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carstate.py
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from cereal import car
from common.conversions import Conversions as CV
from opendbc.can.parser import CANParser
from opendbc.can.can_define import CANDefine
from selfdrive.car.interfaces import CarStateBase
from selfdrive.car.chrysler.values import DBC, STEER_THRESHOLD
class CarState(CarStateBase):
def __init__(self, CP):
super().__init__(CP)
can_define = CANDefine(DBC[CP.carFingerprint]["pt"])
self.shifter_values = can_define.dv["GEAR"]["PRNDL"]
def update(self, cp, cp_cam):
ret = car.CarState.new_message()
self.frame = int(cp.vl["EPS_STATUS"]["COUNTER"])
ret.doorOpen = any([cp.vl["BCM_1"]["DOOR_OPEN_FL"],
cp.vl["BCM_1"]["DOOR_OPEN_FR"],
cp.vl["BCM_1"]["DOOR_OPEN_RL"],
cp.vl["BCM_1"]["DOOR_OPEN_RR"]])
ret.seatbeltUnlatched = cp.vl["SEATBELT_STATUS"]["SEATBELT_DRIVER_UNLATCHED"] == 1
# brake pedal
ret.brake = 0
ret.brakePressed = cp.vl["ESP_1"]['Brake_Pedal_State'] == 1 # Physical brake pedal switch
# gas pedal
ret.gas = cp.vl["ECM_5"]["Accelerator_Position"]
ret.gasPressed = ret.gas > 1e-5
ret.espDisabled = (cp.vl["TRACTION_BUTTON"]["TRACTION_OFF"] == 1)
ret.wheelSpeeds = self.get_wheel_speeds(
cp.vl["WHEEL_SPEEDS"]["WHEEL_SPEED_FL"],
cp.vl["WHEEL_SPEEDS"]["WHEEL_SPEED_FR"],
cp.vl["WHEEL_SPEEDS"]["WHEEL_SPEED_RL"],
cp.vl["WHEEL_SPEEDS"]["WHEEL_SPEED_RR"],
unit=1,
)
ret.vEgoRaw = (cp.vl["SPEED_1"]["SPEED_LEFT"] + cp.vl["SPEED_1"]["SPEED_RIGHT"]) / 2.
ret.vEgo, ret.aEgo = self.update_speed_kf(ret.vEgoRaw)
ret.standstill = not ret.vEgoRaw > 0.001
ret.leftBlinker = cp.vl["STEERING_LEVERS"]["TURN_SIGNALS"] == 1
ret.rightBlinker = cp.vl["STEERING_LEVERS"]["TURN_SIGNALS"] == 2
ret.gearShifter = self.parse_gear_shifter(self.shifter_values.get(cp.vl["GEAR"]["PRNDL"], None))
ret.cruiseState.available = cp.vl["DAS_3"]["ACC_AVAILABLE"] == 1 # ACC is white
ret.cruiseState.enabled = cp.vl["DAS_3"]["ACC_ACTIVE"] == 1 # ACC is green
ret.cruiseState.speed = cp.vl["DASHBOARD"]["ACC_SPEED_CONFIG_KPH"] * CV.KPH_TO_MS
# CRUISE_STATE is a three bit msg, 0 is off, 1 and 2 are Non-ACC mode, 3 and 4 are ACC mode, find if there are other states too
ret.cruiseState.nonAdaptive = cp.vl["DASHBOARD"]["CRUISE_STATE"] in (1, 2)
ret.accFaulted = cp.vl["DAS_3"]["ACC_FAULTED"] != 0
ret.steeringAngleDeg = cp.vl["STEERING"]["STEER_ANGLE"]
ret.steeringRateDeg = cp.vl["STEERING"]["STEERING_RATE"]
ret.steeringTorque = cp.vl["EPS_STATUS"]["TORQUE_DRIVER"]
ret.steeringTorqueEps = cp.vl["EPS_STATUS"]["TORQUE_MOTOR"]
