The Kemp Virtual LoadMaster is a version of the Kemp LoadMaster that runs as a virtual machine within a hypervisor and can provide all the features and functions of a hardware-based LoadMaster.
This document describes the installation of the Virtual LoadMaster (VLM) within a Microsoft Hyper-V environment. The VLM has been tested with Windows Server 2008 R2, Windows Server 2012, Windows Server 2012 R2, Windows 8, Hyper-V 2016, and Hyper-V 2019.
The Microsoft Hyper-V virtual machine guest environment for the VLM, at minimum, must include:
- 2 x virtual processors
- 2 GB RAM
- 16 GB virtual hard disk capacity
- At least one Network Interface Card (NIC)
Multiple NICs can be used, but these are supported only by the larger Microsoft Azure VM sizes and must be added when the VM is created. For further details, refer to the Microsoft Azure documentation.
There may be maximum configuration limits imposed by Hyper-V such as maximum RAM per VM, Virtual NICs per VM and so on. For further details regarding the configuration limits imposed by Microsoft Hyper-V, please refer to the relevant Microsoft Hyper-V documentation.
The following instructions describe how to install a Virtual LoadMaster on a Hyper-V environment using the Hyper-V Manager.
In case you move a VLM system to a different Virtual Machine, ensure that the MAC addresses of the Virtual Machine's NICs stay the same.
Static MAC addresses must be configured for all NICs within Virtual Machines.
For further information on configuring static MAC addresses, please refer to the relevant Hyper-V documentation.
The VLM is packaged within a .vhd file for ease of deployment. This file can be freely downloaded from Kemp for a 30 day evaluation period. To download the VLM please follow the instructions below:
2. Click the Download Now button.
3. Within the Select your hypervisor section, select the relevant option for Microsoft Hyper-V.
4. Select your country from the drop-down list provided.
5. Read the End User License Agreement.
6. To proceed with the download, ensure the I agree to the End User License Agreement terms check box is ticked.
7. Click the Download button.
8. Unzip the contents of the zip file to an accessible location.
To create the VLM, use the New Virtual Machine function within the Hyper-V Manager:
1. Open the Hyper-V Manager and select the relevant server node in the left panel.
2. Click New in the Actions column and select Virtual Machine from the list.
3. Click Next then type the name of the virtual machine and click Next.
4. Select Generation 1 and click Next.
The LoadMaster Operating System (LMOS) does not support the use of Generation 2 configured virtual machines.
5. Specify the amount of memory to allocate to the virtual machine then click Next.
6. Configure your networking connection then click Next.
7. Click Browse. Navigate to the location where the .vhd file is saved and select it.
8. The LoadMaster instance should be completed and should now appear within the Virtual Machines pane in the Hyper-V Manager.
Please verify that the Virtual Machine settings are configured with the following minimum values:
- 2 x virtual processors
- 2 GB RAM
- 16 GB virtual hard disk capacity
Once the VLM has been deployed it can be powered on:
1. Right-click the Virtual Machine that was imported within the Virtual Machines pane.
2. Click Start.
The VLM should begin to boot up.
3. Right-click the VLM and select Connect to open the console window.
On initial deployment, DHCPv4 and DHCPv6 both run to attempt to obtain an IP address. If the LoadMaster obtains an IP address using DHCP, take note of it because this is how you will access the LoadMaster.
If the LoadMaster does not obtain an IP address using DHCP the static IP address of 192.168.1.101 is assigned and the LoadMaster must be manually configured using the console.
Refer to the Configuring the LoadMaster Using the Console section for instructions on manually configuring the IP address.
The LoadMaster must now be configured to operate within the network configuration.
1. In an internet browser, enter the IP address that was previously noted.
Ensure to enter https:// before the IP address.
2. A warning may appear regarding website security certificates. Please click the continue/ignore option.
3. The LoadMaster End User License Agreement screen appears.
Please read the license agreement and, if you are willing to accept the conditions therein, click on the Agree button to proceed.
4. If using the Online licensing method, fill out the fields and click License Now.
If you are starting with a trial license, there is no need to enter an Order ID. If you are starting with a permanent license, enter the Kemp Order ID# if this was provided to you.
If using the Offline Licensing method, select Offline Licensing, obtain the license text, paste it into the License field and click Apply License.
For detailed instructions on how to register for a Kemp ID and license the LoadMaster, refer to the Licensing, Feature Description on the Kemp Documentation Page.
5. If you entered an Order ID, a screen appears that provides a list of available licenses for that order ID, in addition to any licenses registered for the Kemp ID based on the LoadMaster platform type. Select the license type you want to apply to this LoadMaster.
If the license type you want is not displayed, please contact your Kemp representative.
6. Click Continue.
7. The login screen appears, enter the bal user name and the password.
8. In the screen informing you that the password has changed, press the Continue button.
9. If your machine has shipped with a temporary license you should get a warning informing you that a temporary license has been installed on your machine and for how long the license is valid.
10. Click OK .
11. You should now connect to the Home screen of the LoadMaster.
12. Go to System Configuration > Network Setup in the main menu.
13. Click the eth0 menu option within the Interfaces section.
14. In the Network Interface 0 screen, enter the IP address of the eth0 interface, the network facing interface of the LoadMaster, in the Interface Address input field.
