
6.1. . 34
6.1 Mobility Header . . . . . . . . . . . . . . . . . . . . . 23
6.1.1. 34
6.1.1 Format . . . . . . . . . . . . . . . . . . . . . 23
6.1.2. 34
6.1.2 Binding Refresh Request Message . . . . . . . . . 25
6.1.3. 36
6.1.3 Home Test Init Message . . . . . . . . . . . . . 26
6.1.4. 37
6.1.4 Care-of Test Init Message . . . . . . . . . . . . 27
6.1.5. 38
6.1.5 Home Test Message . . . . . . . . . . . . . . . . 28
6.1.6. 39
6.1.6 Care-of Test Message . . . . . . . . . . . . . . 29
6.1.7. 40
6.1.7 Binding Update Message . . . . . . . . . . . . . 31
6.1.8. 41
6.1.8 Binding Acknowledgement Message . . . . . . . . . 33
6.1.9. 43
6.1.9 Binding Error Message . . . . . . . . . . . 46
6.2 Mobility Options . . . 35

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6.2. Mobility Options . . . . . . . . . . . . . . . 47
6.2.1 Format . . . . . 36
6.2.1. Format . . . . . . . . . . . . . . 47
6.2.2 Pad1 . . . . . . . 37
6.2.2. Pad1 . . . . . . . . . . . . . 48

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6.2.3 PadN . . . . . . . . . 37
6.2.3. PadN . . . . . . . . . . . 49
6.2.4 Binding Refresh Advice . . . . . . . . . . . 38
6.2.4. 49
6.2.5 Alternate Care-of Address . . . . . . . . . . . . 38
6.2.5. 49
6.2.6 Nonce Indices . . . . . . . . . . . . . . . . . . 39
6.2.6. 50
6.2.7 Binding Authorization Data . . . . . . . . . . . 39
6.2.7. Binding Refresh Advice . . . . . . . . . . . . . 40
6.3. 50
6.3 Home Address Option . . . . . . . . . . . . . . . . . . . 41
6.4. 52
6.4 Type 2 Routing Header . . . . . . . . . . . . . . . . . . 43
6.4.1. 53
6.4.1 Format . . . . . . . . . . . . . . . . . . . . . 43
6.5. 54
6.5 ICMP Home Agent Address Discovery Request Message . . . . 44
6.6. 55
6.6 ICMP Home Agent Address Discovery Reply Message . . . . . 46
6.7. 56
6.7 ICMP Mobile Prefix Solicitation Message Format . . . . . 47
6.8. 58
6.8 ICMP Mobile Prefix Advertisement Message Format . . . . . 49 59
7. Modifications to IPv6 Neighbor Discovery 51
7.1. . . . . . . . . . 62
7.1 Modified Router Advertisement Message Format . . . . . . 51
7.2. 62
7.2 Modified Prefix Information Option Format . . . . . . . . 52
7.3. 62
7.3 New Advertisement Interval Option Format . . . . . . . . 54
7.4. 64
7.4 New Home Agent Information Option Format . . . . . . 65
7.5 Modified Neighbor Solicitation Message Format . . . 55
7.5. 66
7.6 Changes to Sending Router Advertisements . . . . . . . . 57
7.6. 68
7.7 Changes to Sending Router Solicitations Duplicate Address Detection . . . . . . . 69
8. Requirements for Types of IPv6 Nodes . . 59
7.7. Changes to Duplicate Address Detection . . . . . . . . . 60

8. Requirements for Types of IPv6 Nodes 60
8.1. 71
8.1 All IPv6 Nodes . . . . . . . . . . . . . . . . . . . . . 61
8.2. 71
8.2 IPv6 Nodes with Support for Route Optimization . . . . . 61
8.3. 71
8.3 All IPv6 Routers . . . . . . . . . . . . . . . . . . . . 62
8.4. 73
8.4 IPv6 Home Agents . . . . . . . . . . . . . . . . . . . . 62
8.5. 73
8.5 IPv6 Mobile Nodes . . . . . . . . . . . . . . . . . . . . 63 75
9. Correspondent Node Operation 65
9.1. Conceptual Data Structures . . . . . . . . . . . . . . . 65
9.2. Processing Mobility Headers . . 77
9.1 Conceptual Data Structures . . . . . . . . . . . . . 66
9.3. Packet 77
9.2 Processing Mobility Headers . . . . . . . . . . . . . . . . . . . . 66
9.3.1. Receiving Packets with Home Address Destination
Option 78
9.3 Packet Processing . . . . . . . . . . . . . . . . . 78
9.3.1 Receiving Packets with Home Address Option . 66
9.3.2. 78
9.3.2 Sending Packets to a Mobile Node . . . . . . . . 67
9.3.3. 79
9.3.3 Sending Binding Error Messages . . . . . . . . . 68
9.3.4. 81
9.3.4 Receiving ICMP Error Messages . . . . . . . . . . 69
9.4. 81
9.4 Return Routability Procedure . . . . . . . . . . . . . . 69
9.4.1. 81
9.4.1 Receiving Home Test Init Messages . . . . . . . . 69
9.4.2. 82
9.4.2 Receiving Care-of Test Init Messages . . . . . . 70
9.4.3. 82
9.4.3 Sending Home Test Messages . . . . . . . . . . . 70
9.4.4. 82
9.4.4 Sending Care-of Test Messages . . . . . . . . . . 70
9.5. 83
9.5 Processing Bindings . . . . . . . . . . . . . . . . . . . 70
9.5.1. 83
9.5.1 Receiving Binding Updates . . . . . . . . . . . . 71
9.5.2. 83
9.5.2 Requests to Cache a Binding . . . . . . . . . . . 73
9.5.3. 85
9.5.3 Requests to Delete a Binding . . . . . . . . . . 74
9.5.4. 86
9.5.4 Sending Binding Acknowledgements . . . . . . . . 74

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9.5.5. 86
9.5.5 Sending Binding Refresh Requests . . . . . . . . 75
9.6. 87
9.6 Cache Replacement Policy . . . . . . . . . . . . . . . . 75 88
10. Home Agent Operation 76
10.1. Conceptual Data Structures . . . . . . . . . . . . . . . 76
10.2. Processing Mobility Headers . . . . 89
10.1 Conceptual Data Structures . . . . . . . . . . . . 77
10.3. . 89

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10.2 Processing Bindings Mobility Headers . . . . . . . . . . . . 90
10.3 Processing Bindings . . . . . . . 77
10.3.1. Primary Care-of Address Registration . . . . . . 77
10.3.2. . . . 90
10.3.1 Primary Care-of Address De-Registration Registration . . . . 90
10.3.2 Primary Care-of Address De-Registration . . 81
10.4. 93
10.4 Packet Processing . . . . . . . . . . . . . . . . . . . . 82
10.4.1. 94
10.4.1 Intercepting Packets for a Mobile Node . . . . . 82
10.4.2. 94
10.4.2 Tunneling Intercepted Packets to a Mobile Node . 83
10.4.3. Handling Reverse Tunneled Packets from a Mobile
Node . . . . . . 96
10.4.3 Multicast Membership Control . . . . . . . . 97
10.4.4 Stateful Address Autoconfiguration . . . . . 85
10.4.4. Protecting Return Routability 98
10.4.5 Handling Reverse Tunneled Packets . . . . . 99
10.4.6 Protecting Return Routability Packets . . . 85
10.5. 99
10.5 Dynamic Home Agent Address Discovery . . . . . . . . . . 86
10.5.1. .100
10.5.1 Receiving Router Advertisement Messages . . . . . 86
10.6. 100
10.6 Sending Prefix Information to the Mobile Node . . . . . . 89
10.6.1. .102
10.6.1 Aggregate List of Home Network Prefixes . . . . . 89
10.6.2. 103
10.6.2 Scheduling Prefix Deliveries to the Mobile Node . 90
10.6.3. . . . . . . . 104
10.6.3 Sending Advertisements to the Mobile Node . . . . 92
10.6.4. . . . . . . . 106
10.6.4 Lifetimes for Changed Prefixes . . . . . . . . . 92 107
11. Mobile Node Operation 93
11.1. Conceptual Data Structures . . . . . . . . . . . . . . . 93
11.2. Processing Mobility Headers . . . 108
11.1 Conceptual Data Structures . . . . . . . . . . . . 94
11.3. Packet .108
11.2 Processing Mobility Headers . . . . . . . . . . . .109
11.3 Packet Processing . . . . . . . . . 95
11.3.1. . . . . . . . .110
11.3.1 Sending Packets While Away from Home . . . . . . 95
11.3.2. 110
11.3.2 Interaction with Outbound IPsec Processing . . . 97
11.3.3. 112
11.3.3 Receiving Packets While Away from Home . . . . . 99
11.3.4. Receiving ICMP Error Messages 114
11.3.4 Routing Multicast Packets . . . . . . . . . 115
11.3.5 Receiving ICMP Error Messages . 100
11.3.5. Routing Multicast Packets . . . . . . 117
11.3.6 Receiving Binding Error Messages . . . . . . 101
11.4. 117
11.4 Home Agent and Prefix Management . . . . . . . . . . . . 102
11.4.1. .118
11.4.1 Dynamic Home Agent Address Discovery . . . . . . 102
11.4.2. 118
11.4.2 Sending Mobile Prefix Solicitations . . . . . . . 103
11.4.3. 119
11.4.3 Receiving Mobile Prefix Advertisements . . . . . 104
11.5. 120
11.5 Movement . . . . . . . . . . . . . . . . . . . . . . . . 105
11.5.1. .121
11.5.1 Movement Detection . . . . . . . . . . . . . . . 105
11.5.2. 121
11.5.2 Forming New Care-of Addresses . . . . . . . . . . 107
11.5.3. 123
11.5.3 Using Multiple Care-of Addresses . . . . . . . . 109
11.5.4. 124
11.5.4 Returning Home . . . . . . . . . . . . . . . . . 109
11.6. 125
11.6 Return Routability Procedure . . . . . . . . . . . . . . 111
11.6.1. .127
11.6.1 Sending Home and Care-of Test Init Messages . . . 111
11.6.2. . . . . . . 127
11.6.2 Receiving Return Routability Test Messages . . . . . . 112
11.6.3. . . . . 128
11.6.3 Protecting Return Routability Packets . . . . . . 113
11.7. 129
11.7 Processing Bindings . . . . . . . . . . . . . . . . . . . 114
11.7.1. .129
11.7.1 Sending Binding Updates to the Home Agent . . . . 114
11.7.2. 129
11.7.2 Correspondent Binding Procedure . . . . . . . . . 116
11.7.3. 132
11.7.3 Receiving Binding Acknowledgements . . . . . . . 119
11.7.4. 135
11.7.4 Receiving Binding Refresh Requests . . . . . 137
11.8 Retransmissions and Rate Limiting . . . . 121
11.7.5. Receiving Binding Error Messages . . . . .137
12. Protocol Constants . . . . 121 . . . . . . . . . . . . . . . . 139

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11.8. Retransmissions and Rate Limiting January 2003

13. Protocol Configuration Variables . . . . . . . . . . . . 122

12. Protocol Constants 123

13. IANA Considerations 124 . 140
14. Security IANA Considerations 125
14.1. Threats . . . . . . . . . . . . . . . . . . . 141
15. Security Considerations . . . . . . 125
14.2. Features . . . . . . . . . . . 143
15.1 Threats . . . . . . . . . . . . . 127
14.3. Binding Updates to Home Agent . . . . . . . . .143
15.2 Features . . . . . . 128
14.4. Binding Updates to Correspondent Nodes . . . . . . . . . 130
14.4.1. Overview . . . . . . .145
15.3 Binding Updates to Home Agent . . . . . . . . . . .146
15.4 Binding Updates to Correspondent Nodes . . . . . . .147
15.4.1 Overview . . . . 130
14.4.2. Offered Protection . . . . . . . . . . . . . . 147
15.4.2 Achieved Security Properties . 131
14.4.3. . . . . . . . 148
15.4.3 Comparison to Regular IPv6 Communications . . . . 131
14.4.4. 149
15.4.4 Return Routability Replays . . . . . . . . . . . 133
14.4.5. 151
15.4.5 Return Routability Denial-of-Service . . . . . . 133
14.5. 151
15.5 Dynamic Home Agent Address Discovery . . . . . . . . . . 134
14.6. .152
15.6 Prefix Discovery . . . . . . . . . . . . . . . . . . . . 135
14.7. .152
15.7 Tunneling via the Home Agent . . . . . . . . . . . . . . 135
14.8. .152
15.8 Home Address Option . . . . . . . . . . . . . . . . . . . 135
14.9. .153
15.9 Type 2 Routing Header . . . . . . . . . . . . . . .154
16. Contributors . . . . 136

Contributors 137 . . . . . . . . . . . . . . . . . . . 155
17. Acknowledgements 137 . . . . . . . . . . . . . . . . . . . . . 156
Normative References 139 . . . . . . . . . . . . . . . . . . . 157
Informative References . . . . . . . . . . . . . . . . . . 159
Authors' Addresses . . . . . . . . . . . . . . . . . . . . 160
A. Changes from Previous Version of the Draft 142
A.1. Changes from Draft Version 18 . . . . . . . . 161
B. Future Extensions . . . . . . . . . . . . . . 142

B. Future Extensions 146
B.1. Piggybacking . . . . . . 165
B.1 Piggybacking . . . . . . . . . . . . . . . . . . . 146
B.2. .165
B.2 Triangular Routing and Unverified Home Addresses . . . . 146
B.3. . . . . . . . . . . . . .165
B.3 New Authorization Methods beyond Return Routability . . . 146
B.4. Security and . . . . . . . . . .165
B.4 Dynamically Generated Home Addresses . . . . 147
B.5. . . . .165
B.5 Remote Home Address Configuration . . . . . . . . .165
Intellectual Property and Copyright Statements . . . . . 147

Chairs' Addresses 149

Authors' Addresses 149 . 167

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1. Introduction

This document specifies how the IPv6 Internet operates with mobile
computers. Without specific support for mobility in IPv6 [11],
packets destined to a mobile node would not be able to reach it while
the mobile node is away from its home link. In order to continue
communication in spite of its movement, a mobile node could change
its IP address each time it moves to a new link, but the mobile node
would then not be able to maintain transport and higher-layer
connections when it changes location. Mobility support in IPv6 is
particularly important, as mobile computers are likely to account for
a majority or at least a substantial fraction of the population of
the Internet during the lifetime of IPv6.

The protocol defined in this document, known as Mobile IPv6, allows a
mobile node to move from one link to another without changing the
mobile node's "home address". Packets may be routed to the mobile
node using this address regardless of the mobile node's current point
of attachment to the Internet. The mobile node may also continue to
communicate with other nodes (stationary or mobile) after moving to a
new link. The movement of a mobile node away from its home link is
thus transparent to transport and higher-layer protocols and
applications.

The Mobile IPv6 protocol is just as suitable for mobility across
homogeneous media as for mobility across heterogeneous media. For
example, Mobile IPv6 facilitates node movement from one Ethernet
segment to another as well as it facilitates node movement from an
Ethernet segment to a wireless LAN cell, with the mobile node's IP
address remaining unchanged in spite of such movement.

One can think of the Mobile IPv6 protocol as solving the
network-layer mobility management problem. Some mobility management
applications -- for example, handover among wireless transceivers,
each of which covers only a very small geographic area -- have been
solved using link-layer techniques. For example, in many current
wireless LAN products, link-layer mobility mechanisms allow a
"handover" of a mobile node from one cell to another, re-establishing
link-layer connectivity to the node in each new location.

Mobile IPv6 does not attempt to solve all general problems related to
the use of mobile computers or wireless networks. In particular,
this protocol does not attempt to solve:

o Handling links with partial reachability, or unidirectional
connectivity, such as are often found in wireless networks (but
see Section 11.5.1).

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o Access control on a link being visited by a mobile node.

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o Local or hierarchical forms of mobility management (similar to
many current link-layer mobility management solutions).

o Assistance for adaptive applications

o Mobile routers

o Service Discovery

o Distinguishing between packets lost due to bit errors vs. network
congestion

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2. Comparison with Mobile IP for IPv4

The design of Mobile IP support in IPv6 (Mobile IPv6) benefits both
from the experiences gained from the development of Mobile IP support
in IPv4 (Mobile IPv4) [20, 21, 22], [23, 24, 25], and from the opportunities
provided by IPv6. Mobile IPv6 thus shares many features with Mobile
IPv4, but is integrated into IPv6 and offers many other improvements.
This section summarizes the major differences between Mobile IPv4 and
Mobile IPv6:

o There is no need to deploy special routers as "foreign agents", as
in Mobile IPv4. Mobile IPv6 operates in any location without any
special support required from the local router.

o Support for route optimization is a fundamental part of the
protocol, rather than a nonstandard set of extensions.

o Mobile IPv6 route optimization can operate securely even without
pre-arranged security associations. It is expected that route
optimization can be deployed on a global scale between all mobile
nodes and correspondent nodes.

o Support is also integrated into Mobile IPv6 for allowing route
optimization to coexist efficiently with routers that perform
"ingress filtering" [23].

- [27].

o In Mobile IPv6, the mobile node does not have to tunnel multicast
packets to its home agent.

o The movement detection mechanism in Mobile IPv6 provides
bidirectional confirmation of a mobile node's ability to
communicate with its default router in its current location.

o Most packets sent to a mobile node while away from home in Mobile
IPv6 are sent using an IPv6 routing header rather than IP
encapsulation, reducing the amount of resulting overhead compared
to Mobile IPv4.

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o Mobile IPv6 is decoupled from any particular link layer, as it
uses IPv6 Neighbor Discovery [12] instead of ARP. This also
improves the robustness of the protocol.

o The use of IPv6 encapsulation (and the routing header) removes the
need in Mobile IPv6 to manage "tunnel soft state".

o The dynamic home agent address discovery mechanism in Mobile IPv6
returns a single reply to the mobile node. The directed broadcast
approach used in IPv4 returns separate replies from each home

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agent.

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3. Terminology

The keywords "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 [2].

3.1.

3.1 General Terms

Internet Protocol Version 6 (IPv6).

node

A device that implements IP.

router

A node that forwards IP packets not explicitly addressed to
itself.

unicast routable address

An identifier for a single interface such that a packet sent to it
from another IPv6 subnet is delivered to the interface identified
by that address. Accordingly, a unicast routable address must
have either a global or site-local scope (but not link-local).

host

Any node that is not a router.

link

A communication facility or medium over which nodes can
communicate at the link layer, such as an Ethernet (simple or
bridged). A link is the layer immediately below IP.

interface

A node's attachment to a link.

subnet prefix

A bit string that consists of some number of initial bits of an IP
address.

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interface identifier

A number used to identify a node's interface on a link. The
interface identifier is the remaining low-order bits in the node's
IP address after the subnet prefix.

link-layer address

A link-layer identifier for an interface, such as IEEE 802
addresses on Ethernet links.

packet

An IP header plus payload.

security association
A

An IPsec security object shared between two nodes which
includes association is a simplex "connection" that
affords security services to the data mutually agreed on for operation of
some cryptographic algorithm (typically including traffic carried by it. Security
services are afforded to a
key). security association by the use of the
AH and ESP protocols.

security policy database

A database of rules that describe specifies what security
associations should services are to be applied for different kinds of
packets. offered
to IP packets and in what fashion.

destination option

Destination options are carried by the IPv6 Destination Options
extension header. Destination options include optional
information that need be examined only by the IPv6 node given as
the destination address in the IPv6 header, not by other
intermediate routing nodes. Mobile IPv6 defines one new
destination option, the Home Address destination option (see
Section 6.3).

routing header

A routing header may be present as an IPv6 header extension, and
indicates that the payload has to be delivered to a destination
IPv6 address in some way that is different from what would be
carried out by standard Internet routing. In this document, use
of the term "routing header" typically refers to use of a type 2
routing header, as specified in Section 6.4.

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'|' (concatenation)

Some formulas in this specification use the symbol '|' indicate
bytewise concatenation, as in A | B. This concatenation requires
that all of the bytes of the datum A appear first in the result,
followed by all of the bytes of the datum B.

First (size, input)

Some formulas in this specification use a functional

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(size, input)" to indicate truncation of the "input" data so that
only the first "size" bits remain to be used.

3.2.

3.2 Mobile IPv6 Terms

home address

A unicast routable address assigned to a mobile node, used as the
permanent address of the mobile node. This address is within the
mobile node's home link. Standard IP routing mechanisms will
deliver packets destined for a mobile node's home address to its
home link.

home subnet prefix

The IP subnet prefix corresponding to a mobile node's home
address.

home link

The link on which a mobile node's home subnet prefix is defined.

mobile node

A node that can change its point of attachment from one link to
another, while still being reachable via its home address.

movement

A change in a mobile node's point of attachment to the Internet
such that it is no longer connected to the same link as it was
previously. If a mobile node is not currently attached to its
home link, the mobile node is said to be "away from home".

correspondent node

A peer node with which a mobile node is communicating. The

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correspondent node may be either mobile or stationary.

foreign subnet prefix

Any IP subnet prefix other than the mobile node's home subnet
prefix.

foreign link

Any link other than the mobile node's home link.

care-of address

A unicast routable address associated with a mobile node while
visiting a foreign link; the subnet prefix of this IP address is a
foreign subnet prefix. Among the multiple care-of addresses that
a mobile node may have at any given time (e.g., with different
subnet

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agent is called its "primary" care-of address.

home agent

A router on a mobile node's home link with which the mobile node
has registered its current care-of address. While the mobile node
is away from home, the home agent intercepts packets on the home
link destined to the mobile node's home address, encapsulates
them, and tunnels them to the mobile node's registered care-of
address.

binding

The association of the home address of a mobile node with a
care-of address for that mobile node, along with the remaining
lifetime of that association.

registration

The process during which a mobile node sends a Binding Update to
its home agent or a correspondent node, causing a binding for the
mobile node to be registered.

mobility message

A message containing a Mobility Header (see Section 6.1).

binding procedure

A binding procedure is initiated by the mobile node to inform

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either a correspondent node or the mobile node's home agent of the
current binding of the mobile node.

binding authorization

Binding procedure needs to be authorized to allow the recipient to
believe that the sender has the right to specify a new binding.

return routability procedure

The return routability procedure authorizes binding procedures by
the use of a cryptographic token exchange.

correspondent binding procedure

A return routability procedure followed by a binding procedure,
run between the mobile node and a correspondent node.

home binding procedure

A binding procedure between the mobile node and its home agent,
authorized by the use of IPsec.

nonce

Nonces are random numbers used internally by the correspondent
node in the creation of keygen tokens related to the return
routability procedure. The nonces

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node, and are kept secret within the correspondent node.

nonce index

A nonce index is used to indicate which nonces have been used when
creating keygen token values, without revealing the nonces
themselves.

A cookie is a random number used by a mobile nodes to prevent
spoofing by a bogus correspondent node in the return routability
procedure.

care-of init cookie

A cookie sent to the correspondent node in the Care-of Test Init
message, to be returned in the Care-of Test message.

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home init cookie

A cookie sent to the correspondent node in the Home Test Init
message, to be returned in the Home Test message.

keygen token

A keygen token is a number supplied by a correspondent node in the
return routability procedure to enable the mobile node to compute
the necessary binding management key for authorizing a Binding
Update.

care-of keygen token

A keygen token sent by the correspondent node in the Care-of Test
message.

home keygen token

A keygen token sent by the correspondent node in the Home Test
message.

binding management key (Kbm)

A binding management key (Kbm) is a key used for authorizing a
binding cache management message (e.g., Binding Update or Binding
Acknowledgement). Return routability provides a way to create a
binding management key.

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4. Overview of Mobile IPv6

4.1.

4.1 Basic Operation

A mobile node is always expected to be addressable at its home
address, whether it is currently attached to its home link or is away
from home. The "home address" is an IP address assigned to the
mobile node within its home subnet prefix on its home link. While

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mobile node is at home, packets addressed to its home address are
routed to the mobile node's home link, using conventional Internet
routing mechanisms.

While a mobile node is attached to some foreign link away from home,
it is also addressable at one or more care-of addresses. A care-of
address is an IP address associated with a mobile node that has the
subnet prefix of a particular foreign link. The mobile node can
acquire its care-of address through conventional IPv6 stateless or
stateful auto-configuration mechanisms. As long as the mobile node
stays in this location, packets addressed to this care-of address
will be routed to the mobile node. The mobile node may also accept
packets from several care-of addresses, such as when it is moving but
still reachable at the previous link.

The association between a mobile node's home address and care-of
address is known as a "binding" for the mobile node. While away from
home, a mobile node registers its primary care-of address with a
router on its home link, requesting this router to function as the
"home agent" for the mobile node. The mobile node performs this
binding registration by sending a "Binding Update" message to the
home agent. The home agent replies to the mobile node by returning a
"Binding Acknowledgement" message. The operation of the mobile node
is specified in Section 11, and the operation of the home agent is
specified in Sections 11 and 10, respectively. Section 10.

Any node communicating with a mobile node is referred to in this
document as a "correspondent node" of the mobile node, and may itself
be either a stationary node or a mobile node. Mobile nodes can
provide information about their current location to correspondent
nodes. This happens through the correspondent binding procedure. As
a part of this procedure, a return routability test is performed in
order to authorize the establishment of the binding. The operation
of the correspondent node is specified in Section 9.

There are two possible modes for communications between the mobile
node and a correspondent node. The first mode, bidirectional
tunneling, does not require Mobile IPv6 support from the
correspondent node and is available even if the mobile node has not
registered its current binding with the correspondent node. Packets

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from the correspondent node are routed to the home agent and then
tunneled to the mobile node. Packets to the correspondent node are
tunneled from the mobile node to the home agent ("reverse tunneled")
and then routed normally from the home network to the correspondent
node. In this mode, the home agent uses proxy Neighbor Discovery to
intercept any IPv6 packets addressed to the mobile node's home
address (or home addresses) on the home link. Each intercepted
packet is tunneled to the mobile node's primary care-of address.
This tunneling is performed using IPv6 encapsulation [15].

The second mode, "route optimization", requires the mobile node to
register its current binding at the correspondent node. Packets

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the correspondent node can be routed directly to the care-of address
of the mobile node. When sending a packet to any IPv6 destination,
the correspondent node checks its cached bindings for an entry for
the packet's destination address. If a cached binding for this
destination address is found, the node uses a new type of IPv6
routing header [11] (see Section 6.4) to route the packet to the
mobile node by way of the care-of address indicated in this binding.

Routing packets directly to the mobile node's care-of address allows
the shortest communications path to be used. It also eliminates
congestion at the mobile node's home agent and home link. In
addition, the impact of any possible failure of the home agent or
networks on the path to or from it is reduced.

When routing packets directly to the mobile node, the correspondent
node sets the Destination Address in the IPv6 header to the care-of
address of the mobile node. A new type of IPv6 routing header (see
Section 6.4) is also added to the packet to carry the desired home
address. Similarly, the mobile node sets the Source Address in the
packet's IPv6 header to its current care-of addresses. The mobile
node adds a new IPv6 "Home Address" destination option (see Section
6.3) to carry its home address. The inclusion of home addresses in
these packets makes the use of the care-of address transparent above
the network layer (e.g., at the transport layer).

Mobile IPv6 also provides support for multiple home agents, and the
reconfiguration of the home network. In these cases, the mobile node
may not know the IP address of its own home agent, and even the home
subnet prefixes may change over time. A mechanism, known as "dynamic
home agent address discovery" allows a mobile node to dynamically
discover the IP address of a home agent on its home link, even when
the mobile node is away from home. Mobile nodes can also learn new
information about home subnet prefixes through the "prefix discovery"
mechanism. These mechanisms are described starting from Section 6.5.

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through 6.8.

4.2. IPv6 January 2003

4.2 New IPv6 Protocol

Mobile IPv6 defines a new IPv6 protocol, using the Mobility Header
(see Section 6.1). This Header is used to carry the following
messages:

Home Test Init

Home Test

Care-of Test Init

Care-of Test

These four messages are used to initiate the return routability
procedure from the mobile node to a correspondent node. This
ensures authorization of subsequent Binding Updates, as described
in Section 5.2.5.

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The format of the messages are defined in Sections 6.1.3
through 6.1.6.

Binding Update

A Binding Update is used by a mobile node to notify a
correspondent node or the mobile node's home agent of its current
binding. The Binding Update sent to the mobile node's home agent
to register its primary care-of address is marked as a "home
registration". The Binding Update message
is described in detail in Section 6.1.7.

Binding Acknowledgement

A Binding Acknowledgement is used to acknowledge receipt of a
Binding Update, if an acknowledgement was requested in the Binding
Update. The Binding Acknowledgement is described in
detail in Section 6.1.8.

Binding Refresh Request

A Binding Refresh Request is used to request a mobile node to
re-establish its binding with the correspondent node. This
message is typically used when the cached binding is in active use
but the binding's lifetime is close to expiration. The
correspondent node may use, for instance, recent traffic and open
transport layer connections as an indication of active use. The Binding Refresh Request is
described in detail in Section 6.1.2.

Binding Error

The Binding Error is used by the correspondent node to signal an
error related to mobility, such as an inappropriate attempt to use
the Home Address destination option without an existing binding. This message is
described in detail

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4.3. IPv6 January 2003

4.3 New IPv6 Destination Option

Mobile IPv6 defines a new IPv6 destination option, the Home Address
destination option. This option is described in detail in Section
6.3.

4.4.

4.4 New IPv6 ICMP Messages

Mobile IPv6 also introduces four new ICMP message types, two for use
in the dynamic home agent address discovery mechanism, and two for
renumbering and mobile configuration mechanisms. As described in
Sections
Section 10.5 and Section 11.4.1, the following two new ICMP message
types are used for home agent address discovery:

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o Home Agent Address Discovery Request, described in Section 6.5.

o Home Agent Address Discovery Reply, described in Section 6.6.

The next two message types are used for network renumbering and
address configuration on the mobile node, as described in Section
10.6:

o Mobile Prefix Solicitation, described in Section 6.7.

o Mobile Prefix Advertisement, described in Section 6.8.

4.5.

4.5 Conceptual Data Structure Terminology

This document describes the Mobile IPv6 protocol in terms of the
following conceptual data structures:

Binding Cache

A cache of bindings for other nodes. This cache is maintained by
home agents and correspondent nodes. The cache contains both
"correspondent registration" entries (see Section 9.1) and "home
registration" entries (see Section 10.1).

Binding Update List

This list is maintained by each mobile node. The list has an item
for every binding that the mobile node has or is trying to
establish with a specific other node. Both correspondent and home
registrations are included in this list. Entries from the list
are deleted as the Lifetime sent in the Binding Update expires.
See Section 11.1.

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Home Agents List

Home agents need to know which other home agents are on the same
link. This information is stored in the Home Agents List, as
described in more detail in Section 10.1. The list is used for
informing mobile nodes during dynamic home agent address
discovery.

4.6.

4.6 Site-Local Addressability

This specification requires that home and care-of addresses MUST be
unicast routable addresses. Site-local addresses may be usable on
networks that are not connected to the Internet, but this
specification does not define when such usage is safe and when not.
Mobile nodes may not be aware of which site they are free currently on, it
is hard to move from site prevent accidental attachment to site, but the use other sites, and
ambiguity of site-local addresses must be carefully managed. When a mobile node
or can cause problems the home agent address is site-local, then packets that and
visited networks use those
address need to stay within the site. The mobile node SHOULD use
such same addresses. Therefore, site-local
addresses only when it somehow has a guarantee - for instance,
by configuration - that it is safe to do so. Thus, a mobile node MAY SHOULD NOT be used as home or care-of addresses.

