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585 lines
17 KiB
585 lines
17 KiB
# mypy: ignore-errors
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import collections
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import itertools
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import json
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import random
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from threading import Lock
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from threading import Thread
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import time
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import uuid
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import pytest
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from dogpile.cache import CacheRegion
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from dogpile.cache import register_backend
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from dogpile.cache.api import CacheBackend
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from dogpile.cache.api import CacheMutex
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from dogpile.cache.api import CantDeserializeException
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from dogpile.cache.api import NO_VALUE
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from dogpile.cache.region import _backend_loader
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from .assertions import assert_raises_message
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from .assertions import eq_
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def gen_some_key():
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return f"some_key_{random.randint(1, 100000)}"
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class _GenericBackendFixture:
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@classmethod
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def setup_class(cls):
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backend_cls = _backend_loader.load(cls.backend)
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try:
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arguments = cls.config_args.get("arguments", {})
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backend = backend_cls(arguments)
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except ImportError:
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pytest.skip("Backend %s not installed" % cls.backend)
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cls._check_backend_available(backend)
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def teardown_method(self, method):
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some_key = gen_some_key()
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if self._region_inst:
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for key in self._keys:
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self._region_inst.delete(key)
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self._keys.clear()
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elif self._backend_inst:
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self._backend_inst.delete(some_key)
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@classmethod
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def _check_backend_available(cls, backend):
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pass
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region_args = {}
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config_args = {}
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extra_arguments = {}
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_region_inst = None
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_backend_inst = None
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_keys = set()
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def _region(self, backend=None, region_args={}, config_args={}):
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_region_args = {}
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# TODO: maybe we use a class-level naming convention instead
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# of a dict here so that arguments merge naturally
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for cls in reversed(self.__class__.__mro__):
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if "region_args" in cls.__dict__:
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_region_args.update(cls.__dict__["region_args"])
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_region_args.update(**region_args)
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_config_args = self.config_args.copy()
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_config_args.update(config_args)
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def _store_keys(key):
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if existing_key_mangler:
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key = existing_key_mangler(key)
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self._keys.add(key)
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return key
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self._region_inst = reg = CacheRegion(**_region_args)
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existing_key_mangler = self._region_inst.key_mangler
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self._region_inst.key_mangler = _store_keys
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self._region_inst._user_defined_key_mangler = _store_keys
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reg.configure(backend or self.backend, **_config_args)
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return reg
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def _backend(self):
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backend_cls = _backend_loader.load(self.backend)
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_config_args = self.config_args.copy()
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arguments = _config_args.get("arguments", {})
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arguments = {**arguments, **self.extra_arguments}
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self._backend_inst = backend_cls(arguments)
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return self._backend_inst
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class _GenericBackendTestSuite(_GenericBackendFixture):
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def test_backend_get_nothing(self):
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backend = self._backend()
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some_key = gen_some_key()
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eq_(backend.get_serialized(some_key), NO_VALUE)
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def test_backend_delete_nothing(self):
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backend = self._backend()
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some_key = gen_some_key()
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backend.delete(some_key)
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def test_backend_set_get_value(self):
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backend = self._backend()
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some_key = gen_some_key()
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backend.set_serialized(some_key, b"some value")
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eq_(backend.get_serialized(some_key), b"some value")
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def test_backend_delete(self):
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backend = self._backend()
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some_key = gen_some_key()
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backend.set_serialized(some_key, b"some value")
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backend.delete(some_key)
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eq_(backend.get_serialized(some_key), NO_VALUE)
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def test_region_is_key_locked(self):
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reg = self._region()
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random_key = str(uuid.uuid1())
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assert not reg.get(random_key)
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eq_(reg.key_is_locked(random_key), False)
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# ensures that calling key_is_locked doesn't acquire the lock
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eq_(reg.key_is_locked(random_key), False)
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mutex = reg.backend.get_mutex(random_key)
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if mutex:
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mutex.acquire()
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eq_(reg.key_is_locked(random_key), True)
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mutex.release()
