MULTIMOB Group H. Deng
Internet-Draft China Mobile
Intended status: Informational T. Schmidt
Expires: March 20, 2009 HAW Hamburg
P. Seite
France Telecom
P. Yang
Hitachi
September 16, 2008
Multicast Support Requirements for Proxy Mobile IPv6
draft-deng-multimob-pmip6-requirement-00
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Internet-Draft Multicast Requirements for PMIPv6 September 2008
Abstract
This document summarizes requirements for multicast listener support
in Proxy Mobile IPv6 (PMIPv6) scenarios. In correspondance to
PMIPv6, multicast mobility management requirements do not request any
active participation of the mobile node.
Table of Contents
1. Introduction . . . . . . . . . . . . . . . . . . . . . . . . . 3
2. Scenarios of Multicast Support for PMIPv6 . . . . . . . . . . 4
3. Requirements for multicast support in PMIPv6 . . . . . . . . . 6
3.1. Basic functional requirements . . . . . . . . . . . . . . 6
3.2. Multicast performance requirements . . . . . . . . . . . . 6
4. Architecture requirements . . . . . . . . . . . . . . . . . . 8
4.1. LMA Requirements for multicast support in PMIPv6 . . . . . 8
4.2. MAG Requirements for multicast support in PMIPv6 . . . . . 8
5. Security Considerations . . . . . . . . . . . . . . . . . . . 9
6. IANA Considerations . . . . . . . . . . . . . . . . . . . . . 10
7. Contributors . . . . . . . . . . . . . . . . . . . . . . . . . 11
8. References . . . . . . . . . . . . . . . . . . . . . . . . . . 12
8.1. Normative References . . . . . . . . . . . . . . . . . . . 12
8.2. Informative References . . . . . . . . . . . . . . . . . . 12
Authors' Addresses . . . . . . . . . . . . . . . . . . . . . . . . 13
Intellectual Property and Copyright Statements . . . . . . . . . . 14
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1. Introduction
Many of the current mobile network architectures as well as link
layer technologies provide an independent multicast/broadcast support
for dedicated group communication services, e.g., based on specific
wireless channels. Typically, applications like Internet IPTV, that
require voluminous content streams to be distributed to potentially
large numbers of receivers, may take benefit of this transport mode.
At the same time, with the development of mobile Internet protocols,
the need emerged for a seamlessly available multicast solution that
makes efficient use of the multipoint transmission technologies
deployed by operators [MMCASTv6-PS].
As an example, mobile IPTV channels, which combine Audio/Video
programs with interactive data for supplementary information (using
bi-directional wireless broadband links), and with potential large
audience, may take particular advantage of any multicast/ broadcast
mobile support at access networks for downlink distribution of A/V
streams.
Among IP mobility management protocols, Proxy Mobile IPv6 (PMIPv6)
[RFC5213] has been designed to bring IP mobility making the mobile
nodes unaware of network layer changes. Functional entities in the
PMIPv6 infrastructure are the Local Mobility Anchor (LMA) and the
Mobile Access Gateway (MAG). The local mobility anchor is
responsible for maintaining the mobile node's reachability state and
is the topological anchor point for the mobile node's home network
prefix(es). The mobile access gateway performs mobility management
operations on behalf of the mobile node. Basically, the mobile
access gateway is responsible for detecting the mobile node's
movements, to and from the access link, and for initiating binding
registrations (i.e. location updates) to the mobile node's local
mobility anchor.
The current PMIPv6 specification lacks dedicated support of group
communication. To facilitate design of a multicast support in future
solutions, this document gathers requirements for multicast listener
support. In correspondance to PMIPv6, multicast mobility management
requirements should not request any active participation of the
mobile multicast recipient.
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2. Scenarios of Multicast Support for PMIPv6
According to [RFC5213], two basic routing scenarios exist in PMIPv6:
the tunneling mode and local routing. The tunneling mode as
displayed in Figure 1 uses IPv6-in-IPv6 encapsulation [RFC2473]
(IPv6-in-IPv4 in [PMIPv6v4]) to transfer data between LMA and MAG.
Thus two entities are facing an avalanche problem (cf.
[MMCASTv6-PS]), the LMA in feeding multicast streams to the MAGs, and
the MAG in distributing multicast on air to the mobile nodes.
