Table of Contents

Understanding How EtherChannel Works
Default EtherChannel Configuration
Hardware Support for EtherChannel
EtherChannel Configuration Guidelines and Restrictions

General EtherChannel Configuration Guidelines
Fast EtherChannel Configuration Restrictions
Gigabit EtherChannel Configuration Restrictions

Configuring EtherChannel

Configuring Fast EtherChannel and Gigabit EtherChannel

This chapter describes how to configure Fast EtherChannel and Gigabit EtherChannel. The configuration tasks in this chapter apply to Ethernet, Fast Ethernet, and Gigabit Ethernet switch ports on switching modules and fixed-configuration switches, as well as to supervisor engine Fast Ethernet and Gigabit Ethernet uplink ports.

This chapter consists of these sections:

• Understanding How EtherChannel Works

• Default EtherChannel Configuration

• Hardware Support for EtherChannel

• EtherChannel Configuration Guidelines and Restrictions

• Configuring EtherChannel

Understanding How EtherChannel Works

Fast EtherChannel provides parallel bandwidth of up to 800  Mbps (400-Mbps full duplex) between a switch and a router, host, or another switch by grouping multiple Fast Ethernet interfaces into a single logical transmission path.

Fast EtherChannel segments must be contiguous ports on a Fast EtherChannel-capable Fast Ethernet switching module. You can configure Fast Ethernet ports into Fast EtherChannel groups containing two or four ports, yielding 400- or 800-Mbps bidirectional bandwidth, respectively.

Gigabit EtherChannel provides parallel bandwidth of up to 8 Gbps (4 Gbps full duplex) between a switch and a router, host, or another switch by grouping multiple Gigabit Ethernet interfaces into a single logical transmission path.

You can configure Gigabit Ethernet ports into Gigabit EtherChannel groups containing two or four ports, yielding 4- or 8-Gbps bidirectional bandwidth, respectively.

Both Fast and Gigabit EtherChannel bundles can be configured as trunk links. For more information, refer to the "EtherChannel Configuration Guidelines and Restrictions" section and to "Configuring VLAN Trunks on Fast Ethernet and Gigabit Ethernet Ports."

The Port Aggregation Protocol (PAgP) facilitates the automatic creation of Fast EtherChannel and Gigabit EtherChannel links by exchanging packets between channel-capable ports. The protocol learns the capabilities of port groups dynamically and informs the neighboring ports.

There are four user-configurable channel modes. Table 6-1 describes each mode. PAgP packets are exchanged only between ports in auto and desirable mode. Ports configured in on or off mode do not exchange PAgP packets. By default, ports are in auto mode.

Table 6-1: Channel Modes

Mode	Description
on	Forces the port to channel without negotiation. PAgP packets are not exchanged. The port is channeling regardless of how the peer port is configured. If the peer port is in on mode, a channel is formed. In any other mode, the peer port is placed in the errdisable state due to a channel misconfiguration.
off	Prevents the port from channeling. PAgP packets are not exchanged. The port is not channeling regardless of how the peer port is configured. No channel is formed.
auto	Places a port into a passive negotiating state, in which the port responds to PAgP packets it receives but does not initiate PAgP packet negotiation. A channel is formed only with another port group in desirable mode. (Default)
desirable	Places a port into an active negotiating state, in which the port initiates negotiations with other ports by sending PAgP packets. A channel is formed with another port group in either desirable or auto mode.

Both the auto and desirable modes allow ports to negotiate with connected ports to determine if they can form a channel, based on criteria such as port speed, trunking state, native VLAN, and so on.

Channel ports can be in different channel modes as long as the modes are compatible. A port in desirable mode can form a channel successfully with another port that is in desirable or auto mode. Similarly, a port in auto mode can form a channel with another port in desirable mode.

A port in auto mode cannot form a channel with another port that is also in auto mode, since neither port will initiate negotiation. In addition, a port in on mode can form a channel only with a port in on mode, because ports in on mode do not exchange PAgP packets.

If a segment within a channel fails, traffic previously carried over the failed link switches to the remaining segments within the channel. A trap is sent upon a failure identifying the switch, the channel, and the failed link.

Channels are configured using the standard CLI or Simple Network Management Protocol (SNMP).

Default EtherChannel Configuration

Table 6-2 shows the Fast EtherChannel and Gigabit EtherChannel default configuration.

Table 6-2: Fast EtherChannel and Gigabit EtherChannel Default Configuration

Feature	Default Value
Fast EtherChannel	Disabled on all Fast Ethernet ports (auto mode)
Gigabit EtherChannel	Disabled on all Gigabit Ethernet ports (auto mode)

Hardware Support for EtherChannel

Table 6-3 shows the Catalyst  5000, 4000, 2926G, and 2926 series switch hardware that supports Fast EtherChannel.

Gigabit Ethernet ports on the Catalyst  4000 and 2948G series switches, and the Catalyst 5000 series Gigabit EtherChannel switching module (WS-X5410) support Gigabit EtherChannel.

