openstack/python-barbicanclient
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python-barbicanclient/barbicanclient/orders.py
Douglas Mendizabal 3312b7258f Update Order models 
This CR updates the Order models to use the revamped Orders API.  There
are two concrete Order classes: KeyOrder and AsymmetricOrder which can
be used to create typed orders with types 'key' and 'asymmetric'
respectively.

Change-Id: I0bfb221d1ee00ae3e26be77afc32c7da9cbc59ca
2014-10-30 13:23:18 -05:00

382 lines
12 KiB
Python
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# Copyright (c) 2013 Rackspace, Inc.
#
# 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.
import abc
import functools
import logging
from oslo.utils.timeutils import parse_isotime
import six
from barbicanclient import base
from barbicanclient import formatter
LOG = logging.getLogger(__name__)
def immutable_after_save(func):
@functools.wraps(func)
def wrapper(self, *args):
if self._order_ref:
raise base.ImmutableException()
return func(self, *args)
return wrapper
class KeyOrderFormatter(formatter.EntityFormatter):
columns = ("Order href",
"Secret href",
"Created",
"Status",
"Error code",
"Error message"
)
def _get_formatted_data(self):
data = (self.order_ref,
self.secret_ref,
self.created,
self.status,
self.error_status_code,
self.error_reason
)
return data
class AsymmetricOrderFormatter(formatter.EntityFormatter):
columns = ("Order href",
"Container href",
"Created",
"Status",
"Error code",
"Error message"
)
def _get_formatted_data(self):
data = (self.order_ref,
self.container_ref,
self.created,
self.status,
self.error_status_code,
self.error_reason
)
return data
@six.add_metaclass(abc.ABCMeta)
class Order(object):
"""
Base order object to hold common functionality
This should be considered an abstract class that should not be
instantiated directly.
"""
_entity = 'orders'
def __init__(self, api, type, status=None, created=None, updated=None,
meta=None, order_ref=None, error_status_code=None,
error_reason=None):
super(Order, self).__init__()
self._api = api
self._type = type
self._status = status
if created:
self._created = parse_isotime(created)
else:
self._created = None
if updated:
self._updated = parse_isotime(updated)
else:
self._updated = None
self._order_ref = order_ref
self._meta = base.filter_empty_keys(meta)
self._error_status_code = error_status_code
self._error_reason = error_reason
if 'expiration' in self._meta.keys():
self._meta['expiration'] = parse_isotime(self._meta['expiration'])
@property
def name(self):
return self._meta.get('name')
@name.setter
@immutable_after_save
def name(self, value):
self._meta['name'] = value
@property
def algorithm(self):
return self._meta.get('algorithm')
@algorithm.setter
@immutable_after_save
def algorithm(self, value):
self._meta['algorithm'] = value
@property
def bit_length(self):
return self._meta.get('bit_length')
@bit_length.setter
@immutable_after_save
def bit_length(self, value):
self._meta['bit_length'] = value
@property
def expiration(self):
return self._meta.get('expiration')
@expiration.setter
@immutable_after_save
def expiration(self, value):
self._meta['expiration'] = value
@property
def payload_content_type(self):
return self._meta.get('payload_content_type')
@payload_content_type.setter
@immutable_after_save
def payload_content_type(self, value):
self._meta['payload_content_type'] = value
@property
def order_ref(self):
return self._order_ref
@property
def created(self):
return self._created
@property
def updated(self):
return self._updated
@property
def status(self):
return self._status
@property
def error_status_code(self):
return self._error_status_code
@property
def error_reason(self):
return self._error_reason
@immutable_after_save
def submit(self):
order_dict = {'type': self._type, 'meta': self._meta}
LOG.debug("Request body: {0}".format(order_dict))
response = self._api._post(self._entity, order_dict)
if response:
self._order_ref = response.get('order_ref')
return self._order_ref
def delete(self):
if self._order_ref:
self._api._delete(self._order_ref)
self._order_ref = None
else:
raise LookupError("Order is not yet stored.")
