Configuring Layer 2 Switching

Information About Layer 2 Switching


Note


See the Cisco Nexus 9000 Series NX-OS Interfaces Configuration GuideCisco Nexus 9000 Series NX-OS Interfaces Configuration GuideCisco Nexus 9000 Series NX-OS Interfaces Configuration GuideCisco Nexus 9000 Series NX-OS Interfaces Configuration Guide, for information on creating interfaces.


You can configure Layer 2 switching ports as access or trunk ports. Trunks carry the traffic of multiple VLANs over a single link and allow you to extend VLANs across an entire network. All Layer 2 switching ports maintain MAC address tables.


Note


See the Cisco Nexus 9000 Series NX-OS High Availability and Redundancy GuideCisco Nexus 9000 Series NX-OS High Availability and Redundancy GuideCisco Nexus 9000 Series NX-OS High Availability and Redundancy GuideCisco Nexus 9000 Series NX-OS High Availability and Redundancy Guide, for complete information on high-availability features.


Layer 2 Ethernet Switching Overview

The device supports simultaneous, parallel connections between Layer 2 Ethernet segments. Switched connections between Ethernet segments last only for the duration of the packet. New connections can be made between different segments for the next packet.

The device solves congestion problems caused by high-bandwidth devices and a large number of users by assigning each device (for example, a server) to its own collision domain. Because each LAN port connects to a separate Ethernet collision domain, servers in a switched environment achieve full access to the bandwidth.

Because collisions cause significant congestion in Ethernet networks, an effective solution is full-duplex communication. Typically, 10/100-Mbps Ethernet operates in half-duplex mode, which means that stations can either receive or transmit. In full-duplex mode, which is configurable on these interfaces, two stations can transmit and receive at the same time. When packets can flow in both directions simultaneously, the effective Ethernet bandwidth doubles.

Switching Frames Between Segments

Each LAN port on a device can connect to a single workstation, server, or to another device through which workstations or servers connect to the network.

To reduce signal degradation, the device considers each LAN port to be an individual segment. When stations connected to different LAN ports need to communicate, the device forwards frames from one LAN port to the other at wire speed to ensure that each session receives full bandwidth.

To switch frames between LAN ports efficiently, the device maintains an address table. When a frame enters the device, it associates the media access control (MAC) address of the sending network device with the LAN port on which it was received.

Building the Address Table and Address Table Changes

The device dynamically builds the address table by using the MAC source address of the frames received. When the device receives a frame for a MAC destination address not listed in its address table, it floods the frame to all LAN ports of the same VLAN except the port that received the frame. When the destination station replies, the device adds its relevant MAC source address and port ID to the address table. The device then forwards subsequent frames to a single LAN port without flooding all LAN ports.

You can configure MAC addresses, which are called static MAC addresses, to statically point to specified interfaces on the device. These static MAC addresses override any dynamically learned MAC addresses on those interfaces. You cannot configure broadcast addresses as static MAC addresses. The static MAC entries are retained across a reboot of the device.

You must manually configure identical static MAC addresses on both devices connected by a virtual port channel (vPC) peer link. The MAC address table display is enhanced to display information on MAC addresses when you are using vPCs.

See the Cisco Nexus 9000 Series NX-OS Interfaces Configuration GuideCisco Nexus 9000 Series NX-OS Interfaces Configuration GuideCisco Nexus 9000 Series NX-OS Interfaces Configuration GuideCisco Nexus 9000 Series NX-OS Interfaces Configuration Guide for information about vPCs.

The address table can store a number of MAC address entries depending on the hardware I/O module. The device uses an aging mechanism, defined by a configurable aging timer, so if an address remains inactive for a specified number of seconds, it is removed from the address table.

Consistent MAC Address Tables on the Supervisor and on the Modules

Optimally, all the MAC address tables on each module exactly match the MAC address table on the supervisor. When you enter the show forwarding consistency l2 command or the show consistency-checker l2 command, the device displays discrepant, missing, and extra MAC address entries.

Guidelines and Limitations for the Cisco N9364E-SG2-Q Fixed Switch

Starting with Cisco NX-OS release 10.5(3)F, the N9364E-SG2-Q fixed switch supports these Layer 2 switching features.

