File: //opt/alt/python27/lib/python2.7/site-packages/beaker/container.py
"""Container and Namespace classes"""
# For python3 (will be converted as import dbsm as anydbm)
import anydbm as anydbm
import cPickle
import logging
import os
import time
import beaker.util as util
from beaker.exceptions import CreationAbortedError, MissingCacheParameter
from beaker.synchronization import _threading, file_synchronizer, \
mutex_synchronizer, NameLock, null_synchronizer
__all__ = ['Value', 'Container', 'ContainerContext',
'MemoryContainer', 'DBMContainer', 'NamespaceManager',
'MemoryNamespaceManager', 'DBMNamespaceManager', 'FileContainer',
'OpenResourceNamespaceManager',
'FileNamespaceManager', 'CreationAbortedError']
logger = logging.getLogger('beaker.container')
if logger.isEnabledFor(logging.DEBUG):
debug = logger.debug
else:
def debug(message, *args):
pass
class NamespaceManager(object):
"""Handles dictionary operations and locking for a namespace of
values.
The implementation for setting and retrieving the namespace data is
handled by subclasses.
NamespaceManager may be used alone, or may be privately accessed by
one or more Container objects. Container objects provide per-key
services like expiration times and automatic recreation of values.
Multiple NamespaceManagers created with a particular name will all
share access to the same underlying datasource and will attempt to
synchronize against a common mutex object. The scope of this
sharing may be within a single process or across multiple
processes, depending on the type of NamespaceManager used.
The NamespaceManager itself is generally threadsafe, except in the
case of the DBMNamespaceManager in conjunction with the gdbm dbm
implementation.
"""
@classmethod
def _init_dependencies(cls):
pass
def __init__(self, namespace):
self._init_dependencies()
self.namespace = namespace
def get_creation_lock(self, key):
raise NotImplementedError()
def do_remove(self):
raise NotImplementedError()
def acquire_read_lock(self):
pass
def release_read_lock(self):
pass
def acquire_write_lock(self, wait=True):
return True
def release_write_lock(self):
pass
def has_key(self, key):
return self.__contains__(key)
def __getitem__(self, key):
raise NotImplementedError()
def __setitem__(self, key, value):
raise NotImplementedError()
def set_value(self, key, value, expiretime=None):
"""Optional set_value() method called by Value.
Allows an expiretime to be passed, for namespace
implementations which can prune their collections
using expiretime.
"""
self[key] = value
def __contains__(self, key):
raise NotImplementedError()
def __delitem__(self, key):
raise NotImplementedError()
def keys(self):
raise NotImplementedError()
def remove(self):
self.do_remove()
class OpenResourceNamespaceManager(NamespaceManager):
"""A NamespaceManager where read/write operations require opening/
closing of a resource which is possibly mutexed.
"""
def __init__(self, namespace):
NamespaceManager.__init__(self, namespace)
self.access_lock = self.get_access_lock()
self.openers = 0
self.mutex = _threading.Lock()
def get_access_lock(self):
raise NotImplementedError()
def do_open(self, flags):
raise NotImplementedError()
def do_close(self):
raise NotImplementedError()
def acquire_read_lock(self):
self.access_lock.acquire_read_lock()
try:
self.open('r', checkcount = True)
except:
self.access_lock.release_read_lock()
raise
def release_read_lock(self):
try:
self.close(checkcount = True)
finally:
self.access_lock.release_read_lock()
def acquire_write_lock(self, wait=True):
r = self.access_lock.acquire_write_lock(wait)
try:
if (wait or r):
self.open('c', checkcount = True)
return r
except:
self.access_lock.release_write_lock()
raise
def release_write_lock(self):
try:
self.close(checkcount=True)
finally:
self.access_lock.release_write_lock()
def open(self, flags, checkcount=False):
self.mutex.acquire()
try:
if checkcount:
if self.openers == 0:
self.do_open(flags)
self.openers += 1
else:
self.do_open(flags)
self.openers = 1
finally:
self.mutex.release()
def close(self, checkcount=False):
self.mutex.acquire()
try:
if checkcount:
self.openers -= 1
if self.openers == 0:
self.do_close()
else:
if self.openers > 0:
self.do_close()
self.openers = 0
finally:
self.mutex.release()
def remove(self):
self.access_lock.acquire_write_lock()
try:
self.close(checkcount=False)
self.do_remove()
finally:
self.access_lock.release_write_lock()
class Value(object):
__slots__ = 'key', 'createfunc', 'expiretime', 'expire_argument', 'starttime', 'storedtime',\
'namespace'
def __init__(self, key, namespace, createfunc=None, expiretime=None, starttime=None):
self.key = key
self.createfunc = createfunc
self.expire_argument = expiretime
self.starttime = starttime
self.storedtime = -1
self.namespace = namespace
def has_value(self):
"""return true if the container has a value stored.
