Esempio n. 1
0
    def CreateRequests(self, args):
        """Creates and returns an InstanceTemplates.Insert request.

    Args:
      args: the argparse arguments that this command was invoked with.

    Returns:
      request: a ComputeInstanceTemplatesInsertRequest message object
    """
        self.ValidateDiskFlags(args)
        instance_utils.ValidateLocalSsdFlags(args)

        boot_disk_size_gb = utils.BytesToGb(args.boot_disk_size)
        utils.WarnIfDiskSizeIsTooSmall(boot_disk_size_gb, args.boot_disk_type)

        instance_template_ref = self.CreateGlobalReference(args.name)

        metadata = metadata_utils.ConstructMetadataMessage(
            self.messages,
            metadata=args.metadata,
            metadata_from_file=args.metadata_from_file)

        network_interface = self.CreateNetworkInterfaceMessage(args)

        if args.maintenance_policy:
            on_host_maintenance = (
                self.messages.Scheduling.OnHostMaintenanceValueValuesEnum(
                    args.maintenance_policy))
        else:
            on_host_maintenance = None

        # Note: We always specify automaticRestart=False for preemptible VMs. This
        # makes sense, since no-restart-on-failure is defined as "store-true", and
        # thus can't be given an explicit value. Hence it either has its default
        # value (in which case we override it for convenience's sake to the only
        # setting that makes sense for preemptible VMs), or the user actually
        # specified no-restart-on-failure, the only usable setting.
        if args.preemptible:
            scheduling = self.messages.Scheduling(
                automaticRestart=False,
                onHostMaintenance=on_host_maintenance,
                preemptible=True)
        else:
            scheduling = self.messages.Scheduling(
                automaticRestart=args.restart_on_failure,
                onHostMaintenance=on_host_maintenance)

        service_accounts = self.CreateServiceAccountMessages(args)

        create_boot_disk = not self.UseExistingBootDisk(args)
        if create_boot_disk:
            image_uri, _ = self.ExpandImageFlag(args,
                                                return_image_resource=True)
        else:
            image_uri = None

        if args.tags:
            tags = self.messages.Tags(items=args.tags)
        else:
            tags = None

        persistent_disks = self.CreateAttachedPersistentDiskMessages(args)
        if create_boot_disk:
            boot_disk_list = [
                self.CreateDefaultBootAttachedDiskMessage(
                    args, boot_disk_size_gb, image_uri)
            ]
        else:
            boot_disk_list = []

        local_ssds = [
            instance_utils.CreateLocalSsdMessage(self, x.get('device-name'),
                                                 x.get('interface'))
            for x in args.local_ssd or []
        ]

        disks = boot_disk_list + persistent_disks + local_ssds

        request = self.messages.ComputeInstanceTemplatesInsertRequest(
            instanceTemplate=self.messages.InstanceTemplate(
                properties=self.messages.InstanceProperties(
                    machineType=args.machine_type,
                    disks=disks,
                    canIpForward=args.can_ip_forward,
                    metadata=metadata,
                    networkInterfaces=[network_interface],
                    serviceAccounts=service_accounts,
                    scheduling=scheduling,
                    tags=tags,
                ),
                description=args.description,
                name=instance_template_ref.Name(),
            ),
            project=self.context['project'])

        return [request]
Esempio n. 2
0
  def CreateRequests(self, args):
    _ValidateDiskFlags(args)
    instance_utils.ValidateLocalSsdFlags(args)

    # TODO(user) drop test after CSEK goes GA
    if hasattr(args, 'csek_key_file'):
      self.csek_keys = csek_utils.CsekKeyStore.FromArgs(args)
    else:
      self.csek_keys = None

    if args.maintenance_policy:
      on_host_maintenance = (
          self.messages.Scheduling.OnHostMaintenanceValueValuesEnum(
              args.maintenance_policy))
    else:
      on_host_maintenance = None

    # Note: We always specify automaticRestart=False for preemptible VMs. This
    # makes sense, since no-restart-on-failure is defined as "store-true", and
    # thus can't be given an explicit value. Hence it either has its default
    # value (in which case we override it for convenience's sake to the only
    # setting that makes sense for preemptible VMs), or the user actually
    # specified no-restart-on-failure, the only usable setting.
    if args.preemptible:
      scheduling = self.messages.Scheduling(
          automaticRestart=False,
          onHostMaintenance=on_host_maintenance,
          preemptible=True)
    else:
      scheduling = self.messages.Scheduling(
          automaticRestart=not args.no_restart_on_failure,
          onHostMaintenance=on_host_maintenance)

    service_accounts = self.CreateServiceAccountMessages(args)

