Nissan port - dashcam only (#1203)

* Nissan port * add x-trail to release notes * update readme and model * remove from releases until tested * Don't test Nissan for now * Forced dashcam in test_car_models
5 years ago · 6db044c86c
parent ca05a18de9
commit 6db044c86c
10 changed files with 407 additions and 3 deletions
--- a/selfdrive/car/nissan/init.py
+++ b/selfdrive/car/nissan/init.py
--- a/selfdrive/car/nissan/carcontroller.py
+++ b/selfdrive/car/nissan/carcontroller.py
@ -0,0 +1,73 @@
 from common.numpy_fast import clip, interp
 from selfdrive.car.nissan import nissancan
 from opendbc.can.packer import CANPacker
 # Steer angle limits
 ANGLE_MAX_BP = [1.3, 10., 30.]
 ANGLE_MAX_V = [540., 120., 23.]
 ANGLE_DELTA_BP = [0., 5., 15.]
 ANGLE_DELTA_V = [5., .8, .15]     # windup limit
 ANGLE_DELTA_VU = [5., 3.5, 0.4]   # unwind limit
 LKAS_MAX_TORQUE = 100             # A value of 100 is easy to overpower
 class CarController():
  def __init__(self, dbc_name, CP, VM):
    self.car_fingerprint = CP.carFingerprint
    self.lkas_max_torque = 0
    self.last_angle = 0
    self.packer = CANPacker(dbc_name)
  def update(self, enabled, CS, frame, actuators, cruise_cancel):
    """ Controls thread """
    # Send CAN commands.
    can_sends = []
    ### STEER ###
    acc_active = bool(CS.out.cruiseState.enabled)
    cruise_throttle_msg = CS.cruise_throttle_msg
    apply_angle = actuators.steerAngle
    if enabled:
      # # windup slower
      if self.last_angle * apply_angle > 0. and abs(apply_angle) > abs(self.last_angle):
        angle_rate_lim = interp(CS.out.vEgo, ANGLE_DELTA_BP, ANGLE_DELTA_V)
      else:
        angle_rate_lim = interp(CS.out.vEgo, ANGLE_DELTA_BP, ANGLE_DELTA_VU)
      apply_angle = clip(apply_angle, self.last_angle -
                         angle_rate_lim, self.last_angle + angle_rate_lim)
      # steer angle
      angle_lim = interp(CS.out.vEgo, ANGLE_MAX_BP, ANGLE_MAX_V)
      apply_angle = clip(apply_angle, -angle_lim, angle_lim)
      # Max torque from driver before EPS will give up and not apply torque
      if not bool(CS.out.steeringPressed):
        self.lkas_max_torque = LKAS_MAX_TORQUE
      else:
        # Scale max torque based on how much torque the driver is applying to the wheel
        self.lkas_max_torque = max(
            0, LKAS_MAX_TORQUE - 0.4 * abs(CS.out.steeringTorque))
    else:
      apply_angle = CS.out.steeringAngle
      self.lkas_max_torque = 0
    self.last_angle = apply_angle
    if not enabled and acc_active:
      # send acc cancel cmd if drive is disabled but pcm is still on, or if the system can't be activated
      cruise_cancel = 1
    if cruise_cancel:
      can_sends.append(nissancan.create_acc_cancel_cmd(
          self.packer, cruise_throttle_msg, frame))
    can_sends.append(nissancan.create_steering_control(
        self.packer, self.car_fingerprint, apply_angle, frame, acc_active, self.lkas_max_torque))
    return can_sends
--- a/selfdrive/car/nissan/carstate.py
+++ b/selfdrive/car/nissan/carstate.py
@ -0,0 +1,137 @@
 import copy
 from cereal import car
 from opendbc.can.can_define import CANDefine
 from selfdrive.car.interfaces import CarStateBase
 from selfdrive.config import Conversions as CV
