The MSTP Configuration of stp region-configuration

Function Description

The multiple spanning tree protocol (MSTP) applies to the redundant network. MSTP is an improvement of STP and RSTP. MSTP prevents the proliferation and infinite cycling of the packets in the loop network. In addition, MSTP provides multiple redundant paths for VLAN data transmission to achieve the load-sharing purpose. The MA5600T/MA5603T/MA5608T supports MSTP, which is compatible with the STP and RSTP. It supports MSTP loop network that helps meet various networking requirements.

Function

The vlan-mapping module command is used to map all VLANs to the spanning tree instances by modulo. When you need to map VLAN to each spanning tree instance rapidly, run this command. After all VLANs map to the matched spanning tree instance by module algorithm, each VLAN belongs to different spanning tress instance based on the user configuration.
The undo vlan-mapping module command is used to remap all VLANs to common and internal spanning (CIST) instance. When you need to restore the mapping relationship, run this command. After all VLANs are remapped to CIST instance, each VLAN is mapped to CIST instance.

Format

vlan-mapping module module
undo vlan-mapping module

Parameters

Parameter	Description	Value
module	Indicates the module value, that is the number of MSTP instances. When you need to specify the mapping relationship between VLAN and spanning tree instance, use this parameter.	Numeral type. Range: 0-16.

Modes

MST area mode, OSN 3500, OSN 7500

Level

Operator level

Usage Guidelines

• Run the config command to enter global config mode, and then run the stp region-configuration command to enter MST area mode.
• By default, all VLANs map CIST instance, that is, instance 0.
• The command is used to map VLAN to each spanning tree instance rapidly. The ID of the mapped instance is (VLAN ID-1)% module+1.
  • (VLAN ID-1)% module is the modular algorithm for (VLAN ID-1). When you calculate the modular value by 16, VLAN 1 maps to MSTI 1, VLAN 2 maps to MSTI 2. ... VLAN 16 maps to MSTI 16 and VLAN 17 maps to MSTI 1. The rest may be reduced by analogy.
  • Running the command can cause the mapping relationship of all VLANs change. In actual application, you can run this command first, and then run the instance vlan command to adjust the mappings slightly as required.
  • The configuration can be used after it is activated.
• Two devices that belong to a same MST region meet the following requirements:
  • The area names are the same.
  • The area levels are the same.
  • The configuration digest are the same. The configuration digest is calculated by VLAN mapping table of all the spanning trees and MD5-KEY through MD5 ciphering algorithm.

Example

To map all VLANs to spanning tree instance, with the modular value of 1, do as follows:

huawei(stp-region-configuration)#vlan-mapping module                            
{ INTERGER<0-16> }:1                                                         
                                                                                
  Command:                                                                      
          vlan-mapping module 1  

To remap all VLANs to CIST instance, do as follows:

huawei(stp-region-configuration)#undo vlan-mapping module  

System Response

• The system does not display any message after the command is executed successfully.

The MSTP Configuration of vlan-mapping module

Function Description

The multiple spanning tree protocol (MSTP) applies to the redundant network. MSTP is an improvement of STP and RSTP. MSTP prevents the proliferation and infinite cycling of the packets in the loop network. In addition, MSTP provides multiple redundant paths for VLAN data transmission to achieve the load-sharing purpose. The MA5680T/MA5683T/MA5608T supports MSTP, which is compatible with the STP and RSTP. It supports MSTP loop network that helps meet various networking

Function

The vlan-mapping module command is used to map all VLANs to the spanning tree instances by modulo. When you need to map VLAN to each spanning tree instance rapidly, run this command. After all VLANs map to the matched spanning tree instance by module algorithm, each VLAN belongs to different spanning tress instance based on the user configuration.
The undo vlan-mapping module command is used to remap all VLANs to common and internal spanning (CIST) instance. When you need to restore the mapping relationship, run this command. After all VLANs are remapped to CIST instance, each VLAN is mapped to CIST instance.

