Download - SJ-20110829111841-007-ZXUN XGW (V4.10.22) EXtendable GateWay GGSN Data Configuration Guide
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ZXUN xGWeXtendable GateWay
GGSN Data Configuration Guide
Version: V4.10.22
ZTE CORPORATIONNO. 55, Hi-tech Road South, ShenZhen, P.R.ChinaPostcode: 518057Tel: +86-755-26771900Fax: +86-755-26770801URL: http://ensupport.zte.com.cnE-mail: [email protected]
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LEGAL INFORMATIONCopyright 2011 ZTE CORPORATION.
The contents of this document are protected by copyright laws and international treaties. Any reproduction or
distribution of this document or any portion of this document, in any form by any means, without the prior written
consent of ZTE CORPORATION is prohibited. Additionally, the contents of this document are protected by
contractual confidentiality obligations.
All company, brand and product names are trade or service marks, or registered trade or service marks, of ZTE
CORPORATION or of their respective owners.
This document is provided as is, and all express, implied, or statutory warranties, representations or conditions
are disclaimed, including without limitation any implied warranty of merchantability, fitness for a particular purpose,
title or non-infringement. ZTE CORPORATION and its licensors shall not be liable for damages resulting from the
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ZTE CORPORATION or its licensors may have current or pending intellectual property rights or applications
covering the subject matter of this document. Except as expressly provided in any written license between ZTE
CORPORATION and its licensee, the user of this document shall not acquire any license to the subject matter
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Users may visit ZTE technical support website http://ensupport.zte.com.cn to inquire related information.
The ultimate right to interpret this product resides in ZTE CORPORATION.
Revision History
Revision No. Revision Date Revision Reason
R1.0 2012-02-18 First Edition
Serial Number: SJ-20110829111841-007
Publishing Date: 2012-02-18 (R1.0)
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ContentsAbout This Manual ......................................................................................... I
Chapter 1 Overall Description of Data Configuration ............................. 1-1
1.1 Flow of Data Configuration.................................................................................. 1-1
1.2 Configuration Preparations ................................................................................. 1-2
1.2.1 Document preparation .............................................................................. 1-2
1.2.2 Network Planning ..................................................................................... 1-2
1.3 Data Configuration Methods................................................................................ 1-3
Chapter 2 Local Information Configuration ............................................. 2-1
2.1 Configuring the Basic Information........................................................................ 2-1
2.2 Configuring Boards............................................................................................. 2-3
2.2.1 Configuring the CPU Group ...................................................................... 2-3
2.2.2 Configuring the SLB Group ....................................................................... 2-4
2.2.3 Configuring the CU Group......................................................................... 2-6
2.3 Configuring the IP Protocol Stack ........................................................................ 2-8
Chapter 3 Basic Service Configuration.................................................... 3-1
3.1 Description of the basic service configuration ....................................................... 3-1
3.2 Configuring the Dynamic IP Pool ......................................................................... 3-1
3.3 Configuring the APN........................................................................................... 3-2
Chapter 4 NE Interconnection Configuration .......................................... 4-1
4.1 Configuring the Interconnection Between GGSN and SGSN ................................. 4-1
4.2 Configuring the Interconnection Between GGSN and PDN.................................... 4-4
4.3 Configuring the Interconnection Between GGSN and RADIUS .............................. 4-4
4.4 Configuring the Interconnection Between GGSN and OCS.................................... 4-8
4.5 Configuring the Interconnection Between GGSN and DHCP Server..................... 4-13
4.6 Configuring the Interconnection Between GGSN and Charging Server ................ 4-17
Chapter 5 Charging Configuration............................................................ 5-1
5.1 Charging Modes................................................................................................. 5-1
5.2 Configuring the RADIUS Charging....................................................................... 5-1
5.3 Configuring Common Offline Charging................................................................. 5-4
5.4 Configuring Content Charging ............................................................................. 5-6
5.4.1 Configuring a DPI Rule ............................................................................. 5-6
5.4.2 Configuring FTP Server ............................................................................ 5-8
5.4.3 Deploying DPI Files.................................................................................5-11
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5.4.4 Configuring the Charging Mode............................................................... 5-12
5.4.5 Configuring Charging Policy.................................................................... 5-14
5.4.6 Instance for Configuring Offline Content-based Charge............................. 5-18
5.4.7 Instance for Configuring Online Content-based Charge............................. 5-21
Fiugures .......................................................................................................... I
Tables ............................................................................................................ III
Glossary .......................................................................................................VII
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About This ManualPurpose
This manual provides procedure and guidelines for configuration method of ZXUN GGSNsystem.
Intended Audience
This manual is intended for the following engineers and technicians:l On-site maintenance engineersl Network monitor engineersl System operation and maintenance engineers
Prerequisite Skill and Knowledge
To use this manual effectively, users should have a general understanding of wirelesstelecommunications technology. Familiarity with the following is helpful:
l The ZXUN GGSN system service and configuration.l Hardware knowledge of Debug Terminal.
What Is in This Manual
This manual contains the following chapters:
Chapter Summary
Chapter 1, Overall Description of
Data Configuration
Introduces the flow and the basic operations of the ZXUN
GGSN data configuration.
Chapter 2, Local Information
Configuration
Introduces how to configure the office data related to the
local exchange.
Chapter 3, Basic Service
Configuration
Introduces the service configuration of ZXUN GGSN.
Chapter 4, NE Interconnection
Configuration
Introduces the connection configuration between ZXUN
GGSN and other network elements.
Chapter 5, Charging Configuration Introduces the charging configuration of the ZXUN GGSN.
FCC Compliance Statement
This device complies with part 15 of the FCC Rules. Operation is subject to the followingtwo conditions.
1. This device may not cause harmful interference.2. This device must accept any interference received, including interference that may
cause undesired operation.
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Changes or modifications not expressly approved by the party responsible for compliancecould void the user's authority to operate the equipment.
Conventions
ZTE documents employ the following typographical conventions.
Typeface Meaning
Italics References to other Manuals and documents.
Quotes Links on screens.
Bold Menus, menu options, function names, input fields, radio button names, check
boxes, drop-down lists, dialog box names, window names.
CAPS Keys on the keyboard and buttons on screens and company name.
Note: Provides additional information about a certain topic.
Checkpoint: Indicates that a particular step needs to be checked before
proceeding further.
Tip: Indicates a suggestion or hint to make things easier or more productive
for the reader.
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Chapter 1Overall Description of DataConfigurationTable of Contents
Flow of Data Configuration .........................................................................................1-1Configuration Preparations.........................................................................................1-2Data Configuration Methods .......................................................................................1-3
1.1 Flow of Data ConfigurationDuring the data configuration, configure the data according to certain flow, as shown inFigure 1-1.
Figure 1-1 Configuration Flow
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ZXUN xGW GGSN Data Configuration Guide
Note:
The above-mentioned configuration sequence is the recommended sequence for initialsystem configuration; the hardware configuration and local data configuration must beperformed first, while there is no strict sequence for other configurations.
1.2 Configuration Preparations
1.2.1 Document preparationFor the product concepts, network constructing schemes, principles, and hardwareknowledge involved during the configuration, refer to the following documents:
l ZXUN xGW eXtendable GateWay GGSN Product Descriptionl ZXUN xGW eXtendable GateWay GGSN Hardware Decriptionl ZXUN xGW eXtendable GateWay GGSN Software Installation Guidel ZXUN xGW eXtendable GateWay GGSN Command Reference
1.2.2 Network Planning
Description
When configuring ZXUN GGSN, addresses of other NEs communicating with GGSNshould be configured, such as SGSN, PDNRADIUS, OCS, DHCP and CG. Therefore,plan the whole network and allocate IP addresses before configuring the ZXUN GGSN.
Network Planning
Table 1-1 is an example of network planning and IP address allocation of GGSN dataconfiguration.
Table 1-1 Network Planning and IP Address Allocation
NE
Node
Service Address Communication
Interface
Communication
Interface Address
Communication
Gateway Address
GGSN GTP control address:
200.91.1.161
GTP user address:
200.91.1.159
SLB address: 192.168.50.10
RADIUS client address:
192.168.100.100
CG agent address:
192.168.7.93
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NE
Node
Service Address Communication
Interface
Communication
Interface Address
Communication
Gateway Address
SGSN 200.62.1.161 gei-0/6/0/1 192.168.119.91 192.168.119.61
PDN 200.50.3.24 gei-0/6/0/2 192.168.119.92 192.168.119.62
RADIUS 200.40.5.20 gei-0/6/0/3 192.168.119.93 192.168.119.63
OCS 200.30.7.10 gei-0/6/0/4 192.168.119.94 192.168.119.64
DHCP Active: 200.20.9.3
Standby: 200.20.9.4
gei-0/6/0/5 192.168.119.95 192.168.119.65
CG 200.10.10.78 gei-0/6/0/6 192.168.119.96 192.168.119.66
1.3 Data Configuration Methods
Configuration Mode
With ZXUN xGW as the hardware platform, ZXUN GGSN uses on-line MML configurationmode.
