ZXDSL 9806H
ZTE Broadband Universal Access System
Configuration Manual (CLI)
Version 2.0
ZTE CORPORATION
ZTE Plaza, Keji Road South,
Hi-Tech Industrial Park,
Nanshan District, Shenzhen,
P. R. China
518057
Tel: (86) 755 26771900
Fax: (86) 755 26770801
URL: http://ensupport.zte.com.cn
E-mail: support@zte.com.cn
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Copyright © 2006 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.
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information contained herein.
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 herein.
ZTE CORPORATION reserves the right to upgrade or make technical change to this product without further notice.
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
1.0
27/02/2009
First version
Serial Number: sjzl20090356
Contents
Preface............................................................... i
General Configuration .......................................1
Login Mode .................................................................... 1
HyperTerminal............................................................ 1
Telnet ....................................................................... 4
NetNumen ................................................................. 5
CLI Operations ............................................................... 8
Overview................................................................... 8
Operation Features ..................................................... 9
General Operations ....................................................12
Network Management Configuration.................................15
Overview..................................................................15
Configuring In-band NMS............................................15
Configuring Out-of-band NMS......................................19
Configuring Network Management ACM .......................22
Narrowband Service Configuration .................. 25
Configuring In-band Channel ..........................................25
PSTN Service Configuration.............................................27
Overview..................................................................28
Configuring PSTN Service ...........................................28
IP Fax Service Configuration ...........................................36
Overview..................................................................36
Configuring IP Fax Service ..........................................36
Configuring Self-exchange .............................................45
Narrowband Management Configuration ...........................47
Modifying Ringing Profile ............................................47
Configuring Call Limit .................................................49
Broadband Service Configuraton ..................... 51
VLAN Configuration........................................................51
Overview..................................................................51
Basic VLAN Configuration............................................52
Configuring VLAN Instance .................................53
Adding VLAN ....................................................55
Adding VLAN Uplink Port ....................................56
Adding Single Service Port .................................57
Adding Service Ports In Batch .............................57
VLAN Stacking Configuration .......................................58
Configuring VLAN Stacking Batch Service .............58
Configuring VLAN ID Extension ...........................61
ADSL/ADSL2+ Service Access Configuration......................64
Overview..................................................................65
Configuring PPPoA Access ...........................................66
Configuring IPoE/PPPoE Access ....................................74
Configuring Line Profile ..............................................81
Configuring Alarm Profile ............................................87
Enabling Interface .....................................................92
Configuring MAC Pool .................................................93
VDSL2+ Service Access Configuration ..............................93
Overview..................................................................93
Configuring IPoE/PPPoE Access ....................................94
Line Profile Configuration .......................................... 101
Configuring Basic Profile .................................. 101
Configuring Service Profile ............................... 110
Configuring DPBO Profile .................................. 115
Configuring UPBO Profile .................................. 118
Configuring Alarm Profile .......................................... 123
Enabling Interface ................................................... 128
SHDSL Service Access Configuration .............................. 129
Overview................................................................ 129
Configuring IPoE/PPPoE Access .................................. 130
Configuring Line Profile ............................................ 136
Configuring Alarm Profile .......................................... 140
Enabling Interface ................................................... 143
Multicast Service Configuration...................................... 144
Overview................................................................ 144
Configuring IGMP Snooping....................................... 144
Configuring IGMP Proxy............................................ 152
Configuring Bandwidth ............................................. 161
QoS Configuration ....................................................... 162
Overview................................................................ 162
Configuring Queue Scheduler Algorithm...................... 163
Configuring PVC Mapping.......................................... 164
Configuring Policy and Class...................................... 165
Configuring Port QoS Priority..................................... 167
Configuring QoS Mapping ......................................... 168
Configuring Egress Shaping Parameters ...................... 170
Configuring Static Route ............................................... 171
Configuring Link Aggregation ........................................ 172
Configuring RMON ....................................................... 172
Spanning Tree Configuration ......................................... 173
Overview................................................................ 174
Enabling STP/RSTP .................................................. 174
Configuring RSTP Compatibility ................................. 176
Network Bridge Parameters Configuration ................... 177
Configuring Forward Delay ............................... 177
Configuring Hello Time..................................... 178
Configuring Max Age ....................................... 179
Configuring Priority ......................................... 181
Configuring Default Cost .................................. 182
Configuring Transmission Hold Count ................. 183
Port Parameters Configuration ................................... 184
Configuring STP Cost ....................................... 184
Configuring STP/RSTP Priority........................... 185
Configuring RSTP Administration Cost ................ 186
Configuring RSTP Edge Port .............................. 187
Configuring RSTP BPDU Packet Type .................. 188
Configuring RSTP Point-to-Point Connection .................................................... 188
Configuring RSTP Protocol Migration .................. 189
Configuring SNTP ........................................................ 190
Security Management Configuration.............. 193
Network Security Configuration ..................................... 193
Port Location........................................................... 193
Enabling VBAS................................................ 193
Enabling PPPoE+............................................. 194
Enabling DHCP Option82 .................................. 195
Enabling SVLAN .............................................. 197
Enabling DHCP ........................................................ 198
Configuring Loop Check ............................................ 199
Configuring SSH ...................................................... 200
User Security Configuration........................................... 202
Binding IP Address................................................... 202
Configuring MAC Address Limit .................................. 202
Configuring MAC Address White List ........................... 203
Configuring MAC Address Black List............................ 204
Figures .......................................................... 207
Tables ........................................................... 209
Index ............................................................ 213
List of Glossary.............................................. 215
Preface
Purpose
This manual provides configurations (CLI) of the ZXDSL 9806H
(V2.0) ZTE Broadband Universal Access System.
Intended
Audience
This manual is intended for engineers and technicians who perform
operation activities on the ZXDSL 9806H (V2.0) ZTE Broadband
Universal Access System.
Prerequisite Skill
and Knowledge
To use this document effectively, users should have a basic concept
of xDSL technologies, telecommunications technology, and Access
Network.
What Is in This
Manual
Related
Documentation
This manual contains the following chapters:
Chapter
Summary
Chapter 1, General
Configuration
Introduces login mode, CLI operations and
network management configuration.
Chapter 2,
Narrowband Service
Configuration
Describes in-band channel configuration,
PSTN service configuration, IP FAX service
configuration and narrowband management
configuration.
Chapter 3,
Broadband Service
Configuration
Describes VLAN configuration, ADSL/ADSL2+
access service configuration, VDSL2 access
service configuration, SHDSL access service
configuration, multicast service configuration,
QoS configuration, static route configuration,
link aggregation configuration, RMON
configuration, spanning tree configuration and
SNTP configuration.
Chapter 4, Security
Management
Configuration
Describes network security configuration and
user security configuration.
The following documentation is related to this manual:
�
ZXDSL 9806H (V2.0) ZTE Broadband Universal Access System
Documentation Guide
�
ZXDSL 9806H (V2.0) ZTE Broadband Universal Access System
Feature Description Manual
�
ZXDSL 9806H (V2.0) ZTE Broadband Universal Access System
Product Description Manual
�
ZXDSL 9806H (V2.0) ZTE Broadband Universal Access System
Hardware Description Manual
�
ZXDSL 9806H (V2.0) ZTE Broadband Universal Access System
Expansion Manual
�
ZXDSL 9806H (V2.0) ZTE Broadband Universal Access System
Cutover Manual
�
ZXDSL 9806H (V2.0) ZTE Broadband Universal Access System
Troubleshooting Manual
Confidential and Proprietary Information of ZTE CORPORATION
i
ZXDSL 9806H Configuration Manual (CLI)
How to Get in
Touch
�
ZXDSL 9806H (V2.0) ZTE Broadband Universal Access System
Alarms Manual
�
ZXDSL 9806H (V2.0) ZTE Broadband Universal Access System
Routine Maintenance Manual
�
ZXDSL 9806H (V2.0) ZTE Broadband Universal Access System
Version Update Manual
�
ZXDSL 9806H (V2.0) ZTE Broadband Universal Access System
Network Management User Manual
�
ZXDSL 9806H (V2.0) ZTE Broadband Universal Access System
Configuration Manual (NetNumen)
�
ZXDSL 9806H (V2.0) ZTE Broadband Universal Access System
Command Manual (Volume I)
�
ZXDSL 9806H (V2.0) ZTE Broadband Universal Access System
Command Manual (Volume II)
�
ZXDSL 9806H (V2.0) ZTE Broadband Universal Access System
Command Manual (Volume III)
The following sections provide information on how to obtain support for the documentation and the software.
If you have problems, questions, comments, or suggestions regarding your product, contact us by e-mail at support@zte.com.cn. You can also call our customer support center
at (86) 755 26771900 and (86) 800-9830-9830.
ZTE welcomes your comments and suggestions on the quality and
usefulness of this document. For further questions, comments, or
suggestions on the documentation, you can contact us by e-mail
at doc@zte.com.cn; or you can fax your comments and suggestions to (86) 755 26772236. You can also browse our website
at http://support.zte.com.cn, which contains various interesting
subjects like documentation, knowledge base, forum and service
request.
Declaration of
RoHS Compliance
To minimize the environmental impact and take more responsibility to the earth we live, this document shall serve as formal
declaration that manufactured by ZTE CORPORATION is in compliance with the Directive 2002/95/EC of the European Parliament
- RoHS (Restriction of Hazardous Substances) with respect to the
following substances:
�
Lead (Pb)
�
Mercury (Hg)
�
Cadmium (Cd)
�
Hexavalent Chromium (Cr (VI))
�
PolyBrominated Biphenyls (PBB’s)
�
PolyBrominated Diphenyl Ethers (PBDE’s)
This declaration is issued based on our current level of knowledge.
Since conditions of use are outside our control, ZTE CORPORATION
makes no warranties, express or implied, and assumes no liability in
connection with the use of this information.
ii
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Chapter
1
General Configuration
Table of Contents
Login Mode ........................................................................ 1
CLI Operations ................................................................... 8
Network Management Configuration.....................................15
Login Mode
ZXDSL 9806H (V2.0) supports following management modes:
�
HyperTerminal
�
Telnet
�
NetNumen (Network Management System)
HyperTerminal
Short Description
Prerequisites
Perform this procedure to log into the device through HyperTerminal.
�
Install the device and connect the cable.
�
Power ON ZXDSL 9806H system.
�
Use console cable to connect the serial port on maintenance
console of computer with the console port on the front panel
of SCCB card.
Context
To log into the device through HyperTerminal, perform the following steps:
Steps
1. In Windows, click Start > All Programs > Accessories >
Communications > HyperTerminal. The system displays
the interface as shown in Figure 1.
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1
ZXDSL 9806H Configuration Manual (CLI)
FIGURE 1 NEW CONNECTION
2. Input the Name and click OK. The system displays the interface, as shown in Figure 2.
FIGURE 2 CONFIGURE CONNECTION
2
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Chapter 1 General Configuration
3. Select COM1 or COM2 according to the connection. Click OK.
The system displays COM1 Properties interface, as shown in
Figure 3. Click Restore Defaults to select the default settings.
Click OK to complete the configuration.
FIGURE 3 COM1 PROPERTIES
4. If the system is running normally, the following login interface
displays on HyperTerminal. Enter login name and password
both as admin to connect to the system.
######################################################## #
#
#
#
Welcome to ZTE Full Service Access Platform
Press Return to get started
#
#
#
#
#
#
Copyright 2005-2009 , ZTE Co.,Ltd.
#
#
#
#######################################################
Login:admin
Password:
9806>en
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ZXDSL 9806H Configuration Manual (CLI)
Please input password:
9806#
5. To start configuring the data, enter into the configuration mode
by entering enable command after the 9806> prompt. The
password is admin.
END
Result
OF STEPS
The log into the device through HyperTerminal is successful.
Telnet
Short Description
Prerequisites
Context
Steps
Perform this procedure to log into device using Telnet.
�
In-band and out-of-band NMS IP address is configured.
�
Maintenance console computer can ping in-band/out-of-band
IP address of the device.
To log into the device using Telnet, perform the following steps:
1. In Windows, click Start > Run. The Run interface appears
as shown in Figure 4. In the interface, input telnet x.x.x.x (
x.x.x.x is NE IP address). Click OK to start Telnet client.
FIGURE 4 RUN TELNET
2. If the connection is normal, input admin as login and password
to log into the device to configure data.
#######################################################
#
#
#
Welcome to ZTE Full Service Access Platform
#
#
#
#
Press Return to get started
#
#
#
#
Copyright 2005-2009 , ZTE Co.,Ltd.
#
#
#
#######################################################
Login:admin
Password:
9806>en
4
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Chapter 1 General Configuration
Please input password:
9806#
END
Result
OF STEPS
Logging into the device using Telnet is successful.
NetNumen
Short Description
Prerequisites
Context
Steps
Perform this procedure to manage the device through NetNumen
NMS.
�
The database and NMS are installed.
�
In-band or out-of-band IP address is configured.
�
The NMS server can ping in-band/out-of-band IP address of
the device.
To manage the device through NetNumen NMS, perform the following steps:
1. Run database.
2. Configure database in NMS configuration center.
3. Add device type in NMS configuration center.
4. Initialize database.
5. Start NMS server.
6. Start NMS client.
7. Create NE.
8. Manage NE.
END
Result
Example
OF STEPS
9806H can be managed through NetNuemen.
The following example displays how to manage 9806H through
NetNumen:
1. Run NMS database.
Note:
Database generally runs automatically.
2. Click Start > All Programs > NetNumen N31 > Tools >
NetNumen N31 Config Center. The NetNumen Config
Center interface appears. Select Database Type as MS
SQL Server from the drop-down list. Configure database in
Database Configuration interface, as shown in Figure 5.
After configuration, click Save.
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ZXDSL 9806H Configuration Manual (CLI)
FIGURE 5 NETNUMEN CONFIG CENTER
After configuring database, click Test Connection to test the
connection status between NMS server and database. Click
Optimize to optimize database.
3. In NetNumen Config Center interface, select NE Module to
add device type. Select DSL Product and Access Gateway
Product. Click Save, as shown in Figure 6.
FIGURE 6 ADD NE
4. Click Start > All Programs > NetNumen N31 > Tools >
NetNumen N31 Init Database to initialize database.
5. Click Start > All Programs > NetNumen N31 > NetNumen
N31 Server to start NMS server, as shown in Figure 7.
6
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Chapter 1 General Configuration
FIGURE 7 NMS SERVER
6. Click Start > All Programs > NetNumen N31 > NetNumen
N31 Client to start NMS client, as shown in Figure 8.
FIGURE 8 NMS CLIENT
7. In NMS client interface, right-click Topology Tree Root. Select Create NE. In the Management-Create interface, select
ZXDSL 9806H in NE Type and configure NE parameters, as
shown in Figure 9. After configuration, click Create to create
NE. The created NE is displayed in NMS client interface.
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ZXDSL 9806H Configuration Manual (CLI)
FIGURE 9 CREATE NE
8. After NE is successfully created, right-click NE in client topology. Select Rack to open 9806H rack. 9806H can be managed
through NetNumen NMS.
Postrequisite
Configure 9806H services through NetNumen NMS.
CLI Operations
This topic includes the following:
�
Overview
�
Operation Features
�
General Operations
Overview
ZXDSL 9806H supports two maintenance modes: Network management and CLI.
�
Network management: The NMS NetNumen N31 system provides GUI for operation and maintenance.
�
CLI: CLI system provides command line input interface for
maintenance. Users can log in to the system through HyperTerminal or Telnet.
This manual describes basic CLI operations.
8
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Chapter 1 General Configuration
Operation Features
This topic introduces ZXDSL 9806H CLI operation features.
Overview
Figure 10 shows methods for entering different command modes.
FIGURE 10 COMMAND MODES
Note:
�
Execute the exit command to exit from the current command
mode.
�
Execute the quit command to exit from Telnet client from any
mode.
�
Execute the disable command to go back to the operator mode
from administrator mode.
�
By default, the command line prompt uses 9806 as the system host name (Execute the system hostname command to
modify it).
�
The contents in brackets shows the current command mode.
To avoid illegal access, the system provides various command
modes for users at different levels. Users who are at different
levels execute different commands even if they enter into the
same command mode, avoiding illegal access.
Intelligent Match
For convenience, ZXDSL 9806H supports intelligent match. When
inputting a command, the user can only input the key character
and press Tab to get the whole command. For instance, to get the
enable command, the user can input en or ena and press Tab.
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ZXDSL 9806H Configuration Manual (CLI)
Note:
If there is no response when the user press Tab, the reason may
be:
1. Wrong key character
For instance, input acv and press Tab for the activate-versi
on. There is no response.
2. Key character collision
For instance, input re and press Tab. There is no response.
There are two commands starting with re: reboot command
and reset command. The system cannot give intelligent
match. It gives a prompt for selection.
Edit Function
The system support edit in multiple lines. For each command, the
maximum length is 255 characters.
Table 1 describes edit functions.
TABLE 1 EDIT FUNCTIONS
10
Key
Function
Common keys.
Insert to the cursor space and
move the cursor to the right.
BackSpace
Delete the character before the
cursor and the cursor moves one
character space forward. The
cursor stops when it goes to the
line start.
←> or <Ctrl+B>
<←
The cursor moves one character
space to the left.
→> or <Ctrl+F>
<→
The cursor moves one character
space to the right.
<Ctrl+A>
The cursor goes to the line start.
<Ctrl+D> or Delete
Delete the character behind the
cursor and the cursor moves one
character space backward.
<Ctrl+U>
Delete all characters before the
cursor and the cursor goes to the
line start.
<Ctrl+K>
Delete all characters behind the
cursor and the cursor goes to the
line end.
↑> and <↓
↓>
<↑
Display history command. Or,
press <Ctrl+P> to show the
previous command.
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Chapter 1 General Configuration
Note:
Common keys indicate characters, numbers and punctuation keys.
Help Function
ZXDSL 9806H CLI system provides simple help information to
users. Users can input ? to get Help information.
�
Input ? in any mode. The system shows all system commands
in this mode.
For instance, input ? in operator mode to get all command
lines in operator mode.
9806>
enable
logout
quit
show
telnet
user
�
-
Enter the privileged mode
Exit the login state
Exit the login state
Show running system information
Open a TELNET connection
User management
Input a command name and press space key and press ?. The
system shows the next command character and the command
parameters.
For instance, input show vlan command in broadband global
configuration mode, press space key and press ?. The help
information is shown as follows:
9806(config)# show vlan
cross-connection
- Show vlan cross connection
1..4094
- vlan-list
<cr>
�
Input ? behind the key character. The system shows commands starting with the key character in the selected command
mode.
For instance, input re in administrator mode and press ?. The
system shows commands starting with re in administration
mode.
9806H# re
reboot
reset
Display Function
Sometimes, there is much system information which cannot be
displayed in one screen. For convenience, the system supports
Pause function. The user can stop display when the information is
over one screen.
Note:
By default, a computer’s own HyperTerminal software supports
24–line display in one screen.
CLI system supports two display modes, as described in Table 2.
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ZXDSL 9806H Configuration Manual (CLI)
TABLE 2 DISPLAY FUNCTION
Saving and
Querying History
Command
Key
Function
Q
Stop displaying and terminate the
operation.
SPACE
Continue displaying the next
screen.
CLI system saves history commands automatically. Users can execute history command repeatedly. History command record is
only valid to the existing user. When the user logs in again, the
history commands are cleaned up.
Execute the show history command to show history command.
9806H# show history
1 ena
2 show run
3 configure
4 add-vlan 2-48
5 show vlan
6 vlan 2-48 4/1-24 untag one-to-one
7 show vlan
8 show vlan cross-connection
9 show interface 4/1
Prompt
Information
If the command is wrong, the system gives a prompt.
Table 3 describes common prompts.
TABLE 3 PROMPT INFORMATION
Prompt
Cause
Bad command
The command is not found.
Invalid parameter
Parameter is invalid.
Param out of range
Parameter exceeds the value
range.
Missing parameter
Parameter is missing.
Incomplete command
Command is incomplete.
Ambiguous parameter
Command is ambiguous.
General Operations
This topic introduces general operations on ZXDSL 9806H in CLI
mode.
Querying Version
Execute the show version command to show boot, main control
card and service card information.
9806# show version
CardType Type VerNo VerLen Status BuildTime
State
FileName
-------------------------------------------------------------------SCCB MVER V2.0.0P1T1 5517514 VALID 20080804155929 backup sccb.bin
12
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Chapter 1 General Configuration
SCCB SVER V2.0.0P1T1 1755264 VALID 20080804155931 backup SCCB_SV.bin
SCCB FW
V2.0.0T5
535984 VALID 20080721151026 backup SCCB_FW.bin
SCCB MVER V2.0.0T5 5511385 VALID 20080721151022 active sccbv2t5.bin
Current Boot Info:
SCCB BOOT V2.0.0P1T1
Querying System
Trap Information
375376
VALID
20080804160005 active
Execute the show trap-buffer record command to show system
alarms, process and status.
9806#show trap-buffer record
2008-06-26 05:55:02 Slot 5 CPU temperature
2008-06-26 05:54:30 Slot 5 CPU temperature
2008-06-26 03:52:25 Slot 5 CPU temperature
2008-06-26 03:52:15 Slot 5 CPU temperature
2008-06-26 03:51:41 Slot 5 CPU temperature
2008-06-26 02:20:42 System cold start.
has been normal.
is higher than threshold.
has been normal.
is higher than threshold.
has been normal.
Querying Main
Control Card CPU
and Memory
Execute the show card slot 5 command to show main control
card CPU and memory utilization.
Configuring
System Time
Execute the time command to configure system time. Execute
the show time command to show system time.
9806# show card slot 5
Shelf No
: 1
Slot No
: 5
Status
: Inservice
Board Type
: SCCB
PortNumber
: 2
HardVer
: 080100
SoftVer
: V2.0.0T5
LastChange
:
Cpu Load Threshold
: 80
Cpu Load
: 68
Memory Load Threshold
: 80
Memory Load
: 45
---------------------------------------------------------------
9806(config)# time 2008-10-07 09:27:50
9806(config)# show time
System Time: 2008-10-07 09:27:57
Note:
Configuring
System Name
�
System time format is: yyyy-mm-dd HH:MM:SS.
�
System time is valid once it is configured.
�
The system has a strict check on time setting. Illegal setting
is not permitted.
Execute the system hostname command to configure system
name.
9806(config)# system hostname ZXDSL9806H
ZXDSL9806H(config)#
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ZXDSL 9806H Configuration Manual (CLI)
Note:
Configuring Save
Interval
�
The default system name is 9806.
�
System name is valid once it is configured.
�
The command line interface prompt is affected if system name
is modified.
Execute the save-interval command to configure save interval.
9806(config)# save-interval 24
Note:
The unit for time interval is hour.
Enabling Trap
Function
Execute the system trap-control enable command to enable
system trap function. Execute the show system command to
show system trap status. In interface configuration mode, execute
the trap-control enable command to enable port trap function.
Execute the show interface slot/port command to show port
trap status.
Enable system trap function.
9806(config)# system trap-control enable
9806(config)# show system
Running Time
: 0day(s), 21hour(s), 20minute(s), 56second(s)(76856)
Rack
: 0
Frame
: 0
Location
:
Contact
:
TrapControl
: enable
Otlt status
: disable
Otlt vlan
: NULL
System vlan-mode : traditional
----------------------------------------------Telnet connection : 10.63.10.105:1631
Enable port trap function.
9806(cfg-if-ge-5/1)# trap-control enable
9806(cfg-if-ge-5/1)# show interface 5/1
Interface
PVID
1
: 5/1
AcceptFrames
admitall
PortLockStatus
AdminStatus
TrapControl
LinkStatus
FlowControl
FlowControlActual
SpeedSet
SpeedActual
DuplexSet
DuplexActual
BroadCastRateLimit
FloodRateLimit
MulticastRateLimit
DHCP Packet Limit
IGMP Packet Limit
IfType
14
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:
:
:
:
:
:
:
:
:
:
:
:
:
:
:
:
unlock
enable
enable
up
auto
force-disable
auto
1000M
auto
full
1024kbps
1024kbps
1024kbps
2048 pps
2048 pps
EPON_PORT_TYPE
Chapter 1 General Configuration
Testing Network
Status
Execute the ping command to test network.
9806# ping 10.63.10.105
PING 10.63.10.105: 56 data bytes
64 bytes from 10.63.10.105: icmp_seq=0.
64 bytes from 10.63.10.105: icmp_seq=1.
64 bytes from 10.63.10.105: icmp_seq=2.
64 bytes from 10.63.10.105: icmp_seq=3.
64 bytes from 10.63.10.105: icmp_seq=4.
----10.63.10.105 PING Statistics---5 packets transmitted,
5 packets received,
0% packet loss
round-trip (ms) min/avg/max = 0/2/10
time=10. ms
time=0. ms
time=0. ms
time=0. ms
time=0. ms
Network Management
Configuration
This topic includes the following:
�
Overview
�
Configuring In-band NMS
�
Configuring Out-of-band NMS
�
Configuring Network Management ACM
Overview
Features
9806H device has the following features:
�
Supports NMS interface
�
Uses SNMP to communicate with NMS
�
Supports ZTE NetNumen N31 NMS
NetNumen N31 can manage and maintain 9806H device. 9806H
sends status information to NetNumen N31 through “Trap” message. The status information includes configuration changes or
alarms.
Configuring In-band NMS
Short Description
Through this configuration, NetNumen can manage and maintain
9806H device in in-band NMS mode. In in-band mode, NMS can
inter-exchange information through the service channel of the device. It is flexible in networking without any auxiliary equipment,
which saves users’ costs. However, it is not easy for maintenance.
Networking
Diagram
The in-band NMS configuration networking diagram is shown in
Figure 11.
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ZXDSL 9806H Configuration Manual (CLI)
FIGURE 11 IN-BAND NMS NETWORK CONFIGURATION DIAGRAM
NetNumen NMS manages and maintains 9806H device through
uplink interface in in-band NMS mode. On 9806H device, add a
defaulted route to NetNumen and configure the relevant SNMP parameters.
Data Configuration
Table 4 lists the in-band NMS data configuration parameter example.
TABLE 4 IN-BAND NMS DATA CONFIGURATION
Item
Data
NMS VLAN
VLAN ID: 100
Uplink Interface
Port number: 5/1
Port type: GE
9806H In-band NMS Interface
IP address: 192.168.1.10/24
NetNumen NMS Server
IP address: 10.61.84.66
Type: ZTE-NMS
Default Route
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Next hop gateway IP address:
192.168.1.254
Chapter 1 General Configuration
Configuration
Flow
The in-band NMS configuration flow diagram is shown in Figure 12.
FIGURE 12 IN-BAND NMS CONFIGURATION FLOW DIAGRAM
Context
Steps
To configure in-band NMS, perform the following steps:
1. Log into 9806H device.
Input username and password (use admin as username and
password) to log into the system. Execute enable command
to enter into user mode. Execute configure command to enter
into global configuration mode.
Login:admin
Password:
9806>enable
Please input password:
9806# configure
9806(config)#
2. (Optional) Configure in-band MAC address.
An unique MAC address is configured in factory. It is no need
to configure it again. If it is necessary to configure other MAC
addresses, execute mac inband command.
3. Configure NMS VLAN.
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ZXDSL 9806H Configuration Manual (CLI)
In global configuration mode, execute add-vlan command to
configure NMS VLAN.
9806(config)#add-vlan 100
4. Add uplink interface to NMS VLAN.
In global configuration mode, execute vlan command to add
uplink interface to NMS VLAN in tag mode.
9806(config)#vlan 100 5/1 tag
5. In global configuration mode, execute ip subnet command to
configure in-band IP address.
9806(config)#ip subnet 192.168.1.10 255.255.255.0 100 name wangguan
Note:
The IP address of in-band and out-of-band NMS must be in a
different network segment.
6. Configure NMS server IP address.
In global configuration mode, execute snmp-server host
command to configure NMS server IP address.
9806(config)#snmp-server host 10.61.84.66 zte-nms
Note:
In the real networking, there can be the third-party system that
receives the Trap reported from NE. Therefore, it is necessary
to decide whether to configure SNMP server as ZTE-NMS.
7. (Optional) Configure SNMP community.
Configuration is not needed as the system defaults public and
private community. If it is needed, execute snmp-server
community command.
8. (Optional) Switch ON Trap alarm.
By default, Trap alarm ON. It does not need any configuration.
If it is needed, execute system trap-control command.
9. (Optional) Configure default route.
If NE and NMS server is not in the same network segment in
networking, execute ip route command to configure default
route.
9806(config)#ip route 0.0.0.0 0.0.0.0 192.168.1.254
10. Save configuration.
In user mode, execute save command to save the system configuration.
9806#save
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Chapter 1 General Configuration
End of Steps
Result
NetNumen NMS can manage 9806H device normally.
Configuring Out-of-band NMS
Through this configuration, NetNumen can manage and maintain
9806H device in out-of-band NMS mode. The out-of-band NMS
mode has the following features:
Networking
Diagram
�
Using non-service channel to transmit management information.
�
Keeping the management channel and service channel separate.
�
Providing more reliable device management channel than
in-band NMS mode.
�
Capable of locating the network device information in time and
performing supervision when 9806H device is faulty.
The out-of-band NMS networking configuration diagram is shown
in Figure 13.
NetNumen NMS manages and maintains 9806H device in out-ofband NMS mode through out-of-band NMS interface. On 9806H
device, add the default route to NetNumen NMS and configure
SNMP relevant parameters.
FIGURE 13 OUT-OF-BAND NMS NETWORK CONFIGURATION DIAGRAM
Data Configuration
Table 5 lists the out-of-band NMS data configuration parameter
example.
TABLE 5 OUT-OF-BAND NMS DATA CONFIGURATION
Item
Data
9806H out-of-band NMS interface
IP address: 192.168.10.1/24
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ZXDSL 9806H Configuration Manual (CLI)
Configuration
Flow
Item
Data
NetNumen NMS server
IP address: 10.63.10.238/24
Default route
Next hop gateway IP address:
192.168.10.254
The out-of-band NMS configuration flow is shown in Figure 14.
FIGURE 14 OUT-OF-BAND NMS CONFIGURATION FLOW DIAGRAM
Note:
The data configuration here introduced is for 9806H side. For the
whole network, the relevant data configuration must be made on
router.
Context
Steps
To configure out-of-band NMS, perform the following steps:
1. Logging into 9806H device.
Log into the device with the default username (admin) and
password (admin). Execute enable command to enter into
user mode. Execute configure command to enter into global
configuration mode.
Login:admin
Password:
9806>enable
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Chapter 1 General Configuration
Please input password:
9806# configure
9806(config)#
2. Configuring out-of-band MAC address.
An unique MAC address is configured in factory. It does not
need any configuration. If a configuration is needed, execute
mac outband command to configure other MAC addresses.
3. In global configuration mode, execute ip host command to
configure out-of-band IP address.
9806(config)#ip host 192.168.10.1 255.255.255.0
Note:
The IP addresses of in-band and out-of-band NMS must be
configured in a different network segment.
4. Configuring NMS server IP address.
In global configuration mode, execute snmp-server host
command to configure NMS server IP address
9806(config)#snmp-server host 10.63.10.238
5. (Optional) Configuring SNMP community.
public and private community is the system default variables. It
does not need any configuration. If a configuration is needed,
execute snmp-server community command.
6. Switching ON Trap alarm.
By default, Trap alarm ON. It does not need any configuration.
If a configuration is needed, execute system trap-control
command.
7. (Optional) Configuring default route.
If NE and NMS server is not in the same network segment in
networking, execute ip route command to configure default
route.
9806(config)# ip route 0.0.0.0 0.0.0.0 192.168.10.254
8. Saving configuration.
In user mode, execute save command to save system configuration.
9806#save
End of Steps
Result
NetNumen NMS can manage 9806H device normally.
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Configuring Network Management
ACM
Short Description
Perform the procedure to configure NMS ACM.
Prerequisite
Log in to the device through HyperTerminal, Telnet or SNMP NMS
mode.
Context
Configuring NMS ACM aims to restrict external devices to visit
9806H device.
In the real networking application, usually the device is configured
with an in-band NMS IP address and connected to public network
or operation and maintenance network through uplink interface.
All users in the network can visit the device. However, for the
sake of safe operation of the device, only a few users are allowed
to configure the device. Therefore, the function is realized on the
device to control users’ access to device NMS module. It is named
as NMS ACM (Access Control List for Management).
ACM enable-switch can be configured on the device. If ACM function is configured as enable, the unmatched IP packets in the ACM
list are discarded. For the source IPaddresses that are not in ACM
list, the device does not respond to the ARP request packets and
ICMP packets, which prevents the illegal device from obtaining the
MAC address and IPaddress of the local device and launching attacks.
Steps
1. Configure ACM entry.
2. Enable ACM function.
Note:
�
�
During ACM configuration, make sure to configure the IP
address of the NMS computer before enabling ACM function. Otherwise, once function is enabled, it is impossible
to use Telnet or SNMP NMS terminal to manage the device.
ACM can be configured with 16 entries maximum.
End of Steps
Result
Example
NMS ACM is configured successfully.
The following examples display how to configure ACM:
�
Permit all IP addresses in the “1010.10.0” network segment to
visit the device through Telnet or SNMP.
9806(config)# manage-access-list 1 permit source-ip 10.10.10.10/24
9806(config)# manage-access-list 2 deny any
9806(config)# manage-access-list enable
�
Permit the IP address “10.10.10.1” only to visit the device
through Telnet or SNMP.
9806(config)# manage-access-list 1 permit source-ip 10.10.10.1/32
9806(config)# manage-access-list 2 deny any
9806(config)# manage-access-list enable
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Chapter 1 General Configuration
�
Permit the IP address “10.10.10.1” only to visit the device
through Telnet.
9806(config)# manage-access-list 1 permit source-ip 10.10.10.1/32
ip-type tcp
dest-port 23
9806(config)# manage-access-list 2 deny any
9806(config)# management-access-list enable
�
Permit the IP address “10.10.10.1” only to visit the device
through SNMP.
9806(config)# manage-access-list 1 permit source-ip 10.10.10.1/32
ip-type udp
dest-port 161
9806(config)# manage-access-list 2 deny any
9806(config)# manage-access-list enable
Postrequisite
9806H device can be logged into through ACM-specified NMS devices and modes.
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ZXDSL 9806H Configuration Manual (CLI)
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Chapter
2
Narrowband Service
Configuration
Table of Contents
Configuring In-band Channel ..............................................25
PSTN Service Configuration.................................................27
IP Fax Service Configuration ...............................................36
Configuring Self-exchange .................................................45
Narrowband Management Configuration ...............................47
Configuring In-band Channel
Short Description
Prerequisite
Networking
Diagram
Perform this procedure to configure in-band channel.
Hardware is well connected.
Figure 15 shows the in-band networking diagram connecting NMS
and VoIP into IP network through the same channel.
FIGURE 15 IN-BAND NETWORKING DIAGRAM
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ZXDSL 9806H Configuration Manual (CLI)
Data Configuration
In-band channel configuration data is listed in Table 6.
TABLE 6 IN-BAND CHANNEL CONFIGURATION DATA
Item
Description
Data
9806H In-band NMS
NMS VLAN ID
1000
Uplink port
5/1
NMS IP address
172.16.234.101
NMS static route
gateway
172.16.234.254
VoIP VLAN ID
801
Uplink port
5/1
VoIP media IP address
202.109.228.2
VoIP default route
gateway
202.109.228.1
VoIP Service
Configuration
Flow
The in-band channel configuration flow is shown in Figure 16.
FIGURE 16 IN-BAND CHANNEL CONFIGURATION FLOW
26
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Chapter 2 Narrowband Service Configuration
Context
Note:
Before configuring in-band channel, use HyperTerminal to configure in-band channel on local console.
To configure in-band channel, perform the following steps:
Steps
1. Configure VoIP VLAN and add uplink port to VLAN in Tag mode.
9806(config)# add-vlan 801
9806(config)# vlan 801 5/1 tag
2. Configure in-band NMS VLAN and add uplink port to VLAN in
Tag mode.
9806(config)# add-vlan 1000
9806(config)# vlan 1000 5/1 tag
3. Configure VoIP voice IP and default route.
9806(config)# ip subnet 202.109.228.2 255.255.255.0 801 voip
9806(config)# ip route 0.0.0.0 0.0.0.0 202.109.228.1
4. (Optional) Configure NMS IP and static route.
9806(config)# ip subnet 172.16.234.101 255.255.255.0 1000
9806(config)# ip route 172.0.0.0 255.0.0.0 172.16.234.254
Note:
If NMS network and VoIP voice network are in different network, it is necessary to perform this step. If NMS network and
VoIP voice network are in the same network and network IP,
media IP and signal IP have the same IP address, it is not necessary to perform this step.
5. Ping SS.
6. Save configuration.
Right-click MP card in Rack interface. Select System Information. In the prompted System Configuration interface,
click Save To Flash. The Ask dialogue box appears. Click
Yes.
End of Steps
Result
In–band channel configuration is complete and 9806H can ping
NMS and SS.
PSTN Service Configuration
This topic includes the following:
�
Overview
�
Configuring PSTN Service
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ZXDSL 9806H Configuration Manual (CLI)
Overview
Service
Description
VoIP service is for compressing and packaging the traditional simulated voice signal and transmitting through IP divided exchange
network, which reduces the costs of voice service.
Service
Specifications
9806H provides voice access service through voice service card.
Table 7 list the port numbers in voice cards used in ZXDSL 9806H:
TABLE 7 VOICE SERVICE CARD SPECIFICATION
Card Type
Port Number
Remarks
ATLC
48
POTS user interface card
ATLA
24
POTS user interface card
Configuring PSTN Service
Short Description
Prerequisites
Networking
Diagram
Perform this procedure to configure PSTN service.
�
MG connects to MGC successfully. The status is normal.
�
PSTN user data corresponding to MG are configured at MGC
side.
�
Voice card ATLC is inserted in the specified slot.
Figure 17 shows the PSTN service access networking diagram.
FIGURE 17 PSTN SERVICE ACCESS NETWORKING DIAGRAM
28
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Chapter 2 Narrowband Service Configuration
Data Configuration
Table 8 describes PSTN service access data configuration.
TABLE 8 PSTN SERVICE ACCESS DATA CONFIGURATION
Item
Data
VoIP Service
SS
Configuration
Flow
User port
3/1 – 48
VoIP media IP address
202.109.228.2
VoIP default route
gateway
202.109.228.1
VoIP resource
RTP000 – RTP127
User Resource
USER096 - USER143
Type
ZTE SS
IP address
202.109.211.242
H.248 protocol port
number
2944
Interface register
mode
IP + PORT
Figure 18 shows PSTN service access configuration flow.
FIGURE 18 PSTN SERVICE ACCESS CONFIGURATION FLOW
Steps
To configure PSTN service access, perform the following steps:
1. Check MG.
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ZXDSL 9806H Configuration Manual (CLI)
Execute the get-mgbaseattr command to check MG IP.
9806(ag)# get-mgbaseattr
MGID: 1
PROTYPE: H248
VERSION: 1
ENCODETP: TEXT
MGIP: 202.109.228.2
MGMASK: 255.255.255.0
MGPORT: 2944
TRANSLAY: IP
TRANSPRO: UDP
DOMNAME:
MGINFO: USE IP
MGCID1: 1
MGCID2: 0
MGCID3: 0
MGCID4: 0
SELFEXCHANGE: disable
PROTECTCALL: disable
DISASTERPROT: disable
CURMGCID: 1
--------------------------------1 rows are effected
Execute the mod-mgip command to modify MG IP.
9806(ag)#mod-mgip oldip 202.109.228.2 newip 10.63.198.250
newmask 255.255.255.0
9806(ag)# get-mgbaseattr
MGID: 1
PROTYPE: H248
VERSION: 1
ENCODETP: TEXT
MGIP: 10.63.198.250
MGMASK: 255.255.255.0
MGPORT: 2944
TRANSLAY: IP
TRANSPRO: UDP
DOMNAME:
MGINFO: USE IP
MGCID1: 1
MGCID2: 0
MGCID3: 0
MGCID4: 0
SELFEXCHANGE: disable
PROTECTCALL: disable
DISASTERPROT: disable
CURMGCID: 1
2-7
--------------------------------------1 rows are effected
2. Configure MGC.
Execute the mod-mgc command to configure MGC.
9806(ag)# mod-mgc mgcid 1 mgctype 1 mgcip 202.109.211.242
mgcport 2944
Table 9 describes MGC parameters.
TABLE 9 MGC PARAMETERS
30
Parameter
Description
mgcid
MGC ID number
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Chapter 2 Narrowband Service Configuration
Parameter
Description
mgctype
MGC type, including:
–
1-ZTE
–
2-HW
–
3-CISCO
–
4-ALCATEL
–
5-NORTEL-MGCP
–
6-NORTEL-H248
mgcip
MGC IP
mgcport
MGC port number. Generally,
H.248 port is 2944.
domname
MGC domain name (optional)
md5info
MD5 encryption
mgcinfo
MGC uses IP address or domain
name
–
0-IP address
–
1-Domain name
3. Check VoIP route.
Execute the get-voip-config command to check VoIP route.
9806(ag)# get-voip-config
mgid: 1
type: media
ipaddr: 202.109.228.2
submask: 255.255.255.0
nexthop: 202.109.228.1
port: 10000
---------------------------------------------mgid: 1
type: control
ipaddr: 202.109.228.2
submask: 255.255.255.0
nexthop: 202.109.228.1
port: 2944
---------------------------------------------2 rows are effected
Execute the mod-voip-route command to modify MG route.
9806(ag)# mod-voip-route mgid 1 type 1 nexthop 10.63.198.1
9806(ag)# get-voip-config
mgid: 1
type: media
ipaddr: 10.63.198.250
submask: 255.255.255.0
nexthop: 10.63.198.1
port: 10000
------------------------------------------------mgid: 1
type: control
ipaddr: 10.63.198.250
submask: 255.255.255.0
nexthop: 10.63.198.1
port: 2944
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ZXDSL 9806H Configuration Manual (CLI)
------------------------------------------------2 rows are effected
Table 10 describes MG route parameters.
TABLE 10 MG ROUTE PARAMETERS
Parameter
Description
mgid
MG ID number
type
Route type, 1-Media route
nexthop
Next hop IP address
nexthopmac
Next hop MAC address
arptime
ARP learning time
4. Check narrowband user circuit Termination ID.
Note:
Narrowband circuit Termination ID corresponds to four user
slots. They are:
�
Slot 1: USER000-USER047
�
Slot 2: USER048-USER095
�
Slot 3: USER096-USER143
�
Slot 4: USER144-USER191
For ZXDSL 9806H, the default narrowband user circuit Termination ID is USER000-USER191.
Do not configure user circuit unless Termination ID is modified.
In this instance, the narrowband user circuit Termination ID on
SS is USER096-USER143, which corresponds to Slot 3. Therefore, it is unnecessary to modify Termination ID.
If the narrowband user circuit Termination ID is not consistent
with that on SS, delete it. Execute the following command to
add SLC user resource to be USER096-USER143.
9806(ag)# del-slctermid beginslot 3 num 48
9806(ag)# add-slctermid beginslot 3 num 48 tmidfix USER00 type 3
digitlen 3 begno 96 mgid 1
Table 11 describes narrowband user circuit Termination ID parameters.