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eq_(reg.key_is_locked(random_key), False)
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def test_region_set_get_value(self):
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reg = self._region()
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some_key = gen_some_key()
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reg.set(some_key, "some value")
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eq_(reg.get(some_key), "some value")
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def test_region_set_multiple_values(self):
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reg = self._region()
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values = {"key1": "value1", "key2": "value2", "key3": "value3"}
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reg.set_multi(values)
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eq_(values["key1"], reg.get("key1"))
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eq_(values["key2"], reg.get("key2"))
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eq_(values["key3"], reg.get("key3"))
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def test_region_get_zero_multiple_values(self):
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reg = self._region()
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eq_(reg.get_multi([]), [])
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def test_region_set_zero_multiple_values(self):
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reg = self._region()
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reg.set_multi({})
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def test_region_set_zero_multiple_values_w_decorator(self):
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reg = self._region()
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values = reg.get_or_create_multi([], lambda: 0)
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eq_(values, [])
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def test_region_get_or_create_multi_w_should_cache_none(self):
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reg = self._region()
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values = reg.get_or_create_multi(
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["key1", "key2", "key3"],
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lambda *k: [None, None, None],
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should_cache_fn=lambda v: v is not None,
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)
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eq_(values, [None, None, None])
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def test_region_get_multiple_values(self):
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reg = self._region()
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key1 = "value1"
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key2 = "value2"
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key3 = "value3"
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reg.set("key1", key1)
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reg.set("key2", key2)
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reg.set("key3", key3)
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values = reg.get_multi(["key1", "key2", "key3"])
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eq_([key1, key2, key3], values)
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def test_region_get_nothing_multiple(self):
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reg = self._region()
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reg.delete_multi(["key1", "key2", "key3", "key4", "key5"])
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values = {"key1": "value1", "key3": "value3", "key5": "value5"}
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reg.set_multi(values)
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reg_values = reg.get_multi(
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["key1", "key2", "key3", "key4", "key5", "key6"]
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)
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eq_(
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reg_values,
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["value1", NO_VALUE, "value3", NO_VALUE, "value5", NO_VALUE],
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)
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def test_region_get_empty_multiple(self):
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reg = self._region()
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reg_values = reg.get_multi([])
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eq_(reg_values, [])
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def test_region_delete_multiple(self):
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reg = self._region()
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values = {"key1": "value1", "key2": "value2", "key3": "value3"}
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reg.set_multi(values)
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reg.delete_multi(["key2", "key10"])
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eq_(values["key1"], reg.get("key1"))
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eq_(NO_VALUE, reg.get("key2"))
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eq_(values["key3"], reg.get("key3"))
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eq_(NO_VALUE, reg.get("key10"))
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def test_region_set_get_nothing(self):
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reg = self._region()
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some_key = gen_some_key()
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reg.delete_multi([some_key])
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eq_(reg.get(some_key), NO_VALUE)
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def test_region_creator(self):
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reg = self._region()
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def creator():
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return "some value"
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some_key = gen_some_key()
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eq_(reg.get_or_create(some_key, creator), "some value")
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@pytest.mark.time_intensive
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def test_threaded_dogpile(self):
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# run a basic dogpile concurrency test.
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# note the concurrency of dogpile itself
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# is intensively tested as part of dogpile.
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reg = self._region(config_args={"expiration_time": 0.25})
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lock = Lock()
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canary = []
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some_key = gen_some_key()
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def creator():
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ack = lock.acquire(False)
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canary.append(ack)
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time.sleep(0.25)
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if ack:
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lock.release()
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return "some value"
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def f():
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for x in range(5):
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reg.get_or_create(some_key, creator)
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time.sleep(0.5)
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threads = [Thread(target=f) for i in range(10)]
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for t in threads:
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t.start()
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for t in threads:
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t.join()
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assert len(canary) > 2
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if not reg.backend.has_lock_timeout():
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assert False not in canary
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@pytest.mark.time_intensive
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def test_threaded_get_multi(self):
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"""This test is testing that when we get inside the "creator" for
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a certain key, there are no other "creators" running at all for
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that key.
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With "distributed" locks, this is not 100% the case.