+-------------+
| Content |
| Source |
+-------------+
|
*** *** *** ***
* ** ** ** *
* *
* Fixed Internet *
* *
* ** ** ** *
*** *** *** ***
/ \
+----+ +----+
|LMA1| |LMA2|
+----+ +----+
LMAA1 | | LMAA2
| |
\\ //\\
\\ // \\
\\ // \\
Unicast Tunnels --> \\ // \\
\\ // \\
\\ // \\
Proxy-CoA1 || || Proxy-CoA2
+----+ +----+
|MAG1| |MAG2|
+----+ +----+
| | |
| | |
MN1 MN2 MN3
Figure 1: Multicast Scenario in PMIPv6 Tunneling Mode
The local routing option has been designed to support direct node to
node communication within a PMIPv6 domain. Assuming a locally
available content source, the local routing mode may give rise to the
scenario visualized in Figure 2. Local routing will resolve tunnel
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convergence issues at the LMA but not the avalanche problem point to
the MAG.
+----+ +----+
|LMA1| |LMA2|
+----+ +----+
LMAA1 | | LMAA2
| |
*** *** *** ***
* ** ** ** *
* * +-------------+
* Local Routing * _____ | Content |
* * | Source |
* ** ** ** * +-------------+
*** *** *** ***
Proxy-CoA1 || || Proxy-CoA2
+----+ +----+
|MAG1| |MAG2|
+----+ +----+
| | |
| | |
MN1 MN2 MN3
Figure 2: Multicast Scenario for PMIPv6 Local Routing
PMIP multicast support must clearly address above issues but should
also bring good user experience of multicast mobility. In addition,
it is expected that the solution shall inherit from the basics of
PMIP scenarios; in particular mobility management should not require
to add specific functions to the IPv6 node. In these perspectives,
following sections summarize protocol and architecture requirements
for multicast support in Proxy Mobile IPv6.
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3. Requirements for multicast support in PMIPv6
This section summarizes the requirements for mobile multicast
protocol extensions of PMIPv6.
3.1. Basic functional requirements
R1 - PMIPv6 multicast mobility management MUST transparently support
the reception of Any Source Multicast (ASM) and Source Specific
Multicast (SSM) channels.
R2 - The mobile node is responsible for initially subscribing to the
multicast group(s).
R3 - The mobile node MAY remain agnostic of the multicast mobility
management when roaming. In particular, the node MUST not be
required to re-subscribe to multicast group(s) after handoff.
R4 - Multicast packet distribution within a PMIPv6 domain MUST not
cause MTU-size conflicts on the network layer. In particular, path
MTU discovery MUST NOT be required for multicast transmission.
R5 - PMIPv6 multicast mobility management MUST comply with multicast
scoping rules and restrictions.
R6 - PMIPv6 multicast mobility management MUST equally cover IPv6/
IPv4 only and dual stack nodes.
R7 - A multicast solution SHALL be compatible with the existing
PMIPv6 network architecture and protocol structure such as
multihoming and vertical handover.
3.2. Multicast performance requirements
R8 - PMIPv6 transmission SHOULD realize native multicast forwarding,
and where applicable conserve network resources and utilize link
layer multipoint distribution to avoid data redundancy.
R9 - The solution SHALL minimize multicast forwarding delays to
provide seamless and fast handovers for real-time services. After a
handoff, multicast data SHOULD continue to reach the mobile listener
at a latency similar to unicast communication.
R10 - The PMIPv6 multicast mobility management SHOULD avoid to cause
packet loss in addition to unicast handoff.
R11 - Multicast mobility SHOULD minimize transport costs on the
forwarding link, as well as any additional overhead on the multicast
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delivery path.
R12 - Routing convergence MUST be ensured, even when the MN moves
rapidly and performs handovers at a high frequency.
R13 - The protocol MUST be robust against irregular moves of the MN
(e.g. ping-pong mobility) and MUST not compromise (unicast) network
performance.
