zulip/zerver/tests/test_cache.py

302 lines
12 KiB
Python

from typing import Dict, List, Optional
from unittest.mock import Mock, patch
from django.conf import settings
from zerver.apps import flush_cache
from zerver.lib.cache import (
MEMCACHED_MAX_KEY_LENGTH,
InvalidCacheKeyException,
bulk_cached_fetch,
cache_delete,
cache_delete_many,
cache_get,
cache_get_many,
cache_set,
cache_set_many,
cache_with_key,
safe_cache_get_many,
safe_cache_set_many,
user_profile_by_id_cache_key,
validate_cache_key,
)
from zerver.lib.test_classes import ZulipTestCase
from zerver.models import UserProfile, get_realm, get_system_bot, get_user, get_user_profile_by_id
class AppsTest(ZulipTestCase):
def test_cache_gets_flushed(self) -> None:
with self.assertLogs(level="INFO") as m:
with patch("zerver.apps.cache.clear") as mock:
# The argument to flush_cache doesn't matter
flush_cache(Mock())
mock.assert_called_once()
self.assertEqual(m.output, ["INFO:root:Clearing memcached cache after migrations"])
self.assert_length(m.output, 1)
class CacheKeyValidationTest(ZulipTestCase):
def test_validate_cache_key(self) -> None:
validate_cache_key("nice_Ascii:string!~")
with self.assertRaises(InvalidCacheKeyException):
validate_cache_key("utf8_character:ą")
with self.assertRaises(InvalidCacheKeyException):
validate_cache_key("new_line_character:\n")
with self.assertRaises(InvalidCacheKeyException):
validate_cache_key("control_character:\r")
with self.assertRaises(InvalidCacheKeyException):
validate_cache_key("whitespace_character: ")
with self.assertRaises(InvalidCacheKeyException):
validate_cache_key("too_long:" + "X" * MEMCACHED_MAX_KEY_LENGTH)
with self.assertRaises(InvalidCacheKeyException):
# validate_cache_key does validation on a key with the
# KEY_PREFIX appended to the start, so even though we're
# passing something "short enough" here, it becomes too
# long after appending KEY_PREFIX.
validate_cache_key("X" * (MEMCACHED_MAX_KEY_LENGTH - 2))
def test_cache_functions_raise_exception(self) -> None:
invalid_key = "invalid_character:\n"
good_key = "good_key"
with self.assertRaises(InvalidCacheKeyException):
cache_get(invalid_key)
with self.assertRaises(InvalidCacheKeyException):
cache_set(invalid_key, 0)
with self.assertRaises(InvalidCacheKeyException):
cache_delete(invalid_key)
with self.assertRaises(InvalidCacheKeyException):
cache_get_many([good_key, invalid_key])
with self.assertRaises(InvalidCacheKeyException):
cache_set_many({good_key: 0, invalid_key: 1})
with self.assertRaises(InvalidCacheKeyException):
cache_delete_many([good_key, invalid_key])
class CacheWithKeyDecoratorTest(ZulipTestCase):
def test_cache_with_key_invalid_character(self) -> None:
def invalid_characters_cache_key_function(user_id: int) -> str:
return f"CacheWithKeyDecoratorTest:invalid_character:ą:{user_id}"
@cache_with_key(invalid_characters_cache_key_function, timeout=1000)
def get_user_function_with_bad_cache_keys(user_id: int) -> UserProfile:
return UserProfile.objects.get(id=user_id)
hamlet = self.example_user("hamlet")
with patch("zerver.lib.cache.cache_set") as mock_set, self.assertLogs(level="WARNING") as m:
with self.assert_database_query_count(1):
result = get_user_function_with_bad_cache_keys(hamlet.id)
self.assert_length(m.output, 1)
self.assertEqual(result, hamlet)
mock_set.assert_not_called()
def test_cache_with_key_key_too_long(self) -> None:
def too_long_cache_key_function(user_id: int) -> str:
