03-Layer 2 - LAN Switching Configuration Examples

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02-H3C_Ethernet_Link_Aggregation_Configuration_Examples

 

H3C Ethernet Link Aggregation

Configuration Examples

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

Software version: Release 7585P05

Document version: 6W100-20200330

 

Copyright © 2020 New H3C Technologies Co., Ltd. All rights reserved.

No part of this manual may be reproduced or transmitted in any form or by any means without prior written consent of New H3C Technologies Co., Ltd.

Except for the trademarks of New H3C Technologies Co., Ltd., any trademarks that may be mentioned in this document are the property of their respective owners.

The information in this document is subject to change without notice.



Introduction

This document provides Ethernet link aggregation configuration examples.

Prerequisites

The configuration examples in this document were created and verified in a lab environment, and all the devices were started with the factory default configuration. When you are working on a live network, make sure you understand the potential impact of every command on your network.

This document assumes that you have basic knowledge of Ethernet link aggregation.

Example: Configuring Layer 2 link aggregation

Network configuration

As shown in Figure 1, both Device A and Device B forward traffic from VLAN 10 and VLAN 20.

Configure link aggregation on Device A and Device B to meet the following requirements:

·     VLAN 10 on Device A can communicate with VLAN 10 on Device B.

·     VLAN 20 on Device A can communicate with VLAN 20 on Device B.

Figure 1 Network diagram

 

Analysis

To enable traffic from VLAN 10 and VLAN 20 to pass through Layer 2 aggregate interface Bridge-aggregation 1, perform the following tasks:

·     Configure Layer 2 aggregate interface Bridge-aggregation 1 as a trunk port.

·     Assign the aggregate interface to VLAN 10 and VLAN 20.

Restrictions and guidelines

When you configure Layer 2 link aggregation, follow these restrictions and guidelines:

·     When you assign a port to an aggregation group, the recommended configuration procedure is as follows:

a.     Use the display this command in interface view to check the following attribute configurations of the port:

-     Port isolation.

-     QinQ.

-     VLAN.

-     VLAN mapping.

b.     If any of the above configurations exist, use the undo forms of the corresponding commands to remove these configurations. This enables the port to use the default attribute configurations.

c.     Assign the port to the aggregation group.

·     An aggregation group can operate in static or dynamic mode. You can choose one mode as required.

¡     In a static aggregation group, the aggregation states of the member ports are not affected by the peer ports. Static link aggregation is stable.

¡     In a dynamic aggregation group, the local system and the peer system automatically maintain the aggregation states of the member ports. Dynamic link aggregation reduces the administrators' workload.

·     In a static aggregation group, the Selected state of a port is not affected by whether the peer port is added to an aggregation group and is Selected. As a result, the Selected state of a port might be different from the Selected state of the peer port. When both ends support static aggregation and dynamic aggregation, H3C recommends using dynamic aggregation.

·     You cannot assign a port to a Layer 2 aggregation group when MAC authentication, port security mode, or 802.1X is configured or enabled on the port.

Procedures

1.     Configure Device A:

# Create VLAN 10, and assign port Ten-GigabitEthernet 1/0/4 to VLAN 10.

<DeviceA> system-view

[DeviceA] vlan 10

[DeviceA-vlan10] port ten-gigabitethernet 1/0/4

[DeviceA-vlan10] quit

# Create VLAN 20, and assign port Ten-GigabitEthernet 1/0/5 to VLAN 20.

[DeviceA] vlan 20

[DeviceA-vlan20] port ten-gigabitethernet 1/0/5

[DeviceA-vlan20] quit

# Create Layer 2 aggregate interface Bridge-aggregation 1. Use one of the following methods as needed.

¡     Use the static aggregation mode to create Layer 2 aggregate interface Bridge-aggregation 1.

[DeviceA] interface bridge-aggregation 1

[DeviceA-Bridge-Aggregation1] quit

¡     Use the dynamic aggregation mode to create Layer 2 aggregate interface Bridge-aggregation 1.

[DeviceA] interface bridge-aggregation 1

[DeviceA-Bridge-Aggregation1] link-aggregation mode dynamic

[DeviceA-Bridge-Aggregation1] quit

# Assign ports Ten-GigabitEthernet 1/0/1 through Ten-GigabitEthernet 1/0/3 to aggregation group 1.

[DeviceA] interface range ten-gigabitethernet 1/0/1 to ten-gigabitethernet 1/0/3

[DeviceA-if-range] port link-aggregation group 1

[DeviceA-if-range] quit

# Configure Layer 2 aggregate interface Bridge-aggregation 1 as a trunk port.

[DeviceA] interface bridge-aggregation 1

[DeviceA-Bridge-Aggregation1] port link-type trunk

 Configuring Ten-GigabitEthernet1/0/1 done.