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use a site-local home address for roaming within a site, but not for
roaming to another site. This is true even though the mobile node
may be able to obtain a globally addressable care-of address at the
new site.

If a mobile node or home agent has a global IPv6 address available,
it SHOULD be selected for use with Mobile IP signaling, in order to
make the greatest chance for success in case the mobile node might
move to a different site.

Operations affecting multi-sited IPv6 nodes are not completely
understood, especially when mobility management is involved. For
this reason, home agents SHOULD NOT be multi-sited. Similarly,
a mobile node that uses site-local home, care-of, or home agent
addresses SHOULD NOT be multi-sited. January 2003

5. Overview of Mobile IPv6 Security

This specification provides a number of security features. These
include the protection of Binding Updates both to home agents and
correspondent nodes, and the protection of tunnels, home address
information, prefix discovery, and routing instructions in the
protection of the mechanisms that Mobile IPv6 uses for transporting
data packets.

Binding Updates are protected by the use of IPsec extension headers,
or by the use of the Binding Authorization Data option. This option
employs a binding management key, Kbm, which can be established
through the return routability procedure.

5.1. Binding Updates Prefix discovery is
protected through the use of IPsec extension headers. Mechanisms
related to Home Agents

The mobile node and transporting payload packets - such as the home agent must Home Address
destination option and type 2 routing header - have been specified in
a manner which restricts their use in attacks.

5.1 Binding Updates to Home Agents

The mobile node and the home agent MUST use an IPsec security
association to protect this signaling. Authentication Header (AH) or the integrity and authenticity of the Binding
Updates and Acknowledgements. Both the mobile nodes and the home
agents SHOULD use the Encapsulating Security Payload (ESP) [6] header
in transport mode and MUST be used. For ESP, use a
non-null non-NULL payload authentication
algorithm MUST be applied. to provide data origin authentication, connectionless
integrity and optional anti-replay protection. Note that
Authentication Header (AH) [5] is also possible but for brevity not
discussed in this specification.

In order to protect messages exchanged between the mobile node and
the home agent with IPsec, appropriate security policy database
entries must be created. A mobile node must be prevented from using
its security association to send a Binding Update on behalf of
another mobile node using the same home agent. This MUST be achieved
by checking having the home agent check that the given home address has been
used with the right security association. Such a check can be is provided
in the IPsec processing, by having the security policy database
entries unequivocally identify a single security association for any
given home address and home agent. The check may also be provided as
a part of Mobile IPv6 processing, if information about the used
security association is available in there. In any case, order to make this possible,
it is necessary that the home address of the mobile node is visible
in the Binding Updates and Acknowledgements. The home address is
used

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Address Destination option or the type 2 routing header.

As with all IPsec security associations in this specification, manual
configuration of security associations MUST be supported. The used
shared secrets MUST be random and unique for different mobile nodes,
and MUST be distributed off-line to the mobile nodes.

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Automatic key management with IKE [9] MAY be supported. When dynamic keying IKE is
used, either the security policy database entries or the MIPv6
processing MUST unequivocally identify the IKE phase 1 credentials
which can be used to create authorize the creation of security associations
for a particular home address.

Reference [24] How these mappings are maintained is an informative
outside the scope of this specification, but they may be maintained,
for instance, as a locally administered table in the home agent. If
the phase 1 identity is a FQDN, secure forms of DNS may also be used.

Section 11.3.2 discusses how IKE connections to the home agent need a
careful treatment of the addresses used for transporting IKE. This
is necessary to ensure that a Binding Update is not needed before the
IKE exchange which is needed for securing the Binding Update.

When IKE version 1 is used with preshared secret authentication
between the mobile node and the home agent, aggressive mode MUST be
used. Similarly, the ID_IPV6_ADDR Identity Payload MUST NOT be used
in IKEv1 phase 1.

Reference [21] contains a more detailed description and example of examples on
using IPsec to protect the communications between the mobile node and
the home agent.

5.2.

5.2 Binding Updates to Correspondent Nodes

The protection of Binding Updates sent to correspondent nodes can be does
not require the configuration of security associations or the
existence of an authentication infrastructure between the mobile
nodes and correspondent nodes. Instead, a method called the return
routability procedure is used to assure that the right mobile node is
sending the message. This method does not protect against attackers
who are on the path between the home network and the correspondent
node. However, attacker in such a location are capable of performing
the same attacks even without Mobile IPv6. The main advantage of the
return routability procedure is that it limits the potential
attackers to those having an access to one specific path in the
Internet, and avoids forged Binding Updates from anywhere else in the
Internet. For a more in depth explanation of the security properties
of the return routability procedure, see Section 15.

The integrity and authenticity of the Binding Updates messages to
correspondent nodes are protected by using a keyed-hash algorithm.
The binding management key, Kbm. Kbm, is used to key the hash algorithm
for this purpose. Kbm may be is established using data exchanged during the
return routability procedure. The data exchange is accomplished by
use of node keys, nonces, cookies, tokens, and certain cryptographic
functions. Section 5.2.5 outlines the basic return routability
procedure. Section 5.2.6 shows how the results of this procedure are

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used to authorize a Binding Update to a correspondent node. Finally, Sections 5.2.7 and 5.2.8 discuss some
additional issues.

5.2.1.

5.2.1 Node Keys

Each correspondent node has a secret key, Kcn, called the "node key",
which it uses to produce the keygen tokens sent to the mobile nodes.
The node key MUST be a random number, 20 octets in length. The node
key allows the correspondent node to verify that the keygen tokens
used by the mobile node in authorizing a Binding Update are indeed
its own. This key MUST NOT be shared with any other entity.

A correspondent node MAY generate a fresh node key at any time; this avoid
avoids the need for secure persistent key storage. Procedures for
optionally updating the node key are discussed later in Section
5.2.7.

5.2.2.

5.2.2 Nonces

Each correspondent node also generates nonces at regular intervals.
The nonces should be generated by using a random number generator
that is known to have good randomness properties [1]. A
correspondent node may use the same Kcn and nonce with all the
mobiles it is in communication with.

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Each nonce is identified by a nonce index. When a new nonce is
generated, it must be associated with a new nonce index; this may be
done, for example, by incrementing the value of the previous nonce
index, if the nonce index is used as an array pointer into a linear
array of nonces. However, there is no requirement that nonces be
stored that way, or that the values of subsequent nonce indices have
any particular relationship to each other. The index value is
communicated in the protocol, so that if a nonce is replaced by new
nonce during the run of a protocol, the correspondent node can
distinguish messages that should be checked against the old nonce
from messages that should be checked against the new nonce. Strictly
speaking, indices are not necessary in the authentication, but allow
the correspondent node to efficiently find the nonce value that it
used in creating a keygen token.

Correspondent nodes keep both the current nonce and a small set of
valid previous nonces whose lifetime has not yet expired. Expired
values MUST be discarded, and messages using stale or unknown indices
will be rejected.

The specific nonce index values cannot be used by mobile nodes to
determine the validity of the nonce. Expected validity times for the
nonces values and the procedures for updating them are discussed
later in Section 5.2.7.

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A nonce is an octet string of any length. The recommended length is
64 bits.

5.2.3.

5.2.3 Cookies and Tokens

The return routability address test procedure uses cookies and keygen
tokens as opaque values within the test init and test messages,
respectively.

o The "home init cookie" and "care-of init cookie" are 64 bit values
sent to the correspondent node from the mobile node, and later
returned to the mobile node. The home init cookie is sent in the
Home Test Init message, and returned in the Home Test message.
The care-of init cookie is sent in the Care-of Test Init message,
and returned in the Care-of Test message.

o The "home keygen token" and "care-of keygen token" are 64-bit
values sent by the correspondent node to the mobile node via the
home agent (via the Home Test message) and the care-of address (by
the Care-of Test message), respectively.

The mobile node should use set the home init or care-of init cookie to a
newly generated random number for each
request that carries a home init in every Home or care-of init cookie. Care-of Test Init
message it sends. The cookies are used to verify that the Home Test
or Care-of Test message matches the Home Test Init or Care-of Test
Init message, respectively. These

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parties who have not seen the request cannot spoof responses.

Home and care-of keygen tokens are produced by the correspondent node
based on its currently active secret key (Kcn) and nonces, as well as
the home or care-of address (respectively). A keygen token is valid
as long as both the secret key (Kcn) and the nonce used to create it
are valid.

5.2.4.

5.2.4 Cryptographic Functions

In this specification, the function used to compute hash values is
SHA1 [19]. [20]. Message Authentication Codes (MACs) are computed using
HMAC_SHA1 [25, 19]. [26, 20]. HMAC_SHA1(K,m) denotes such a MAC computed on
message m with key K.

5.2.5.

5.2.5 Return Routability Procedure

The Return Routability Procedure enables the correspondent node to
obtain some reasonable assurance that the mobile node is in fact
addressable at its claimed care-of address as well as at its home
address. Only with this assurance is the correspondent node able to
accept Binding Updates from the mobile node which would then instruct

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the correspondent node to direct that mobile node's data traffic to
its claimed care-of address.

This is done by testing whether packets addressed to the two claimed
addresses are routed to the mobile node. The mobile node can pass
the test only if it is able to supply proof that it received certain
data (the "keygen tokens") which the correspondent node sends to
those addresses. These data are combined by the mobile node into a
binding management key, denoted Kbm.

Figure 1

The below figure shows the message flow for the return routability
procedures.
procedure.

Mobile node Home agent Correspondent node
| |
| Home Test Init (HoTI) | |
|------------------------->|------------------------->|
| | |
| Care-of Test Init (CoTI) |
|---------------------------------------------------->|
| |
| | Home Test (HoT) |
|<-------------------------|<-------------------------|
| | |
| Care-of Test (CoT) |
|<----------------------------------------------------|
| |

The Home and Care-of Test Init messages are sent at the same time.
The procedure requires very little processing at the correspondent
node, and the Home and Care-of Test messages can be returned quickly,
perhaps nearly simultaneously. These four messages form the return
routability procedure.

Home Test Init

A mobile node sends a Home Test Init message to the correspondent
node to acquire the home keygen token. The contents of the
message can be summarized as follows:

* Source Address = home address

* Destination Address = correspondent

* Parameters:

+ home init cookie

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Figure 1: Message Flow for Return Routability Address Testing

Destination Address = correspondent
Parameters:
- home init cookie January 2003

The Home Test Init message conveys the mobile node's home address
to the correspondent node. The mobile node also sends along a
home init cookie that the correspondent node must return later.
The Home Test Init message is reverse tunneled through the home
agent. (The headers and addresses related to reverse tunneling
have been omitted from the above discussion of the message
contents.) The mobile node remembers these cookie values to obtain
some assurance that its protocol messages are being processed by
the desired correspondent node.

Care-of Test Init

The mobile node sends a Care-of Test Init message to the
correspondent node to acquire the care-of keygen token. The
contents of this message can be summarized as follows:

* Source Address = care-of address

* Destination Address = correspondent

* Parameters:
-

+ care-of init cookie

The Care-of Test Init message conveys the mobile node's care-of
address to the correspondent node. The mobile node also sends
along a care-of init cookie that the correspondent node must
return later. The Care-of Test Init message is sent directly to
the correspondent node.

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Home Test

The Home Test message is sent in response to a Home Test Init
message. The contents of the message are:

* Source Address = correspondent

* Destination Address = home address

* Parameters:
-

+ home init cookie
-

+ home keygen token
-

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+ home nonce index

When the correspondent node receives the Home Test Init message,
it generates a home keygen token as follows:

home keygen token :=
First (64, HMAC_SHA1 (Kcn, (home address | nonce | 0)))

where | denotes concatenation. The final "0" inside the HMAC_SHA1
function is a single zero octet, used to distinguish home and
care-of cookies from each other. The home keygen token is formed
from the first 64 bits of the MAC. The home keygen token tests
that the mobile can receive messages sent to its home address.
Kcn is used in the production of home keygen token in order to
allow the correspondent node to verify that it generated the home
and care-of nonces, without forcing the correspondent node to
remember a list of all tokens it has handed out. The Home Test
message is sent to the mobile node via the home network, where it
is presumed that the home agent will tunnel the message to the
mobile node. This means that the mobile node needs to already
have sent a Binding Update to the home agent, so that the home
agent will have received and authorized the new care-of address
for the mobile node before the return routability procedure. For
improved security, it is important
that the data passed between the home agent and the
mobile node can be made immune from to inspection and passive attack. attacks.
Such protection can be gained by encrypting the home keygen token
as it is tunneled from the home agent to the mobile node. node as
specified in Section 10.4.6. The security properties of this
additional security are discussed in Section 15.4.1. The home
init cookie from the mobile node is returned in the Home Test
message, to ensure that the message comes from a node on the route
between the home agent and the correspondent node. The home nonce
index is delivered to the mobile node to later allow the
correspondent node to efficiently find the nonce value that it
used in creating the home keygen token.

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Care-of Test

This message is sent in response to a Care-of Test Init message.
The contents of the message are:

* Source Address = correspondent

* Destination Address = care-of address

* Parameters:
-

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+ care-of init cookie
-

+ care-of keygen token
-

+ care-of nonce index

The correspondent node sends a challenge also to the mobile's
care-of address.

When the correspondent node receives the Care-of Test Init
message, it generates a care-of keygen token as follows:

care-of keygen token :=
First (64, HMAC_SHA1 (Kcn, (care-of address | nonce | 1)))

Here, the final "1" inside the HMAC_SHA1 function is a single
octet containing the hex value 0x01, and is used to distinguish
home and care-of cookies from each other. The keygen token is
formed from the first 64 bits of the MAC, and sent directly to the
mobile node at its care-of address. The care-of init cookie from
the from Care-of Test Init message is returned to ensure that the
message comes from a node on the route to the correspondent node.
The care-of nonce index is provided to identify the nonce used for
the care-of keygen token. The home and care-of nonce indices MAY
be the same, or different, in the Home and Care-of Test messages.

When the mobile node has received both the Home and Care-of Test
messages, the return routability procedure is complete. As a result
of the procedure, the mobile node has the data it needs to send a
Binding Update to the correspondent node. The mobile node hashes the
tokens together to form a 20 octet binding key Kbm:

Kbm = SHA1 (home keygen token | care-of keygen token)

A Binding Update may also be used to delete a previously established
binding by setting the care-of address equal to the home address
(Section 6.1.7). In this case, the care-of keygen token is not used.
Instead, the binding management key is generated as follows:

Kbm = SHA1(home keygen token)

Note that the correspondent node does not create any state specific
to the mobile node, until it receives the Binding Update from that

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mobile node. The correspondent node does not maintain the value for
the binding management key Kbm; it creates Kbm when given the nonce
indices and the mobile node's addresses.

5.2.6.

5.2.6 Authorizing Binding Management Messages

After the mobile node has created the binding management key (Kbm),

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it can supply a verifiable Binding Update to the correspondent node.
This section provides an overview of this binding procedure.
Figure 2 The
below figure shows the message flow. The Binding Update creates a
binding, and the Binding Acknowledgement is optional.

Mobile node Correspondent node
| |
| Binding Update (BU) |
|---------------------------------------------->|
| (MAC, seq#, nonce indices, care-of address) |
| |
| |
| Binding Acknowledgement (BA) (if sent) |
|<----------------------------------------------|
| (MAC, seq#, status) |

Figure 2: Message Flow for Establishing Binding at
the Correspondent Node

Binding Update

To authorize a Binding Update, the mobile node creates a binding
management key Kbm from the keygen tokens as described in the
previous section. The contents of the Binding Update include the
following:

* Source Address = care-of address

* Destination Address = correspondent

* Parameters:
-

+ home address (within the Home Address destination option or
in the Source Address)
-

+ sequence number (within the Binding Update message header)
-

+ home nonce index (within the Nonce Indices option)
-

+ care-of nonce index (within the Nonce Indices option)
-

+ HMAC_SHA1 (Kbm, (care-of address | CN address | BU))

The Binding Update may contain contains a Nonce Indices option, indicating to
the correspondent node which home and care-of nonces to use to
recompute Kbm, the binding management key.

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described in Section 6.2.6, 6.2.7, using the correspondent node's address
as the destination address and the Binding Update message itself
as the Mobility Header Data. Once the correspondent node has

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verified the MAC, it can create a Binding Cache entry for the
mobile.

Binding Acknowledgement

The Binding Update is optionally acknowledged by the correspondent
node. The contents of the message are as follows:

* Source Address = correspondent

* Destination Address = care-of address

* Parameters:
-

+ sequence number (within the Binding Update message header)
-

+ HMAC_SHA1 (Kbm, (care-of address | CN address | BA))

The Binding Acknowledgement contains the same sequence number as
the Binding Update. The MAC is computed as described in Section 6.2.6,
6.2.7, using the correspondent node's address as the destination
address and the message itself as the Mobility Header Data.

Bindings established with correspondent nodes using keys created by
way of the return routability procedure MUST NOT exceed
MAX_RR_BINDING_LIFE seconds (see Section 12).

The value in the Source Address field in the IPv6 header carrying the
Binding Update is normally also the care-of address which is used in
the binding. However, a different care-of address MAY be specified
by including an Alternate Care-of Address mobility option in the
Binding Update (see Section 6.2.4). 6.2.5). When such a message is sent to
the correspondent node and the return routability procedure is used
as the authorization method, the Care-of Test Init and Care-of Test
messages MUST have been performed for the address in the Alternate
Care-of Address option (not the Source Address). The nonce indices
and MAC value MUST be based on information gained in this test.

The care-of address

Binding Updates may also be set equal to the home address in order sent to delete a previously established binding
binding. In this case, generation of the binding management key
depends exclusively on the home keygen token (Section 5.2.5).

5.2.7. and the care-of nonce
index is ignored.

5.2.7 Updating Node Keys and Nonces

Correspondent nodes generate nonces at regular intervals. It is recommended to keep each nonce (identified by a nonce index)

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recommended to keep each nonce (identified by a nonce index)
acceptable for at least MAX_TOKEN_LIFE seconds (see Section 12) after
it has been first used in constructing a return routability message
response. However, the correspondent node MUST NOT accept nonces
beyond MAX_NONCE_LIFE seconds (see Section 12) after the first use.
As the difference between these two constants is 30 seconds, a
convenient way to enforce the above lifetimes is to generate a new
nonce every 30 seconds. The node can then continue to accept tokens
that have been based on the last 8 (MAX_NONCE_LIFE / 30) nonces.
This results in tokens being acceptable MAX_TOKEN_LIFE to
MAX_NONCE_LIFE seconds after they have been sent to the mobile node,
depending on whether the token was sent at the beginning or end of
the first 30 second period. Note that the correspondent node may
also attempt to generate new nonces on demand, or only if the old
nonces have been used. This is possible, as long as the
correspondent node keeps track of how long a time ago the nonces were
used for the first time, and does not generate new nonces on every
return routability request.

Due to resource limitations, rapid deletion of bindings, or reboots
the correspondent node may not in all cases recognize the nonces that
the tokens were based on. If a nonce index is unrecognized, the
correspondent node replies with an an error code in the Binding
Acknowledgement (either 136, 137, or 138 as discussed in Section
6.1.8). The mobile node can then retry the return routability
procedure.

An update of Kcn SHOULD be done at the same time as an update of a
nonce, so that nonce indices can identify both the nonce and the key.
Old Kcn values have to be therefore remembered as long as old nonce
values.

Given that the tokens are normally expected to be usable for
MAX_TOKEN_LIFE seconds, the mobile node MAY use them beyond a single
run of the return routability procedure until MAX_TOKEN_LIFE expires.
After this the mobile node SHOULD NOT use the tokens. A fast moving
mobile node may reuse a recent home keygen token from a correspondent
node when moving to a new location, and just acquire a new care-of
keygen token to show routability in the new location.

While this does not save the number of round-trips due to the
simultaneous processing of home and care-of return routability tests,
there are fewer messages being exchanged, and a potentially long
round-trip through the home agent is avoided. Consequently, this
optimization is often useful. A mobile node that has multiple home
addresses, may also use the same care-of keygen token for Binding
Updates concerning all of these addresses.

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5.2.8. January 2003

5.2.8 Preventing Replay Attacks

The return routability procedure also protects the participants
against replayed Binding Updates through the use of the sequence
number and a MAC. Care must be taken when removing bindings at the
correspondent node, however. Correspondent nodes must retain
bindings and the associated sequence number information at least as
long as the nonces used in the authorization of the binding are still
valid. The Alternatively, if memory is very constrained, the
correspondent node can, for instance, change MAY invalidate the nonce
often enough to ensure nonces that were used for the
binding being deleted (or some larger group of nonces used when removed entries
were created are no longer valid. If many such deletions occur that they
belong to). This may, however, impact the correspondent node can batch them together to avoid having ability to
increment the nonce index too often.

5.3. accept Binding
Updates from mobile nodes that have recently received keygen tokens.
This alternative is therefore recommended only as a last measure.

5.3 Dynamic Home Agent Address Discovery

No security is required for dynamic home agent address discovery.

5.4.

5.4 Prefix Discovery

The mobile node and the home agent must have a SHOULD use an IPsec security
association to protect prefix discovery. IPsec AH or ESP SHOULD be supported and
used for the integrity protection. For ESP, and authenticity of the Mobile
Prefix Solicitations and Advertisements. Both the mobile nodes and
the home agents SHOULD use the Encapsulating Security Payload (ESP)
header in transport mode with a non-null non-NULL payload authentication
algorithm MUST be applied.

5.5. to provide data origin authentication, connectionless
integrity and optional anti-replay protection.

5.5 Payload Packets

Payload packets exchanged with mobile nodes can be protected in the
usual manner, in the same way as stationary hosts can protect them.
However, Mobile IPv6 introduces the Home Address destination option,
a routing header, and tunneling headers in the payload packets. In
the following we define the security measures taken to protect these,
and to prevent their use in attacks against other parties.

This specification limits the use of the Home Address destination
option to the situation where the correspondent node already has a
Binding Cache entry for the given home address. This avoids the use
of the Home Address option in attacks described in Section 14.1. 15.1.

Mobile IPv6 uses a Mobile IPv6 specific type of a routing header.
This type provides the necessary functionality but does not open
vulnerabilities discussed in Section 14.1. 15.1.

Tunnels between the mobile node and the home agent are protected by

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ensuring proper use of source addresses, and optional cryptographic
protection. The mobile node verifies that the outer IP address
corresponds to its home agent. The home agent verifies that the
outer IP address corresponds to the current location of the mobile

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node (Binding Updates sent to the home agents are secure). The home
agent identifies the mobile node through the source address of the
inner packet.(Typically, this is the home address of the mobile node,
but it can also be a link-local address, as discussed in Section
10.4.2. To recognize the latter type of addresses, the home agent
requires that the Link-Local Address Compatibility (L) was set in the
Binding Update.) These measures protect the tunnels against
vulnerabilities discussed in Section 14.1. 15.1.

For traffic tunneled via the home agent, additional IPsec AH or ESP
encapsulation MAY be supported and used. If multicast group
membership control protocols or stateful address autoconfiguration
protocols are supported, payload data protection MUST be supported.

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6. New IPv6 Protocol, Message Types, and Destination Option

6.1.

6.1 Mobility Header

The Mobility Header is an extension header used by mobile nodes,
correspondent nodes, and home agents in all messaging related to the
creation and management of bindings. The subsections within this
section describe the message types that may be sent using the
Mobility Header.

6.1.1.

6.1.1 Format

The Mobility Header is identified by a Next Header value of TBD <To
be assigned by IANA> in the immediately preceding header, and has the
following format:

Payload Proto

8-bit selector. Identifies the type of header immediately
following the Mobility Header. Uses the same values as the IPv6
Next Header field [11].

This field is intended to be used by a future specification of
piggybacking binding messages on payload packets (see
Section Appendix
B.1). Implementations conforming to this specification SHOULD set
the payload protocol type to IPPROTO_NONE (59 decimal).

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Header Len

8-bit unsigned integer, representing the length of the Mobility
Header in units of 8 octets, excluding the first 8 octets.

The length of the Mobility Header MUST be a multiple of 8 octets.

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MH Type

8-bit selector. Identifies the particular mobility message in
question. Current values are specified in Sections Section 6.1.2
to 6.1.9. and
onward. An unrecognized MH Type field causes an error indication
to be sent.

Reserved

8-bit field reserved for future use. The value MUST be
initialized to zero by the sender, and MUST be ignored by the
receiver.

Checksum

16-bit unsigned integer. This field contains the checksum of the
Mobility Header. The checksum is calculated from the octet string
consisting of a "pseudo-header" followed by the entire Mobility
Header starting with the Payload Proto field. The checksum is the
16-bit one's complement of the one's complement sum of this
string.

The pseudo-header contains IPv6 header fields, as specified in
Section 8.1 of RFC 2460 [11]. The Next Header value used in the
pseudo-header is TBD <To be assigned by IANA>. The addresses used
in the pseudo-header are the addresses that appear in the Source
and Destination Address fields in the IPv6 packet carrying the
Mobility Header. Note that the procedures described in Section
11.3.1 apply even for the Mobility Header. If a mobility message
has a Home Address destination option, then the checksum
calculation uses the home address in this option as the value of
the IPv6 Source Address field. The type 2 routing header is
treated as explained in [26]. [22]. The Mobility Header is considered
as the upper layer protocol for the purposes of calculating the
pseudo-header. The Upper-Layer Packet Length field in the
pseudo-header MUST be set to the total length of the Mobility
Header. For computing the checksum, the checksum field is set to
zero.

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Message Data

A variable length field containing the data specific to the
indicated Mobility Header type.

Mobile IPv6 also defines a number of "mobility options" for use
within these messages; if included, any options MUST appear after the
fixed portion of the message data specified in this document. The
presence of such options will be indicated by the Header Len field

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within the message. When the Header Len value is greater than the
length required for the message specified here, the remaining octets
are interpreted as mobility options. These options include padding
options that can be used to ensure that other options are aligned
properly, and that the total length of the message is divisible by 8.
The encoding and format of defined options are described in Section
6.2.

Alignment requirements for the Mobility Header are the same as for
any IPv6 protocol Header. That is, they MUST be aligned on an
8-octet boundary.

6.1.2.

6.1.2 Binding Refresh Request Message

The Binding Refresh Request (BRR) message is used to request requests a mobile node's binding from the mobile node. It node to
update its mobility binding. This message is sent by correspondent
nodes according to the rules in Section 9.5.5. When a mobile node
receives a packet containing a Binding Refresh Request message it
processes the message according to the rules in Section 11.7.4.

The Binding Refresh Request message uses the MH Type value 0. When
this value is indicated in the MH Type field, the format of the
Message Data field in the Mobility Header is as follows:

+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| Reserved |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| |
. .
. Mobility options .
. .
| |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

Reserved

16-bit field reserved for future use. The value MUST be
initialized to zero by the sender, and MUST be ignored by the
receiver.

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Mobility Options

Variable-length field of such length that the complete Mobility
Header is an integer multiple of 8 octets long. Contains one zero or
more TLV-encoded mobility options. The encoding and format of
defined options are described in Section 6.2. The receiver MUST
ignore and skip any options which it does not understand.

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There MAY be additional information, associated with this Binding
Refresh Request message, that need not be present in all Binding
Refresh Request messages sent. Mobility options allow future
extensions to the format of the Binding Refresh Request message to
be defined. This specification does not define any options valid
for the Binding Refresh Request message.

If no actual options are present in this message, no padding is
necessary and the Header Len field will be set to 0.

6.1.3.

6.1.3 Home Test Init Message

A mobile node uses the Home Test Init (HoTI) message to initiate the
return routability procedure and request a home keygen token from a
correspondent node (see Section 11.6.1). The Home Test Init message
uses the MH Type value 1. When this value is indicated in the MH
Type field, the format of the Message Data field in the Mobility
Header is as follows:

+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| Reserved |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| |
+ Home Init Cookie +
| |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| |
. .
. Mobility Options .
. .
| |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

Reserved

16-bit field reserved for future use. This value MUST be
initialized to zero by the sender, and MUST be ignored by the
receiver.

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Home Init Cookie

64-bit field which contains a random value, the home init cookie.

Mobility Options

Variable-length field of such length that the complete Mobility
Header is an integer multiple of 8 octets long. Contains
one zero or
more TLV-encoded mobility options. The receiver MUST ignore and

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skip any options which it does not understand. This specification
does not define any options valid for the Home Test Init message.

If no actual options are present in this message, no padding is
necessary and the Header Len field will be set to 1.

This message is tunneled through the home agent when the mobile node
is away from home. Such tunneling SHOULD employ IPsec ESP in tunnel
mode between the home agent and the mobile node. This protection is
indicated by the IPsec policy data base. The protection of Home Test
Init messages is unrelated to the requirement to protect regular
payload traffic, which MAY use such tunnels as well.

6.1.4.

6.1.4 Care-of Test Init Message

A mobile node uses the Care-of Test Init (CoTI) message to initiate
the return routability procedure and request a care-of keygen token
from a correspondent node (see Section 11.6.1). The Care-of Test
Init message uses the MH Type value 2. When this value is indicated
in the MH Type field, the format of the Message Data field in the
Mobility Header is as follows:

+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| Reserved |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| |
+ Care-of Init Cookie +
| |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| |
. .
. Mobility Options .
. .
| |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

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Reserved

16-bit field reserved for future use. The value MUST be
initialized to zero by the sender, and MUST be ignored by the
receiver.

Care-of Init Cookie

64-bit field which contains a random value, the care-of init
cookie.

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Mobility Options

Variable-length field of such length that the complete Mobility
Header is an integer multiple of 8 octets long. Contains
one zero or
more TLV-encoded mobility options. The receiver MUST ignore and
skip any options which it does not understand. This specification
does not define any options valid for the Care-of Test Init
message.

If no actual options are present in this message, no padding is
necessary and the Header Len field will be set to 1.

6.1.5.

6.1.5 Home Test Message

The Home Test (HoT) message is a response to the Home Test Init
message, and is sent from the correspondent node to the mobile node
(see Section 5.2.5). The Home Test message uses the MH Type value 3.
When this value is indicated in the MH Type field, the format of the
Message Data field in the Mobility Header is as follows:

+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| Home Nonce Index |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| |
+ Home Init Cookie +
| |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| |
+ Home Keygen Nonce Token +
| |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| |
. .
. Mobility options .
. .
| |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

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Home Nonce Index

This field will be echoed back by the mobile node to the
correspondent node in a subsequent Binding Update.

Home Init Cookie

64-bit field which contains the home init cookie.

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Home Keygen Nonce Token

This field contains the 64 bit home keygen token used in the
return routability procedure.

Mobility Options

If no actual options are present in this message, no padding is
necessary and the Header Len field will be set to 2.

6.1.6.

6.1.6 Care-of Test Message

The Care-of Test (CoT) message is a response to the Care-of Test Init
message, and is sent from the correspondent node to the mobile node
(see Section 11.6.2). The Care-of Test message uses the MH Type
value 4. When this value is indicated in the MH Type field,

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format of the Message Data field in the Mobility Header is as
follows:

+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| Care-of Nonce Index |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| |
+ Care-of Init Cookie +
| |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| |
+ Care-of Keygen Nonce Token +
| |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| |
. .
. Mobility Options .
. .
| |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

Care-of Nonce Index

This value will be echoed back by the mobile node to the
correspondent node in a subsequent Binding Update.

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Care-of Init Cookie

64-bit field which contains the care-of init cookie.

Care-of Keygen Nonce Token

This field contains the 64 bit care-of keygen token used in the
return routability procedure.

