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"Memcached cache backend"
import pickle
import re
import time
from django.core.cache.backends.base import DEFAULT_TIMEOUT, BaseCache
from django.utils.functional import cached_property
class BaseMemcachedCache(BaseCache):
def __init__(self, server, params, library, value_not_found_exception):
super().__init__(params)
if isinstance(server, str):
self._servers = re.split('[;,]', server)
else:
self._servers = server
# The exception type to catch from the underlying library for a key
# that was not found. This is a ValueError for python-memcache,
# pylibmc.NotFound for pylibmc, and cmemcache will return None without
# raising an exception.
self.LibraryValueNotFoundException = value_not_found_exception
self._lib = library
self._options = params.get('OPTIONS') or {}
@property
def _cache(self):
"""
Implement transparent thread-safe access to a memcached client.
"""
if getattr(self, '_client', None) is None:
self._client = self._lib.Client(self._servers, **self._options)
return self._client
def get_backend_timeout(self, timeout=DEFAULT_TIMEOUT):
"""
Memcached deals with long (> 30 days) timeouts in a special
way. Call this function to obtain a safe value for your timeout.
"""
if timeout == DEFAULT_TIMEOUT:
timeout = self.default_timeout
if timeout is None:
# Using 0 in memcache sets a non-expiring timeout.
return 0
elif int(timeout) == 0:
# Other cache backends treat 0 as set-and-expire. To achieve this
# in memcache backends, a negative timeout must be passed.
timeout = -1
if timeout > 2592000: # 60*60*24*30, 30 days
# See https://github.com/memcached/memcached/wiki/Programming#expiration
# "Expiration times can be set from 0, meaning "never expire", to
# 30 days. Any time higher than 30 days is interpreted as a Unix
# timestamp date. If you want to expire an object on January 1st of
# next year, this is how you do that."
#
# This means that we have to switch to absolute timestamps.
timeout += int(time.time())
return int(timeout)
def add(self, key, value, timeout=DEFAULT_TIMEOUT, version=None):
key = self.make_key(key, version=version)
return self._cache.add(key, value, self.get_backend_timeout(timeout))
def get(self, key, default=None, version=None):
key = self.make_key(key, version=version)
val = self._cache.get(key)
if val is None:
return default
return val
def set(self, key, value, timeout=DEFAULT_TIMEOUT, version=None):
key = self.make_key(key, version=version)
if not self._cache.set(key, value, self.get_backend_timeout(timeout)):
# make sure the key doesn't keep its old value in case of failure to set (memcached's 1MB limit)
self._cache.delete(key)
def delete(self, key, version=None):
key = self.make_key(key, version=version)
self._cache.delete(key)
def get_many(self, keys, version=None):
key_map = {self.make_key(key, version=version): key for key in keys}
ret = self._cache.get_multi(key_map.keys())
return {key_map[k]: v for k, v in ret.items()}
def close(self, **kwargs):
# Many clients don't clean up connections properly.
self._cache.disconnect_all()
def incr(self, key, delta=1, version=None):
key = self.make_key(key, version=version)
# memcached doesn't support a negative delta
if delta < 0:
return self._cache.decr(key, -delta)
try:
val = self._cache.incr(key, delta)
# python-memcache responds to incr on nonexistent keys by
# raising a ValueError, pylibmc by raising a pylibmc.NotFound
# and Cmemcache returns None. In all cases,
# we should raise a ValueError though.
except self.LibraryValueNotFoundException:
val = None
if val is None:
raise ValueError("Key '%s' not found" % key)
return val
def decr(self, key, delta=1, version=None):
key = self.make_key(key, version=version)
# memcached doesn't support a negative delta
if delta < 0:
return self._cache.incr(key, -delta)
try:
val = self._cache.decr(key, delta)
# python-memcache responds to incr on nonexistent keys by
# raising a ValueError, pylibmc by raising a pylibmc.NotFound
# and Cmemcache returns None. In all cases,
# we should raise a ValueError though.
except self.LibraryValueNotFoundException:
val = None
if val is None:
raise ValueError("Key '%s' not found" % key)
return val
def set_many(self, data, timeout=DEFAULT_TIMEOUT, version=None):
safe_data = {}
original_keys = {}
for key, value in data.items():
safe_key = self.make_key(key, version=version)
safe_data[safe_key] = value
original_keys[safe_key] = key
failed_keys = self._cache.set_multi(safe_data, self.get_backend_timeout(timeout))
return [original_keys[k] for k in failed_keys]
def delete_many(self, keys, version=None):
self._cache.delete_multi(self.make_key(key, version=version) for key in keys)
def clear(self):
self._cache.flush_all()
class MemcachedCache(BaseMemcachedCache):
"An implementation of a cache binding using python-memcached"
def __init__(self, server, params):
import memcache
super().__init__(server, params, library=memcache, value_not_found_exception=ValueError)
@property
def _cache(self):
if getattr(self, '_client', None) is None:
client_kwargs = {'pickleProtocol': pickle.HIGHEST_PROTOCOL}
client_kwargs.update(self._options)
self._client = self._lib.Client(self._servers, **client_kwargs)
return self._client
def touch(self, key, timeout=DEFAULT_TIMEOUT, version=None):
key = self.make_key(key, version=version)
return self._cache.touch(key, self.get_backend_timeout(timeout)) != 0
class PyLibMCCache(BaseMemcachedCache):
"An implementation of a cache binding using pylibmc"
def __init__(self, server, params):
import pylibmc
super().__init__(server, params, library=pylibmc, value_not_found_exception=pylibmc.NotFound)
@cached_property
def _cache(self):
return self._lib.Client(self._servers, **self._options)
def touch(self, key, timeout=DEFAULT_TIMEOUT, version=None):
key = self.make_key(key, version=version)
if timeout == 0:
return self._cache.delete(key)
return self._cache.touch(key, self.get_backend_timeout(timeout))
def close(self, **kwargs):
# libmemcached manages its own connections. Don't call disconnect_all()
# as it resets the failover state and creates unnecessary reconnects.
pass