03-Layer 2—LAN Switching Configuration Guide

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04-MAC address table configuration
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Contents

Configuring the MAC address table· 1

Overview· 1

How a MAC address entry is created· 1

Types of MAC address entries· 1

MAC address table configuration task list 2

Configuring MAC address entries· 3

Configuration guidelines· 3

Adding or modifying a static or dynamic MAC address entry globally· 3

Adding or modifying a static or dynamic MAC address entry on an interface· 4

Adding or modifying a blackhole MAC address entry· 4

Adding or modifying a multiport unicast MAC address entry· 5

Disabling MAC address learning· 6

Disabling global MAC address learning· 6

Disabling MAC address learning on interfaces· 6

Disabling MAC address learning on a VLAN· 7

Setting the aging timer for dynamic MAC address entries· 7

Setting the MAC learning limit 8

Configuring the unknown frame forwarding rule after the MAC learning limit is reached· 8

Assigning MAC learning priority to interfaces· 9

Enabling MAC address synchronization· 9

Configuring MAC address move notifications and suppression· 11

Enabling ARP fast update for MAC address moves· 12

Disabling static source check· 13

Enabling SNMP notifications for the MAC address table· 13

Displaying and maintaining the MAC address table· 14

MAC address table configuration example· 14

Network requirements· 14

Configuration procedure· 15

Verifying the configuration· 15

Configuring MAC Information· 16

Enabling MAC Information· 16

Configuring the MAC Information mode· 16

Setting the MAC change notification interval 17

Setting the MAC Information queue length· 17

MAC Information configuration example· 17

Network requirements· 17

Configuration restrictions and guidelines· 18

Configuration procedure· 18

 


Configuring the MAC address table

Overview

An Ethernet device uses a MAC address table to forward frames. A MAC address entry includes a destination MAC address, an outgoing interface (or egress RB), and a VLAN ID. When the device receives a frame, it uses the destination MAC address of the frame to look for a match in the MAC address table.

·     The device forwards the frame out of the outgoing interface in the matching entry if a match is found.

·     The device floods the frame in the VLAN of the frame if no match is found.

How a MAC address entry is created

The entries in the MAC address table include entries automatically learned by the device and entries manually added.

MAC address learning

The device can automatically populate its MAC address table by learning the source MAC addresses of incoming frames on each interface.

The device performs the following operations to learn the source MAC address of incoming packets:

1.     Checks the source MAC address (for example, MAC-SOURCE) of the frame.

2.     Looks up the source MAC address in the MAC address table.

¡     The device updates the entry if an entry is found.

¡     The device adds an entry for MAC-SOURCE and the incoming port if no entry is found.

When the device receives a frame destined for MAC-SOURCE after learning this source MAC address, the device performs the following operations:

1.     Finds the MAC-SOURCE entry in the MAC address table.

2.     Forwards the frame out of the port in the entry.

The device performs the learning process for each incoming frame with an unknown source MAC address until the table is fully populated.

Manually configuring MAC address entries

Dynamic MAC address learning does not distinguish between illegitimate and legitimate frames, which can invite security hazards. When Host A is connected to port A, a MAC address entry will be learned for the MAC address of Host A (for example, MAC A). When an illegal user sends frames with MAC A as the source MAC address to port B, the device performs the following operations:

1.     Learns a new MAC address entry with port B as the outgoing interface and overwrites the old entry for MAC A.

2.     Forwards frames destined for MAC A out of port B to the illegal user.

As a result, the illegal user obtains the data of Host A. To improve the security for Host A, manually configure a static entry to bind Host A to port A. Then, the frames destined for Host A are always sent out of port A. Other hosts using the forged MAC address of Host A cannot obtain the frames destined for Host A.

Types of MAC address entries

A MAC address table can contain the following types of entries:

·     Static entries—A static entry is manually added to forward frames with a specific destination MAC address out of the associated interface, and it never ages out. A static entry has higher priority than a dynamically learned one.