Mobility Options

If no actual options are present in this message, no padding is
necessary and the Header Len field will be set to 2.

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6.1.7.

6.1.7 Binding Update Message

The Binding Update (BU) message is used by a mobile node to notify
other nodes of a new care-of address for itself. Binding Updates are
sent as described in Section 11.7.1 and Section 11.7.2.

The Binding Update uses the MH Type value 5. When this value is
indicated in the MH Type field, the format of the Message Data field
in the Mobility Header is as follows:

+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| Sequence # |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
|A|H|S|D|L|
|A|H|L|K| Reserved | Lifetime |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| |
. .
. Mobility options .
. .
| |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

Acknowledge (A)

The Acknowledge (A) bit is set by the sending mobile node to
request a Binding Acknowledgement (Section 6.1.8) be returned upon
receipt of the Binding Update.

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Home Registration (H)

The Home Registration (H) bit is set by the sending mobile node to
request that the receiving node should act as this node's home
agent. The destination of the packet carrying this message MUST
be that of a router sharing the same subnet prefix as the home
address of the mobile node in the binding.

Single Address Only (S)

If this bit is set, the mobile node requests that the home
agent make no changes to any other Binding Cache entry except
for the particular one containing the home address specified
in the Home Address destination option. This disables home
agent processing for other related addresses, as is described
in Section 10.3.1.

Duplicate Address Detection (D)

The Duplicate Address Detection (D) bit is set by the sending
mobile node to request that the receiving node (the mobile
node's home agent) perform Duplicate Address Detection [13]
on the mobile node's home link for the home address in this

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binding. This bit is only valid when the Home Registration (H)
and Acknowledge (A) bits are also set, and MUST NOT be set
otherwise.

Link-Local Address Compatibility (L)

The Link-Local Address Compatibility (L) bit is set when the home
address reported by the mobile node has the same interface
identifier (IID) as the mobile node's link-local address.

Key Management Mobility Capability (K)

If this bit is reset, the protocol used for establishing the IPsec
security associations between the mobile node and the home agent
does not survive movements. It may then have to be rerun. (Note
that the IPsec security associations themselves are expected to
survive movements.) If manual IPsec configuration is used, the bit
MUST be set to 1.

This bit is valid only in Binding Updates sent to the home agent.
Correspondent nodes MUST ignore this bit.

Reserved

These fields are unused. They MUST be initialized to zero by the
sender and MUST be ignored by the receiver.

Sequence #

A 16-bit number unsigned integer used by the receiving node to sequence
Binding Updates and by the sending node to match a returned
Binding Acknowledgement with this Binding Update.

Lifetime

16-bit unsigned integer. The number of time units remaining
before the binding MUST be considered expired. A value of all one
bits (0xffff) indicates infinity. A value of zero indicates that
the Binding Cache entry for the mobile node MUST be deleted. One
time unit is 4 seconds.

Mobility Options

Variable-length field of such length that the complete Mobility

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Header is an integer multiple of 8 octets long. Contains one or
more TLV-encoded mobility options. The encoding and format of
defined options are described in Section 6.2. The receiver MUST
ignore and skip any options which it does not understand.

The following options are valid in a Binding Update:

* Binding Authorization Data option

* Nonce Indices option.

* Alternate Care-of Address option

If no options are present in this message, 4 bytes of padding is
necessary and the Header Len field will be set to 1.

The care-of address MUST be a unicast routable address. Binding
Updates for a care-of address which is not a unicast routable address
MUST be silently discarded.

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The deletion of a binding can be indicated by setting the Lifetime
field to 0 or by setting the care-of address equal to the home
address. In either case, generation of the binding management key
depends exclusively on the home keygen token (Section 5.2.5).
Correspondent nodes SHOULD NOT expire the Binding Cache entry before
the lifetime expires, if any application hosted by the correspondent
node is still likely to require communication with the mobile node.
A Binding Cache entry that is deallocated prematurely might cause
subsequent packets to be dropped from the mobile node, if they
contain the Home Address destination option. This situation is
recoverable, since an Binding Error message is sent to the mobile
node (see Section 6.1.9); however, it causes unnecessary delay in the
communications.

6.1.8.

6.1.8 Binding Acknowledgement Message

The Binding Acknowledgement is used to acknowledge receipt of a
Binding Update (Section 6.1.7). This packet is sent as described in
Sections
Section 9.5.4 and Section 10.3.1.

The Binding Acknowledgement has the MH Type value 6. When this value
is indicated in the MH Type field, the format of the Message Data
field in the Mobility Header is as follows:

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+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| Status | |K| Reserved |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| Sequence # | Lifetime |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| |
. .
. Mobility options .
. .
| |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

Key Management Mobility Capability (K)

If this bit is reset, the protocol used by the home agent for
establishing the IPsec security associations between the mobile
node and the home agent does not survive movements. It may then
have to be rerun. (Note that the IPsec security associations
themselves are expected to survive movements.)

Correspondent nodes MUST set the K bit to 0.

Reserved

These fields are unused. They MUST be initialized to zero by the
sender and MUST be ignored by the receiver.

Status

8-bit unsigned integer indicating the disposition of the Binding
Update. Values of the Status field less than 128 indicate that
the Binding Update was accepted by the receiving node. Values
greater than or equal to 128 indicate that the Binding Update was
rejected by the receiving node. The following Status values are
currently defined:

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0 Binding Update accepted

128 Reason unspecified

129 Administratively prohibited

130 Insufficient resources

131 Home registration not supported

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132 Not home subnet

133 Not home agent for this mobile node

134 Duplicate Address Detection failed

135 Sequence number out of window

136 Expired home nonce index

137 Expired care-of nonce index

138 Expired nonces

Up-to-date values of the Status field are to be specified in the
IANA registry of assigned numbers [18]. [19].

Sequence #

The Sequence Number in the Binding Acknowledgement is copied from
the Sequence Number field in the Binding Update. It is used by
the mobile node in matching this Binding Acknowledgement with an
outstanding Binding Update.

Lifetime

The granted lifetime, in time units of 4 seconds, for which this
node SHOULD retain the entry for this mobile node in its Binding
Cache. A value of all one bits (0xffff) indicates infinity.

The value of this field is undefined if the Status field indicates
that the Binding Update was rejected.

Mobility Options

Variable-length field of such length that the complete Mobility
Header is an integer multiple of 8 octets long. Contains one or
more TLV-encoded mobility options. The encoding and format of
defined options are described in Section 6.2. The receiver MUST
ignore and skip any options which it does not understand.

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There MAY be additional information, associated with this Binding
Acknowledgement, that need not be present in all Binding
Acknowledgements sent. Mobility options allow future extensions
to the format of the Binding Acknowledgement to be defined. The
following options are valid for the Binding Acknowledgement:

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* Binding Authorization Data option

* Binding Refresh Advice option

If no options are present in this message, 4 bytes of padding is
necessary and the Header Len field will be set to 1.

6.1.9.

6.1.9 Binding Error Message

The Binding Error (BE) message is used by the correspondent node to
signal an error related to mobility, such as an inappropriate attempt
to use the Home Address destination option without an existing
binding; see Section 9.3.3 for details.

The Binding Error message uses the MH Type value 7. When this value
is indicated in the MH Type field, the format of the Message Data
field in the Mobility Header is as follows:

+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| Status | Reserved |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| |
+ +
| |
+ Home Address +
| |
+ +
| |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
. .
. Mobility Options .
. .
| |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

Status

8-bit unsigned integer indicating the reason for this message.
The following values are currently defined:

1 Unknown binding for Home Address destination option

2 Unrecognized MH Type value

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Reserved

A 8-bit field reserved for future use. The value MUST be
initialized to zero by the sender, and MUST be ignored by the

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receiver.

Home Address

The home address that was contained in the Home Address
destination option. The mobile node uses this information to
determine which binding does not exist, in cases where the mobile
node has several home addresses.

Mobility Options

Variable-length field of such length that the complete Mobility
Header is an integer multiple of 8 octets long. Contains one zero or
more TLV-encoded mobility options. The receiver MUST ignore and
skip any options which it does not understand.

There MAY be additional information, associated with this Binding
Error message, that need not be present in all Binding Error
messages sent. Mobility options allow future extensions to the
format of the format of the Binding Error message to be defined.
The encoding and format of defined options are described in
Section 6.2. This specification does not define any options valid
for the Binding Error message.

If no actual options are present in this message, no padding is
necessary and the Header Len field will be set to 2.

6.2.

6.2 Mobility Options

Mobility messages can include one or more mobility options. This
allows optional fields that may not be needed in every use of a
particular Mobility Header, as well as future extensions to the
format of the messages. Such options are included in the Message
Data field of the message itself, after the fixed portion of the
message data specified in the message subsections of Section 6.1.

The presence of such options will be indicated by the Header Len of
the Mobility Header. If included, the Binding Authorization Data
option (Section 6.2.6) 6.2.7) MUST be the last option and MUST NOT have
trailing padding. Otherwise, options can be placed in any order.

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6.2.1.

6.2.1 Format

Mobility options are encoded within the remaining space of the
Message Data field of a mobility message, using a type-length-value
(TLV) format as follows:

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0 1 2 3
0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| Option Type | Option Length | Option Data...
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

Option Type

8-bit identifier of the type of mobility option. When processing
a Mobility Header containing an option for which the Option Type
value is not recognized by the receiver, the receiver MUST quietly
ignore and skip over the option, correctly handling any remaining
options in the message.

Option Length

8-bit unsigned integer, representing the length in octets of the
mobility option, not including the Option Type and Option Length
fields.

Option Data

A variable length field that contains data specific to the option.

The following subsections specify the Option types which are
currently defined for use in the Mobility Header.

Implementations MUST silently ignore any mobility options that they
do not understand.

6.2.2.

6.2.2 Pad1

The Pad1 option does not have any alignment requirements. Its format
is as follows:

0
0 1 2 3 4 5 6 7
+-+-+-+-+-+-+-+-+
| Type = 0 |
+-+-+-+-+-+-+-+-+

NOTE! the format of the Pad1 option is a special case - it has
neither Option Length nor Option Data fields.

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The Pad1 option is used to insert one octet of padding in the
Mobility Options area of a Mobility Header. If more than one octet
of padding is required, the PadN option, described next, should be
used rather than multiple Pad1 options.

6.2.3.

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6.2.3 PadN

The PadN option does not have any alignment requirements. Its format
is as follows:

0 1
0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+- - - - - - - - -
| Type = 1 | Option Length | Option Data
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+- - - - - - - - -

The PadN option is used to insert two or more octets of padding in
the Mobility Options area of a mobility message. For N octets of
padding, the Option Length field contains the value N-2, and the
Option Data consists of N-2 zero-valued octets. PadN Option data
MUST be ignored by the receiver.

6.2.4.

6.2.4 Binding Refresh Advice

The Binding Refresh Advice option has an alignment requirement of 2n.
Its format is 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 = 2 | Length = 2 |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| Refresh Interval |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

The Binding Refresh Advice option is only valid in the Binding
Acknowledgement, and only on Binding Acknowledgements sent from the
mobile node's home agent in reply to a home registration. The
Refresh Interval is measured in units of four seconds, and indicates
how long before the mobile node SHOULD send a new home registration
to the home agent. The Refresh Interval MUST be set to indicate a
smaller time interval than the Lifetime value of the Binding
Acknowledgement.

6.2.5 Alternate Care-of Address

The Alternate Care-of Address option has an alignment requirement of
8n+6. Its format is as follows:

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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 = 3 | Length = 16 |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| |
+ +
| |
+ Alternate Care-of Address +
| |
+ +
| |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

The Alternate Care-of Address option is valid only in Binding Update.
The Alternate Care-of Address field contains an address to use as the
care-of address for the binding, rather than using the Source Address
of the packet as the care-of address.

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6.2.5.

6.2.6 Nonce Indices

The Nonce Indices option has an alignment requirement of 2n. Its
format is 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 = 4 | Length = 4 |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| Home Nonce Index | Care-of Nonce Index |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

The Nonce Indices option is valid only in the Binding Update message, message
sent to a correspondent node, and only when present together with an a
Binding Authorization Data option. When the correspondent node
authorizes the Binding Update, it needs to produce home and care-of
keygen tokens from its stored random nonce values.

The Home Nonce Index field tells the correspondent node that receives
the message which of its stored random nonce values is to be used
value to
produce use when producing the home keygen token to authorize the Binding Update. token.

The Care-of Nonce Index field is ignored in requests to delete a
binding. Otherwise, it tells the correspondent node that
receives the message which of its stored random nonce values is to
be used
value to produce use when producing the care-of keygen token to authorize the Binding
Update.

6.2.6. token.

6.2.7 Binding Authorization Data

The Binding Authorization Data option has an does not have any alignment requirement of
8n+2.

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requirements. Its format is 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 = 5 | Option Length |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| |
+ +
| Authenticator |
+ +
| |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

The Binding Authorization Data option is valid in the Binding Update
and Binding Acknowledgment.

The Option Length field contains the length of the authenticator in
octets.

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The Authenticator field contains a cryptographic value which can be
used to determine that the message in question comes from the right
authority. Rules for calculating this value depend on the used
authorization procedure.

For the return routability procedure, this option can appear in the
Binding Update and Binding Acknowledgements. Rules for calculating
the Authenticator value are the following:

Mobility Data = care-of address | final dest | Mobility Header Data
Authenticator = First (96, HMAC_SHA1 (Kbm, Mobility Data))

Where | denotes concatenation and "final dest" is the IPv6 address of
the final destination of the packet. "Mobility Header Data" is the
content of the Mobility Header, excluding the Authenticator field
itself. The Authenticator value is calculated as if the Checksum
field in the Mobility Header was zero. The Checksum in the
transmitted packet is still calculated in the usual manner, with the
calculated Authenticator being a part of the packet protected by the
Checksum. Kbm is the binding management key, which is typically
created using nonces provided by the correspondent node (see Section
9.4).

The first 96 bits from the MAC result are used as the Authenticator
field. Note that, if the message is sent to a destination which is
itself mobile, the "final dest" address may not be the address found
in the Destination Address field of the IPv6 header; instead the
address of the true destination (e.g., its home address) should be
used.

6.2.7. Binding Refresh Advice

The Binding Refresh Advice option has an alignment requirement of 2n.
Its format is 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 = 6 | Length = 2 |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| Refresh Interval |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

The Binding Refresh Advice option is only valid in the Binding
Acknowledgement, and only on Binding Acknowledgements sent from
the mobile node's home agent in reply to a home registration. The
Refresh Interval is measured in units of four seconds, and indicates
how long before the mobile node SHOULD send a new home registration
to the home agent. The Refresh Interval MUST be set to indicate

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a smaller time interval than the Lifetime value of the Binding
Acknowledgement.

6.3. January 2003

used.

6.3 Home Address Option

The Home Address option is carried by the Destination Option
extension header (Next Header value = 60). It is used in a packet
sent by a mobile node while away from home, to inform the recipient
of the mobile node's home address.

The Home Address option is encoded in type-length-value (TLV) format
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
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| Next Header | Header Ext Len
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| Option Type | Option Length |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| |
+ +
| |
+ Home Address +
| |
+ +
| |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

Option Type

201 = 0xC9

Option Length

8-bit unsigned integer. Length of the option, in octets,
excluding the Option Type and Option Length fields. This field
MUST be set to 16.

Home Address

The home address of the mobile node sending the packet. This
address MUST be a unicast routable address.

IPv6 requires that options appearing in a Hop-by-Hop Options header
or Destination Options header be aligned in a packet so that
multi-octet values within the Option Data field of each option fall
on natural boundaries (i.e., fields of width n octets are placed at
an integer multiple of n octets from the start of the header, for n =
1, 2, 4, or 8) [11]. The alignment requirement [11] for the Home
Address option is 8n+6.

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The three highest-order bits of the Option Type field are encoded to
indicate specific processing of the option [11]; for the Home Address
option, these three bits are set to 110. This indicates the
following processing requirements:

o Any IPv6 node that does not recognize the Option Type must discard
the packet.

o If the packet's Destination Address was not a multicast address,
return an ICMP Parameter Problem, Code 2, message to the packet's
Source Address; otherwise, for multicast addresses, the ICMP
message MUST NOT be sent.

o The data within the option cannot change en-route to the packet's
final destination.

The Home Address option MUST be placed as follows:

o After the routing header, if that header is present

o Before the Fragment Header, if that header is present

o Before the AH Header or ESP Header, if either one of those headers
is present

For each IPv6 packet header, the Home Address Option MUST NOT appear
more than once. However, an encapsulated packet [15] MAY contain a
separate Home Address option associated with each encapsulating IP
header.

The inclusion of a Home Address destination option in a packet
affects the receiving node's processing of only this single packet.
No state is created or modified in the receiving node as a result of
receiving a Home Address option in a packet. In particular, the
presence of a Home Address option in a received packet MUST NOT alter
the contents of the receiver's Binding Cache and MUST NOT cause any
changes in the routing of subsequent packets sent by this receiving
node.

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6.4.

6.4 Type 2 Routing Header

Mobile IPv6 defines a new routing header variant, the type 2 routing
header, to allow the packet to be routed directly from a
correspondent to the mobile node's care-of address. The mobile
node's care-of address is inserted into the IPv6 Destination Address
field. Once the packet arrives at the care-of address, the mobile
node retrieves its home address from the routing header, and this is
used as the final destination address for the packet.

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The new routing header uses a different type than defined for
"regular" IPv6 source routing, enabling firewalls to apply different
rules to source routed packets than to Mobile IPv6. This routing
header type (type 2) is restricted to carry only one IPv6 address.
All IPv6 nodes which process this routing header MUST verify that the
address contained within is the node's own home address in order to
prevent packets from being forwarded outside the node. The IP
address contained in the routing header, since it is the mobile
node's home address, MUST be a unicast routable address.
Furthermore, if the scope of the home address is smaller than the
scope of the care-of address, the mobile node MUST discard the packet
(see Section 4.6).

6.4.1.

6.4.1 Format

The type 2 routing header has the following format:

+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| Next Header | Hdr Ext Len=2 | Routing Type=2|Segments Left=1|
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| Reserved |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| |
+ +
| |
+ Home Address +
| |
+ +
| |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

Next Header

8-bit selector. Identifies the type of header immediately
following the routing header. Uses the same values as the IPv6
Next Header field [11].

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Hdr Ext Len

2 (8-bit unsigned integer); length of the routing header in
8-octet units, not including the first 8 octets

Routing Type

2 (8-bit unsigned integer).

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Segments Left

1 (8-bit unsigned integer).

Reserved

32-bit reserved field. Initialized to zero for transmission, and
ignored on reception.

Home Address

The Home Address of the destination Mobile Node.

For a type 2 routing header, the Hdr Ext Len MUST be 2. The Segments
Left value describes the number of route segments remaining; i.e.,
number of explicitly listed intermediate nodes still to be visited
before reaching the final destination. Segments Left MUST be 1. The
ordering rules for extension headers in an IPv6 packet are described
in Section 4.1 of RFC 2460 [11]. The type 2 routing header defined
for Mobile IPv6 follows the same ordering as other routing headers.
If both a
Type type 0 and a type 2 routing header are present, the type 2
routing header should follow the other routing header. A packet
containing such nested encapsulation should be created as if the
inner (type 2) routing header was constructed first and then treated
as an original packet by the outer (type 2) routing header
construction process.

In addition, the general procedures defined by IPv6 for routing
headers suggest that a received routing header MAY be automatically
"reversed" to construct a routing header for use in any response
packets sent by upper-layer protocols, if the received packet is
authenticated [6]. This MUST NOT be done automatically for type 2
routing headers.

6.5.

6.5 ICMP Home Agent Address Discovery Request Message

The ICMP Home Agent Address Discovery Request message is used by a
mobile node to initiate the dynamic home agent address discovery
mechanism, as described in Section 11.4.1. The mobile node sends

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Home Agent Address Discovery Request message to the Mobile IPv6
Home-Agents anycast address [16] for its own home subnet prefix [16]. prefix.

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+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

Type

150 <To Be Assigned by IANA>

Code

Checksum

The ICMP checksum [14].

Identifier

An identifier to aid in matching Home Agent Address Discovery
Reply messages to this Home Agent Address Discovery Request
message.

Reserved

This field is unused. It MUST be initialized to zero by the
sender and MUST be ignored by the receiver.

The Source Address of the Home Agent Address Discovery Request
message packet MUST be is typically one of the mobile node's current care-of
addresses. The home agent MUST then return the Home Agent Address
Discovery Reply message directly to the Source Address chosen by the
mobile node. Note that, at At the time of performing this dynamic home agent address
discovery procedure, it is likely that the mobile node is not
registered with any home agent. Therefore, neither the nature of the
address nor the identity of the mobile node can be established at
this time. The home agent within MUST then return the specified anycast
group.

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6.6. Home Agent Address
Discovery Reply message directly to the Source Address chosen by the
mobile node.

6.6 ICMP Home Agent Address Discovery Reply Message

The ICMP Home Agent Address Discovery Reply message is used by a home
agent to respond to a mobile node that uses the dynamic home agent
address discovery mechanism, as described in Section 10.5.

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Type

151 <To Be Assigned by IANA>

Code

Checksum

The ICMP checksum [14].

Identifier

The identifier from the invoking Home Agent Address Discovery
Request message.

Reserved

This field is unused. It MUST be initialized to zero by the
sender and MUST be ignored by the receiver.

Home Agent Addresses

A list of addresses of home agents on the home link for the mobile
node. The number of addresses present in the list is indicated by
the remaining length of the IPv6 packet carrying the Home Agent
Address Discovery Reply message.

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6.7. January 2003

6.7 ICMP Mobile Prefix Solicitation Message Format

The ICMP Mobile Prefix Solicitation Message is sent by a mobile node
to its home agent while it is away from home. The purpose of the
message is to solicit a Mobile Prefix Advertisement from the home
agent, which will allow the mobile node to gather prefix information
about its home network. This information can be used to configure
and update home address(es) according to changes in prefix
information supplied by the home agent.

IP Fields:

Source Address

The mobile node's care-of address.

Destination Address

The address of the mobile node's home agent. This home agent must
be on the link which the mobile node wishes to learn prefix
information about.

Hop Limit

Set to an initial hop limit value, similarly to any other unicast
packet sent by the mobile node.

Destination Option:

A Home Address destination option MUST be included.

AH or

ESP header:

IPsec headers SHOULD be supported and used as described in Section
5.4.

ICMP Fields:

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ICMP Fields:

Type

152 <To Be Assigned by IANA>

Code

Checksum

The ICMP checksum [14].

Identifier

An identifier to aid in matching a future Mobile Prefix
Advertisement to this Mobile Prefix Solicitation.

Reserved

This field is unused. It MUST be initialized to zero by the
sender and MUST be ignored by the receiver.

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6.8.

6.8 ICMP Mobile Prefix Advertisement Message Format

A home agent will send a Mobile Prefix Advertisement to a mobile node
to distribute prefix information about the home link while the mobile
node is traveling away from the home network. This will occur in
response to a Mobile Prefix Solicitation with an Advertisement, or by
an unsolicited Advertisement sent according to the rules in Section
10.6.

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 | Checksum |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| Identifier |M|O| Reserved |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| Options ...
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

IP Fields:

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Source Address

The home agent's address as the mobile node would expect to see it
(i.e., same network prefix) prefix).

Destination Address

If this message is a response to a Mobile Prefix Solicitation,
this field contains the Source Address field from that packet.
For unsolicited messages, the mobile node's care-of address SHOULD
be used. Note that unsolicited messages can only be sent if the
mobile node is currently registered with the home agent.

Routing header:

A type 2 routing header MUST be included.

AH or

ESP header:

IPsec headers SHOULD be supported and used as described in Section
5.4.

ICMP Fields:

Type

153 <To Be Assigned by IANA>

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Code

Checksum

The ICMP checksum [14].

Identifier

An identifier to aid in matching this Mobile Prefix Advertisement
to a previous Mobile Prefix Solicitation.

1-bit Managed Address Configuration flag. When set, hosts use the

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administered (stateful) protocol for address autoconfiguration in
addition to any addresses autoconfigured using stateless address
autoconfiguration. The use of this flag is described in [12, 13].

1-bit Other Stateful Configuration flag. When set, hosts use the
administered (stateful) protocol for autoconfiguration of other
(non-address) information. The use of this flag is described in
[12, 13].

Reserved

This field is unused. It MUST be initialized to zero by the
sender and MUST be ignored by the receiver.

Options:

Prefix Information

Each message contains one or more Prefix Information options.
Each option carries the prefix(es) that the mobile node should use
to configure its home address(es). Section 10.6 describes which
prefixes should be advertised to the mobile node.

The Prefix Information option is defined in Section 4.6.2 of RFC
2461 [12], with modifications defined in Section 7.2 of this
specification. The home agent MUST use this modified Prefix
Information option to send the aggregate list of home network
prefixes as defined in Section 10.6.1.

The Mobile Prefix Advertisement sent by the home agent MAY include
the Source Link-layer Address option defined in RFC 2461 [12], or the
Advertisement Interval option specified in Section 7.3.

Future versions of this protocol may define new option types. Mobile
nodes MUST silently ignore any options they do not recognize and
continue processing the message.

If the Advertisement is sent in response to a Mobile Prefix
Solicitation, the home agent MUST copy the Identifier value from that
message into the Identifier field of the Advertisement.

The home agent MUST NOT send more than one Mobile Prefix
Advertisement message per second to any mobile node.

The M and O bits MUST be reset if the Home Agent DHCPv6 support is
not provided. If such support is provided then they are set in
concert with the home network's administrative settings.

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7. Modifications to IPv6 Neighbor Discovery

7.1.

7.1 Modified Router Advertisement Message Format

Mobile IPv6 modifies the format of the Router Advertisement message
[12] by the addition of a single flag bit to indicate that the router
sending the Advertisement message is serving as a home agent on this
link. The format of the Router Advertisement message is 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 | Code | Checksum |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| Cur Hop Limit |M|O|H| Reserved| Router Lifetime |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| Reachable Time |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| Retrans Timer |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| Options ...
+-+-+-+-+-+-+-+-+-+-+-+-

This format represents the following changes over that originally
specified for Neighbor Discovery [12]:

Home Agent (H)

The Home Agent (H) bit is set in a Router Advertisement to
indicate that the router sending this Router Advertisement is also
functioning as a Mobile IPv6 home agent on this link.

Reserved

Reduced from a 6-bit field to a 5-bit field to account for the
addition of the above bit.

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7.2.

7.2 Modified Prefix Information Option Format

Mobile IPv6 requires knowledge of a router's global address in
building a Home Agents List as part of the dynamic home agent address
discovery mechanism (Sections 10.5 and 11.4.1). mechanism.

However, Neighbor Discovery [12] only advertises a router's
link-local address, by requiring this address to be used as the IP
Source Address of each Router Advertisement.

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Mobile IPv6 extends Neighbor Discovery to allow a router to advertise
its global address, by the addition of a single flag bit in the
format of a Prefix Information option for use in Router Advertisement
messages. The format of the Prefix Information option is 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 | Prefix Length |L|A|R|Reserved1|
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| Valid Lifetime |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| Preferred Lifetime |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| Reserved2 |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| |
+ +
| |
+ Prefix +
| |
+ +
| |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

This format represents the following changes over that originally
specified for Neighbor Discovery [12]:

Router Address (R)

1-bit router address flag. When set, indicates that the Prefix
field, in addition to advertising the indicated prefix, contains a
complete IP address assigned to the sending router. This router
IP address has the same scope and conforms to the same lifetime
values as the advertised prefix. This use of the Prefix field is
compatible with its use in advertising the prefix itself, since
Prefix Advertisement uses only the leading number Prefix bits
specified by the Prefix Length field. Interpretation of this flag
bit is thus independent of the processing required for the On-Link
(L) and Autonomous Address-Configuration (A) flag bits.

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Reserved1

Reduced from a 6-bit field to a 5-bit field to account for the
addition of the above bit.

In a Router Advertisement, a home agent MUST, and all other routers
MAY, include at least one Prefix Information option with the Router

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Address (R) bit set. Neighbor Discovery specifies that, if including
all options in a Router Advertisement causes the size of the
Advertisement to exceed the link MTU, multiple Advertisements can be
sent, each containing a subset of the options [12]. In this case, at
least one (not all) of these multiple Advertisements being sent needs
to satisfy the above requirement.

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7.3.

7.3 New Advertisement Interval Option Format

Mobile IPv6 defines a new Advertisement Interval option, used in
Router Advertisement messages to advertise the interval at which the
sending router sends unsolicited multicast Router Advertisements.
The format of the Advertisement Interval option is 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 |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| Advertisement Interval |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

Type

Length

8-bit unsigned integer. The length of the option (including the
type and length fields) in units of 8 octets. The value of this
field MUST be 1.

Reserved

This field is unused. It MUST be initialized to zero by the
sender and MUST be ignored by the receiver.

Advertisement Interval

32-bit unsigned integer. The maximum time, in milliseconds,
between successive unsolicited router Router Advertisement
messages sent by this router on this network interface. Using the
conceptual router configuration variables defined by Neighbor
Discovery [12], this field MUST be equal to the value
MaxRtrAdvInterval, expressed in milliseconds.

Routers MAY include this option in their Router Advertisements. A
mobile node receiving a Router Advertisement containing this option

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SHOULD utilize the specified Advertisement Interval for that router
in its movement detection algorithm, as described in Section 11.5.1.

This option MUST be silently ignored for other Neighbor Discovery
messages.

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7.4.

7.4 New Home Agent Information Option Format

Mobile IPv6 defines a new Home Agent Information option, used in
Router Advertisements sent by a home agent to advertise information
specific to this router's functionality as a home agent. The format
of the Home Agent Information option is as follows:

Type

Length

8-bit unsigned integer. The length of the option (including the
type and length fields) in units of 8 octets. The value of this
field MUST be 1.

Reserved

This field is unused. It MUST be initialized to zero by the
sender and MUST be ignored by the receiver.

Home Agent Preference

16-bit signed, two's complement unsigned integer. The preference for the home agent
sending this Router Advertisement, for use in ordering the
addresses returned to a mobile node in the Home Agent Addresses
field of a Home Agent Address Discovery Reply message. Higher
values mean more preferable. If this option is not included in a
Router Advertisement in which the Home Agent (H) bit is set, the
preference value for this home agent
SHOULD MUST be considered to be 0. Values greater than 0 indicate a
home agent more preferable than this default value, and
Greater values
less than 0 indicate a less more preferable home agent. agent than lower
values.

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The manual configuration of the Home Agent Preference value is
described in Section 8.4. In addition, the sending home agent MAY
dynamically set the Home Agent Preference value, for example
basing it on the number of mobile nodes it is currently serving or
on its remaining resources for serving additional mobile nodes;
such dynamic settings are beyond the scope of this document. Any
such dynamic setting of the Home Agent Preference, however, MUST
set the preference appropriately,

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Agent Preference value of 0 that may be in use by some home agents
on this link (i.e., a home agent not including a Home Agent
Information option in its Router Advertisements will be considered
to have a Home Agent Preference value of 0).

Home Agent Lifetime

16-bit unsigned integer. The lifetime associated with the home
agent in units of seconds. The default value is the same as the
Router Lifetime, as specified in the main body of the Router
Advertisement. The maximum value corresponds to 18.2 hours. A
value of 0 MUST NOT be used. The Home Agent Lifetime applies only
to this router's usefulness as a home agent; it does not apply to
information contained in other message fields or options.

