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import asyncio
import functools
import socket
import sys
from typing import Optional
from unittest.mock import patch
import async_timeout
import pytest
import pytest_asyncio
import redis.asyncio as redis
from redis.exceptions import ConnectionError
from redis.typing import EncodableT
from tests.conftest import skip_if_server_version_lt
from .compat import create_task, mock
def with_timeout(t):
def wrapper(corofunc):
@functools.wraps(corofunc)
async def run(*args, **kwargs):
async with async_timeout.timeout(t):
return await corofunc(*args, **kwargs)
return run
return wrapper
async def wait_for_message(pubsub, timeout=0.1, ignore_subscribe_messages=False):
now = asyncio.get_event_loop().time()
timeout = now + timeout
while now < timeout:
message = await pubsub.get_message(
ignore_subscribe_messages=ignore_subscribe_messages
)
if message is not None:
return message
await asyncio.sleep(0.01)
now = asyncio.get_event_loop().time()
return None
def make_message(
type, channel: Optional[str], data: EncodableT, pattern: Optional[str] = None
):
return {
"type": type,
"pattern": pattern and pattern.encode("utf-8") or None,
"channel": channel and channel.encode("utf-8") or None,
"data": data.encode("utf-8") if isinstance(data, str) else data,
}
def make_subscribe_test_data(pubsub, type):
if type == "channel":
return {
"p": pubsub,
"sub_type": "subscribe",
"unsub_type": "unsubscribe",
"sub_func": pubsub.subscribe,
"unsub_func": pubsub.unsubscribe,
"keys": ["foo", "bar", "uni" + chr(4456) + "code"],
}
elif type == "pattern":
return {
"p": pubsub,
"sub_type": "psubscribe",
"unsub_type": "punsubscribe",
"sub_func": pubsub.psubscribe,
"unsub_func": pubsub.punsubscribe,
"keys": ["f*", "b*", "uni" + chr(4456) + "*"],
}
assert False, f"invalid subscribe type: {type}"
@pytest_asyncio.fixture()
async def pubsub(r: redis.Redis):
p = r.pubsub()
yield p
await p.close()
@pytest.mark.onlynoncluster
class TestPubSubSubscribeUnsubscribe:
async def _test_subscribe_unsubscribe(
self, p, sub_type, unsub_type, sub_func, unsub_func, keys
):
for key in keys:
assert await sub_func(key) is None
# should be a message for each channel/pattern we just subscribed to
for i, key in enumerate(keys):
assert await wait_for_message(p) == make_message(sub_type, key, i + 1)
for key in keys:
assert await unsub_func(key) is None
# should be a message for each channel/pattern we just unsubscribed
# from
for i, key in enumerate(keys):
i = len(keys) - 1 - i
assert await wait_for_message(p) == make_message(unsub_type, key, i)
async def test_channel_subscribe_unsubscribe(self, pubsub):
kwargs = make_subscribe_test_data(pubsub, "channel")
await self._test_subscribe_unsubscribe(**kwargs)
async def test_pattern_subscribe_unsubscribe(self, pubsub):
kwargs = make_subscribe_test_data(pubsub, "pattern")
await self._test_subscribe_unsubscribe(**kwargs)
@pytest.mark.onlynoncluster
async def _test_resubscribe_on_reconnection(
self, p, sub_type, unsub_type, sub_func, unsub_func, keys
):
for key in keys:
assert await sub_func(key) is None
# should be a message for each channel/pattern we just subscribed to
for i, key in enumerate(keys):
assert await wait_for_message(p) == make_message(sub_type, key, i + 1)
# manually disconnect
await p.connection.disconnect()
# calling get_message again reconnects and resubscribes
# note, we may not re-subscribe to channels in exactly the same order
# so we have to do some extra checks to make sure we got them all
messages = []
for i in range(len(keys)):
messages.append(await wait_for_message(p))
