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      # -*- coding: utf-8 -*-

      # Copyright (C) 2015-2019 RhodeCode GmbH

      #

      # This program is free software: you can redistribute it and/or modify

      # it under the terms of the GNU Affero General Public License, version 3

      # (only), as published by the Free Software Foundation.

      #

      # This program is distributed in the hope that it will be useful,

      # but WITHOUT ANY WARRANTY; without even the implied warranty of

      # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the

      # GNU General Public License for more details.

      #

      # You should have received a copy of the GNU Affero General Public License

      # along with this program.  If not, see <http://www.gnu.org/licenses/>.

      #

      # This program is dual-licensed. If you wish to learn more about the

      # RhodeCode Enterprise Edition, including its added features, Support services,

      # and proprietary license terms, please see https://rhodecode.com/licenses/

      import os

      import time

      import logging

      import functools

      import threading

      from dogpile.cache import CacheRegion

      from dogpile.cache.util import compat

      import rhodecode

      from rhodecode.lib.utils import safe_str, sha1

      from rhodecode.lib.utils2 import safe_unicode, str2bool

      from rhodecode.model.db import Session, CacheKey, IntegrityError

      from rhodecode.lib.rc_cache import cache_key_meta

      from rhodecode.lib.rc_cache import region_meta

      log = logging.getLogger(__name__)

      def isCython(func):

          """

          Private helper that checks if a function is a cython function.

          """

          return func.__class__.__name__ == 'cython_function_or_method'

      class RhodeCodeCacheRegion(CacheRegion):

          def conditional_cache_on_arguments(

                  self, namespace=None,

                  expiration_time=None,

                  should_cache_fn=None,

                  to_str=compat.string_type,

                  function_key_generator=None,

                  condition=True):

              """

              Custom conditional decorator, that will not touch any dogpile internals if

              condition isn't meet. This works a bit different than should_cache_fn

              And it's faster in cases we don't ever want to compute cached values

              """

              expiration_time_is_callable = compat.callable(expiration_time)

              if function_key_generator is None:

                  function_key_generator = self.function_key_generator

              # workaround for py2 and cython problems, this block should be removed

              # once we've migrated to py3

              if 'cython' == 'cython':

                  def decorator(fn):

                      if to_str is compat.string_type:

                          # backwards compatible

                          key_generator = function_key_generator(namespace, fn)

                      else:

                          key_generator = function_key_generator(namespace, fn, to_str=to_str)

                      @functools.wraps(fn)

                      def decorate(*arg, **kw):

                          key = key_generator(*arg, **kw)

                          @functools.wraps(fn)

                          def creator():

                              return fn(*arg, **kw)

                          if not condition:

                              return creator()

                          timeout = expiration_time() if expiration_time_is_callable \

                              else expiration_time

                          return self.get_or_create(key, creator, timeout, should_cache_fn)

                      def invalidate(*arg, **kw):

                          key = key_generator(*arg, **kw)

                          self.delete(key)

                      def set_(value, *arg, **kw):

                          key = key_generator(*arg, **kw)

                          self.set(key, value)

                      def get(*arg, **kw):

                          key = key_generator(*arg, **kw)

                          return self.get(key)

                      def refresh(*arg, **kw):

                          key = key_generator(*arg, **kw)

                          value = fn(*arg, **kw)

                          self.set(key, value)

                          return value

                      decorate.set = set_

                      decorate.invalidate = invalidate

                      decorate.refresh = refresh

                      decorate.get = get

                      decorate.original = fn

                      decorate.key_generator = key_generator

                      decorate.__wrapped__ = fn

                      return decorate

                  return decorator

              def get_or_create_for_user_func(key_generator, user_func, *arg, **kw):

                  if not condition:

                      log.debug('Calling un-cached func:%s', user_func.func_name)

                      return user_func(*arg, **kw)

                  key = key_generator(*arg, **kw)

                  timeout = expiration_time() if expiration_time_is_callable \

                      else expiration_time

                  log.debug('Calling cached fn:%s', user_func.func_name)

                  return self.get_or_create(key, user_func, timeout, should_cache_fn, (arg, kw))

              def cache_decorator(user_func):

                  if to_str is compat.string_type:

                      # backwards compatible

                      key_generator = function_key_generator(namespace, user_func)

                  else:

                      key_generator = function_key_generator(namespace, user_func, to_str=to_str)

                  def refresh(*arg, **kw):

                      """

                      Like invalidate, but regenerates the value instead

                      """

                      key = key_generator(*arg, **kw)

                      value = user_func(*arg, **kw)

                      self.set(key, value)

                      return value

                  def invalidate(*arg, **kw):

                      key = key_generator(*arg, **kw)

                      self.delete(key)

                  def set_(value, *arg, **kw):

                      key = key_generator(*arg, **kw)

                      self.set(key, value)

                  def get(*arg, **kw):

                      key = key_generator(*arg, **kw)

                      return self.get(key)

                  user_func.set = set_

                  user_func.invalidate = invalidate

                  user_func.get = get

                  user_func.refresh = refresh

                  user_func.key_generator = key_generator

                  user_func.original = user_func

                  # Use `decorate` to preserve the signature of :param:`user_func`.

                  return decorator.decorate(user_func, functools.partial(

                      get_or_create_for_user_func, key_generator))

              return cache_decorator

      def make_region(*arg, **kw):

          return RhodeCodeCacheRegion(*arg, **kw)

      def get_default_cache_settings(settings, prefixes=None):

          prefixes = prefixes or []

          cache_settings = {}

          for key in settings.keys():

              for prefix in prefixes:

                  if key.startswith(prefix):

                      name = key.split(prefix)[1].strip()

                      val = settings[key]

                      if isinstance(val, compat.string_types):

                          val = val.strip()

                      cache_settings[name] = val

          return cache_settings

      def compute_key_from_params(*args):

          """

          Helper to compute key from given params to be used in cache manager

          """

          return sha1("_".join(map(safe_str, args)))

      def backend_key_generator(backend):

          """

          Special wrapper that also sends over the backend to the key generator

          """

          def wrapper(namespace, fn):

              return key_generator(backend, namespace, fn)

          return wrapper

      def key_generator(backend, namespace, fn):

          fname = fn.__name__

          def generate_key(*args):

              backend_prefix = getattr(backend, 'key_prefix', None) or 'backend_prefix'

              namespace_pref = namespace or 'default_namespace'

              arg_key = compute_key_from_params(*args)

              final_key = "{}:{}:{}_{}".format(backend_prefix, namespace_pref, fname, arg_key)

              return final_key

          return generate_key

      def get_or_create_region(region_name, region_namespace=None):

          from rhodecode.lib.rc_cache.backends import FileNamespaceBackend

          region_obj = region_meta.dogpile_cache_regions.get(region_name)

          if not region_obj:

              raise EnvironmentError(

                  'Region `{}` not in configured: {}.'.format(

                      region_name, region_meta.dogpile_cache_regions.keys()))

          region_uid_name = '{}:{}'.format(region_name, region_namespace)

          if isinstance(region_obj.actual_backend, FileNamespaceBackend):

              region_exist = region_meta.dogpile_cache_regions.get(region_namespace)

              if region_exist:

                  log.debug('Using already configured region: %s', region_namespace)

                  return region_exist

              cache_dir = region_meta.dogpile_config_defaults['cache_dir']

              expiration_time = region_obj.expiration_time

              if not os.path.isdir(cache_dir):

                  os.makedirs(cache_dir)

              new_region = make_region(

                  name=region_uid_name,

                  function_key_generator=backend_key_generator(region_obj.actual_backend)

              )

              namespace_filename = os.path.join(

                  cache_dir, "{}.cache.dbm".format(region_namespace))