This is regardless of it being expired or not.
"""
self.namespace.acquire_read_lock()
try:
return self.namespace.has_key(self.key)
finally:
self.namespace.release_read_lock()
def can_have_value(self):
return self.has_current_value() or self.createfunc is not None
def has_current_value(self):
self.namespace.acquire_read_lock()
try:
has_value = self.namespace.has_key(self.key)
if has_value:
try:
stored, expired, value = self._get_value()
return not self._is_expired(stored, expired)
except KeyError:
pass
return False
finally:
self.namespace.release_read_lock()
def _is_expired(self, storedtime, expiretime):
"""Return true if this container's value is expired."""
return (
(
self.starttime is not None and
storedtime < self.starttime
)
or
(
expiretime is not None and
time.time() >= expiretime + storedtime
)
)
def get_value(self):
self.namespace.acquire_read_lock()
try:
has_value = self.has_value()
if has_value:
try:
stored, expired, value = self._get_value()
if not self._is_expired(stored, expired):
return value
except KeyError:
# guard against un-mutexed backends raising KeyError
has_value = False
if not self.createfunc:
raise KeyError(self.key)
finally:
self.namespace.release_read_lock()
has_createlock = False
creation_lock = self.namespace.get_creation_lock(self.key)
if has_value:
if not creation_lock.acquire(wait=False):
debug("get_value returning old value while new one is created")
return value
else:
debug("lock_creatfunc (didnt wait)")
has_createlock = True
if not has_createlock:
debug("lock_createfunc (waiting)")
creation_lock.acquire()
debug("lock_createfunc (waited)")
try:
# see if someone created the value already
self.namespace.acquire_read_lock()
try:
if self.has_value():
try:
stored, expired, value = self._get_value()
if not self._is_expired(stored, expired):
return value
except KeyError:
# guard against un-mutexed backends raising KeyError
pass
finally:
self.namespace.release_read_lock()
debug("get_value creating new value")
v = self.createfunc()
self.set_value(v)
return v
finally:
creation_lock.release()
debug("released create lock")
def _get_value(self):
value = self.namespace[self.key]
try:
stored, expired, value = value
except ValueError:
if not len(value) == 2:
raise
# Old format: upgrade
stored, value = value
expired = self.expire_argument
debug("get_value upgrading time %r expire time %r", stored, self.expire_argument)
self.namespace.release_read_lock()
self.set_value(value, stored)
self.namespace.acquire_read_lock()
except TypeError:
# occurs when the value is None. memcached
# may yank the rug from under us in which case
# that's the result
raise KeyError(self.key)
return stored, expired, value
def set_value(self, value, storedtime=None):
self.namespace.acquire_write_lock()
try:
if storedtime is None:
storedtime = time.time()
debug("set_value stored time %r expire time %r", storedtime, self.expire_argument)
self.namespace.set_value(self.key, (storedtime, self.expire_argument, value))
finally:
self.namespace.release_write_lock()
def clear_value(self):
self.namespace.acquire_write_lock()
try:
debug("clear_value")
if self.namespace.has_key(self.key):
try:
del self.namespace[self.key]
except KeyError:
# guard against un-mutexed backends raising KeyError
pass
self.storedtime = -1
finally:
self.namespace.release_write_lock()
class AbstractDictionaryNSManager(NamespaceManager):
"""A subclassable NamespaceManager that places data in a dictionary.
