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Diffstat (limited to 'docs/configexamples')
-rw-r--r-- | docs/configexamples/wan-load-balancing.rst | 25 |
1 files changed, 13 insertions, 12 deletions
diff --git a/docs/configexamples/wan-load-balancing.rst b/docs/configexamples/wan-load-balancing.rst index cd150121..ace9a981 100644 --- a/docs/configexamples/wan-load-balancing.rst +++ b/docs/configexamples/wan-load-balancing.rst @@ -1,3 +1,5 @@ +:lastproofread: 2021-06-29 + .. _wan-load-balancing: .. stop_vyoslinter # pictures and text have to change @@ -65,21 +67,20 @@ Configure the WAN load balancer with the parameters described above: Example 2: Failover based on interface weights ---------------------------------------------- -This examples uses the failover mode. - +This example uses the failover mode. .. _wan:example2_overwiew: Overview ^^^^^^^^ -In this example eth0 is the primary interface and eth1 is the secondary -interface to provide simple failover functionality. If eth0 fails, eth1 +In this example, eth0 is the primary interface and eth1 is the secondary +interface. To provide simple failover functionality. If eth0 fails, eth1 takes over. Create interface weight based configuration ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ The configuration steps are the same as in the previous example, except -rule 10 so we keep the configuration, remove rule 10 and add a new rule +rule 10. So we keep the configuration, remove rule 10 and add a new rule for the failover mode: .. code-block:: none @@ -93,8 +94,8 @@ for the failover mode: Example 3: Failover based on rule order --------------------------------------- -The previous example used the failover command to send traffic thorugh -eth1 if eth0 fails. In this example failover functionality is provided +The previous example used the failover command to send traffic through +eth1 if eth0 fails. In this example, failover functionality is provided by rule order. .. _wan:example3_overwiew: @@ -108,7 +109,7 @@ directing traffic to eth1. Create rule order based configuration ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ -We keep the configurtation from the previous example, delete rule 10 +We keep the configuration from the previous example, delete rule 10 and create the two new rules as described: .. code-block:: none @@ -122,20 +123,20 @@ and create the two new rules as described: Example 4: Failover based on rule order - priority traffic ---------------------------------------------------------- -A rule order for prioritising traffic is useful in scenarios where the +A rule order for prioritizing traffic is useful in scenarios where the secondary link has a lower speed and should only carry high priority traffic. It is assumed for this example that eth1 is connected to a -slower connection than eth0 and should prioritise VoIP traffic. +slower connection than eth0 and should prioritize VoIP traffic. .. _wan:example4_overwiew: Overview ^^^^^^^^ -A rule order for prioritising traffic is useful in scenarios where the +A rule order for prioritizing traffic is useful in scenarios where the secondary link has a lower speed and should only carry high priority traffic. It is assumed for this example that eth1 is connected to a -slower connection than eth0 and should prioritise VoIP traffic. +slower connection than eth0 and should prioritize VoIP traffic. Create rule order based configuration with low speed secondary link ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ |