def set_boot_device(self, bootdevice):
if bootdevice == 'network':
self.server.update(vm=types.Vm(os=types.OperatingSystem(
boot=types.Boot(devices=[types.BootDevice.NETWORK]))))
else:
self.server.update(vm=types.Vm(os=types.OperatingSystem(
boot=types.Boot(devices=[types.BootDevice.HD]))))
self.log('Set boot device to', bootdevice)
def createVM(session):
""" Creates a virtual maschine """
print "\n\n=================[ CREATING VMS ]================="
try:
for vm in configFile['vms']:
hostname = vm['hostname']
cluster = vm['cluster']
template = vm['template']
memory = vm['memory']
vmService = session.system_service().vms_service()
vm = vmService.add(
types.Vm(
name=hostname,
memory = memory * 2**30,
cluster=types.Cluster(
name=cluster),
template=types.Template(
name=template),
os=types.OperatingSystem(
boot=types.Boot(
devices=[types.BootDevice.HD])),
)
)
print ("Created VM \"%s\" on cluster \"%s\" with template \"%s\"." % (hostname, cluster, template))
except Exception as e:
print str(e)
sys.exit(1)
def build_entity(self):
return otypes.Host(
id=self._module.params.get('id'),
name=self.param('name'),
cluster=otypes.Cluster(
name=self.param('cluster')
) if self.param('cluster') else None,
comment=self.param('comment'),
address=self.param('address'),
root_password=self.param('password'),
ssh=otypes.Ssh(
authentication_method=otypes.SshAuthenticationMethod.PUBLICKEY if self.param('public_key') else None,
port=self.param('ssh_port'),
),
spm=otypes.Spm(
priority=self.param('spm_priority'),
) if self.param('spm_priority') else None,
override_iptables=self.param('override_iptables'),
display=otypes.Display(
address=self.param('override_display'),
) if self.param('override_display') else None,
os=otypes.OperatingSystem(
custom_kernel_cmdline=' '.join(self.param('kernel_params')),
) if self.param('kernel_params') else None,
power_management=otypes.PowerManagement(
enabled=self.param('power_management_enabled'),
kdump_detection=self.param('kdump_integration') == 'enabled',
) if self.param('power_management_enabled') is not None or self.param('kdump_integration') else None,
vgpu_placement=otypes.VgpuPlacement(
self.param('vgpu_placement')
) if self.param('vgpu_placement') is not None else None,
)
def build_entity(self):
return otypes.Vm(
name=self._module.params['name'],
cluster=otypes.Cluster(name=self._module.params['cluster'])
if self._module.params['cluster'] else None,
template=otypes.Template(name=self._module.params['template'])
if self._module.params['template'] else None,
stateless=self._module.params['stateless'],
delete_protected=self._module.params['delete_protected'],
high_availability=otypes.HighAvailability(
enabled=self._module.params['high_availability'])
if self._module.params['high_availability'] is not None else None,
cpu=otypes.Cpu(topology=otypes.CpuTopology(
cores=self._module.params['cpu_cores'],
sockets=self._module.params['cpu_sockets'],
)) if (self._module.params['cpu_cores']
or self._module.params['cpu_sockets']) else None,
cpu_shares=self._module.params['cpu_shares'],
os=otypes.OperatingSystem(
type=self._module.params['operating_system'],
boot=otypes.Boot(devices=[
otypes.BootDevice(dev)
for dev in self._module.params['boot_devices']
], ) if self._module.params['boot_devices'] else None,
) if (self._module.params['operating_system']
or self._module.params['boot_devices']) else None,
type=otypes.VmType(self._module.params['type'])
if self._module.params['type'] else None,
memory=convert_to_bytes(self._module.params['memory'])
if self._module.params['memory'] else None,
memory_policy=otypes.MemoryPolicy(guaranteed=convert_to_bytes(
self._module.params['memory_guaranteed']), )
if self._module.params['memory_guaranteed'] else None,
)
def set_boot_device(self, task, device, persistent=False):
"""Set the boot device for a node.
:param task: a task from TaskManager.
:param device: ironic.common.boot_devices
:param persistent: This argument is ignored.
:raises: MissingParameterValue, if some required parameter(s) are
missing in the node's driver_info.
:raises: InvalidParameterValue, if some parameter(s) have invalid
value(s) in the node's driver_info.