Home agents MAY include this option in their Router Advertisements.
This option MUST NOT be included in a Router Advertisement in which
the Home Agent (H) bit (see Section 7.1) is not set. If this option
is not included in a Router Advertisement in which the Home Agent (H)
bit is set, the lifetime for this home agent MUST be considered to be
the same as the Router Lifetime in the Router Advertisement. If
multiple Advertisements are being sent instead of a single larger
unsolicited multicast Advertisement, all of the multiple
Advertisements with the Router Address (R) bit set MUST include this
option with the same contents, otherwise this option MUST be omitted
from all Advertisements.

This option MUST be silently ignored for other Neighbor Discovery
messages.

If both the Home Agent Preference and Home Agent Lifetime are set to
their default values specified above, this option SHOULD NOT be
included in the Router Advertisement messages sent by this home
agent.

7.5 Modified Neighbor Solicitation Message Format

Mobile nodes may need to send Neighbor Solicitations to their home
agent when the home agent still has a binding for them. As the home
agent defends the mobile node's addresses on the home link, the

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7.5. January 2003

mobile node can not use its own addresses until it it successfully
deletes the binding. However, in order to do this it must send a
Binding Update to the home agent, and possibly find its link-layer
address.

The modified Neighbor Solicitation message allows this to be done
with the IP Source Address set to the unspecified address and the
ICMP Code field set to 1. The modified format MUST NOT be used
except for the purpose of discovering the link-layer address of a
home agent when the mobile node is returning home (Section 11.5.4).

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 | Checksum |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| Reserved |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| |
+ +
| |
+ Target Address +
| |
+ +
| |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| Options ...
+-+-+-+-+-+-+-+-+-+-+-+-

This format represents the following changes over that originally
specified for Neighbor Discovery [12]:

IP Fields:

Source Address

The unspecified address.

ICMP Fields:

Code

Upon receiving a Neighbor Solicitation message from the unspecified
address with the Code field set to 1, home agents MUST process this
message as described in Section 7.2.3 of RFC 2461 [12]. Such
messages MUST NOT be considered as a sign that the sending node is

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performing Duplicate Address Detection [13].

7.6 Changes to Sending Router Advertisements

The Neighbor Discovery protocol specification [12] limits routers to
a minimum interval of 3 seconds between sending unsolicited multicast
Router Advertisement messages from any given network interface
(limited by MinRtrAdvInterval and MaxRtrAdvInterval), stating that:

"Routers generate Router Advertisements frequently enough that
hosts will learn of their presence within a few minutes, but not
frequently enough to rely on an absence of advertisements to
detect router failure; a separate Neighbor Unreachability
Detection algorithm provides failure detection."

This limitation, however, is not suitable to providing timely
movement detection for mobile nodes. Mobile nodes detect their own
movement by learning the presence of new routers as the mobile node
moves into wireless transmission range of them (or physically
connects to a new wired network), and by learning that previous
routers are no longer reachable. Mobile nodes MUST be able to
quickly detect when they move to a link served by a new router, so
that they can acquire a new care-of address and send Binding Updates
to register this care-of address with their home agent and to notify
correspondent nodes as needed.

One method which can provide for faster movement detection, is to
increase the rate at which unsolicited Router Advertisements are
sent. Mobile IPv6 relaxes this limit such that routers MAY send
unsolicited multicast Router Advertisements more frequently. This is important
on network interfaces
method can be applied where the router is expecting to provide
service to visiting mobile nodes (e.g., wireless network interfaces),
or on which it is serving as a home agent to one or more mobile nodes
(who may return home and need to hear its Advertisements).
Such routers

Routers supporting mobility SHOULD be able to be configured with a
smaller MinRtrAdvInterval value and MaxRtrAdvInterval value, value to allow
sending of unsolicited multicast Router Advertisements more often. Recommended
The minimum allowed values for
these limits are:

o MinRtrAdvInterval 0.05 0.03 seconds

o MaxRtrAdvInterval 1.5 0.07 seconds

In the case where the minimum intervals and delays are used, the mean
time between unsolicited multicast router advertisements is 50ms.
Use of these modified limits MUST be configurable, and specific
knowledge of configurable (see also the type of network interface
configuration variable MinDelayBetweenRas in use SHOULD be taken Section 13 which may

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also have to be modified accordingly). Systems where these values
are available MUST NOT default to them, and SHOULD default to values
specified in RFC 2461. Knowledge of the type of network interface
and operating environment SHOULD be taken into account in configuring
these limits for each network interface. This is important with some
wireless links, where increasing the frequency of multicast beacons
can cause considerable overhead. Routers SHOULD adhere to the
intervals specified in RFC 2461 [12], if this overhead is likely to
cause service degradation.

Additionally, the possible low values of MaxRtrAdvInterval may cause
some problems with movement detection in some mobile nodes. To
ensure that this is not a problem, Routers SHOULD add 20ms to any
Advertisement Intervals sent in RAs, which are below 200 ms, in order
to account for scheduling granularities on both the MN and the
Router.

Note that multicast Router Advertisements are not always required in
certain wireless networks that have limited bandwidth. Mobility
detection or link changes in such networks may be done at lower
layers. Router advertisements in such networks SHOULD be sent only
when solicited. In such networks it SHOULD be possible to disable
unsolicited multicast Router Advertisements on specific interfaces.
The MinRtrAdvInterval and MaxRtrAdvInterval in such a case can be set
to some high value.

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When sending unsolicited multicast Router Advertisements more
frequently than the standard limit on unsolicited multicast
Advertisement frequency, specified in RFC 2461 [12], the sending
router need not include all options in each of these Advertisements,
but it SHOULD include at least one Prefix Information option with the
Router Address (R) bit set (Section 7.2) in each.

Home agents MUST include the Source Link-Layer Address option in all
Router Advertisements they send.

7.7 Changes to Duplicate Address Detection

Upon failing Duplicate Address Detection, [13] requires IPv6 nodes to
stop using the address and wait for reconfiguration. In addition, if
the failed address was a link-local address formed from an interface
identifier, the interface should be disabled.

Mobile nodes that wish to avoid this situation MAY use temporary
link-local addresses as follows. The mobile node SHOULD generate a
random interface identifier and use it for assigning itself a
link-local address. In order to do this, the mobile node applies to
the link-local address the procedure described in RFC 3041 [18] for
global addresses. At most 5 consecutive attempts SHOULD be performed

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7.6. Changes to Sending Router Solicitations

In addition January 2003

to the limit on routers sending unsolicited multicast
Router Advertisement messages (Section 7.5), Neighbor Discovery
defines limits on nodes sending Router Solicitation messages, generate such
that a node SHOULD send no more than 3 Router Solicitations, addresses and that
these 3 transmissions SHOULD be spaced at least 4 seconds apart.
However, test them through Duplicate Address
Detection. If after these limits prevent a attempts no unique address was found, the
mobile node from finding SHOULD log a new
default router (and thus system error and give up attempting to find
a new care-of address) quickly as it link-local address on that interface, until the node moves
about. to a new
link.

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8. Requirements for Types of IPv6 Nodes

Mobile IPv6 relaxes this limit such that, while a mobile node places some special requirements on the functions
provided by different types of IPv6 nodes. This section summarizes
those requirements, identifying the functionality each requirement is away
from home, it MAY send Router Solicitations more frequently.
intended to support.

The
following limits for sending Router Solicitations requirements are recommended set for
mobile the following groups of nodes:

o All IPv6 nodes.

o All IPv6 nodes while away from home:

- A with support for route optimization.

o All IPv6 routers.

o All Mobile IPv6 home agents.

o All Mobile IPv6 mobile node that is not configured with any current care-of
address (e.g., the mobile node has moved since its previous
care-of address was configured), MAY send more than the defined
Neighbor Discovery limit of MAX_RTR_SOLICITATIONS Router
Solicitations.

- The rate at which a mobile node sends Router Solicitations MUST
be limited, although a mobile node MAY send Router Solicitations
more frequently than the defined Neighbor Discovery limit of
RTR_SOLICITATION_INTERVAL seconds. The minimum interval MUST
be configurable, and specific knowledge of the type of network
interface in use SHOULD be taken into account in configuring this
limit for each network interface. A recommended minimum interval
is 1 second.

- After sending at most MAX_RTR_SOLICITATIONS Router Solicitations,
a mobile node MUST reduce the rate at which it sends subsequent
Router Solicitations. Subsequent Router Solicitations SHOULD
be sent using a binary exponential back-off mechanism, doubling
the interval between consecutive Router Solicitations, up to a
maximum interval. The maximum interval MUST be configurable and
SHOULD be chosen appropriately based on the characteristics of
the type of network interface in use.

- While still searching for a new default router and care-of
address, a mobile node MUST NOT increase the rate at which it
sends Router Solicitations unless it has received a positive
indication (such as from lower network layers) that it has moved
to a new link. After successfully acquiring a new care-of
address, the mobile node SHOULD also increase the rate at which
it will send Router Solicitations when it next begins searching
for a new default router and care-of address.

- A mobile node that is currently configured with a care-of address
SHOULD NOT send Router Solicitations to the default router

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on its current link, until its movement detection algorithm
(Section 11.5.1) determines that it has moved and that its
current care-of address might no longer be valid.

7.7. Changes to Duplicate Address Detection

Mobile IPv6 extends this behavior as follows. Upon failing Duplicate
Address Detection while away from home, the mobile node SHOULD stop
using the address on this interface until the mobile node moves to
another link. The mobile node SHOULD NOT wait for reconfiguration or
disable the interface.

The mobile node MUST NOT discard the home address based on a failure
of a link-local address with the same interface identifier. Instead,
the mobile node SHOULD generate a new random interface identifier and
use it for assigning itself a new link-local address. In order to do
this, the mobile node applies to the link-local address the procedure
described in [17] for global addresses. At most 5 consecutive
attempts SHOULD be performed to generate such addresses and test
them through Duplicate Address Detection. If after these attempts
no unique address was found, the mobile node SHOULD log a system
error and give up attempting to find a link-local address on that
interface, until the node moves to a new link.

8. Requirements for Types of IPv6 Nodes

Mobile IPv6 places some special requirements on the functions
provided by different types of IPv6 nodes. This section summarizes
those requirements, identifying the functionality each requirement is
intended to support.

The requirements are set for the following groups of nodes:

- All IPv6 nodes.

- All IPv6 nodes with support for route optimization.

- All IPv6 routers.

- All Mobile IPv6 home agents.

- All Mobile IPv6 mobile nodes.

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It nodes.

It is outside the scope of this specification to specify which of
these groups are mandatory in IPv6. We only describe what is
mandatory for a node that supports, for instance, route optimization.
Other specifications are expected to define the extent of IPv6.

8.1.

8.1 All IPv6 Nodes

Any IPv6 node may at any time be a correspondent node of a mobile
node, either sending a packet to a mobile node or receiving a packet
from a mobile node. There are no Mobile IPv6 specific MUST
requirements for such nodes, and standard basic IPv6 techniques are
sufficient.

8.2. If a mobile node attempts to set up route optimization
with a node with only basic IPv6 support, an ICMP error will signal
that the node does not support such optimizations, and communications
will flow through the home agent.

8.2 IPv6 Nodes with Support for Route Optimization

Nodes that implement route optimization are a subset of all IPv6
nodes on the Internet. The ability of a correspondent node to
participate in route optimization is essential for the efficient
operation of the IPv6 Internet, beneficial for robustness the following reasons:

o Avoidance of congestion in the home network, and enabling the use
of lower-performance home agent equipment even for supporting
thousands of mobile nodes.

o Reduced network load across the entire Internet, as mobile devices
begin to predominate. At the time this is being written, laptop

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computers already outsell desktops and
reduction wireless telephones far
outsell laptops.

o Reduction of jitter and latency, latency for the communications.

o Greater likelihood of success for QoS signaling as tunneling is
avoided and, again, fewer sources of congestion.

o Improved robustness against network partitions, congestion, and necessary
other problems, since fewer routing path segments are traversed.

These effects combine to avoid congestion
in the home network. enable much better performance and
robustness for communications between mobile nodes and IPv6
correspondent nodes.

The following requirements apply to all correspondent nodes that
support route optimization:

o The node MUST be able validate a Home Address option using an
existing Binding Cache entry, as described in Section 9.3.1.

o The node MUST be able to insert a type 2 routing header into
packets to be sent to a mobile node, as described in Section
9.3.2.

o Unless the correspondent node is also acting as a mobile node, it
MUST ignore type 2 routing headers and drop all packets that it
has received with such headers.

o The node SHOULD be able to interpret ICMP messages as described in
Section 9.3.4.

o The node MUST be able to send Binding Error messages as described
in Section 9.3.3.

o The node MUST be able to process Mobility Headers as described in
Section 9.2.

o The node MUST be able to participate in a return routability
procedure (Section 9.4).

o The node MUST be able to process Binding Update messages (Section
9.5).

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o The node MUST be able to return a Binding Acknowledgement (Section
9.5.4).

o The node MUST be able to maintain a Binding Cache of the bindings

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received in accepted Binding Updates, as described in
Sections Section 9.1
and Section 9.6.

8.3.

o The node MUST allow route optimization to be administratively
enabled or disabled. The default SHOULD be enabled.

8.3 All IPv6 Routers

All IPv6 routers, even those not serving as a home agent for Mobile
IPv6, have an effect on how well mobile nodes can communicate:

o Every IPv6 router SHOULD be able to send an Advertisement Interval
option (Section 7.3) in each of its Router Advertisements [12], to
aid movement detection by mobile nodes (as in Section 11.5.1).
The use of this option in Router Advertisements MUST be
configurable.

o Every IPv6 router SHOULD be able to support sending unsolicited
multicast Router Advertisements at the faster rate described in
Section 7.5. 7.6. The use of this faster rate MUST be configurable.

o Each router SHOULD include at least one prefix with the Router
Address (R) bit set and with its full IP address in its Router
Advertisements (as described in Section 7.2).

o Filtering routers SHOULD support different rules for type 0 and
type 2 routing headers (see Section 6.4) so that filtering of
source routed packets (type 0) will not necessarily limit Mobile
IPv6 traffic which is delivered via type 2 routing headers.

8.4.

8.4 IPv6 Home Agents

In order for a mobile node to operate correctly while away from home,
at least one IPv6 router on the mobile node's home link must function
as a home agent for the mobile node. The following additional
requirements apply to all IPv6 routers that serve as a home agent:

o Every home agent MUST be able to maintain an entry in its Binding
Cache for each mobile node for which it is serving as the home
agent (Sections (Section 10.1 and Section 10.3.1).

o Every home agent MUST be able to intercept packets (using proxy
Neighbor Discovery [12]) addressed to a mobile node for which it
is currently serving as the home agent, on that mobile node's home
link, while the mobile node is away from home (Section 10.4.1).

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- January 2003

o Every home agent MUST be able to encapsulate [15] such intercepted
packets in order to tunnel them to the primary care-of address for
the mobile node indicated in its binding in the home agent's
Binding Cache (Section 10.4.2).

o Every home agent MUST support decapsulating [15] reverse tunneled
packets sent to it from a mobile node's home address. Every home
agent MUST also check that the source address in the tunneled
packets corresponds to the currently registered location of the
mobile node (Section 10.4.3).

- 10.4.5).

o The node MUST be able to process Mobility Headers as described in
Section 10.2.

o Every home agent MUST be able to return a Binding Acknowledgement
in response to a Binding Update (Section 10.3.1).

o Every home agent MUST maintain a separate Home Agents List for
each link on which it is serving as a home agent, as described in
Sections
Section 10.1 and Section 10.5.1.

o Every home agent MUST be able to accept packets addressed to the
Mobile IPv6 Home-Agents anycast address [16] for the subnet on
which it is serving as a home agent [16], agent, and MUST be able to
participate in dynamic home agent address discovery (Section
10.5).

o Every home agent SHOULD support a configuration mechanism to allow
a system administrator to manually set the value to be sent by
this home agent in the Home Agent Preference field of the Home
Agent Information Option in Router Advertisements that it sends
(Section 7.4).

o Every home agent SHOULD support sending ICMP Mobile Prefix
Advertisements (Section 6.8), and SHOULD respond to Mobile Prefix
Solicitations (Section 6.7). This behavior MUST be configurable,
so that home agents can be configured to avoid sending such Prefix
Advertisements according to the needs of the network
administration in the home domain.

o Every home agent MUST support IPsec ESP for protection of packets
belonging to the return routability procedure (Section 10.4.4).

8.5. 10.4.6).

o Every home agent SHOULD support the multicast group membership
control protocols as described in Section 10.4.3. If this support
is provided, the home agent MUST be capable of using it to
determine which multicast data packets to forward via the tunnel
to the mobile node.

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o Home agents MAY support stateful address autoconfiguration for
mobile nodes as described in Section 10.4.4.

o Every home agent MUST support the extended Neighbor Solicitation
message format described in Section 7.5.

8.5 IPv6 Mobile Nodes

Finally, the following requirements apply to all IPv6 nodes capable
of functioning as mobile nodes:

o The node MUST maintain a Binding Update List (Section 11.1).

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o The node MUST support sending packets containing a Home Address
option (Section 11.3.1), and follow the required IPsec interaction
(Section 11.3.2).

o The node MUST be able to perform IPv6 encapsulation and
decapsulation [15].

o The node MUST be able to process type 2 routing header as defined
in Sections Section 6.4 and Section 11.3.3.

o The node MUST support receiving a Binding Error message (Section 11.7.5).

-
11.3.6).

o The node SHOULD support receiving ICMP errors (Section 11.3.4).

- 11.3.5).

o The node MUST support movement detection, care-of address
formation, and returning home (Section 11.5).

o The node MUST be able to process Mobility Headers as described in
Section 11.2.

o The node MUST support the return routability procedure (Section
11.6).

o The node MUST be able to send Binding Updates, as specified in
Sections
Section 11.7.1 and Section 11.7.2.

o The node MUST be able to receive and process Binding
Acknowledgements, as specified in Section 11.7.3.

o The node MUST support receiving a Binding Refresh Request (Section
6.1.2), by responding with a Binding Update.

o The node MUST support receiving Mobile Prefix Advertisements

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(Section 11.4.3) and reconfiguring its home address based on the
prefix information contained therein.

o The node SHOULD support use of the dynamic home agent address
discovery mechanism, as described in Section 11.4.1.

o The node MUST allow route optimization to be administratively
enabled or disabled. The default SHOULD be enabled.

o The node MAY support the multicast address listener part of a
multicast group membership protocol as described in Section
11.3.4. If this support is provided, the mobile node MUST be able
to receive tunneled multicast packets from the home agent.

o The node MAY support stateful address autoconfiguration mechanisms
such as DHCPv6 [29] on the interface represented by the tunnel to
the home agent.

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9. Correspondent Node Operation

9.1.

9.1 Conceptual Data Structures

IPv6 nodes with route optimization support maintain a Binding Cache
of bindings for other nodes. A separate Binding Cache SHOULD be
maintained by each IPv6 node for each of its IPv6 addresses. The
Binding Cache MAY be implemented in any manner consistent with the
external behavior described in this document, for example by being
combined with the node's Destination Cache as maintained by Neighbor
Discovery [12]. When sending a packet, the Binding Cache is searched
before the Neighbor Discovery conceptual Destination Cache [12].
That is, any Binding Cache entry for this destination SHOULD take
precedence over any Destination Cache entry for the same destination.

Each Binding Cache entry conceptually contains the following fields:

o The home address of the mobile node for which this is the Binding
Cache entry. This field is used as the key for searching the
Binding Cache for the destination address of a packet being sent.
If the destination address of the packet matches the home address
in the Binding Cache entry, this entry SHOULD be used in routing
that packet.

o The care-of address for the mobile node indicated by the home
address field in this Binding Cache entry. If the destination
address of a packet being routed by a node matches the home
address in this entry, the packet SHOULD be routed to this care-of
address. This is described in Section 9.3.2 for packets
originated by this node.

o A lifetime value, indicating the remaining lifetime for this
Binding Cache entry. The lifetime value is initialized from the
Lifetime field in the Binding Update that created or last modified
this Binding Cache entry. Once the lifetime of this entry
expires, the entry MUST be deleted from the Binding Cache.

o A flag indicating whether or not this Binding Cache entry is a
home registration entry.

o The maximum value of the Sequence Number field received in
previous Binding Updates for this mobile node home address. The
Sequence Number field is 16 bits long. Sequence Number values
MUST be compared modulo 2**16 as explained in Section 9.5.1.

o Usage information for this Binding Cache entry. This is needed to
implement the cache replacement policy in use in the Binding
Cache. Recent use of a cache entry also serves as an indication

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that a Binding Refresh Request should be sent when the lifetime of
this entry nears expiration.

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Binding Cache entries not marked as home registrations MAY be
replaced at any time by any reasonable local cache replacement policy
but SHOULD NOT be unnecessarily deleted. The Binding Cache for any
one of a node's IPv6 addresses may contain at most one entry for each
mobile node home address. The contents of a node's Binding Cache
MUST NOT be changed in response to a Home Address option in a
received packet.

9.2.

9.2 Processing Mobility Headers

Mobility Header processing MUST observe the following rules:

o The MH Type field MUST have a known value (Section 6.1.1).
Otherwise, the node MUST discard the message and SHOULD issue a Binding
Error message as described in Section 9.3.3, with Status field set
to 2 (unrecognized MH Type value).

o The Payload Proto field MUST be IPPROTO_NONE (59 decimal).
Otherwise, the node MUST silently discard the message.

3. message and SHOULD send ICMP
Parameter Problem [14], Code 0, to the Source Address of the
packet.

o The checksum must be verified as per Section 6.1. Otherwise, the
node MUST silently silently discard the message.

o The Header Len field in the Mobility Header MUST NOT be less than
the length specified for this particular type of message in
Section 6.1. Otherwise, the node MUST discard the message. message and
SHOULD send ICMP Parameter Problem [14], Code 0, to the Source
Address of the packet.

Subsequent checks depend on the particular Mobility Header, as
specified in Sections 9.4 and 9.5.

9.3. Header.

9.3 Packet Processing

This section describes how the correspondent node sends packets to
the mobile node, and receives packets from it.

9.3.1.

9.3.1 Receiving Packets with Home Address Destination Option

If the correspondent node has a Binding Cache entry for the home
address of a mobile node, packets sent by the mobile node MAY include
a Home Address destination option.

Packets containing a Home Address option MUST be dropped if the given
home address is not a unicast routable address.

Mobile nodes are expected to include a Home Address destination
option in a packet they believe the correspondent node has a Binding

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Cache entry for the home address of a mobile node. Packets
containing a Home Address option MUST also be dropped if there is no
corresponding Binding Cache entry for the given home
address. entry. A corresponding Binding Cache
entry MUST have the same home address as appears in the Home Address
destination option, and the currently registered care-of address MUST
be equal to the source address of the packet. These tests MUST NOT
be done for packets that contain a Binding
Update and a Home Address option.

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Update, or for IPsec AH or ESP packets.

If the packet is dropped due the above tests, the correspondent node
SHOULD send the Binding Error message as described in Section 9.3.3.
The Status field in this message should be set to 1 (unknown binding
for Home Address destination option).

The correspondent node MUST process the option in a manner consistent
with exchanging the Home Address field from the Home Address option
into the IPv6 header and replacing the original value of the Source
Address field there. After all IPv6 options have been processed, it
MUST be possible for upper layers to process the packet without the
knowledge that it came originally from a care-of address or that a
Home Address option was used.

No additional authentication of the Home Address option is required,
except that if the IPv6 header of a packet is covered by
authentication, then that authentication MUST also cover the Home
Address option; this coverage is achieved automatically by the
definition of the Option Type code for the Home Address option, since
it indicates that the data within the option cannot change en-route
to the packet's final destination, and thus the option is included in
the authentication computation. By requiring that any authentication
of the IPv6 header also cover the Home Address option, the security
of the Source Address field in the IPv6 header is not compromised by
the presence of a Home Address option.

When attempting to verify authentication data in a packet that
contains a Home Address option, the receiving node MUST make calculate the calculation
authentication data as if the care-of
address following were present in the true: The Home Address option, and
option contains the home address
were present in care-of address, and the source IPv6 address
field of the IPv6 header. header contains the home address. This conforms
with the calculation specified in Section 11.3.2.

9.3.2.

9.3.2 Sending Packets to a Mobile Node

Before sending any packet, the sending node SHOULD examine its
Binding Cache for an entry for the destination address to which the
packet is being sent. If the sending node has a Binding Cache entry
for this address, the sending node SHOULD use a type 2 routing header
to route the packet to this mobile node (the destination node) by way

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of its care-of address. Assuming When calculating authentication data in a
packet that contains a type 2 routing header, the correspondent node
MUST calculate the authentication data as if the following were true:
The routing header contains the care-of address, the destination IPv6
address field of the IPv6 header contains the home address, and the
Segments Left field is zero. The IPsec Security Policy Database look
MUST based on the mobile node's home address.

For instance, assuming there are no additional routing headers in
this packet beyond those needed by Mobile IPv6, the mobile correspondent
node sets could set the fields in the packet's IPv6 header and routing
header as follows:

o The Destination Address in the packet's IPv6 header is set to the
mobile node's home address (the original destination address to
which the packet was being sent).

o The routing header is initialized to contain a single route
segment, containing the mobile node's care-of address copied from
the Binding Cache entry. The Segments Left field is, however,
temporarily set to zero.

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The IP layer will insert the routing header before performing any
necessary IPsec processing. The IPsec Security Policy Database will be consulted
based on the IP source address and the destination address (which
will be the mobile node's home address). Once all IPsec processing has been
performed, the node swaps the IPv6 destination field with the Home
Address field in the routing header, sets the Segments Left field to
one, and sends the packet. This ensures the AH calculation is done
on the packet in the form it will have on the receiver after
advancing the routing header.

Following the definition of a type 2 routing header in Section 6.4,
this packet will be routed to the mobile node's care-of address,
where it will be delivered to the mobile node (the mobile node has
associated the care-of address with its network interface).

Note that following the above conceptual model in an implementation
creates some additional requirements for path MTU discovery since the
layer that decides the packet size (e.g., TCP and applications using
UDP) needs to be aware of the size of the headers added by the IP
layer on the sending node.

If, instead, the sending node has no Binding Cache entry for the
destination address to which the packet is being sent, the sending
node simply sends the packet normally, with no routing header. If
the destination node is not a mobile node (or is a mobile node that
is currently at home), the packet will be delivered directly to this
node and processed normally by it. If, however, the destination node
is a mobile node that is currently away from home, the packet will be

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intercepted by the mobile node's home agent and tunneled to the
mobile node's current primary care-of address.

9.3.3.

9.3.3 Sending Binding Error Messages

Sections

Section 9.2 and Section 9.3.1 describe error conditions that lead to
a need to send a Binding Error message.

A Binding Error message is sent to the address that appeared in the
IPv6 Source Address field of the offending packet. If the Source
Address field does not contain a unicast address, the Binding Error
message MUST NOT be sent.

The Home Address field in the Binding Error message MUST be copied
from the Home Address field in the Home Address destination option of
the offending packet, or set to the unspecified address if no such
option appeared in the packet.

Binding Error messages are subject to rate limiting in the same
manner as is done for ICMPv6 messages [14].

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9.3.4.

9.3.4 Receiving ICMP Error Messages

When the correspondent node has a Binding Cache entry for a mobile
node, all traffic destined to the mobile node goes directly to the
current care-of address of the mobile node using a routing header.
Any ICMP error message caused by packets on their way to the care-of
address will be returned in the normal manner to the correspondent
node.

On the other hand, if the correspondent node has no Binding Cache
entry for the mobile node, the packet will be routed through the
mobile node's home link. Any ICMP error message caused by the packet
on its way to the mobile node while in the tunnel, will be
transmitted to the mobile node's home agent. By the definition of
IPv6 encapsulation [15], the home agent MUST relay certain ICMP error
messages back to the original sender of the packet, which in this
case is the correspondent node.

Thus, in all cases, any meaningful ICMP error messages caused by
packets from a correspondent node to a mobile node will be returned
to the correspondent node. If the correspondent node receives
persistent ICMP Destination Unreachable messages after sending
packets to a mobile node based on an entry in its Binding Cache, the
correspondent node SHOULD delete this Binding Cache entry.

9.4.

9.4 Return Routability Procedure

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This subsection specifies actions taken by a correspondent node
during the return routability procedure.

9.4.1.

9.4.1 Receiving Home Test Init Messages

Upon receiving a Home Test Init message, the correspondent node
verifies the following:

- The Header Len field in the Mobility Header MUST NOT be less than
the length specified in Section 6.1.3.

o The packet MUST NOT include a Home Address destination option.

Any packet carrying a Home Test Init message which fails to satisfy
all of these tests MUST be silently ignored.

Otherwise, in preparation for sending the corresponding Home Test
Message, the correspondent node checks that it has the necessary
material to engage in a return routability procedure, as specified in
Section 5.2. The correspondent node MUST have a secret Kcn and a
nonce. If it does not have this material yet, it MUST produce it
before continuing with the return routability procedure.

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Section 9.4.3 specifies further processing.

9.4.2.

9.4.2 Receiving Care-of Test Init Messages

Upon receiving a Care-of Test Init message, the correspondent node
verifies the following:

- The Header Len field in the Mobility Header MUST NOT be less than
the length specified in Section 6.1.4.

o The packet MUST NOT include a Home Address destination option.

Any packet carrying a Care-of Test Init message which fails to
satisfy all of these tests MUST be silently ignored.

Otherwise, in preparation for sending the corresponding Care-of Test
Message, the correspondent node checks that it has the necessary
material to engage in a return routability procedure in the manner
described in Section 9.4.1.

Section 9.4.4 specifies further processing.

9.4.3.

9.4.3 Sending Home Test Messages

The correspondent node creates a home keygen token and uses the
current nonce index as the Home Nonce Index. It then creates a Home
Test message (Section 6.1.5) and sends it to the mobile node at the
latter's home address. Note that the Home Test message is always
sent to the home address of the mobile node, even when there is an
existing binding for the mobile node.

9.4.4.

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9.4.4 Sending Care-of Test Messages

The correspondent node creates a care-of nonce and uses the current
nonce index as the Care-of Nonce Index. It then creates a Care-of
Test message (Section 6.1.6) and sends it to the mobile node at the
latter's care-of address.

9.5.

9.5 Processing Bindings

This section explains how the correspondent node processes messages
related to bindings. These messages are:

o Binding Update

o Binding Refresh Request

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o Binding Acknowledgement

o Binding Error

9.5.1.

9.5.1 Receiving Binding Updates

Before accepting a Binding Update, the receiving node MUST validate
the Binding Update according to the following tests:

o The packet MUST contain a Home Address option with a unicast routable home address, unless either in
the Source Home Address is the home
address of the mobile node

- The Header Len field option or in the Mobility Header Source Address, if the Home
Address option is no less than the
length specified in Section 6.1.7.

- not present.

o The Sequence Number field in the Binding Update is greater than
the Sequence Number received in the valid previous Binding Update
for this home address, if any.

This Sequence Number comparison MUST be performed modulo 2**16,
i.e., the number is a free running counter represented modulo
65536. A Sequence Number in a received Binding Update is
considered less than or equal to the last received number if its
value lies in the range of the last received number and the
preceding 32767 values, inclusive. For example, if the last
received sequence number was 15, then messages with sequence
numbers 0 through 15, as well as 32784 through 65535, would be
considered less than or equal.

