-
PVCs must request a ReadWriteMany access mode.
-
PVCs must request a ReadWriteOnce access mode.
You can import a VMware vSphere 6.5, 6.7, or 7.0 VM or VM template into OpenShift Virtualization by using the VM Import wizard.
If you import a VM template, OpenShift Virtualization creates a virtual machine based on the template.
The following table describes the OpenShift Virtualization storage types that support VM import.
VMware VM import | |
---|---|
OpenShift Container Storage: RBD block-mode volumes |
Yes |
OpenShift Virtualization hostpath provisioner |
Yes |
Other multi-node writable storage |
Yes [1] |
Other single-node writable storage |
Yes [2] |
PVCs must request a ReadWriteMany access mode.
PVCs must request a ReadWriteOnce access mode.
The import process uses the VMware Virtual Disk Development Kit (VDDK) to copy the VMware virtual disk.
You can download the VDDK SDK, create a VDDK image, upload the image to an image registry, and add it to the v2v-vmware
config map.
You can configure either an internal OpenShift Container Platform image registry or a secure external image registry for the VDDK image. The registry must be accessible to your OpenShift Virtualization environment.
Storing the VDDK image in a public registry might violate the terms of the VMware license. |
You can configure the internal OpenShift Container Platform image registry on bare metal by updating the Image Registry Operator configuration.
You can access the registry directly, from within the OpenShift Container Platform cluster, or externally, by exposing the registry with a route.
To start the image registry, you must change the Image Registry Operator configuration’s managementState
from Removed
to Managed
.
Change managementState
Image Registry Operator configuration from Removed
to Managed
. For example:
$ oc patch configs.imageregistry.operator.openshift.io cluster --type merge --patch '{"spec":{"managementState":"Managed"}}'
As a cluster administrator, following installation you must configure your registry to use storage.
Cluster administrator permissions.
A cluster that uses manually-provisioned Red Hat Enterprise Linux CoreOS (RHCOS) nodes, such as bare metal.
Persistent storage provisioned for your cluster, such as Red Hat OpenShift Container Storage.
OpenShift Container Platform supports |
Must have 100Gi capacity.
To configure your registry to use storage, change the spec.storage.pvc
in
the configs.imageregistry/cluster
resource.
When using shared storage, review your security settings to prevent outside access. |
Verify that you do not have a registry pod:
$ oc get pod -n openshift-image-registry -l docker-registry=default
No resourses found in openshift-image-registry namespace
If you do have a registry pod in your output, you do not need to continue with this procedure. |
Check the registry configuration:
$ oc edit configs.imageregistry.operator.openshift.io
storage:
pvc:
claim:
Leave the claim
field blank to allow the automatic creation of an
image-registry-storage
PVC.
Check the clusteroperator
status:
$ oc get clusteroperator image-registry
NAME VERSION AVAILABLE PROGRESSING DEGRADED SINCE MESSAGE
image-registry 4.7 True False False 6h50m
Ensure that your registry is set to managed to enable building and pushing of images.
Run:
$ oc edit configs.imageregistry/cluster
Then, change the line
managementState: Removed
to
managementState: Managed
You can access the registry from inside the cluster.
Access the registry from the cluster by using internal routes:
Access the node by getting the node’s name:
$ oc get nodes
$ oc debug nodes/<node_name>
To enable access to tools such as oc
and podman
on the node, run the following command:
sh-4.2# chroot /host
Log in to the container image registry by using your access token:
sh-4.2# oc login -u kubeadmin -p <password_from_install_log> https://api-int.<cluster_name>.<base_domain>:6443
sh-4.2# podman login -u kubeadmin -p $(oc whoami -t) image-registry.openshift-image-registry.svc:5000
You should see a message confirming login, such as:
Login Succeeded!
You can pass any value for the user name; the token contains all necessary information. Passing a user name that contains colons will result in a login failure. Since the Image Registry Operator creates the route, it will likely be similar to
|
Perform podman pull
and podman push
operations against your registry:
You can pull arbitrary images, but if you have the system:registry role added, you can only push images to the registry in your project. |
In the following examples, use:
Component | Value |
---|---|
<registry_ip> |
|
<port> |
|
<project> |
|
<image> |
|
<tag> |
omitted (defaults to |
Pull an arbitrary image:
sh-4.2# podman pull name.io/image
Tag the new image with the form <registry_ip>:<port>/<project>/<image>
.
The project name must appear in this pull specification for OpenShift Container Platform to
correctly place and later access the image in the registry:
sh-4.2# podman tag name.io/image image-registry.openshift-image-registry.svc:5000/openshift/image
You must have the |
Push the newly tagged image to your registry:
sh-4.2# podman push image-registry.openshift-image-registry.svc:5000/openshift/image
Instead of logging in to the OpenShift Container Platform registry from within the cluster, you can gain external access to it by exposing it with a route. This allows you to log in to the registry from outside the cluster using the route address, and to tag and push images to an existing project by using the route host.
