apiVersion: cdi.kubevirt.io/v1beta1
kind: DataVolume
metadata:
name: <upload-datavolume> (1)
spec:
source:
upload: {}
pvc:
accessModes:
- ReadWriteOnce
resources:
requests:
storage: <2Gi> (2)
You can upload a locally stored disk image to a new or existing data volume by using the
virtctl
command-line utility.
Install
the kubevirt-virtctl
package.
If you require scratch space according to the CDI supported operations matrix, you must first define a storage class or prepare CDI scratch space for this operation to complete successfully.
DataVolume
objects are custom resources that are provided by the Containerized
Data Importer (CDI) project. Data volumes orchestrate import, clone, and upload
operations that are associated with an underlying persistent volume claim (PVC).
Data volumes are integrated with OpenShift Virtualization, and they prevent a virtual machine
from being started before the PVC has been prepared.
You can manually create a data volume with an upload
data source to use for uploading
local disk images.
Create a data volume configuration that specifies spec: source: upload{}
:
apiVersion: cdi.kubevirt.io/v1beta1
kind: DataVolume
metadata:
name: <upload-datavolume> (1)
spec:
source:
upload: {}
pvc:
accessModes:
- ReadWriteOnce
resources:
requests:
storage: <2Gi> (2)
1 | The name of the data volume. |
2 | The size of the data volume. Ensure that this value is greater than or equal to the size of the disk that you upload. |
Create the data volume by running the following command:
$ oc create -f <upload-datavolume>.yaml
You can use the virtctl
CLI utility to upload a local disk image from
a client machine to a data volume (DV) in your cluster. You can use a DV that
already exists in your cluster or create a new DV during this procedure.
After you upload a local disk image, you can add it to a virtual machine. |
You must have one of the following:
A raw virtual machine image file in either ISO or IMG format.
A virtual machine image file in QCOW2 format.
For best results, compress your image file according to the following guidelines before you upload it:
Compress a raw image file by using xz
or gzip
.
Using a compressed raw image file results in the most efficient upload. |
Compress a QCOW2 image file by using the method that is recommended for your client:
If you use a Linux client, sparsify the QCOW2 file by using the virt-sparsify tool.
If you use a Windows client, compress the QCOW2 file by using xz
or gzip
.
The kubevirt-virtctl
package must be installed on the client machine.
The client machine must be configured to trust the OpenShift Container Platform router’s certificate.
Identify the following items:
The name of the upload data volume that you want to use. If this data volume does not exist, it is created automatically.
The size of the data volume, if you want it to be created during the upload procedure. The size must be greater than or equal to the size of the disk image.
The file location of the virtual machine disk image that you want to upload.
Upload the disk image by running the virtctl image-upload
command.
Specify the parameters that you identified in the previous step.
For example:
$ virtctl image-upload dv <datavolume_name> \ (1)
--size=<datavolume_size> \ (2)
--image-path=</path/to/image> \ (3)
1 | The name of the data volume. |
2 | The size of the data volume. For example: --size=500Mi , --size=1G |
3 | The file path of the virtual machine disk image. |
|
Optional. To verify that a data volume was created, view all data volumes by running the following command:
$ oc get dvs
This matrix shows the supported CDI operations for content types against endpoints, and which of these operations requires scratch space.
Content types | HTTP | HTTPS | HTTP basic auth | Registry | Upload |
---|---|---|---|---|---|
KubeVirt(QCOW2) |
✓ QCOW2 |
✓ QCOW2** |
✓ QCOW2 |
✓ QCOW2* |
✓ QCOW2* |
KubeVirt (RAW) |
✓ RAW |
✓ RAW |
✓ RAW |
✓ RAW* |
✓ RAW* |
✓ Supported operation
□ Unsupported operation
* Requires scratch space
** Requires scratch space if a custom certificate authority is required
Configure preallocation mode to improve write performance for data volume operations.