·     Dynamic entries—A dynamic entry can be manually configured or dynamically learned to forward frames with a specific destination MAC address out of the associated interface. A dynamic entry might age out. A manually configured dynamic entry has the same priority as a dynamically learned one.

·     Blackhole entries—A blackhole entry is manually configured and never ages out. A blackhole entry is configured for filtering out frames with a specific source or destination MAC address. For example, to block all frames destined for or sourced from a user, you can configure the MAC address of the user as a blackhole MAC address entry. A blackhole entry has higher priority than a dynamically learned one.

·     Multiport unicast entries—A multiport unicast entry is manually added to send frames with a specific unicast destination MAC address out of multiple ports, and it never ages out. A multiport unicast entry has higher priority than a dynamically learned one.

A static, blackhole, or multiport unicast MAC address entry can overwrite a dynamic MAC address entry, but not vice versa. A static entry, a blackhole entry, and a multiport unicast entry cannot overwrite one another.

Multiport unicast MAC address entries have no impact on the MAC address learning. When receiving a frame whose source MAC address matches a multiport unicast entry, the device can still learn the MAC address of the frame and generate a dynamic entry. However, the generated dynamic entry has lower priority. The device prefers to use the multiport unicast entry to forward frames destined for the MAC address in the entry.

MAC address table configuration task list

The configuration tasks discussed in the following sections can be performed in any order.

This document covers only the configuration of unicast MAC address entries, including static, dynamic, blackhole, and multiport unicast MAC address entries. For information about configuring static multicast MAC address entries, see IP Multicast Configuration Guide. For information about MAC address table configuration in VPLS, see MPLS Configuration Guide.

To configure the MAC address table, perform the following tasks:

 

Tasks at a glance

(Optional.) Configuring MAC address entries

·     Adding or modifying a static or dynamic MAC address entry globally

·     Adding or modifying a static or dynamic MAC address entry on an interface

·     Adding or modifying a blackhole MAC address entry

·     Adding or modifying a multiport unicast MAC address entry

(Optional.) Disabling MAC address learning

(Optional.) Setting the aging timer for dynamic MAC address entries

(Optional.) Setting the MAC learning limit

(Optional.) Configuring the unknown frame forwarding rule after the MAC learning limit is reached

(Optional.) Assigning MAC learning priority to interfaces

(Optional.) Enabling MAC address synchronization

(Optional.) Configuring MAC address move notifications and suppression

(Optional.) Enabling ARP fast update for MAC address moves

(Optional.) Disabling static source check

(Optional.) Enabling SNMP notifications for the MAC address table

 

Configuring MAC address entries

Configuration guidelines

·     A manually configured dynamic MAC address entry overwrites an existing learned entry with a different outgoing interface for the MAC address.

·     The manually configured static, blackhole, and multiport unicast MAC address entries cannot survive a reboot if you do not save the configuration. The manually configured dynamic MAC address entries are lost upon reboot whether or not you save the configuration.

·     Do not configure the following MAC addresses as static, dynamic, blackhole, or multiport unicast MAC addresses:

¡     Reserved MAC addresses of the device, which refer to MAC addresses from the bridge MAC address of the device to the bridge MAC address plus 169.

¡     MAC addresses of Layer 3 Ethernet interfaces or subinterfaces.

¡     MAC addresses of Layer 3 aggregate interfaces or subinterfaces.

·     For packets to be correctly transmitted in the overlay network, do not configure multiport unicast MAC address entries for MAC addresses in the overlay network. For more information about overlay networks, see VXLAN Configuration Guide.

A frame whose source MAC address matches different types of MAC address entries is processed differently.

 

Type

Description

Static MAC address entry

Forwards the frame according to the destination MAC address regardless of whether the frame's ingress interface is the same as that in the entry.

Multiport unicast MAC address entry

·     Learns the MAC address (MACA) of the frame and generates a dynamic MAC address entry, but the generated dynamic MAC address entry does not take effect.

·     Forwards frames destined for MACA based on the multiport unicast MAC address entry.

