# Copyright (c) 2014 The Johns Hopkins University/Applied Physics Laboratory # 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. """ Key manager implementation for Barbican """ import array import base64 import binascii import re from barbicanclient import client as barbican_client from keystoneclient.auth import identity from keystoneclient import session from oslo_config import cfg from oslo_log import log as logging from oslo_utils import excutils from cinder import exception from cinder.i18n import _, _LE from cinder.keymgr import key as keymgr_key from cinder.keymgr import key_mgr CONF = cfg.CONF CONF.import_opt('encryption_auth_url', 'cinder.keymgr.key_mgr', group='keymgr') CONF.import_opt('encryption_api_url', 'cinder.keymgr.key_mgr', group='keymgr') LOG = logging.getLogger(__name__) URL_PATTERN = re.compile( "(?Phttp[s]?://[^/]*)[/]?(?P(v[0-9.]+)?).*") class BarbicanKeyManager(key_mgr.KeyManager): """Key Manager Interface that wraps the Barbican client API.""" def __init__(self): self._base_url = CONF.keymgr.encryption_api_url self._parse_barbican_api_url() self._barbican_client = None def _parse_barbican_api_url(self): """Setup member variables to reference the Barbican URL. The key manipulation functions in this module need to use the barbican URL with the version appended. But the barbicanclient Client() class needs the URL without the version appended. So set up a member variables here for each case. """ m = URL_PATTERN.search(self._base_url) if m is None: raise exception.KeyManagerError(_( "Invalid url: must be in the form " "'http[s]://|[:port]/', " "url specified is: %s"), self._base_url) url_info = dict(m.groupdict()) if 'url_version' not in url_info or url_info['url_version'] == "": raise exception.KeyManagerError(_( "Invalid barbican api url: version is required, " "e.g. 'http[s]://|[:port]/' " "url specified is: %s") % self._base_url) # We will also need the barbican API URL without the '/v1'. # So save that now. self._barbican_endpoint = url_info['url_base'] def _get_barbican_client(self, ctxt): """Creates a client to connect to the Barbican service. :param ctxt: the user context for authentication :return: a Barbican Client object :throws NotAuthorized: if the ctxt is None :throws KeyManagerError: if ctxt is missing project_id or project_id is None """ if not self._barbican_client: # Confirm context is provided, if not raise not authorized if not ctxt: msg = _("User is not authorized to use key manager.") LOG.error(msg) raise exception.NotAuthorized(msg) if not hasattr(ctxt, 'project_id') or ctxt.project_id is None: msg = _("Unable to create Barbican Client without project_id.") LOG.error(msg) raise exception.KeyManagerError(msg) try: auth = identity.v3.Token( auth_url=CONF.keymgr.encryption_auth_url, token=ctxt.auth_token, project_id=ctxt.project_id) sess = session.Session(auth=auth) self._barbican_client = barbican_client.Client( session=sess, endpoint=self._barbican_endpoint) except Exception: with excutils.save_and_reraise_exception(): LOG.exception(_LE("Error creating Barbican client.")) return self._barbican_client def create_key(self, ctxt, expiration=None, name='Cinder Volume Key', payload_content_type='application/octet-stream', mode='CBC', algorithm='AES', length=256): """Creates a key. :param ctxt: contains information of the user and the environment for the request (cinder/context.py) :param expiration: the date the key will expire :param name: a friendly name for the secret :param payload_content_type: the format/type of the secret data :param mode: the algorithm mode (e.g. CBC or CTR mode) :param algorithm: the algorithm associated with the secret :param length: the bit length of the secret :return: the UUID of the new key :throws Exception: if key creation fails """ barbican_client = self._get_barbican_client(ctxt) try: key_order = barbican_client.orders.create_key( name, algorithm, length, mode, payload_content_type, expiration) order_ref = key_order.submit() order = barbican_client.orders.get(order_ref) secret_uuid = order.secret_ref.rpartition('/')[2] return secret_uuid except Exception: with excutils.save_and_reraise_exception(): LOG.exception(_LE("Error creating key.")) def store_key(self, ctxt, key, expiration=None, name='Cinder Volume Key', payload_content_type='application/octet-stream', payload_content_encoding='base64', algorithm='AES', bit_length=256, mode='CBC', from_copy=False): """Stores (i.e., registers) a key with the key manager. :param ctxt: contains information of the user and the environment for the request (cinder/context.py) :param key: the unencrypted secret data. Known as "payload" to the barbicanclient api :param expiration: the expiration time of the secret in ISO 8601 format :param name: a friendly name for the key :param payload_content_type: the format/type of the secret data :param payload_content_encoding: the encoding of the secret data :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 from_copy: establishes whether the function is being used to copy a key. In case of the