 from opendbc.can.parser import CANParser
 from selfdrive.car.nissan.values import DBC
 class CarState(CarStateBase):
  def __init__(self, CP):
    super().__init__(CP)
    can_define = CANDefine(DBC[CP.carFingerprint]['pt'])
    self.shifter_values = can_define.dv["GEARBOX"]["GEAR_SHIFTER"]
  def update(self, cp, cp_adas, cp_cam):
    ret = car.CarState.new_message()
    ret.gas = cp.vl["Throttle"]["ThrottlePedal"]
    ret.gasPressed = bool(ret.gas)
    ret.brakePressed = bool(cp.vl["DoorsLights"]["USER_BRAKE_PRESSED"])
    ret.brakeLights = bool(cp.vl["DoorsLights"]["BRAKE_LIGHT"])
    ret.wheelSpeeds.fl = cp.vl["WheelspeedFront"]["FL"] * CV.KPH_TO_MS
    ret.wheelSpeeds.fr = cp.vl["WheelspeedFront"]["FR"] * CV.KPH_TO_MS
    ret.wheelSpeeds.rl = cp.vl["WheelspeedRear"]["RL"] * CV.KPH_TO_MS
    ret.wheelSpeeds.rr = cp.vl["WheelspeedRear"]["RR"] * CV.KPH_TO_MS
    ret.vEgoRaw = (ret.wheelSpeeds.fl + ret.wheelSpeeds.fr + ret.wheelSpeeds.rl + ret.wheelSpeeds.rr) / 4.
    # Kalman filter, even though Subaru raw wheel speed is heaviliy filtered by default
    ret.vEgo, ret.aEgo = self.update_speed_kf(ret.vEgoRaw)
    ret.standstill = ret.vEgoRaw < 0.01
    can_gear = int(cp.vl["GEARBOX"]["GEAR_SHIFTER"])
    ret.gearShifter = self.parse_gear_shifter(self.shifter_values.get(can_gear, None))
    ret.leftBlinker = bool(cp.vl["Lights"]["LEFT_BLINKER"])
    ret.rightBlinker = bool(cp.vl["Lights"]["RIGHT_BLINKER"])
    ret.seatbeltUnlatched = cp.vl["_SEATBELT"]["DRIVERS_SEATBELT"] == 0
    ret.cruiseState.enabled = bool(cp_cam.vl["ProPilot"]["CRUISE_ACTIVATED"])
    ret.cruiseState.available = bool(cp_cam.vl["ProPilot"]["CRUISE_ON"])
    ret.doorOpen = any([cp.vl["DoorsLights"]["DOOR_OPEN_RR"],
      cp.vl["DoorsLights"]["DOOR_OPEN_RL"],
      cp.vl["DoorsLights"]["DOOR_OPEN_FR"],
      cp.vl["DoorsLights"]["DOOR_OPEN_FL"]])
    ret.steeringPressed = bool(cp.vl["STEER_TORQUE"]["DriverTouchingWheel"])
    ret.steeringTorque = cp.vl["Steering"]["DriverTorque"]
    ret.steeringAngle = cp.vl["SteeringWheel"]["Steering_Angle"]
    ret.espDisabled = bool(cp.vl["_ESP"]["ESP_DISABLED"])
    self.cruise_throttle_msg = copy.copy(cp.vl["CruiseThrottle"])
    return ret
  @staticmethod
  def get_can_parser(CP):
    # this function generates lists for signal, messages and initial values
    signals = [
      # sig_name, sig_address, default
      ("FL", "WheelspeedFront", 0),
      ("FR", "WheelspeedFront", 0),
      ("RL", "WheelspeedRear", 0),
      ("RR", "WheelspeedRear", 0),
      ("DOOR_OPEN_FR", "DoorsLights", 1),
      ("DOOR_OPEN_FL", "DoorsLights", 1),
      ("DOOR_OPEN_RR", "DoorsLights", 1),
      ("DOOR_OPEN_RL", "DoorsLights", 1),
      ("USER_BRAKE_PRESSED", "DoorsLights", 1),
      ("BRAKE_LIGHT", "DoorsLights", 1),
      ("DriverTorque", "Steering", 0),
      ("DriverTouchingWheel", "STEER_TORQUE", 0),
      ("ThrottlePedal", "Throttle", 0),
      ("Steering_Angle", "SteeringWheel", 0),
      ("RIGHT_BLINKER", "Lights", 0),
      ("LEFT_BLINKER", "Lights", 0),
      ("PROPILOT_BUTTON", "CruiseThrottle", 0),
      ("CANCEL_BUTTON", "CruiseThrottle", 0),
      ("GAS_PEDAL_INVERTED", "CruiseThrottle", 0),
      ("unsure2", "CruiseThrottle", 0),
