11.32. LPAR Operations¶
This section will describe the support of LPAR VMs.
11.32.1. Support Changes¶
In the v4.7.0 and beyond releases, RackN DRP supports the ppc64le architecture for Linux operating systems.
This includes the server, client, and booting virtual machines. The DRP endpoint and client has been update to run in the ppc64le linux environment. The install script also supports this as well. These system work the same way as the other architectures.
The new feature to support LPAR vms in DRP. The LPAR VM once created can be network booted, discovered, and installed. The following section will describe the configuration changes to support LPAR VMs.
NOTE: You must get the latest sledgehammer for ppc64le.
11.32.2. LPAR Configuration¶
The LPAR VM can only network boot from BOOTP. This requires that a reservation be created in DRP to boot the machine. Once the LPAR VM has been created, the HMC can be queried to get the MAC address. The only requirement for the Reservation is to set the bootfile to core.elf.
In the following example, there is an LPAR VM with a mac address, fa8b9f59bd20 and its address is 220.127.116.11.
Addr: 18.104.22.168 Token: 'fa:8b:9f:59:bd:20' Options: - Code: 67 Value: core.elf Strategy: MAC
With that in place, issuing a netboot command for the LPAR VM from the HMC will cause the system to boot sledgehammer and discover the system.
lpar_netboot -f -t ent -m fa8b9f59bd20 -s auto -d auto b1p052_Target-8c0bd1b0-0000084e default_profile Server-8247-22L-SN212169A
To add IPMI-like operations for the LPAR VM, setting the following parameters will allow the LPAR VM to be controlled by IPMI operations.
ipmi/address = HMC address
ipmi/username = HMC access username
ipmi/password = HMC access password
ipmi/lpar-id = The UUID of the LPAR VM from the HMC. e.g: 48EB2A9F-6028-41C6-8D2F-6A539361BB29
With these in place, you can powercycle, powerstatus, poweron, and poweroff the LPAR VM.
Currently, only sledgehammer and centos8 have been updated to support ppc64le.