unique_channels = set()
assert len(messages) == len(keys)
for i, message in enumerate(messages):
assert message["type"] == sub_type
assert message["data"] == i + 1
assert isinstance(message["channel"], bytes)
channel = message["channel"].decode("utf-8")
unique_channels.add(channel)
assert len(unique_channels) == len(keys)
for channel in unique_channels:
assert channel in keys
async def test_resubscribe_to_channels_on_reconnection(self, pubsub):
kwargs = make_subscribe_test_data(pubsub, "channel")
await self._test_resubscribe_on_reconnection(**kwargs)
async def test_resubscribe_to_patterns_on_reconnection(self, pubsub):
kwargs = make_subscribe_test_data(pubsub, "pattern")
await self._test_resubscribe_on_reconnection(**kwargs)
async def _test_subscribed_property(
self, p, sub_type, unsub_type, sub_func, unsub_func, keys
):
assert p.subscribed is False
await sub_func(keys[0])
# we're now subscribed even though we haven't processed the
# reply from the server just yet
assert p.subscribed is True
assert await wait_for_message(p) == make_message(sub_type, keys[0], 1)
# we're still subscribed
assert p.subscribed is True
# unsubscribe from all channels
await unsub_func()
# we're still technically subscribed until we process the
# response messages from the server
assert p.subscribed is True
assert await wait_for_message(p) == make_message(unsub_type, keys[0], 0)
# now we're no longer subscribed as no more messages can be delivered
# to any channels we were listening to
assert p.subscribed is False
# subscribing again flips the flag back
await sub_func(keys[0])
assert p.subscribed is True
assert await wait_for_message(p) == make_message(sub_type, keys[0], 1)
# unsubscribe again
await unsub_func()
assert p.subscribed is True
# subscribe to another channel before reading the unsubscribe response
await sub_func(keys[1])
assert p.subscribed is True
# read the unsubscribe for key1
assert await wait_for_message(p) == make_message(unsub_type, keys[0], 0)
# we're still subscribed to key2, so subscribed should still be True
assert p.subscribed is True
# read the key2 subscribe message
assert await wait_for_message(p) == make_message(sub_type, keys[1], 1)
await unsub_func()
# haven't read the message yet, so we're still subscribed
assert p.subscribed is True
assert await wait_for_message(p) == make_message(unsub_type, keys[1], 0)
# now we're finally unsubscribed
assert p.subscribed is False
async def test_subscribe_property_with_channels(self, pubsub):
kwargs = make_subscribe_test_data(pubsub, "channel")
await self._test_subscribed_property(**kwargs)
@pytest.mark.onlynoncluster
async def test_subscribe_property_with_patterns(self, pubsub):
kwargs = make_subscribe_test_data(pubsub, "pattern")
await self._test_subscribed_property(**kwargs)
async def test_ignore_all_subscribe_messages(self, r: redis.Redis):
p = r.pubsub(ignore_subscribe_messages=True)
checks = (
(p.subscribe, "foo"),
(p.unsubscribe, "foo"),
(p.psubscribe, "f*"),
(p.punsubscribe, "f*"),
)
assert p.subscribed is False
for func, channel in checks:
assert await func(channel) is None
assert p.subscribed is True
assert await wait_for_message(p) is None
assert p.subscribed is False
await p.close()
async def test_ignore_individual_subscribe_messages(self, pubsub):
p = pubsub
checks = (
(p.subscribe, "foo"),
(p.unsubscribe, "foo"),
(p.psubscribe, "f*"),
(p.punsubscribe, "f*"),
)
assert p.subscribed is False
for func, channel in checks:
assert await func(channel) is None
assert p.subscribed is True
message = await wait_for_message(p, ignore_subscribe_messages=True)
assert message is None
