============== VMware vSphere ============== Introduction ~~~~~~~~~~~~ OpenStack Compute supports the VMware vSphere product family and enables access to advanced features such as vMotion, High Availability, and Dynamic Resource Scheduling (DRS). This section describes how to configure VMware-based virtual machine images for launch. The VMware driver supports vCenter version 5.5.0 and later. The VMware vCenter driver enables the ``nova-compute`` service to communicate with a VMware vCenter server that manages one or more ESX host clusters. The driver aggregates the ESX hosts in each cluster to present one large hypervisor entity for each cluster to the Compute scheduler. Because individual ESX hosts are not exposed to the scheduler, Compute schedules to the granularity of clusters and vCenter uses DRS to select the actual ESX host within the cluster. When a virtual machine makes its way into a vCenter cluster, it can use all vSphere features. The following sections describe how to configure the VMware vCenter driver. High-level architecture ~~~~~~~~~~~~~~~~~~~~~~~ The following diagram shows a high-level view of the VMware driver architecture: **VMware driver architecture** .. figure:: ../figures/vmware-nova-driver-architecture.jpg :width: 100% As the figure shows, the OpenStack Compute Scheduler sees three hypervisors that each correspond to a cluster in vCenter. ``nova-compute`` contains the VMware driver. You can run with multiple ``nova-compute`` services. It is recommended to run with one ``nova-compute`` service per ESX cluster thus ensuring that while Compute schedules at the granularity of the ``nova-compute`` service it is also in effect able to schedule at the cluster level. In turn the VMware driver inside ``nova-compute`` interacts with the vCenter APIs to select an appropriate ESX host within the cluster. Internally, vCenter uses DRS for placement. The VMware vCenter driver also interacts with the Image service to copy VMDK images from the Image service back-end store. The dotted line in the figure represents VMDK images being copied from the OpenStack Image service to the vSphere data store. VMDK images are cached in the data store so the copy operation is only required the first time that the VMDK image is used. After OpenStack boots a VM into a vSphere cluster, the VM becomes visible in vCenter and can access vSphere advanced features. At the same time, the VM is visible in the OpenStack dashboard and you can manage it as you would any other OpenStack VM. You can perform advanced vSphere operations in vCenter while you configure OpenStack resources such as VMs through the OpenStack dashboard. The figure does not show how networking fits into the architecture. Both ``nova-network`` and the OpenStack Networking Service are supported. For details, see :ref:`vmware-networking`. Configuration overview ~~~~~~~~~~~~~~~~~~~~~~ To get started with the VMware vCenter driver, complete the following high-level steps: #. Configure vCenter. See :ref:`vmware-prereqs`. #. Configure the VMware vCenter driver in the ``nova.conf`` file. See :ref:`vmware-vcdriver`. #. Load desired VMDK images into the Image service. See :ref:`vmware-images`. #. Configure networking with either ``nova-network`` or the Networking service. See :ref:`vmware-networking`. .. _vmware-prereqs: Prerequisites and limitations ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ Use the following list to prepare a vSphere environment that runs with the VMware vCenter driver: Copying VMDK files In vSphere 5.1, copying large image files (for example, 12 GB and greater) from the Image service can take a long time. To improve performance, VMware recommends that you upgrade to VMware vCenter Server 5.1 Update 1 or later. For more information, see the `Release Notes `_. DRS For any cluster that contains multiple ESX hosts, enable DRS and enable fully automated placement. Shared storage Only shared storage is supported and data stores must be shared among all hosts in a cluster. It is recommended to remove data stores not intended for OpenStack from clusters being configured for OpenStack. Clusters and data stores Do not use OpenStack clusters and data stores for other purposes. If you do, OpenStack displays incorrect usage information. Networking The networking configuration depends on the desired networking model. See :ref:`vmware-networking`. Security groups If you use