Format

vlan-mapping module module
undo vlan-mapping module

Parameters

Parameter	Description	Value
module	Indicates the module value, that is the number of MSTP instances. When you need to specify the mapping relationship between VLAN and spanning tree instance, use this parameter.	Numeral type. Range: 0-16.

Modes

MST area mode, OSN 3500, OSN 7500

Level

Operator level

Usage Guidelines

• Run the config command to enter global config mode, and then run the stp region-configuration command to enter MST area mode.
• By default, all VLANs map CIST instance, that is, instance 0.
• The command is used to map VLAN to each spanning tree instance rapidly. The ID of the mapped instance is (VLAN ID-1)% module+1.
  • (VLAN ID-1)% module is the modular algorithm for (VLAN ID-1). When you calculate the modular value by 16, VLAN 1 maps to MSTI 1, VLAN 2 maps to MSTI 2. ... VLAN 16 maps to MSTI 16 and VLAN 17 maps to MSTI 1. The rest may be reduced by analogy.
  • Running the command can cause the mapping relationship of all VLANs change. In actual application, you can run this command first, and then run the instance vlan command to adjust the mappings slightly as required.
  • The configuration can be used after it is activated.
• Two devices that belong to a same MST region meet the following requirements:
  • The area names are the same.
  • The area levels are the same.
  • The configuration digest are the same. The configuration digest is calculated by VLAN mapping table of all the spanning trees and MD5-KEY through MD5 ciphering algorithm.

Example

To map all VLANs to spanning tree instance, with the modular value of 1, do as follows:

huawei(stp-region-configuration)#vlan-mapping module                            
{ INTERGER<0-16> }:1                                                         
                                                                                
  Command:                                                                      
          vlan-mapping module 1  

To remap all VLANs to CIST instance, do as follows:

huawei(stp-region-configuration)#undo vlan-mapping module  

System Response

• The system does not display any message after the command is executed successfully.
• For more information about the error message that the system displays against a command entered with incorrect syntax, see the "Syntax Check" in Parameter.

The MSTP Configuration of stp compliance

Function Description

The multiple spanning tree protocol (MSTP) applies to the redundant network. MSTP is an improvement of STP and RSTP. MSTP prevents the proliferation and infinite cycling of the packets in the loop network. In addition, MSTP provides multiple redundant paths for VLAN data transmission to achieve the load-sharing purpose. The MA5600T/MA5603T/MA5608T supports MSTP, which is compatible with the STP and RSTP. It supports MSTP loop network that helps meet various networking requirements.

Function

The stp compliance command is used to configure the protocol used by a port to transmit bridge protocol data unit (BPDU) packets. After this command is executed successfully, the port uses the configured protocol to transmit BPDU packets.
The undo stp compliance command is used to cancel the protocol used by a port to transmit BPDU packets. After this command is executed successfully, the protocol parameter used by the port to transmit BPDU packets is restored to the default value (auto).

Format

stp compliance port frameid/slotid/portid { auto | dot1w }
undo stp compliance port frameid/slotid/portid

Parameters

Parameter	Description	Value
port frameid/slotid/portid	Indicates the shelf ID, slot ID, and port ID. Enter a slash (/) between the shelf, slot, and port IDs.	Please see Differences Between Shelves.
auto	Indicates that a port will auto-negotiate the protocol with the peer port according to the protocol with which the peer port sending BPDUs complies. If the peer port complies with the MSTP protocol when sending BPDUs, the port will also comply with the MSTP protocol. If the peer port complies with the RSTP protocol when sending BPDUs, the port will comply with the RSTP protocol of the 802.1q 2005 version accordingly.	-
dot1w	Indicates that the port complies with the 802.1w protocol when sending BPDUs. If the peer device connected to the port functions as a root bridge device, and the port of the peer device complies with the RSTP protocol when sending BPDUs, use this parameter.	-

Modes

Global config mode, OSN 7500, OSN 3500

Level

Operator level

Usage Guidelines

You can run the display stp command to query the type of the protocol with which the current port sending BPDUs complies.