assert p.subscribed is False
async def test_sub_unsub_resub_channels(self, pubsub):
kwargs = make_subscribe_test_data(pubsub, "channel")
await self._test_sub_unsub_resub(**kwargs)
@pytest.mark.onlynoncluster
async def test_sub_unsub_resub_patterns(self, pubsub):
kwargs = make_subscribe_test_data(pubsub, "pattern")
await self._test_sub_unsub_resub(**kwargs)
async def _test_sub_unsub_resub(
self, p, sub_type, unsub_type, sub_func, unsub_func, keys
):
# https://github.com/andymccurdy/redis-py/issues/764
key = keys[0]
await sub_func(key)
await unsub_func(key)
await sub_func(key)
assert p.subscribed is True
assert await wait_for_message(p) == make_message(sub_type, key, 1)
assert await wait_for_message(p) == make_message(unsub_type, key, 0)
assert await wait_for_message(p) == make_message(sub_type, key, 1)
assert p.subscribed is True
async def test_sub_unsub_all_resub_channels(self, pubsub):
kwargs = make_subscribe_test_data(pubsub, "channel")
await self._test_sub_unsub_all_resub(**kwargs)
async def test_sub_unsub_all_resub_patterns(self, pubsub):
kwargs = make_subscribe_test_data(pubsub, "pattern")
await self._test_sub_unsub_all_resub(**kwargs)
async def _test_sub_unsub_all_resub(
self, p, sub_type, unsub_type, sub_func, unsub_func, keys
):
# https://github.com/andymccurdy/redis-py/issues/764
key = keys[0]
await sub_func(key)
await unsub_func()
await sub_func(key)
assert p.subscribed is True
assert await wait_for_message(p) == make_message(sub_type, key, 1)
assert await wait_for_message(p) == make_message(unsub_type, key, 0)
assert await wait_for_message(p) == make_message(sub_type, key, 1)
assert p.subscribed is True
@pytest.mark.onlynoncluster
class TestPubSubMessages:
def setup_method(self, method):
self.message = None
def message_handler(self, message):
self.message = message
async def async_message_handler(self, message):
self.async_message = message
async def test_published_message_to_channel(self, r: redis.Redis, pubsub):
p = pubsub
await p.subscribe("foo")
assert await wait_for_message(p) == make_message("subscribe", "foo", 1)
assert await r.publish("foo", "test message") == 1
message = await wait_for_message(p)
assert isinstance(message, dict)
assert message == make_message("message", "foo", "test message")
async def test_published_message_to_pattern(self, r: redis.Redis, pubsub):
p = pubsub
await p.subscribe("foo")
await p.psubscribe("f*")
assert await wait_for_message(p) == make_message("subscribe", "foo", 1)
assert await wait_for_message(p) == make_message("psubscribe", "f*", 2)
# 1 to pattern, 1 to channel
assert await r.publish("foo", "test message") == 2
message1 = await wait_for_message(p)
message2 = await wait_for_message(p)
assert isinstance(message1, dict)
assert isinstance(message2, dict)
expected = [
make_message("message", "foo", "test message"),
make_message("pmessage", "foo", "test message", pattern="f*"),
]
assert message1 in expected
assert message2 in expected
assert message1 != message2
async def test_channel_message_handler(self, r: redis.Redis):
p = r.pubsub(ignore_subscribe_messages=True)
await p.subscribe(foo=self.message_handler)
assert await wait_for_message(p) is None
assert await r.publish("foo", "test message") == 1
assert await wait_for_message(p) is None
assert self.message == make_message("message", "foo", "test message")
await p.close()
async def test_channel_async_message_handler(self, r):
p = r.pubsub(ignore_subscribe_messages=True)
await p.subscribe(foo=self.async_message_handler)
assert await wait_for_message(p) is None
assert await r.publish("foo", "test message") == 1
