def GetNetworkInterfaces(self, args, resources, client, holder,
instance_refs, skip_defaults):
if args.network_interface:
return instance_utils.CreateNetworkInterfaceMessages(
resources=resources,
compute_client=client,
network_interface_arg=args.network_interface,
instance_refs=instance_refs)
return self._GetNetworkInterfaces(args, client, holder, instance_refs,
skip_defaults)
def _GetNetworkInterfacesWithValidation(
self, args, resource_parser, compute_client, holder, instance_refs,
skip_defaults):
if args.network_interface:
return instance_utils.CreateNetworkInterfaceMessages(
resources=resource_parser,
compute_client=compute_client,
network_interface_arg=args.network_interface,
instance_refs=instance_refs)
else:
instances_flags.ValidatePublicPtrFlags(args)
if self._support_public_dns:
instances_flags.ValidatePublicDnsFlags(args)
return self._GetNetworkInterfaces(
args, compute_client, holder, instance_refs, skip_defaults)
def CreateRequests(self, args):
instances_flags.ValidateDiskFlags(args)
instances_flags.ValidateLocalSsdFlags(args)
instances_flags.ValidateNicFlags(args)
# This feature is only exposed in alpha/beta
allow_rsa_encrypted = self.ReleaseTrack() in [base.ReleaseTrack.ALPHA,
base.ReleaseTrack.BETA]
self.csek_keys = csek_utils.CsekKeyStore.FromArgs(args, allow_rsa_encrypted)
scheduling = instance_utils.CreateSchedulingMessage(
messages=self.messages,
maintenance_policy=args.maintenance_policy,
preemptible=args.preemptible,
restart_on_failure=args.restart_on_failure)
service_accounts = instance_utils.CreateServiceAccountMessages(
messages=self.messages,
scopes=([] if args.no_scopes else args.scopes))
if args.tags:
tags = self.messages.Tags(items=args.tags)
else:
tags = None
metadata = metadata_utils.ConstructMetadataMessage(
self.messages,
metadata=args.metadata,
metadata_from_file=args.metadata_from_file)
# If the user already provided an initial Windows password and
# username through metadata, then there is no need to check
# whether the image or the boot disk is Windows.
boot_disk_size_gb = utils.BytesToGb(args.boot_disk_size)
utils.WarnIfDiskSizeIsTooSmall(boot_disk_size_gb, args.boot_disk_type)
instance_refs = instances_flags.INSTANCES_ARG.ResolveAsResource(
args, self.resources, scope_lister=flags.GetDefaultScopeLister(
self.compute_client, self.project))
# Check if the zone is deprecated or has maintenance coming.
self.WarnForZonalCreation(instance_refs)
if hasattr(args, 'network_interface') and args.network_interface:
network_interfaces = instance_utils.CreateNetworkInterfaceMessages(
resources=self.resources,
compute_client=self.compute_client,
network_interface_arg=args.network_interface,
instance_refs=instance_refs)
else:
network_interfaces = [
instance_utils.CreateNetworkInterfaceMessage(
resources=self.resources,
compute_client=self.compute_client,
network=args.network,
subnet=args.subnet,
private_network_ip=args.private_network_ip,
no_address=args.no_address,
address=args.address,
instance_refs=instance_refs)
]
machine_type_uris = instance_utils.CreateMachineTypeUris(
resources=self.resources,
compute_client=self.compute_client,
project=self.project,
machine_type=args.machine_type,
custom_cpu=args.custom_cpu,
custom_memory=args.custom_memory,
instance_refs=instance_refs)
create_boot_disk = not instance_utils.UseExistingBootDisk(args.disk or [])
if create_boot_disk:
image_uri, _ = self.ExpandImageFlag(
image=args.image,
image_family=args.image_family,
image_project=args.image_project,
return_image_resource=False)
else:
image_uri = None
# A list of lists where the element at index i contains a list of
# disk messages that should be set for the instance at index i.
disks_messages = []