TABLE 11 TERMINATION ID PARAMETERS
32
Parameter
Description
beginslot
Begin slot
beginindex
Begin index
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Chapter 2 Narrowband Service Configuration
Parameter
Description
num
User number
tmidfix
SLC user termination ID prefix
type
Termination ID type
–
1: USER0010010001USER00100100031
–
2: USER0-USER31
–
3: USER000-USER031
digitlen
Ending number digit length
begno
Begin number
mgid
MG ID
Note:
i.
TID cannot exceed 64 bytes. Generally, one system only
uses one Termination ID type.
ii. In practical situation, select the following Termination ID
type:
–
USER00100100000-USER00100100047
In USER00100100000-USER00100100047, ’001’ is unit
number, ’001’ is sunit number and ’00000-00047’ is circuit number.
–
USER0-USER47
USER0-USER47 is used when SS of Huawei is interconnected.
–
USER000 – USER047
USER000 – USER047 meets various demands of users.
5. Check VoIP resource Termination ID.
Note:
For ZXDSL 9806H, the default VoIP resource Termination ID is
RTP000–RTP127. Do not configure VoIP resource unless Termination ID is modified.
Execute the get-ipstermid command to view VoIP resource
Termination ID. In this instance, the VoIP resource Termination
ID on SS is RTP000–RTP127, which is the default Termination
ID. Therefore, it is unnecessary to modify Termination ID.
9806(ag)#get-ipstermid
circuit: 0
termid: RTP000
mgid: 1
----------------------------------------------------
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ZXDSL 9806H Configuration Manual (CLI)
circuit: 1
termid: RTP001
mgid: 1
---------------------------------------------------circuit: 2
termid: RTP002
mgid: 1
----------------------------------------------------circuit: 3
termid: RTP003
mgid: 1
---------------------------------------------------circuit: 4
termid: RTP004
mgid: 1
---------------------------------------------------circuit: 5
termid: RTP005
mgid: 1
---------------------------------------------------circuit: 6
termid: RTP006
mgid: 1
---------------------------------------------------circuit: 7
termid: RTP007
mgid: 1
---------------------------------------------------circuit: 8
termid: RTP008
mgid: 1
---------------------------------------------------circuit: 9
termid: RTP009
mgid: 1
---------------------------------------------------circuit: 10
termid: RTP010
mgid: 1
If the VoIP resourceTermination ID is not consistent with that
on SS, delete it. Execute the following command to add ISP
user resource to be RTP0000-RTP0127.
9806(ag)# del-ipstermid
9806(ag)# add-ipstermid tmidfix RTP type 3 digitlen 4 mgid 1
Table 12 describes VoIP resource Termination ID parameters.
TABLE 12 VOIP RESOURCE TERMINATION ID PARAMETERS
Parameter
Description
tmidfix
IPS VoIP resource Termination
ID prefix
type
Termination ID type
digitlen
34
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–
1: RTP00200100000USER00200100127
–
2: RTP0-RTP127
–
3: RTP000-RTP127
Ending number digit length
Chapter 2 Narrowband Service Configuration
Parameter
Description
begno
Begin number
mgid
MG ID
Note:
i.
SCCB card has a built-in VoIP sub-card, which supports
128–port VoIP resource.
ii. It is unnecessary to set the number when IPS resource is
added. By default, the IPS resource is 128.
iii. TID cannot exceed 64 bytes. Generally, one system only
uses one Termination ID type.
–
If type 1 is selected, the Termination ID format is
RTP00200100000-RTP00200100127. In which, ’002’ is
unit number, ’001’ is sunit number and ’00000-00127’
is circuit number.
–
If type 2 is selected, the Termination ID format is
RTP0–RTP127.
–
If type 3 is selected, the Termination ID format is
RTP000–RTP127.
6. Check H.248 status.
Execute the h248state command to check H.248 status.
9806(ag)# h248state
H248-SS link status(H248Trkplink) : OK. MGCid is 1.
If the system shows OK, it indicates that data is correctly configured and narrowband service is normal.
7. Save configurations.
Execute the save command to save configurations.
9806# save
End of Steps
Result
PSTN service is configured successfully.
�
The calling party hooks off and hears dialing tone.
�
The calling party dials the called number. The called party can
hear the ringing tone and the calling party can hear ringingback tone.
�
The calling party can talk with the called party.
�
The calling party hears busy tone after the called party hooks
on.
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ZXDSL 9806H Configuration Manual (CLI)
IP Fax Service Configuration
This topic includes the following:
�
Overview
�
Configuring IP FAX Service
Overview
Introduction
Service
Specifications
IP fax is similar to Internet telephony, but it is optimized for transmitting fax data. IP fax generally works by sending fax data over
the Internet to strategically placed fax servers. Once a fax arrives
at the server closest to the final destination, it is transferred onto
normal telephone lines and transmitted like a normal fax. Because
the data is transmitted over the Internet for most of the journey,
the total cost of transmission is much less than if it traveled over
long-distance telephone lines like conventional faxes.
9806H supports the following fax modes:
�
Full-control T.30
�
Full-control T.38
�
T.30 Transparent
�
T.38 Transparent
It is recommended to use full-control mode.
Configuring IP Fax Service
Short Description
Prerequisites
36
Perform this procedure to configure IP fax service access.
�
The communication between MG and MGC is normal.
�
Voice service port works normally.
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Chapter 2 Narrowband Service Configuration
Networking
Diagram
Figure 19 shows the IP fax service access networking diagram.
FIGURE 19 PSTN SERVICE ACCESS NETWORKING DIAGRAM
Data Configuration
Table 13 describes IP fax service access data configuration.
TABLE 13 IP FAX SERVICE ACCESS DATA CONFIGURATION
Item
Data
IP Fax Service
SS
User port
3/1 – 48
VoIP media IP address
202.109.228.2
VoIP default route
gateway
202.109.228.1
VoIP resource
RTP000 – RTP127
Fax mode
T.30
Type
ZTE SS
IP address
202.109.211.242
H.248 protocol port
number
2944
Interface register
mode
IP + PORT
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Configuration
Flow
Figure 20 shows IP fax service access configuration flow.
FIGURE 20 IP FAX SERVICE ACCESS CONFIGURATION FLOW
Steps
To configure IP fax service, perform the following steps:
1. Check MG.
Execute the get-mgbaseattr command to check MG IP.
9806(ag)# get-mgbaseattr
MGID: 1
PROTYPE: H248
VERSION: 1
ENCODETP: TEXT
MGIP: 202.109.228.2
MGMASK: 255.255.255.0
MGPORT: 2944
TRANSLAY: IP
TRANSPRO: UDP
DOMNAME:
MGINFO: USE IP
MGCID1: 1
MGCID2: 0
MGCID3: 0
MGCID4: 0
SELFEXCHANGE: disable
PROTECTCALL: disable
DISASTERPROT: disable
CURMGCID: 1
--------------------------------1 rows are effected
Execute the mod-mgip command to modify MG IP.
9806(ag)#mod-mgip oldip 202.109.228.2 newip 10.63.198.250
newmask 255.255.255.0
9806(ag)# get-mgbaseattr
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MGID: 1
PROTYPE: H248
VERSION: 1
ENCODETP: TEXT
MGIP: 10.63.198.250
MGMASK: 255.255.255.0
MGPORT: 2944
TRANSLAY: IP
TRANSPRO: UDP
DOMNAME:
MGINFO: USE IP
MGCID1: 1
MGCID2: 0
MGCID3: 0
MGCID4: 0
SELFEXCHANGE: disable
PROTECTCALL: disable
DISASTERPROT: disable
--------------------------------------1 rows are effected
2. Configure MGC.
Execute the mod-mgc command to configure MGC.
9806(ag)# mod-mgc mgcid 1 mgctype 1 mgcip 202.109.211.242
mgcport 2944
Table 14 describes MGC parameters.
TABLE 14 MGC PARAMETERS
Parameter
Description
mgcid
MGC ID number
mgctype
MGC type, including:
–
1-ZTE
–
2-HW
–
3-CISCO
–
4-ALCATEL
–
5-NORTEL-MGCP
–
6-NORTEL-H248
mgcip
MGC IP
mgcport
MGC port number. Generally,
H.248 port is 2944.
domname
MGC domain name (optional)
md5info
MD5 encryption
mgcinfo
MGC uses IP address or domain
name
–
0-IP address
–
1-Domain name
3. Check VoIP route.
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Execute the get-voip-config command to check VoIP route.
9806(ag)# get-voip-config
mgid: 1
type: media
ipaddr: 202.109.228.2
submask: 255.255.255.0
nexthop: 202.109.228.1
port: 10000
---------------------------------------------mgid: 1
type: control
ipaddr: 202.109.228.2
submask: 255.255.255.0
nexthop: 202.109.228.1
port: 2944
---------------------------------------------2 rows are effected
Execute the mod-voip-route command to modify MG route.
9806(ag)# mod-voip-route mgid 1 type 1 nexthop 10.63.198.1
9806(ag)# get-voip-config
mgid: 1
type: media
ipaddr: 10.63.198.250
submask: 255.255.255.0
nexthop: 10.63.198.1
port: 10000
------------------------------------------------mgid: 1
type: control
ipaddr: 10.63.198.250
submask: 255.255.255.0
nexthop: 10.63.198.1
port: 2944
------------------------------------------------2 rows are effected
Table 15 describes MG route parameters.
TABLE 15 MG ROUTE PARAMETERS
Parameter
Description
mgid
MG ID number
type
Route type, 1-Media route
nexthop
Next hop IP address
nexthopmac
Next hop MAC address
arptime
ARP learning time
4. Configure port fax mode.
By default, the port fax mode is T.30. In this instance, the
fax mode is T.30. Therefore, it is unnecessary to configure fax
mode.
Execute the get-slcattrib command to check port fax mode.
9806(ag)# get-slcattrib slot 3
slot 3
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circuit: 1
dftevent: HANG OFF
faxmode: T.30
usermode: H248
qovsid: 0
currsrv: IDLE
cidtype: FSK
imtype: NORMAL
userclass: NORMAL
ecenable: default
pkttopcm: 0
pcmtopkt: 0
-------------------------------------------circuit: 2
dftevent: HANG OFF
faxmode: T.30
usermode: H248
qovsid: 0
currsrv: IDLE
cidtype: FSK
imtype: NORMAL
userclass: NORMAL
ecenable: default
pkttopcm: 0
pcmtopkt: 0
-------------------------------------------circuit: 3
dftevent: HANG OFF
faxmode: T.30
usermode: H248
qovsid: 0
currsrv: IDLE
cidtype: FSK
imtype: NORMAL
userclass: NORMAL
ecenable: default
pkttopcm: 0
pcmtopkt: 0
-------------------------------------------circuit: 4
dftevent: HANG OFF
faxmode: T.30
usermode: H248
qovsid: 0
currsrv: IDLE
cidtype: FSK
imtype: NORMAL
userclass: NORMAL
ecenable: default
pkttopcm: 0
pcmtopkt: 0
-------------------------------------------circuit: 5
dftevent: HANG OFF
faxmode: T.30
usermode: H248
qovsid: 0
currsrv: IDLE
cidtype: FSK
imtype: NORMAL
ecenable: default
pkttopcm: 0
pcmtopkt: 0
-------------------------------------------circuit: 6
dftevent: HANG OFF
faxmode: T.30
usermode: H248
qovsid: 0
currsrv: IDLE
cidtype: FSK
imtype: NORMAL
userclass: NORMAL
ecenable: default
pkttopcm: 0
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pcmtopkt: 0
-------------------------------------------circuit: 7
dftevent: HANG OFF
faxmode: T.30
usermode: H248
qovsid: 0
currsrv: IDLE
cidtype: FSK
imtype: NORMAL
userclass: NORMAL
ecenable: default
pkttopcm: 0
pcmtopkt: 0
--------------------------------------------
Execute the mod-slcattrib command to modify port fax mode.
The fax mode of all ports of slot 3 is modified to be T.38.
9806(ag)# mod-slcattrib slot 3 faxmode 1
Table 16 describes port fax mode parameters.
TABLE 16 PORT FAX PARAMETERS
Parameter
Description
slot
Slot number
faxmode
Fax mode, including:
–
0 - T.30
–
1 - T.38
–
2 - RTP
–
3 - FAST MODEM
–
4 - FAST FAX
–
5 - Low speed Modem
–
6 - IP Modem
–
13 - V34
circuitb
Begin circuit number
circuite
End circuit number
5. Check VoIP resource Termination ID.
Note:
For ZXDSL 9806H, the default VoIP resource Termination ID is
RTP000–RTP127. Do not configure VoIP resource unless Termination ID is modified.
Execute the get-ipstermid command to view VoIP resource
Termination ID. In this instance, the VoIP resource Termination
ID on SS is RTP000–RTP127, which is the default Termination
ID. Therefore, it is not necessary to modify the Termination ID.
9806(ag)#get-ipstermid
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circuit: 0
termid: RTP000
mgid: 1
---------------------------------------------------circuit: 1
termid: RTP001
mgid: 1
---------------------------------------------------circuit: 2
termid: RTP002
mgid: 1
----------------------------------------------------circuit: 3
termid: RTP003
mgid: 1
---------------------------------------------------circuit: 4
termid: RTP004
mgid: 1
---------------------------------------------------circuit: 5
termid: RTP005
mgid: 1
---------------------------------------------------circuit: 6
termid: RTP006
mgid: 1
---------------------------------------------------circuit: 7
termid: RTP007
mgid: 1
---------------------------------------------------circuit: 8
termid: RTP008
mgid: 1
---------------------------------------------------circuit: 9
termid: RTP009
mgid: 1
---------------------------------------------------circuit: 10
termid: RTP010
mgid: 1
If the VoIP resource Termination ID is not consistent with that
on SS, delete it. Execute the following commands to add ISP
user resource to be RTP0000-RTP0127.
9806(ag)# del-ipstermid
9806(ag)# add-ipstermid tmidfix RTP type 3 digitlen 4 mgid 1
Table 17 describes VoIP resource Termination ID parameters.
TABLE 17 VOIP RESOURCE TERMINATION ID PARAMETERS
Parameter
Description
tmidfix
IPS VoIP resource Termination
ID prefix
type
Termination ID type
–
1: RTP00200100000USER00200100127
–
2: RTP0-RTP127
–
3: RTP000-RTP127
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ZXDSL 9806H Configuration Manual (CLI)
Parameter
Description
digitlen
Ending number digit length
begno
Begin number
mgid
MG ID
Note:
i.
SCCB card has a built-in VoIP sub-card, which supports
128–port VoIP resource.
ii. It is not necessary to set the number when IPS resource is
added. By default, the IPS resource is 128.
iii. TID cannot exceed 64 bytes. Generally, one system only
uses one Termination ID type.
–
If type 1 is selected, the Termination ID format is
RTP00200100000-RTP00200100127. In which, ’002’ is
unit number, ’001’ is sunit number and ’00000-00127’
is circuit number.
–
If type 2 is selected, the Termination ID format is
RTP0–RTP127.
–
If type 3 is selected, the Termination ID format is
RTP000–RTP127.
6. Configure MPRB RTP fax mode.
By default, the MPRB RTP fax mode is T.30. In this instance,
the fax mode is T.30. Therefore, it is unnecessary to configure
fax mode.
Execute the get-rtppar command to check MPRB RTP fax
mode.
9806(ag)# get-rtppar parid 1
parid: 1
vadvalue: 0
g723rate: 1
dcfilter: 0
silencetopcm: 0
pcmlaw: 0
g711redundancy: 0
pkttopcm: 0
pcmtopkt: 0
faxmode: T30 transparent
modemmode: 3
ecmenable: 1
faxpage: 2
t30message: 5
speedlimit: 6
tcfprocedure: 0
ecenable: 1
ectaillen: 7
ectxf: 0
nlpaggress: 0
fsklevel: 182
mindelay: 10
maxdelay: 80
nomdelay: 40
dtmfcidelec: 142
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------------------------------------------------------1 rows are effected
Execute the mod-rtppar command to modify port fax mode.
The fax mode is modified to be T.38.
9806(ag)# mod-rtppar parid 1 faxmode 1
Table 18 describes port fax mode parameters.
TABLE 18 MPRB RTP FAX PARAMETERS
Parameter
Description
parid
RTP parameter template
number. 1 corresponds to
MPRB.
faxmode
Fax mode, including:
–
0 - fax robust
–
1 - T.38 fax mode
–
2 - T.30 transparent
–
11 - SS control fax
Note:
The fax mode is consistent with that configured in port management.
7. Check H.248 status.
Execute the h248state command to check H.248 status.
9806(ag)# h248state
H248-SS link status(H248Trkplink) : OK. MGCid is 1.
If the system shows OK, it indicates that data is correctly configured and narrowband service is normal.
8. Save configurations.
Execute the save command to save configurations.
9806# save
End of Steps
Result
IP fax service is configured and is working normally.
Configuring Self-exchange
Short Description
Prerequisites
Perform this procedure to configure self-exchange.
VoIP service is configured.
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Context
Steps
To configure self-exchange, perform the following steps:
1. Execute the mod-slcphonenum slot slot [beginindex begi
nindex] num num phonenum phonenum command to add
self-exchange number.
2. Execute the add-digitmap mgid mgid servicetype servicet
ype das das dgtname dgtname dgtmap dgtmap command to
add self-exchange number map.
3. Execute the mod-mgbaseattr mgid mgid selfexchange self
exchange protectcall protectcall command to enable self-exchange function.
END
Example
OF STEPS
Self-exchange function parameters are as follows:
�
Slot number: 3
�
Self-exchange number: 5675100 – 2675148
�
Digit map: 567xxxx
�
Enable self-exchange and call protection.
9806(ag)# mod-slcphonenum slot 3 num 48 phonenum 5675100
9806(ag)# add-digitmap mgid 1 servicetype 1 das 1 dgtname SELFEXCHANGE
dgtmap 567xxxx
9806(ag)# mod-mgbaseattr mgid 1 selfexchange 1 protectcall 1
Table 19 describes self-exchange parameters.
TABLE 19 SELF-EXCHANGE PARAMETERS
Parameter
Description
slot
Slot number
num
User number
phonenum
Begin phone number
beginindex
Begin circuit number
mgid
MG ID
servicetype
Service type, including:
�
�
�
�
46
0
1
2
3
-
H.248
SelfChange
SIP
Urgency Map
das
Digit analysis sub-serial number
dgtname
Digit analysis sub-name
dgtmap
Digit map
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Parameter
Description
selfexchange
Enable self-exchange or not
�
�
protectcall
Enable call protection or not
�
�
Postrequisite
0 - Disable
1 - Enable
0 - Disable
1 - Enable
Table 20 describes self-exchange related operations.
TABLE 20 SELF-EXCHANGE RELATED OPERATIONS
Operation
Command
Delete self-exchange digit map.
del-digitmap das das
View self-exchange configuration.
get-mgbaseattr [mgid mgid]
Narrowband Management
Configuration
This topic includes the following:
�
Modifying Ringing Profile
�
Configuring Call Limit
Modifying Ringing Profile
Short Description
Prerequisites
Context
Steps
Perform this procedure to modify ringing profile.
VoIP service is available.
To modify ring profile, perform the following steps:
1. Execute the mod-ringprofile ringprofile ringprofile id id
time time on1 on1 off1 off1 on2 on2 off2 off2 on3 on3 off3
off3 on4 on4 off4 off4 on5 on5 off5 off5 command to modify
ringing profile.
2. Execute the mod-ring mgid mgid ringprofile ringprofile
command to bind ringing profile.
3. Execute the get-ringprofile ringprofile ringprofile to view
modified ringing profile.
END
Result
Example
OF STEPS
Ringing profile parameters are modified successfully.
Consider the following parameters to modify MG ringing profile.
�
Total Ring–on Time: 12000 ms
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�
First Ring–on Time: 150 ms
�
First Ring–off Time: 50 ms
�
Second Ring–on Time: 150 ms
�
Second Ring–off Time: 50 ms
�
Third Ring–on Time: 150 ms
�
Third Ring–off Time: 150 ms
�
Fourth Ring–on Time: 100 ms
�
Fourth Ring–off Time: 50 ms
�
Fifth Ring–on Time: 100 ms
�
Fifth Ring–off Time: 50 ms
9806(ag)# mod-ringprofile
on2 15 off2 5 on3 15 off3
9806(ag)# mod-ring mgid 1
9806(ag)# get-ringprofile
ringprofile 1 id 0 time 1200 on1 15 off1 5
15 on4 10 off4 5 on5 10 off5 5
ringprofile 1
ringprofile 1
RINGPROFILE MAINLAND
ID: 0
TIME: 1200
ON1: 15
OFF1: 5
ON2: 15
OFF2: 5
ON3: 15
OFF3: 15
ON4: 10
OFF4: 5
ON5: 10
OFF5: 5
-----------------------
Table 21 describes ringing parameters.
TABLE 21 RINGING PARAMETERS
Parameter
Description
Value
time
Total Ring–on Time
Range: 0 – 65535
Unit: 10 ms
on1
First Ring–on Time
Range: 0 – 65535
Unit: 10 ms
off1
First Ring–off Time
Range: 0 – 65535
Unit: 10 ms
on2
Second Ring–on Time
Range: 0 – 65535
Unit: 10 ms
off2
Second Ring–off Time
Range: 0 – 65535
Unit: 10 ms
on3
Third Ring–on Time
Range: 0 – 65535
Unit: 10 ms
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Parameter
Description
Value
off3
Third Ring–off Time
Range: 0 – 65535
Unit: 10 ms
on4
Forth Ring–on Time
Range: 0 – 65535
Unit: 10 ms
off4
Forth Ring–off Time
Range: 0 – 65535
Unit: 10 ms
on5
Fifth Ring–on Time
Range: 0 – 65535
Unit: 10 ms
off5
Fifth Ring–off Time
Range: 0 – 65535
Unit: 10 ms
Postrequisite
Table 22 describes the operation related to ringing profile after
modification.
TABLE 22 OPERATION RELATED TO RINGING PROFILE
Operation
Command
Display ringing information.
get-ring [mgid mgid]
Configuring Call Limit
Short Description
Prerequisites
Context
Steps
Perform this procedure to configure call limit.
VoIP service is available.
To configure call limit, perform the following steps:
1. Execute the mod-calllimitpara [calllimit calllimit] [cpubsli
mit cpubslimit] [uportlimit uportlimit] [ipslimit ipslimit] [nic
limit niclimit] command to configure call limit parameters.
2. Execute the get-calllimitpara command to show call limit information.
END
Result
Example
OF STEPS
Call limit parameters are configured successfully.
Configure the following call limit parameters:
�
Call limit: Call limit is implemented at MG (AG) side.
�
CPU limit: Enable
�
Uplink port limit: Enable
�
IPS limit: Enable
�
Busy time limit: Enable
9806(ag)# mod-calllimitpara calllimit 1 cpubslimit 1 uportlimit 1
ipslimit 1 niclimit 1
9806(ag)# get-calllimitpara
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calllimit
limit by mg
cpubslimit
Allways limit
uportlimit
Allways limit
ipslimit
niclimit
Allways limit Allways limit
1 rows are effected
Table 23 describes call limit parameters.
TABLE 23 CALL LIMIT PARAMETERS
50
Parameter
Description
calllimit
Select on which side call limit is
implemented.
cpubslimit
Enable CPU limit or not.
cpubslimit
Enable uplink port limit or not.
ipslimit
Enable IPS limit or not.
niclimit
Enable busy time limit or not.
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Chapter
3
Broadband Service
Configuraton
Table of Contents
VLAN Configuration............................................................51
ADSL/ADSL2+ Service Access Configuration..........................64
VDSL2+ Service Access Configuration ..................................93
SHDSL Service Access Configuration .................................. 129
Multicast Service Configuration.......................................... 144
QoS Configuration ........................................................... 162
Configuring Static Route ................................................... 171
Configuring Link Aggregation ............................................ 172
Configuring RMON ........................................................... 172
Spanning Tree Configuration ............................................. 173
Configuring SNTP ............................................................ 190
VLAN Configuration
This topic includes the following:
�
Overview
�
Basic VLAN Configuration
�
VLAN Stacking Configuration
Overview
Service
Description
Service
Specification
VLAN is a technology to achieve virtual work group by dividing
the network into individual segments logically instead of physically through local network device. The IEEE published the IEEE
802.1q protocol standard draft to standardize VLAN implementation in 1999.
9806H supports maximum 4094 VLANs.
VLAN usage is listed in Table 24.
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TABLE 24 VLAN USAGE
VLAN Usage
Remarks
Basic VLAN
Used to separate ports
� For Ethernet port and PON
port, it is used in NMS and
cascade.
� For xDSL access service, there
are two applications:
VLAN Stacking
–
PVLAN mode (default):
One VLAN can contain
multiple xDSL service
ports and the service
flows among the xDSL
service ports are separated. The service flows
between these service
ports and NMS ports are
inter-connective.
The
service flows between
each VLAN is separated too. One VLAN can
be connected with multiple users, which reduces the occupancy of
VLAN numbers.
–
Non-PVLAN mode: One
VLAN contains only one
xDSL service port. The
service flows between
VLANs are separated. As
there is a one-to-one
mapping relation between
VLAN and access user, access user can be differentiated according to VLAN.
Used to expand VLAN
VLAN packets with stacking
property contain innerlayer/outer–layer VLAN labels
allocated by 9806H. The
upper-layer BAS device can
authenticate dual-VLAN according
to the two layers of labels and
increase user numbers. In the
upper-layer network of Layer-2
working mode, the device can
forward packets directly through
outer-layer VLAN+MAC to provide
ISP with all the service functions.
Basic VLAN Configuration
Basic VLAN configuration includes the following:
�
52
Configuring VLAN Instance
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�
Adding VLAN
�
Configuring VLAN Uplink Port
�
Adding a Single Service Port
�
Adding Service Ports In Batch
Configuring VLAN Instance
Short Description
Prerequisites
Networking
Diagram
Perform this procedure to access ADSL2+ service through VLAN.
�
Network devices work normally and cables are connected.
�
All ZXDSL 9806H cards work normally.
�
VPI/VCI is 8/81.
Figure 21 shows VLAN application networking diagram.
FIGURE 21 VLAN APPLICATION NETWORKING DIAGRAM
Connect computers to ZXDSL 9806H through MODEM. PC1 and
PC2 are in different VLANs. Divide VLAN in ZXDSL 9806H to differentiate packets from PC1 and PC2. Then, transmit packets to
upper network.
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Data Configuration
Table 25 describes VLAN data configuration:
TABLE 25 VLAN DATA CONFIGURATION
Item
Data
ADSL2+ port corresponding to
PC1
Port Number: 4/1
VPI/PCI: 8/81
VLAN ID: 20
ADSL2+ port corresponding to
PC2
Port Number: 4/2
VPI/VCI: 8/81
VLAN ID: 21
Uplink port
Configuration
Flow
5/1, 5/2
Figure 22 shows VLAN application configuration flow.
FIGURE 22 VLAN APPLICATION CONFIGURATION FLOW
Steps
To configure VLAN, perform the following steps:
1. Create VLAN.
9806(config)# add-vlan 20
9806(config)# add-vlan 21
Or, create VLANs in batch.
9806(config)# add-vlan 20-21
2. Add uplink port.
9806(config)# vlan 20 5/1-2 tag
9806(config)# vlan 21 5/1-2 tag
Or, add uplink ports in batch.
9806(config)# vlan 20-21 5/1-2 tag
3. Add service ports.
9806(config)# vlan 20 4/1 untag
9806(config)# vlan 21 4/2 untag
9806(config)# interface adsl 4/1
9806(cfg-if-adsl-4/1)# pvid 20 pvc 1
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9806(cfg-if-adsl-4/1)# atm pvc 1 vpi 8 vci 81
9806(cfg-if-adsl-4/1)# exit
9806(config)# interface adsl 4/2
9806(cfg-if-adsl-4/2)# pvid 21 pvc 1
9806(cfg-if-adsl-4/2)# atm pvc 1 vpi 8 vci 81
Or, add service ports in batch.
9806(config)# vlan 20-21 4/1-2 untag one-to-one
9806(config)# interface range adsl 4/1-2
9806(cfg-if-range-adsl)# pvid 20-21 one-to-one pvc 1
9806(cfg-if-range-adsl)# atm pvc 1 vpi 8 vci 81
4. Save configurations.
9806# copy running-config startup-config
End of Steps
Result
VLAN configuration is complete and PC1 and PC2 can access Internet. However, they cannot access each other.
Adding VLAN
Short Description
Prerequisites
Context
Perform this procedure to add one or multiple VLANs. VLAN is used
to logically divide ports into different network segments. In this
way, communications between ports is under control.
The VLAN to be added does not exist.
�
ZXDSL 9806H supports VLANs: 2 – 4049.
�
ZXDSL 9806H supports three VLAN encapsulation types: pppoe, ipoe and all. The default encapsulation type is ’all’.
�
pppoe: VLAN is only assigned to PPPoE access service.
�
ipoe: VLAN is only assigned to IPoE access service.
�
all: VLAN is assigned to all access services.
To add VLAN, perform the following steps:
Steps
1. Execute the add-vlan command to add a VLAN.
2. (Optional) Execute the vlan vlanid name name command to
configure VLAN name.
3. (Optional) Execute the vlan vlanid encapsulation type command to configure VLAN encapsulation type.
4. Execute the show vlan command to show VLAN information.
END
Result
Example
OF STEPS
VLAN is added successfully.
Add a VLAN. VLAN ID is 2. VLAN name is VLAN2 (default). VLAN
encapsulation is ’pppoe’.
9806(config)# add-vlan 2
9806(config)# vlan 2 encapsulation pppoe
9806(config)# show vlan 2
VLANID
: 2
VLANName
: VLAN2
EncapType
: PPPOE
SLOT
PVC
Egress/UnTag
PORTLIST
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ZXDSL 9806H Configuration Manual (CLI)
------------------------------------------------------------
Add VLANs in batch. VLAN IDs are from 1010 to 1019. Use default
values for VLAN name and encapsulation type.
9806(config)# add-vlan 1010-1019
100%
9806(config)# show vlan
total number
: 26
----------------------------------1-2,20-21,50,100-103,301,326,333,500-501,801,1000,1010-1019
Postrequisite
Table 26 describes the operation related to VLAN.
TABLE 26 OPERATION RELATED TO VLAN
Operation
Command
Delete a VLAN.
no add-vlan vlanid
Adding VLAN Uplink Port
Short Description
Prerequisites
Context
Perform this procedure to add the uplink port to a VLAN.
VLAN is available.
�
VLAN uplink port is Ethernet port or PON ONT port.
�
The binding type of the uplink port needs to be consistent with
that of the opposite end device.
To adding the uplink port to a VLAN, perform the following steps:
Steps
1. Execute the vlan vlanid SLOTLIST/PORTLIST [tag | untag]
[pvc pvcid] command to add the uplink port to a VLAN.
2. Execute the show vlan vlanid command to show VLAN information.
END
Result
Example
OF STEPS
Uplink port is added to a VLAN successfully.
Add uplink port 5/1 to VLAN2 in tagged mode.
9806(config)# vlan 2 5/1 tag
9806(config)# show vlan 2
VLANID
: 2
VLANName
: VLAN2
EncapType
: all
SLOT
PVC
Egress/UnTag
PORTLIST
-----------------------------------------------------------5
Egress
1
UnTag
------------------------------------------------------------
Postrequisite
56
Table 27 describes the operation related to VLAN uplink port.
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TABLE 27 OPERATION RELATED TO VLAN UPLINK PORT
Operation
Command
Delete the uplink port from a
VLAN.
no vlan vlanid SLOTLIST/PORTL
IST [pvc pvcid]
Adding Single Service Port
Short Description
Prerequisites
Context
Perform this procedure to add a single service port to a VLAN.
VLAN is available.
�
�
Select the binding type of the service port according to the real
situation at user end.
�
Untag: For a single computer
�
Tag: For multiple computers in a LAN
The PVC of the service port needs to be consistent with MODEM
PVC. For ZTE device, the PVC is 8/81.
To add a single service port to a VLAN, perform the following steps:
Steps
1. Execute the vlan vlanid SLOTLIST/PORTLIST [tag | untag]
[pvc pvcid] command to add a single service port.
2. Execute the show vlan vlanid command to show VLAN information.
END
Result
Example
OF STEPS
A single service port is added to a VLAN successfully.
Add the service port 4/1 to VLAN2 in untagged mode. The PVC is
1 and default VPI/VCI is 8/81.
9806(config)# vlan 2 4/1 untag
9806(config)# show vlan 2
VLANID
:
VLANName
:
EncapType
:
pvc 1
2
VLAN2
all
SLOT
PVC
Egress/UnTag
PORTLIST
-----------------------------------------------------------4
1
Egress
1
UnTag
1
------------------------------------------------------------
Postrequisite
Table 28 describes the operation related to single service port.
TABLE 28 OPERATION RELATED TO SINGLE SERVICE PORT
Operation
Command
Delete a single service port from
a VLAN.
no vlan vlanid SLOTLIST/PORTL
IST [pvc pvcid]
Adding Service Ports In Batch
Short Description
Perform this procedure to add service ports to a VLAN in batch.
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Prerequisites
Context
VLAN is available.
�
�
Select the binding type of the service port according to the real
situation at user end.
�
Untag: For a single computer
�
Tag: For multiple computers in a LAN
The PVC of the service port needs to be consistent with MODEM
PVC. For ZTE device, the PVC is 8/81.
To add service ports to a VLAN in batch, perform the following
steps:
Steps
1. Execute the vlan vlanid SLOTLIST/PORTLIST [tag | untag]
[one-to-one] [pvc pvcid] command to add service ports in
batch.
2. Execute the show vlan vlanid command to show VLAN information.
END
Result
Example
OF STEPS
Service ports are added to a VLAN in batch successfully.
Add service ports 4/1 – 24 to VLAN2 in untagged mode. The PVC
is 1 and default VPI/VCI is 8/81.
9806(config)# vlan 2 4/1-24 untag pvc 1
9806(config)# show vlan 2
VLANID
: 2
VLANName
: VLAN2
EncapType
: all
SLOT
PVC
Egress/UnTag
PORTLIST
-----------------------------------------------------------4
1
Egress
1-24
UnTag
1-24
------------------------------------------------------------
Postrequisite
Table 29 describes the operation related to service ports.
TABLE 29 OPERATION RELATED TO SERVICE PORTS
Operation
Command
Delete service ports from a VLAN
in batch.
no vlanvlanid SLOTLIST/PORTL
IST [one-to-one] [pvc pvcid]
VLAN Stacking Configuration
VLAN stacking configuration includes the following:
�
Configuring VLAN Stacking Batch Service
�
Configuring VLAN ID Extension
Configuring VLAN Stacking Batch Service
Short Description
58
Perform this procedure to configure VLAN stacking batch service.
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Chapter 3 Broadband Service Configuraton
Networking
Diagram
Figure 23 shows VLAN stacking batch application networking diagram.
FIGURE 23 VLAN STACKING BATCH APPLICATION NETWORKING DIAGRAM
User1, User2, User3 and User4 are provided with broadband service by different ISPs. ZXDSL 9806H adds two VLAN Tag layers
(outer VLAN Tag is used to identify ISP, inner layer VLAN Tag is
used to identify user) to packets and forwards them to layer-2
network. Layer-2 exchange forwards packets to the specified ISP
BAS device according to outer layer VLAN Tag. ISP BAS device removes outer layer VLAN Tag and identify users through inner VLAN
Tag. After passing ISP BAS authentication, the user can obtain all
kinds of services that ISP provides.
Data Configuration
Table 30 describes VLAN stacking batch service data configuration.
TABLE 30 VLAN STACKING BATCH SERVICE DATA CONFIGURATION
Item
Data
ISP1 User Group
Upstream Port: 5/1
Upstream VLAN ID (outer layer
VLAN Tag): 60
User 1:
� ADSL2+ port: 4/1
� VPI/VCI: 8/81
� Inner VLAN Tag: 11
User 2
� ADSL2+ port: 4/2
� VPI/VCI: 8/81
� Inner VLAN Tag: 12
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Item
Data
ISP2 User Group
Upstream Port: 5/1
Upstream VLAN ID (outer layer
VLAN Tag): 61
User3
� ADSL2+ port: 3/1
� VPI/VCI: 8/81
� Inner VLAN Tag: 11
User4
� ADSL2+ port: 3/2
� VPI/VCI: 8/81
� Inner VLAN Tag: 12
Configuration
Flow
Figure 24 shows VLAN stacking batch service configuration flow.
FIGURE 24 VLAN STACKING BATCH SERVICE CONFIGURATION FLOW
Steps
To configure VLAN stacking batch service, perform the following
steps:
1. Create VLAN.
9806(config)# add-vlan 11-12
9806(config)# add-vlan 60-61
2. Add uplink port.
9806(config)# vlan 60-61 5/1 tag
3. Add service ports.
9806(config)#
9806(config)#
9806(config)#
9806(config)#
60
vlan
vlan
vlan
vlan
60
61
11
11
4/1-2 untag pvc 1
3/1-2 untag pvc 1
4/1 untag pvc 1
3/1 untag pvc 1
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9806(config)# vlan 12 4/2 untag pvc 1
9806(config)# vlan 12 3/2 untag pvc 1
4. (Optional) Configure SVLAN global parameters.
SVLAN global parameters includes:
�
STPID: Outer Tag protocol ID. By default, it is 0x8100.
�
CTPID: Inner Tag protocol ID. By default, it is 0x8100.
�
Global VLAN mode: It includes traditional, TR101 and multiple to one. By default, it is traditional.
9806(config)# stpid 8100
9806(config)# ctpid 8100
9806(config)# system vlan-mode traditional
Note:
Generally, the default values are used. It is not necessary to
configure SVLAN global parameters.
5. Enable port SVLAN. Configure inner and outer PVID.
9806(config)# interface adsl 4/1
9806(cfg-if-adsl-4/1)# svlan enable pvc 1
9806(cfg-if-adsl-4/1)# psvid 60 pvc 1 //Configure outer PVID
9806(cfg-if-adsl-4/1)# pvid 11 pvc 1 //Configure inner PVID
9806(cfg-if-adsl-4/1)# exit
9806(config)# interface adsl 4/2
9806(cfg-if-adsl-4/2)# svlan enable pvc 1
9806(cfg-if-adsl-4/2)# psvid 60 pvc 1
9806(cfg-if-adsl-4/2)# pvid 12 pvc 1
9806(cfg-if-adsl-4/1)# exit
9806(config)# interface adsl 3/1
9806(cfg-if-adsl-3/1)# svlan enable pvc 1
9806(cfg-if-adsl-3/1)# psvid 61 pvc 1
9806(cfg-if-adsl-3/1)# pvid 11 pvc 1
9806(cfg-if-adsl-3/1)# exit
9806(config)# interface adsl 3/2
9806(cfg-if-adsl-3/1)# svlan enable pvc 1
9806(cfg-if-adsl-3/1)# psvid 61 pvc 1
9806(cfg-if-adsl-3/1)# pvid 12 pvc 1
9806(cfg-if-adsl-3/1)# exit
6. Save configurations.
9806# copy running-config startup-config
End of Steps
Result
VLAN stacking batch service configuration is complete and User 1
and User 2 can access broadband services provided by ISP1 after
passing ISP1 BAS authentication.
User 3 and User 4 can access broadband services provided by ISP2
after passing ISP2 BAS authentication.
Configuring VLAN ID Extension
Short Description
Perform this procedure to configure VLAN ID extension, which enables BAS to identify more users based on VLAN ID.
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ZXDSL 9806H Configuration Manual (CLI)
Networking
Diagram
Figure 25 shows the VLAN ID extension application networking diagram.
FIGURE 25 VLAN ID EXTENSION APPLICATION NETWORKING DIAGRAM
Multiple ZXDSL 9806H devices connect broadband users to the
same BAS device to have authentication through WAN to obtain
broadband services from carriers. BAS device supports user identification through layer-2 VLAN. The outer layer VLAN tag ID marks
the ZXDSL 9806H. The inner layer VLAN tag ID marks users connected to this device.
Data Configuration
Table 31 describes the VLAN ID extension data configuration.
TABLE 31 VLAN ID EXTENSION DATA CONFIGURATION
Item
Data
9806H_A
Upstream port: 5/1
Upstream VLAN ID (outer layer
VLAN Tag): 60
User 1:
� ADSL2+ port: 4/1
� VPI/VCI: 8/81
� Inner layer VLAN Tag: 11
User 2:
� ADSL2+ port: 4/2
� VPI/VCI: 8/81
� Inner layer VLAN Tag: 12
62
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Item
Data
9806H_B
Upstream port: 5/1
Upstream VLAN ID (outer layer
VLAN Tag): 61
User1:
� ADSL2+ port: 4/1
� VPI/VCI: 8/81
� Inner layer VLAN Tag: 11
User 2:
� ADSL2+ port: 4/2
� VPI/VCI: 8/81
� Inner layer VLAN Tag: 12
Configuration
Flow
Figure 26 shows the VLAN ID extension configuration flow.
FIGURE 26 VLAN ID EXTENSION CONFIGURATION FLOW
Steps
To configure VLAN ID extension, perform the following steps:
�
Configure 9806H_A.
1. Create VLAN.
9806(config)# add-vlan 11-12
9806(config)# add-vlan 60
2. Add uplink port.
9806(config)# vlan 60 5/1 tag
3. Add service ports.
9806(config)# vlan 60 4/1-2 untag pvc 1
9806(config)# vlan 11-12 4/1-2 untag one-to-one pvc 1
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ZXDSL 9806H Configuration Manual (CLI)
4. (Optional) Configure SVLAN global parameters.
SVLAN global parameters includes:
�
STPID: Outer Tag protocol ID. By default, it is 0x8100.
�
CTPID: Inner Tag protocol ID. By default, it is 0x8100.
�
Global VLAN mode: It includes traditional, TR101 and multiple to one. By default, it is traditional.
9806(config)# stpid 8100
9806(config)# ctpid 8100
9806(config)# system vlan-mode traditional
Note:
Generally, the default values are used. It is not necessary to
configure SVLAN global parameters.
5. Enable port SVLAN. Configure inner layer and outer layer PVID.
9806(config)# interface adsl 4/1
9806(cfg-if-adsl-4/1)# svlan enable pvc 1
9806(cfg-if-adsl-4/1)# psvid 60 pvc 1 //Configure outer layer PVID.
9806(cfg-if-adsl-4/1)# pvid 11 pvc 1 //Configure inner layer PVID.
9806(cfg-if-adsl-4/1)# exit
9806(config)# interface adsl 4/2
9806(cfg-if-adsl-4/2)# svlan enable pvc 1
9806(cfg-if-adsl-4/2)# psvid 60 pvc 1
9806(cfg-if-adsl-4/2)# pvid 12 pvc 1
9806(cfg-if-adsl-4/1)# exit
6. Save configurations.
9806# copy running-config startup-config
�
Use the same way as above to configure 9806H_B.
End of Steps
Result
VLAN ID extension configuration is complete and users of both
9806H_A and 9806H_B can access the Internet successfully after
passing BAS authentication.
