# 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 contextlib import hashlib from oslo_serialization import jsonutils from oslo_utils import timeutils import six from keystonemiddleware.auth_token import _exceptions as exc from keystonemiddleware.auth_token import _memcache_crypt as memcache_crypt from keystonemiddleware.i18n import _ def _hash_key(key): """Turn a set of arguments into a SHA256 hash. Using a known-length cache key is important to ensure that memcache maximum key length is not exceeded causing failures to validate. """ if isinstance(key, six.text_type): # NOTE(morganfainberg): Ensure we are always working with a bytes # type required for the hasher. In python 2.7 it is possible to # get a text_type (unicode). In python 3.4 all strings are # text_type and not bytes by default. This encode coerces the # text_type to the appropriate bytes values. key = key.encode('utf-8') return hashlib.sha256(key).hexdigest() class _EnvCachePool(object): """A cache pool that has been passed through ENV variables.""" def __init__(self, cache): self._environment_cache = cache @contextlib.contextmanager def reserve(self): """Context manager to manage a pooled cache reference.""" yield self._environment_cache class _CachePool(list): """A lazy pool of cache references.""" def __init__(self, memcached_servers, log): self._memcached_servers = memcached_servers if not self._memcached_servers: log.warning( "Using the in-process token cache is deprecated as of the " "4.2.0 release and may be removed in the 5.0.0 release or " "the 'O' development cycle. The in-process cache causes " "inconsistent results and high memory usage. When the feature " "is removed the auth_token middleware will not cache tokens " "by default which may result in performance issues. It is " "recommended to use memcache for the auth_token token cache " "by setting the memcached_servers option.") @contextlib.contextmanager def reserve(self): """Context manager to manage a pooled cache reference.""" try: c = self.pop() except IndexError: # the pool is empty, so we need to create a new client if self._memcached_servers: import memcache c = memcache.Client(self._memcached_servers, debug=0) else: c = _FakeClient() try: yield c finally: self.append(c) class _MemcacheClientPool(object): """An advanced memcached client pool that is eventlet safe.""" def __init__(self, memcache_servers, arguments, **kwargs): # NOTE(sileht): This will import python-memcached, we don't want # it as hard dependency, so lazy load it. from oslo_cache import _memcache_pool self._pool = _memcache_pool.MemcacheClientPool(memcache_servers, arguments, **kwargs) @contextlib.contextmanager def reserve(self): # NOTE(morgan): We must use "acquire" if we want all the added context # manager logic that places the connection back into the pool at the # end of it's use. with self._pool.acquire() as client: yield client class TokenCache(object): """Encapsulates the auth_token token cache functionality. auth_token caches tokens that it's seen so that when a token is re-used the middleware doesn't have to do a more expensive operation (like going to the identity server) to validate the token. initialize() must be called before calling the other methods. Store data in the cache store. Check if a token is in the cache and retrieve it using get(). """ _CACHE_KEY_TEMPLATE = 'tokens/%s' def __init__(self, log, cache_time=None, env_cache_name=None, memcached_servers=None, use_advanced_pool=False, dead_retry=None, socket_timeout=None, **kwargs): self._LOG = log self._cache_time = cache_time self._env_cache_name = env_cache_name self._memcached_servers = memcached_servers self._use_advanced_pool = use_advanced_pool self._arguments = { 'dead_retry': dead_retry, 'socket_timeout': socket_timeout } self._memcache_pool_options = kwargs self._cache_pool = None self._initialized = False def _get_cache_pool(self, cache): if cache: return _EnvCachePool(cache) elif self._use_advanced_pool and self._memcached_servers: return _MemcacheClientPool(self._memcached_servers, self._arguments, **self._memcache_pool_options) else: return _CachePool(self._memcached_servers, self._LOG) def initialize(self, env): if self._initialized: return self._cache_pool = self._get_cache_pool(env.get(self._env_cache_name)) self._initialized = True def _get_cache_key(self, token_id): """Get a unique key for this token id. Turn the token_id into something that can uniquely identify that token in a key value store. As this is generally the first function called in a key lookup this function also returns a context object. This context object is not modified or used by the Cache object but is passed back on subsequent functions so