Table 6-3: Fast EtherChannel Hardware Support (Catalyst  5000, 4000, 2948G, 2926G, and 2926 Series Switches)

Fast EtherChannel-Capable Hardware	Product Numbers
Catalyst 5000 Series Switches
Supervisor Engine II modules, dual-port	WS-X5505 WS-X5506 WS-X5509 WS-X5530
Supervisor Engine III 10/100 Fast Ethernet uplink modules, dual-port	WS-U5531-FETX WS-U5533-FEFX-MMF WS-U5535-FEFX-SMF
Supervisor Engine III 10/100 Fast Ethernet uplink module, 4-port	WS-U5537-FETX
10/100BaseTX Fast EtherChannel switching module, 12-port	WS-X5203
100BaseFX Fast EtherChannel switching module, 12-port	WS-X5201
100BaseFX Backbone Fast EtherChannel switching module, 12-port	WS-X5201R
10/100BaseTX Backbone Fast EtherChannel switching module, 24-port	WS-X5225R
Catalyst 4000 Series Switches
All 10/100-Mbps Fast Ethernet ports	Various
Catalyst 2948G Series Switches
All 10/100-Mbps Fast Ethernet ports	Various
Catalyst 2926G Series Switches
24 100BaseTX Fast Ethernet ports on Catalyst 2926GS and 2926GL switches	WS-C2926GS WS-C2926GL
Catalyst 2926 Series Switches
Two 100BaseTX Fast Ethernet uplink ports on Catalyst 2926T	WS-C2926T
Two 100BaseFX Fast Ethernet uplink ports on Catalyst 2926F	WS-C2926F

EtherChannel Configuration Guidelines and Restrictions

These sections describe restrictions that apply and guidelines to follow when configuring Fast or Gigabit EtherChannel:

• General EtherChannel Configuration Guidelines

• Fast EtherChannel Configuration Restrictions

• Gigabit EtherChannel Configuration Restrictions

General EtherChannel Configuration Guidelines

If improperly configured, some Fast EtherChannel or Gigabit EtherChannel ports are disabled automatically to avoid network loops and other problems. Use the following guidelines to avoid configuration problems:

• Assign all ports in a channel to the same VLAN, or configure them as trunk ports.

• If you configure the channel as a trunk, configure the same trunk mode on all the ports in the channel, on both ends of the link. Configuring ports in a channel in different trunk modes can have unexpected results.

• Configure all ports in a channel to operate at the same speed and duplex mode (full or half duplex).

• If you configure a broadcast limit on the ports, configure the broadcast limit as a percentage limit for the channeled ports. With a packets-per-second broadcast limit, unicast packets might get dropped for one second when the broadcast limit is exceeded.

• If the channel is composed of trunk ports, you must configure the same allowed VLAN range on all the ports. When the allowed VLAN range is not the same for all trunks in a channel, trunk ports on which a particular VLAN is not allowed will drop the packets for that VLAN while ports on which the VLAN is allowed will transmit the traffic. If the allowed VLAN range is not the same on all ports in the channel, the ports do not form a channel when set to the auto or desirable mode with the set port channel command.

• Do not configure the ports in a channel as dynamic VLAN ports. Doing so can adversely affect switch performance.

• Make sure port security is disabled on channeled ports. If you enable port security on a channeled port, the port shuts down when it receives packets with source addresses that do not match the secure address of the port.

• Enable all ports in a channel. If you disable a port in a channel, it is treated as a link failure and its traffic is transferred to one or more of the remaining ports in the channel.

• Ensure that all ports in a channel have the same configuration on both ends of the channel.

• The hardware controlling channeling on the Catalyst 5000 series switches prevents certain ports or groups of ports from forming channels. For more information, refer to the "Fast EtherChannel Configuration Restrictions" section and the "Gigabit EtherChannel Configuration Restrictions" section.

Fast EtherChannel Configuration Restrictions

On all Fast EtherChannel-capable hardware, port groups determine which ports can form a channel. Channels must be composed of contiguous ports from the same port group. A channel cannot have some ports from one group and some ports from another. However, you can configure multiple channels within a single group.

Fast EtherChannel-capable ports are grouped as follows:

• On the Supervisor Engine II, Supervisor Engine III dual-port uplink modules, and the Catalyst  2926 series switch uplinks, the ports form a single group of two ports (1-2)

• On the four-port Supervisor Engine III uplink module, the ports form one group of four ports  (1-4).

• On the 12-port modules, the ports form three groups of four ports each (ports 1-4, 5-8, and  9-12).

• On the 24-port module, the ports form six groups of four ports each (ports 1-4, 5-8, 9-12, 13-16, 17-20, and 21-24).

• On the Catalyst  4000 series 2/32-port module (WS-X4232-GB-RJ), the Fast Ethernet ports form eight groups of four ports each (ports 3-6, 7-10, 11-14, 15-18, 19-22, 23-26, 27-30, and 31-34)

The Supervisor Engine II modules, the Supervisor Engine III dual-port uplink modules, and the Catalyst 2926 series switch uplinks support a single Fast EtherChannel configuration: one two-port channel.