ADSL/ADSL2+ Service
Access Configuration
This topic includes the following:
64
�
Overview
�
Configuring PPPoA Access
�
Configuring IPoE/PPPoE Access
�
Configuring Line Profile
�
Configuring Alarm Profile
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Chapter 3 Broadband Service Configuraton
�
Enabling Interface
�
Configuring MAC Pool
Overview
Service
Description
ADSL/ADSL2+ adopts the asymmetrical way to transmit data.
ADSL technology supports maximum downlink rate upto 24
Mbits/s and maximum uplink rate upto 1 Mbit/s and its transmission distance reaches up to 6.5 km. While ADSL2+ technology
supports the maximum downlink rate upto 8 Mbits/s and maximum uplink rate upto 1 Mbits/s and its transmission distance
reaches up to 3–5 km.
Service
Specifications
9806H supports ADSL/ADSL2+ access service through ASTEB or
ASTDE card. Each shelf can be installed with four ADSL/ADSL2+
line cards. Each line card provides 24 (ASTEB) or 16 (ASTDE)
ADSL/ADSL2+ ports.
Therefore, each shelf can provide 96
ADSL/ADSL2+ access service ports.
9806H provides 4 encapsulation types as follows:
�
llc-Bridge
�
vcmux-Bridge
�
llc-PPPoA
�
vcmux-PPPoA
9806H provides one common mode, which includes two encapsulation types:
�
llc-Bridge
�
vcmux-Bridge
The corresponding relation between 9806H and MODEM encapsulation types is listed in Table 32.
TABLE 32 CORRESPONDING RELATIONS BETWEEN 9806H AND MODEM
ENCAPSULATION TYPE
Access Service Type
Modem
Encapsulation Type
9806H Encapsulation Type
IPoE
llc-Bridge
llc-Bridge; common
vcmux-Brdge
vcmux-Bridge;
common
llc-RFC1483, 2684
Bridge
llc-Bridge; common
vcmux-RFC1483,
2684 Bridge
vcmux-Bridge;
common
vcmux-PPPoE
vcmux-Bridge;
common
llc-PPPoE
llc-Bridge; common
PPPoE
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Access Service Type
Modem
Encapsulation Type
9806H Encapsulation Type
PPPoA
llc-PPPoA
llc-PPPoA
vcmux-PPPoA
vcmux-PPPoA
Configuring PPPoA Access
Short Description
Prerequisites
Background
Information
Networking
Diagram
66
Perform this procedure to configure PPPoA access service, which
enables users to access the Internet through ADSL/ADSL2+ lines
in PPPoA mode.
�
Network devices work normally and cables are connected.
�
ADSL/ADSL2+ cards work normally.
�
ADSL mode: ADSL2+
�
With the development of IP network, IP access has become the
major access mode. In order to adapt to the MODEM which
adopts ATM access mode in earlier time, ZXDSL 9806H supports the conversion from PPPoA protocol to PPPoE protocol
and connects PPPoA users to upper-layer IP network transparently.
�
Currently, Internet access service is the major application for
PPPoA users.
�
Access rate is restricted through ADSL/ADSL2+ profile.
Figure 27 shows ADSL/ADSL2+ PPPoA access service networking
diagram.
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Chapter 3 Broadband Service Configuraton
FIGURE 27 ADSL/ADSL2+ PPPOA ACCESS SERVICE NETWORKING
DIAGRAM
Computer is connected to ADSL/ADSL2+ service port of ZXDSL
9806H through ADSL/ADSL2+ MODEM. User data packets are connected to ZXDSL 9806H in PPPoA mode, then, transmitted to the
upper–layer network through uplink port.
Data Configuration
Table 33 describes ADSL/ADSL2+ PPPoA access service data configuration.
TABLE 33 ADSL/ADSL2+ PPPOA ACCESS SERVICE DATA CONFIGURATION
Item
Data
Remarks
Line Configuration
Profile
�
In the process of
enabling an ADSL
port, the port
uses the line and
channel parameters
configured in the line
configuration profile
to negotiate with the
opposite CPE device.
If the negotiation is
successful, this ADSL
port is enabled. This
ADSL line can bear
services.
�
�
�
Profile name:
zte2m
ConfProfileLine
Type: fast-only
AtucChanConfF
astMaxTxRate:
2048 Kbps
Select default
values for other
parameters.
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Item
Data
Remarks
Alarm Configuration
Profile
�
The alarm
configuration profile
contains alarm
threshold value.
When the alarm
profile is bound to a
port, the line status
of this port can be
monitored.
�
�
�
�
�
�
�
�
�
�
Transmission Mode
68
Profile name:
alarmtest.prf
AtucThresh15Min
Lofs: 5 sec
Atuc Thresh15Min
ESs: 5 sec
AtucThresh15Min
Loss: 5 sec
AtucThresh15Min
Lprs: 5 sec
AtucThresh15Min
Lols: 5 sec
AturThresh15Min
Lofs: 5 sec
AturThresh15Min
ESs: 5 sec
AturThresh15Min
Loss: 5 sec
AturThresh15Min
Lprs: 5 sec
Select default
values for other
parameters.
Default mode: 3
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By default, all
alarm threshold
values in the alarm
configuration profile
are 0, which means
that the line status is
not monitored.
The system supports
the following
transmission modes:
1. T1.413
G.dmt(fdm)
2. T1.413 G.dmt(ec)
3. Adsl2(fdm)
Adsl2+(fdm)
G.dmt(fdm)
ReAdsl2(fdm)
4. Adsl2(fdm)
Adsl2+(ec)
G.dmt(fdm)
ReAdsl2(fdm)
5. Adsl2(fdm)
Adsl2+(fdm)
G.dmt(fdm)
ReAdsl2(fdm)
T1.413
6. Adsl2(fdm)
Adsl2+(ec)
G.dmt(fdm)
ReAdsl2(fdm)
T1.413
7. Custom
8. All Capability
Chapter 3 Broadband Service Configuraton
Item
Data
Remarks
User-side Port
Service PVC: PVC1
(8/81)
VLAN ID is consistent
with that of the
upper-layer device.
Encapsulation mode:
PPPoA (LLC)
MAC address
allocation mode:
Allocate MAC from the
specified MAC address
pool automatically.
Configure a single
user:
�
�
ADSL/ADSL2+
port: 2/1
User VLAN: 201
Configure users in
batch:
�
�
MAC Address Pool
ADSL/ADSL2+
ports: 2/1 – 2/24
User VLAN: 201 –
224
Index: 1
–
Start MAC:
00:00:00:00:00:01
MAC address pool
size: 16
Network Side
Uplink port: 5/1
–
Requirements for
Upper-layer Device
LAN Switch:
� LAN Switch
transmits
ZXDSL 9806H
service packets
transparently.
� Configure VLAN
for ZXDSL 9806H
access. Keep
the VLAN ID
consistent with
uplink VLAN ID.
Refer to related
manuals for LAN
Switch and BAS
device configurations.
BAS
�
According to
authentication
and accounting
requirements for
dialing users,
complete relevant
configurations,
such as:
– Access user
domain,
including
authentication
plan, accounting plan, authorization
plan
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Item
Data
Remarks
–
�
Configuration
Flow
70
RADIUS
server
If user
authentication
is performed on
BAS, configure
access user name
and password
on BAS. If the
user IP address is
allocated through
BAS, configure
the relevant IP
address pool on
BAS.
Figure 28 shows ADSL/ADSL2+ PPPoA access service configuration
flow.
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Chapter 3 Broadband Service Configuraton
FIGURE 28 ADSL/ADSL2+ PPPOA ACCESS SERVICE CONFIGURATION
FLOW
Steps
To configure ADSL/ADSL2+ PPPoA access service, perform the following steps:
1. Create service VLAN. Add uplink port and service port to this
VLAN.
9806(config)#
9806(config)#
9806(config)#
9806(config)#
add-vlan
vlan 201
vlan 201
vlan 201
201
encapsulation all
2/1 untag
5/1-2 tag
Create VLANs in batch and add service virtual ports in batch if
it is necessary.
9806(config)# add-vlan 201-224
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100%
9806(config)# vlan 201-224 2/1-24 untag one-to-one
9806(config)# vlan 201-224 5/1-2 tag
2. Configure user port PVID and PVC.
9806(config)# interface adsl 2/1
9806(cfg-if-adsl-2/1)# pvid 201 pvc 1
9806(cfg-if-adsl-2/1)# atm pvc 1 vpi 8 vci 81
Configure user port PVID and PVC in batch.
9806(config)# interface range adsl 2/1-24
9806(cfg-if-range-adsl)# pvid 201-224 one-to-one pvc 1
9806(cfg-if-range-adsl)# atm pvc 1 vpi 8 vci 81
3. Create line profile.
First, execute the show adsl profile command to check the
current line profiles. If there is no suitable line profile, create
a new one. Configure line profile parameters as required.
9806(config)# adsl-profile zte2m
9806(config)# adsl-profile zte2m
AtucConfRateMode(1-fixed,2-adaptAtStartup,3-adaptAtRuntime):[2]
AtucConfRateChanRatio(0..100):[0]
AtucConfTargetSnrMgn(0..310(0.1dB)):[80]
AtucConfMaxSnrMgn(80..310(0.1dB)):[310]
AtucConfMinSnrMgn(0..80(0.1dB)):[0]
AtucConfDownshiftSnrMgn(0..310):[0]
AtucConfUpshiftSnrMgn(0..310):[0]
AtucConfMinUpshiftTime(0..16383):[0]
AtucConfMinDownshiftTime(0..16383):[0]
ConfProfileLineType(1-fast-only,2-interleaved-only):[2]1
AtucChanConfFastMaxTxRate(0..102400kbps):[1024]2048
AtucChanConfFastMinTxRate(0..2400kbps):[32]
AtucChanConfInterleaveMaxTxRate(0..102400kbps):[1024]2048
AtucChanConfInterleaveMinTxRate(0..2400kbps):[32]
AtucChanConfMaxInterleaveDelay(0..255ms):[8]
AturConfRateMode(1-fixed,2-adaptAtStartup,3-adaptAtRuntime):[2]
AturConfRateChanRatio(0..100):[0]
AturConfTargetSnrMgn(0..310(0.1dB)):[80]
AturConfMaxSnrMgn(80..310(0.1dB)):[310]
AturConfMinSnrMgn(0..80(0.1dB)):[0]
AturConfDownshiftSnrMgn(0..310(0.1dB)):[0]
AturConfUpshiftSnrMgn(0..310(0.1dB)):[0]
AturConfMinUpshiftTime(0..16383):[0]
AturConfMinDownshiftTime(0..16383):[0]
AturChanConfFastMaxTxRate(0..10240kbps):[512]
AturChanConfFastMinTxRate(0..512kbps):[32]
AturChanConfInterleaveMaxTxRate(0..10240kbps):[512]
AturChanConfInterleaveMinTxRate(0..512kbps):[32]
AturChanConfMaxInterleaveDelay(0..255ms):[16]
AtucDMTConfFreqBinsOperType(1-open,2-cancel):[2]
AturDMTConfFreqBinsOperType(1-open,2-cancel):[2]
LineDMTConfEOC(1-byte ,2-streaming ):[1]
LineDMTConfTrellis(1-on,2-off):[1]
AtucConfMaxBitsPerBin(0..15):[15]
AtucConfTxStartBin(6..511):[32]
AtucConfTxEndBin(32..511):[511]
AtucConfRxStartBin(6..63):[6]
AtucConfRxEndBin(6..63):[31]
AtucConfUseCustomBins(1-on,2-off):[2]
AtucConfDnBitSwap(1-on,2-off):[2]
AtucConfUpBitSwap(1-on,2-off):[2]
AtucConfREADSL2Enable(1-on,2-off):[2]
AtucConfPsdMaskType(1-DMT_PSD_MSK,2-ADSL2_PSD_MSK,3-ADSL2_
READSL_WIDE_PSD_MSK,4-ADSL2_READSL_NARROW_PSD_MSK):[3]
AtucConfPMMode(1-DISABLE,2-L2_ENABLE,3-L3_ENABLE,
4-L3_ENABLE | L2_ENABLE):[1]
AtucConfPML0Time(0..255s):[240]
AtucConfPML2Time(0..255s):[120]
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AtucConfPML2ATPR(0..31db):[3]
AtucConfPML2Rate(512..1024kbps):[512]
Press M or m key to modify, or the other key to complete?[C]
4. (Optional) Create alarm profile.
First, execute the show adsl alarm-profile command to
check the current alarm profiles. If there is no suitable alarm
profile, create a new one. Configure alarm profile parameters
as required.
9806(config)# adsl-alarm-profile alarmtest.prf
9806(config)# adsl-alarm-profile alarmtest.prf
AtucThresh15MinLofs(0..900s):[0]5
AtucThresh15MinESs(0..900s):[0]5
AtucThresh15MinLoss(0..900s):[0]5
AtucThresh15MinLprs(0..900s):[0]5
AtucThresh15MinLols(0..900s):[0]5
AtucThreshFastRateUp(0..65535):[0]
AtucThreshInterleaveRateUp(0..65535):[0]
AtucThreshFastRateDown(0..65535):[0]
AtucThreshInterleaveRateDown(0..65535):[0]
AturThresh15MinLofs(0..900s):[0]5
AturThresh15MinESs(0..900s):[0]5
AturThresh15MinLoss(0..900s):[0]5
AturThresh15MinLprs(0..900s):[0]5
AturThreshFastRateUp(0..65535):[0]
AturThreshInterleaveRateUp(0..65535):[0]
AturThreshFastRateDown(0..65535):[0]
AturThreshInterleaveRateDown(0..65535):[0]
AtucInitFailureTrapEnable(1-enable,2-disable):[2]
AtucThreshold15MinFailedFastR(0..900s):[0]
AtucThreshold15MinSesL(0..900s):[0]
AtucThreshold15MinUasL(0..900s):[0]
AturThreshold15MinSesL(0..900s):[0]
AturThreshold15MinUasL(0..900s):[0]
AtucConnRateTolerance(0..100%):[0]
ThreshAtucConnRate(0..100000 kbps):[0]
AturConnRateTolerance(0..100%):[0]
ThreshAturConnRate(0..100000 kbps):[0]
Press M or m key to modify, or the other key to complete?[C]
9806(config)#
5. Bind the line profile and alarm profile.
9806(config)# interface adsl 2/1
9806(cfg-if-adsl-2/1)# adsl profile zte2m
9806(cfg-if-adsl-2/1)# adsl alarm-profile alarmtest.prf
Or, bind line profiles and alarm profiles in batch.
9806(config)# interface range adsl 2/1-24
9806(cfg-if-range-adsl)# adsl profile zte2m
9806(cfg-if-range-adsl)# adsl alarm-profile alarmtest.prf
6. (Optional) Configure transmission mode.
9806(config)# interface range adsl 2/1-24
9806(cfg-if-range-adsl)# adsl trans-mode
Preferred modes:
[1] T1.413 G.dmt(fdm)
[2] T1.413 G.dmt(ec)
[3] Adsl2(fdm) Adsl2+(fdm) G.dmt(fdm) ReAdsl2(fdm)
[4] Adsl2(fdm) Adsl2+(ec) G.dmt(fdm) ReAdsl2(fdm)
[5] Adsl2(fdm) Adsl2+(fdm) G.dmt(fdm) ReAdsl2(fdm) T1.413
[6] Adsl2(fdm) Adsl2+(ec) G.dmt(fdm) ReAdsl2(fdm) T1.413
[7] Custom
[8] All Capability
Please choose one transmode to change to (1-8):[3]
9806(cfg-if-range-adsl)#
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7. Configure MAC address pool.
9806(config)# subscriber-mac-pool 1 start-mac 00:00:00:00:00:01
16 pppoa
8. Specify MAC address allocation mode.
9806(config)# interface range adsl 2/1-24
9806(cfg-if-range-adsl)# pppoa-info 1
Select the kind of get mac address:
[1] auto by mac pool index
[2] user configure
[3] auto
Please choose one mode(1-3):[3]1
Please input the pool index(1-32):[0]1
Note:
PPPoA user’s data packets do not contain MAC address. Therefore, it is necessary to allocate MAC address on DSLAM.
9. Configure encapsulation mode.
9806(config)# interface range adsl 2/1-24
9806(cfg-if-range-adsl)#atm pvc 1 vpi 8 vci 81 pppoa_llc
10. Save configurations.
9806# copy running-config startup-config
End of Steps
Result
Users can access the Internet in PPPoA mode successfully.
Configuring IPoE/PPPoE Access
Short Description
Prerequisites
74
Perform this procedure to configure ADSL/ADSL2+ IPoE/PPPoE access service, which enables users to access the Internet through
ADSL/ADSL2+ lines in IPoE/PPPoE mode.
�
Network devices work normally and cables are connected.
�
ADSL/ADSL2+ cards work normally.
�
ADSL mode: ADSL2+
Background
Information
Access rate is restricted through ADSL/ADSL2+ profile.
Networking
Diagram
Figure 29 shows ADSL/ADSL2+ IPoE/PPPoE access service networking diagram.
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Chapter 3 Broadband Service Configuraton
FIGURE 29 ADSL/ADSL2+ IPOE/PPPOE ACCESS SERVICE NETWORKING
DIAGRAM
Computer is connected to ADSL/ADSL2+ service port of ZXDSL
9806H through ADSL/ADSL2+ modem. User data packets are connected to ZXDSL 9806H in IPoE or PPPoE mode, then, transmitted
to the upper– layer network through uplink port.
Data Configuration
Table 34 describes ADSL/ADSL2+ IPoE/PPPoE access service data
configuration.
TABLE 34 ADSL/ADSL2+ IPOE/PPPOE ACCESS SERVICE DATA
CONFIGURATION
Item
Data
Remarks
Line Configuration
Profile
�
In the process of
enabling an ADSL
port, the port
uses the line and
channel parameters
configured in the line
configuration profile
to negotiate with the
opposite CPE device.
If the negotiation is
successful, this ADSL
port is enabled. This
ADSL line can bear
services.
�
�
�
Profile name:
zte2m
ConfProfileLine
Type: fast-only
AtucChanConfF
astMaxTxRate:
2048 Kbps
Select default
values for other
parameters.
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ZXDSL 9806H Configuration Manual (CLI)
Item
Data
Remarks
Alarm Configuration
Profile
�
The alarm
configuration profile
contains alarm
threshold value.
When the alarm
profile is bound to a
port, the line status
of this port can be
monitored.
�
�
�
�
�
�
�
�
�
�
Transmission Mode
76
Profile name:
alarmtest.prf
AtucThresh15Min
Lofs: 5 sec
Atuc Thresh15Min
ESs: 5 sec
AtucThresh15Min
Loss: 5 sec
AtucThresh15Min
Lprs: 5 sec
AtucThresh15Min
Lols: 5 sec
AturThresh15Min
Lofs: 5 sec
AturThresh15Min
ESs: 5 sec
AturThresh15Min
Loss: 5 sec
AturThresh15Min
Lprs: 5 sec
Select default
values for other
parameters.
Default mode: 3
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By default, all
alarm threshold
values in the alarm
configuration profile
are 0, which means
that the line status is
not monitored.
The system supports
the following
transmission modes:
1. T1.413
G.dmt(fdm)
2. T1.413 G.dmt(ec)
3. Adsl2(fdm)
Adsl2+(fdm)
G.dmt(fdm)
ReAdsl2(fdm)
4. Adsl2(fdm)
Adsl2+(ec)
G.dmt(fdm)
ReAdsl2(fdm)
5. Adsl2(fdm)
Adsl2+(fdm)
G.dmt(fdm)
ReAdsl2(fdm)
T1.413
6. Adsl2(fdm)
Adsl2+(ec)
G.dmt(fdm)
ReAdsl2(fdm)
T1.413
7. Custom
8. All Capability
Chapter 3 Broadband Service Configuraton
Item
Data
Remarks
User-side Port
Service PVC: PVC1
(8/81)
VLAN ID is consistent
with that of the
upper-layer device.
Configure a single
user:
�
�
ADSL/ADSL2+
port: 2/1
User VLAN: 201
Configure users in
batch:
�
�
ADSL/ADSL2+
ports: 2/1 – 2/24
User VLAN: 201 –
224
Network Side
Uplink port: 5/1
–
Requirements for
Upper-layer Device
LAN Switch:
� LAN Switch
transmits
ZXDSL 9806H
service packets
transparently.
� Configure VLAN
for ZXDSL 9806H
access. Keep
the VLAN ID
consistent with
uplink VLAN ID.
Refer to related
manuals for LAN
Switch and BAS
device configurations.
BAS
�
�
According to
authentication
and accounting
requirements for
dialing users,
complete relevant
configurations,
such as:
– Access user
domain,
including
authentication
plan, accounting plan, authorization
plan
– RADIUS
server
If user
authentication
is performed on
BAS, configure
access user name
and password
on BAS. If the
user IP address is
allocated through
BAS, configure
the relevant IP
address pool on
BAS.
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Configuration
Flow
Figure 30 shows ADSL/ADSL2+ IPoE/PPPoE access service configuration flow.
FIGURE 30 ADSL/ADSL2+ IPOE/PPPOE ACCESS SERVICE
CONFIGURATION FLOW
Steps
To configure ADSL/ADSL2+ IPoE/PPPoE access service, perform
the following steps:
1. Create service VLAN. Add uplink port and service port to this
VLAN.
9806(config)#
9806(config)#
9806(config)#
9806(config)#
add-vlan
vlan 201
vlan 201
vlan 201
201
encapsulation all
2/1 untag
5/1-2 tag
Create VLANs in batch and add service virtual ports in batch if
it is necessary.
9806(config)# add-vlan 201-224
100%
9806(config)# vlan 201-224 2/1-24 untag one-to-one
9806(config)# vlan 201-224 5/1-2 tag
78
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2. Configure user port PVID and PVC.
9806(config)# interface adsl 2/1
9806(cfg-if-adsl-2/1)# pvid 201 pvc 1
9806(cfg-if-adsl-2/1)# atm pvc 1 vpi 8 vci 81 common
Configure user port PVID and PVC in batch.
9806(config)# interface range adsl 2/1-24
9806(cfg-if-range-adsl)# pvid 201-224 one-to-one pvc 1
9806(cfg-if-range-adsl)# atm pvc 1 vpi 8 vci 81 common
3. Create line profile.
First, execute the show adsl profile command to check the
current line profiles. If there is no suitable line profile, create
a new one. Configure line profile parameters as required.
9806(config)# adsl-profile zte2m
9806(config)# adsl-profile zte2m
AtucConfRateMode(1-fixed,2-adaptAtStartup,3-adaptAtRuntime):[2]
AtucConfRateChanRatio(0..100):[0]
AtucConfTargetSnrMgn(0..310(0.1dB)):[80]
AtucConfMaxSnrMgn(80..310(0.1dB)):[310]
AtucConfMinSnrMgn(0..80(0.1dB)):[0]
AtucConfDownshiftSnrMgn(0..310):[0]
AtucConfUpshiftSnrMgn(0..310):[0]
AtucConfMinUpshiftTime(0..16383):[0]
AtucConfMinDownshiftTime(0..16383):[0]
ConfProfileLineType(1-fast-only,2-interleaved-only):[2]1
AtucChanConfFastMaxTxRate(0..102400kbps):[1024]2048
AtucChanConfFastMinTxRate(0..2400kbps):[32]
AtucChanConfInterleaveMaxTxRate(0..102400kbps):[1024]2048
AtucChanConfInterleaveMinTxRate(0..2400kbps):[32]
AtucChanConfMaxInterleaveDelay(0..255ms):[8]
AturConfRateMode(1-fixed,2-adaptAtStartup,3-adaptAtRuntime):[2]
AturConfRateChanRatio(0..100):[0]
AturConfTargetSnrMgn(0..310(0.1dB)):[80]
AturConfMaxSnrMgn(80..310(0.1dB)):[310]
AturConfMinSnrMgn(0..80(0.1dB)):[0]
AturConfDownshiftSnrMgn(0..310(0.1dB)):[0]
AturConfUpshiftSnrMgn(0..310(0.1dB)):[0]
AturConfMinUpshiftTime(0..16383):[0]
AturConfMinDownshiftTime(0..16383):[0]
AturChanConfFastMaxTxRate(0..10240kbps):[512]
AturChanConfFastMinTxRate(0..512kbps):[32]
AturChanConfInterleaveMaxTxRate(0..10240kbps):[512]
AturChanConfInterleaveMinTxRate(0..512kbps):[32]
AturChanConfMaxInterleaveDelay(0..255ms):[16]
AtucDMTConfFreqBinsOperType(1-open,2-cancel):[2]
AturDMTConfFreqBinsOperType(1-open,2-cancel):[2]
LineDMTConfEOC(1-byte ,2-streaming ):[1]
LineDMTConfTrellis(1-on,2-off):[1]
AtucConfMaxBitsPerBin(0..15):[15]
AtucConfTxStartBin(6..511):[32]
AtucConfTxEndBin(32..511):[511]
AtucConfRxStartBin(6..63):[6]
AtucConfRxEndBin(6..63):[31]
AtucConfUseCustomBins(1-on,2-off):[2]
AtucConfDnBitSwap(1-on,2-off):[2]
AtucConfUpBitSwap(1-on,2-off):[2]
AtucConfREADSL2Enable(1-on,2-off):[2]
AtucConfPsdMaskType(1-DMT_PSD_MSK,2-ADSL2_PSD_MSK,3-ADSL2_
READSL_WIDE_PSD_MSK,4-ADSL2_READSL_NARROW_PSD_MSK):[3]
AtucConfPMMode(1-DISABLE,2-L2_ENABLE,3-L3_ENABLE,
4-L3_ENABLE | L2_ENABLE):[1]
AtucConfPML0Time(0..255s):[240]
AtucConfPML2Time(0..255s):[120]
AtucConfPML2ATPR(0..31db):[3]
AtucConfPML2Rate(512..1024kbps):[512]
Press M or m key to modify, or the other key to complete?[C]
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4. (Optional) Create alarm profile.
First, execute the show adsl alarm-profile command to
check the current alarm profiles. If there is no suitable alarm
profile, create a new one. Configure alarm profile parameters
as required.
9806(config)# adsl-alarm-profile alarmtest.prf
9806(config)# adsl-alarm-profile alarmtest.prf
AtucThresh15MinLofs(0..900s):[0]5
AtucThresh15MinESs(0..900s):[0]5
AtucThresh15MinLoss(0..900s):[0]5
AtucThresh15MinLprs(0..900s):[0]5
AtucThresh15MinLols(0..900s):[0]5
AtucThreshFastRateUp(0..65535):[0]
AtucThreshInterleaveRateUp(0..65535):[0]
AtucThreshFastRateDown(0..65535):[0]
AtucThreshInterleaveRateDown(0..65535):[0]
AturThresh15MinLofs(0..900s):[0]5
AturThresh15MinESs(0..900s):[0]5
AturThresh15MinLoss(0..900s):[0]5
AturThresh15MinLprs(0..900s):[0]5
AturThreshFastRateUp(0..65535):[0]
AturThreshInterleaveRateUp(0..65535):[0]
AturThreshFastRateDown(0..65535):[0]
AturThreshInterleaveRateDown(0..65535):[0]
AtucInitFailureTrapEnable(1-enable,2-disable):[2]
AtucThreshold15MinFailedFastR(0..900s):[0]
AtucThreshold15MinSesL(0..900s):[0]
AtucThreshold15MinUasL(0..900s):[0]
AturThreshold15MinSesL(0..900s):[0]
AturThreshold15MinUasL(0..900s):[0]
AtucConnRateTolerance(0..100%):[0]
ThreshAtucConnRate(0..100000 kbps):[0]
AturConnRateTolerance(0..100%):[0]
ThreshAturConnRate(0..100000 kbps):[0]
Press M or m key to modify, or the other key to complete?[C]
9806(config)#
5. Bind the line profile and alarm profile.
9806(config)# interface adsl 2/1
9806(cfg-if-adsl-2/1)# adsl profile zte2m
9806(cfg-if-adsl-2/1)# adsl alarm-profile alarmtest.prf
Or, bind line profiles and alarm profiles in batch.
9806(config)# interface range adsl 2/1-24
9806(cfg-if-range-adsl)# adsl profile zte2m
9806(cfg-if-range-adsl)# adsl alarm-profile alarmtest.prf
6. (Optional) Configure transmission mode.
9806(config)# interface adsl 2/1
9806(cfg-if-adsl-2/1)# adsl trans-mode
Preferred modes:
[1] T1.413 G.dmt(fdm)
[2] T1.413 G.dmt(ec)
[3] Adsl2(fdm) Adsl2+(fdm) G.dmt(fdm) ReAdsl2(fdm)
[4] Adsl2(fdm) Adsl2+(ec) G.dmt(fdm) ReAdsl2(fdm)
[5] Adsl2(fdm) Adsl2+(fdm) G.dmt(fdm) ReAdsl2(fdm) T1.413
[6] Adsl2(fdm) Adsl2+(ec) G.dmt(fdm) ReAdsl2(fdm) T1.413
[7] Custom
[8] All Capability
Please choose one transmode to change to (1-8):[3]
7. Enable user port.
9806(config)# interface adsl 2/1
9806(cfg-if-adsl-2/1)# shutdown
9806(cfg-if-adsl-2/1)# no shutdown
80
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Or, enable user ports in batch.
9806(config)# interface range adsl 2/1-24
9806(cfg-if-range-adsl)# shutdown
9806(cfg-if-range-adsl)# no shutdown
8. Save configurations.
9806# copy running-config startup-config
End of Steps
Result
Users can access the Internet in IPoE/PPPoE mode successfully.
Configuring Line Profile
Short Description
Background
Information
Perform this procedure to configure ADSL/ADSL2+ line profile.
�
ZXDSL 9806H (V2.0) supports 128 ADSL/ADSL2+ line profiles.
DEFVAL.PRF is the default profile which cannot be deleted or
modified.
�
The maximum upstream/downstream channel rate must be
equal to the minimum rate when upstream/downstream channel rate mode is the fixed rate mode.
�
Target SNR margin, minimum SNR margin and maximum SNR
margin must obey the rule that minimum SNR margin is less
than or equal to target SNR margin, and that target SNR margin is less than or equal to maximum SNR margin.
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Configuration
Flow
Figure 31 shows ADSL /ADSL2+ line profile configuration flow.
FIGURE 31 ADSL/ADSL2+ LINE PROFILE CONFIGURATION FLOW
Steps
To configure ADSL/ADSL2+ line profile, perform the following
steps:
1. Execute the adsl-profile filename command to create
ADSL/ADSL2+ line profile.
2. Execute the adsl-profile filename command to modify line parameters.
3. Execute the show adsl profile filename command to show
ADSL/ADSL2+ line profile.
End of Steps
Result
82
ADSL/ADSL2+ line profile is configured successfully.
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Chapter 3 Broadband Service Configuraton
Example
Add an ADSL/ADSL2+ line profile. The line profile name is zte2m.
The line type is fast-only. The maximum downstream rate is
2048 Kbps. Use the default values for other parameters.
9806(config)# adsl-profile zte2m
9806(config)# adsl-profile zte2m
AtucConfRateMode(1-fixed,2-adaptAtStartup,3-adaptAtRuntime):[2]
AtucConfRateChanRatio(0..100):[0]
AtucConfTargetSnrMgn(0..310(0.1dB)):[80]
AtucConfMaxSnrMgn(80..310(0.1dB)):[310]
AtucConfMinSnrMgn(0..80(0.1dB)):[0]
AtucConfDownshiftSnrMgn(0..310):[0]
AtucConfUpshiftSnrMgn(0..310):[0]
AtucConfMinUpshiftTime(0..16383):[0]
AtucConfMinDownshiftTime(0..16383):[0]
ConfProfileLineType(1-fast-only,2-interleaved-only):[2]1
AtucChanConfFastMaxTxRate(0..102400kbps):[1024]2048
AtucChanConfFastMinTxRate(0..2400kbps):[32]
AtucChanConfInterleaveMaxTxRate(0..102400kbps):[1024]2048
AtucChanConfInterleaveMinTxRate(0..2400kbps):[32]
AtucChanConfMaxInterleaveDelay(0..255ms):[8]
AturConfRateMode(1-fixed,2-adaptAtStartup,3-adaptAtRuntime):[2]
AturConfRateChanRatio(0..100):[0]
AturConfTargetSnrMgn(0..310(0.1dB)):[80]
AturConfMaxSnrMgn(80..310(0.1dB)):[310]
AturConfMinSnrMgn(0..80(0.1dB)):[0]
AturConfDownshiftSnrMgn(0..310(0.1dB)):[0]
AturConfUpshiftSnrMgn(0..310(0.1dB)):[0]
AturConfMinUpshiftTime(0..16383):[0]
AturConfMinDownshiftTime(0..16383):[0]
AturChanConfFastMaxTxRate(0..10240kbps):[512]
AturChanConfFastMinTxRate(0..512kbps):[32]
AturChanConfInterleaveMaxTxRate(0..10240kbps):[512]
AturChanConfInterleaveMinTxRate(0..512kbps):[32]
AturChanConfMaxInterleaveDelay(0..255ms):[16]
AtucDMTConfFreqBinsOperType(1-open,2-cancel):[2]
AturDMTConfFreqBinsOperType(1-open,2-cancel):[2]
LineDMTConfEOC(1-byte ,2-streaming ):[1]
LineDMTConfTrellis(1-on,2-off):[1]
AtucConfMaxBitsPerBin(0..15):[15]
AtucConfTxStartBin(6..511):[32]
AtucConfTxEndBin(32..511):[511]
AtucConfRxStartBin(6..63):[6]
AtucConfRxEndBin(6..63):[31]
AtucConfUseCustomBins(1-on,2-off):[2]
AtucConfDnBitSwap(1-on,2-off):[2]
AtucConfUpBitSwap(1-on,2-off):[2]
AtucConfREADSL2Enable(1-on,2-off):[2]
AtucConfPsdMaskType(1-DMT_PSD_MSK,2-ADSL2_PSD_MSK,
3-ADSL2_READSL_WIDE_PSD_MSK,4ADSL2_READSL_NARROW_PSD_MSK):[3]
AtucConfPMMode(1-DISABLE,2-L2_ENABLE,3-L3_ENABLE,4-L3_
ENABLE | L2_ENABLE):[1]
AtucConfPML0Time(0..255s):[240]
AtucConfPML2Time(0..255s):[120]
AtucConfPML2ATPR(0..31db):[3]
AtucConfPML2Rate(512..1024kbps):[512]
Press M or m key to modify, or the other key to complete?[C]
9806(config)# show adsl profile zte2m
AtucConfRateMode
: adaptAtStartup
AtucConfRateChanRatio
: 0
AtucConfTargetSnrMgn
: 80
AtucConfMaxSnrMgn
: 310
AtucConfMinSnrMgn
: 0
AtucConfDownshiftSnrMgn
: 0
AtucConfUpshiftSnrMgn
: 0
AtucConfMinUpshiftTime
: 0
AtucConfMinDownshiftTime : 0
ConfProfileLineType
: fast-only
AtucChanConfFastMaxTxRate : 2048
AtucChanConfFastMinTxRate : 32
AtucChanConfIntlvMaxTxRt : 2048
AtucChanConfIntlvMinTxRt : 32
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Parameter
Description
AtucChanConfMaxIntlvDelay
AturConfRateMode
AturConfRateChanRatio
AturConfTargetSnrMgn
AturConfMaxSnrMgn
AturConfMinSnrMgn
AturConfDownshiftSnrMgn
AturConfUpshiftSnrMgn
AturConfMinUpshiftTime
AturConfMinDownshiftTime
AturChanConfFastMaxTxRate
AturChanConfFastMinTxRate
AturChanConfIntlvMaxTxRt
AturChanConfIntlvMinTxRt
AturChanConfMaxIntlvDelay
AtucDMTConfFreqBins
AturDMTConfFreqBins
:
:
:
:
:
:
:
:
:
:
:
:
:
:
:
:
:
LineDMTConfEOC
LineDMTConfTrellis
AtucConfMaxBitsPerBin
AtucConfTxStartBin
AtucConfTxEndBin
AtucConfRxStartBin
AtucConfRxEndBin
AtucConfUseCustomBins
AtucConfDnBitSwap
AtucConfUpBitSwap
AtucConfREADSL2Enable
AtucConfPsdMaskType
AtucConfPMMode
AtucConfPML0Time
AtucConfPML2Time
AtucConfPML2ATPR
AtucConfPML2Rate
Adsl2ConfMinProtectionDs
Adsl2ConfMinProtectionUs
:
:
:
:
:
:
:
:
:
:
:
:
:
:
:
:
:
:
:
16
adaptAtStartup
0
80
310
0
0
0
0
0
512
32
512
32
16
FF FF FF FF FF FF FF FF
FF FF FF FF FF FF FF FF
FF FF FF FF FF FF FF FF
FF FF FF FF FF FF FF FF
FF FF FF FF FF FF FF FF
FF FF FF FF FF FF FF FF
FF FF FF FF FF FF FF FF
FF FF FF FF FF FF FF FF
FF FF FF FF FF FF FF FF
byte
on
15
32
511
6
31
off
off
off
off
ADSL2_READSL_WIDE_PSD_MSK
DISABLE
240
120
3
512
noProtection
noProtection
Table 35 describes the ADSL/ADSL2+ line profile parameters.
TABLE 35 ADSL/ADSL2+ LINE PROFILE PARAMETERS
84
Parameter
Description
adslLineConfProfileName
32 bytes
AturConfRateMode/AtucConfRate
Mode
�
�
�
AtucConfTargetSnrMgn/AturConfT
argetSnrMgn
Unit: 0.1 dB
AtucConfMaxSnrMgn/AturConfMa
xSnrMgn
If the real SNR margin exceeds
the value, the system restricts
the SNR to the maximum SNR
margin. The opposite end needs
to reduce the output power.
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fixed
adaptAtStartup
adaptAtStartup
Default: 8 dB
Chapter 3 Broadband Service Configuraton
Parameter
Description
AtucConfMinSnrMgn/AturConfMin
SnrMgn
If the real SNR margin is lower
than this value, the port is not be
enabled. The opposite end needs
to increase the output power
AtucConfDownshiftSnrMgn/AturC
onfDownshiftSnrMgn
ADSL does not support. For
ADSL2/ADSL2+, if SNR margin is
lower than this value, the line rate
is decreased.
AtucConfUpshiftSnrMgn/AturCon
fUpshiftSnrMgn
ADSL does not support. For
ADSL2/ADSL2+, if SNR margin
is higher than this value, the line
rate is increased.
AtucConfMinUpshiftTime/AturConf
MinUpshiftTime
ADSL does not support. For
ADSL2/ADSL2+, if SNR margin
is higher than this value, the
upstream/downstream rate is
increased.
AtucConfMinDownshiftTime/AturC
onfMinDownshiftTime
ADSL does not support. For
ADSL2/ADSL2+, if SNR margin
is lower than this value, the
upstream/downstream rate is
decreased.
ConfProfileLineType
�
�
AtucChanConfFastMaxTxRate/Atu
rChanConfFastMaxTxRate
Downstream value range: 0 –
102400 Kbps
fastOnly
interleavedOnly
Default: 1024 Kbps
Upstream value range: 0 – 10240
Kbps
Default: 512 Kbps
AtucChanConfFastMinTxRate/Atur
ChanConfFastMinTxRate
Downstream value range: 0 –
2048 Kbps
Default: 32 Kbps
Upstream value range: 0 – 512
Kbps
Default: 32 Kbps
AtucChanConfInterleaveMaxTxRa
te/AturChanConfInterleaveMaxT
xRate
Downstream value range: 0 –
102400 Kbps
Default: 1024 Kbps
Upstream value range: 0 – 10240
Kbps
Default: 512 Kbps
AtucChanConfInterleaveMinTxRat
e/AturChanConfInterleaveMinTxR
ate
Downstream value range: 0 –
2048 Kbps
Default: 32 Kbps
Upstream value range: 0 – 512
Kbps
Default: 32 Kbps
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Parameter
Description
AtucChanConfMaxInterleaveDela
y/AturChanConfMaxInterleaveDe
lay
Downstream/upstream value
range: 0 – 255 ms
AtucDMTConfFreqBinsOperType/A
turDMTConfFreqBinsOperType
�
�
AtucDMTConfFreqBinsList/AturDM
TConfFreqBinsList
Value range: 6 – 511
LineDMTConfEOC
1.
2.
LineDMTConfTrellis
Default: Enable
AtucConfMaxBitsPerBin
Value range: 0 – 15
Default: 16 ms
Enable
Disable
byte
streaming
Default: 15
AtucConfTxStartBin/AtucConfRxS
tartBin
Downstream value range: 6 – 511
Default: 32
Upstream value range: 6 – 63
Default: 6
AtucConfTxEndBin/AtucConfRxEn
dBin
Downstream value range: 32 –
511
Default: 511
Upstream value range: 6 – 63
Default: 31
AtucConfUseCustomBins
�
�
Enable
Disable
AtucConfDnBitSwap/AtucConfUp
BitSwap
�
�
Enable
Disable
AtucConfREADSL2Enable
�
�
Enable
Disable
AtucConfPsdMaskType
1.
2.
3.
DMT_PSD_MSK
ADSL2_PSD_MSK
ADSL2_READSL_WIDE_PSD_
MSK
ADSL2_READSL_NARROW_PSD_MSK
4.
Default: 3
AtucConfPMMode
1.
2.
3.
4.
DISABLE
L2_ENABLE
L3_ENABLE
L3_ENABLE | L2_ENABLE
Default: 1
AtucConfPML0Time
Value range: 0 – 255 sec
Default: 240 sec
AtucConfPML2Time
Value range: 0 – 255 sec
Default: 120 sec
86
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Chapter 3 Broadband Service Configuraton
Parameter
Description
AtucConfPML2ATPR
Value range: 0 – 31 dB
Default: 3 dB
Value range: 512 – 1024 Kbps
AtucConfPML2Rate
Default: 512 Kbps
Related
Operations
Table 36 describes operations related to ADSL/ADSL2+ line profile
configuration.
TABLE 36 OPERATIONS RELATED TO ADSL/ADSL2+ LINE PROFILE
Information
Procedure
Remarks
Delete ADSL/ADSL2+
line profile
no adsl-profile
filemane
The default line profile
cannot be deleted.
Configure downstream/downstream
INP
adsl-profile
filename atuc-inp
atuc-inp atur-inp
atur-inp
Value range:
1.
2.
3.
4.
5.
6.
7.
noProtection
halfSymbol
singleSymbol
twoSymbols
fourSymbols
eightSymbols
sixteenSymbols
Configuring Alarm Profile
Short Description
Background
Information
Perform this procedure to configure ADSL/ADSL2+ alarm profile.
�
ZXDSL 9806H has its own default ADSL/ADSL2+ alarm profile.
The name is DEFVAL.PRF. The default alarm profile cannot be
deleted or modified. In the default alarm profile, all alarm
threshold values are 0.
�
A series of threshold parameters are set in ADSL/ADSL2+
alarm profile to monitor the performance of the activated
ADSL/ADSL2+ line and channel. When some value reaches
the threshold, the system generates alarm and send alarm
information to NMS.
�
ZXDSL 9806H supports 128 ADSL/ADSL2+ alarm profiles.