Enter ZXUN GGSN configuration mode by the following steps:
1. On the debugging terminal, connect to the MPU board by using the SecureCRTsoftware in Telnet mode. The prompt character xGW> appears, indicating asuccessful connection.
2. At the xGW> prompt character, enter enable, and enter the user name and thepassword for login. The prompt character changes to xGW#, indicating that you havelogged in to the MPU board successfully.
Note:
You can use the default user name of en or customized user name and password tolog in to the MPU board.
In configuration mode, use the username command to create a new user name. Forexample, use the following command to create a user, with the user name and thepassword both being zte, and with the privilege being 15.
xGW(config)#username zte zte privilege 15
3. At the xGW# prompt character, enter configure terminal. The prompt characterchanges to xGW(config)#, indicating you have entered configuration managementmode.
4. At the xGW(config)# prompt character, enter xgw. The prompt character changes toxGW(config-xgw)#, indicating you have entered xGW configuration mode.
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Above commands must be executed in specified mode. Refer to the following table forconfiguration modes involved in the ZXUN GGSN configuration flows:
Configuration
Mode
Prompt Character How to Enter Description
User mode xGW> Log in to the system, and the
default mode is user mode.
In this mode, you can query
common information.
Privileged mode xGW# In user mode, enter enable. In this mode, you
can configure system
parameters.
Global
configuration
mode
xGW(config)# In privileged mode, enter
configure terminal.
In this mode, you can
configure global service
parameters.
Interface
configuration
mode
xGW(config-if)# In global configuration
mode, enter interface.
In this mode, you can
configure port parameters.
Different port types can
be selected based on key
words.
xGW
configuration
mode
xGW(config-xgw)# In global configuration
mode, enter xgw.
In this mode, you can
configure xGW system
parameters.
GGSN
configuration
mode
xGW(config-xgw-
ggsn)#
In xGW configuration mode,
enter ggsn.
In this mode, you can
configure GGSN system
parameters.
APN
configuration
mode
xGW(config-xgw-
ggsn-apn)#
In GGSN configuration
mode, enter apn.
In this mode, you can
configure related APN
parameters.
SLB
configuration
mode
xGW(config-xgw-
slb)
In xGW configuration mode,
enter slb.
In this mode, you can
configure related SLB
parameters.
CU configuration
mode
xGW(config-xgw-
cu)
In xGW configuration mode,
enter cu.
In this mode, you can
configure related CU
parameters.
Command Symbol
Parameters in command descriptions are separated with symbols, for example, ipv4 ip-pool {local|dhcp|assigned|aaa} .
Nevertheless, some symbols are not required to be entered when you are enteringcommands. Refer to the following table for details.
Symbol Function
| Indicates "or". Select only one from multiple options.
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Symbol Function
( ) Indicates combination of key words. Key words are required.
< > Indicates parameters in < > are required.
[ ] Indicates parameters in [ ] are optional. The parameters should be separated by , .
{ } Indicates parameters in { } are associated parameters. With |, you should select one
from multiple. With [], you can select multiple from multiple, but at least one option
must be selected.
* Indicates that you can set the parameter after * to many values.
Description
l Basic operation
In configuration mode, refer to the following table for common basic operationcommands:
Example Description
show Shows the configuration.
exit Exits current directory and returns to the previous directory.
no Deletes a configuration.
list Lists all configuration(s) in the current directory.
write Writes the command(s) into a ZXUN GGSN configuration file.
end Returns to privileged mode.
Note:
After the configuration command is completed, execute the end command to returnto privileged mode. Meanwhile, execute the write command at the xGW# promptcharacter to save the command and make it effective.
Otherwise, the data will be lost when the MPU board is restarted without the writecommand being executed.
l Assistant function
Common assistant functions in configuration mode are described as follows:
Enter ? at the prompt character, the available command list in this commandmode is displayed.
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Operation Function Precautions
Enter ? at the prompt
character in any command
mode.
Shows all commands and
their brief descriptions in this
command mode.
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Enter ? at the character or
string.
Shows the command or key
word list starting with the
character or string.
No space between
character/string and ?.
Enter ? at the command,
key word or parameter.
Lists the next key word or
parameter to be entered.
Space is required before ?.
Press the Tab key at the string. Complete the command or key word if startedwith this string, and add space after he command or key word.
Note that there is no space between string and Tab key.
If entering wrong command, key word or parameter, you are prompted with ^to seperate the error after pressing the Enter key. ^ indicates the first wrongcharacter.
Command and key word can be entered as character or string in abbreviationwhich can identify them uniquely. For example, the show command can beentered as sh or sho in abbreviation.
The system can record up to ten historical commands that you have entered forease of re-entering long or complicated command or entrance.
Operation Function
Press Ctrl+P or the up arrow key
on the key board.
Re-use the latest command in the record buffering area.
Repeat pressing the key to use the previous command.
Press Ctrl+N or the down arrow
key on the key board.
Locates the next command line. Re-start from the first
command in the buffering area after reaching the last
one.
Execute the show history
command.
Lists several latest commands that have been entered
in this mode.
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Chapter 2Local InformationConfigurationTable of Contents
Configuring the Basic Information...............................................................................2-1Configuring Boards.....................................................................................................2-3Configuring the IP Protocol Stack ...............................................................................2-8
2.1 Configuring the Basic InformationBasic ZXUN GGSN configurations include time zone, time and VRF configurations. Thissection describes how to set the time zone, time and VRF of ZXUN GGSN based on dataplans and on-site conditions.
Steps
1. In the Privileged mode, configure the time zone.
The command syntax for configuring the time zone is: clock timezone [], as described in Table 2-1.
Table 2-1 Description of Commands for Configuring Time Zone
Parameter Description
word Sets the name of the time zone.
hours offset form UTC New time zone to be set.
minutes offset from UTC Sets the offset time on the basis of UTC.
2. Configure the time.
The command syntax for configuring the time is: clock set . Refer to Table 2-2 for parameter settings.
Table 2-2 Description of Commands for Configuring Time
Parameter Description
hh:mm:ss Sets the exact time.
l hh: hour
l mm: minute
l ss: second
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Parameter Description
MM-DD-YYYY Sets the year, month, and date.
l MM: month
l DD: date
l YYYY: year
3. Create a VRF by the ip vrf command.
The command syntax is: ip vrf vpniid . Refer to Table 2-3 forparameter settings.
Table 2-3 Parameter Settings for Creating a VRF
Parameter Description
WORD The VRF name, range: 1 to 32 strings.
VPNID The VPN ID.
4. Set the rd range by the rd command.
The command syntax is: rd rd:rd. Refer to Table 2-4 for parameter settings.
Table 2-4 Parameter Settings for Setting rd Range
Parameter Description
rd:rd Route specificator, distinguishes different VPN routes.
Range: :.
End of Steps
Example
1. To set the time zone with time zone name as UTC+8 and offset time as 8, use thecommand below:
xGW#clock timezone UTC+8 8
2. To set the time as 11:30:40, 20th, May, 2010, use the command below:
xGW#clock set 11:30:40 05-20-2010
3. Use the following command to create a VRF, with the name being VPI and the VPNID being 1:
xGW#ip vrf PI vpniid 1
4. Use the following command to set the rd range of the VRF to 1:1:
xGW#rd 1:1
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Chapter 2 Local Information Configuration
2.2 Configuring Boards
2.2.1 Configuring the CPU GroupCreate a CPU group, and set the CPU group backup relation. Add the CPU on the GSUboard to the CPU group which is already created.
The CPU group is only for the CPUs on the GSU.
Prerequisite
The CPU group is configured.
Steps
1. In the GGSN configuration mode, create and enter a CPU group or directly enter aCPU group.
The command syntax for creating and entering a CPU group or directly entering a CPUgroup is: group , as described in Table 2-5.
Table 2-5 Description of Commands for Creating or Entering a CPU
Parameter Description
number CPU group ID, ranging 1~250.
2. Set the CPU group back mode.
The command syntax for configuring the CPU group back mode is: backupmode{none|1+1|N+1}, as described in Table 2-6.
Table 2-6 Description of Commands for Setting CPU Group Backup Mode
Parameter Description
none|1+1|N+1 l none: no backup
l 1+1: 1+1 backup
l N+1: N+1 backup
3. Add a CPU to the CPU group.
The command syntax for adding a CPU is: cpu , as described in Table 2-7.
Table 2-7 Description to Commands for Adding a CPU
Parameter Description
Location CPU location:
l Shelf: shelf, generally the shelf ID is configured as 0.
l Slot: slot
l cpu: CPU ID, generally starting from 0 and orderly
numbered inside the board.
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Note:
Use the CPU which is powered on successfully and runs properly earlier as the activeone, while use the latter one as the standby one.
Configured active/standby CPUs must have the same shelf No., different slot No., andthe same CPU ID.