"""
try:
boot_dev = IRONIC_TO_OVIRT_DEVICE_MAPPING[device]
except KeyError:
raise exception.InvalidParameterValue(
_("Invalid boot device %s specified.") % device)
driver_info = _parse_driver_info(task.node)
vm = _getvm(driver_info)
try:
boot = otypes.Boot(devices=[otypes.BootDevice(boot_dev)])
bootos = otypes.OperatingSystem(boot=boot)
vm.update(otypes.Vm(os=bootos))
except sdk.Error as e:
LOG.error(
"Setting boot device failed for node %(node_id)s "
"with error: %(error)s", {
'node_id': task.node.uuid,
'error': e
})
raise staging_exception.OVirtError(err=e)
def build_entity(self):
return otypes.Host(
name=self._module.params['name'],
cluster=otypes.Cluster(
name=self._module.params['cluster']
) if self._module.params['cluster'] else None,
comment=self._module.params['comment'],
address=self._module.params['address'],
root_password=self._module.params['password'],
ssh=otypes.Ssh(
authentication_method=otypes.SshAuthenticationMethod.PUBLICKEY,
) if self._module.params['public_key'] else None,
kdump_status=otypes.KdumpStatus(
self._module.params['kdump_integration']
) if self._module.params['kdump_integration'] else None,
spm=otypes.Spm(
priority=self._module.params['spm_priority'],
) if self._module.params['spm_priority'] else None,
override_iptables=self._module.params['override_iptables'],
display=otypes.Display(
address=self._module.params['override_display'],
) if self._module.params['override_display'] else None,
os=otypes.OperatingSystem(
custom_kernel_cmdline=' '.join(self._module.params['kernel_params']),
) if self._module.params['kernel_params'] else None,
)
def build_entity(self):
return otypes.Template(
id=self._module.params['id'],
name=self._module.params['name'],
cluster=otypes.Cluster(name=self._module.params['cluster'])
if self._module.params['cluster'] else None,
vm=otypes.Vm(name=self._module.params['vm'])
if self._module.params['vm'] else None,
description=self._module.params['description'],
cpu_profile=otypes.CpuProfile(id=search_by_name(
self._connection.system_service().cpu_profiles_service(),
self._module.params['cpu_profile'],
).id) if self._module.params['cpu_profile'] else None,
os=otypes.OperatingSystem(type=self.param('operating_system'), )
if self.param('operating_system') else None,
memory=convert_to_bytes(self.param('memory'))
if self.param('memory') else None,
version=otypes.TemplateVersion(
base_template=self._get_base_template(),
version_name=self.param('version').get('name'),
) if self.param('version') else None,
memory_policy=otypes.MemoryPolicy(
guaranteed=convert_to_bytes(self.param('memory_guaranteed')),
max=convert_to_bytes(self.param('memory_max')),
) if any((self.param('memory_guaranteed'),
self.param('memory_max'))) else None,
io=otypes.Io(threads=self.param('io_threads'), )
if self.param('io_threads') is not None else None,
)
def build_entity(self):
return otypes.Host(
name=self.param('name'),
cluster=otypes.Cluster(
name=self.param('cluster')
) if self.param('cluster') else None,
comment=self.param('comment'),
address=self.param('address'),
root_password=self.param('password'),
ssh=otypes.Ssh(
authentication_method=otypes.SshAuthenticationMethod.PUBLICKEY,
) if self.param('public_key') else None,
kdump_status=otypes.KdumpStatus(
self.param('kdump_integration')
) if self.param('kdump_integration') else None,
spm=otypes.Spm(
priority=self.param('spm_priority'),
) if self.param('spm_priority') else None,
override_iptables=self.param('override_iptables'),
display=otypes.Display(
address=self.param('override_display'),
) if self.param('override_display') else None,
os=otypes.OperatingSystem(
custom_kernel_cmdline=' '.join(self.param('kernel_params')),
) if self.param('kernel_params') else None,
power_management=otypes.PowerManagement(
enabled=self.param('power_management_enabled'),
) if self.param('power_management_enabled') is not None else None,
)
def boot_device(self, vmname, bootdevice):
if bootdevice == "network":
vm = self.find_vm(vmname)
vm_service = self.vms_service.vm_service(vm.id)
vm_service.update(vm=types.Vm(os=types.OperatingSystem(
boot=types.Boot(devices=[types.BootDevice.NETWORK]))))
if bootdevice == "hd":
vm = self.find_vm(vmname)
vm_service = self.vms_service.vm_service(vm.id)
vm_service.update(vm=types.Vm(os=types.OperatingSystem(
boot=types.Boot(devices=[types.BootDevice.HD]))))
if bootdevice == "optical":
vm = self.find_vm(vmname)
vm_service = self.vms_service.vm_service(vm.id)
vm_service.update(vm=types.Vm(os=types.OperatingSystem(
boot=types.Boot(devices=[types.BootDevice.CDROM]))))
return
def start_vm_with_pxe(api, options):
"""Add PXE Boot option to vm."""
