def main():
argument_spec = ovirt_full_argument_spec(
id=dict(default=None),
state=dict(
choices=['present', 'absent'],
default='present',
),
name=dict(required=True),
template=dict(default=None),
cluster=dict(default=None),
description=dict(default=None),
vm=dict(default=None, type='dict'),
comment=dict(default=None),
vm_per_user=dict(default=None, type='int'),
prestarted=dict(default=None, type='int'),
vm_count=dict(default=None, type='int'),
type=dict(default=None, choices=['automatic', 'manual']),
)
module = AnsibleModule(
argument_spec=argument_spec,
supports_check_mode=True,
)
check_sdk(module)
check_params(module)
try:
auth = module.params.pop('auth')
connection = create_connection(auth)
vm_pools_service = connection.system_service().vm_pools_service()
vm_pools_module = VmPoolsModule(
connection=connection,
module=module,
service=vm_pools_service,
)
state = module.params['state']
if state == 'present':
ret = vm_pools_module.create()
# Wait for all VM pool VMs to be created:
if module.params['wait']:
vms_service = connection.system_service().vms_service()
for vm in vms_service.list(search='pool=%s' %
module.params['name']):
wait(
service=vms_service.service(vm.id),
condition=lambda vm: vm.status in
[otypes.VmStatus.DOWN, otypes.VmStatus.UP],
timeout=module.params['timeout'],
)
elif state == 'absent':
ret = vm_pools_module.remove()
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)
def control_state(host_module):
host = host_module.search_entity()
if host is None:
return
state = host_module._module.params['state']
host_service = host_module._service.service(host.id)
if failed_state(host):
# In case host is in INSTALL_FAILED status, we can reinstall it:
if hoststate.INSTALL_FAILED == host.status and state != 'reinstalled':
raise Exception("Not possible to manage host '%s' in state '%s'." %
(host.name, host.status))
elif host.status in [
hoststate.REBOOT,
hoststate.CONNECTING,
hoststate.INITIALIZING,
hoststate.INSTALLING,
hoststate.INSTALLING_OS,
]:
wait(
service=host_service,
condition=lambda host: host.status == hoststate.UP,
fail_condition=failed_state,
)
elif host.status == hoststate.PREPARING_FOR_MAINTENANCE:
wait(
service=host_service,
condition=lambda host: host.status == hoststate.MAINTENANCE,
fail_condition=failed_state,
)
return host
def restore_snapshot(module, vm_service, snapshots_service):
changed = False
snapshot_service = snapshots_service.snapshot_service(
module.params['snapshot_id'])
snapshot = get_entity(snapshot_service)
if snapshot is None:
raise Exception("Snapshot with id '%s' doesn't exist" %
module.params['snapshot_id'])
if snapshot.snapshot_status != otypes.SnapshotStatus.IN_PREVIEW:
if not module.check_mode:
snapshot_service.restore(
restore_memory=module.params.get('use_memory'), )
changed = True
else:
if not module.check_mode:
vm_service.commit_snapshot()
changed = True
if changed:
wait(
service=snapshot_service,
condition=lambda snap: snap.snapshot_status == otypes.
SnapshotStatus.OK,
wait=module.params['wait'],
timeout=module.params['timeout'],
)
return {
'changed': changed,
'id': snapshot.id if snapshot else None,
'snapshot': get_dict_of_struct(snapshot),
}
def create_snapshot(module, vm_service, snapshots_service, connection):
changed = False
snapshot = get_entity(
snapshots_service.snapshot_service(module.params['snapshot_id']))
if snapshot is None:
if not module.check_mode:
disk_attachments_id = set(
get_disk_attachment(
disk,
vm_service.disk_attachments_service().list(),
connection).id for disk in module.params.get(
'disks')) if module.params.get('disks') else None
snapshot = snapshots_service.add(
otypes.Snapshot(
description=module.params.get('description'),
persist_memorystate=module.params.get('use_memory'),
disk_attachments=[
otypes.DiskAttachment(id=da_id)
for da_id in disk_attachments_id
] if disk_attachments_id else None))
changed = True
wait(
service=snapshots_service.snapshot_service(snapshot.id),
condition=lambda snap: snap.snapshot_status == otypes.