  • MAC learning

  • MAC aging

  • MAC moves

  • MAC forwarding

  • Clearing MAC or the Spanning Tree Protocol flushes

  • Switched Virtual Interface (SVI)

  • Layer 2 Consistency Checker

Table 1. Supported Scale Limits for MAC address

Feature

Supported Scale Limits

Maximum supported MAC addresses

16K local MACaddresses

8k local MAC addresses and 8k control plane MACaddresses per Vlan

24 remote MAC addresses

HSRP or VRRP Groups (IPv4 or IPv6 traffic)

512

User Defined MAC (UDM)

16 MACs (default); Can be scaled to 256 MACs with

  • 30 SVI and Layer 3 MAC addresses

  • 226 VR MACs

CEM and LPM Distribution

4 CEM for MAC forwarding

8 LPM for Host entries

Consecutive:

  • Prefixes /128 upto 129K

  • Prefixes /64 upo 260K

  • Prefixes /32 more than 500K

Random:

  • Prefixes /128 upto 1K

For configuration limits, see the Cisco Nexus 9000 Series NX-OS Verified Scalability Guide.

Cisco NX-OS release 10.5(3)F does not support these Layer 2 switching features on the N9364E-SG2-Q fixed switch.

  • Static MAC address

  • Port security

  • do1x encapsulation

  • MAC Move loop detection

  • Super Bridging on the Layer 2 interface

  • Hardware-based MAC Learn disable

  • Virtual port channel (vPC)

High Availability for Switching

You can upgrade or downgrade the software seamlessly, with respect to classical Ethernet switching. If you have configured static MAC addresses on Layer 3 interfaces, you must unconfigure those ports in order to downgrade the software.


Note


See the Cisco Nexus 9000 Series NX-OS High Availability and Redundancy GuideCisco Nexus 9000 Series NX-OS High Availability and Redundancy GuideCisco Nexus 9000 Series NX-OS High Availability and Redundancy GuideCisco Nexus 9000 Series NX-OS High Availability and Redundancy Guide, for complete information on high availability features.


Prerequisites for Configuring MAC Addresses

MAC addresses have the following prerequisites:

  • You must be logged onto the device.

  • If necessary, install the Advanced Services license.

Default Settings for Layer 2 Switching

This table lists the default setting for Layer 2 switching parameters.

Table 2. Default Layer 2 Switching Parameters

Parameters

Default

Aging time

1800 seconds

MAC Move Loop Detection

Cisco Nexus 9000 Series switches leverage L2FM for software MAC learning (and, subsequently, loop detection). If a host (MAC address) moves between two interfaces within the same VLAN, it would trigger a MAC move. If there are a large number of such MAC moves in a short duration of time, the control plane of the switch and the CPU performance could get impacted. L2FM protects the switch from such scenarios by disabling MAC learning on the specific VLAN once the number of MAC moves for the corresponding MAC address exceeds a threshold.

For Broadcom ASIC based switches, the MAC move learn disable threshold criteria is when a single MAC address moves 10 or more times in a duration of 1 second within the same VLAN.

For Cisco Nexus 9300-EX/FX/FX2/FX3/GX/GX2, 9804/9808 switches and Cisco Nexus 9500 switches with 9700-EX/FX/GX line cards, the MAC move learn disable threshold criteria is when a single MAC address moves 10 or more times in 10 seconds within the same VLAN.

Once the threshold limit is hit, all new MAC learning on the corresponding VLAN gets disabled for a period of 120 seconds. After 120 seconds, new MAC learning is re-enabled on that VLAN. There is no impact of this on the rest of the VLANs on the switch.

Generating Syslog Error Messages

To see MAC move notifications in syslogs, follow the below steps:

Procedure

  Command or Action Purpose

Step 1

config t

Example:

switch# config t
switch(config)#

Enters configuration mode.

Step 2

logging level l2fm 5

Example:

switch(config)# logging level l2fm 5

Enables logging of all L2FM events from level 5 up to the highest severity events.

Step 3

(Optional) mac address-table notification mac-move

Example:

switch(config)# mac address-table notification mac-move
(Optional)

Enables MAC move notification on the switch.

Note

 
  • MAC move notification is enabled by default.

  • This command ensures that the syslog for L2FM detect displays when there is a MAC address move.