    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 = self.CreateZonalReferences(args.names, args.zone)

    # Check if the zone is deprecated or has maintenance coming.
    self.WarnForZonalCreation(instance_refs)

    network_interface = self.CreateNetworkInterfaceMessage(args, instance_refs)

    # The element at index i is the machine type URI for instance
    # i. We build this list here because we want to delay work that
    # requires API calls as much as possible. This leads to a better
    # user experience because the tool can fail fast upon a spelling
    # mistake instead of delaying the user by making API calls whose
    # purpose has already been rendered moot by the spelling mistake.
    machine_type_uris = []
    for instance_ref in instance_refs:
      machine_type_uris.append(self.CreateZonalReference(
          args.machine_type, instance_ref.zone,
          resource_type='machineTypes').SelfLink())

    create_boot_disk = not _UseExistingBootDisk(args)
    if create_boot_disk:
      image_uri, _ = self.ExpandImageFlag(
          args, 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 = (
          self.CreatePersistentAttachedDiskMessages(args, instance_ref))
      local_ssds = [
          instance_utils.CreateLocalSsdMessage(
              self, x.get('device-name'), x.get('interface'), instance_ref.zone)
          for x in args.local_ssd or []]
      if create_boot_disk:
        boot_disk = self.CreateDefaultBootAttachedDiskMessage(
            args, boot_disk_size_gb, image_uri, instance_ref)
        persistent_disks = [boot_disk] + persistent_disks
      else:
        existing_boot_disks[boot_disk_ref.zone] = boot_disk_ref
      disks_messages.append(persistent_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_interface],
              serviceAccounts=service_accounts,
              scheduling=scheduling,
              tags=tags,
          ),
          project=self.project,
          zone=instance_ref.zone))

    return requests
Esempio n. 3
0
  def CreateRequests(self, args):
    _ValidateDiskFlags(args)
    instance_utils.ValidateLocalSsdFlags(args)

    # TODO(user) drop test after CSEK goes GA
    if hasattr(args, 'csek_key_file'):
      self.csek_keys = csek_utils.CsekKeyStore.FromArgs(args)
    else:
      self.csek_keys = None

    if args.maintenance_policy:
      on_host_maintenance = (
          self.messages.Scheduling.OnHostMaintenanceValueValuesEnum(
              args.maintenance_policy))
    else:
      on_host_maintenance = None

    # Note: We always specify automaticRestart=False for preemptible VMs. This
    # makes sense, since no-restart-on-failure is defined as "store-true", and
    # thus can't be given an explicit value. Hence it either has its default
    # value (in which case we override it for convenience's sake to the only
    # setting that makes sense for preemptible VMs), or the user actually
    # specified no-restart-on-failure, the only usable setting.
    if args.preemptible:
      scheduling = self.messages.Scheduling(
          automaticRestart=False,
          onHostMaintenance=on_host_maintenance,
          preemptible=True)
    else:
      scheduling = self.messages.Scheduling(
          automaticRestart=not args.no_restart_on_failure,
          onHostMaintenance=on_host_maintenance)

    service_accounts = self.CreateServiceAccountMessages(args)

    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.
    windows_username_present = False
    windows_password_present = False
    for kv in metadata.items:
      if kv.key == constants.INITIAL_WINDOWS_USER_METADATA_KEY_NAME:
        windows_username_present = True
      if kv.key == constants.INITIAL_WINDOWS_PASSWORD_METADATA_KEY_NAME:
        windows_password_present = True
    check_for_windows_image = (not windows_username_present or
                               not windows_password_present)

    boot_disk_size_gb = utils.BytesToGb(args.boot_disk_size)
    utils.WarnIfDiskSizeIsTooSmall(boot_disk_size_gb, args.boot_disk_type)

    instance_refs = self.CreateZonalReferences(args.names, args.zone)

    # Check if the zone is deprecated or has maintenance coming.
    self.WarnForZonalCreation(instance_refs)

    network_interface = self.CreateNetworkInterfaceMessage(args, instance_refs)

