mbox/Dualcache

## Dualcache
To use the two-layer cache:

* Run memcached on each Django webserver
* Add "LOCAL_CACHE_ADDR = ('127.0.0.1:11211',)" to settings.py
* Replace "from django.core.cache import cache" with "from dualcache import cache" everywhere
 you want to use the two-layer cache. It can be freely mix and matched with Django's default caching.

## dualcache.py
# Provide a local read-only cache on each Django webserver, with cache misses and writes going to
# the standard Django cache.

# (c) 2011 Malcolm Box
# Released under the same license as Django

from django.core import signals
from django.conf import settings
from django.core.cache import cache as remote_cache
from django.core.cache.backends.base import BaseCache
from django.utils.encoding import smart_str
import memcache
import time


local_cache = memcache.Client(settings.LOCAL_CACHE_ADDR)

if hasattr(settings, 'LOCAL_CACHE_LIFETIME'):
    local_lifetime = settings.LOCAL_CACHE_LIFETIME
else:
    local_lifetime = 1

class TwoLayerCache(BaseCache):
    """ Implements a local read-only cache of values.

    The local cache is a local memcache instance that stores acts as a local, L1 cache for an individual web server.
    The standard Django cache backend acts as the L2 cache shared between multiple web servers.

    On a cache read, if the key is not found in the local cache, it is fetched from the L2 cache and stored locally.
    Any write operation (set, add, incr, decr) invalidates the key in the L1 cache and passes the operation to the L2
    cache.

    The lifetime for objects in the L1 cache is controlled by settings.LOCAL_CACHE_LIFETIME. Data in the L1 cache
    may be up to this many seconds out of date, and applications must be able to tolerate this.
    """

    def __init__(self):
        super(TwoLayerCache, self).__init__(params={'timeout':1})

    def get(self, key, default=None):
        """Try local cache first, then go to remote"""
        val = None
        val = local_cache.get(smart_str(key))
        if not val:
            val = remote_cache.get(smart_str(key))
            if val:
                local_cache.set(smart_str(key), val, local_lifetime)

        if not val:
            val = default
        return val

    def set(self, key, value):
        local_cache.delete(smart_str(key))
        return remote_cache.set(smart_str(key), value)

    def add(self, key, value, *args):
        local_cache.delete(smart_str(key))
        return remote_cache.add(smart_str(key), value, *args)

    def incr(self, key, *args, **kwargs):
        local_cache.delete(smart_str(key))
        return remote_cache.incr(smart_str(key), *args, **kwargs)

    def decr(self, key, *args, **kwargs):
        local_cache.delete(smart_str(key))
        return remote_cache.decr(smart_str(key), *args, **kwargs)

    def delete(self, key, *args, **kwargs):
        local_cache.delete(smart_str(key))
        return remote_cache.delete(smart_str(key), *args, **kwargs)

    def get_many(self, keys):
        values = local_cache.get_multi(map(smart_str, keys))
        if len(values) == len(keys):
            return values
        else:
            r_values = remote_cache.get_many(map(smart_str, keys))
            local_cache.set_multi(r_values, time=local_lifetime)
            return r_values

    def _get_local(self,key):
        return local_cache.get(smart_str(key))

    def close(self, *args, **kwargs):
        local_cache.disconnect_all()

cache = TwoLayerCache()

# Tidy up at the end of request as per Django memcache backend
signals.request_finished.connect(cache.close)


## tests.py
import dualcache
from dualcache import cache
from django.core.cache import cache as remote_cache
import time

class DualCacheTest(TestCase):

    def setUp(self):
        keys = ['test', '1','2','3', '4', 'wensleydale', 'key']
        for k in keys:
            cache.delete(k)
            remote_cache.delete(k)

    def test_read(self):
        key = "test"
        remote_cache.set(key, 100)
        self.assertEquals(cache.get(key), 100)
        self.assertEquals(cache._get_local(key), 100)
        cache.set(key, 200)
        self.assertEquals(cache.get(key), 200)
        remote_cache.set(key, 300)
        self.assertEquals(cache.get(key), 200)
        time.sleep(settings.LOCAL_CACHE_LIFETIME+1)
        self.assertEquals(cache.get(key), 300)

    def test_multi_read(self):
        keys = ['1','2','3']
        remote_cache.set('1', 'one')
        remote_cache.set('2', 'two')
        values = cache.get_many(keys)
        self.assertEquals(len(values), 2)
        self.assertEquals(values['1'], 'one')
        self.assertEquals(values['2'], 'two')
        cache.set('3', 'three')
        values = cache.get_many(keys)
        self.assertEquals(set(values.keys()), set(['1','2','3']))
        remote_cache.delete('1')
        values = cache.get_many(keys)
        self.assertEquals(set(values.keys()), set(['1','2','3']))
        cache.delete('1')
        values = cache.get_many(keys)
        self.assertEquals(set(values.keys()), set(['2','3']))
        # Check that a missing value causes update from L2
        remote_cache.set('4', 'four')
        values = cache.get_many(keys+['4'])
        self.assertEquals(len(values), 3)
        self.assertEquals(cache._get_local('4'), 'four')

    def test_interface(self):
        key = "wensleydale"
        cache.set(key, "yummy")
        self.assertEquals(cache.get(key), "yummy")
        cache.set(key, 10)
        cache.incr(key, 10)
        self.assertEquals(cache.get(key), 20)
        cache.delete(key)
        self.assertEquals(cache.get(key), None)
        added = cache.add(key, 'new trousers')
        self.assertEquals(added, True)
        self.assertEquals(cache.get(key), 'new trousers')
        added = cache.add(key, 'old trousers')
        self.assertEquals(added, False)
        self.assertEquals(cache.get(key), 'new trousers')

    def test_incr(self):
        cache.set('key', 100)
        cache.incr('key')
        self.assertEquals(cache.get('key'), 101)
        cache.incr('key', 25)
        self.assertEquals(cache.get('key'), 126)
        try:
            ret = cache.incr('no-such-key')
            self.assertEquals(ret, None)
        except ValueError:
            # Some cache backends raise, some don't
            pass
	To use the two-layer cache:

	* Run memcached on each Django webserver
	* Add "LOCAL_CACHE_ADDR = ('127.0.0.1:11211',)" to settings.py
	* Replace "from django.core.cache import cache" with "from dualcache import cache" everywhere
	you want to use the two-layer cache. It can be freely mix and matched with Django's default caching.
	# Provide a local read-only cache on each Django webserver, with cache misses and writes going to
	# the standard Django cache.

	# (c) 2011 Malcolm Box
	# Released under the same license as Django

	from django.core import signals
	from django.conf import settings
	from django.core.cache import cache as remote_cache
	from django.core.cache.backends.base import BaseCache
	from django.utils.encoding import smart_str
	import memcache
	import time


	local_cache = memcache.Client(settings.LOCAL_CACHE_ADDR)

	if hasattr(settings, 'LOCAL_CACHE_LIFETIME'):
	local_lifetime = settings.LOCAL_CACHE_LIFETIME
	else:
	local_lifetime = 1

	class TwoLayerCache(BaseCache):
	""" Implements a local read-only cache of values.

	The local cache is a local memcache instance that stores acts as a local, L1 cache for an individual web server.
	The standard Django cache backend acts as the L2 cache shared between multiple web servers.

	On a cache read, if the key is not found in the local cache, it is fetched from the L2 cache and stored locally.
	Any write operation (set, add, incr, decr) invalidates the key in the L1 cache and passes the operation to the L2
	cache.

