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  • NIC bonding

    Bonding is the same as port trunking. In the following I will use the word bonding because practically we will bond interfaces as one. Bonding allows you to aggregate multiple ports into a single group, effectively combining the bandwidth into a single connection. Bonding also allows you to create multi-gigabit pipes to transport traffic through the highest traffic areas of your network. For example, you can aggregate three megabits ports into a three-megabits trunk port. That is equivalent with having one interface with three megabytes speed.

    Where should I use bonding?

    You can use it wherever you need redundant links, fault tolerance or load balancing networks. It is the best way to have a high availability network segment. A very useful way to use bonding is to use it in connection with 802.1q VLAN support (your network equipment must have 802.1q protocol implemented).

    Diverse modes of bonding:

    mode=1 (active-backup)

    Active-backup policy: Only one slave in the bond is active. A different slave becomes active if, and only if, the active slave fails. The bond's MAC address is externally visible on only one port (network adapter) to avoid confusing the switch. This mode provides fault tolerance. The primary option affects the behavior of this mode.

    mode=2 (balance-xor)

    XOR policy: Transmit based on [(source MAC address XOR'd with destination MAC address) modulo slave count]. This selects the same slave for each destination MAC address. This mode provides load balancing and fault tolerance.

    mode=3 (broadcast)

    Broadcast policy: transmits everything on all slave interfaces. This mode provides fault tolerance.

    mode=4 (802.3ad)

    IEEE 802.3ad Dynamic link aggregation. Creates aggregation groups that share the same speed and duplex settings. Utilizes all slaves in the active aggregator according to the 802.3ad specification.

    Prerequisites:

    Ethtool support in the base drivers for retrieving the speed and duplex of each slave.

    A switch that supports IEEE 802.3ad Dynamic link aggregation. Most switches will require some type of configuration to enable 802.3ad mode.

    mode=5 (balance-tlb)

    Adaptive transmit load balancing: channel bonding that does not require any special switch support. The outgoing traffic is distributed according to the current load (computed relative to the speed) on each slave. Incoming traffic is received by the current slave. If the receiving slave fails, another slave takes over the MAC address of the failed receiving slave.

    Prerequisite: Ethtool support in the base drivers for retrieving the speed of each slave.

    mode=6 (balance-alb)

    Adaptive load balancing: includes balance-tlb plus receive load balancing (rlb) for IPV4 traffic, and does not require any special switch support. The receive load balancing is achieved by ARP negotiation. The bonding driver intercepts the ARP Replies sent by the local system on their way out and overwrites the source hardware address with the unique hardware address of one of the slaves in the bond such that different peers use different hardware addresses for the server.

    Also you can use multiple bond interface but for that you must load the bonding module as many as you need.

    Step #1: Create a bond0 configuration file

    Red Hat Linux stores network configuration in /etc/sysconfig/network-scripts/ directory. First, you need to create bond0 config file:

    # vi /etc/sysconfig/network-scripts/ifcfg-bond0

    Append following lines to it:

    DEVICE=bond0

    IPADDR=192.168.1.20

    NETWORK=192.168.1.0

    NETMASK=255.255.255.0

    USERCTL=no

    BOOTPROTO=none

    ONBOOT=yes

    Replace above IP address with your actual IP address. Save file and exit to shell prompt.

    Step #2: Modify eth0 and eth1 config files:

    Open both configuration using vi text editor and make sure file read as follows for eth0 interface

    # vi /etc/sysconfig/network-scripts/ifcfg-eth0

    Modify/append directive as follows:

    DEVICE=eth0

    USERCTL=no

    ONBOOT=yes

    MASTER=bond0

    SLAVE=yes

    BOOTPROTO=none

    Open eth1 configuration file using vi text editor:

    # vi /etc/sysconfig/network-scripts/ifcfg-eth1

    Make sure file read as follows for eth1 interface:

    DEVICE=eth1

    USERCTL=no

    ONBOOT=yes

    MASTER=bond0

    SLAVE=yes

    BOOTPROTO=none

     

    Save file and exit to shell prompt.

    Step # 3: Load bond driver/module

    Make sure bonding module is loaded when the channel-bonding interface (bond0) is brought up. You need to modify kernel modules configuration file:

    # vi /etc/modprobe.conf

    Append following two lines:

    alias bond0 bonding

    options bond0 mode=balance-alb miimon=100

     

    Save file and exit to shell prompt. You can learn more about all bounding options in kernel source documentation file (click here to read file online).

    Step # 4: Test configuration

    First, load the bonding module:

    # modprobe bonding

    Restart networking service in order to bring up bond0 interface:

    # service network restart

    Verify everything is working:

    # less /proc/net/bonding/bond0

    Output:

    Bonding Mode: load balancing (round-robin)

    MII Status: up

    MII Polling Interval (ms): 0

    Up Delay (ms): 0

    Down Delay (ms): 0

    Slave Interface: eth0

    MII Status: up

    Link Failure Count: 0

    Permanent HW addr: 00:0c:29:c6:be:59

    Slave Interface: eth1

    MII Status: up

    Link Failure Count: 0

    Permanent HW addr: 00:0c:29:c6:be:63

     

    List all interfaces:

    # ifconfig

    Output:

    bond0     Link encap:Ethernet  HWaddr 00:0C:29:C6:BE:59

     inet addr:192.168.1.20  Bcast:192.168.1.255  Mask:255.255.255.0

     inet6 addr: fe80::200:ff:fe00:0/64 Scope:Link

     UP BROADCAST RUNNING MASTER MULTICAST  MTU:1500  Metric:1

     RX packets:2804 errors:0 dropped:0 overruns:0 frame:0

     TX packets:1879 errors:0 dropped:0 overruns:0 carrier:0

     collisions:0 txqueuelen:0

     RX bytes:250825 (244.9 KiB)  TX bytes:244683 (238.9 KiB)

    eth0      Link encap:Ethernet  HWaddr 00:0C:29:C6:BE:59

     inet addr:192.168.1.20  Bcast:192.168.1.255  Mask:255.255.255.0

     inet6 addr: fe80::20c:29ff:fec6:be59/64 Scope:Link

     UP BROADCAST RUNNING SLAVE MULTICAST  MTU:1500  Metric:1

     RX packets:2809 errors:0 dropped:0 overruns:0 frame:0

     TX packets:1390 errors:0 dropped:0 overruns:0 carrier:0

     collisions:0 txqueuelen:1000

     RX bytes:251161 (245.2 KiB)  TX bytes:180289 (176.0 KiB)

     Interrupt:11 Base address:0x1400

    eth1      Link encap:Ethernet  HWaddr 00:0C:29:C6:BE:59

     inet addr:192.168.1.20  Bcast:192.168.1.255  Mask:255.255.255.0

     inet6 addr: fe80::20c:29ff:fec6:be59/64 Scope:Link

     UP BROADCAST RUNNING SLAVE MULTICAST  MTU:1500  Metric:1

     RX packets:4 errors:0 dropped:0 overruns:0 frame:0

     TX packets:502 errors:0 dropped:0 overruns:0 carrier:0

     collisions:0 txqueuelen:1000

     RX bytes:258 (258.0 b)  TX bytes:66516 (64.9 KiB)

     Interrupt:10 Base address:0x1480

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  • 原文地址:https://www.cnblogs.com/CasonChan/p/5144759.html
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