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django/tests/regressiontests/cache/tests.py
Malcolm Tredinnick fc26da645a Add warning when using cache keys that might not work with memcached.
This means testing with local dev caches (not memcache) will warn
developers if they are introducing inadvertent importabilities. There is
also the ability to silence the warning if a dev is not planning to use
memcache and knows what they are doing with their keys.

Thanks to Carl Meyer for the patch. Fixed #6447.

git-svn-id: http://code.djangoproject.com/svn/django/trunk@13766 bcc190cf-cafb-0310-a4f2-bffc1f526a37
2010-09-12 18:45:26 +00:00

656 lines
27 KiB
Python

# -*- coding: utf-8 -*-
# Unit tests for cache framework
# Uses whatever cache backend is set in the test settings file.
import os
import shutil
import tempfile
import time
import unittest
import warnings
from django.conf import settings
from django.core import management
from django.core.cache import get_cache
from django.core.cache.backends.base import InvalidCacheBackendError, CacheKeyWarning
from django.http import HttpResponse, HttpRequest
from django.middleware.cache import FetchFromCacheMiddleware, UpdateCacheMiddleware
from django.utils import translation
from django.utils.cache import patch_vary_headers, get_cache_key, learn_cache_key
from django.utils.hashcompat import md5_constructor
from regressiontests.cache.models import Poll, expensive_calculation
# functions/classes for complex data type tests
def f():
return 42
class C:
def m(n):
return 24
class DummyCacheTests(unittest.TestCase):
# The Dummy cache backend doesn't really behave like a test backend,
# so it has different test requirements.
def setUp(self):
self.cache = get_cache('dummy://')
def test_simple(self):
"Dummy cache backend ignores cache set calls"
self.cache.set("key", "value")
self.assertEqual(self.cache.get("key"), None)
def test_add(self):
"Add doesn't do anything in dummy cache backend"
self.cache.add("addkey1", "value")
result = self.cache.add("addkey1", "newvalue")
self.assertEqual(result, True)
self.assertEqual(self.cache.get("addkey1"), None)
def test_non_existent(self):
"Non-existent keys aren't found in the dummy cache backend"
self.assertEqual(self.cache.get("does_not_exist"), None)
self.assertEqual(self.cache.get("does_not_exist", "bang!"), "bang!")
def test_get_many(self):
"get_many returns nothing for the dummy cache backend"
self.cache.set('a', 'a')
self.cache.set('b', 'b')
self.cache.set('c', 'c')
self.cache.set('d', 'd')
self.assertEqual(self.cache.get_many(['a', 'c', 'd']), {})
self.assertEqual(self.cache.get_many(['a', 'b', 'e']), {})
def test_delete(self):
"Cache deletion is transparently ignored on the dummy cache backend"
self.cache.set("key1", "spam")
self.cache.set("key2", "eggs")
self.assertEqual(self.cache.get("key1"), None)
self.cache.delete("key1")
self.assertEqual(self.cache.get("key1"), None)
self.assertEqual(self.cache.get("key2"), None)
def test_has_key(self):
"The has_key method doesn't ever return True for the dummy cache backend"
self.cache.set("hello1", "goodbye1")
self.assertEqual(self.cache.has_key("hello1"), False)
self.assertEqual(self.cache.has_key("goodbye1"), False)
def test_in(self):
"The in operator doesn't ever return True for the dummy cache backend"
self.cache.set("hello2", "goodbye2")
self.assertEqual("hello2" in self.cache, False)
self.assertEqual("goodbye2" in self.cache, False)
def test_incr(self):
"Dummy cache values can't be incremented"
self.cache.set('answer', 42)
self.assertRaises(ValueError, self.cache.incr, 'answer')
self.assertRaises(ValueError, self.cache.incr, 'does_not_exist')
def test_decr(self):
"Dummy cache values can't be decremented"
self.cache.set('answer', 42)
self.assertRaises(ValueError, self.cache.decr, 'answer')
self.assertRaises(ValueError, self.cache.decr, 'does_not_exist')
def test_data_types(self):
"All data types are ignored equally by the dummy cache"
stuff = {
'string' : 'this is a string',
'int' : 42,
'list' : [1, 2, 3, 4],
'tuple' : (1, 2, 3, 4),
'dict' : {'A': 1, 'B' : 2},
'function' : f,
'class' : C,
}
self.cache.set("stuff", stuff)