return "CacheWithKeyDecoratorTest:very_long_key:{}:{}".format("a" * 250, user_id)
@cache_with_key(too_long_cache_key_function, timeout=1000)
def get_user_function_with_bad_cache_keys(user_id: int) -> UserProfile:
return UserProfile.objects.get(id=user_id)
hamlet = self.example_user("hamlet")
with patch("zerver.lib.cache.cache_set") as mock_set, self.assertLogs(level="WARNING") as m:
with self.assert_database_query_count(1):
result = get_user_function_with_bad_cache_keys(hamlet.id)
self.assert_length(m.output, 1)
self.assertEqual(result, hamlet)
mock_set.assert_not_called()
def test_cache_with_key_good_key(self) -> None:
def good_cache_key_function(user_id: int) -> str:
return f"CacheWithKeyDecoratorTest:good_cache_key:{user_id}"
@cache_with_key(good_cache_key_function, timeout=1000)
def get_user_function_with_good_cache_keys(user_id: int) -> UserProfile:
return UserProfile.objects.get(id=user_id)
hamlet = self.example_user("hamlet")
with self.assert_database_query_count(1):
result = get_user_function_with_good_cache_keys(hamlet.id)
self.assertEqual(result, hamlet)
# The previous function call should have cached the result correctly, so now
# no database queries should happen:
with self.assert_database_query_count(0, keep_cache_warm=True):
result_two = get_user_function_with_good_cache_keys(hamlet.id)
self.assertEqual(result_two, hamlet)
def test_cache_with_key_none_values(self) -> None:
def cache_key_function(user_id: int) -> str:
return f"CacheWithKeyDecoratorTest:test_cache_with_key_none_values:{user_id}"
@cache_with_key(cache_key_function, timeout=1000)
def get_user_function_can_return_none(user_id: int) -> Optional[UserProfile]:
try:
return UserProfile.objects.get(id=user_id)
except UserProfile.DoesNotExist:
return None
last_user = UserProfile.objects.last()
assert last_user is not None
last_user_id = last_user.id
with self.assert_database_query_count(1):
result = get_user_function_can_return_none(last_user_id + 1)
self.assertEqual(result, None)
with self.assert_database_query_count(0, keep_cache_warm=True):
result_two = get_user_function_can_return_none(last_user_id + 1)
self.assertEqual(result_two, None)
class SafeCacheFunctionsTest(ZulipTestCase):
def test_safe_cache_functions_with_all_good_keys(self) -> None:
items = {
"SafeFunctionsTest:key1": 1,
"SafeFunctionsTest:key2": 2,
"SafeFunctionsTest:key3": 3,
}
safe_cache_set_many(items)
result = safe_cache_get_many(list(items.keys()))
for key, value in result.items():
self.assertEqual(value, items[key])
def test_safe_cache_functions_with_all_bad_keys(self) -> None:
items = {"SafeFunctionsTest:\nbadkey1": 1, "SafeFunctionsTest:\nbadkey2": 2}
with self.assertLogs(level="WARNING") as m:
safe_cache_set_many(items)
self.assertIn(
"WARNING:root:Invalid cache key used: ['SafeFunctionsTest:\\nbadkey1', 'SafeFunctionsTest:\\nbadkey2']",
m.output[0],
)
self.assert_length(m.output, 1)
with self.assertLogs(level="WARNING") as m:
result = safe_cache_get_many(list(items.keys()))
self.assertEqual(result, {})
self.assertIn(
"WARNING:root:Invalid cache key used: ['SafeFunctionsTest:\\nbadkey1', 'SafeFunctionsTest:\\nbadkey2']",
m.output[0],
)
self.assert_length(m.output, 1)
def test_safe_cache_functions_with_good_and_bad_keys(self) -> None:
bad_items = {"SafeFunctionsTest:\nbadkey1": 1, "SafeFunctionsTest:\nbadkey2": 2}
good_items = {"SafeFunctionsTest:goodkey1": 3, "SafeFunctionsTest:goodkey2": 4}
items = {**good_items, **bad_items}