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Configuration
Flow
Figure 32 shows ADSL /ADSL2+ alarm profile configuration flow.
FIGURE 32 ADSL/ADSL2+ ALARM PROFILE CONFIGURATION FLOW
88
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Chapter 3 Broadband Service Configuraton
Steps
To configure ADSL/ADSL2+ alarm profile, perform the following
steps:
1. Execute the adsl-alarm-profile alarm-profile-name command to create ADSL/ADSL2+ alarm profile.
2. Execute the adsl-alarm-profile alarm-profile-name command to modify alarm profile parameters.
3. Execute the show adsl alarm-profile alarm-profile-name
command to show ADSL/ADSL2+ alarm profile.
End of Steps
Result
Example
ADSL/ADSL2+ alarm profile is configured successfully.
Add an ADSL/ADSL2+ alarm profile. The alarm profile name is
alarmtest.prf.
9806(config)# adsl-alarm-profile alarmtest.prf
9806(config)# adsl-alarm-profile alarmtest.prf
AtucThresh15MinLofs(0..900s):[0]5
AtucThresh15MinESs(0..900s):[0]5
AtucThresh15MinLoss(0..900s):[0]5
AtucThresh15MinLprs(0..900s):[0]5
AtucThresh15MinLols(0..900s):[0]5
AtucThreshFastRateUp(0..65535):[0]
AtucThreshInterleaveRateUp(0..65535):[0]
AtucThreshFastRateDown(0..65535):[0]
AtucThreshInterleaveRateDown(0..65535):[0]
AturThresh15MinLofs(0..900s):[0]5
AturThresh15MinESs(0..900s):[0]5
AturThresh15MinLoss(0..900s):[0]5
AturThresh15MinLprs(0..900s):[0]5
AturThreshFastRateUp(0..65535):[0]
AturThreshInterleaveRateUp(0..65535):[0]
AturThreshFastRateDown(0..65535):[0]
AturThreshInterleaveRateDown(0..65535):[0]
AtucInitFailureTrapEnable(1-enable,2-disable):[2]
AtucThreshold15MinFailedFastR(0..900s):[0]
AtucThreshold15MinSesL(0..900s):[0]
AtucThreshold15MinUasL(0..900s):[0]
AturThreshold15MinSesL(0..900s):[0]
AturThreshold15MinUasL(0..900s):[0]
AtucConnRateTolerance(0..100%):[0]
ThreshAtucConnRate(0..100000 kbps):[0]
AturConnRateTolerance(0..100%):[0]
ThreshAturConnRate(0..100000 kbps):[0]
Press M or m key to modify, or the other key to complete?[C]
9806(config)#
9806(config)# show adsl alarm-profile alarmtest
AtucThresh15MinLofs
: 5
AtucThresh15MinESs
: 5
AtucThresh15MinLoss
: 5
AtucThresh15MinLprs
: 5
AtucThresh15MinLols
: 5
AtucThreshFastRateUp
: 0
AtucThreshInterleaveRateUp
: 0
AtucThreshFastRateDown
: 0
AtucThreshInterleaveRateDown
: 0
AturThresh15MinLofs
: 5
AturThresh15MinESs
: 5
AturThresh15MinLoss
: 5
AturThresh15MinLprs
: 5
AturThreshFastRateUp
: 0
AturThreshInterleaveRateUp
: 0
AturThreshFastRateDown
: 0
AturThreshInterleaveRateDown
: 0
AtucInitFailureTrapEnable
: 2
AtucThreshold15MinFailedFastR
: 0
AtucThreshold15MinSesL
: 0
AtucThreshold15MinUasL
: 0
AturThreshold15MinSesL
: 0
AturThreshold15MinUasL
: 0
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AtucConnRateTolerance
ThreshAtucConnRate
AturConnRateTolerance
ThreshAturConnRate
Parameter
Description
:
:
:
:
0
0
0
0
Table 37 describes the ADSL/ADSL2+ alarm profile parameters.
TABLE 37 ADSL/ADSL2+ ALARM PROFILE PARAMETERS
90
Parameter
Description
Alarm profile name
–
AtucThresh15MinLofs
In 15 minutes, if the upstream
LoF exceeds the threshold, the
system generates an alarm.
AtucThresh15MinESs
In 15 minutes, if the upstream ES
exceeds the threshold, the system
generates an alarm.
AtucThresh15MinLoss
In 15 minutes, if the upstream
LoS exceeds the threshold, the
system generates an alarm.
AtucThresh15MinLprs
In 15 minutes, if the upstream loss
of power exceeds the threshold,
the system generates an alarm.
AtucThresh15MinLols
In 15 minutes, if the upstream
loss of link exceeds the threshold,
the system generates an alarm.
AtucThreshFastRateUp
If downstream fast channel
link establishment increase rate
exceeds the threshold, the system
generates an alarm.
AtucThreshInterleaveRateUp
If downstream interleaved channel
link establishment increase rate
exceeds the threshold, the system
generates an alarm.
AtucThreshFastRateDown
If downstream fast channel link
establishment degression rate
exceeds the threshold, the system
generates an alarm.
AtucThreshInterleaveRateDown
If downstream interleaved channel
link establishment degression rate
exceeds the threshold, the system
generates an alarm.
AturThresh15MinLofs
In 15 minutes, if the downstream
LoF exceeds the threshold, the
system generates an alarm.
AturThresh15MinESs
In 15 minutes, if the downstream
ES exceeds the threshold, the
system generates an alarm.
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Chapter 3 Broadband Service Configuraton
Parameter
Description
AturThresh15MinLoss
In 15 minutes, if the downstream
LoS exceeds the threshold, the
system generates an alarm.
AturThresh15MinLprs
In 15 minutes, if the downstream
loss of power exceeds the
threshold, the system generates
an alarm.
AturThreshFastRateUp
If upstream fast channel link
establishment increase rate
exceeds the threshold, the system
generates an alarm.
AturThreshInterleaveRateUp
If upstream interleaved channel
link establishment increase rate
exceeds the threshold, the system
generates an alarm.
AturThreshFastRateDown
If upstream fast channel link
establishment degression rate
exceeds the threshold, the system
generates an alarm.
AturThreshInterleaveRateDown
If upstream interleaved channel
link establishment degression rate
exceeds the threshold, the system
generates an alarm.
AtucInitFailureTrapEnable
If the parameter is enabled, the
system generates an alarm when
ATU-C initialization is faulty
AtucThreshold15MinFailedFastR
In 15 minutes, if ATU-C fast
retraining failed seconds exceed
the threshold, the system
generates an alarm.
AtucThreshold15MinSesL
In 15 minutes, if the upstream
SES exceeds the threshold, the
system generates an alarm.
AtucThreshold15MinUasL
In 15 minutes, if upstream UAS
exceeds the threshold, the system
generates an alarm.
AturThreshold15MinSesL
In 15 minutes, if the downstream
SES exceeds the threshold, the
system generates an alarm
AturThreshold15MinUasL
In 15 minutes, if downstream UAS
exceeds the threshold, the system
generates an alarm.
AtucConnRateTolerance
If ATU-C rate tolerance exceeds
the threshold, the system
generates an alarm.
ThreshAtucConnRate
If ATU-C real rate does not
reach the threshold, the system
generates an alarm.
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ZXDSL 9806H Configuration Manual (CLI)
Related
Operations
Parameter
Description
AturConnRateTolerance
If ATU-R rate tolerance exceeds
the threshold, the system
generates an alarm.
ThreshAturConnRate
If ATU-R real rate does not
reach the threshold, the system
generates an alarm.
Table 38 describes the operation related to ADSL/ADSL2+ alarm
profile configuration.
TABLE 38 OPERATION RELATED TO ADSL/ADSL2+ ALARM PROFILE
Information
Procedure
Remarks
Delete ADSL/ADSL2+
alarm profile.
no adsl-al
arm-profile
alarm-profile-name
The default alarm
profile cannot be
deleted.
Enabling Interface
Short Description
Prerequisites
Context
Perform this procedure to enable an ADSL/ADSL2+interface.
ADSL/ADSL2+ line profile is configured.
�
Enabling interface is a communication setup process between
ADSL/ADSL2+ ATU-C and ATU-R.
�
If the process is successful, communication is established between ATU-C and ATU-R for service transmission.
�
If the ATU-R device is offline, the device is in listening status.
Once the device is online, the communication setup process
starts automatically. The interface is enabled.
�
By default, the port administration status is enabled.
To enable an ADSL/ADSL2+ interface, perform the following steps:
Steps
1. Execute the interface adsl or interface range adsl command to enter ADSL/ADSL2+ interface mode.
2. Execute the shutdown command to disable interface.
3. Execute the no shutdown command to enable interface.
4. Execute the show interface command to show interface information.
END
Result
Example
OF STEPS
An ADSL/ADSL2+ interface is enabled successfully.
Enable ADSL/ADSL2+ interface 4/1.
9806(config)# interface adsl 4/1
9806(cfg-if-adsl-4/1)# shutdown
9806(cfg-if-adsl-4/1)# no shutdown
9806(config)# show interface 4/1 port-status
Port AdminStatus LinkStatus AtucTxRate(kbps) AturTxRate(kbps)
-----------------------------------------------------------------
92
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Chapter 3 Broadband Service Configuraton
4/1
enable
down
N/A
N/A
Configuring MAC Pool
Short Description
Context
Steps
Perform this procedure to configure MAC pool.
To configure MAC pool, perform the following steps:
1. Execute the subscriber-mac-pool command to configure
MAC pool.
2. Execute the show subscriber-mac-pool command to show
MAC pool.
END
Result
Example
OF STEPS
MAC pool is configured successfully.
Configure a MAC pool. Its ID is 1. Start MAC is 00:00:00:00:00:0.
MAC address number is 16.
9806(config)# subscriber-mac-pool 1 start-mac 00:00:00:00:00:01 16 pppoa
9806(config)# show subscriber-mac-pool 1
Start MAC address
: 00:00:00:00:00:01
Pool capacity
: 100
Pool type
: pppoa
Num of free address
: 75
VDSL2+ Service Access
Configuration
This topic includes the following:
�
Overview
�
Configuring IPoE/PPPoE Access
�
Line Profile Configuration
�
Configuring Alarm Profile
�
Enabling Interface
Overview
Service
Description
VDSL2 access adopts symmetrical or asymmetrical data transmission mode. The recommended transmission distance reaches up
to 500 meters.
Service
Specifications
9806H supports VDSL2 access service through VSTDC card. At
most 4 VDSL2 cards can be inserted in each 9806H shelf. Each
card provides 16 VDSL2 ports. Each shelf provides at most 64
VDSL2 access ports.
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Configuring IPoE/PPPoE Access
Short Description
Prerequisites
Perform this procedure to configure VDSL2 IPoE/PPPoE access service, which enables users to access the Internet through VDSL2
lines in IPoE/PPPoE mode.
�
Network devices work normally and cables are connected.
�
VDSL2 cards work normally.
Background
Information
Access rate is restricted through VDSL2 profile.
Networking
Diagram
Figure 33 shows VDSL2 IPoE/PPPoE access service networking diagram.
FIGURE 33 VDSL2 IPOE/PPPOE ACCESS SERVICE NETWORKING DIAGRAM
Computer is connected to VDSL2 service port of ZXDSL 9806H
through VDSL2 modem. User data packets are connected to
ZXDSL 9806H in IPoE or PPPoE mode, then, transmitted to the
upper– layer network through uplink port.
Data Configuration
94
Table 39 describes VDSL2 IPoE/PPPoE access service data configuration.
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Chapter 3 Broadband Service Configuraton
TABLE 39 VDSL2 IPOE/PPPOE ACCESS SERVICE DATA CONFIGURATION
Item
Data
Remarks
Line Configuration
Profile
�
�
Profile name: test
xdsl2LConfProfR
fiBa nds: 1 - 2,
4094 – 4095
xdsl2L ConfProfV
dsl2CarMask: 30
- 40
Select default
values for other
parameters.
In the process of
enabling a VDSL
port, the port
uses the line and
channel parameters
configured in the line
configuration profile
to negotiate with the
opposite CPE device.
If the negotiation is
successful, this VDSL
port is enabled. This
VDSL line can bear
services.
Profile name: test
zxAnXdsl2Ch
1ConfProfMa
xDataRateDs:
20000 Kbps
zxAnXdsl2Ch
1ConfProfMa
xDataRateUs:
20000 Kbps
Select default
values for other
parameters.
Theoretically, user
access rate reaches
up to 20000 Kbps.
Actually, user access
port rate may be lower
than the expected
value. In this case,
increase access rate
value in configuration
to enable the
actual access rate
to meet the user
requirements.
�
�
Service Profile
�
�
�
�
Alarm Configuration
Profile
Profile name:
VDEFVAL.PRF
(default)
The alarm
configuration profile
contains alarm
threshold value.
When the alarm
profile is bound to a
port, the line status
of this port can be
monitored.
By default, all
alarm threshold
values in the alarm
configuration profile
are 0, which means
that the line status is
not monitored.
UPBO Configuration
Profile
Profile name:
VUPBODEF.PRF
(default)
Configure UPBO
parameters after
binding this profile to
port.
DPBO Configuration
Profile
Profile name:
VDPBODEF.PRF
(default)
Configure DPBO
parameters after
binding this profile to
port.
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Item
Data
Remarks
User-side Port
Configure a single
user:
VLAN ID is consistent
with that of the
upper-layer device.
�
�
VDSL2 port: 3/1
User VLAN: 301
Configure users in
batch:
�
�
VDSL2 ports: 3/1
– 3/16
User VLAN: 301 –
224
Network Side
Uplink port: 5/1
–
Requirements for
Upper-layer Device
LAN Switch:
� LAN Switch
transmits
ZXDSL 9806H
service packets
transparently.
� Configure VLAN
for ZXDSL 9806H
access. Keep
the VLAN ID
consistent with
uplink VLAN ID.
Refer to related
manuals for LAN
Switch and BAS
device configurations.
BAS
�
�
Configuration
Flow
96
According to
authentication
and accounting
requirements for
dialing users,
complete relevant
configurations,
such as:
– Access user
domain,
including
authentication
plan, accounting plan, authorization
plan
– RADIUS
server
If user
authentication
is performed on
BAS, configure
access user name
and password
on BAS. If the
user IP address is
allocated through
BAS, configure
the relevant IP
address pool on
BAS.
Figure 34 shows VDSL2 IPoE/PPPoE access service configuration
flow.
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FIGURE 34 VDSL2 IPOE/PPPOE ACCESS SERVICE CONFIGURATION FLOW
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Steps
To configure VDSL2 IPoE/PPPoE access service, perform the following steps:
1. Create service VLAN. Add uplink port and service port to this
VLAN.
9806(config)#
9806(config)#
9806(config)#
9806(config)#
add-vlan
vlan 301
vlan 301
vlan 301
301
encapsulation all
3/1 untag
5/1-2 tag
Create VLANs in batch and add service virtual ports in batch if
it is necessary.
9806(config)# add-vlan 301-316
100%
9806(config)# vlan 301-316 3/1-16 untag one-to-one
9806(config)# vlan 301-316 5/1-2 tag
2. Configure user port PVID.
9806(config)# interface vdsl 3/1
9806(cfg-if-vdsl-3/1)# pvid 301
Configure user port PVID in batch.
9806(config)# interface range vdsl 3/1-16
9806(cfg-if-range-vdsl)# pvid 301-316 one-to-one
3. Create line base profile.
9806(config)# vdsl2-base-profile test
9806(config)# vdsl2-base-profile test
First configure vdsl2 transmode bits:
Preferred modes:
[0] None
[1] G.993.2 Region A (North America) (Annex A/G.993.2).
[2] G.993.2 Region B (Europe) (Annex B/G.993.2).
[3] G.993.2 Region C (Japan) (Annex C/G.993.2).
Please choose one from the preferred modes:[2]
Second configure adsl2 transmode bits:
Preferred modes:
[1] T1.413 G.dmt(fdm)
[2] T1.413 G.dmt(ec)
[3] Adsl2(fdm) Adsl2+(fdm) G.dmt(fdm) ReAdsl2(fdm)
[4] Adsl2(fdm) Adsl2+(ec) G.dmt(fdm) ReAdsl2(fdm)
[5] Adsl2(fdm) Adsl2+(fdm) G.dmt(fdm) ReAdsl2(fdm) T1.413
[6] Adsl2(fdm) Adsl2+(ec) G.dmt(fdm) ReAdsl2(fdm) T1.413
[7] Custom
[8] All Capability
Please choose one transmode to change to (1-8):[3]
please configure the StandardProfile:
g993_2_8A(0-disable,1-enable)[0]
g993_2_8B(0-disable,1-enable)[0]
g993_2_8C(0-disable,1-enable)[0]
g993_2_8D(0-disable,1-enable)[0]
g993_2_12A(0-disable,1-enable)[1]
g993_2_12B(0-disable,1-enable)[0]
g993_2_17A(0-disable,1-enable)[0]
Annex_B common BandPlans:
[1] BP_B7_1 997-M1c-A-7
[2] BP_B7_2 997-M1x-M-8
[3] BP_B7_3 997-M1x-M
[4] BP_B7_4 997-M2x-M-8
[5] BP_B7_5 997-M2x-A
[6] BP_B7_6 997-M2x-M
[7] BP_B7_7 HPE17-M1-NUS0
[8] BP_B7_8 HPE30-M1-NUS0
[9] BP_B7_9 997E17-M2x-NUS0
[10] BP_B7_10 997E30-M2x-NUS0
[11] BP_B8_1 998-M1x-A
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[12] BP_B8_2 998-M1x-B
[13] BP_B8_3 998-M1x-NUS0
[14] BP_B8_4 998-M2x-A
[15] BP_B8_5 998-M2x-M
[16] BP_B8_6 998-M2x-B
[17] BP_B8_7 998-M2x-NUS0
[18] BP_B8_8 998E17-M2x-NUS0
[19] BP_B8_9 998E17-M2x-NUS0-M
[20] BP_B8_10 998ADE17-M2x-NUS0-M
[21] BP_B8_11 998ADE17-M2x-A
[22] BP_B8_12 998ADE17-M2x-B
[23] BP_B8_13 998E30-M2x-NUS0
[24] BP_B8_14 998E30-M2x-NUS0-M
[25] BP_B8_15 998ADE30- M2x-NUS0-M
[26] BP_B8_16 998ADE30- M2x-NUS0-A
[27] BP_ZTE_1 ZTE997_M2x_M
please configure the VDSL2 Limit PSD Masks and Bandplans:[14]
zxAnXdsl2LConfProfUs0Disable(enable(1),disable(2)):[1]
xdsl2LConfProfRfiBands:
There are 0 bands been set, please to choose (0-no change,
1-modify the bands,
-delete all bands):[0]1
the number of Rfibands you want to change[0-16]:[0]2
the setting of rfiband
: 1
start subcarrier[1-4096]:[1]1
stop subcarrier[1-4096]:[1]2
the setting of rfiband
: 2
start subcarrier[2-4096]:[2]4094
stop subcarrier[4094-4096]:[4094]4095
xdsl2LConfProfVdsl2CarMask:
There are 0 bands been set, please to choose (0-no change,
1-modify the bands,
-delete all bands):[0]1
the number of bands you need to change is [0-32]:[0]1
the setting of band
: 1
start subcarrier[1-4096]:[1]30
stop subcarrier[30-4096]:[30]40
zxAnXdsl2LConfProfVdslMaxNomAtpDs(0..255 (0.1dBm)):[205]
Press M or m key to modify, or the other key to complete?[C]
Need more detailed base profile parameters ? Y/N: [N]n
4. Create service profile.
9806(config)# vdsl2-service-profile test
9806(config)# vdsl2-service-profile test
zxAnXdsl2LConfProfForceInp(1-Enable,2-Disable):[1]
zxAnXdsl2LConfProfRaModeDs(1-Manual,2-AdaptAtStartup,
3-AdaptAtRuntime):[2]
zxAnXdsl2LConfProfRaModeUs(1-Manual,2-AdaptAtStartup,
3-AdaptAtRuntime):[2]
zxAnXdsl2LConfProfTargetSnrmDs(0..310(0.1dB)):[80]
zxAnXdsl2LConfProfTargetSnrmUs(0..310(0.1dB)):[80]
zxAnXdsl2LConfProfMaxSnrmDs(81..310(0.1dB)):[300]
zxAnXdsl2LConfProfMaxSnrmUs(81..310(0.1dB)):[300]
zxAnXdsl2LConfProfMinSnrmDs(0..79(0.1dB)):[0]
zxAnXdsl2LConfProfMinSnrmUs(0..79(0.1dB)):[0]
zxAnXdsl2Ch1ConfProfMaxDataRateDs((0..200,000)kbps):[120000]20000
zxAnXdsl2Ch1ConfProfMaxDataRateUs((0..200,000)kbps):[120000]20000
zxAnXdsl2Ch1ConfProfMinDataRateDs((0..20000)kbps):[32]
zxAnXdsl2Ch1ConfProfMinDataRateUs((0..20000)kbps):[32]
zxAnXdsl2Ch1ConfProfMaxDelayDs((0..63)ms):[16]
zxAnXdsl2Ch1ConfProfMaxDelayUs((0..63)ms):[16]
Please configure MinProtection:
noProtection (1)
- INP not required
halfSymbol (2)
- INP length = 1/2 symbol
singleSymbol (3)
- INP length = 1 symbol
twoSymbols (4)
- INP length = 2 symbols
threeSymbols (5)
- INP length = 3 symbols
fourSymbols (6)
- INP length = 4 symbols
fiveSymbols (7)
- INP length = 5 symbols
sixSymbols (8)
- INP length = 6 symbols
sevenSymbols (9)
- INP length = 7 symbols
eightSymbols (10)
- INP length = 8 symbols
nineSymbols (11)
- INP length = 9 symbols
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tenSymbols (12)
- INP length = 10 symbols
elevenSymbols (13)
- INP length = 11 symbols
twelveSymbols (14)
- INP length = 12 symbols
thirteenSymbols (15) - INP length = 13 symbols
fourteenSymbols (16) - INP length = 14 symbols
fifteenSymbols (17) - INP length = 15 symbols
sixteenSymbols (18) - INP length = 16 symbols
zxAnXdsl2Ch1ConfProfMinProtectionDs((1..18)Symbol):[1]
zxAnXdsl2Ch1ConfProfMinProtectionUs((1..18)Symbol):[1]
Press M or m key to modify, or the other key to complete?[C]
5. Bind line base profile.
9806(config)# interface vdsl 3/1
9806(cfg-if-vdsl-3/1)# vdsl2 base-profile test
Or, bind line base profile in batch.
9806(config)# interface range vdsl 3/1-16
9806(cfg-if-range-vdsl)# vdsl2 base-profile test
6. Bind service profile.
9806(config)# interface vdsl 3/1
9806(cfg-if-vdsl-3/1)# vdsl2 service-profile test
Or, bind service profile in batch.
9806(config)# interface range vdsl 3/1-16
9806(cfg-if-range-vdsl)# vdsl2 service-profile test
7. (Optional) Bind alarm profile.
�
�
�
If the default alarm profile is not used, first, execute the
vdsl2-alarm-profile filename command to create a new
alarm profile. Next, execute the same command to modify
the alarm profile. Then, execute the vdsl2 alarm-profile
command to bind ports.
By default, all VDSL2 ports are bound to the alarm profile
VDEFVAL.PRF.
In this instance, the default alarm profile is used.
8. (Optional) Bind DPBO profile.
�
�
�
If the default DPBO profile is not used, first, execute the
vdsl2-dpbo-profile filename command to create a new
DPBO profile. Next, execute the same command to modify
the DPBO profile. Then, execute the vdsl2 dpbo-profile
command to bind ports.
By default, all VDSL2 ports are bound to the DPBO profile
VDPBODEF.PRF.
In this instance, the default DPBO profile is used.
9. (Optional) Bind UPBO profile.
�
�
100
If the default UPBO profile is not used, first, execute the
vdsl2-upbo-profile filename command to create a new
UPBO profile. Next, execute the same command to modify
the UPBO profile. Then, execute the vdsl2 upbo-profile
command to bind ports.
By default, all VDSL2 ports are bound to the UPBO profile
VUPBODEF.PRF.
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Chapter 3 Broadband Service Configuraton
�
In this instance, the default UPBO profile is used.
10. Enable user port.
9806(config)# interface vdsl 3/1
9806(cfg-if-vdsl-3/1)# shutdown
9806(cfg-if-vdsl-3/1)# no shutdown
Or, enable user ports in batch.
9806(config)# interface range vdsl 3/1-16
9806(cfg-if-range-vdsl)# shutdown
9806(cfg-if-range-vdsl)# no shutdown
11. Save configurations.
9806# copy running-config startup-config
End of Steps
Result
Users can access the Internet in IPoE/PPPoE mode successfully.
Line Profile Configuration
The line profile configuration process includes the following:
�
Configuring Basic Profile
�
Configuring Service Profile
�
Configuring DPBO Profile
�
Configuring UPBO Profile
Configuring Basic Profile
Short Description
Background
Information
Perform this procedure to configure VDSL2 basic profile.
�
ZXDSL 9806H can be configured with 80 VDSL2 basic profiles.
Among them, VBASEDEF.PRF is the system default profile. Its
parameter cannot be deleted or modified.
�
When port is activated, the specified parameters in the basic
profile are configured between the office-end device and remote device to negotiate and confirm whether they can work
normally.
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Configuration
Flow
Figure 35 shows VDSL2 basic profile configuration flow.
FIGURE 35 VDSL2 BASIC PROFILE CONFIGURATION FLOW
Steps
To configure VDSL2 basic profile, perform the following steps:
1. Execute the vdsl2-base-profile profile-name command to
create a VDSL2 basic profile.
2. Execute the vdsl2-base-profile profile-name command to
modify the profile parameters.
3. Execute the show vdsl2 base-profile profile-name command
to show VDSL2 basic profile.
End of Steps
Result
Example
VDSL2 basic profile is configured successfully.
Create a VDSL2 basic profile named as test. Use 1 – 2 or 4094 –
4095 for RFI band notch parameter ’xdsl2LConfProfRfiBands’. Use
30 – 40 for sub-carrier mask ’xdsl2LConfProfVdsl2CarMask’. Use
default values for other parameters.
9806(config)# vdsl2-base-profile test
9806(config)# vdsl2-base-profile test
First configure vdsl2 transmode bits:
Preferred modes:
[0] None
[1] G.993.2 Region A (North America) (Annex A/G.993.2).
[2] G.993.2 Region B (Europe) (Annex B/G.993.2).
[3] G.993.2 Region C (Japan) (Annex C/G.993.2).
Please choose one from the preferred modes:[2]
Second configure adsl2 transmode bits:
Preferred modes:
[1] T1.413 G.dmt(fdm)
[2] T1.413 G.dmt(ec)
[3] Adsl2(fdm) Adsl2+(fdm) G.dmt(fdm) ReAdsl2(fdm)
[4] Adsl2(fdm) Adsl2+(ec) G.dmt(fdm) ReAdsl2(fdm)
[5] Adsl2(fdm) Adsl2+(fdm) G.dmt(fdm) ReAdsl2(fdm) T1.413
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Chapter 3 Broadband Service Configuraton
[6] Adsl2(fdm) Adsl2+(ec) G.dmt(fdm) ReAdsl2(fdm) T1.413
[7] Custom
[8] All Capability
Please choose one transmode to change to (1-8):[3]
please configure the StandardProfile:
g993_2_8A(0-disable,1-enable)[0]
g993_2_8B(0-disable,1-enable)[0]
g993_2_8C(0-disable,1-enable)[0]
g993_2_8D(0-disable,1-enable)[0]
g993_2_12A(0-disable,1-enable)[1]
g993_2_12B(0-disable,1-enable)[0]
g993_2_17A(0-disable,1-enable)[0]
Annex_B common BandPlans:
[1] BP_B7_1 997-M1c-A-7
[2] BP_B7_2 997-M1x-M-8
[3] BP_B7_3 997-M1x-M
[4] BP_B7_4 997-M2x-M-8
[5] BP_B7_5 997-M2x-A
[6] BP_B7_6 997-M2x-M
[7] BP_B7_7 HPE17-M1-NUS0
[8] BP_B7_8 HPE30-M1-NUS0
[9] BP_B7_9 997E17-M2x-NUS0
[10] BP_B7_10 997E30-M2x-NUS0
[11] BP_B8_1 998-M1x-A
[12] BP_B8_2 998-M1x-B
[13] BP_B8_3 998-M1x-NUS0
[14] BP_B8_4 998-M2x-A
[15] BP_B8_5 998-M2x-M
[16] BP_B8_6 998-M2x-B
[17] BP_B8_7 998-M2x-NUS0
[18] BP_B8_8 998E17-M2x-NUS0
[19] BP_B8_9 998E17-M2x-NUS0-M
[20] BP_B8_10 998ADE17-M2x-NUS0-M
[21] BP_B8_11 998ADE17-M2x-A
[22] BP_B8_12 998ADE17-M2x-B
[23] BP_B8_13 998E30-M2x-NUS0
[24] BP_B8_14 998E30-M2x-NUS0-M
[25] BP_B8_15 998ADE30- M2x-NUS0-M
[26] BP_B8_16 998ADE30- M2x-NUS0-A
[27] BP_ZTE_1 ZTE997_M2x_M
please configure the VDSL2 Limit PSD Masks and Bandplans:[14]
zxAnXdsl2LConfProfUs0Disable(enable(1),disable(2)):[1]
xdsl2LConfProfRfiBands:
There are 0 bands been set, please to choose (0-no change,
1-modify the bands, -delete all bands):[0]1
the number of Rfibands you want to change[0-16]:[0]2
the setting of rfiband
: 1
start subcarrier[1-4096]:[1]1
stop subcarrier[1-4096]:[1]2
the setting of rfiband
: 2
start subcarrier[2-4096]:[2]4094
stop subcarrier[4094-4096]:[4094]4095
xdsl2LConfProfVdsl2CarMask:
There are 0 bands been set, please to choose (0-no change,
1-modify the bands, -delete all bands):[0]1
the number of bands you need to change is [0-32]:[0]1
the setting of band
: 1
start subcarrier[1-4096]:[1]30
stop subcarrier[30-4096]:[30]40
zxAnXdsl2LConfProfVdslMaxNomAtpDs(0..255 (0.1dBm)):[205]
Press M or m key to modify, or the other key to complete?[C]
Need more detailed base profile parameters ? Y/N: [N]y
zxAnXdsl2LConfProfVdslMaxNomAtpUs(0..255 (0.1dBm)):[145]
zxAnXdsl2LConfProfAdslMaxNomAtpDs(0..255 (0.1dBm)):[205]
zxAnXdsl2LConfProfAdslMaxNomAtpUs(0..255 (0.1dBm)):[145]
zxAnXdsl2LConfProfRaUsNrmDs(0..310(0.1dB)):[90]
zxAnXdsl2LConfProfRaUsNrmUs(0..310(0.1dB)):[90]
zxAnXdsl2LConfProfRaUsTimeDs(0..16383(s)):[60]
zxAnXdsl2LConfProfRaUsTimeUs(0..16383(s)):[60]
zxAnXdsl2LConfProfRaDsNrmsDs(0..310(0.1dB)):[30]
zxAnXdsl2LConfProfRaDsNrmsUs(0..310(0.1dB)):[30]
zxAnXdsl2LConfProfRaDsTimeDs(0..16383(s)):[60]
zxAnXdsl2LConfProfRaDsTimeUs(0..16383(s)):[60]
Please configure zxAnXdsl2LConfProfPmMode:
[0] allowTransitionsToIdle(0)
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ZXDSL 9806H Configuration Manual (CLI)
[1] allowTransitionsToLowPower(1)
zxAnXdsl2LConfProfPmMode:[1]
zxAnXdsl2LConfProfL0Time(0..255)s:[255]
zxAnXdsl2LConfProfL2Time(0..255)s:[255]
zxAnXdsl2LConfProfL2Atpr(0..31) dB:[3]
zxAnXdsl2LConfProfL2Atprt(0..31) dB:[31]
zxAnXdsl2LConfProfPsdMaskDs:
There are 0 breakpoints been set, please to choose (0-no change,
1-modify the bands, 2-delete all bands):[0]
zxAnXdsl2LConfProfPsdMaskUs:
There are 0 breakpoints been set, please to choose (0-no change,
1-modify the bands, 2-delete all bands):[0]
zxAnXdsl2LConfProfBitswapDs(enabled (1), disabled (2)):[1]
zxAnXdsl2LConfProfBitswapUs(enabled (1), disabled (2)):[1]
zxAnXdsl2LConfProfRetrainMode(enabled (1), disabled (2)):[1]
zxAnXdsl2LconfProfSnrModeDs(disabled (1), enabled (2)):[1]
zxAnXdsl2LconfProfSnrModeUs(disabled (1), enabled (2)):[1]
zxAnXdsl2LConfProfTxRefVNDs:
There are 0 breakpoints been set, please to choose (0-no change,
1-modify the bands, 2-delete all bands):[0]
zxAnXdsl2LConfProfTxRefVNUs:
There are 0 breakpoints been set, please to choose (0-no change,
1-modify the bands, 2-delete all bands):[0]
zxAnXdsl2Ch1ConfProfMinDataRateLowPwrDs((0..200,000)kbps):[128]
zxAnXdsl2Ch2ConfProfRateLimination(disable(1),enable(2)):[2]
Press M or m key to modify, or the other key to complete?[C]
9806(config)# show
Vdsl2 TransSys
Adsl TransSys
StandardProfile
LimitMask
Us0Disable
Us0Mask
RfiBandsDs
vdsl2 base-profile test
: G.993.2 Region B (Europe) (Annex B/G.993.2).
: Adsl2(fdm) Adsl2+(fdm) G.dmt(fdm) ReAdsl2(fdm)
: g993_2_12A
: BP_B8_4 998-M2x-A
: enable
: None
:
00 01 00 02 0F FE 0F FF 00 00 00 00 00 00 00 00
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00
Vdsl2CarMask
:
00
00
00
00
00
00
00
00
1E
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
28
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
VdslMaxNomAtpDs
: 205
Need more detailed base profile parameters ? Y/N: [N]y
VdslMaxNomAtpUs
: 145
AdslMaxNomAtpDs
: 205
AdslMaxNomAtpUs
: 145
RaUsNrmDs
: 90
RaUsNrmUs
: 90
RaUsTimeDs
: 60
RaUsTimeUs
: 60
RaDsNrmsDs
: 30
RaDsNrmsUs
: 30
RaDsTimeDs
: 60
RaDsTimeUs
: 60
PmMode
: allowTransitionsToLowPower(1)
L0Time
: 255
L2Time
: 255
L2Atpr
: 3
L2Atprt
: 31
PsdMaskDs
:
00 00 00 00 00 00 00 00 00 00 00
00 00 00 00 00 00 00 00 00 00 00
00 00 00 00 00 00 00 00 00 00 00
00 00 00 00 00 00 00 00 00 00 00
00 00 00 00 00 00 00 00 00 00 00
00 00 00 00 00 00 00 00 00 00 00
104
Confidential and Proprietary Information of ZTE CORPORATION
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
Chapter 3 Broadband Service Configuraton
PsdMaskUs
BitswapDs
BitswapUs
SnrModeDs
SnrModeUs
TxRefVNDs
:
00 00 00 00 00 00 00 00
00 00 00 00 00 00 00 00
00 00 00 00 00 00 00 00
00 00 00 00 00 00 00 00
00 00 00 00 00 00 00 00
00 00 00 00 00 00 00 00
: enable
: enable
: disable
: disable
:
00 00 00 00
00 00 00 00
00 00 00 00
00 00 00 00
00 00 00 00
00 00 00 00
00
00
00
00
00
00
TxRefVNUs
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
:
00 00 00 00 00 00 00 00
00 00 00 00 00 00 00 00
00 00 00 00 00 00 00 00
h1MinDataRateLowPwrDs
RateLimination
Parameter
Description
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00 00 00 00 00 00 00 00
00 00 00 00 00 00 00 00
00 00 00 00 00 00 00 00
: 128
: enable
Table 40 describes VDSL2 basic profile parameters.
TABLE 40 VDSL2 BASIC PROFILE PARAMETERS
Parameter
Description
Default Value
zxAnXdsl2BaseConfPr
ofileName
32 characters
-
vdsl2 transmode bits
VDSL2 work mode:
[2] G.993.2 Region
B (Europe) (Annex
B/G.993.2).
�
�
�
�
adsl2 transmode bits
[0] None
[1] G.993.2
Region A (North
America) (Annex
A/G.993.2).
[2] G.993.2
Region B
(Europe) (Annex
B/G.993.2).
[3] G.993.2
Region C
(Japan) (Annex
C/G.993.2).
ADSL2 work mode:
�
�
�
�
�
[1] T1.413
G.dmt(fdm)
[2] T1.413
G.dmt(ec)
[3] Adsl2(fdm)
Adsl2+(fdm)
G.dmt(fdm)
ReAdsl2(fdm)
[4] Adsl2(fdm)
Adsl2+(ec)
G.dmt(fdm)
ReAdsl2(fdm)
[5] Adsl2(fdm)
Adsl2+(fdm)
G.dmt(fdm)
[3] Adsl2(fdm)
Adsl2+(fdm)
G.dmt(fdm)
ReAdsl2(fdm)
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Parameter
Description
ReAdsl2(fdm)
T1.413
� [6] Adsl2(fdm)
Adsl2+(ec)
G.dmt(fdm)
ReAdsl2(fdm)
T1.413
� [7] Custom
� [8] All Capability
Default Value
StandardProfile
VDSL2 standard
profile:
g993_2_12A
�
�
�
�
�
�
�
zxAnXdsl2LConfProfLi
mitMask
PSD profile
parameters:
�
�
�
�
�
�
�
�
�
�
�
�
�
�
�
�
�
�
�
106
g993_2_8A
g993_2_8B
g993_2_8C
g993_2_8D
g993_2_12A
g993_2_12B
g993_2_17A
[1] BP_B7_1
997-M1c-A-7
[2] BP_B7_2
997-M1x-M-8
[3] BP_B7_3
997-M1x-M
[4] BP_B7_4
997-M2x-M-8
[5] BP_B7_5
997-M2x-A
[6] BP_B7_6
997-M2x-M
[7] BP_B7_7
HPE17-M1-NUS0
[8] BP_B7_8
HPE30-M1-NUS0
[9] BP_B7_9
997E17-M2xNUS0
[10] BP_B7_10
997E30-M2xNUS0
[11] BP_B8_1
998-M1x-A
[12] BP_B8_2
998-M1x-B
[13] BP_B8_3
998-M1x-NUS0
[14] BP_B8_4
998-M2x-A
[15] BP_B8_5
998-M2x-M
[16] BP_B8_6
998-M2x-B
[17] BP_B8_7
998-M2x-NUS0
[18] BP_B8_8
998E17-M2xNUS0
[19] BP_B8_9
998E17-M2xNUS0-M
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[14] BP_B8_4
998-M2x-A
Chapter 3 Broadband Service Configuraton
Parameter
Description
�
�
�
�
�
�
�
�
zxAnXdsl2LConfProfU
s0Disable
Default Value
[20] BP_B8_10
998ADE17-M2xNUS0-M
[21] BP_B8_11
998ADE17-M2x-A
[22] BP_B8_12
998ADE17-M2x-B
[23] BP_B8_13
998E30-M2xNUS0
[24] BP_B8_14
998E30-M2xNUS0-M
[25] BP_B8_15
998ADE30M2x-NUS0-M
[26] BP_B8_16
998ADE30M2x-NUS0-A
[27] BP_ZTE_1
ZTE997_M2x_M
Enable upstream band
US0 or not.
enable
[1] enable
[2] disable
xdsl2LConfProfRfiBa
nds
To avoid RFI, several
bands are configured.
Each band consists
of start tone and end
tone. Sixteen bands
can be configured at
maximum.
0
xdsl2LConfProfVdsl2C
arMask
Sub-carrier mask defines upstream/downstream sub-carriers
for transmission. At
most 32 bands can be
defined.
0
zxAnXdsl2LConfProfV
dslMaxNomAtpDs
VDSL downstream
maximum normal
aggregation
transmission power
in the process of
initialization and
showdown
205
Value range: 0 – 255
Real range: 0 dBm –
25.5 dBm
Interval: 0.1 dBm
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ZXDSL 9806H Configuration Manual (CLI)
Parameter
Description
Default Value
zxAnXdsl2LConfProfV
dslMaxNomAtpUs
VDSL upstream
maximum normal
aggregation
transmission power
in the process of
initialization and
showdown
145
Value range: 0 – 255
Real range: 0 dBm –
25.5 dBm
Interval: 0.1 dBm
zxAnXdsl2LConfProfA
dslMaxNomAtpDs
ADSL downstream
maximum normal
aggregation
transmission power
in the process of
initialization and
showdown
205
Value range: 0 – 255
Real range: 0 dBm –
25.5 dBm
Interval: 0.1 dBm
zxAnXdsl2LConfProfA
dslMaxNomAtpUs
ADSL upstream
maximum normal
aggregation
transmission power
in the process of
initialization and
showdown
145
Value range: 0 – 255
Real range: 0 dBm –
25.5 dBm
Interval: 0.1 dBm
zxAnXdsl2LConfProfR
aUsNrmDs/zxAnXdsl2
LConfProfRaUsNrmUs
Value range: 0 – 310
90
Real range: 0 dBm –
31 Bm
Interval: 0.1 dBm
108
zxAnXdsl2LConfProfR
aUsTimeDs/zxAnXds
l2LConfProfRaUsTim
eUs
Value range: 0 – 1683
sec
60
zxAnXdsl2LConfProfR
aDsNrmsDs/zxAnXds
l2LConfProfRaDsNrm
sUs
Value range: 0 – 310
30
zxAnXdsl2LConfProfR
aDsTimeDs/zxAnXdsl
2LConfProfRaDsTime
Us(
Value range: 0 – 1683
sec
Real range: 0 dBm –
31 Bm
Interval: 0.1 dBm
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Chapter 3 Broadband Service Configuraton
Parameter
Description
Default Value
zxAnXdsl2LConfProfP
mMode
Channel is allowed
to changed to idle
or low power status
when there is no
data transmission or
transmission rate is
too low.
allowTransitionsToLowPower
�
�
zxAnXdsl2LConfProfL
0Time
[0] allowTransitionsToIdle
[1] allowTransitionsToLowPower
Minimum time of full
power status
255
Value range: 0 – 255
sec
zxAnXdsl2LConfProfL
2Time
Minimum time from
low power to power
lower down
255
Value range: 0 – 255
sec
zxAnXdsl2LConfProfL
2Atpr
Reduced power each
time
3
Value range: 0 dB –
31 dB
31
zxAnXdsl2LConfProfL
2Atprt
Total reduced power
zxAnXdsl2LConfProfP
sdMaskDs/zxAnXdsl2
LConfProfPsdMaskUs
PSD mask defines
PSD at broken point.
There are 16 broken
points upstream and
32 broken points
downstream.
0
zxAnXdsl2LConfProfB
itswapDs/zxAnXdsl2L
ConfProfBitswapUs
Channel bit swap can
adjust to bit or Tone
transmission power,
ensuring the line bit
error lower than 10-7.