The following prerequisites are automatically performed:
Deploy the Registry Operator.
Deploy the ingress Operator.
You can expose the route by using DefaultRoute
parameter in the
configs.imageregistry.operator.openshift.io
resource or by using custom routes.
To expose the registry using DefaultRoute
:
Set DefaultRoute
to True
:
$ oc patch configs.imageregistry.operator.openshift.io/cluster --patch '{"spec":{"defaultRoute":true}}' --type=merge
Log in with podman
:
$ HOST=$(oc get route default-route -n openshift-image-registry --template='{{ .spec.host }}')
$ podman login -u kubeadmin -p $(oc whoami -t) --tls-verify=false $HOST (1)
1 | --tls-verify=false is needed if the cluster’s default certificate for routes
is untrusted. You can set a custom, trusted certificate as the default
certificate with the ingress Operator. |
To expose the registry using custom routes:
Create a secret with your route’s TLS keys:
$ oc create secret tls public-route-tls \
-n openshift-image-registry \
--cert=</path/to/tls.crt> \
--key=</path/to/tls.key>
This step is optional. If you do not create a secret, the route uses the default TLS configuration from the ingress Operator.
On the Registry Operator:
spec:
routes:
- name: public-routes
hostname: myregistry.mycorp.organization
secretName: public-route-tls
...
Only set |
If you use an external image registry for the VDDK image, you can add the external image registry’s certificate authorities to the OpenShift Container Platform cluster.
Optionally, you can create a pull secret from your Docker credentials and add it to your service account.
You can add certificate authorities (CA) to the cluster for use when pushing and pulling images with the following procedure.
You must have cluster administrator privileges.
You must have access to the public certificates of the registry, usually a hostname/ca.crt
file located in the /etc/docker/certs.d/
directory.
Create a ConfigMap
in the openshift-config
namespace containing the trusted certificates for the registries that use self-signed certificates. For each CA file, ensure the key in the ConfigMap
is the hostname of the registry in the hostname[..port]
format:
$ oc create configmap registry-cas -n openshift-config \
--from-file=myregistry.corp.com..5000=/etc/docker/certs.d/myregistry.corp.com:5000/ca.crt \
--from-file=otherregistry.com=/etc/docker/certs.d/otherregistry.com/ca.crt
Update the cluster image configuration:
$ oc patch image.config.openshift.io/cluster --patch '{"spec":{"additionalTrustedCA":{"name":"registry-cas"}}}' --type=merge
The .dockercfg
$HOME/.docker/config.json
file for Docker clients is a Docker credentials file that stores your authentication information if you have previously logged into a secured or insecure registry.
To pull a secured container image that is not from OpenShift Container Platform’s internal registry, you must create a pull secret from your Docker credentials and add it to your service account.
If you already have a .dockercfg
file for the secured registry, you can create a secret from that file by running:
$ oc create secret generic <pull_secret_name> \
--from-file=.dockercfg=<path/to/.dockercfg> \
--type=kubernetes.io/dockercfg
Or if you have a $HOME/.docker/config.json
file:
$ oc create secret generic <pull_secret_name> \
--from-file=.dockerconfigjson=<path/to/.docker/config.json> \
--type=kubernetes.io/dockerconfigjson
If you do not already have a Docker credentials file for the secured registry, you can create a secret by running:
$ oc create secret docker-registry <pull_secret_name> \
--docker-server=<registry_server> \
--docker-username=<user_name> \
--docker-password=<password> \
--docker-email=<email>
To use a secret for pulling images for pods, you must add the secret to your service account. The name of the service account in this example should match the name of the service account the pod uses. The default service account is default
:
$ oc secrets link default <pull_secret_name> --for=pull
You can download the VMware Virtual Disk Development Kit (VDDK), build a VDDK image, and push the VDDK image to your image registry. You then add the VDDK image to the v2v-vmware
config map.
You must have access to an OpenShift Container Platform internal image registry or a secure external registry.
Create and navigate to a temporary directory:
$ mkdir /tmp/<dir_name> && cd /tmp/<dir_name>
In a browser, navigate to VMware code and click SDKs.
Under Compute Virtualization, click Virtual Disk Development Kit (VDDK).
Select the VDDK version that corresponds to your VMware vSphere version, for example, VDDK 7.0 for vSphere 7.0, click Download, and then save the VDDK archive in the temporary directory.