search_name = "name=" + options['vm_name']
vms_service = api.system_service().vms_service()
vm = vms_service.list(search=search_name)[0]
vm_service = vms_service.vm_service(vm.id)
vm_service.start(vm=types.Vm(os=types.OperatingSystem(boot=types.Boot(
devices=[types.BootDevice.HD, types.BootDevice.NETWORK]))))
def add_vm_blank(api):
# Get the vms service
vms_service=api.system_service().vms_service()
#Create VM from blank template
vm_memory=256*MB
vm=types.Vm(
name=VM0_NAME,
memory=vm_memory,
type=types.VmType.SERVER,
os=types.OperatingSystem(
type='other_linux',
boot=types.Boot(
devices=[types.BootDevice.HD, types.BootDevice.NETWORK]
),
),
high_availability=types.HighAvailability(
enabled=False
),
cluster=types.Cluster(
name=TEST_CLUSTER
),
template=types.Template(
name=TEMPLATE_BLANK
),
display=types.Display(
smartcard_enabled=True,
keyboard_layout='en-us',
file_transfer_enabled=True,
copy_paste_enabled=True
),
memory_policy=types.MemoryPolicy(
guaranteed=vm_memory//2
)
)
#Add this VM
vm=vms_service.add(vm)
#Check that VM was added
vm_service=vms_service.vm_service(vm.id)
testlib.assert_true_within_short(
lambda: vm_service.get().status == types.VmStatus.DOWN
)
#Add another VM
vm.id=None
vm.name=VM1_NAME
vm.initialization=None
vm=vms_service.add(vm)
#Check that the second VM was added
vm_service=vms_service.vm_service(vm.id)
testlib.assert_true_within_short(
lambda: vm_service.get().status == types.VmStatus.DOWN
)
def build_entity(self):
return otypes.Template(
id=self._module.params['id'],
name=self._module.params['name'],
cluster=otypes.Cluster(
name=self._module.params['cluster']
) if self._module.params['cluster'] else None,
vm=otypes.Vm(
name=self._module.params['vm']
) if self._module.params['vm'] else None,
description=self._module.params['description'],
cpu_profile=otypes.CpuProfile(
id=search_by_name(
self._connection.system_service().cpu_profiles_service(),
self._module.params['cpu_profile'],
).id
) if self._module.params['cpu_profile'] else None,
display=otypes.Display(
smartcard_enabled=self.param('smartcard_enabled')
) if self.param('smartcard_enabled') is not None else None,
os=otypes.OperatingSystem(
type=self.param('operating_system'),
) if self.param('operating_system') else None,
memory=convert_to_bytes(
self.param('memory')
) if self.param('memory') else None,
soundcard_enabled=self.param('soundcard_enabled'),
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,
time_zone=otypes.TimeZone(
name=self.param('timezone'),
) if self.param('timezone') else None,
version=otypes.TemplateVersion(
base_template=self._get_base_template(),
version_name=self.param('version').get('name'),
) if self.param('version') 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'),
self.param('memory_max')
)) else None,
io=otypes.Io(
threads=self.param('io_threads'),
) if self.param('io_threads') is not None else None,
initialization=self.get_initialization(),
)
def start_vm_with_cdrom(api, vm_id, isoname='ks.iso'):
"""Add CDROM and boot vm."""
vms_service = api.system_service().vms_service()
vm_service = vms_service.vm_service(vm_id)
cdroms_service = vm_service.cdroms_service()
cdrom = cdroms_service.list()[0]
cdrom_service = cdroms_service.cdrom_service(cdrom.id)
cdrom_service.update(
cdrom=types.Cdrom(file=types.File(id=isoname), ),
current=False,
)
vm_service.start(vm=types.Vm(os=types.OperatingSystem(boot=types.Boot(
devices=[types.BootDevice.HD, types.BootDevice.CDROM]))))
def build_entity(self):
template = self.__get_template_with_version()
return otypes.Vm(
name=self.param('name'),
cluster=otypes.Cluster(
name=self.param('cluster')) if self.param('cluster') else None,
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'),
high_availability=otypes.HighAvailability(
enabled=self.param('high_availability'))
if self.param('high_availability') is not None else None,
cpu=otypes.Cpu(topology=otypes.CpuTopology(
cores=self.param('cpu_cores'),
sockets=self.param('cpu_sockets'),
)) if
(self.param('cpu_cores') or self.param('cpu_sockets')) 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')), )
if self.param('memory_guaranteed') 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,
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,
)
def start_vm_with_cdrom(api, options):
"""Add CDROM and boot vm."""