SnapshotStatus.OK,
wait=module.params['wait'],
timeout=module.params['timeout'],
)
return {
'changed': changed,
'id': snapshot.id,
'snapshot': get_dict_of_struct(snapshot),
}
def transfer(connection, module, direction, transfer_func):
transfers_service = connection.system_service().image_transfers_service()
transfer = transfers_service.add(
otypes.ImageTransfer(
image=otypes.Image(id=module.params['disk_id'], ),
direction=direction,
))
transfer_service = transfers_service.image_transfer_service(transfer.id)
try:
# After adding a new transfer for the disk, the transfer's status will be INITIALIZING.
# Wait until the init phase is over. The actual transfer can start when its status is "Transferring".
while transfer.phase == otypes.ImageTransferPhase.INITIALIZING:
time.sleep(module.params['poll_interval'])
transfer = transfer_service.get()
proxy_url = urlparse(transfer.proxy_url)
context = ssl.create_default_context()
auth = module.params['auth']
if auth.get('insecure'):
context.check_hostname = False
context.verify_mode = ssl.CERT_NONE
elif auth.get('ca_file'):
context.load_verify_locations(cafile=auth.get('ca_file'))
proxy_connection = HTTPSConnection(
proxy_url.hostname,
proxy_url.port,
context=context,
)
transfer_func(transfer_service, proxy_connection, proxy_url,
transfer.signed_ticket)
return True
finally:
transfer_service.finalize()
while transfer.phase in [
otypes.ImageTransferPhase.TRANSFERRING,
otypes.ImageTransferPhase.FINALIZING_SUCCESS,
]:
time.sleep(module.params['poll_interval'])
transfer = transfer_service.get()
if transfer.phase in [
otypes.ImageTransferPhase.UNKNOWN,
otypes.ImageTransferPhase.FINISHED_FAILURE,
otypes.ImageTransferPhase.FINALIZING_FAILURE,
otypes.ImageTransferPhase.CANCELLED,
]:
raise Exception(
"Error occurred while uploading image. The transfer is in %s" %
transfer.phase)
if module.params.get('logical_unit'):
disks_service = connection.system_service().disks_service()
wait(
service=disks_service.service(module.params['id']),
condition=lambda d: d.status == otypes.DiskStatus.OK,
wait=module.params['wait'],
timeout=module.params['timeout'],
)
def post_reinstall(self, host):
wait(
service=self._service.service(host.id),
condition=lambda h: h.status != hoststate.MAINTENANCE,
fail_condition=failed_state,
wait=self.param('wait'),
timeout=self.param('timeout'),
)
def _maintenance(self, storage_domain):
attached_sd_service = self._attached_sd_service(storage_domain)
attached_sd = get_entity(attached_sd_service)
if attached_sd and attached_sd.status != sdstate.MAINTENANCE:
if not self._module.check_mode:
attached_sd_service.deactivate()
self.changed = True
wait(
service=attached_sd_service,
condition=lambda sd: sd.status == sdstate.MAINTENANCE,
wait=self.param('wait'),
timeout=self.param('timeout'),
)
def _unattach(self, storage_domain):
attached_sd_service = self._attached_sd_service(storage_domain)
attached_sd = get_entity(attached_sd_service)
if attached_sd and attached_sd.status == sdstate.MAINTENANCE:
if not self._module.check_mode:
# Detach the storage domain:
attached_sd_service.remove()
self.changed = True
# Wait until storage domain is detached:
wait(
service=attached_sd_service,
condition=lambda sd: sd is None,
wait=self.param('wait'),
timeout=self.param('timeout'),
)
def post_create_check(self, sd_id):
storage_domain = self._service.service(sd_id).get()
dc_name = self.param('data_center')
if not dc_name:
# Find the DC, where the storage resides:
dc_name = self._find_attached_datacenter_name(storage_domain.name)
self._service = self._attached_sds_service(dc_name)
# If storage domain isn't attached, attach it:
attached_sd_service = self._service.service(storage_domain.id)
if get_entity(attached_sd_service) is None:
self._service.add(otypes.StorageDomain(id=storage_domain.id, ), )
self.changed = True
# Wait until storage domain is in maintenance:
wait(
service=attached_sd_service,
condition=lambda sd: sd.status == sdstate.ACTIVE,
wait=self.param('wait'),
timeout=self.param('timeout'),
)
def remove_snapshot(module, vm_service, snapshots_service, snapshot_id=None):
changed = False
if not snapshot_id:
snapshot_id = module.params['snapshot_id']
snapshot = get_entity(snapshots_service.snapshot_service(snapshot_id))
if snapshot:
snapshot_service = snapshots_service.snapshot_service(snapshot.id)
if not module.check_mode:
snapshot_service.remove()
changed = True
wait(
service=snapshot_service,
condition=lambda snapshot: snapshot is None,
wait=module.params['wait'],
timeout=module.params['timeout'],
)
return {
'changed': changed,
'id': snapshot.id if snapshot else None,
'snapshot': get_dict_of_struct(snapshot),
}
def control_state(sd_module):
sd = sd_module.search_entity()
if sd is None:
return
sd_service = sd_module._service.service(sd.id)
