Internet Area M.Hui
Internet Draft G.Chen
Intended status: Informational H.Deng
China Mobile
Expires: Jan 01, 2011 July 01, 2010
Service Flow Identifier in Proxy Mobile IPv6
draft-hui-netext-service-flow-identifier-03.txt
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Abstract
This document proposes extensions to Proxy Mobile IPv6 that allows
service flow identification and binding, and PMIP tunnels will be set
up based on the service flow granularity. Therefore, multiple service
flows of the mobile node can be separately controlled, e.g. QoS,
charging, traffic control, and provides the precondition of flow
mobility among multiple interfaces of the mobile node.
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Table of Contents
1. Introduction ................................................ 4
2. Protocol Operation .......................................... 5
3. Message Formats ............................................. 7
3.1. Service Flow Identifier option .......................... 7
3.2. Service Flow Description option ......................... 8
4. Scenario ................................................... 10
5. Mobility Access Gateway Operation .......... 12
5.1. Binding Update List extensions ......................... 12
5.2. Service Flow Proxy Binding Update Operation ............ 12
5.3. Data Forwarding Rules.................................. 12
6. Local Mobility Anchor Operation ............................. 14
6.1. Binding Cache extensions ............................... 14
6.2. Service Flow Proxy Binding Acknowledge Operation........ 14
6.3. Data Forwarding Considerations ......................... 14
7. Security Considerations..................................... 16
8. IANA Considerations ........................................ 17
9. References ................................................. 18
9.1. Normative References................................... 18
9.2. Informative References................................. 18
Author's Addresses ............................................ 19
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1. Introduction
Proxy Mobile IPv6 is a network based local mobility management
protocol which binds the home network prefix(es) assigned to a given
interface of a mobile node to its current care-of address (Proxy-CoA).
The mobile access gateway performs the proxy binding update with the
local mobility anchor and does the mobility management on behalf of
the mobile node attached to the network. Details of protocol
operation and related terminologies are given in RFC 5213 [1].
PMIPv6 is based on the MIPv6 [2] that is a host based global mobility
management protocol. It reuses the home agent functionality and the
message formats used in mobility signaling of MIPv6. In draft-ietf-
mext-flow-binding [3], MIPv6 is extended to allow the binding of a
particular flow to a care-of address without affecting other flows
using the same home address. Therefore, each flow of the mobile
node's multiple interfaces can be separately forwarded based on the
flow identifier in the binding update.
Current PMIPv6 protocol is host granularity basis. There is only one
tunnel between a pair of LMA and MAG, so the network side cannot
distinguish the different payload in the tunnel, and the operator
can't do service control consequently. To enable the traffic control,
charging and QoS control per service flow basis in PMIPv6 domain,
PMIPv6 should be enhanced to achieve flow granularity control. To
support the service flow proxy binding update operation, each service
flow of the mobile node can be forwarded and controlled separately,
which is mapped to one PMIPv6 tunnel, one BCE/BULE and one pair of
GRE Keys.
In this document, a new Service Flow Identifier option is defined to
carry the service flow identifier and service flow attributes in the
Proxy Binding Update and Acknowledgement message. Hence, the mobile
access gateway can bind mobile node's each service flow to its home
network prefix, respectively. Therefore, the mobile node's multiple
service flows can be separately controlled based on the service flow
identifier. E.g. charging and QoS control can be implemented per each
service basis, as different charging criteria are applicable to the
mobile node's different service flows.
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2. Protocol Operation
+-----+ +-----+ +-----+
| MN | | MAG | | LMA |
+-----+ +-----+ +-----+
| | |
1. |<--------RS/RA------->|<--------PBU/PBA------>|
| | |
| |==== Bi-Dir Tunnel ====|
| | (for Mobile node) |
| | |
2. |----Start a New SF--->| |
| | |
3. | |-------PBU (SF) ------>|
| | |
4. | |<------PBA (SF) -------|
| | |
5. | |==== Bi-Dir Tunnel ====|
| | (for Specific SF) |
| | |
6. |<------ data -------->|======== data =========|
| | |
Figure 1 Service Flow (SF) Proxy Binding Update
Figure 1 shows the signaling call flow using the PMIPv6 extension
when the mobile node starts a new service flow.