self.assertEqual(self.cache.get("stuff"), None)
def test_expiration(self):
"Expiration has no effect on the dummy cache"
self.cache.set('expire1', 'very quickly', 1)
self.cache.set('expire2', 'very quickly', 1)
self.cache.set('expire3', 'very quickly', 1)
time.sleep(2)
self.assertEqual(self.cache.get("expire1"), None)
self.cache.add("expire2", "newvalue")
self.assertEqual(self.cache.get("expire2"), None)
self.assertEqual(self.cache.has_key("expire3"), False)
def test_unicode(self):
"Unicode values are ignored by the dummy cache"
stuff = {
u'ascii': u'ascii_value',
u'unicode_ascii': u'Iñtërnâtiônàlizætiøn1',
u'Iñtërnâtiônàlizætiøn': u'Iñtërnâtiônàlizætiøn2',
u'ascii': {u'x' : 1 }
}
for (key, value) in stuff.items():
self.cache.set(key, value)
self.assertEqual(self.cache.get(key), None)
def test_set_many(self):
"set_many does nothing for the dummy cache backend"
self.cache.set_many({'a': 1, 'b': 2})
def test_delete_many(self):
"delete_many does nothing for the dummy cache backend"
self.cache.delete_many(['a', 'b'])
def test_clear(self):
"clear does nothing for the dummy cache backend"
self.cache.clear()
class BaseCacheTests(object):
# A common set of tests to apply to all cache backends
def tearDown(self):
self.cache.clear()
def test_simple(self):
# Simple cache set/get works
self.cache.set("key", "value")
self.assertEqual(self.cache.get("key"), "value")
def test_add(self):
# A key can be added to a cache
self.cache.add("addkey1", "value")
result = self.cache.add("addkey1", "newvalue")
self.assertEqual(result, False)
self.assertEqual(self.cache.get("addkey1"), "value")
def test_non_existent(self):
# Non-existent cache keys return as None/default
# get with non-existent keys
self.assertEqual(self.cache.get("does_not_exist"), None)
self.assertEqual(self.cache.get("does_not_exist", "bang!"), "bang!")
def test_get_many(self):
# Multiple cache keys can be returned using get_many
self.cache.set('a', 'a')
self.cache.set('b', 'b')
self.cache.set('c', 'c')
self.cache.set('d', 'd')
self.assertEqual(self.cache.get_many(['a', 'c', 'd']), {'a' : 'a', 'c' : 'c', 'd' : 'd'})
self.assertEqual(self.cache.get_many(['a', 'b', 'e']), {'a' : 'a', 'b' : 'b'})
def test_delete(self):
# Cache keys can be deleted
self.cache.set("key1", "spam")
self.cache.set("key2", "eggs")
self.assertEqual(self.cache.get("key1"), "spam")
self.cache.delete("key1")
self.assertEqual(self.cache.get("key1"), None)
self.assertEqual(self.cache.get("key2"), "eggs")
def test_has_key(self):
# The cache can be inspected for cache keys
self.cache.set("hello1", "goodbye1")
self.assertEqual(self.cache.has_key("hello1"), True)
self.assertEqual(self.cache.has_key("goodbye1"), False)
def test_in(self):
# The in operator can be used to inspet cache contents
self.cache.set("hello2", "goodbye2")
self.assertEqual("hello2" in self.cache, True)
self.assertEqual("goodbye2" in self.cache, False)
def test_incr(self):
# Cache values can be incremented
self.cache.set('answer', 41)
self.assertEqual(self.cache.incr('answer'), 42)
self.assertEqual(self.cache.get('answer'), 42)
self.assertEqual(self.cache.incr('answer', 10), 52)
self.assertEqual(self.cache.get('answer'), 52)
self.assertRaises(ValueError, self.cache.incr, 'does_not_exist')
def test_decr(self):
# Cache values can be decremented
self.cache.set('answer', 43)
self.assertEqual(self.cache.decr('answer'), 42)
self.assertEqual(self.cache.get('answer'), 42)
self.assertEqual(self.cache.decr('answer', 10), 32)
self.assertEqual(self.cache.get('answer'), 32)
self.assertRaises(ValueError, self.cache.decr, 'does_not_exist')
def test_data_types(self):
# Many different data types can be cached
stuff = {
'string' : 'this is a string',
'int' : 42,
'list' : [1, 2, 3, 4],
'tuple' : (1, 2, 3, 4),
'dict' : {'A': 1, 'B' : 2},
'function' : f,
'class' : C,
}
self.cache.set("stuff", stuff)
self.assertEqual(self.cache.get("stuff"), stuff)
def test_cache_read_for_model_instance(self):
# Don't want fields with callable as default to be called on cache read
expensive_calculation.num_runs = 0
Poll.objects.all().delete()
my_poll = Poll.objects.create(question="Well?")
self.assertEqual(Poll.objects.count(), 1)
pub_date = my_poll.pub_date
self.cache.set('question', my_poll)
cached_poll = self.cache.get('question')
self.assertEqual(cached_poll.pub_date, pub_date)
# We only want the default expensive calculation run once
self.assertEqual(expensive_calculation.num_runs, 1)
def test_cache_write_for_model_instance_with_deferred(self):
# Don't want fields with callable as default to be called on cache write
expensive_calculation.num_runs = 0
Poll.objects.all().delete()
my_poll = Poll.objects.create(question="What?")
self.assertEqual(expensive_calculation.num_runs, 1)
defer_qs = Poll.objects.all().defer('question')
self.assertEqual(defer_qs.count(), 1)
self.assertEqual(expensive_calculation.num_runs, 1)
self.cache.set('deferred_queryset', defer_qs)
# cache set should not re-evaluate default functions
self.assertEqual(expensive_calculation.num_runs, 1)
def test_cache_read_for_model_instance_with_deferred(self):
# Don't want fields with callable as default to be called on cache read
expensive_calculation.num_runs = 0
Poll.objects.all().delete()
my_poll = Poll.objects.create(question="What?")
self.assertEqual(expensive_calculation.num_runs, 1)
defer_qs = Poll.objects.all().defer('question')
self.assertEqual(defer_qs.count(), 1)
self.cache.set('deferred_queryset', defer_qs)
self.assertEqual(expensive_calculation.num_runs, 1)
runs_before_cache_read = expensive_calculation.num_runs
cached_polls = self.cache.get('deferred_queryset')
# We only want the default expensive calculation run on creation and set
self.assertEqual(expensive_calculation.num_runs, runs_before_cache_read)
def test_expiration(self):
# Cache values can be set to expire
self.cache.set('expire1', 'very quickly', 1)
self.cache.set('expire2', 'very quickly', 1)
self.cache.set('expire3', 'very quickly', 1)
time.sleep(2)
self.assertEqual(self.cache.get("expire1"), None)
self.cache.add("expire2", "newvalue")
self.assertEqual(self.cache.get("expire2"), "newvalue")
self.assertEqual(self.cache.has_key("expire3"), False)
def test_unicode(self):
# Unicode values can be cached
stuff = {
u'ascii': u'ascii_value',
u'unicode_ascii': u'Iñtërnâtiônàlizætiøn1',
u'Iñtërnâtiônàlizætiøn': u'Iñtërnâtiônàlizætiøn2',
u'ascii': {u'x' : 1 }
}
for (key, value) in stuff.items():
self.cache.set(key, value)
self.assertEqual(self.cache.get(key), value)
def test_binary_string(self):
# Binary strings should be cachable
from zlib import compress, decompress
value = 'value_to_be_compressed'
compressed_value = compress(value)
self.cache.set('binary1', compressed_value)
compressed_result = self.cache.get('binary1')
self.assertEqual(compressed_value, compressed_result)
self.assertEqual(value, decompress(compressed_result))
def test_set_many(self):
# Multiple keys can be set using set_many
self.cache.set_many({"key1": "spam", "key2": "eggs"})
self.assertEqual(self.cache.get("key1"), "spam")
self.assertEqual(self.cache.get("key2"), "eggs")
def test_set_many_expiration(self):
# set_many takes a second ``timeout`` parameter
self.cache.set_many({"key1": "spam", "key2": "eggs"}, 1)
time.sleep(2)
self.assertEqual(self.cache.get("key1"), None)
self.assertEqual(self.cache.get("key2"), None)
def test_delete_many(self):
# Multiple keys can be deleted using delete_many
self.cache.set("key1", "spam")
self.cache.set("key2", "eggs")
self.cache.set("key3", "ham")
self.cache.delete_many(["key1", "key2"])
self.assertEqual(self.cache.get("key1"), None)
self.assertEqual(self.cache.get("key2"), None)
self.assertEqual(self.cache.get("key3"), "ham")
def test_clear(self):
# The cache can be emptied using clear
self.cache.set("key1", "spam")
self.cache.set("key2", "eggs")
self.cache.clear()
self.assertEqual(self.cache.get("key1"), None)
self.assertEqual(self.cache.get("key2"), None)
def test_long_timeout(self):
'''
Using a timeout greater than 30 days makes memcached think
it is an absolute expiration timestamp instead of a relative
offset. Test that we honour this convention. Refs #12399.
'''
self.cache.set('key1', 'eggs', 60*60*24*30 + 1) #30 days + 1 second
self.assertEqual(self.cache.get('key1'), 'eggs')
self.cache.add('key2', 'ham', 60*60*24*30 + 1)
self.assertEqual(self.cache.get('key2'), 'ham')
self.cache.set_many({'key3': 'sausage', 'key4': 'lobster bisque'}, 60*60*24*30 + 1)
self.assertEqual(self.cache.get('key3'), 'sausage')
self.assertEqual(self.cache.get('key4'), 'lobster bisque')
def perform_cull_test(self, initial_count, final_count):
"""This is implemented as a utility method, because only some of the backends
implement culling. The culling algorithm also varies slightly, so the final
number of entries will vary between backends"""
# Create initial cache key entries. This will overflow the cache, causing a cull
for i in range(1, initial_count):
self.cache.set('cull%d' % i, 'value', 1000)
count = 0
# Count how many keys are left in the cache.
for i in range(1, initial_count):
if self.cache.has_key('cull%d' % i):
count = count + 1
self.assertEqual(count, final_count)
def test_invalid_keys(self):
"""
All the builtin backends (except memcached, see below) should warn on
keys that would be refused by memcached. This encourages portable
caching code without making it too difficult to use production backends
with more liberal key rules. Refs #6447.
"""
# On Python 2.6+ we could use the catch_warnings context
# manager to test this warning nicely. Since we can't do that
# yet, the cleanest option is to temporarily ask for
# CacheKeyWarning to be raised as an exception.
warnings.simplefilter("error", CacheKeyWarning)
# memcached does not allow whitespace or control characters in keys
self.assertRaises(CacheKeyWarning, self.cache.set, 'key with spaces', 'value')
# memcached limits key length to 250
self.assertRaises(CacheKeyWarning, self.cache.set, 'a' * 251, 'value')
# The warnings module has no public API for getting the
# current list of warning filters, so we can't save that off
# and reset to the previous value, we have to globally reset
# it. The effect will be the same, as long as the Django test
# runner doesn't add any global warning filters (it currently
# does not).
warnings.resetwarnings()
class DBCacheTests(unittest.TestCase, BaseCacheTests):
def setUp(self):
# Spaces are used in the table name to ensure quoting/escaping is working
self._table_name = 'test cache table'
management.call_command('createcachetable', self._table_name, verbosity=0, interactive=False)
self.cache = get_cache('db://%s?max_entries=30' % self._table_name)
def tearDown(self):
from django.db import connection
cursor = connection.cursor()
cursor.execute('DROP TABLE %s' % connection.ops.quote_name(self._table_name))
def test_cull(self):
self.perform_cull_test(50, 29)
class LocMemCacheTests(unittest.TestCase, BaseCacheTests):
def setUp(self):
self.cache = get_cache('locmem://?max_entries=30')
def test_cull(self):
self.perform_cull_test(50, 29)
# memcached backend isn't guaranteed to be available.
# To check the memcached backend, the test settings file will
# need to contain a CACHE_BACKEND setting that points at
# your memcache server.
if settings.CACHE_BACKEND.startswith('memcached://'):
class MemcachedCacheTests(unittest.TestCase, BaseCacheTests):
def setUp(self):
self.cache = get_cache(settings.CACHE_BACKEND)
def test_invalid_keys(self):
"""
On memcached, we don't introduce a duplicate key validation
step (for speed reasons), we just let the memcached API
library raise its own exception on bad keys. Refs #6447.
In order to be memcached-API-library agnostic, we only assert
that a generic exception of some kind is raised.
"""
# memcached does not allow whitespace or control characters in keys
self.assertRaises(Exception, self.cache.set, 'key with spaces', 'value')
# memcached limits key length to 250
self.assertRaises(Exception, self.cache.set, 'a' * 251, 'value')
class FileBasedCacheTests(unittest.TestCase, BaseCacheTests):
"""
Specific test cases for the file-based cache.