End of Steps
Example
1. To create and enter or directly enter the CPU group with group ID as 1, use thecommand below:
xGW(config-xgw-ggsn)#group 1
2. To configure the CPU group backup mode as 1+1 backup, use the command below:
xGW(config-xgw-ggsn-group)#backupmode 1+1
3. To add the CPU 0 of the GSU board at slots 14 and 15 to the CPU group whose groupID is 1, use the command below:
xGW(config-xgw-ggsn-group)#cpu 0/14/0
xGW(config-xgw-ggsn-group)#cpu 0/15/0
2.2.2 Configuring the SLB GroupAs the master control unit of GGSN load sharing, Service Load Balancing (SLB) allocatesthe GSU resource usage, and ensures the balance of the load of each GSU.
Steps
1. In the SLB configuration mode, create and enter the SLB group.
The command syntax for creating and entering the SLB group is: group , asdescribed in Table 2-8.
Table 2-8 Description of Commands for Creating and Entering the SLB Group
Paramter Description
number SLB group ID, ranging 1~250.
2. Configure the backup mode of the CPU of SLB group.
The command syntax for configuring the backup mode of the CPU of SLB group is:backupmode {none|1+1}, as described in Table 2-9.
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Table 2-9 Description of Commands for Configuring the Backup Mode of CPUof SLB Grou
Parameter Description
none|1+1 l none: no backup
l 1+1: 1+1 backup
3. Add a CPU in the SLB group.
The command syntax for adding a CPU in the SLB group is:cpu , asdescribed in Table 2-10.
Table 2-10 Description of Commands for Adding a CPU in SLB Group
Parameter Description
Location CPU Location, Shelf/Slot/cpu:
l Shelf: shelf
l Slot: slot
l cpu: CPU ID
Note:
Use the CPU which is powered on successfully and runs properly earlier as the activeone, while use the latter one as the standby one.
Configured active/standby CPUs must have the same shelf No., different slot No., andthe same CPU ID.
4. Configure the SLB address.
The command syntax for configuring the SLB address is: virtual-gtp-ip-address [vrf], as described in Table 2-11.
Table 2-11 Description of Commands for Configuring SLB Address
Parameter Description
A.B.C.D SLB address.
vrf-name VRF name.
End of Steps
Example
1. To enter the SLB configuration area, use the command below:
xGW(config-xgw)#slb
2. To create and enter the SLB group with group ID as 1, use the command below:
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xGW(config-xgw-slb)#group 1
3. To set the CPU as 1+1 backup, use the command below:
xGW(config-xgw-slb)#backupmode 1+1
4. Add the CPU with shelf 0/slot 13/CPU 0 and the CPU with shelf 0/slot 15/CPU 0 to theSLB group, use the command below:
xGW(config-xgw-slb-group)#cpu 0/13/0
xGW(config-xgw-slb-group)#cpu 0/15/0
5. Return to the data configuration mode, use the command below:
xGW(config-xgw-slb-group)#exit
xGW(config-xgw-slb)#exit
6. Enter the GGSN configuration mode, use the command below:
xGW(config-xgw)#ggsn
7. Use the exit command to exit the slb configuration mode and enter the GGSNconfiguration mode. To configure the SLB address as 192.168.50.10, use thecommand below:
xGW(config-xgw-ggsn)#virtual-gtp-ip-address 192.168.50.10 vrf RP
2.2.3 Configuring the CU GroupConfigure the CPU of the Charging Unit (CU) daughter card, and configure the alarmthreshold.
Only the CPU whose daughter card No. on the CSU board is XSFC can be configuredas the CU, and generally it is the CPU 2 on the CSU; therefore, the CPU location is shelf0/slot **/CPU 2 when configuring the CU.
There is a hard disk on the CU daughter card, which is used to save the CDRs.
CU does not need to configure the backup mode of the CPU group, and all CPUs are atactive status by default. Where there are multiple CU groups, system will automaticallychoose the CU group with a smaller group ID as the preferred CU group for saving CDRs.
Prerequisite
Make sure that there is a CPU as XSFC in the daughter card No. on the CSU board.
Steps
1. In the CU configuration mode, create and enter the CU group.
The command syntax for creating and entering the CU is: group , asdescribed in Table 2-12.
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Table 2-12 Description of Commands for Creating and Entering the CU Group
Parameter Description
number CU Group ID, ranging 1~250.
2. Carry out the following command under the CU group mode to add the CPU to the CUgroup.
The command syntax for adding the CPU to the CU group is: cpu , asdescribed in Table 2-13.
Table 2-13 Description of Commands for Adding the CPU to the CU Group
Parameter Description
Location CPU location:
l Shelf: shelf
l Slot: slot
l cpu: CPU ID
Note:
Use the CPU which is powered on successfully and runs properly earlier as the activeone, while use the latter one as the standby one.
Configured active/standby CPUs must have the same shelf No., different slot No., andthe same CPU ID.
3. Configure the CU ageing time.
The command syntax for configuring the CU ageing time is: ageing-time{|default}, as described in Table 2-14.
Table 2-14 Description of Commands for Configuring the CU Ageing Time
Parameter Description
3-30 Value of CU ageing time, ranging 3~30. When the hard disk space on the CU is
insufficient, CDRs before the ageing time will be deleted firstly.
default Default ageing time is 7 days.
End of Steps
Example
1. To go to the CU configuration area, use the command below:
xGW(config-xgw)#cu
2. To create and enter the CU group with group ID as 1, use the command below:
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xGW(config-xgw-cu)#group 1
3. To add the CPU with shelf 0/slot 13/CPU 2 in the CU group 1, use the command below:
xGW(config-xgw-cu-group)#cpu 0/13/2
4. Exit the CU group configuration mode, use the command below:
xGW(config-xgw-cu-group)#exit
5. To create the CU group 2, and add the CPU with shelf 0/slot 15/CPU 2 in this group,use the command below:
xGW(config-xgw-cu)#group 2
xGW(config-xgw-cu-group)#cpu 0/15/2
6. Exit the CU group configuration mode, use the command below:
xGW(config-xgw-cu-group)#exit
7. To configure the CU ageing time according to the default mode, use the commandbelow:
xGW(config-xgw-cu)#ageing-time default
2.3 Configuring the IP Protocol StackThe real interface is the physical interface, which is used for communication of GGSNbottom layer links, and responsible for communication among the GGSN and other NEs.
Steps
1. Configure the physical interface in global configuration mode.
a. Use the command show ip interface to query the real interface status.
If all AdminStatus are up, the PFU board is started successfully. The following isan example of output result of the physical interface status:
gei-0/10/0/1 AdminStatus is up, PhyStatus is down, line protocol is down
IP MTU is 1500 bytes
gei-0/10/0/2 AdminStatus is up, PhyStatus is up, line protocol is up
Internet address is 192.136.1.1/16
Broadcast address is 255.255.255.255
Secondary address is 194.136.1.1/16
Secondary address is 122.10.0.1/16
Secondary address is 194.136.25.31/16
IP MTU is 1500 bytes
gei-0/10/0/3 AdminStatus is up, PhyStatus is down, line protocol is down
IP MTU is 1500 bytes
gei-0/10/0/4 AdminStatus is up, PhyStatus is down, line protocol is down
IP MTU is 1500 bytes
gei-0/10/0/5 AdminStatus is up, PhyStatus is down, line protocol is down
IP MTU is 1500 bytes
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gei-0/10/0/7 AdminStatus is up, PhyStatus is up, line protocol is up
IP MTU is 1500 bytes
b. Enter the interface status.
The syntax of the command used to enter the interface status is interfaceinterface-location, or interface gei- interface-location, or interface xgei-interface-location. The involved parameters are as described in Table 2-15.
Table 2-15 Description of Commands for Entering the Interface Status
Parameter Description
interface-location Port location information in the format of shelf/slot/subunit
type/port.
Note:
To enter the interface status, use the interface gei- command for 10M or 1000M or100M interface, the interface xgei- command for 10G interface.
c. To add an interface IP address.
The syntax of the command for adding an interface IP address is: ip address . The involved parameters are as described in Table 2-16.
Table 2-16 Description of Commands for Adding the Interface IP Address
Parameter Description
IP-Address IP address of the real interface.
Mask Mask address of the real interface.
d. Set the MAC address offset.
The syntax of the command for setting the MAC address offset is: interface mac-address offset . The involved parameters are as described in Table 2-17.
Table 2-17 Description of Commands for Setting MAC Address Offset
Parameter Description
Number Number of the offset bytes of the MAC address.
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Note:
The PFU has multiple optical ports or electrical ports, and their MAC addressesmay be the same; therefore, offset their MAC addresses for N bytes duringconfiguration to ensure no-repeat.
2. Configure the route in global configuration mode.
a. Set the default route of the ZXUN GGSN.
The syntax of the command for setting the default route is: ip route 0.0.0.0 0.0.0.0Gateway IP address
b. Set the non-default route of the GGSN.
The command syntax for configuring the non-default route of the GGSN is: iproute , as described in Table 2-18.
Table 2-18 Description of Commands for Setting Non-default Route of GGSN
Parameter Description
IP-Address Destination IP address of the non-default route.
Mask Mask of the non-default route.
Next Hop Gateway IP address of the non-default route, which must be in the
same network segment with the IP addresses of the interface using
this route.
End of Steps
Example
1. To query the real interface status, use the following command:
xGW(config)#show ip interface
2. To enter the 1000M interface located at the No.1 port of the slot 6, the command is:
xGW(config)#interface gei- 0/6/0/1
3. To add the interface IP address, with IP address 192.136.1.1 and mask 255.255.0.0,use the following command:
xGW(config-if)#ip address 192.136.1.1 255.255.0.0
4. To set the MAC address to offset 2 bytes, use the following command:
xGW(config-if)#interface mac-address offset 2
5. To go back to the Privileged mode, use the command below:
xGW(config-if)#exit
6. To set the default route of GGSN, the command is:
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xGW(config)#ip route 0.0.0.0 0.0.0.0 194.136.0.254
7. To configure a route in which the destination address is 192.136.2.5 and the gatewayaddress is 194.136.0.254, use the command below:
xGW(config)#ip route 192.136.2.5 255.255.0.0 194.136.0.254
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Chapter 3Basic Service ConfigurationTable of Contents
Description of the basic service configuration .............................................................3-1Configuring the Dynamic IP Pool ................................................................................3-1Configuring the APN...................................................................................................3-2
3.1 Description of the basic service configurationThis chapter describes the basic operations of the configuration of the ZXUN GGSN,including the following two parts.
l Configuring the Dynamic IP Pool
Before the mobile terminal subscriber accesses the external network, the GGSNshould allocate an address to this subscriber.
ZXUN GGSN allocates local subscriber with addresses through a dynamic addresspool.
l Configuring the APN
APN identifies the external PDN or type of business that connected to ZXUN GGSN.
Configure the APN is used to set the APN's name and other configuration.
3.2 Configuring the Dynamic IP PoolThis section describes how to configure the dynamic address pool, including creating thepool and configuring address sections.
Steps
1. In the GGSN configuration mode, create and enter the IP pool mode.
The command syntax for creating and entering the IP pool is: ipv4 ip-pool{local|dhcp|assigned|aaa} , as described in Table 3-1.
Table 3-1 Description of Commands for Configuring the IP Pool
Parameter Description
local IP pool type, locally assigns or AAA returns IP pool name.
dhcp IP pool type, DHCP returns IP address.
assigned IIP pool type, RADUIS returns IP address.
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Parameter Description
aaa IP pool type, RADUIS returns IP pool name.
pool-name IP pool name, 1~20 characters.
2. Configure the IP segment of the IP pool.
The command syntax for configuring the IP segment of the IP pool is: segment [mask ] dhcpgateway cpulocation , asdescribed in Table 3-2.
Table 3-2 Description of Commands for Configuring the IP Segment
Parameter Description
ipstart Start IP address of the IP segment.
ipend End IP address of the IP segment.
mask Mask of the IP segment.
dhcpgateway Gateway address from GGSN to DHCP server.
When adding to IP segment in IP pool in DHCP type, configure the gateway
address from GGSN to DHCP server; no need to configure it when adding
IP segment in IP pool in other types.
cpulocation CPU location, type as per the format groupno/intragroupno. groupno is
the CPU group ID (ranging 1~250), intragroupno is the CPU ID inside the
group (ranging 1~5).
End of Steps
Example
1. To enter the IP segment with the IP pool type as local, and IP pool name as ippooltest,use the command below:
xGW(config-xgw-ggsn)#ipv4 ip-pool local ippooltest
2. To add the IP segment with start IP address as 10.50.0.1, end IP address as10.50.255.254, mask as 255.255.0.0, and cpu location as 3/1, use the commandbelow:
xGW(config-xgw-ggsn-ipv4)#segment 10.50.0.1 10.50.255.254 mask255.255.0.0 cpulocation 3/1
3.3 Configuring the APNConfigure the APN, and use it for the activation flow of common services.
Prerequisite
l The CPU has been added to the specified Group.
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l The IP pool is ready.
Steps
1. In the GGSN configuration mode, create and enter the APN mode.
The command syntax for creating and entering the APN mode is: ap , asdescribed in Table 3-3.
Table 3-3 Description of Commands for Configuring the APN
Parameter Description
apn-name APN name, 1~63 characters.
2. Configure the APN address allocation mode.
The command syntax for configuring the APN address allocation mode is: ip-allocate-mode {dhcp|local|radius-allocate|radius-assign-name}, as described in Table 3-4.
Table 3-4 Description of Commands of Address Allocation Mode
Parameter Description
dhcp DHCP assigns IP.
local Locally assigns IP.
radius-allocate RADIUS assigns IP.
radius-assign-name RADIUS assigns IP pool name (for example, when RADIUS assigns
the IP pool name as asspool, if there is an IP pool named as asspool
locally, then assign IP to users from the IP pool asspool; if there is no
IP pool named as asspool locally, the IP address assignment fails, and
users cannot access successfully).
3. Configure the APN associated IP pool.
The command syntax for configuring the APN associated IP pool is: ippool, as described in Table 3-5.
Table 3-5 Description of Commands for Configuring APN Associated IP Pool
Parameter Description
pool-name IP pool name, get corresponding IP pool from the IP pool list according to the
name.
End of Steps
Example
1. To create an APN named as zte, use the command below:
xGW(config-xgw-ggsn)#ap zte.com
2. To set the APN address allocation mode as local, use the command below:
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xGW(config-xgw-ggsn-apn)#ip-allocate-mode local
3. To add the APN associated IP pool name as ippooltest, use the command below:
xGW(config-xgw-ggsn-apn)#ippool ippooltest
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Chapter 4NE InterconnectionConfigurationTable of Contents
Configuring the Interconnection Between GGSN and SGSN ......................................4-1Configuring the Interconnection Between GGSN and PDN.........................................4-4Configuring the Interconnection Between GGSN and RADIUS ...................................4-4Configuring the Interconnection Between GGSN and OCS.........................................4-8Configuring the Interconnection Between GGSN and DHCP Server .........................4-13Configuring the Interconnection Between GGSN and Charging Server.....................4-17
4.1 Configuring the Interconnection Between GGSNand SGSN
The SGSN implements lots of PS domain functions, such as network access control,grouping routing and transmission, mobility management, logical link management,wireless resource management and network management.
The Gn/Gp interface is used between ZXUN GGSN and SGSN. This section describeshow to configure the interconnection data between ZXUN GGSN and SGSN.
Steps
1. In the GGSN configuration mode, configure the GTP-C address of the GGSN.
The command syntax for configuring the GTP-C address of the GGSN is: gtpc-ip-address [vrf] , as described in Table 4-1.
Table 4-1 Description of Commands for Configuring GTP-C Address of GGSN
Parameter Description
A.B.C.D GTP-C address.
vrf-name VRF name, ranging 1~32.
cpu-location CPU ID with the format as: groupno/intragroupno
l groupno: Group ID of the CPU group
l intragroupno: CPU ID inside the group
2. Configure the GTP-U address of the GGSN.
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The command syntax for configuring the GTP-U address of the GGSN is: gtpu-ip-address [vrf] , as described in Table 4-2.
Table 4-2 Description of Commands for Configuring GTP-U Address of GGSN
Parameter Description
A.B.C.D GTP-U address.
vrf-name VRF name, ranging 1~32.
cpu-location CPU ID of GGSN, with the format as: groupno/intragroupno
l groupno: Group ID of the CPU group
l intragroupno: CPU ID inside the group
3. In the Global configuration mode, enter the loopback interface.
The command syntax for entering the loopback interface is: interface loopback ,as described in Table 4-3.
Table 4-3 Description of Commands to Enter the loopback Interface
Parameter Description
164 Loopback interface No., ranging 1~64.
4. Add the loopback interface address, and add the GTP service address to the loopbackinterface.
The command syntax for adding the loopback interface address is: ip address [broadcast address|secondary], as described in Table 4-4.
Table 4-4 Description of Commands to Add Loopback Interface Address
Parameter Description
IP address Loopback interface address
mask Mask of the loopback interface address
broadcast address broadcast address
secondary Configure the loopback interface address as the secondary loopback
interface address.
5. Configure the interface address for the GGSN communicating with the SGSN, referringto 2.3 Configuring the IP Protocol Stack for detailed operations.