When the return routability procedure is used to enable the
establishment of nonce indices as inputs to the creation of the
binding key Kbm, the following are also required:

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o A Nonce Indices mobility option MUST be present, and the Home and
Care-of Nonce Index values in this option MUST be recent enough to
be recognized by the correspondent node.

- (Care-of Nonce Index
values are not inspected for requests to delete a binding.)

o The correspondent node MUST re-generate the home keygen token and
the care-of keygen token from the information contained in the
packet. It then generates the binding management key Kbm and uses
it to verify the authenticator field in the Binding Update as
specified in Section 6.1.7.

When using Kbm for validating the Binding Update, the following are
required:

o The Binding Authorization Data mobility option MUST be present,
and its contents MUST satisfy rules presented in Section 5.2.6.
Note that a care-of address different from the Source Address MAY

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have been specified by including an Alternate Care-of Address
mobility option in the Binding Update. When such a message is
received and the return routability procedure is used as an
authorization method, the correspondent node MUST verify the
authenticator by using the address within the Alternate Care-of
Address in the calculations.

o The Binding Authorization Data mobility option MUST be the last
option and MUST NOT have trailing padding.

- The Home Registration (H) bit MUST NOT be set.

If the mobile node sends a sequence number which is not greater than
the sequence number from the last successful Binding Update, then the
receiving node MUST send back a Binding Acknowledgement with status
code 135, and the last accepted sequence number in the Sequence
Number field of the Binding Acknowledgement.

If the receiving node no longer recognizes the Home Nonce Index
value, Care-of Nonce Index value, or both values from the Binding
Update, then the receiving node MUST send back a Binding
Acknowledgement with status code 136, 137, or 138, respectively.

Packets

For packets carrying Binding Updates that fail to satisfy all of
these tests for any reason other than insufficiency of the Sequence
Number or expired nonce index values MUST be silently discarded.

If the Binding Update is valid according to the tests above, then the
Binding Update is processed further as follows:

o If the Lifetime specified in the Binding Update is nonzero and the
specified care-of address is not equal to the home address for the
binding, then this is a request to cache a binding for the mobile

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node. If the Home Registration (H) bit is set in the Binding
Update, the Binding Update is processed according to the procedure
specified in Section 10.3.1; otherwise, it is processed according
to the procedure specified in Section 9.5.2.

o If the Lifetime specified in the Binding Update is zero or the
specified care-of address matches the home address for the
binding, then this is a request to delete the mobile node's cached
binding. The update In this case, the Binding Update MUST include a valid
home nonce index
(the index, and the care-of nonce index MUST be ignored by
the correspondent
node). In this case, node. The generation of the binding management
key depends then exclusively on the home keygen token (Section
5.2.5). If the Home Registration (H) bit is set in the Binding
Update, the Binding Update is processed according to the procedure
specified in Section 10.3.2; otherwise, it is processed according
to the procedure specified in Section 9.5.3.

The specified care-of address MUST be determined as follows:

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o If the Alternate Care-of Address option is present, the care-of
address is the address in that option.

o Otherwise, the care-of address is the Source Address field in the
packet's IPv6 header.

The home address for the binding MUST be determined as follows:

o If the Home Address destination option is present, the home
address is the address in that option.

o Otherwise, the home address is the Source Address field in the
packet's IPv6 header. This implies that the mobile node is at
home and is about to perform de-registration.

9.5.2.

9.5.2 Requests to Cache a Binding

This section describes the processing of a valid Binding Update that
requests a node to cache a mobile node's binding, for which the Home
Registration (H) bit is not set in the Binding Update.

In this case, the receiving node SHOULD create a new entry in its
Binding Cache for this mobile node, or update its existing Binding
Cache entry for this mobile node, if such an entry already exists.
The lifetime for the Binding Cache entry is initialized from the
Lifetime field specified in the Binding Update, although this
lifetime MAY be reduced by the node caching the binding; the lifetime
for the Binding Cache entry MUST NOT be greater than the Lifetime

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value specified in the Binding Update. Any Binding Cache entry MUST
be deleted after the expiration of its lifetime.

The Sequence Number value received from a mobile node in a Binding
Update is stored by a correspondent node in its Binding Cache entry
for that mobile node. If the receiving correspondent node has no
Binding Cache entry for the sending mobile node, it MUST accept any
Sequence Number value in a received Binding Update from this mobile
node.

The correspondent node MAY refuse to accept a new Binding Cache
entry, if it does not have sufficient resources. A new entry MAY
also be refused if the correspondent node believes its resources are
utilized more efficiently in some other purpose, such as serving
another mobile node with higher amount of traffic. In both cases the
correspondent node SHOULD return a Binding Acknowledgement with
status value 130.

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9.5.3.

9.5.3 Requests to Delete a Binding

This section describes the processing of a valid Binding Update that
requests a node to delete a mobile node's binding from its Binding
Cache, for which the Home Registration (H) bit is not set in the
Binding Update.

Any existing binding for the mobile node MUST be deleted. A Binding
Cache entry for the mobile node MUST NOT be created in response to
receiving the Binding Update.

If the Binding Cache entry was created by use of return routability
nonces, the correspondent node MUST ensure that the same nonces are
not used again with the particular home and care-of address. If both
nonces are still valid, the correspondent node has to remember the
particular combination of nonce indexes, addresses, and sequence
number as illegal, until at least one of the nonces has become too
old.

9.5.4.

9.5.4 Sending Binding Acknowledgements

A Binding Acknowledgement may be sent to indicate receipt of a
Binding Update as follows:

o If the Binding Update was silently discarded as described in Section 9.2 or
Section 9.5.1, a Binding Acknowledgement MUST NOT be sent.

- Otherwise, if
Otherwise the treatment depends on the below rules.

o If the Acknowledge (A) bit set is set in the Binding Update, a
Binding Acknowledgement MUST be sent.

- Otherwise, if the treatment

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depends on the below rule.

o If the node rejects the Binding Update, a Binding Acknowledgement
MUST be sent.

- Otherwise, if If the node accepts the Binding Update, a the Binding
Acknowledgement SHOULD NOT be sent.

If the node accepts the Binding Update and creates or updates an
entry for this binding, the Status field in the Binding
Acknowledgement MUST be set to a value less than 128. Otherwise, the
Status field MUST be set to a value greater than or equal to 128.
Values for the Status field are described in Section 6.1.8 and in the
IANA registry of assigned numbers [18]. [19].

If the Status field in the Binding Acknowledgement contains the value
136 (expired home nonce index), 137 (expired care-of nonce index), or
138 (expired nonces), nonces) then the message MUST NOT include the Binding
Authorization Data mobility option. Otherwise, the Binding
Authorization Data mobility option MUST be included, and MUST meet
the specific authentication requirements for Binding Acknowledgements
as defined in Section 5.2.

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If the Source Address field of the IPv6 header that carried the
Binding Update does not contain a unicast address, the Binding
Acknowledgement MUST NOT be sent, and the Binding Update packet MUST
be silently discarded. Otherwise, the acknowledgement MUST be sent
to the Source Address. Unlike the treatment of regular packets, this
addressing procedure does not use information from the Binding Cache.
However, a routing header is needed in some cases. If the Source
Address is the home address of the mobile node, i.e., the Binding
Update did not contain a Home Address destination option, then the
Binding Acknowledgement MUST be sent to that address, and the routing
header MUST NOT be used. Otherwise, the Binding Acknowledgement MUST
be sent using a type 2 routing header which contains the mobile
node's home address.

Entries in a node's Binding Cache MUST be deleted when their lifetime
expires.

9.5.5.

9.5.5 Sending Binding Refresh Requests

If a Binding Cache entry being deleted is still in active use in
sending packets to a mobile node, the next packet sent to the mobile
node will be routed normally to the mobile node's home link.
Communication with the mobile node continues, but the tunneling from
the home network creates additional overhead and latency in
delivering packets to the mobile node.

If the sender knows that the Binding Cache entry is still in active

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use, it MAY send a Binding Refresh Request message to the mobile node
in an attempt to avoid this overhead and latency due to deleting and
recreating the Binding Cache entry. The Binding Refresh Request
message is sent in the same way as any packet addressed to the mobile
node (Section 9.3.2).

The correspondent node MAY retransmit Binding Refresh Request
messages provided that rate limitation is applied. The correspondent
node SHOULD MUST stop retransmitting when it receives a Binding Update.

9.6.

9.6 Cache Replacement Policy

Conceptually, a node maintains a separate timer for each entry in its
Binding Cache. When creating or updating a Binding Cache entry in
response to a received and accepted Binding Update, the node sets the
timer for this entry to the specified Lifetime period. Any entry in
a node's Binding Cache MUST be deleted after the expiration of the
Lifetime specified in the Binding Update from which the entry was
created or last updated.

Each node's Binding Cache will, by necessity, have a finite size. A
node MAY use any reasonable local policy for managing the space

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within its Binding Cache, except that any entry marked as a home
registration (Section 10.3.1) MUST NOT be deleted from the cache
until the expiration of its lifetime period. When such home
registration entries are deleted, the home agent MUST also cease
intercepting packets on the mobile node's home link addressed to the
mobile node (Section 10.4.1), just as if the mobile node had
de-registered its primary care-of address (see Section 10.3.2).

When attempting to add a new home registration entry in response to a
Binding Update with the Home Registration (H) bit set, if no
sufficient space can be found, the home agent MUST reject the Binding
Update. Furthermore, the home agent MUST return a Binding
Acknowledgement to the sending mobile node, in which the Status field
is set to 130 (insufficient resources).

A node MAY choose to drop any entry already in its Binding Cache,
other than home registration entries, in order to make space for a
new entry. For example, a "least-recently used" (LRU) strategy for
cache entry replacement among entries not marked as home
registrations is likely to work well unless the size of the Binding
Cache is substantially insufficient.

If the node sends a packet to a destination for which it has dropped
the entry from its Binding Cache, the packet will be routed through
the mobile node's home link. The mobile node can detect this, and
establish a new binding if necessary.

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10. Home Agent Operation

10.1.

10.1 Conceptual Data Structures

Each home agent MUST maintain a Binding Cache and Home Agents List.

The rules for maintaining a Binding Cache are the same for home
agents and correspondent nodes, and have already been described in
Section 9.1.

The Home Agents List is maintained by each home agent, recording
information about each router on the same link which is acting as a
home agent; this list is used by the dynamic home agent address
discovery mechanism. A router is known to be acting as a home agent,
if it sends a Router Advertisement in which the Home Agent (H) bit is
set. When the lifetime for a list entry (defined below) expires,
that entry is removed from the Home Agents List. The Home Agents
List is thus similar to the Default Router List conceptual data
structure maintained by each host for Neighbor Discovery [12]. The
Home Agents List MAY be implemented in any manner consistent with the
external behavior described in this document.

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Each home agent maintains a separate Home Agents List for each link
on which it is serving as a home agent. A new entry is created or an
existing entry is updated in response to receipt of a valid Router
Advertisement in which the Home Agent (H) bit is set. Each Home
Agents List entry conceptually contains the following fields:

o The link-local IP address of a home agent on the link. This
address is learned through the Source Address of the Router
Advertisements [12] received from the router [12].

- router.

o One or more global IP addresses for this home agent. Global
addresses are learned through Prefix Information options with the
Router Address (R) bit set, received in Router Advertisements from
this link-local address. Global addresses for the router in a
Home Agents List entry MUST be deleted once the prefix associated
with that address is no longer valid [12].

o The remaining lifetime of this Home Agents List entry. If a Home
Agent Information Option is present in a Router Advertisement
received from a home agent, the lifetime of the Home Agents List
entry representing that home agent is initialized from the Home
Agent Lifetime field in the option; option (if present); otherwise, the
lifetime is initialized from the Router Lifetime field in the
received Router Advertisement. If Home Agents List entry lifetime
reaches zero, the entry MUST be deleted from the Home Agents List.

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o The preference for this home agent; higher values indicate a more
preferable home agent. The preference value is taken from the
Home Agent Preference field in the received Router Advertisement,
if the Router Advertisement contains a Home Agent Information
Option, and is otherwise set to the default value of 0. A home
agent uses this preference in ordering the Home Agents List when
it sends an ICMP Home Agent Address Discovery message.

10.2.

10.2 Processing Mobility Headers

All IPv6 home agents MUST observe the rules described in Section 9.2
when processing Mobility Headers.

10.3.

10.3 Processing Bindings

10.3.1.

10.3.1 Primary Care-of Address Registration

When a node receives a Binding Update, it MUST validate it and
determine the type of Binding Update according to the steps described
in Section 9.5.1. Furthermore, it MUST authenticate the Binding
Update as described in Section 5.1. This includes An authorization of step specific
for the particular node home agent is also needed to ensure that only the right node
can control a particular home address, as address. This is provided through the
home

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must be used.

This section describes the processing of a valid and authorized
Binding Update, when it requests the registration of the mobile
node's primary care-of address.

To begin processing the Binding Update, the home agent MUST perform
the following sequence of tests:

o If the node is implements only correspondent node functionality, or
has not been configured to act as a router that implements home agent
functionality, agent, then the node MUST
reject the Binding Update
and Update. The node MUST then also return a
Binding Acknowledgement to the mobile node, in which the Status
field is set to 131 (home registration not supported).

o Else, if the home address for the binding (the Home Address field
in the packet's Home Address option) is not an on-link IPv6
address with respect to the home agent's current Prefix List, then
the home agent MUST reject the Binding Update and SHOULD return a
Binding Acknowledgement to the mobile node, in which the Status
field is set to 132 (not home subnet).

o Else, if the home agent chooses to reject the Binding Update for

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any other reason (e.g., insufficient resources to serve another
mobile node as a home agent), then the home agent SHOULD return a
Binding Acknowledgement to the mobile node, in which the Status
field is set to an appropriate value to indicate the reason for
the rejection.

o A Home Address destination option MUST be present in the message.

- Finally, if the Duplicate Address Detection (D) bit is set in the
Binding Update, this home agent MUST perform Duplicate Address
Detection [13] on the mobile node's home link for the link-local
address associated with the home address in this binding, before
returning the Binding Acknowledgement. This ensures that no
other node on the home link was using the mobile node's home
address when the Binding Update arrived.

If home agent accepts the Binding Update, it MUST then create a new
entry in its Binding Cache for this mobile node, or update its
existing Binding Cache entry, if such an entry already exists. The
Home Address field as received in the Home Address option provides
the home address of the mobile node.

The home agent MUST mark this Binding Cache entry as a home
registration to indicate that the node is serving as a home agent for
this binding. Binding Cache entries marked as a home registration
MUST be excluded from the normal cache replacement policy used for

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MUST be excluded from the normal cache replacement policy used for
the Binding Cache (Section 9.6) and MUST NOT be removed from the
Binding Cache until the expiration of the Lifetime period.

Normal processing

Unless this home agent already has a binding for Duplicate Address Detection specifies that, in
certain cases, the node SHOULD delay sending given home
address, the initial Neighbor
Solicitation of home agent MUST perform Duplicate Address Detection by a random delay
between 0 and MAX_RTR_SOLICITATION_DELAY [12, 13]. However, when [13]
on the Duplicate Address Detection (D) bit instructs mobile node's home link before returning the Binding
Acknowledgement. This ensures that no other node on the home agent
to perform Duplicate Address Detection, link
was using the mobile node's home agent SHOULD NOT
perform such a delay. address when the Binding Update
arrived. If this Duplicate Address Detection fails, fails for the given
home address or an associated link local address, then the home agent
MUST reject the complete Binding Update and MUST return a Binding
Acknowledgement to the mobile node, in which the Status field is set
to 134 (Duplicate Address Detection failed). When the home agent
sends a successful Binding Acknowledgement to the mobile node, the
home agent assures to the mobile node that its home address address(es) will
continue to be kept unique by the home agent at least as long as the
lifetime granted for that home address binding the bindings is not over.

If the Single Address Only (S) bit in the Binding Update is zero,
the home agent creates Binding Cache entries for each of possibly
several home addresses. The set of such home addresses is formed
by replacing the routing prefix for the given home address with
all other routing prefixes on the mobile node's home link that are
supported by the home agent processing the Binding Update. The home
agent creates such a separate primary care-of address registration
for each such home address. Note that the same considerations for
Duplicate Address Detection apply for each affected home address.
The value of the Single Address Only (S) bit field is examined only
for new registrations. Its value is ignored on de-registrations and
re-registrations of the same addresses.

The specific addresses which are to be tested before accepting the
Binding Update, and later to be defended by performing Duplicate
Address Detection, depend on the settings setting of the Single Address Only
(S) and Link-Local Address
Compatibility (L) bits, bit, as follows:

o L=0: Defend the given address. The Single Address Only (S) bit
is ignored in this case since we cannot derive other on-link
addresses without knowing the interface identifier.

- L=1 and S=0: Defend all non link-local unicast addresses
possible on link and the derived link-local.

- L=1 and S=1:

o L=1: Defend both the given non link-local unicast (home) address
and the derived link-local.

The lifetime of the Binding Cache entry depends on a number of
factors:

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o The lifetime for the Binding Cache entry MUST NOT be greater than
the Lifetime value specified in the Binding Update.

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o The lifetime for the Binding Cache entry MUST NOT be greater than
the remaining valid lifetime for the subnet prefix in the mobile
node's home address specified with the Binding Update. The
remaining valid lifetime for this prefix is determined by the home
agent based on its own Prefix List entry for this prefix [12].

- However, if the Single Address Only (S) bit field in the Binding
Update is zero, the lifetime for that Binding Cache entry MUST
NOT be greater than the minimum remaining valid lifetime for all
subnet prefixes on the mobile node's home link. If the value of
the Lifetime field specified by the mobile node in its Binding
Update is greater than this prefix lifetime, the

The home agent MUST
decrease the remove a binding when the valid lifetime to less than or equal to of
the prefix
valid lifetime.

- associated with it expires.

o The home agent MAY further decrease the specified lifetime for the
binding, for example based on a local policy. The resulting
lifetime is stored by the home agent in the Binding Cache entry,
and this Binding Cache entry MUST be deleted by the home agent
after home agent
after the expiration of this lifetime.

Regardless of the setting of the Acknowledge (A) bit in the Binding
Update, the home agent MUST return a Binding Acknowledgement to the
mobile node, constructed as follows:

o The Status field MUST be set to a value 0, indicating success.

o The Key Management Mobility Capability (K) bit is set if the
following conditions are all fulfilled, and reset otherwise:

* The Key Management Mobility Capability (K) bit was set in the
Binding Update.

* The IPsec security associations between the mobile node and the
home agent have been established dynamically.

* The home agent has the capability to update its endpoint in the
used key management protocol to the expiration of this lifetime.

Regardless of new care-of address every
time it moves

Depending on the setting final value of the Acknowledge (A) bit in the Binding
Update,
Acknowledgement, the home agent MUST return SHOULD perform the following
actions:

K = 0

Discard key management connections, if any, to the old care-of
address. If the mobile node did not have a binding before
sending this Binding Acknowledgement Update, discard the connections to the
mobile node, constructed as follows:

- The Status field MUST be set
home address.

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K = 1

Move the peer endpoint of the key management protocol
connection, if any, to a value 0, indicating success.

- the new care-of address. For an IKE
phase 1 connection, this means that any IKE packets sent to the
peer are sent to this address, and packets from this address
with the original ISAKMP cookies are accepted.

o The Sequence Number field MUST be copied from the Sequence Number
given in the Binding Update.

o The Lifetime field MUST be set to the remaining lifetime for the
binding as set by the home agent in its home registration Binding
Cache entry for the mobile node, as described above.

o If the home agent stores the Binding Cache entry in nonvolatile
storage, then the Binding Refresh Advice mobility option MUST be
omitted. Otherwise, the home agent MAY include this option to
suggest that the mobile node refreshes its binding sooner than the
actual lifetime of the binding ends.

If the Binding Refresh Advice mobility option is present, the
Refresh Interval field in the option MUST be set to a value less
than the Lifetime value being returned in the Binding Update.
This indicates that the mobile node SHOULD attempt to refresh its
home registration at the indicated shorter interval. The home
agent MUST still retain the registration for the Lifetime period,
even if the mobile node does not refresh its registration within
the Refresh period.

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The rules for selecting the Destination IP address (and possibly
routing header construction) for the Binding Acknowledgement to the
mobile node are the same as in Section 9.5.4.

In addition, the home agent MUST follow the procedure defined in
Section 10.4.1 to intercept packets on the mobile node's home link
addressed to the mobile node, while the home agent is serving as the
home agent for this mobile node. The home agent MUST also be
prepared to accept reverse tunneled packets from the new care-of
address of the mobile node, as described in Section 10.4.3. 10.4.5. Finally,
the home agent MUST also propagate new home network prefixes, as
described in Section 10.6.

10.3.2.

10.3.2 Primary Care-of Address De-Registration

A Binding Update is validated and authorized in the manner described
in the previous section. This section describes the processing of a
valid Binding Update that requests the receiving node to no longer

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serve as its home agent, de-registering its primary care-of address.

To begin processing the Binding Update, the home agent MUST perform
the following test:

o If the receiving node has no entry marked as a home registration
in its Binding Cache for this mobile node, then this node MUST reject
reject the Binding Update and SHOULD return a Binding
Acknowledgement to the mobile node, in which the Status field is
set to 133 (not home agent for this mobile node).

If the home agent does not reject the Binding Update as described
above, then it MUST delete any existing entry in its Binding Cache
for this mobile node. Then, the home agent MUST return a Binding
Acknowledgement to the mobile node, constructed as follows:

o The Status field MUST be set to a value 0, indicating success.

o The Key Management Mobility Capability (K) bit is set or reset,
and actions based on its value are performed as described in the
previous section. The mobile node's home address is used as its
new care-of address.

o The Sequence Number field MUST be copied from the Sequence Number
given in the Binding Update.

o The Lifetime field MUST be set to zero.

o The Binding Refresh Advice mobility option MUST be omitted.

In addition, the home agent MUST stop intercepting packets on the
mobile node's home link that are addressed to the mobile node
(Section 10.4.1).

The rules for selecting the Destination IP address (and, if required,
routing header construction) for the Binding Acknowledgement to the
mobile node are the same as in the previous section. When the Status
field in the Binding Acknowledgement is greater than or equal to 128
and the Source Address of the Binding Update is on the home link, the
home agent MUST send it to the mobile node's link layer address
(retrieved either from the Binding Update or through Neighbor
Solicitation).

10.4 Packet Processing

10.4.1 Intercepting Packets for a Mobile Node

While a node is serving as the home agent for mobile node it MUST

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attempt to intercept packets on the mobile node's home link that are
addressed to the mobile node, and MUST tunnel each intercepted packet
to the mobile node using IPv6 encapsulation [15].

In order to do this, when a node begins serving as the home agent it
MUST multicast onto the Binding Update and SHOULD return home link a Binding
Acknowledgement to Neighbor Advertisement message
[12] on behalf of the mobile node, node. For the home address specified in which
the Status field is
set to 133 (not Binding Update, the home agent for this mobile node).

If sends a Neighbor Advertisement
message [12] to the all-nodes multicast address on the home agent does not reject link, to
advertise the Binding Update as described
above, then it MUST delete any existing entry in its Binding Cache home agent's own link-layer address for this IP address
on behalf of the mobile node. Then,

All fields in each such Neighbor Advertisement message SHOULD be set
in the home agent MUST return a Binding
Acknowledgement to same way they would be set by the mobile node, constructed as follows:

- node itself if
sending this Neighbor Advertisement [12] while at home, with the
following exceptions:

o The Status field Target Address in the Neighbor Advertisement MUST be set to a value 0, indicating success.

-
the specific IP address for the mobile node.

o The Sequence Number field Advertisement MUST be copied from include a Target Link-layer Address option
specifying the Sequence Number
given home agent's link-layer address.

o The Router (R) bit in the Binding Update.

- The Lifetime field Advertisement MUST be set to zero.

o The Binding Refresh Advice mobility option Solicited Flag (S) in the Advertisement MUST NOT be omitted.

In addition, set, since
it was not solicited by any Neighbor Solicitation.

o The Override Flag (O) in the home agent Advertisement MUST stop intercepting packets be set, indicating
that the Advertisement SHOULD override any existing Neighbor Cache
entry at any node receiving it.

Any node on the home link receiving one of the Neighbor Advertisement
messages described above will thus update its Neighbor Cache to
associate the mobile node's address with the home agent's link that are addressed layer
address, causing it to transmit any future packets normally destined
to the mobile node
(Section 10.4.1).

The rules for selecting to the Destination IP address (and, if required,
routing header construction) for mobile node's home agent. Since
multicasting on the Binding Acknowledgement local link (such as Ethernet) is typically not
guaranteed to be reliable, the home agent MAY retransmit this
Neighbor Advertisement message up to MAX_NEIGHBOR_ADVERTISEMENT (see
[12]) times to increase its reliability. It is still possible that
some nodes on the home link will not receive any of these Neighbor
Advertisements, but these nodes will eventually be able to detect the
link-layer address change for the mobile node's home address, through
use of Neighbor Unreachability Detection [12].

While a node are the same is serving as in the previous section. When a home agent for some mobile node, the Status
home agent uses IPv6 Neighbor Discovery [12] to intercept unicast

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field in January 2003

packets on the Binding Acknowledgement is greater than or equal home link addressed to 128 the mobile node's home address.
In order to intercept packets in this way, the home agent MUST act as
a proxy for this mobile node, and reply to any received Neighbor
Solicitations for it. When a home agent receives a Neighbor
Solicitation, it MUST check if the Source Target Address of specified in the Binding Update is on
message matches the home address of any mobile node for which it has
a Binding Cache entry marked as a home registration.

If such an entry exists in the home link, agent's Binding Cache, the home
agent MUST send it reply to the same Neighbor Solicitation with a Neighbor
Advertisement, giving the home agent's own link-layer address as the Binding
Update came from.

10.4. Packet Processing

10.4.1. Intercepting Packets
link-layer address for a Mobile Node

While a node is serving as the home agent for mobile node it specified Target Address. In addition,
the Router (R) bit in the Advertisement MUST
attempt be set to intercept packets zero. Acting
as a proxy in this way allows other nodes on the mobile node's home
link that are
addressed to the mobile node, and MUST tunnel each intercepted packet to resolve the mobile node using node's IPv6 encapsulation [15].

In order to do this, when a node begins serving as home address, and allows the
home agent
it MUST multicast onto to defend these addresses on the home link for Duplicate
Address Detection [12].

10.4.2 Tunneling Intercepted Packets

For any packet sent to a Neighbor Advertisement
message [12] on behalf of the mobile node. Specifically, node from the mobile node's home
agent performs (for which the following steps:

1. The home agent examines is the value original sender of the Single Address Only (S)
bit in
packet), the received Binding Update. If this bit home agent is nonzero, operating as a correspondent node of the
next step is carried out only
mobile node for this packet and the individual procedures described in Section
9.3.2 apply. The home address
specified for this binding. If, instead, this bit is zero, agent then uses a routing header to route the next step is carried out for one address for each one of
packet to the
subnet prefixes currently considered mobile node by way of the primary care-of address in
the home agent to be
on-link agent's Binding Cache.

While the mobile node. Each address node is formed by replacing,
in turn, away from home, the configured subnet prefix in home agent intercepts
any packets on the home link addressed to the mobile node's home
address. For this purpose, the set of on-link prefixes includes
both the link-local and site-local prefix.

2. For
address, as described in Section 10.4.1. In order to forward each specific IP address for
intercepted packet to the mobile node determined
in the first step above, node, the home agent sends MUST tunnel the
packet to the mobile node using IPv6 encapsulation [15]. When a Neighbor
Advertisement message [12] home
agent encapsulates an intercepted packet for forwarding to the all-nodes multicast address
on mobile
node, the home link, agent sets the Source Address in the new tunnel IP
header to advertise the home agent's own link-layer
address for this IP address on behalf of address, and sets the mobile node.

All fields in each such Neighbor Advertisement message SHOULD be
set Destination
Address in the same way they would be set tunnel IP header to the mobile node's primary care-of
address. When received by the mobile node itself
if sending this Neighbor Advertisement while at home [12], with node, normal processing of the following exceptions:

- The Target Address
tunnel header [15] will result in decapsulation and processing of the Neighbor Advertisement MUST be set
original packet by the mobile node.

However, packets addressed to the specific IP mobile node's link-local address for
MUST NOT be tunneled to the mobile node.

- The Advertisement MUST include Instead, such a Target Link-layer packet MUST
be discarded, and the home agent SHOULD return an ICMP Destination
Unreachable, Code 3, message to the packet's Source Address
option specifying (unless
this Source Address is a multicast address). Packets addressed to
the home agent's link-layer address.

- The Router (R) bit in mobile node's site-local address SHOULD NOT be tunneled to the Advertisement
mobile node by default, but this behavior MUST be set configurable to zero.

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- The Solicited Flag (S) in January 2003

enable it; currently, the Advertisement MUST NOT be set,
since it was not solicited by any Neighbor Solicitation.

- The Override Flag (O) exact definition and semantics of a "site"
and a site-local address are incompletely defined in IPv6, and this
default behavior might change at some point in the Advertisement MUST be set,
indicating that future.

Interception and tunneling of the Advertisement SHOULD override any
existing Neighbor Cache entry at any node receiving it.

Any node following multicast addressed
packets on the home link receiving one of network are only done if the Neighbor Advertisement home agent supports
multicast group membership control messages from the mobile node as
described in the next section. Tunneling of multicast packets to a
mobile node follows similar limitations to those defined above will thus update its Neighbor Cache for
unicast packets addressed to
associate the mobile node's link-local and
site-local addresses. Multicast packets addressed to a multicast
address with the home agent's link
layer address, causing it to transmit any future packets normally
destined link-local scope [3], to which the mobile node is
subscribed, MUST NOT be tunneled to the mobile node's home agent. Since
multicasting on the local link (such as Ethernet) is typically
not guaranteed to node; such packets
SHOULD be reliable, the home agent MAY retransmit
this Neighbor Advertisement message up silently discarded (after delivering to MAX_ADVERT_REXMIT (see
Section 12) times other local
multicast recipients). Multicast packets addressed to increase its reliability. It is still possible
that some nodes on the home link will not receive any of these
Neighbor Advertisements, a multicast
address with scope larger than link-local but these nodes will eventually be able smaller than global
(e.g., site-local and organization-local [3]), to detect the link-layer address change for which the mobile node's home
address, through use of Neighbor Unreachability Detection [12].

While a
node is serving as a home agent for some mobile node, the
home agent uses IPv6 Neighbor Discovery [12] to intercept unicast
packets on the home link addressed subscribed, SHOULD NOT be tunneled to the mobile node's home address.
In order to intercept packets in this way, the home agent node by
default. This behavior MUST
act as a proxy for this mobile node, and reply be configurable to any received
Neighbor Solicitations for it. When a home agent receives a Neighbor
Solicitation, allow it MUST check if the Target Address specified to be
enabled. Note that this default behavior might change at some point
in the
message matches future as the home address definition of any these scopes become more
completely defined in IPv6. Multicast packets addressed with a
global scope to which the mobile node for which it has a Binding Cache entry marked as a home registration. Note that
Binding Update with the Single Address Only (S) bit set successfully subscribed
MUST be tunneled to zero will
result in multiple Binding Cache entries, so checks on all these
entries necessarily include all possible home addresses for the mobile node.

If such an entry exists in the home agent's Binding Cache, the
home agent MUST reply node.

Before tunneling a packet to the Neighbor Solicitation with a Neighbor
Advertisement, giving mobile node, the home agent's own link-layer address agent MUST
perform any IPsec processing as indicated by the
link-layer address security policy data
base.