"""
def setUp(self):
self.dirname = tempfile.mkdtemp()
self.cache = get_cache('file://%s?max_entries=30' % self.dirname)
def test_hashing(self):
"""Test that keys are hashed into subdirectories correctly"""
self.cache.set("foo", "bar")
keyhash = md5_constructor("foo").hexdigest()
keypath = os.path.join(self.dirname, keyhash[:2], keyhash[2:4], keyhash[4:])
self.assert_(os.path.exists(keypath))
def test_subdirectory_removal(self):
"""
Make sure that the created subdirectories are correctly removed when empty.
"""
self.cache.set("foo", "bar")
keyhash = md5_constructor("foo").hexdigest()
keypath = os.path.join(self.dirname, keyhash[:2], keyhash[2:4], keyhash[4:])
self.assert_(os.path.exists(keypath))
self.cache.delete("foo")
self.assert_(not os.path.exists(keypath))
self.assert_(not os.path.exists(os.path.dirname(keypath)))
self.assert_(not os.path.exists(os.path.dirname(os.path.dirname(keypath))))
def test_cull(self):
self.perform_cull_test(50, 28)
class CustomCacheKeyValidationTests(unittest.TestCase):
"""
Tests for the ability to mixin a custom ``validate_key`` method to
a custom cache backend that otherwise inherits from a builtin
backend, and override the default key validation. Refs #6447.
"""
def test_custom_key_validation(self):
cache = get_cache('regressiontests.cache.liberal_backend://')
# this key is both longer than 250 characters, and has spaces
key = 'some key with spaces' * 15
val = 'a value'
cache.set(key, val)
self.assertEqual(cache.get(key), val)
class CacheUtils(unittest.TestCase):
"""TestCase for django.utils.cache functions."""
def setUp(self):
self.path = '/cache/test/'
self.old_settings_key_prefix = settings.CACHE_MIDDLEWARE_KEY_PREFIX
self.old_middleware_seconds = settings.CACHE_MIDDLEWARE_SECONDS
self.orig_use_i18n = settings.USE_I18N
settings.CACHE_MIDDLEWARE_KEY_PREFIX = 'settingsprefix'
settings.CACHE_MIDDLEWARE_SECONDS = 1
settings.USE_I18N = False
def tearDown(self):
settings.CACHE_MIDDLEWARE_KEY_PREFIX = self.old_settings_key_prefix
settings.CACHE_MIDDLEWARE_SECONDS = self.old_middleware_seconds
settings.USE_I18N = self.orig_use_i18n
def _get_request(self, path):
request = HttpRequest()
request.META = {
'SERVER_NAME': 'testserver',
'SERVER_PORT': 80,
}
request.path = request.path_info = "/cache/%s" % path
return request
def test_patch_vary_headers(self):
headers = (
# Initial vary, new headers, resulting vary.
(None, ('Accept-Encoding',), 'Accept-Encoding'),
('Accept-Encoding', ('accept-encoding',), 'Accept-Encoding'),
('Accept-Encoding', ('ACCEPT-ENCODING',), 'Accept-Encoding'),
('Cookie', ('Accept-Encoding',), 'Cookie, Accept-Encoding'),
('Cookie, Accept-Encoding', ('Accept-Encoding',), 'Cookie, Accept-Encoding'),
('Cookie, Accept-Encoding', ('Accept-Encoding', 'cookie'), 'Cookie, Accept-Encoding'),
(None, ('Accept-Encoding', 'COOKIE'), 'Accept-Encoding, COOKIE'),
('Cookie, Accept-Encoding', ('Accept-Encoding', 'cookie'), 'Cookie, Accept-Encoding'),
('Cookie , Accept-Encoding', ('Accept-Encoding', 'cookie'), 'Cookie, Accept-Encoding'),
)
for initial_vary, newheaders, resulting_vary in headers:
response = HttpResponse()
if initial_vary is not None:
response['Vary'] = initial_vary
patch_vary_headers(response, newheaders)
self.assertEqual(response['Vary'], resulting_vary)
def test_get_cache_key(self):
request = self._get_request(self.path)
response = HttpResponse()
key_prefix = 'localprefix'
# Expect None if no headers have been set yet.
self.assertEqual(get_cache_key(request), None)