              # special type that allows 1db per namespace

              new_region.configure(

                  backend='dogpile.cache.rc.file_namespace',

                  expiration_time=expiration_time,

                  arguments={"filename": namespace_filename}

              )

              # create and save in region caches

              log.debug('configuring new region: %s', region_uid_name)

              region_obj = region_meta.dogpile_cache_regions[region_namespace] = new_region

          return region_obj

      def clear_cache_namespace(cache_region, cache_namespace_uid):

          region = get_or_create_region(cache_region, cache_namespace_uid)

          cache_keys = region.backend.list_keys(prefix=cache_namespace_uid)

          num_delete_keys = len(cache_keys)

          if num_delete_keys:

              region.delete_multi(cache_keys)

          return num_delete_keys

      class ActiveRegionCache(object):

          def __init__(self, context, cache_data):

              self.context = context

              self.cache_data = cache_data

          def should_invalidate(self):

              return False

      class FreshRegionCache(object):

          def __init__(self, context, cache_data):

              self.context = context

              self.cache_data = cache_data

          def should_invalidate(self):

              return True

      class InvalidationContext(object):

          """

          usage::

              from rhodecode.lib import rc_cache

              cache_namespace_uid = CacheKey.SOME_NAMESPACE.format(1)

              region = rc_cache.get_or_create_region('cache_perms', cache_namespace_uid)

              @region.conditional_cache_on_arguments(namespace=cache_namespace_uid, condition=True)

              def heavy_compute(cache_name, param1, param2):

                  print('COMPUTE {}, {}, {}'.format(cache_name, param1, param2))

              # invalidation namespace is shared namespace key for all process caches

              # we use it to send a global signal

              invalidation_namespace = 'repo_cache:1'

              inv_context_manager = rc_cache.InvalidationContext(

                  uid=cache_namespace_uid, invalidation_namespace=invalidation_namespace)

              with inv_context_manager as invalidation_context:

                  args = ('one', 'two')

                  # re-compute and store cache if we get invalidate signal

                  if invalidation_context.should_invalidate():

                      result = heavy_compute.refresh(*args)

                  else:

                      result = heavy_compute(*args)

                  compute_time = inv_context_manager.compute_time

                  log.debug('result computed in %.4fs', compute_time)

              # To send global invalidation signal, simply run

              CacheKey.set_invalidate(invalidation_namespace)

          """

          def __repr__(self):

              return '<InvalidationContext:{}[{}]>'.format(

                  safe_str(self.cache_key), safe_str(self.uid))

          def __init__(self, uid, invalidation_namespace='',

                       raise_exception=False, thread_scoped=None):

              self.uid = uid

              self.invalidation_namespace = invalidation_namespace

              self.raise_exception = raise_exception

              self.proc_id = safe_unicode(rhodecode.CONFIG.get('instance_id') or 'DEFAULT')

              self.thread_id = 'global'

              if thread_scoped is None:

                  # if we set "default" we can override this via .ini settings

                  thread_scoped = str2bool(rhodecode.CONFIG.get('cache_thread_scoped'))

              # Append the thread id to the cache key if this invalidation context

              # should be scoped to the current thread.

              if thread_scoped is True:

                  self.thread_id = threading.current_thread().ident

              self.cache_key = compute_key_from_params(uid)

              self.cache_key = 'proc:{}|thread:{}|params:{}'.format(

                  self.proc_id, self.thread_id, self.cache_key)

              self.compute_time = 0

          def get_or_create_cache_obj(self, cache_type, invalidation_namespace=''):

              invalidation_namespace = invalidation_namespace or self.invalidation_namespace

              # fetch all cache keys for this namespace and convert them to a map to find if we

              # have specific cache_key object registered. We do this because we want to have

              # all consistent cache_state_uid for newly registered objects

              cache_obj_map = CacheKey.get_namespace_map(invalidation_namespace)

              cache_obj = cache_obj_map.get(self.cache_key)