[1] enabled
Value range: 0 dB –
31 dB
Value range:
[1] enabled
[2] disabled
zxAnXdsl2LConfProfR
etrainMode
Enable or disable
retraining.
[1] enabled
Value range:
[1] enabled
[2] disabled
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ZXDSL 9806H Configuration Manual (CLI)
Parameter
Description
Default Value
zxAnXdsl2LconfProfS
nrModeDs/zxAnXdsl2
LconfProfSnrModeUs
Enable or disable upstream/downstream
virtual noise.
[1] disabled
Value range:
[1] disabled
[2] enabled
zxAnXdsl2LConfProfT
xRefVNDs/zxAnXdsl2
LConfProfTxRefVNUs
Value range:
0
Sub-carrier ID: 1 –
4096
PSD value: 0 – 200
Real range: -40
dBm/Hz – 140
dBm/Hz
Interval: 0.5 dBm/Hz
zxAnXdsl2Ch1ConfPr
ofMinDataRateLowPw
rDs
The minimum rate of
downstream line in
low power.
128
Value range:
0 Kbps – 200000 Kbps
zxAnXdsl2Ch2ConfPro
fRateLimination
Related
Operations
Value range
[2] enable
[1] disable
[2] enable
Table 41 describes operations related to VDSL2 basic profile.
TABLE 41 OPERATIONS RELATED TO VDSL2 BASIC PROFILE
Information
Procedure
Remarks
Delete VDSL2 basic
profile.
no vdsl2-base-prof
ile profile-mane
The default basic
profile cannot be
deleted.
Show VDSL2 basic
profile and related
ports.
show vdsl2
base-profile
profile-mane
relate-ports
–
Configuring Service Profile
Short Description
Background
Information
110
Perform this procedure to configure VDSL2 service profile.
�
ZXDSL 9806H can be configured with 256 VDSL2 service profiles. Among them, VDEFVAL.PRF is the system default profile.
Its parameter cannot be deleted or modified.
�
Target SNR margin must be less than or equal to maximum
SNR. The minimum SNR margin must be less than or equal to
target SNR margin.
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Chapter 3 Broadband Service Configuraton
Configuration
Flow
Figure 36 shows VDSL2 service profile configuration flow.
FIGURE 36 VDSL2 SERVICE PROFILE CONFIGURATION FLOW
Steps
To configure VDSL2 service profile, perform the following steps:
1. Execute the vdsl2-service-profile profile-name command to
create a VDSL2 service profile.
2. Execute the vdsl2-service-profile profile-name command to
modify the profile parameters.
3. Execute the show vdsl2 service-profile profile-name command to show VDSL2 service profile.
End of Steps
Result
Example
VDSL2 service profile is configured successfully.
Create a VDSL2 service profile named as test. The maximum
upstream/downstream rate is 20000 Kbps. Use default values for
other parameters.
9806(config)# vdsl2-service-profile test
9806(config)# vdsl2-service-profile test
zxAnXdsl2LConfProfForceInp(1-Enable,2-Disable):[1]
zxAnXdsl2LConfProfRaModeDs(1-Manual,2-AdaptAtStartup,
3-AdaptAtRuntime):[2]
zxAnXdsl2LConfProfRaModeUs(1-Manual,2-AdaptAtStartup,
3-AdaptAtRuntime):[2]
zxAnXdsl2LConfProfTargetSnrmDs(0..310(0.1dB)):[80]
zxAnXdsl2LConfProfTargetSnrmUs(0..310(0.1dB)):[80]
zxAnXdsl2LConfProfMaxSnrmDs(81..310(0.1dB)):[300]
zxAnXdsl2LConfProfMaxSnrmUs(81..310(0.1dB)):[300]
zxAnXdsl2LConfProfMinSnrmDs(0..79(0.1dB)):[0]
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ZXDSL 9806H Configuration Manual (CLI)
zxAnXdsl2LConfProfMinSnrmUs(0..79(0.1dB)):[0]
zxAnXdsl2Ch1ConfProfMaxDataRateDs((0..200,000)kbps):[120000]20000
zxAnXdsl2Ch1ConfProfMaxDataRateUs((0..200,000)kbps):[120000]20000
zxAnXdsl2Ch1ConfProfMinDataRateDs((0..20000)kbps):[32]
zxAnXdsl2Ch1ConfProfMinDataRateUs((0..20000)kbps):[32]
zxAnXdsl2Ch1ConfProfMaxDelayDs((0..63)ms):[16]
zxAnXdsl2Ch1ConfProfMaxDelayUs((0..63)ms):[16]
Please configure MinProtection:
noProtection (1)
- INP not required
halfSymbol (2)
- INP length = 1/2 symbol
singleSymbol (3)
- INP length = 1 symbol
twoSymbols (4)
- INP length = 2 symbols
threeSymbols (5)
- INP length = 3 symbols
fourSymbols (6)
- INP length = 4 symbols
fiveSymbols (7)
- INP length = 5 symbols
sixSymbols (8)
- INP length = 6 symbols
sevenSymbols (9)
- INP length = 7 symbols
eightSymbols (10)
- INP length = 8 symbols
nineSymbols (11)
- INP length = 9 symbols
tenSymbols (12)
- INP length = 10 symbols
elevenSymbols (13)
- INP length = 11 symbols
twelveSymbols (14)
- INP length = 12 symbols
thirteenSymbols (15) - INP length = 13 symbols
fourteenSymbols (16) - INP length = 14 symbols
fifteenSymbols (17) - INP length = 15 symbols
sixteenSymbols (18) - INP length = 16 symbols
zxAnXdsl2Ch1ConfProfMinProtectionDs((1..18)Symbol):[1]
zxAnXdsl2Ch1ConfProfMinProtectionUs((1..18)Symbol):[1]
Press M or m key to modify, or the other key to complete?[C]
9806(config)# show vdsl2 service-profile test
ForceInp
: enable
RaModeDs
: AdaptAtStartup
RaModeUs
: AdaptAtStartup
TargetSnrmDs
: 80
TargetSnrmUs
: 80
MaxSnrmDs
: 300
MaxSnrmUs
: 300
MinSnrmDs
: 0
MinSnrmUs
: 0
Ch1ProfMaxDataRateDs
: 20000
Ch1ProfMaxDataRateUs
: 20000
Ch1ProfMinDataRateDs
: 32
Ch1ProfMinDataRateUs
: 32
Ch1ProfMaxDelayDs
: 16
Ch1ProfMaxDelayUs
: 16
Ch1ProfMinProtectionDs : noProtection
Ch1ProfMinProtectionUs : noProtection
Parameter
Description
Table 42 describes VDSL2 service profile parameters.
TABLE 42 VDSL2 SERVICE PROFILE PARAMETERS
Parameter
Description
Default Value
zxAnXdsl2ServiceCon
fProfileName
32 characters
-
zxAnXdsl2LConfProfF
orceInp
Two modes:
Enable
zxAnXdsl2LConfProfR
aModeDs/zxAnXdsl2L
ConfProfRaModeUs
Three modes:
1.
2.
�
�
�
112
Enable
Disable
Adaptation
manually
Adaptation in
startup
Adaptation inn
running
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Adaptation in startup
Chapter 3 Broadband Service Configuraton
Parameter
Description
Default Value
zxAnXdsl2LConfProfT
argetSnrmDs/zxAnXd
sl2LConfProfTargetSn
rmUs
Target SNR refers
to a certain amount
of reserved noise
in normal data
communication. It
ensures normal
communication
when line status is
deteriorating. The
greater the SNR
margin is, the fewer
the transmission error
occurs and the safer
the system is.
80
Value range: 0 – 310
Real range: 0 dB – 31
dB
zxAnXdsl2LConfProfM
axSnrmDs/zxAnXdsl2
LConfProfMaxSnrmUs
When the line status
is very good and
the SNR exceeds
the maximum noise
tolerance, the system
may decrease the
transmission power
to reduce the SNR
while meeting the
requirement of
current line rate.
300
Value range: 81 –
310
Real range: 8.1 dB –
31 dB
zxAnXdsl2LConfProfM
inSnrmDs/zxAnXdsl2L
ConfProfMinSnrmUs
When line status
deteriorates and the
SNR is lower than
the minimum noise
tolerance, the system
may increase the
transmission power to
raise the line SNR to
meet the requirement
of the current line
rate.
0
Value range: 0 – 79
Real range: 0 dB –
7.9 dB
zxAnXdsl2Ch1ConfPro
fMaxDataRateDs/zxA
nXdsl2Ch1ConfProfMa
xDataRateUs
Value range: 0 Kbps
– 200000 Kbps
120000 Kbps
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ZXDSL 9806H Configuration Manual (CLI)
Parameter
Description
Default Value
zxAnXdsl2Ch1ConfPro
fMinDataRateDs/zxAn
Xdsl2Ch1ConfProfMin
DataRateUs
In the process of establishing VDSL2 connection, if the calculated upstream/downstream rate is lower
than the configured
minimum rate, the
port cannot be activated.
32 Kbps
Value range: 0 Kbps
– 20000 Kbps
zxAnXdsl2Ch1ConfPro
fMaxDelayDs/zxAnXd
sl2Ch1ConfProfMaxD
elayUs
Interleaving delay
refers to the delay
when bit stream
is interleaved. It
is related with
interleaving depth,
code word length and
line rate.
16 ms
Value range: 0 ms –
63 ms
zxAnXdsl2Ch1ConfPro
fMinProtectionDs/zxA
nXdsl2Ch1ConfProfMi
nProtectionUs
Impulse noise protection is defined as the
number of protected
DMT consecutive code
words which can be
corrected. The upstream/downstream
pulse noise protection
can be configured respectively. The code
word length is as follows:
�
�
�
�
�
�
Related
Operations
–
No Protection
0.5 Symbol
1 Symbol
2 Symbols
...
16 Symbols
Table 43 describes operations related to VDSL2 service profile.
TABLE 43 OPERATIONS RELATED TO VDSL2 SERVICE PROFILE
114
Information
Procedure
Remarks
Delete VDSL2 service
profile.
no vdsl2-service-pr
ofile profile-name
The default basic
profile cannot be
deleted.
Show VDSL2 service
profile and related
ports.
show vdsl2
service-profile
profile-name
relate-ports
–
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Chapter 3 Broadband Service Configuraton
Configuring DPBO Profile
Short Description
Background
Information
Configuration
Flow
Perform this procedure to configure VDSL2 DPBO profile.
ZXDSL 9806H can be configured with 256 VDSL2 DPBO profiles.
Among them, VDPBODEF.PRF is the system default profile. Its parameter cannot be deleted or modified.
Figure 37 shows VDSL2 DPBO profile configuration flow.
FIGURE 37 VDSL2 DPBO PROFILE CONFIGURATION FLOW
Steps
To configure VDSL2 DPBO profile, perform the following steps:
1. Execute the vdsl2-dpbo-profile profile-name command to
create a VDSL2 DPBO profile.
2. Execute the vdsl2-dpbo-profile profile-name command to
modify the profile parameters.
3. Execute the show vdsl2 dpbo-profile profile-name command
to show VDSL2 DPBO profile.
End of Steps
Result
Example
VDSL2 DPBO profile is configured successfully.
Create a VDSL2 DPBO profile named as test. The electrical length
at exchange is 500. Use default values for other parameters.
9806(config)# vdsl2-dpbo-profile test
9806(config)# vdsl2-dpbo-profile test
zxAnXdsl2LConfProfDpboEPsd:
[1] adsl
mode
[2] adsl2
mode
[3] adsl2+ mode
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ZXDSL 9806H Configuration Manual (CLI)
[4] vdsl2 998_M2x_A mode
[5] vdsl2 998E17-M2x-NUS0
mode
[6] custom
zxAnXdsl2LConfProfDpboEPsd:[3]
zxAnXdsl2LConfProfDpboEsEL(0(0 dB)..511(255.5 dB)) 0.5 dB:[0]500
zxAnXdsl2LConfProfDpboEsCableModelA(0..640) 2e-8:[263]
zxAnXdsl2LConfProfDpboEsCableModelB(0..640) 2e-8:[509]
zxAnXdsl2LConfProfDpboEsCableModelC(0..640) 2e-8:[261]
xdsl2LineConfProfDpboMus(0..255) 0.5dBm:[190]
xdsl2LineConfProfDpboFmin(0..2048) 4.3125 KHz:[32]
xdsl2LineConfProfDpboFmax(32..6956) 4.3125 KHz:[511]
Press M or m key to modify, or the other key to complete?[C]
9806(config)# show vdsl dpbo-profile test
DpboEPsd
: adsl2+ mode
: 00 01 78 00 20 78 00 21
FF 67 02 00 A0 00 00 00
00 00 00 00 00 00 00 00
00 00 00 00 00 00 00 00
00 00 00 00 00 00 00 00
00 00 00 00 00 00 00 00
DpboEsEL
DpboEsCableModelA
DpboEsCableModelB
DpboEsCableModelC
DpboMus
DpboFMin
DpboFMax
Parameter
Description
:
:
:
:
:
:
:
50 00 FF 50 01 78 64 01
00 00 00 00 00 00 00 00
00 00 00 00 00 00 00 00
00 00 00 00 00 00 00 00
00 00 00 00 00 00 00 00
00 00 00 00 00 00 00 00
500
263
509
261
190
32
511
Table 44 describes VDSL2 DPBO profile parameters.
TABLE 44 VDSL2 DPBO PROFILE PARAMETERS
Parameter
Description
Default Value
zxAnXdsl2DpboConfPr
ofileName
32 characters
–
zxAnXdsl2LConfProfD
pboEPsd
DPBO supports the
following working
modes:
[3] adsl2+ mode
[1]
[2]
[3]
[4]
[5]
[6]
zxAnXdsl2LconfProfD
pboEsEL
adsl
mode
adsl2
mode
adsl2+ mode
vdsl2 998_M2x_A mode
vdsl2 998E17-M2x-NUS0
custom
When the value is 0,
DPBO is disabled.
Value range: 0 – 511
Real range: 0 dB –
255.5 dB
116
Confidential and Proprietary Information of ZTE CORPORATION
0
mode
Chapter 3 Broadband Service Configuraton
Parameter
Description
Default Value
zxAnXdsl2LConfProfD
pboEsCableModelA
This parameter
describes the
real attenuation
characteristic of cable,
such as differentiating
0.4 mm or 0.5 mm of
cable diameter. Cable
model uses A, B, C to
estimate the relevant
frequency loss of
End-E (exchange)
cable calculated
by the exchange
side electrical length
parameter.
263
Value range: 0 – 640
Real range: –1.0 –
1.5
Interval: 2-8
zxAnXdsl2LConfProfD
pboEsCableModelB
Characteristic
parameter vector
B of office-end cable
509
Value range: 0 – 640
Real range: –1.0 –
1.5
Interval: 2-8
zxAnXdsl2LConfProfD
pboEsCableModelC
Characteristic
parameter vector
C of office-end cable
261
Value range: 0 – 640
Real range: –1.0 –
1.5
Interval: 2-8
xdsl2LineConfProfDpb
oMus
Value range: 0 – 255
190
Real range: 0 dBm –
127.5 dBm
Interval: 0.5 dBm
zxAnXdsl2LConfProfD
pboFMin
Minimum DPBO
frequency value
32
Value range: 0 – 2048
Real range: 0 KHz –
8832 KHz
Interval: 4.3125 KHz
zxAnXdsl2LConfProfD
pboFMax
Maximum DPBO
frequency value
511
Value range: 32 –
6956
Real range: 138 KHz
– 29997.75 KHz
Interval: 4.3125 KHz
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ZXDSL 9806H Configuration Manual (CLI)
Related
Operations
Table 45 describes operations related to VDSL2 DPBO profile.
TABLE 45 OPERATIONS RELATED TO VDSL2 DPBO PROFILE
Information
Procedure
Remarks
Delete VDSL2 DPBO
profile.
no vdsl2-dpbo-prof
ile profile-name
The default basic
profile cannot be
deleted.
Show VDSL2 DPBO
profile and related
ports.
show vdsl2
dpbo-profile
profile-name
relate-ports
–
Configuring UPBO Profile
Short Description
Background
Information
118
Perform this procedure to configure UPBO VDSL2 profile.
ZXDSL 9806H can be configured with 40 VDSL2 UPBO profiles.
Among them, VUPBODEF.PRF is the system default profile. Its parameter cannot be deleted or modified.
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Chapter 3 Broadband Service Configuraton
Configuration
Flow
Figure 38 shows VDSL2 UPBO profile configuration flow.
FIGURE 38 VDSL2 UPBO PROFILE CONFIGURATION FLOW
Steps
To configure VDSL2 UPBO profile, perform the following steps:
1. Execute the vdsl2-upbo-profile profile-name command to
create a VDSL2 UPBO profile.
2. Execute the vdsl2-upbo-profile profile-name command to
modify the profile parameters.
3. Execute the show vdsl2 upbo-profile profile-name command
to show VDSL2 UPBO profile.
End of Steps
Result
Example
VDSL2 UPBO profile is configured successfully.
Create a VDSL2 UPBO profile named as test. The UPBO work
mode is auto. Use default values for other parameters.
9806(config)# vdsl2-upbo-profile test
9806(config)# vdsl2-upbo-profile test
zxAnXdsl2LConfProfUpboKL(0..1280) 0.1dBm:[0]
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ZXDSL 9806H Configuration Manual (CLI)
zxAnXdsl2LConfProfUpboKLF(auto[1] override[2] disableUpbo[3])[3]1
zxAnXdsl2LConfProfUpboU0bandPsdA(4000..8095) 0.01 dBm/Hz:[4000]
zxAnXdsl2LConfProfUpboU0bandPsdB(0..4095) 0.01 dBm/Hz:[0]
zxAnXdsl2LConfProfUpboU1bandPsdA(4000..8095) 0.01 dBm/Hz:[5650]
zxAnXdsl2LConfProfUpboU1bandPsdB(0..4095) 0.01 dBm/Hz:[1020]
zxAnXdsl2LConfProfUpboU2bandPsdA(4000..8095) 0.01 dBm/Hz:[5650]
zxAnXdsl2LConfProfUpboU2bandPsdB(0..4095) 0.01 dBm/Hz:[615]
zxAnXdsl2LConfProfUpboU3bandPsdA(4000..8095) 0.01 dBm/Hz:[5650]
zxAnXdsl2LConfProfUpboU3bandPsdB(0..4095) 0.01 dBm/Hz:[615]
zxAnXdsl2LConfProfUpboU4bandPsdA(4000..8095) 0.01 dBm/Hz:[4000]
zxAnXdsl2LConfProfUpboU4bandPsdB(0..4095) 0.01 dBm/Hz:[0]
Press M or m key to modify, or the other key to complete?[C]
9806(config)# show
UpboKL
UpboKLF
UpboU0bandPsdA
UpboU0bandPsdB
UpboU1bandPsdA
UpboU1bandPsdB
UpboU2bandPsdA
UpboU2bandPsdB
UpboU3bandPsdA
UpboU3bandPsdB
UpboU4bandPsdA
UpboU4bandPsdB
Parameter
Description
vdsl2 upbo-profile test
: 0
: auto
: 4000
: 0
: 5650
: 1020
: 5650
: 615
: 5650
: 615
: 4000
: 0
Table 46 describes VDSL2 UPBO profile parameters.
TABLE 46 VDSL2 UPBO PROFILE PARAMETERS
Parameter
Description
Default Value
zxAnXdsl2LUpboConf
ProfileName
32 characters
–
zxAnXdsl2LConfProfU
pboKL
This parameter is
effective only when
zxAnXdsl2LConfPr
ofUpboKLF is set
as ’override(2)’.
Electrical length
refers to distance
attenuation value that
is force-configured by
user.
0
Value range: 0 – 1280
Real range: 0 dBm –
128 dBm
Interval: 0.1 dBm
zxAnXdsl2LConfProfU
pboKLF
Define whether to
force remote end
to use office-end
configured electrical
length to calculate
UPBO.
Mode range:
[1] auto
[2] override
[3] disableUpbo
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[2] override
Chapter 3 Broadband Service Configuraton
Parameter
Description
Default Value
zxAnXdsl2LConfProfU
pboU0bandPsdA
Parameter A for
calculating upstream
frequency band US0
UPBO
4000
Value range: 4000 –
8095
Real range: 40
dBm/Hz – 80.95
dBm/Hz
Interval: 0.01
dBm/Hz
zxAnXdsl2LConfProfU
pboU0bandPsdB
Parameter B for
calculating upstream
frequency band US0
UPBO
0
Value range: 0 – 4095
Real range: 0 dBm/Hz
– 40.95 dBm/Hz
Interval: 0.01
dBm/Hz
zxAnXdsl2LconfProfU
pboU1bandPsdA
Parameter A for
calculating upstream
frequency band US1
UPBO
5650
Value range: 4000 –
8095
Real range: 40
dBm/Hz – 80.95
dBm/Hz
Interval: 0.01
dBm/Hz
zxAnXdsl2LconfProfU
pboU1bandPsdB
Parameter B for
calculating upstream
frequency band US1
UPBO
1020
Value range: 0 – 4095
Real range: 0 dBm/Hz
– 40.95 dBm/Hz
Interval: 0.01
dBm/Hz
zxAnXdsl2LconfProfU
pboU2bandPsdA
Parameter A for
calculating upstream
frequency band US2
5650
Value range: 4000 –
8095
Real range: 40
dBm/Hz – 80.95
dBm/Hz
Interval: 0.01
dBm/Hz
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Parameter
Description
Default Value
zxAnXdsl2LconfProfU
pboU2bandPsdB
Parameter B for
calculating upstream
frequency band US2
UPBO
615
Value range: 0 – 4095
Real range: 0 dBm/Hz
– 40.95 dBm/Hz
Interval: 0.01
dBm/Hz
zxAnXdsl2LconfProfU
pboU3bandPsdA
Parameter A for
calculating upstream
frequency band US3
UPBO
5650
Value range: 4000 –
8095
Real range: 40
dBm/Hz – 80.95
dBm/Hz
Interval: 0.01
dBm/Hz
zxAnXdsl2LconfProfU
pboU3bandPsdB
Parameter B for
calculating upstream
frequency band US3
UPBO
615
Value range: 0 – 4095
Real range: 0 dBm/Hz
– 40.95 dBm/Hz
Interval: 0.01
dBm/Hz
zxAnXdsl2LconfProfU
pboU4bandPsdA
Parameter A for
calculating upstream
frequency band US4
UPBO
4000
Value range: 4000 –
8095
Real range: 40
dBm/Hz – 80.95
dBm/Hz
Interval: 0.01
dBm/Hz
zxAnXdsl2LconfProfU
pboU4bandPsdB
Parameter B for
calculating upstream
frequency band US4
UPBO
Value range: 0 – 4095
Real range: 0 dBm/Hz
– 40.95 dBm/Hz
Interval: 0.01
dBm/Hz
122
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0
Chapter 3 Broadband Service Configuraton
Related
Operations
Table 47 describes operations related to VDSL2 UPBO profile.
TABLE 47 OPERATIONS RELATED TO VDSL2 UPBO PROFILE
Information
Procedure
Remarks
Delete VDSL2 UPBO
profile.
no vdsl2-upbo-prof
ile profile-name
The default basic
profile cannot be
deleted.
Show VDSL2 UPBO
profile and related
ports.
show vdsl2
upbo-profile
profile-name
relate-ports
–
Configuring Alarm Profile
Short Description
Background
Information
Perform this procedure to configure VDSL2 alarm profile.
�
ZXDSL 9806H has its own default VDSL2 alarm profile. The
name is VDEFVAL.PRF. The default alarm profile cannot be
deleted or modified. In the default alarm profile, all alarm
threshold is 0.
�
A series of threshold parameters are set in VDSL2 alarm profile
to monitor the performance of the activated VDSL2 line and
channel. When some value reaches the threshold, the system
generates alarm and send alarm information to NMS.
�
ZXDSL 9806H supports 40 VDSL2 alarm profiles.
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ZXDSL 9806H Configuration Manual (CLI)
Configuration
Flow
Figure 39 shows VDSL2 alarm profile configuration flow.
FIGURE 39 VDSL2 ALARM PROFILE CONFIGURATION FLOW
124
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Chapter 3 Broadband Service Configuraton
Steps
To configure VDSL2 alarm profile, perform the following steps:
1. Execute the vdsl2-alarm-profile alarm-profile-name command to create VDSL2 alarm profile.
2. Execute the vdsl2-alarm-profile alarm-profile-name command to modify alarm profile parameters.
3. Execute the show vdsl2 alarm-profile alarm-profile-name
command to show VDSL2 alarm profile.
End of Steps
Result
Example
VDSL2 alarm profile is configured successfully.
Add a VDSL2 alarm profile. The alarm profile name is test.
9806(config)# vdsl2-alarm-profile test
9806(config)# vdsl2-alarm-profile test
zxAnXdsl2XtucThreshFecs(0...900s)[0]
zxAnXdsl2XtucThreshEs(0...900s):[0]50
zxAnXdsl2XtucThreshSes(0...900s):[0]50
zxAnXdsl2XtucThreshLoss(0...900s):[0]50
zxAnXdsl2XtucThreshLofs(0...900s):[0]50
zxAnXdsl2XtucThreshLols(0...900s):[0]50
zxAnXdsl2XtucThreshLprs(0...900s):[0]50
zxAnXdsl2XtucThreshUas(0...900s):[0]50
zxAnXdsl2XtucThreshPtmCrcErrs(0...2147483646):[0]
zxAnXdsl2XtucThreshPtmCodViol(0...2147483646):[0]
zxAnXdsl2XturThreshFecs(0...900s):[0]
zxAnXdsl2XturThreshEs(0...900s):[0]50
zxAnXdsl2XturThreshSes(0...900s):[0]50
zxAnXdsl2XturThreshLoss(0...900s):[0]50
zxAnXdsl2XturThreshLofs(0...900s):[0]50
zxAnXdsl2XturThreshLprs(0...900s):[0]50
zxAnXdsl2XturThreshUas(0...900s):[0]
zxAnXdsl2XturThreshPtmCrcErrs(0...2147483646):[0]
zxAnXdsl2XturThreshPtmCodViol(0...2147483646):[0]
zxAnXdsl2ThreshFailedFullInt(0...2147483646):[0]5
zxAnXdsl2ThreshFailedShrtInt(0...2147483646):[0]5
zxAnXdsl2Ch1XtucThrshCodeViol(0...2147483646):[0]
zxAnXdsl2Ch1XtucThrshCorrected(0...2147483646):[0]
zxAnXdsl2Ch1XturThrshCodeViol(0...2147483646):[0]
zxAnXdsl2Ch1XturThrshCorrected(0...2147483646):[0]
Press M or m key to modify, or the other key to complete?[C]
9806(config)# show vdsl2 alarm-profile test
XtucThreshFecs
: 0
XtucThreshEs
: 50
XtucThreshses
: 50
XtucThreshLoss
: 50
XtucThreshLofs
: 50
XtucThreshLols
: 50
XtucThreshLprs
: 50
XtucThreshUas
: 50
XtucThreshPtmCrcErrs
: 0
XtucThreshPtmCodViol
: 0
XturThreshFecs
: 0
XturThreshEs
: 50
XturThreshses
: 50
XturThreshLoss
: 50
XturThreshLofs
: 50
XturThreshLprs
: 50
XturThreshUas
: 0
XturThreshPtmCrcErrs
: 0
XturThreshPtmCodViol
: 0
ThreshFailedFullInt
: 5
ThreshFailedshrtInt
: 5
Ch1XtucThrshCodeViol
: 0
Ch1XtucThrshCorrected
: 0
Ch1XturThrshCodeViol
: 0
Ch1XturThrshCorrected
: 0
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Parameter
Description
Table 48 describes the VDSL2 alarm profile parameters.
TABLE 48 VDSL2 ALARM PROFILE PARAMETERS
126
Parameter
Description
Alarm profile name
-
zxAnXdsl2XtucThreshFecs
In 15 minutes, if central office
FECS exceeds the threshold, the
system generates an alarm.
zxAnXdsl2XtucThreshEs
In 15 minutes, if upstream ES
exceeds the threshold, the system
generates an alarm.
zxAnXdsl2XtucThreshSes
In 15 minutes, if upstream SES
exceeds the threshold, the system
generates an alarm.
zxAnXdsl2XtucThreshLoss
In 15 minutes, if the upstream
LoS exceeds the threshold, the
system generates an alarm.
zxAnXdsl2XtucThreshLofs
In 15 minutes, if the upstream
LoF exceeds the threshold, the
system generates an alarm.
zxAnXdsl2XtucThreshLols
In 15 minutes, if the upstream
loss of link exceeds the threshold,
the system generates an alarm
zxAnXdsl2XtucThreshLprs
In 15 minutes, if central office loss
of power exceeds the threshold,
the system generates an alarm.
zxAnXdsl2XtucThreshUas
In 15 minutes, if upstream UAS
exceeds the threshold, the system
generates an alarm.
zxAnXdsl2XtucThreshPtmCrcErrs
In 15 minutes, if upstream
CRC error packets exceed the
threshold, the system generates
an alarm.
zxAnXdsl2XtucThreshPtmCodViol
In 15 minutes, if upstream
PTM code violation exceeds the
threshold, the system generates
an alarm.
zxAnXdsl2XturThreshFecs
In 15 minutes, if remote end FECS
exceeds the threshold, the system
generates an alarm.
zxAnXdsl2XturThreshEs
In 15 minutes, if downstream ES
exceeds the threshold, the system
generates an alarm.
zxAnXdsl2XturThreshSes
In 15 minutes, if downstream SES
exceeds the threshold, the system
generates an alarm.
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Related
Operations
Parameter
Description
zxAnXdsl2XturThreshLoss
In 15 minutes, if the downstream
LoS exceeds the threshold, the
system generates an alarm.
zxAnXdsl2XturThreshLofs
In 15 minutes, if the downstream
LoF exceeds the threshold, the
system generates an alarm.
zxAnXdsl2XtucThreshLprs
In 15 minutes, if remote end loss
of power exceeds the threshold,
the system generates an alarm.
zxAnXdsl2XturThreshUas
In 15 minutes, if downstream UAS
exceeds the threshold, the system
generates an alarm.
zxAnXdsl2XturThreshPtmCrcErrs
In 15 minutes, if downstream
CRC error packets exceed the
threshold, the system generates
an alarm.
zxAnXdsl2XturThreshPtmCodViol
In 15 minutes, if downstream
PTM code violation exceeds the
threshold, the system generates
an alarm.
zxAnXdsl2ThreshFailedFullInt
In 15 minutes, if failed full
initialization exceeds the
threshold, the system generates
an alarm.
zxAnXdsl2ThreshFailedShrtInt
In 15 minutes, if failed fast
initialization exceeds the
threshold, the system generates
an alarm.
zxAnXdsl2Ch1XtucThrshCodeViol
In 15 minutes, if upstream code
violation exceeds the threshold,
the system generates an alarm.
zxAnXdsl2Ch1XtucThrshCorrected
In 15 minutes, if upstream
corrected data blocks exceed the
threshold, the system generates
an alarm.
zxAnXdsl2Ch1XturThrshCodeViol
In 15 minutes, if downstream code
violation exceeds the threshold,
the system generates an alarm.
zxAnXdsl2Ch1XturThrshCorrected
In 15 minutes, if downstream
corrected data blocks exceed the
threshold, the system generates
an alarm.
Table 49 describes operations related to VDSL2 alarm profile configuration.
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ZXDSL 9806H Configuration Manual (CLI)
TABLE 49 OPERATIONS RELATED TO VDSL2 ALARM PROFILE
Information
Procedure
Remarks
Delete VDSL2 alarm
profile.
no vdsl2-al
arm-profile
alarm-profile-name
The default alarm
profile cannot be
deleted.
Show alarm profile
related ports.
show vdsl2
alarm-profile
alarm-profile-name
related-ports
–
Enabling Interface
Short Description
Prerequisites
Context
Perform this procedure to enable VDSL2 interface.
VDSL2 line profile is configured.
�
Enabling VDSL2 interface is a communication setup process
between VTU-C and VTU-R.
�
If the process is successful, the interface is enabled.
�
ZXDSL 9806H supports four profiles:
�
VDSL2 service profile
�
VDSL2 base profile
�
VDSL2 DPBO profile
�
VDSL2 UPBO profile
To enable VDSL2 interface, perform the following steps:
Steps
1. Execute the interface vdsl or interface range vdsl command to enter VDSL2 interface mode.
2. Execute the shutdown command to disable the interface.
3. Execute the no shutdown to enable the interface.
4. Execute the show interface to show interface information.
END
Result
Example
OF STEPS
VDSL2 interface is enabled successfully.
Enable VDSL2 interface 3/1.
9806(config)# interface vdsl 3/1
9806(cfg-if-vdsl-3/1)# shutdown
9806(cfg-if-vdsl-3/1)# no shutdown
9806(cfg-if-vdsl-3/1)# show interface 3/1 port-status
Port AdminStatus LinkStatus XtucTxRate(kbps) XturTxRate(kbps)
------------------------------------------------------------3/1 enable
down
N/A
N/A
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Chapter 3 Broadband Service Configuraton
SHDSL Service Access
Configuration
This topic includes the following:
�
Overview
�
Configuring IPoE/PPPoE Access
�
Configuring Line Profile
�
Configuring Alarm Profile
�
Enabling Interface
Overview
Service
Description
SHDSL provides users with symmetrical high-speed dedicated access line service with ordinary twisted pair. It can satisfy the
broadband access demand of medium-sized or small-sized enterprises and SOHO users. The SHDSL transmission distance range
is from to 3000 - 6000 meters.
9806H support SHDSL through SSTEB card. Its data rate range is
from 200 Kbps – 462 Kbps.
Service
Specifications
ZXDSL 9806H supports SHDSL access service through SSTEB card.
At most 4 SHDSL cards can be plugged-in each shelf. Each card
provides 24 SHDSL ports. Each shelf can provide up to 96 SHDSL
access service lines.
9806H provides two encapsulation types:
�
llc-Bridge
�
vcmux-Bridge
9806H provdes one common mode, which includes llc-Bridge and
vcmux-Bridge types.
The corresponding relations between 9806H and MODEM encapsulation type is listed in Table 50.
TABLE 50 CORRESPONDING RELATIONS BETWEEN 9806H AND MODEM
ENCAPSULATION TYPE
Access Service Type
MODEM
Encapsulation Type
9806H Encapsulation Type
IPoE
llc-Bridge
llc-Bridge, common
vcmux-Bridge
vcmux-Bridge,
common
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Access Service Type
MODEM
Encapsulation Type
9806H Encapsulation Type
PPPoE
llc-RFC1483, 2684
Bridge
llc-Bridge, common
llc-RFC1483, 2684
Bridge
vcmux-Bridge,
common
vcmux-PPPoE
vcmux-Bridge,
common
llc-PPPoE
llc-Bridge, common
Configuring IPoE/PPPoE Access
Short Description
Prerequisites
130
Perform this procedure to configure SHDSL IPoE/PPPoE access service, which enables users to access the Internet through SHDSL
lines in IPoE/PPPoE mode.
�
Network devices work normally and cables are connected.
�
SHDSL cards work normally.
Background
Information
Access rate is restricted through SHDSL profile.
Networking
Diagram
Figure 40 shows SHDSL IPoE/PPPoE access service networking diagram.
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Chapter 3 Broadband Service Configuraton
FIGURE 40 SHDSL IPOE/PPPOE ACCESS SERVICE NETWORKING DIAGRAM
Computer is connected to SHDSL service port of ZXDSL 9806H
through SHDSL modem. User data packets are connected to
ZXDSL 9806H in IPoE or PPPoE mode, then, transmitted to the
upper–layer network through uplink port.
Data Configuration
Table 51 describes SHDSL IPoE/PPPoE access service data configuration.
TABLE 51 SHDSL IPOE/PPPOE ACCESS SERVICE DATA CONFIGURATION
Item
Data
Remarks
Line Configuration
Profile
�
�
In the process of
enabling a SHDSL
port, the port
uses the line and
channel parameters
configured in the line
configuration profile
to negotiate with the
opposite CPE device.
If the negotiation
is successful, this
SHDSL port is
enabled. This SHDSL
line can bear services.
Profile name: test
Use the values
of the default
line profile
(SDEFVAL.PRF)
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Item
Data
Remarks
Alarm Configuration
Profile
Profile name:
SDEFVAL.PRF
(default)
The alarm
configuration profile
contains alarm
threshold value.
When the alarm
profile is bound to a
port, the line status
of this port can be
monitored.
By default, all
alarm threshold
values in the alarm
configuration profile
are 0, which means
that the line status is
not monitored.
User-side Port
Configure a single
user:
�
�
SHDSL port: 1/1
User VLAN: 101
VLAN ID is consistent
with that of the
upper-layer device.
Configure users in
batch:
�
�
SHDSL ports: 1/1
– 1/16
User VLAN: 101 –
124
Network Side
Uplink port: 5/1
–
Requirements for
Upper-layer Device
LAN Switch:
� LAN Switch
transmits
ZXDSL 9806H
service packets
transparently.
� Configure VLAN
for ZXDSL 9806H
access. Keep
the VLAN ID
consistent with
uplink VLAN ID.
Refer to related
manuals for LAN
Switch and BAS
device configurations.
BAS
�
132
According to
authentication
and accounting
requirements for
dialing users,
complete relevant
configurations,
such as:
– Access user
domain,
including
authentication
plan, accounting plan, authorization
plan
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Chapter 3 Broadband Service Configuraton
Item
Data
Remarks
–
�
Configuration
Flow
RADIUS
server
If user
authentication
is performed on
BAS, configure
access user name
and password
on BAS. If the
user IP address is
allocated through
BAS, configure
the relevant IP
address pool on
BAS.
Figure 41 shows SHDSL IPoE/PPPoE access service configuration
flow.
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ZXDSL 9806H Configuration Manual (CLI)
FIGURE 41 SHDSL IPOE/PPPOE ACCESS SERVICE CONFIGURATION FLOW
Steps
To configure SHDSL IPoE/PPPoE access service, perform the following steps:
1. Create service VLAN. Add uplink port and service port to this
VLAN.
9806(config)#
9806(config)#
9806(config)#
9806(config)#
add-vlan
vlan 101
vlan 101
vlan 101
101
encapsulation all
1/1 untag
5/1-2 tag
Create VLANs in batch and add service virtual ports in batch if
it is necessary.
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9806(config)# add-vlan 101-124
100%
9806(config)# vlan 101-124 1/1-24 untag one-to-one
9806(config)# vlan 101-124 5/1-2 tag
2. Configure user port PVID and PVC.
9806(config)# interface shdsl 1/1
9806(cfg-if-shdsl-1/1)# pvid 101 pvc 1
9806(cfg-if-shdsl-1/1)# atm pvc 1 vpi 8 vci 81 common
Configure user port PVID and PVC in batch.
9806(config)# interface range shdsl 1/1-24
9806(cfg-if-range-shdsl)# pvid 101-124 one-to-one pvc 1
9806(cfg-if-range-shdsl)# atm pvc 1 vpi 8 vci 81 common
3. Create line profile.
First, execute the show shdsl profile command to check the
current line profiles. If there is no suitable line profile, create
a new one. Configure line profile parameters as required.
9806(config)# shdsl-profile test
9806(config)# shdsl-profile test
SpanConfWireInterface(1-twoWire,2-fourWire,3-gsfourWireBitInterleave,
4-fourWireB
yteInterleaveEnhanced,5-fourWireBitInterleaveEnhanced):[1]
SpanConfMinLineRate(200..4624kbps):[200]
SpanConfMaxLineRate(200..4624kbps):[1552]
SpanConfPSD(1-symmetric,2-asymmetric,3-gsR1asymmetric,
4-gsR2asymmetric):[1]
SpanConfTransmissionMode(0-default,1-custom):[0]
SpanConfRemoteEnabled(1-disable,2-enable)):[1]
SpanConfPowerFeeding(1-noPower,2-powerFeed,3-wettingCurrent):[1]
SpanConfCurrCondTargetMarginDown(0..10dB):[5]
SpanConfWorstCaseTargetMarginDown(-10..10dB):[0]
SpanConfCurrCondTargetMarginUp(0..10dB):[5]
SpanConfWorstCaseTargetMarginUp(-10..10dB):[0]
SpanConfUsedTargetMargins(0-default,1-custom):[0]
SpanConfReferenceClock(1-LocalClk,2-NetworkClk,3-DataOrNetworkClk,
4-DataClk):[1]
SpanConfLineProbeEnable(1-disable,2-enable):[1]
Press M or m key to modify, or the other key to complete?[C]
4. (Optional) Create alarm profile.
First, execute the show shdsl alarm-profile command to
check the current alarm profiles. If there is no suitable alarm
profile, execute the shdsl-alarm-profile command to create
a new one. Configure alarm profile parameters as required.
In this instance, the default alarm profile is used (SDEFVAL.PRF). It is not necessary to configure alarm profile.
5. Bind line profile.
9806(config)# interface shdsl 1/1
9806(cfg-if-shdsl-1/1)# shdsl profile test
Or, bind line profile in batch.
9806(config)# interface range shdsl 1/1-24
9806(cfg-if-range-shdsl)# shdsl profile test
6. (Optional) Bind alarm profile.
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ZXDSL 9806H Configuration Manual (CLI)
By default, all SHDSL ports are bound to the default alarm
profile (SDEFVAL.PRF). If it is required to bind a new alarm
profile, execute the shdsl alarm-profile filename command.
7. Enable user port.
9806(config)# interface shdsl 1/1
9806(cfg-if-shdsl-1/1)# shutdown
9806(cfg-if-shdsl-1/1)# no shutdown
Or, enable user ports in batch.
9806(config)# interface range shdsl 1/1-24
9806(cfg-if-range-shdsl)# shutdown
9806(cfg-if-range-shdsl)# no shutdown
8. Save configurations.
9806# copy running-config startup-config
End of Steps
Result
Users can access the Internet in IPoE/PPPoE mode successfully.
Configuring Line Profile
Short Description
Background
Information
136
Perform this procedure to configure SHDSL line profile.
ZXDSL 9806H supports 20 SHDSL line profiles. Both FOURWIRE.PRF and SDEFVAL.PRF are default profiles which cannot be
deleted or modified.
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Chapter 3 Broadband Service Configuraton
Configuration
Flow
Figure 42 shows SHDSL line profile configuration flow.
FIGURE 42 SHDSL LINE PROFILE CONFIGURATION FLOW
Steps
To configure SHDSL line profile, perform the following steps:
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ZXDSL 9806H Configuration Manual (CLI)
1. Execute the shdsl-profile filename command to create SHDSL
line profile.
2. Execute the shdsl-profile filename command to modify line
parameters.
3. Execute the show shdsl profile filename command to show
SHDSL line profile.
End of Steps
Result
Example
SHDSL line profile is configured successfully.
Add an SHDSL line profile. The line profile name is test. The
maximum downstream rate is 2312 Kbps. Use the default values
for other parameters.