10.4.3 Multicast Membership Control

This section is a prerequisite for the specified Target Address. In addition,
the Router (R) bit multicast data packet
forwarding described in the Advertisement MUST be set to zero. Acting
as a proxy in previous section. If this way allows other nodes on support is not
provided, multicast group membership control messages are silently
ignored.

In order to tunnel forward multicast data packets from the mobile node's home
link
network to resolve all the proper mobile node's IPv6 home address, and allows nodes the home agent to defend these addresses on SHOULD be
capable of receiving tunneled multicast group membership control
information from the home link for Duplicate
Address Detection [12].

10.4.2. Tunneling Intercepted Packets to a Mobile Node

For any packet sent mobile node in order to a determine which groups
the mobile node from has subscribed to. These multicast group membership
messages are Listener Report messages specified MLD [17] or in other
protocols such as [35].

The messages are issued by the mobile node's home
agent (for which node but sent through the
reverse tunnel to the home agent is agent. These messages are issued whenever
the original sender mobile node decides to enable reception of the
packet), packets for a
multicast group or in response to an MLD Query from the home agent is operating as a correspondent node of agent.

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the January 2003

The mobile node will also issue multicast group control messages to
disable reception of multicast packets when it is no longer
interested in receiving multicasts for this packet and a particular group.

To obtain the mobile node's current multicast group membership the procedures described in
Section 9.3.2 apply. The
home agent then uses a routing header to
route must periodically transmit MLD Query messages through the packet
tunnel to the mobile node by way node. These MLD periodic transmissions will
ensure the home agent has an accurate record of the primary care-of
address groups in the home agent's Binding Cache.

While which
the mobile node is away from home, interested despite packet losses of the home agent intercepts
any mobile
node's MLD group membership messages.

All MLD packets on are sent directly between the mobile node and the
home link addressed agent. Since these packets all contain a link-local source
address, are destined to a link-scope multicast address, and have a
hop limit of 1 there is no direct forwarding of such packets between
the mobile node's home
address (including addresses formed from other on-link prefixes, if
the Single Address Only (S) bit was zero in network and the Binding Update), as
described in Section 10.4.1. In order to forward each intercepted
packet to mobile node. The MLD packets between the
mobile node, node and the home agent MUST tunnel are encapsulated within the same
tunnel header used for other packet to flows between the mobile node using IPv6 encapsulation [15]. When a and
home agent
encapsulates an intercepted packet for forwarding agent.

Note that at this time, even though a link-local source is used on
MLD packets, no functionality depends on these addresses being
unique, nor do they elicit direct responses. All MLD messages are
sent to the mobile
node, multicast destinations. To avoid ambiguity on the home agent sets the Source Address in the new tunnel IP
header
due to mobile nodes which may choose identical link-local source
addresses for their MLD function it is necessary for the home agent's own IP address, and sets the Destination
Address in the tunnel IP header agent
to the identify which mobile node's primary care-of
address. When received by node was actually the mobile node, normal processing issuer of the a particular
MLD message. This may be accomplished by noting which tunnel header [15] will result such an
MLD arrived by, which IPsec SA was used, or by other distinguishing
means.

This specification puts no requirement on how the functions in decapsulation this
section and processing of the
original packet by the mobile node.

However, packets addressed multicast forwarding in Section 10.4.2 are to the mobile node's link-local address
MUST NOT be tunneled to
achieved. At the mobile node. Instead, such time of this writing it was thought that a packet MUST full
IPv6 multicast router function would be discarded, and necessary on the home agent SHOULD return an ICMP Destination
Unreachable, Code 3, message agent,
but it may be possible to achieve the packet's Source Address (unless
this Source Address is same effects through a "proxy
MLD" application coupled with kernel multicast address). Packets addressed to forwarding. This may
be the mobile node's site-local subject of future specifications.

10.4.4 Stateful Address Autoconfiguration

This section describes how home agents support the use of stateful
address SHOULD be tunneled to autoconfiguration mechanisms such as DHCPv6 [29] from the
mobile
node by default, but nodes. If this behavior MUST be configurable to disable
it; currently, support is not provided, then the exact definition and semantics of a "site" and a
site-local address are incompletely defined in IPv6, M and this default
behavior might change at some point in O bits
must remain reset on the future.

Tunneling of multicast packets to a Mobile Prefix Advertisement Messages. Any
mobile node follows similar
limitations to those defined above which issues autoconfiguration queries for unicast servers
without this support will not receive a response.

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If DHCPv6 is used, packets addressed to
the mobile node's are sent with link-local and site-local addresses. Multicast
packets addressed source addresses
either to a link-scope multicast address with or a link-local scope [3], address.
Mobile nodes desiring to which the mobile node is subscribed, MUST NOT be tunneled locate a DHCPv6 service may reverse tunnel
standard DHCPv6 packets to the mobile node; such home agent. Since these link-scope
packets SHOULD can not be silently discarded
(after delivering to other local multicast recipients). Multicast
packets addressed to a multicast address with scope larger
than link-local but smaller than global (e.g., site-local and
organization-local [3]), to which forwarded onto the mobile node home network it is subscribed,
SHOULD be tunneled necessary
for the home agent to either implement a DHCPv6 relay agent or a
DHCPv6 server function itself. The arriving tunnel or IPsec SA of
DHCPv6 link-scope messages from the mobile node by default. This behavior MUST must be configurable to allow changing or disabling it. Note noted so that this
default behavior might change at some point in the future as the
definition of these scopes become more completely defined in IPv6.

Before tunneling a packet
DHCPv6 responses may be sent back to the appropriate mobile node, node.
DHCPv6 messages sent to the home agent MUST
perform any IPsec processing as indicated by mobile node with a link-local destination
must be tunneled within the security policy data
base.

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10.4.3. same tunnel header used for other packet
flows.

10.4.5 Handling Reverse Tunneled Packets from a Mobile Node

Unless a binding has been established between the mobile node and a
correspondent node, traffic from the mobile node to the correspondent
node goes through a reverse tunnel. Home agents MUST support reverse
tunneling as follows:

o The tunneled traffic arrives to the home agent using IPv6
encapsulation [15].

o The tunnel entry point is the primary care-of address as
registered with the home agent and the tunnel exit point is the
home agent.

o When a home agent decapsulates a tunneled packet from the mobile
node, the home agent MUST verify that the Source Address in the
tunnel IP header is the mobile node's primary care-of address.
Otherwise any node in the Internet could send traffic through the
home agent and escape ingress filtering limitations.

Reverse tunneled packets MAY be discarded unless accompanied by a
valid AH or ESP header, depending on the security policies used by the home
agent. The support for authenticated reverse tunneling allows the
home agent to protect the home network and correspondent nodes from
malicious nodes masquerading as a mobile node, even if they know the
current location of the real mobile node.

10.4.4.

10.4.6 Protecting Return Routability Packets

The return routability procedure described in Section 5.2.5 assumes
that the confidentiality of the Home Test Init and Home Test messages
is protected as they are tunneled between the home agent to the
mobile node. Therefore, the home agent MUST support tunnel mode
IPsec ESP for the protection of packets belonging to the return
routability procedure. Support for a non-null encryption transform

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and authentication algorithm MUST be available. It isn't necessary
to distinguish between different kinds of packets within the return
routability procedure.

The security association between

Security associations are needed to provide this protection. When
the home agent and care-of address for the mobile node changes, special treatment is
needed for the next packets sent using these security associations.
The home agent MUST change its set the new care-of address as the destination
address (tunnel gateway address) when of these packets, as if the
care-of destination gateway address for in
the mobile node changes [24]. security association had changed [21].

The above protection SHOULD be used with all mobile nodes. The use
is controlled by configuration of the IPsec security policy database
both at the mobile node and at the home agent.

As described earlier, the Binding Update and Binding Acknowledgement
messages require protection between the home agent and the mobile
node. These The Mobility Header protocol carries both these messages and as
well as the return routability messages employ the

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same protocol from messages. From the point of view of
the security policy database,
the Mobility Header. database these messages are indistinguishable.
The security policy database entries MUST be defined as if they were
specifically for the tunnel interface between the mobile node and the
home agent. That is, the policy entries are not generally applied on
all traffic on the physical interface(s) of the nodes, but rather
only on traffic that enters the tunnel. This makes use of
per-interface security policy database entries [4], specific to the
tunnel interface (the node's attachment to the tunnel [11]).

10.5.

10.5 Dynamic Home Agent Address Discovery

This section describes how a home agent can help mobile nodes to
discover the addresses of the home agents. The home agent keeps
track of the other home agents on the same link, and responds to
queries sent by the mobile node.

10.5.1.

10.5.1 Receiving Router Advertisement Messages

For each link on which a router provides service as a home agent, the
router maintains a Home Agents List recording information about all
other home agents on that link. This list is used in the dynamic
home agent address discovery mechanism, described in Section 10.5.
The information for the list is learned through receipt of the
periodic unsolicited multicast Router Advertisements, in a manner
similar to the Default Router List conceptual data structure
maintained by each host for Neighbor Discovery [12]. In the
construction of the Home Agents List, the Router Advertisements are
from each other home agent on the link, and the Home Agent (H) bit is
set in them.

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On receipt of a valid Router Advertisement, as defined in the
processing algorithm specified for Neighbor Discovery [12], the home
agent performs the following steps, in addition to any steps already
required of it by Neighbor Discovery:

o If the Home Agent (H) bit in the Router Advertisement is not set,
check to see if
delete the sending node has an node's entry in the current Home Agents List. If it does, delete the corresponding entry. In any
case List
(if one exists). Skip all of the following steps are skipped.

- steps.

o Otherwise, extract the Source Address from the IP header of the
Router Advertisement. This is the link-local IP address on this
link of the home agent sending this Advertisement [12].

o Determine the preference for this home agent. If the Router
Advertisement contains a Home Agent Information Option, then the
preference is taken from the Home Agent Preference field in the
option; otherwise, the default preference of 0 MUST be used.

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o Determine the lifetime for this home agent. If the Router
Advertisement contains a Home Agent Information Option, then the
lifetime is taken from the Home Agent Lifetime field in the
option; otherwise, the lifetime specified by the Router Lifetime
field in the Router Advertisement SHOULD be used.

o If the link-local address of the home agent sending this
Advertisement is already present in this home agent's Home Agents
List and the received home agent lifetime value is zero,
immediately delete this entry in the Home Agents List.

o Otherwise, if the link-local address of the home agent sending
this Advertisement is already present in the receiving home
agent's Home Agents List, reset its lifetime and preference to the
values determined above.

o If the link-local address of the home agent sending this
Advertisement is not already present in the Home Agents List
maintained by the receiving home agent, and the lifetime for the
sending home agent is non-zero, create a new entry in the list,
and initialize its lifetime and preference to the values
determined above.

o If the Home Agents List entry for the link-local address of the
home agent sending this Advertisement was not deleted as described
above, determine any global address(es) of the home agent based on
each Prefix Information option received in this Advertisement in
which the Router Address (R) bit is set (Section 7.2). Add all
such global addresses to the list of global addresses in this Home
Agents List entry.

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A home agent SHOULD maintain an entry in its Home Agents List for
each valid home agent address until that entry's lifetime expires,
after which time the entry MUST be deleted.

As described in Section 11.4.1, a mobile node attempts dynamic home
agent address discovery by sending an ICMP Home Agent Address
Discovery Request message to the Mobile IPv6 Home-Agents anycast
address [16] for its home IP subnet prefix. A home agent receiving
such a Home Agent Address Discovery Request message that is serving
this subnet SHOULD return an ICMP Home Agent Address Discovery Reply
message to the mobile node, with the Source Address of the Reply
packet set to one of the global unicast addresses of the home agent.
The Home Agent Addresses field in the Reply message is constructed as
follows:

o The Home Agent Addresses field SHOULD contain one all global IP
address
addresses for each home agent currently listed in this home
agent's own Home Agents List (Section 10.1). However, if this home
agent's own global IP address would be placed as the first entry
in the list (as described below), then this home agent SHOULD NOT

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include its own address in the Home Agent Addresses field in the
Reply message. Not placing this home agent's own IP address in
the list will cause the receiving mobile node to consider this
home agent as the most preferred home agent; otherwise, this home
agent will be considered to be preferred in its order given by
its place in the list returned.

o The IP addresses in the Home Agent Addresses field SHOULD be
listed in order of decreasing preference values, based either on
the respective advertised preference from a Home Agent Information
option or on the default preference of 0 if no preference is
advertised (or on the configured home agent preference for this
home agent itself).

o Among home agents with equal preference, their IP addresses in the
Home Agent Addresses field SHOULD be listed in an order randomized
with respect to other home agents with equal preference, each time
a Home Agent Address Discovery Reply message is returned by this
home agent.

- For each entry in this home agent's Home Agents List, if

o If more than one global IP address is associated with this list entry,
then one of a home
agent, these global IP addresses SHOULD be selected to
include in the Home Agent Addresses field in the Reply message.

The selected global IP address for each home agent to include in
forming the Home Agent Addresses field listed in the Reply message MUST
be the global IP address of the respective home agent sharing a
prefix with the Destination IP address of the Request message.
If no such global IP address is known for some home agent, an
entry for that home agent MUST NOT be included in the Home Agent
Addresses field in the Reply message.

- randomized order.

o The home agent SHOULD reduce the number of home agent IP addresses
so that the packet fits within the minimum IPv6 MTU [11]. The
home agent addresses selected for inclusion in the packet SHOULD
be those from the complete list with the highest preference. This
limitation avoids the danger of the Reply message packet being
fragmented (or rejected by an intermediate
router with an ICMP Packet Too Big message [14]).

- If the Reply message packet must be truncated to fit within the
minimum IPv6 MTU, and the home agent sending the message is
not the highest priority, then its address MUST appear in the
list sent to avoid implying that it is the highest priority.
Therefore, if this home agent would not appear in the truncated
list because it is of lower priority than the last entry, this
home agent's address must be substituted for router with an ICMP
Packet Too Big message [14]).

10.6 Sending Prefix Information to the last entry. Mobile Node

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10.6. Sending Prefix Information to the Mobile Node

10.6.1. January 2003

10.6.1 Aggregate List of Home Network Prefixes

Mobile IPv6 arranges to propagate relevant prefix information to the
mobile node when it is away from home, so that it may be used in
mobile node home address configuration, and in network renumbering.
In this mechanism, mobile nodes away from home receive Mobile Prefix
Advertisements messages with Prefix Information Options, which give
the valid lifetime and preferred lifetime for available prefixes on
the home link.

A mobile node on a remote network SHOULD autoconfigure all of the
global IP addresses, which it would autoconfigure if it were attached

The messages relayed to its home network and which are from prefixes served by home
agents. Site-local addresses MAY be autoconfigured if the mobile node is roaming in a network are the ones learned via
Neighbor Discovery on the same site as its home addresses.
Site-local addresses and addresses not served by a home agent MUST
NOT be autoconfigured, since they link. The prefix options are unusable
processed as defined in the remote network. [12, 13].

To support this, the home agent monitors prefixes advertised by
itself and other home agents routers on the home link, and passes
this aggregated list of relevant subnet prefixes on to the mobile
node in Mobile Prefix Advertisements.

The home agent SHOULD construct the aggregate list of home subnet
prefixes as follows:

o Copy prefix information defined in the home agent's AdvPrefixList
on the home subnet's interfaces to the aggregate list. Also apply
any changes made to the AdvPrefixList on the home agent to the
aggregate list.

o Check valid prefixes received in Router Advertisements from the
home network for consistency with the home agent's AdvPrefixList,
as specified in Section 6.2.7 of RFC 2461 [12]. Do not update the
aggregate list with any information from received prefixes that
fail this check.

o For Router Advertisements which have the Home Agent (H) bit set,
check valid prefixes that are not yet in the aggregate list. If a
Prefix Information option has the autonomous address configuration
(A) flag set and the prefix length is valid for address
autoconfiguration on the home subnet, add these advertisements and
preserve the on-link (L) flag value. Clear the Router Address (R)
flag and zero the interface-id portion of the prefix field to
prevent mobile nodes from treating another router's interface
address as belonging to the home agent. Treat the lifetimes of
these prefixes as decrementing in real time, as defined in Section
6.2.7 of RFC 2461 [12].

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o Do not perform consistency checks on valid prefixes received in
Router Advertisements on the home network that do not exist in the
home agent's AdvPrefixList. Instead, if the prefixes already

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exist in the aggregate list, update the prefix lifetime fields in
the aggregate list according to the rules specified for hosts in
Section 6.3.4 of RFC 2461 [12] and Section 5.5.3 of RFC 2462 [13].

- [13],
unless the update would override existing information from this
home agent.

o If the L flag is set on valid prefixes received in a Router
Advertisement, and that prefix already exists in the aggregate
list, set the flag in the aggregate list. Ignore the flag if it
is clear.

- clear or if the setting of the flag was already configured in
this home agent.

o Delete prefixes from the aggregate list when their valid lifetimes
expire.

The home agent uses the information in the aggregate list to
construct Mobile Prefix Advertisements. It may be possible to
construct an aggregate list by combining information contained in the
home agent's AdvPrefixList and its Home Agents List used for Dynamic
Home Agent Address Discovery (Section 11.4.1).

10.6.2.

10.6.2 Scheduling Prefix Deliveries to the Mobile Node

A home agent serving a mobile node will schedule the delivery of new
prefix information to that mobile node when any of the following
conditions occur:

MUST:

o The valid or preferred lifetime or the state of the flags changes
for the prefix of the mobile node's registered home address.

o The mobile node requests the information with a Mobile Prefix
Solicitation (see Section 11.4.2).

MAY:

SHOULD:

o A new prefix is added to the aggregate list.

MAY:

o The valid or preferred lifetime or the state of the flags changes
for a prefix which is not used in any Binding Cache entry for this
mobile node.

The home agent uses the following algorithm to determine when to send
prefix information to the mobile node.

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o If the mobile node has not received the prefix information within
the last HomeRtrAdvInterval (see Section 12) seconds, then

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transmit the prefix information. This MAY be done according to a
periodically scheduled transmission.

o If a mobile node sends a solicitation, answer right away.

o If a prefix in the aggregate list that matches the mobile node's
home registration is added, or if its information changes in any
way that does not cause the mobile node's address to go
deprecated, ensure that a transmission is scheduled (as described
below), and calculate RAND_ADV_DELAY in order to randomize the
time at which the transmission is scheduled.

o If a home registration expires, cancel any scheduled
advertisements to the mobile node.

The aggregate list is sent in its entirety in all cases.

Suppose that

If the home agent already has scheduled the transmission of a Mobile
Prefix Advertisement to the mobile node. The node, the home agent
deletes replaces the previously scheduled transmission event and schedules
another
advertisement with a new one, to be sent at the mobile node. scheduled time.

Otherwise, the home agent computes a fresh value for RAND_ADV_DELAY,
the offset from the current time for the scheduled transmission as
follows. First calculate the maximum delay for the scheduled
Advertisement:

MaxScheduleDelay = min (MaxMobPfxAdvInterval, Preferred Lifetime),

where MaxMobPfxAdvInterval is as defined in Section 12. Then compute
the final delay for the advertisement:

RAND_ADV_DELAY = MinMobPfxAdvInterval +
(rand() % abs(MaxScheduleDelay - MinMobPfxAdvInterval))

Here rand() returns a random integer value in the range of 0 to the
maximum possible integer value. This computation is expected to
alleviate bursts of advertisements when prefix information changes.
In addition, a home agent MAY further reduce the rate of packet
transmission by further delaying individual advertisements, if needed
to avoid overwhelming local network resources. The home agent SHOULD
periodically continue to retransmit an unsolicited Advertisement to
the mobile node, until it is acknowledged by the receipt of a Mobile

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Prefix Solicitation from the mobile node.

The home agent MUST wait PREFIX_ADV_TIMEOUT (see Section 12) before
the first retransmission, and double the retransmission wait time for
every succeeding retransmission, up until a maximum of
PREFIX_ADV_RETRIES attempts (see Section 12). If the mobile node's
bindings expire before the matching Binding Update has been received,
then the home agent MUST NOT attempt any more retransmissions, even

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if not all PREFIX_ADV_RETRIES have been retransmitted. If the mobile
node sends another Binding Update without returning home in the
meantime, the home agent SHOULD again begin transmitting the
unsolicited Advertisement.

If some condition as described above occurs on the home link and
causes another Prefix Advertisement to be sent to the mobile node,
before the mobile node acknowledges a previous transmission transmission, the home
agent SHOULD combine any Prefix Information options in the
unacknowledged Mobile Prefix Advertisement into a new Advertisement.
The home agent discards the old Advertisement.

10.6.3.

10.6.3 Sending Advertisements to the Mobile Node

When sending a Mobile Prefix Advertisement to the mobile node, the
home agent MUST construct the packet as follows:

o The Source Address in the packet's IPv6 header MUST be set to the
home agent's IP address to which the mobile node addressed its
current home registration, or its default global home agent
address if no binding exists.

o If the advertisement was solicited, it MUST be destined to the
source address of the solicitation. If it was triggered by prefix
changes or renumbering, the advertisement's destination will be
the mobile node's home address in the binding which triggered the
rule.

o A type 2 routing header MUST be included with the mobile node's
home address.

o IPsec headers SHOULD be supported and used.

o The home agent MUST send the packet as it would any other unicast
IPv6 packet that it originates.

10.6.4.

o Set the Managed Address Configuration (M) flag if the
corresponding flag has been set in any of the Router
Advertisements from which the prefix information has been learned
(including the ones sent by this home agent).

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o Set the Other Stateful Configuration (O) flag if the corresponding
flag has been set in any of the Router Advertisements from which
the prefix information has been learned (including the ones sent
by this home agent).

10.6.4 Lifetimes for Changed Prefixes

As described in Section 10.3.1, the lifetime returned by the home
agent in a Binding Acknowledgement MUST be no greater than the
remaining valid lifetime for the subnet prefix in the mobile node's
home address. This limit on the binding lifetime serves to prohibit
use of a mobile node's home address after it becomes invalid.

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11. Mobile Node Operation

11.1.

11.1 Conceptual Data Structures

Each mobile node MUST maintain a Binding Update List.

The Binding Update List records information for each Binding Update
sent by this mobile node, for which the Lifetime sent in that Binding
Update has not yet expired. The Binding Update List includes all
bindings sent by the mobile node either to its home agent or
correspondent nodes. It also contains Binding Updates which are
waiting for the completion of the return routability procedure before
they can be sent. However, for multiple Binding Updates sent to the
same destination address, the Binding Update List contains only the
most recent Binding Update (i.e., with the greatest Sequence Number
value) sent to that destination. The Binding Update List MAY be
implemented in any manner consistent with the external behavior
described in this document.

Each Binding Update List entry conceptually contains the following
fields:

o The IP address of the node to which a Binding Update was sent. If
the Binding Update was successfully received by that node (e.g.,
not lost by the network), a Binding Cache entry may have been
created or updated based on this Binding Update. The Binding
Cache entry may still exist, if that node has not deleted the
entry before its expiration for some reason.

o The home address for which that Binding Update was sent.

o The care-of address sent in that Binding Update. This value is
necessary for the mobile node to determine if it has sent a
Binding Update giving its new care-of address to this destination
after changing its care-of address.

o The initial value of the Lifetime field sent in that Binding
Update.

o The remaining lifetime of that binding. This lifetime is
initialized from the Lifetime value sent in the Binding Update and
is decremented until it reaches zero, at which time this entry
MUST be deleted from the Binding Update List.

o The maximum value of the Sequence Number field sent in previous
Binding Updates to this destination. The Sequence Number field is
16 bits long, and all comparisons between Sequence Number values
MUST be performed modulo 2**16 (see Section 9.5.1).

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o The time at which a Binding Update was last sent to this
destination, as needed to implement the rate limiting restriction
for sending Binding Updates.

o The state of any retransmissions needed for this Binding Update,
if the Acknowledge (A) bit was set in this Binding Update. This
state includes the time remaining until the next retransmission
attempt for the Binding Update, and the current state of the
exponential back-off mechanism for retransmissions.

o A flag specifying whether or not future Binding Updates should be
sent to this destination. The mobile node sets this flag in the
Binding Update List entry when it receives an ICMP Parameter
Problem, Code 1, error message in response to a return routability
message or Binding Update sent to that destination, as described
in Section 11.3.4. 11.3.5.

The Binding Update list also conceptually contains the following data
related to running the return routability procedure. This data is
relevant only for Binding Updates sent to correspondent nodes.

o The time at which a Home Test Init or Care-of Test Init message
was last sent to this destination, as needed to implement the rate
limiting restriction for the return routability procedure.

o The state of any retransmissions needed for this return
routability procedure. This state includes the time remaining
until the next retransmission attempt and the current state of the
exponential back-off mechanism for retransmissions.

o Cookie values used the Home Test Init and Care-of Test Init
messages.

o Home and care-of keygen tokens received from the correspondent
node.

o Home and care-of nonce indices received from the correspondent
node.

o The time at which each of the tokens and nonces was received from
this correspondent node, as needed to implement reuse while
moving.

11.2.

11.2 Processing Mobility Headers

All IPv6 mobile nodes MUST observe the rules described in Section 9.2
when processing Mobility Headers.

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11.3 Packet Processing

11.3.1.

11.3.1 Sending Packets While Away from Home

While a mobile node is away from home, it continues to use its home
address, as well as also using one or more care-of addresses. When
sending a packet while away from home, a mobile node MAY choose among
these in selecting the address that it will use as the source of the
packet, as follows:

o Protocols layered over IP will generally treat the mobile node's
home address as its IP address for most packets. For packets sent
that are part of transport-level connections established while the
mobile node was at home, the mobile node MUST use its home
address. Likewise, for packets sent that are part of
transport-level connections that the mobile node may still be
using after moving to a new location, the mobile node SHOULD use
its home address in this way. If a binding exists, the mobile
node SHOULD send the packets directly to the correspondent node.
Otherwise, if a binding does not exist, the mobile node MUST use
reverse tunneling. Detailed operation for both of these cases is
described later in this section.

- section and also discussed in [30].

o The mobile node MAY choose to directly use one of its care-of
addresses as the source of the packet, not requiring the use of a
Home Address option in the packet. This is particularly useful
for short-term communication that may easily be retried if it
fails. An example of this type of communication might
be DNS queries sent by the mobile node [27, 28]. Using the mobile node's care-of address as the source for
such queries will generally have a lower overhead than using the
mobile node's home address, since no extra options need be used in
either the query or its reply. Such packets can be routed
normally, directly between their source and destination without
relying on Mobile IPv6. If application running on the mobile node
has no particular knowledge that the communication being sent fits
within this general type of communication, however, the mobile
node SHOULD NOT use its care-of address as the source of the
packet in this way.

The choice of the most efficient communications method is
application specific, and outside the scope of this specification.
The APIs necessary for controlling the choice are also out of
scope. The mobile node may send packets to the correspondent node
that includes the home address destination option directly to the
correspondent node only if the mobile node is aware that the
correspondent node already has a Binding Cache entry for the
mobile node's home address. Section 9.3.1 specifies the rules for
Home Address Destination Option Processing at a correspondent
node. The mobile node needs to ensure that there exists a Binding

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Cache entry for its home address so that the correspondent node
can process the packet.

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o While not at its home link, the mobile node MUST NOT use its home
address (or the home
address destination option) in Neighbor
Discovery messages on the visited link. The mobile node also
MUST NOT use its home address option when communicating with link-local or
site-local peers on the visited link, peers, if the scope of the home address is larger than
the scope of the peer's address.

For packets sent by a mobile node while it is at home, no special
Mobile IPv6 processing is required. Likewise, if the mobile node
uses any address other than any of its home addresses as the source
of a packet sent while away from home no special Mobile IPv6
processing is required. In either case, the packet is simply
addressed and transmitted in the same way as any normal IPv6 packet.

For packets sent by the mobile node sent while away from home using
the mobile node's home address as the source, special Mobile IPv6
processing of the packet is required. This can be done in the
following two ways:

direct delivery

Direct Delivery

This is manner of delivering packets does not require going through
the home network, and typically will enable faster and more
reliable transmission. A mobile node SHOULD arrange to supply the
home address in a Home Address option, and allowing the IPv6
header's Source Address field to be set to one of the mobile
node's care-of addresses; the correspondent node will then use the
address supplied in the Home Address option to serve the function
traditionally done by the Source IP address in the IPv6 header.
The mobile node's home address is then supplied to higher protocol
layers and applications.

Specifically:

* Construct the packet using the mobile node's home address as
the packet's Source Address, in the same way as if the mobile
node were at home. This includes the calculation of upper
layer checksums using the home address as the value of the
source.

* Insert a Home Address option into the packet, with the Home
Address field copied from the original value of the Source
Address field in the packet.

* Change the Source Address field in the packet's IPv6 header to
one of the mobile node's care-of addresses. This will
typically be the mobile node's current primary care-of address, but MUST be a care-of address with a subnet prefix
that is on-link on the network interface on which the
mobile node will transmit the packet.

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but MUST be an address assigned to the interface on the link
being used.

By using the care-of address as the Source Address in the IPv6
header, with the mobile node's home address instead in the Home
Address option, the packet will be able to safely pass through any
router implementing ingress filtering [23].

reverse tunneling [27].

Reverse Tunneling

This is the mechanism which tunnels the packets via the home
agent. It isn't as efficient as the above mechanism, but is
needed if there is no binding yet with the correspondent node.
Specifically:

* The packet is sent to the home agent using IPv6 encapsulation
[15].

* The Source Address in the tunnel packet is the primary care-of
address as registered with the home agent.

* The Destination Address in the tunnel packet is the home
agent's address.

Reverse tunneled packets MAY be protected using a AH or ESP
header, depending on the security policies used by the home
agent. The support for encrypted reverse tunneling allows
mobile nodes to defeat certain kinds of traffic analysis, and
provides a mechanism by which routers on the home network can
distinguish authorized traffic from other possibly malicious
traffic.

11.3.2.

11.3.2 Interaction with Outbound IPsec Processing

This section sketches the interaction between outbound Mobile IPv6
processing and outbound IP Security (IPsec) processing for packets
sent by a mobile node while away from home. Any specific
implementation MAY use algorithms and data structures other than
those suggested here, but its processing MUST be consistent with the
effect of the operation described here and with the relevant IPsec
specifications. In the steps described below, it is assumed that
IPsec is being used in transport mode [4] and that the mobile node is
using its home address as the source for the packet (from the point
of view of higher protocol layers or applications, as described in
Section 11.3.1):

o The packet is created by higher layer protocols and applications
(e.g., by TCP) as if the mobile node were at home and Mobile IPv6
were not being used.

o As part of outbound packet processing in IP, the packet is
compared against the IPsec security policy database to determine
what processing is required for the packet [4].

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o If IPsec processing is required, the packet is either mapped to an
existing Security Association (or SA bundle), or a new SA (or SA
bundle) is created for the packet, according to the procedures
defined for IPsec.

o Since the mobile node is away from home, the mobile is either
using reverse tunneling or route optimization to reach the
correspondent node.

