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panda/tests/safety/test_subaru.py

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#!/usr/bin/env python3
import unittest
import numpy as np
from panda import Panda
from panda.tests.safety import libpandasafety_py
import panda.tests.safety.common as common
from panda.tests.safety.common import CANPackerPanda
MAX_RATE_UP = 50
MAX_RATE_DOWN = 70
MAX_STEER = 2047
MAX_RT_DELTA = 940
RT_INTERVAL = 250000
DRIVER_TORQUE_ALLOWANCE = 60
DRIVER_TORQUE_FACTOR = 10
class TestSubaruSafety(common.PandaSafetyTest):
cnt_gas = 0
cnt_torque_driver = 0
cnt_cruise = 0
cnt_speed = 0
cnt_brake = 0
TX_MSGS = [[0x122, 0], [0x221, 0], [0x322, 0]]
STANDSTILL_THRESHOLD = 20 # 1kph (see dbc file)
RELAY_MALFUNCTION_ADDR = 0x122
RELAY_MALFUNCTION_BUS = 0
FWD_BLACKLISTED_ADDRS = {2: [0x122, 0x221, 0x322]}
FWD_BUS_LOOKUP = {0: 2, 2: 0}
def setUp(self):
self.packer = CANPackerPanda("subaru_global_2017_generated")
self.safety = libpandasafety_py.libpandasafety
self.safety.set_safety_hooks(Panda.SAFETY_SUBARU, 0)
self.safety.init_tests()
def _set_prev_torque(self, t):
self.safety.set_desired_torque_last(t)
self.safety.set_rt_torque_last(t)
def _torque_driver_msg(self, torque):
values = {"Steer_Torque_Sensor": torque, "Counter": self.cnt_torque_driver % 4}
self.__class__.cnt_torque_driver += 1
return self.packer.make_can_msg_panda("Steering_Torque", 0, values)
def _speed_msg(self, speed):
# subaru safety doesn't use the scaled value, so undo the scaling
values = {s: speed * 0.057 for s in ["FR", "FL", "RR", "RL"]}
values["Counter"] = self.cnt_speed % 4
self.__class__.cnt_speed += 1
return self.packer.make_can_msg_panda("Wheel_Speeds", 0, values)
def _brake_msg(self, brake):
values = {"Brake_Pedal": brake, "Counter": self.cnt_brake % 4}
self.__class__.cnt_brake += 1
return self.packer.make_can_msg_panda("Brake_Pedal", 0, values)
def _torque_msg(self, torque):
values = {"LKAS_Output": torque}
return self.packer.make_can_msg_panda("ES_LKAS", 0, values)
def _gas_msg(self, gas):
values = {"Throttle_Pedal": gas, "Counter": self.cnt_gas % 4}
self.__class__.cnt_gas += 1
return self.packer.make_can_msg_panda("Throttle", 0, values)
def _pcm_status_msg(self, enable):
values = {"Cruise_Activated": enable, "Counter": self.cnt_cruise % 4}
self.__class__.cnt_cruise += 1
return self.packer.make_can_msg_panda("CruiseControl", 0, values)
def _set_torque_driver(self, min_t, max_t):
for _ in range(0, 5):
self._rx(self._torque_driver_msg(min_t))
self._rx(self._torque_driver_msg(max_t))
def test_steer_safety_check(self):
for enabled in [0, 1]:
for t in range(-3000, 3000):
self.safety.set_controls_allowed(enabled)
self._set_prev_torque(t)
block = abs(t) > MAX_STEER or (not enabled and abs(t) > 0)
self.assertEqual(not block, self._tx(self._torque_msg(t)))
def test_non_realtime_limit_up(self):
self._set_torque_driver(0, 0)
self.safety.set_controls_allowed(True)
self._set_prev_torque(0)
self.assertTrue(self._tx(self._torque_msg(MAX_RATE_UP)))
self._set_prev_torque(0)
self.assertTrue(self._tx(self._torque_msg(-MAX_RATE_UP)))
self._set_prev_torque(0)
self.assertFalse(self._tx(self._torque_msg(MAX_RATE_UP + 1)))
self.safety.set_controls_allowed(True)
self._set_prev_torque(0)
self.assertFalse(self._tx(self._torque_msg(-MAX_RATE_UP - 1)))
def test_non_realtime_limit_down(self):
self._set_torque_driver(0, 0)
self.safety.set_controls_allowed(True)
def test_against_torque_driver(self):
self.safety.set_controls_allowed(True)
for sign in [-1, 1]:
for t in np.arange(0, DRIVER_TORQUE_ALLOWANCE + 1, 1):
t *= -sign
self._set_torque_driver(t, t)
self._set_prev_torque(MAX_STEER * sign)
self.assertTrue(self._tx(self._torque_msg(MAX_STEER * sign)))
self._set_torque_driver(DRIVER_TORQUE_ALLOWANCE + 1, DRIVER_TORQUE_ALLOWANCE + 1)
self.assertFalse(self._tx(self._torque_msg(-MAX_STEER)))
# arbitrary high driver torque to ensure max steer torque is allowed
max_driver_torque = int(MAX_STEER / DRIVER_TORQUE_FACTOR + DRIVER_TORQUE_ALLOWANCE + 1)
# spot check some individual cases
for sign in [-1, 1]:
driver_torque = (DRIVER_TORQUE_ALLOWANCE + 10) * sign
torque_desired = (MAX_STEER - 10 * DRIVER_TORQUE_FACTOR) * sign
delta = 1 * sign
self._set_prev_torque(torque_desired)
self._set_torque_driver(-driver_torque, -driver_torque)
self.assertTrue(self._tx(self._torque_msg(torque_desired)))
self._set_prev_torque(torque_desired + delta)
self._set_torque_driver(-driver_torque, -driver_torque)
self.assertFalse(self._tx(self._torque_msg(torque_desired + delta)))
self._set_prev_torque(MAX_STEER * sign)
self._set_torque_driver(-max_driver_torque * sign, -max_driver_torque * sign)
self.assertTrue(self._tx(self._torque_msg((MAX_STEER - MAX_RATE_DOWN) * sign)))
self._set_prev_torque(MAX_STEER * sign)
self._set_torque_driver(-max_driver_torque * sign, -max_driver_torque * sign)
self.assertTrue(self._tx(self._torque_msg(0)))
self._set_prev_torque(MAX_STEER * sign)
self._set_torque_driver(-max_driver_torque * sign, -max_driver_torque * sign)
self.assertFalse(self._tx(self._torque_msg((MAX_STEER - MAX_RATE_DOWN + 1) * sign)))
def test_realtime_limits(self):
self.safety.set_controls_allowed(True)
for sign in [-1, 1]:
self.safety.init_tests()
self._set_prev_torque(0)
self._set_torque_driver(0, 0)
for t in np.arange(0, MAX_RT_DELTA, 1):
t *= sign
self.assertTrue(self._tx(self._torque_msg(t)))
self.assertFalse(self._tx(self._torque_msg(sign * (MAX_RT_DELTA + 1))))
self._set_prev_torque(0)
for t in np.arange(0, MAX_RT_DELTA, 1):
t *= sign
self.assertTrue(self._tx(self._torque_msg(t)))
# Increase timer to update rt_torque_last
self.safety.set_timer(RT_INTERVAL + 1)
self.assertTrue(self._tx(self._torque_msg(sign * (MAX_RT_DELTA - 1))))
self.assertTrue(self._tx(self._torque_msg(sign * (MAX_RT_DELTA + 1))))
if __name__ == "__main__":
unittest.main()
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