latter, it does not try to decode the key :returns: the UUID of the stored key :throws Exception: if key storage fails """ barbican_client = self._get_barbican_client(ctxt) try: if key.get_algorithm(): algorithm = key.get_algorithm() if payload_content_type == 'text/plain': payload_content_encoding = None encoded_key = key.get_encoded() elif (payload_content_type == 'application/octet-stream' and not from_copy): key_list = key.get_encoded() string_key = ''.join(map(lambda byte: "%02x" % byte, key_list)) encoded_key = base64.b64encode(binascii.unhexlify(string_key)) else: encoded_key = key.get_encoded() secret = barbican_client.secrets.create(name, encoded_key, payload_content_type, payload_content_encoding, algorithm, bit_length, mode, expiration) secret_ref = secret.store() secret_uuid = secret_ref.rpartition('/')[2] return secret_uuid except Exception: with excutils.save_and_reraise_exception(): LOG.exception(_LE("Error storing key.")) def copy_key(self, ctxt, key_id): """Copies (i.e., clones) a key stored by barbican. :param ctxt: contains information of the user and the environment for the request (cinder/context.py) :param key_id: the UUID of the key to copy :return: the UUID of the key copy :throws Exception: if key copying fails """ barbican_client = self._get_barbican_client(ctxt) try: secret_ref = self._create_secret_ref(key_id, barbican_client) secret = self._get_secret(ctxt, secret_ref) con_type = secret.content_types['default'] secret_data = self._get_secret_data(secret, payload_content_type=con_type) key = keymgr_key.SymmetricKey(secret.algorithm, secret_data) copy_uuid = self.store_key(ctxt, key, secret.expiration, secret.name, con_type, 'base64', secret.algorithm, secret.bit_length, secret.mode, True) return copy_uuid except Exception: with excutils.save_and_reraise_exception(): LOG.exception(_LE("Error copying key.")) def _create_secret_ref(self, key_id, barbican_client): """Creates the URL required for accessing a secret. :param key_id: the UUID of the key to copy :param barbican_client: barbican key manager object :return: the URL of the requested secret """ if not key_id: msg = "Key ID is None" raise exception.KeyManagerError(msg) return self._base_url + "/secrets/" + key_id def _get_secret_data(self, secret, payload_content_type='application/octet-stream'): """Retrieves the secret data given a secret_ref and content_type. :param ctxt: contains information of the user and the environment for the request (cinder/context.py) :param secret_ref: URL to access the secret :param payload_content_type: the format/type of the secret data :returns: the secret data :throws Exception: if data cannot be retrieved """ try: generated_data = secret.payload if payload_content_type == 'application/octet-stream': secret_data = base64.b64encode(generated_data) else: secret_data = generated_data return secret_data except Exception: with excutils.save_and_reraise_exception(): LOG.exception(_LE("Error getting secret data.")) def _get_secret(self, ctxt, secret_ref): """Creates the URL required for accessing a secret's metadata. :param ctxt: contains information of the user and the environment for the request (cinder/context.py) :param secret_ref: URL to access the secret :return: the secret's metadata :throws Exception: if there is an error retrieving the data """ barbican_client = self._get_barbican_client(ctxt) try: return barbican_client.secrets.get(secret_ref) except Exception: with excutils.save_and_reraise_exception(): LOG.exception(_LE("Error getting secret metadata.")) def get_key(self, ctxt, key_id, payload_content_type='application/octet-stream'): """Retrieves the specified key. :param ctxt: contains information of the user and the environment for the request (cinder/context.py) :param key_id: the UUID of the key to retrieve :param payload_content_type: The format/type of the secret data :return: SymmetricKey representation of the key :throws Exception: if key retrieval fails """ try: secret_ref = self._create_secret_ref(key_id, barbican_client) secret = self._get_secret(ctxt, secret_ref) secret_data = self._get_secret_data(secret, payload_content_type) if payload_content_type == 'application/octet-stream': # convert decoded string to list of unsigned ints for each byte key_data = array.array('B', base64.b64decode(secret_data)).tolist() else: key_data = secret_data key = keymgr_key.SymmetricKey(secret.algorithm, key_data) return key except Exception: with excutils.save_and_reraise_exception(): LOG.exception(_LE("Error getting key.")) def delete_key(self, ctxt, key_id): """Deletes the specified key. :param ctxt: contains information of the user and the environment for the request (cinder/context.py) :param key_id: the UUID of the key to delete :throws Exception: if key deletion fails """ barbican_client = self._get_barbican_client(ctxt) try: secret_ref = self._create_secret_ref(key_id, barbican_client) barbican_client.secrets.delete(secret_ref) except Exception: with excutils.save_and_reraise_exception(): LOG.exception(_LE("Error deleting key."))