the VMware driver with OpenStack Networking and the NSX plug-in, security groups are supported. If you use ``nova-network``, security groups are not supported. .. note:: The NSX plug-in is the only plug-in that is validated for vSphere. VNC The port range 5900 - 6105 (inclusive) is automatically enabled for VNC connections on every ESX host in all clusters under OpenStack control. .. note:: In addition to the default VNC port numbers (5900 to 6000) specified in the above document, the following ports are also used: 6101, 6102, and 6105. You must modify the ESXi firewall configuration to allow the VNC ports. Additionally, for the firewall modifications to persist after a reboot, you must create a custom vSphere Installation Bundle (VIB) which is then installed onto the running ESXi host or added to a custom image profile used to install ESXi hosts. For details about how to create a VIB for persisting the firewall configuration modifications, see http://kb.vmware.com/selfservice/microsites/search.do?language=en_US&cmd=displayKC&externalId=2007381. .. note:: The VIB can be downloaded from https://github.com/openstack-vmwareapi-team/Tools. To use multiple vCenter installations with OpenStack, each vCenter must be assigned to a separate availability zone. This is required as the OpenStack Block Storage VMDK driver does not currently work across multiple vCenter installations. VMware vCenter service account ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ OpenStack integration requires a vCenter service account with the following minimum permissions. Apply the permissions to the ``Datacenter`` root object, and select the :guilabel:`Propagate to Child Objects` option. .. list-table:: vCenter permissions tree :header-rows: 1 :widths: 12, 12, 40, 36 * - All Privileges - - - * - - Datastore - - * - - - Allocate space - * - - - Browse datastore - * - - - Low level file operation - * - - - Remove file - * - - Extension - - * - - - Register extension - * - - Folder - - * - - - Create folder - * - - Host - - * - - - Configuration - * - - - - Maintenance * - - - - Network configuration * - - - - Storage partition configuration * - - Network - - * - - - Assign network - * - - Resource - - * - - - Assign virtual machine to resource pool - * - - - Migrate powered off virtual machine - * - - - Migrate powered on virtual machine - * - - Virtual Machine - - * - - - Configuration - * - - - - Add existing disk * - - - - Add new disk * - - - - Add or remove device * - - - - Advanced * - - - - CPU count * - - - - Change resource * - - - - Disk change tracking * - - - - Host USB device * - - - - Memory * - - - - Modify device settings * - - - - Raw device * - - - - Remove disk * - - - - Rename * - - - - Swapfile placement * - - - Interaction - * - - - - Configure CD media * - - - - Power Off * - - - - Power On * - - - - Reset * - - - - Suspend * - - - Inventory - * - - - - Create from existing * - - - - Create new * - - - - Move * - - - - Remove * - - - - Unregister * - - - Provisioning - * - - - - Clone virtual machine * - - - - Customize * - - - - Create template from virtual machine * - - - Snapshot management - * - - - - Create snapshot * - - - - Remove snapshot * - - Sessions - - * - - - - Validate session * - - - - View and stop sessions * - - vApp - - * - - - Export - * - - - Import - .. _vmware-vcdriver: VMware vCenter driver ~~~~~~~~~~~~~~~~~~~~~ Use the VMware vCenter driver (VMwareVCDriver) to connect OpenStack Compute with vCenter. This recommended configuration enables access through vCenter to advanced vSphere features like vMotion, High Availability, and Dynamic Resource Scheduling (DRS). VMwareVCDriver configuration options ------------------------------------ Add the following VMware-specific configuration options to the ``nova.conf`` file: .. code-block:: ini [DEFAULT] compute_driver = vmwareapi.VMwareVCDriver [vmware] host_ip = host_username = host_password = cluster_name = datastore_regex = .. note:: * Clusters: The vCenter driver can support only a single cluster. Clusters and data stores used by the vCenter driver should not contain any VMs other than those created by the driver. * Data stores: The ``datastore_regex`` setting specifies the data stores to use with Compute. For example, ``datastore_regex="nas.