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openpilot is an open source driver assistance system. openpilot performs the functions of Automated Lane Centering and Adaptive Cruise Control for over 200 supported car makes and models.
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openpilot_comma/selfdrive/car/tests/test_models.py

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#!/usr/bin/env python3
# pylint: disable=E1101
import os
import importlib
import unittest
from collections import defaultdict, Counter
from typing import List, Optional, Tuple
from parameterized import parameterized_class
from cereal import log, car
from common.realtime import DT_CTRL
from selfdrive.boardd.boardd import can_capnp_to_can_list, can_list_to_can_capnp
from selfdrive.car.fingerprints import all_known_cars
from selfdrive.car.car_helpers import interfaces
from selfdrive.car.gm.values import CAR as GM
from selfdrive.car.honda.values import CAR as HONDA, HONDA_BOSCH
from selfdrive.car.hyundai.values import CAR as HYUNDAI
from selfdrive.car.tests.routes import non_tested_cars, routes, CarTestRoute
from selfdrive.test.openpilotci import get_url
from tools.lib.logreader import LogReader
from tools.lib.route import Route
from panda.tests.safety import libpandasafety_py
from panda.tests.safety.common import package_can_msg
PandaType = log.PandaState.PandaType
NUM_JOBS = int(os.environ.get("NUM_JOBS", "1"))
JOB_ID = int(os.environ.get("JOB_ID", "0"))
ignore_addr_checks_valid = [
GM.BUICK_REGAL,
HYUNDAI.GENESIS_G70_2020,
]
# build list of test cases
routes_by_car = defaultdict(set)
for r in routes:
routes_by_car[r.car_model].add(r)
test_cases: List[Tuple[str, Optional[CarTestRoute]]] = []
for i, c in enumerate(sorted(all_known_cars())):
if i % NUM_JOBS == JOB_ID:
test_cases.extend((c, r) for r in routes_by_car.get(c, (None, )))
SKIP_ENV_VAR = "SKIP_LONG_TESTS"
class TestCarModelBase(unittest.TestCase):
car_model = None
test_route = None
ci = True
@unittest.skipIf(SKIP_ENV_VAR in os.environ, f"Long running test skipped. Unset {SKIP_ENV_VAR} to run")
@classmethod
def setUpClass(cls):
if cls.__name__ == 'TestCarModel' or cls.__name__.endswith('Base'):
raise unittest.SkipTest
if 'FILTER' in os.environ:
if not cls.car_model.startswith(tuple(os.environ.get('FILTER').split(','))):
raise unittest.SkipTest
if cls.test_route is None:
if cls.car_model in non_tested_cars:
print(f"Skipping tests for {cls.car_model}: missing route")
raise unittest.SkipTest
raise Exception(f"missing test route for {cls.car_model}")
experimental_long = False
test_segs = (2, 1, 0)
if cls.test_route.segment is not None:
test_segs = (cls.test_route.segment,)
for seg in test_segs:
try:
if cls.ci:
lr = LogReader(get_url(cls.test_route.route, seg))
else:
lr = LogReader(Route(cls.test_route.route).log_paths()[seg])
except Exception:
continue
car_fw = []
can_msgs = []
fingerprint = defaultdict(dict)
for msg in lr:
if msg.which() == "can":
for m in msg.can:
if m.src < 64:
fingerprint[m.src][m.address] = len(m.dat)
can_msgs.append(msg)
elif msg.which() == "carParams":
car_fw = msg.carParams.carFw
if msg.carParams.openpilotLongitudinalControl:
experimental_long = True
if cls.car_model is None and not cls.ci:
cls.car_model = msg.carParams.carFingerprint
if len(can_msgs) > int(50 / DT_CTRL):
break
else:
raise Exception(f"Route: {repr(cls.test_route.route)} with segments: {test_segs} not found or no CAN msgs found. Is it uploaded?")
cls.can_msgs = sorted(can_msgs, key=lambda msg: msg.logMonoTime)
cls.CarInterface, cls.CarController, cls.CarState = interfaces[cls.car_model]
cls.CP = cls.CarInterface.get_params(cls.car_model, fingerprint, car_fw, experimental_long)
assert cls.CP
assert cls.CP.carFingerprint == cls.car_model
def setUp(self):
self.CI = self.CarInterface(self.CP, self.CarController, self.CarState)
assert self.CI
# TODO: check safetyModel is in release panda build
self.safety = libpandasafety_py.libpandasafety
cfg = self.CP.safetyConfigs[-1]
set_status = self.safety.set_safety_hooks(cfg.safetyModel.raw, cfg.safetyParam)
self.assertEqual(0, set_status, f"failed to set safetyModel {cfg}")
self.safety.init_tests()
def test_car_params(self):
if self.CP.dashcamOnly:
self.skipTest("no need to check carParams for dashcamOnly")
# make sure car params are within a valid range
self.assertGreater(self.CP.mass, 1)
if self.CP.steerControlType != car.CarParams.SteerControlType.angle:
tuning = self.CP.lateralTuning.which()
if tuning == 'pid':
self.assertTrue(len(self.CP.lateralTuning.pid.kpV))
elif tuning == 'torque':
self.assertTrue(self.CP.lateralTuning.torque.kf > 0)
elif tuning == 'indi':
self.assertTrue(len(self.CP.lateralTuning.indi.outerLoopGainV))
else:
raise Exception("unknown tuning")
def test_car_interface(self):
# TODO: also check for checksum violations from can parser
can_invalid_cnt = 0
can_valid = False
