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#!/usr/bin/python
# -*- coding: utf-8 -*-
# Copyright: (c) 2017, Ansible Project
# GNU General Public License v3.0+ (see COPYING or https://www.gnu.org/licenses/gpl-3.0.txt)
ANSIBLE_METADATA = {'metadata_version': '1.1',
'status': ['preview'],
'supported_by': 'community'}
DOCUMENTATION = '''
---
module: ovirt_vm
short_description: Module to manage Virtual Machines in oVirt/RHV
version_added: "2.2"
author:
- Ondra Machacek (@machacekondra)
description:
- This module manages whole lifecycle of the Virtual Machine(VM) in oVirt/RHV.
- Since VM can hold many states in oVirt/RHV, this see notes to see how the states of the VM are handled.
options:
name:
description:
- Name of the Virtual Machine to manage.
- If VM don't exists C(name) is required. Otherwise C(id) or C(name) can be used.
id:
description:
- ID of the Virtual Machine to manage.
state:
description:
- Should the Virtual Machine be running/stopped/present/absent/suspended/next_run/registered.
When C(state) is I(registered) and the unregistered VM's name
belongs to an already registered in engine VM in the same DC
then we fail to register the unregistered template.
- I(present) state will create/update VM and don't change its state if it already exists.
- I(running) state will create/update VM and start it.
- I(next_run) state updates the VM and if the VM has next run configuration it will be rebooted.
- Please check I(notes) to more detailed description of states.
- I(registered) is supported since 2.4.
choices: [ absent, next_run, present, registered, running, stopped, suspended ]
default: present
cluster:
description:
- Name of the cluster, where Virtual Machine should be created.
- Required if creating VM.
allow_partial_import:
description:
- Boolean indication whether to allow partial registration of Virtual Machine when C(state) is registered.
type: bool
version_added: "2.4"
vnic_profile_mappings:
description:
- "Mapper which maps an external virtual NIC profile to one that exists in the engine when C(state) is registered.
vnic_profile is described by the following dictionary:"
- "C(source_network_name): The network name of the source network."
- "C(source_profile_name): The profile name related to the source network."
- "C(target_profile_id): The id of the target profile id to be mapped to in the engine."
version_added: "2.5"
cluster_mappings:
description:
- "Mapper which maps cluster name between VM's OVF and the destination cluster this VM should be registered to,
relevant when C(state) is registered.
Cluster mapping is described by the following dictionary:"
- "C(source_name): The name of the source cluster."
- "C(dest_name): The name of the destination cluster."
version_added: "2.5"
role_mappings:
description:
- "Mapper which maps role name between VM's OVF and the destination role this VM should be registered to,
relevant when C(state) is registered.
Role mapping is described by the following dictionary:"
- "C(source_name): The name of the source role."
- "C(dest_name): The name of the destination role."
version_added: "2.5"
domain_mappings:
description:
- "Mapper which maps aaa domain name between VM's OVF and the destination aaa domain this VM should be registered to,
relevant when C(state) is registered.
The aaa domain mapping is described by the following dictionary:"
- "C(source_name): The name of the source aaa domain."
- "C(dest_name): The name of the destination aaa domain."
version_added: "2.5"
affinity_group_mappings:
description:
- "Mapper which maps affinty name between VM's OVF and the destination affinity this VM should be registered to,
relevant when C(state) is registered."
version_added: "2.5"
affinity_label_mappings:
description:
- "Mappper which maps affinity label name between VM's OVF and the destination label this VM should be registered to,
relevant when C(state) is registered."
version_added: "2.5"
lun_mappings:
description:
- "Mapper which maps lun between VM's OVF and the destination lun this VM should contain, relevant when C(state) is registered.
lun_mappings is described by the following dictionary:
- C(logical_unit_id): The logical unit number to identify a logical unit,
- C(logical_unit_port): The port being used to connect with the LUN disk.
- C(logical_unit_portal): The portal being used to connect with the LUN disk.
- C(logical_unit_address): The address of the block storage host.
- C(logical_unit_target): The iSCSI specification located on an iSCSI server
- C(logical_unit_username): Username to be used to connect to the block storage host.
- C(logical_unit_password): Password to be used to connect to the block storage host.
- C(storage_type): The storage type which the LUN reside on (iscsi or fcp)"
version_added: "2.5"
reassign_bad_macs:
description:
- "Boolean indication whether to reassign bad macs when C(state) is registered."
type: bool
version_added: "2.5"
template:
description:
- Name of the template, which should be used to create Virtual Machine.
- Required if creating VM.
- If template is not specified and VM doesn't exist, VM will be created from I(Blank) template.
template_version:
description:
- Version number of the template to be used for VM.
- By default the latest available version of the template is used.
version_added: "2.3"
use_latest_template_version:
description:
- Specify if latest template version should be used, when running a stateless VM.
- If this parameter is set to I(yes) stateless VM is created.
type: bool
version_added: "2.3"
storage_domain:
description:
- Name of the storage domain where all template disks should be created.
- This parameter is considered only when C(template) is provided.
- IMPORTANT - This parameter is not idempotent, if the VM exists and you specfiy different storage domain,
disk won't move.
version_added: "2.4"
disk_format:
description:
- Specify format of the disk.
- If C(cow) format is used, disk will by created as sparse, so space will be allocated for the volume as needed, also known as I(thin provision).
- If C(raw) format is used, disk storage will be allocated right away, also known as I(preallocated).
- Note that this option isn't idempotent as it's not currently possible to change format of the disk via API.
- This parameter is considered only when C(template) and C(storage domain) is provided.
choices: [ cow, raw ]
default: cow
version_added: "2.4"
memory:
description:
- Amount of memory of the Virtual Machine. Prefix uses IEC 60027-2 standard (for example 1GiB, 1024MiB).
- Default value is set by engine.
memory_guaranteed:
description:
- Amount of minimal guaranteed memory of the Virtual Machine.
Prefix uses IEC 60027-2 standard (for example 1GiB, 1024MiB).
- C(memory_guaranteed) parameter can't be lower than C(memory) parameter.
- Default value is set by engine.
memory_max:
description:
- Upper bound of virtual machine memory up to which memory hot-plug can be performed.
Prefix uses IEC 60027-2 standard (for example 1GiB, 1024MiB).
- Default value is set by engine.
version_added: "2.5"
cpu_shares:
description:
- Set a CPU shares for this Virtual Machine.
- Default value is set by oVirt/RHV engine.
cpu_cores:
description:
- Number of virtual CPUs cores of the Virtual Machine.
- Default value is set by oVirt/RHV engine.
cpu_sockets:
description:
- Number of virtual CPUs sockets of the Virtual Machine.
- Default value is set by oVirt/RHV engine.
cpu_threads:
description:
- Number of virtual CPUs sockets of the Virtual Machine.
- Default value is set by oVirt/RHV engine.
version_added: "2.5"
type:
description:
- Type of the Virtual Machine.
- Default value is set by oVirt/RHV engine.
- I(high_performance) is supported since Ansible 2.5 and oVirt/RHV 4.2.
choices: [ desktop, server, high_performance ]
quota_id:
description:
- "Virtual Machine quota ID to be used for disk. By default quota is chosen by oVirt/RHV engine."
version_added: "2.5"
operating_system:
description:
- Operating system of the Virtual Machine.
- Default value is set by oVirt/RHV engine.
- "Possible values: debian_7, freebsd, freebsdx64, other, other_linux,
other_linux_ppc64, other_ppc64, rhel_3, rhel_4, rhel_4x64, rhel_5, rhel_5x64,
rhel_6, rhel_6x64, rhel_6_ppc64, rhel_7x64, rhel_7_ppc64, sles_11, sles_11_ppc64,
ubuntu_12_04, ubuntu_12_10, ubuntu_13_04, ubuntu_13_10, ubuntu_14_04, ubuntu_14_04_ppc64,
windows_10, windows_10x64, windows_2003, windows_2003x64, windows_2008, windows_2008x64,
windows_2008r2x64, windows_2008R2x64, windows_2012x64, windows_2012R2x64, windows_7,
windows_7x64, windows_8, windows_8x64, windows_xp"
boot_devices:
description:
- List of boot devices which should be used to boot. For example C([ cdrom, hd ]).
- Default value is set by oVirt/RHV engine.
choices: [ cdrom, hd, network ]
boot_menu:
description:
- "I(True) enable menu to select boot device, I(False) to disable it. By default is chosen by oVirt/RHV engine."
type: bool
version_added: "2.5"
usb_support:
description:
- "I(True) enable USB support, I(False) to disable it. By default is chosen by oVirt/RHV engine."
type: bool
version_added: "2.5"
serial_console:
description:
- "I(True) enable VirtIO serial console, I(False) to disable it. By default is chosen by oVirt/RHV engine."
type: bool
version_added: "2.5"
sso:
description:
- "I(True) enable Single Sign On by Guest Agent, I(False) to disable it. By default is chosen by oVirt/RHV engine."
type: bool
version_added: "2.5"
host:
description:
- Specify host where Virtual Machine should be running. By default the host is chosen by engine scheduler.
- This parameter is used only when C(state) is I(running) or I(present).
high_availability:
description:
- If I(yes) Virtual Machine will be set as highly available.
- If I(no) Virtual Machine won't be set as highly available.
- If no value is passed, default value is set by oVirt/RHV engine.
type: bool
high_availability_priority:
description:
- Indicates the priority of the virtual machine inside the run and migration queues.
Virtual machines with higher priorities will be started and migrated before virtual machines with lower
priorities. The value is an integer between 0 and 100. The higher the value, the higher the priority.
- If no value is passed, default value is set by oVirt/RHV engine.
version_added: "2.5"
lease:
description:
- Name of the storage domain this virtual machine lease reside on.