search_name = "name=" + options['vm_name']
vms_service = api.system_service().vms_service()
vm = vms_service.list(search=search_name)[0]
vm_service = vms_service.vm_service(vm.id)
cdroms_service = vm_service.cdroms_service()
cdrom = cdroms_service.list()[0]
cdrom_service = cdroms_service.cdrom_service(cdrom.id)
cdrom_service.update(
cdrom=types.Cdrom(file=types.File(id=options['cdrom']), ),
current=False,
)
vm_service.start(vm=types.Vm(os=types.OperatingSystem(boot=types.Boot(
devices=[types.BootDevice.HD, types.BootDevice.CDROM]))))
def test_add_vm1_from_template(engine_api, cirros_image_glance_template_name):
engine = engine_api.system_service()
templates_service = engine.templates_service()
glance_template = templates_service.list(
search='name=%s' % cirros_image_glance_template_name)[0]
if glance_template is None:
pytest.skip('%s: template %s not available.' %
(add_vm1_from_template.__name__,
cirros_image_glance_template_name))
vm_memory = 128 * MB # runs with 64 ok, but we need to do a hotplug later (64+256 is too much difference)
vms_service = engine.vms_service()
vms_service.add(
types.Vm(
name=VM1_NAME,
description='CirrOS imported from Glance as Template',
memory=vm_memory,
cluster=types.Cluster(name=TEST_CLUSTER, ),
template=types.Template(name=cirros_image_glance_template_name, ),
use_latest_template_version=True,
stateless=True,
display=types.Display(type=types.DisplayType.VNC, ),
memory_policy=types.MemoryPolicy(
guaranteed=
vm_memory, # with so little memory we don't want guaranteed to be any lower
ballooning=False,
),
os=types.OperatingSystem(
type=
'rhel_7x64', # even though it's CirrOS we want to check a non-default OS type
),
time_zone=types.TimeZone(name='Etc/GMT', ),
type=types.VmType.SERVER,
serial_number=types.SerialNumber(
policy=types.SerialNumberPolicy.CUSTOM,
value='12345678',
),
cpu=types.Cpu(
architecture=types.Architecture.X86_64,
topology=types.CpuTopology(
sockets=1,
cores=1,
threads=2,
),
),
))
def add_vm(api, options):
"""Adding a VM."""
vms_service = api.system_service().vms_service()
try:
vms_service.add(
types.Vm(
name=options['vm_name'],
memory=options['vmem'],
cpu=types.Cpu(topology=options['vcpus']),
type=types.VmType('server'),
os=types.OperatingSystem(type=options['os_type']),
cluster=types.Cluster(name=options['vm_dc'], ),
template=types.Template(name='Blank', ),
), )
except Exception as e:
print "Can't add VM: %s" % str(e)
api.close()
sys.exit(1)
def add_vm1_from_template(api):
engine = api.system_service()
templates_service = engine.templates_service()
glance_template = templates_service.list(search='name=%s' %
TEMPLATE_CIRROS)[0]
if glance_template is None:
raise SkipTest('%s: template %s not available.' % (
add_vm1_from_template.__name__,
TEMPLATE_CIRROS,
))
vm_memory = 512 * MB
vms_service = engine.vms_service()
vms_service.add(
types.Vm(
name=VM1_NAME,
description='CirrOS imported from Glance as Template',
memory=512 * MB,
cluster=types.Cluster(name=TEST_CLUSTER, ),
template=types.Template(name=TEMPLATE_CIRROS, ),
use_latest_template_version=True,
stateless=True,
display=types.Display(type=types.DisplayType.VNC, ),
memory_policy=types.MemoryPolicy(
guaranteed=vm_memory / 2,
ballooning=False,
),
os=types.OperatingSystem(type='other_lnux', ),
time_zone=types.TimeZone(name='Etc/GMT', ),
type=types.VmType.SERVER,
serial_number=types.SerialNumber(
policy=types.SerialNumberPolicy.CUSTOM,
value='12345678',
),
cpu=types.Cpu(
architecture=types.Architecture.X86_64,
topology=types.CpuTopology(
sockets=1,
cores=1,
threads=2,
),
),
))
def add_vm_blank(api):
engine = api.system_service()
vms = engine.vms_service()
new_vm = types.Vm(
os=types.OperatingSystem(
type='other_linux',
boot=types.Boot(devices=[types.BootDevice.NETWORK])
),
type=types.VmType.SERVER,
cluster=types.Cluster(name=TEST_CLUSTER),
template=types.Template(name=TEMPLATE_BLANK),
name=VM_NAME
)
new_vm = vms.add(new_vm)
vm_service = vms.vm_service(new_vm.id)
testlib.assert_true_within_short(
lambda: vm_service.get().status == types.VmStatus.DOWN
)
def startVMOverNetwork(session):
""" Starts created virtual machines via pxe"""
print "\n\n=================[ BOOTING VMS OVER NETWORK ]================="
for vm in configFile['vms']:
hostname = vm['hostname']
vmService = session.system_service().vms_service()
machine = vmService.list(search='name=%s' % str(hostname))[0]
startService = vmService.vm_service(machine.id)
startService.start(
vm=types.Vm(
os=types.OperatingSystem(
boot=types.Boot(
devices=[
types.BootDevice.NETWORK,