15. Click the Set Address button.
16. Click the eth1 menu option within the Interfaces section.
17. In the Network Interface 1 screen, enter the IP address of the eth1 interface, the farm-side interface of the LoadMaster, in the Interface Address input field.
18. Click on the Set Address button.
This interface is optional, depending on the network configuration.
19. Click on the Local DNS Configuration > Hostname Configuration menu option.
20. In the Hostname configuration screen, enter the hostname into the Current Hostname input field.
21. Click the Set Hostname button.
22. Click the Local DNS Configuration > DNS Configuration menu option.
23. In the DNS configuration screen, enter the IP address(es) of the DNS Server(s) which is used to resolve names locally on the LoadMaster into the DNS NameServer input field.
24. Click the Add button.
25. Enter the domain name that is to be prepended to requests to the DNS nameserver into the DNS NameServer input field.
26. Click the Add button.
27. Click the System Configuration > Network Setup > Default Gateway menu option.
28. In the DNS configuration screen, enter the IP address of the default gateway into the IPv4 Default Gateway Address input field.
If you have an IPv6 Default Gateway, please enter the value in the IPv6 Default Gateway Address input field.
29. Click the Set IPv4 Default Gateway button.
The LoadMaster is now fully installed and ready to be used. For further information on how to configure and implement the Virtual LoadMaster, please refer to the LoadMaster documentation which can be downloaded from the page.
If the LoadMaster does not automatically obtain an IP address using DHCP, or if you would prefer to configure the LoadMaster using the console, then the following configuration steps must be completed before starting the LoadMaster.
1. Login into the LoadMaster using the console with the following settings:
- lb100 login: bal
- Password: 1fourall
2. Enter the IP address of the eth0 interface, the network facing interface of the LoadMaster, in the input field within the Network Side Interface Address dialog box.
3. Press OK.
4. Enter the IP address of the default gateway in the input field of the Default Gateway dialog box.
5. Press OK.
6. Once these are set, a prompt will appear asking to connect to the web interface at the newly configured IP address. In an internet browser enter the IP address of the eth0 entered in Step 2.
Ensure to enter https:// before the IP address.
7. A warning may appear regarding website security certificates. Please click the continue/ignore option.
8. The LoadMaster End User License Agreement screen appears.
9. Please read the license agreement and, if willing to accept the conditions therein, click on the Agree button to proceed.
10. If the machine has shipped with a temporary license, a warning will appear informing that a temporary license has been installed on the machine and for how long the license is valid.
11. Click OK.
12. The home screen of the LoadMaster should appear.
The LoadMaster is now fully installed and ready to be used. For further information on how to configure and implement the Virtual LoadMaster, please refer to the LoadMaster documentation which can be found here: https://kemptechnologies.com/documentation.
If you add new Network Adapters to a VLM then they must be of the same Adapter Type as those already configured on the VLM.
If you install a Network Adapters with a different Adapter Type as those already configured on the VLM the VLM will not recognize the new interface.
There is an option in the Virtual Machine Manager called Make this VM highly available. This option is set when the Virtual Machine is placed on a host. Therefore, the option will be grayed out, even when the Virtual Machine is not running. There is a way to work around this problem without having to delete and re-create the Virtual Machine. The Virtual Machine can be migrated. Follow the steps below to do this:
1. Open the Virtual Machine Manager console.
2. Right-click the relevant Virtual Machine that you want to make highly-available and select Migrate.
3. Select the current host from the list for migration.
4. Click Yes to the prompt asking if you want to make the Virtual Machine highly available.
5. The path can be changed if needed. Click Next.
6. Select the network and click Move.
7. Wait for the migration to complete.
If you perform a factory reset on the VLM, all configuration data, including the VLM's IP address is deleted. During the subsequent reboot the VLM attempts to obtain an IP address using DHCP. If the VLM is on a different subnet to the DHCP server then an IP address will not be obtained and the IP address is set to the default 192.168.1.101.
The VLM may not be accessible using this address. If this is the case then you must run through the quick setup using the console as described in the Configuring the LoadMaster Using the Console section.
This is a warning message indicating that the LoadMaster software is too old to run on it and can be ignored. Integration services are used when booting to enable Hyper-V to see that the LoadMaster is running. After this point, it is no longer used.
In some cases, Virtual LoadMasters on Hyper-V using Network Time Protocol (NTP) can experience significant time drift. The load that the host server is under may be a significant factor in the magnitude of the time drift. This can lead to split brain scenarios and unnecessary High Availability (HA) fail-overs. If the Virtual LoadMaster is using NTP, consider disabling the Time synchronization option under the Integration Services section of the Management settings in the Hyper-V Manager.
If one or more bonding interfaces are created on a VLM, observe the following if you use or plan to use Azure Live Migration to move a VLM with minimal downtime:
- The recommended best practice to reduce downtime to a minimum is to bond interfaces at the hypervisor level, not using the LoadMaster Web User Interface (WUI) or API.
- If you instead bond interfaces using the LoadMaster WUI or API, the VLM must be rebooted after the Live Migration is complete to make the bonded interfaces work correctly.
This document was last updated on 23 February 2022.