openstack
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keystone
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keystone/keystone/token/provider.py

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Python
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# Copyright 2012 OpenStack Foundation
#
# 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.
"""Token provider interface."""
import datetime
from oslo_log import log
from oslo_utils import timeutils
from keystone.common import cache
from keystone.common import manager
from keystone.common import provider_api
import keystone.conf
from keystone import exception
from keystone.i18n import _
from keystone.models import token_model
from keystone import notifications
CONF = keystone.conf.CONF
LOG = log.getLogger(__name__)
PROVIDERS = provider_api.ProviderAPIs
TOKENS_REGION = cache.create_region(name='tokens')
MEMOIZE_TOKENS = cache.get_memoization_decorator(
group='token',
region=TOKENS_REGION)
# NOTE(morganfainberg): This is for compatibility in case someone was relying
# on the old location of the UnsupportedTokenVersionException for their code.
UnsupportedTokenVersionException = exception.UnsupportedTokenVersionException
# supported token versions
V3 = token_model.V3
VERSIONS = token_model.VERSIONS
class Manager(manager.Manager):
"""Default pivot point for the token provider backend.
See :mod:`keystone.common.manager.Manager` for more details on how this
dynamically calls the backend.
"""
driver_namespace = 'keystone.token.provider'
_provides_api = 'token_provider_api'
V3 = V3
VERSIONS = VERSIONS
def __init__(self):
super(Manager, self).__init__(CONF.token.provider)
self._register_callback_listeners()
def _register_callback_listeners(self):
# This is used by the @dependency.provider decorator to register the
# provider (token_provider_api) manager to listen for trust deletions.
callbacks = {
notifications.ACTIONS.deleted: [
['OS-TRUST:trust', self._drop_token_cache],
['user', self._drop_token_cache],
['domain', self._drop_token_cache],
],
notifications.ACTIONS.disabled: [
['user', self._drop_token_cache],
['domain', self._drop_token_cache],
['project', self._drop_token_cache],
],
notifications.ACTIONS.internal: [
[notifications.INVALIDATE_TOKEN_CACHE,
self._drop_token_cache],
]
}
for event, cb_info in callbacks.items():
for resource_type, callback_fns in cb_info:
notifications.register_event_callback(event, resource_type,
callback_fns)
def _drop_token_cache(self, service, resource_type, operation, payload):
"""Invalidate the entire token cache.
This is a handy private utility method that should be used when
consuming notifications that signal invalidating the token cache.
"""
if CONF.token.cache_on_issue:
TOKENS_REGION.invalidate()
def check_revocation_v3(self, token):
try:
token_data = token['token']
except KeyError:
raise exception.TokenNotFound(_('Failed to validate token'))
token_values = self.revoke_api.model.build_token_values(token_data)
PROVIDERS.revoke_api.check_token(token_values)
def check_revocation(self, token):
return self.check_revocation_v3(token)
def validate_token(self, token_id, window_seconds=0):
if not token_id:
raise exception.TokenNotFound(_('No token in the request'))
try:
token_ref = self._validate_token(token_id)
self._is_valid_token(token_ref, window_seconds=window_seconds)
return token_ref
except exception.Unauthorized as e:
LOG.debug('Unable to validate token: %s', e)
raise exception.TokenNotFound(token_id=token_id)
@MEMOIZE_TOKENS
def _validate_token(self, token_id):
return self.driver.validate_token(token_id)
def _is_valid_token(self, token, window_seconds=0):
"""Verify the token is valid format and has not expired."""
current_time = timeutils.normalize_time(timeutils.utcnow())
try:
# Get the data we need from the correct location (V2 and V3 tokens
# differ in structure, Try V3 first, fall back to V2 second)
token_data = token.get('token', token.get('access'))
expires_at = token_data.get('expires_at',
token_data.get('expires'))
if not expires_at:
expires_at = token_data['token']['expires']
expiry = timeutils.parse_isotime(expires_at)
expiry = timeutils.normalize_time(expiry)
# add a window in which you can fetch a token beyond expiry
expiry += datetime.timedelta(seconds=window_seconds)
except Exception:
LOG.exception('Unexpected error or malformed token '
'determining token expiry: %s', token)
raise exception.TokenNotFound(_('Failed to validate token'))
if current_time < expiry:
self.check_revocation(token)
# Token has not expired and has not been revoked.
return None
else:
raise exception.TokenNotFound(_('Failed to validate token'))
def issue_token(self, user_id, method_names, expires_at=None,
system=None, project_id=None, is_domain=False,
domain_id=None, auth_context=None, trust=None,
app_cred_id=None, include_catalog=True,
parent_audit_id=None):
token_id, token_data = self.driver.issue_token(
user_id, method_names, expires_at=expires_at,
system=system, project_id=project_id,
domain_id=domain_id, auth_context=auth_context, trust=trust,
app_cred_id=app_cred_id, include_catalog=include_catalog,
parent_audit_id=parent_audit_id)
if CONF.token.cache_on_issue:
# NOTE(amakarov): here and above TOKENS_REGION is to be passed
# to serve as required positional "self" argument. It's ignored,
# so I've put it here for convenience - any placeholder is fine.
self._validate_token.set(token_data, TOKENS_REGION, token_id)
return token_id, token_data
def invalidate_individual_token_cache(self, token_id):
# NOTE(morganfainberg): invalidate takes the exact same arguments as
# the normal method, this means we need to pass "self" in (which gets
# stripped off).
# FIXME(morganfainberg): Does this cache actually need to be
# invalidated? We maintain a cached revocation list, which should be
# consulted before accepting a token as valid. For now we will
# do the explicit individual token invalidation.
self._validate_token.invalidate(self, token_id)
def revoke_token(self, token_id, revoke_chain=False):
token_ref = token_model.KeystoneToken(
token_id=token_id,
token_data=self.validate_token(token_id))
project_id = token_ref.project_id if token_ref.project_scoped else None
domain_id = token_ref.domain_id if token_ref.domain_scoped else None
if revoke_chain:
PROVIDERS.revoke_api.revoke_by_audit_chain_id(
token_ref.audit_chain_id, project_id=project_id,
domain_id=domain_id
)
else:
PROVIDERS.revoke_api.revoke_by_audit_id(token_ref.audit_id)
# FIXME(morganfainberg): Does this cache actually need to be
# invalidated? We maintain a cached revocation list, which should be
# consulted before accepting a token as valid. For now we will
# do the explicit individual token invalidation.
self.invalidate_individual_token_cache(token_id)
def list_revoked_tokens(self):
# FIXME(lbragstad): In the future, the token providers are going to be
# responsible for handling persistence if they require it (e.g. token
# providers not doing some sort of authenticated encryption strategy).
# When that happens, we could still expose this API by checking an
# interface on the provider can calling it if available. For now, this
# will return a valid response, but it will just be an empty list. See
# http://paste.openstack.org/raw/670196/ for and example using
# keystoneclient.common.cms to verify the response.
return []
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