	The lifetime for objects in the L1 cache is controlled by settings.LOCAL_CACHE_LIFETIME. Data in the L1 cache
	may be up to this many seconds out of date, and applications must be able to tolerate this.
	"""

	def __init__(self):
	super(TwoLayerCache, self).__init__(params={'timeout':1})

	def get(self, key, default=None):
	"""Try local cache first, then go to remote"""
	val = None
	val = local_cache.get(smart_str(key))
	if not val:
	val = remote_cache.get(smart_str(key))
	if val:
	local_cache.set(smart_str(key), val, local_lifetime)

	if not val:
	val = default
	return val

	def set(self, key, value):
	local_cache.delete(smart_str(key))
	return remote_cache.set(smart_str(key), value)

	def add(self, key, value, *args):
	local_cache.delete(smart_str(key))
	return remote_cache.add(smart_str(key), value, *args)

	def incr(self, key, args, *kwargs):
	local_cache.delete(smart_str(key))
	return remote_cache.incr(smart_str(key), args, *kwargs)

	def decr(self, key, args, *kwargs):
	local_cache.delete(smart_str(key))
	return remote_cache.decr(smart_str(key), args, *kwargs)

	def delete(self, key, args, *kwargs):
	local_cache.delete(smart_str(key))
	return remote_cache.delete(smart_str(key), args, *kwargs)

	def get_many(self, keys):
	values = local_cache.get_multi(map(smart_str, keys))
	if len(values) == len(keys):
	return values
	else:
	r_values = remote_cache.get_many(map(smart_str, keys))
	local_cache.set_multi(r_values, time=local_lifetime)
	return r_values

	def _get_local(self,key):
	return local_cache.get(smart_str(key))

	def close(self, args, *kwargs):
	local_cache.disconnect_all()

	cache = TwoLayerCache()

	# Tidy up at the end of request as per Django memcache backend
	signals.request_finished.connect(cache.close)
	import dualcache
	from dualcache import cache
	from django.core.cache import cache as remote_cache
	import time

	class DualCacheTest(TestCase):

	def setUp(self):
	keys = ['test', '1','2','3', '4', 'wensleydale', 'key']
	for k in keys:
	cache.delete(k)
	remote_cache.delete(k)

	def test_read(self):
	key = "test"
	remote_cache.set(key, 100)
	self.assertEquals(cache.get(key), 100)
	self.assertEquals(cache._get_local(key), 100)
	cache.set(key, 200)
	self.assertEquals(cache.get(key), 200)
	remote_cache.set(key, 300)
	self.assertEquals(cache.get(key), 200)
	time.sleep(settings.LOCAL_CACHE_LIFETIME+1)
	self.assertEquals(cache.get(key), 300)

	def test_multi_read(self):
	keys = ['1','2','3']
	remote_cache.set('1', 'one')
	remote_cache.set('2', 'two')
	values = cache.get_many(keys)
	self.assertEquals(len(values), 2)
	self.assertEquals(values['1'], 'one')
	self.assertEquals(values['2'], 'two')
	cache.set('3', 'three')
	values = cache.get_many(keys)
	self.assertEquals(set(values.keys()), set(['1','2','3']))
	remote_cache.delete('1')
	values = cache.get_many(keys)
	self.assertEquals(set(values.keys()), set(['1','2','3']))
	cache.delete('1')
	values = cache.get_many(keys)
	self.assertEquals(set(values.keys()), set(['2','3']))
	# Check that a missing value causes update from L2
	remote_cache.set('4', 'four')
	values = cache.get_many(keys+['4'])
	self.assertEquals(len(values), 3)
	self.assertEquals(cache._get_local('4'), 'four')

	def test_interface(self):
	key = "wensleydale"
	cache.set(key, "yummy")
	self.assertEquals(cache.get(key), "yummy")
	cache.set(key, 10)
	cache.incr(key, 10)
	self.assertEquals(cache.get(key), 20)
	cache.delete(key)
	self.assertEquals(cache.get(key), None)
	added = cache.add(key, 'new trousers')
	self.assertEquals(added, True)
	self.assertEquals(cache.get(key), 'new trousers')
	added = cache.add(key, 'old trousers')
	self.assertEquals(added, False)
	self.assertEquals(cache.get(key), 'new trousers')

	def test_incr(self):
	cache.set('key', 100)
	cache.incr('key')
	self.assertEquals(cache.get('key'), 101)
	cache.incr('key', 25)
	self.assertEquals(cache.get('key'), 126)
	try:
	ret = cache.incr('no-such-key')
	self.assertEquals(ret, None)
	except ValueError:
	# Some cache backends raise, some don't
	pass