9806(config)# shdsl-profile test
9806(config)# shdsl-profile test
SpanConfWireInterface(1-twoWire,2-fourWire,3-gsfourWireBitInterleave,
4-fourWireByteInterleaveEnhanced,5-fourWireBitInterleaveEnhanced):[1]
SpanConfMinLineRate(200..4624kbps):[200]1024
SpanConfMaxLineRate(1024..4624kbps):[1552]2312
SpanConfPSD(1-symmetric,2-asymmetric,3-gsR1asymmetric,
4-gsR2asymmetric):[1]
SpanConfTransmissionMode(0-default,1-custom):[0]
SpanConfRemoteEnabled(1-disable,2-enable)):[1]
SpanConfPowerFeeding(1-noPower,2-powerFeed,3-wettingCurrent):[1]
SpanConfCurrCondTargetMarginDown(0..10dB):[5]
SpanConfWorstCaseTargetMarginDown(-10..10dB):[0]
SpanConfCurrCondTargetMarginUp(0..10dB):[5]
SpanConfWorstCaseTargetMarginUp(-10..10dB):[0]
SpanConfUsedTargetMargins(0-default,1-custom):[0]
SpanConfReferenceClock(1-LocalClk,2-NetworkClk,3-DataOrNetworkClk,
4-DataClk):[1]
SpanConfLineProbeEnable(1-disable,2-enable):[1]
Press M or m key to modify, or the other key to complete?[C]
9806(config)# show shdsl profile test
SpanConfWireInterface
: twoWire
SpanConfMinLineRate
: 1024
SpanConfMaxLineRate
: 2312
SpanConfPSD
: symmetric
SpanConfTransmissionMode
: region 2 Indicates ITU-T G.991.2
Annex B.
SpanConfRemoteEnabled
: disable
SpanConfPowerFeeding
: noPower
SpanConfCurrCondTargetMarginDown : 5
SpanConfWorstCaseTargetMarginDown : 0
SpanConfCurrCondTargetMarginUp
: 5
SpanConfWorstCaseTargetMarginUp
: 0
SpanConfUsedTargetMargins
: currCondDown
SpanConfReferenceClock
: LocalClk
SpanConfLineProbeEnable
: disable
Parameter
Description
Table 52 describes the SHDSL line profile parameters.
TABLE 52 SHDSL LINE PROFILE PARAMETERS
Parameter
Description
shdslLineConfProfileName
32 bytes
SpanConfWireInterface
Interface modes:
1-twoWire
2-fourWire
3-gsfourWireBitInterleave
4-fourWireByteInterleaveEnhanced
5-fourWireBitInterleaveEnhanced
Default: 1-twoWire
138
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Parameter
Description
SpanConfMinLineRate
Value range: 200 Kbps – 462
Kbps
Default: 200 Kbps
SpanConfMaxLineRate
In SHDSL connection, if the
calculated rate exceeds the
configured maximum line rate,
the system restricts the rate
within the configured maximum
line rate, which may increase its
noise tolerance. If the calculated
maximum line rate cannot reach
the configured maximum line
rate, the system may establish
the connection according to the
real rate while keeping the tart
noise tolerance.
SpanConfPSD
Value range:
1-symmetric
2-asymmetric
3-gsR1asymmetric
4-gsR2asymmetric
Default: 1-symmetric
SpanConfTransmissionMode
Transmission modes:
1.
2.
3.
region1
region2
region1&region2
Default: 2
SpanConfRemoteEnabled
Manage remote device or not.
SpanConfPowerFeeding
Value range:
1-noPower
2-powerFeed
3-wettingCurrent
Default: 1-noPower
SpanConfCurrCondTargetMarginD
own/SpanConfCurrCondTargetM
arginUp
SNR margin refers to a
certain margin of reserved
noise ratio during normal
data communication. Its
purpose is to guarantee normal
communication when the noise
status is deteriorating in line. The
greater the margin is, the smaller
possibility that data transmission
error happens in the system.
Select SNR according to the line
quality in real application.
Range: 0 dB – 10 dB
Default: 5 dB
SpanConfWorstCaseTargetMargin
Down/SpanConfWorstCaseTarget
MarginUp
Value range: -10 dB – 10 dB
Default: 0 dB
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Parameter
Description
SpanConfUsedTargetMargins
Value range:
�
�
�
�
When currCondDown is set
as ’enable’, the current
downstream target SNR is
valid.
When worstCaseDown is set
as ’enable’, the downstream
worst SNR is valid
When currCondUp is set as
’enable’, the current upstream
target SNR is valid.
When worstCaseUp is set as
’enable’, the upstream worst
SNR is valid.
Default: currCondDown is set as
’enable’.
SpanConfReferenceClock
Value range:
1-LocalClk
2-NetworkClk
3-DataOrNetworkClk
4-DataClk
Default: 1-LocalClk
SpanConfLineProbeEnable
Enable probe. The system uses
probe function to find the best
line rate
Disable probe. The system skip
the line rate negotiation process.
The time of establishing G.SHDSL
line is saved.
Default: Disable
Related
Operations
Table 53 describes operations related to SHDSL line profile configuration.
TABLE 53 OPERATIONS RELATED TO SHDSL LINE PROFILE
Information
Procedure
Remarks
Delete SHDSL line
profile
no shdsl-profile
filemane
The default line profile
cannot be deleted.
Bind SHDSL profile to
all SHDSL ports.
shdsl-profile
filename re-app
-
Configuring Alarm Profile
Short Description
Background
Information
140
Perform this procedure to configure SHDSL alarm profile.
�
ZXDSL 9806H has its own default SHDSL alarm profile. The
name is SDEFVAL.PRF. The default alarm profile cannot be
deleted or modified.
�
A series of threshold parameters are set in SHDSL alarm profile
to monitor the performance of the activated SHDSL line and
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channel. When some value reaches the threshold, the system
generates alarm and send alarm information to NMS.
�
Configuration
Flow
ZXDSL 9806H supports 20 SHDSL alarm profiles.
Figure 43 shows SHDSL alarm profile configuration flow.
FIGURE 43 SHDSL ALARM PROFILE CONFIGURATION FLOW
Steps
To configure SHDSL alarm profile, perform the following steps:
1. Execute the shdsl-alarm-profile alarm-profile-name command to create SHDSL alarm profile.
2. Execute the shdsl-alarm-profile alarm-profile-name command to modify alarm profile parameters.
3. Execute the show shdsl alarm-profile alarm-profile-name
command to show SHDSL alarm profile.
End of Steps
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Result
Example
SHDSL alarm profile is configured successfully.
Add an SHDSL alarm profile. The alarm profile name is test.
9806(config)# shdsl-alarm-profile test
9806(config)# shdsl-alarm-profile test
EndpointThreshLoopAttenuation(-127..128dB):[128]
EndpointThreshSNRMargin(-127..128dB):[0]
EndpointThreshES(0..900s):[900]
EndpointThreshSES(0..900s):[900]
EndpointThreshCRCanomalies(0..100000):[900]
EndpointThreshLOSWS(0..900s):[900]
EndpointThreshUAS(0..900s):[900]
Press M or m key to modify, or the other key to complete?[C]
9806(config)# show shdsl alarm-profile
EndpointThreshLoopAttenuation
EndpointThreshSNRMargin
EndpointThreshES
EndpointThreshSES
EndpointThreshCRCanomalies
EndpointThreshLOSWS
EndpointThreshUAS
Parameter
Description
test
: 128
: 0
: 900
: 900
: 900
: 900
: 900
Table 54 describes the SHDSL alarm profile parameters.
TABLE 54 SHDSL ALARM PROFILE PARAMETERS
Related
Operations
142
Parameter
Description
Alarm profile name
–
EndpointThreshLoopAttenuation
In 15 minutes, if loop attenuation
exceeds the threshold, the system
generates an alarm.
EndpointThreshSNRMargin
In 15 minutes, ifSNR margin
exceeds the threshold, the system
generates an alarm.
EndpointThreshES
In 15 minutes, if ES exceeds the
threshold, the system generates
an alarm.
EndpointThreshSES
In 15 minutes, if SES exceeds the
threshold, the system generates
an alarm.
EndpointThreshCRCanomalies
In 15 minutes, if CRC error
packets exceed the threshold, the
system generates an alarm.
EndpointThreshLOSWS
In 15 minutes, if LOSWS exceeds
the threshold, the system
generates an alarm.
EndpointThreshUAS
In 15 minutes, if UAS exceeds the
threshold, the system generates
an alarm.
Table 55 describes the operation related to SHDSL alarm profile
configuration.
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TABLE 55 OPERATION RELATED TO SHDSL ALARM PROFILE
Information
Procedure
Remarks
Delete SHDSL alarm
profile.
no shdsl-al
arm-profile
alarm-profile-name
The default alarm
profile cannot be
deleted.
Enabling Interface
Short Description
Prerequisites
Context
Perform this procedure to enable SHDSL interface.
SHDSL line profile is configured.
�
Enabling SHDSL interface is a communication setup process
between STU-C and STU-R.
�
If the process is successful, communication is established between STU-C and STU-R for service transmission.
�
If the STU-R device is offline, the device is in listening status.
Once the device is online, the communication setup process
starts automatically. The interface is enabled.
�
By default, the port administration status is enabled.
�
By default, all SHDSL interfaces are bound to the line profile
SDEFVAL.PRF.
To enable SHDSL interface, perform the following steps:
Steps
1. Execute the interface shdsl or interface range shdsl command to enter SHDSL interface mode.
2. Execute the shutdown command to disable interface.
3. Execute the no shutdown command to enable interface.
4. Execute the show interface command to show interface information.
END
Result
Example
OF STEPS
SHDSL interface is enabled successfully.
Enable SHDSL interface 1/1.
9806(config)# interface shdsl 1/1
9806(cfg-if-shdsl-1/1)# shutdown
9806(cfg-if-shdsl-1/1)# no shutdown
9806(cfg-if-shdsl-1/1)# show interface 1/1 port-status
Port AdminStatus LinkStatus ActualLineRate(kbps)
-----------------------------------------------------1/1 enable
down
N/A
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Multicast Service
Configuration
This topic includes the following:
�
Overview
�
Configuring IGMP Snooping
�
Configuring IGMP Proxy
�
Configuring Bandwidth
Overview
Service
Description
With the emergence of streaming media in IP network, like multimedia video and data warehouse, the application of multicast
has gradually become a new service demand. Multicast service is
mainly applied in streaming media, remote education, video conference, video multicast, network game, data duplication and any
other point-to-point data transmission.
Service
Specifications
9806H has carrier-class multicast operation capability. It supports multicast protocol and controlled multicast. It also supports
the full set of user-to-network protocol, which provides the basis
for broadband multicast value-added service and multicast service
management. 9806H provides controlled multicast service, which
is easy to operate and manage. It supports IGMPv1/v2. It supports three modes: IGMP Snooping, IGMP Proxy, IGMP Router.
9806H has the following features:
�
It supports 1024 multicast groups.
�
Each multicast user can join in at most 8 multicast groups at
the same time.
�
It supports channel preview function, which allows user to preview channels in a short time. The preview number, preview
time and preview interval can be configured.
�
It supports audience-ratings counting function.
�
It supports controlled multicast, which controls the multicast
groups that user joins in. The program authority is divided into
three types:
�
Deny
�
Permit
�
Preview
Configuring IGMP Snooping
Short Description
144
Perform this procedure to configure IGMP snooping service.
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Chapter 3 Broadband Service Configuraton
Prerequisites
Networking
Diagram
�
Network device works normally and cables are connected.
�
Multicast source exists in network.
�
Relevant cards work normally.
Figure 44 shows IGMP snooping service networking diagram.
FIGURE 44 IGMP SNOOPING SERVICE NETWORKING DIAGRAM
Data Configuration
Table 56 describes IGMP snooping service data configuration.
TABLE 56 IGMP SNOOPING SERVICE DATA CONFIGURATION
Information
Value
Multicast VLAN
VLAN 500
Uplink Port
5/1
Program Library
Video server provides the
following programs which use
default preview template:
Program 1: IP address 224.1.1.1
Program 2: IP address 224.1.1.2
Program 3: IP address 224.1.1.3
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Information
Value
MVLAN Source IP Address
Multicast client IP address:
0.0.0.0 (default). In order to
avoid some multicast route
devices from discarding IGMP
packets from IP address 0.0.0.0,
it is necessary to configure source
IP address to be the IP address of
ZXDSL 9806H.
Multicast Package
Profile 0: Watch Program 1 and
Program 2 in program library.
Multicast Users
�
Multicast user 1:
Service port: 4/1
VPI/VCI: 8/81
Ordered package: profile0
Multicast user 2:
– Service port: 4/2
– VPI/VCI: 8/81
– No Package
–
–
–
�
MODEM
146
Modem VPI/VCI: 8/81
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Configuration
Flow
Figure 45 shows IGMP snooping service configuration flow.
FIGURE 45 IGMP SNOOPING SERVICE CONFIGURATION FLOW
Steps
To configure IGMP snooping service, perform the following steps:
1. Configure xDSL port.
This instance takes ADSL/ADSL2+ port as an example. The
line parameters can be modified as required.
2. Configure VLAN.
i. Add multicast service VLAN 500.
9806(config)# add-vlan 500
ii. Add the uplink port 5/1 to VLAN 500 in tagged mode.
9806(config)# vlan 500 5/1-2 tag
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iii. Add the service ports 4/1 and 4/2 to VLAN 500 in untagged
mode.
9806(config)# vlan 500 4/1-2 untag
iv. Set PVC of service ports 4/1 and 4/2 as 8/81 and PVID as
500.
9806(config)# interface adsl 4/1
9806(cfg-if-adsl-4/1)# atm pvc 1 vpi 8 vci 81
9806(cfg-if-adsl-4/1)# pvid 500 pvc 1
9806(cfg-if-adsl-4/1)# exit
9806(config)# interface adsl 4/2
9806(cfg-if-adsl-4/2)# atm pvc 1 vpi 8 vci 81
9806(cfg-if-adsl-4/2)# pvid 500 pvc 1
3. Configure IGMP mode.
9806(config)# ip igmp mode snooping
Note:
The default IGMP mode is Snooping.
4. (Optional) Configure IGMP parameters.
Table 57 describes IGMPparameters and configuration. In this
instance, IGMP parameters use default values. Therefore, it is
not necessary to configure IGMP parameters.
TABLE 57 IGMP PARAMETERS
Parameter
Description
Value
Command
IGMP Status
Enable/disable
IGMP protocol.
–
Enable
(Default)
–
Disable
ip igmp {
enable |
disable}
–
Snooping
(Default)
–
Router
–
Proxy
Working Mode
Aging Time
Configure
IGMP working
mode.
Set the aging
time.
Range: 30 –
3600 sec
Default: 300
sec
Recognition
Time
Preview Reset
Time
148
ip igmp mode
{snooping
| router |
proxy}
ip igmp
snoopingaging-time
agingtime
Set the
recognition
time.
Range: 1 –
120 sec
Default: 120
sec
ip igmp
prw recog
nition-time
recog-time
Set preview
reset time.
Format:
Hour: Minute:
Second
ip igmp prw
resetperiod
reset-time
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Parameter
Description
Value
Command
CDR Status
Enable or
disable CDR.
–
Enable
(Default)
–
Disable
ip igmp cdr
{enable |
disable}
Set the
maximum
records.
Range: 1 65535
CDR Server IP
Set CDR server
IP.
-
ip igmp
sms-server
ipaddress
General leave
group IP
Set General
leave group IP.
-
ip igmp
general-lea
ve-address
ipaddress
Record
Interval
Set record
interval.
Range: 1 – 30
minutes
ip igmp
cdr repor
t-interval
report-interval
Max Records
Default:
30000
Default: 15
minutes
Span-VLAN
Status
Enable or
disable spanVLAN function.
–
Enable
–
Disable
(Default)
CDR Interval
Set CDR
interval.
Range: 0 1400 minutes
Default: 60
minutes
CDR Status
without Access
Right
Enable or
disable CDR
when there
is no access
right.
–
Enable
–
Disable
(Default)
CDR Status
with Access
Right as
Preview
Enable or
disable CDR
when the
access right
is preview.
–
Enable
–
Disable
(Default)
ip igmp cdr
max-records
cdr-size
ip igmp
span-vlan
{enable |
disable}
ip igmp
cdr recor
d-interval
record-interval
ip igmp cdr
deny-right
{enable |
disable}
ip igmp cdr
preview-ri
ght {enable |
disable}
5. Configure MVLAN.
9806(config)# ip igmp mvlan 500
6. Configure multicast group.
9806(config)#
9806(config)#
9806(config)#
9806(config)#
ip
ip
ip
ip
igmp
igmp
igmp
igmp
mvlan
mvlan
mvlan
mvlan
500
500
500
500
max-group 1024
group 224.1.1.1
group 224.1.1.2
group 224.1.1.3
Configure multicast IP addresses in batch when they are in
sequence.
9806(config)# ip igmp mvlan 500 start-group-ip 224.1.1.1 3
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7. Set MVLAN source IP address.
9806(config)# ip igmp mvlan 500 source-ip 10.63.173.25
Note:
MVLAN source IP address is the IP address of the client which
connects to ZXDSL 9806H ADSL. Generally, it uses the IP of
ZXDSL 9806H. If MVLAN source IP is not configured, the default
IP (0.0.0.0) is used. When the default IP (0.0.0.0) is used,
some multicast route devices may discard IGMP packets from
this IP.
8. Configure source port.
9806(config)# ip igmp mvlan 500 source-port 5/1
9. Configure receive port.
9806(config)# ip igmp mvlan 500 receive-port 4/1
9806(config)# ip igmp mvlan 500 receive-port 4/2
10. Bind multicast group and receive port (static multicast).
Note:
By default, one Ethernet port can bind 1024 multicast groups.
Other ports can bind one multicast group. When an ADSL port
needs to bind more than one multicast group, it is necessary
to configure that one ADSL port can bind multiple multicast
groups (In this instance, the group limit is set as 8.
9806(config)# interface adsl 4/1
9806(cfg-if-adsl-4/1)# igmp groups-limit 8
9806(cfg-if-adsl-4/1)# exit
9806(config)# ip igmp mvlan 500 group 224.1.1.1
9806(config)# ip igmp mvlan 500 group 224.1.1.2
9806(cfg-if-adsl-4/1)# exit
9806(config)# interface adsl 4/2
9806(cfg-if-adsl-4/2)# igmp groups-limit 8
9806(cfg-if-adsl-4/2)# exit
9806(config)# ip igmp mvlan 500 group 224.1.1.1
9806(config)# ip igmp mvlan 500 group 224.1.1.2
9806(config)# ip igmp mvlan 500 group 224.1.1.3
receive-port 4/1
receive-port 4/1
receive-port 4/2
receive-port 4/2
receive-port 4/2
Note:
It is required to bind multicast group and receive port for static
multicast. However, this operation is not required for dynamic
multicast.
11. Enable CAC.
9806(config)# ip igmp cac enable
150
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Note:
Multicast is under two-level control. If CAC is enabled, user
port right is enabled too. Only users who order package can
watch programs in multicast package. If CAC is disabled, user
port right is also disabled. Users, whose receive port is in
MVLAN, can watch programs in MVLAN.
By default, CAC is enabled.
12. (Optional) Configure preview profile.
In this instance, the default preview profile (DEFVAL.PRF) is
used. Execute the ip igmp view-profile command to create
a new preview profile and modify parameters.
9806(config)# ip igmp view-profile test
9806(config)# ip igmp view-profile test
MaxPreviewCount(1..100):[3]
MaxPreviewInterval(1..6000s):[120]
PreviewBlackoutInterval(1..7200s):[60]
Press M or m key to modify, or the other key to complete?[C]
Table 58 describes the preview profile parameters.
TABLE 58 PREVIEW PROFILE PARAMETERS
Parameter
Description
Value
MaxPreviewCount
Configure maximum
preview count.
Range: 1 - 100
Configure preview
interval.
Range: 1 - 6000 sec
Configure preview
blackout interval.
Range: 1 - 7200 sec
MaxPreviewInterval
PreviewBlackoutInte
rval
Default: 3
Default: 120 sec
Default: 60 sec
13. Configure program source.
9806(config)# ip igmp cac 224.1.1.1 name program1
9806(config)# ip igmp cac 224.1.1.2 name program2
9806(config)# ip igmp cac 224.1.1.3 name program3
Note:
The default preview profile is DEFVAL.PRF.
14. Configure multicast package.
9806(config)# ip igmp channel-package profile0 group 224.1.1.1
permit
9806(config)# ip igmp channel-package profile0 group 224.1.1.2
permit
15. Configure user port right.
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9806(config)# ip igmp channel-package profile0 4/1
16. Save configurations.
9806# copy running-config startup-config
End of Steps
Result
IGMP snooping configuration is complete.
�
User 1 can watch Program 1 and Program 2 but cannot watch
Program 3.
�
User 2 can watch Program 1, Program 2 and Program 3.
Configuring IGMP Proxy
Short Description
Prerequisites
152
Perform this procedure to configure IGMP proxy service.
�
Network device works normally and cables are connected.
�
Multicast source exists in network.
�
Relevant cards work normally.
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Networking
Diagram
Figure 46 shows IGMP proxy service networking diagram.
FIGURE 46 IGMP PROXY SERVICE NETWORKING DIAGRAM
Data Configuration
Table 59 describes IGMP proxy service data configuration.
TABLE 59 IGMP PROXY SERVICE DATA CONFIGURATION
Information
Value
Multicast VLAN
VLAN 500, VLAN 501
Uplink Port
5/1
Multicast Source
�
�
ISP1: It belongs to VLAN 500.
It provides the programs of
IP addresses 224.1.1.1 and
224.1.1.2.
ISP2: It belongs to VLAN
501. It provides the programs
of IP address 224.1.1.1 and
224.1.1.2.
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Information
Value
Program Library
Programs in VLAN 500:
�
�
Program1: IP address is
224.1.1.1.
Program2: IP address is
224.1.1.2.
Programs in VLAN 501:
�
�
Program1: IP address is
224.1.1.1.
Program2: IP address is
224.1.1.2.
MVLAN Source IP Address
Multicast client IP address:
0.0.0.0 (default). In order to
avoid some multicast route
devices from discarding IGMP
packets from IP address 0.0.0.0,
configure source IP address as the
IP address of ZXDSL 9806H.
Multicast User
�
Multicast user 1:
Service port: 4/1
VPI/VCI: 8/81
Multicast VLAN: 500
Ordered package: profile0
IGMP port parameter: use
default value
–
–
–
–
–
–
Query interval:
sec
–
Query response time:
10 sec
–
Robustness: 2
125
–
�
154
Last member query interval: 1 sec
Multicast user 2:
– Service port: 4/2
– VPI/VCI: 8/81
– Multicast VLAN: 501
– Ordered package: profile1
– IGMP port parameter: use
default value
–
Query interval:
sec
–
Query response time:
10 sec
–
Robustness: 2
–
Last member query interval: 1 sec
125
Multicast Package
Profile0: program1 and program2
in program library are available.
MODEM
VPI/VCI: 8/81
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Configuration
Flow
Figure 47 shows IGMP proxy service configuration flow.
FIGURE 47 IGMP PROXY SERVICE CONFIGURATION FLOW
Steps
To configure IGMP proxy service, perform the following steps:
1. Configure xDSL port.
Modify the line parameters as required.
2. Configure VLAN.
i. Add multicast service VLAN 500 and VLAN 501.
9806(config)# add-vlan 500-501
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ii. Add the uplink port 4/1 to VLAN 500 and VLAN 501 in
tagged mode.
9806(config)# vlan 500-501 5/1-2 tag
iii. Add the service port 4/1 to VLAN 500 in untagged mode.
9806(config)# vlan 500 4/1 untag
iv. Set PVC of service port 4/1 as 8/81 and PVID as 500.
9806(config)# interface adsl 4/1
9806(cfg-if-adsl-4/1)# atm pvc 1 vpi 8 vci 81
9806(cfg-if-adsl-4/1)# pvid 500 pvc 1
v. Add the service port 4/2 to VLAN 501 in the same way. Set
PVC as 8/81 and PVID as 501.
3. Configure IGMP mode.
9806(config)# ip igmp mode proxy
Note:
The default IGMP mode is snooping.
4. (Optional) Configure IGMP parameters.
Table 60 describes IGMP parameters and configuration. In this
instance, default values are used for IGMP parameters except
working mode, which is configured as required.
TABLE 60 IGMP PARAMETERS
Parameter
Description
Value
Command
IGMP Status
Enable/disable
IGMP protocol.
–
Enable
(Default)
–
Disable
ip igmp {
enable |
disable}
–
Snooping
(Default)
–
Router
–
Proxy
Working Mode
Aging Time
Configure
IGMP working
mode.
Set the aging
time.
Range: 30 –
3600 sec
Default: 300
sec
Recognition
Time
Preview Reset
Time
156
ip igmp mode
{snooping
| router |
proxy}
ip igmp
snoopingaging-time
agingtime
Set the
recognition
time.
Range: 1 –
120 sec
Default: 120
sec
ip igmp
prw recog
nition-time
recog-time
Set preview
reset time.
Format:
Hour: Minute:
Second
ip igmp prw
resetperiod
reset-time
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Chapter 3 Broadband Service Configuraton
Parameter
Description
Value
Command
CDR Status
Enable or
disable CDR.
–
Enable
(Default)
–
Disable
ip igmp cdr
{enable |
disable}
Set the
maximum
records.
Range: 1 65535
CDR Server IP
Set CDR server
IP.
-
ip igmp
sms-server
ipaddress
General Leave
Group IP
Set General
leave group IP.
-
ip igmp
general-lea
ve-address
ipaddress
Record
Interval
Set record
interval.
Range: 1 – 30
minutes
ip igmp
cdr repor
t-interval
report-interval
Max Records
Default:
30000
Default: 15
minutes
Span-VLAN
Status
Enable or
disable spanVLAN function.
–
Enable
–
Disable
(Default)
CDR Interval
Set CDR
interval.
Range: 0 1400 minutes
Default: 60
minutes
CDR Status
without Access
Right
Enable or
disable CDR
when there
is no access
right.
–
Enable
–
Disable
(Default)
CDR Status
with Access
Right as
Preview
Enable or
disable CDR
when the
access right
is preview.
–
Enable
–
Disable
(Default)
ip igmp cdr
max-records
cdr-size
ip igmp
span-vlan
{enable |
disable}
ip igmp
cdr recor
d-interval
record-interval
ip igmp cdr
deny-right
{enable |
disable}
ip igmp cdr
preview-ri
ght {enable |
disable}
5. Configure MVLAN.
9806(config)# ip igmp mvlan 500
5009806(config)# ip igmp mvlan 501
6. Configure multicast group.
9806(config)# ip igmp mvlan 500 max-group 1024
9806(config)# ip igmp mvlan 500 group 224.1.1.1
9806(config)# ip igmp mvlan 500 group 224.1.1.2
Configure multicast IP addresses in batch when they are in
sequence.
9806(config)# ip igmp mvlan 500 start-group-ip 224.1.1.1 2
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Set MVLAN 501 multicast group IP as 224.1.1.1 and 224.1.1.2
in the same way.
7. Set MVLAN source IP address.
9806(config)# ip igmp mvlan 500 source-ip 10.63.173.25
9806(config)# ip igmp mvlan 501 source-ip 10.63.173.25
Note:
MVLAN source IP address is the IP address of the Client which
connects to ZXDSL 9806H ADSL. Generally, it uses the IP of
ZXDSL 9806H. If MVLAN source IP is not configured, the default
IP (0.0.0.0) is used. When the default IP (0.0.0.0) is used,
some multicast route devices may discard IGMP packets from
this IP.
8. Configure source port.
9806(config)# ip igmp mvlan 500 source-port 5/1
9806(config)# ip igmp mvlan 501 source-port 5/1
9. Configure receive port.
9806(config)# ip igmp mvlan 500 receive-port 4/1
9806(config)# ip igmp mvlan 500 receive-port 4/2
10. Configure IGMP interface.
Table 61 describes IGMP interface parameters and configuration. In this instance, default values are used for ports 4/1 and
4/2.
TABLE 61 IGMP INTERFACE PARAMETERS
Parameter
Description
Value
Command
Query Interval
Configure
query interval.
Range: 10 300 sec
igmp quer
y-interval
interval
Default: 125
sec
Max Query
Response Time
Robustness
Last Member
Query Interval
IGMP Version
158
Configure
maximum
query
response time.
Range: 0 25.2 sec
Configure
robustness.
Range: 1 - 5
Configure two
group-specific
query interval.
Range: 0 25.2 sec
Configure
IGMP version
Range: 1 - 3
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Default: 10
sec
Default: 2
Default: 1 sec
Default: 2
igmp quer
y-max-resp
interval
igmp robustn
ess num
igmp last-qu
ery-interval
interval
igmp version
version
Chapter 3 Broadband Service Configuraton
Note:
Query Interval, Max Query Response Time, Robustness and
Last Member Query Interval are only used for Proxy and Router
mode.
11. Bind multicast group and receive port (static multicast).
Note:
By default, one Ethernet port can bind 1024 multicast groups.
Other ports can bind one multicast group. When an ADSL port
needs to bind more than one multicast group, it is necessary
to configure that one ADSL port can bind multiple multicast
groups (In this instance, the group limit is set as 8).
9806(config)# interface adsl 4/1
9806(cfg-if-adsl-4/1)# igmp groups-limit 8
9806(cfg-if-adsl-4/1)# exit
9806(config)# ip igmp mvlan 500 group 224.1.1.1
9806(config)# ip igmp mvlan 500 group 224.1.1.2
9806(cfg-if-adsl-4/1)# exit
9806(config)# interface adsl 4/2
9806(cfg-if-adsl-4/2)# igmp groups-limit 8
9806(cfg-if-adsl-4/2)# exit
9806(config)# ip igmp mvlan 501 group 224.1.1.1
9806(config)# ip igmp mvlan 501 group 224.1.1.2
receive-port 4/1
receive-port 4/1
receive-port 4/2
receive-port 4/2
Note:
It is required to bind multicast group and receive port for static
multicast. However, this operation is not required for dynamic
multicast.
12. Enable CAC.
9806(config)# ip igmp cac enable
Note:
Multicast is under two-level control. If CAC is enabled, user
port right is enabled too. Only users who order package can
watch programs in multicast package. If CAC is disabled, user
port right is also disabled. Users, whose receive port is in
MVLAN, can watch programs in MVLAN.
By default, CAC is enabled.
13. (Optional) Configure preview profile.
In this instance, the default preview profile (DEFVAL.PRF) is
used. Execute the ip igmp view-profile command to create
a new preview profile and modify parameters.
9806(config)# ip igmp view-profile test
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ZXDSL 9806H Configuration Manual (CLI)
9806(config)# ip igmp view-profile test
MaxPreviewCount(1..100):[3]
MaxPreviewInterval(1..6000s):[120]
PreviewBlackoutInterval(1..7200s):[60]
Press M or m key to modify, or the other key to complete?[C]
Table 62 describes preview profile parameters.
TABLE 62 PREVIEW PROFILE PARAMETERS
Parameter
Description
Value
MaxPreviewCount
Configure maximum
preview count.
Range: 1 - 100
Default: 3
Configure as
required.
MaxPreviewInterval
PreviewBlackoutInte
rval
Configure preview
interval.
Range: 1 - 6000 sec
Configure preview
blackout interval.
Range: 1 - 7200 sec
Default: 120 sec
Default: 60 sec
14. Configure program source.
9806(config)# ip igmp cac 224.1.1.1 name program1
9806(config)# ip igmp cac 224.1.1.2 name program2
Note:
The default preview profile is DEFVAL.PRF.
15. Configure multicast package.
9806(config)# ip igmp channel-package profile0 group 224.1.1.1
permit
9806(config)# ip igmp channel-package profile0 group 224.1.1.2
permit
16. Configure user port right.
9806(config)# ip igmp channel-package profile0 4/1
9806(config)# ip igmp channel-package profile0 4/2
17. Save configurations.
9806# copy running-config startup-config
End of Steps
Result
160
IGMP proxy configuration is complete.
�
User 1 can watch the programs provided by ISP1 with IP address: 224.1.1.1 and 224.1.
�
User 2 can watch the programs provided by ISP2 with IP address: 224.1.1.1 and 224.1.1.2.
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Chapter 3 Broadband Service Configuraton
Configuring Bandwidth
Short Description
Prerequisites
Context
Perform this procedure to configure bandwidth.
Multicast service is available.
�
Configure bandwidth after the bandwidth control function is
enabled.
�
Multicast bandwidth and user port bandwidth is configured for
bandwidth control. If a user asks for multicast bandwidth more
than the remaining bandwidth of the physical channel, the user
is refused to join in the multicast group.
To configure bandwidth, perform the following steps:
Steps
1. Execute the ip igmp bandwidth-control enable command
to enable IGMP bandwidth control.
2. Execute the ip igmp mvlan mvlan group ipaddress bandwi
dth bandwidth command to configure bandwidth.
3. In interface configuration mode, execute the igmp bandwidth
bandwidth command to configure user port bandwidth.
4. Execute the show igmp mvlan mvlan group ipaddress command to show multicast group bandwidth.
5. Execute the show igmp interface SLOTLIST/PORTLIST command to show user port multicast bandwidth.
END
Result
Example
OF STEPS
Bandwidth is configured successfully.
Configure Program 1 (IP: 2224.1.1.1) channel bandwidth as 2048
K. Interface 4/1 multicast bandwidth as 1048576 K.
9806(config)# ip igmp bandwidth-control enable
9806(config)# ip igmp mvlan 500 group 224.1.1.1 bandwidth 2048
9806(config)# interface adsl 4/1
9806(cfg-if-adsl-4/1)# igmp bandwidth 1048576
9806(config)# show igmp mvlan 500 group 224.1.1.1
MVLAN ID
: 500
Group IP address
: 224.1.1.1
Group bandwidth
: 2048
Group fast join
: disable
Group static receive-port list
: 4/1
9806(config)# show igmp interface 4/1
Interface
: 4/1
IgmpGroupsLimit
IgmpFastLeave
IgmpInterfaceLastMembQueryIntvl
IgmpInterfaceQueryInterval
IgmpInterfaceQueryMaxResponseTime
IgmpInterfaceRobustness
IgmpInterfaceVersion
IgmpInterfaceQuerier
IgmpInterfaceQuerierUpTime
IgmpInterfaceQuerierExpiryTime
IgmpInterfaceVersion1QuerierTimer
IgmpInterfaceWrongVersionQueries
IgmpInterfaceJoins
IgmpInterfaceGroups
IgmpInterfaceBandwidth
IgmpInterfaceIgmpStatus
:
:
:
:
:
:
:
:
:
:
:
:
:
:
:
:
8
enable
10 (0.1s)
125 s
100 (0.1s)
2
2
0.0.0.0
6127330 (0.1s)
0
0
0
0
0
1048576k
enable
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ZXDSL 9806H Configuration Manual (CLI)
Postrequisite
Table 63 describes the operation related to bandwidth.
TABLE 63 OPERATION RELATED TO BANDWIDTH
Operation
Command
Disable IGMP bandwidth control.
ip igmp bandwidth-control
disable
QoS Configuration
This topic describes QoS configurations in ZXDSL 9806H. It includes the following:
�
Overview
�
Configuring Queue Scheduler Algorithm
�
Configuring PVC Mapping
�
Configuring Policy and Class
�
Configuring Port QoS Priority
�
Configuring QoS Mapping
�
Configuring Egress Shaping Parameters
Overview
QoS refers to the performance of data flow when it passes through
the network. QoS provides end-to-end quality guarantee through
a series of metric index, such as usability, throughput, delay/jittering, packet loss rate.
9806H supports the following functions:
�
�
162
Supports queue scheduler algorithm
�
SP: Strict-Priority Queue
�
WRR: Weighted Round Robin
�
SP + WRR: SP + WRR mixed scheduler
Supports port QoS priority scheduler
�
802.1p priority
�
DSCP priority
�
Supports QoS and policy
�
Supports port rate limit
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Chapter 3 Broadband Service Configuraton
Configuring Queue Scheduler
Algorithm
Short Description
Context
Perform this procedure to configure queue scheduler algorithm.
�
ZXDSL 9806H supports queue scheduler algorithm configuration at user side and network side. It supports four queues at
both user side and network side.
�
By default, the system uses PQ.
To configure queue scheduler algorithm, perform the following
steps:
Steps
1. Execute the qos queue-scheduler user-side command to
configure queue scheduler algorithm at user side.
2. Execute the qos queue-scheduler network-side command
to configure queue scheduler algorithm at network side.
3. Execute the show qos queue-scheduler command to show
queue scheduler algorithm.
END
Result
Example
OF STEPS
Queue scheduler algorithm is configured successfully.
Configure queue scheduler algorithm as strict priority at user side
and WRR at network-side. Weight of queue is 5,3, 1 and 1.
9806(config)# qos queue-scheduler user-side strict-priority
9806(config)# qos queue-scheduler network-side wrr 5,3,1,1
9806(config)# show qos queue-scheduler
NetWork Side:
wrr
weight of queue 1: 5
weight of queue 2: 3
weight of queue 3: 1
weight of queue 4: 1
User Side:
strict-priority
Configure queue scheduler algorithm as PQ+WRR at user side and
strict priority at network side. At user side, the weight of queue is
5, 10, 1 and 0.
9806(config)# qos queue-scheduler user-side strict-priority
wrr 5,10,1,0
9806(config)# qos queue-scheduler network-side strict-priority
9806(config)# show qos queue-scheduler
NetWork Side:
strict-priority
User Side:
strict-priority & wrr
weight of queue 1: 5
weight of queue 2: 10
weight of queue 3: 1
weight of queue 4: 0
Postrequisite
Table 64 describes the operation related to queue scheduler algorithm.
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ZXDSL 9806H Configuration Manual (CLI)
TABLE 64 OPERATION RELATED TO QUEUE SCHEDULER ALGORITHM
Operation
Command
Show queue number at user side
and network side.
show qos queue-number
Configuring PVC Mapping
Short Description
Prerequisites
Context
Perform this procedure to configure PVC mapping.
Service PVCs are assigned.
�
Through PVC mapping configuration, one interface is configured with different PVC for bearing different services. Each
PVC is assigned with different priority. When congestion occurs, packets with high priority can be processed in time.
�
The system supports four queues at both user side and network
side, numbering from 1 to 4. The priority is from low to high
in sequence.
To configure PVC mapping, perform the following steps:
Steps
1. In interface configuration mode, execute the qos pvc2queue
datalist:data command to configure port PVC mapping to
queue.
2. Execute the show qos pvc2queue [solt slot] command to
show port PVC mapping to queue.
END
Result
Example
OF STEPS
PVC mapping is configured successfully.
For interface 4/1, configure three PVCs to bear different services.
PVC 1 is for Internet access. PVC 2 is for IPTV service and PVC 3
is for VoIP service. The VLANs are 101, 102 and 103 in sequence.
The priority for Internet access service is the lowest and the priority for VoIP service is the highest. Interface 4/1 supports PQ.
9806(config)# add-vlan 101-103
9806(config)# vlan 101 4/1 untag pvc 1
9806(config)# vlan 102 4/1 untag pvc 2
9806(config)# vlan 103 4/1 untag pvc 3
9806(config)# interface adsl 4/1
9806(cfg-if-adsl-4/1)# atm pvc 1 vpi 8 vci 35
9806(cfg-if-adsl-4/1)# atm pvc 2 vpi 8 vci 36
9806(cfg-if-adsl-4/1)# atm pvc 3 vpi 8 vci 81
9806(cfg-if-adsl-4/1)# pvid 101 pvc 1
9806(cfg-if-adsl-4/1)# pvid 102 pvc 2
9806(cfg-if-adsl-4/1)# pvid 103 pvc 3
9806(cfg-if-adsl-4/1)# exit
9806(config)# qos queue-scheduler user-side strict-priority
9806(config)# interface adsl 4/1
9806(cfg-if-adsl-4/1)# qos pvc2queue 1:1
9806(cfg-if-adsl-4/1)# qos pvc2queue 2:2
9806(cfg-if-adsl-4/1)# qos pvc2queue 3:3
9806(cfg-if-adsl-4/1)# show qos pvc2queue slot 4
Total number of ports enabled pvc-queue on slot 4: 1
SLOT
PORT
PVC1
PVC2
PVC3
PVC4
PVC7
PVC8
-----------------------------------------------------------4
1
1
2
3
1
1
1
164
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Chapter 3 Broadband Service Configuraton
Postrequisite
Table 65 describes the operation related to PVC Mapping.
TABLE 65 OPERATION RELATED TO PVC MAPPING
Operation
Command
Configure queue scheduler
algorithm.
qos queue-scheduler user-side
Configuring Policy and Class
Short Description
Context
Perform this procedure to configure policy and class.
�
ZXDSL 9806H supports QoS policy and class configuration.
�
QoS class refers to data traffic. QoS policy refers to data processing method. One policy can contain processing method to
multiple classes.
�
ZXDSL 9806H data traffic can be classified according to MAC
address, data packet type, CoS and VLAN ID. Configure parameters in sequence.
�
ZXDSL 9806H provides various QoS policy processing methods.
�
ZXDSL 9806H supports 128 policies.
To configure policy and class, perform the following steps:
Steps
1. Execute the qos policy policy-name class-order {unrestric
ted | restricted} command to create a policy.
2. Execute the qos class class-name match class command to
create and configure a QoS class.
3. Execute the qos policy policy-name class class-name {deny
| permit } policy command to configure QoS policy.
4. In interface configuration mode, execute the qos-policy polic
y-name [ingress | egress] [pvc pvc] command to apply the
policy to port.
5. Execute the show qos class class-name command to show
QoS class.
6. Execute the show qos policy policyname command to show
QoS policy.
END
Result
Example
OF STEPS
Policy and class is configured successfully.
Configure a policy with CoS as 6, data rate is 2 Mbps. Policy type
is restricted. Apply this policy to interface 4/1 PVC 1.
9806(config)# qos class cos6 match cos 6
9806(config)# qos policy p2v class-order restricted
9806(config)# qos policy p2v class cos6 permit cir 2000 cbs 8
pir 3000 pbs 10 ex ceed-action-drop
9806(config)# interface adsl 4/1
9806(cfg-if-adsl-4/1)# qos-policy p2v ingress pvc 1
9806(cfg-if-adsl-4/1)# show qos class cos6
cos
: 6
---------------------------
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Class COS6 is referred by 1 policy.
No.
policy name
1
:P2V
9806(cfg-if-adsl-4/1)# show qos policy p2v
Policy Name
: P2V
Class Order
: restricted
Class Name
: COS6
Policy Action
: permit
CIR
: 2000 kbps
CBS
: 8 kbytes
PIR
: 3000 kbps
PBS
: 10 kbytes
ExceedAction
: drop
Statistics
: disable
----------------------------------------------------------The policy is applied to Pvcs.
slot/port
direction
pvc
4/1
ingress
1
Table 66 describes QoS policy parameters.
TABLE 66 QOS POLICY PARAMETERS
166
Parameter
Description
Value
cir
CIR
Range: 1 Kbps –
1048576 Kbps
cbs
CBS
Range: 1 KB –
1048576 KB
pir
PIR
Range: cir – 1048576
Kbps
pbs
PBS
Range: cbs –
1048576 Kbps
exceed-action-drop
Drop packets which
exceed rate.
-
exceed-action-cos
Modify CoS priority for
packets which exceed
rate.
-
exceed-action-dscp
Modify DHCP priority
for packets which
exceed rate.