assert await wait_for_message(p) is None
assert self.async_message == make_message("message", "foo", "test message")
await p.close()
async def test_channel_sync_async_message_handler(self, r):
p = r.pubsub(ignore_subscribe_messages=True)
await p.subscribe(foo=self.message_handler)
await p.subscribe(bar=self.async_message_handler)
assert await wait_for_message(p) is None
assert await r.publish("foo", "test message") == 1
assert await r.publish("bar", "test message 2") == 1
assert await wait_for_message(p) is None
assert self.message == make_message("message", "foo", "test message")
assert self.async_message == make_message("message", "bar", "test message 2")
await p.close()
@pytest.mark.onlynoncluster
async def test_pattern_message_handler(self, r: redis.Redis):
p = r.pubsub(ignore_subscribe_messages=True)
await p.psubscribe(**{"f*": self.message_handler})
assert await wait_for_message(p) is None
assert await r.publish("foo", "test message") == 1
assert await wait_for_message(p) is None
assert self.message == make_message(
"pmessage", "foo", "test message", pattern="f*"
)
await p.close()
async def test_unicode_channel_message_handler(self, r: redis.Redis):
p = r.pubsub(ignore_subscribe_messages=True)
channel = "uni" + chr(4456) + "code"
channels = {channel: self.message_handler}
await p.subscribe(**channels)
assert await wait_for_message(p) is None
assert await r.publish(channel, "test message") == 1
assert await wait_for_message(p) is None
assert self.message == make_message("message", channel, "test message")
await p.close()
@pytest.mark.onlynoncluster
# see: https://redis-py-cluster.readthedocs.io/en/stable/pubsub.html
# #known-limitations-with-pubsub
async def test_unicode_pattern_message_handler(self, r: redis.Redis):
p = r.pubsub(ignore_subscribe_messages=True)
pattern = "uni" + chr(4456) + "*"
channel = "uni" + chr(4456) + "code"
await p.psubscribe(**{pattern: self.message_handler})
assert await wait_for_message(p) is None
assert await r.publish(channel, "test message") == 1
assert await wait_for_message(p) is None
assert self.message == make_message(
"pmessage", channel, "test message", pattern=pattern
)
await p.close()
async def test_get_message_without_subscribe(self, r: redis.Redis, pubsub):
p = pubsub
with pytest.raises(RuntimeError) as info:
await p.get_message()
expect = (
"connection not set: " "did you forget to call subscribe() or psubscribe()?"
)
assert expect in info.exconly()
@pytest.mark.onlynoncluster
class TestPubSubAutoDecoding:
"""These tests only validate that we get unicode values back"""
channel = "uni" + chr(4456) + "code"
pattern = "uni" + chr(4456) + "*"
data = "abc" + chr(4458) + "123"
def make_message(self, type, channel, data, pattern=None):
return {"type": type, "channel": channel, "pattern": pattern, "data": data}
def setup_method(self, method):
self.message = None
def message_handler(self, message):
self.message = message
@pytest_asyncio.fixture()
async def r(self, create_redis):
return await create_redis(decode_responses=True)
async def test_channel_subscribe_unsubscribe(self, pubsub):
p = pubsub
await p.subscribe(self.channel)
assert await wait_for_message(p) == self.make_message(
"subscribe", self.channel, 1
)
await p.unsubscribe(self.channel)
assert await wait_for_message(p) == self.make_message(
"unsubscribe", self.channel, 0
)
async def test_pattern_subscribe_unsubscribe(self, pubsub):
p = pubsub
await p.psubscribe(self.pattern)
assert await wait_for_message(p) == self.make_message(
"psubscribe", self.pattern, 1
)
await p.punsubscribe(self.pattern)
assert await wait_for_message(p) == self.make_message(