Example

To set the protocol used by port 0/19/0 to transmit BPDU packets to dot1w, do as follows:

huawei(config)#stp compliance
{ port<K> }:port 
{ frameid/slotid/portid<S><Length 5-18> }:0/19/0
{ auto<K>|do1w<k> }:dot1w

  Command:
          stp compliance port 0/19/0 dot1w

To restore the protocol used by port 0/19/0 to transmit BPDU packets to auto, do as follows:

huawei(config)#undo stp compliance 
{ port<K> }:port 
{ frameid/slotid/portid<S><Length 5-18> }:0/19/0

  Command:
          undo stp compliance port 0/19/0

System Response

• The system does not display any message after the command is executed successfully.

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The MSTP Configuration of revision-level

Function

The revision-level command is used to configure the multiple spanning tree protocol (MSTP) revision level of the device. The revision level, region name and configuration digest are three decision factors to check whether the devices are in the same multiple spanning tree (MST) region. After the revision level is set, only the devices with the same revision level are in the same MST region.
The undo revision-level command is used to restore the default MSTP revision level of the device. By default, the revision level of the device is 0.

Format

revision-level level
undo revision-level

Parameters

Parameter	Description	Value
level	Indicates the MSTP revision level.	Numeral type. Range: 0-65535. Default: 0.

Modes

MST region mode, OSN 3500, OSN 2500

Level

Operator level

Usage Guidelines

• Run the config command to enter global config mode, and then run the stp region-configuration command to enter MST region mode.
• The MSTP revision level, region name and VLAN mapping table are used to check the MST which the device belongs to.
• The user configure the related parameters of the MST region on the device to divide the device into a specified MST region.
• Two devices that belong to a same MST region meet the following requirements:
  • The region names are the same.
  • The revision levels are the same.
  • The configuration digest are the same. The configuration digest is calculated by VLAN mapping table of all the spanning trees and MD5-KEY through MD5 encryption algorithm.
• The modified device revision level takes effect only after the configuration is activated.

Example

To set the MSTP revision level of the device to 32768, do as follow:

huawei(stp-region-configuration)#revision-level                                 
{ integer<U><0,65535> }:32768                                                   
                                                                                
  Command:                                                                      
          revision-level 32768  

To restore the default MSTP level of the device, do as follows:

huawei(stp-region-configuration)#undo revision-level  

System Response

• The system does not display any message after the command is executed successfully.

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What's the MSTP Configuration on display stp

Function

This command is used to query the details of the multiple spanning tree protocol (MSTP). You can analyze and maintain the network topology based on the status and statistical information about MSTP.

Format

display stp [ instance instance-id ] [ port frameid/slotid/portid ]

Parameters

Parameter	Description	Value
instance instance-id	Indicates the spanning tree instance ID. When you need to query the specified spanning tree instance, select this parameter.	Numeral type. Range: 0-16. The value 0 indicates common and internal spanning tree (CIST) instance (instance 0), which cannot be deleted.
port frameid/slotid/portid	Identifies the shelf/slot/port ID. Enter "/" between the shelf, slot and port IDs. When you need to query the MSTP details of a specified port, use this parameter.	Please see Differences Between Shelves.

Modes

Privilege mode, OSN7500, OSN 3500

Level

Common user level

Usage Guidelines

You can analyze and maintain the network topology based on the status and statistical information about MSTP.

• If you do not specify the spanning tree instance ID and port ID, the system displays the spanning tree information about all instances on all ports, in the sequence of the port ID.
• If you specify the spanning tree instance ID, the system displays only the spanning tree information about this instance on all ports.
• If you specify only the port ID, the system displays the information about all spanning tree instances on this port, in the sequence of the port ID.
• If you specify both the spanning tree instance ID and the port ID, the system displays instance ID and then displays the spanning tree information about the port.

