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11.2.4. Channel Bonding Interfaces
Red Hat Enterprise Linux allows administrators to bind multiple network interfaces together into a single channel using the
bonding
kernel module and a special network interface called a channel bonding interface. Channel bonding enables two or more network interfaces to act as one, simultaneously increasing the bandwidth and providing redundancy.
Warning
The use of direct cable connections without network switches is not supported for bonding. The failover mechanisms described here will not work as expected without the presence of network switches. See the Red Hat Knowledgebase article Why is bonding in not supported with direct connection using crossover cables? for more information.
Note
The active-backup, balance-tlb and balance-alb modes do not require any specific configuration of the switch. Other bonding modes require configuring the switch to aggregate the links. For example, a Cisco switch requires EtherChannel for Modes 0, 2, and 3, but for Mode 4 LACP and EtherChannel are required. See the documentation supplied with your switch and the
bonding.txt
file in the kernel-doc package (see Section 31.9, “Additional Resources”).
11.2.4.1. Check if Bonding Kernel Module is Installed
In Red Hat Enterprise Linux 6, the bonding module is not loaded by default. You can load the module by issuing the following command as
root
:
~]# modprobe --first-time bonding
No visual output indicates the module was not running and has now been loaded. This activation will not persist across system restarts. See Section 31.7, “Persistent Module Loading” for an explanation of persistent module loading. Note that given a correct configuration file using the BONDING_OPTS
directive, the bonding module will be loaded as required and therefore does not need to be loaded separately.
To display information about the module, issue the following command:
~]$ modinfo bonding
See the modprobe(8)
man page for more command options and see Chapter 31, Working with Kernel Modules for information on loading and unloading modules.
11.2.4.2. Create a Channel Bonding Interface
To create a channel bonding interface, create a file in the
/etc/sysconfig/network-scripts/
directory called ifcfg-bondN
, replacing N with the number for the interface, such as 0
.
The contents of the file can be identical to whatever type of interface is getting bonded, such as an Ethernet interface. The only difference is that the
DEVICE
directive is bondN
, replacing N with the number for the interface. The NM_CONTROLLED
directive can be added to prevent NetworkManager from configuring this device.
Example 11.1. Example ifcfg-bond0 interface configuration file
The following is an example of a channel bonding interface configuration file:
DEVICE=bond0 IPADDR=192.168.1.1 NETMASK=255.255.255.0 ONBOOT=yes BOOTPROTO=none USERCTL=no NM_CONTROLLED=no BONDING_OPTS="bonding parameters separated by spaces"
The MAC address of the bond will be taken from the first interface to be enslaved. It can also be specified using the HWADDR directive if required. If you want NetworkManager to control this interface, remove the
NM_CONTROLLED=no
directive, or set it to yes
, and add TYPE=Bond
and BONDING_MASTER=yes
.
After the channel bonding interface is created, the network interfaces to be bound together must be configured by adding the
MASTER
and SLAVE
directives to their configuration files. The configuration files for each of the channel-bonded interfaces can be nearly identical.
Example 11.2. Example ifcfg-ethX bonded interface configuration file
If two Ethernet interfaces are being channel bonded, both
eth0
and eth1
can be as follows:
DEVICE=ethX BOOTPROTO=none ONBOOT=yes MASTER=bond0 SLAVE=yes USERCTL=no NM_CONTROLLED=no
In this example, replace X with the numerical value for the interface.
Once the interfaces have been configured, restart the network service to bring the bond up. As
root
, issue the following command:
~]# service network restart
To view the status of a bond, view the
/proc/
file by issuing a command in the following format: cat /proc/net/bonding/bondNFor example:
~]$ cat /proc/net/bonding/bond0
Ethernet Channel Bonding Driver: v3.6.0 (September 26, 2009)
Bonding Mode: load balancing (round-robin)
MII Status: down
MII Polling Interval (ms): 0
Up Delay (ms): 0
Down Delay (ms): 0
For further instructions and advice on configuring the bonding module and to view the list of bonding parameters, see Section 31.8.1, “Using Channel Bonding”.
Support for bonding was added to NetworkManager in Red Hat Enterprise Linux 6.3. See Section 11.2.1, “Ethernet Interfaces” for an explanation of
NM_CONTROLLED
and the NM_BOND_VLAN_ENABLED
directive.
Important
In Red Hat Enterprise Linux 6, interface-specific parameters for the bonding kernel module must be specified as a space-separated list in the
BONDING_OPTS="bonding parameters"
directive in the ifcfg-bondN
interface file. Do not specify options specific to a bond in /etc/modprobe.d/bonding.conf
, or in the deprecated /etc/modprobe.conf
file.
The
max_bonds
parameter is not interface specific and therefore, if required, should be specified in /etc/modprobe.d/bonding.conf
as follows:
options bonding max_bonds=1However, the
max_bonds
parameter should not be set when using ifcfg-bondN
files with the BONDING_OPTS
directive as this directive will cause the network scripts to create the bond interfaces as required.
Note that any changes to
/etc/modprobe.d/bonding.conf
will not take effect until the module is next loaded. A running module must first be unloaded. See Chapter 31, Working with Kernel Modules for more information on loading and unloading modules.
11.2.4.2.1. Creating Multiple Bonds
In Red Hat Enterprise Linux 6, for each bond a channel bonding interface is created including the
BONDING_OPTS
directive. This configuration method is used so that multiple bonding devices can have different configurations. To create multiple channel bonding interfaces, proceed as follows:
- Create multiple
ifcfg-bondN
files with theBONDING_OPTS
directive; this directive will cause the network scripts to create the bond interfaces as required. - Create, or edit existing, interface configuration files to be bonded and include the
SLAVE
directive. - Assign the interfaces to be bonded, the slave interfaces, to the channel bonding interfaces by means of the
MASTER
directive.
Example 11.3. Example multiple ifcfg-bondN interface configuration files
The following is an example of a channel bonding interface configuration file:
DEVICE=bondN IPADDR=192.168.1.1 NETMASK=255.255.255.0 ONBOOT=yes BOOTPROTO=none USERCTL=no NM_CONTROLLED=no BONDING_OPTS="bonding parameters separated by spaces"
In this example, replace N with the number for the bond interface. For example, to create two bonds create two configuration files,
ifcfg-bond0
and ifcfg-bond1
.
Create the interfaces to be bonded as per Example 11.2, “Example ifcfg-ethX bonded interface configuration file” and assign them to the bond interfaces as required using the
MASTER=bondN
directive. For example, continuing on from the example above, if two interfaces per bond are required, then for two bonds create four interface configuration files and assign the first two using MASTER=bond0
and the next two using MASTER=bond1
.