"punsubscribe", self.pattern, 0
)
async def test_channel_publish(self, r: redis.Redis, pubsub):
p = pubsub
await p.subscribe(self.channel)
assert await wait_for_message(p) == self.make_message(
"subscribe", self.channel, 1
)
await r.publish(self.channel, self.data)
assert await wait_for_message(p) == self.make_message(
"message", self.channel, self.data
)
@pytest.mark.onlynoncluster
async def test_pattern_publish(self, r: redis.Redis, pubsub):
p = pubsub
await p.psubscribe(self.pattern)
assert await wait_for_message(p) == self.make_message(
"psubscribe", self.pattern, 1
)
await r.publish(self.channel, self.data)
assert await wait_for_message(p) == self.make_message(
"pmessage", self.channel, self.data, pattern=self.pattern
)
async def test_channel_message_handler(self, r: redis.Redis):
p = r.pubsub(ignore_subscribe_messages=True)
await p.subscribe(**{self.channel: self.message_handler})
assert await wait_for_message(p) is None
await r.publish(self.channel, self.data)
assert await wait_for_message(p) is None
assert self.message == self.make_message("message", self.channel, self.data)
# test that we reconnected to the correct channel
self.message = None
await p.connection.disconnect()
assert await wait_for_message(p) is None # should reconnect
new_data = self.data + "new data"
await r.publish(self.channel, new_data)
assert await wait_for_message(p) is None
assert self.message == self.make_message("message", self.channel, new_data)
await p.close()
async def test_pattern_message_handler(self, r: redis.Redis):
p = r.pubsub(ignore_subscribe_messages=True)
await p.psubscribe(**{self.pattern: self.message_handler})
assert await wait_for_message(p) is None
await r.publish(self.channel, self.data)
assert await wait_for_message(p) is None
assert self.message == self.make_message(
"pmessage", self.channel, self.data, pattern=self.pattern
)
# test that we reconnected to the correct pattern
self.message = None
await p.connection.disconnect()
assert await wait_for_message(p) is None # should reconnect
new_data = self.data + "new data"
await r.publish(self.channel, new_data)
assert await wait_for_message(p) is None
assert self.message == self.make_message(
"pmessage", self.channel, new_data, pattern=self.pattern
)
await p.close()
async def test_context_manager(self, r: redis.Redis):
async with r.pubsub() as pubsub:
await pubsub.subscribe("foo")
assert pubsub.connection is not None
assert pubsub.connection is None
assert pubsub.channels == {}
assert pubsub.patterns == {}
await pubsub.close()
@pytest.mark.onlynoncluster
class TestPubSubRedisDown:
async def test_channel_subscribe(self, r: redis.Redis):
r = redis.Redis(host="localhost", port=6390)
p = r.pubsub()
with pytest.raises(ConnectionError):
await p.subscribe("foo")
@pytest.mark.onlynoncluster
class TestPubSubSubcommands:
@pytest.mark.onlynoncluster
@skip_if_server_version_lt("2.8.0")
async def test_pubsub_channels(self, r: redis.Redis, pubsub):
p = pubsub
await p.subscribe("foo", "bar", "baz", "quux")
for i in range(4):
assert (await wait_for_message(p))["type"] == "subscribe"
expected = [b"bar", b"baz", b"foo", b"quux"]
assert all([channel in await r.pubsub_channels() for channel in expected])
@pytest.mark.onlynoncluster
@skip_if_server_version_lt("2.8.0")
async def test_pubsub_numsub(self, r: redis.Redis):
p1 = r.pubsub()
await p1.subscribe("foo", "bar", "baz")
for i in range(3):
assert (await wait_for_message(p1))["type"] == "subscribe"
p2 = r.pubsub()
await p2.subscribe("bar", "baz")
for i in range(2):
assert (await wait_for_message(p2))["type"] == "subscribe"
p3 = r.pubsub()
await p3.subscribe("baz")
assert (await wait_for_message(p3))["type"] == "subscribe"
channels = [(b"foo", 1), (b"bar", 2), (b"baz", 3)]
assert await r.pubsub_numsub("foo", "bar", "baz") == channels
await p1.close()
await p2.close()
await p3.close()
@skip_if_server_version_lt("2.8.0")
async def test_pubsub_numpat(self, r: redis.Redis):
p = r.pubsub()
await p.psubscribe("*oo", "*ar", "b*z")
for i in range(3):
assert (await wait_for_message(p))["type"] == "psubscribe"
assert await r.pubsub_numpat() == 3
await p.close()
@pytest.mark.onlynoncluster
class TestPubSubPings:
@skip_if_server_version_lt("3.0.0")
async def test_send_pubsub_ping(self, r: redis.Redis):
p = r.pubsub(ignore_subscribe_messages=True)
await p.subscribe("foo")
await p.ping()
assert await wait_for_message(p) == make_message(
type="pong", channel=None, data="", pattern=None
)
await p.close()
@skip_if_server_version_lt("3.0.0")
async def test_send_pubsub_ping_message(self, r: redis.Redis):
p = r.pubsub(ignore_subscribe_messages=True)
await p.subscribe("foo")
await p.ping(message="hello world")
assert await wait_for_message(p) == make_message(
type="pong", channel=None, data="hello world", pattern=None
)
await p.close()
@pytest.mark.onlynoncluster
class TestPubSubConnectionKilled:
@skip_if_server_version_lt("3.0.0")
async def test_connection_error_raised_when_connection_dies(
self, r: redis.Redis, pubsub
):
p = pubsub
await p.subscribe("foo")
assert await wait_for_message(p) == make_message("subscribe", "foo", 1)
for client in await r.client_list():
if client["cmd"] == "subscribe":
await r.client_kill_filter(_id=client["id"])
with pytest.raises(ConnectionError):
await wait_for_message(p)
@pytest.mark.onlynoncluster
class TestPubSubTimeouts:
async def test_get_message_with_timeout_returns_none(self, pubsub):
p = pubsub
await p.subscribe("foo")
assert await wait_for_message(p) == make_message("subscribe", "foo", 1)
assert await p.get_message(timeout=0.01) is None
@pytest.mark.onlynoncluster
class TestPubSubReconnect:
@with_timeout(2)
async def test_reconnect_listen(self, r: redis.Redis, pubsub):
"""
Test that a loop processing PubSub messages can survive
a disconnect, by issuing a connect() call.
"""
messages = asyncio.Queue()
interrupt = False
async def loop():
# must make sure the task exits
async with async_timeout.timeout(2):
nonlocal interrupt
await pubsub.subscribe("foo")
while True:
# print("loop")
try:
try:
await pubsub.connect()
await loop_step()
# print("succ")
except redis.ConnectionError:
await asyncio.sleep(0.1)
except asyncio.CancelledError:
# we use a cancel to interrupt the "listen"
# when we perform a disconnect
# print("cancel", interrupt)
if interrupt:
interrupt = False
else:
raise
async def loop_step():
# get a single message via listen()
async for message in pubsub.listen():
await messages.put(message)
break
task = asyncio.get_event_loop().create_task(loop())
# get the initial connect message
async with async_timeout.timeout(1):
message = await messages.get()
assert message == {
"channel": b"foo",
"data": 1,
"pattern": None,
"type": "subscribe",
}
# now, disconnect the connection.
await pubsub.connection.disconnect()
interrupt = True
task.cancel() # interrupt the listen call
# await another auto-connect message
message = await messages.get()
assert message == {
"channel": b"foo",
"data": 1,
"pattern": None,
"type": "subscribe",
}
task.cancel()
with pytest.raises(asyncio.CancelledError):
await task
@pytest.mark.onlynoncluster
class TestPubSubRun:
async def _subscribe(self, p, *args, **kwargs):
await p.subscribe(*args, **kwargs)