Example

To query the global details of MSTP, do as follows:

huawei#display stp
 The bridge is executing the IEEE Multiple Spanning Tree Protocol
   Bridge Diameter    : 7        Max Hops            : 20
   PathCost standard  : LEGACY   BPDU-Protection     : disabled
   Time Factor        : 3
   TC or TCN received : 0        Time since last TC  : 9 days  2h:27m:33s
   MD5-key            : 13AC06A62E47FD51F95D2BA243CD0346

   ============================== Instance  0 ==================================
   Bridge     Priority  : 32768   MAC Address  : 00e0-fc00-c16b
              Hello Time:  2 sec  Forward Delay: 15 sec  Max Age: 20 sec
   IST Root   Priority  : 32768   MAC Address  : 00e0-fc00-c16b
              Hello Time:  2 sec  Forward Delay: 15 sec  Max Age: 20 sec
   CST Root   Priority  : 32768   MAC Address  : 00e0-fc00-c16b
              Hello Time:  2 sec  Forward Delay: 15 sec  Max Age: 20 sec

   Path cost to IST root bridge is 0
   Path cost to CST root bridge is 0
   -----------------------------------------------------------------------------
   Index  F/ S/ P  Priority  Cost      Admin-State  Role  State      Type
   -----------------------------------------------------------------------------
   1      0/ 3/ 0  128       200000    Enabled      Disa  Down       None
   2      0/ 3/ 1  128       200000    Enabled      Disa  Down       None
   -----------------------------------------------------------------------------

To query the MSTP details of instance 1, do as follows:

huawei#display stp instance 1
 The bridge is executing the IEEE Multiple Spanning Tree Protocol
   Bridge Diameter    : 7        Max Hops            : 20
   PathCost standard  : LEGACY   BPDU-Protection     : disabled
   Time Factor        : 3
   TC or TCN received : 0        Time since last TC  : 9 days  2h:29m: 4s
   MD5-key            : 13AC06A62E47FD51F95D2BA243CD0346

   ============================== Instance  1 ==================================
   Bridge     Priority  : 32768   MAC Address  : 00e0-fc00-c16b
              Hello Time:  2 sec  Forward Delay: 15 sec  Max Age: 20 sec
   IST Root   Priority  : 32768   MAC Address  : 00e0-fc00-c16b
              Hello Time:  2 sec  Forward Delay: 15 sec  Max Age: 20 sec

   Path cost to IST root bridge is 0

To query the MSTP details of port 0/19/0, do as follows:

huawei#display stp port 0/19/0
----[CIST][Port1(Down)]----
 Port Protocol       :enabled
 Port Role           :CIST Disabled Port
 Port Priority       :128
 Port Cost           :Config=auto / Active=200000
 Desg. Bridge/Port   :32768.00e0-fc00-c16b / 128.1
 Port Edged(Admin)   :disabled
 Point-to-point      :Config=auto / Active=false
 Transit Limit       :3 packets/hello-time
 Protection Type     :None
 Port Stp Mode       :Stp
 Port Compliance     :auto
 PortTimes           :Hello 2 s MaxAge 20 s FwDly 15 s Message Age 0 s RemHop 20
 BPDU Sent           :0
     TCN: 0, Config: 0, RST: 0, MST: 0
 BPDU Received       :0
     TCN: 0, Config: 0, RST: 0, MST: 0

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The MSTP Configuration on debugging stp

Function

The debugging stp command is used to enable the debugging switch of the global error or global event of MSTP, or enable the debugging switch of the RX/TX packet and event of the port. When you need to query the details of all ports or the specified port, enable the related debugging switch. After that, the system reports the related details of the ports.
The undo debugging stp command is used to disable the debugging switch of the global error or global event of MSTP, or disable the debugging switch of the RX/TX packet and event of the port. When you do not need to query the details of all ports or the specified port, disable the related debugging switch. After that, the system does not report the related details of the ports.