              log.debug('Fetched cache obj %s using %s cache key.', cache_obj, self.cache_key)

              if not cache_obj:

                  new_cache_args = invalidation_namespace

                  first_cache_obj = next(cache_obj_map.itervalues()) if cache_obj_map else None

                  cache_state_uid = None

                  if first_cache_obj:

                      cache_state_uid = first_cache_obj.cache_state_uid

                  cache_obj = CacheKey(self.cache_key, cache_args=new_cache_args,

                                       cache_state_uid=cache_state_uid)

                  cache_key_meta.cache_keys_by_pid.append(self.cache_key)

              return cache_obj

          def __enter__(self):

              """

              Test if current object is valid, and return CacheRegion function

              that does invalidation and calculation

              """

              log.debug('Entering cache invalidation check context: %s', self.invalidation_namespace)

              # register or get a new key based on uid

              self.cache_obj = self.get_or_create_cache_obj(cache_type=self.uid)

              cache_data = self.cache_obj.get_dict()

              self._start_time = time.time()

              if self.cache_obj.cache_active:

                  # means our cache obj is existing and marked as it's

                  # cache is not outdated, we return ActiveRegionCache

                  self.skip_cache_active_change = True

                  return ActiveRegionCache(context=self, cache_data=cache_data)

              # the key is either not existing or set to False, we return

              # the real invalidator which re-computes value. We additionally set

              # the flag to actually update the Database objects

              self.skip_cache_active_change = False

              return FreshRegionCache(context=self, cache_data=cache_data)

          def __exit__(self, exc_type, exc_val, exc_tb):

              # save compute time

              self.compute_time = time.time() - self._start_time

              if self.skip_cache_active_change:

                  return

              try:

                  self.cache_obj.cache_active = True

                  Session().add(self.cache_obj)

                  Session().commit()

              except IntegrityError:

                  # if we catch integrity error, it means we inserted this object

                  # assumption is that's really an edge race-condition case and

                  # it's safe is to skip it

                  Session().rollback()

              except Exception:

                  log.exception('Failed to commit on cache key update')

                  Session().rollback()

                  if self.raise_exception:

                      raise

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				# -- coding: utf-8 --

				# Copyright (C) 2015-2019 RhodeCode GmbH
				#
				# This program is free software: you can redistribute it and/or modify
				# it under the terms of the GNU Affero General Public License, version 3
				# (only), as published by the Free Software Foundation.
				#
				# This program is distributed in the hope that it will be useful,
				# but WITHOUT ANY WARRANTY; without even the implied warranty of
				# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
				# GNU General Public License for more details.
				#
				# You should have received a copy of the GNU Affero General Public License
				# along with this program. If not, see <http://www.gnu.org/licenses/>.
				#
				# This program is dual-licensed. If you wish to learn more about the
				# RhodeCode Enterprise Edition, including its added features, Support services,
				# and proprietary license terms, please see https://rhodecode.com/licenses/
				import os
				import time
				import logging
				import functools
				import threading

				from dogpile.cache import CacheRegion
				from dogpile.cache.util import compat

				import rhodecode
				from rhodecode.lib.utils import safe_str, sha1
				from rhodecode.lib.utils2 import safe_unicode, str2bool
				from rhodecode.model.db import Session, CacheKey, IntegrityError

				from rhodecode.lib.rc_cache import cache_key_meta
				from rhodecode.lib.rc_cache import region_meta

				log = logging.getLogger(__name__)


				def isCython(func):
				"""
				Private helper that checks if a function is a cython function.
				"""
				return func.__class__.__name__ == 'cython_function_or_method'


				class RhodeCodeCacheRegion(CacheRegion):

				def conditional_cache_on_arguments(
				self, namespace=None,
				expiration_time=None,
				should_cache_fn=None,
				to_str=compat.string_type,
				function_key_generator=None,
				condition=True):
				"""
				Custom conditional decorator, that will not touch any dogpile internals if
				condition isn't meet. This works a bit different than should_cache_fn
				And it's faster in cases we don't ever want to compute cached values
				"""
				expiration_time_is_callable = compat.callable(expiration_time)

				if function_key_generator is None:
				function_key_generator = self.function_key_generator