types.BootDevice.CDROM
]
)
)
)
)
print "Booting \"%s\"." % (hostname)
def main():
parser = option_parser()
args = parser.parse_args()
if not early_option_check(args):
sys.exit(-1)
# Create the connection to the server:
connection = sdk.Connection(
url='https://@ENGINE_FQDN@/ovirt-engine/api',
username='******',
password=base64.b64decode('@ENGINEPASS_BASE64@'),
ca_file='@CA_PEM@',
debug=False,
)
vms_service = connection.system_service().vms_service()
cluster = connection.system_service().clusters_service().list()[0]
clustername = cluster.name
dcs_service = connection.system_service().data_centers_service()
dc = dcs_service.list(search='Clusters.name=%s' % cluster.name)[0]
networks_service = dcs_service.service(dc.id).networks_service()
profiles_service = connection.system_service().vnic_profiles_service()
if not later_option_check(args, connection):
connection.close()
sys.exit(-1)
shorthand = {
'rhel6': 'rhel_6x64',
'rhel7': 'rhel_7x64',
'rhel8': 'rhel_8x64',
'ubuntu': 'ubuntu_14_04',
'debian': 'debian_7',
}
vmtype = {
'server': types.VmType.SERVER,
'desktop': types.VmType.DESKTOP,
'high_performance': types.VmType.HIGH_PERFORMANCE
}
# Creating new virtual machine
vm = types.Vm()
vm.name = args.name
vm.cluster = types.Cluster(name=clustername)
vm.template = types.Template(name=args.template)
if args.os in shorthand.keys():
vm.os = types.OperatingSystem(type=shorthand[args.os])
else:
vm.os = types.OperatingSystem(type=args.os)
vm.memory = args.memory * 1024 * 1024
if args.balloon == 0:
vm.memory_policy = types.MemoryPolicy(
max=args.max_memory * 1024 * 1024,
guaranteed=args.guaranteed_memory * 1024 * 1024)
else:
vm.memory_policy = types.MemoryPolicy(
max=args.max_memory * 1024 * 1024,
guaranteed=args.guaranteed_memory * 1024 * 1024,
ballooning=True if args.balloon == 1 else False)
vm.cpu = types.Cpu()
vm.cpu.architecture = types.Architecture.X86_64
vm.cpu.topology = types.CpuTopology(cores=1, sockets=args.cpu, threads=1)
if args.sound != 0:
vm.soundcard_enabled = True if args.sound == 1 else False
vm.type = vmtype[args.type]
print("Creating New Virtual Machine:{0}".format(args.name))
vm = vms_service.add(vm)
while vms_service.list(search=args.name)[0].status != types.VmStatus.DOWN:
time.sleep(1)
# Attach network interface(s)
nics_service = vms_service.vm_service(vm.id).nics_service()
nicnum = 0
for netname in args.vmnet:
network = next(
(n for n in networks_service.list() if n.name == netname), None)
profile_id = None
for profile in profiles_service.list():
if profile.name == netname:
profile_id = profile.id
break
if profile_id != None:
nicnum = nicnum + 1
print("Attaching nic{0}(Network:{1})".format(nicnum, netname))
nics_service.add(
types.Nic(
name="nic{0}".format(nicnum),
vnic_profile=types.VnicProfile(id=profile_id, ),
), )
# Create and attach disk(s)
disk_attachments_service = vms_service.vm_service(
vm.id).disk_attachments_service()
disks_service = connection.system_service().disks_service()
disknum = 0
for d in args.vmdisk:
disknum += 1
new_disk = types.DiskAttachment()
new_disk.disk = types.Disk()
new_disk.disk.name = "{0}_Disk{1}".format(args.name, disknum)
new_disk.disk.provisioned_size = int(d.split(':')[1]) * 2**30
new_disk.disk.storage_domains = [
types.StorageDomain(name=d.split(':')[0])
]
if d.split(':')[2] == "RAW":
new_disk.disk.format = types.DiskFormat.RAW
else:
new_disk.disk.format = types.DiskFormat.COW
new_disk.interface = types.DiskInterface.VIRTIO_SCSI
new_disk.active = True
if disknum == 1:
new_disk.bootable = True
print(
"Attaching Disk{0}(Domain:{1}, Size:{2}GB, DiskFormat:{3})".format(
disknum,
d.split(':')[0],
d.split(':')[1],
d.split(':')[2]))
disk_attachment = disk_attachments_service.add(new_disk)
disk_service = disks_service.disk_service(disk_attachment.disk.id)
# wait disk attach finish
time.sleep(5)
while disk_service.get().status != types.DiskStatus.OK:
print("Waiting disk attach complete")
time.sleep(5)
if args.ks != None or args.ps != None or args.ai != None:
# one-shot VM configuration for Kickstart/preseed
one_vm = types.Vm()
one_vm.os = types.OperatingSystem()
one_vm.os.kernel = 'iso://' + args.kernel
one_vm.os.initrd = 'iso://' + args.initrd
one_vm.run_once = True
one_vm.cdroms = list()
one_vm.cdroms.append(types.Cdrom())
one_vm.cdroms[0].file = types.File()
one_vm.cdroms[0].file.id = args.iso
if args.dns == None:
args.dns = ""
elif args.os == 'rhel6':
args.dns = 'dns=' + args.dns
else:
args.dns = 'nameserver=' + args.dns
if args.os == 'rhel6':
ksdev = args.network.split(':')[5]