class KeyOrder(Order, KeyOrderFormatter):
_type = 'key'
def __init__(self, api, name=None, algorithm=None, bit_length=None,
mode=None, expiration=None, payload_content_type=None,
status=None, created=None, updated=None, order_ref=None,
secret_ref=None, error_status_code=None, error_reason=None):
super(KeyOrder, self).__init__(
api, self._type, status=status, created=created, updated=updated,
meta={
'name': name, 'algorithm': algorithm, 'bit_length': bit_length,
'expiration': expiration,
'payload_content_type': payload_content_type
}, order_ref=order_ref, error_status_code=error_status_code,
error_reason=error_reason)
self._secret_ref = secret_ref
if mode:
self._meta['mode'] = mode
@property
def mode(self):
return self._meta.get('mode')
@property
def secret_ref(self):
return self._secret_ref
@mode.setter
@immutable_after_save
def mode(self, value):
self._meta['mode'] = value
def __repr__(self):
return 'KeyOrder(order_ref={0})'.format(self.order_ref)
class AsymmetricOrder(Order, AsymmetricOrderFormatter):
_type = 'asymmetric'
def __init__(self, api, name=None, algorithm=None, bit_length=None,
pass_phrase=None, expiration=None, payload_content_type=None,
status=None, created=None, updated=None, order_ref=None,
container_ref=None, error_status_code=None,
error_reason=None):
super(AsymmetricOrder, self).__init__(
api, self._type, status=status, created=created, updated=updated,
meta={
'name': name, 'algorithm': algorithm, 'bit_length': bit_length,
'expiration': expiration,
'payload_content_type': payload_content_type
}, order_ref=order_ref, error_status_code=error_status_code,
error_reason=error_reason)
self._container_ref = container_ref
if pass_phrase:
self._meta['pass_phrase'] = pass_phrase
@property
def container_ref(self):
return self._container_ref
@property
def pass_phrase(self):
return self._meta.get('pass_phrase')
@pass_phrase.setter
@immutable_after_save
def pass_phrase(self, value):
self._meta['pass_phrase'] = value
def __repr__(self):
return 'AsymmetricOrder(order_ref={0})'.format(self.order_ref)
class OrderManager(base.BaseEntityManager):
_order_type_to_class_map = {
'key': KeyOrder,
'asymmetric': AsymmetricOrder
}
def __init__(self, api):
super(OrderManager, self).__init__(api, 'orders')
def get(self, order_ref):
"""
Get an Order
:param order_ref: Full HATEOAS reference to an Order
:returns: An instance of the appropriate subtype of Order
"""
LOG.debug("Getting order - Order href: {0}".format(order_ref))
base.validate_ref(order_ref, 'Order')
try:
response = self._api._get(order_ref)
except AttributeError:
raise LookupError(
'Order {0} could not be found.'.format(order_ref)
)
return self._create_typed_order(response)
def _create_typed_order(self, response):
resp_type = response.pop('type').lower()
order_type = self._order_type_to_class_map.get(resp_type)
response.update(response.pop('meta'))
if order_type is KeyOrder:
return KeyOrder(self._api, **response)
elif order_type is AsymmetricOrder:
return AsymmetricOrder(self._api, **response)
else:
raise TypeError('Unknown Order type "{0}"'.format(order_type))
def create_key(self, name=None, algorithm=None, bit_length=None, mode=None,
payload_content_type=None, expiration=None):
"""
Create an Order for a Symmetric Key
:param name: A friendly name for the secret to be created
:param algorithm: The algorithm associated with this secret key
:param bit_length: The bit length of this secret key
:param mode: The algorithm mode used with this secret key
:param payload_content_type: The format/type of the secret data
:param expiration: The expiration time of the secret in ISO 8601 format
:returns: KeyOrder
"""
return KeyOrder(api=self._api, name=name,
algorithm=algorithm, bit_length=bit_length, mode=mode,
payload_content_type=payload_content_type,
expiration=expiration)
def create_asymmetric(self, name=None, algorithm=None, bit_length=None,
pass_phrase=None, payload_content_type=None,
expiration=None):
"""
Create an Order for an Asymmetric Key
:param name: A friendly name for the container to be created
:param algorithm: The algorithm associated with this secret key
:param bit_length: The bit length of this secret key
:param pass_phrase: Optional passphrase
:param payload_content_type: The format/type of the secret data
:param expiration: The expiration time of the secret in ISO 8601 format
:returns AsymmetricOrder
"""
return AsymmetricOrder(api=self._api, name=name, algorithm=algorithm,
bit_length=bit_length, pass_phrase=pass_phrase,
payload_content_type=payload_content_type,
expiration=expiration)
def delete(self, order_ref):
"""
Delete an Order
:param order_ref: The href for the order
"""
if not order_ref:
raise ValueError('order_ref is required.')
self._api._delete(order_ref)
def list(self, limit=10, offset=0):
"""
List all Orders for the tenant
:param limit: Max number of orders returned
:param offset: Offset orders to begin list
:returns: list of Order objects
"""
LOG.debug('Listing orders - offset {0} limit {1}'.format(offset,
limit))
href = '{0}/{1}'.format(self._api._base_url, self._entity)
params = {'limit': limit, 'offset': offset}
response = self._api._get(href, params)
return [
self._create_typed_order(o) for o in response.get('orders', [])
]
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