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"""
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some_key = gen_some_key()
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reg = self._region(config_args={"expiration_time": 0.25})
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backend_mutex = reg.backend.get_mutex(some_key)
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is_custom_mutex = backend_mutex is not None
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locks = dict((str(i), Lock()) for i in range(11))
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canary = collections.defaultdict(list)
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def creator(*keys):
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assert keys
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ack = [locks[key].acquire(False) for key in keys]
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# print(
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# ("%s " % thread.get_ident()) + \
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# ", ".join(sorted("%s=%s" % (key, acq)
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# for acq, key in zip(ack, keys)))
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# )
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for acq, key in zip(ack, keys):
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canary[key].append(acq)
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time.sleep(0.5)
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for acq, key in zip(ack, keys):
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if acq:
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locks[key].release()
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return ["some value %s" % k for k in keys]
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def f():
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for x in range(5):
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reg.get_or_create_multi(
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[
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str(random.randint(1, 10))
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for i in range(random.randint(1, 5))
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],
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creator,
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)
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time.sleep(0.5)
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f()
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threads = [Thread(target=f) for i in range(5)]
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for t in threads:
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t.start()
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for t in threads:
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t.join()
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assert sum([len(v) for v in canary.values()]) > 10
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# for non-custom mutex, check that we never had two creators
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# running at once
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if not is_custom_mutex:
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for l in canary.values():
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assert False not in l
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def test_region_delete(self):
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reg = self._region()
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some_key = gen_some_key()
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reg.set(some_key, "some value")
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reg.delete(some_key)
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reg.delete(some_key)
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eq_(reg.get(some_key), NO_VALUE)
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@pytest.mark.time_intensive
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def test_region_expire(self):
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# TODO: ideally tests like these would not be using actual
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# time(); instead, an artificial function where the increment
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# can be controlled would be preferred. this way tests need not
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# have any delay in running and additionally there is no issue
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# with very slow processing missing a timeout, as is often the
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# case with this particular test
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some_key = gen_some_key()
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expire_time = 1.00
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reg = self._region(config_args={"expiration_time": expire_time})
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counter = itertools.count(1)
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def creator():
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return "some value %d" % next(counter)
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eq_(reg.get_or_create(some_key, creator), "some value 1")
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time.sleep(expire_time + (0.2 * expire_time))
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# expiration is definitely hit
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post_expiration = reg.get(some_key, ignore_expiration=True)
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if post_expiration is not NO_VALUE:
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eq_(post_expiration, "some value 1")
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eq_(reg.get_or_create(some_key, creator), "some value 2")
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# this line needs to run less the expire_time sec before the previous
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# two or it hits the expiration
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eq_(reg.get(some_key), "some value 2")
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def test_decorated_fn_functionality(self):
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# test for any quirks in the fn decoration that interact
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# with the backend.
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reg = self._region()
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counter = itertools.count(1)
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@reg.cache_on_arguments()
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def my_function(x, y):
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return next(counter) + x + y
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# Start with a clean slate
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my_function.invalidate(3, 4)
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my_function.invalidate(5, 6)
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my_function.invalidate(4, 3)
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eq_(my_function(3, 4), 8)
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eq_(my_function(5, 6), 13)
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eq_(my_function(3, 4), 8)
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eq_(my_function(4, 3), 10)
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my_function.invalidate(4, 3)
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eq_(my_function(4, 3), 11)
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def test_exploding_value_fn(self):
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some_key = gen_some_key()
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reg = self._region()
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def boom():
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raise Exception("boom")
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assert_raises_message(
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Exception, "boom", reg.get_or_create, some_key, boom
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)
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def raise_cant_deserialize_exception(v):
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raise CantDeserializeException()
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class _GenericSerializerTestSuite:
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# Inheriting from this class will make test cases