On the other modules, each group of four ports can be channeled in any the following ways:

• One channel of four contiguous ports (for example, ports 1-4 channeled or ports 9-12 channeled)

• Two channels with two contiguous ports in each channel (for example, ports 1-2 channeled and ports 3-4 channeled)

• One channel of the first two contiguous ports in the group with the other two ports in the group not channeled (for example, ports 5-6 channeled and ports 7-8 not channeled)

• One channel of the last two contiguous ports in the group with the first two ports in the group not channeled (for example, ports 3-4 channeled and ports 1-2 not channeled)---This configuration option is supported only on the Catalyst  4000 series modules, the 24 10/100-Mbps ports on the Catalyst  2926G, and the Catalyst  5000 series WS-5201R and WS-5225R modules.

• No ports channeled

Figure 6-1 shows valid and invalid Fast EtherChannel configurations.

Gigabit EtherChannel Configuration Restrictions

On all Gigabit EtherChannel-capable hardware, port groups determine which ports can form a channel. Channels must be composed of contiguous ports from the same port group. A channel cannot have some ports from one group and some ports from another. However, you can configure multiple channels within a single group.

Gigabit EtherChannel-capable ports are grouped as follows:

• On the Catalyst 4000 series 2/32-port module (WS-X4232) and on the Catalyst  2948G switch (WS-C2948), the two Gigabit Ethernet ports form one group of two ports (ports 1-2).

• On the Catalyst  5000 series nine-port Gigabit EtherChannel Switching Module (WS-X5410), the ports form two groups of four ports each (ports 1-4 and 5-8). Port 9 cannot be channeled.

• On the Catalyst 4000 series six-port Gigabit Ethernet module (WS-X4306), the ports form one group of two ports (ports 1-2) and one group of four ports (ports 3-6).

The Gigabit Ethernet ports on the Catalyst 4000 series 2/32-port module (WS-X4232), the two-port group on the Catalyst 4000 series six-port Gigabit Ethernet module (WS-X4306), and the Gigabit Ethernet ports on the Catalyst  2948G switch (WS-C2948) support a single Gigabit EtherChannel configuration: a single two-port channel.

Each group of four ports on the Catalyst  5000 series nine-port Gigabit EtherChannel Switching Module (WS-X5410) and the Catalyst 4000 series six-port Gigabit Ethernet module (WS-X4306) can be channeled in any the following ways:

• One channel of four contiguous ports (for example, ports 1-4 channeled)

• Two channels with two contiguous ports in each channel (for example, ports 1-2 channeled and ports 3-4 channeled)

• One channel of the first two contiguous ports in the group with the last two ports in the group not channeled (for example, ports 1-2 channeled and ports 3-4 not channeled)

• One channel of the last two contiguous ports in the group with the first two ports in the group not channeled (for example, ports 3-4 channeled and ports 1-2 not channeled)

• No ports channeled

Configuring EtherChannel

To configure a Fast EtherChannel or Gigabit EtherChannel bundle, perform this task in privileged mode:

Task	Command
Step 1 If you are unsure which ports you can channel or how the ports are grouped, verify the port groups for the module or switch you are configuring.	show port capabilities [mod_num[/port_num]]
Step 2 Make sure that the ports you want to channel are configured correctly. (Refer to the "EtherChannel Configuration Guidelines and Restrictions" section.)
Step 3 Create a channel on the desired ports.	set port channel mod_num/ports {on | off | auto | desirable}
Step 4 Verify the channeling configuration.	show port channel [mod_num[/port_num]] [info | statistics]

This example shows how to create a two-port Fast EtherChannel bundle and verify the configuration:

Console> (enable) set port channel 1/1-2 on
Port(s) 1/1-2 channel mode set to on.
Console> (enable) 06/30/1998,17:09:32:PAGP-5:Port 1/1 left bridge port 1/1.
06/30/1998,17:09:32:PAGP-5:Port 1/2 left bridge port 1/2.
06/30/1998,17:09:33:PAGP-5:Port 1/1 joined bridge port 1/1-2.
06/30/1998,17:09:33:PAGP-5:Port 1/2 joined bridge port 1/1-2.
Console> (enable) show port channel
Port  Status     Channel   Channel     Neighbor                  Neighbor
                 mode      status      device                    port
----- ---------- --------- ----------- ------------------------- ---------- 
 1/1  connected  on        channel     WS-C2926    007475320     1/1       
 1/2  connected  on        channel     WS-C2926    007475320     1/2       
----- ---------- --------- ----------- ------------------------- ---------- 
Console> (enable)
 

To return a Fast EtherChannel or Gigabit EtherChannel bundle to its default configuration, perform this task in privileged mode:

Task	Command
Step 1 Return a channel to its default configuration (you must perform this task on both sides of the channel).	set port channel port_list auto
Step 2 Verify the configuration.	show port channel [mod_num[/port_num]] [info | statistics]

This example shows how to return a channel to its default configuration and how to verify the configuration:

Console> (enable) set port channel 1/1-2 auto
Port(s) 1/1-2 channel mode set to auto.
Console> (enable) show port channel
No ports channelling
Console> (enable)
 

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