openpilot_comma/selfdrive/car/gm/carstate.py

from cereal import car
from common.conversions import Conversions as CV
from common.numpy_fast import mean
from opendbc.can.can_define import CANDefine
from opendbc.can.parser import CANParser
from selfdrive.car.interfaces import CarStateBase
from selfdrive.car.gm.values import DBC, AccState, CanBus, STEER_THRESHOLD

TransmissionType = car.CarParams.TransmissionType
NetworkLocation = car.CarParams.NetworkLocation
STANDSTILL_THRESHOLD = 10 * 0.0311 * CV.KPH_TO_MS


class CarState(CarStateBase):
  def __init__(self, CP):
    super().__init__(CP)
    can_define = CANDefine(DBC[CP.carFingerprint]["pt"])
    self.shifter_values = can_define.dv["ECMPRDNL2"]["PRNDL2"]
    self.loopback_lka_steering_cmd_updated = False
    self.camera_lka_steering_cmd_counter = 0
    self.buttons_counter = 0

  def update(self, pt_cp, cam_cp, loopback_cp):
    ret = car.CarState.new_message()

    self.prev_cruise_buttons = self.cruise_buttons
    self.cruise_buttons = pt_cp.vl["ASCMSteeringButton"]["ACCButtons"]
    self.buttons_counter = pt_cp.vl["ASCMSteeringButton"]["RollingCounter"]

    # Variables used for avoiding LKAS faults
    self.loopback_lka_steering_cmd_updated = len(loopback_cp.vl_all["ASCMLKASteeringCmd"]) > 0
    if self.CP.networkLocation == NetworkLocation.fwdCamera:
      self.camera_lka_steering_cmd_counter = cam_cp.vl["ASCMLKASteeringCmd"]["RollingCounter"]

    ret.wheelSpeeds = self.get_wheel_speeds(
      pt_cp.vl["EBCMWheelSpdFront"]["FLWheelSpd"],
      pt_cp.vl["EBCMWheelSpdFront"]["FRWheelSpd"],
      pt_cp.vl["EBCMWheelSpdRear"]["RLWheelSpd"],
      pt_cp.vl["EBCMWheelSpdRear"]["RRWheelSpd"],
    )
    ret.vEgoRaw = mean([ret.wheelSpeeds.fl, ret.wheelSpeeds.fr, ret.wheelSpeeds.rl, ret.wheelSpeeds.rr])
    ret.vEgo, ret.aEgo = self.update_speed_kf(ret.vEgoRaw)
    # sample rear wheel speeds, standstill=True if ECM allows engagement with brake
    ret.standstill = ret.wheelSpeeds.rl <= STANDSTILL_THRESHOLD and ret.wheelSpeeds.rr <= STANDSTILL_THRESHOLD

    if pt_cp.vl["ECMPRDNL2"]["ManualMode"] == 1:
      ret.gearShifter = self.parse_gear_shifter("T")
    else:
      ret.gearShifter = self.parse_gear_shifter(self.shifter_values.get(pt_cp.vl["ECMPRDNL2"]["PRNDL2"], None))

    # Some Volt 2016-17 have loose brake pedal push rod retainers which causes the ECM to believe
    # that the brake is being intermittently pressed without user interaction.
    # To avoid a cruise fault we need to match the ECM's brake pressed signal and threshold
    # https://static.nhtsa.gov/odi/tsbs/2017/MC-10137629-9999.pdf
    ret.brake = pt_cp.vl["ECMAcceleratorPos"]["BrakePedalPos"]
    if self.CP.networkLocation != NetworkLocation.fwdCamera:
      ret.brakePressed = ret.brake >= 8
    else:
      # While car is braking, cancel button causes ECM to enter a soft disable state with a fault status.
      # Match ECM threshold at a standstill to allow the camera to cancel earlier
      ret.brakePressed = ret.brake >= 20

    # Regen braking is braking
    if self.CP.transmissionType == TransmissionType.direct:
      ret.brakePressed = ret.brakePressed or pt_cp.vl["EBCMRegenPaddle"]["RegenPaddle"] != 0

    ret.gas = pt_cp.vl["AcceleratorPedal2"]["AcceleratorPedal2"] / 254.
    ret.gasPressed = ret.gas > 1e-5

    ret.steeringAngleDeg = pt_cp.vl["PSCMSteeringAngle"]["SteeringWheelAngle"]
    ret.steeringRateDeg = pt_cp.vl["PSCMSteeringAngle"]["SteeringWheelRate"]
    ret.steeringTorque = pt_cp.vl["PSCMStatus"]["LKADriverAppldTrq"]
    ret.steeringTorqueEps = pt_cp.vl["PSCMStatus"]["LKATorqueDelivered"]
    ret.steeringPressed = abs(ret.steeringTorque) > STEER_THRESHOLD

    # 0 inactive, 1 active, 2 temporarily limited, 3 failed
    self.lkas_status = pt_cp.vl["PSCMStatus"]["LKATorqueDeliveredStatus"]
    ret.steerFaultTemporary = self.lkas_status == 2
    ret.steerFaultPermanent = self.lkas_status == 3

    # 1 - open, 0 - closed
    ret.doorOpen = (pt_cp.vl["BCMDoorBeltStatus"]["FrontLeftDoor"] == 1 or
                    pt_cp.vl["BCMDoorBeltStatus"]["FrontRightDoor"] == 1 or
                    pt_cp.vl["BCMDoorBeltStatus"]["RearLeftDoor"] == 1 or
                    pt_cp.vl["BCMDoorBeltStatus"]["RearRightDoor"] == 1)