Extract the VDDK archive:
$ tar -xzf VMware-vix-disklib-<version>.x86_64.tar.gz
Create a Dockerfile
:
$ cat > Dockerfile <<EOF
FROM busybox:latest
COPY vmware-vix-disklib-distrib /vmware-vix-disklib-distrib
RUN mkdir -p /opt
ENTRYPOINT ["cp", "-r", "/vmware-vix-disklib-distrib", "/opt"]
EOF
Build the image:
$ podman build . -t <registry_route_or_server_path>/vddk:<tag> (1)
1 | Specify your image registry:
|
Push the image to the registry:
$ podman push <registry_route_or_server_path>/vddk:<tag>
Ensure that the image is accessible to your OpenShift Virtualization environment.
Edit the v2v-vmware
config map in the openshift-cnv project:
$ oc edit configmap v2v-vmware -n openshift-cnv
Add the vddk-init-image
parameter to the data
stanza:
...
data:
vddk-init-image: <registry_route_or_server_path>/vddk:<tag>
You can import a single virtual machine with the VM Import wizard.
You can also import a VM template. If you import a VM template, OpenShift Virtualization creates a virtual machine based on the template.
You must have admin user privileges.
The VMware Virtual Disk Development Kit (VDDK) image must be in an image registry that is accessible to your OpenShift Virtualization environment.
The VDDK image must be added to the v2v-vmware
config map.
The VM must be powered off.
Virtual disks must be connected to IDE or SCSI controllers. If virtual disks are connected to a SATA controller, you can change them to IDE controllers and then migrate the VM.
The OpenShift Virtualization local and shared persistent storage classes must support VM import.
The OpenShift Virtualization storage must be large enough to accommodate the virtual disk.
If you are using Ceph RBD block-mode volumes, the storage must be large enough to accommodate the virtual disk. If the disk is too large for the available storage, the import process fails and the PV that is used to copy the virtual disk is not released. You will not be able to import another virtual machine or to clean up the storage because there are insufficient resources to support object deletion. To resolve this situation, you must add more object storage devices to the storage back end. |
The OpenShift Virtualization egress network policy must allow the following traffic:
Destination | Protocol | Port |
---|---|---|
VMware ESXi hosts |
TCP |
443 |
VMware ESXi hosts |
TCP |
902 |
VMware vCenter |
TCP |
5840 |
In the web console, click Workloads → Virtual Machines.
Click Create Virtual Machine and select Import with Wizard.
Select VMware from the Provider list.
Select Connect to New Instance or a saved vCenter instance.
If you select Connect to New Instance, enter the vCenter hostname, Username, and Password.
If you select a saved vCenter instance, the wizard connects to the vCenter instance using the saved credentials.
Click Check and Save and wait for the connection to complete.
The connection details are stored in a secret. If you add a provider with an incorrect hostname, user name, or password, click Workloads → Secrets and delete the provider secret. |
Select a virtual machine or a template.
Click Next.
In the Review screen, review your settings.
Click Edit to update the following settings:
General:
Description
Operating System
Flavor
Memory
CPUs
Workload Profile
Networking:
Name
Model
Network
Type
MAC Address
Storage: Click the Options menu of the VM disk and select Edit to update the following fields:
Name
Source: For example, Import Disk.
Size
Interface
Storage Class: Select NFS or ocs-storagecluster-ceph-rbd (ceph-rbd).
If you select ocs-storagecluster-ceph-rbd, you must set the Volume Mode of the disk to Block.
Other storage classes might work, but they are not officially supported.
Advanced → Volume Mode: Select Block.
Advanced → Access Mode
Advanced → Cloud-init:
Form: Enter the Hostname and Authenticated SSH Keys.
Custom script: Enter the cloud-init
script in the text field.
Advanced → Virtual Hardware: You can attach a virtual CD-ROM to the imported virtual machine.
Click Import or Review and Import, if you have edited the import settings.
A Successfully created virtual machine message and a list of resources created for the virtual machine are displayed. The virtual machine appears in Workloads → Virtual Machines.