Subclasses should provide a "dictionary" attribute or descriptor
which returns a dict-like object. The dictionary will store keys
that are local to the "namespace" attribute of this manager, so
ensure that the dictionary will not be used by any other namespace.
e.g.::
import collections
cached_data = collections.defaultdict(dict)
class MyDictionaryManager(AbstractDictionaryNSManager):
def __init__(self, namespace):
AbstractDictionaryNSManager.__init__(self, namespace)
self.dictionary = cached_data[self.namespace]
The above stores data in a global dictionary called "cached_data",
which is structured as a dictionary of dictionaries, keyed
first on namespace name to a sub-dictionary, then on actual
cache key to value.
"""
def get_creation_lock(self, key):
return NameLock(
identifier="memorynamespace/funclock/%s/%s" % (self.namespace, key),
reentrant=True
)
def __getitem__(self, key):
return self.dictionary[key]
def __contains__(self, key):
return self.dictionary.__contains__(key)
def has_key(self, key):
return self.dictionary.__contains__(key)
def __setitem__(self, key, value):
self.dictionary[key] = value
def __delitem__(self, key):
del self.dictionary[key]
def do_remove(self):
self.dictionary.clear()
def keys(self):
return self.dictionary.keys()
class MemoryNamespaceManager(AbstractDictionaryNSManager):
namespaces = util.SyncDict()
def __init__(self, namespace, **kwargs):
AbstractDictionaryNSManager.__init__(self, namespace)
self.dictionary = MemoryNamespaceManager.namespaces.get(self.namespace,
dict)
class DBMNamespaceManager(OpenResourceNamespaceManager):
def __init__(self, namespace, dbmmodule=None, data_dir=None,
dbm_dir=None, lock_dir=None, digest_filenames=True, **kwargs):
self.digest_filenames = digest_filenames
if not dbm_dir and not data_dir:
raise MissingCacheParameter("data_dir or dbm_dir is required")
elif dbm_dir:
self.dbm_dir = dbm_dir
else:
self.dbm_dir = data_dir + "/container_dbm"
util.verify_directory(self.dbm_dir)
if not lock_dir and not data_dir:
raise MissingCacheParameter("data_dir or lock_dir is required")
elif lock_dir:
self.lock_dir = lock_dir
else:
self.lock_dir = data_dir + "/container_dbm_lock"
util.verify_directory(self.lock_dir)
self.dbmmodule = dbmmodule or anydbm
self.dbm = None
OpenResourceNamespaceManager.__init__(self, namespace)
self.file = util.encoded_path(root= self.dbm_dir,
identifiers=[self.namespace],
extension='.dbm',
digest_filenames=self.digest_filenames)
debug("data file %s", self.file)
self._checkfile()
def get_access_lock(self):
return file_synchronizer(identifier=self.namespace,
lock_dir=self.lock_dir)
def get_creation_lock(self, key):
return file_synchronizer(
identifier = "dbmcontainer/funclock/%s" % self.namespace,
lock_dir=self.lock_dir
)
def file_exists(self, file):
if os.access(file, os.F_OK):
return True
else:
for ext in ('db', 'dat', 'pag', 'dir'):
if os.access(file + os.extsep + ext, os.F_OK):
return True
return False
def _checkfile(self):
if not self.file_exists(self.file):
g = self.dbmmodule.open(self.file, 'c')
g.close()
def get_filenames(self):
list = []
if os.access(self.file, os.F_OK):
list.append(self.file)
for ext in ('pag', 'dir', 'db', 'dat'):
if os.access(self.file + os.extsep + ext, os.F_OK):
list.append(self.file + os.extsep + ext)
return list
def do_open(self, flags):
debug("opening dbm file %s", self.file)
try:
self.dbm = self.dbmmodule.open(self.file, flags)
except:
self._checkfile()
self.dbm = self.dbmmodule.open(self.file, flags)