      ("SET_BUTTON", "CruiseThrottle", 0),
      ("RES_BUTTON", "CruiseThrottle", 0),
      ("FOLLOW_DISTANCE_BUTTON", "CruiseThrottle", 0),
      ("NO_BUTTON_PRESSED", "CruiseThrottle", 0),
      ("GAS_PEDAL", "CruiseThrottle", 0),
      ("unsure3", "CruiseThrottle", 0),
      ("unsure", "CruiseThrottle", 0),
      ("DRIVERS_SEATBELT", "_SEATBELT", 0),
      ("ESP_DISABLED", "_ESP", 0),
      ("GEAR_SHIFTER", "GEARBOX", 0),
    ]
    checks = [
      # sig_address, frequency
      ("WheelspeedRear", 50),
      ("WheelspeedFront", 50),
      ("DoorsLights", 10),
    ]
    return CANParser(DBC[CP.carFingerprint]['pt'], signals, checks, 0)
  @staticmethod
  def get_adas_can_parser(CP):
    # this function generates lists for signal, messages and initial values
    signals = [
      # sig_name, sig_address, default
      ("DESIRED_ANGLE", "LKAS", 0),
      ("SET_0x80_2", "LKAS", 0),
      ("MAX_TORQUE", "LKAS", 0),
      ("SET_0x80", "LKAS", 0),
      ("COUNTER", "LKAS", 0),
      ("LKA_ACTIVE", "LKAS", 0),
    ]
    checks = [
      # sig_address, frequency
    ]
    return CANParser(DBC[CP.carFingerprint]['pt'], signals, checks, 2)
  @staticmethod
  def get_cam_can_parser(CP):
    signals = [
      ("CRUISE_ON", "ProPilot", 0),
      ("CRUISE_ACTIVATED", "ProPilot", 0),
      ("STEER_STATUS", "ProPilot", 0),
    ]
    checks = [
    ]
    return CANParser(DBC[CP.carFingerprint]['pt'], signals, checks, 1)
--- a/selfdrive/car/nissan/interface.py
+++ b/selfdrive/car/nissan/interface.py
@ -0,0 +1,120 @@
 #!/usr/bin/env python3
 from cereal import car
 from selfdrive.config import Conversions as CV
 from selfdrive.controls.lib.drive_helpers import create_event, EventTypes as ET
 from selfdrive.car.nissan.values import CAR
 from selfdrive.car import STD_CARGO_KG, scale_rot_inertia, scale_tire_stiffness, gen_empty_fingerprint
 from selfdrive.car.interfaces import CarInterfaceBase
 class CarInterface(CarInterfaceBase):
  def __init__(self, CP, CarController, CarState):
    super().__init__(CP, CarController, CarState)
    self.cp_adas = self.CS.get_adas_can_parser(CP)
  @staticmethod
  def compute_gb(accel, speed):
    return float(accel) / 4.0
  @staticmethod
  def get_params(candidate, fingerprint=gen_empty_fingerprint(), has_relay=False, car_fw=[]):
    ret = CarInterfaceBase.get_std_params(candidate, fingerprint, has_relay)
    ret.dashcamOnly = True
    ret.carName = "nissan"
    ret.carFingerprint = candidate
    ret.isPandaBlack = has_relay
    ret.safetyModel = car.CarParams.SafetyModel.nissan
    ret.steerLimitAlert = False
    ret.enableCamera = True
    ret.steerRateCost = 0.5
    if candidate in [CAR.XTRAIL]:
      ret.mass = 1610 + STD_CARGO_KG
      ret.wheelbase = 2.705
      ret.centerToFront = ret.wheelbase * 0.44
      ret.steerRatio = 17
      ret.steerActuatorDelay = 0.1
      ret.lateralTuning.pid.kf = 0.00006
      ret.lateralTuning.pid.kiBP, ret.lateralTuning.pid.kpBP = [[0.0], [0.0]]
      ret.lateralTuning.pid.kpV, ret.lateralTuning.pid.kiV = [[0.01], [0.005]]
      ret.steerMaxBP = [0.] # m/s
      ret.steerMaxV = [1.]
    ret.steerControlType = car.CarParams.SteerControlType.angle
    ret.steerRatioRear = 0.
    # testing tuning
    # No long control in nissan
    ret.gasMaxBP = [0.]
    ret.gasMaxV = [0.]
    ret.brakeMaxBP = [0.]
    ret.brakeMaxV = [0.]
    ret.longitudinalTuning.deadzoneBP = [0.]
    ret.longitudinalTuning.deadzoneV = [0.]
    ret.longitudinalTuning.kpBP = [0.]
    ret.longitudinalTuning.kpV = [0.]
    ret.longitudinalTuning.kiBP = [0.]
    ret.longitudinalTuning.kiV = [0.]
    ret.radarOffCan = True
    # TODO: get actual value, for now starting with reasonable value for
    # civic and scaling by mass and wheelbase
    ret.rotationalInertia = scale_rot_inertia(ret.mass, ret.wheelbase)
    # TODO: start from empirically derived lateral slip stiffness for the civic and scale by
    # mass and CG position, so all cars will have approximately similar dyn behaviors
    ret.tireStiffnessFront, ret.tireStiffnessRear = scale_tire_stiffness(ret.mass, ret.wheelbase, ret.centerToFront)
    return ret
  # returns a car.CarState
  def update(self, c, can_strings):
    self.cp.update_strings(can_strings)
    self.cp_cam.update_strings(can_strings)
    self.cp_adas.update_strings(can_strings)
    ret = self.CS.update(self.cp, self.cp_adas, self.cp_cam)
    ret.canValid = self.cp.can_valid and self.cp_adas.can_valid and self.cp_cam.can_valid
    ret.yawRate = self.VM.yaw_rate(ret.steeringAngle * CV.DEG_TO_RAD, ret.vEgo)
    buttonEvents = []
    be = car.CarState.ButtonEvent.new_message()
    be.type = car.CarState.ButtonEvent.Type.accelCruise
    buttonEvents.append(be)
    events = self.create_common_events(ret)
    if ret.cruiseState.enabled and not self.cruise_enabled_prev:
      events.append(create_event('pcmEnable', [ET.ENABLE]))
    if not ret.cruiseState.enabled:
      events.append(create_event('pcmDisable', [ET.USER_DISABLE]))
    # disable on pedals rising edge or when brake is pressed and speed isn't zero
    if (ret.gasPressed and not self.gas_pressed_prev) or \
       (ret.brakePressed and (not self.brake_pressed_prev or ret.vEgo > 0.001)):
      events.append(create_event('pedalPressed', [ET.NO_ENTRY, ET.USER_DISABLE]))
    if ret.gasPressed:
      events.append(create_event('pedalPressed', [ET.PRE_ENABLE]))
    ret.events = events
    # update previous brake/gas pressed
    self.gas_pressed_prev = ret.gasPressed
    self.brake_pressed_prev = ret.brakePressed
    self.cruise_enabled_prev = ret.cruiseState.enabled
    self.CS.out = ret.as_reader()
    return self.CS.out
  def apply(self, c):
    can_sends = self.CC.update(c.enabled, self.CS, self.frame, c.actuators,
                               c.cruiseControl.cancel,)
    self.frame += 1
    return can_sends
--- a/selfdrive/car/nissan/nissancan.py
+++ b/selfdrive/car/nissan/nissancan.py