- NOTE - Supported since oVirt 4.1.
version_added: "2.4"
custom_compatibility_version:
description:
- "Enables a virtual machine to be customized to its own compatibility version. If
'C(custom_compatibility_version)' is set, it overrides the cluster's compatibility version
for this particular virtual machine."
version_added: "2.7"
host_devices:
description:
- Single Root I/O Virtualization - technology that allows single device to expose multiple endpoints that can be passed to VMs
- host_devices is an list which contain dictinary with name and state of device
version_added: "2.7"
delete_protected:
description:
- If I(yes) Virtual Machine will be set as delete protected.
- If I(no) Virtual Machine won't be set as delete protected.
- If no value is passed, default value is set by oVirt/RHV engine.
type: bool
stateless:
description:
- If I(yes) Virtual Machine will be set as stateless.
- If I(no) Virtual Machine will be unset as stateless.
- If no value is passed, default value is set by oVirt/RHV engine.
type: bool
clone:
description:
- If I(yes) then the disks of the created virtual machine will be cloned and independent of the template.
- This parameter is used only when C(state) is I(running) or I(present) and VM didn't exist before.
type: bool
default: 'no'
clone_permissions:
description:
- If I(yes) then the permissions of the template (only the direct ones, not the inherited ones)
will be copied to the created virtual machine.
- This parameter is used only when C(state) is I(running) or I(present) and VM didn't exist before.
type: bool
default: 'no'
cd_iso:
description:
- ISO file from ISO storage domain which should be attached to Virtual Machine.
- If you pass empty string the CD will be ejected from VM.
- If used with C(state) I(running) or I(present) and VM is running the CD will be attached to VM.
- If used with C(state) I(running) or I(present) and VM is down the CD will be attached to VM persistently.
force:
description:
- Please check to I(Synopsis) to more detailed description of force parameter, it can behave differently
in different situations.
type: bool
default: 'no'
nics:
description:
- List of NICs, which should be attached to Virtual Machine. NIC is described by following dictionary.
- C(name) - Name of the NIC.
- C(profile_name) - Profile name where NIC should be attached.
- C(interface) - Type of the network interface. One of following I(virtio), I(e1000), I(rtl8139), default is I(virtio).
- C(mac_address) - Custom MAC address of the network interface, by default it's obtained from MAC pool.
- NOTE - This parameter is used only when C(state) is I(running) or I(present) and is able to only create NICs.
To manage NICs of the VM in more depth please use M(ovirt_nics) module instead.
disks:
description:
- List of disks, which should be attached to Virtual Machine. Disk is described by following dictionary.
- C(name) - Name of the disk. Either C(name) or C(id) is required.
- C(id) - ID of the disk. Either C(name) or C(id) is required.
- C(interface) - Interface of the disk, either I(virtio) or I(IDE), default is I(virtio).
- C(bootable) - I(True) if the disk should be bootable, default is non bootable.
- C(activate) - I(True) if the disk should be activated, default is activated.
- NOTE - This parameter is used only when C(state) is I(running) or I(present) and is able to only attach disks.
To manage disks of the VM in more depth please use M(ovirt_disks) module instead.
sysprep:
description:
- Dictionary with values for Windows Virtual Machine initialization using sysprep.
- C(host_name) - Hostname to be set to Virtual Machine when deployed.
- C(active_directory_ou) - Active Directory Organizational Unit, to be used for login of user.
- C(org_name) - Organization name to be set to Windows Virtual Machine.
- C(domain) - Domain to be set to Windows Virtual Machine.
- C(timezone) - Timezone to be set to Windows Virtual Machine.
- C(ui_language) - UI language of the Windows Virtual Machine.
- C(system_locale) - System localization of the Windows Virtual Machine.
- C(input_locale) - Input localization of the Windows Virtual Machine.
- C(windows_license_key) - License key to be set to Windows Virtual Machine.
- C(user_name) - Username to be used for set password to Windows Virtual Machine.
- C(root_password) - Password to be set for username to Windows Virtual Machine.
cloud_init:
description:
- Dictionary with values for Unix-like Virtual Machine initialization using cloud init.
- C(host_name) - Hostname to be set to Virtual Machine when deployed.
- C(timezone) - Timezone to be set to Virtual Machine when deployed.
- C(user_name) - Username to be used to set password to Virtual Machine when deployed.
- C(root_password) - Password to be set for user specified by C(user_name) parameter.
- C(authorized_ssh_keys) - Use this SSH keys to login to Virtual Machine.
- C(regenerate_ssh_keys) - If I(True) SSH keys will be regenerated on Virtual Machine.
- C(custom_script) - Cloud-init script which will be executed on Virtual Machine when deployed. This is appended to the end of the
cloud-init script generated by any other options.
- C(dns_servers) - DNS servers to be configured on Virtual Machine.
- C(dns_search) - DNS search domains to be configured on Virtual Machine.
- C(nic_boot_protocol) - Set boot protocol of the network interface of Virtual Machine. Can be one of C(none), C(dhcp) or C(static).
- C(nic_ip_address) - If boot protocol is static, set this IP address to network interface of Virtual Machine.
- C(nic_netmask) - If boot protocol is static, set this netmask to network interface of Virtual Machine.
- C(nic_gateway) - If boot protocol is static, set this gateway to network interface of Virtual Machine.
- C(nic_name) - Set name to network interface of Virtual Machine.
- C(nic_on_boot) - If I(True) network interface will be set to start on boot.
cloud_init_nics:
description:
- List of dictionaries representing network interfaces to be setup by cloud init.
- This option is used, when user needs to setup more network interfaces via cloud init.
- If one network interface is enough, user should use C(cloud_init) I(nic_*) parameters. C(cloud_init) I(nic_*) parameters
are merged with C(cloud_init_nics) parameters.
- Dictionary can contain following values.
- C(nic_boot_protocol) - Set boot protocol of the network interface of Virtual Machine. Can be one of C(none), C(dhcp) or C(static).
- C(nic_ip_address) - If boot protocol is static, set this IP address to network interface of Virtual Machine.
- C(nic_netmask) - If boot protocol is static, set this netmask to network interface of Virtual Machine.
- C(nic_gateway) - If boot protocol is static, set this gateway to network interface of Virtual Machine.
- C(nic_name) - Set name to network interface of Virtual Machine.
- C(nic_on_boot) - If I(True) network interface will be set to start on boot.
version_added: "2.3"
cloud_init_persist:
description:
- "If I(true) the C(cloud_init) or C(sysprep) parameters will be saved for the virtual machine
and won't be virtual machine won't be started as run-once."
type: bool
version_added: "2.5"
aliases: [ 'sysprep_persist' ]
kernel_path:
description:
- Path to a kernel image used to boot the virtual machine.
- Kernel image must be stored on either the ISO domain or on the host's storage.
version_added: "2.3"
initrd_path:
description:
- Path to an initial ramdisk to be used with the kernel specified by C(kernel_path) option.
- Ramdisk image must be stored on either the ISO domain or on the host's storage.
version_added: "2.3"
kernel_params:
description:
- Kernel command line parameters (formatted as string) to be used with the kernel specified by C(kernel_path) option.
version_added: "2.3"
instance_type:
description:
- Name of virtual machine's hardware configuration.
- By default no instance type is used.
version_added: "2.3"
description:
description:
- Description of the Virtual Machine.
version_added: "2.3"
comment:
description:
- Comment of the Virtual Machine.
version_added: "2.3"
timezone:
description:
- Sets time zone offset of the guest hardware clock.
- For example C(Etc/GMT)
version_added: "2.3"
serial_policy:
description:
- Specify a serial number policy for the Virtual Machine.
- Following options are supported.
- C(vm) - Sets the Virtual Machine's UUID as its serial number.
- C(host) - Sets the host's UUID as the Virtual Machine's serial number.
- C(custom) - Allows you to specify a custom serial number in C(serial_policy_value).
choices: ['vm', 'host', 'custom']
version_added: "2.3"
serial_policy_value:
description:
- Allows you to specify a custom serial number.
- This parameter is used only when C(serial_policy) is I(custom).
version_added: "2.3"
vmware:
description:
- Dictionary of values to be used to connect to VMware and import
a virtual machine to oVirt.
- Dictionary can contain following values.
- C(username) - The username to authenticate against the VMware.
- C(password) - The password to authenticate against the VMware.
- C(url) - The URL to be passed to the I(virt-v2v) tool for conversion.
For example I(vpx://wmware_user@vcenter-host/DataCenter/Cluster/esxi-host?no_verify=1)
- C(drivers_iso) - The name of the ISO containing drivers that can
be used during the I(virt-v2v) conversion process.
- C(sparse) - Specifies the disk allocation policy of the resulting
virtual machine. I(true) for sparse, I(false) for preallocated.
Default value is I(true).
- C(storage_domain) - Specifies the target storage domain for
converted disks. This is required parameter.
version_added: "2.3"
xen:
description:
- Dictionary of values to be used to connect to XEN and import
a virtual machine to oVirt.
- Dictionary can contain following values.
- C(url) - The URL to be passed to the I(virt-v2v) tool for conversion.
For example I(xen+ssh://root@zen.server). This is required parameter.
- C(drivers_iso) - The name of the ISO containing drivers that can
be used during the I(virt-v2v) conversion process.
- C(sparse) - Specifies the disk allocation policy of the resulting
virtual machine. I(true) for sparse, I(false) for preallocated.
Default value is I(true).
- C(storage_domain) - Specifies the target storage domain for
converted disks. This is required parameter.
version_added: "2.3"
kvm:
description:
- Dictionary of values to be used to connect to kvm and import
a virtual machine to oVirt.
- Dictionary can contain following values.
- C(name) - The name of the KVM virtual machine.
- C(username) - The username to authenticate against the KVM.