 Configuring Ten-GigabitEthernet1/0/2 done.

 Configuring Ten-GigabitEthernet1/0/3 done.

# Assign the aggregate interface to VLANs 10 and 20.

[DeviceA-Bridge-Aggregation1] port trunk permit vlan 10 20

 Configuring Ten-GigabitEthernet1/0/1 done.

 Configuring Ten-GigabitEthernet1/0/2 done.

 Configuring Ten-GigabitEthernet1/0/3 done.

[DeviceA-Bridge-Aggregation1] quit

2.     Configure Device B in the same way Device A is configured. (Details not shown.)

Verifying the configuration

# Display detailed information about the link aggregation groups on Device A.

·     Link aggregation configuration information when the static aggregation mode is used:

[DeviceA] display link-aggregation verbose

Loadsharing Type: Shar -- Loadsharing, NonS -- Non-Loadsharing

Port Status: S -- Selected, U -- Unselected, I -- Individual

Port: A -- Auto port, M -- Management port, R -- Reference port

Flags:  A -- LACP_Activity, B -- LACP_Timeout, C -- Aggregation,

        D -- Synchronization, E -- Collecting, F -- Distributing,

        G -- Defaulted, H -- Expired

 

Aggregation Interface: Bridge-Aggregation1

Creation Mode: Manual

Aggregation Mode: Static

Loadsharing Type: Shar

Management VLANs: None

  Port             Status  Priority  Oper-Key

  XGE1/0/1(R)      S       32768     1

  XGE1/0/2         S       32768     1

  XGE1/0/3         S       32768     1

The output shows that all member ports in the local aggregation group are in the Selected state. The Selected states of the local member ports are not affected by the Selected states of the peer member ports.

·     Link aggregation configuration information when the dynamic aggregation mode is used:

[DeviceA] display link-aggregation verbose

Loadsharing Type: Shar -- Loadsharing, NonS -- Non-Loadsharing

Port Status: S -- Selected, U -- Unselected, I -- Individual

Port: A -- Auto port, M -- Management port, R -- Reference port

Flags:  A -- LACP_Activity, B -- LACP_Timeout, C -- Aggregation,

        D -- Synchronization, E -- Collecting, F -- Distributing,

        G -- Defaulted, H -- Expired

 

Aggregation Interface: Bridge-Aggregation1

Aggregation Mode: Dynamic

Loadsharing Type: Shar

Management VLANs: None

System ID: 0x8000, 000f-e234-5678

Local:

  Port                Status   Priority Index    Oper-Key               Flag

  XGE1/0/1            S        32768    2        1                      {ACDEF}

  XGE1/0/2            S        32768    3        1                      {ACDEF}

  XGE1/0/3            S        32768    4        1                      {ACDEF}

Remote:

  Actor               Priority Index    Oper-Key SystemID               Flag

  XGE1/0/1(R)         32768    2        1        0x8000, a4e5-c316-0100 {ACDEF}

  XGE1/0/2            32768    3        1        0x8000, a4e5-c316-0100 {ACDEF}

  XGE1/0/3            32768    4        1        0x8000, a4e5-c316-0100 {ACDEF}

The output shows that the local member ports and the corresponding peer member ports are all Selected. In the dynamic link aggregation mode, each local member port and its peer member port have the same Selected state through exchanging LACPDUs. The user data traffic can be forwarded correctly.

Configuration files

·     Device A:

#

vlan 10

#

interface Ten-GigabitEthernet1/0/4

 port link-mode bridge

 port access vlan 10

#

vlan 20

#

interface Ten-GigabitEthernet1/0/5

 port link-mode bridge

 port access vlan 20

¡     In the static aggregation mode:

#

interface Bridge-Aggregation1

port link-type trunk

port trunk permit vlan 10 20

¡     In the dynamic aggregation mode:

#

interface Bridge-Aggregation1

port link-type trunk

port trunk permit vlan 10 20

link-aggregation mode dynamic

#

interface Ten-GigabitEthernet1/0/1

port link-mode bridge

port link-type trunk

port trunk permit vlan 10 20

port link-aggregation group 1

#

interface Ten-GigabitEthernet1/0/2

port link-mode bridge

port link-type trunk

port trunk permit vlan 10 20

port link-aggregation group 1

#

interface Ten-GigabitEthernet1/0/3

port link-mode bridge

port link-type trunk

port trunk permit vlan 10 20

port link-aggregation group 1

#

·     Device B:

The configuration file on Device B is the same as the configuration file on Device A.