# Wait for the server to act on the subscription, to be sure that
# a subsequent publish on another connection will reach the pubsub.
while True:
message = await p.get_message(timeout=1)
if (
message is not None
and message["type"] == "subscribe"
and message["channel"] == b"foo"
):
return
async def test_callbacks(self, r: redis.Redis, pubsub):
def callback(message):
messages.put_nowait(message)
messages = asyncio.Queue()
p = pubsub
await self._subscribe(p, foo=callback)
task = asyncio.get_event_loop().create_task(p.run())
await r.publish("foo", "bar")
message = await messages.get()
task.cancel()
try:
await task
except asyncio.CancelledError:
pass
assert message == {
"channel": b"foo",
"data": b"bar",
"pattern": None,
"type": "message",
}
async def test_exception_handler(self, r: redis.Redis, pubsub):
def exception_handler_callback(e, pubsub) -> None:
assert pubsub == p
exceptions.put_nowait(e)
exceptions = asyncio.Queue()
p = pubsub
await self._subscribe(p, foo=lambda x: None)
with mock.patch.object(p, "get_message", side_effect=Exception("error")):
task = asyncio.get_event_loop().create_task(
p.run(exception_handler=exception_handler_callback)
)
e = await exceptions.get()
task.cancel()
try:
await task
except asyncio.CancelledError:
pass
assert str(e) == "error"
async def test_late_subscribe(self, r: redis.Redis, pubsub):
def callback(message):
messages.put_nowait(message)
messages = asyncio.Queue()
p = pubsub
task = asyncio.get_event_loop().create_task(p.run())
# wait until loop gets settled. Add a subscription
await asyncio.sleep(0.1)
await p.subscribe(foo=callback)
# wait tof the subscribe to finish. Cannot use _subscribe() because
# p.run() is already accepting messages
while True:
n = await r.publish("foo", "bar")
if n == 1:
break
await asyncio.sleep(0.1)
async with async_timeout.timeout(0.1):
message = await messages.get()
task.cancel()
# we expect a cancelled error, not the Runtime error
# ("did you forget to call subscribe()"")
with pytest.raises(asyncio.CancelledError):
await task
assert message == {
"channel": b"foo",
"data": b"bar",
"pattern": None,
"type": "message",
}
# @pytest.mark.xfail
@pytest.mark.parametrize("method", ["get_message", "listen"])
@pytest.mark.onlynoncluster
class TestPubSubAutoReconnect:
timeout = 2
async def mysetup(self, r, method):
self.messages = asyncio.Queue()
self.pubsub = r.pubsub()
# State: 0 = initial state , 1 = after disconnect, 2 = ConnectionError is seen,
# 3=successfully reconnected 4 = exit
self.state = 0
self.cond = asyncio.Condition()
if method == "get_message":
self.get_message = self.loop_step_get_message
else:
self.get_message = self.loop_step_listen
self.task = create_task(self.loop())
# get the initial connect message
message = await self.messages.get()
assert message == {
"channel": b"foo",
"data": 1,
"pattern": None,
"type": "subscribe",
}
async def myfinish(self):
message = await self.messages.get()
assert message == {
"channel": b"foo",
"data": 1,
"pattern": None,
"type": "subscribe",
}
async def mykill(self):
# kill thread
async with self.cond:
self.state = 4 # quit
await self.task
async def test_reconnect_socket_error(self, r: redis.Redis, method):
"""
Test that a socket error will cause reconnect
"""
try:
async with async_timeout.timeout(self.timeout):
await self.mysetup(r, method)
# now, disconnect the connection, and wait for it to be re-established
async with self.cond:
assert self.state == 0
self.state = 1
with mock.patch.object(self.pubsub.connection, "_parser") as m:
m.read_response.side_effect = socket.error
m.can_read_destructive.side_effect = socket.error
# wait until task noticies the disconnect until we
# undo the patch
await self.cond.wait_for(lambda: self.state >= 2)
assert not self.pubsub.connection.is_connected
# it is in a disconnecte state
# wait for reconnect
await self.cond.wait_for(
lambda: self.pubsub.connection.is_connected
)
assert self.state == 3
await self.myfinish()
finally:
await self.mykill()