1. The bi-directional tunnel between the mobile access gateway and
the local mobility anchor is set up for the mobile node, based on
the standard attach procedure in PMIPv6, specified in RFC 5213 [1].
2. When a new service flow of the mobile node is started (e.g. launch
a new service), the data packet of this service will be routed to
the mobile access gateway.
3. The mobile access gateway analyzes the received data packet(this
analysis mechanism can be achieved in several ways which is out of
scope of this draft), catching the corresponding packet filter
attributes, and generates a unique service flow identifier and the
service flow description option for this service flow. Then it
sends a Proxy Binding Update message to the mobile node's local
mobility anchor for updating the service flow binding
information including the service flow identifier option and the
assigned downlink GRE Key for this binding.
4. Upon receiving the Proxy Binding Update message from the mobile
access gateway, the local mobility anchor will first check the
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validity of the Proxy Binding Update message and assure the
uniqueness of the SFID value. If the proxy binding update is
accepted, it will return a Proxy Binding Acknowledgement message
including the service flow identifier option and the uplink GRE
Key for this binding. It also creates the new binding cache entry
that including home network prefix(es) of the mobile node, service
flow identifier, packet filter attributes, and the assigned uplink
and downlink GRE Key for this service flow binding. A new BCE/BULE
and a new pair of GRE Keys are assigned for each service flow.
5. The new bi-directional tunnel for this specific service flow
between the mobile access gateway and the local mobility anchor is
set up to forward the corresponding data packets.
6. When the data packet of this service flow is routed to the mobile
access gateway, it will check the binding update list and attain
the uplink GRE Key. And then it encapsulates and forwards the data
packet to the mobile node's local mobility anchor.
Hence, multiple service flows of the mobile node can be separately
controlled based on the service flow identifier in the service flow
identifier option of the Proxy Binding Update message, e.g. different
charging criteria can be adapted to mobile node's each service flow.
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3. Message Formats
This section introduces extensions to PMIPv6 that are necessary for
supporting the service flow binding mechanism.
3.1. Service Flow Identifier option
The Service Flow Identifier option is a variable-length option,
included in the Proxy Binding Update and Acknowledgement message. It
must come with the Service Flow Description option that contains the
packet filter attributes of the service flow.
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 2
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| Option Type | Option Len | Status | PRO |Reserved|
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| Service Flow Identifier | Reserved |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| Service Flow Description option |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
Figure 2 The Service Flow Identifier option
Status
This field indicates the success or failure of the service flow
binding operation for the particular service flow in the option.
This field is only relevant when included in the Proxy Binding
Acknowledgement message and must be ignored in the Proxy Binding
Update message.
Service Flow Identifier
It is a 16-bit unsigned integer, including the unique identifier
within the LMA scope. However, its length can also be
implementation dependent.
The service flow identifier is used to name the different service
flows.
PRO
A 4-bit field that describes the operation that the receiver has
to perform, e.g. adding, modifying or deleting the option. The
following values are reserved for the PRO field:
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0 Add a service flow binding
1 Modify a service flow binding
2 Delete a service flow binding
Service Flow Description option
A variable-length option that contains the valid packet filter
attributes combinations of the particular service flow, e.g. Port.
3.2. Service Flow Description option
The service flow description option is a variable-length option,
included in the service flow identifier option. It contains the three
kinds of valid packet filter attribute combination of the service
flow which are defined in 3GPP TS23.060 [5] and TS23.203 [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 2
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| Option Type | Option Len | Reserved |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| Type | Service Flow Description |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
Figure 3 The Service Flow Description option
Type
This field indicates one of the three kinds of the valid packet
filter attribute combination of the particular service flow.
Service Flow Description
The detailed binary encoding of the service flow description
field could follow the defined binary traffic selector in draft-
ietf-mext-binary-ts [7].The following values are reserved for the
Type and Service Flow Description field:
0 <destination address, source port range, destination port range,
protocol ID of the protocol above IP, Type of Service (TOS)
(IPv4) /Traffic class (IPv6) and Mask>
1 <destination address, protocol ID of the protocol above IP,
Type of Service (TOS) (IPv4) / Traffic class (IPv6) and Mask,
the IPSec Security Parameter Index (SPI)>
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2 <destination address, Type of Service (TOS) (IPv4) / Traffic
class (IPv6) and Mask, the Flow Label (IPv6)>
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4. Scenario
This section introduces a use case of multiple service flows binding.
