1 uploadserver.go:203] Saving stream failed: data stream copy failed: Local qcow to raw conversion failed: could not convert local qcow2 image to raw: qemu-img execution failed: signal: killed
Container-native Virtualization is an add-on to OpenShift Container Platform that allows virtual machine workloads to run and be managed alongside container workloads. You can create virtual machines from disk images imported using the containerized data importer (CDI) controller, or from scratch within OpenShift Container Platform.
Container-native Virtualization introduces two new objects to OpenShift Container Platform:
Virtual Machine: The virtual machine in OpenShift Container Platform
Virtual Machine Instance: A running instance of the virtual machine
With the Container-native Virtualization add-on, virtual machines run in pods and have the same network and storage capabilities as standard pods.
Existing virtual machine disks are imported into persistent volumes (PVs), which are made accessible to Container-native Virtualization virtual machines using persistent volume claims (PVCs). In OpenShift Container Platform, the virtual machine object can be modified or replaced as needed, without affecting the persistent data stored on the PV.
Container-native Virtualization is currently a Technology Preview feature. For details about Red Hat support for Container-native Virtualization, see the Container-native Virtualization - Technology Preview Support Policy. Technology Preview features are not supported with Red Hat production service level agreements (SLAs), might not be functionally complete, and Red Hat does not recommend to use them for production. These features provide early access to upcoming product features, enabling customers to test functionality and provide feedback during the development process. For more information on Red Hat Technology Preview features support scope, see https://access.redhat.com/support/offerings/techpreview/. |
Operators power the installation of KubeVirt, Containerized Data Importer, and the web-ui in Container-native Virtualization 1.4.
A new version of the KubeVirt API is included in Container-native Virtualization 1.4. Several important changes are reflected in the latest configuration file templates.
The apiVersion
has been updated from kubevirt.io/v1alpha2
to
kubevirt.io/v1alpha3
.
The volumeName
attribute no longer exists. Ensure that each disk name
matches the corresponding volume name in all configuration files.
All instances of registryDisk
must be updated to containerDisk
in
configuration files.
The runc
package version runc-1.0.0-54
contained a bug that caused the
virt-launcher to crash if fips was disabled. The version of runc
containing
the fix is now shipped with Red Hat Enterprise Linux 7 Extras.
(BZ1650512)
In the Create Virtual Machine Wizard, using the PXE source option with the Start virtual machine on creation option resulted in the boot order not changing after stopping and starting the virtual machine. This issue has been resolved. (BZ#1648245) (BZ#1647447)
CPU Manager, a feature that provides CPU pinning in OpenShift Container Platform, is currently disabled in Container-native Virtualization due to performance regressions. CPU Manager does not consider the physical CPU topology, resulting in sub-optimal pinning when hyper-threading is enabled. (BZ#1667854)
Red Hat OpenShift Container Storage versions before 3.11.1 are not compatible with Container-native Virtualization. In the incompatible versions, Gluster nodes do not deploy with CRI-O as the container runtime. (BZ#1651270)
When installing Container-native Virtualization 1.4, the ansible-playbook
command fails
if the multus
image and its underlying layers are not pulled within the
timeout period. As a workaround, wait a few minutes and try the command again.
(BZ#1664274)
The virtctl image-upload
command fails if the --uploadproxy-url
value
ends with a trailing slash. If you use a custom URL, ensure that it does not end
with a trailing slash before running the command.
(BZ#1660888)
The limit for compute node devices is currently 110. This limit cannot be configured, but scaling up to more than 110 devices will be supported in a future release. (BZ#1673438)
When uploading or importing a disk image to a PVC, the space allocated for the
PVC must be at least 2 * actual image size + virtual image size
. Otherwise,
the virtual machine does not boot successfully.
(BZ#1676824)
The command |
If you create a new DataVolume while a PVC already exists with the same name,
the DataVolume enters an unrecoverable error state. If this DataVolume is
associated with a virtual machine, or if it was created with the
dataVolumeTemplates
section of a virtual machine configuration file, then the
virtual machine will fail to start. In these cases, the underlying DataVolume
error will not be propagated to the virtual machine.
(BZ#1669163)
If a CDI import into a PVC fails, a request to delete the PVC might not work
immediately. Instead, the importer pod gets stuck in a CrashLoopBackOff
state,
causing the PVC to enter a Terminating
phase. To resolve this issue, find the
importer pod associated with the PVC and delete it. The PVC will then be
deleted. (BZ#1673683)
If you use virtctl image-upload
to upload a QCOW2 image to a PVC, the
operation might fail with the error Unexpected return value 500
, resulting in
an unusable PVC. This can be caused by a bug where conversion of certain QCOW2
images during an upload operation exceeds predefined process limits.
(BZ#1679134)
To confirm
that the failure was caused by this bug, check the associated uploadserver
pod logs for a message like this:
1 uploadserver.go:203] Saving stream failed: data stream copy failed: Local qcow to raw conversion failed: could not convert local qcow2 image to raw: qemu-img execution failed: signal: killed
As a workaround, locally convert the file to compressed raw format and then upload the result:
$ qemu-img convert -f qcow2 -O raw <failing-image.qcow2> image.raw $ gzip image.raw $ virtctl image-upload ... image.raw.gz
When a virtual machine provisioned from a URL
source is started for the first time, the virtual machine will be in the Importing state while Container-native Virtualization imports the container from the endpoint URL.
Restarting a virtual machine while it is in the Importing state results in an error.
(BZ#1673921)
If the kubelet on a node crashes or restarts, this causes the kubelet to incorrectly report 0 KVM devices. Virtual machines are not properly scheduled on affected nodes.
Verify the number of devices that the kubelet reports by running:
$ oc get node $NODE | grep devices.kubevirt
The output on an affected node shows devices.kubevirt.io/kvm: 0
.
(BZ#1681175)
As a workaround, kill the relevant |
If a virtual machine is connected to the pod network by using bridge
mode,
the virtual machine might stop if the kubelet gets restarted.
(BZ#1685118)