Blackhole MAC address entry

Drops the frame.

Dynamic MAC address entry

·     Learns the MAC address of the frames received on a different interface from that in the entry and overwrites the original entry.

·     Forwards the frame received on the same interface as that in the entry and updates the aging timer for the entry.

 

Adding or modifying a static or dynamic MAC address entry globally

Step

Command

Remarks

1.     Enter system view.

system-view

N/A

2.     Add or modify a static or dynamic MAC address entry.

mac-address { dynamic | static } mac-address interface interface-type interface-number vlan vlan-id

By default, no MAC address entry is configured globally.

Make sure you have created the VLAN and assigned the interface to the VLAN.

 

Adding or modifying a static or dynamic MAC address entry on an interface

Step

Command

Remarks

1.     Enter system view.

system-view

N/A

2.     Enter interface view.

·     Enter Layer 2 Ethernet interface view:
interface interface-type interface-number

·     Enter Layer 2 aggregate interface view:
interface bridge-aggregation interface-number

·     Enter S-channel interface view:
interface s-channel interface-number.channel-id

·     Enter S-channel aggregate interface view:
interface schannel-aggregation interface-number:channel-id

·     Enter S-channel bundle interface view:

interface schannel-bundle interface-number

N/A

3.     Add or modify a static or dynamic MAC address entry.

mac-address { dynamic | static } mac-address vlan vlan-id

By default, no MAC address entry is configured on the interface.

Make sure you have created the VLAN and assigned the interface to the VLAN.

 

Adding or modifying a blackhole MAC address entry

Step

Command

Remarks

1.     Enter system view.

system-view

N/A

2.     Add or modify a blackhole MAC address entry.

mac-address blackhole mac-address vlan vlan-id

By default, no blackhole MAC address entry is configured.

Make sure you have created the VLAN.

 

Adding or modifying a multiport unicast MAC address entry

You can configure a multiport unicast MAC address entry to associate a unicast destination MAC address with multiple ports. The frame with a destination MAC address matching the entry is sent out of multiple ports.

For example, in NLB unicast mode (see Figure 1):

·     All servers within a cluster uses the cluster's MAC address as their own address.

·     Frames destined for the cluster are forwarded to every server in the group.

In this case, you can configure a multiport unicast MAC address entry on the device connected to the server group. Then, the device forwards the frame destined for the server group to every server through all ports connected to the servers within the cluster.

Figure 1 NLB cluster

 

You can configure a multiport unicast MAC address entry globally or on an interface.

Configuring a multiport unicast MAC address entry globally

Step

Command

Remarks

1.     Enter system view.

system-view

N/A

2.     Add or modify a multiport unicast MAC address entry.

mac-address multiport mac-address interface interface-list vlan vlan-id

By default, no multiport unicast MAC address entry is configured globally.

Make sure you have created the VLAN and assigned the interface to the VLAN.

 

Configuring a multiport unicast MAC address entry on an interface

Step

Command

Remarks

1.     Enter system view.

system-view

N/A

2.     Enter interface view.

·     Enter Layer 2 Ethernet interface view:
interface interface-type interface-number

·     Enter Layer 2 aggregate interface view:
interface bridge-aggregation interface-number

N/A

3.     Add the interface to a multiport unicast MAC address entry.

mac-address multiport mac-address vlan vlan-id

By default, no multiport unicast MAC address entry is configured on the interface.

Make sure you have created the VLAN and assigned the interface to the VLAN.

 

Disabling MAC address learning

MAC address learning is enabled by default. To prevent the MAC address table from being saturated when the device is experiencing attacks, disable MAC address learning. For example, you can disable MAC address learning to prevent the device from being attacked by a large amount of frames with different source MAC addresses.

After MAC address learning is disabled, the device immediately deletes existing dynamic MAC address entries.