-
statistics
Enable/disable traffic
statistics.
�
�
cos cos-pri
Modify CoS priority.
Range: 0 – 7
dscp dscp-pri
Modify DSCP priority.
Range: 0 – 63
mirrored-to-port
slot/port
Mirror the traffic to a
port.
-
directed-to-port
slot/port
Direct the traffic to a
port.
-
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enable
disable
Chapter 3 Broadband Service Configuraton
Postrequisite
Parameter
Description
Value
ingress
Apply the policy to
port ingress.
-
egress
Apply the policy to
port egress.
-
Table 67 describes operations related to policy and class.
TABLE 67 OPERATIONS RELATED TO POLICY AND CLASS
Operation
Command
Delete QoS class.
no qos class class-name
Delete QoS policy.
no qos policy policy-name [class
class-name]
Configuring Port QoS Priority
Short Description
Context
Perform this procedure to configure port QoS priority.
�
QoS default priority works on untagged packets. The incoming
untagged packets are added with QoS tag.
�
QoS override priority works on tagged packets. For 802.1 q
tagged packets, the priority is modified to be QoS override
priority.
To configure port QoS priority, perform the following steps:
Steps
1. In interface configuration mode, execute the qos def-cos prio
rity [pvc pvc] command to configure port default CoS priority.
2. In interface configuration mode, execute the qos overridecos priority [pvc pvc] command to configure port override CoS
priority.
3. Execute the qos trust cos [mapping] command to configure
port trust CoS and priority mapping.
4. Execute the show qos interface SLOT/PORT pvc pvc command to show port QoS priority configuration.
END
Result
Example
OF STEPS
Port QoS priority is configured successfully.
For interface 4/1, configure three PVCs to bear different services.
PVC 1 is for Internet access. PVC 2 is for IPTV service and PVC 3
is for VoIP service. Set the defult CoS priority for Internet access
as 1, for IPTV service as 3 and for VoIP service as 6. The uplink
port is added with trust CoS tag.
9806(config)# interface adsl 4/1
9806(cfg-if-adsl-4/1)# qos def-cos 1 pvc
9806(cfg-if-adsl-4/1)# qos def-cos 3 pvc
9806(cfg-if-adsl-4/1)# qos def-cos 6 pvc
9806(cfg-if-adsl-4/1)# exit
9806(config)# interface gigabit-ethernet
1
2
3
5/1
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9806(cfg-if-ge-5/1)# qos trust cos
Postrequisite
Table 68 describes operations related to port QoS priority.
TABLE 68 OPERATIONS RELATED TO PORT QOS PRIORITY
Operation
Command
Delete port override CoS priority.
no qos override-cos [pvc pvc]
Delete port trust QoS priority and
mapping.
no qos trust cos [mapping]
Configuring QoS Mapping
Short Description
Context
Perform this procedure to configure QoS mapping.
�
ZXDSL 9806H provides priority tag for special packets. The tag
contains DSCP and 802.1p priority. DSCP priority is used for IP
protocol. It provides 64 priority IDs (0 – 63). 802.1p priority
provides eight priority IDs (0 – 7).
�
Mapping from queue to CoS makes it possible to assign packets
with different priority to the designated queue.
�
Mapping from CoS to DSCP and mapping from DSCP to CoS
make it possible for ZXDSL 9806H to communicate with DSCP
priority NE.
�
By default, mapping relations are as follows:
Cos to queue(Network Side):
---------------------------------------------------Cos
0
1
2
3
4
5
6
7
Queue
1
1
2
2
3
3
4
4
Cos to queue(User Side):
---------------------------------------------------Cos
0
1
2
3
4
5
6
7
Queue
1
1
2
2
3
3
4
4
Cos Remark:
---------------------------------------------------Cos
0
1
2
3
4
5
6
7
Remark
0
1
2
3
4
5
6
7
---------------------------------------------------Cos to Dscp:
---------------------------------------------------Cos
0
1
2
3
4
5
6
7
Dscp
0
8
16
24
32
40
48
56
---------------------------------------------------Dscp to Cos:
---------------------------------------------------Dscp
0
1
2
3
4
5
6
7
Cos
0
0
0
0
0
0
0
0
---------------------------------------------------Dscp
8
9
10
11
12
13
14
15
Cos
1
1
1
1
1
1
1
1
---------------------------------------------------Dscp
16
17
18
19
20
21
22
23
Cos
2
2
2
2
2
2
2
2
---------------------------------------------------Dscp
24
25
26
27
28
29
30
31
Cos
3
3
3
3
3
3
3
3
168
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Chapter 3 Broadband Service Configuraton
---------------------------------------------------Dscp
32
33
34
35
36
37
38
39
Cos
4
4
4
4
4
4
4
4
---------------------------------------------------Dscp
40
41
42
43
44
45
46
47
Cos
5
5
5
5
5
5
5
5
---------------------------------------------------Dscp
48
49
50
51
52
53
54
55
Cos
6
6
6
6
6
6
6
6
---------------------------------------------------Dscp
56
57
58
59
60
61
62
63
Cos
7
7
7
7
7
7
7
7
-------------------------------------------------------------------------------------------------------
To configure QoS mapping, perform the following steps:
Steps
1. Execute the qos mapping cos2queue user-side datalist:d
ata command to configure mapping from CoS to queue at user
side.
2. Execute the qos mapping cos2queue network-side datalis
t:data command to configure mapping from CoS to queue at
network side.
3. Execute the qos mapping cos2dscp datalist:data command
to configure mapping from CoS to DSCP.
4. Execute the qos mapping dscp2cos datalist:data command
to configure mapping from DSCP to CoS.
5. Execute the show qos mapping command to show QoS mapping.
END
Result
Example
OF STEPS
QoS mapping is configured successfully.
Configure mapping from CoS to queue at user side.
9806(config)# qos mapping cos2queue user-side 0:1
9806(config)# qos mapping cos2queue user-side 1:2
9806(config)# qos mapping cos2queue user-side 2:3
9806(config)# qos mapping cos2queue user-side 3-7:4
9806(config)# show qos mapping
Cos to queue(Network Side):
----------------------------------------------------Cos
0
1
2
3
4
5
6
7
Queue
1
1
2
2
3
3
4
4
Cos to queue(User Side):
----------------------------------------------------Cos
0
1
2
3
4
5
6
7
Queue
1
2
3
4
4
4
4
4
Cos Remark:
----------------------------------------------------Cos
0
1
2
3
4
5
6
7
Remark
0
1
2
3
4
5
6
7
----------------------------------------------------Cos to Dscp:
----------------------------------------------------Cos
0
1
2
3
4
5
6
7
Dscp
0
8
16
24
32
40
48
56
----------------------------------------------------Dscp to Cos:
----------------------------------------------------Dscp
0
1
2
3
4
5
6
7
Cos
0
0
0
0
0
0
0
0
-----------------------------------------------------
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Dscp
8
9
10
11
12
13
14
15
Cos
1
1
1
1
1
1
1
1
----------------------------------------------------Dscp
16
17
18
19
20
21
22
23
Cos
2
2
2
2
2
2
2
2
----------------------------------------------------Dscp
24
25
26
27
28
29
30
31
Cos
3
3
3
3
3
3
3
3
----------------------------------------------------Dscp
32
33
34
35
36
37
38
39
Cos
4
4
4
4
4
4
4
4
----------------------------------------------------Dscp
40
41
42
43
44
45
46
47
Cos
5
5
5
5
5
5
5
5
----------------------------------------------------Dscp
48
49
50
51
52
53
54
55
Cos
6
6
6
6
6
6
6
6
----------------------------------------------------Dscp
56
57
58
59
60
61
62
63
Cos
7
7
7
7
7
7
7
7
---------------------------------------------------------------------------------------------------------
Postrequisite
Table 69 describes operations related to QoS mapping.
TABLE 69 OPERATIONS RELATED TO QOS MAPPING
Operation
Command
Resume default mapping from
CoS to queue.
qos mapping cos2queue
default
Resume default mapping from
CoS to DSCP.
qos mapping cos2dscp default
Resume default mapping from
DSCP to CoS.
qos mapping dscp2cos default
Configuring Egress Shaping
Parameters
Short Description
Context
Perform this procedure to configure egress shaping parameters.
�
By default, egress shaping function is disabled.
�
Average rate range:
�
�
�
User port: 74 Kbps – 40960 Kbps, granularity: 74 Kbps
Ethernet interface: 350 Kbps – 163840 Kbps, granularity:
350 Kbps
Burst size range:
�
User port: 4 KB – 16384 KB, granularity: 4 KB
�
Ethernet port: None
To configure egress shaping parameters, perform the following
steps:
Steps
170
1. Execute the egress-shaping-queue queue queue-num
average-rate average-rate burst-size burst-size command
to configure user port egress shaping parameters.
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2. Execute the egress-shaping average-rate average-rate
command to configure Ethernet interface egress shaping
parameters.
END
Result
Example
OF STEPS
Egress shaping parameters are configured successfully.
Configure interface 4/1 egress shaping parameters.
9806(config)# interface adsl 4/1
9806(cfg-if-adsl-4/1)# egress-shaping-queue queue 1 average-rate 7400
burst-size 4000
Configure Ethernet interface 5/1 egress shaping parameters.
9806(config)# interface gigabit-ethernet 5/1
9806(cfg-if-ge-5/1)# egress-shaping average-rate 10500
Postrequisite
Table 70 describes operations related to egress shaping parameters.
TABLE 70 OPERATIONS RELATED TO EGRESS SHAPING PARAMETERS
Operation
Command
Delete user port egress shaping
function.
no egress-shaping-queue
queue queue-num
Delete Ethernet interface egress
shaping function.
no egress-shaping
Configuring Static Route
Short Description
Context
Perform this procedure to configure static route.
Static route is configured manually. Unlike dynamic route, it does
not need to establish route table according to route algorithm.
Static route can decrease the router burden.
Static route is not suitable for large and complicated network.
Steps
1. Execute the ip route ip-address mask gateway [name namestring] command to configure static route.
2. Execute the show ip route command to show static route information.
END
Result
Example
OF STEPS
Static route is configured successfully.
As shown in Figure 48, ZXDSL 9806H connects to two routers.
Users can access the network segment between R2 and R3.
FIGURE 48 CONFIGURING STATIC ROUTE
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9806(config)# ip route 192.168.5.0 255.255.255.0 192.168.4.2
9806(config)# ip route 192.168.6.0 255.255.255.0 192.168.4.2
9806(config)# show ip route
Dest IP
Mask
Nexthop
Name
Status
-----------------------------------------------------------------172.0.0.0
255.0.0.0
172.16.234.254 ZTEROUTE active
192.168.5.0
255.255.255.0
192.168.4.2
ZTEROUTE active
192.168.6.0
255.255.255.0
192.168.4.2
ZTEROUTE active
Postrequisite
Table 71 describes the operation related to static route.
TABLE 71 OPERATION RELATED TO STATIC ROUTE
Operation
Command
Delete static route.
no ip route ip-address
Configuring Link
Aggregation
Short Description
Perform this procedure to configure link aggregation.
Prerequisites
ZXDSL 9806H is directly connected to the uplink device via uplink
port.
Context
Link aggregation is to aggregate multiple physical ports together to
form a logical interface for enlarging bandwidth. Each port shares
the incoming/outgoing load.
To configure link aggregation, perform the following steps:
Steps
1. Execute the uplink-mode link-aggregation command to
configure uplink mode as link aggregation.
2. Execute the show uplink-mode command to show uplink
mode.
END
Result
Example
OF STEPS
Link aggregation is configured successfully.
Configure ZXDSL 9806H uplink mode as link aggregation.
9806(config)# uplink-mode link-aggregation
9806(config)# show uplink-mode
Uplink-mode
: link-aggregation
Configuring RMON
Short Description
Context
172
Perform this procedure to configure RMON.
�
RMON is a standard monitoring protocol. It effectively and efficiently reduces SNMP agency loading. It makes the exchange
of monitoring data between monitors and consoles possible.
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�
By default, RMON is disabled.
To configure RMON, perform the following steps:
Steps
1. In interface configuration mode, execute the rmon history
enable command to enable history RMON.
2. Execute the show rmon history {detail | general} slot/port
bucketlist command to show detailed history information.
3. Execute the show rmon statistics slot/port command to
show RMON statistics.
END
Result
Example
OF STEPS
RMON is configured successfully.
Enable uplink port 5/1 history RMON. Show RMON statistics and
detailed history information.
9806(config)# interface gigabit-ethernet 5/1
9806(cfg-if-ge-5/1)# rmon history enable
9806(cfg-if-ge-5/1)# show rmon statistics 5/1
interface
: 5/1
EtherStatsOctets
: 172713
EtherStatsPkts
: 1616
EtherStatsBroadcastPkts
: 1499
EtherStatsMulticastPkts
: 111
9806(cfg-if-ge-5/1)# show rmon history detail 5/1 1
interface
: 5/1
bucket
: 1
historyControlStatus
: enable
EtherHistoryIntervalStart
: 9609639
EtherHistoryOctets
: 0
EtherHistoryPkts
: 0
EtherHistoryBroadcastPkts
: 0
EtherHistoryMulticastPkts
: 0
EtherHistoryBandwidth
: 0.0000 Mbits/s
Postrequisite
Table 72 describes the operation related to RMON.
TABLE 72 OPERATION RELATED TO RMON
Operation
Command
Disable history RMON.
rmon history disable
Spanning Tree Configuration
This topic describes STP and RSTP configurations in ZXDSL 9806H.
It includes the following:
�
Overview
�
Enabling STP/RSTP
�
Configuring RSTP Compatibility
�
Network Bridge Parameters Configuration
�
Port Parameters Configuration
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Overview
ZXDSL 9806H supports STP and RSTP.
STP ensures a loop free topology for any bridged LAN. Based on a
certain algorithm, spanning tree allows a network design to include
redundant links to provide automatic backup paths if an active link
fails, without the danger of bridge loops.
STP is implemented through transmitting BPDU packets.
RSTP provides for faster spanning tree convergence after a topology change. It can rapidly change the state of the port from discarding state to forwarding state.
Enabling STP/RSTP
Short Description
Context
Perform this procedure to enable STP/RSTP.
�
By default,ZXDSL 9806H STP/RSTP is disabled.
�
Once RSTP is enabled, the system decides to run in STP compatible mode or in RSTP mode according to RSTP version.
�
Once STP/RSTP is enabled, STP/RSTP starts maintaining spanning tree according to BPDU packets. Once STP/RSTP is disabled, STP/RSTP stops maintaining spanning tree.
�
Only Ethernet port supports STP/RSTP.
To enable STP/RSTP, perform the following steps:
Steps
1. Execute the spanning-tree classic-stp enable command to
enable network bridge STP.
2. Execute the spanning-tree rapid-stp enable to enable network bridge RSTP.
3. Execute the spanning-tree enable to enable Ethernet port
STP/RSTP.
4. Execute the show spanning-tree [interface SLOT/PORTLI
ST] command to show STP/RSTP.
END
Result
Example
OF STEPS
STP/RSTP is enabled successfully.
�
Enable network bridge STP.
9806(config)# spanning-tree classic-stp enable
9806(config)# show spanning-tree
SpanTree
: enable
RapidSpanTree
: disable
BridgeFwdDelay
: 15000 ms
BridgeHelloTime
: 2000 ms
BridgeMaxAge
: 20000 ms
StpPriority
: 32768
RstpForceVersion
: rstp-only
RstpTxHoldCount
: 3
RstpDefaultCost
: short
RstpPriority
: 32768
DesignatedRoot
: 80 00 00 15 EB F2 45 6A
Forwardtime
: 15000 ms
174
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HelloTime
HoldTime
MaxAge
ProSpec
RootCost
RootPort
TopChanges
TimeSinceTopoChg
�
:
:
:
:
:
:
:
:
2000 ms
1000 ms
20000 ms
ieee8021d
0
0
0
0 ms
Enable network bridge RSTP.
9806(config)# spanning-tree rapid-stp enable
9806(config)# show spanning-tree
SpanTree
: disable
RapidSpanTree
: enable
BridgeFwdDelay
: 15000 ms
BridgeHelloTime
: 2000 ms
BridgeMaxAge
: 20000 ms
StpPriority
: 32768
RstpForceVersion
: rstp-only
RstpTxHoldCount
: 3
RstpDefaultCost
: short
RstpPriority
: 32768
DesignatedRoot
: 80 00 00 15 EB F2 45 6A
Forwardtime
: 15000 ms
HelloTime
: 2000 ms
HoldTime
: 1000 ms
MaxAge
: 20000 ms
ProSpec
: ieee8021w
RootCost
: 0
RootPort
: 0
TopChanges
: 0
TimeSinceTopoChg
: 0 ms
�
Enable Ethernet port STP/RSTP.
9806(config)# interface gigabit-ethernet 5/1
9806(cfg-if-ge-5/1)# spanning-tree enable
9806(cfg-if-ge-5/1)# show spanning-tree interface 5/1
Interface
: 5/1
ProtocolEnable
: disable
StpPortPriority
: 128
StpPortPathCost
: 10
RstpPortPriority
: 128
RstpAdminPortPoint2Point
: auto
RstpAdminPortCost
: 0
RstpAdminPortEdgePort
: disable
RstpPortProtocolMigration
: disable
RstpPortPacketType
: CISCO_TYPE
RstpPortPathCost
: 100
PortState
: Forwarding
DesignatedCost
: 0
DesignatedBdg
: 80 00 00 15 EB F2 45 6A
DesignatedPort
: 80 01
DesignatedRoot
: 80 00 00 15 EB F2 45 6A
ForwardTrans
: 1
RstpOperPortPoint2Point
: false
RstpOperPortEdgePort
: disable
Postrequisite
Table 73 describes the operation related to STP/RSTP.
TABLE 73 OPERATION RELATED TO STP/RSTP
Operation
Command
Disable STP/RSTP.
spanning-tree disable
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Configuring RSTP Compatibility
Short Description
Context
Perform this procedure to configure RSTP compatibility.
�
There are two RSTP work modes:
�
RSTP mode
�
STP compatible mode
�
RSTP is compatible with STP. If STP network bridge exists in
the network, RSTP can work in STP compatible mode.
�
By default, the system works in RSTP mode.
To configure RSTP compatibility, perform the following steps:
Steps
1. Execute the spanning-tree rapid-stp force-version stp-co
mpatible command to configure STP compatible mode.
2. Execute the spanning-tree rapid-stp force-version rstp-o
nly command to configure RSTP mode.
3. Execute the show spanning-tree command to show RSTP
work mode.
END
Result
Example
OF STEPS
RSTP compatibility is configured successfully.
�
Configure STP compatible mode.
9806(config)# spanning-tree rapid-stp force-version stp-compatible
9806(config)# show spanning-tree
SpanTree
: disable
RapidSpanTree
: enable
BridgeFwdDelay
: 15000 ms
BridgeHelloTime
: 2000 ms
BridgeMaxAge
: 20000 ms
StpPriority
: 32768
RstpForceVersion
: stp-compatible
RstpTxHoldCount
: 3
RstpDefaultCost
: short
RstpPriority
: 32768
DesignatedRoot
: 80 00 00 15 EB F2 45 6A
Forwardtime
: 15000 ms
HelloTime
: 2000 ms
HoldTime
: 1000 ms
MaxAge
: 20000 ms
ProSpec
: ieee8021w
RootCost
: 0
RootPort
: 0
TopChanges
: 0
TimeSinceTopoChg
: 0 ms
�
Configure RSTP mode.
9806(config)# spanning-tree rapid-stp force-version rstp-only
9806(config)# show spanning-tree
SpanTree
: disable
RapidSpanTree
: enable
BridgeFwdDelay
: 15000 ms
BridgeHelloTime
: 2000 ms
BridgeMaxAge
: 20000 ms
StpPriority
: 32768
RstpForceVersion
: rstp-only
RstpTxHoldCount
: 3
RstpDefaultCost
: short
RstpPriority
: 32768
DesignatedRoot
: 80 00 00 15 EB F2 45 6A
176
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Forwardtime
HelloTime
HoldTime
MaxAge
ProSpec
RootCost
RootPort
TopChanges
TimeSinceTopoChg
:
:
:
:
:
:
:
:
:
15000 ms
2000 ms
1000 ms
20000 ms
ieee8021w
0
0
0
0 ms
Network Bridge Parameters
Configuration
Network bridge parameters configuration process includes the following:
�
Configuring Forward Delay
�
Configuring Hello Time
�
Configuring Max Age
�
Configuring Priority
�
Configuring Default Cost
�
Configuring Transmission Hold Count
Configuring Forward Delay
Short Description
Context
Perform this procedure to configure forward delay.
�
To avoid loops, the learning status is configured in the process
from Discarding status to Forwarding status.
�
Forward Delay of root exchange defines the interval from one
status to another. If the current exchange is root exchange,
use the defined interval. If it is not a root exchange, use the
Forward Delay of root exchange.
�
If Forward Delay is too small, redundant path may occur. If
Forward Delay is too large, the network may disconnect for
a long time. Forward Delay is related to network diameter.
With more network diameter, larger Forward Delay needs to
be configured.
�
Configure ’Hello time’, ’Forward Delay’ and ’Max Age’ according
to the following format: 2 × (Forward Delay 1.0 second) ≥ Max
Age ≥ 2 × (Hello Time + 1.0 second). If the configuration does
not conform to the format, the network is not stable.
By default, Forward Delay is 15 seconds (Unit for Forward Delay: 10 ms).
To configure forward delay, perform the following steps:
Steps
1. Execute the spanning-tree timer forward-time time command to configure forward delay.
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ZXDSL 9806H Configuration Manual (CLI)
2. Execute the show spanning-tree
STP/RSTP configuration.
END
Result
Example
command
to
show
OF STEPS
Forward delay is configured successfully.
Configure forward delay as 20 seconds.
9806(config)# spanning-tree timer forward-time 2000
9806(config)# show spanning-tree
SpanTree
: disable
RapidSpanTree
: enable
BridgeFwdDelay
: 20000 ms
BridgeHelloTime
: 2000 ms
BridgeMaxAge
: 20000 ms
StpPriority
: 32768
RstpForceVersion
: rstp-only
RstpTxHoldCount
: 3
RstpDefaultCost
: short
RstpPriority
: 32768
DesignatedRoot
: 80 00 00 15 EB F2 45 6A
Forwardtime
: 20000 ms
HelloTime
: 2000 ms
HoldTime
: 1000 ms
MaxAge
: 20000 ms
ProSpec
: ieee8021w
RootCost
: 0
RootPort
: 0
TopChanges
: 0
TimeSinceTopoChg
: 0 ms
Postrequisite
Table 74 describes operations related to forward delay.
TABLE 74 OPERATIONS RELATED TO FORWARD DELAY
Operation
Command
Use default value for Forward
Delay.
spanning-tree timer
Configure Hello Time.
spanning-tree timer hello-time
time
Configure Max Age.
spanning-tree timer max-age
time
Configuring Hello Time
Short Description
Context
178
Perform this procedure to configure Hello Time.
�
Hello Time is a guarantee to send configuration packets in time.
If configuration packets cannot be received in time, the system
calculates the spanning tree again.
�
If the current exchange is root exchange, use the defined interval to send configuration packets. If it is not a root exchange,
use the Hello Time of root exchange.
�
If Hello Time is too long, the network bridge does not receive
configuration packets and calculates the spanning tree again.
If Hello Time is too short, Hello Time may send configuration
packets frequently, increasing network burden. Appropriate
Hello Time is a guarantee for the network bridge to find link
fault in time and decrease the network load.
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�
Configure ’Hello time’, ’Forward Delay’ and ’Max Age’ according
to the following format: 2 × (Forward Delay 1.0 second) ≥ Max
Age ≥ 2 × (Hello Time + 1.0 second). If the configuration does
not conform to the format, the network is not stable.
�
By default, Hello Time is 2 seconds (Unit: 10 ms).
To configure Hello Time, perform the following steps:
Steps
1. Execute the spanning-tree timer hello-time time command
to configure Hello Time.
2. Execute the show spanning-tree
STP/RSTP configuration.
END
Result
Example
command
to
show
OF STEPS
Hello Time is configured successfully.
Configure Hello Time as 4 seconds.
9806(config)# spanning-tree timer hello-time 400
9806(config)# show spanning-tree
SpanTree
: disable
RapidSpanTree
: enable
BridgeFwdDelay
: 15000 ms
BridgeHelloTime
: 4000 ms
BridgeMaxAge
: 20000 ms
StpPriority
: 32768
RstpForceVersion
: rstp-only
RstpTxHoldCount
: 3
RstpDefaultCost
: short
RstpPriority
: 32768
DesignatedRoot
: 80 00 00 15 EB F2 45 6A
Forwardtime
: 15000 ms
HelloTime
: 4000 ms
HoldTime
: 1000 ms
MaxAge
: 20000 ms
ProSpec
: ieee8021w
RootCost
: 0
RootPort
: 0
TopChanges
: 0
TimeSinceTopoChg
: 0 ms
Postrequisite
Table 75 describes operations related to Hello Time.
TABLE 75 OPERATIONS RELATED TO HELLO TIME
Operation
Command
Use default value for Hello Time.
spanning-tree timer
Configure Forward Delay.
spanning-tree timer
forward–time time
Configure Max Age.
spanning-tree timer max-age
time
Configuring Max Age
Short Description
Context
Perform this procedure to configure Max Age.
�
Max Age helps the system judge whether the received configuration packets are overtime. If configuration packets are
overtime, the system calculates the spanning tree again.
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�
If the current exchange is root exchange, use the configured
Max Age to judge whether configuration packets are overtime.
If it is not a root exchange, use the Max Age of root exchange.
�
If Max Age is too small, spanning tree algorithm occurs frequently, causing network congestion. If Max Age is too large,
the link fault cannot be found in time. It is important to configure appropriate Max Age.
�
Configure ’Hello time’, ’Forward Delay’ and ’Max Age’ according
to the following format: 2 × (Forward Delay 1.0 second) ≥ Max
Age ≥ 2 × (Hello Time + 1.0 second). If the configuration does
not conform to the format, the network is not stable.
�
By default, Max Age is 20 seconds (Unit: 10 ms).
To configure Max Age, perform the following steps:
Steps
1. Execute the spanning-tree timer max-age time command
to configure Max Age.
2. Execute the show spanning-tree
STP/RSTP configuration.
END
Result
Example
command
OF STEPS
Max Age is configured successfully.
Configure Max Age as 25 seconds.
9806(config)# spanning-tree timer max-age 2500
9806(config)# show spanning-tree
SpanTree
: disable
RapidSpanTree
: enable
BridgeFwdDelay
: 20000 ms
BridgeHelloTime
: 2000 ms
BridgeMaxAge
: 25000 ms
StpPriority
: 32768
RstpForceVersion
: rstp-only
RstpTxHoldCount
: 3
RstpDefaultCost
: short
RstpPriority
: 32768
DesignatedRoot
: 80 00 00 15 EB F2 45 6A
Forwardtime
: 20000 ms
HelloTime
: 2000 ms
HoldTime
: 1000 ms
MaxAge
: 25000 ms
ProSpec
: ieee8021w
RootCost
: 0
RootPort
: 0
TopChanges
: 0
TimeSinceTopoChg
: 0 ms
Postrequisite
Table 76 describes operations related to Max Age.
TABLE 76 OPERATIONS RELATED TO MAX AGE
180
Operation
Command
Use default value for Max Age.
spanning-tree timer
Configure Forward Delay.
spanning-tree timer
forward–time time
Configure Hello Time.
spanning-tree timer
hello–time time
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show
Chapter 3 Broadband Service Configuraton
Configuring Priority
Short Description
Context
Perform this procedure to configure priority.
�
The value range for STP network bridge priority is from 0 to
65535. The default STP priority is 32768.
�
The value range for RSTP network bridge priority is from 0 to
61440. The step length is 4096. The default RSTP priority is
32768.
�
The priority decides whether the device can be root bridge.
�
Select the device with smallest MAC address to be root bridge
if bridge priority of these devices is the same
�
Once STP/RSTP is enabled, if priority is configured, spanning
tree algorithm starts again.
�
If RSTP is used, the priority must be the multiple of 4096.
To configure priority, perform the following steps:
Steps
1. Execute the spanning-tree classic-stp priority priority command to configure STP priority.
2. Execute the spanning-tree rapid-stp priority priority command to configure RSTP priority.
3. Execute the show spanning-tree
STP/RSTP configuration.
END
Result
Example
command
to
show
OF STEPS
Priority is configured successfully.
�
Configure STP priority as 4096.
9806(config)# spanning-tree classic-stp priority 4096
9806(config)# show spanning-tree
SpanTree
: disable
RapidSpanTree
: enable
BridgeFwdDelay
: 20000 ms
BridgeHelloTime
: 2000 ms
BridgeMaxAge
: 25000 ms
StpPriority
: 4096
RstpForceVersion
: rstp-only
RstpTxHoldCount
: 3
RstpDefaultCost
: short
RstpPriority
: 32768
DesignatedRoot
: 80 00 00 15 EB F2 45 6A
Forwardtime
: 20000 ms
HelloTime
: 2000 ms
HoldTime
: 1000 ms
MaxAge
: 25000 ms
ProSpec
: ieee8021w
RootCost
: 0
RootPort
: 0
TopChanges
: 0
TimeSinceTopoChg
: 0 ms
�
Configure RSTP priority as 4096.
9806(config)# spanning-tree rapid-stp priority 4096
9806(config)# show spanning-tree
SpanTree
: disable
RapidSpanTree
: enable
BridgeFwdDelay
: 20000 ms
BridgeHelloTime
: 2000 ms
BridgeMaxAge
: 25000 ms
StpPriority
: 4096
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RstpForceVersion
RstpTxHoldCount
RstpDefaultCost
RstpPriority
DesignatedRoot
Forwardtime
HelloTime
HoldTime
MaxAge
ProSpec
RootCost
RootPort
TopChanges
TimeSinceTopoChg
Postrequisite
:
:
:
:
:
:
:
:
:
:
:
:
:
:
rstp-only
3
short
4096
80 00 00 15 EB F2 45 6A
20000 ms
2000 ms
1000 ms
25000 ms
ieee8021w
0
0
0
0 ms
Table 77 describes operations related to priority.
TABLE 77 OPERATIONS RELATED TO PRIORITY
Operation
Command
Configure port STP priority.
spanning-tree classic-stp
priority priority in interface
configuration mode
Configure port RSTP priority.
spanning-tree rapid-stp
priority priority in interface
configuration mode
Configuring Default Cost
Short Description
Context
Perform this procedure to configure default cost.
�
Only RSTP can be configured with default cost.
�
RSTP default cost is useful only when RSTP administration cost
is 0. Otherwise, the path cost is calculated according to the
configured value.
�
Once the default cost is configured, the path cost is calculated
according to the default cost.
�
ZXDSL 9806H supports two default cost type: short (IEEE Std.
802.1d-1998, 16 bits) and long (EEE Std. 802.1t-2001, 32
bits). The default cost is short.
To configure default cost, perform the following steps:
Steps
1. Execute the spanning-tree rapid-stp default-cost [short |
long] command to configure RSTP default cost.
2. Execute the show spanning-tree command to show RSTP
configuration.
END
Result
Example
OF STEPS
Default cost is configured successfully.
Configure RSTP default cost as long.
9806(config)# spanning-tree rapid-stp default-cost long
9806(config)# show spanning-tree
SpanTree
: disable
RapidSpanTree
: enable
BridgeFwdDelay
: 20000 ms
BridgeHelloTime
: 2000 ms
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BridgeMaxAge
StpPriority
RstpForceVersion
RstpTxHoldCount
RstpDefaultCost
RstpPriority
DesignatedRoot
Forwardtime
HelloTime
HoldTime
MaxAge
ProSpec
RootCost
RootPort
TopChanges
TimeSinceTopoChg
:
:
:
:
:
:
:
:
:
:
:
:
:
:
:
:
25000 ms
4096
rstp-only
3
long
4096
10 00 00 15 EB F2 45 6A
20000 ms
2000 ms
1000 ms
25000 ms
ieee8021w
0
0
0
0 ms
Configuring Transmission Hold Count
Short Description
Context
Perform this procedure to configure transmission hold count.
�
Only RSTP can be configured with transmission hold count.
�
Transmission hold count indicates the number of transmitted
BPDU packets in Hello Time.
�
By default, transmission hold count is 3.
To configure transmission hold count, perform the following steps:
Steps
1. Execute the spanning-tree rapid-stp tx-hold-count num
command to configure RSTP transmission hold count.
2. Execute the show spanning-tree command to show RSTP
configuration.
END
Result
Example
OF STEPS
Transmission hold count is configured successfully.
Configure RSTP transmission hold count is 10.
9806(config)# spanning-tree rapid-stp tx-hold-count 10
9806(config)# show spanning-tree
SpanTree
: disable
RapidSpanTree
: enable
BridgeFwdDelay
: 20000 ms
BridgeHelloTime
: 2000 ms
BridgeMaxAge
: 25000 ms
StpPriority
: 4096
RstpForceVersion
: rstp-only
RstpTxHoldCount
: 10
RstpDefaultCost
: long
RstpPriority
: 4096
DesignatedRoot
: 10 00 00 15 EB F2 45 6A
Forwardtime
: 20000 ms
HelloTime
: 2000 ms
HoldTime
: 1000 ms
MaxAge
: 25000 ms
ProSpec
: ieee8021w
RootCost
: 0
RootPort
: 0
TopChanges
: 0
TimeSinceTopoChg
: 0 ms
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Port Parameters Configuration
Port parameters configuration process includes the following:
�
Configuring STP Cost
�
Configuring STP/RSTP Priority
�
Configuring RSTP Administration Cost
�
Configuring RSTP Edge Port
�
Configuring RSTP BPDU Packet Type
�
Configuring RSTP Point-to-Point Connection
�
Configuring RSTP Protocol Migration
Configuring STP Cost
Short Description
Context
Perform this procedure to configure STP cost.
�
By default, the network bridge obtains port STP cost according
to link condition.
�
Spanning tree calculation occurs when STP cost is configured.
It is better to use default STP cost.
�
Port STP cost is related to link rate. If the link rate is larger,
the port cost needs to be smaller.
To configure STP cost, perform the following steps:
Steps
1. In interface configuration mode, execute the spanning-tree
classic-stp cost cost command to configure port STP cost.
2. Execute the show spanning-tree interface SLOT/PORTLIST
command to show port STP configuration.
END
Result
Example
OF STEPS
STP cost is configured successfully.
Configure interface 5/1 STP cost as 1024.
9806(config)# interface gigabit-ethernet 5/1
9806(cfg-if-ge-5/1)# spanning-tree classic-stp cost 1024
9806(cfg-if-ge-5/1)# show spanning-tree interface 5/1
Interface
: 5/1
ProtocolEnable
: disable
StpPortPriority
: 16
StpPortPathCost
: 1024
RstpPortPriority
: 16
RstpAdminPortPoint2Point
: auto
RstpAdminPortCost
: 0
RstpAdminPortEdgePort
: disable
RstpPortProtocolMigration
: disable
RstpPortPacketType
: CISCO_TYPE
RstpPortPathCost
: 20000
PortState
: Forwarding
DesignatedCost
: 0
DesignatedBdg
: 10 00 00 15 EB F2 45 6A
DesignatedPort
: 80 01
DesignatedRoot
: 10 00 00 15 EB F2 45 6A
ForwardTrans
: 1
RstpOperPortPoint2Point
: false
RstpOperPortEdgePort
: disable
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Configuring STP/RSTP Priority
Short Description
Context
Perform this procedure to configure STP/RSTP priority.
�
The value range for port STP priority is from 0 to 255. The
default port STP priority is 128.
�
The value range for port RSTP priority is from 0 to 240. The
step length is 16. The default port RSTP priority is 128.
�
The priority decides whether the port can be root port. The
higher the port priority is, the more possible the port can be
root port.
�
Ethernet port priority depends on Ethernet port ID. The smaller
the ID is, the higher the priority is.
�
If RSTP is used, the priority must be the multiple of 16.
To configure STP/RSTP priority, perform the following steps:
Steps
1. In interface configuration mode, execute the spanning-tree
classic-stp priority priority command to configure port STP
priority.
2. In interface configuration mode, execute the spanning-tree
rapid-stp priority priority command to configure port RSTP
priority.
3. Execute the show spanning-tree interface SLOT/PORTLIST
command to show port STP/RSTP configuration.
END
Result
Example
OF STEPS
STP/RSTP priority is configured successfully.
�
Configure port STP priority as 16.
9806(config)# interface gigabit-ethernet 5/1
9806(cfg-if-ge-5/1)# spanning-tree classic-stp priority 16
9806(cfg-if-ge-5/1)# show spanning-tree interface 5/1
Interface
: 5/1
ProtocolEnable
: disable
StpPortPriority
: 16
StpPortPathCost
: 10
RstpPortPriority
: 16
RstpAdminPortPoint2Point
: auto
RstpAdminPortCost
: 0
RstpAdminPortEdgePort
: disable
RstpPortProtocolMigration
: disable
RstpPortPacketType
: CISCO_TYPE
RstpPortPathCost
: 100
PortState
: Forwarding
DesignatedCost
: 0
DesignatedBdg
: 80 00 00 15 EB F2 45 6A
DesignatedPort
: 80 01
DesignatedRoot
: 80 00 00 15 EB F2 45 6A
ForwardTrans
: 1
RstpOperPortPoint2Point
: false
RstpOperPortEdgePort
: disable
�
Configure port RSTP priority as 16.
9806(config)# interface gigabit-ethernet 5/1
9806(cfg-if-ge-5/1)# spanning-tree rapid-stp priority 16
9806(cfg-if-ge-5/1)# show spanning-tree interface 5/1
Interface
: 5/1
ProtocolEnable
: disable
StpPortPriority
: 16
StpPortPathCost
: 10
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RstpPortPriority
RstpAdminPortPoint2Point
RstpAdminPortCost
RstpAdminPortEdgePort
RstpPortProtocolMigration
RstpPortPacketType
RstpPortPathCost
PortState
DesignatedCost
DesignatedBdg
DesignatedPort
DesignatedRoot
ForwardTrans
RstpOperPortPoint2Point
RstpOperPortEdgePort
:
:
:
:
:
:
:
:
:
:
:
:
:
:
:
16
auto
0
disable
disable
CISCO_TYPE
100
Forwarding
0
80 00 00 15 EB F2 45 6A
80 01
80 00 00 15 EB F2 45 6A
1
false
disable
Configuring RSTP Administration Cost
Short Description
Context
Perform this procedure to configure RSTP administration cost.
1. Configuring RSTP administration cost is similar to configuring
STP cost.
2. By default, RSTP administration cost is 0.
3. Spanning tree calculation occurs when RSTP cost is configured.
It is better to use default value.
To configure RSTP administration cost, perform the following
steps:
Steps
1. In interface configuration mode, execute the spanning-tree
rapid-stp admin-cost cost command to configure RSTP administration cost.
2. Execute the show spanning-tree interface SLOT/PORTLIST
command to show port RSTP configuration.
END
Result
Example
OF STEPS
RSTP administration cost is configured successfully.
Configure RSTP administration cost as 200 on interface 5/1.
9806(config)# interface gigabit-ethernet 5/1
9806(cfg-if-ge-5/1)# spanning-tree rapid-stp admin-cost 200
9806(cfg-if-ge-5/1)# show spanning-tree interface 5/1
Interface
: 5/1
ProtocolEnable
: disable
StpPortPriority
: 16
StpPortPathCost
: 1024
RstpPortPriority
: 16
RstpAdminPortPoint2Point
: true
RstpAdminPortCost
: 200
RstpAdminPortEdgePort
: enable
RstpPortProtocolMigration
: disable
RstpPortPacketType
: CISCO_TYPE
RstpPortPathCost
: 200
PortState
: Forwarding
DesignatedCost
: 0
DesignatedBdg
: 10 00 00 15 EB F2 45 6A
DesignatedPort
: 80 01
DesignatedRoot
: 10 00 00 15 EB F2 45 6A
ForwardTrans
: 1
RstpOperPortPoint2Point
: true
RstpOperPortEdgePort
: enable
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Configuring RSTP Edge Port
Short Description
Context
Perform this procedure to configure RSTP edge port.
�
Only RSTP can be configured with edge port.
�
Only the port connected to the terminal can be configured as
edge port. If one port which connects to the port of other
network bridge instead of terminal is configured as edge port,
RSTP configures it to be non-edge port.
�
When the edge port changes from congestion status to transfer
status, it does not need to wait.
�
By default, all ports are not edge port.
To configure RSTP edge port, perform the following steps:
Steps
1. In interface configuration mode, execute the spanning-tree
rapid-stp edge-port enable command to configure a port as
edge port.
2. Execute the show spanning-tree interface SLOT/PORTLIST
command to show port RSTP configuration.
END
Result
Example
OF STEPS
RSTP edge port is configured successfully.
Configure interface 5/1 as RSTP edge port.
9806(config)# interface gigabit-ethernet 5/1
9806(cfg-if-ge-5/1)# spanning-tree rapid-stp edge-port enable
9806(cfg-if-ge-5/1)# show spanning-tree interface 5/1
Interface
: 5/1
ProtocolEnable
: disable
StpPortPriority
: 16
StpPortPathCost
: 1024
RstpPortPriority
: 16
RstpAdminPortPoint2Point
: auto
RstpAdminPortCost
: 0
RstpAdminPortEdgePort
: enable
RstpPortProtocolMigration
: disable
RstpPortPacketType
: CISCO_TYPE
RstpPortPathCost
: 20000
PortState
: Forwarding
DesignatedCost
: 0
DesignatedBdg
: 10 00 00 15 EB F2 45 6A
DesignatedPort
: 80 01
DesignatedRoot
: 10 00 00 15 EB F2 45 6A
ForwardTrans
: 1
RstpOperPortPoint2Point
: false
RstpOperPortEdgePort
: enable
Postrequisite
Table 78 describes the operation related to RSTP edge port.
TABLE 78 OPERATION RELATED TO RSTP EDGE PORT
Operation
Command
Disable the edge port.
spanning-tree rapid-stp
edge-port disable
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Configuring RSTP BPDU Packet Type
Short Description
Context
Perform this procedure to configure RSTP BPDU packet type.
�
Only RSTP can be configured with BPDU packet type.
�
RSTP BPDU packet type is especially configured for CISCO devices. If the opposite device is CISCO device, BPDU packet
type must be CISCO_TYPE. If the opposite device is not CISCO
device, BPDU packet type can be IEEE_TYPE. The default BPDU
packet type is CISCO_TYPE.
To configure RSTP BPDU packet type, perform the following steps:
Steps
1. In interface configuration mode, execute the spanning-tree
rapid-stp packet-type {IEEE_TYPE | CISCO_TYPE} command to configure RSTP BPDU packet type.
2. Execute the show spanning-tree interface SLOT/PORTLIST
command to show port RSTP configuration.
END
Result
Example
OF STEPS
RSTP BPDU packet type is configured successfully.
Configure interface 5/1 RSTP BPDU packet type as IEEE_TYPE.