- C(password) - The password to authenticate against the KVM.
- C(url) - The URL to be passed to the I(virt-v2v) tool for conversion.
For example I(qemu:///system). This is required parameter.
- C(drivers_iso) - The name of the ISO containing drivers that can
be used during the I(virt-v2v) conversion process.
- C(sparse) - Specifies the disk allocation policy of the resulting
virtual machine. I(true) for sparse, I(false) for preallocated.
Default value is I(true).
- C(storage_domain) - Specifies the target storage domain for
converted disks. This is required parameter.
version_added: "2.3"
cpu_mode:
description:
- "CPU mode of the virtual machine. It can be some of the following: I(host_passthrough), I(host_model) or I(custom)."
- "For I(host_passthrough) CPU type you need to set C(placement_policy) to I(pinned)."
- "If no value is passed, default value is set by oVirt/RHV engine."
version_added: "2.5"
placement_policy:
description:
- "The configuration of the virtual machine's placement policy."
- "Placement policy can be one of the following values:"
- "C(migratable) - Allow manual and automatic migration."
- "C(pinned) - Do not allow migration."
- "C(user_migratable) - Allow manual migration only."
- "If no value is passed, default value is set by oVirt/RHV engine."
version_added: "2.5"
ticket:
description:
- "If I(true), in addition return I(remote_vv_file) inside I(vm) dictionary, which contains compatible
content for remote-viewer application. Works only C(state) is I(running)."
version_added: "2.7"
type: bool
cpu_pinning:
description:
- "CPU Pinning topology to map virtual machine CPU to host CPU."
- "CPU Pinning topology is a list of dictionary which can have following values:"
- "C(cpu) - Number of the host CPU."
- "C(vcpu) - Number of the virtual machine CPU."
version_added: "2.5"
soundcard_enabled:
description:
- "If I(true), the sound card is added to the virtual machine."
type: bool
version_added: "2.5"
smartcard_enabled:
description:
- "If I(true), use smart card authentication."
type: bool
version_added: "2.5"
io_threads:
description:
- "Number of IO threads used by virtual machine. I(0) means IO threading disabled."
version_added: "2.5"
ballooning_enabled:
description:
- "If I(true), use memory ballooning."
- "Memory balloon is a guest device, which may be used to re-distribute / reclaim the host memory
based on VM needs in a dynamic way. In this way it's possible to create memory over commitment states."
type: bool
version_added: "2.5"
numa_tune_mode:
description:
- "Set how the memory allocation for NUMA nodes of this VM is applied (relevant if NUMA nodes are set for this VM)."
- "It can be one of the following: I(interleave), I(preferred) or I(strict)."
- "If no value is passed, default value is set by oVirt/RHV engine."
choices: ['interleave', 'preferred', 'strict']
version_added: "2.6"
numa_nodes:
description:
- "List of vNUMA Nodes to set for this VM and pin them to assigned host's physical NUMA node."
- "Each vNUMA node is described by following dictionary:"
- "C(index) - The index of this NUMA node (mandatory)."
- "C(memory) - Memory size of the NUMA node in MiB (mandatory)."
- "C(cores) - list of VM CPU cores indexes to be included in this NUMA node (mandatory)."
- "C(numa_node_pins) - list of physical NUMA node indexes to pin this virtual NUMA node to."
version_added: "2.6"
rng_device:
description:
- "Random number generator (RNG). You can choose of one the following devices I(urandom), I(random) or I(hwrng)."
- "In order to select I(hwrng), you must have it enabled on cluster first."
- "/dev/urandom is used for cluster version >= 4.1, and /dev/random for cluster version <= 4.0"
version_added: "2.5"
custom_properties:
description:
- "Properties sent to VDSM to configure various hooks."
- "Custom properties is a list of dictionary which can have following values:"
- "C(name) - Name of the custom property. For example: I(hugepages), I(vhost), I(sap_agent), etc."
- "C(regexp) - Regular expression to set for custom property."
- "C(value) - Value to set for custom property."
version_added: "2.5"
watchdog:
description:
- "Assign watchdog device for the virtual machine."
- "Watchdogs is a dictionary which can have following values:"
- "C(model) - Model of the watchdog device. For example: I(i6300esb), I(diag288) or I(null)."
- "C(action) - Watchdog action to be performed when watchdog is triggered. For example: I(none), I(reset), I(poweroff), I(pause) or I(dump)."
version_added: "2.5"
graphical_console:
description:
- "Assign graphical console to the virtual machine."
- "Graphical console is a dictionary which can have following values:"
- "C(headless_mode) - If I(true) disable the graphics console for this virtual machine."
- "C(protocol) - Graphical protocol, a list of I(spice), I(vnc), or both."
version_added: "2.5"
notes:
- If VM is in I(UNASSIGNED) or I(UNKNOWN) state before any operation, the module will fail.
If VM is in I(IMAGE_LOCKED) state before any operation, we try to wait for VM to be I(DOWN).
If VM is in I(SAVING_STATE) state before any operation, we try to wait for VM to be I(SUSPENDED).
If VM is in I(POWERING_DOWN) state before any operation, we try to wait for VM to be I(UP) or I(DOWN). VM can
get into I(UP) state from I(POWERING_DOWN) state, when there is no ACPI or guest agent running inside VM, or
if the shutdown operation fails.
When user specify I(UP) C(state), we always wait to VM to be in I(UP) state in case VM is I(MIGRATING),
I(REBOOTING), I(POWERING_UP), I(RESTORING_STATE), I(WAIT_FOR_LAUNCH). In other states we run start operation on VM.
When user specify I(stopped) C(state), and If user pass C(force) parameter set to I(true) we forcibly stop the VM in
any state. If user don't pass C(force) parameter, we always wait to VM to be in UP state in case VM is
I(MIGRATING), I(REBOOTING), I(POWERING_UP), I(RESTORING_STATE), I(WAIT_FOR_LAUNCH). If VM is in I(PAUSED) or
I(SUSPENDED) state, we start the VM. Then we gracefully shutdown the VM.
When user specify I(suspended) C(state), we always wait to VM to be in UP state in case VM is I(MIGRATING),
I(REBOOTING), I(POWERING_UP), I(RESTORING_STATE), I(WAIT_FOR_LAUNCH). If VM is in I(PAUSED) or I(DOWN) state,
we start the VM. Then we suspend the VM.
When user specify I(absent) C(state), we forcibly stop the VM in any state and remove it.
extends_documentation_fragment: ovirt
'''
EXAMPLES = '''
# Examples don't contain auth parameter for simplicity,
# look at ovirt_auth module to see how to reuse authentication:
- name: Creates a new Virtual Machine from template named 'rhel7_template'
ovirt_vm:
state: present
name: myvm
template: rhel7_template
cluster: mycluster
- name: Register VM
ovirt_vm:
state: registered
storage_domain: mystorage
cluster: mycluster
name: myvm
- name: Register VM using id
ovirt_vm:
state: registered
storage_domain: mystorage
cluster: mycluster
id: 1111-1111-1111-1111
- name: Register VM, allowing partial import
ovirt_vm:
state: registered
storage_domain: mystorage
allow_partial_import: "True"
cluster: mycluster
id: 1111-1111-1111-1111
- name: Register VM with vnic profile mappings and reassign bad macs
ovirt_vm:
state: registered
storage_domain: mystorage
cluster: mycluster
id: 1111-1111-1111-1111
vnic_profile_mappings:
- source_network_name: mynetwork
source_profile_name: mynetwork
target_profile_id: 3333-3333-3333-3333
- source_network_name: mynetwork2
source_profile_name: mynetwork2
target_profile_id: 4444-4444-4444-4444
reassign_bad_macs: "True"
- name: Register VM with mappings
ovirt_vm:
state: registered
storage_domain: mystorage
cluster: mycluster
id: 1111-1111-1111-1111
role_mappings:
- source_name: Role_A
dest_name: Role_B
domain_mappings:
- source_name: Domain_A
dest_name: Domain_B
lun_mappings:
- source_storage_type: iscsi
source_logical_unit_id: 1IET_000d0001
source_logical_unit_port: 3260
source_logical_unit_portal: 1
source_logical_unit_address: 10.34.63.203
source_logical_unit_target: iqn.2016-08-09.brq.str-01:omachace
dest_storage_type: iscsi
dest_logical_unit_id: 1IET_000d0002
dest_logical_unit_port: 3260
dest_logical_unit_portal: 1
dest_logical_unit_address: 10.34.63.204
dest_logical_unit_target: iqn.2016-08-09.brq.str-02:omachace
affinity_group_mappings:
- source_name: Affinity_A
dest_name: Affinity_B
affinity_label_mappings:
- source_name: Label_A
dest_name: Label_B
cluster_mappings:
- source_name: cluster_A
dest_name: cluster_B
- name: Creates a stateless VM which will always use latest template version
ovirt_vm:
name: myvm
template: rhel7
cluster: mycluster
use_latest_template_version: true
# Creates a new server rhel7 Virtual Machine from Blank template
# on brq01 cluster with 2GiB memory and 2 vcpu cores/sockets
# and attach bootable disk with name rhel7_disk and attach virtio NIC
- ovirt_vm:
state: present
cluster: brq01
name: myvm
memory: 2GiB
cpu_cores: 2
cpu_sockets: 2
cpu_shares: 1024
type: server
operating_system: rhel_7x64
disks:
- name: rhel7_disk
bootable: True
nics:
- name: nic1
- name: Run VM with cloud init
ovirt_vm:
name: rhel7
template: rhel7
cluster: Default
memory: 1GiB
high_availability: true
high_availability_priority: 50 # Available from Ansible 2.5
cloud_init:
nic_boot_protocol: static
nic_ip_address: 10.34.60.86
nic_netmask: 255.255.252.0
nic_gateway: 10.34.63.254
nic_name: eth1
nic_on_boot: true
host_name: example.com
custom_script: |
write_files:
- content: |
Hello, world!