				# workaround for py2 and cython problems, this block should be removed
				# once we've migrated to py3
				if 'cython' == 'cython':
				def decorator(fn):
				if to_str is compat.string_type:
				# backwards compatible
				key_generator = function_key_generator(namespace, fn)
				else:
				key_generator = function_key_generator(namespace, fn, to_str=to_str)

				@functools.wraps(fn)
				def decorate(arg, *kw):
				key = key_generator(arg, *kw)

				@functools.wraps(fn)
				def creator():
				return fn(arg, *kw)

				if not condition:
				return creator()

				timeout = expiration_time() if expiration_time_is_callable \
				else expiration_time

				return self.get_or_create(key, creator, timeout, should_cache_fn)

				def invalidate(arg, *kw):
				key = key_generator(arg, *kw)
				self.delete(key)

				def set_(value, arg, *kw):
				key = key_generator(arg, *kw)
				self.set(key, value)

				def get(arg, *kw):
				key = key_generator(arg, *kw)
				return self.get(key)

				def refresh(arg, *kw):
				key = key_generator(arg, *kw)
				value = fn(arg, *kw)
				self.set(key, value)
				return value

				decorate.set = set_
				decorate.invalidate = invalidate
				decorate.refresh = refresh
				decorate.get = get
				decorate.original = fn
				decorate.key_generator = key_generator
				decorate.__wrapped__ = fn

				return decorate
				return decorator

				def get_or_create_for_user_func(key_generator, user_func, arg, *kw):

				if not condition:
				log.debug('Calling un-cached func:%s', user_func.func_name)
				return user_func(arg, *kw)

				key = key_generator(arg, *kw)

				timeout = expiration_time() if expiration_time_is_callable \
				else expiration_time

				log.debug('Calling cached fn:%s', user_func.func_name)
				return self.get_or_create(key, user_func, timeout, should_cache_fn, (arg, kw))

				def cache_decorator(user_func):
				if to_str is compat.string_type:
				# backwards compatible
				key_generator = function_key_generator(namespace, user_func)
				else:
				key_generator = function_key_generator(namespace, user_func, to_str=to_str)

				def refresh(arg, *kw):
				"""
				Like invalidate, but regenerates the value instead
				"""
				key = key_generator(arg, *kw)
				value = user_func(arg, *kw)
				self.set(key, value)
				return value

				def invalidate(arg, *kw):
				key = key_generator(arg, *kw)
				self.delete(key)

				def set_(value, arg, *kw):
				key = key_generator(arg, *kw)
				self.set(key, value)

				def get(arg, *kw):
				key = key_generator(arg, *kw)
				return self.get(key)

				user_func.set = set_
				user_func.invalidate = invalidate
				user_func.get = get
				user_func.refresh = refresh
				user_func.key_generator = key_generator
				user_func.original = user_func

				# Use `decorate` to preserve the signature of :param:`user_func`.
				return decorator.decorate(user_func, functools.partial(
				get_or_create_for_user_func, key_generator))

				return cache_decorator


				def make_region(arg, *kw):
				return RhodeCodeCacheRegion(arg, *kw)


				def get_default_cache_settings(settings, prefixes=None):
				prefixes = prefixes or []
				cache_settings = {}
				for key in settings.keys():
				for prefix in prefixes:
				if key.startswith(prefix):
				name = key.split(prefix)[1].strip()
				val = settings[key]
				if isinstance(val, compat.string_types):
				val = val.strip()
				cache_settings[name] = val
				return cache_settings


				def compute_key_from_params(*args):
				"""
				Helper to compute key from given params to be used in cache manager
				"""
				return sha1("_".join(map(safe_str, args)))