@ -0,0 +1,38 @@
 import copy
 import crcmod
 from selfdrive.car.nissan.values import CAR
 nissan_checksum = crcmod.mkCrcFun(0x11d, initCrc=0x00, rev=False, xorOut=0xff)
 def create_steering_control(packer, car_fingerprint, apply_steer, frame, steer_on, lkas_max_torque):
  if car_fingerprint == CAR.XTRAIL:
    idx = (frame % 16)
    values = {
      "DESIRED_ANGLE": apply_steer,
      "SET_0x80_2": 0x80,
      "SET_0x80": 0x80,
      "MAX_TORQUE": lkas_max_torque if steer_on else 0,
      "COUNTER": idx,
      "LKA_ACTIVE": steer_on,
    }
    dat = packer.make_can_msg("LKAS", 0, values)[2]
    values["CRC"] = nissan_checksum(dat[:7])
  return packer.make_can_msg("LKAS", 0, values)
 def create_acc_cancel_cmd(packer, cruise_throttle_msg, frame):
  values = copy.copy(cruise_throttle_msg)
  values["CANCEL_BUTTON"] = 1
  values["NO_BUTTON_PRESSED"] = 0
  values["PROPILOT_BUTTON"] = 0
  values["SET_BUTTON"] = 0
  values["RES_BUTTON"] = 0
  values["FOLLOW_DISTANCE_BUTTON"] = 0
  values["COUNTER"] = (frame % 4)
  return packer.make_can_msg("CruiseThrottle", 2, values)
--- a/selfdrive/car/nissan/radar_interface.py
+++ b/selfdrive/car/nissan/radar_interface.py
@ -0,0 +1,5 @@
 #!/usr/bin/env python3
 from selfdrive.car.interfaces import RadarInterfaceBase
 class RadarInterface(RadarInterfaceBase):
  pass
--- a/selfdrive/car/nissan/values.py
+++ b/selfdrive/car/nissan/values.py
@ -0,0 +1,20 @@
 from selfdrive.car import dbc_dict
 class CAR:
  XTRAIL = "NISSAN X-TRAIL 2017"
 FINGERPRINTS = {
  CAR.XTRAIL: [{
    2: 5, 42: 6, 346: 6, 347: 5, 348: 8, 349: 7, 361: 8, 386: 8, 389: 8, 397: 8, 398: 8, 403: 8, 520: 2, 523: 6, 548: 8, 645: 8, 658: 8, 665: 8, 666: 8, 674: 2, 682: 8, 683: 8, 689: 8, 723: 8, 758: 3, 768: 2, 783: 3, 851: 8, 855: 8, 1041: 8, 1055: 2, 1104: 4, 1105: 6, 1107: 4, 1108: 8, 1111: 4, 1227: 8, 1228: 8, 1247: 4, 1266: 8, 1273: 7, 1342: 1, 1376: 6, 1401: 8, 1474: 2, 1497: 3, 2015: 8, 2016: 8, 2024: 8
  }, {
    2: 5, 42: 6, 346: 6, 347: 5, 348: 8, 349: 7, 386: 8, 389: 8, 397: 8, 398: 8, 403: 8, 520: 2, 523: 6, 548: 8, 645: 8, 658: 8, 665: 8, 666: 8, 674: 2, 682: 8, 683: 8, 723: 8, 758: 3, 768: 2, 851: 8, 855: 8, 1041: 8, 1055: 2, 1104: 4, 1105: 6, 1107: 4, 1108: 8, 1111: 4, 1266: 8, 1273: 7, 1376: 6, 1497: 3
  }, {
    2: 5, 42: 6, 346: 6, 347: 5, 348: 8, 349: 7, 361: 8, 386: 8, 389: 8, 397: 8, 398: 8, 403: 8, 520: 2, 523: 6, 548: 8, 645: 8, 658: 8, 665: 8, 666: 8, 674: 2, 682: 8, 683: 8, 689: 8, 723: 8, 758: 3,768: 2, 783: 3, 851: 8, 855: 8, 1041: 8, 1055: 2, 1104: 4, 1105: 6, 1107: 4, 1108: 8, 1111: 4, 1227: 8, 1228: 8, 1247: 4, 1266: 8, 1273: 7, 1342: 1, 1376: 6, 1401: 8, 1474: 2, 1497: 3, 1821: 8, 1823: 8, 1837:8, 2015: 8, 2024: 8
  }, {
