import logging import multiprocessing import pickle import random import signal import pytest from sanic_testing.testing import HOST, PORT from sanic import Blueprint from sanic.log import logger from sanic.response import text @pytest.mark.skipif( not hasattr(signal, "SIGALRM"), reason="SIGALRM is not implemented for this platform, we have to come " "up with another timeout strategy to test these", ) def test_multiprocessing(app): """Tests that the number of children we produce is correct""" # Selects a number at random so we can spot check num_workers = random.choice(range(2, multiprocessing.cpu_count() * 2 + 1)) process_list = set() def stop_on_alarm(*args): for process in multiprocessing.active_children(): process_list.add(process.pid) process.terminate() signal.signal(signal.SIGALRM, stop_on_alarm) signal.alarm(3) app.run(HOST, PORT, workers=num_workers) assert len(process_list) == num_workers @pytest.mark.skipif( not hasattr(signal, "SIGALRM"), reason="SIGALRM is not implemented for this platform", ) def test_multiprocessing_with_blueprint(app): # Selects a number at random so we can spot check num_workers = random.choice(range(2, multiprocessing.cpu_count() * 2 + 1)) process_list = set() def stop_on_alarm(*args): for process in multiprocessing.active_children(): process_list.add(process.pid) process.terminate() signal.signal(signal.SIGALRM, stop_on_alarm) signal.alarm(3) bp = Blueprint("test_text") app.blueprint(bp) app.run(HOST, PORT, workers=num_workers) assert len(process_list) == num_workers # this function must be outside a test function so that it can be # able to be pickled (local functions cannot be pickled). def handler(request): return text("Hello") # Multiprocessing on Windows requires app to be able to be pickled @pytest.mark.parametrize("protocol", [3, 4]) def test_pickle_app(app, protocol): app.route("/")(handler) app.router.finalize() app.router.reset() p_app = pickle.dumps(app, protocol=protocol) del app up_p_app = pickle.loads(p_app) up_p_app.router.finalize() assert up_p_app request, response = up_p_app.test_client.get("/") assert response.text == "Hello" @pytest.mark.parametrize("protocol", [3, 4]) def test_pickle_app_with_bp(app, protocol): bp = Blueprint("test_text") bp.route("/")(handler) app.blueprint(bp) app.router.finalize() app.router.reset() p_app = pickle.dumps(app, protocol=protocol) del app up_p_app = pickle.loads(p_app) up_p_app.router.finalize() assert up_p_app request, response = up_p_app.test_client.get("/") assert response.text == "Hello" @pytest.mark.parametrize("protocol", [3, 4]) def test_pickle_app_with_static(app, protocol): app.route("/")(handler) app.static("/static", "/tmp/static") app.router.finalize() app.router.reset() p_app = pickle.dumps(app, protocol=protocol) del app up_p_app = pickle.loads(p_app) up_p_app.router.finalize() assert up_p_app request, response = up_p_app.test_client.get("/static/missing.txt") assert response.status == 404 def test_main_process_event(app, caplog): # Selects a number at random so we can spot check num_workers = random.choice(range(2, multiprocessing.cpu_count() * 2 + 1)) def stop_on_alarm(*args): for process in multiprocessing.active_children(): process.terminate() signal.signal(signal.SIGALRM, stop_on_alarm) signal.alarm(1) @app.listener("main_process_start") def main_process_start(app, loop): logger.info("main_process_start") @app.listener("main_process_stop") def main_process_stop(app, loop): logger.info("main_process_stop") with caplog.at_level(logging.INFO): app.run(HOST, PORT, workers=num_workers) assert ( caplog.record_tuples.count(("sanic.root", 20, "main_process_start")) == 1 ) assert ( caplog.record_tuples.count(("sanic.root", 20, "main_process_stop")) == 1 )