Disabling global MAC address learning

Global MAC address learning does not take effect on a TRILL network, S-channel, VPLS VSI, EVB VSI, or VXLAN VSI. For information about TRILL, see TRILL Configuration Guide. For information about VPLS VSIs, see MPLS Configuration Guide. For information about S-channels and EVB VSIs, see EVB Configuration Guide. For information about VXLAN VSIs, see VXLAN Configuration Guide.

To disable global MAC address learning:

 

Step

Command

Remarks

1.     Enter system view.

system-view

N/A

2.     Disable global MAC address learning.

undo mac-address mac-learning enable

By default, global MAC address learning is enabled.

 

Disabling MAC address learning on interfaces

When global MAC address learning is enabled, you can disable MAC address learning on a single interface.

To disable MAC address learning on an interface:

 

Step

Command

Remarks

1.     Enter system view.

system-view

N/A

2.     Enter interface view.

·     Enter Layer 2 Ethernet interface view:
interface interface-type interface-number

·     Enter Layer 2 aggregate interface view:
interface bridge-aggregation interface-number

·     Enter S-channel interface view:
interface s-channel interface-number.channel-id

·     Enter S-channel aggregate interface view:
interface schannel-aggregation interface-number:channel-id

·     Enter S-channel bundle interface view:

interface schannel-bundle interface-number

N/A

3.     Disable MAC address learning on the interface.

undo mac-address mac-learning enable

By default, MAC address learning on the interface is enabled.

 

Disabling MAC address learning on a VLAN

When global MAC address learning is enabled, you can disable MAC address learning on a per-VLAN basis.

To disable MAC address learning on a VLAN:

 

Step

Command

Remarks

1.     Enter system view.

system-view

N/A

2.     Enable global MAC address learning.

mac-address mac-learning enable

By default, global MAC address learning is enabled.

3.     Enter VLAN view.

vlan vlan-id

N/A

4.     Disable MAC address learning on the VLAN.

undo mac-address mac-learning enable

By default, MAC address learning on the VLAN is enabled.

 

Setting the aging timer for dynamic MAC address entries

For security and efficient use of table space, the MAC address table uses an aging timer for each dynamic MAC address entry. If a dynamic MAC address entry is not updated before the aging timer expires, the device deletes the entry. This aging mechanism ensures that the MAC address table can promptly update to accommodate latest network topology changes.

A stable network requires a longer aging interval, and an unstable network requires a shorter aging interval.

An aging interval that is too long might cause the MAC address table to retain outdated entries. As a result, the MAC address table resources might be exhausted, and the MAC address table might fail to update its entries to accommodate the latest network changes.

An interval that is too short might result in removal of valid entries, which would cause unnecessary floods and possibly affect the device performance.

To reduce floods on a stable network, set a long aging timer or disable the timer to prevent dynamic entries from unnecessarily aging out. Reducing floods improves the network performance. Reducing flooding also improves the security because it reduces the chances for a data frame to reach unintended destinations.

To set the aging timer for dynamic MAC address entries:

 

Step

Command

Remarks

1.     Enter system view.

system-view

N/A

2.     Set the aging timer for dynamic MAC address entries.

mac-address timer { aging seconds | no-aging }

The default setting is 300 seconds.

The no-aging keyword disables the aging timer.

 

Setting the MAC learning limit

This feature limits the MAC address table size. A large MAC address table will degrade forwarding performance.

To set the MAC learning limit on an interface:

 

Step

Command

Remarks

1.     Enter system view.

system-view

N/A

2.     Enter Layer 2 Ethernet interface view.

interface interface-type interface-number

N/A

3.     Set the MAC learning limit on the interface.

mac-address max-mac-count count

By default, the MAC address table size is not limited on an interface.

 

Configuring the unknown frame forwarding rule after the MAC learning limit is reached

You can enable or disable forwarding of unknown frames after the MAC learning limit is reached.

To configure the device to forward unknown frames received on the interface after the MAC learning limit on the interface is reached:

 

Step

Command

Remarks

1.     Enter system view.

system-view

N/A

2.     Enter Layer 2 Ethernet interface view.

interface interface-type interface-number

N/A

3.     Configure the device to forward unknown frames received on the interface after the MAC learning limit on the interface is reached.

mac-address max-mac-count enable-forwarding

By default, the device can forward unknown frames received on an interface after the MAC learning limit on the interface is reached.