Example: Configuring Layer 2 link aggregation in an IRF fabric

Network configuration

On the network as shown in Figure 2, perform the following tasks:

·     Set up a two-chassis IRF fabric at the access layer and a two-chassis IRF fabric at the distribution layer of the enterprise network.

·     Configure link aggregation to improve the reliability of the links between the access-layer and distribution-layer IRF fabrics and implement load sharing.

·     Run LACP MAD on the two IRF fabrics to detect IRF split.

Figure 2 Network diagram

 

Restrictions and guidelines

When you configure Layer 2 link aggregation in an IRF fabric, follow these restrictions and guidelines:

·     IRF physical ports must be set to the bridge mode.

·     When you bind physical ports to an IRF port, you must set all the physical ports to operate in either normal or enhanced mode.

·     The physical ports of two connected IRF ports must operate in the same mode: normal or enhanced. For more information about the binding mode of the IRF physical ports, see Virtual technologies Configuration Guide.

·     When you assign a port to an aggregation group, the recommended configuration procedure is as follows:

a.     Use the display this command in interface view to check the following attribute configurations of the port:

-     Port isolation.

-     QinQ.

-     VLAN.

-     VLAN mapping.

b.     If any of the above configurations exist, use the undo forms of the corresponding commands to remove these configurations. This enables the port to use the default attribute configurations.

c.     Assign the port to the aggregation group.

·     In a static aggregation group, the Selected state of a port is not affected by whether the peer port is added to an aggregation group and is Selected. As a result, the Selected state of a port might be different from the Selected state of the peer port. When both ends support static aggregation and dynamic aggregation, H3C recommends using dynamic aggregation.

·     You cannot assign a port to a Layer 2 aggregation group when MAC authentication, port security mode, or 802.1X is configured or enabled on the port.

Procedures

1.     Configure IRF on Device A:

# Shut down ports Ten-GigabitEthernet 1/0/1 through Ten-GigabitEthernet 1/0/4.

# Assign member ID 1 to Device A.

[DeviceA] irf member 1

# Bind Ten-GigabitEthernet 1/0/1 to IRF port 1.

[DeviceA] irf-port 1

[DeviceA-irf-port1] port group interface ten-gigabitethernet 1/0/1

[DeviceA-irf-port1] quit

# Save the configuration

[DeviceA] quit

<DeviceA> save

# Enable IRF mode.

<DeviceA> system-view

[DeviceA] chassis convert mode irf

The device will switch to IRF mode and reboot.

You are recommended to save the current running configuration and specify the configuration file for the next startup. Continue? [Y/N]:y

Do you want to convert the content of the next startup configuration file flash:/startup.cfg to make it available in IRF mode? [Y/N]:y

 Please wait...

 Saving the converted configuration file to the main board succeeded.

Slot 1:

 Saving the converted configuration file succeeded.

 Now rebooting, please wait...

After the reboot, Device A forms a one-chassis IRF fabric. The interface number of Ten-GigabitEthernet 1/0/1 changes to Ten-GigabitEthernet 1/1/0/1.

2.     Configure IRF on Device B:

# Assign member ID 2 to Device B.

<DeviceB> system-view

[DeviceB] irf member 2

# Bind Ten-Gigabitethernet 1/0/1 to IRF port 2.

[DeviceB] irf-port 2

[DeviceB-irf-port2] port group interface ten-gigabitethernet 1/0/1

[DeviceB-irf-port2] quit

# Save the configuration.

[DeviceB] quit

<DeviceB> save

# Connect the Device A and Device B as shown in Figure 2.

# Enable IRF mode.

<DeviceB> system-view

[DeviceB] chassis convert mode irf

The device will switch to IRF mode and reboot.

You are recommended to save the current running configuration and specify the configuration file for the next startup. Continue? [Y/N]:y

Do you want to convert the content of the next startup configuration file flash:/startup.cfg to make it available in IRF mode? [Y/N]:y

Please wait...

Saving the converted configuration file to the main board succeeded.