End of Steps
Example
1. To set the GTP-C address of the CPU 1 of CPU group 2 as 200.91.1.161, use thecommand below:
xGW(config-xgw-ggsn)#gtpc-ip-address 200.91.1.161 2/1
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2. To set the GTP-U address of the CPU 1 of CPU group 2 as 200.91.1.161, use thecommand below:
xGW(config-xgw-ggsn)#gtpu-ip-address 200.91.1.159 2/2
3. To go back to the Privileged mode, use the command below:
xGW(config-xgw-ggsn)#end
4. To go to the Global configuration mode, use the command below:
xGW#configure terminal
5. To enter the loopback interface loopback1, use the command below:
xGW(config)#interface loopback 1
6. To add the GTP-C service address 200.91.1.161 to the loopback interface loopback1,use the command below:
xGW(config-if)#ip address 200.91.1.161 255.255.255.0
7. To add the GTP-U service address 200.91.1.159 to the loopback interface loopback1,use the command below:
xGW(config-if)#ip address 200.91.1.159 255.255.255.0
8. To go back to the Privileged mode, use the command below:
xGW(config-if)#exit
9. To access to the interface of 0/6/0/1, use the command below:
xGW(config)#interface gei- 0/6/0/1
10. To add an interface IP address 192.168.119.91, with the mask 255.255.255.0, use thecommand below:
xGW(config-if)#ip address 192.168.119.91 255.255.255.0
11. To set the MAC address an offset of 2 bits, use the command below:
xGW(config-if)#interface mac-address offset 2
12. To go back to the Privileged mode, use the command below:
xGW(config-if)#end
13. To configure a route in which the SGSN GTP-C address is 200.62.1.161 and thegateway address for GGSN communicating with GTP is 192.168.119.61, use thecommand below:
xGW(config)#ip route 200.62.1.161 255.255.255.0 192.168.119.61
14. To configure a route in which the SGSN GTP-U address is 200.62.1.159 and thegateway address for GGSN communicating with GTP is 192.168.119.61, use thecommand below:
xGW(config)#ip route 200.62.1.159 255.255.255.0 192.168.119.61
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4.2 Configuring the Interconnection Between GGSNand PDN
When the GGSN interconnects to the external PDN through the Gi interface, generallythe GGSN should connect to the PDN edge router. The Gi interface address forcommunication to the PDN must be configured on the GGSN, and this address must bein the same network segment with the IP address of the edge router, so as to ensure thecommunication between the GGSN and the external network.
Prerequisite
The IP address of the opposite PDN edge router (IP address of the edge router is used asthe next hop address for adding a route, and this address must be ping-able by the sourceaddress and the destination address).
Steps
1. Configure the interface address for the GGSN communicating with the PDN, referringto 2.3 Configuring the IP Protocol Stack for detailed operations.
End of Steps
Example
1. To enter the gei-0/6/0/2 interface, use the command below:
xGW(config)#interface gei- 0/6/0/2
2. To add the interface IP address, with IP address as 192.168.119.92 and mask as255.255.255.0, use the command below:
xGW(config-if)#ip address 192.168.119.92 255.255.255.0
3. To set the MAC address to offset 2 bytes, use the command below:
xGW(config-if)#interface mac-address offset 2
4. To go back to the Privileged mode, use the command below:
xGW(config-if)#exit
5. To configure a route in which the DHCP address is 200.50.3.24 and the gatewayaddress for GGSN communicating with PDN is 192.168.119.62, use the commandbelow:
xGW(config)#ip route 200.50.3.24 255.255.255.0 192.168.119.62
4.3 Configuring the Interconnection Between GGSNand RADIUS
The RADIUS server is used for mobile user device accessing and service authenticationand authorization.
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ZXUN GGSN connects to the RADIUS server through the Gi RADIUS interface.
Steps
1. In the GGSN configuration mode, create and enter the AAA template configurationmode.
The command syntax for creating and entering the AAA template configuration modeis: aaa-profile , as described in Table 4-5.
Table 4-5 Description of Commands for Creating and Entering AAA templateConfiguration Mode
Parameter Description
name AAA template name, 1~63 characters.
2. Configure the shared key with aaa attribute.
The command syntax for configuring the shared key is: shared-key key, as describedin Table 4-6.
Table 4-6 Description of Commands for Configuring the Shared Key
Parameter Description
key Shared key between GGSN and RADIUS server, 1~63 characters.
3. Configure the default user name and password of the RADIUS server.
The command syntax for configuring the default user name is: default-user name password , as described in Table 4-7.
Table 4-7 Description of Commands for Configuring the Default User Name
Parameter Description
username Default user name, 1~63 characters.
password Password, 1~63 characters.
4. Configure the RADIUS server.
The command syntax for configuring the RADIUS server is: radius-server vrf auth-port acct-port , as described in Table 4-8.
Table 4-8 Description of Commands for Configuring RADIUS Server
Paramete Description
A.B.C.D RADIUS server address.
vrf-name VRF name, 1~32 characters.
auth-port Authentication port, 1812 by default.
acct-port Charging port, 1813 by default.
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5. Add the RADIUS client address.
The command syntax for configuring the RADIUS client address is: client-address[global|], as described in Table 4-9.
Table 4-9 Description of Commands for Configuring RADIUS Client Address
Parameter Description
A.B.C.D RADIUS address.
global If the RADIUS client address is configured as global, when the APN users
using this AAA template access, they all use this RADIUS client address.
cpu-location CPU location information.
6. In the APN configuration mode, set the APN authentication type.
The command syntax for setting the APN authentication type is: authentication-mode {none | (radius [{bind-acct {enable|disable}] [aaa-dynm-l2tp-preferred{enable|disable}]})}, as described in Table 4-10.
Table 4-10 Description of Commands for Setting APN Authentication Type
Parameter Description
none No authentication is needed.
radius Authentication by RADIUS.
bind-acct Sets whether to bind the charge and the authentication server, with
options enable and disable.
dynm-l2tp-preferred Sets whether dynamic L2TP channel preference on AAA is enabled, with
options enable or disable.
7. Configure the APN associated authentication AAA template.
The command syntax for configuring the APN associated authentication AAA templateis: auth aaa-profile , as described in Table 4-11.
Table 4-11 Description of Commands for Configuring the APN AssociatedAuthentication AAA template
Parameter Description
template-name Name of the authentication AAA template, 1~63
characters.
8. Configure APN associated charging AAA template.
The command syntax for configuring the APN associated charging AAA template is:charge aaa-profile , as described in Table 4-12.
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Table 4-12 Description of Commands for Configuring APN Associated ChargingRADIUS template
Parameter Description
template-name Charging AAA template name, 1~63 characters.
9. Configure the interface address for the GGSN communicating with the DHCP, referringto 2.3 Configuring the IP Protocol Stack for detailed operations.
End of Steps
Example
1. To create and enter the AAA template configuration mode whose name is aaa, usethe command below:
xGW(config-xgw-ggsn)#aaa-profile aaa
2. To configure the shared key with aaa attribute, use the command below:
xGW(config-xgw-ggsn-aaa)#shared-key WinRadius
3. To configure the default user name, use the command below:
xGW(config-xgw-ggsn-aaa)#default-user name zte password zte
4. To add the RADIUS server, use the command below:
xGW(config-xgw-ggsn-aaa)#radius-server 200.40.5.20 auth-port 1812 acct-port 1813
5. To add the RADIUS client address as 192.168.100.100 for CPU 1 of CPU group 2,use the command below:
xGW(config-xgw-ggsn-aaa)#client-address 192.168.100.100 2/1
6. To go back to the GGSN configuration mode, use the command below:
xGW(config-xgw-ggsn-aaa)#exit
7. To create and enter the APN configuration mode whose name is zte.com, use thecommand below:
xGW(config-xgw-ggsn)#ap zte.com
8. To set the APN authentication type as radius, use the command below:
xGW(config-xgw-ggsn-apn)#authentication-mode radius
9. To configure the authentication AAA template name as aaaauth, use the commandbelow:
xGW(config-xgw-ggsn-apn)#auth aaa-profile aaaauth
10. To configure the name of charging AAA template as aaachar, use the command below:
xGW(config-xgw-ggsn-apn)#charge aaa-profile aaachar
11. To go back to the Privileged mode, use the command below:
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xGW(config-xgw-ggsn-apn)#end
12. To go to the Global configuration mode, use the command below:
xGW#configure terminal
13. To enter the gei-0/6/0/3 interface, use the command below:
xGW(config)#interface gei- 0/6/0/3
14. To add the interface IP address, with IP address as 192.168.119.93 and mask as255.255.255.0, use the command below:
xGW(config-if)#ip address 192.168.119.93 255.255.255.0
15. To set the MAC address to offset 2 bytes, use the command below:
xGW(config-if)#interface mac-address offset 2
16. To go back to the Privileged mode, use the command below:
xGW(config-if)#end
17. To configure the route with AAA address as 200.40.5.20, and gateway addressfor communication between the GGSN and the AAA as 192.168.119.63, use thecommand below:
xGW(config)#ip route 200.40.5.20 255.255.255.0 192.168.119.63
4.4 Configuring the Interconnection Between GGSNand OCS
ZXUN GGSN implements the OCS on-line charging function in conjunction with the OCSserver. It supports charging function based on time, traffic, content and stream, and thetraffic switch function.