 

Assigning MAC learning priority to interfaces

The MAC learning priority mechanism assigns either low priority or high priority to an interface. An interface with high priority can learn MAC addresses as usual. However, an interface with low priority is not allowed to learn MAC addresses already learned on a high-priority interface.

The MAC learning priority mechanism can help defend your network against MAC address spoofing attacks. In a network that performs MAC-based forwarding, an upper layer device MAC address might be learned by a downlink interface because of a loop or attack to the downlink interface. To avoid this issue, perform the following tasks:

·     Assign high MAC learning priority to an uplink interface.

·     Assign low MAC learning priority to a downlink interface.

To assign MAC learning priority to an interface:

 

Step

Command

Remarks

1.     Enter system view.

system-view

N/A

2.     Enter interface view.

·     Enter Layer 2 Ethernet interface view:
interface interface-type interface-number

·     Enter Layer 2 aggregate interface view:
interface bridge-aggregation interface-number

·     Enter S-channel interface view:
interface s-channel interface-number.channel-id

·     Enter S-channel aggregate interface view:
interface schannel-aggregation interface-number:channel-id

·     Enter S-channel bundle interface view:

interface schannel-bundle interface-number

N/A

3.     Assign MAC learning priority to the interface.

mac-address mac-learning priority { high | low }

By default, low MAC learning priority is used.

 

Enabling MAC address synchronization

To avoid unnecessary floods and improve forwarding speed, make sure all member devices have the same MAC address table. After you enable MAC address synchronization, each member device advertises learned MAC address entries to other member devices.

As shown in Figure 2:

·     Device A and Device B form an IRF fabric enabled with MAC address synchronization.

·     Device A and Device B connect to AP C and AP D, respectively.

When Client A associates with AP C, Device A learns a MAC address entry for Client A and advertises it to Device B.

Figure 2 MAC address tables of devices when Client A accesses AP C

 

When Client A roams to AP D, Device B learns a MAC address entry for Client A. Device B advertises it to Device A to ensure service continuity for Client A, as shown in Figure 3.

Figure 3 MAC address tables of devices when Client A roams to AP D

 

To enable MAC address synchronization:

 

Step

Command

Remarks

1.     Enter system view.

system-view

N/A

2.     Enable MAC address synchronization.

mac-address mac-roaming enable

By default, MAC address synchronization is disabled.

 

Configuring MAC address move notifications and suppression

The outgoing interface for a MAC address entry learned on interface A is changed to interface B when the following conditions exist:

·     Interface B receives a packet with the MAC address as the source MAC address.

·     Interface B belongs to the same VLAN as interface A.

In this case, the MAC address is moved from interface A to interface B, and a MAC address move occurs.

The MAC address move notifications feature enables the device to output MAC address move logs when MAC address moves are detected.

If a MAC address is continuously moved between the two interfaces, Layer 2 loops might occur. To detect and locate loops, you can view the MAC address move information. To display the MAC address move records after the device is started, use the display mac-address mac-move command.

If the system detects that MAC address moves occur frequently on an interface, you can configure MAC address move suppression to shut the interface down. The interface automatically goes up after a suppression interval. Or, you can manually bring up the interface.

The MAC address move suppression feature must work with the ARP fast update for MAC address moves feature. For information about ARP fast update for MAC address moves, see "Enabling ARP fast update for MAC address moves."

To configure MAC address move notifications and MAC address move suppression:

 

Step

Command

Remarks

1.     Enter system view.

system-view

N/A

2.     Enable MAC address move notifications and optionally specify a MAC move detection interval.

mac-address notification mac-move [ interval interval ]

By default, MAC address move notifications are disabled.

If you do not specify a detection interval, the default setting of 1 minute is used.