ksip = args.network.split(':')[0]
ksnm = calc_netmask(int(args.network.split(':')[3]))
ksgw = args.network.split(':')[2]
args.network = "ksdevice={0} ip={1} netmask={2} gateway={3}".format(
ksdev, ksip, ksnm, ksgw)
if args.ks != None:
if args.os == 'rhel6':
one_vm.os.cmdline = args.network + " " + args.dns + " ks=" + args.ks
else:
one_vm.os.cmdline = args.network + " " + args.dns + " inst.ks=" + args.ks
if args.ps != None:
one_vm.os.cmdline = "auto=true url=" + args.ps
if args.ai != None:
one_vm.os.cmdline = "autoinstall ds=nocloud-net;s=" + args.ai
vm_service = vms_service.vm_service(vm.id)
print("Starting automatic OS installation on {0}".format(args.name))
vm_service.start(vm=one_vm, volatile=True)
# Close the connection to the server:
connection.close()
def main():
argument_spec = ovirt_full_argument_spec(
state=dict(
choices=[
'running', 'stopped', 'present', 'absent', 'suspended',
'next_run'
],
default='present',
),
name=dict(default=None),
id=dict(default=None),
cluster=dict(default=None),
template=dict(default=None),
template_version=dict(default=None, type='int'),
use_latest_template_version=dict(default=None, type='bool'),
disks=dict(default=[], type='list'),
memory=dict(default=None),
memory_guaranteed=dict(default=None),
cpu_sockets=dict(default=None, type='int'),
cpu_cores=dict(default=None, type='int'),
cpu_shares=dict(default=None, type='int'),
type=dict(choices=['server', 'desktop']),
operating_system=dict(
default=None,
choices=[
'rhel_6_ppc64',
'other',
'freebsd',
'windows_2003x64',
'windows_10',
'rhel_6x64',
'rhel_4x64',
'windows_2008x64',
'windows_2008R2x64',
'debian_7',
'windows_2012x64',
'ubuntu_14_04',
'ubuntu_12_04',
'ubuntu_13_10',
'windows_8x64',
'other_linux_ppc64',
'windows_2003',
'other_linux',
'windows_10x64',
'windows_2008',
'rhel_3',
'rhel_5',
'rhel_4',
'other_ppc64',
'sles_11',
'rhel_6',
'windows_xp',
'rhel_7x64',
'freebsdx64',
'rhel_7_ppc64',
'windows_7',
'rhel_5x64',
'ubuntu_14_04_ppc64',
'sles_11_ppc64',
'windows_8',
'windows_2012R2x64',
'windows_2008r2x64',
'ubuntu_13_04',
'ubuntu_12_10',
'windows_7x64',
],
),
cd_iso=dict(default=None),
boot_devices=dict(default=None, type='list'),
high_availability=dict(type='bool'),
stateless=dict(type='bool'),
delete_protected=dict(type='bool'),
force=dict(type='bool', default=False),
nics=dict(default=[], type='list'),
cloud_init=dict(type='dict'),
cloud_init_nics=dict(defaul=[], type='list'),
sysprep=dict(type='dict'),
host=dict(default=None),
clone=dict(type='bool', default=False),
clone_permissions=dict(type='bool', default=False),
kernel_path=dict(default=None),
initrd_path=dict(default=None),
kernel_params=dict(default=None),
instance_type=dict(default=None),
description=dict(default=None),
comment=dict(default=None),
timezone=dict(default=None),
serial_policy=dict(default=None, choices=['vm', 'host', 'custom']),
serial_policy_value=dict(default=None),
)
module = AnsibleModule(
argument_spec=argument_spec,
supports_check_mode=True,
)
check_sdk(module)
check_params(module)
try:
state = module.params['state']
connection = create_connection(module.params.pop('auth'))
vms_service = connection.system_service().vms_service()
vms_module = VmsModule(
connection=connection,
module=module,
service=vms_service,
)
vm = vms_module.search_entity()
control_state(vm, vms_service, module)
if state == 'present' or state == 'running' or state == 'next_run':
sysprep = module.params['sysprep']
cloud_init = module.params['cloud_init']
cloud_init_nics = module.params['cloud_init_nics'] or []
if cloud_init is not None:
cloud_init_nics.append(cloud_init)
# In case VM don't exist, wait for VM DOWN state,
# otherwise don't wait for any state, just update VM:
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'],
)
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=cloud_init is not None
or len(cloud_init_nics) > 0,
use_sysprep=sysprep is not None,
vm=otypes.Vm(
placement_policy=otypes.VmPlacementPolicy(
hosts=[otypes.Host(name=module.params['host'])])
if module.params['host'] else None,
initialization=_get_initialization(sysprep, cloud_init,
cloud_init_nics),
os=otypes.OperatingSystem(
cmdline=module.params.get('kernel_params'),
initrd=module.params.get('initrd_path'),
kernel=module.params.get('kernel_path'),
),
),
)
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,
)
elif state == 'stopped':
vms_module.create(
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',
post_action=vms_module._attach_cd,
action_condition=lambda vm: vm.status != otypes.VmStatus.
