Basic FortiGate-6000 HA configuration
Use the following steps to set up HA between two FortiGate-6000s. To configure HA, you assign a chassis ID (1 and 2) to each of the FortiGate-6000s. These IDs allow the FGCP to identify the chassis and do not influence primary FortiGate selection. Before you start, determine which FortiGate-6000 should be chassis 1 and which should be chassis 2.
Make sure you give each FortiGate-6000 a different chassis ID. If both FortiGate-6000s in a cluster are configured with the same chassis ID, both chassis begin operating in HA mode without forming a cluster. A message similar to the following is displayed on the CLI console of both devices: HA cannot be formed because this box's chassis-id 1 is the same from the HA peer 'F76E9D3E17000001' chassis-id 1. As well, a log message similar to the following is created: Jan 29 16:29:46 10.160.45.70 date=2020-01-29 time=16:29:51 devname="CH-02" devid="F76E9D3E17000001" slot=1 logid="0108037904" type="event" subtype="ha" level="error" vd="mgmt-vdom" eventtime=1580344192162305962 tz="-0800" logdesc="Device set as HA primary" msg="HA group detected chassis-id conflict" ha_group=7 sn="F76E9DT018900001 chassis-id=1" You can resolve this issue by logging into one of the FortiGate-6000s and changing its Chassis ID to 2. When this happens, the two chassis will form a cluster. Also, if you are setting up a cluster of FortiGate-6301Fs or 6501Fs, before you configure HA, consider using the |
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Set up HA heartbeat communication as described in Connect the HA1 and HA2 interfaces for HA heartbeat communication.
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Log into the GUI or CLI of the FortiGate-6000 that will become chassis 1.
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Use the following CLI command to change the host name. This step is optional, but setting a host name makes the FortiGate-6000 easier to identify after the cluster has formed.
config system global
set hostname 6K-Chassis-1
end
From the GUI you can configure the host name by going to System > Settings and changing the Host name.
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Enter the following command to configure basic HA settings for the chassis 1 FortiGate-6000.
config system ha
set group-id 6
set group-name My-6K-cluster
set mode a-p
set hbdev ha1 50 ha2 100
set chassis-id 1
set password <password>
end
From the GUI you can configure HA by going to System > HA. Set the Mode to Active-Passive, set the Group Name, add a Password, select the Chassis identifier (or chassis ID), and set the Heartbeat Interface Priority for the heartbeat interfaces (HA1 and HA2). You must configure the group ID from the CLI.
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If you are connecting the HA heartbeat interfaces together with a switch, change the HA heartbeat VLAN IDs, for example:
config system ha
set hbdev-vlan-id 4091
set hbdev-second-vlan-id 4092
end
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Log into the chassis 2 FortiGate-6000 and configure its host name, for example:
config system global
set hostname 6K-Chassis-2
end
From the GUI you can configure the host name by going to System > Settings and changing the Host name.
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Enter the following command to configure basic HA settings. The configuration must be the same as the chassis 1 configuration, except for the chassis ID.
config system ha
set group-id 6
set group-name My-6K-cluster
set mode a-p
set hbdev ha1 50 ha2 100
set chassis-id 2
set password <password>
end
From the GUI you can configure HA by going to System > HA. Set the Mode to Active-Passive, set the Group Name, add a Password, select the Chassis identifier, and set the Heartbeat Interface Priority for the heartbeat interfaces (HA1 and HA2). You must configure the group ID from the CLI.
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If you are connecting the HA heartbeat interfaces together with a switch, change the HA heartbeat VLAN IDs, for example:
config system ha
set hbdev-vlan-id 4091
set hbdev-second-vlan-id 4092
end
Once you save your configuration changes, if the HA heartbeat interfaces are connected, the FortiGate-6000s negotiate to establish a cluster. You may temporarily lose connectivity with the FortiGate-6000s as the cluster negotiates and the FGCP changes the MAC addresses of the FortiGate-6000 interfaces.
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Log into the cluster and view the HA Status dashboard widget or enter the
get system ha status
command to confirm that the cluster has formed and is operating normally.If the cluster is operating normally, you can connect network equipment, add your configuration, and start operating the cluster.
Verifying that the cluster is operating normally
You view the cluster status from the HA Status dashboard widget, by going to System > HA, or by using the get system ha status
command.
If the HA Status widget or the get system ha status
command shows a cluster has not formed, check the HA heartbeat connections. They should be configured as described in Connect the HA1 and HA2 interfaces for HA heartbeat communication.
You should also review the HA configurations of the FortiGate-6000s. When checking the configurations, make sure both FortiGate-6000s have the same HA configuration, including identical HA group IDs, group names, passwords, and HA heartbeat VLAN IDs. Also make sure the FortiGate-6000s have different chassis IDs.
The following example FortiGate-6000 get system ha status
output shows a FortiGate-6000 cluster that is operating normally. The output shows which FortiGate-6000 has become the primary FortiGate-6000 and how it was chosen. You can also see CPU and memory use data, HA heartbeat VLAN IDs, Chassis ID, and so on.
get system ha status HA Health Status: OK Model: FortiGate-6000F Mode: HA A-P Group Name: My-6K-cluster Group ID : 6 Debug: 0 Cluster Uptime: 0 days 12:42:5 Cluster state change time: 2019-02-24 16:26:30 Primary selected using: <2019/02/24 16:26:30> F6KF31T018900143 is selected as the primary because it has the largest value of serialno. ses_pickup: disable override: disable Configuration Status: F6KF31T018900143(updated 3 seconds ago): in-sync F6KF31T018900143 chksum dump: 7c 74 ce 81 83 c0 54 c1 01 1d 4f a9 c9 fd 17 df F6KF51T018900022(updated 4 seconds ago): in-sync F6KF51T018900022 chksum dump: 7c 74 ce 81 83 c0 54 c1 01 1d 4f a9 c9 fd 17 df System Usage stats: F6KF31T018900143(updated 4 seconds ago): sessions=198, average-cpu-user/nice/system/idle=1%/0%/0%/97%, memory=5% F6KF51T018900022 (updated 0 seconds ago): sessions=0, average-cpu-user/nice/system/idle=2%/0%/0%/96%, memory=6% HBDEV stats: F6KF31T018900143(updated 4 seconds ago): ha1: physical/10000full, up, rx-bytes/packets/dropped/errors=227791977/902055/0/0, tx=85589814/300318/0/0, vlan-id=4091 ha2: physical/10000full, up, rx-bytes/packets/dropped/errors=227791977/902055/0/0, tx=85589814/300318/0/0, vlan-id=4092 F6KF51T018900022(updated 0 seconds ago): ha1: physical/10000full, up, rx-bytes/packets/dropped/errors=0/0/0/0, tx=85067/331/0/0, vlan-id=4091 ha2: physical/10000full, up, rx-bytes/packets/dropped/errors=947346/3022/0/0, tx=206768/804/0/0, vlan-id=4092 Primary: 6K-Chassis-1 , F6KF31T018900143, cluster index = 0 Secondary: 6K-Chassis-2 , F6KF51T018900022, cluster index = 1 number of vcluster: 1 vcluster 1: work 10.101.11.20 Primary: F6KF31T018900143, operating cluster index = 0 Secondary: F6KF51T018900022, operating cluster index = 1 Chassis Status: (Local chassis ID: 2) Chassis ID 1: Secondary Chassis Slot ID 1: Primary Slot Slot ID 2: Secondary Slot Chassis ID 2: Primary Chassis Slot ID 1: Primary Slot Slot ID 2: Secondary Slot