    # The element at index i is the machine type URI for instance
    # i. We build this list here because we want to delay work that
    # requires API calls as much as possible. This leads to a better
    # user experience because the tool can fail fast upon a spelling
    # mistake instead of delaying the user by making API calls whose
    # purpose has already been rendered moot by the spelling mistake.
    machine_type_uris = []
    for instance_ref in instance_refs:
      machine_type_uris.append(self.CreateZonalReference(
          args.machine_type, instance_ref.zone,
          resource_type='machineTypes').SelfLink())

    create_boot_disk = not _UseExistingBootDisk(args)
    add_windows_credentials_to_metadata = False
    if create_boot_disk:
      image_uri, image_resource = self.ExpandImageFlag(
          args, return_image_resource=check_for_windows_image)
      if (check_for_windows_image and
          image_utils.HasWindowsLicense(image_resource, self.resources)):
        log.debug('[%s] is a Windows image.', image_resource.selfLink)
        add_windows_credentials_to_metadata = True

      # TODO(user): Rip this section out along with the other windows
      # passwod stuff on ~20150506 (also remove 'import re' at the top)
      # We should only match on images that are named exactly the way the
      # images team names the images.
      p = re.compile(r'windows-server-20\d\d(-r2)*-(dc|ent-internal)'
                     r'-v(\d\d\d\d\d\d\d\d)')
      if image_resource and p.match(image_resource.name):
        datestamp = int(p.match(image_resource.name).group(3))
        # Don't set Windows credentials for any Windows image built after 4/20.
        if datestamp > 20150420:
          add_windows_credentials_to_metadata = 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 = (
          self.CreatePersistentAttachedDiskMessages(args, instance_ref))
      local_ssds = [
          instance_utils.CreateLocalSsdMessage(
              self, x.get('device-name'), x.get('interface'), instance_ref.zone)
          for x in args.local_ssd or []]
      if create_boot_disk:
        boot_disk = self.CreateDefaultBootAttachedDiskMessage(
            args, boot_disk_size_gb, image_uri, instance_ref)
        persistent_disks = [boot_disk] + persistent_disks
      else:
        existing_boot_disks[boot_disk_ref.zone] = boot_disk_ref
      disks_messages.append(persistent_disks + local_ssds)

    # Now for every existing boot disk being attached, we have to
    # figure out whether it has a Windows license.
    if check_for_windows_image and existing_boot_disks:
      # Sorts the disk references by zone, so the code behaves
      # deterministically.
      disk_resources = self.FetchDiskResources(
          disk_ref for _, disk_ref in sorted(existing_boot_disks.iteritems()))
      for disk_resource in disk_resources:
        if image_utils.HasWindowsLicense(disk_resource, self.resources):
          log.debug('[%s] has a Windows image.', disk_resource.selfLink)
          add_windows_credentials_to_metadata = True

    # When the user creates more than one instance, it's possible for
    # some instances to have boot disks that have been initialized
    # with Windows images while others have boot disks without Windows
    # images:
    #
    #     gcloud compute instances create
    #       https://.../zone-1/instances/i-1
    #       https://.../zone-2/instances/i-
    #       --disk name=x boot=yes
    #
    # In the above, disk "x" in zone-1 could be a Windows disk while
    # "x" in zone-2 could be a non-Windows disk. When this case is
    # encountered, we add the Windows username and password to all
    # instances because to write code to deal with such a rare case is
    # simply not worth the added complexity.
    if add_windows_credentials_to_metadata:
      if not windows_username_present:
        username = self.project.split(':')[-1][
            :constants.MAX_WINDOWS_USERNAME_LENGTH]
        metadata.items.append(self.messages.Metadata.ItemsValueListEntry(
            key=constants.INITIAL_WINDOWS_USER_METADATA_KEY_NAME,
            value=username))

      if not windows_password_present:
        metadata.items.append(self.messages.Metadata.ItemsValueListEntry(
            key=constants.INITIAL_WINDOWS_PASSWORD_METADATA_KEY_NAME,
            value=windows_password.Generate()))

    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_interface],
              serviceAccounts=service_accounts,
              scheduling=scheduling,
              tags=tags,
          ),
          project=self.project,
          zone=instance_ref.zone))

    return requests