DOWN,
wait_condition=lambda vm: vm.status == otypes.VmStatus.
DOWN,
)
else:
ret = vms_module.action(
action='shutdown',
pre_action=vms_module._pre_shutdown_action,
post_action=vms_module._attach_cd,
action_condition=lambda vm: vm.status != otypes.VmStatus.
DOWN,
wait_condition=lambda vm: vm.status == otypes.VmStatus.
DOWN,
)
elif state == 'suspended':
vms_module.create(
result_state=otypes.VmStatus.DOWN if vm is None else None,
clone=module.params['clone'],
clone_permissions=module.params['clone_permissions'],
)
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()
module.exit_json(**ret)
except Exception as e:
module.fail_json(msg=str(e), exception=traceback.format_exc())
finally:
connection.close(logout=False)
password=RHVMPass,
ca_file='/etc/pki/vdsm/certs/cacert.pem',
)
# Get the reference to the "vms" service:
vms_service = connection.system_service().vms_service()
vm = types.Vm()
vm.name = VMName
vm.comment = VMComment
vm.description = VMDescription
cpu = types.CpuTopology(cores=VMCores, sockets=VMSockets)
vm.cpu = types.Cpu(topology=cpu)
vm.cluster = types.Cluster(name=VMCluster)
vm.template = types.Template(name=VMTemplate)
vm.os = types.OperatingSystem(boot=types.Boot(devices=[types.BootDevice.HD]),
type='rhel_8x64')
#vm.instance_type = types.InstanceType(id="00000003-0003-0003-0003-0000000000be")
vm.memory = VMMemory
vm.time_zone = types.TimeZone(name='Asia/Tehran')
netlist = connection.system_service().operating_systems_service().list()
for host in netlist:
if host.name == 'rhel_8x64':
myos = host
print("%s (%s)" % (host.name, host.id))
vm.type = types.VmType.SERVER
vm.soundcard_enabled = False
provider = connection.system_service().external_host_providers_service().list(
)[0]
#vm.externalhostproviders = types.ExternalHostProvider(id='d78051b5-37c8-43bc-8eeb-04e49e59bf3')
#vm.memory_policy=types.MemoryPolicy( guaranteed=VMMemoryGuaranteed )
vms_service.add(vm)
def build_entity(self):
return otypes.InstanceType(
id=self.param('id'),
name=self.param('name'),
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,
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,
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,
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
),
rng_device=otypes.RngDevice(
source=otypes.RngSource(self.param('rng_device')),
rate=otypes.Rate(
bytes=self.param('rng_bytes'),
period=self.param('rng_period')
)
) if self.param('rng_device') else None,
memory=convert_to_bytes(
self.param('memory')
) if self.param('memory') else None,
virtio_scsi=otypes.VirtioScsi(
enabled=self.param('virtio_scsi')
) if self.param('virtio_scsi') 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,
description=self.param('description'),
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,
)
def create_vm(kwargs, call=None):
'''
Create VM based on YAML file (must include parameter @ filename = "path/to/file" @ )
- 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).
