carrot/selfdrive/car/tesla/carstate.py

import copy
from collections import deque
from cereal import car
from openpilot.common.conversions import Conversions as CV
from openpilot.selfdrive.car.tesla.values import CAR, DBC, CANBUS, GEAR_MAP, DOORS, BUTTONS
from openpilot.selfdrive.car.interfaces import CarStateBase
from opendbc.can.parser import CANParser
from opendbc.can.can_define import CANDefine

class CarState(CarStateBase):
  def __init__(self, CP):
    super().__init__(CP)
    self.button_states = {button.event_type: False for button in BUTTONS}
    self.can_define = CANDefine(DBC[CP.carFingerprint]['chassis'])

    # Needed by carcontroller
    self.msg_stw_actn_req = None
    self.hands_on_level = 0
    self.steer_warning = None
    self.acc_state = 0
    self.das_control_counters = deque(maxlen=32)

  def update(self, cp, cp_cam):
    ret = car.CarState.new_message()

    # Vehicle speed
    ret.vEgoRaw = cp.vl["ESP_B"]["ESP_vehicleSpeed"] * CV.KPH_TO_MS
    ret.vEgo, ret.aEgo = self.update_speed_kf(ret.vEgoRaw)
    ret.standstill = (ret.vEgo < 0.1)

    # Gas pedal
    ret.gas = cp.vl["DI_torque1"]["DI_pedalPos"] / 100.0
    ret.gasPressed = (ret.gas > 0)

    # Brake pedal
    ret.brake = 0
    ret.brakePressed = bool(cp.vl["BrakeMessage"]["driverBrakeStatus"] != 1)

    # Steering wheel
    epas_status = cp_cam.vl["EPAS3P_sysStatus"] if self.CP.carFingerprint == CAR.MODELS_RAVEN else cp.vl["EPAS_sysStatus"]

    self.hands_on_level = epas_status["EPAS_handsOnLevel"]
    self.steer_warning = self.can_define.dv["EPAS_sysStatus"]["EPAS_eacErrorCode"].get(int(epas_status["EPAS_eacErrorCode"]), None)
    steer_status = self.can_define.dv["EPAS_sysStatus"]["EPAS_eacStatus"].get(int(epas_status["EPAS_eacStatus"]), None)

    ret.steeringAngleDeg = -epas_status["EPAS_internalSAS"]
    ret.steeringRateDeg = -cp.vl["STW_ANGLHP_STAT"]["StW_AnglHP_Spd"] # This is from a different angle sensor, and at different rate
    ret.steeringTorque = -epas_status["EPAS_torsionBarTorque"]
    ret.steeringPressed = (self.hands_on_level > 0)
    ret.steerFaultPermanent = steer_status == "EAC_FAULT"
    ret.steerFaultTemporary = (self.steer_warning not in ("EAC_ERROR_IDLE", "EAC_ERROR_HANDS_ON"))

    # Cruise state
    cruise_state = self.can_define.dv["DI_state"]["DI_cruiseState"].get(int(cp.vl["DI_state"]["DI_cruiseState"]), None)
    speed_units = self.can_define.dv["DI_state"]["DI_speedUnits"].get(int(cp.vl["DI_state"]["DI_speedUnits"]), None)

    acc_enabled = (cruise_state in ("ENABLED", "STANDSTILL", "OVERRIDE", "PRE_FAULT", "PRE_CANCEL"))

    ret.cruiseState.enabled = acc_enabled
    if speed_units == "KPH":
      ret.cruiseState.speed = cp.vl["DI_state"]["DI_digitalSpeed"] * CV.KPH_TO_MS
    elif speed_units == "MPH":
      ret.cruiseState.speed = cp.vl["DI_state"]["DI_digitalSpeed"] * CV.MPH_TO_MS
    ret.cruiseState.available = ((cruise_state == "STANDBY") or ret.cruiseState.enabled)
    ret.cruiseState.standstill = False # This needs to be false, since we can resume from stop without sending anything special

    # Gear
    ret.gearShifter = GEAR_MAP[self.can_define.dv["DI_torque2"]["DI_gear"].get(int(cp.vl["DI_torque2"]["DI_gear"]), "DI_GEAR_INVALID")]

    # Buttons
    buttonEvents = []
    for button in BUTTONS:
      state = (cp.vl[button.can_addr][button.can_msg] in button.values)
      if self.button_states[button.event_type] != state:
        event = car.CarState.ButtonEvent.new_message()
        event.type = button.event_type
        event.pressed = state
        buttonEvents.append(event)
      self.button_states[button.event_type] = state
    ret.buttonEvents = buttonEvents

    # Doors
    ret.doorOpen = any((self.can_define.dv["GTW_carState"][door].get(int(cp.vl["GTW_carState"][door]), "OPEN") == "OPEN") for door in DOORS)