9806(cfg-if-ge-5/1)# spanning-tree rapid-stp packet-type IEEE_TYPE
9806(cfg-if-ge-5/1)# show spanning-tree interface 5/1
Interface
: 5/1
ProtocolEnable
: disable
StpPortPriority
: 16
StpPortPathCost
: 1024
RstpPortPriority
: 16
RstpAdminPortPoint2Point
: true
RstpAdminPortCost
: 0
RstpAdminPortEdgePort
: enable
RstpPortProtocolMigration
: disable
RstpPortPacketType
: IEEE_TYPE
RstpPortPathCost
: 20000
PortState
: Forwarding
DesignatedCost
: 0
DesignatedBdg
: 10 00 00 15 EB F2 45 6A
DesignatedPort
: 80 01
DesignatedRoot
: 10 00 00 15 EB F2 45 6A
ForwardTrans
: 1
RstpOperPortPoint2Point
: true
RstpOperPortEdgePort
: enable
Configuring RSTP Point-to-Point Connection
Short Description
Context
188
Perform this procedure to configure RSTP point-to-point connection.
�
Only RSTP can be configured with point-to-point connection.
�
When point-to-point connection is configured as auto mode,
RSTP checks the connection.
�
Two point-to-point ports can quickly change to the forwarding
status by transmitting synchronous packets.
�
If the user configures two ports which are not point-to-point
link physically as point-to-point connection, loop occurs.
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�
Only when Ethernet port is convergence port or in duplex
mode, the port can be configured as point-to-point link.
To configure RSTP point-to-point connection, perform the following
steps:
Steps
1. In interface configuration mode, execute the spanning-tree
rapid-stp point2point-port {true | false | auto} command
to configure port point-to-point connection.
2. Execute the show spanning-tree interface SLOT/PORTLIST
command to show port RSTP configuration.
END
Result
Example
OF STEPS
RSTP point-to-point connection is configured successfully.
Configure interface 5/1 point-to-point connection.
9806(config)# interface gigabit-ethernet 5/1
9806(cfg-if-ge-5/1)# spanning-tree rapid-stp point2point-port true
9806(cfg-if-ge-5/1)# show spanning-tree interface 5/1
Interface
: 5/1
ProtocolEnable
: disable
StpPortPriority
: 16
StpPortPathCost
: 1024
RstpPortPriority
: 16
RstpAdminPortPoint2Point
: true
RstpAdminPortCost
: 0
RstpAdminPortEdgePort
: enable
RstpPortProtocolMigration
: disable
RstpPortPacketType
: CISCO_TYPE
RstpPortPathCost
: 20000
PortState
: Forwarding
DesignatedCost
: 0
DesignatedBdg
: 10 00 00 15 EB F2 45 6A
DesignatedPort
: 80 01
DesignatedRoot
: 10 00 00 15 EB F2 45 6A
ForwardTrans
: 1
RstpOperPortPoint2Point
: true
RstpOperPortEdgePort
: enable
Configuring RSTP Protocol Migration
Short Description
Context
Perform this procedure to configure RSTP protocol migration.
�
Only RSTP can be configured with protocol migration.
�
RSTP protocol migration is used for controlling protocol migration. If the system works in STP mode and the opposite device
works in RSTP mode, the system can enable RSTP protocol migration and works in RSTP mode.
�
By default, RSTP protocol migration is disabled.
To configure RSTP protocol migration, perform the following steps:
Steps
1. In interface configuration mode, execute the spanning-tree
rapid-stp protocol-migration enable command to enable
RSTP protocol migration.
2. Execute the show spanning-tree interface SLOT/PORTLIST
command to show port RSTP configuration.
END
Result
OF STEPS
RSTP protocol migration is configured successfully.
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Example
Configure interface 5/1 RSTP protocol migration.
9806(config)# interface gigabit-ethernet 5/1
9806(cfg-if-ge-5/1)# spanning-tree rapid-stp protocol-migration enable
9806(cfg-if-ge-5/1)# show spanning-tree interface 5/1
Interface
: 5/1
ProtocolEnable
: disable
StpPortPriority
: 16
StpPortPathCost
: 1024
RstpPortPriority
: 16
RstpAdminPortPoint2Point
: true
RstpAdminPortCost
: 0
RstpAdminPortEdgePort
: enable
RstpPortProtocolMigration
: enable
RstpPortPacketType
: IEEE_TYPE
RstpPortPathCost
: 20000
PortState
: Forwarding
DesignatedCost
: 0
DesignatedBdg
: 10 00 00 15 EB F2 45 6A
DesignatedPort
: 80 01
DesignatedRoot
: 10 00 00 15 EB F2 45 6A
ForwardTrans
: 1
RstpOperPortPoint2Point
: true
RstpOperPortEdgePort
: enable
Postrequisite
Table 79 describes the operation related to RSTP protocol migration.
TABLE 79 OPERATION RELATED TO RSTP PROTOCOL MIGRATION
Operation
Command
Disable port RSTP protocol
migration.
spanning-tree rapid-stp
protocol-migration disable
Configuring SNTP
Short Description
Perform this procedure to configure SNTP.
Prerequisites
Time zone is configured on ZXDSL 9806H.
Context
�
SNTP is simplified NTP. It provides simplified policy between
NTP server and client.
�
The default time zone is 8.
�
By default, SNTP is disabled.
�
ZXDSL 9806H supports two NTP servers at most. By default,
the system is not configured with NTP server. The system communicates with NTP server in unicast mode after NTP server is
configured.
�
The default synchronization interval is 64 seconds.
To configure SNTP, perform the following steps:
Steps
1. Execute the time-zone timezone command to configure time
zone.
2. Execute the sntp enable command to enable SNTP.
3. Execute the sntp server ipaddress command to configure
SNTP server IP address.
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4. (Optional) Execute the sntp interval time command to configure synchronization interval.
5. Execute the show sntp command to show SNTP information.
END
Result
Example
OF STEPS
SNTP is configured successfully.
Configure the host with 10.1.33.1 as NTP server IP and ZXDSL
9806H as NTP client. The synchronization interval is 128 seconds.
9806(config)# time-zone 8
9806(config)# sntp enable
9806(config)# sntp server 10.1.33.1
9806(config)# sntp interval 128
9806(config)# show sntp
NTP Status
: enable
Request Interval
: 128
Main Server
: 10.1.33.1
Backup Server
: 0.0.0.0
Used Server
: 0.0.0.0
Stratum
: 16
Clock Status
: unsynchronized
Postrequisite
Table 80 describes operations related to SNTP.
TABLE 80 OPERATIONS RELATED TO SNTP
Operation
Command
Configure backup SNTP server IP
address.
sntp server ipaddress backup
Disable SNTP.
sntp disable
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This page is intentionally blank.
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Chapter
4
Security Management
Configuration
Table of Contents
Network Security Configuration ......................................... 193
User Security Configuration .............................................. 202
Network Security
Configuration
This topic describes configurations related to network security, including:
�
Port Location
�
Enabling DHCP
�
Configuring Loop Check
�
Configuring SSH
Port Location
Port location and identification is a capability of the service gateway and background system to locate a user. For example, BAS
is used to get a DSL user’s port number for authentication, authorization and accounting.
ZXDSL 9806H device supports port location technologies, such
as VBAS, PPPoE+, DHCP Option82 and SVLAN. It can accurately
identify broadband user access line. Generally, these technologies
adopt label (such as PVC or SVLAN) or user access DSLAM physical port to identify broadband user access line information. Since
label includes the user access line information, it actually conveys
the user access line information.
Enabling VBAS
Short Description
Perform this procedure to enable VBAS.
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Context
�
VBAS is an interactive process between DSLAM and BRAS. It is
implemented at PPP session phase. BRAS sends VBAS request
packets to DSLAM after it receives identification authentication
request packets from a user, querying the user MAC address
and DSLAM ports. DSLAM sends VBAS response packets to
BRAS after it receives VBAS request packets. BRAS authenticates the user information.
�
Only when VLAN VBAS function is enabled, VBAS packets of
this VLAN can be processed.
To enable VBAS, perform the following steps:
Steps
1. Execute the port-location vbas enable command to enable
VBAS.
2. Execute the port-location vbas enable vlan vlanid command
to enable VBAS of a VLAN.
3. Execute the show port-location vbas command to show
VBAS status.
END
Result
Example
OF STEPS
VBAS is enabled successfully.
Enable VBAS.
9806(config)# port-location vbas enable
9806(config)# port-location vbas enable vlan 1000
9806(config)# show port-location vbas
PortLocationVbasEnable
: enable
PortLocationVbasMaxVlanNum
: 1
PortLocationVbasCurrentVlanNum
: 1
VBAS enable vlan list
: 1000
Postrequisite
Table 81 describes operations related to VBAS.
TABLE 81 OPERATIONS RELATED TO VBAS
Operation
Command
Disable VBAS.
port-location vbas disable
Disable VBAS of a VLAN.
port-location vbas disable vlan
vlanid
Enabling PPPoE+
Short Description
Context
Perform this procedure to enable PPPoE+.
ZXDSL 9806H adds tag to PPPoE+ packets and sends the user’s
port information to BRAS. When users access the Internet in PPPoE mode, the system adopts PPPoE Intermediate Agent way to
locate port. It carries the user port information in PPPoE discovery packets and reports to BRAS. BRAS uses this port information
to authenticate the user. In this way, user account is bound with
circuit.
To enable PPPoE+, perform the following steps:
Steps
194
1. In global configuration mode, execute the port-location pppo
e-plus enable command to enable PPPoE+.
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2. In interface configuration mode, execute the pppoe-plus
enable command to enable PPPoE+.
3. Execute the show port-location pppoe-plus command to
show global PPPoE+.
4. Execute the show interface SLOT/PORTLIST command to
show port PPPoE+.
END
Result
Example
OF STEPS
PPPoE+ is enabled successfully.
Enable PPPoE+.
9806(config)# port-location pppoe-plus enable
9806(config)# interface adsl 4/1
9806(cfg-if-adsl-4/1)# pppoe-plus enable
9806(cfg-if-adsl-4/1)# exit
9806(config)# show port-location pppoe-plus
Global PPPoE plus
: enable
9806(config)# show interface 4/1
Interface
PVCID
1
2
8
: 4/1
PVID
1
1
1
AcceptFrames
admitall
admitall
admitall
SvlanMode
disable
disable
disable
TLS
disable
disable
disable
SC_ID
PVC_ID
SC_TYPE
1
1
ALL
PortLockStatus
AdminStatus
TrapControl
LinkStatus
MaxMacLearn
IfType
DHCP Option82
DHCP Access Type
Remote ID
Remote ID Name
PPPoE plus
DHCP Snooping
DHCP Snooping Limit
DHCP Packet Limit
IGMP Packet Limit
Modem IP
Postrequisite
:
:
:
:
:
:
:
:
:
:
:
:
:
:
:
:
PSVID
1
1
1
DHCPSourceGuard
disable
disable
disable
unlock
enable
disable
down
8
ADSL_PORT_TYPE
enable
china-telecom
disable
enable
disable
8
16 pps
16 pps
192.168.2.1
Table 82 describes operations related to PPPoE+.
TABLE 82 OPERATIONS RELATED TO PPPOE+
Operation
Command
Disable PPPoE+ in global
configuration mode.
port-location pppoe-plus
disable
Disable PPPoE+ in interface
configuration mode.
pppoe-plus disable
Enabling DHCP Option82
Short Description
Perform this procedure to enable DHCP Option82.
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Context
�
Option82 field contains CID (Circuit ID), RID (Remote ID) and
sub-Option90 (optional) field. It also provides the information
of shelf number, slot number, port number, VPI and VCI.
�
Only when DHCP Option82 function is enabled, ZXDSL 9806H
can add/delete Option82 field in DHCP packets.
�
After DHCP Option82 function is disabled, ZXDSL 9806H forwards DHCP packets transparently.
To enable DHCP Option82, perform the following steps:
Steps
1. In global configuration mode, execute the port-location dhcp
-option82 enable command to enable global DHCP Option82.
2. In interface configuration mode, execute the dhcp-option82
enable command to enable port DHCP Option82.
3. Execute the show port-location dhcp-option82 command
to show global DHCP Option82 status.
4. Execute the show interface SLOT/PORTLIST command to
show port DHCP Option82 status.
END
Result
Example
OF STEPS
DHCP Option82 is enabled successfully.
Enable DHCP Option82.
9806(config)# port-location dhcp-option82 enable
9806(config)# interface adsl 4/1
9806(cfg-if-adsl-4/1)# dhcp-option82 enable
9806(config)# show port-location dhcp-option82
Global DHCP
: enable
9806(cfg-if-adsl-4/1)# show interface 4/1
Interface
PVCID
1
2
8
PVID AcceptFrames
1
admitall
1
admitall
1
admitall
: 4/1
SvlanMode TLS
PSVID DHCPSourceGuard
disable disable 1
disable
disable disable 1
disable
disable disable 1
disable
SC_ID
PVC_ID
SC_TYPE
1
1
ALL
PortLockStatus
AdminStatus
TrapControl
LinkStatus
MaxMacLearn
IfType
DHCP Option82
DHCP Access Type
Remote ID
Remote ID Name
PPPoE plus
DHCP Snooping
DHCP Snooping Limit
DHCP Packet Limit
IGMP Packet Limit
Modem IP
Postrequisite
196
:
:
:
:
:
:
:
:
:
:
:
:
:
:
:
:
unlock
enable
disable
down
8
ADSL_PORT_TYPE
enable
china-telecom
disable
disable
disable
8
16 pps
16 pps
192.168.2.1
Table 83 describes operations related to DHCP Option82.
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TABLE 83 OPERATIONS RELATED TO DHCP OPTION82
Operation
Command
Disable DHCP Option82 in global
configuration mode.
port-location dhcp-option82
disable
Configure access-node-id.
port-location access-node-id {
inband-mac | hostname}
Disable DHCP Option82 in
interface configuration mode.
dhcp-option82 disable
Enable/disable port DHCP
Option82 Remote ID .
dhcp-option82 sub-option rid
enable/disable
Configure port DHCP-option82
Remote ID name.
dhcp-option82 sub-option rid
name
Configure port DHCP-option82
report type.
dhcp-option82 sub-option {
china-telecom | china-netcom
| wt101}
Enabling SVLAN
Short Description
Context
Perform this procedure to enable SVLAN.
SVLAN encapsulates one more tag before 802.1Q tag. One tag
is used to identify the customer network; the other tag is used
to identify the service provider network. SVLAN allows carrier to
allocate the second VLAN ID up to 4 K, to each user. Carrier VLAN
ID is inserted in upstream and deleted in downstream.
To enable SVLAN, perform the following steps:
Steps
1. Execute the add-vlan vlanid command to create inner layer
VLAN and outer layer VLAN.
2. Execute the vlan vlanid SLOTLIST/PORTLIST tag pvc pvc command to add outer layer VLAN to the uplink port.
3. Execute the vlan vlanid SLOTLIST/PORTLIST untag [one-toone] pvc pvc command to add outer layer VLA and inner layer
VLAN to the service port.
4. In interface configuration mode, execute the svlan enable
pvc pvc command to enable SVLAN.
5. In interface configuration mode, execute the psvid vlanid command to configure port outer layer VLAN.
6. In interface configuration mode, execute the pvid vlanid command to configure port inner layer VLAN.
END
Result
Example
OF STEPS
SVLAN is enabled successfully.
Enable interface 4/1 SVLAN. Configure inner layer VLAN as 11,
outer layer VLAN as 60, PVC as 1 and VPI/VCI as 8/81.
9806(config)# add-vlan 11
9806(config)# add-vlan 60
9806(config)# vlan 60 5/1 tag
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9806(config)# vlan 60 4/1 untag pvc 1
9806(config)# vlan 11 4/1 untag pvc 1
9806(config)# interface adsl 4/1
9806(cfg-if-adsl-4/1)# svlan enable pvc 1
9806(cfg-if-adsl-4/1)# psvid 60 pvc 1
9806(cfg-if-adsl-4/1)# pvid 11 pvc 1
Postrequisite
Table 84 describes operations related to SVLAN.
TABLE 84 OPERATIONS RELATED TO SVLAN
Operation
Command
Disable SVLAN in interface
configuration mode.
svlan disable pvc pvc
Configure global VLAN mode. The
default mode is ’traditional’.
system vlan-mode mode
Configure outer layer Tag ID. The
default value is 0x8100.
stpid stpid
Configure inner layer Tag ID. The
default value is 0x8100.
ctpid ctpid
Enable port to be TLS.
svlan tls enable pvc pvc
Disable port TLS properties.
svlan tls disable pvc pvc
Enabling DHCP
Short Description
Perform this procedure to enable DHCP. Through DHCP, user can
obtain IP address and relevant configuration information automatically.
Context
DHCP snooping technology is a security characteristic of DHCP. This
technology filters the non-trusted DHCP information from nontrusted areas through establishing and maintaining DHCP snooping binding table. DHCP snooping binding table includes the information about user MAC address, IP address, rental period and
VLAN ID interface from non-trusted areas. It can age the entries
in DHCP snooping binding table according to the rental period. To
maintain DHCP snooping binding table, it is necessary to intercept
DHCP Request, DHCP ACK, DHCP NAK, DHCP Decline and DHCP
Release packets.
To realize the DHCP source guard technology, it is necessary to establish DHCP snooping module to maintain DHCP snooping binding
table. Through binding IP address and PVC, DHCP snooping can
filter the non-DHCP IP packets of PVC. This technology can effectively prevent address-deceit and DoS attack and thus increase
the device security.
To enable DHCP, perform the following steps:
Steps
198
1. Execute the dhcp-snooping enable command to enable
DHCP snooping.
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2. Execute the dhcp-source-guard enable pvc pvcid to bind
the IP address with PVC.
END
Result
Example
OF STEPS
DHCP is enabled successfully.
Enable DHCP snooping on interface 4/1 and bind IP address with
PVC 1.
9806(config)# interface adsl 4/1
9806(cfg-if-adsl-4/1)# dhcp-snooping enable
9806(cfg-if-adsl-4/1)# dhcp-source-guard enable pvc 1
Postrequisite
Table 85 describes operations related to DHCP.
TABLE 85 OPERATIONS RELATED TO DHCP
Operation
Command
Disable DHCP Sooping.
dhcp-snooping disable
Disable DHCP Source Guard
binding.
dhcp-source-guard disable pvc
pvcid
Configure DHCP packet limit.
dhcp-packet-limit packet-num
Configure DHCP snooping limit.
The default value is 8.
dhcp-snooping-limit num
Show DHCP snooping.
show dhcp-snooping {slot/port
| slot slot}
Configuring Loop Check
Short Description
Context
Perform this procedure to configure loop check.
�
By default, the loop-check function is disabled.
�
The port sends a loop-check packet automatically if the loopcheck function is enabled. The packet contains information of
the transmitting port. The receiving port compares the port
information with its own. If the information is consistent, loop
back occurs to the port.
�
If loop back occurs on a port, the system will shut down this
port.
�
If the recover interval is configured, the disabled port is enabled automatically after recover interval. If the port is still in
loop-back status, the recover interval is prolonged automatically.
To configure loop check, perform the following steps:
Steps
1. Execute the loop-check interval time command to configure
loop-check interval.
2. Execute the loop-check recover-interval time command to
configure recover interval.
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3. Execute the show loop-check interval command to show
loop-back interval parameters.
END
Result
Example
OF STEPS
Loop check is configured successfully.
Configure the loop-check interval as 20 seconds and recover interval as 60 minutes.
9806(config)# loop-check interval 20
9806(config)# loop-check recover-interval 60
9806(config)# show loop-check interval
LoopCheckInterval
: 20 s
RecoverInterval
: 60 min
Postrequisite
Table 86 describes operations related to configuring loop check.
TABLE 86 OPERATIONS RELATED TO LOOP CHECK
Operation
Command
Disable loop check.
loop-check interval
Show loop-back parameters.
show loop-check interface
SLOT/PORT
Configuring SSH
Short Description
Prerequisites
Context
Perform this procedure to configure SSH.
The route between SSH client and server is configured.
SSH can replace TELNET for security remote login. Through SSH,
users can encrypt data. Data transmitted through SSH is compressed. Therefore, the transmission speed is enhanced.
ZXDSL 9806H supports SSH server functions.
To configure SSH, perform the following steps:
Steps
1. Execute the ssh-server enable command to enable SSH
server.
2. (Optional) Execute the ssh-server only enable command to
enable SSH server to be the only access mode.
3. Execute the ssh-server version {sshv1 | sshv2} command
to configure SSH server version.
4. Execute the ssh-server generate-key command to generate
RSA key. This command is only applicable to Version 1. For
Version 2, this command is not necessary.
5. Execute the ssh-server mode {local | radius} command to
configure SSH server authentication mode.
6. Execute the ssh-server type {pap | chap} command to conf
igure SSH serve authentication type to be ’radius’. If the auth
entication type is ’local’, this command is not necessary.
7. Execute the radius-server add ipaddress key port command
to configure radius server information when the SSH server
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authentication type is ’radius’. If the authentication type is
’local’, this command is not necessary.
8. Execute the show ssh to show SSH server configuration.
END
Result
Example
OF STEPS
SSH is configured successfully.
Configure SSH version number as Version 1. RADIUS pap authentication is used. RADIUS server IP is 10.61.225.166, key is zte
and the default port 1812 is used.
9806(config)#
9806(config)#
9806(config)#
9806(config)#
9806(config)#
9806(config)#
9806(config)#
9806(config)#
ssh server
ssh authmode
ssh authtype
ssh only
ssh version
ssh-server enable
ssh-server only enable
ssh-server version sshv1
ssh-server generate-key
ssh-server mode radius
ssh-server type pap
radius-server add 10.61.255.166 zte 1812
show ssh
: enable
: radius
: pap
: enable
: sshv1
Note:
Execute the ssh-server generate-key command only for one
time. Keep the key consistent with the key on RADIUS server.
Configure SSH version number as Version 2. The local authentication mode is used.
9806(config)#
9806(config)#
9806(config)#
9806(config)#
9806(config)#
ssh server
ssh authmode
ssh authtype
ssh only
ssh version
Postrequisite
ssh-server
ssh-server
ssh-server
ssh-server
show ssh
enable
only enable
version sshv2
mode local
:
:
:
:
:
enable
local
pap
disable
sshv2
Table 87 describes operations related to SSH.
TABLE 87 OPERATIONS RELATED TO SSH
Operation
Command
Disable SSH server.
ssh-server disable
Disable SSH server as the only
access mode.
ssh-server only disable
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User Security Configuration
This topic describes configurations related to user security, including:
�
Binding IP Address
�
Configuring MAC Address Limit
�
Configuring MAC Address White List
�
Configuring MAC Address Black List
Binding IP Address
Short Description
Perform this procedure to bind the service channel with IP address.
Context
When binding static IP address, one port can only bind one IP
address each time. One port can bind four IP addresses at most.
To bind IP address, perform the following steps:
Steps
1. Execute the bind ip-address ipaddress command to bind IP
address.
2. Execute the show bind ip-address port SLOT/PORT command to show the bound IP address information.
END
Result
Example
OF STEPS
IP address is bound with the service channel successfully.
Bind interface 4/1 with IP address 10.63.10.105.
9806(config)# interface adsl 4/1
9806(cfg-if-adsl-4/1)# bind ip 10.63.10.105
9806(cfg-if-adsl-4/1)# show bind ip port 4/1
4/1
: 10.63.10.105
Postrequisite
Table 88 describes the operation related to binding IP address.
TABLE 88 OPERATION RELATED TO BINDING IP ADDRESS
Operation
Command
Do not bind IP address.
no bind ip-address ipaddress
Configuring MAC Address Limit
Short Description
Context
202
Perform this procedure to configure the maximum number of MAC
addresses that virtual service port can learn, which can restrict the
number of access users.
�
By default, the maximum number of MAC address that virtual
service port can learn is 8.
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�
The maximum number of MAC address that the virtual service
port can learn does not include the number of static MAC address.
To configure MAC address limit, perform the following steps:
Steps
1. Execute the max-mac-learn num command to configure the
maximum number of MAC address that virtual service port can
learn.
2. Execute the show interface SLOT/PORT command to show
the maximum number of MAC address that virtual service port
can learn.
END
OF STEPS
Result
The maximum number of MAC address is configured successfully.
Example
Configure the maximum number of MAC address that the interface
4/2 can learn is 16.
9806(config)# interface adsl 4/2
9806(cfg-if-adsl-4/2)# max-mac-learn 16
9806(cfg-if-adsl-4/2)# show interface 4/2
Interface
PVCID
1
8
: 4/2
PVID
1
1
AcceptFrames
admitall
admitall
SC_ID
PVC_ID
SC_TYPE
1
1
ALL
PortLockStatus
AdminStatus
TrapControl
LinkStatus
MaxMacLearn
IfType
DHCP Option82
DHCP Access Type
Remote ID
Remote ID Name
PPPoE plus
DHCP Snooping
DHCP Snooping Limit
DHCP Packet Limit
IGMP Packet Limit
Modem IP
Postrequisite
SvlanMode
disable
disable
TLS
PSVID DHCPSourceGuard
disable 1
disable
disable 1
disable
:
:
:
:
:
:
:
:
:
:
:
:
:
:
:
:
unlock
enable
disable
down
16
ADSL_PORT_TYPE
disable
china-telecom
disable
disable
disable
8
16 pps
16 pps
192.168.2.1
Table 89 describes the operation related to MAC address limit.
TABLE 89 OPERATION RELATED TO MAC ADDRESS LIMIT
Operation
Command
Delete MAC address limit.
no max-mac-learn
Configuring MAC Address White List
Short Description
Context
Perform this procedure to bind the service channel with MAC address.
MAC address white list is also called MAC address binding.
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When binding static MAC address, one port can only bind one MAC
address each time. One port can bind four MAC addresses at most.
To bind MAC address, perform the following steps:
Steps
1. Execute the bind mac-address macaddress command to bind
MAC address.
2. Execute the show bind mac-address port SLOT/PORT command to show the bound MAC address information.
END
Result
Example
OF STEPS
MAC address is bound with the service channel successfully.
Bind interface 4/1 with MAC address 00:00:00:00:00:01.
9806(config)# interface adsl 4/1
9806(cfg-if-adsl-4/1)# bind mac-address 00:00:00:00:00:01
9806(cfg-if-adsl-4/1)# show bind mac-address port 4/1
4/1
: 00:00:00:00:00:01
Postrequisite
Table 90 describes the operation related to MAC address binding.
TABLE 90 OPERATION RELATED TO MAC ADDRESS BINDING
Operation
Command
Do not bind MAC address.
no bind mac-address
macaddress
Configuring MAC Address Black List
Short Description
Context
Perform this procedure to filter MAC address.
MAC address black list is also called MAC address filtering.
ZXDSL 9806H supports four MAC addressed to be filtered at most.
To filter MAC address, perform the following steps:
Steps
1. Execute the filter mac-address macaddress command to filter MAC address.
2. Execute the show filter mac-address port SLOT/PORT command to show filtered MAC address.
END
Result
Example
OF STEPS
MAC address is filtered successfully.
Configure interface 4/1 to filter MAC address 00:00:00:00:00:01.
9806(config)# interface adsl 4/1
9806(cfg-if-adsl-4/1)# filter mac-address 00:00:00:00:00:01
9806(cfg-if-adsl-4/1)# show filter mac-address port 4/1
4/1
: 00:00:00:00:00:01
Postrequisite
204
Table 91 describes the operation related to MAC address filtering.
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TABLE 91 OPERATION RELATED TO MAC ADDRESS FILTERING
Operation
Command
Do not filter MAC address.
no filter mac-address
macaddress
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Figures
Figure 1 New Connection ..................................................... 2
Figure 2 Configure Connection.............................................. 2
Figure 3 COM1 Properties .................................................... 3
Figure 4 Run Telnet............................................................. 4
Figure 5 NetNumen Config Center......................................... 6
Figure 6 Add NE ................................................................. 6
Figure 7 NMS Server ........................................................... 7
Figure 8 NMS Client ............................................................ 7
Figure 9 Create NE ............................................................. 8
Figure 10 Command Modes.................................................. 9
Figure 11 In-band NMS Network Configuration Diagram..........16
Figure 12 In-band NMS Configuration Flow Diagram ...............17
Figure 13 Out-of-band NMS Network Configuration Diagram....19
Figure 14 Out-of-band NMS Configuration Flow Diagram .........20
Figure 15 In-band Networking Diagram ................................25
Figure 16 In-band Channel Configuration Flow.......................26
Figure 17 PSTN Service Access Networking Diagram...............28
Figure 18 PSTN Service Access Configuration Flow .................29
Figure 19 PSTN Service Access Networking Diagram...............37
Figure 20 IP FAX Service Access Configuration Flow ...............38
Figure 21 VLAN Application Networking Diagram....................53
Figure 22 VLAN Application Configuration Flow ......................54
Figure 23 VLAN Stacking Batch Application Networking
Diagram ...........................................................59
Figure 24 VLAN Stacking Batch Service Configuration Flow......60
Figure 25 VLAN ID Extension Application Networking
Diagram ...........................................................62
Figure 26 VLAN ID Extension Configuration Flow ....................63
Figure 27 ADSL/ADSL2+ PPPoA Access Service Networking
Diagram ...........................................................67
Figure 28 ADSL/ADSL2+ PPPoA Access Service Configuration
Flow ................................................................71
Figure 29 ADSL/ADSL2+ IPoE/PPPoE Access Service
Networking Diagram ..........................................75
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Figure 30 ADSL/ADSL2+ IPoE/PPPoE Access Service
Configuration Flow .............................................78
Figure 31 ADSL/ADSL2+ Line Profile Configuration Flow..........82
Figure 32 ADSL/ADSL2+ Alarm Profile Configuration Flow .......88
Figure 33 VDSL2 IPoE/PPPoE Access Service Networking
Diagram ...........................................................94
Figure 34 VDSL2 IPoE/PPPoE Access Service Configuration
Flow ................................................................97
Figure 35 VDSL2 Basic Profile Configuration Flow ................. 102
Figure 36 VDSL2 Service Profile Configuration Flow .............. 111
Figure 37 VDSL2 DPBO Profile Configuration Flow ................ 115
Figure 38 VDSL2 UPBO Profile Configuration Flow ................ 119
Figure 39 VDSL2 Alarm Profile Configuration Flow ................ 124
Figure 40 SHDSL IPoE/PPPoE Access Service Networking
Diagram ......................................................... 131
Figure 41 SHDSL IPoE/PPPoE Access Service Configuration
Flow .............................................................. 134
Figure 42 SHDSL Line Profile Configuration Flow .................. 137
Figure 43 SHDSL Alarm Profile Configuration Flow................ 141
Figure 44 IGMP Snooping Service Networking Diagram ......... 145
Figure 45 IGMP Snooping Service Configuration Flow............ 147
Figure 46 IGMP Proxy Service Networking Diagram .............. 153
Figure 47 IGMP Proxy Service Configuration Flow................. 155
Figure 48 Configuring Static Route ..................................... 171
208
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Tables
Table 1 Edit Functions ........................................................10
Table 2 Display Function .....................................................12
Table 3 Prompt Information ................................................12
Table 4 In-band NMS Data Configuration...............................16
Table 5 Out-of-band NMS Data Configuration.........................19
Table 6 In-band Channel Configuration Data..........................26
Table 7 Voice Service Card Specification................................28
Table 8 PSTN Service Access Data Configuration ....................29
Table 9 MGC Parameters.....................................................30
Table 10 MG Route Parameters ............................................32
Table 11 Termination ID Parameters .....................................32
Table 12 VoIP Resource Termination ID Parameters ................34
Table 13 IP Fax Service Access Data Configuration .................37
Table 14 MGC Parameters ...................................................39
Table 15 MG Route Parameters ............................................40
Table 16 Port Fax Parameters ..............................................42
Table 17 VoIP Resource Termination ID Parameters ................43
Table 18 MPRB RTP Fax Parameters......................................45
Table 19 Self-exchange Parameters......................................46
Table 20 Self-exchange Related Operations ...........................47
Table 21 Ringing Parameters ...............................................48
Table 22 Operation Related to Ringing Profile.........................49
Table 23 Call Limit Parameters ............................................50
Table 24 VLAN Usage .........................................................52
Table 25 VLAN Data Configuration........................................54
Table 26 Operation Related to VLAN .....................................56
Table 27 Operation Related to VLAN Uplink Port .....................57
Table 28 Operation Related to Single Service Port ..................57
Table 29 Operation Related to Service Ports ..........................58
Table 30 VLAN Stacking Batch Service Data Configuration .......59
Table 31 VLAN ID Extension Data Configuration .....................62
Table 32 Corresponding Relations Between 9806H And
Modem Encapsulation Type .................................65
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Table 33 ADSL/ADSL2+ PPPoA Access Service Data
Configuration ....................................................67
Table 34 ADSL/ADSL2+ IPoE/PPPoE Access Service Data
Configuration ....................................................75
Table 35 ADSL/ADSL2+ Line Profile Parameters .....................84
Table 36 Operations Related to ADSL/ADSL2+ Line Profile.......87
Table 37 ADSL/ADSL2+ Alarm Profile Parameters...................90
Table 38 Operation Related to ADSL/ADSL2+ Alarm Profile......92
Table 39 VDSL2 IPoE/PPPoE Access Service Data
Configuration ....................................................95
Table 40 VDSL2 Basic Profile Parameters ............................ 105
Table 41 Operations Related to VDSL2 Basic Profile ............. 110
Table 42 VDSL2 Service Profile Parameters ......................... 112
Table 43 Operations Related to VDSL2 Service Profile .......... 114
Table 44 VDSL2 DPBO Profile Parameters ............................ 116
Table 45 Operations Related to VDSL2 DPBO Profile ............. 118
Table 46 VDSL2 UPBO Profile Parameters ............................ 120
Table 47 Operations Related to VDSL2 UPBO Profile ............. 123
Table 48 VDSL2 Alarm Profile Parameters............................ 126
Table 49 Operations Related to VDSL2 Alarm Profile ............. 128
Table 50 Corresponding Relations Between 9806H and
MODEM Encapsulation Type............................... 129
Table 51 SHDSL IPoE/PPPoE Access Service Data
Configuration .................................................. 131
Table 52 SHDSL Line Profile Parameters.............................. 138
Table 53 Operations Related to SHDSL Line Profile ............... 140
Table 54 SHDSL Alarm Profile Parameters ........................... 142
Table 55 Operation Related to SHDSL Alarm Profile .............. 143
Table 56 IGMP Snooping Service Data Configuration ............. 145
Table 57 IGMP Parameters ................................................ 148
Table 58 Preview Profile Parameters ................................... 151
Table 59 IGMP Proxy Service Data Configuration .................. 153
Table 60 IGMP Parameters ................................................ 156
Table 61 IGMP Interface Parameters................................... 158
Table 62 Preview Profile Parameters ................................... 160
Table 63 Operation Related to Bandwidth ............................ 162
Table 64 Operation Related to Queue Scheduler Algorithm .... 164
Table 65 Operation Related to PVC Mapping ........................ 165
Table 66 QoS Policy Parameters ......................................... 166
Table 67 Operations Related to Policy and Class ................... 167
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Tables
Table 68 Operations Related to Port QoS Priority .................. 168
Table 69 Operations Related to QoS Mapping....................... 170
Table 70 Operations Related to Egress Shaping Parameters ... 171
Table 71 Operation Related to Static Route.......................... 172
Table 72 Operation Related to RMON .................................. 173
Table 73 Operation Related to STP/RSTP ............................. 175
Table 74 Operations Related to Forward Delay ..................... 178
Table 75 Operations Related to Hello Time .......................... 179
Table 76 Operations Related to Max Age ............................. 180
Table 77 Operations Related to Priority ............................... 182
Table 78 Operation Related to RSTP Edge Port ..................... 187
Table 79 Operation Related to RSTP Protocol Migration ......... 190
Table 80 Operations Related to SNTP.................................. 191
Table 81 Operations Related to VBAS.................................. 194
Table 82 Operations Related to PPPoE+ .............................. 195
Table 83 Operations Related to DHCP Option82.................... 197
Table 84 Operations Related to SVLAN ................................ 198
Table 85 Operations Related to DHCP ................................. 199
Table 86 Operations Related to Loop Check ......................... 200
Table 87 Operations Related to SSH ................................... 201
Table 88 Operation Related to Binding IP Address ................ 202
Table 89 Operation Related to MAC Address Limit................. 203
Table 90 Operation Related to MAC Address Binding ............. 204
Table 91 Operation Related to MAC Address Filtering ............ 205
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Index
A
H
Adding Service Ports in
Batch ............................. 58
Adding Single Service
Port................................ 57
Adding VLAN..................... 55
Adding VLAN Uplink Port..... 56
ADSL Overview ................. 65
ADSL/ADSL2+ Alarm
Profile............................. 87
ADSL/ADSL2+
IPoE/PPPoE Access ........... 74
Hello Time ...................... 178
HyperTerminal.....................1
B
Bandwidth ...................... 161
Binding IP Address .......... 202
C
Configuring
ADSL/ADSL2+ Line
Profile............................. 81
Configuring Call Limit ......... 49
Configuring MAC Pool ......... 93
Configuring Network
Management ACM ............ 22
Configuring STP/RSTP
Priority ......................... 185
D
Default Cost ................... 182
DHCP Option82 ............... 196
I
IGMP Proxy..................... 152
IGMP Snooping ............... 144
In-band Channel
Configuration................... 25
In-band NMS
Configuration................... 15
IP Fax Service Access
Configuration................... 36
L
Link Aggregation ............. 172
Login Mode .........................1
Loop Check..................... 199
M
MAC Address Black List .... 204
MAC Address Limit........... 202
MAC Address White List .... 203
Max Age......................... 179
Modifying Ringing Profile..... 47
Multicast ........................ 144
N
NetNumen ..........................5
E
O
Egress Shaping
Parameters ................... 170
Enabling ADSL/ADSL2+
Interface......................... 92
Enabling DHCP ................ 198
Enabling SHDSL
Interface....................... 143
Enabling STP/RSTP .......... 174
Enabling VDSL2
Interface....................... 128
Out-of-band NMS
Configuration................... 19
Overview.................. 15,
36, 93, 129, 162
F
Forward Delay................. 177
P
Policy and Class .............. 165
Port QoS Priority ............. 167
PPPoA Access .................... 66
PPPoE+ .......................... 194
PSTN Service .................... 28
PSTN Service Access
Configuration Instance ...... 28
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ZXDSL 9806H Configuration Manual (CLI)
PVC Mapping .................. 164
Q
Queue Scheduler
Algorithm...................... 163
R
RSTP Administration
Cost ............................. 186
RSTP BPDU Packet Type .... 188
RSTP Compatibility .......... 176
RSTP Edge Port ............... 187
RSTP Point-to-Point
Connection.................... 188
RSTP Protocol
Migration ...................... 189
S
Self-exchange ................... 46
SHDSL Alarm Profile ........ 140
SHDSL IPoE/PPPoE
Access .......................... 130
SHDSL Line Profile ........... 136
SNTP ............................. 190
SSH............................... 200
Static Route.................... 171
STP Cost ........................ 184
STP/RSTP Priority ............ 181
SVLAN ........................... 197
T
Telnet ................................4
Transmission Hold
Count ........................... 183
V
VBAS ............................. 194
VDSL2 Alarm Profile......... 123
VDSL2 Basic Profile.......... 101
VDSL2 DPBO Profile ......... 115
VDSL2 IPoE/PPPoE
Access ............................ 94
VDSL2 service Profile ....... 110
VDSL2 UPBO Profile ......... 118
VLAN ID Extension
Configuration................... 61
VLAN Overview ................. 51
VLAN Stacking Batch
Service Configuration
Instance ......................... 58
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List of Glossary
ADSL - Asymmetrical Digital Subscriber Line
AG - Access Gateway
ARP - Address Resolution Protocol
ATM - Asynchronous Transfer Mode
ATU-C - ADSL Transceiver Unit - Central
ATU-R - ADSL Transceiver Unit - Remote
BAS - Broadband Access Server
BPDU - Bridge Protocol Data Unit
BRAS - Broadband Remote Access Server
CAC - Channel Access Control
CBS - Committed Burst Size
CDR - Call Detail Record
CIR - Committed Information Rate
CLI - Command Line Interface
CoS - Class of Service
CPE - Customer Premises Equipment
CRC - Cyclic Redundancy Check
DHCP - Dynamic Host Configuration Protocol
DMT - Discrete Multi-Tone
DoS - Denial of Service
VDSL2 - Very High Bit Rate Digital Subscriber Line 2
DSCP - Differentiated Services Code Point
DSL - Digital Subscriber Line
DSLAM - Digital Subscriber Line Access Multiplexer
ES - Errored Second
FECS - Forward Error Correction Second
GUI - Graphical User Interface
ICMP - Internet Control Message Protocol
IEEE - Institute of Electrical and Electronic Engineers
IGMP - Internet Group Management Protocol
INP - Impulse Noise Protection
IP - Internet Protocol
IPoE - Internet Protocol over Ethernet
IPS - Intelligent Protection Switching
IPTV - Internet Protocol Television
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ZXDSL 9806H Configuration Manual (CLI)
ISP - Internet Service Provider
LAN - Local Area Network
LoF - Loss of Frame
LoS - Loss of Signal
LOSWS - Loss of Sync Word Seconds
MAC - Media Access Control
MG - Media Gateway
MGC - Media Gateway Controller
MODEM - Modulation-Demodulation
MVLAN - Multicast Virtual Local Area Network
NE - Network Element
NMS - Network Management System
NTP - Network Time Protocol
ONT - Optical Network Terminal
PBS - Peak Burst Size
PIR - Peak Information Rate
PON - Passive Optical Network
PPP - Point-to-Point Protocol
PPPoA - Point to Point Protocol over ATM
PPPoE - Point-to-Point Protocol over Ethernet
PQ - Strict-Priority Queue
PSD - Power Spectrum Density
PSTN - Public Switched Telephone Network
PTM - Packet Transfer Mode
PVC - Permanent Virtual Circuits
PVLAN - Private Virtual Local Area Network
QoS - Quality of Service
QoS - Quality of Service
RADIUS - Remote Authentication Dial-In User Service
RFI - Radio Frequency Interference
RMON - Remote Monitoring
RSTP - Rapid Spanning Tree Protocol
SES - Severely Errored Second
SHDSL - Single-pair High Digital Subscriber Line
SLC - Subscriber Line Circuit
SNMP - Simple Network Management Protocol
SNR - Signal To Noise Ratio
SNTP - Simple Network Time Protocol
SOHO - Small Office/Home Office
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Glossary
SP - Strict Priority
SS - Supplementary Service
SSH - Secure Shell
STP - Spanning Tree Protocol
STU-C - SHDSL Transceiver Unit - Central
STU-R - SHDSL Transceiver Unit - Remote
SVLAN - Service Virtual Local Area Network
TID - Terminal Identification
TLS - Transport Layer Security
UAS - Unavailable Seconds
UPBO - Upstream Power Back-Off
VBAS - Virtual Band Access Server
VCI - Virtual Channel Identifier
VLAN - Virtual Local Area Network
VoIP - Voice over Internet Protocol
VPI - Virtual Path Identifier
VTU-C - VDSL Transceiver Unit - Central
VTU-R - VDSL Transceiver Unit - Remote Terminal
WAN - Wide Area Network
WRR - Weight Round Robin
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