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test_utils_test.py
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test_utils_test.py
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import asyncio
import pathlib
import socket
import threading
from contextlib import contextmanager
from time import sleep
import pytest
from tornado import gen
from distributed import Client, Nanny, Scheduler, Worker, config, default_client
from distributed.core import Server, rpc
from distributed.metrics import time
from distributed.utils import get_ip
from distributed.utils_test import (
_LockedCommPool,
_UnhashableCallable,
cluster,
gen_cluster,
gen_test,
inc,
new_config,
tls_only_security,
wait_for_port,
)
def test_bare_cluster(loop):
with cluster(nworkers=10) as (s, _):
pass
def test_cluster(loop):
with cluster() as (s, [a, b]):
with rpc(s["address"]) as s:
ident = loop.run_sync(s.identity)
assert ident["type"] == "Scheduler"
assert len(ident["workers"]) == 2
@gen_cluster(client=True)
async def test_gen_cluster(c, s, a, b):
assert isinstance(c, Client)
assert isinstance(s, Scheduler)
for w in [a, b]:
assert isinstance(w, Worker)
assert s.nthreads == {w.address: w.nthreads for w in [a, b]}
assert await c.submit(lambda: 123) == 123
@gen_cluster(client=True)
async def test_gen_cluster_pytest_fixture(c, s, a, b, tmp_path):
assert isinstance(tmp_path, pathlib.Path)
assert isinstance(c, Client)
assert isinstance(s, Scheduler)
for w in [a, b]:
assert isinstance(w, Worker)
@pytest.mark.parametrize("foo", [True])
@gen_cluster(client=True)
async def test_gen_cluster_parametrized(c, s, a, b, foo):
assert foo is True
assert isinstance(c, Client)
assert isinstance(s, Scheduler)
for w in [a, b]:
assert isinstance(w, Worker)
@pytest.mark.parametrize("foo", [True])
@pytest.mark.parametrize("bar", ["a", "b"])
@gen_cluster(client=True)
async def test_gen_cluster_multi_parametrized(c, s, a, b, foo, bar):
assert foo is True
assert bar in ("a", "b")
assert isinstance(c, Client)
assert isinstance(s, Scheduler)
for w in [a, b]:
assert isinstance(w, Worker)
@pytest.mark.parametrize("foo", [True])
@gen_cluster(client=True)
async def test_gen_cluster_parametrized_variadic_workers(c, s, *workers, foo):
assert foo is True
assert isinstance(c, Client)
assert isinstance(s, Scheduler)
for w in workers:
assert isinstance(w, Worker)
@gen_cluster(
client=True,
Worker=Nanny,
config={"distributed.comm.timeouts.connect": "1s", "new.config.value": "foo"},
)
async def test_gen_cluster_set_config_nanny(c, s, a, b):
def assert_config():
import dask
assert dask.config.get("distributed.comm.timeouts.connect") == "1s"
assert dask.config.get("new.config.value") == "foo"
return dask.config
await c.run(assert_config)
await c.run_on_scheduler(assert_config)
@pytest.mark.skip(reason="This hangs on travis")
def test_gen_cluster_cleans_up_client(loop):
import dask.context
assert not dask.config.get("get", None)
@gen_cluster(client=True)
async def f(c, s, a, b):
assert dask.config.get("get", None)
await c.submit(inc, 1)
f()
assert not dask.config.get("get", None)
@gen_cluster()
async def test_gen_cluster_without_client(s, a, b):
assert isinstance(s, Scheduler)
for w in [a, b]:
assert isinstance(w, Worker)
assert s.nthreads == {w.address: w.nthreads for w in [a, b]}
async with Client(s.address, asynchronous=True) as c:
future = c.submit(lambda x: x + 1, 1)
result = await future
assert result == 2
@gen_cluster(
client=True,
scheduler="tls://127.0.0.1",
nthreads=[("tls://127.0.0.1", 1), ("tls://127.0.0.1", 2)],
security=tls_only_security(),
)
async def test_gen_cluster_tls(e, s, a, b):
assert isinstance(e, Client)
assert isinstance(s, Scheduler)
assert s.address.startswith("tls://")
for w in [a, b]:
assert isinstance(w, Worker)
assert w.address.startswith("tls://")
assert s.nthreads == {w.address: w.nthreads for w in [a, b]}
@gen_test()
async def test_gen_test():
await asyncio.sleep(0.01)
@gen_test()
def test_gen_test_legacy_implicit():
yield asyncio.sleep(0.01)
@gen_test()
@gen.coroutine
def test_gen_test_legacy_explicit():
yield asyncio.sleep(0.01)
@contextmanager
def _listen(delay=0):
serv = socket.socket()
serv.bind(("127.0.0.1", 0))
e = threading.Event()
def do_listen():
e.set()
sleep(delay)
serv.listen(5)
ret = serv.accept()
if ret is not None:
cli, _ = ret
cli.close()
serv.close()