After you execute this command, the system sends only log messages to the information center module. If the device is also configured with the snmp-agent trap enable mac-address command, the system also sends SNMP notifications to the SNMP module.

3.     (Optional.) Set MAC address move suppression parameters.

mac-address notification mac-move suppression { interval interval | threshold threshold }

By default, the suppression interval is 30 seconds, and the suppression threshold is 3.

4.     Enter interface view.

·     Enter Layer 2 Ethernet interface view:
interface interface-type interface-number

·     Enter Layer 2 aggregate interface view:
interface bridge-aggregation interface-number

N/A

5.     Enable MAC address move suppression.

mac-address notification mac-move suppression

By default, MAC address move suppression is disabled.

6.     Return to system view.

quit

N/A

7.     Enable ARP fast update for MAC address moves.

mac-address mac-move fast-update

By default, ARP fast update for MAC address moves is disabled.

 

Enabling ARP fast update for MAC address moves

ARP fast update for MAC address moves allows the device to update an ARP entry immediately after the outgoing interface for a MAC address changes. This feature ensures data connection without interruption.

As shown in Figure 4, a mobile user laptop accesses the network by connecting to AP 1 or AP 2. When the AP to which the user connects changes, the switch updates the ARP entry for the user immediately after it detects a MAC address move.

Figure 4 ARP fast update application scenario

To enable ARP fast update for MAC address moves:

 

Step

Command

Remarks

1.     Enter system view.

system-view

N/A

2.     Enable ARP fast update for MAC address moves.

mac-address mac-move fast-update

By default, ARP fast update for MAC address moves is disabled.

 

Disabling static source check

By default, the static source check feature is enabled on an interface. The check identifies whether a received frame meets the following conditions:

·     The source MAC address of the frame matches a static MAC address entry.

·     The incoming interface of the frame is different from the outgoing interface in the entry.

If the frame meets both conditions, the device drops the frame.

When this feature is disabled, the device does not perform the check for a received frame. It can forward the frame whether or not the frame meets the conditions.

To correctly forward traffic sourced from the MAC address of a VLAN interface, you must disable the static source check feature on the Layer 2 interfaces in the VLAN.

To disable the static source check feature:

 

Step

Command

Remarks

1.     Enter system view.

system-view

N/A

2.     Enter interface view.

·     Enter Layer 2 Ethernet interface view:
interface interface-type interface-number

·     Enter Layer 2 aggregate interface view:
interface bridge-aggregation interface-number

·     Enter Layer 3 Ethernet interface view:
interface interface-type interface-number

·     Enter Layer 3 aggregate interface view:
interface route-aggregation interface-number

·     Enter IRF physical interface view:
interface interface-type interface-number

N/A

3.     Disable the static source check feature.

undo mac-address static source-check enable

By default, the static source check feature is enabled.

 

Enabling SNMP notifications for the MAC address table

To report critical MAC address move events to an NMS, enable SNMP notifications for the MAC address table. For MAC address move event notifications to be sent correctly, you must also configure SNMP on the device.

When SNMP notifications are disabled for the MAC address table, the device sends the generated logs to the information center. To display the logs, configure the log destination and output rule configuration in the information center.

For more information about SNMP and information center configuration, see the network management and monitoring configuration guide for the device.

To enable SNMP notifications for the MAC address table:

 

Step

Command

Remarks

1.     Enter system view.

system-view

N/A

2.     Enable SNMP notifications for the MAC address table.

snmp-agent trap enable mac-address [ mac-move ]

By default, SNMP notifications are enabled for the MAC address table.

When SNMP notifications are disabled for the MAC address table, syslog messages are sent to notify important events on the MAC address table module.

 

Displaying and maintaining the MAC address table

Execute display commands in any view.