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4. Architecture requirements
In addition to protocol requirements as listed in the preceeding
section, mobile multicast support for listeners MAY lead to
requirement on the PMIPv6 architectural entities. These potential
issues are sketched in the following sub-sections:
4.1. LMA Requirements for multicast support in PMIPv6
Multicast Bandwidth Control: LMA should be able to control the total
bandwidth of a user port that can be used for multicast service,
thereby monitoring the fraction of the total bandwidth consumed by
multicast. This requirement may lead to support a range of different
service classes with various QoS requirements.
Multicast session control: AAA functions resident at the LMA, in
particular admission control and accounting, SHOULD be preserved and
applicable under multicast services.
4.2. MAG Requirements for multicast support in PMIPv6
It is foreseeable that the MAG has to act as a multicast designated
router. Hence support of MLDv2 [RFC3810] is required at the MAG.
Further MAG-specific requirements can be identified:
Connection Admission Control (CAC): it is required that Connection
Admission Control based on available resources is supported at the
MAG.
Network Attachment Control: the attachment control should be
supported by a multicast control function and multicast replication
function.
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5. Security Considerations
Multicast security is one of the most crucial issues in mobile
multicast service such that it is required to provide security
capabilities to protect mobile multicast multicast network from any
malicious attempts caused by multicast security holes such as denial
of service attacks.
- The multicast service in PMIPv6 should not degrade the security
protection of the basic PMIPv6 AAA mechanism.
- Multicast system architecture is required to provide an admission
control mechanism to regulate any multicast events.
- Multicast system architecture is required to be independent of
adjacent domains such that it shall not affect the adjacent multicast
domain without permission.
- Multicast system architecture is required to provide a mechanism to
check integrity of multicast sources prior to service delivery such
that it prevents unauthorized source to distribute multicast content.
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6. IANA Considerations
This document makes no requests to IANA.
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7. Contributors
This document is a result of discussions in the multicast support for
PMIPv6 design team. The members of the design team that are listed
below are authors that have contributed to this document:
Pierrick Seite
pierrick.seite@orange-ftgroup.com
Peny Yang
pyang@hitachi.cn
Von-Hugo, Dirk
Dirk.Hugo@t-systems.com
Hitoshi Asaeda
asaeda@sfc.wide.ad.jp
Thomas C. Schmidt
schmidt@informatik.haw-hamburg.de
Suresh Krishnan
suresh.krishnan@ericsson.com
John Zhao
john.zhao@huawei.com
Matthias Waehlisch
mw@link-lab.net
Hui Deng
denghui@chinamobile.com
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8. References
8.1. Normative References
[RFC2473] Conta, A. and S. Deering, "Generic Packet Tunneling in
IPv6 Specification", RFC 2473, December 1998.
[RFC3810] Vida, R. and L. Costa, "Multicast Listener Discovery
Version 2 (MLDv2) for IPv6", RFC 3810, June 2004.
[RFC5213] Gundavelli, S., Leung, K., Devarapalli, V., Chowdhury, K.,
and B. Patil, "Proxy Mobile IPv6", RFC 5213, August 2008.
8.2. Informative References
[MMCASTv6-PS]
Schmidt, T., Waehlisch, M., and G. Fairhurst, "Multicast
Mobility in MIPv6: Problem Statement and Brief Survey",
draft-irtf-mobopts-mmcastv6-ps-04 (work in progress),
July 2008.
[PMIPv6v4]
Wakikawa, R. and S. Gundavelli, "IPv4 Support for Proxy
Mobile IPv6", draft-ietf-netlmm-pmip6-ipv4-support-04
(work in progress), July 2008.
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Authors' Addresses
Hui Deng (Editor)
China Mobile
53A,Xibianmennei Ave.,
Xuanwu District,
Beijing 100053
China
Email: denghui02@gmail.com
Thomas C. Schmidt (Editor)
HAW Hamburg
Dept. Informatik
Berliner Tor 7
Hamburg, D-20099
Germany
Email: Schmidt@informatik.haw-hamburg.de
Pierrick Seite (Editor)
France Telecom
4, rue du Clos Courtel
BP 91226
Cesson-Sevigne, 35512
France
Email: pierrick.seite@orange-ftgroup.com
Peng Yang (Editor)
Hitachi
301, North Wing, Tower C Raycom Infotech Park
2 kexueyuan Nanlu
Haidian District
Beijing, 100080
P.R. China
Phone: +861082862918(ext.)328
Email: pyang@hitachi.cn
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