Format

debugging stp { global-error | global-event | all }
debugging stp [ port frameid/slotid/portid [ instance { all | startinstance [ to endinstance ] } ] ] { packet { send | receive | all } | event }
debugging stp instance startinstance event
debugging stp [ port frameid/slotid/portid ] packet { send | receive | all } number integer
undo debugging stp { global-error | global-event | all }
undo debugging stp [ port frameid/slotid/portid [ instance { all | startinstance [ to endinstance ] } ] ] { packet { send | receive | all } | event }
undo debugging stp instance startinstance event

Parameters

Parameter	Description	Value
global-error	Indicates the debugging switch of the global errors. It includes: packet format error invoke function error	-
global-event	Indicates the debugging switch of the global event. It includes: RX/TX packet port status/role transition state machine transition	-
all	In the command of debugging stp global-event | all, indicates all debugging switches (errors and events).	-
port frameid/slotid/portid	Indicates the subrack ID, slot ID, and port ID. Enter a slash (/) between the subrack, slot, and port IDs. When you need to set the debugging switch of the port, use this parameter.	Please see Differences Between Shelves.
instance	Indicates the keyword of the spanning tree instance.	-
all	In the commend of debugging stp port frameid/slotid/portid instance all, indicates all spanning tree instances.	-
startinstance	Indicates the start instance. The value 0 indicates the common and internal spanning tree (CIST) instance and the other values indicate the multiple spanning tree instance (MSTI).	Numeral type. Range: 0-16.
to endinstance	Indicates the end instance. When you need to set a sequence of spanning tree instances, use this parameter.	Numeral type. Range: 0-16.
packet	Indicates the debugging switch of the BPDU. It includes: RST (Rapid Spanning Tree) BPDU MST (Multiple Spanning Tree) BPDU Config BPDU	-
send	Indicates the debugging switch of the TX BPDU packet.	-
receive	Indicates the debugging switch of the RX BPDU packet.	-
event	Indicates the debugging switch of the event. It includes: RX/TX packet port status/role transition state machine transition	-
all	In the commend of debugging stp packet all, indicates the debugging switches of the RX and TX BPDU packet.	-
number integer	Indicates the number of printed packets. The command will stop automatically after printing all the information of the packets with indicated number.	Numeral type. Range: 1-65535.

Modes

Privilege mode, OSN 7500, OSN 3500

Level

Operator level

Usage Guidelines

• This command must be used with the terminal monitor and terminal debugging commands. The debugging information can be reported to the CLI terminal only when the functions in these two commands are enabled.
• After the debugging switch of the global event of MSTP is enabled, you can query the related information about the RX packets and the state machine of all ports.
• After the debugging switch of the global error of MSTP is enabled, you can query the error information about the port.
• After the debugging switch of the RX/TX packets of the specified MSTP port is enabled, you can query the details of the RX/TX packets of the specified port, debugging by instance is not supported.
• After the event debugging switch of the specified MSTP instance is enabled, you can query the related information about the state machine of the instance, debugging by port is not supported.

Example

To enable the debugging switch of the global event of MSTP, do as follows:

huawei#debugging stp                                                            
{ all<K>|event<K>|global-error<K>|global-event<K>|instance<K>|packet<K>|port<K> 
}:global-event
                                                                                
  Command:                                                                      
          debugging stp global-event                                            

To enable the debugging switch of the RX/TX packets of port 0/19/0, do as follows:

huawei#debugging stp                                                            
{ all<K>|event<K>|global-error<K>|global-event<K>|instance<K>|packet<K>|port<K> 
}:port                                                                          
{ frameid/slotid/portid<S><Length 5-18> }:0/19/0                                              
{ event<K>|instance<K>|packet<K> }:packet                                       
{ all<K>|receive<K>|send<K> }:all                                               
{ <cr>|number<K> }:                                                                                