'''
assert "filename" in kwargs, "Can't find filename parameter in function call"
vm_info = parse_yaml(kwargs["filename"])
boot_devices = []
if "boot_first_device" in vm_info["common"]:
if vm_info["common"]["boot_first_device"].lower() in [
"hd", "network", "cdrom"
]:
if vm_info["common"]["boot_first_device"].lower() == "hd":
boot_devices.append(types.BootDevice.HD)
elif vm_info["common"]["boot_first_device"].lower() == "cdrom":
boot_devices.append(types.BootDevice.CDROM)
elif vm_info["common"]["boot_first_device"].lower() == "network":
boot_devices.append(types.BootDevice.NETWORK)
else:
boot_devices.append(None)
if "boot_second_device" in vm_info["common"]:
if vm_info["common"]["boot_second_device"].lower() in [
"hd", "network", "cdrom"
]:
if vm_info["common"]["boot_second_device"].lower() == "hd":
boot_devices.append(types.BootDevice.HD)
elif vm_info["common"]["boot_second_device"].lower() == "cdrom":
boot_devices.append(types.BootDevice.CDROM)
elif vm_info["common"]["boot_second_device"].lower() == "network":
boot_devices.append(types.BootDevice.NETWORK)
else:
boot_devices.append(None)
connection()
vms_service = connection.system_service().vms_service()
vms_service.add(
types.Vm(
name=vm_info["name"],
os=types.OperatingSystem(
type=vm_info["os_type"] if "os_type" in vm_info else "Other",
boot=types.Boot(devices=boot_devices)),
# type=vm_info["common"]["type"],
placement_policy=types.VmPlacementPolicy(
hosts=[types.Host(name=vm_info["common"]["host"])]),
cpu=types.Cpu(topology=types.CpuTopology(
cores=vm_info["CPU"]["cores"]
if "cores" in vm_info["CPU"] else 1,
sockets=vm_info["CPU"]["sockets"]
if "sockets" in vm_info["CPU"] else 1,
threads=vm_info["CPU"]["threads"]
if "threads" in vm_info["CPU"] else 1,
), ),
memory=1024 * 1024 * 1024 * int(vm_info["memory"]["memory"]),
memory_policy=types.MemoryPolicy(
guaranteed=1024 * 1024 * 1024 * vm_info["memory"]["guaranteed"]
if "guaranteed" in vm_info["memory"] else 512 * 1024 * 1024 *
int(vm_info["memory"]["memory"]),
ballooning=vm_info["memory"]["ballooning"]
if "ballooning" in vm_info["memory"] else True,
max=1024 * 1024 * 1024 * vm_info["memory"]["maximum"]
if "maximum" in vm_info["memory"] else 2048 * 1024 * 1024 *
int(vm_info["memory"]["memory"]),
),
cluster=types.Cluster(name=vm_info["common"]["cluster"], ),
template=types.Template(
name=vm_info["common"]["template"]
if "template" in vm_info["common"] else "Blank", ),
description=vm_info["common"]["description"]
if "description" in vm_info["common"] else "Not provided",
comment=vm_info["common"]["comment"]
if "comment" in vm_info["common"] else "Not provided",
soundcard_enabled=vm_info["common"]["soundcard_enabled"]
if "soundcard_enabled" in vm_info["common"] else False,
), )
if "disks" in vm_info:
for disk in vm_info["disks"]:
attach_disk(disk, vm_info["name"])
if "networks" in vm_info:
for network in vm_info["networks"]:
attach_network(network, vm_info["name"])
# Check according to salt:
if call != 'function':
raise SaltCloudSystemExit(
'The show_instance action must be called with -f or --function.')
connection.close()
return {'Created': '{0} was created.'.format(vm_info["name"])}
)
# Get the reference to the "vms" service:
vms_service = connection.system_service().vms_service()
# Find the virtual machine:
vm = vms_service.list(search='name=myvm')[0]
# Locate the service that manages the virtual machine, as that is where
# the action methods are defined:
vm_service = vms_service.vm_service(vm.id)
# Call the "start" method of the service to start it with
# additional properties in a run once configuration
vm_service.start(vm=types.Vm(os=types.OperatingSystem(boot=types.Boot(
devices=[types.BootDevice.NETWORK, types.BootDevice.CDROM]))))
# additional documentation about attributes and types that can be changed:
# https://your.rhv.host/ovirt-engine/api/model#types/vm
# https://your.rhv.host/ovirt-engine/api/model#types/operating_system
# https://your.rhv.host/ovirt-engine/api/model#types/boot
# https://your.rhv.host/ovirt-engine/api/model#types/boot_device
# Wait till the virtual machine is up:
while True:
time.sleep(5)
vm = vm_service.get()
if vm.status == types.VmStatus.UP:
break
# Close the connection to the server:
vm_service = vms_service.vm_service(vm.id)
# Wait till the virtual machine is down, which indicats that all the
# disks have been created:
while True:
time.sleep(5)
vm = vm_service.get()
if vm.status == types.VmStatus.DOWN:
break
# The content of the Unattend.xml file. Note that this is an incomplete
# file, make sure to use a complete one, maybe
# reading it from an external file.
unattend_xml = '''\
<?xml version="1.0" encoding="UTF-8"?>
<unattend xmlns="urn:schemas-microsoft-com:unattend">
...
</unattend>
'''
# Start the virtual machine enabling sysprep. Make sure to use a Windows
# operating system, either in the template, or overriding it explicitly
# here. Without that the Sysprep logic won't be triggered.
vm_service.start(use_sysprep=True,
vm=types.Vm(os=types.OperatingSystem(type='windows_7x64'),
initialization=types.Initialization(
custom_script=unattend_xml)))
# Close the connection to the server:
connection.close()
def start_vm_with_pxe(api, vm_id):
"""Add PXE Boot option to vm."""
vms_service = api.system_service().vms_service()
vm_service = vms_service.vm_service(vm_id)
vm_service.start(vm=types.Vm(os=types.OperatingSystem(boot=types.Boot(
devices=[types.BootDevice.HD, types.BootDevice.NETWORK]))))