*"`` selects all the data stores that have a name starting with "nas". If this line is omitted, Compute uses the first data store returned by the vSphere API. It is recommended not to use this field and instead remove data stores that are not intended for OpenStack. * Reserved host memory: The ``reserved_host_memory_mb`` option value is 512 MB by default. However, VMware recommends that you set this option to 0 MB because the vCenter driver reports the effective memory available to the virtual machines. * The vCenter driver generates instance name by instance ID. Instance name template is ignored. * The minimum supported vCenter version is 5.5.0. Starting in the OpenStack Ocata release any version lower than 5.5.0 will be logged as a warning. In the OpenStack Pike release this will be enforced. A ``nova-compute`` service can control one or more clusters containing multiple ESXi hosts, making ``nova-compute`` a critical service from a high availability perspective. Because the host that runs ``nova-compute`` can fail while the vCenter and ESX still run, you must protect the ``nova-compute`` service against host failures. .. note:: Many ``nova.conf`` options are relevant to libvirt but do not apply to this driver. .. _vmware-images: Images with VMware vSphere ~~~~~~~~~~~~~~~~~~~~~~~~~~ The vCenter driver supports images in the VMDK format. Disks in this format can be obtained from VMware Fusion or from an ESX environment. It is also possible to convert other formats, such as qcow2, to the VMDK format using the ``qemu-img`` utility. After a VMDK disk is available, load it into the Image service. Then, you can use it with the VMware vCenter driver. The following sections provide additional details on the supported disks and the commands used for conversion and upload. Supported image types --------------------- Upload images to the OpenStack Image service in VMDK format. The following VMDK disk types are supported: * ``VMFS Flat Disks`` (includes thin, thick, zeroedthick, and eagerzeroedthick). Note that once a VMFS thin disk is exported from VMFS to a non-VMFS location, like the OpenStack Image service, it becomes a preallocated flat disk. This impacts the transfer time from the Image service to the data store when the full preallocated flat disk, rather than the thin disk, must be transferred. * ``Monolithic Sparse disks``. Sparse disks get imported from the Image service into ESXi as thin provisioned disks. Monolithic Sparse disks can be obtained from VMware Fusion or can be created by converting from other virtual disk formats using the ``qemu-img`` utility. * ``Stream-optimized disks``. Stream-optimized disks are compressed sparse disks. They can be obtained from VMware vCenter/ESXi when exporting vm to ovf/ova template. The following table shows the ``vmware_disktype`` property that applies to each of the supported VMDK disk types: .. list-table:: OpenStack Image service disk type settings :header-rows: 1 * - vmware_disktype property - VMDK disk type * - sparse - Monolithic Sparse * - thin - VMFS flat, thin provisioned * - preallocated (default) - VMFS flat, thick/zeroedthick/eagerzeroedthick * - streamOptimized - Compressed Sparse The ``vmware_disktype`` property is set when an image is loaded into the Image service. For example, the following command creates a Monolithic Sparse image by setting ``vmware_disktype`` to ``sparse``: .. code-block:: console $ openstack image create \ --disk-format vmdk \ --container-format bare \ --property vmware_disktype="sparse" \ --property vmware_ostype="ubuntu64Guest" \ ubuntu-sparse < ubuntuLTS-sparse.vmdk .. note:: Specifying ``thin`` does not provide any advantage over ``preallocated`` with the current version of the driver. Future versions might restore the thin properties of the disk after it is downloaded to a vSphere data store. The following table shows the ``vmware_ostype`` property that applies to each of the supported guest OS: .. list-table:: OpenStack Image service OS type settings :header-rows: 1 * - vmware_ostype property - Retail Name * - asianux3_64Guest - Asianux Server 3 (64 bit) * - asianux3Guest - Asianux Server 3 * - asianux4_64Guest - Asianux Server 4 (64 bit) * - asianux4Guest - Asianux Server 4 * - darwin64Guest - Darwin 64 bit * - darwinGuest - Darwin * - debian4_64Guest - Debian GNU/Linux 4 (64 bit) * - debian4Guest - Debian GNU/Linux 4 * - debian5_64Guest - Debian GNU/Linux 5 (64 bit) * - debian5Guest - Debian GNU/Linux 5 * - dosGuest - MS-DOS * - freebsd64Guest - FreeBSD x64 * - freebsdGuest - FreeBSD * - mandrivaGuest - Mandriva Linux * - netware4Guest - Novell NetWare 4 * - netware5Guest - Novell NetWare 5.1 * - netware6Guest - Novell NetWare 6.x * - nld9Guest - Novell Linux Desktop 9 * - oesGuest - Open Enterprise Server * - openServer5Guest - SCO OpenServer 5 * - openServer6Guest - SCO OpenServer 6 * - opensuse64Guest - openSUSE (64 bit) * - opensuseGuest - openSUSE * - os2Guest - OS/2 * - other24xLinux64Guest - Linux 2.4x Kernel (64 bit) (experimental) * - other24xLinuxGuest - Linux 2.4x Kernel * - other26xLinux64Guest - Linux 2.6x Kernel (64 bit) (experimental) * - other26xLinuxGuest - Linux 2.6x Kernel (experimental) * - otherGuest - Other Operating System * - otherGuest64 - Other Operating System (64 bit) (experimental) * - otherLinux64Guest - Linux (64 bit) (experimental) * - otherLinuxGuest - Other Linux * - redhatGuest - Red Hat Linux 2.1 * - rhel2Guest - Red Hat Enterprise Linux 2 * - rhel3_64Guest - Red Hat Enterprise Linux 3 (64 bit) * - rhel3Guest - Red Hat Enterprise Linux 3 * - rhel4_64Guest - Red Hat Enterprise Linux 4 (64 bit) * - rhel4Guest - Red Hat Enterprise Linux 4 * - rhel5_64Guest - Red Hat Enterprise Linux 5 (64 bit) (experimental) * - rhel5Guest - Red Hat Enterprise Linux 5 * - rhel6_64Guest - Red Hat Enterprise Linux 6 (64 bit) * - rhel6Guest - Red Hat Enterprise Linux 6 * - sjdsGuest - Sun Java Desktop System * - sles10_64Guest - SUSE Linux Enterprise Server 10 (64 bit) (experimental) * - sles10Guest - SUSE Linux Enterprise Server 10 * - sles11_64Guest - SUSE Linux Enterprise Server 11 (64 bit) * - sles11Guest - SUSE Linux Enterprise Server 11 * - sles64Guest - SUSE Linux Enterprise Server 9 (64 bit) * - slesGuest - SUSE Linux Enterprise Server 9 * - solaris10_64Guest - Solaris 10 (64 bit) (experimental) * - solaris10Guest - Solaris 10 (32 bit) (experimental) * - solaris6Guest - Solaris 6 * - solaris7Guest - Solaris 7 * - solaris8Guest - Solaris 8 * - solaris9Guest - Solaris 9 * - suse64Guest - SUSE Linux (64 bit) * - suseGuest - SUSE Linux * - turboLinux64Guest - Turbolinux (64 bit) * - turboLinuxGuest - Turbolinux * - ubuntu64Guest - Ubuntu Linux (64 bit) * - ubuntuGuest - Ubuntu Linux * - unixWare7Guest - SCO UnixWare 7 * - win2000AdvServGuest - Windows 2000 Advanced Server * - win2000ProGuest - Windows 2000 Professional * - win2000ServGuest - Windows 2000 Server * - win31Guest - Windows 3.1 * - win95Guest - Windows 95 * - win98Guest - Windows 98 * - windows7_64Guest - Windows 7 (64 bit) * - windows7Guest - Windows 7 * - windows7Server64Guest - Windows Server 2008 R2 (64 bit) * - winLonghorn64Guest - Windows Longhorn (64 bit) (experimental) * - winLonghornGuest - Windows Longhorn (experimental) * - winMeGuest - Windows Millennium Edition * - winNetBusinessGuest - Windows Small Business Server 2003 * - winNetDatacenter64Guest - Windows Server 2003, Datacenter Edition (64 bit) (experimental) * - winNetDatacenterGuest - Windows Server 2003, Datacenter Edition * - winNetEnterprise64Guest - Windows Server 2003, Enterprise Edition (64 bit) * - winNetEnterpriseGuest - Windows Server 2003, Enterprise Edition * - winNetStandard64Guest - Windows Server 2003, Standard Edition (64 bit) * - winNetEnterpriseGuest - Windows Server 2003, Enterprise Edition * - winNetStandard64Guest - Windows Server 2003, Standard Edition (64 bit) * - winNetStandardGuest - Windows Server 2003, Standard Edition * - winNetWebGuest - Windows Server 2003, Web Edition * - winNTGuest - Windows NT 4 * - winVista64Guest - Windows Vista (64 bit) * - winVistaGuest - Windows Vista * - winXPHomeGuest - Windows XP Home Edition * - winXPPro64Guest - Windows XP Professional Edition (64 bit) * - winXPProGuest - Windows XP Professional Convert and load images ----------------------- Using the ``qemu-img`` utility, disk images in several formats (such as, qcow2) can be converted to the VMDK format. For example, the following command can be used to convert a `qcow2 Ubuntu Trusty cloud image `_: .. code-block:: console $ qemu-img convert -f qcow2 ~/Downloads/trusty-server-cloudimg-amd64-disk1.img \ -O vmdk trusty-server-cloudimg-amd64-disk1.vmdk VMDK disks converted through ``qemu-img`` are ``always`` monolithic sparse VMDK disks with an IDE adapter type. Using the previous example of the Ubuntu Trusty image after the ``qemu-img`` conversion, the command to upload the VMDK disk should be something like: .. code-block:: console $ openstack image