				def backend_key_generator(backend):
				"""
				Special wrapper that also sends over the backend to the key generator
				"""
				def wrapper(namespace, fn):
				return key_generator(backend, namespace, fn)
				return wrapper


				def key_generator(backend, namespace, fn):
				fname = fn.__name__

				def generate_key(*args):
				backend_prefix = getattr(backend, 'key_prefix', None) or 'backend_prefix'
				namespace_pref = namespace or 'default_namespace'
				arg_key = compute_key_from_params(*args)
				final_key = "{}:{}:{}_{}".format(backend_prefix, namespace_pref, fname, arg_key)

				return final_key

				return generate_key


				def get_or_create_region(region_name, region_namespace=None):
				from rhodecode.lib.rc_cache.backends import FileNamespaceBackend
				region_obj = region_meta.dogpile_cache_regions.get(region_name)
				if not region_obj:
				raise EnvironmentError(
				'Region `{}` not in configured: {}.'.format(
				region_name, region_meta.dogpile_cache_regions.keys()))

				region_uid_name = '{}:{}'.format(region_name, region_namespace)
				if isinstance(region_obj.actual_backend, FileNamespaceBackend):
				region_exist = region_meta.dogpile_cache_regions.get(region_namespace)
				if region_exist:
				log.debug('Using already configured region: %s', region_namespace)
				return region_exist
				cache_dir = region_meta.dogpile_config_defaults['cache_dir']
				expiration_time = region_obj.expiration_time

				if not os.path.isdir(cache_dir):
				os.makedirs(cache_dir)
				new_region = make_region(
				name=region_uid_name,
				function_key_generator=backend_key_generator(region_obj.actual_backend)
				)
				namespace_filename = os.path.join(
				cache_dir, "{}.cache.dbm".format(region_namespace))
				# special type that allows 1db per namespace
				new_region.configure(
				backend='dogpile.cache.rc.file_namespace',
				expiration_time=expiration_time,
				arguments={"filename": namespace_filename}
				)

				# create and save in region caches
				log.debug('configuring new region: %s', region_uid_name)
				region_obj = region_meta.dogpile_cache_regions[region_namespace] = new_region

				return region_obj


				def clear_cache_namespace(cache_region, cache_namespace_uid):
				region = get_or_create_region(cache_region, cache_namespace_uid)
				cache_keys = region.backend.list_keys(prefix=cache_namespace_uid)
				num_delete_keys = len(cache_keys)
				if num_delete_keys:
				region.delete_multi(cache_keys)
				return num_delete_keys


				class ActiveRegionCache(object):
				def __init__(self, context, cache_data):
				self.context = context
				self.cache_data = cache_data

				def should_invalidate(self):
				return False


				class FreshRegionCache(object):
				def __init__(self, context, cache_data):
				self.context = context
				self.cache_data = cache_data

				def should_invalidate(self):
				return True


				class InvalidationContext(object):
				"""
				usage::

				from rhodecode.lib import rc_cache

				cache_namespace_uid = CacheKey.SOME_NAMESPACE.format(1)
				region = rc_cache.get_or_create_region('cache_perms', cache_namespace_uid)

				@region.conditional_cache_on_arguments(namespace=cache_namespace_uid, condition=True)
				def heavy_compute(cache_name, param1, param2):
				print('COMPUTE {}, {}, {}'.format(cache_name, param1, param2))

				# invalidation namespace is shared namespace key for all process caches
				# we use it to send a global signal
				invalidation_namespace = 'repo_cache:1'

				inv_context_manager = rc_cache.InvalidationContext(
				uid=cache_namespace_uid, invalidation_namespace=invalidation_namespace)
				with inv_context_manager as invalidation_context:
				args = ('one', 'two')
				# re-compute and store cache if we get invalidate signal
				if invalidation_context.should_invalidate():
				result = heavy_compute.refresh(*args)
				else:
				result = heavy_compute(*args)

				compute_time = inv_context_manager.compute_time
				log.debug('result computed in %.4fs', compute_time)

