File: //proc/thread-self/root/snap/google-cloud-cli/396/lib/surface/kms/keys/update.py
# -*- coding: utf-8 -*- #
# Copyright 2017 Google LLC. All Rights Reserved.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
"""Update a key."""
from __future__ import absolute_import
from __future__ import division
from __future__ import unicode_literals
from apitools.base.py import exceptions as apitools_exceptions
from googlecloudsdk.api_lib.cloudkms import base as cloudkms_base
from googlecloudsdk.calliope import base
from googlecloudsdk.command_lib.kms import exceptions as kms_exceptions
from googlecloudsdk.command_lib.kms import flags
from googlecloudsdk.command_lib.kms import maps
from googlecloudsdk.command_lib.kms import resource_args
from googlecloudsdk.command_lib.util.args import labels_util
@base.UniverseCompatible
@base.ReleaseTracks(
base.ReleaseTrack.ALPHA, base.ReleaseTrack.BETA, base.ReleaseTrack.GA
)
class Update(base.UpdateCommand):
r"""Update a key.
1. Update the rotation schedule for the given key.
Updates the rotation schedule for the given key. The schedule
automatically creates a new primary version for the key
according to `next-rotation-time` and `rotation-period` flags.
Flag `next-rotation-time` must be in ISO 8601 or RFC3339 format,
and `rotation-period` must be in the form INTEGER[UNIT], where units
can be one of seconds (s), minutes (m), hours (h) or days (d).
Key rotations performed manually via `update-primary-version` and the
version `create` do not affect the stored `next-rotation-time`.
2. Remove the rotation schedule for the given key with
`remove-rotation-schedule` flag.
3. Update/Remove the labels for the given key with `update-labels` and/or
`remove-labels` flags.
4. Update the primary version for the given key with `primary-version` flag.
5. Update the Key Access Justifications policy for the given key with
`allowed-access-reasons` flag to allow specified reasons. The key must be
enrolled in Key Access Justifications to use this flag.
6. Remove the Key Access Justifications policy for the given key with
`remove-key-access-justifications-policy` flag. The key must be enrolled in
Key Access Justifications to use this flag.
7. Update the Key Access Justifications policy for the given key with
`allowed_access_reasons` flag to allow zero access reasons. This effectively
disables the key, because a policy is configured to reject all access reasons.
The key must be enrolled in Key Access Justifications to use this flag.
## EXAMPLES
The following command sets a 30 day rotation period for the key
named `frodo` within the keyring `fellowship` and location `global`
starting at the specified time:
$ {command} frodo \
--location=global \
--keyring=fellowship \
--rotation-period=30d \
--next-rotation-time=2017-10-12T12:34:56.1234Z
The following command removes the rotation schedule for the key
named `frodo` within the keyring `fellowship` and location `global`:
$ {command} frodo \
--location=global \
--keyring=fellowship \
--remove-rotation-schedule
The following command updates the labels value for the key
named `frodo` within the keyring `fellowship` and location `global`. If the
label key does not exist at the time, it will be added:
$ {command} frodo \
--location=global \
--keyring=fellowship \
--update-labels=k1=v1
The following command removes labels k1 and k2 from the key
named `frodo` within the keyring `fellowship` and location `global`:
$ {command} frodo \
--location=global \
--keyring=fellowship \
--remove-labels=k1,k2