t = threading.Thread(target=do_listen)
t.daemon = True
t.start()
try:
e.wait()
sleep(0.01)
yield serv
finally:
t.join(5.0)
def test_wait_for_port():
t1 = time()
with pytest.raises(RuntimeError):
wait_for_port((get_ip(), 9999), 0.5)
t2 = time()
assert t2 - t1 >= 0.5
with _listen(0) as s1:
t1 = time()
wait_for_port(s1.getsockname())
t2 = time()
assert t2 - t1 <= 1.0
with _listen(1) as s1:
t1 = time()
wait_for_port(s1.getsockname())
t2 = time()
assert t2 - t1 <= 2.0
def test_new_config():
c = config.copy()
with new_config({"xyzzy": 5}):
config["xyzzy"] == 5
assert config == c
assert "xyzzy" not in config
def test_lingering_client():
@gen_cluster()
async def f(s, a, b):
await Client(s.address, asynchronous=True)
f()
with pytest.raises(ValueError):
default_client()
def test_lingering_client_2(loop):
with cluster() as (s, [a, b]):
client = Client(s["address"], loop=loop)
def test_tls_cluster(tls_client):
tls_client.submit(lambda x: x + 1, 10).result() == 11
assert tls_client.security
@pytest.mark.asyncio
async def test_tls_scheduler(security, cleanup):
async with Scheduler(
security=security, host="localhost", dashboard_address=":0"
) as s:
assert s.address.startswith("tls")
def test__UnhashableCallable():
func = _UnhashableCallable()
assert func(1) == 2
with pytest.raises(TypeError, match="unhashable"):
hash(func)
class MyServer(Server):
def __init__(self, *args, **kwargs):
super().__init__(*args, **kwargs)
self.handlers["ping"] = self.pong
self.counter = 0
def pong(self, comm):
self.counter += 1
return "pong"
@pytest.mark.asyncio
async def test_locked_comm_drop_in_replacement(loop):
a = await MyServer({})
await a.listen(0)
read_event = asyncio.Event()
read_event.set()
read_queue = asyncio.Queue()
original_pool = a.rpc
a.rpc = _LockedCommPool(original_pool, read_event=read_event, read_queue=read_queue)
b = await MyServer({})
await b.listen(0)
# Event is set, the pool works like an ordinary pool
res = await a.rpc(b.address).ping()
assert await read_queue.get() == (b.address, "pong")
assert res == "pong"
assert b.counter == 1
read_event.clear()
# Can also be used without a lock to intercept network traffic
a.rpc = _LockedCommPool(original_pool, read_queue=read_queue)
a.rpc.remove(b.address)
res = await a.rpc(b.address).ping()
assert await read_queue.get() == (b.address, "pong")
@pytest.mark.asyncio
async def test_locked_comm_intercept_read(loop):
a = await MyServer({})
await a.listen(0)
b = await MyServer({})
await b.listen(0)
read_event = asyncio.Event()
read_queue = asyncio.Queue()
a.rpc = _LockedCommPool(a.rpc, read_event=read_event, read_queue=read_queue)
async def ping_pong():
return await a.rpc(b.address).ping()
fut = asyncio.create_task(ping_pong())
# We didn't block the write but merely the read. The remove should have
# received the message and responded already
while not b.counter:
await asyncio.sleep(0.001)
with pytest.raises(asyncio.TimeoutError):
await asyncio.wait_for(asyncio.shield(fut), 0.01)
assert await read_queue.get() == (b.address, "pong")
read_event.set()
assert await fut == "pong"
@pytest.mark.asyncio
async def test_locked_comm_intercept_write(loop):
a = await MyServer({})
await a.listen(0)
b = await MyServer({})
await b.listen(0)
write_event = asyncio.Event()
write_queue = asyncio.Queue()
a.rpc = _LockedCommPool(a.rpc, write_event=write_event, write_queue=write_queue)
async def ping_pong():
return await a.rpc(b.address).ping()
fut = asyncio.create_task(ping_pong())
with pytest.raises(asyncio.TimeoutError):
await asyncio.wait_for(asyncio.shield(fut), 0.01)
# Write was blocked. The remote hasn't received the message, yet
assert b.counter == 0
assert await write_queue.get() == (b.address, {"op": "ping", "reply": True})
write_event.set()
assert await fut == "pong"
@pytest.mark.slow()
def test_provide_stack_on_timeout():
sleep_time = 30
async def inner_test(c, s, a, b):
await asyncio.sleep(sleep_time)
# If this timeout is too small, the cluster setup/teardown might take too
# long and the timeout error we'll receive will be different
test = gen_cluster(client=True, timeout=2)(inner_test)
start = time()
with pytest.raises(asyncio.TimeoutError) as exc:
test()
end = time()
assert "inner_test" in str(exc)
assert "await asyncio.sleep(sleep_time)" in str(exc)
# ensure the task was properly
assert end - start < sleep_time / 2