ZXUNGGSN connects to the OCS server through the Gy interface. This section describeshow to configure the interconnection data between ZXUN GGSN and OCS server.
Steps
1. In the GGSN configuration mode, configure local node parameters.
The command syntax for configuring local node parameters is: diameter local-node carrier host realm interface-mode [18], as described in Table 4-13.
Table 4-13 Description of Commands for Configuring Local Node Parameters
Parameter Description
node-name Local node name, 1~63 characters.
carrier-name Operator name, 1~127 characters.
host-name Host name, 1~63 characters.
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Parameter Description
realm-name The Diameter domain name of the adjacent office, the Host ID of the node
when receiving and sending a Diameter message, composed of 1~63
characters.
interface-mode Interface mode, ranging 1~8.
2. Configure the adjacent office node parameters.
The command syntax for configuring the adjacent office node parameters is: diameter adjacent-node type {none|proxy|ocs(interface-mode{ ro_extension_10(0)|ro_extension_11(1)| ro_3gpp_32299_6b0(2)|ro_3gpp_32299_900(3)|ro_extension_12(4)|ro_extension_14(5)|ro_extension_30(10)})|ro_extension_32(12) |ro_extension_40(8) |ro_extension_41(9) |ro_extension_50(14) |ro_extension_60(15) |ro_extension_70(16)})|pcrf(interface-mode{ gx_3gpp_29212_910(7)|gx_extension_20(6)})|bmsc} host realm capability 0-128 [{[tx-timer ],[failover{enable|disable}].[resend-times]}], as described in Table 4-14.
Table 4-14 Description of Commands for Configuring Adjacent Office NodeParameters
Parameter Description
node-name Adjacent office node name, 1~63 characters.
type Adjacent office type:
l none: the specific type of the node is not specified.
l proxy: the adjacent office supports the Diameter Proxy function.
l ocs: the adjacent office supports the OCS function.
l pcrf: the adjacent office supports the PCRF function.
l bmsc: the adjacent office supports the BMSC function.
interface-mode The type of the interfaces activated for the adjacent office. Currently, two
types of interfaces are available, Gx andGy.
Wherein, Gx interfaces can be further divided into:
l gx_3gpp_29212_910(7) the Gx interfaces based on the 3GPP TS29.212
v9.1.0 version.
l gx_extension_20(6) the Gx interfaces based on the 3GPP v2.0 version.
Gy interfaces can be further divided into:
l ro_extension_10(0): the extended Gy interfaces based on the 3GPP
v1.0 version.
l ro_extension_11(1): the extended Gy interfaces based on the 3GPP
v1.1 version.
l ro_3gpp_32299_6b0(2): the Gy interfaces defined in 3GPP TS32.299
v6.b.0.
l ro_3gpp_32299_900(3): the Gy interfaces defined in 3GPP TS32.299
v9.0.0.
l ro_extension_12(4): the extended Gy interfaces based on the 3GPP
v1.2 version.
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Parameter Description
l ro_extension_14(5): the extended Gy interfaces based on the 3GPP
v1.4 version.
l ro_extension_30(10)the extended Gy interfaces based on the 3GPP
TS32.299 version.
l ro_extension_31(11)the extended Gy interfaces based on the 3GPP
TS32.299 version.
l ro_extension_32(12)the extended Gy interfaces based on the 3GPP
TS32.299 version.
l ro_extension_41(9)the extended Gy interfaces based on the 3GPP
TS32.299 vesion.
l ro_extension_50(14)the extended Gy interfaces based on the 3GPP
TS32.299 version.
l ro_extension_60(15) the extended Gy interfaces based on the RFC4006
version.
l ro_extension_70(16) the extended Gy interfaces based on the 3GPP
TS32.299 version.
host-name Host name, 1~63 characters.
realm-name domain name, 1~63 characters.
capability The capacity negotiation template used when the Diameter connection to
the adjacent office is created. Before configuring the information, you need
configure the Diameter capacity negotiation template first, valued as a string
of 0-128 digits.
tx-timer Timeout timer, ranging (unit: second) 6~12.
3. Configure the TCP link.
The command syntax for configuring the TCP link is: diameter tcp-link mtu vrf , as described in Table 4-14.
Table 4-15 Description of Commands for Configuring the TCP Link
Parameter Description
name TCP link name, 1~63 characters.
local ip Local GGSN IP address, IPv4 address type.
local port Local port No., integer type: 0~65535.
destination ip Opposite OCS IP address, IPv4 address type.
destination port Opposite port No., integer type: 0~65535.
cpu-location CPU ID of the GGSN, the format is: groupno/intragroupno
groupno: Group ID of the CPU group.
intragroupno: CPU ID inside the group.
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Parameter Description
mtu MSS value, integer type: 800~1460.
vrf-name VRF name, 1~50 characters.
4. Configure the Diameter link.
The command syntax for configuring the Diameter link is: diameter link {none|gmb|gx|ro/gy} tcp-name tc 5100 avp-check, as described in Table 4-16.
Table 4-16 Description of Commands for Configuring Diameter Link
Parameter Description
link-name Diameter link name, 1~63 characters.
local-node-name Local office node name, 1~63 characters.
adjacent-node-
name
Adjacent office node name, 1~63 characters.
gmb|gx|none|ro/gy Application type, with options below:
l none: no Diameter application type is specified.
l gmb: gmb interface.
l gx: corresponds to the Gx interface application, used when the
peer-end is PCRF and the Gx interface is available.
l ro/gy: corresponds to the Ro interface (alternatively named as Gy
interface), used when the peer-end is OCS and the Ro interface
is available.
tcp-name TCP link name, 1~63 characters.
tc Tc timer, which sets the interval for message re-transfer during Diameter
negotiation. Optional parameter, a string of 5~100 digits.
avp-check Sets whether to check the Diameter capability AVP of the peer end.
5. Configure the interface address for the GGSN communicating with the OCS, referringto 2.3 Configuring the IP Protocol Stack for detailed operations.
End of Steps
Example
1. To configure the local node name as ggsn1, the operator name as ggsncarrier, thehost name as hostggsn.com, the domain name as unicomgd.com, and the interfacemode as 1, use the command below:
xGW(config-xgw-ggsn)#diameter local-node ggsn1 carrier ggsncarrier hosthostggsn.com realm unicomgd.com interface-mode 1
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2. To configure the adjacent office node name as ocs1, the adjacent office type as ocs,using the Ro interfaces defined in 3GPP TS32.299 v6.b.0, with the host name ocs1,domain name ocs1, and the negotiation template 0, use the following command:
xGW(config-xgw-ggsn)#diameter adjacent-node ocs1 interface-modero_3gpp_32299_6b0(2) host ocs1 realm ocs1 capability 0 tx-timer 6
3. To configure the TCP link name as ocs1, local address as 200.91.1.161 (loopbackaddress), local port No. as 8888, opposite address as 200.30.7.10, and opposite portNo. as 8889 for CPU 1 of CPU group 4, use the command below:
xGW(config-xgw-ggsn)#diameter tcp-link ocs1 200.91.1.161 8888 200.30.7.108889 4/1
4. To configure the Diameter link name as ocs1, the local node name as ggsn1, theadjacent office name as ocs1, the application type as ro/gy, the TCP link name asocs1, the Tc timer value as 10 seconds, and configure to check the Diameter capabilityof the peer end, use the following command:
xGW(config-xgw-ggsn)#diameter link ocs1 ggsn1 ocs1 ro/gy tcp-name ocs1 tc10 avp-check
5. To go back to the Privileged mode, use the command below:
xGW(config-xgw-ggsn)#end
6. To go to the Global configuration mode, use the command below:
xGW#configure terminal
7. To access to the interface of 0/6/0/4, use the command below:
xGW(config)#interface gei- 0/6/0/4
8. To add an interface IP address 192.168.119.94with the mask 255.255.255.0use thecommand below:
xGW(config-if)#ip address 192.168.119.94 255.255.255.0
9. To go back to the Privileged mode, use the command below:
xGW(config-if)#interface mac-address offset 2
10. To go back to the Privileged mode, use the command below:
xGW(config-if)#exit
11. Use the following command to configure a route, with the OCS address being200.30.7.10 and the gateway communication address between GGSN and OCSbeing 192.168.119.64:
xGW(config)#ip route 200.30.7.10 255.255.255.0 192.168.119.64
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4.5 Configuring the Interconnection Between GGSNand DHCP Server
The Dynamic Host Configuration Protocol (DHCP) implements dynamic addressallocation.
Before the DHCP server allocates addresses to the terminals, you should configureinterconnection between ZXUN GGSN and DHCP server.
Steps
1. In the GGSN configuration mode, create and enter the IP address pool mode of theDHCP type, select only the dhcp type for the address pool.