Following are the sample generated syslog messages:
  • When MAC move is detected:

    2023 Nov 29 21:42:04 N-3164Q-40G %L2FM-4-L2FM_MAC_MOVE2: Mac 0003.0001.005d in vlan 500 has moved from Eth1/24 to Eth1/63

  • When MAC learning on VLAN is disabled:

    2023 Nov 29 21:23:29 N-3164Q-40G %L2FM-2-L2FM_MAC_FLAP_DISABLE_LEARN: Disabling learning in vlan 500 for 120s due to too many mac moves

  • When MAC learning on VLAN is re-enabled:

    2023 Nov 29 21:23:19 N-3164Q-40G %L2FM-2-L2FM_MAC_FLAP_RE_ENABLE_LEARN: Re-enabling learning in vlan 500

Example

In order to check if the MAC addresses move, enter the command:
switch# show mac address-table notification mac-move
MAC Move Notify Triggers: 1206
Number of MAC Addresses added: 944088
Number of MAC Addresses moved: 265
Number of MAC Addresses removed: 943920

Note


The following are the possible causes for MAC moves:

  • MAC addresses move because of server NIC teaming and moving between Active-Active, Active-Standby states, etc.

  • MAC addresses move because the source of the data is physically moved across all switches while STP states are converged and in correct states.

  • Due to loops in the network.


Configuring Layer 2 Switching by Steps


Note


If you are familiar with the Cisco IOS CLI, be aware that the Cisco NX-OS commands for this feature might differ from the Cisco IOS commands that you would use.


Configuring a Static MAC Address

You can configure MAC addresses, which are called static MAC addresses, to statically point to specified interfaces on the device. These static MAC addresses override any dynamically learned MAC addresses on those interfaces. You cannot configure broadcast or multicast addresses as static MAC addresses.

SUMMARY STEPS

  1. config t
  2. mac address-table static mac-address vlan vlan-id {[drop | interface {type slot/port} | port-channel number]}
  3. exit
  4. (Optional) show mac address-table static
  5. (Optional) copy running-config startup-config

DETAILED STEPS

  Command or Action Purpose

Step 1

config t

Example:

switch# config t
switch(config)#

Enters configuration mode.

Step 2

mac address-table static mac-address vlan vlan-id {[drop | interface {type slot/port} | port-channel number]}

Example:

switch(config)# mac address-table static 1.1.1 vlan 2 interface ethernet 1/2

Specifies a static MAC address to add to the Layer 2 MAC address table.

Note

 

Use the drop option to drop all traffic that is going to the configured MAC address in the specified VLAN.

Step 3

exit

Example:

switch(config)# exit
switch#

Exits the configuration mode.

Step 4

(Optional) show mac address-table static

Example:

switch# show mac address-table static
(Optional)

Displays the static MAC addresses.

Step 5

(Optional) copy running-config startup-config

Example:

switch# copy running-config startup-config
(Optional)

Copies the running configuration to the startup configuration.

Example

This example shows how to put a static entry in the Layer 2 MAC address table:

switch# config t
switch(config)# mac address-table static 1.1.1 vlan 2 interface ethernet 1/2
switch(config)#

Disabling MAC Address Learning on System

You can now disable and re-enable MAC address learning on system.

SUMMARY STEPS

  1. switch# configure terminal
  2. switch(config-if)# [no] mac-learn disable
  3. switch(config-if)# clear mac address-table dynamic

DETAILED STEPS

  Command or Action Purpose

Step 1

switch# configure terminal

Enters global configuration mode.

Step 2

switch(config-if)# [no] mac-learn disable

Disables MAC address learning on the switch.

The no form of this command re-enables MAC address learning on the switch.

Step 3

switch(config-if)# clear mac address-table dynamic

Clears the MAC address table for the switch.

Important

 
After disabling MAC address learning on the switch, ensure that you clear the MAC address table.

Disabling MAC Address Learning on Layer 2 Interfaces

You can now disable and re-enable MAC address learning on Layer 2 interfaces.

SUMMARY STEPS

  1. switch# configure terminal
  2. switch(config)# interface type slot/port
  3. switch(config-if)# [no] switchport mac-learn disable
  4. switch(config-if)# clear mac address-table dynamic interface type slot/port

DETAILED STEPS

  Command or Action Purpose

Step 1

switch# configure terminal

Enters global configuration mode.