The following command updates the primary version for the key
named `frodo` within the keyring `fellowship` and location `global`:
$ {command} frodo \
--location=global \
--keyring=fellowship \
--primary-version=1
The following command updates the default algorithm for the key named `frodo`
within the keyring `fellowship` and location `global`, assuming the key
originally has purpose 'asymmetric-encryption' and algorithm
'rsa-decrypt-oaep-2048-sha256':
$ {command} frodo \
--location=global \
--keyring=fellowship \
--default-algorithm=rsa-decrypt-oaep-4096-sha256
The following command updates the Key Access Justifications policy for the key
named `frodo` within the keyring ``fellowship'' and location ``global'' to
allow only ``customer-initiated-access'' and
``google-initiated-system-operation'':
$ {command} frodo \
--location=global \
--keyring=fellowship \
--allowed-access-reasons=customer-initiated-access,google-initiated-system-operation
The following command removes the Key Access Justifications policy for the key
named `frodo` within the keyring ``fellowship'' and location ``global'', which
results in all access reasons being allowed:
$ {command} frodo \
--location=global \
--keyring=fellowship \
--remove-key-access-justifications-policy
The following command updates the Key Access Justifications policy for the key
named `frodo` within the keyring ``fellowship'' and location ``global'' to
allow only zero access reasons, effectively disabling the key:
$ {command} frodo \
--location=global \
--keyring=fellowship \
--allowed-access-reasons=
"""
@staticmethod
def Args(parser):
resource_args.AddKmsKeyResourceArgForKMS(parser, True, 'key')
flags.AddRotationPeriodFlag(parser)
flags.AddNextRotationTimeFlag(parser)
flags.AddRemoveRotationScheduleFlag(parser)
flags.AddCryptoKeyPrimaryVersionFlag(parser, 'to make primary')
labels_util.AddUpdateLabelsFlags(parser)
flags.AddDefaultAlgorithmFlag(parser)
flags.AddAllowedAccessReasonsFlag(parser)
flags.AddRemoveKeyAccessJustificationsPolicyFlag(parser)
def ProcessFlags(self, args):
fields_to_update = []
labels_diff = labels_util.Diff.FromUpdateArgs(args)
if labels_diff.MayHaveUpdates():
fields_to_update.append('labels')
if args.remove_rotation_schedule:
if args.rotation_period or args.next_rotation_time:
raise kms_exceptions.ArgumentError(
'You cannot set and remove rotation schedule at the same time.')
fields_to_update.append('rotationPeriod')
fields_to_update.append('nextRotationTime')
if args.rotation_period:
fields_to_update.append('rotationPeriod')
if args.next_rotation_time:
fields_to_update.append('nextRotationTime')
if args.default_algorithm:
fields_to_update.append('versionTemplate.algorithm')
if (
args.allowed_access_reasons is not None
and args.remove_key_access_justifications_policy
):
raise kms_exceptions.ArgumentError(
'You cannot set and remove a Key Access Justifications policy at the '
'same time.'
)
if (
args.allowed_access_reasons is not None
or args.remove_key_access_justifications_policy
):
fields_to_update.append('keyAccessJustificationsPolicy')
# Raise an exception when no update field is specified.
if not args.primary_version and not fields_to_update:
raise kms_exceptions.UpdateError(
'At least one of --primary-version or --update-labels or '
'--remove-labels or --clear-labels or --rotation-period or '
'--next-rotation-time or --remove-rotation-schedule or '
'--default-algorithm or --allowed-access-reasons or '
'--remove-key-access-justifications-policy must be specified.'