    # Blinkers
    ret.leftBlinker = (cp.vl["GTW_carState"]["BC_indicatorLStatus"] == 1)
    ret.rightBlinker = (cp.vl["GTW_carState"]["BC_indicatorRStatus"] == 1)

    # Seatbelt
    if self.CP.carFingerprint == CAR.MODELS_RAVEN:
      ret.seatbeltUnlatched = (cp.vl["DriverSeat"]["buckleStatus"] != 1)
    else:
      ret.seatbeltUnlatched = (cp.vl["SDM1"]["SDM_bcklDrivStatus"] != 1)

    # TODO: blindspot

    # AEB
    ret.stockAeb = (cp_cam.vl["DAS_control"]["DAS_aebEvent"] == 1)

    # Messages needed by carcontroller
    self.msg_stw_actn_req = copy.copy(cp.vl["STW_ACTN_RQ"])
    self.acc_state = cp_cam.vl["DAS_control"]["DAS_accState"]
    self.das_control_counters.extend(cp_cam.vl_all["DAS_control"]["DAS_controlCounter"])

    return ret

  @staticmethod
  def get_can_parser(CP):
    messages = [
      # sig_address, frequency
      ("ESP_B", 50),
      ("DI_torque1", 100),
      ("DI_torque2", 100),
      ("STW_ANGLHP_STAT", 100),
      ("EPAS_sysStatus", 25),
      ("DI_state", 10),
      ("STW_ACTN_RQ", 10),
      ("GTW_carState", 10),
      ("BrakeMessage", 50),
    ]

    if CP.carFingerprint == CAR.MODELS_RAVEN:
      messages.append(("DriverSeat", 20))
    else:
      messages.append(("SDM1", 10))

    return CANParser(DBC[CP.carFingerprint]['chassis'], messages, CANBUS.chassis)

  @staticmethod
  def get_cam_can_parser(CP):
    messages = [
      # sig_address, frequency
      ("DAS_control", 40),
    ]

    if CP.carFingerprint == CAR.MODELS_RAVEN:
      messages.append(("EPAS3P_sysStatus", 100))

    return CANParser(DBC[CP.carFingerprint]['chassis'], messages, CANBUS.autopilot_chassis)
openpilot v0.9.7 release date: 2024-03-17T10:14:38 master commit: 7e9a909e0e57ecb31df4c87c5b9a06b1204fd034 2024-03-18 06:57:41 -07:00			`import copy`
			`from collections import deque`
			`from cereal import car`
			`from openpilot.common.conversions import Conversions as CV`
			`from openpilot.selfdrive.car.tesla.values import CAR, DBC, CANBUS, GEAR_MAP, DOORS, BUTTONS`
			`from openpilot.selfdrive.car.interfaces import CarStateBase`
			`from opendbc.can.parser import CANParser`
			`from opendbc.can.can_define import CANDefine`

			`class CarState(CarStateBase):`
			`def __init__(self, CP):`
			`super().__init__(CP)`
			`self.button_states = {button.event_type: False for button in BUTTONS}`
			`self.can_define = CANDefine(DBC[CP.carFingerprint]['chassis'])`

			`# Needed by carcontroller`
			`self.msg_stw_actn_req = None`
			`self.hands_on_level = 0`
			`self.steer_warning = None`
			`self.acc_state = 0`
			`self.das_control_counters = deque(maxlen=32)`

			`def update(self, cp, cp_cam):`
			`ret = car.CarState.new_message()`

			`# Vehicle speed`
			`ret.vEgoRaw = cp.vl["ESP_B"]["ESP_vehicleSpeed"] * CV.KPH_TO_MS`
			`ret.vEgo, ret.aEgo = self.update_speed_kf(ret.vEgoRaw)`
			`ret.standstill = (ret.vEgo < 0.1)`

			`# Gas pedal`
			`ret.gas = cp.vl["DI_torque1"]["DI_pedalPos"] / 100.0`
			`ret.gasPressed = (ret.gas > 0)`

			`# Brake pedal`
			`ret.brake = 0`
			`ret.brakePressed = bool(cp.vl["BrakeMessage"]["driverBrakeStatus"] != 1)`

			`# Steering wheel`
			`epas_status = cp_cam.vl["EPAS3P_sysStatus"] if self.CP.carFingerprint == CAR.MODELS_RAVEN else cp.vl["EPAS_sysStatus"]`

			`self.hands_on_level = epas_status["EPAS_handsOnLevel"]`
			`self.steer_warning = self.can_define.dv["EPAS_sysStatus"]["EPAS_eacErrorCode"].get(int(epas_status["EPAS_eacErrorCode"]), None)`
			`steer_status = self.can_define.dv["EPAS_sysStatus"]["EPAS_eacStatus"].get(int(epas_status["EPAS_eacStatus"]), None)`