# In the case of no status returned, it's an attached storage domain.
# Redetermine the corresponding service and entity:
if sd.status is None:
sd_service = sd_module._attached_sd_service(sd)
sd = get_entity(sd_service)
if sd.status == sdstate.LOCKED:
wait(
service=sd_service,
condition=lambda sd: sd.status != sdstate.LOCKED,
fail_condition=failed_state,
)
if failed_state(sd):
raise Exception("Not possible to manage storage domain '%s'." %
sd.name)
elif sd.status == sdstate.ACTIVATING:
wait(
service=sd_service,
condition=lambda sd: sd.status == sdstate.ACTIVE,
fail_condition=failed_state,
)
elif sd.status == sdstate.DETACHING:
wait(
service=sd_service,
condition=lambda sd: sd.status == sdstate.UNATTACHED,
fail_condition=failed_state,
)
elif sd.status == sdstate.PREPARING_FOR_MAINTENANCE:
wait(
service=sd_service,
condition=lambda sd: sd.status == sdstate.MAINTENANCE,
fail_condition=failed_state,
)
def main():
argument_spec = ovirt_full_argument_spec(
state=dict(choices=[
'present', 'absent', 'attached', 'detached', 'exported', 'imported'
],
default='present'),
id=dict(default=None),
name=dict(default=None, aliases=['alias']),
description=dict(default=None),
vm_name=dict(default=None),
vm_id=dict(default=None),
size=dict(default=None),
interface=dict(default=None, ),
storage_domain=dict(default=None),
storage_domains=dict(default=None, type='list'),
profile=dict(default=None),
quota_id=dict(default=None),
format=dict(default='cow', choices=['raw', 'cow']),
content_type=dict(default='data',
choices=[
'data', 'iso', 'hosted_engine',
'hosted_engine_sanlock',
'hosted_engine_metadata',
'hosted_engine_configuration'
]),
sparse=dict(default=None, type='bool'),
bootable=dict(default=None, type='bool'),
shareable=dict(default=None, type='bool'),
logical_unit=dict(default=None, type='dict'),
download_image_path=dict(default=None),
upload_image_path=dict(default=None, aliases=['image_path']),
force=dict(default=False, type='bool'),
sparsify=dict(default=None, type='bool'),
openstack_volume_type=dict(default=None),
image_provider=dict(default=None),
host=dict(default=None),
wipe_after_delete=dict(type='bool', default=None),
activate=dict(default=None, type='bool'),
)
module = AnsibleModule(
argument_spec=argument_spec,
supports_check_mode=True,
)
lun = module.params.get('logical_unit')
host = module.params['host']
# Fail when host is specified with the LUN id. Lun id is needed to identify
# an existing disk if already available inthe environment.
if (host and lun is None) or (host and lun.get("id") is None):
module.fail_json(msg="Can not use parameter host ({0!s}) without "
"specifying the logical_unit id".format(host))
check_sdk(module)
check_params(module)
try:
disk = None
state = module.params['state']
auth = module.params.get('auth')
connection = create_connection(auth)
disks_service = connection.system_service().disks_service()
disks_module = DisksModule(
connection=connection,
module=module,
service=disks_service,
)
force_create = False
vm_service = get_vm_service(connection, module)
if lun:
disk = _search_by_lun(disks_service, lun.get('id'))
else:
disk = disks_module.search_entity(
search_params=searchable_attributes(module))
if vm_service and disk:
# If the VM don't exist in VMs disks, but still it's found it means it was found
# for template with same name as VM, so we should force create the VM disk.
force_create = disk.id not in [
a.disk.id
for a in vm_service.disk_attachments_service().list()
if a.disk
]
ret = None
# First take care of creating the VM, if needed:
if state in ('present', 'detached', 'attached'):
# Always activate disk when its being created
if vm_service is not None and disk is None:
module.params['activate'] = True
ret = disks_module.create(
entity=disk if not force_create else None,
result_state=otypes.DiskStatus.OK if lun is None else None,
fail_condition=lambda d: d.status == otypes.DiskStatus.ILLEGAL
if lun is None else False,
force_create=force_create,
)
is_new_disk = ret['changed']
ret['changed'] = ret[
'changed'] or disks_module.update_storage_domains(ret['id'])
# We need to pass ID to the module, so in case we want detach/attach disk
# we have this ID specified to attach/detach method:
module.params['id'] = ret['id']
# Upload disk image in case it's new disk or force parameter is passed:
if module.params['upload_image_path'] and (is_new_disk or
module.params['force']):
uploaded = upload_disk_image(connection, module)
ret['changed'] = ret['changed'] or uploaded
# Download disk image in case it's file don't exist or force parameter is passed:
if (module.params['download_image_path'] and
(not os.path.isfile(module.params['download_image_path'])
or module.params['force'])):
downloaded = download_disk_image(connection, module)
ret['changed'] = ret['changed'] or downloaded
# Disk sparsify, only if disk is of image type:
if not module.check_mode:
disk = disks_service.disk_service(module.params['id']).get()
if disk.storage_type == otypes.DiskStorageType.IMAGE:
ret = disks_module.action(
action='sparsify',
action_condition=lambda d: module.params['sparsify'],
wait_condition=lambda d: d.status == otypes.DiskStatus.
OK,
)
# Export disk as image to glance domain
elif state == 'exported':
disk = disks_module.search_entity()
if disk is None:
module.fail_json(
msg="Can not export given disk '%s', it doesn't exist" %
module.params.get('name') or module.params.get('id'))
if disk.storage_type == otypes.DiskStorageType.IMAGE:
ret = disks_module.action(
action='export',
action_condition=lambda d: module.params['image_provider'],
wait_condition=lambda d: d.status == otypes.DiskStatus.OK,
storage_domain=otypes.StorageDomain(
name=module.params['image_provider']),
)
elif state == 'imported':
glance_service = connection.system_service(
).openstack_image_providers_service()
image_provider = search_by_name(glance_service,
module.params['image_provider'])
images_service = glance_service.service(
image_provider.id).images_service()
entity_id = get_id_by_name(images_service, module.params['name'])
images_service.service(entity_id).import_(
storage_domain=otypes.StorageDomain(
name=module.params['storage_domain'])
if module.params['storage_domain'] else None,
disk=otypes.Disk(name=module.params['name']),
import_as_template=False,
)
# Wait for disk to appear in system:
disk = disks_module.wait_for_import(
condition=lambda t: t.status == otypes.DiskStatus.OK)
ret = disks_module.create(result_state=otypes.DiskStatus.OK)
elif state == 'absent':
ret = disks_module.remove()
# If VM was passed attach/detach disks to/from the VM:
if vm_service:
disk_attachments_service = vm_service.disk_attachments_service()
disk_attachments_module = DiskAttachmentsModule(
connection=connection,
module=module,
service=disk_attachments_service,
changed=ret['changed'] if ret else False,
)
if state == 'present' or state == 'attached':
ret = disk_attachments_module.create()
if lun is None:
wait(
service=disk_attachments_service.service(ret['id']),
condition=lambda d: follow_link(connection, d.disk).
status == otypes.DiskStatus.OK,
wait=module.params['wait'],
timeout=module.params['timeout'],
)
elif state == 'detached':
ret = disk_attachments_module.remove()
# When the host parameter is specified and the disk is not being
# removed, refresh the information about the LUN.
if state != 'absent' and host:
hosts_service = connection.system_service().hosts_service()
host_id = get_id_by_name(hosts_service, host)
disks_service.disk_service(disk.id).refresh_lun(
otypes.Host(id=host_id))
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)