 

Task

Command

Display MAC address table information.

display mac-address [ mac-address [ vlan vlan-id ] | [ [ dynamic | static ] [ interface interface-type interface-number ] | blackhole | multiport ] [ vlan vlan-id ] [ count ] | nickname nickname ]

Display the aging timer for dynamic MAC address entries.

display mac-address aging-time

Display the system or interface MAC address learning state.

display mac-address mac-learning [ interface interface-type interface-number ]

Display MAC address statistics.

display mac-address statistics

Display the MAC address move records.

display mac-address mac-move [ slot slot-number ]

 

MAC address table configuration example

Network requirements

As shown in Figure 5:

·     Host A at MAC address 000f-e235-dc71 is connected to Ten-GigabitEthernet 1/0/1 of Device and belongs to VLAN 1.

·     Host B at MAC address 000f-e235-abcd, which behaved suspiciously on the network, also belongs to VLAN 1.

Configure the MAC address table as follows:

·     To prevent MAC address spoofing, add a static entry for Host A in the MAC address table of Device.

·     To drop all frames destined for Host B, add a blackhole MAC address entry for Host B.

·     Set the aging timer to 500 seconds for dynamic MAC address entries.

Figure 5 Network diagram

Configuration procedure

# Add a static MAC address entry for MAC address 000f-e235-dc71 on Ten-GigabitEthernet 1/0/1 that belongs to VLAN 1.

<Device> system-view

[Device] mac-address static 000f-e235-dc71 interface ten-gigabitethernet 1/0/1 vlan 1

# Add a blackhole MAC address entry for MAC address 000f-e235-abcd that belongs to VLAN 1.

[Device] mac-address blackhole 000f-e235-abcd vlan 1

# Set the aging timer to 500 seconds for dynamic MAC address entries.

[Device] mac-address timer aging 500

Verifying the configuration

# Display the static MAC address entries for Ten-GigabitEthernet 1/0/1.

[Device] display mac-address static interface ten-gigabitethernet 1/0/1

MAC Address      VLAN ID    State            Port/Nickname            Aging

000f-e235-dc71   1          Static           XGE1/0/1                 N

# Display the blackhole MAC address entries.

[Device] display mac-address blackhole

MAC Address      VLAN ID    State            Port/Nickname            Aging

000f-e235-abcd   1          Blackhole        N/A                      N

# Display the aging time of dynamic MAC address entries.

[Device] display mac-address aging-time

MAC address aging time: 500s.

 


Configuring MAC Information

The MAC Information feature can generate syslog messages or SNMP notifications when MAC address entries are learned or deleted. You can use these messages to monitor user's leaving or joining the network and analyze network traffic.

The MAC Information feature buffers the MAC change syslog messages or SNMP notifications in a queue. The device overwrites the oldest MAC address change written into the queue with the most recent MAC address change when the following conditions exist:

·     The MAC change notification interval does not expire.

·     The queue has been exhausted.

To send a syslog message or SNMP notification immediately after it is created, set the queue length to zero.

Enabling MAC Information

Step

Command

Remarks

1.     Enter system view.

system-view

N/A

2.     Enable MAC Information globally.

mac-address information enable

By default, MAC Information is globally disabled.

3.     Enter interface view.

·     Enter Layer 2 Ethernet interface view:
interface interface-type interface-number

·     Enter S-channel interface view:
interface s-channel interface-number.channel-id

·     Enter S-channel aggregate interface view:
interface schannel-aggregation interface-number:channel-id

·     Enter S-channel bundle interface view:

interface schannel-bundle interface-number

N/A

4.     Enable MAC Information on the interface.

mac-address information enable { added | deleted }

By default, MAC Information is disabled on the interface.

Make sure you have enabled MAC Information globally before you enable it on the interface.

 

Configuring the MAC Information mode

The following MAC Information modes are available for sending MAC address changes:

·     Syslog—The device sends syslog messages to notify MAC address changes. The device sends syslog messages to the information center, which then outputs them to the monitoring terminal. For more information about information center, see Network Management and Monitoring Configuration Guide.

·     Trap—The device sends SNMP notifications to notify MAC address changes. The device sends SNMP notifications to the NMS. For more information about SNMP, see Network Management and Monitoring Configuration Guide.