The syntax of the command for creating and entering the IP address pool is ipv4 ip-pool{local|dhcp|assigned|aaa} , as described in Table 4-17.
Table 4-17 Description for Command to Configure IP Address Pool
Parameter Description
local One of the IP address pool types, the IP pool name is locally allocated or returned
from AAA.
dhcp One of the IP address pool types, IP address is returned from DHCP.
assigned One of the IP address pool types, IP address is returned from AAA.
aaa One of the IP address pool types, IP address is returned from AAA.
pool-name The name of the IP address pool, with 1~20 characters.
2. Configuring address segment in the IP address pool.
The syntax of the command for configuring the address segment of the IP addresspool is segment segment [mask] dhcpgateway A.B.C.D cpulocation, as described in Table 4-18.
Table 4-18 Description for Command to Configure IP Address Segment
Parameter Description
ipstart Initial IP address of an address segment.
ipend Ultimate IP address of an address segment.
mask The mask of the address segment.
dhcpgate-
way
The address of the gateway from GGSN to the DHCP server.
While adding an address segment to an address pool of the DHCP type, you
need configure the address of the gateway from GGSN to the DHCP server. The
configuration is not needed when adding an address segment to an address
pool of other types.
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Parameter Description
cpulocation The location of the CPU, which is entered in the format of groupno/intragroupno,
wherein, groupno is the number of the CPU group (1~250), and intragroupno is
the number of the CPU internal the CPU group (1~5).
3. In the APN configuration mode, configure the APN to enable the address allocation bythe DHCP. The address allocation mode can only be dhcp.
The syntax of the command to configure APN to enble the address allocatingby DHCP is ip-allocate-mode {dhcp|local|radius-allocate|radius-assign-name}, asdescribed in Table 4-19.
Table 4-19 Description for Command to Configure APN to Enable AddressAllocating by DHCP
Parameter Description
dhcp DHCP allocates IP addresses.
local Locally allocate IP addresses.
radius-
allocate
RADIUS allocates IP addresses.
radius-assign-
name
The name of the IP address pool allocated by RADIUS (for example, when
this name is asspool, and another address pool with the same name exists in
local disk, RADIUS allocates IP addresses from this asspool pool to users.
Otherwise, the allocation fails and users cannot access to the network.)
4. Configure the IP address pool of dhcp type related to APN.
The syntax of the command to configure the IP address pool of dhcp type related toAPN is ippool , as described in Table 4-20.
Table 4-20 Description for Command to Configure IP Address Pool of dhcp TypeRelated to APN
Parameter Description
pool-name The address pool name, based on which, the corresponding IP address pool
is obtained from the IP address pool.
5. Configure the number of times that DHCPmessages are retransmitted and the timeoutduration.
The syntax of the command for configuring the DHCP message retransmission timesand timeout duration is dhcp-msg retransmit timeout , as described inTable 4-19.
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Table 4-21 Description for Command to Configure DHCP Message RetransmissionTimes and Timeout Duration
Parameter Description
retransmit The number of times that DHCP messages are retransmitted, valued within 3~5.
timeout The timeout duration of DHCP messages, within 1~3 seconds.
6. Configure the address of the active DHCP server.
The syntax of the command to configure the address of the active DHCP server is primary-dhcp svr-addr vrf poolname , as describedin Table 4-22.
Table 4-22 Description for Command to Configure Address of Active DHCP Server
Parameter Description
A.B.C.D The address of the active DHCP server.
vrf The name of the VRF of the active DHCP server.
poolname The name of the DHCP address pool, with 1~20 characters.
7. Configure the address of the standby DHCP server.
The syntax of the command to configure the address of the standby DHCP server issecondary-dhcp (svr-addr ) [vrf ] (poolname ), asdescribed in Table 4-23.
Table 4-23 Description for Command to Configure Address of Standby DHCP Server
Parameter Description
A.B.C.D The address of the standby DHCP server.
vrf The name of the VRF of the standby DHCP server.
poolname The name of the DHCP address pool, with 1~20 characters.
8. Configure the interface address for the GGSN communicating with the DHCP, referringto 2.3 Configuring the IP Protocol Stack for detailed operations.
End of Steps
Example
1. To create and enter the IP address pool of the dhcp type, named as dhcppool, use thecommand below:
xGW(config-xgw-ggsn)#ipv4 ip-pool dhcp dhcppool
2. To add an address segment with the initial address 189.91.10.2, the ultimate address189.91.10.120, the mask 255.255.255.0, the gateway address connecting the DHCPserver 189.91.10.1, and the location of the CPU 2/1, use the command below:
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xGW(config-xgw-ggsn-ipv4)#segment 189.91.10.2 189.91.10.120 mask255.255.255.0 dhcpgateway 189.91.10.1 cpulocation 2/1
3. To go back to the GGSN configuration mode, use the command below:
xGW(config-xgw-ggsn-ipv4)#exit
4. To enter the APN named as ztedhcp, use the command below:
xGW(config-xgw-ggsn)#ap ztedhcp
5. To configure APN to enable address allocating by DHCP, use the command below:
xGW(config-xgw-ggsn-apn)#ip-allocate-mode dhcp
6. To add an IP address pool of dhcp type related to APN and named as radiuspool, usethe command below:
xGW(config-xgw-ggsn-apn)#ippool dhcppool //dhcppool is the created IPaddress pool of dhcp type
7. To configure the DHCP message retransmission times as 3, and the timeout durationis 3 seconds, use the command below:
xGW(config-xgw-ggsn-apn)#dhcp-msg retransmit 3 timeout 3
8. To configure the address of active DHCP server as 200.20.9.3, use the commandbelow:
xGW(config-xgw-ggsn-apn)#primary-dhcp svr-addr 200.20.9.3 poolnamedhcppool
9. To configure the address of standby DHCP server as 200.20.9.4, use the commandbelow:
xGW(config-xgw-ggsn-apn)#secondary-dhcp svr-addr 200.20.9.4 poolnamedhcppool
10. To go back to the Privileged mode, use the command below:
xGW(config-xgw-ggsn-apn)#end
11. To go to the Global configuration mode, use the command below:
xGW#configure terminal
12. To access to the interface of 0/6/0/5, use the command below:
xGW(config)#interface gei- 0/6/0/5
13. To add an interface IP address 192.168.119.95with the mask 255.255.255.0use thecommand below:
xGW(config-if)#ip address 192.168.119.95 255.255.255.0
14. To set the MAC address an offset of 2 bits, use the command below:
xGW(config-if)#interface mac-address offset 2
15. To go back to the Privileged mode, use the command below:
xGW(config-if)#end
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16. To configure a route in which theDHCPaddress is 200.20.9.3 and the gateway addressfor GGSN communicating with DHCP is 192.168.119.65, use the command below:
xGW(config)#ip route 200.20.9.3 255.255.255.0 192.168.119.65
xGW(config)#ip route 200.20.9.4 255.255.255.0 192.168.119.65
4.6 Configuring the Interconnection Between GGSNand Charging Server
ZXUNGGSN implements the charging gateway function in conjunction with the CG server.
ZXUN GGSN connects to the CG server through the Ga interface. This section describeshow to configure the interconnection data between ZXUN GGSN and CG server.
Steps
1. In the GGSN configuration mode, configure the parameters of a proxy address of CG.
The syntax of the command for configuring the parameters of the proxy address of CGis cgagent-ip-address , as shown in Table 4-24.
Table 4-24 Description for Command to Configure CG Proxy Address Parameters
Parameter Description
A.B.C.D The proxy address of the CG.
cpulocation The location of the CPU, which is entered in the format of groupno/intragroupno,
wherein, groupno is the number of the CPU group (1~250), and intragroupno is
the number of the CPU internal the CPU group (1~5).
2. Configure the interface address for the GGSN communicating with CG, referring to 2.3Configuring the IP Protocol Stack for detailed operations.
End of Steps
Example
1. To configure the proxy address of CG as 192.168.7.93 for No.1 CPU of the No.5 CPUgroup, use the command below:
xGW(config-xgw-ggsn)#cgagent-ip-address 192.168.7.93 5/1
2. To go back to the Privileged mode, use the command below:
xGW(config-xgw-ggsn)#end
3. To access to the interface of gei-0/6/0/6, use the command below:
xGW(config)#interface gei- 0/6/0/6
4. To add an interface IP address 192.168.119.96with the mask 255.255.255.0use thecommand below:
xGW(config-if)#ip address 192.168.119.96 255.255.255.0
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5. To set the MAC address an offset of 2 bits, use the command below:
xGW(config-if)#interface mac-address offset 2
6. To go back to the Privileged mode, use the command below:
xGW(config-if)#end
7. To go to the Global configuration mode, use the command below:
xGW#configure terminal
8. To configure a route in which the CG address is 200.10.10.78, the gateway addressfor GGSN communicating with CG is 192.168.119.66, use the command below:
xGW(config)#ip route 200.10.10.78 255.255.255.0 192.168.119.66
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Chapter 5Charging ConfigurationTable of Contents
Charging Modes.........................................................................................................5-1Configuring the RADIUS Charging .............................................................................5-1Configuring Common Offline Charging .......................................................................5-4Configuring Content Charging ....................................................................................5-6
5.1 Charging ModesZXUN GGSN supports various charging modes. In the term of the transmission mode ofcharging messages between the carrier equipment and the charging equipment, ZXUNGGSN supports:
l Offline chargingl Online charging
In the term of the charging message mode, ZXUN GGSN supports:
l General chargingl Content-based charging
Various charging modes can be flexibly grouped, such as common offline charging,offline content-based charging, online content-based charging (generally used for OCScharging).