Step 2

switch(config)# interface type slot/port

Enters the interface configuration mode for the specified interface.

Step 3

switch(config-if)# [no] switchport mac-learn disable

Disables MAC address learning on Layer 2 interfaces.

The no form of this command re-enables MAC address learning on Layer 2 interfaces.

Note

 

In Warp mode, the Cisco Nexus 3500 switch does not flood Layer 3 traffic to the VLAN in which the port configured using switchport mac-learn disable is present, and the traffic is dropped. In Normal mode, the switch should flood the Layer 3 traffic to this VLAN.

Step 4

switch(config-if)# clear mac address-table dynamic interface type slot/port

Clears the MAC address table for the specified interface.

Important

 
After disabling MAC address learning on an interface, ensure that you clear the MAC address table.

Example

This example shows how to disable MAC address learning on Layer 2 interfaces:

switch# configure terminal
switch(config)# interface ethernet 1/4
switch(config-if)# switchport mac-learn disable
switch(config-if)# clear mac address-table dynamic interface ethernet 1/4

This example shows how to re-enable MAC address learning on Layer 2 interfaces:

switch# configure terminal
switch(config)# interface ethernet 1/4
switch(config-if)# no switchport mac-learn disable

Configuring the Aging Time for the MAC Table

You can configure the amount of time that a MAC address entry (the packet source MAC address and port on which that packet was learned) remains in the MAC table, which contains the Layer 2 information.


Note


MAC addresses are aged out up to two times the configured MAC address table aging timeout.



Note


You can also configure the MAC aging time in interface configuration mode or VLAN configuration mode.


SUMMARY STEPS

  1. config t
  2. mac address-table aging-time seconds
  3. exit
  4. (Optional) show mac address-table aging-time
  5. (Optional) copy running-config startup-config

DETAILED STEPS

  Command or Action Purpose

Step 1

config t

Example:

switch# config t
switch(config)#

Enters configuration mode.

Step 2

mac address-table aging-time seconds

Example:

switch(config)# mac address-table aging-time 600

Specifies the time before an entry ages out and is discarded from the Layer 2 MAC address table. The range is from 120 to 918000; the default is 1800 seconds. Entering the value 0 disables the MAC aging.

Step 3

exit

Example:

switch(config)# exit
switch#

Exits the configuration mode.

Step 4

(Optional) show mac address-table aging-time

Example:

switch# show mac address-table aging-time
(Optional)

Displays the aging time configuration for MAC address retention.

Step 5

(Optional) copy running-config startup-config

Example:

switch# copy running-config startup-config
(Optional)

Copies the running configuration to the startup configuration.

Example

This example shows how to set the ageout time for entries in the Layer 2 MAC address table to 600 seconds (10 minutes):

switch# config t 
switch(config)# mac address-table aging-time 600
switch(config)#

Checking Consistency of MAC Address Tables

You can check the match between the MAC address table on the supervisor and all the modules.

SUMMARY STEPS

  1. show consistency-checker l2 module <slot_number>

DETAILED STEPS

Command or Action Purpose

show consistency-checker l2 module <slot_number>

Example:

switch# show consistency-checker l2 module 7
switch#

Displays the discrepant, missing, and extra MAC addresses between the supervisor and the specified module.

Example

This example shows how to display discrepant, missing, and extra entries in the MAC address tables between the supervisor and the specified module:

switch# show consistency-checker l2 module 7
switch#

Clearing Dynamic Addresses from the MAC Table

You can clear all dynamic Layer 2 entries in the MAC address table. (You can also clear entries by designated interface or VLAN.)

SUMMARY STEPS

  1. clear mac address-table dynamic {address mac_addr} {interface [ethernet slot/port | port-channel channel-number]} {vlan vlan_id}
  2. (Optional) show mac address-table

DETAILED STEPS

  Command or Action Purpose

Step 1

clear mac address-table dynamic {address mac_addr} {interface [ethernet slot/port | port-channel channel-number]} {vlan vlan_id}

Example:


switch# clear mac address-table dynamic

Clears the dynamic address entries from the MAC address table in Layer 2.

Step 2

(Optional) show mac address-table

Example:

switch# show mac address-table
(Optional)

Displays the MAC address table.