path: /tmp/greeting.txt
permissions: '0644'
user_name: root
root_password: super_password
- name: Run VM with cloud init, with multiple network interfaces
ovirt_vm:
name: rhel7_4
template: rhel7
cluster: mycluster
cloud_init_nics:
- nic_name: eth0
nic_boot_protocol: dhcp
nic_on_boot: true
- nic_name: eth1
nic_boot_protocol: static
nic_ip_address: 10.34.60.86
nic_netmask: 255.255.252.0
nic_gateway: 10.34.63.254
nic_on_boot: true
- name: Run VM with sysprep
ovirt_vm:
name: windows2012R2_AD
template: windows2012R2
cluster: Default
memory: 3GiB
high_availability: true
sysprep:
host_name: windowsad.example.com
user_name: Administrator
root_password: SuperPassword123
- name: Migrate/Run VM to/on host named 'host1'
ovirt_vm:
state: running
name: myvm
host: host1
- name: Change VMs CD
ovirt_vm:
name: myvm
cd_iso: drivers.iso
- name: Eject VMs CD
ovirt_vm:
name: myvm
cd_iso: ''
- name: Boot VM from CD
ovirt_vm:
name: myvm
cd_iso: centos7_x64.iso
boot_devices:
- cdrom
- name: Stop vm
ovirt_vm:
state: stopped
name: myvm
- name: Upgrade memory to already created VM
ovirt_vm:
name: myvm
memory: 4GiB
- name: Hot plug memory to already created and running VM (VM won't be restarted)
ovirt_vm:
name: myvm
memory: 4GiB
# Create/update a VM to run with two vNUMA nodes and pin them to physical NUMA nodes as follows:
# vnuma index 0-> numa index 0, vnuma index 1-> numa index 1
- name: Create a VM to run with two vNUMA nodes
ovirt_vm:
name: myvm
cluster: mycluster
numa_tune_mode: "interleave"
numa_nodes:
- index: 0
cores: [0]
memory: 20
numa_node_pins: [0]
- index: 1
cores: [1]
memory: 30
numa_node_pins: [1]
- name: Update an existing VM to run without previously created vNUMA nodes (i.e. remove all vNUMA nodes+NUMA pinning setting)
ovirt_vm:
name: myvm
cluster: mycluster
state: "present"
numa_tune_mode: "interleave"
numa_nodes:
- index: -1
# When change on the VM needs restart of the VM, use next_run state,
# The VM will be updated and rebooted if there are any changes.
# If present state would be used, VM won't be restarted.
- ovirt_vm:
state: next_run
name: myvm
boot_devices:
- network
- name: Import virtual machine from VMware
ovirt_vm:
state: stopped
cluster: mycluster
name: vmware_win10
timeout: 1800
poll_interval: 30
vmware:
url: vpx://user@1.2.3.4/Folder1/Cluster1/2.3.4.5?no_verify=1
name: windows10
storage_domain: mynfs
username: user
password: password
- name: Create vm from template and create all disks on specific storage domain
ovirt_vm:
name: vm_test
cluster: mycluster
template: mytemplate
storage_domain: mynfs
nics:
- name: nic1
- name: Remove VM, if VM is running it will be stopped
ovirt_vm:
state: absent
name: myvm
# Defining a specific quota for a VM:
# Since Ansible 2.5
- ovirt_quotas_facts:
data_center: Default
name: myquota
- ovirt_vm:
name: myvm
sso: False
boot_menu: True
usb_support: True
serial_console: True
quota_id: "{{ ovirt_quotas[0]['id'] }}"
- name: Create a VM that has the console configured for both Spice and VNC
ovirt_vm:
name: myvm
template: mytemplate
cluster: mycluster
graphical_console:
protocol:
- spice
- vnc
# Execute remote viever to VM
- block:
- name: Create a ticket for console for a running VM
ovirt_vms:
name: myvm
ticket: true
state: running
register: myvm
- name: Save ticket to file
copy:
content: "{{ myvm.vm.remote_vv_file }}"
dest: ~/vvfile.vv
- name: Run remote viewer with file
command: remote-viewer ~/vvfile.vv
# Default value of host_device state is present
- name: Attach host devices to virtual machine
ovirt_vm:
name: myvm
host: myhost
placement_policy: pinned
host_devices:
- name: pci_0000_00_06_0
- name: pci_0000_00_07_0
state: absent
- name: pci_0000_00_08_0
state: present
'''
RETURN = '''
id:
description: ID of the VM which is managed
returned: On success if VM is found.
type: str
sample: 7de90f31-222c-436c-a1ca-7e655bd5b60c
vm:
description: "Dictionary of all the VM attributes. VM attributes can be found on your oVirt/RHV instance
at following url: http://ovirt.github.io/ovirt-engine-api-model/master/#types/vm.
Additionally when user sent ticket=true, this module will return also remote_vv_file
parameter in vm dictionary, which contains remote-viewer compatible file to open virtual
machine console. Please note that this file contains sensible information."
returned: On success if VM is found.
type: dict
'''
import traceback
try:
import ovirtsdk4.types as otypes
except ImportError:
pass
from ansible.module_utils.basic import AnsibleModule
from ansible.module_utils.ovirt import (
BaseModule,
check_params,
check_sdk,
convert_to_bytes,
create_connection,
equal,
get_dict_of_struct,
get_entity,
get_link_name,
get_id_by_name,
ovirt_full_argument_spec,
search_by_name,
wait,
)
class VmsModule(BaseModule):
def __init__(self, *args, **kwargs):
super(VmsModule, self).__init__(*args, **kwargs)
self._initialization = None
self._is_new = False
def __get_template_with_version(self):
"""
oVirt/RHV in version 4.1 doesn't support search by template+version_number,
so we need to list all templates with specific name and then iterate
through it's version until we find the version we look for.
"""
template = None
templates_service = self._connection.system_service().templates_service()
if self.param('template'):
templates = templates_service.list(
search='name=%s and cluster=%s' % (self.param('template'), self.param('cluster'))
)
if self.param('template_version'):
templates = [
t for t in templates
if t.version.version_number == self.param('template_version')
]
if not templates:
raise ValueError(
"Template with name '%s' and version '%s' in cluster '%s' was not found'" % (
self.param('template'),
self.param('template_version'),
self.param('cluster')
)
)
template = sorted(templates, key=lambda t: t.version.version_number, reverse=True)[0]
elif self._is_new:
# If template isn't specified and VM is about to be created specify default template:
template = templates_service.template_service('00000000-0000-0000-0000-000000000000').get()
return template
def __get_storage_domain_and_all_template_disks(self, template):
if self.param('template') is None:
return None
if self.param('storage_domain') is None:
return None
disks = list()
for att in self._connection.follow_link(template.disk_attachments):
disks.append(
otypes.DiskAttachment(
disk=otypes.Disk(
id=att.disk.id,
format=otypes.DiskFormat(self.param('disk_format')),
storage_domains=[
otypes.StorageDomain(
id=get_id_by_name(
self._connection.system_service().storage_domains_service(),
self.param('storage_domain')
)
)
]
)
)
)
return disks
def build_entity(self):
template = self.__get_template_with_version()
disk_attachments = self.__get_storage_domain_and_all_template_disks(template)
return otypes.Vm(
id=self.param('id'),
name=self.param('name'),
cluster=otypes.Cluster(
name=self.param('cluster')
) if self.param('cluster') else None,
disk_attachments=disk_attachments,
template=otypes.Template(
id=template.id,
) if template else None,
use_latest_template_version=self.param('use_latest_template_version'),
stateless=self.param('stateless') or self.param('use_latest_template_version'),
delete_protected=self.param('delete_protected'),
bios=(
otypes.Bios(boot_menu=otypes.BootMenu(enabled=self.param('boot_menu')))
) if self.param('boot_menu') is not None else None,
console=(
otypes.Console(enabled=self.param('serial_console'))
) if self.param('serial_console') is not None else None,
usb=(
otypes.Usb(enabled=self.param('usb_support'))
) if self.param('usb_support') is not None else None,
sso=(
otypes.Sso(
methods=[otypes.Method(id=otypes.SsoMethod.GUEST_AGENT)] if self.param('sso') else []
)
) if self.param('sso') is not None else None,
quota=otypes.Quota(id=self._module.params.get('quota_id')) if self.param('quota_id') is not None else None,
high_availability=otypes.HighAvailability(
enabled=self.param('high_availability'),
priority=self.param('high_availability_priority'),
) if self.param('high_availability') is not None or self.param('high_availability_priority') else None,
lease=otypes.StorageDomainLease(
storage_domain=otypes.StorageDomain(
id=get_id_by_name(
service=self._connection.system_service().storage_domains_service(),
name=self.param('lease')
)
)
) if self.param('lease') is not None else None,
cpu=otypes.Cpu(
topology=otypes.CpuTopology(
cores=self.param('cpu_cores'),
sockets=self.param('cpu_sockets'),
threads=self.param('cpu_threads'),
) if any((
self.param('cpu_cores'),
self.param('cpu_sockets'),
self.param('cpu_threads')
)) else None,
cpu_tune=otypes.CpuTune(
vcpu_pins=[
otypes.VcpuPin(vcpu=int(pin['vcpu']), cpu_set=str(pin['cpu'])) for pin in self.param('cpu_pinning')
],
) if self.param('cpu_pinning') else None,
mode=otypes.CpuMode(self.param('cpu_mode')) if self.param('cpu_mode') else None,
) if any((
self.param('cpu_cores'),
self.param('cpu_sockets'),
self.param('cpu_threads'),
self.param('cpu_mode'),
self.param('cpu_pinning')
)) else None,
cpu_shares=self.param('cpu_shares'),
os=otypes.OperatingSystem(
type=self.param('operating_system'),
boot=otypes.Boot(
devices=[
otypes.BootDevice(dev) for dev in self.param('boot_devices')
],
) if self.param('boot_devices') else None,
) if (
self.param('operating_system') or self.param('boot_devices')
) else None,
type=otypes.VmType(
self.param('type')
) if self.param('type') else None,
memory=convert_to_bytes(
self.param('memory')
) if self.param('memory') else None,
memory_policy=otypes.MemoryPolicy(
guaranteed=convert_to_bytes(self.param('memory_guaranteed')),
ballooning=self.param('ballooning_enabled'),
max=convert_to_bytes(self.param('memory_max')),
) if any((
self.param('memory_guaranteed'),
self.param('ballooning_enabled') is not None,
self.param('memory_max')
)) else None,
instance_type=otypes.InstanceType(
id=get_id_by_name(
self._connection.system_service().instance_types_service(),
self.param('instance_type'),
),
) if self.param('instance_type') else None,