If reverse tunneling is used, the packet is constructed in the
normal manner and then tunneled through the home agent. If route
optimization is in use, the mobile node inserts a Home Address
destination option into the packet, replacing the Source Address
in the packet's IP header with a care-of address suitable for the
link on which the packet is being sent, as described in Section
11.3.1. The Destination Options header in which the Home Address
destination option is inserted MUST appear in the packet after the
routing header, if present, and before the IPsec (AH [5] or ESP
[6]) header, so that the Home Address destination option is
processed by the destination node before the IPsec header is
processed. Finally, once the packet is fully assembled, the
necessary IPsec authentication (and encryption, if required)
processing is performed on the packet, initializing the
Authentication Data in the IPsec header. The AH authentication
data MUST be calculated as if the following were true:

* the IPv6 source address in the IPv6 header contains the mobile
node's home address,

* the Home Address field of the Home Address destination option
(Section 6.3) contains the new care-of address.

o This allows, but does not require, the receiver of the packet
containing a Home Address destination option to exchange the two
fields of the incoming packet, simplifying processing for all
subsequent packet headers. However, such an exchange is not
required, as long as the result of the authentication calculation
remains the same.

When an automated key management protocol is used to create new
security associations towards for a peer, it is important to ensure that the
peer can send the key management protocol packets to the mobile node.
This may not be possible if the peer is the home agent of the mobile
node, and the purpose of the security associations would be to send a
Binding Update to the home agent. Packets addressed to the home
address of the mobile node cannot be used before the Binding Update
has been processed. For the default case of using IKE [9] as

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automated key management protocol [9, 4], protocol, such problems can be avoided by

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the following requirements:

- requirements when communicating with its home agent:

o When the mobile node is away from home, it MUST use its care-of
address as the Source Address of all packets it sends as part of
the key management protocol (without use of Mobile IPv6 for these
packets, as suggested in Section 11.3.1).

o In addition, for all security associations bound to the mobile
node's home address established by IKE, the mobile node MUST
include an ISAKMP Identification Payload [8] in the IKE exchange,
giving the mobile node's home address as the initiator of the
Security Association [7].

11.3.3.

The Key Management Mobility Capability (K) bit in Binding Updates and
Acknowledgements can be used avoid the need to rerun IKE upon
movements.

11.3.3 Receiving Packets While Away from Home

While away from home, a mobile node will receive packets addressed to
its home address, by one of three methods:

o Packets sent by a correspondent node that does not have a Binding
Cache entry for the mobile node, will be tunneled to the mobile
node via its home agent.

o Packets sent by a correspondent node that has a Binding Cache
entry for the mobile node that contains the mobile node's current
care-of address, will be sent by the correspondent node using a
type 2 routing header. The packet will be addressed to the mobile
node's care-of address, with the final hop in the routing header
directing the packet to the mobile node's home address; the
processing of this last hop of the routing header is entirely
internal to the mobile node, since the care-of address and home
address are both addresses within the mobile node.

For packets received by the first of these methods, the mobile node
MUST check that the IPv6 source address of the tunneled packet is the
IP address of its home agent.

For packets received by either the first or last of these three
methods, In this method the mobile node SHOULD
also send a Binding Update to the original sender of the packet, as
described in Section 11.7.2, subject to the rate limiting defined in
Section 11.8. The mobile node MUST also process the received packet
in the manner defined for IPv6 encapsulation [15], which will result
in the encapsulated (inner) packet being processed normally by
upper-layer protocols within the mobile node, as if it had been
addressed (only) to the mobile node's home address.

For packets received by the second method above (using a type 2
routing header), method, the following rules will result in the packet being

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result in the packet being processed normally by upper-layer
protocols within the mobile node, as if it had been addressed to the
mobile node's home address.

A node receiving a packet addressed to itself (i.e., one of the
node's addresses is in the IPv6 destination field) follows the next
header chain of headers and processes them. When it encounters a
type 2 routing header during this processing it performs the
following checks. If any of these checks fail the node MUST silently
discard the packet.

o The length field in the routing header is exactly 2.

o The segments left field in the routing header is either 0 or 1.
(Values 1 on the wire are always 1. But wire.
(But implementations may process the routing header so that the
value may become 0 after the routing header has been processed,
but before the rest of the packet is processed.)

o The Home Address field in the routing header is one of the node's
home addresses, if the segments left field was 1. Thus, in
particular the address field is required to be a unicast routable
address.

Once the above checks have been performed, the node swaps the IPv6
destination field with the Home Address field in the routing header,
decrements segments left, and resubmits the packet to IP for
processing the next header. Conceptually this follows the same model
as in RFC 2460. However, in the case of type 2 routing header this
can be simplified since it is known that the packet will not be
forwarded to a different node.

The definition of AH requires the sender to calculate the AH
integrity check value of a routing header in a way as it appears in
the receiver after it has processed the header. Since IPsec headers
follow the routing header, any IPsec processing will operate on the
packet with the home address in the IP destination field and segments
left being zero. Thus, the AH calculations at the sender and
receiver will have an identical view of the packet.

11.3.4. Receiving ICMP Error Messages

Any node that doesn't recognize the Mobility header will return an
ICMP Parameter Problem, Code 1, message to the sender of the packet.
If the mobile node receives such an ICMP error message in response to
a return routability procedure or Binding Update, it SHOULD record
in its Binding Update List that future Binding Updates SHOULD NOT be
sent to this destination.

Correspondent nodes who have participated in the return routability
procedure MUST implement the ability to correctly process received

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packets containing a Home Address destination option. Therefore,
correctly implemented correspondent nodes should always be able to
recognize Home Address options. If a mobile node receives an ICMP
Parameter Problem, Code 2, message from some node indicating that it
does not support the Home Address option, the mobile node SHOULD log
the error and then discard the ICMP message.

11.3.5.

11.3.4 Routing Multicast Packets

A mobile node that is connected to its home link functions in the
same way as any other (stationary) node. Thus, when it is at home, a
mobile node functions identically to other multicast senders and
receivers. This section therefore describes the behavior of a mobile
node that is not on its home link.

In order to receive packets sent to some multicast group, a mobile

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node must join that multicast group. One method by which a mobile
node MAY join the group is via a (local) multicast router on the
foreign link being visited. The mobile node SHOULD use one of its
care-of addresses that shares a subnet prefix with the multicast
router, as In this case, the source IPv6 address of its multicast group membership
control messages. The mobile node MUST NOT
use its home address or the Home Address destination option when
sending MLD packets [29] [17]

Alternatively, a mobile node MAY join multicast groups via a
bi-directional tunnel to its home agent. The mobile node tunnels its
multicast group membership control packets (such as those defined in
[17] or in [35]) to its home agent, and the home agent forwards
multicast packets down the tunnel to the mobile node. A mobile node
MUST NOT tunnel multicast group membership control packets until (1)
the mobile node has a binding in place at the home agent, and (2) the
latter sends at least one such multicast group membership control
packet via the tunnel. Once this condition is true, the mobile node
SHOULD assume it does not change as long as the binding does not
expire.

A mobile node that wishes to send packets to a multicast group also
has two options:

1. Send directly on the foreign link being visited.

The application is aware of the care-of address and uses it for
multicast traffic just like any other stationary address. The
mobile node MUST NOT use Home Address destination option in such
traffic.

2. Send via a tunnel to its home agent.

Because multicast routing in general depends upon the Source
Address used in the IPv6 header of the multicast packet, a mobile
node that tunnels a multicast packet to its home agent MUST use
its home address as the IPv6 Source Address of the inner
multicast packet.

Note that direct sending from the foreign link is only applicable
while the mobile node is at that foreign link. This is because the

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associated multicast tree is specific to that source location and any
change of location and source address will invalidate the source
specific tree or branch and the application context of the other
multicast group members.

This specification does not provide mechanisms to enable such local
multicast session to survive hand-off, and to seamlessly continue
from a new CCoA care-of address on each new foreign link. Any such
mechanism, developed as an extension to this specification, needs to
take into account the impact of fast moving mobile nodes on the Internet
multicast routing protocols and their ability

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Internet multicast routing protocols and their ability to maintain
the integrity of source specific multicast trees and branches.

While the use of reverse tunneling can ensure that multicast trees
are independent of the mobile nodes movement, in some case such
tunneling can have adverse affects. The latency of specific types of
multicast applications such as multicast based discovery protocols
will be affected when the round-trip time between the foreign subnet
and the home agent is significant compared to that of the topology to
be discovered. In addition, the delivery tree from the home agent in
such circumstances relies on unicast encapsulation from the agent to
the mobile node and is therefore bandwidth inefficient compared to
the native multicast forwarding in the foreign multicast system.

11.3.5 Receiving ICMP Error Messages

Any node that doesn't recognize the Mobility header will return an
ICMP Parameter Problem, Code 1, message to the sender of the packet.
If the mobile node receives such an ICMP error message in response to
a return routability procedure or Binding Update, it SHOULD record in
its Binding Update List that future Binding Updates SHOULD NOT be
sent to this destination. New Binding Update List entries MUST NOT
be created as a result of receiving ICMP messages.

Correspondent nodes that have participated in the return routability
procedure MUST implement the ability to correctly process received
packets containing a Home Address destination option. Therefore,
correctly implemented correspondent nodes should always be able to
recognize Home Address options. If a mobile node receives an ICMP
Parameter Problem, Code 2, message from some node indicating that it
does not support the Home Address option, the mobile node SHOULD log
the error and then discard the ICMP message.

11.3.6 Receiving Binding Error Messages

When a mobile node receives a packet containing a Binding Error
message, it should first check if the mobile node has a Binding
Update List entry for the source of the Binding Error message. If
the mobile node does not have such an entry, it MUST ignore the
message. This is necessary to prevent a waste of resources on e.g.
return routability procedure due to spoofed Binding Error messages.

Otherwise, if the message Status field was 1 (unknown binding for
Home Address destination option), the mobile node should perform one
of the following two actions:

o If the mobile node has recent upper layer progress information
that indicates communications with the correspondent node are

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progressing, it MAY ignore the message. This can be done in order
to maintain the
integrity of source specific multicast trees and branches.

While limit the use of reverse tunnelling can ensure damage that multicast trees
are independent of the mobile nodes movement, in some case such
tunnelling spoofed Binding Error messages can have adverse affects. The latency of specific types
of multicast applications such as multicast based discovery protocols
will be affected when cause
to ongoing communications.

o If the round-trip time between mobile node has no upper layer progress information, it
MUST remove the foreign subnet entry and route further communications through the
home agent is significant compared to that agent. It MAY also optionally start a return routability
procedure (see Section 5.2).

If the message Status field was 2 (unrecognized MH Type value), the
mobile node should perform one of the topology to
be discovered. In addition, following two actions:

o If the delivery tree mobile node is not expecting an acknowledgement or response
from the home agent in
such circumstances relies on unicast encapsulation from correspondent node, the agent to mobile node SHOULD ignore this
message.

o Otherwise, the mobile node and is therefore bandwidth inefficient compared SHOULD cease the use of any extensions
to this specification. If no extensions had been used, the native multicast forwarding in mobile
node should cease the foreign multicast system.

11.4. attempt to use route optimization.

11.4 Home Agent and Prefix Management

11.4.1.

11.4.1 Dynamic Home Agent Address Discovery

Sometimes, when the mobile node needs to send a Binding Update to its
home agent to register its new primary care-of address, as described
in Section 11.7.1, the mobile node may not know the address of any
router on its home link that can serve as a home agent for it. For
example, some nodes on its home link may have been reconfigured while
the mobile node has been away from home, such that the router that
was operating as the mobile node's home agent has been replaced by a
different router serving this role.

In this case, the mobile node MAY attempt to discover the address of
a suitable home agent on its home link. To do so, the mobile node
sends an ICMP Home Agent Address Discovery Request message to the
Mobile IPv6 Home-Agents anycast address [16] for its home subnet
prefix. As described in Section 10.5, the home agent on its home
link that receives this Request message will return an ICMP Home
Agent Address Discovery Reply message, giving this home agent's own
global unicast IP address along with a list of the global unicast IP
address of each other
addresses for the home agent agents operating on the home link. link

The mobile node, upon receiving this Home Agent Address Discovery
Reply message, MAY then send its home registration Binding Update to
the home agent address given as the IP Source Address of the packet

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carrying the Reply message or to
any of the unicast IP addresses listed in the Home Agent Addresses
field in the Reply. For example,
if necessary, the mobile node MAY attempt its
home registration
with to each of these home agents, addresses, in turn, by sending each until its

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registration is accepted. The mobile node sends a Binding Update to
an address and waiting waits for the matching Binding Acknowledgement, until
its registration moving
on to the next address if there is accepted by one of these home agents. no response. The mobile node
MUST, however, wait at least 1.5 times longer than (RetransTimer
* DupAddrDetectTransmits) InitialBindackTimeoutFirstReg seconds
(see Section 13) before sending a Binding Update to the next home
agent. In trying each of the returned home agent addresses, the
mobile node SHOULD try each in the order listed in the Home Agent
Addresses field in the received Home Agent Address Discovery Reply
message.

If the home agent identified by the Source Address field in
the IP header of the packet carrying the Home Agent Address Discovery
Reply message is not listed in the Home Agent Addresses field in the
Reply, it SHOULD be tried before the first address given in the list;
otherwise, it SHOULD be tried in its listed order.

If the mobile node has a current registration with some home agent on
its home link (the Lifetime for that registration has not yet
expired), then the mobile node MUST attempt any new registration
first with that home agent. If that registration attempt fails
(e.g., times out or is rejected), the mobile node SHOULD then
reattempt this registration with another home agent on its home link.
If the mobile node knows of no other suitable home agent, then it MAY
attempt the dynamic home agent address discovery mechanism described
above.

If, after a mobile node transmits a Home Agent Address Discovery
Request message to the Home Agents Anycast address, it does not
receive a corresponding Home Agent Address Discovery Reply message
within INITIAL_DHAAD_TIMEOUT (see Section 12) seconds, the mobile
node MAY retransmit the same Request message to the same anycast
address. This retransmission MAY be repeated up to a maximum of
DHAAD_RETRIES (see Section 12) attempts. Each retransmission MUST be
delayed by twice the time interval of the previous retransmission.

11.4.2.

11.4.2 Sending Mobile Prefix Solicitations

When a mobile node has a home address that is about to become
invalid, it sends a Mobile Prefix Solicitation to its home agent in
an attempt to acquire fresh routing prefix information. The new
information also enables the mobile node to participate in
renumbering operations affecting the home network, as described in
Section 10.6.

The mobile node MUST use the Home Address destination option to carry
its home address and SHOULD use IPsec to protect the solicitation.
The mobile node MUST set the Identifier field in the ICMP header to a
random value.

The mobile node SHOULD send a Solicitation to the home agent when its
home address will become invalid within MaxRtrAdvInterval

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where this value is acquired in a previous Mobile Prefix
Advertisement from the home agent. If no such value is known, the
value MAX_PFX_ADV_DELAY seconds is used instead (see Section 12).

This solicitation follows the same retransmission rules specified for
Router Solicitations [12], except that the initial retransmission
interval is specified to be INITIAL_SOLICIT_TIMER (see Section 12).

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As described in Section 11.7.2, Binding Updates sent by the mobile
node to other nodes MUST use a lifetime no greater than the remaining
lifetime of its home registration of its primary care-of address.
The mobile node SHOULD further limit the lifetimes that it sends on
any Binding Updates to be within the remaining valid lifetime (see
Section 10.6.2) for the prefix in its home address.

When the lifetime for a changed prefix decreases, and the change
would cause cached bindings at correspondent nodes in the Binding
Update List to be stored past the newly shortened lifetime, the
mobile node MUST issue a Binding Update to all such correspondent
nodes.

These limits on the binding lifetime serve to prohibit use of a
mobile node's home address after it becomes invalid.

11.4.3.

11.4.3 Receiving Mobile Prefix Advertisements

Section 10.6 describes the operation of a home agent to support boot
time configuration and renumbering a mobile node's home subnet while
the mobile node is away from home. The home agent sends Mobile
Prefix Advertisements to the mobile node while away from home, giving
"important" Prefix Information options that describe changes in the
prefixes in use on the mobile node's home link.

The Mobile Prefix Solicitation is similar to the Router Solicitation
used in Neighbor Discovery [12], except it is routed from the mobile
node on the visited network to the home agent on the home network by
usual unicast routing rules.

When a mobile node receives a Mobile Prefix Advertisement, it MUST
validate it according to the following test:

o The Source Address of the IP packet carrying the Mobile Prefix
Advertisement is the same as the home agent address to which the
mobile node last sent an accepted home registration Binding Update
to register its primary care-of address. Otherwise, if no such
registrations have been made, it SHOULD be the mobile node's
stored home agent address, if one exists. Otherwise, if the
mobile node has not yet discovered its home agent's address, it
MUST NOT accept Mobile Prefix Advertisements.

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o The packet MUST have a type 2 routing header and SHOULD be
protected by an IPsec header as described in Sections 5.4
and 6.8. Section 5.4 and
Section 6.8.

o If a solicitation has been sent recently, the ICMP Identifier
value MUST be the same as in the solicitation.

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Any received Mobile Prefix Advertisement not meeting this test these tests MUST
be silently discarded. For advertisements that do not contain

If the
same ICMP Identifier value as in a recently sent solicitation, advertisement was unsolicited, the mobile node MUST SHOULD send a solicitation and expect an advertisement with
a matching Identifier before further processing.
Mobile Prefix Solicitation.

For an accepted Mobile Prefix Advertisement, the mobile node MUST
process Managed Address Configuration (M), Other Stateful
Configuration (O), and the Prefix Information Options as if they
arrived in a Router Advertisement [12] on the mobile node's home link [12].
link. (This specification does not, however, describe how to acquire
home addresses through stateful protocols.) Such processing may
result in the mobile node configuring a new home address, although
due to separation between preferred lifetime and valid lifetime, such
changes should not affect most communication by the mobile node, in
the same way as for nodes that are at home.
In this case, the mobile node MUST return a Binding Update, which
will be viewed by the home agent as an acknowledgement of the
corresponding Mobile Prefix Advertisement, which it can cease
transmitting. In addition, if the method used for this new home
address configuration would require the mobile node to perform
Duplicate Address Detection [13] for the new address if the mobile
node were located at home, then the mobile node MUST set the
Duplicate Address Detection (D) bit in this Binding Update to its
home agent, to request the home agent to perform this Duplicate
Address Detection on behalf of the mobile node.

11.5.

11.5 Movement

11.5.1.

11.5.1 Movement Detection

The primary movement detection mechanism for Mobile IPv6 defined in
this section uses the facilities of IPv6 Neighbor Discovery,
including Router Discovery and Neighbor Unreachability Detection.
The mobile node SHOULD supplement this mechanism with other
information whenever it is available to the mobile node (e.g., from
lower protocol layers). The description here is based on the
conceptual model of the organization and data structures defined by
Neighbor Discovery [12].

Mobile nodes SHOULD use Router Discovery to discover new routers and
on-link subnet prefixes; a mobile node MAY send Router Solicitations,
or MAY wait for unsolicited (periodic) multicast Router
Advertisements, as specified for Router Discovery [12]. Based on
received Router Advertisements, a mobile node maintains an entry in
its Default Router List for each router, and an entry in its Prefix
List for each subnet prefix that it currently considers to be
on-link. Each entry in these lists has an associated invalidation
timer value. While away from home, a mobile node typically selects

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one default router and one subnet prefix to use as the subnet prefix
in its primary care-of address. A mobile node MAY also have
associated additional care-of addresses, using other subnet prefixes
from its Prefix List. The method by which a mobile node selects and
forms a care-of address from the available subnet prefixes is
described in Section 11.5.2. The mobile node registers its primary
care-of address with its home agent, as described in Section 11.7.1.

While a mobile node is away from home, it is important for the mobile

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node to quickly detect when its default router becomes unreachable.
When this happens, the mobile node SHOULD switch to a new default
router and potentially to a new primary care-of address. If, on the
other hand, the mobile node becomes unreachable from its default
router, it should attempt to become reachable through some other
router. To detect when its default router becomes unreachable, a
mobile node SHOULD use Neighbor Unreachability Detection.

For a mobile node to detect when it has become unreachable from its
default router, the mobile node cannot efficiently rely on Neighbor
Unreachability Detection alone, since the network overhead would be
prohibitively high in many cases. Instead, when a mobile node
receives any IPv6 packets from its current default router at all,
irrespective of the source IPv6 address, it SHOULD use that as an
indication that it is still reachable from the router.

Since the router SHOULD be sending sends periodic unsolicited multicast Router
Advertisements, the mobile node will have frequent an opportunity to check if
it is still reachable from its default router, even in the absence of
other packets to it from the router. If Router Advertisements that
the mobile node receives include an Advertisement Interval option,
the mobile node MAY use its Advertisement Interval field as an
indication of the frequency with which it SHOULD expect to continue
to receive future Advertisements from that router. This field
specifies the minimum rate (the maximum amount of time between
successive Advertisements) that the mobile node SHOULD expect. If
this amount of time elapses without the mobile node receiving any
Advertisement from this router, the mobile node can be sure that at
least one Advertisement sent by the router has been lost. It is thus
possible for the mobile node to implement its own policy for
determining the number of Advertisements from its current default
router it is willing to tolerate losing before deciding to switch to
a different router from which it may currently be correctly receiving
Advertisements.

On some types of network interfaces, the mobile node MAY also
supplement this monitoring of Router Advertisements, by setting its
network interface into "promiscuous" receive mode, so that it is able
to receive all packets on the link, including those not addressed to
it at the link layer (i.e., disabling link-level address filtering).
The mobile node will then be able to detect any packets sent by the
router, in order to detect reachability from the router. This use of

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promiscuous mode may be useful on very low bandwidth (e.g., wireless)
links, but its use MUST be configurable on the mobile node since it
is likely to consume additional energy resources.

If the above means do not provide indication that the mobile node is
still reachable from its current default router (for instance, the

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mobile node receives no packets from the router for a period of
time), then the mobile node SHOULD attempt to actively probe the
router with Neighbor Solicitations, even if it is not otherwise
actively sending packets to the router. If it receives a solicited
Neighbor Advertisement in response from the router, then the mobile
node can deduce that it is still reachable. It is expected that the
mobile node will in most cases be able to determine its reachability
from the router by listening for packets from the router as described
above, and thus, such extra Neighbor Solicitation probes should
rarely be necessary.

With some types of networks, indications about link-layer mobility
might be obtained from lower-layer protocol or device driver software
within the mobile node. However, all link-layer mobility indications
from lower layers do not necessarily indicate a movement of the
mobile node to a new link, such that the mobile node would need to
switch to a new default router and primary care-of address. For
example, movement of a mobile node from one cell to another in many
wireless LANs can be made transparent to the IP level through use of
a link-layer "roaming" protocol, as long as the different wireless
LAN cells all operate as part of the same IP link with the same
subnet prefix. Upon lower-layer indication of link-layer mobility,
the mobile node MAY SHOULD send Router Solicitations to determine if
additional on-link subnet prefixes are available on its new link.
The mobile node SHOULD also mark its link-local address as tentative,
and follow standard Duplicate Address Detection procedures[13].

Such lower-layer information might also be useful to a mobile node in
deciding to switch its primary care-of address to one of the other
care-of addresses it has formed from the on-link subnet prefixes
currently available through different routers from which the mobile
node is reachable. For example, a mobile node MAY use signal
strength or signal quality information (with suitable hysteresis) for
its link with the available routers to decide when to switch to a new
primary care-of address using that router rather than its current
default router (and current primary care-of address). Even though
the mobile node's current default router may still be reachable in
terms of Neighbor Unreachability Detection, the mobile node MAY use
such lower-layer information to determine that switching to a new
default router would provide a better connection.

11.5.2.

11.5.2 Forming New Care-of Addresses

After detecting that it has moved from one link to another (i.e., its
current default router has become unreachable and it has discovered a
new default router), a mobile node SHOULD form generate a new primary

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care-of address using one of the on-link subnet prefixes advertised
by the new router. normal IPv6 mechanisms. A mobile node MAY form
a new primary care-of address at any time, except that it MUST NOT do so too frequently.
Specifically, but a mobile node MUST NOT

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send a Binding Update about a new care-of address to its home agent (which is required to register
the new address as its primary care-of address)
more often than once
per MAX_UPDATE_RATE seconds. times within a second.

In addition, after discovering a new on-link subnet prefix, a mobile node MAY form a new (non-primary) non-primary care-of address using that subnet
prefix, addresses
even when it has not switched to a new default router. A mobile node
can have only one primary care-of address at a time (which is
registered with its home agent), but it MAY have an additional
care-of address for any or all of the prefixes on its current link.
Furthermore, since a wireless network interface may actually allow a
mobile node to be reachable on more than one link at a time (i.e.,
within wireless transmitter range of routers on more than one
separate link), a mobile node MAY have care-of addresses on more than
one link at a time. The use of more than one care-of address at a
time is described in Section 11.5.3.

As described in Section 4, in order to form a new care-of address,
a mobile node MAY use either stateless [13] or stateful (e.g.,
DHCPv6 [30]) Address Autoconfiguration. If a mobile node needs to
send packets as part of the method of address autoconfiguration,
it MUST use an IPv6 link-local address rather than its own IPv6
home address as the Source Address in the IPv6 header of each such
autoconfiguration packet.

In some cases, a mobile node may already know a (constant) IPv6
address that has been assigned to it for its use only while
visiting a specific foreign link. For example, a mobile node may be
statically configured with an IPv6 address assigned by the system
administrator of some foreign link, for its use while visiting that
link. If so, rather than using Address Autoconfiguration to form a
new care-of address using this subnet prefix, the mobile node MAY use
its own pre-assigned address as its care-of address on this link.

A mobile node, after forming a new care-of address, MAY begin
using the new care-of address without performing Duplicate Address
Detection. Furthermore, the address, a
mobile node MAY continue using use either stateless [13] or stateful (e.g., DHCPv6
[29]) Address Autoconfiguration. If a mobile node needs to send
packets as part of the method of address without performing Duplicate Address Detection, although
it SHOULD in most cases. begin Duplicate Address Detection
asynchronously when autoconfiguration, it begins MUST
use of the address. This allows an IPv6 link-local address rather than its own IPv6 home address
as the
Duplicate Source Address Detection procedure to complete in parallel with
normal communication using the address, avoiding major delays for
some applications.

In addition, IPv6 header of each such
autoconfiguration packet.

RFC 2462 [13] specifies that in normal processing for Duplicate
Address Detection
specifies that, in certain cases, Detection, the node SHOULD delay sending the initial Neighbor
Solicitation message of Duplicate Address Detection

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however,
MAX_RTR_SOLICITATION_DELAY. Since delaying DAD can result in this case,
significant delays in configuring a new care of address when the mobile node
Mobile Node moves to a new link, the Mobile Node preferably SHOULD
NOT perform such delay DAD when configuring a new care of address. The Mobile
Node SHOULD delay according to the mechanisms specified in its use RFC 2462
if the Mobile IP stack cannot distinguish between the normal process
of Duplicate Address Detection, unless moving to a new link and reinitializing the mobile
node is initializing after rebooting.

11.5.3. interface, or if the
link layer does not include adequate local collision and congestion
control mechanisms.

11.5.3 Using Multiple Care-of Addresses

As described in Section 11.5.2, a mobile node MAY use more than one
care-of address at a time. Particularly in the case of many wireless
networks, a mobile node effectively might be reachable through
multiple links at the same time (e.g., with overlapping wireless
cells), on which different on-link subnet prefixes may exist. A The
mobile node SHOULD select a MUST ensure that its primary care-of address from among those
care-of addresses it always has formed using any of these subnet prefixes,
based on the movement detection mechanism in use, as described a
prefix that is considered on-link by its current default router,
i.e., advertised by its current default router in
Section 11.5.1. a solicited Router
Advertisement. After selecting a new primary care-of address, the
mobile node MUST send a Binding Update containing that care-of

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address to its home agent. The Binding Update MUST have the Home
Registration (H) and Acknowledge (A) bits set its home agent, as
described on Section 11.7.1.

To assist with smooth handovers, a mobile node SHOULD retain its
previous primary care-of address as a (non-primary) care-of address,
and SHOULD still accept packets at this address, even after
registering its new primary care-of address with its home agent.
This is reasonable, since the mobile node could only receive packets
at its previous primary care-of address if it were indeed still
connected to that link. If the previous primary care-of address was
allocated using stateful Address Autoconfiguration [30], [29], the mobile
node may not wish to release the address immediately upon switching
to a new primary care-of address.

11.5.4.

Whenever a mobile node determines that it is no longer reachable
through a given link, it SHOULD invalidate all care-of addresses
associated with address prefixes that it discovered from routers on
the unreachable link which are not in the current set of address
prefixes advertised by the (possibly new) current default router.

11.5.4 Returning Home

A mobile node detects that it has returned to its home link through
the movement detection algorithm in use (Section 11.5.1), when the
mobile node detects that its home subnet prefix is again on-link.
The mobile node SHOULD then send a Binding Update to its home agent,
to instruct its home agent to no longer intercept or tunnel packets
for it. In this home registration, the mobile node MUST set the
Acknowledge (A) and Home Registration (H) bits, set the Lifetime
field to zero, and set the care-of address for the binding to the
mobile node's own home address. The mobile node MUST use its home
address as the source address in the Binding Update.

When sending this Binding Update to its home agent, the mobile node
must be careful in how it uses Neighbor Solicitation [12] (if needed)
to learn the home agent's link-layer address, since the home agent
will be currently configured to defend intercept packets to the mobile
node's home address

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particular, a Neighbor
Solicitation from the mobile node using is unable to use its home address as the
Source Address would be detected by in the Neighbor Solicitation until the home agent as a duplicate
stops defending the home address. In many cases,

Neighbor Solicitation by the mobile node for the home agent's address
will normally not be necessary, since the mobile node may have has already
learned the home agent's link-layer address,
for example address from a Source Link-Layer
Address option in the a Router
Advertisement from which it learned that its Advertisement. However, if there are
multiple home address was on-link
and that the mobile node had thus returned home.

If the mobile node does Neighbor Solicitation agents it may still be necessary to learn the home
agent's link-layer address, send a

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solicitation. In this special case of the mobile node returning
home, the mobile node MUST multicast the packet, and in addition set
the Source Address of this Neighbor Solicitation to the unspecified
address (0:0:0:0:0:0:0:0). The target of the Neighbor Solicitation
MUST be set to the home agent's IPv6 address, which is known to the
mobile node. The destination IP address MUST be set to the
Solicited-Node multicast address [3]. The home agent will ICMP Code field MUST be
unable
set to 1 in order to distinguish this solicitation from a similar
packet that would only be used for DAD, and it will respond as if for DAD. described in Section 7.5.
The home agent will send a multicast Neighbor Advertisement back to
the mobile node with the Solicited flag (S) set to zero. The In any
case, the mobile node SHOULD accept this record the information from the Source
Link-Layer Address option or from the advertisement, and set the
state of the Neighbor Cache entry for the home agent to REACHABLE.

The mobile node then sends its Binding Update using the home agent's
link-layer address, instructing its home agent to no longer serve as
a home agent for it. By processing this Binding Update, the home
agent will cease defending the mobile node's home address for
Duplicate Address Detection and will no longer respond to Neighbor
Solicitations for the mobile node's home address. The mobile node is
then the only node on the link receiving packets at the mobile node's
home address. In addition, when returning home prior to the
expiration of a current binding for its home address, and configuring
its home address on its network interface on its home link, the
mobile node MUST NOT perform Duplicate Address Detection on its own
home address, in order to avoid confusion or conflict with its home
agent's use of the same address. If the mobile node returns home
after the bindings for all of its care-of addresses have expired,
then it SHOULD perform DAD. It SHOULD also perform DAD for addresses
which may have been registered with 'D' and 'S' bits set to one. DAD.