create \ --container-format bare --disk-format vmdk \ --property vmware_disktype="sparse" \ --property vmware_adaptertype="ide" \ trusty-cloud < trusty-server-cloudimg-amd64-disk1.vmdk Note that the ``vmware_disktype`` is set to ``sparse`` and the ``vmware_adaptertype`` is set to ``ide`` in the previous command. If the image did not come from the ``qemu-img`` utility, the ``vmware_disktype`` and ``vmware_adaptertype`` might be different. To determine the image adapter type from an image file, use the following command and look for the ``ddb.adapterType=`` line: .. code-block:: console $ head -20 Assuming a preallocated disk type and an iSCSI lsiLogic adapter type, the following command uploads the VMDK disk: .. code-block:: console $ openstack image create \ --disk-format vmdk \ --container-format bare \ --property vmware_adaptertype="lsiLogic" \ --property vmware_disktype="preallocated" \ --property vmware_ostype="ubuntu64Guest" \ ubuntu-thick-scsi < ubuntuLTS-flat.vmdk Currently, OS boot VMDK disks with an IDE adapter type cannot be attached to a virtual SCSI controller and likewise disks with one of the SCSI adapter types (such as, busLogic, lsiLogic, lsiLogicsas, paraVirtual) cannot be attached to the IDE controller. Therefore, as the previous examples show, it is important to set the ``vmware_adaptertype`` property correctly. The default adapter type is lsiLogic, which is SCSI, so you can omit the ``vmware_adaptertype`` property if you are certain that the image adapter type is lsiLogic. Tag VMware images ----------------- In a mixed hypervisor environment, OpenStack Compute uses the ``hypervisor_type`` tag to match images to the correct hypervisor type. For VMware images, set the hypervisor type to ``vmware``. Other valid hypervisor types include: ``hyperv``, ``ironic``, ``lxc``, ``qemu``, ``uml``, and ``xen``. Note that ``qemu`` is used for both QEMU and KVM hypervisor types. .. code-block:: console $ openstack image create \ --disk-format vmdk \ --container-format bare \ --property vmware_adaptertype="lsiLogic" \ --property vmware_disktype="preallocated" \ --property hypervisor_type="vmware" \ --property vmware_ostype="ubuntu64Guest" \ ubuntu-thick-scsi < ubuntuLTS-flat.vmdk Optimize images --------------- Monolithic Sparse disks are considerably faster to download but have the overhead of an additional conversion step. When imported into ESX, sparse disks get converted to VMFS flat thin provisioned disks. The download and conversion steps only affect the first launched instance that uses the sparse disk image. The converted disk image is cached, so subsequent instances that use this disk image can simply use the cached version. To avoid the conversion step (at the cost of longer download times) consider converting sparse disks to thin provisioned or preallocated disks before loading them into the Image service. Use one of the following tools to pre-convert sparse disks. vSphere CLI tools Sometimes called the remote CLI or rCLI. Assuming that the sparse disk is made available on a data store accessible by an ESX host, the following command converts it to preallocated format: .. code-block:: console vmkfstools --server=ip_of_some_ESX_host -i \ /vmfs/volumes/datastore1/sparse.vmdk \ /vmfs/volumes/datastore1/converted.vmdk Note that the vifs tool from the same CLI package can be used to upload the disk to be converted. The vifs tool can also be used to download the converted disk if necessary. vmkfstools directly on the ESX host If the SSH service is enabled on an ESX host, the sparse disk can be uploaded to the ESX data store through scp and the vmkfstools local to the ESX host can use used to perform the conversion. After you log in to the host through ssh, run this command: .. code-block:: console vmkfstools -i /vmfs/volumes/datastore1/sparse.vmdk /vmfs/volumes/datastore1/converted.vmdk vmware-vdiskmanager ``vmware-vdiskmanager`` is a utility that comes bundled with VMware Fusion and VMware Workstation. The following example converts a sparse disk to preallocated format: .. code-block:: console '/Applications/VMware Fusion.app/Contents/Library/vmware-vdiskmanager' -r sparse.vmdk -t 4 converted.vmdk In the previous cases, the converted vmdk is actually a pair of files: * The descriptor file ``converted.vmdk``. * The actual virtual disk data file ``converted-flat.vmdk``. The file to be uploaded to the Image service is ``converted-flat.vmdk``. Image handling -------------- The ESX hypervisor requires a copy of the VMDK file in order to boot up a virtual machine. As a result, the vCenter OpenStack Compute driver must download the VMDK via HTTP from the Image service to a data store that is visible to the hypervisor. To optimize this process, the first time a VMDK file is used, it gets cached in the data store. A cached image is stored in a folder named after the image ID. Subsequent virtual machines that need the VMDK use the cached version and don't have to copy the file again from the Image service. Even with a cached VMDK, there is still a copy operation from the cache location to the hypervisor file directory in the shared data store. To avoid this copy, boot the image in linked_clone mode. To learn how to enable this mode, see :ref:`vmware-config`. .. note:: You can also use the ``img_linked_clone`` property (or legacy property ``vmware_linked_clone``) in the Image service to override the linked_clone mode on a per-image basis. If spawning a virtual machine image from ISO with a VMDK disk, the image is created and attached to the virtual machine as a blank disk. In that case ``img_linked_clone`` property for the image is just ignored. If multiple compute nodes are running on the same host, or have a shared file system, you can enable them to use the same cache folder on the back-end data store. To configure this action, set the ``cache_prefix`` option in the ``nova.conf`` file. Its value stands for the name prefix of the folder where cached images are stored. .. note:: This can take effect only if compute nodes are running on the same host, or have a shared file system. You can automatically purge unused images after a specified period of time. To configure this action, set these options in the ``DEFAULT`` section in the ``nova.conf`` file: remove_unused_base_images Set this option to ``True`` to specify that unused images should be removed after the duration specified in the ``remove_unused_original_minimum_age_seconds`` option. The default is ``True``. remove_unused_original_minimum_age_seconds Specifies the duration in seconds after which an unused image is purged from the cache. The default is ``86400`` (24 hours). .. _vmware-networking: Networking with VMware vSphere ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ The VMware driver supports networking with the ``nova-network`` service or the Networking Service. Depending on your installation, complete these configuration steps before you provision VMs: #. **The nova-network service with the FlatManager or FlatDHCPManager**. Create a port group with the same name as the ``flat_network_bridge`` value in the ``nova.conf`` file. The default value is ``br100``. If you specify another value, the new value must be a valid Linux bridge identifier that adheres to Linux bridge naming conventions. All VM NICs are attached to this port group. Ensure that the flat interface of the node that runs the ``nova-network`` service has a path to this network. .. note:: When configuring the port binding for this port group in vCenter, specify ``ephemeral`` for the port binding type. For more information, see `Choosing a port binding type in ESX/ESXi `_ in the VMware Knowledge Base. #. **The nova-network service with the VlanManager**. Set the ``vlan_interface`` configuration option to match the ESX host interface that handles VLAN-tagged VM traffic. OpenStack Compute automatically creates the corresponding port groups. #. If you are using the OpenStack Networking Service: Before provisioning VMs, create a port group with the same name as the ``vmware.integration_bridge`` value in ``nova.conf`` (default is ``br-int``). All VM NICs are attached to this port group for management by the OpenStack Networking plug-in. Volumes with VMware vSphere ~~~~~~~~~~~~~~~~~~~~~~~~~~~ The VMware driver supports attaching volumes from the Block Storage service. The VMware VMDK driver for OpenStack Block Storage is recommended and should be used for managing volumes based on vSphere data stores. For more information about the VMware VMDK driver, see :ref:`block_storage_vmdk_driver`. Also an iSCSI volume driver provides limited support and can be used only for attachments. .. _vmware-config: Configuration reference ~~~~~~~~~~~~~~~~~~~~~~~ To customize the VMware driver, use the configuration option settings documented in :ref:`nova-vmware`.