  Command:                                                                      
          debugging stp port 0/19/0 packet all                                   

To disable the debugging switch of the RX/TX packets of port 0/19/0, do as follows:

huawei#undo debugging stp                                                       
{ all<K>|event<K>|global-error<K>|global-event<K>|instance<K>|packet<K>|port<K> 
}:port                                                                          
{ frameid/slotid/portid<S><Length 5-18> }:0/19/0                                              
{ event<K>|instance<K>|packet<K> }:packet                                       
{ all<K>|receive<K>|send<K> }:all                                               
                                                                                
  Command:                                                                      
          undo debugging stp port 0/19/0 packet all                              

To enable the debugging switch of RX/TX packets of port 0/19/0 , and indicate the number of packets, do as follows:

huawei#debugging stp                                                            
{ all<K>|event<K>|global-error<K>|global-event<K>|instance<K>|packet<K>|port<K> 
}:port                                                                          
{ frameid/slotid/portid<S><Length 5-18> }:0/19/0
{ event<K>|instance<K>|packet<K> }:packet                                     
{ all<K>|receive<K>|send<K> }:all                                             
{ <cr>|number<K> }:number
{ integer<U><1,65535> }:5
                                                                                
  Command:                                                                      
          debugging stp port 0/19/0 packet all number 5                   

System Response

• The system does not display any message after the command is executed successfully.

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What's the MSTP Configuration on check region-configuration

Function

This command is used to check the configuration of the Multiple Spanning Tree (MST) region. The users can judge the MST region which the current switch belongs to based on the information or check whether the configuration of the MST region is correct.

Format

check region-configuration

Parameters

None

Modes

MST region mode, OSN 3500, OSN 2500

Level

Operator level

Usage Guidelines

• Run the config command to enter global config mode, and then run the stp region-configurationcommand to enter MST region mode.
• The deactivated region configuration includes the setting of MST region name, revision level and table of mapping between the MST region instances and VLANs. After the region configuration is activated, the active region configuration is displayed.
• In multiple spanning tree protocol (MSTP) network, make sure that the region configuration is correct, especially the MST region instances and VLAN mapping table.
• Only devices that have the same region name, VLAN mapping table, and revision level can be configured in the same region.

Example

To check the configuration information of the region, do as follows:

huawei(stp-region-configuration)#check region-configuration                     
 Admin configuration                                                            
   Format selector    :0                                                        
   Region name        :00e0fc995050                                             
   Revision level     :0                                                        
                                                                                
   Instance   Vlans Mapped                                                      
     0          1    to  4094   

System Response

• The system displays the result when the command runs successfully.
• The following table describes the parameters in response to the check region-configuration command.

  Parameter	Description
  Format selector	Indicates the specified selector of the MSTP protocol.
  Region name	Indicates the name of the MST region. It is used to identify the MST region.
  Revision level	Indicates the revision level of the MST region. Range: 0-65535. Default value: 0.
  Instance Vlans Mapped	Indicates the mapping between the spanning tree instance of the MST region and the VLAN.

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MSTP Configuration on active region-configuration

Function

This command is used to activate the configuration of the Multiple Spanning Tree (MST) region manually. When the MST region is re-configured and you need to validate the configuration, run this command. After that, the configuration of the MST region is available.

CAUTION:

Activating the configuration of the MST region interrupts ongoing services. Therefore, run this command with caution.

Format

active region-configuration

Parameters

None

Modes

MST region mode, OSN 3500, OSN 2500

Level

Operator level

Usage Guidelines

• Run the config command to enter global config mode, and then run the stp region-configuration command to enter MST region mode.
• When you configure the related parameters of the MST region, especially the mapping table for VLAN and examples, the topology may get unstable. To decrease the instability caused by the configuration, MSTP does not trigger recalculation of the spanning tree immediately, but activate the related parameters of the MST region or enable the MSTP protocol to validate the configuration.
• Any change of a parameter of the MST region may cause the recalculation of the topology. Run this command to make configuration take effect.
• By running this command, the configured parameters of the MST region are replaced by the current running parameters. MSTP recalculates the spanning tree.