def do_close(self):
if self.dbm is not None:
debug("closing dbm file %s", self.file)
self.dbm.close()
def do_remove(self):
for f in self.get_filenames():
os.remove(f)
def __getitem__(self, key):
return cPickle.loads(self.dbm[key])
def __contains__(self, key):
return self.dbm.has_key(key)
def __setitem__(self, key, value):
self.dbm[key] = cPickle.dumps(value)
def __delitem__(self, key):
del self.dbm[key]
def keys(self):
return self.dbm.keys()
class FileNamespaceManager(OpenResourceNamespaceManager):
def __init__(self, namespace, data_dir=None, file_dir=None, lock_dir=None,
digest_filenames=True, **kwargs):
self.digest_filenames = digest_filenames
if not file_dir and not data_dir:
raise MissingCacheParameter("data_dir or file_dir is required")
elif file_dir:
self.file_dir = file_dir
else:
self.file_dir = data_dir + "/container_file"
util.verify_directory(self.file_dir)
if not lock_dir and not data_dir:
raise MissingCacheParameter("data_dir or lock_dir is required")
elif lock_dir:
self.lock_dir = lock_dir
else:
self.lock_dir = data_dir + "/container_file_lock"
util.verify_directory(self.lock_dir)
OpenResourceNamespaceManager.__init__(self, namespace)
self.file = util.encoded_path(root=self.file_dir,
identifiers=[self.namespace],
extension='.cache',
digest_filenames=self.digest_filenames)
self.hash = {}
debug("data file %s", self.file)
def get_access_lock(self):
return file_synchronizer(identifier=self.namespace,
lock_dir=self.lock_dir)
def get_creation_lock(self, key):
return file_synchronizer(
identifier = "filecontainer/funclock/%s" % self.namespace,
lock_dir = self.lock_dir
)
def file_exists(self, file):
return os.access(file, os.F_OK)
def do_open(self, flags):
if self.file_exists(self.file):
fh = open(self.file, 'rb')
try:
self.hash = cPickle.load(fh)
except (IOError, OSError, EOFError, cPickle.PickleError, ValueError):
pass
fh.close()
self.flags = flags
def do_close(self):
if self.flags == 'c' or self.flags == 'w':
fh = open(self.file, 'wb')
cPickle.dump(self.hash, fh)
fh.close()
self.hash = {}
self.flags = None
def do_remove(self):
try:
os.remove(self.file)
except OSError, err:
# for instance, because we haven't yet used this cache,
# but client code has asked for a clear() operation...
pass
self.hash = {}
def __getitem__(self, key):
return self.hash[key]
def __contains__(self, key):
return self.hash.has_key(key)
def __setitem__(self, key, value):
self.hash[key] = value
def __delitem__(self, key):
del self.hash[key]
def keys(self):
return self.hash.keys()
#### legacy stuff to support the old "Container" class interface
namespace_classes = {}
ContainerContext = dict
class ContainerMeta(type):
def __init__(cls, classname, bases, dict_):
namespace_classes[cls] = cls.namespace_class
return type.__init__(cls, classname, bases, dict_)
def __call__(self, key, context, namespace, createfunc=None,
expiretime=None, starttime=None, **kwargs):
if namespace in context:
ns = context[namespace]
else:
nscls = namespace_classes[self]
context[namespace] = ns = nscls(namespace, **kwargs)
return Value(key, ns, createfunc=createfunc,
expiretime=expiretime, starttime=starttime)
class Container(object):
__metaclass__ = ContainerMeta
namespace_class = NamespaceManager
class FileContainer(Container):
namespace_class = FileNamespaceManager
class MemoryContainer(Container):
namespace_class = MemoryNamespaceManager
class DBMContainer(Container):
namespace_class = DBMNamespaceManager
DbmContainer = DBMContainer