custom_compatibility_version=otypes.Version(
major=self._get_major(self.param('custom_compatibility_version')),
minor=self._get_minor(self.param('custom_compatibility_version')),
) if self.param('custom_compatibility_version') is not None else None,
description=self.param('description'),
comment=self.param('comment'),
time_zone=otypes.TimeZone(
name=self.param('timezone'),
) if self.param('timezone') else None,
serial_number=otypes.SerialNumber(
policy=otypes.SerialNumberPolicy(self.param('serial_policy')),
value=self.param('serial_policy_value'),
) if (
self.param('serial_policy') is not None or
self.param('serial_policy_value') is not None
) else None,
placement_policy=otypes.VmPlacementPolicy(
affinity=otypes.VmAffinity(self.param('placement_policy')),
hosts=[
otypes.Host(name=self.param('host')),
] if self.param('host') else None,
) if self.param('placement_policy') else None,
soundcard_enabled=self.param('soundcard_enabled'),
display=otypes.Display(
smartcard_enabled=self.param('smartcard_enabled')
) if self.param('smartcard_enabled') is not None else None,
io=otypes.Io(
threads=self.param('io_threads'),
) if self.param('io_threads') is not None else None,
numa_tune_mode=otypes.NumaTuneMode(
self.param('numa_tune_mode')
) if self.param('numa_tune_mode') else None,
rng_device=otypes.RngDevice(
source=otypes.RngSource(self.param('rng_device')),
) if self.param('rng_device') else None,
custom_properties=[
otypes.CustomProperty(
name=cp.get('name'),
regexp=cp.get('regexp'),
value=str(cp.get('value')),
) for cp in self.param('custom_properties') if cp
] if self.param('custom_properties') is not None else None,
initialization=self.get_initialization() if self.param('cloud_init_persist') else None,
)
def update_check(self, entity):
res = self._update_check(entity)
if entity.next_run_configuration_exists:
res = res and self._update_check(self._service.service(entity.id).get(next_run=True))
return res
def _update_check(self, entity):
def check_cpu_pinning():
if self.param('cpu_pinning'):
current = []
if entity.cpu.cpu_tune:
current = [(str(pin.cpu_set), int(pin.vcpu)) for pin in entity.cpu.cpu_tune.vcpu_pins]
passed = [(str(pin['cpu']), int(pin['vcpu'])) for pin in self.param('cpu_pinning')]
return sorted(current) == sorted(passed)
return True
def check_custom_properties():
if self.param('custom_properties'):
current = []
if entity.custom_properties:
current = [(cp.name, cp.regexp, str(cp.value)) for cp in entity.custom_properties]
passed = [(cp.get('name'), cp.get('regexp'), str(cp.get('value'))) for cp in self.param('custom_properties') if cp]
return sorted(current) == sorted(passed)
return True
def check_host():
if self.param('host') is not None:
return self.param('host') in [self._connection.follow_link(host).name for host in getattr(entity.placement_policy, 'hosts', None) or []]
return True
def check_custom_compatibility_version():
if self.param('custom_compatibility_version') is not None:
return (self._get_minor(self.param('custom_compatibility_version')) == self._get_minor(entity.custom_compatibility_version) and
self._get_major(self.param('custom_compatibility_version')) == self._get_major(entity.custom_compatibility_version))
return True
cpu_mode = getattr(entity.cpu, 'mode')
vm_display = entity.display
return (
check_cpu_pinning() and
check_custom_properties() and
check_host() and
check_custom_compatibility_version() and
not self.param('cloud_init_persist') and
equal(self.param('cluster'), get_link_name(self._connection, entity.cluster)) and equal(convert_to_bytes(self.param('memory')), entity.memory) and
equal(convert_to_bytes(self.param('memory_guaranteed')), entity.memory_policy.guaranteed) and
equal(convert_to_bytes(self.param('memory_max')), entity.memory_policy.max) and
equal(self.param('cpu_cores'), entity.cpu.topology.cores) and
equal(self.param('cpu_sockets'), entity.cpu.topology.sockets) and
equal(self.param('cpu_threads'), entity.cpu.topology.threads) and
equal(self.param('cpu_mode'), str(cpu_mode) if cpu_mode else None) and
equal(self.param('type'), str(entity.type)) and
equal(self.param('operating_system'), str(entity.os.type)) and
equal(self.param('boot_menu'), entity.bios.boot_menu.enabled) and
equal(self.param('soundcard_enabled'), entity.soundcard_enabled) and
equal(self.param('smartcard_enabled'), getattr(vm_display, 'smartcard_enabled', False)) and
equal(self.param('io_threads'), entity.io.threads) and
equal(self.param('ballooning_enabled'), entity.memory_policy.ballooning) and
equal(self.param('serial_console'), getattr(entity.console, 'enabled', None)) and
equal(self.param('usb_support'), entity.usb.enabled) and
equal(self.param('sso'), True if entity.sso.methods else False) and
equal(self.param('quota_id'), getattr(entity.quota, 'id', None)) and
equal(self.param('high_availability'), entity.high_availability.enabled) and
equal(self.param('high_availability_priority'), entity.high_availability.priority) and
equal(self.param('lease'), get_link_name(self._connection, getattr(entity.lease, 'storage_domain', None))) and
equal(self.param('stateless'), entity.stateless) and
equal(self.param('cpu_shares'), entity.cpu_shares) and
equal(self.param('delete_protected'), entity.delete_protected) and
equal(self.param('use_latest_template_version'), entity.use_latest_template_version) and
equal(self.param('boot_devices'), [str(dev) for dev in getattr(entity.os.boot, 'devices', [])]) and
equal(self.param('instance_type'), get_link_name(self._connection, entity.instance_type), ignore_case=True) and
equal(self.param('description'), entity.description) and
equal(self.param('comment'), entity.comment) and
equal(self.param('timezone'), getattr(entity.time_zone, 'name', None)) and
equal(self.param('serial_policy'), str(getattr(entity.serial_number, 'policy', None))) and
equal(self.param('serial_policy_value'), getattr(entity.serial_number, 'value', None)) and
equal(self.param('placement_policy'), str(entity.placement_policy.affinity) if entity.placement_policy else None) and
equal(self.param('numa_tune_mode'), str(entity.numa_tune_mode)) and
equal(self.param('rng_device'), str(entity.rng_device.source) if entity.rng_device else None)
)
def pre_create(self, entity):
# Mark if entity exists before touching it:
if entity is None:
self._is_new = True
def post_update(self, entity):
self.post_present(entity.id)
def post_present(self, entity_id):
# After creation of the VM, attach disks and NICs:
entity = self._service.service(entity_id).get()
self.__attach_disks(entity)
self.__attach_nics(entity)
self._attach_cd(entity)
self.changed = self.__attach_numa_nodes(entity)
self.changed = self.__attach_watchdog(entity)
self.changed = self.__attach_graphical_console(entity)
self.changed = self.__attach_host_devices(entity)
def pre_remove(self, entity):
# Forcibly stop the VM, if it's not in DOWN state:
if entity.status != otypes.VmStatus.DOWN:
if not self._module.check_mode:
self.changed = self.action(
action='stop',
action_condition=lambda vm: vm.status != otypes.VmStatus.DOWN,
wait_condition=lambda vm: vm.status == otypes.VmStatus.DOWN,
)['changed']
def __suspend_shutdown_common(self, vm_service):
if vm_service.get().status in [
otypes.VmStatus.MIGRATING,
otypes.VmStatus.POWERING_UP,
otypes.VmStatus.REBOOT_IN_PROGRESS,
otypes.VmStatus.WAIT_FOR_LAUNCH,
otypes.VmStatus.UP,
otypes.VmStatus.RESTORING_STATE,
]:
self._wait_for_UP(vm_service)
def _pre_shutdown_action(self, entity):
vm_service = self._service.vm_service(entity.id)
self.__suspend_shutdown_common(vm_service)
if entity.status in [otypes.VmStatus.SUSPENDED, otypes.VmStatus.PAUSED]:
vm_service.start()
self._wait_for_UP(vm_service)
return vm_service.get()
def _pre_suspend_action(self, entity):
vm_service = self._service.vm_service(entity.id)
self.__suspend_shutdown_common(vm_service)
if entity.status in [otypes.VmStatus.PAUSED, otypes.VmStatus.DOWN]:
vm_service.start()
self._wait_for_UP(vm_service)
return vm_service.get()
def _post_start_action(self, entity):
vm_service = self._service.service(entity.id)
self._wait_for_UP(vm_service)
self._attach_cd(vm_service.get())
self._migrate_vm(vm_service.get())
def _attach_cd(self, entity):
cd_iso = self.param('cd_iso')
if cd_iso is not None:
vm_service = self._service.service(entity.id)
current = vm_service.get().status == otypes.VmStatus.UP and self.param('state') == 'running'
cdroms_service = vm_service.cdroms_service()
cdrom_device = cdroms_service.list()[0]
cdrom_service = cdroms_service.cdrom_service(cdrom_device.id)
cdrom = cdrom_service.get(current=current)
if getattr(cdrom.file, 'id', '') != cd_iso:
if not self._module.check_mode:
cdrom_service.update(
cdrom=otypes.Cdrom(
file=otypes.File(id=cd_iso)
),
current=current,
)
self.changed = True
return entity
def _migrate_vm(self, entity):
vm_host = self.param('host')
vm_service = self._service.vm_service(entity.id)
if vm_host is not None:
# In case VM is preparing to be UP, wait to be up, to migrate it:
if entity.status == otypes.VmStatus.UP:
hosts_service = self._connection.system_service().hosts_service()
current_vm_host = hosts_service.host_service(entity.host.id).get().name
if vm_host != current_vm_host:
if not self._module.check_mode:
vm_service.migrate(host=otypes.Host(name=vm_host))
self._wait_for_UP(vm_service)
self.changed = True
return entity
def _wait_for_UP(self, vm_service):
wait(
service=vm_service,
condition=lambda vm: vm.status == otypes.VmStatus.UP,
wait=self.param('wait'),
timeout=self.param('timeout'),
)
def _wait_for_vm_disks(self, vm_service):
disks_service = self._connection.system_service().disks_service()
for da in vm_service.disk_attachments_service().list():
disk_service = disks_service.disk_service(da.disk.id)
wait(
service=disk_service,
condition=lambda disk: disk.status == otypes.DiskStatus.OK,
wait=self.param('wait'),
timeout=self.param('timeout'),
)
def wait_for_down(self, vm):
"""
This function will first wait for the status DOWN of the VM.
