Use the VMware VMDK driver to enable management of the OpenStack Block Storage volumes on vCenter-managed data stores. Volumes are backed by VMDK files on data stores that use any VMware-compatible storage technology such as NFS, iSCSI, FiberChannel, and vSAN.
Note
The VMware VMDK driver requires vCenter version 5.1 at minimum.
The VMware VMDK driver connects to vCenter, through which it can dynamically access all the data stores visible from the ESX hosts in the managed cluster.
When you create a volume, the VMDK driver creates a VMDK file on demand. The VMDK file creation completes only when the volume is subsequently attached to an instance. The reason for this requirement is that data stores visible to the instance determine where to place the volume. Before the service creates the VMDK file, attach a volume to the target instance.
The running vSphere VM is automatically reconfigured to attach the VMDK file as an extra disk. Once attached, you can log in to the running vSphere VM to rescan and discover this extra disk.
With the update to ESX version 6.0, the VMDK driver now supports NFS version 4.1.
The recommended volume driver for OpenStack Block Storage is the VMware vCenter VMDK driver. When you configure the driver, you must match it with the appropriate OpenStack Compute driver from VMware and both drivers must point to the same server.
In the nova.conf
file, use this option to define the Compute driver:
compute_driver = vmwareapi.VMwareVCDriver
In the cinder.conf
file, use this option to define the volume
driver:
volume_driver = cinder.volume.drivers.vmware.vmdk.VMwareVcVmdkDriver
The following table lists various options that the drivers support for the
OpenStack Block Storage configuration (cinder.conf
):
Configuration option = Default value |
Description |
---|---|
[DEFAULT] |
|
|
(String) Default adapter type to be used for attaching volumes. |
|
(Integer) Number of times VMware vCenter server API must be retried upon connection related issues. |
|
(String) CA bundle file to use in verifying the vCenter server certificate. |
|
(Multi-valued) Name of a vCenter compute cluster where volumes should be created. |
|
(Integer) Maximum number of connections in http connection pool. |
|
(String) IP address for connecting to VMware vCenter server. |
|
(String) Password for authenticating with VMware vCenter server. |
|
(Port number) Port number for connecting to VMware vCenter server. |
|
(String) Username for authenticating with VMware vCenter server. |
|
(String) Optional string specifying the VMware vCenter server version. The driver attempts to retrieve the version from VMware vCenter server. Set this configuration only if you want to override the vCenter server version. |
|
(Integer) Timeout in seconds for VMDK volume transfer between Cinder and Glance. |
|
(Boolean) If true, the vCenter server certificate is not verified. If false, then the default CA truststore is used for verification. This option is ignored if “vmware_ca_file” is set. |
|
(Integer) Max number of objects to be retrieved per batch. Query results will be obtained in batches from the server and not in one shot. Server may still limit the count to something less than the configured value. |
|
(Floating point) The interval (in seconds) for polling remote tasks invoked on VMware vCenter server. |
|
(String) Directory where virtual disks are stored during volume backup and restore. |
|
(String) Name of the vCenter inventory folder that will contain Cinder volumes. This folder will be created under “OpenStack/<project_folder>”, where project_folder is of format “Project (<volume_project_id>)”. |
|
(String) Optional VIM service WSDL Location e.g http://<server>/vimService.wsdl. Optional over-ride to default location for bug work-arounds. |
The VMware VMDK drivers support the creation of VMDK disk file types thin
,
lazyZeroedThick
(sometimes called thick or flat), or eagerZeroedThick
.
A thin virtual disk is allocated and zeroed on demand as the space is used. Unused space on a Thin disk is available to other users.
A lazy zeroed thick virtual disk will have all space allocated at disk creation. This reserves the entire disk space, so it is not available to other users at any time.
An eager zeroed thick virtual disk is similar to a lazy zeroed thick disk, in that the entire disk is allocated at creation. However, in this type, any previous data will be wiped clean on the disk before the write. This can mean that the disk will take longer to create, but can also prevent issues with stale data on physical media.
Use the vmware:vmdk_type
extra spec key with the appropriate value to
specify the VMDK disk file type. This table shows the mapping between the extra
spec entry and the VMDK disk file type:
Disk file type |
Extra spec key |
Extra spec value |
---|---|---|
thin |
|
|
lazyZeroedThick |
|
|
eagerZeroedThick |
|
|
If you do not specify a vmdk_type
extra spec entry, the disk file type will
default to thin
.
The following example shows how to create a lazyZeroedThick
VMDK volume by
using the appropriate vmdk_type
:
$ openstack volume type create THICK_VOLUME
$ openstack volume type set --property vmware:vmdk_type=thick THICK_VOLUME
$ openstack volume create --size 1 --type THICK_VOLUME VOLUME1
With the VMware VMDK drivers, you can create a volume from another
source volume or a snapshot point. The VMware vCenter VMDK driver
supports the full
and linked/fast
clone types. Use the
vmware:clone_type
extra spec key to specify the clone type. The
following table captures the mapping for clone types:
Clone type |
Extra spec key |
Extra spec value |
---|---|---|
full |
|
|
linked/fast |
|
|
If you do not specify the clone type, the default is full
.