LMA Binding Cache
+----+ ---------
|LMA | MN: [SFID1, HNP, uplink GRE Key, downlink GRE Key]
+----+ MN: [SFID2, HNP, uplink GRE Key, downlink GRE Key]
//\\
+---------//--\\-------------+
( // \\ )
( SF1 // \\ SF2 ) PMIPv6 domain
( \\ // )
+--------\\----//------------+
\\ //
\\//
+----+
+--|MAG1|--+
| +----+ |
| |
|SF1 SF2|
| |
+---[MN]---+
Figure 4 A Use Case of Multiple Service Flows Binding
Assume a mobile node establishes two service flows, called SF1 and
SF2. This two service flows can belong to one interface or two
different interfaces. The SF1 is peer-to-peer voice over IP traffic
with its peers that mobile node's port number is 49724 and the peer's
port is 56512. The SF2 is HTTP traffic with its peer that the peer's
port is 80.
When mobility access gateway receives the data packet of the mobile
node's service flow, it will send the Proxy Binding Update message to
the local mobility anchor with the service flow identifier option and
assigned downlink GRE key for this service flow.
O The service flow identifier option for SF1 included in the Proxy
Binding Update message is set as follows:
Service Flow Identifier field is SFID1=1 and PRO field is 0;
The service flow description option included in the service flow
identifier option is set as follows: Type field is set to 0,
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Source Port Range field is set to 49724, and Destination Port
Range field is set to 56512.
O The service flow identifier option for SF2 included in the Proxy
Binding Update message is set as follows:
Service Flow Identifier field is SFID2=2 and PRO field is 0;
The service flow description option included in the service flow
identifier option is set as follows: Type field is set to 0, and
Destination Port Range field is set to 80.
If the service flow proxy binding update is accepted, the local
mobility anchor will return a Proxy Binding Acknowledge message with
service flow identifier option and the assigned uplink GRE key, and
the Status field is set to 0(success).
If the mobile access gateway doesn't receive the data packet of the
peer-to-peer voice over IP traffic from the mobile node for a long
time, it will send the Proxy Binding Update message to the local
mobility anchor again to delete this service flow binding.
O The service flow identifier option included in the Proxy Binding
Update message is set as follows: Service Flow Identifier field is
set to 1, and PRO field is set to 2.
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5. Mobility Access Gateway Operation
5.1. Binding Update List extensions
Service flow binding is conceptually stored in the binding update
list entry of the mobile access gateway. To better implement the
service flow based control, the original BULE should be extended to
include the following parameters:
O SFID (service flow identifier): A service flow identifier for the
service flow of the mobile node MUST be unique within the LMA.
O Packet filter attributes of the service flow that contained in the
service flow description option.
5.2. Service Flow Proxy Binding Update Operation
When a service flow of the mobile node is started or terminated, the
mobile access gateway will analyze the received data packets,
generate the unique service flow identifier, and trigger the service
flow binding update mechanism. It then sends the Proxy Binding Update
message containing a service flow identifier and the assigned
downlink GRE key for this binding to the local mobility anchor. The
service flow identifier option MUST indicate valid Service Flow
Identifier, PRO, Service Flow Description option fields.
When the mobile access gateway receives the proxy binding acknowledge
containing the service flow identifier option from the local mobility
anchor, the Status field of the service flow identifier indicates the
status of the service flow binding on the local mobility anchor. If
it is set to 0 to 127, it means that this service flow binding
operation is accepted by the local mobility anchor, and the local
mobility anchor will return the uplink GRE key for this service flow
binding in the Proxy Binding Acknowledge message.
5.3. Data Forwarding Rules
As the service flow binding operation is succeed, the mobile access
gateway and local mobility anchor sets up the bi-directional tunnel,
and assigns downlink and uplink GRE Key for this service flow binding.
When the mobile access gateway receives a data packet from the mobile
node, it MUST check that a service flow binding for the service flow
that the data packet belongs to is created or not. If the bi-
directional tunnel is set up, the mobile access gateway will
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encapsulate the data packet with the uplink GRE key, and then forward
it to the mobile node's local mobility anchor.