To configure the MAC Information mode:

 

Step

Command

Remarks

1.     Enter system view.

system-view

N/A

2.     Configure the MAC Information mode.

mac-address information mode { syslog | trap }

The default setting is trap.

 

Setting the MAC change notification interval

To prevent syslog messages or SNMP notifications from being sent too frequently, you can set the MAC change notification interval to a larger value.

To set the MAC change notification interval:

 

Step

Command

Remarks

1.     Enter system view.

system-view

N/A

2.     Set the MAC change notification interval.

mac-address information interval interval

The default setting is 1 second.

 

Setting the MAC Information queue length

Step

Command

Remarks

1.     Enter system view.

system-view

N/A

2.     Set the MAC Information queue length.

mac-address information queue-length value

The default setting is 50.

 

MAC Information configuration example

Network requirements

Enable MAC Information on Ten-GigabitEthernet 1/0/1 on Device in Figure 6 to send MAC address changes in syslog messages to the log host, Host B, through interface Ten-GigabitEthernet 1/0/2.

Figure 6 Network diagram

Configuration restrictions and guidelines

When you edit the file /etc/syslog.conf, follow these restrictions and guidelines:

·     Comments must be on a separate line and must begin with a pound sign (#).

·     No redundant spaces are allowed after the file name.

·     The logging facility name and the severity level specified in the /etc/syslog.conf file must be the same as those configured on the device. Otherwise, the log information might not be output correctly to the log host. The logging facility name and the severity level are configured by using the info-center loghost and info-center source commands, respectively.

Configuration procedure

1.     Configure Device to send syslog messages to Host B:

# Enable the information center.

<Device> system-view

[Device] info-center enable

# Specify the log host 192.168.1.2/24 and specify local4 as the logging facility.

[Device] info-center loghost 192.168.1.2 facility local4

# Disable log output to the log host.

[Device] info-center source default loghost deny

To avoid output of unnecessary information, disable all modules from outputting logs to the specified destination (loghost, in this example) before you configure an output rule.

# Configure an output rule to output to the log host MAC address logs that have a severity level no lower than informational.

[Device] info-center source mac loghost level informational

2.     Configure the log host, Host B:

Configure Solaris as follows. Configure other UNIX operating systems in the same way Solaris is configured.

a.     Log in to the log host as a root user.

b.     Create a subdirectory named Device in directory /var/log/.

# mkdir /var/log/Device

c.     Create file info.log in the Device directory to save logs from Device.

# touch /var/log/Device/info.log

d.     Edit the file syslog.conf in directory /etc/ and add the following contents:

# Device configuration messages

local4.info /var/log/Device/info.log

In this configuration, local4 is the name of the logging facility that the log host uses to receive logs, and info is the informational level. The UNIX system records the log information that has a severity level no lower than informational to the file /var/log/Device/info.log.

e.     Display the process ID of syslogd, end the syslogd process, and then restart syslogd using the –r option to make the new configuration take effect.

# ps -ae | grep syslogd

147

# kill -HUP 147

# syslogd -r &

The device can output MAC address logs to the log host, which stores the logs to the specified file.

3.     Enable MAC Information on Device:

# Enable MAC Information globally.

[Device] mac-address information enable

# Configure the MAC Information mode as syslog.

[Device] mac-address information mode syslog

# Enable MAC Information on Ten-GigabitEthernet 1/0/1 to enable the port to record MAC address change information when the interface performs either of the following operations:

¡     Learns a new MAC address.

¡     Deletes an existing MAC address.

[Device] interface ten-gigabitethernet 1/0/1

[Device-Ten-GigabitEthernet1/0/1] mac-address information enable added

[Device-Ten-GigabitEthernet1/0/1] mac-address information enable deleted

[Device-Ten-GigabitEthernet1/0/1] quit

# Set the MAC Information queue length to 100.

[Device] mac-address information queue-length 100

# Set the MAC change notification interval to 20 seconds.

[Device] mac-address information interval 20

 

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