Then it will find the active snapshot and wait until it's state is OK for
stateless VMs and statless snaphot is removed.
"""
vm_service = self._service.vm_service(vm.id)
wait(
service=vm_service,
condition=lambda vm: vm.status == otypes.VmStatus.DOWN,
wait=self.param('wait'),
timeout=self.param('timeout'),
)
if vm.stateless:
snapshots_service = vm_service.snapshots_service()
snapshots = snapshots_service.list()
snap_active = [
snap for snap in snapshots
if snap.snapshot_type == otypes.SnapshotType.ACTIVE
][0]
snap_stateless = [
snap for snap in snapshots
if snap.snapshot_type == otypes.SnapshotType.STATELESS
]
# Stateless snapshot may be already removed:
if snap_stateless:
"""
We need to wait for Active snapshot ID, to be removed as it's current
stateless snapshot. Then we need to wait for staless snapshot ID to
be read, for use, because it will become active snapshot.
"""
wait(
service=snapshots_service.snapshot_service(snap_active.id),
condition=lambda snap: snap is None,
wait=self.param('wait'),
timeout=self.param('timeout'),
)
wait(
service=snapshots_service.snapshot_service(snap_stateless[0].id),
condition=lambda snap: snap.snapshot_status == otypes.SnapshotStatus.OK,
wait=self.param('wait'),
timeout=self.param('timeout'),
)
return True
def __attach_graphical_console(self, entity):
graphical_console = self.param('graphical_console')
if not graphical_console:
return False
vm_service = self._service.service(entity.id)
gcs_service = vm_service.graphics_consoles_service()
graphical_consoles = gcs_service.list()
# Remove all graphical consoles if there are any:
if bool(graphical_console.get('headless_mode')):
if not self._module.check_mode:
for gc in graphical_consoles:
gcs_service.console_service(gc.id).remove()
return len(graphical_consoles) > 0
# If there are not gc add any gc to be added:
protocol = graphical_console.get('protocol')
if isinstance(protocol, str):
protocol = [protocol]
current_protocols = [str(gc.protocol) for gc in graphical_consoles]
if not current_protocols:
if not self._module.check_mode:
for p in protocol:
gcs_service.add(
otypes.GraphicsConsole(
protocol=otypes.GraphicsType(p),
)
)
return True
# Update consoles:
if sorted(protocol) != sorted(current_protocols):
if not self._module.check_mode:
for gc in graphical_consoles:
gcs_service.console_service(gc.id).remove()
for p in protocol:
gcs_service.add(
otypes.GraphicsConsole(
protocol=otypes.GraphicsType(p),
)
)
return True
def __attach_disks(self, entity):
if not self.param('disks'):
return
vm_service = self._service.service(entity.id)
disks_service = self._connection.system_service().disks_service()
disk_attachments_service = vm_service.disk_attachments_service()
self._wait_for_vm_disks(vm_service)
for disk in self.param('disks'):
# If disk ID is not specified, find disk by name:
disk_id = disk.get('id')
if disk_id is None:
disk_id = getattr(
search_by_name(
service=disks_service,
name=disk.get('name')
),
'id',
None
)
# Attach disk to VM:
disk_attachment = disk_attachments_service.attachment_service(disk_id)
if get_entity(disk_attachment) is None:
if not self._module.check_mode:
disk_attachments_service.add(
otypes.DiskAttachment(
disk=otypes.Disk(
id=disk_id,
),
active=disk.get('activate', True),
interface=otypes.DiskInterface(
disk.get('interface', 'virtio')
),
bootable=disk.get('bootable', False),
)
)
self.changed = True
def __get_vnic_profile_id(self, nic):
"""
Return VNIC profile ID looked up by it's name, because there can be
more VNIC profiles with same name, other criteria of filter is cluster.
"""
vnics_service = self._connection.system_service().vnic_profiles_service()
clusters_service = self._connection.system_service().clusters_service()
cluster = search_by_name(clusters_service, self.param('cluster'))
profiles = [
profile for profile in vnics_service.list()
if profile.name == nic.get('profile_name')
]
cluster_networks = [
net.id for net in self._connection.follow_link(cluster.networks)
]
try:
return next(
profile.id for profile in profiles
if profile.network.id in cluster_networks
)
except StopIteration:
raise Exception(
"Profile '%s' was not found in cluster '%s'" % (
nic.get('profile_name'),
self.param('cluster')
)
)
def __attach_numa_nodes(self, entity):
updated = False
numa_nodes_service = self._service.service(entity.id).numa_nodes_service()
if len(self.param('numa_nodes')) > 0:
# Remove all existing virtual numa nodes before adding new ones
existed_numa_nodes = numa_nodes_service.list()
existed_numa_nodes.sort(reverse=len(existed_numa_nodes) > 1 and existed_numa_nodes[1].index > existed_numa_nodes[0].index)
for current_numa_node in existed_numa_nodes:
numa_nodes_service.node_service(current_numa_node.id).remove()
updated = True
for numa_node in self.param('numa_nodes'):
if numa_node is None or numa_node.get('index') is None or numa_node.get('cores') is None or numa_node.get('memory') is None:
continue
numa_nodes_service.add(
otypes.VirtualNumaNode(
index=numa_node.get('index'),
memory=numa_node.get('memory'),
cpu=otypes.Cpu(
cores=[
otypes.Core(
index=core
) for core in numa_node.get('cores')
],
),
numa_node_pins=[
otypes.NumaNodePin(
index=pin
) for pin in numa_node.get('numa_node_pins')
] if numa_node.get('numa_node_pins') is not None else None,
)
)
updated = True
return updated
def __attach_watchdog(self, entity):
watchdogs_service = self._service.service(entity.id).watchdogs_service()
watchdog = self.param('watchdog')
if watchdog is not None:
current_watchdog = next(iter(watchdogs_service.list()), None)
if watchdog.get('model') is None and current_watchdog:
watchdogs_service.watchdog_service(current_watchdog.id).remove()
return True
elif watchdog.get('model') is not None and current_watchdog is None:
watchdogs_service.add(
otypes.Watchdog(
model=otypes.WatchdogModel(watchdog.get('model').lower()),
action=otypes.WatchdogAction(watchdog.get('action')),
)
)
return True
elif current_watchdog is not None:
if (
str(current_watchdog.model).lower() != watchdog.get('model').lower() or
str(current_watchdog.action).lower() != watchdog.get('action').lower()
):
watchdogs_service.watchdog_service(current_watchdog.id).update(
otypes.Watchdog(
model=otypes.WatchdogModel(watchdog.get('model')),
action=otypes.WatchdogAction(watchdog.get('action')),
)
)
return True
return False
def __attach_nics(self, entity):
# Attach NICs to VM, if specified:
nics_service = self._service.service(entity.id).nics_service()
for nic in self.param('nics'):
if search_by_name(nics_service, nic.get('name')) is None:
if not self._module.check_mode:
nics_service.add(
otypes.Nic(
name=nic.get('name'),
interface=otypes.NicInterface(
nic.get('interface', 'virtio')
),
vnic_profile=otypes.VnicProfile(
id=self.__get_vnic_profile_id(nic),
) if nic.get('profile_name') else None,
mac=otypes.Mac(
address=nic.get('mac_address')
) if nic.get('mac_address') else None,
)
)
self.changed = True
def get_initialization(self):
if self._initialization is not None:
return self._initialization
sysprep = self.param('sysprep')
cloud_init = self.param('cloud_init')
cloud_init_nics = self.param('cloud_init_nics') or []
if cloud_init is not None:
cloud_init_nics.append(cloud_init)
if cloud_init or cloud_init_nics:
self._initialization = otypes.Initialization(
nic_configurations=[
otypes.NicConfiguration(
boot_protocol=otypes.BootProtocol(
nic.pop('nic_boot_protocol').lower()
) if nic.get('nic_boot_protocol') else None,
name=nic.pop('nic_name', None),
on_boot=nic.pop('nic_on_boot', None),
ip=otypes.Ip(
address=nic.pop('nic_ip_address', None),
netmask=nic.pop('nic_netmask', None),