that decryption or other data can be shared throughout a cache lookup. :param str token_id: The unique token id. :returns: A tuple of a string key and an implementation specific context object """ # NOTE(jamielennox): in the basic implementation there is no need for # a context so just pass None as it will only get passed back later. unused_context = None return self._CACHE_KEY_TEMPLATE % _hash_key(token_id), unused_context def _deserialize(self, data, context): """Deserialize data from the cache back into python objects. Take data retrieved from the cache and return an appropriate python dictionary. :param str data: The data retrieved from the cache. :param object context: The context that was returned from _get_cache_key. :returns: The python object that was saved. """ # memory cache will handle deserialization for us return data def _serialize(self, data, context): """Serialize data so that it can be saved to the cache. Take python objects and serialize them so that they can be saved into the cache. :param object data: The data to be cached. :param object context: The context that was returned from _get_cache_key. :returns: The python object that was saved. """ # memory cache will handle serialization for us return data def get(self, token_id): """Return token information from cache. If token is invalid raise exc.InvalidToken return token only if fresh (not expired). """ if not token_id: # Nothing to do return key, context = self._get_cache_key(token_id) with self._cache_pool.reserve() as cache: serialized = cache.get(key) if serialized is None: return None if isinstance(serialized, six.text_type): serialized = serialized.encode('utf8') data = self._deserialize(serialized, context) if not isinstance(data, six.string_types): data = data.decode('utf-8') return jsonutils.loads(data) def set(self, token_id, data): """Store value into memcache.""" data = jsonutils.dumps(data) if isinstance(data, six.text_type): data = data.encode('utf-8') cache_key, context = self._get_cache_key(token_id) data_to_store = self._serialize(data, context) with self._cache_pool.reserve() as cache: cache.set(cache_key, data_to_store, time=self._cache_time) class SecureTokenCache(TokenCache): """A token cache that stores tokens encrypted. A more secure version of TokenCache that will encrypt tokens before caching them. """ def __init__(self, log, security_strategy, secret_key, **kwargs): super(SecureTokenCache, self).__init__(log, **kwargs) if not secret_key: msg = _('memcache_secret_key must be defined when a ' 'memcache_security_strategy is defined') raise exc.ConfigurationError(msg) if isinstance(security_strategy, six.string_types): security_strategy = security_strategy.encode('utf-8') if isinstance(secret_key, six.string_types): secret_key = secret_key.encode('utf-8') self._security_strategy = security_strategy self._secret_key = secret_key def _get_cache_key(self, token_id): context = memcache_crypt.derive_keys(token_id, self._secret_key, self._security_strategy) key = self._CACHE_KEY_TEMPLATE % memcache_crypt.get_cache_key(context) return key, context def _deserialize(self, data, context): try: # unprotect_data will return None if raw_cached is None return memcache_crypt.unprotect_data(context, data) except Exception: msg = 'Failed to decrypt/verify cache data' self._LOG.exception(msg) # this should have the same effect as data not # found in cache return None def _serialize(self, data, context): return memcache_crypt.protect_data(context, data) class _FakeClient(object): """Replicates a tiny subset of memcached client interface.""" def __init__(self, *args, **kwargs): # Ignores the passed in args self.cache = {} def get(self, key): """Retrieve the value for a key or None. This expunges expired keys during each get. """ now = timeutils.utcnow_ts() for k in list(self.cache): (timeout, _value) = self.cache[k] if timeout and now >= timeout: del self.cache[k] return self.cache.get(key, (0, None))[1] def set(self, key, value, time=0, min_compress_len=0): """Set the value for a key.""" timeout = 0 if time != 0: timeout = timeutils.utcnow_ts() + time self.cache[key] = (timeout, value) return True def add(self, key, value, time=0, min_compress_len=0): """Set the value for a key if it doesn't exist.""" if self.get(key) is not None: return False return self.set(key, value, time, min_compress_len) def incr(self, key, delta=1): """Increment the value for a key.""" value = self.get(key) if value is None: return None new_value = int(value) + delta self.cache[key] = (self.cache[key][0], str(new_value)) return new_value def delete(self, key, time=0): """Delete the value associated with a key.""" if key in self.cache: del self.cache[key]