ephemeral
You can create virtual machines (VMs) from Red Hat templates by using the Red Hat OpenShift Service on AWS web console.
You can expedite VM creation by using templates that have an available boot source. templates with a boot source are labeled Available boot source if they do not have a custom label.
templates without a boot source are labeled Boot source required. See Creating virtual machines from custom images.
You can customize the disk source and VM parameters before you start the VM.
See storage volume types and storage fields for details about disk source settings.
If you copy a VM template with all its labels and annotations, your version of the template is marked as deprecated when a new version of the Scheduling, Scale, and Performance (SSP) Operator is deployed. You can remove this designation. See Customizing a VM template by using the web console. |
Due to differences in storage behavior, some templates are incompatible with single-node OpenShift. To ensure compatibility, do not set the evictionStrategy
field for templates or VMs that use data volumes or storage profiles.
You can create a virtual machine (VM) from a template with an available boot source by using the Red Hat OpenShift Service on AWS web console.
Optional: You can customize template or VM parameters, such as data sources, cloud-init, or SSH keys, before you start the VM.
Navigate to Virtualization → Catalog in the web console.
Click Boot source available to filter templates with boot sources.
The catalog displays the default templates. Click All Items to view all available templates for your filters.
Click a template tile to view its details.
Optional: If you are using a Windows template, you can mount a Windows driver disk by selecting the Mount Windows drivers disk checkbox.
If you do not need to customize the template or VM parameters, click Quick create VirtualMachine to create a VM from the template.
If you need to customize the template or VM parameters, do the following:
Click Customize VirtualMachine.
Expand Storage or Optional parameters to edit data source settings.
Click Customize VirtualMachine parameters.
The Customize and create VirtualMachine pane displays the Overview, YAML, Scheduling, Environment, Network interfaces, Disks, Scripts, and Metadata tabs.
Edit the parameters that must be set before the VM boots, such as cloud-init or a static SSH key.
Click Create VirtualMachine.
The VirtualMachine details page displays the provisioning status.
Type | Description | ||
---|---|---|---|
ephemeral |
A local copy-on-write (COW) image that uses a network volume as a read-only backing store. The backing volume must be a PersistentVolumeClaim. The ephemeral image is created when the virtual machine starts and stores all writes locally. The ephemeral image is discarded when the virtual machine is stopped, restarted, or deleted. The backing volume (PVC) is not mutated in any way. |
||
persistentVolumeClaim |
Attaches an available PV to a virtual machine. Attaching a PV allows for the virtual machine data to persist between sessions. Importing an existing virtual machine disk into a PVC by using CDI and attaching the PVC to a virtual machine instance is the recommended method for importing existing virtual machines into Red Hat OpenShift Service on AWS. There are some requirements for the disk to be used within a PVC. |
||
dataVolume |
Data volumes build on the Specify |
||
cloudInitNoCloud |
Attaches a disk that contains the referenced cloud-init NoCloud data source, providing user data and metadata to the virtual machine. A cloud-init installation is required inside the virtual machine disk. |
||
containerDisk |
References an image, such as a virtual machine disk, that is stored in the container image registry. The image is pulled from the registry and attached to the virtual machine as a disk when the virtual machine is launched. A Only RAW and QCOW2 formats are supported disk types for the container image registry. QCOW2 is recommended for reduced image size.
|
||
emptyDisk |
Creates an additional sparse QCOW2 disk that is tied to the life-cycle of the virtual machine interface. The data survives guest-initiated reboots in the virtual machine but is discarded when the virtual machine stops or is restarted from the web console. The empty disk is used to store application dependencies and data that otherwise exceeds the limited temporary file system of an ephemeral disk. The disk capacity size must also be provided. |
Field | Description |
---|---|
Blank (creates PVC) |
Create an empty disk. |
Import via URL (creates PVC) |
Import content via URL (HTTP or HTTPS endpoint). |
Use an existing PVC |
Use a PVC that is already available in the cluster. |
Clone existing PVC (creates PVC) |
Select an existing PVC available in the cluster and clone it. |
Import via Registry (creates PVC) |
Import content via container registry. |
Name |
Name of the disk. The name can contain lowercase letters ( |
Size |
Size of the disk in GiB. |
Type |
Type of disk. Example: Disk or CD-ROM |
Interface |
Type of disk device. Supported interfaces are virtIO, SATA, and SCSI. |
Storage Class |
The storage class that is used to create the disk. |
The following advanced storage settings are optional and available for Blank, Import via URL, and Clone existing PVC disks.
If you do not specify these parameters, the system uses the default storage profile values.
Parameter | Option | Parameter description | |
---|---|---|---|
Volume Mode |
Filesystem |
Stores the virtual disk on a file system-based volume. |
|
Block |
Stores the virtual disk directly on the block volume. Only use |
||
Access Mode |
ReadWriteOnce (RWO) |
Volume can be mounted as read-write by a single node. |
|
ReadWriteMany (RWX) |
Volume can be mounted as read-write by many nodes at one time.
|
You can customize an existing virtual machine (VM) template by modifying the VM or template parameters, such as data sources, cloud-init, or SSH keys, before you start the VM. If you customize a template by copying it and including all of its labels and annotations, the customized template is marked as deprecated when a new version of the Scheduling, Scale, and Performance (SSP) Operator is deployed.
You can remove the deprecated designation from the customized template.
Navigate to Virtualization → templates in the web console.
From the list of VM templates, click the template marked as deprecated.
Click Edit next to the pencil icon beside Labels.
Remove the following two labels:
template.kubevirt.io/type: "base"
template.kubevirt.io/version: "version"
Click Save.
Click the pencil icon beside the number of existing Annotations.
Remove the following annotation:
template.kubevirt.io/deprecated
Click Save.