gateway=nic.pop('nic_gateway', None),
) if (
nic.get('nic_gateway') is not None or
nic.get('nic_netmask') is not None or
nic.get('nic_ip_address') is not None
) else None,
)
for nic in cloud_init_nics
if (
nic.get('nic_gateway') is not None or
nic.get('nic_netmask') is not None or
nic.get('nic_ip_address') is not None or
nic.get('nic_boot_protocol') is not None or
nic.get('nic_on_boot') is not None
)
] if cloud_init_nics else None,
**cloud_init
)
elif sysprep:
self._initialization = otypes.Initialization(
**sysprep
)
return self._initialization
def __attach_host_devices(self, entity):
vm_service = self._service.service(entity.id)
host_devices_service = vm_service.host_devices_service()
host_devices = self.param('host_devices')
updated = False
if host_devices:
device_names = [dev.name for dev in host_devices_service.list()]
for device in host_devices:
device_name = device.get('name')
state = device.get('state', 'present')
if state == 'absent' and device_name in device_names:
updated = True
if not self._module.check_mode:
device_id = get_id_by_name(host_devices_service, device.get('name'))
host_devices_service.device_service(device_id).remove()
elif state == 'present' and device_name not in device_names:
updated = True
if not self._module.check_mode:
host_devices_service.add(
otypes.HostDevice(
name=device.get('name'),
)
)
return updated
def _get_role_mappings(module):
roleMappings = list()
for roleMapping in module.params['role_mappings']:
roleMappings.append(
otypes.RegistrationRoleMapping(
from_=otypes.Role(
name=roleMapping['source_name'],
) if roleMapping['source_name'] else None,
to=otypes.Role(
name=roleMapping['dest_name'],
) if roleMapping['dest_name'] else None,
)
)
return roleMappings
def _get_affinity_group_mappings(module):
affinityGroupMappings = list()
for affinityGroupMapping in module.params['affinity_group_mappings']:
affinityGroupMappings.append(
otypes.RegistrationAffinityGroupMapping(
from_=otypes.AffinityGroup(
name=affinityGroupMapping['source_name'],
) if affinityGroupMapping['source_name'] else None,
to=otypes.AffinityGroup(
name=affinityGroupMapping['dest_name'],
) if affinityGroupMapping['dest_name'] else None,
)
)
return affinityGroupMappings
def _get_affinity_label_mappings(module):
affinityLabelMappings = list()
for affinityLabelMapping in module.params['affinity_label_mappings']:
affinityLabelMappings.append(
otypes.RegistrationAffinityLabelMapping(
from_=otypes.AffinityLabel(
name=affinityLabelMapping['source_name'],
) if affinityLabelMapping['source_name'] else None,
to=otypes.AffinityLabel(
name=affinityLabelMapping['dest_name'],
) if affinityLabelMapping['dest_name'] else None,
)
)
return affinityLabelMappings
def _get_domain_mappings(module):
domainMappings = list()
for domainMapping in module.params['domain_mappings']:
domainMappings.append(
otypes.RegistrationDomainMapping(
from_=otypes.Domain(
name=domainMapping['source_name'],
) if domainMapping['source_name'] else None,
to=otypes.Domain(
name=domainMapping['dest_name'],
) if domainMapping['dest_name'] else None,
)
)
return domainMappings
def _get_lun_mappings(module):
lunMappings = list()
for lunMapping in module.params['lun_mappings']:
lunMappings.append(
otypes.RegistrationLunMapping(
from_=otypes.Disk(
lun_storage=otypes.HostStorage(
type=otypes.StorageType(lunMapping['source_storage_type'])
if (lunMapping['source_storage_type'] in
['iscsi', 'fcp']) else None,
logical_units=[
otypes.LogicalUnit(
id=lunMapping['source_logical_unit_id'],
)
],
),
) if lunMapping['source_logical_unit_id'] else None,
to=otypes.Disk(
lun_storage=otypes.HostStorage(
type=otypes.StorageType(lunMapping['dest_storage_type'])
if (lunMapping['dest_storage_type'] in
['iscsi', 'fcp']) else None,
logical_units=[
otypes.LogicalUnit(
id=lunMapping['dest_logical_unit_id'],
port=lunMapping['dest_logical_unit_port'],
portal=lunMapping['dest_logical_unit_portal'],
address=lunMapping['dest_logical_unit_address'],
target=lunMapping['dest_logical_unit_target'],
password=lunMapping['dest_logical_unit_password'],
username=lunMapping['dest_logical_unit_username'],
)
],
),
) if lunMapping['dest_logical_unit_id'] else None,
),
),
return lunMappings
def _get_cluster_mappings(module):
clusterMappings = list()
for clusterMapping in module.params['cluster_mappings']:
clusterMappings.append(
otypes.RegistrationClusterMapping(
from_=otypes.Cluster(
name=clusterMapping['source_name'],
),
to=otypes.Cluster(
name=clusterMapping['dest_name'],
) if clusterMapping['dest_name'] else None,
)
)
return clusterMappings
def _get_vnic_profile_mappings(module):
vnicProfileMappings = list()
for vnicProfileMapping in module.params['vnic_profile_mappings']:
vnicProfileMappings.append(
otypes.VnicProfileMapping(
source_network_name=vnicProfileMapping['source_network_name'],
source_network_profile_name=vnicProfileMapping['source_profile_name'],
target_vnic_profile=otypes.VnicProfile(
id=vnicProfileMapping['target_profile_id'],
) if vnicProfileMapping['target_profile_id'] else None,
)
)
return vnicProfileMappings
def import_vm(module, connection):
vms_service = connection.system_service().vms_service()
if search_by_name(vms_service, module.params['name']) is not None:
return False
events_service = connection.system_service().events_service()
last_event = events_service.list(max=1)[0]
external_type = [
tmp for tmp in ['kvm', 'xen', 'vmware']
if module.params[tmp] is not None
][0]
external_vm = module.params[external_type]
imports_service = connection.system_service().external_vm_imports_service()
imported_vm = imports_service.add(
otypes.ExternalVmImport(
vm=otypes.Vm(
name=module.params['name']
),
name=external_vm.get('name'),
username=external_vm.get('username', 'test'),
password=external_vm.get('password', 'test'),
provider=otypes.ExternalVmProviderType(external_type),
url=external_vm.get('url'),
cluster=otypes.Cluster(
name=module.params['cluster'],
) if module.params['cluster'] else None,
storage_domain=otypes.StorageDomain(
name=external_vm.get('storage_domain'),
) if external_vm.get('storage_domain') else None,
sparse=external_vm.get('sparse', True),
host=otypes.Host(
name=module.params['host'],
) if module.params['host'] else None,
)
)
# Wait until event with code 1152 for our VM don't appear:
vms_service = connection.system_service().vms_service()
wait(
service=vms_service.vm_service(imported_vm.vm.id),
condition=lambda vm: len([
event
for event in events_service.list(
from_=int(last_event.id),
search='type=1152 and vm.id=%s' % vm.id,
)
]) > 0 if vm is not None else False,
fail_condition=lambda vm: vm is None,
timeout=module.params['timeout'],
poll_interval=module.params['poll_interval'],
)
return True
def control_state(vm, vms_service, module):
if vm is None:
return
force = module.params['force']
state = module.params['state']
vm_service = vms_service.vm_service(vm.id)
if vm.status == otypes.VmStatus.IMAGE_LOCKED:
wait(
service=vm_service,
condition=lambda vm: vm.status == otypes.VmStatus.DOWN,
)
elif vm.status == otypes.VmStatus.SAVING_STATE:
# Result state is SUSPENDED, we should wait to be suspended:
wait(
service=vm_service,
condition=lambda vm: vm.status == otypes.VmStatus.SUSPENDED,
)
elif (
vm.status == otypes.VmStatus.UNASSIGNED or
vm.status == otypes.VmStatus.UNKNOWN
):
# Invalid states:
module.fail_json(msg="Not possible to control VM, if it's in '{0}' status".format(vm.status))
elif vm.status == otypes.VmStatus.POWERING_DOWN:
if (force and state == 'stopped') or state == 'absent':
vm_service.stop()
wait(
service=vm_service,
condition=lambda vm: vm.status == otypes.VmStatus.DOWN,
)
else:
# If VM is powering down, wait to be DOWN or UP.
# VM can end in UP state in case there is no GA
# or ACPI on the VM or shutdown operation crashed:
wait(
service=vm_service,
condition=lambda vm: vm.status in [otypes.VmStatus.DOWN, otypes.VmStatus.UP],
)
def main():
argument_spec = ovirt_full_argument_spec(
state=dict(type='str', default='present', choices=['absent', 'next_run', 'present', 'registered', 'running', 'stopped', 'suspended']),
name=dict(type='str'),
id=dict(type='str'),
cluster=dict(type='str'),
allow_partial_import=dict(type='bool'),
template=dict(type='str'),
template_version=dict(type='int'),
use_latest_template_version=dict(type='bool'),
storage_domain=dict(type='str'),
disk_format=dict(type='str', default='cow', choices=['cow', 'raw']),
disks=dict(type='list', default=[]),
memory=dict(type='str'),
memory_guaranteed=dict(type='str'),
memory_max=dict(type='str'),
cpu_sockets=dict(type='int'),
cpu_cores=dict(type='int'),
cpu_shares=dict(type='int'),
cpu_threads=dict(type='int'),
type=dict(type='str', choices=['server', 'desktop', 'high_performance']),
operating_system=dict(type='str'),
cd_iso=dict(type='str'),
boot_devices=dict(type='list', choices=['cdrom', 'hd', 'network']),
vnic_profile_mappings=dict(default=[], type='list'),
cluster_mappings=dict(default=[], type='list'),
role_mappings=dict(default=[], type='list'),
affinity_group_mappings=dict(default=[], type='list'),
affinity_label_mappings=dict(default=[], type='list'),
lun_mappings=dict(default=[], type='list'),
domain_mappings=dict(default=[], type='list'),
reassign_bad_macs=dict(default=None, type='bool'),
boot_menu=dict(type='bool'),
serial_console=dict(type='bool'),
usb_support=dict(type='bool'),
sso=dict(type='bool'),
quota_id=dict(type='str'),
high_availability=dict(type='bool'),
high_availability_priority=dict(type='int'),
lease=dict(type='str'),
stateless=dict(type='bool'),
delete_protected=dict(type='bool'),
force=dict(type='bool', default=False),
nics=dict(type='list', default=[]),
cloud_init=dict(type='dict'),
cloud_init_nics=dict(type='list', default=[]),
cloud_init_persist=dict(type='bool', default=False, aliases=['sysprep_persist']),
sysprep=dict(type='dict'),
host=dict(type='str'),
clone=dict(type='bool', default=False),
clone_permissions=dict(type='bool', default=False),
kernel_path=dict(type='str'),
initrd_path=dict(type='str'),
kernel_params=dict(type='str'),
instance_type=dict(type='str'),
description=dict(type='str'),
comment=dict(type='str'),
timezone=dict(type='str'),
serial_policy=dict(type='str', choices=['vm', 'host', 'custom']),
serial_policy_value=dict(type='str'),
vmware=dict(type='dict'),
xen=dict(type='dict'),
kvm=dict(type='dict'),
cpu_mode=dict(type='str'),
placement_policy=dict(type='str'),
custom_compatibility_version=dict(type='str'),
ticket=dict(type='bool', default=None),
cpu_pinning=dict(type='list'),
soundcard_enabled=dict(type='bool', default=None),
smartcard_enabled=dict(type='bool', default=None),
io_threads=dict(type='int', default=None),
ballooning_enabled=dict(type='bool', default=None),
rng_device=dict(type='str'),
numa_tune_mode=dict(type='str', choices=['interleave', 'preferred', 'strict']),
numa_nodes=dict(type='list', default=[]),
custom_properties=dict(type='list'),
watchdog=dict(type='dict'),
host_devices=dict(type='list'),
graphical_console=dict(type='dict'),
)
module = AnsibleModule(
argument_spec=argument_spec,
supports_check_mode=True,
required_one_of=[['id', 'name']],
)
if module._name == 'ovirt_vms':
module.deprecate("The 'ovirt_vms' module is being renamed 'ovirt_vm'", version=2.8)
check_sdk(module)
check_params(module)
try:
state = module.params['state']
auth = module.params.pop('auth')
connection = create_connection(auth)
vms_service = connection.system_service().vms_service()
vms_module = VmsModule(
connection=connection,
module=module,
service=vms_service,
)
vm = vms_module.search_entity(list_params={'all_content': True})
control_state(vm, vms_service, module)
if state in ('present', 'running', 'next_run'):
if module.params['xen'] or module.params['kvm'] or module.params['vmware']:
vms_module.changed = import_vm(module, connection)
# In case VM don't exist, wait for VM DOWN state,
# otherwise don't wait for any state, just update VM:
ret = vms_module.create(
entity=vm,
result_state=otypes.VmStatus.DOWN if vm is None else None,
clone=module.params['clone'],
clone_permissions=module.params['clone_permissions'],
)
# If VM is going to be created and check_mode is on, return now:
if module.check_mode and ret.get('id') is None:
module.exit_json(**ret)
vms_module.post_present(ret['id'])
# Run the VM if it was just created, else don't run it:
if state == 'running':
initialization = vms_module.get_initialization()
ret = vms_module.action(
action='start',
post_action=vms_module._post_start_action,
action_condition=lambda vm: (
vm.status not in [
otypes.VmStatus.MIGRATING,
otypes.VmStatus.POWERING_UP,
otypes.VmStatus.REBOOT_IN_PROGRESS,
otypes.VmStatus.WAIT_FOR_LAUNCH,
otypes.VmStatus.UP,
otypes.VmStatus.RESTORING_STATE,
]
),
wait_condition=lambda vm: vm.status == otypes.VmStatus.UP,
# Start action kwargs:
use_cloud_init=True if not module.params.get('cloud_init_persist') and module.params.get('cloud_init') is not None else None,
use_sysprep=True if not module.params.get('cloud_init_persist') and module.params.get('sysprep') is not None else None,
vm=otypes.Vm(
placement_policy=otypes.VmPlacementPolicy(
hosts=[otypes.Host(name=module.params['host'])]
) if module.params['host'] else None,
initialization=initialization,
os=otypes.OperatingSystem(
cmdline=module.params.get('kernel_params'),
initrd=module.params.get('initrd_path'),
kernel=module.params.get('kernel_path'),
) if (
module.params.get('kernel_params') or
module.params.get('initrd_path') or
module.params.get('kernel_path')
) else None,
) if (
module.params.get('kernel_params') or
module.params.get('initrd_path') or
module.params.get('kernel_path') or
module.params.get('host') or
initialization is not None and not module.params.get('cloud_init_persist')
) else None,
)
if module.params['ticket']:
vm_service = vms_service.vm_service(ret['id'])
graphics_consoles_service = vm_service.graphics_consoles_service()
graphics_console = graphics_consoles_service.list()[0]
console_service = graphics_consoles_service.console_service(graphics_console.id)
ticket = console_service.remote_viewer_connection_file()
if ticket:
ret['vm']['remote_vv_file'] = ticket
if state == 'next_run':
# Apply next run configuration, if needed:
vm = vms_service.vm_service(ret['id']).get()
if vm.next_run_configuration_exists:
ret = vms_module.action(
action='reboot',
entity=vm,
action_condition=lambda vm: vm.status == otypes.VmStatus.UP,
wait_condition=lambda vm: vm.status == otypes.VmStatus.UP,
)
ret['changed'] = vms_module.changed
elif state == 'stopped':
if module.params['xen'] or module.params['kvm'] or module.params['vmware']:
vms_module.changed = import_vm(module, connection)
ret = vms_module.create(
entity=vm,
result_state=otypes.VmStatus.DOWN if vm is None else None,
clone=module.params['clone'],
clone_permissions=module.params['clone_permissions'],
)
if module.params['force']:
ret = vms_module.action(
action='stop',
action_condition=lambda vm: vm.status != otypes.VmStatus.DOWN,
wait_condition=vms_module.wait_for_down,
)
else:
ret = vms_module.action(
action='shutdown',
pre_action=vms_module._pre_shutdown_action,
action_condition=lambda vm: vm.status != otypes.VmStatus.DOWN,
wait_condition=vms_module.wait_for_down,
)
vms_module.post_present(ret['id'])
elif state == 'suspended':
ret = vms_module.create(
entity=vm,
result_state=otypes.VmStatus.DOWN if vm is None else None,
clone=module.params['clone'],
clone_permissions=module.params['clone_permissions'],
)
vms_module.post_present(ret['id'])
ret = vms_module.action(
action='suspend',
pre_action=vms_module._pre_suspend_action,
action_condition=lambda vm: vm.status != otypes.VmStatus.SUSPENDED,
wait_condition=lambda vm: vm.status == otypes.VmStatus.SUSPENDED,
)
elif state == 'absent':
ret = vms_module.remove()
elif state == 'registered':
storage_domains_service = connection.system_service().storage_domains_service()
# Find the storage domain with unregistered VM:
sd_id = get_id_by_name(storage_domains_service, module.params['storage_domain'])
storage_domain_service = storage_domains_service.storage_domain_service(sd_id)
vms_service = storage_domain_service.vms_service()
# Find the unregistered VM we want to register:
vms = vms_service.list(unregistered=True)
vm = next(
(vm for vm in vms if (vm.id == module.params['id'] or vm.name == module.params['name'])),
None
)
changed = False
if vm is None:
vm = vms_module.search_entity()
if vm is None:
raise ValueError(
"VM '%s(%s)' wasn't found." % (module.params['name'], module.params['id'])
)
else:
# Register the vm into the system:
changed = True
vm_service = vms_service.vm_service(vm.id)
vm_service.register(
allow_partial_import=module.params['allow_partial_import'],
cluster=otypes.Cluster(
name=module.params['cluster']
) if module.params['cluster'] else None,
vnic_profile_mappings=_get_vnic_profile_mappings(module)
if module.params['vnic_profile_mappings'] else None,
reassign_bad_macs=module.params['reassign_bad_macs']
if module.params['reassign_bad_macs'] is not None else None,
registration_configuration=otypes.RegistrationConfiguration(
cluster_mappings=_get_cluster_mappings(module),
role_mappings=_get_role_mappings(module),
domain_mappings=_get_domain_mappings(module),
lun_mappings=_get_lun_mappings(module),
affinity_group_mappings=_get_affinity_group_mappings(module),
affinity_label_mappings=_get_affinity_label_mappings(module),
) if (module.params['cluster_mappings']
or module.params['role_mappings']
or module.params['domain_mappings']
or module.params['lun_mappings']
or module.params['affinity_group_mappings']
or module.params['affinity_label_mappings']) else None
)
if module.params['wait']:
vm = vms_module.wait_for_import()
else:
# Fetch vm to initialize return.
vm = vm_service.get()
ret = {
'changed': changed,
'id': vm.id,
'vm': get_dict_of_struct(vm)
}
module.exit_json(**ret)
except Exception as e:
module.fail_json(msg=str(e), exception=traceback.format_exc())
finally:
connection.close(logout=auth.get('token') is None)
if __name__ == "__main__":
main()