CC = car.CarControl.new_message()
for i, msg in enumerate(self.can_msgs):
CS = self.CI.update(CC, (msg.as_builder().to_bytes(),))
self.CI.apply(CC)
if CS.canValid:
can_valid = True
# wait max of 2s for low frequency msgs to be seen
if i > 200 or can_valid:
can_invalid_cnt += not CS.canValid
self.assertEqual(can_invalid_cnt, 0)
def test_radar_interface(self):
os.environ['NO_RADAR_SLEEP'] = "1"
RadarInterface = importlib.import_module(f'selfdrive.car.{self.CP.carName}.radar_interface').RadarInterface
RI = RadarInterface(self.CP)
assert RI
error_cnt = 0
for i, msg in enumerate(self.can_msgs):
rr = RI.update((msg.as_builder().to_bytes(),))
if rr is not None and i > 50:
error_cnt += car.RadarData.Error.canError in rr.errors
self.assertEqual(error_cnt, 0)
def test_panda_safety_rx_valid(self):
if self.CP.dashcamOnly:
self.skipTest("no need to check panda safety for dashcamOnly")
start_ts = self.can_msgs[0].logMonoTime
failed_addrs = Counter()
for can in self.can_msgs:
# update panda timer
t = (can.logMonoTime - start_ts) / 1e3
self.safety.set_timer(int(t))
# run all msgs through the safety RX hook
for msg in can.can:
if msg.src >= 64:
continue
to_send = package_can_msg([msg.address, 0, msg.dat, msg.src % 4])
if self.safety.safety_rx_hook(to_send) != 1:
failed_addrs[hex(msg.address)] += 1
# ensure all msgs defined in the addr checks are valid
if self.car_model not in ignore_addr_checks_valid:
self.safety.safety_tick_current_rx_checks()
if t > 1e6:
self.assertTrue(self.safety.addr_checks_valid())
self.assertFalse(len(failed_addrs), f"panda safety RX check failed: {failed_addrs}")
def test_panda_safety_carstate(self):
"""
Assert that panda safety matches openpilot's carState
"""
if self.CP.dashcamOnly:
self.skipTest("no need to check panda safety for dashcamOnly")
CC = car.CarControl.new_message()
# warm up pass, as initial states may be different
for can in self.can_msgs[:300]:
for msg in can_capnp_to_can_list(can.can, src_filter=range(64)):
to_send = package_can_msg(msg)
self.safety.safety_rx_hook(to_send)
self.CI.update(CC, (can_list_to_can_capnp([msg, ]), ))
if not self.CP.pcmCruise:
self.safety.set_controls_allowed(0)
controls_allowed_prev = False
CS_prev = car.CarState.new_message()
checks = defaultdict(lambda: 0)
for can in self.can_msgs:
CS = self.CI.update(CC, (can.as_builder().to_bytes(), ))
for msg in can_capnp_to_can_list(can.can, src_filter=range(64)):
msg = list(msg)
msg[3] %= 4
to_send = package_can_msg(msg)
ret = self.safety.safety_rx_hook(to_send)
self.assertEqual(1, ret, f"safety rx failed ({ret=}): {to_send}")
# TODO: check rest of panda's carstate (steering, ACC main on, etc.)
checks['gasPressed'] += CS.gasPressed != self.safety.get_gas_pressed_prev()
checks['cruiseState'] += CS.cruiseState.enabled and not CS.cruiseState.available
if self.CP.carName not in ("hyundai", "volkswagen", "gm", "body"):
# TODO: fix standstill mismatches for other makes
checks['standstill'] += CS.standstill == self.safety.get_vehicle_moving()
# TODO: remove this exception once this mismatch is resolved
brake_pressed = CS.brakePressed
if CS.brakePressed and not self.safety.get_brake_pressed_prev():
if self.CP.carFingerprint in (HONDA.PILOT, HONDA.PASSPORT, HONDA.RIDGELINE) and CS.brake > 0.05:
brake_pressed = False
safety_brake_pressed = self.safety.get_brake_pressed_prev() or self.safety.get_regen_braking_prev()
checks['brakePressed'] += brake_pressed != safety_brake_pressed
if self.CP.pcmCruise:
# On most pcmCruise cars, openpilot's state is always tied to the PCM's cruise state.
# On Honda Nidec, we always engage on the rising edge of the PCM cruise state, but
# openpilot brakes to zero even if the min ACC speed is non-zero (i.e. the PCM disengages).
if self.CP.carName == "honda" and self.CP.carFingerprint not in HONDA_BOSCH:
# only the rising edges are expected to match
if CS.cruiseState.enabled and not CS_prev.cruiseState.enabled:
checks['controlsAllowed'] += not self.safety.get_controls_allowed()
else:
checks['controlsAllowed'] += not CS.cruiseState.enabled and self.safety.get_controls_allowed()
else:
# Check for enable events on rising edge of controls allowed
button_enable = any(evt.enable for evt in CS.events)
mismatch = button_enable != (self.safety.get_controls_allowed() and not controls_allowed_prev)
checks['controlsAllowed'] += mismatch
controls_allowed_prev = self.safety.get_controls_allowed()
if button_enable and not mismatch:
self.safety.set_controls_allowed(False)
if self.CP.carName == "honda":
checks['mainOn'] += CS.cruiseState.available != self.safety.get_acc_main_on()
CS_prev = CS
failed_checks = {k: v for k, v in checks.items() if v > 0}
self.assertFalse(len(failed_checks), f"panda safety doesn't agree with openpilot: {failed_checks}")
@parameterized_class(('car_model', 'test_route'), test_cases)
class TestCarModel(TestCarModelBase):
pass
if __name__ == "__main__":
unittest.main()