When the mobile access gateway receives a data packet from the bi-
direction tunnel established with the local mobility anchor, it will
decapsulate the data packet by removing the outer header, and attains
the destination address of the inner packet. Then the mobile access
gateway will forward it to the mobile node on the interface where the
destination network prefix is hosted.
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6. Local Mobility Anchor Operation
6.1. Binding Cache extensions
Service flow binding is conceptually stored in the binding cache
entry of the local mobility anchor. To better implement the service
flow based control, the original BCE should be extended to include
the following parameters:
O SFID (service flow identifier): A service flow identifier for the
service flow of the mobile node MUST be unique within the LMA.
O Packet filter attributes of the service flow that contained in the
service flow description option.
6.2. Service Flow Proxy Binding Acknowledge Operation
When the local mobility anchor receives the Proxy Binding Update
message which includes the service flow identifier option, it first
performs the operation described in section 5.3.1 of RFC 5213. If the
proxy binding update is accepted, the local mobility anchor then
checks the service flow identifier option.
If the PRO field in the service flow identifier option is set to 0
which indicates to add a new service flow binding, the local mobility
anchor first checks the service flow identifier field that it MUST a
value that does not already exist. Then the local mobility anchor
checks the service flow description option following the service flow
identifier option. If all of the checks above indicated a valid
option, the local mobility anchor will return a Proxy Binding
Acknowledge message with the Status field set to 0 and the uplink GRE
key, and then add the service flow binding to its binding cache.
If the PRO field in the service flow identifier option indicates to
modify or delete an existent service flow binding, the local mobility
anchor first checks the service flow identifier field that it needs
to contain a value that already exists. Then the local mobility
anchor will return a Proxy Binding Acknowledge message with the
uplink GRE key and modify or delete the corresponding service flow
binding in its binding cache.
6.3. Data Forwarding Considerations
When the local mobility anchor receives a data packet from a
correspondent node with the destination address matching a mobile
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node's home network prefix field, with the source address matching
the destination address field, and other attributes matching of the
corresponding fields in the binding cache entry, it MUST encapsulate
it with the downlink GRE key of this service flow binding, and
forward it to the mobile access gateway through the bi-directional
tunnel.
When the local mobility anchor receives a data packet from the bi-
directional tunnel with the mobile access gateway, it MUST
decapsulate the data packet by removing the outer header. Then it
will forward the data packet to the destination address of the
correspondent node in the inner header.
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7. Security Considerations
Since the service flow identifier option is part of the mobility
option in the proxy binding update and acknowledge message, it uses
the same security as the proxy binding update operation in RFC 5213.
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8. IANA Considerations
This specification defines two new mobility options as in section 2,
the Service Flow Identifier Option and the Service Flow Description
Option.
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9. References
9.1. Normative References
[1] S. Gundavelli, Ed., "Proxy Mobile IPv6", RFC 5213, August 2008.
[2] D. Johnson, C. Perkins, and J. Arkko, "Mobility Support in IPv6",
RFC 3775, June 2004.
[3] H. Soliman, Ed., "Flow Bindings in Mobile IPv6 and Nemo Basic
Support", draft-ietf-mext-flow-binding-03, July 2009.
9.2. Informative References
[4] G. Wolfner, J. Korhonen, Ed., "Connection Identifier for Proxy
Mobile IPv6", draft-wolfner-netext-pmip6-connid-01, October 2009.
[5] "General Packet Radio Service (GPRS); Service description; Stage 2
Release 9 ", 3GPP TS 23.060, July 2009.
[6] "Policy and charging control architecture (Release 9)", 3GPP TS
23.203, July 2009.
[7] G. Tsirtsis, Ed., "Binary Traffic Selectors for FB", draft-ietf-
mext-binary-ts-00, July 2009.
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Author's Addresses
Min Hui
China Mobile
53A,Xibianmennei Ave.,
Xuanwu District,
Beijing 100053
China
Email: huimin.cmcc@gmail.com
Gang Chen
China Mobile
53A,Xibianmennei Ave.,
Xuanwu District,
Beijing 100053
China
Email: chengang@chinamobile.com
Hui Deng
China Mobile
53A,Xibianmennei Ave.,
Xuanwu District,
Beijing 100053
China
Email: denghui02@gmail.com
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