			`ret.steeringAngleDeg = -epas_status["EPAS_internalSAS"]`
			`ret.steeringRateDeg = -cp.vl["STW_ANGLHP_STAT"]["StW_AnglHP_Spd"] # This is from a different angle sensor, and at different rate`
			`ret.steeringTorque = -epas_status["EPAS_torsionBarTorque"]`
			`ret.steeringPressed = (self.hands_on_level > 0)`
			`ret.steerFaultPermanent = steer_status == "EAC_FAULT"`
			`ret.steerFaultTemporary = (self.steer_warning not in ("EAC_ERROR_IDLE", "EAC_ERROR_HANDS_ON"))`

			`# Cruise state`
			`cruise_state = self.can_define.dv["DI_state"]["DI_cruiseState"].get(int(cp.vl["DI_state"]["DI_cruiseState"]), None)`
			`speed_units = self.can_define.dv["DI_state"]["DI_speedUnits"].get(int(cp.vl["DI_state"]["DI_speedUnits"]), None)`

			`acc_enabled = (cruise_state in ("ENABLED", "STANDSTILL", "OVERRIDE", "PRE_FAULT", "PRE_CANCEL"))`

			`ret.cruiseState.enabled = acc_enabled`
			`if speed_units == "KPH":`
			`ret.cruiseState.speed = cp.vl["DI_state"]["DI_digitalSpeed"] * CV.KPH_TO_MS`
			`elif speed_units == "MPH":`
			`ret.cruiseState.speed = cp.vl["DI_state"]["DI_digitalSpeed"] * CV.MPH_TO_MS`
			`ret.cruiseState.available = ((cruise_state == "STANDBY") or ret.cruiseState.enabled)`
			`ret.cruiseState.standstill = False # This needs to be false, since we can resume from stop without sending anything special`

			`# Gear`
			`ret.gearShifter = GEAR_MAP[self.can_define.dv["DI_torque2"]["DI_gear"].get(int(cp.vl["DI_torque2"]["DI_gear"]), "DI_GEAR_INVALID")]`

			`# Buttons`
			`buttonEvents = []`
			`for button in BUTTONS:`
			`state = (cp.vl[button.can_addr][button.can_msg] in button.values)`
			`if self.button_states[button.event_type] != state:`
			`event = car.CarState.ButtonEvent.new_message()`
			`event.type = button.event_type`
			`event.pressed = state`
			`buttonEvents.append(event)`
			`self.button_states[button.event_type] = state`
			`ret.buttonEvents = buttonEvents`

			`# Doors`
			`ret.doorOpen = any((self.can_define.dv["GTW_carState"][door].get(int(cp.vl["GTW_carState"][door]), "OPEN") == "OPEN") for door in DOORS)`

			`# Blinkers`
			`ret.leftBlinker = (cp.vl["GTW_carState"]["BC_indicatorLStatus"] == 1)`
			`ret.rightBlinker = (cp.vl["GTW_carState"]["BC_indicatorRStatus"] == 1)`

			`# Seatbelt`
			`if self.CP.carFingerprint == CAR.MODELS_RAVEN:`
			`ret.seatbeltUnlatched = (cp.vl["DriverSeat"]["buckleStatus"] != 1)`
			`else:`
			`ret.seatbeltUnlatched = (cp.vl["SDM1"]["SDM_bcklDrivStatus"] != 1)`

			`# TODO: blindspot`

			`# AEB`
			`ret.stockAeb = (cp_cam.vl["DAS_control"]["DAS_aebEvent"] == 1)`

			`# Messages needed by carcontroller`
			`self.msg_stw_actn_req = copy.copy(cp.vl["STW_ACTN_RQ"])`
			`self.acc_state = cp_cam.vl["DAS_control"]["DAS_accState"]`
			`self.das_control_counters.extend(cp_cam.vl_all["DAS_control"]["DAS_controlCounter"])`

			`return ret`

			`@staticmethod`
			`def get_can_parser(CP):`
			`messages = [`
			`# sig_address, frequency`
			`("ESP_B", 50),`
			`("DI_torque1", 100),`
			`("DI_torque2", 100),`
			`("STW_ANGLHP_STAT", 100),`
			`("EPAS_sysStatus", 25),`
			`("DI_state", 10),`
			`("STW_ACTN_RQ", 10),`
			`("GTW_carState", 10),`
			`("BrakeMessage", 50),`
			`]`

			`if CP.carFingerprint == CAR.MODELS_RAVEN:`
			`messages.append(("DriverSeat", 20))`
			`else:`
			`messages.append(("SDM1", 10))`

			`return CANParser(DBC[CP.carFingerprint]['chassis'], messages, CANBUS.chassis)`

			`@staticmethod`
			`def get_cam_can_parser(CP):`
			`messages = [`
			`# sig_address, frequency`
			`("DAS_control", 40),`
			`]`

			`if CP.carFingerprint == CAR.MODELS_RAVEN:`
			`messages.append(("EPAS3P_sysStatus", 100))`

			`return CANParser(DBC[CP.carFingerprint]['chassis'], messages, CANBUS.autopilot_chassis)`