with self.assertLogs(level="WARNING") as m:
safe_cache_set_many(items)
self.assertIn(
"WARNING:root:Invalid cache key used: ['SafeFunctionsTest:\\nbadkey1', 'SafeFunctionsTest:\\nbadkey2']",
m.output[0],
)
self.assert_length(m.output, 1)
with self.assertLogs(level="WARNING") as m:
result = safe_cache_get_many(list(items.keys()))
self.assertEqual(result, good_items)
self.assertIn(
"WARNING:root:Invalid cache key used: ['SafeFunctionsTest:\\nbadkey1', 'SafeFunctionsTest:\\nbadkey2']",
m.output[0],
)
self.assert_length(m.output, 1)
class BotCacheKeyTest(ZulipTestCase):
def test_bot_profile_key_deleted_on_save(self) -> None:
realm = get_realm(settings.SYSTEM_BOT_REALM)
# Get the profile cached on both cache keys:
user_profile = get_user(settings.EMAIL_GATEWAY_BOT, realm)
bot_profile = get_system_bot(settings.EMAIL_GATEWAY_BOT, realm.id)
self.assertEqual(user_profile, bot_profile)
# Flip the setting and save:
flipped_setting = not bot_profile.can_forge_sender
bot_profile.can_forge_sender = flipped_setting
bot_profile.save()
# The .save() should have deleted cache keys, so if we fetch again,
# the returned objects should have can_forge_sender set correctly.
bot_profile2 = get_system_bot(settings.EMAIL_GATEWAY_BOT, realm.id)
self.assertEqual(bot_profile2.can_forge_sender, flipped_setting)
user_profile2 = get_user(settings.EMAIL_GATEWAY_BOT, realm)
self.assertEqual(user_profile2.can_forge_sender, flipped_setting)
def get_user_id(user: UserProfile) -> int:
return user.id # nocoverage
def get_user_email(user: UserProfile) -> str:
return user.email # nocoverage
class GenericBulkCachedFetchTest(ZulipTestCase):
def test_query_function_called_only_if_needed(self) -> None:
hamlet = self.example_user("hamlet")
# Get the user cached:
get_user_profile_by_id(hamlet.id)
class CustomException(Exception):
pass
def query_function(ids: List[int]) -> List[UserProfile]:
raise CustomException("The query function was called")
# query_function shouldn't be called, because the only requested object
# is already cached:
result: Dict[int, UserProfile] = bulk_cached_fetch(
cache_key_function=user_profile_by_id_cache_key,
query_function=query_function,
object_ids=[hamlet.id],
id_fetcher=get_user_id,
)
self.assertEqual(result, {hamlet.id: hamlet})
with self.assertLogs(level="INFO") as info_log:
flush_cache(Mock())
self.assertEqual(info_log.output, ["INFO:root:Clearing memcached cache after migrations"])
# With the cache flushed, the query_function should get called:
with self.assertRaises(CustomException):
result = bulk_cached_fetch(
cache_key_function=user_profile_by_id_cache_key,
query_function=query_function,
object_ids=[hamlet.id],
id_fetcher=get_user_id,
)
def test_empty_object_ids_list(self) -> None:
class CustomException(Exception):
pass
def cache_key_function(
email: str,
) -> str: # nocoverage -- this is just here to make sure it's not called
raise CustomException("The cache key function was called")
def query_function(
emails: List[str],
) -> List[UserProfile]: # nocoverage -- this is just here to make sure it's not called
raise CustomException("The query function was called")
# query_function and cache_key_function shouldn't be called, because
# objects_ids is empty, so there's nothing to do.
result: Dict[str, UserProfile] = bulk_cached_fetch(
cache_key_function=cache_key_function,
query_function=query_function,
object_ids=[],
id_fetcher=get_user_email,
)
self.assertEqual(result, {})