)
return fields_to_update
def UpdatePrimaryVersion(self, args):
client = cloudkms_base.GetClientInstance()
messages = cloudkms_base.GetMessagesModule()
crypto_key_ref = args.CONCEPTS.key.Parse()
req = messages.CloudkmsProjectsLocationsKeyRingsCryptoKeysUpdatePrimaryVersionRequest( # pylint: disable=line-too-long
name=crypto_key_ref.RelativeName(),
updateCryptoKeyPrimaryVersionRequest=(
messages.UpdateCryptoKeyPrimaryVersionRequest(
cryptoKeyVersionId=args.primary_version)))
try:
response = client.projects_locations_keyRings_cryptoKeys.UpdatePrimaryVersion( # pylint: disable=line-too-long
req)
except apitools_exceptions.HttpError:
return None
return response
def UpdateOthers(self, args, crypto_key, fields_to_update):
client = cloudkms_base.GetClientInstance()
messages = cloudkms_base.GetMessagesModule()
crypto_key_ref = args.CONCEPTS.key.Parse()
labels_update = labels_util.Diff.FromUpdateArgs(args).Apply(
messages.CryptoKey.LabelsValue, crypto_key.labels)
if labels_update.needs_update:
new_labels = labels_update.labels
else:
new_labels = crypto_key.labels
req = messages.CloudkmsProjectsLocationsKeyRingsCryptoKeysPatchRequest(
name=crypto_key_ref.RelativeName(),
cryptoKey=messages.CryptoKey(
labels=new_labels))
req.updateMask = ','.join(fields_to_update)
flags.SetNextRotationTime(args, req.cryptoKey)
flags.SetRotationPeriod(args, req.cryptoKey)
if args.default_algorithm:
valid_algorithms = maps.VALID_ALGORITHMS_MAP[crypto_key.purpose]
if args.default_algorithm not in valid_algorithms:
raise kms_exceptions.UpdateError(
'Update failed: Algorithm {algorithm} is not valid. Here are the '
'valid algorithm(s) for purpose {purpose}: {all_algorithms}'.format(
algorithm=args.default_algorithm,
purpose=crypto_key.purpose,
all_algorithms=', '.join(valid_algorithms)))
req.cryptoKey.versionTemplate = messages.CryptoKeyVersionTemplate(
algorithm=maps.ALGORITHM_MAPPER.GetEnumForChoice(
args.default_algorithm))
if not args.remove_key_access_justifications_policy:
flags.SetKeyAccessJustificationsPolicy(args, req.cryptoKey)
try:
response = client.projects_locations_keyRings_cryptoKeys.Patch(req)
except apitools_exceptions.HttpError:
return None
return response
def HandleErrors(self, args, set_primary_version_succeeds,
other_updates_succeed, fields_to_update):
"""Handles various errors that may occur during any update stage.
Never returns without an exception.
Args:
args: Input arguments.
set_primary_version_succeeds: True if the primary verion is updated
successfully.
other_updates_succeed: True if all other updates (besides primary verions)
is updated successfully.
fields_to_update: A list of fields to be updated.
Raises:
ToolException: An exception raised when there is error during any update
stage.
"""
err = 'An Error occurred:'
if not set_primary_version_succeeds:
err += " Failed to update field 'primaryVersion'."
elif args.primary_version:
err += " Field 'primaryVersion' was updated."
if not other_updates_succeed:
err += " Failed to update field(s) '{}'.".format(
"', '".join(fields_to_update))
elif fields_to_update:
err += " Field(s) '{}' were updated.".format(
"', '".join(fields_to_update))
raise kms_exceptions.UpdateError(err)
def Run(self, args):
"""Updates the relevant fields (of a CryptoKey) from the flags."""
# Check the flags and raise an exception if any check fails.
fields_to_update = self.ProcessFlags(args)
# Try to get the cryptoKey and raise an exception if the key doesn't exist.
client = cloudkms_base.GetClientInstance()
messages = cloudkms_base.GetMessagesModule()
crypto_key_ref = args.CONCEPTS.key.Parse()
crypto_key = client.projects_locations_keyRings_cryptoKeys.Get(
messages.CloudkmsProjectsLocationsKeyRingsCryptoKeysGetRequest(
name=crypto_key_ref.RelativeName()))
# Try to update the key's primary version.
set_primary_version_succeeds = True
if args.primary_version:
response = self.UpdatePrimaryVersion(args)
if response:
crypto_key = response # If call succeeds, update the crypto_key.
else:
set_primary_version_succeeds = False
# Try other updates.
other_updates_succeed = True
if fields_to_update:
response = self.UpdateOthers(args, crypto_key, fields_to_update)
if response:
crypto_key = response # If call succeeds, update the crypto_key.
else:
other_updates_succeed = False
if not set_primary_version_succeeds or not other_updates_succeed:
self.HandleErrors(args, set_primary_version_succeeds,
other_updates_succeed, fields_to_update)
else:
return crypto_key