Slot 1:

 Saving the converted configuration file succeeded.

 Now rebooting, please wait...

After the reboot, Device B forms a two-chassis IRF fabric with Device A. The interface number of Ten-GigabitEthernet 1/0/1 changes to Ten-GigabitEthernet 2/1/0/1.

# Verify that Device A is the master.

[DeviceA] display irf

MemberID    Role    Priority  CPU-Mac         Description

 *+1        Master   1         00a0-fc00-5801  ---

   2        Standby  1         00e0-fc58-1235  ---

--------------------------------------------------

 * indicates the device is the master.

 + indicates the device through which the user logs in.

 

 The Bridge MAC of the IRF is: 00a0-fc00-5800

 Auto upgrade                : yes

 Mac persistent              : always

 Domain ID                   : 0

 Auto merge                  : yes

 IRF mode                    : normal

3.     Configure a Layer 2 aggregation group on Device A:

# Create Layer 2 aggregate interface Bridge-Aggregation 1, and configure the link aggregation mode as dynamic.

[DeviceA] interface bridge-aggregation 1

[DeviceA-Bridge-Aggregation1] link-aggregation mode dynamic

# Configure Layer 2 aggregation group 1 to load share packets based on source IP addresses.

[DeviceA-Bridge-Aggregation1] link-aggregation load-sharing mode source-ip

[DeviceA-Bridge-Aggregation1] quit

# Assign ports Ten-GigabitEthernet 1/1/0/9, Ten-GigabitEthernet 1/1/0/10, Ten-GigabitEthernet 2/1/0/9, and Ten-GigabitEthernet 2/1/0/10 to link aggregation group 1.

[DeviceA] interface range ten-gigabitethernet 1/1/0/9 to ten-gigabitethernet 1/1/0/10

ten-gigabitethernet 2/1/0/9 to ten-gigabitethernet 2/1/0/10

[DeviceA-if-range] port link-aggregation group 1

[DeviceA-if-range] quit

[DeviceA]

4.     Configure LACP MAD on the IRF fabric:

# Set the domain ID of the IRF fabric to 1.

[DeviceA] irf domain 1

# Enable LACP MAD on Bridge-Aggregation 1.

[DeviceA] interface Bridge-Aggregation 1

[DeviceA-Bridge-Aggregation1] mad enable

You need to assign a domain ID (range: 0-4294967295)

[Current domain is: 1]:

The assigned domain ID is: 1

5.     Configure IRF on Device C in the same way IRF is configured on Device A. (Details not shown.)

6.     Configure IRF on Device D in the same way IRF is configured on Device B. (Details not shown.)

Device C and Device D perform master election, and the one that has lost the election reboots to form an IRF fabric with the master. In this example, Device C reboots.

7.     Configure a Layer 2 dynamic aggregation group Bridge-Aggregation 1 on Device C in the same way Bridge-Aggregation 1 is configured on Device A. (Details not shown.)

8.     Configure LACP MAD on the IRF fabric:

# Set the domain ID of the IRF fabric to 2.

<DeviceC> system-view

[DeviceC] irf domain 2

# Enable LACP MAD on Bridge-Aggregation 1.

[DeviceC] interface Bridge-Aggregation 1

[DeviceC-Bridge-Aggregation1] mad enable

You need to assign a domain ID (range: 0-4294967295)

[Current domain is: 2]:

The assigned domain ID is: 2

Verifying the configuration

# Display the information about the link aggregation groups on Device A.

[DeviceA] display link-aggregation verbose

Loadsharing Type: Shar -- Loadsharing, NonS -- Non-Loadsharing

Port Status: S -- Selected, U -- Unselected, I -- Individual

Port: A -- Auto port, M -- Management port, R -- Reference port

Flags:  A -- LACP_Activity, B -- LACP_Timeout, C -- Aggregation,

        D -- Synchronization, E -- Collecting, F -- Distributing,

        G -- Defaulted, H -- Expired

 

Aggregate Interface: Bridge-Aggregation1

Creation Mode: Manual

Aggregation Mode: Dynamic

Loadsharing Type: Shar

Management VLANs: None

System ID: 0x8000, 00a0-fc00-5800

Local:

  Port                Status   Priority Index    Oper-Key               Flag

  XGE1/1/0/9          S        32768    10       1                      {ACG}

  XGE1/1/0/10         S        32768    11       1                      {ACG}

  XGE2/1/0/9          S        32768    138      1                      {ACG}

  XGE2/1/0/10         S        32768    139      1                      {ACG}

Remote:

  Actor               Priority Index    Oper-Key SystemID               Flag

  XGE1/1/0/9          32768    0        0        0x8000, 0000-0000-0000 {EF}

  XGE1/1/0/10         32768    0        0        0x8000, 0000-0000-0000 {EF}

  XGE2/1/0/9          32768    0        0        0x8000, 0000-0000-0000 {EF}

  XGE2/1/0/10         32768    0        0        0x8000, 0000-0000-0000 {EF}

The output shows that the local member ports and the corresponding peer member ports are all Selected. In the dynamic link aggregation mode, each local member port and its peer member port have the same Selected state through exchanging LACPDUs. The user data traffic can be forwarded correctly.

# Display the load sharing mode of Layer 2 aggregation group 1 on Device A.

[DeviceA] display link-aggregation load-sharing mode interface Bridge-Aggregation 1

Bridge-Aggregation1 load-sharing mode:

source-ip address

The output shows that Layer 2 aggregation group 1 load shares packets based on source IP addresses.

# Shut down physical IRF port Ten-GigabitEthernet 2/0/1 on Device B.

A log message appears on Device A.

[DeviceA]%Jul  9 16:52:41:734 2019 H3C STM/3/STM_LINK_DOWN: -MDC=1; IRF port 1 went down.

%Jul  9 16:52:41:800 2019 H3C IFNET/3/PHY_UPDOWN: -MDC=1; Physical state on the interface Ten-GigabitEthernet1/0/1 changed to down.

%Jul  9 16:52:41:854 2019 H3C IFNET/5/LINK_UPDOWN: -MDC=1; Line protocol state on the interface Ten-GigabitEthernet1/0/1 changed to down.

%Jul  9 16:52:41:867 2019 H3C DEV/3/BOARD_REMOVED: -MDC=1; Board was removed from slot 2, type is Simware.

The output shows that IRF split occurs on the distribution layer because Ten-GigabitEthernet 2/1/0/1 that is bound to IRF port 2 is physically down.

Configuration files

·     Device A:

#

 irf domain 1

 irf mac-address persistent always

 irf auto-update enable

 irf auto-merge enable

 undo irf link-delay

 irf member 1 priority 1

 irf member 2 priority 1

 irf mode normal

#

irf-port 1/1

 port group interface Ten-GigabitEthernet1/1/0/1 mode enhanced

#

irf-port 2/2

 port group interface Ten-GigabitEthernet2/1/0/1 mode enhanced

#

 

interface Bridge-Aggregation1

 link-aggregation mode dynamic

 link-aggregation load-sharing mode source-ip

#

interface Ten-GigabitEthernet1/1/0/9

 port link-mode bridge

 port link-aggregation group 1

#

interface Ten-GigabitEthernet1/1/0/10

 port link-mode bridge

 port link-aggregation group 1

#

interface Ten-GigabitEthernet2/1/0/9

 port link-mode bridge

 port link-aggregation group 1

#

interface Ten-GigabitEthernet2/1/0/10

 port link-mode bridge

port link-aggregation group 1

#

·     Device C:

The configuration file on Device C is similar as the configuration file on Device A.

Example: Configuring Layer 3 link aggregation

Network configuration

On the network as shown in Figure 3, perform the following tasks:

·     Configure a Layer 3 dynamic aggregation group on both Device A and Device B.

·     Configure IP addresses and subnet masks for the corresponding Layer 3 aggregate interfaces.

Figure 3 Network diagram

 

Restrictions and guidelines

An aggregation group can operate in static or dynamic mode. You can choose one mode as required.

·     In a static aggregation group, the aggregation states of the member ports are not affected by the peer ports. Static link aggregation is stable.

·     In a dynamic aggregation group, the local system and the peer system automatically maintain the aggregation states of the member ports. Dynamic link aggregation reduces the administrators' workload.

Procedures

1.     Configure Device A:

# Create Layer 3 aggregate interface Route-Aggregation 1. Use one of the following methods as needed.

¡     Use the static aggregation mode to create Layer 3 aggregate interface Route-Aggregation 1.

<DeviceA> system-view

[DeviceA] interface route-aggregation 1

¡     Use the dynamic aggregation mode to create Layer 3 aggregate interface Route-Aggregation 1.