This chapter describes the offline charging (RADIUS charging), common offline charging,offline/online charging.
5.2 Configuring the RADIUS ChargingThis chapter describes how to configure RADIUS server to assign an address and chargingfor the terminal.
Steps
1. In the GGSN configuration mode, create and enter the IP address pool mode ofRADIUS type, select only the assigned type for the address pool.
The syntax of the command for creating and entering the IP address pool is gtpc-ip-address [vrf] , as described in Table 5-1.
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Table 5-1 Description for Command to Configure IP Address Pool
Parameter Description
local One of the IP address pool types, the IP pool name is locally allocated
or returned from RADIUS.
dhcp One of the IP address pool types, IP address is returned from DHCP.
assigned One of the IP address pool types, IP address is returned from RADIUS.
aaa One of the IP address pool types, IP address is returned from RADIUS.
pool-name The name of the IP address pool, with 1-20 characters.
2. Configuring address segment in the IP address pool.
The syntax of the command for configuring the address segment of the IP addresspool is segment [mask] dhcpgateway A.B.C.D cpulocation, as described in Table 5-2.
Table 5-2 Description for Command to Configure IP Address Segment
Parameter Description
ipstart Initial IP address of an address segment.
ipend Ultimate IP address of an address segment.
mask The mask of the address segment.
dhcpgateway The address of the gateway from GGSN to the DHCP server.
While adding an address segment to an address pool of the DHCP type, you
need configure the address of the gateway from GGSN to the DHCP server.
The configuration is not needed when adding an address segment to an
address pool of other types.
cpulocation The location of the CPU, which is entered in the format of groupno/intragroupno,
wherein, groupno is the number of the CPU group (1~250), and intragroupno
is the number of the CPU internal the CPU group (1~5).
3. In the APN configuration mode, configure the APN to enable address allocating byRADIUS.
The syntax of the command to configure APN to enable the address allocatingby RADIUS is ip-allocate-mode {dhcp|local|radius-allocate|radius-assign-name}, asdescribed in Table 5-3.
Table 5-3 Description for Command to Configure APN to enable address allocatingby RADIUS.
Parameter Description
dhcp DHCP allocates IP addresses.
local Locally allocate IP addresses.
radius-allocate RADIUS allocates IP addresses.
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Parameter Description
radius-assign-
name
The name of the IP address pool allocated by RADIUS (for example, when
this name is asspool, and another address pool with the same name
exists in local disk, RADIUS allocates IP addresses from this asspool
pool to users. Otherwise, the allocation fails and users cannot access to
the network.)
4. Configure the IP address pool of assigned type related to APN.
The syntax of the command to configure the IP address pool of assigned related toAPN is ippool , as described in Table 5-4.
Table 5-4 Description for Command to Configure IP Address Pool of AssignedType Related to APN
Parameter Description
pool-name The address pool name, based on which, the corresponding IP address pool is
obtained from the IP address pool.
5. Configure the authentication AAA template associated with the APN.
The syntax of the command to configure the authentication AAA template associatedwith the APN is auth aaa-profile , as described in Table 5-5.
Table 5-5 Description for Command to Configure Authentication AAA templateAssociated with APN
Parameter Description
template-name The name of the authentication AAA template, with 1~63 characters.
6. Configure the charging AAA template associated with the APN.
The syntax of the command to configure the charging AAA template associated withAPN is charge aaa-profile , as described in Table 5-6.
Table 5-6 Description for Command to Configure Charging AAA templateAssociated with APN
Parameter Description
template-name The name of the charging AAA template, with 1~63
characters.
End of Steps
Example
1. To create and enter the IP address pool of the assigned type, named as radiuspool,use the command below:
xGW(config-xgw-ggsn)#ipv4 ip-pool assigned radiuspool
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2. To add an address segment with the initial address 10.50.0.1, the ultimate address10.50.0.100, the mask 255.255.255.0, and the CPU location 2/1, use the commandbelow.
xGW(config-xgw-ggsn-ipv4)#segment 10.50.0.1 10.50.255.254 mask255.255.255.0 cpulocation 2/1
3. Exit the ipv4 configuration mode, use the command below.
xGW(config-xgw-ggsn-ipv4)#exit
4. To enter the APN named as zte, use the command below:
xGW(config-xgw-ggsn)#ap zte
5. To configure APN to enable address allocating by RADIUS, use the command below:
xGW(config-xgw-ggsn-apn)#ip-allocate-mode radius-allocate
6. To add an IP address pool of assigned type related to APN and named as radiuspool,use the command below:
xGW(config-xgw-ggsn-apn)#ippool radiuspool
7. To configure the name of the authentication AAA template as aaaauth, use thecommand below:
xGW(config-xgw-ggsn-apn)#auth aaa-profile aaaauth
8. To configure the name of the charging AAA template as aaachar, use the commandbelow:
xGW(config-xgw-ggsn-apn)#charge aaa-profile aaachar
5.3 Configuring Common Offline ChargingConfigure the general offline charging mode for an APN.
Steps
1. In the APN configuration mode, Configure the general offline charging mode for anAPN.
The syntax of the command to configure the general offline charging mode for an APNis charge offline mode {flow|time|time-flow}, as described in Table 5-7.
Table 5-7 Description for Command to Configure General Offline Charging Modefor an APN
Parameter Description
mode The charging modes, in three modes:
l flow: charged by traffic
l time: charged by duration
l time-flow: charged by both traffic and duration
2. Configure the charging threshold for the general offline charging for an APN.
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The syntaxes of the command to configure the charging threshold of the general offlinecharging for an APN are charge offline flow-threshold , and charge offlinetime-threshold , as described in Table 5-8.
Table 5-8 Description for Command to Configure Charging Threshold of GeneralOffline Charging for APN
Parameter Description
flow-threshold The traffic threshold, within 100~4000000(KByte)
time-threshold Time threshold, within 6~1440(min)
3. Configure the CDR filter of the general offline charging rate for an APN.
The syntax of the command to configure the CDR filter for general the general offlinecharging rate for an APN is charge offline cdr-filt {all|plmn-change|prepaid|qos-change|rat-change|sgsnip-change|timezone-change}{disable|enable}, as described in Table5-9.
Table 5-9 Description for Command to Configure CDR Filter of General OfflineCharging Rate for APN
Parameter Description
all All CDRs.
plmn-change CDR for PLMN changes.
prepaid CDR for prepaid service.
qos-change CDR for QoS.
rat-change CDR for RAT changes
sgsnip-change CDR for SGSN changes.
timezone-change CDR for time changes.
disable Do not perform CDR filtering.
Enable this function. Perform CDR filtering.
4. Configure the offline charging rate for an APN.
The syntax of the command to configure the offline charging rate for an APN is chargeoffline tariff begin end rate , as described in Table 5-10.
Table 5-10 Description for Command to Configure Offline Charging Rate for APN
Parameter Description
begin The time when the charging rate duration starts, with the format hh:mm. Only
full clocks or half clocks are available.
end The time when the charging rate duration ends, with the format hh:mm. Only
full clocks or half clocks are available.
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Parameter Description
rate Charging rate, valued within 0~100%. If the value is set to 50, that means the
practical charging rate is half the original charging rate.
End of Steps
Example
1. To create and enter the APN configuration mode named as ztec, use the commandbelow:
xGW(config-xgw-ggsn)#ap ztec
2. To configure the general offline charging mode as time-flow, use the command below:
xGW(config-xgw-ggsn-apn)#charge offline mode time-flow
3. To configure the traffic threshold for the general offline charging to 100KByte, the timethreshold to 6 minutes, use the command below:
xGW(config-xgw-ggsn-apn)#charge offline flow-threshold 100
xGW(config-xgw-ggsn-apn)#charge offline time-threshold 6
4. To configure filtering all CDRs, use the command below:
xGW(config-xgw-ggsn-apn)#charge offline cdr-filt all enable
5. To configure the charging rate duration starts at 01:00, ends at 07:00, and the chargingrate is 60%, use the command below:
xGW(config-xgw-ggsn-apn)#charge offline tariff begin 01:00 end 07:00 rate 60
5.4 Configuring Content Charging
5.4.1 Configuring a DPI RuleThis topic introduces how to use DPI TOOL to configure the level-1 and level-2 filteringrules of different charg