async def test_reconnect_disconnect(self, r: redis.Redis, method):
"""
Test that a manual disconnect() will cause reconnect
"""
try:
async with async_timeout.timeout(self.timeout):
await self.mysetup(r, method)
# now, disconnect the connection, and wait for it to be re-established
async with self.cond:
self.state = 1
await self.pubsub.connection.disconnect()
assert not self.pubsub.connection.is_connected
# wait for reconnect
await self.cond.wait_for(
lambda: self.pubsub.connection.is_connected
)
assert self.state == 3
await self.myfinish()
finally:
await self.mykill()
async def loop(self):
# reader loop, performing state transitions as it
# discovers disconnects and reconnects
await self.pubsub.subscribe("foo")
while True:
await asyncio.sleep(0.01) # give main thread chance to get lock
async with self.cond:
old_state = self.state
try:
if self.state == 4:
break
# print("state a ", self.state)
got_msg = await self.get_message()
assert got_msg
if self.state in (1, 2):
self.state = 3 # successful reconnect
except redis.ConnectionError:
assert self.state in (1, 2)
self.state = 2 # signal that we noticed the disconnect
finally:
self.cond.notify()
# make sure that we did notice the connection error
# or reconnected without any error
if old_state == 1:
assert self.state in (2, 3)
async def loop_step_get_message(self):
# get a single message via get_message
message = await self.pubsub.get_message(timeout=0.1)
# print(message)
if message is not None:
await self.messages.put(message)
return True
return False
async def loop_step_listen(self):
# get a single message via listen()
try:
async with async_timeout.timeout(0.1):
async for message in self.pubsub.listen():
await self.messages.put(message)
return True
except asyncio.TimeoutError:
return False
@pytest.mark.onlynoncluster
class TestBaseException:
@pytest.mark.skipif(
sys.version_info < (3, 8), reason="requires python 3.8 or higher"
)
async def test_outer_timeout(self, r: redis.Redis):
"""
Using asyncio_timeout manually outside the inner method timeouts works.
This works on Python versions 3.8 and greater, at which time asyncio.
CancelledError became a BaseException instead of an Exception before.
"""
pubsub = r.pubsub()
await pubsub.subscribe("foo")
assert pubsub.connection.is_connected
async def get_msg_or_timeout(timeout=0.1):
async with async_timeout.timeout(timeout):
# blocking method to return messages
while True:
response = await pubsub.parse_response(block=True)
message = await pubsub.handle_message(
response, ignore_subscribe_messages=False
)
if message is not None:
return message
# get subscribe message
msg = await get_msg_or_timeout(10)
assert msg is not None
# timeout waiting for another message which never arrives
assert pubsub.connection.is_connected
with pytest.raises(asyncio.TimeoutError):
await get_msg_or_timeout()
# the timeout on the read should not cause disconnect
assert pubsub.connection.is_connected
async def test_base_exception(self, r: redis.Redis):
"""
Manually trigger a BaseException inside the parser's .read_response method
and verify that it isn't caught
"""
pubsub = r.pubsub()
await pubsub.subscribe("foo")
assert pubsub.connection.is_connected
async def get_msg():
# blocking method to return messages
while True:
response = await pubsub.parse_response(block=True)
message = await pubsub.handle_message(
response, ignore_subscribe_messages=False
)
if message is not None:
return message
# get subscribe message
msg = await get_msg()
assert msg is not None
# timeout waiting for another message which never arrives
assert pubsub.connection.is_connected
with patch("redis.asyncio.connection.PythonParser.read_response") as mock1:
mock1.side_effect = BaseException("boom")
with patch("redis.asyncio.connection.HiredisParser.read_response") as mock2:
mock2.side_effect = BaseException("boom")
with pytest.raises(BaseException):
await get_msg()
# the timeout on the read should not cause disconnect
assert pubsub.connection.is_connected
|