Example

To activate the configuration of the MST region manually, do as follows:

huawei(stp-region-configuration)#active region-configuration             
  STP actives region configuration,it may take several minutes,are you sure to
active region configuration? [Y/N][N]y
  Command is being executed. Please wait: 100%

System Response

• The command execution duration varies depending on other configurations in the system. If the duration is long, the system displays the progress.
• The system does not display any message after the command is executed successfully.

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xDSL Board Management(board workmode)

board workmode

Function

This command is used to set the voice or SATop broadband mode as the working mode of a board. When a board needs to change from the voice mode to the SATop broadband mode, or vice versa, run this command. After the command is executed successfully, the preset working mode of a board takes effect.

CAUTION:

In the normal state, running this command successfully causes the board to reset. Therefore, exercise caution when running this command.

Format

board workmode mode

Parameters

Parameter	Description	Value
mode	Indicates the working mode of the board. Two working modes are available: voice: Indicates the voice mode. In this mode, the ISDN voice service is provided, or the signaling flow and medium stream of the IP network are transparently transmitted. satop: Indicates the satop broadband mode. In this mode, the E1 or V.35 service is connected through 16 G.SHDSL ports and transmitted upstream to the SDH network or DDN network through E1.	Enumerated type. Options: voice and satop. Default: voice.

Modes

EDT mode, SHDSL mode, OSN 3500, GPBD

Level

Operator level

Usage Guidelines

• Run the config command to enter the global config mode, and then run the interface edt command to enter the EDT mode or run the interface shl command to enter the SHDSL mode before running this command.
• This command is supported by only the H802EDTB board.
• When a board is in the normal state, or in the failed state (including offline adding state and disabled state), its working mode can be modified. If a board is in any other state, its working mode cannot be modified.
• Make sure that the services configured on the board are deleted first and then you can modify its working mode.
• You can run the display board workmode command to query the working mode of a board.

Example

To set the SATop broadband mode as the working mode of board in slot 0/3, do as follows:

huawei(config-edt-0/3)#board workmode
{ mode<E><voice,satop>}:satop
                                                                                
  Command:                                                                      
          board workmode satop                                                  
  Success: Set the board workmode success                                       

System Response

• The system displays the message "Changing the working mode may cause loss of certain configuration data, and then the board will be reset. Are you sure to continue? (y/n)[n]:" if the board is in the normal state when this command is executed.
• The system displays the message "Success: Set the board work mode success" after the working mode of a board is successfully set.

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SHDSL Crosstalk Cancellation Group Configuration----shdsl cross-talk-cancellation-group deactivate

shdsl cross-talk-cancellation-group deactivate

Function

This command is used to deactivate a crosstalk cancellation group of the SHDSL line. When you need not use the crosstalk cancellation technology to cancel the crosstalk between lines, run this command. After a crosstalk cancellation group of the SHDSL line is deactivated, the crosstalk cancellation function on the chipset does not take effect any more.

Format

shdsl cross-talk-cancellation-group deactivate group-index

Parameters

Parameter	Description	Value
group-index	Indicates the index of a crosstalk cancellation group of the SHDSL line.	Numeral type. Range: SCU board: 0-63 MCUD/MCUD1: 0-15

Modes

SHDSL mode, OSN 3500, OSN 7500

Level

Operator level

Usage Guidelines

• Run the config command to enter global config mode, and then run the interface shl command to enter SHDSL mode.
• When you need to deactivate a crosstalk cancellation group, ensure that all the ports in the crosstalk cancellation group must be deactivated.
• After deactivating a crosstalk cancellation group, you can change or delete the crosstalk cancellation group but cannot activate the port in the crosstalk cancellation group independently.

