$ cat > Dockerfile << EOF
FROM registry.access.redhat.com/ubi8/ubi:latest AS builder
ADD --chown=107:107 <vm_image>.qcow2 /disk/ (1)
RUN chmod 0440 /disk/*
FROM scratch
COPY --from=builder /disk/* /disk/
EOF
You can create virtual machines (VMs) by using container disks built from operating system images.
You can enable auto updates for your container disks. See Managing automatic boot source updates for details.
If the container disks are large, the I/O traffic might increase and cause worker nodes to be unavailable. You can prune |
You create a VM from a container disk by performing the following steps:
Build an operating system image into a container disk and upload it to your container registry.
If your container registry does not have TLS, configure your environment to disable TLS for your registry.
Create a VM with the container disk as the disk source by using the web console or the command line.
You must install the QEMU guest agent on VMs created from operating system images that are not provided by Red Hat. |
You can build a virtual machine (VM) image into a container disk and upload it to a registry.
The size of a container disk is limited by the maximum layer size of the registry where the container disk is hosted.
For Red Hat Quay, you can change the maximum layer size by editing the YAML configuration file that is created when Red Hat Quay is first deployed. |
You must have podman
installed.
You must have a QCOW2 or RAW image file.
Create a Dockerfile to build the VM image into a container image. The VM image must be owned by QEMU, which has a UID of 107
, and placed in the /disk/
directory inside the container. Permissions for the /disk/
directory must then be set to 0440
.
The following example uses the Red Hat Universal Base Image (UBI) to handle these configuration changes in the first stage, and uses the minimal scratch
image in the second stage to store the result:
$ cat > Dockerfile << EOF
FROM registry.access.redhat.com/ubi8/ubi:latest AS builder
ADD --chown=107:107 <vm_image>.qcow2 /disk/ (1)
RUN chmod 0440 /disk/*
FROM scratch
COPY --from=builder /disk/* /disk/
EOF
1 | Where <vm_image> is the image in either QCOW2 or RAW format. If you use a remote image, replace <vm_image>.qcow2 with the complete URL. |
Build and tag the container:
$ podman build -t <registry>/<container_disk_name>:latest .
Push the container image to the registry:
$ podman push <registry>/<container_disk_name>:latest
You can disable TLS (transport layer security) for one or more container registries by editing the insecureRegistries
field of the HyperConverged
custom resource.
Open the HyperConverged
CR in your default editor by running the following command:
$ oc edit hyperconverged kubevirt-hyperconverged -n openshift-cnv
Add a list of insecure registries to the spec.storageImport.insecureRegistries
field.
HyperConverged
custom resourceapiVersion: hco.kubevirt.io/v1beta1
kind: HyperConverged
metadata:
name: kubevirt-hyperconverged
namespace: openshift-cnv
spec:
storageImport:
insecureRegistries: (1)
- "private-registry-example-1:5000"
- "private-registry-example-2:5000"
1 | Replace the examples in this list with valid registry hostnames. |
You can create a virtual machine (VM) by importing a container disk from a container registry by using the Red Hat OpenShift service on AWS web console.
Navigate to Virtualization → Catalog in the web console.
Click a template tile without an available boot source.
Click Customize VirtualMachine.
On the Customize template parameters page, expand Storage and select Registry (creates PVC) from the Disk source list.
Enter the container image URL. Example: https://mirror.arizona.edu/fedora/linux/releases/38/Cloud/x86_64/images/Fedora-Cloud-Base-38-1.6.x86_64.qcow2
Set the disk size.
Click Next.
Click Create VirtualMachine.
You can create a virtual machine (VM) from a container disk by using the command line.
When the virtual machine (VM) is created, the data volume with the container disk is imported into persistent storage.
You must have access credentials for the container registry that contains the container disk.
Edit the VirtualMachine
manifest and save it as a vm-rhel-datavolume.yaml
file:
apiVersion: kubevirt.io/v1
kind: VirtualMachine
metadata:
creationTimestamp: null
name: vm-rhel-datavolume (1)
labels:
kubevirt.io/vm: vm-rhel-datavolume
spec:
dataVolumeTemplates:
- metadata:
creationTimestamp: null
name: rhel-dv (2)
spec:
sourceRef:
kind: DataSource
name: rhel9
namespace: openshift-virtualization-os-images
storage:
resources:
requests:
storage: 10Gi (3)
instancetype:
name: u1.small (4)
preference:
inferFromVolume: datavolumedisk1
runStrategy: Always
template:
metadata:
creationTimestamp: null
labels:
kubevirt.io/vm: vm-rhel-datavolume
spec:
domain:
devices: {}
resources: {}
terminationGracePeriodSeconds: 180
volumes:
- dataVolume:
name: rhel-dv
name: datavolumedisk1
status: {}
1 | Specify the name of the VM. |
2 | Specify the name of the data volume. |
3 | Specify the size of the storage requested for the data volume. |
4 | Optional: Specify the instance type to use to control resource sizing of the VM. |
Create the VM by running the following command:
$ oc create -f vm-rhel-datavolume.yaml
The oc create
command creates the data volume and the VM. The CDI controller creates an underlying PVC with the correct annotation and the import process begins. When the import is complete, the data volume status changes to Succeeded
. You can start the VM.
Data volume provisioning happens in the background, so there is no need to monitor the process.
The importer pod downloads the container disk from the specified URL and stores it on the provisioned persistent volume. View the status of the importer pod by running the following command:
$ oc get pods
Monitor the data volume until its status is Succeeded
by running the following command:
$ oc describe dv rhel-dv (1)
1 | Specify the data volume name that you defined in the VirtualMachine manifest. |
Verify that provisioning is complete and that the VM has started by accessing its serial console:
$ virtctl console vm-rhel-datavolume