# Set headers to an empty list.
learn_cache_key(request, response)
self.assertEqual(get_cache_key(request), 'views.decorators.cache.cache_page.settingsprefix.a8c87a3d8c44853d7f79474f7ffe4ad5.d41d8cd98f00b204e9800998ecf8427e')
# Verify that a specified key_prefix is taken in to account.
learn_cache_key(request, response, key_prefix=key_prefix)
self.assertEqual(get_cache_key(request, key_prefix=key_prefix), 'views.decorators.cache.cache_page.localprefix.a8c87a3d8c44853d7f79474f7ffe4ad5.d41d8cd98f00b204e9800998ecf8427e')
def test_learn_cache_key(self):
request = self._get_request(self.path)
response = HttpResponse()
response['Vary'] = 'Pony'
# Make sure that the Vary header is added to the key hash
learn_cache_key(request, response)
self.assertEqual(get_cache_key(request), 'views.decorators.cache.cache_page.settingsprefix.a8c87a3d8c44853d7f79474f7ffe4ad5.d41d8cd98f00b204e9800998ecf8427e')
class CacheI18nTest(unittest.TestCase):
def setUp(self):
self.orig_cache_middleware_seconds = settings.CACHE_MIDDLEWARE_SECONDS
self.orig_cache_middleware_key_prefix = settings.CACHE_MIDDLEWARE_KEY_PREFIX
self.orig_cache_backend = settings.CACHE_BACKEND
self.orig_use_i18n = settings.USE_I18N
self.orig_languages = settings.LANGUAGES
settings.LANGUAGES = (
('en', 'English'),
('es', 'Spanish'),
)
settings.CACHE_MIDDLEWARE_KEY_PREFIX = 'settingsprefix'
self.path = '/cache/test/'
def tearDown(self):
settings.CACHE_MIDDLEWARE_SECONDS = self.orig_cache_middleware_seconds
settings.CACHE_MIDDLEWARE_KEY_PREFIX = self.orig_cache_middleware_key_prefix
settings.CACHE_BACKEND = self.orig_cache_backend
settings.USE_I18N = self.orig_use_i18n
settings.LANGUAGES = self.orig_languages
translation.deactivate()
def _get_request(self):
request = HttpRequest()
request.META = {
'SERVER_NAME': 'testserver',
'SERVER_PORT': 80,
}
request.path = request.path_info = self.path
return request
def _get_request_cache(self):
request = HttpRequest()
request.META = {
'SERVER_NAME': 'testserver',
'SERVER_PORT': 80,
}
request.path = request.path_info = self.path
request._cache_update_cache = True
request.method = 'GET'
request.session = {}
return request
def test_cache_key_i18n(self):
settings.USE_I18N = True
request = self._get_request()
lang = translation.get_language()
response = HttpResponse()
key = learn_cache_key(request, response)
self.assertTrue(key.endswith(lang), "Cache keys should include the language name when i18n is active")
key2 = get_cache_key(request)
self.assertEqual(key, key2)
def test_cache_key_no_i18n (self):
settings.USE_I18N = False
request = self._get_request()
lang = translation.get_language()
response = HttpResponse()
key = learn_cache_key(request, response)
self.assertFalse(key.endswith(lang), "Cache keys shouldn't include the language name when i18n is inactive")
def test_middleware(self):
def set_cache(request, lang, msg):
translation.activate(lang)
response = HttpResponse()
response.content= msg
return UpdateCacheMiddleware().process_response(request, response)
settings.CACHE_MIDDLEWARE_SECONDS = 60
settings.CACHE_MIDDLEWARE_KEY_PREFIX="test"
settings.CACHE_BACKEND='locmem:///'
settings.USE_I18N = True
en_message ="Hello world!"
es_message ="Hola mundo!"
request = self._get_request_cache()
set_cache(request, 'en', en_message)
get_cache_data = FetchFromCacheMiddleware().process_request(request)
# Check that we can recover the cache
self.assertNotEqual(get_cache_data.content, None)
self.assertEqual(en_message, get_cache_data.content)
# change the session language and set content
request = self._get_request_cache()
set_cache(request, 'es', es_message)
# change again the language
translation.activate('en')
# retrieve the content from cache
get_cache_data = FetchFromCacheMiddleware().process_request(request)
self.assertEqual(get_cache_data.content, en_message)
# change again the language
translation.activate('es')
get_cache_data = FetchFromCacheMiddleware().process_request(request)
self.assertEqual(get_cache_data.content, es_message)
if __name__ == '__main__':
unittest.main()