    # 1 - latched
    ret.seatbeltUnlatched = pt_cp.vl["BCMDoorBeltStatus"]["LeftSeatBelt"] == 0
    ret.leftBlinker = pt_cp.vl["BCMTurnSignals"]["TurnSignals"] == 1
    ret.rightBlinker = pt_cp.vl["BCMTurnSignals"]["TurnSignals"] == 2

    ret.parkingBrake = pt_cp.vl["VehicleIgnitionAlt"]["ParkBrake"] == 1
    ret.cruiseState.available = pt_cp.vl["ECMEngineStatus"]["CruiseMainOn"] != 0
    ret.espDisabled = pt_cp.vl["ESPStatus"]["TractionControlOn"] != 1
    ret.accFaulted = pt_cp.vl["AcceleratorPedal2"]["CruiseState"] == AccState.FAULTED

    ret.cruiseState.enabled = pt_cp.vl["AcceleratorPedal2"]["CruiseState"] != AccState.OFF
    ret.cruiseState.standstill = pt_cp.vl["AcceleratorPedal2"]["CruiseState"] == AccState.STANDSTILL
    if self.CP.networkLocation == NetworkLocation.fwdCamera:
      ret.cruiseState.speed = cam_cp.vl["ASCMActiveCruiseControlStatus"]["ACCSpeedSetpoint"] * CV.KPH_TO_MS
      ret.stockAeb = cam_cp.vl["AEBCmd"]["AEBCmdActive"] != 0

    return ret

  @staticmethod
  def get_cam_can_parser(CP):
    signals = []
    checks = []
    if CP.networkLocation == NetworkLocation.fwdCamera:
      signals += [
        ("AEBCmdActive", "AEBCmd"),
        ("RollingCounter", "ASCMLKASteeringCmd"),
        ("ACCSpeedSetpoint", "ASCMActiveCruiseControlStatus"),
      ]
      checks += [
        ("AEBCmd", 10),
        ("ASCMLKASteeringCmd", 10),
        ("ASCMActiveCruiseControlStatus", 25),
      ]

    return CANParser(DBC[CP.carFingerprint]["pt"], signals, checks, CanBus.CAMERA)

  @staticmethod
  def get_can_parser(CP):
    signals = [
      # sig_name, sig_address
      ("BrakePedalPos", "ECMAcceleratorPos"),
      ("FrontLeftDoor", "BCMDoorBeltStatus"),
      ("FrontRightDoor", "BCMDoorBeltStatus"),
      ("RearLeftDoor", "BCMDoorBeltStatus"),
      ("RearRightDoor", "BCMDoorBeltStatus"),
      ("LeftSeatBelt", "BCMDoorBeltStatus"),
      ("RightSeatBelt", "BCMDoorBeltStatus"),
      ("TurnSignals", "BCMTurnSignals"),
      ("AcceleratorPedal2", "AcceleratorPedal2"),
      ("CruiseState", "AcceleratorPedal2"),
      ("ACCButtons", "ASCMSteeringButton"),
      ("RollingCounter", "ASCMSteeringButton"),
      ("SteeringWheelAngle", "PSCMSteeringAngle"),
      ("SteeringWheelRate", "PSCMSteeringAngle"),
      ("FLWheelSpd", "EBCMWheelSpdFront"),
      ("FRWheelSpd", "EBCMWheelSpdFront"),
      ("RLWheelSpd", "EBCMWheelSpdRear"),
      ("RRWheelSpd", "EBCMWheelSpdRear"),
      ("PRNDL2", "ECMPRDNL2"),
      ("ManualMode", "ECMPRDNL2"),
      ("LKADriverAppldTrq", "PSCMStatus"),
      ("LKATorqueDelivered", "PSCMStatus"),
      ("LKATorqueDeliveredStatus", "PSCMStatus"),
      ("TractionControlOn", "ESPStatus"),
      ("ParkBrake", "VehicleIgnitionAlt"),
      ("CruiseMainOn", "ECMEngineStatus"),
    ]

    checks = [
      ("BCMTurnSignals", 1),
      ("ECMPRDNL2", 10),
      ("PSCMStatus", 10),
      ("ESPStatus", 10),
      ("BCMDoorBeltStatus", 10),
      ("VehicleIgnitionAlt", 10),
      ("EBCMWheelSpdFront", 20),
      ("EBCMWheelSpdRear", 20),
      ("AcceleratorPedal2", 33),
      ("ASCMSteeringButton", 33),
      ("ECMEngineStatus", 100),
      ("PSCMSteeringAngle", 100),
      ("ECMAcceleratorPos", 80),
    ]

    if CP.transmissionType == TransmissionType.direct:
      signals.append(("RegenPaddle", "EBCMRegenPaddle"))
      checks.append(("EBCMRegenPaddle", 50))

    return CANParser(DBC[CP.carFingerprint]["pt"], signals, checks, CanBus.POWERTRAIN)

  @staticmethod
  def get_loopback_can_parser(CP):
    signals = [
      ("RollingCounter", "ASCMLKASteeringCmd"),
    ]

    checks = [
      ("ASCMLKASteeringCmd", 0),
    ]

    return CANParser(DBC[CP.carFingerprint]["pt"], signals, checks, CanBus.LOOPBACK, enforce_checks=False)