# A mapping of zone to boot disk references for all existing boot
# disks that are being attached.
# TODO(user): Simplify this once resources.Resource becomes
# hashable.
existing_boot_disks = {}
for instance_ref in instance_refs:
persistent_disks, boot_disk_ref = (
instance_utils.CreatePersistentAttachedDiskMessages(
self.resources, self.compute_client, self.csek_keys,
args.disk or [], instance_ref))
persistent_create_disks = (
instance_utils.CreatePersistentCreateDiskMessages(
self,
self.compute_client,
self.resources,
self.csek_keys,
getattr(args, 'create_disk', []),
instance_ref))
local_ssds = []
for x in args.local_ssd or []:
local_ssds.append(
instance_utils.CreateLocalSsdMessage(
self.resources,
self.messages,
x.get('device-name'),
x.get('interface'),
instance_ref.zone)
)
if create_boot_disk:
boot_disk = instance_utils.CreateDefaultBootAttachedDiskMessage(
self.compute_client, self.resources,
disk_type=args.boot_disk_type,
disk_device_name=args.boot_disk_device_name,
disk_auto_delete=args.boot_disk_auto_delete,
disk_size_gb=boot_disk_size_gb,
require_csek_key_create=(
args.require_csek_key_create if self.csek_keys else None),
image_uri=image_uri,
instance_ref=instance_ref,
csek_keys=self.csek_keys)
persistent_disks = [boot_disk] + persistent_disks
else:
existing_boot_disks[boot_disk_ref.zone] = boot_disk_ref
disks_messages.append(persistent_disks + persistent_create_disks +
local_ssds)
requests = []
for instance_ref, machine_type_uri, disks in zip(
instance_refs, machine_type_uris, disks_messages):
requests.append(self.messages.ComputeInstancesInsertRequest(
instance=self.messages.Instance(
canIpForward=args.can_ip_forward,
disks=disks,
description=args.description,
machineType=machine_type_uri,
metadata=metadata,
name=instance_ref.Name(),
networkInterfaces=network_interfaces,
serviceAccounts=service_accounts,
scheduling=scheduling,
tags=tags,
),
project=self.project,
zone=instance_ref.zone))
return requests
def _CreateRequests(self, args, compute_client, resource_parser):
# This feature is only exposed in alpha/beta
allow_rsa_encrypted = self.ReleaseTrack() in [
base.ReleaseTrack.ALPHA, base.ReleaseTrack.BETA
]
self.csek_keys = csek_utils.CsekKeyStore.FromArgs(
args, allow_rsa_encrypted)
scheduling = instance_utils.CreateSchedulingMessage(
messages=compute_client.messages,
maintenance_policy=args.maintenance_policy,
preemptible=args.preemptible,
restart_on_failure=args.restart_on_failure)
if args.tags:
tags = compute_client.messages.Tags(items=args.tags)
else:
tags = None
metadata = metadata_utils.ConstructMetadataMessage(
compute_client.messages,
metadata=args.metadata,
metadata_from_file=args.metadata_from_file)
# If the user already provided an initial Windows password and
# username through metadata, then there is no need to check
# whether the image or the boot disk is Windows.
boot_disk_size_gb = utils.BytesToGb(args.boot_disk_size)
utils.WarnIfDiskSizeIsTooSmall(boot_disk_size_gb, args.boot_disk_type)
instance_refs = instances_flags.INSTANCES_ARG.ResolveAsResource(
args,
resource_parser,
scope_lister=flags.GetDefaultScopeLister(compute_client))
# Check if the zone is deprecated or has maintenance coming.
zone_resource_fetcher = zone_utils.ZoneResourceFetcher(compute_client)
zone_resource_fetcher.WarnForZonalCreation(instance_refs)
network_interface_arg = getattr(args, 'network_interface', None)
if network_interface_arg:
network_interfaces = instance_utils.CreateNetworkInterfaceMessages(
resources=resource_parser,
compute_client=compute_client,
network_interface_arg=network_interface_arg,
instance_refs=instance_refs,
support_network_tier=self._support_network_tier)
else:
if self._support_public_dns is True:
instances_flags.ValidatePublicDnsFlags(args)
network_tier = getattr(args, 'network_tier', None)
network_interfaces = [
instance_utils.CreateNetworkInterfaceMessage(
resources=resource_parser,
compute_client=compute_client,
network=args.network,
subnet=args.subnet,
private_network_ip=args.private_network_ip,
no_address=args.no_address,
address=args.address,
instance_refs=instance_refs,
network_tier=network_tier,
no_public_dns=getattr(args, 'no_public_dns', None),
public_dns=getattr(args, 'public_dns', None),
no_public_ptr=getattr(args, 'no_public_ptr', None),
public_ptr=getattr(args, 'public_ptr', None),
no_public_ptr_domain=getattr(args, 'no_public_ptr_domain',
None),
public_ptr_domain=getattr(args, 'public_ptr_domain', None))
]
machine_type_uris = instance_utils.CreateMachineTypeUris(
resources=resource_parser,
compute_client=compute_client,
project=instance_refs[0].project,
machine_type=args.machine_type,
custom_cpu=args.custom_cpu,
custom_memory=args.custom_memory,
ext=getattr(args, 'custom_extensions', None),
instance_refs=instance_refs)
create_boot_disk = not instance_utils.UseExistingBootDisk(args.disk
or [])
if create_boot_disk:
image_expander = image_utils.ImageExpander(compute_client,
resource_parser)
image_uri, _ = image_expander.ExpandImageFlag(
user_project=instance_refs[0].project,
image=args.image,
image_family=args.image_family,
image_project=args.image_project,
return_image_resource=False)
else:
image_uri = None
# A list of lists where the element at index i contains a list of
# disk messages that should be set for the instance at index i.
disks_messages = []