Example

To deactivate a crosstalk cancellation group that contains four ports, do as follows:

huawei(config-if-shl-0/3)#shdsl cross-talk-cancellation-group
{ activate<K>|add<K>|deactivate<K>|delete<K>|modify<K> }:deactivate
{ group-index<U><0,63> }:0

  Command:
          shdsl cross-talk-cancellation-group deactivate 0   

System Response

• The system does not display any message after the command is executed successfully.

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Other Boards Could Not Be Detected Because the Auxiliary Board Was Faulty

When the auxiliary board EOW on the OptiX OSN 7500 was faulty, other boards could not be detected. After the EOW board was cold reset, other boards were detected. However, configuring NE services failed, and the NE reported the COMMUN_FAIL alarm. The fault was rectified by replacing the EOW board.

Product

OptiX OSN 7500, OSN 3500, OSN 2500

Fault Type

• Fault in an auxiliary board
• COMMUN_FAIL

Symptom

The indicators on some OptiX OSN 7500 boards turned red, and configuring NE services failed. After the EOW board was cold reset, the indicators on these boards were not red again. However, configuring NE services still failed, and the NE reported the COMMUN_FAIL alarm.

Cause Analysis

The auxiliary board EOW was faulty.

Procedure

1. Found out the boards on which the indicators turned red. Assumed that one such board was in slot 26.
   NOTE:

   If the indicator on a board is red, it means that the board cannot be detected.
2. Remove the board in slot 26 and installed the board in another slot. The indicator was not red again, and the board were detected. Therefore, the issue was not related to the board in slot 26 or the SCC board.
3. Cold reset the EOW board. The indicator on the board in slot 26 was not red. However, configuring NE services still failed, and the NE reported the COMMUN_FAIL alarm.
4. Replaced the EOW board. The COMMUN_FAIL alarm cleared, and configuring services for the board in slot 26 was successful.

Related Information

If some boards on the OptiX OSN equipment cannot be detected, determine the most possibly faulty board. For example, on the OptiX OSN 7500, the issue may be caused by an EOW board, and on the OptiX OSN 3500, the issue may be caused by an AUX board.

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Failure to Log In To the OptiX OSN 2500 REG Through ECC due to Incorrect Board Configuration

The ECC communication of the OptiX OSN 2500 REG is unavailable due to incorrect board configuration. This problem is solved by installing the relevant boards in paired slots.

Product

OptiX OSN 2500 REG, OSN 3500, OSN 7500

Fault Type

ECC fault

Symptom

Two SL16 boards are installed in slots 7 and 8 on the OptiX OSN 2500 REG. After the boards are connected to the upstream NE and downstream NE through fibers, the ECC communication of the OptiX OSN 2500 REG is unavailable.

Cause Analysis

The possible causes are as follows:

• Fibers are misconnected.
• The board software is faulty or the NE software is faulty.
• Board configuration is incorrect.

Procedure

1. Check the fiber connections and confirm that the fiber connections are correct.
2. Check the alarms on the NE and find no abnormal alarms. The board software and the NE software are normal.
3. The OptiX OSN 2500 REG has special requirements for fiber connections. The ECC communication in a certain direction must be achieved through the IN port on one optical interface board and the OUT port on another optical interface. After the ECC messages are received by an optical interface of a line board on the OptiX OSN equipment, the ECC messages are sent to the SCC board and the board in the paired slot. Therefore, only the line boards in paired slots can receive the ECC messages in one direction. Slots 8 and 11, slots 7 and 12 are paired slots. The ECC communication is unavailable on the OptiX OSN 2500 REG because the SL16 boards are not installed in paired slots.
4. Reinstall the SL16 board in slot 8 into slot 12. Then, the ECC communication of the OptiX OSN 2500 REG is available.

Related Information

On the OptiX OSN 2500 REG, one pair of IN and OUT optical interfaces must be connected to the west and the east respectively. This connection method is similar to the REG board on the WDM equipment. Fibers can be misconnected easily on site.

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