ret.steeringPressed = abs(ret.steeringTorque) > STEER_THRESHOLD
steer_state = cp.vl["EPS_STATUS"]["LKAS_STATE"]
ret.steerFaultPermanent = steer_state == 4 or (steer_state == 0 and ret.vEgo > self.CP.minSteerSpeed)
ret.genericToggle = bool(cp.vl["STEERING_LEVERS"]["HIGH_BEAM_FLASH"])
if self.CP.enableBsm:
ret.leftBlindspot = cp.vl["BLIND_SPOT_WARNINGS"]["BLIND_SPOT_LEFT"] == 1
ret.rightBlindspot = cp.vl["BLIND_SPOT_WARNINGS"]["BLIND_SPOT_RIGHT"] == 1
self.lkas_counter = cp_cam.vl["LKAS_COMMAND"]["COUNTER"]
self.lkas_car_model = cp_cam.vl["LKAS_HUD"]["CAR_MODEL"]
self.lkas_status_ok = cp_cam.vl["LKAS_HEARTBIT"]["LKAS_STATUS_OK"]
self.button_counter = cp.vl["WHEEL_BUTTONS"]["COUNTER"]
return ret
@staticmethod
def get_can_parser(CP):
signals = [
# sig_name, sig_address
("PRNDL", "GEAR"),
("DOOR_OPEN_FL", "BCM_1"),
("DOOR_OPEN_FR", "BCM_1"),
("DOOR_OPEN_RL", "BCM_1"),
("DOOR_OPEN_RR", "BCM_1"),
("Brake_Pedal_State", "ESP_1"),
("Accelerator_Position", "ECM_5"),
("SPEED_LEFT", "SPEED_1"),
("SPEED_RIGHT", "SPEED_1"),
("WHEEL_SPEED_FL", "WHEEL_SPEEDS"),
("WHEEL_SPEED_RR", "WHEEL_SPEEDS"),
("WHEEL_SPEED_RL", "WHEEL_SPEEDS"),
("WHEEL_SPEED_FR", "WHEEL_SPEEDS"),
("STEER_ANGLE", "STEERING"),
("STEERING_RATE", "STEERING"),
("TURN_SIGNALS", "STEERING_LEVERS"),
("ACC_AVAILABLE", "DAS_3"),
("ACC_ACTIVE", "DAS_3"),
("ACC_FAULTED", "DAS_3"),
("HIGH_BEAM_FLASH", "STEERING_LEVERS"),
("ACC_SPEED_CONFIG_KPH", "DASHBOARD"),
("CRUISE_STATE", "DASHBOARD"),
("TORQUE_DRIVER", "EPS_STATUS"),
("TORQUE_MOTOR", "EPS_STATUS"),
("LKAS_STATE", "EPS_STATUS"),
("COUNTER", "EPS_STATUS",),
("TRACTION_OFF", "TRACTION_BUTTON"),
("SEATBELT_DRIVER_UNLATCHED", "SEATBELT_STATUS"),
("COUNTER", "WHEEL_BUTTONS"),
]
checks = [
# sig_address, frequency
("ESP_1", 50),
("EPS_STATUS", 100),
("SPEED_1", 100),
("WHEEL_SPEEDS", 50),
("STEERING", 100),
("DAS_3", 50),
("GEAR", 50),
("ECM_5", 50),
("WHEEL_BUTTONS", 50),
("DASHBOARD", 15),
("STEERING_LEVERS", 10),
("SEATBELT_STATUS", 2),
("BCM_1", 1),
("TRACTION_BUTTON", 1),
]
if CP.enableBsm:
signals += [
("BLIND_SPOT_RIGHT", "BLIND_SPOT_WARNINGS"),
("BLIND_SPOT_LEFT", "BLIND_SPOT_WARNINGS"),
]
checks.append(("BLIND_SPOT_WARNINGS", 2))
return CANParser(DBC[CP.carFingerprint]["pt"], signals, checks, 0)
@staticmethod
def get_cam_can_parser(CP):
signals = [
# sig_name, sig_address
("COUNTER", "LKAS_COMMAND"),
("CAR_MODEL", "LKAS_HUD"),
("LKAS_STATUS_OK", "LKAS_HEARTBIT")
]
checks = [
("LKAS_COMMAND", 100),
("LKAS_HEARTBIT", 10),
("LKAS_HUD", 4),
]
return CANParser(DBC[CP.carFingerprint]["pt"], signals, checks, 2)