    2: 5, 42: 6, 346: 6, 347: 5, 348: 8, 349: 7, 361: 8, 386: 8, 389: 8, 397: 8, 398: 8, 403: 8, 520: 2, 523: 6, 527: 1, 548: 8, 637: 4, 645: 8, 658: 8, 665: 8, 666: 8, 674: 2, 682: 8, 683: 8, 689: 8, 723: 8, 758: 3, 768: 6, 783: 3, 851: 8, 855: 8, 1041: 8, 1055: 2, 1104: 4, 1105: 6, 1107: 4, 1108: 8, 1111: 4, 1227: 8, 1228: 8, 1247: 4, 1266: 8, 1273: 7, 1342: 1, 1376: 6, 1401: 8, 1474: 8, 1497: 3,1534: 6, 1792: 8, 1821: 8, 1823: 8, 1837: 8, 1872: 8, 1937: 8, 1953: 8, 1968: 8, 2015: 8, 2016: 8, 2024: 8
  }],
 }
 DBC = {
  CAR.XTRAIL: dbc_dict('nissan_2017', None),
 }
--- a/selfdrive/test/process_replay/model_ref_commit
+++ b/selfdrive/test/process_replay/model_ref_commit
@ -1 +1 @@
-95638846316e5de7f0314ed2330b01428792c889
+6829c5c76f3527af06e1c2b685f98a5e1bbef00a
--- a/selfdrive/test/process_replay/test_processes.py
+++ b/selfdrive/test/process_replay/test_processes.py
@ -22,11 +22,14 @@ segments = [
  ("HYUNDAI", "38bfd238edecbcd7|2018-08-29--22-02-15--4"),    # HYUNDAI.SANTA_FE
  #("CHRYSLER", "b6e1317e1bfbefa6|2020-03-04--13-11-40"),   # CHRYSLER.JEEP_CHEROKEE
  ("SUBARU", "7873afaf022d36e2|2019-07-03--18-46-44--0"),     # SUBARU.IMPREZA
-  ("VOLKSWAGEN", "b0c9d2329ad1606b|2020-02-19--16-29-36--7"),  # VW.GOLF
+  ("VOLKSWAGEN", "b0c9d2329ad1606b|2020-02-19--16-29-36--7"), # VW.GOLF
  # Enable when port is tested and dascamOnly is no longer set
  # ("NISSAN", "fbbfa6af821552b9|2020-03-03--08-09-43--0"),     # NISSAN.XTRAIL
 ]
 # ford doesn't need to be tested until a full port is done
-excluded_interfaces = ["mock", "ford"]
+excluded_interfaces = ["mock", "ford", "nissan"]
 BASE_URL = "https://commadataci.blob.core.windows.net/openpilotci/"
--- a/selfdrive/test/test_car_models.py
+++ b/selfdrive/test/test_car_models.py
@ -20,6 +20,7 @@ from selfdrive.car.hyundai.values import CAR as HYUNDAI
 from selfdrive.car.chrysler.values import CAR as CHRYSLER
 from selfdrive.car.subaru.values import CAR as SUBARU
 from selfdrive.car.volkswagen.values import CAR as VOLKSWAGEN
 from selfdrive.car.nissan.values import CAR as NISSAN
 from selfdrive.car.mock.values import CAR as MOCK
@ -434,6 +435,10 @@ routes = {
  #"bfa17080b080f3ec|2018-06-28--23-27-47": {
  #  'carFingerprint': MOCK.MOCK,
  #},
  "fbbfa6af821552b9|2020-03-03--08-09-43": {
    'carFingerprint': NISSAN.XTRAIL,
    'enableCamera': True,
  },
 }
 passive_routes = [
@ -445,6 +450,9 @@ forced_dashcam_routes = [
  # Ford fusion
  "f1b4c567731f4a1b|2018-04-18--11-29-37",
  "f1b4c567731f4a1b|2018-04-30--10-15-35",
  # Nissan
  "fbbfa6af821552b9|2020-03-03--08-09-43",
 ]
 # TODO: replace all these with public routes
		`@ -1 +1 @@`
			`95638846316e5de7f0314ed2330b01428792c889`				`6829c5c76f3527af06e1c2b685f98a5e1bbef00a`