# A mapping of zone to boot disk references for all existing boot
# disks that are being attached.
# TODO(b/36050875): Simplify since resources.Resource is now hashable.
existing_boot_disks = {}
for instance_ref in instance_refs:
persistent_disks, boot_disk_ref = (
instance_utils.CreatePersistentAttachedDiskMessages(
resource_parser, compute_client, self.csek_keys, args.disk
or [], instance_ref))
persistent_create_disks = (
instance_utils.CreatePersistentCreateDiskMessages(
compute_client, resource_parser, self.csek_keys,
getattr(args, 'create_disk', []), instance_ref))
local_ssds = []
for x in args.local_ssd or []:
local_ssds.append(
instance_utils.CreateLocalSsdMessage(
resource_parser, compute_client.messages,
x.get('device-name'), x.get('interface'),
x.get('size'), instance_ref.zone))
if create_boot_disk:
boot_disk = instance_utils.CreateDefaultBootAttachedDiskMessage(
compute_client,
resource_parser,
disk_type=args.boot_disk_type,
disk_device_name=args.boot_disk_device_name,
disk_auto_delete=args.boot_disk_auto_delete,
disk_size_gb=boot_disk_size_gb,
require_csek_key_create=(args.require_csek_key_create
if self.csek_keys else None),
image_uri=image_uri,
instance_ref=instance_ref,
csek_keys=self.csek_keys)
persistent_disks = [boot_disk] + persistent_disks
else:
existing_boot_disks[boot_disk_ref.zone] = boot_disk_ref
disks_messages.append(persistent_disks + persistent_create_disks +
local_ssds)
accelerator_args = getattr(args, 'accelerator', None)
project_to_sa = {}
requests = []
for instance_ref, machine_type_uri, disks in zip(
instance_refs, machine_type_uris, disks_messages):
if instance_ref.project not in project_to_sa:
scopes = None
if not args.no_scopes and not args.scopes:
# User didn't provide any input on scopes. If project has no default
# service account then we want to create a VM with no scopes
request = (
compute_client.apitools_client.projects, 'Get',
compute_client.messages.ComputeProjectsGetRequest(
project=instance_ref.project))
errors = []
result = compute_client.MakeRequests([request], errors)
if not errors:
if not result[0].defaultServiceAccount:
scopes = []
log.status.Print(
'There is no default service account for project {}. '
'Instance {} will not have scopes.'.format(
instance_ref.project, instance_ref.Name))
if scopes is None:
scopes = [] if args.no_scopes else args.scopes
if args.no_service_account:
service_account = None
else:
service_account = args.service_account
service_accounts = instance_utils.CreateServiceAccountMessages(
messages=compute_client.messages,
scopes=scopes,
service_account=service_account)
project_to_sa[instance_ref.project] = service_accounts
instance = compute_client.messages.Instance(
canIpForward=args.can_ip_forward,
disks=disks,
description=args.description,
machineType=machine_type_uri,
metadata=metadata,
name=instance_ref.Name(),
networkInterfaces=network_interfaces,
serviceAccounts=project_to_sa[instance_ref.project],
scheduling=scheduling,
tags=tags)
if getattr(args, 'min_cpu_platform', None):
instance.minCpuPlatform = args.min_cpu_platform
if accelerator_args:
accelerator_type_name = accelerator_args['type']
accelerator_type_ref = resource_parser.Parse(
accelerator_type_name,
collection='compute.acceleratorTypes',
params={
'project': instance_ref.project,
'zone': instance_ref.zone
})
# Accelerator count is default to 1.
accelerator_count = int(accelerator_args.get('count', 1))
accelerators = instance_utils.CreateAcceleratorConfigMessages(
compute_client.messages, accelerator_type_ref,
accelerator_count)
instance.guestAccelerators = accelerators
request = compute_client.messages.ComputeInstancesInsertRequest(
instance=instance,
project=instance_ref.project,
zone=instance_ref.zone)
sole_tenancy_host_arg = getattr(args, 'sole_tenancy_host', None)
if sole_tenancy_host_arg:
sole_tenancy_host_ref = resource_parser.Parse(
sole_tenancy_host_arg,
collection='compute.hosts',
params={
'project': instance_ref.project,
'zone': instance_ref.zone
})
request.instance.host = sole_tenancy_host_ref.SelfLink()
requests.append(
(compute_client.apitools_client.instances, 'Insert', request))
return requests