				# To send global invalidation signal, simply run
				CacheKey.set_invalidate(invalidation_namespace)

				"""

				def __repr__(self):
				return '<InvalidationContext:{}[{}]>'.format(
				safe_str(self.cache_key), safe_str(self.uid))

				def __init__(self, uid, invalidation_namespace='',
				raise_exception=False, thread_scoped=None):
				self.uid = uid
				self.invalidation_namespace = invalidation_namespace
				self.raise_exception = raise_exception
				self.proc_id = safe_unicode(rhodecode.CONFIG.get('instance_id') or 'DEFAULT')
				self.thread_id = 'global'

				if thread_scoped is None:
				# if we set "default" we can override this via .ini settings
				thread_scoped = str2bool(rhodecode.CONFIG.get('cache_thread_scoped'))

				# Append the thread id to the cache key if this invalidation context
				# should be scoped to the current thread.
				if thread_scoped is True:
				self.thread_id = threading.current_thread().ident

				self.cache_key = compute_key_from_params(uid)
				self.cache_key = 'proc:{}\|thread:{}\|params:{}'.format(
				self.proc_id, self.thread_id, self.cache_key)
				self.compute_time = 0

				def get_or_create_cache_obj(self, cache_type, invalidation_namespace=''):
				invalidation_namespace = invalidation_namespace or self.invalidation_namespace
				# fetch all cache keys for this namespace and convert them to a map to find if we
				# have specific cache_key object registered. We do this because we want to have
				# all consistent cache_state_uid for newly registered objects
				cache_obj_map = CacheKey.get_namespace_map(invalidation_namespace)
				cache_obj = cache_obj_map.get(self.cache_key)
				log.debug('Fetched cache obj %s using %s cache key.', cache_obj, self.cache_key)
				if not cache_obj:
				new_cache_args = invalidation_namespace
				first_cache_obj = next(cache_obj_map.itervalues()) if cache_obj_map else None
				cache_state_uid = None
				if first_cache_obj:
				cache_state_uid = first_cache_obj.cache_state_uid
				cache_obj = CacheKey(self.cache_key, cache_args=new_cache_args,
				cache_state_uid=cache_state_uid)
				cache_key_meta.cache_keys_by_pid.append(self.cache_key)

				return cache_obj

				def __enter__(self):
				"""
				Test if current object is valid, and return CacheRegion function
				that does invalidation and calculation
				"""
				log.debug('Entering cache invalidation check context: %s', self.invalidation_namespace)
				# register or get a new key based on uid
				self.cache_obj = self.get_or_create_cache_obj(cache_type=self.uid)
				cache_data = self.cache_obj.get_dict()
				self._start_time = time.time()
				if self.cache_obj.cache_active:
				# means our cache obj is existing and marked as it's
				# cache is not outdated, we return ActiveRegionCache
				self.skip_cache_active_change = True

				return ActiveRegionCache(context=self, cache_data=cache_data)

				# the key is either not existing or set to False, we return
				# the real invalidator which re-computes value. We additionally set
				# the flag to actually update the Database objects
				self.skip_cache_active_change = False
				return FreshRegionCache(context=self, cache_data=cache_data)

				def __exit__(self, exc_type, exc_val, exc_tb):
				# save compute time
				self.compute_time = time.time() - self._start_time

				if self.skip_cache_active_change:
				return

				try:
				self.cache_obj.cache_active = True
				Session().add(self.cache_obj)
				Session().commit()
				except IntegrityError:
				# if we catch integrity error, it means we inserted this object
				# assumption is that's really an edge race-condition case and
				# it's safe is to skip it
				Session().rollback()
				except Exception:
				log.exception('Failed to commit on cache key update')
				Session().rollback()
				if self.raise_exception:
				raise