The following example shows linked cloning from a source volume, which is created from an image:
$ openstack volume type create FAST_CLONE
$ openstack volume type set --property vmware:clone_type=linked FAST_CLONE
$ openstack volume create --size 1 --type FAST_CLONE --image MYIMAGE SOURCE_VOL
$ openstack volume create --size 1 --source SOURCE_VOL DEST_VOL
The VMware vCenter VMDK driver supports the adapter types LSI Logic
Parallel
, BusLogic Parallel
, LSI Logic SAS
, VMware Paravirtual
and IDE
for volumes. Use the vmware:adapter_type
extra spec key to
specify the adapter type. The following table captures the mapping for adapter
types:
Adapter type |
Extra spec key |
Extra spec value |
---|---|---|
BusLogic Parallel |
|
|
IDE |
|
|
LSI Logic Parallel |
|
|
LSI Logic SAS |
|
|
VMware Paravirtual |
|
|
If you do not specify the adapter type, the default is the value specified by
the config option vmware_adapter_type
.
This section describes how to configure back-end data stores using storage
policies. In vCenter 5.5 and greater, you can create one or more storage
policies and expose them as a Block Storage volume-type to a vmdk volume. The
storage policies are exposed to the vmdk driver through the extra spec property
with the vmware:storage_profile
key.
For example, assume a storage policy in vCenter named gold_policy.
and a
Block Storage volume type named vol1
with the extra spec key
vmware:storage_profile
set to the value gold_policy
. Any Block Storage
volume creation that uses the vol1
volume type places the volume only in
data stores that match the gold_policy
storage policy.
The Block Storage back-end configuration for vSphere data stores is
automatically determined based on the vCenter configuration. If you configure a
connection to connect to vCenter version 5.5 or later in the cinder.conf
file, the use of storage policies to configure back-end data stores is
automatically supported.
Note
You must configure any data stores that you configure for the Block Storage service for the Compute service.
To configure back-end data stores by using storage policies
In vCenter, tag the data stores to be used for the back end.
OpenStack also supports policies that are created by using vendor-specific capabilities; for example vSAN-specific storage policies.
Note
The tag value serves as the policy. For details, see Storage policy-based configuration in vCenter.
Set the extra spec key vmware:storage_profile
in the desired Block
Storage volume types to the policy name that you created in the previous
step.
Optionally, for the vmware_host_version
parameter, enter the version
number of your vSphere platform. For example, 5.5
.
This setting overrides the default location for the corresponding WSDL file. Among other scenarios, you can use this setting to prevent WSDL error messages during the development phase or to work with a newer version of vCenter.
Complete the other vCenter configuration parameters as appropriate.
Note
Any volume that is created without an associated policy (that is to say,
without an associated volume type that specifies vmware:storage_profile
extra spec), there is no policy-based placement for that volume.
The VMware vCenter VMDK driver supports these operations:
Create, delete, attach, and detach volumes.
Note
When a volume is attached to an instance, a reconfigure operation is performed on the instance to add the volume’s VMDK to it. The user must manually rescan and mount the device from within the guest operating system.
Create, list, and delete volume snapshots.
Note
Allowed only if volume is not attached to an instance.
Create a volume from a snapshot.
Note
The vmdk UUID in vCenter will not be set to the volume UUID if the
vCenter version is 6.0 or above and the extra spec key vmware:clone_type
in the destination volume type is set to linked
.
Copy an image to a volume.
Note
Only images in vmdk
disk format with bare
container format are
supported. The vmware_disktype
property of the image can be
preallocated
, sparse
, streamOptimized
or thin
.
Copy a volume to an image.
Note
Allowed only if the volume is not attached to an instance.
This operation creates a streamOptimized
disk image.
Clone a volume.
Note
Supported only if the source volume is not attached to an instance.
The vmdk UUID in vCenter will not be set to the volume UUID if the
vCenter version is 6.0 or above and the extra spec key vmware:clone_type
in the destination volume type is set to linked
.
Backup a volume.
Note
This operation creates a backup of the volume in streamOptimized
disk format.
Restore backup to new or existing volume.
Note
Supported only if the existing volume doesn’t contain snapshots.
Change the type of a volume.
Note
This operation is supported only if the volume state is available
.
Extend a volume.
You can configure Storage Policy-Based Management (SPBM) profiles for vCenter data stores supporting the Compute, Image service, and Block Storage components of an OpenStack implementation.
In a vSphere OpenStack deployment, SPBM enables you to delegate several data stores for storage, which reduces the risk of running out of storage space. The policy logic selects the data store based on accessibility and available storage space.
Determine the data stores to be used by the SPBM policy.
Determine the tag that identifies the data stores in the OpenStack component configuration.
Create separate policies or sets of data stores for separate OpenStack components.
In vCenter, create the tag that identifies the data stores:
From the Home screen, click Tags.
Specify a name for the tag.
Specify a tag category. For example, spbm-cinder
.
Apply the tag to the data stores to be used by the SPBM policy.
Note
For details about creating tags in vSphere, see the vSphere documentation.
In vCenter, create a tag-based storage policy that uses one or more tags to identify a set of data stores.
Note
For details about creating storage policies in vSphere, see the vSphere documentation.
If storage policy is enabled, the driver initially selects all the data stores that match the associated storage policy.
If two or more data stores match the storage policy, the driver chooses a data store that is connected to the maximum number of hosts.
In case of ties, the driver chooses the data store with lowest space
utilization, where space utilization is defined by the
(1-freespace/totalspace)
meters.
These actions reduce the number of volume migrations while attaching the volume to instances.
The volume must be migrated if the ESX host for the instance cannot access the data store that contains the volume.
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