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188 lines
5.0 KiB
188 lines
5.0 KiB
import pytest
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import os
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import multiprocessing
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import platform
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import msgq
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from parameterized import parameterized_class
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from typing import Optional
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WAIT_TIMEOUT = 5
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@pytest.mark.skipif(condition=platform.system() == "Darwin", reason="Events not supported on macOS")
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class TestEvents:
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def test_mutation(self):
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handle = msgq.fake_event_handle("carState")
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event = handle.recv_called_event
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assert not event.peek()
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event.set()
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assert event.peek()
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event.clear()
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assert not event.peek()
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del event
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def test_wait(self):
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handle = msgq.fake_event_handle("carState")
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event = handle.recv_called_event
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event.set()
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try:
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event.wait(WAIT_TIMEOUT)
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assert event.peek()
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except RuntimeError:
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pytest.fail("event.wait() timed out")
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def test_wait_multiprocess(self):
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handle = msgq.fake_event_handle("carState")
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event = handle.recv_called_event
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def set_event_run():
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event.set()
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try:
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p = multiprocessing.Process(target=set_event_run)
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p.start()
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event.wait(WAIT_TIMEOUT)
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assert event.peek()
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except RuntimeError:
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pytest.fail("event.wait() timed out")
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p.kill()
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def test_wait_zero_timeout(self):
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handle = msgq.fake_event_handle("carState")
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event = handle.recv_called_event
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try:
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event.wait(0)
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pytest.fail("event.wait() did not time out")
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except RuntimeError:
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assert not event.peek()
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@pytest.mark.skipif(condition=platform.system() == "Darwin", reason="FakeSockets not supported on macOS")
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@pytest.mark.skipif(condition="ZMQ" in os.environ, reason="FakeSockets not supported on ZMQ")
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@parameterized_class([{"prefix": None}, {"prefix": "test"}])
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class TestFakeSockets:
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prefix: Optional[str] = None
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def setup_method(self):
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msgq.toggle_fake_events(True)
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if self.prefix is not None:
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msgq.set_fake_prefix(self.prefix)
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else:
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msgq.delete_fake_prefix()
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def teardown_method(self):
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msgq.toggle_fake_events(False)
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msgq.delete_fake_prefix()
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def test_event_handle_init(self):
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handle = msgq.fake_event_handle("controlsState", override=True)
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assert not handle.enabled
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assert handle.recv_called_event.fd >= 0
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assert handle.recv_ready_event.fd >= 0
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def test_non_managed_socket_state(self):
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# non managed socket should have zero state
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_ = msgq.pub_sock("ubloxGnss")
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handle = msgq.fake_event_handle("ubloxGnss", override=False)
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assert not handle.enabled
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assert handle.recv_called_event.fd == 0
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assert handle.recv_ready_event.fd == 0
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def test_managed_socket_state(self):
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# managed socket should not change anything about the state
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handle = msgq.fake_event_handle("ubloxGnss")
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handle.enabled = True
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expected_enabled = handle.enabled
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expected_recv_called_fd = handle.recv_called_event.fd
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expected_recv_ready_fd = handle.recv_ready_event.fd
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_ = msgq.pub_sock("ubloxGnss")
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assert handle.enabled == expected_enabled
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assert handle.recv_called_event.fd == expected_recv_called_fd
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assert handle.recv_ready_event.fd == expected_recv_ready_fd
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def test_sockets_enable_disable(self):
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carState_handle = msgq.fake_event_handle("ubloxGnss", enable=True)
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recv_called = carState_handle.recv_called_event
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recv_ready = carState_handle.recv_ready_event
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pub_sock = msgq.pub_sock("ubloxGnss")
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sub_sock = msgq.sub_sock("ubloxGnss")
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try:
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carState_handle.enabled = True
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recv_ready.set()
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pub_sock.send(b"test")
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_ = sub_sock.receive()
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assert recv_called.peek()
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recv_called.clear()
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carState_handle.enabled = False
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recv_ready.set()
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pub_sock.send(b"test")
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_ = sub_sock.receive()
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assert not recv_called.peek()
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except RuntimeError:
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pytest.fail("event.wait() timed out")
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def test_synced_pub_sub(self):
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def daemon_repub_process_run():
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pub_sock = msgq.pub_sock("ubloxGnss")
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sub_sock = msgq.sub_sock("carState")
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frame = -1
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while True:
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frame += 1
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msg = sub_sock.receive(non_blocking=True)
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if msg is None:
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print("none received")
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continue
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bts = frame.to_bytes(8, 'little')
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pub_sock.send(bts)
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carState_handle = msgq.fake_event_handle("carState", enable=True)
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recv_called = carState_handle.recv_called_event
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recv_ready = carState_handle.recv_ready_event
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p = multiprocessing.Process(target=daemon_repub_process_run)
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p.start()
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pub_sock = msgq.pub_sock("carState")
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sub_sock = msgq.sub_sock("ubloxGnss")
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try:
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for i in range(10):
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recv_called.wait(WAIT_TIMEOUT)
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recv_called.clear()
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if i == 0:
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sub_sock.receive(non_blocking=True)
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bts = i.to_bytes(8, 'little')
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pub_sock.send(bts)
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recv_ready.set()
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recv_called.wait(WAIT_TIMEOUT)
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msg = sub_sock.receive(non_blocking=True)
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assert msg is not None
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assert len(msg) == 8
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frame = int.from_bytes(msg, 'little')
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assert frame == i
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except RuntimeError:
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pytest.fail("event.wait() timed out")
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finally:
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p.kill()
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