After the Mobile Node sends the Binding Update, the Home Agent it MUST
remove the Proxy be prepared
to reply to Neighbor Cache entry for the Mobile Node and MAY
learn Solicitations from its link-layer address based on the link-layer packet or cached
information, or if that is not available, it SHOULD send a Neighbor
Solicitation with the target address equal to the Binding Update's
source IP address. home agent. The Mobile Node replies
MUST then reply with be sent using a unicast Neighbor Advertisement to the Home Agent with its home
agent's link-layer address.
While the Mobile Node is waiting for a Binding Acknowledgement, it
MUST NOT respond to any Neighbor Solicitations for its Home Address

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other than those originating from the IP address to which it sent the
Binding Update.

After receiving the Binding Acknowledgement for its Binding Update to
its home agent, the mobile node MUST multicast onto the home link (to
the all-nodes multicast address) a Neighbor Advertisement [12], to
advertise the mobile node's own link-layer address for its own home
address. The Target Address in this Neighbor Advertisement MUST be
set to the mobile node's home address, and the Advertisement MUST
include a Target Link-layer Address option specifying the mobile
node's link-layer address. The mobile node MUST multicast such a
Neighbor Advertisement for each of its home addresses, as defined by
the current on-link prefixes, including its link-local address and
site-local address. The Solicited Flag (S) in these Advertisements
MUST NOT be set, since they were not solicited by any Neighbor

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Solicitation. The Override Flag (O) in these Advertisements MUST be
set, indicating that the Advertisements SHOULD override any existing
Neighbor Cache entries at any node receiving them.

Since multicasting on the local link (such as Ethernet) is typically
not guaranteed to be reliable, the mobile node MAY retransmit these
Neighbor Advertisements [12] up to MAX_ADVERT_REXMIT MAX_NEIGHBOR_ADVERTISEMENT times
to increase their reliability. It is still possible that some nodes
on the home link will not receive any of these Neighbor
Advertisements, but these nodes will eventually be able to recover
through use of Neighbor Unreachability Detection [12].

11.6.

11.6 Return Routability Procedure

This section defines the rules that the mobile node must follow when
performing the return routability procedure. Section 11.7.2
describes the rules when the return routability procedure needs to be
initiated.

11.6.1.

11.6.1 Sending Home and Care-of Test Init Messages

A mobile node that initiates a return routability procedure MUST send
(in parallel) a Home Test Init message and a Care-of Test Init
messages. However, if the mobile node has recently received one or
both home or care-of keygen tokens, and associated nonce indices for
the desired addresses, it MAY reuse them. Therefore, the return
routability procedure may in some cases be completed with only one
message pair. It may even be completed without any messages at all,
if the mobile node has a recent home keygen token and and has
previously visited the same care-of address so that it also has a
recent care-of keygen token. If the mobile node sets intends to send a
Binding Update with the Lifetime set to zero or the care-of address in the Binding Update
equal to its home address - such as when returning home - it MUST use the home keygen
token and nonce index by itself (without sending a care-of keygen token and

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nonce index).
Home Test Init message is sufficient. In this case, generation of
the binding management key depends exclusively on the home keygen
token (Section 5.2.5).

A Home Test Init message MUST be created as described in Section
6.1.3. A Care-of Test Init message MUST be created as described in
Section 6.1.4. When sending a Home Test Init or Care-of Test Init
message the mobile node MUST record in its Binding Update List the
following fields from the messages:

o The IP address of the node to which the message was sent.

o The home address of the mobile node. This value will appear in
the Source Address field of the Home Test Init message. When
sending the Care-of Test Init message, this address does not

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appear in the message, but represents the home address for which
the binding is desired.

o The time at which each of these messages was sent.

o The cookies used in the messages.

Note that a single Care-of Test Init message may be sufficient even
when there are multiple home addresses. In this case the mobile node
MAY record the same information in multiple Binding List entries.

11.6.2.

11.6.2 Receiving Return Routability Test Messages

Upon receiving a packet carrying a Home Test message, a mobile node
MUST validate the packet according to the following tests:

- The Header Len field in the Mobility Header is greater than or
equal to the length specified in Section 6.1.5.

o The Source Address of the packet belongs to a correspondent node
for which the mobile node has a Binding Update List entry with a
state indicating that return routability procedure is in progress.
Note that there may be multiple such entries.

o The Binding Update List indicates that no home keygen token has
been received yet.

o The Destination Address of the packet has the home address of the
mobile node, and the packet has been received in a tunnel from the
home agent.

o The home init cookie Home Init Cookie field in the message matches the value stored
in the Binding Update List.

Any Home Test message not satisfying all of these tests MUST be
silently ignored. Otherwise, the mobile node MUST record the Home

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Nonce Index and home keygen token in the Binding Update List. If the
Binding Update List entry does not have a care-of keygen token, the
mobile node SHOULD continue waiting for additional messages.

Upon receiving a packet carrying a Care-of Test message, a mobile
node MUST validate the packet according to the following tests:

- The Header Len field in the Mobility Header is greater than or
equal to the length specified in Section 6.1.6.

o The Binding Update List indicates that no care-of keygen token has
been received yet.

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o The Destination Address of the packet is the current care-of
address of the mobile node.

o The care-of init cookie Care-of Init Cookie field in the message matches the value
stored in the Binding Update List.

Any Care-of Test message not satisfying all of these tests MUST be
silently ignored. Otherwise, the mobile node MUST record the Care-of
Nonce Index and care-of keygen token in the Binding Update List. If
the Binding Update List entry does not have a home keygen token, the
mobile node SHOULD continue waiting for additional messages.

If after receiving either the Home Test or the Care-of Test message
and performing the above actions, the Binding Update List entry has
both the home and the care-of keygen tokens, the return routability
procedure is complete. The mobile node SHOULD then proceed with
sending a Binding Update as described in Section 11.7.2.

Correspondent nodes from the time before this specification was
published may not support the Mobility Header protocol. These nodes
will respond to Home Test Init and Care-of Test Init messages with an
ICMP Parameter Problem code 1. The mobile node SHOULD take such
messages as an indication that the correspondent node cannot provide
route optimization, and revert back to the use of bidirectional
tunneling.

11.6.3.

11.6.3 Protecting Return Routability Packets

The mobile node MUST support the protection of Home Test and Home
Test Init messages as described in Section 10.4.4.

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11.7. 10.4.6.

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. The
mobile node starts to use a new primary care-of address immediately
after sending a Binding Update to the home agent to register this new
address.

11.7 Processing Bindings

11.7.1.

11.7.1 Sending Binding Updates to the Home Agent

After deciding to change its primary care-of address as described in
Sections
Section 11.5.1 and Section 11.5.2, a mobile node MUST register this
care-of address with its home agent in order to make this its primary
care-of address. Also, if the mobile node wants the services of the
home agent beyond the current registration period, the mobile node
MUST send a new Binding Update to it well before the expiration of

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this period, even if it is not changing its primary care-of address.

In both of these situations, the mobile node sends a packet to its
home agent containing a Binding Update, with the packet constructed
as follows:

o The Home Registration (H) bit MUST be set in the Binding Update.

o The Acknowledge (A) bit MUST be set in the Binding Update.

o The packet MUST contain a Home Address destination option, giving
the mobile node's home address for the binding.

o The care-of address for the binding MUST be used as the Source
Address in the packet's IPv6 header, unless an Alternate Care-of
Address mobility option is included in the Binding Update. This
option MAY be included when the mobile node so desires, and
MUST SHOULD be included if the mobile node cannot be assured that the
IPsec AH protocol is used to secure the Binding Update. The ESP
protocol will not be able to protect care-of addresses in the
IPv6 header. Mobile IPv6 implementations which are unaware of
how IPsec secures their messaging will therefore need to use the
Alternate Care-of Address option.

- The Single Address Only (S) bit is cleared to request a binding
for all home addresses of the mobile node. These addresses are
based on the interface identifier of the home address indicated in the Binding Update, and all on-link subnet prefixes on the
home link. When this bit is cleared, home registrations, as the Link-Local Address
Compatibility (L) bit MUST ESP
protocol will not be set.

If able to protect care-of addresses in the mobile node desires IPv6
header. (Mobile IPv6 implementations that only know they are using
IPsec AH to protect a single home address should
be affected by particular message might avoid this Binding Update, option.
For brevity the Single Address Only (S)
bit is set to 1.

The value usage of the Single Address Only (S) bit MUST be set
equivalently for subsequent de-registrations and re-registrations
with the same addresses.

- AH is not discussed in this document.)

o If the mobile node's link-local address has the same interface
identifier as the home address for which it is supplying a new

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care-of address, then the mobile node SHOULD set the Link-Local
Address Compatibility (L) bit.

o If the home address was generated using RFC 3041 [17], [18], then the
link local address is unlikely to have a compatible interface
identifier. In this case, the mobile node MUST set the
Single Address Only (S) bit and clear the
Link-Local Address Compatibility (L) bit.

o If the IPsec security associations between the mobile node and the
home agent have been established dynamically, and the mobile node
has the capability to update its endpoint in the used key
management protocol to the new care-of address every time it
moves, the mobile node SHOULD set the Key Management Mobility
Capability (K) bit in the Binding Update. Otherwise, the mobile
node MUST clear the bit.

o The value specified in the Lifetime field SHOULD be less than or
equal to the remaining lifetime of the home address and the
care-of address specified for the binding.

Mobile nodes that use dynamic home agent address discovery should
be careful with long lifetimes. If the mobile node loses the
knowledge of its binding with a specific home agent, registering a
new binding with another home agent may be impossible as the

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previous home agent is still defending the existing binding.
Therefore, mobile nodes that use home agent address discovery
SHOULD ensure information about their bindings is not lost,
de-register before losing this information, or use small
lifetimes.

The Acknowledge (A) bit in the Binding Update requests the home agent
to return a Binding Acknowledgement in response to this Binding
Update. As described in Section 6.1.8, the mobile node SHOULD
retransmit this Binding Update to its home agent until it receives a
matching Binding Acknowledgement. Once reaching a retransmission
timeout period of MAX_BINDACK_TIMEOUT, the mobile node SHOULD restart
the process of delivering the Binding Update, but trying instead the
next home agent returned during dynamic home agent address discovery
(see Section 11.4.1). If there was only one home agent, the mobile
node instead SHOULD continue to periodically retransmit the Binding
Update at this rate until acknowledged (or until it begins attempting
to register a different primary care-of address). See Section 11.8
for information about retransmitting Binding Updates.

Depending on the value of the Single Address Only (S) bit in

With the Binding Update, the mobile node requests the home agent is requested to
serve either a single
home address or all as the home addresses agent for the mobile node. given home address. Until the
lifetime of this registration expires, the home agent considers
itself the home agent for each such home address of the mobile node.
As the set of on-link subnet prefixes on the home link changes over
time, the home agent changes the set of home addresses for this
mobile node for which it is serving as the home agent. address.

Each Binding Update MUST be authenticated as coming from the right
mobile node, as defined in Section 5.1. The mobile node MUST use its
home address - either in the Home Address destination option or in
the Source Address field of the IPv6 header - in Binding Updates sent
to the home agent. This is necessary in order to allow the IPsec
policies to be matched with the right home address.

When sending a Binding Update to its home agent, the mobile node MUST
also create or update the corresponding Binding Update List entry, as
specified in Section 11.7.2.

The last Sequence Number value sent to the home agent in a Binding
Update is stored by the mobile node. If the sending mobile node has
no knowledge of the right Sequence Number value, it may start at any
value. If the home agent rejects the value, it sends back a Binding

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Acknowledgement with status code 135, and the last accepted sequence
number in the Sequence Number field of the Binding Acknowledgement.
The mobile node MUST store this information and use the next Sequence
Number value for the next Binding Update it sends.

If the mobile node has additional home addresses using a different
interface identifier, then the mobile node SHOULD send an additional
packet containing a Binding Update to its home agent to register the
care-of address for each such other home address (or set of home
addresses sharing an interface identifier).

While the mobile node is away from home, it relies on the home
agent to participate in Duplicate Address Detection (DAD) to defend
its home address against stateless autoconfiguration performed by
another node. Therefore, the mobile node SHOULD set the Duplicate
Address Detection (D) bit based on any requirements for DAD that
would apply to the mobile node if it were at home [12, 13]. If the
mobile node's recent Binding Update was code 135, and the last accepted by sequence
number in the home agent, Sequence Number field of the Binding Acknowledgement.
The mobile node MUST store this information and use the lifetime next Sequence
Number value for that the next Binding Update it sends.

If the mobile node has not yet expired, additional home addresses using a different
interface identifier, then the mobile node SHOULD NOT set the Duplicate Address Detection (D) bit in
the new send an additional
packet containing a Binding Update; the Update to its home agent will already be defending to register the

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care-of address for each such other home address(es) address (or set of the mobile node and does not need to perform DAD
again. home
addresses sharing an interface identifier).

The home agent will only perform DAD for the mobile node's home
address when the mobile node has supplied a valid binding between its
home address and a care-of address. If some time elapses during
which the mobile node has no binding at the home agent, it might be
possible for another node to autoconfigure the mobile node's home
address. Therefore, the mobile node MUST treat creation of a new
binding with the home agent using an existing home address the same
as creation of a new home address. In the unlikely event that the
mobile node's home address is autoconfigured as the IPv6 address of
another network node on the home network, the home agent will reply
to the mobile node's subsequent Binding Update with a Binding
Acknowledgement containing a Status of 134 (Duplicate Address
Detection failed). In this case, the mobile node MUST NOT attempt to
re-use the same home address. It SHOULD continue to register care-of
addresses for its other home addresses, if any. The mobile node MAY
also attempt to acquire a new home address to replace the one for
which Status 134 was received, for instance by using the techniques
described in Appendix B.5.

11.7.2.

11.7.2 Correspondent Binding Procedure

When the mobile node is assured that its home address is valid, it
MAY at any time
can initiate a correspondent binding procedure with the purpose of
allowing the correspondent node to cache the mobile node's current
care-of address. The mobile node is responsible for
the initiation and completion This procedure consists of this procedure, as well as any

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retransmissions that may be needed (subject to the rate limiting
defined in Section 11.8). return routability
procedure followed by a binding procedure.

This section defines when to initiate the correspondent binding
procedure, and rules that the mobile node must to follow when performing it.

After the correspondent binding procedure.

The mobile node can be assured that its home address is still
valid, for example, by the home agent's use the Duplicate Address
Detection (D) bit of Binding Updates (see Section 10.3.1). In any
Binding Update has sent by a mobile node, the care-of address (either the
Source Address in the packet's IPv6 header or the Care-of Address in
the Alternate Care-of Address mobility option of the Binding Update)
MUST be set Update to one of the its home agent to
register a new primary care-of addresses currently address (as described in use by Section
11.7.1), the mobile node or to SHOULD initiate a correspondent binding
procedure for each node that already appears in the mobile node's home address. A mobile node MAY
set the care-of address differently for sending
Binding Updates Update List. This is necessary in order to
different ensure that
correspondent nodes.

A nodes do not have invalid information about the current
location of the mobile node MAY choose node. The initiated procedures can be used to keep its location private from
certain
either update or delete binding information in the correspondent nodes, and thus need
node.

For nodes that do not initiate appear in the
return routability procedure, or send new mobile node's Binding Updates to those
correspondents. A Update
List, the mobile node MAY also send a Binding Update to
such initiate a correspondent node to instruct it to delete any existing binding for procedure
at any time after sending the mobile node from its Binding Cache, as described in
Section 6.1.7. However, all Binding Updates Update to its home agent.
Considerations regarding when (and if) to initiate the correspondent
node require the successful completion of the return routability procedure first, as no other IPv6 nodes are authorized to send
Binding Updates
depend on behalf of a mobile node.

If set to one of the mobile node's current care-of addresses (the
care-of address given MAY differ from specific movement and traffic patterns of the mobile node's primary
care-of address), the Binding Update requests

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node and are outside the correspondent scope of this document.

In addition, when a mobile node
to create or update an entry receives a packet for which the
mobile node in can deduce that the correspondent
node's original sender of the packet has a
stale Binding Cache in order to record this care-of address entry for use
in sending future packets to the mobile node. node, the mobile node SHOULD
initiate a correspondent binding procedure. In this case, addition, the
value specified mobile
node MAY initiate the procedure in response to receiving a packet
that meets all of the Lifetime field sent following tests:

o The packet was tunneled using IPv6 encapsulation.

o The Destination Address in the Binding Update
SHOULD be less than or tunnel (outer) IPv6 header is equal
to the remaining lifetime any of the home
address and the mobile node's care-of address specified for the binding.

If addresses.

o The Destination Address in the care-of address original (inner) IPv6 header is set
equal to one of the mobile node's home address
or addresses.

o The Source Address in the Lifetime field set to zero, tunnel (outer) IPv6 header differs from
the Binding Update requests Source Address in the correspondent node original (inner) IPv6 header.

o The packet does not contain a Care-of Test Init message.

The destination address to delete any existing Binding Cache entry
that it has for which the mobile node. In this case, generation procedure should be initiated to
in response to receiving a packet meeting all of the
binding management key depends exclusively on above tests is
the home keygen token
(Section 5.2.5). The care-of nonce index SHOULD be set to zero Source Address in
this case. In keeping with the Binding Update creation rules below, original (inner) IPv6 header of the care-of packet.
If a Home Address destination option is present in the packet (inner
IPv6 header), the source address MUST be set to the home address if the mobile
node is at home, or to in the current care-of home
address if it is away from
home.

After the mobile node has sent a Binding Update to its option. The home
agent to register a new primary care-of address (as described in

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Section 11.7.1), the procedure should be the
Destination Address of the original (inner) packet.

A mobile node SHOULD send a Binding Update MAY also choose to each
other node for which an entry exists in keep its location private from
certain correspondent nodes, and thus need not initiate the mobile node's Binding
Update List, as detailed below. Typically this requires starting a
return routability
correspondent binding procedure.

Upon successful successfully completing the return routability
procedure procedure, and
after receiving a successful Binding Acknowledgement from the Home
Agent, a Binding Update is can be sent to all other nodes.
Thus, other relevant nodes are generally kept updated about the correspondent node.

In any Binding Update sent by a mobile node's binding and can send packets directly node, the care-of address
(either the Source Address in the packet's IPv6 header or the Care-of
Address in the Alternate Care-of Address mobility option of the
Binding Update) MUST be set to one of the care-of addresses currently
in use by the mobile node using or to the mobile node's current care-of address.

The mobile node, however, need not initiate these actions immediately
after configuring a new care-of home address. For example, the A
mobile node MAY delay initiating set the return routability procedure to any
correspondent node care-of address differently for a short period of time, if it isn't certain
that there is any significant traffic sending
Binding Updates to the different correspondent node.

In addition, when a nodes.

A mobile node receives MAY also send a packet Binding Update to such a correspondent
node to instruct it to delete any existing binding for which the mobile

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node can deduce that from its Binding Cache, as described in Section 6.1.7. Even in
this case a successful completion of the original sender return routability procedure
is required first.

If set to one of the packet either
has no mobile node's current care-of addresses, the
Binding Cache entry for Update requests the mobile node, correspondent node to create or a stale update an
entry for the mobile node in its Binding Cache, the mobile node SHOULD
initiate a return routability procedure with the sender, correspondent node's Binding Cache
in order to
finally update the sender's Binding Cache with the current record this care-of address (subject for use in sending future
packets to the rate limiting defined in Section 11.8). mobile node. In
particular, this case, the mobile node SHOULD initiate a return routability
procedure value specified in response to receiving a packet that meets all of the
following tests:

- The packet was tunneled using IPv6 encapsulation.

- The Destination Address
Lifetime field sent in the tunnel (outer) IPv6 header is Binding Update SHOULD be less than or
equal to any the remaining lifetime of the mobile node's home address and the care-of addresses.

-
address specified for the binding. The Destination Address care-of address given in the original (inner) IPv6 header
Binding Update MAY differ from the mobile node's primary care-of
address.

If the care-of address is
equal set to one of the mobile node's home addresses.

- The Source Address in the tunnel (outer) IPv6 header differs from
the Source Address in the original (inner) IPv6 header.

The destination address to which or
the procedure should be initiated to
in response Lifetime field set to receiving a packet meeting all of zero, the above tests is Binding Update requests the Source Address in
correspondent node to delete any existing Binding Cache entry that it
has for the original (inner) IPv6 header mobile node. In this case, generation of the packet.
The binding
management key depends exclusively on the home address for which keygen token (Section
5.2.5). The care-of nonce index SHOULD be set to zero in this case.
In keeping with the Binding Update is sent should creation rules below, the care-of
address MUST be set to the
Destination Address of home address if the original (inner) packet. mobile node is at
home, or to the current care-of address if it is away from home.

If the mobile node wants to ensure that its new care-of address has
been entered into a correspondent node's Binding Cache, the mobile
node MAY request an acknowledgement by setting the Acknowledge (A)
bit in the Binding Update. In this case, however, the mobile node
SHOULD NOT continue to retransmit the Binding Update once the
retransmission timeout period has reached MAX_BINDACK_TIMEOUT.

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The mobile node SHOULD create a Binding Update as follows:

o The Source Address of the IPv6 header MUST contain the current
care-of address of the mobile node.

o The Destination Address of the IPv6 header MUST contain the
address of the correspondent node.

o The Mobility Header is constructed according to rules in Section
6.1.7 and Section 5.2.6, including the Binding Authorization Data
(calculated as defined in Section 6.2.6) 6.2.7) and possibly the Nonce
Indices mobility options.

o The home address of the mobile node MUST be added to the packet in
a Home Address destination option, unless the Source Address is
the home address.

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Each Binding Update MUST a Sequence Number greater than the Sequence
Number value sent in the previous Binding Update (if any) to the same
destination address (if any). The sequence numbers are compared
modulo 2**16, as described in Section 9.5.1. There is no
requirement, however, that the Sequence Number value strictly
increase by 1 with each new Binding Update sent or received, as long
as the value stays within the window. The last Sequence Number value
sent to a destination in a Binding Update is stored by the mobile
node in its Binding Update List entry for that destination. If the
sending mobile node has no Binding Update List entry, the Sequence
Number SHOULD start at a random value. The mobile node MUST NOT use
the same Sequence Number in two different Binding Updates to the same
correspondent node, even if the Binding Updates provide different
care-of addresses.

11.7.3.

The mobile node is responsible for the completion of the
correspondent binding procedure, as well as any retransmissions that
may be needed (subject to the rate limiting defined in Section 11.8).

11.7.3 Receiving Binding Acknowledgements

Upon receiving a packet carrying a Binding Acknowledgement, a mobile
node MUST validate the packet according to the following tests:

o The packet meets the authentication requirements for Binding
Acknowledgements, defined in Sections Section 6.1.8 and Section 5. That
is, if the Binding Update was sent to the home agent, underlying
IPsec protection is used. If the Binding Update was sent to the
correspondent node, the Binding Authorization Data mobility option
MUST be present and have a valid value.

o The Binding Authorization Data mobility option, if present, MUST
be the last option and MUST not have trailing padding.

- The Header Len field in the Binding Acknowledgement is greater
than or equal to the length specified in Section 6.1.8.

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- if present, MUST
be the last option and MUST not have trailing padding.

o The Sequence Number field matches the Sequence Number sent by the
mobile node to this destination address in an outstanding Binding
Update.

Any Binding Acknowledgement not satisfying all of these tests MUST be
silently ignored.

When a mobile node receives a packet carrying a valid Binding
Acknowledgement, the mobile node MUST examine the Status field as
follows:

o If the Status field indicates that the Binding Update was accepted
(the Status field is less than 128), then the mobile node MUST
update the corresponding entry in its Binding Update List to

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indicate that the Binding Update has been acknowledged; the mobile
node MUST then stop retransmitting the Binding Update. In
addition, if the value specified in the Lifetime field in the
Binding Acknowledgement is less than the Lifetime value sent in
the Binding Update being acknowledged, then the mobile node MUST
subtract the difference between these two Lifetime values from the
remaining lifetime for the binding as maintained in the
corresponding Binding Update List entry (with a minimum value for
the Binding Update List entry lifetime of 0). That is, if the
Lifetime value sent in the Binding Update was L_update, the
Lifetime value received in the Binding Acknowledgement was L_ack,
and the current remaining lifetime of the Binding Update List
entry is L_remain, then the new value for the remaining lifetime
of the Binding Update List entry should be

max((L_remain - (L_update - L_ack)), 0)

where max(X, Y) is the maximum of X and Y. The effect of this
step is to correctly manage the mobile node's view of the
binding's remaining lifetime (as maintained in the corresponding
Binding Update List entry) so that it correctly counts down from
the Lifetime value given in the Binding Acknowledgement, but with
the timer countdown beginning at the time that the Binding Update
was sent. Mobile nodes SHOULD send a new Binding Update well
before the expiration of this period in order to extend the
lifetime. This helps to avoid disruptions in communications,
which might otherwise be caused by network delays or clock drift.

o If the Status field indicates that the Binding Update was rejected
(the Status field is greater than or equal to 128), then the
mobile node MUST delete the corresponding SHOULD record in its Binding Update List
entry, and it MUST also stop retransmitting the that future
Binding Update. Updates SHOULD NOT be sent to this destination.

Optionally, the mobile node MAY then take steps to correct the
cause of the error and retransmit the Binding Update (with a new

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Sequence Number value), subject to the rate limiting restriction
specified in Section 11.8.

The treatment of a Binding Refresh Advice mobility option within the
Binding Acknowledgement depends on the where the acknowledgement came
from. This option MUST be ignored if the acknowledgement came from a
correspondent node. If it came from the home agent, the mobile node
uses Refresh Interval field in the option as a suggestion that it
SHOULD attempt to refresh its home registration at the indicated
shorter interval.

11.7.4.

If the acknowledgement came from the home agent, the mobile node

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examines the value of the Key Management Mobility Capability (K) bit.
If this bit is not set, the mobile node SHOULD discard key management
protocol connections, if any, to the home agent. The mobile node MAY
also initiate a new key management connection.

If this bit is set, the mobile node SHOULD move its own endpoint in
the key management protocol connections to the home agent, if any.
The mobile node's new endpoint should be the new care-of address.
For an IKE phase 1 connection, this means packets sent to this
address with the original ISAKMP cookies are accepted.

11.7.4 Receiving Binding Refresh Requests

When a mobile node receives a packet containing a Binding Refresh
Request message and there already exists a Binding Update List entry
for the source of the Binding Refresh Request, it MAY SHOULD start a
return routability procedure. The mobile node MAY also choose to either
ignore the Binding Refresh Request or to Request. Also, the mobile node can at any
time delete its binding from the
sender of the Binding Refresh Request. a correspondent node.

Note that the mobile node SHOULD NOT respond to Binding Refresh
Requests from previously unknown correspondent nodes due to
Denial-of-Service concerns.

If the return routability procedure completes successfully, a Binding
Update message SHOULD be sent as described in Section 11.7.2. The
Lifetime field in this Binding Update SHOULD be set to a new
lifetime, extending any current lifetime remaining from a previous
Binding Update sent to this node (as indicated in any existing
Binding Update List entry for this node), and lifetime SHOULD
again be less than or equal to the remaining lifetime of the home
registration and the care-of address specified for the binding. When
sending this Binding Update, the mobile node MUST update its Binding
Update List in the same way as for any other Binding Update sent by
the mobile node.

Instead, if the mobile node chooses to delete its binding from the
sender of the Binding Refresh Request, the mobile node SHOULD return
a Binding Update to the sender with the Lifetime specified as zero
and specify a Care-of Address that matches the home address for the
binding.

11.7.5. Receiving Binding Error Messages

When a mobile node receives a packet containing a Binding Error
message, it should first check if the mobile node has a Binding
Update List entry for the source of the Binding Error message. If
the mobile node does not have such entry, it MUST ignore the message.
This is necessary to prevent a waste of resources on e.g. return
routability procedure due to spoofed Binding Error messages.

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Otherwise, if the message Status field was 1 (unknown binding for
Home Address destination option), the mobile node should perform one
of the following two actions:

- If the mobile node does have a Binding Update List entry but
has recent upper layer progress information that indicates
communications with the correspondent node are progressing, it
MAY ignore the message. This can be done in order to limit the
damage that spoofed Binding Error messages can cause to ongoing
communications.

- If the mobile node does have a Binding Update List entry but
no upper layer progress information, it MUST remove the existing
Binding Update List entry for this node), and route further communications through the home agent. It
MAY also optionally start a return routability procedure (see
Section 5.2).

If the message Status field was 2 (unrecognized MH Type value), lifetime SHOULD again
be less than or equal to the
mobile node should perform one remaining lifetime of the following two actions:

- If the mobile node is not expecting an acknowledgement or
response from home
registration and the correspondent node, care-of address specified for the mobile node SHOULD
ignore binding. When
sending this message.

- Otherwise, Binding Update, the mobile node SHOULD cease MUST update its Binding
Update List in the use of same way as for any extensions
to this specification. If no extensions had been used, other Binding Update sent by
the mobile node should cease the attempt to use route optimization.

11.8. node.

11.8 Retransmissions and Rate Limiting

The mobile node is responsible for retransmissions and rate limiting
in the return routability and binding procedures. procedures and for solicited
prefix discovery.

When the mobile node sends a Mobile Prefix Solicitation, Home Test
Init, Care-of Test Init or Binding Update for which it expects a
response, the mobile node has to determine a value for the initial
retransmission timer:

o If the mobile node is sending a Mobile Prefix Solicitation, it

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SHOULD use an initial retransmission interval of
INITIAL_SOLICIT_TIMER (see Section 12).

o If the mobile node is sending a Binding Update and it does not
have an existing binding at the home agent, it SHOULD use
InitialBindackTimeoutFirstReg (see Section 13) as a value for the
initial retransmission timer that is at least 1.5 times
longer than (RetransTimer * DupAddrDetectTransmits). This value
is likely to be substantially longer than the otherwise specified
value of INITIAL_BINDACK_TIMEOUT (see Section 12) that would be
used by the mobile node. timer. This longer long retransmission interval
will allow the home agent to complete the DAD Duplicate Address
Detection procedure which is mandated in this case, as detailed in
Section 11.7.1.

o Otherwise, the mobile node should use the specified value of
INITIAL_BINDACK_TIMEOUT for the initial retransmission timer.

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If the mobile node fails to receive a valid, matching response within
the selected initial retransmission interval, the mobile node SHOULD
retransmit the message, until a response is received.

The retransmissions by the mobile node MUST use an exponential
back-off process, in which the timeout period is doubled upon each
retransmission until either the node receives a response or the
timeout period reaches the value MAX_BINDACK_TIMEOUT. The mobile
node MAY continue to send these messages at this slower rate
indefinitely.

The mobile node SHOULD start a separate back-off process for
different message types, different home addresses and different
care-of addresses. However, in addition an overall rate limitation
applies for messages sent to a particular correspondent node. This
ensures that the correspondent node has sufficient amount of time to
answer when bindings for multiple home addresses are registered, for
instance. The mobile node MUST NOT send Mobility Header messages of
a particular type to a particular correspondent node more often than
once per
MAX_UPDATE_RATE seconds. times within a second.

Retransmitted Binding Updates MUST use a Sequence Number value
greater than that used for the previous transmission of this Binding
Update. Retransmitted Home Test Init and Care-of Test Init messages
MUST use new cookie values.

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12. Protocol Constants

HomeRtrAdvInterval 3,600 seconds

DHAAD_RETRIES 3 4 retransmissions
INITIAL_BINDACK_TIMEOUT 1 second
INITIAL_DHAAD_TIMEOUT 2 3 seconds
INITIAL_SOLICIT_TIMER 2 seconds
MAX_ADVERT_REXMIT