<DeviceA> system-view

[DeviceA] interface route-aggregation 1

[DeviceA-Route-Aggregation1] link-aggregation mode dynamic

# Configure an IP address and subnet mask for Layer 3 aggregate interface Route-Aggregation 1.

[DeviceA-Route-Aggregation1] ip address 192.168.1.1 24

[DeviceA-Route-Aggregation1] quit

# Assign ports Ten-GigabitEthernet 1/0/1 through Ten-GigabitEthernet 1/0/3 to aggregation group 1.

[DeviceA] interface range ten-gigabitethernet 1/0/1 to ten-gigabitethernet 1/0/3

[DeviceA-if-range] port link-mode route

[DeviceA-if-range] port link-aggregation group 1

[DeviceA-if-range] quit

2.     Configure Device B in the same way Device A is configured. (Details not shown.)

Verifying the configuration

# Display detailed information about the link aggregation groups on Device A.

·     Link aggregation configuration information when the static aggregation mode is used:

[DeviceA] display link-aggregation verbose

Loadsharing Type: Shar -- Loadsharing, NonS -- Non-Loadsharing

Port Status: S -- Selected, U -- Unselected, I -- Individual

Port: A -- Auto port, M -- Management port, R -- Reference port

Flags:  A -- LACP_Activity, B -- LACP_Timeout, C -- Aggregation,

        D -- Synchronization, E -- Collecting, F -- Distributing,

        G -- Defaulted, H -- Expired

 

Aggregate Interface: Route-Aggregation1

Creation Mode: Manual

Aggregation Mode: Static

Loadsharing Type: Shar

Management VLANs: None

  Port             Status  Priority Oper-Key

  XGE1/0/1(R)      S       32768    1

  XGE1/0/2         S       32768    1

  XGE1/0/3         S       32768    1

The output shows that all member ports in the local aggregation group are in Selected state. The Selected states of the local member ports are not affected by the Selected states of the peer member ports.

·     Link aggregation configuration information when the dynamic aggregation mode is used:

[DeviceA] display link-aggregation verbose

Loadsharing Type: Shar -- Loadsharing, NonS -- Non-Loadsharing

Port Status: S -- Selected, U -- Unselected, I -- Individual

Port: A -- Auto port, M -- Management port, R -- Reference port

Flags:  A -- LACP_Activity, B -- LACP_Timeout, C -- Aggregation,

        D -- Synchronization, E -- Collecting, F -- Distributing,

        G -- Defaulted, H -- Expired

 

Aggregate Interface: Route-Aggregation1

Aggregation Mode: Dynamic

Loadsharing Type: Shar

Management VLANs: None

System ID: 0x8000, 000f-e267-6c6a

Local:

  Port                Status   Priority Index    Oper-Key               Flag

  XGE1/0/1(R)         S        32768    2        1                      {ACDEF}

  XGE1/0/2            S        32768    3        1                      {ACDEF}

  XGE1/0/3            S        32768    4        1                      {ACDEF}

Remote:

  Actor               Priority Index    Oper-Key SystemID               Flag

  XGE1/0/1            32768    2        1        0x8000, 68fa-34f2-0200 {ACDEF}

  XGE1/0/2            32768    3        1        0x8000, 68fa-34f2-0200 {ACDEF}

  XGE1/0/3            32768    4        1        0x8000, 68fa-34f2-0200 {ACDEF}

The output shows that the local member ports and the corresponding peer member ports are all Selected. In the dynamic link aggregation mode, each local member port and its peer member port have the same Selected state through exchanging LACPDUs. The user data traffic can be forwarded correctly.

Configuration files

·     Device A:

#

¡     In the static aggregation mode:

#

interface route-aggregation1

 ip address 192.168.1.1 255.255.255.0

#

¡     In the dynamic aggregation mode:

#

interface route-aggregation1

 ip address 192.168.1.1 255.255.255.0

 link-aggregation mode dynamic

#

interface Ten-GigabitEthernet1/0/1

 port link-mode route

 port link-aggregation group 1

#

interface Ten-GigabitEthernet1/0/2

 port link-mode route

 port link-aggregation group 1

#

interface Ten-GigabitEthernet1/0/3

 port link-mode route

 port link-aggregation group 1

#

·     Device B:

The configuration file on Device B is similar as the configuration file on Device A.

Related documentation

·     H3C S7500X Switch Series Layer 2—LAN Switching Configuration Guide-Release R758X

·     H3C S7500X Switch Series Layer 2—LAN Switching Command Reference-Release R758X

 

 

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