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# use these serialization arguments
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region_args = {
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"serializer": lambda v: json.dumps(v).encode("ascii"),
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"deserializer": json.loads,
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}
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def test_serializer_cant_deserialize(self):
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region = self._region(
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region_args={
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"serializer": self.region_args["serializer"],
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"deserializer": raise_cant_deserialize_exception,
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}
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)
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value = {"foo": ["bar", 1, False, None]}
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region.set("k", value)
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asserted = region.get("k")
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eq_(asserted, NO_VALUE)
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def test_uses_serializer(self):
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region = self._region()
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backend = region.backend
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value = {"foo": ["bar", 1, False, None]}
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region.set("k", value)
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raw = backend.get_serialized("k")
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assert isinstance(raw, bytes)
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pipe = raw.find(b"|")
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payload = raw[pipe + 1 :]
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eq_(payload, self.region_args["serializer"](value))
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eq_(region._parse_serialized_from_backend(raw).payload, value)
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def test_uses_deserializer(self):
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region = self._region()
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value = {"foo": ["bar", 1, False, None]}
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region.set("k", value)
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asserted = region.get("k")
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eq_(asserted, value)
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# TODO: test set_multi, get_multi
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class _GenericMutexTestSuite(_GenericBackendFixture):
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def test_mutex(self):
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backend = self._backend()
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mutex = backend.get_mutex("foo")
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assert not mutex.locked()
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ac = mutex.acquire()
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assert ac
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ac2 = mutex.acquire(False)
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assert mutex.locked()
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assert not ac2
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mutex.release()
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assert not mutex.locked()
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ac3 = mutex.acquire()
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assert ac3
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mutex.release()
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def test_subclass_match(self):
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backend = self._backend()
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mutex = backend.get_mutex("foo")
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assert isinstance(mutex, CacheMutex)
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@pytest.mark.time_intensive
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def test_mutex_threaded(self):
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backend = self._backend()
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backend.get_mutex("foo")
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lock = Lock()
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canary = []
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def f():
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for x in range(5):
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mutex = backend.get_mutex("foo")
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mutex.acquire()
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for y in range(5):
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ack = lock.acquire(False)
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canary.append(ack)
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time.sleep(0.002)
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if ack:
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lock.release()
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mutex.release()
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time.sleep(0.02)
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threads = [Thread(target=f) for i in range(5)]
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for t in threads:
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t.start()
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for t in threads:
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t.join()
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assert False not in canary
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def test_mutex_reentrant_across_keys(self):
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backend = self._backend()
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for x in range(3):
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m1 = backend.get_mutex("foo")
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m2 = backend.get_mutex("bar")
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try:
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m1.acquire()
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assert m2.acquire(False)
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assert not m2.acquire(False)
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m2.release()
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assert m2.acquire(False)
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assert not m2.acquire(False)
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m2.release()
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finally:
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m1.release()
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def test_reentrant_dogpile(self):
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reg = self._region()
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def create_foo():
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return "foo" + reg.get_or_create("bar", create_bar)
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def create_bar():
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return "bar"
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eq_(reg.get_or_create("foo", create_foo), "foobar")
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eq_(reg.get_or_create("foo", create_foo), "foobar")
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class MockMutex(object):
|
|
def __init__(self, key):
|
|
self.key = key
|
|
|
|
def acquire(self, blocking=True):
|
|
return True
|
|
|
|
def release(self):
|
|
return
|
|
|
|
def locked(self):
|
|
return False
|
|
|
|
|
|
class MockBackend(CacheBackend):
|
|
def __init__(self, arguments):
|
|
self.arguments = arguments
|
|
self._cache = {}
|
|
|
|
def get_mutex(self, key):
|
|
return MockMutex(key)
|
|
|
|
def get(self, key):
|
|
try:
|
|
return self._cache[key]
|
|
except KeyError:
|
|
return NO_VALUE
|
|
|
|
def get_multi(self, keys):
|
|
return [self.get(key) for key in keys]
|
|
|
|
def set(self, key, value):
|
|
self._cache[key] = value
|
|
|
|
def set_multi(self, mapping):
|
|
for key, value in mapping.items():
|
|
self.set(key, value)
|
|
|
|
def delete(self, key):
|
|
self._cache.pop(key, None)
|
|
|
|
def delete_multi(self, keys):
|
|
for key in keys:
|
|
self.delete(key)
|
|
|
|
|
|
register_backend("mock", __name__, "MockBackend")
|