Name | Parameter | Description |
---|---|---|
Name |
The name can contain lowercase letters ( |
|
Description |
Optional description field. |
|
Operating System |
The primary operating system that is selected for the virtual machine in the template. You cannot edit this field when creating a virtual machine from a template. |
|
Boot Source |
Import via URL (creates PVC) |
Import content from an image available from an HTTP or HTTPS endpoint. Example: Obtaining a URL link from the web page with the operating system image. |
Clone existing PVC (creates PVC) |
Select an existent persistent volume claim available on the cluster and clone it. |
|
Import via Registry (creates PVC) |
Provision virtual machine from a bootable operating system container located in a registry accessible from the cluster. Example: |
|
PXE (network boot - adds network interface) |
Boot an operating system from a server on the network. Requires a PXE bootable network attachment definition. |
|
Persistent Volume Claim project |
Project name that you want to use for cloning the PVC. |
|
Persistent Volume Claim name |
PVC name that should apply to this virtual machine template if you are cloning an existing PVC. |
|
Mount this as a CD-ROM boot source |
A CD-ROM requires an additional disk for installing the operating system. Select the checkbox to add a disk and customize it later. |
|
Flavor |
Tiny, Small, Medium, Large, Custom |
Presets that determine the amount of CPU and memory allocated to the virtual machine. The presets displayed for Flavor are determined by the operating system. |
Workload Type |
Desktop |
A virtual machine configuration for use on a desktop. Ideal for consumption on a small scale. Recommended for use with the web console. |
Server |
Balances performance and it is compatible with a wide range of server workloads. |
|
High-Performance |
A virtual machine configuration that is optimized for high-performance workloads. |
|
Start this virtual machine after creation. |
This checkbox is selected by default and the virtual machine starts running after creation. Clear the checkbox if you do not want the virtual machine to start when it is created. |
Name | Description |
---|---|
Hostname |
Sets a specific hostname for the virtual machine. |
Authorized SSH Keys |
The user’s public key that is copied to ~/.ssh/authorized_keys on the virtual machine. |
Custom script |
Replaces other options with a field in which you paste a custom cloud-init script. |
Name | Description |
---|---|
Name |
Name for the network interface controller. |
Model |
Indicates the model of the network interface controller. Supported values are e1000e and virtio. |
Network |
List of available network attachment definitions. |
Type |
List of available binding methods. For the default pod network, |
MAC Address |
MAC address for the network interface controller. If a MAC address is not specified, one is assigned automatically. |
Name | Selection | Description |
---|---|---|
Source |
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. |
|
Container (ephemeral) |
Upload content from a container located in a registry accessible from the cluster. The container disk should be used only for read-only filesystems such as CD-ROMs or temporary virtual machines. |
|
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. |
|
Advanced → Volume Mode |
Defines whether the persistent volume uses a formatted file system or raw block state. Default is Filesystem. |
|
Advanced → Access Mode |
Access mode of the persistent volume. Supported access modes are Single User (RWO), Shared Access (RWX), and Read Only (ROX). |
The following advanced storage settings are available for Blank, Import via URL, and Clone existing PVC disks. These parameters are optional. If you do not specify these parameters, the system uses the default values from the kubevirt-storage-class-defaults
config map.
Name | 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 |
Single User (RWO) |
The disk can be mounted as read/write by a single node. |
|
Shared Access (RWX) |
The disk can be mounted as read/write by many nodes.
|
||
Read Only (ROX) |
The disk can be mounted as read-only by many nodes. |
You must update the NIC name of a virtual machine that you imported from VMware to conform to OpenShift Virtualization naming conventions.
Log in to the virtual machine.
Navigate to the /etc/sysconfig/network-scripts
directory.
Rename the network configuration file:
$ mv vmnic0 ifcfg-eth0 (1)
1 | The first network configuration file is named ifcfg-eth0 . Additional network configuration files are numbered sequentially, for example, ifcfg-eth1 , ifcfg-eth2 . |
Update the NAME
and DEVICE
parameters in the network configuration file:
NAME=eth0
DEVICE=eth0
Restart the network:
$ systemctl restart network
You can check the V2V Conversion pod log for errors.
View the V2V Conversion pod name by running the following command:
$ oc get pods -n <namespace> | grep v2v (1)
1 | Specify the namespace of your imported virtual machine. |
kubevirt-v2v-conversion-f66f7d-zqkz7 1/1 Running 0 4h49m
View the V2V Conversion pod log by running the following command:
$ oc logs <kubevirt-v2v-conversion-f66f7d-zqkz7> -f -n <namespace> (1)
1 | Specify the VM Conversion pod name and the namespace. |
The following error messages might appear:
If the VMware VM is not shut down before import, the imported virtual machine displays the error message, Readiness probe failed
in the OpenShift Container Platform console and the V2V Conversion pod log displays the following error message:
INFO - have error: ('virt-v2v error: internal error: invalid argument: libvirt domain ‘v2v_migration_vm_1’ is running or paused. It must be shut down in order to perform virt-v2v conversion',)"
The following error message is displayed in the OpenShift Container Platform console if a non-admin user tries to import a VM:
Could not load config map vmware-to-kubevirt-os in kube-public namespace
Restricted Access: configmaps "vmware-to-kubevirt-os" is forbidden: User cannot get resource "configmaps" in API group "" in the namespace "kube-public"
Only an admin user can import a VM.