Example

This example shows how to clear the dynamic entries in the Layer 2 MAC address table:

switch# clear mac address-table dynamic
switch# 

Configuring MAC Address Limits

SUMMARY STEPS

  1. config t
  2. mac address-table limit vlan vlan-id limit -value
  3. exit
  4. (Optional) copy running-config startup-config

DETAILED STEPS

  Command or Action Purpose

Step 1

config t

Example:

switch# config t
switch(config)#

Enters configuration mode.

Step 2

mac address-table limit vlan vlan-id limit -value

Example:

switch(config-vlan)# mac address-table limit vlan 40 108

Specifies the VLAN to which the MAC address limits should be applied.

Step 3

exit

Example:

switch(config)# exit
switch#

Exits the configuration mode.

Step 4

(Optional) copy running-config startup-config

Example:

switch# copy running-config startup-config
(Optional)

Copies the running configuration to the startup configuration.

Configuring L2 Heavy Mode

The purpose of this feature is to increase the current 92k MAC address scale to 200k by carving out a new L2-heavy template, changing FP tile hardware resource allocations, making necessary control plane changes and ISSU restore support to accommodate new scale.

Command

Purpose

sh system routing mode

Shows the configured and applied mode

system routing template-l2-heavy

Enables 200K MAC. 200K MAC is enabled only when this mode is configured and the system is reloaded.

Use no form of this command to to disable this feature.

Note

 

Beginning with Cisco NX-OS Release 10.2(2)F, 200K MAC is supported on Cisco N9K-9332D-GX2B platform switches.

sh run | i system

Runs the applied mode

Guidelines & Limitations:

  • This feature is supported for Layer 2 unidimensional scale only.

  • SVI, Layer 3 interface, and VXLAN VLANs are not supported.

  • Beginning with Cisco NX-OS Release 9.2(3), this feature is supported on the following platforms: N9K-C9264PQ, N9K-C9272Q, N9K-C9236C, N9K-C92300YC, N9K-C92304QC, N9K-C9232C, N9K-C92300YC and 9300-EX

  • Beginning with Cisco NX-OS Release 10.2(2)F, the 200K MAC feature is supported on Cisco N9K-9332D-GX2B platform switches.

Following is an example for configuring L2 heavy mode:

switch (config)# sh system routing mode
switch# Configured System Routing Mode: L2 Heavy
switch# Applied System Routing Mode: L2 Heavy
switch#
switch# show run | i system
switch# system routing template-l2-heavy
switch#

Verifying the Layer 2 Switching Configuration

To display Layer 2 switching configuration information, perform one of the following tasks:

Command

Purpose

show mac address-table

Displays information about the MAC address table.

show mac address-table limit

Displays information about the limits set for the MAC address table.

show mac address-table aging-time

Displays information about the aging time set for the MAC address entries.

Note

 

Beginning with Cisco NX-OS Release 10.2(1), Cisco Nexus 9000 and Nexus 3000 switches that use Cloudscale ASICs do not report the MAC age in show mac address outputs. The age column can be ignored as, instead of a fixed value of 0s that was reported in earlier releases, now, NA is reported. This is only a display limitation. MAC aging is still functionally enforced.

show mac address-table static

Displays information about the static entries on the MAC address table.

show interface [interface] mac-address

Displays the MAC addresses and the burn-in MAC address for the interfaces.

show forwarding consistency l2 {module}

Displays discrepant, missing, and extra MAC addresses between the tables on the module and the supervisor.

Configuration Example for Layer 2 Switching

The following example shows how to add a static MAC address and how to modify the default global aging time for MAC addresses:

switch# configure terminal
switch(config)# mac address-table static 0000.0000.1234 vlan 10 interface ethernet 2/15
switch(config)# mac address-table aging-time 120

Additional References for Layer 2 Switching -- CLI Version

Related Documents

Related Topic

Document Title

Static MAC addresses

Cisco Nexus 9000 Series NX-OS Security Configuration Guide

Interfaces

Cisco Nexus 9000 Series NX-OS Interfaces Configuration Guide

High availability

Cisco Nexus 9000 Series NX-OS High Availability and Redundancy Guide

System management

Cisco Nexus 9000 Series NX-OS System Management Configuration Guide