from cereal import car
from selfdrive . car . volkswagen . values import CAR , BUTTON_STATES , CANBUS , NetworkLocation , TransmissionType , GearShifter
from selfdrive . car import STD_CARGO_KG , scale_rot_inertia , scale_tire_stiffness , gen_empty_fingerprint
from selfdrive . car . interfaces import CarInterfaceBase
EventName = car . CarEvent . EventName
class CarInterface ( CarInterfaceBase ) :
def __init__ ( self , CP , CarController , CarState ) :
super ( ) . __init__ ( CP , CarController , CarState )
self . displayMetricUnitsPrev = None
self . buttonStatesPrev = BUTTON_STATES . copy ( )
if CP . networkLocation == NetworkLocation . fwdCamera :
self . ext_bus = CANBUS . pt
self . cp_ext = self . cp
else :
self . ext_bus = CANBUS . cam
self . cp_ext = self . cp_cam
@staticmethod
def get_params ( candidate , fingerprint = gen_empty_fingerprint ( ) , car_fw = None ) :
ret = CarInterfaceBase . get_std_params ( candidate , fingerprint )
ret . carName = " volkswagen "
ret . communityFeature = True
ret . radarOffCan = True
if True : # pylint: disable=using-constant-test
# Set global MQB parameters
ret . safetyModel = car . CarParams . SafetyModel . volkswagen
ret . enableBsm = 0x30F in fingerprint [ 0 ]
if 0xAD in fingerprint [ 0 ] : # Getriebe_11
ret . transmissionType = TransmissionType . automatic
elif 0x187 in fingerprint [ 0 ] : # EV_Gearshift
ret . transmissionType = TransmissionType . direct
else : # No trans message at all, must be a true stick-shift manual
ret . transmissionType = TransmissionType . manual
if 0x86 in fingerprint [ 1 ] : # LWI_01 seen on bus 1, we're wired to the CAN gateway
ret . networkLocation = NetworkLocation . gateway
else : # We're wired to the LKAS camera
ret . networkLocation = NetworkLocation . fwdCamera
# Global tuning defaults, can be overridden per-vehicle
ret . steerActuatorDelay = 0.05
ret . steerRateCost = 1.0
ret . steerLimitTimer = 0.4
ret . steerRatio = 15.6 # Let the params learner figure this out
tire_stiffness_factor = 1.0 # Let the params learner figure this out
ret . lateralTuning . pid . kpBP = [ 0. ]
ret . lateralTuning . pid . kiBP = [ 0. ]
ret . lateralTuning . pid . kf = 0.00006
ret . lateralTuning . pid . kpV = [ 0.6 ]
ret . lateralTuning . pid . kiV = [ 0.2 ]
# Per-chassis tuning values, override tuning defaults here if desired
if candidate == CAR . ATLAS_MK1 :
ret . mass = 2011 + STD_CARGO_KG
ret . wheelbase = 2.98
elif candidate == CAR . GOLF_MK7 :
ret . mass = 1397 + STD_CARGO_KG
ret . wheelbase = 2.62
elif candidate == CAR . JETTA_MK7 :
ret . mass = 1328 + STD_CARGO_KG
ret . wheelbase = 2.71
elif candidate == CAR . PASSAT_MK8 :
ret . mass = 1551 + STD_CARGO_KG
ret . wheelbase = 2.79
elif candidate == CAR . TCROSS_MK1 :
ret . mass = 1150 + STD_CARGO_KG
ret . wheelbase = 2.60
elif candidate == CAR . TIGUAN_MK2 :
ret . mass = 1715 + STD_CARGO_KG
ret . wheelbase = 2.74
elif candidate == CAR . TOURAN_MK2 :
ret . mass = 1516 + STD_CARGO_KG
ret . wheelbase = 2.79
elif candidate == CAR . AUDI_A3_MK3 :
ret . mass = 1335 + STD_CARGO_KG
ret . wheelbase = 2.61
elif candidate == CAR . AUDI_Q2_MK1 :
ret . mass = 1205 + STD_CARGO_KG
ret . wheelbase = 2.61
elif candidate == CAR . SEAT_ATECA_MK1 :
ret . mass = 1900 + STD_CARGO_KG
ret . wheelbase = 2.64
elif candidate == CAR . SEAT_LEON_MK3 :
ret . mass = 1227 + STD_CARGO_KG
ret . wheelbase = 2.64
elif candidate == CAR . SKODA_KAROQ_MK1 :
ret . mass = 1278 + STD_CARGO_KG
ret . wheelbase = 2.66
elif candidate == CAR . SKODA_KODIAQ_MK1 :
ret . mass = 1569 + STD_CARGO_KG
ret . wheelbase = 2.79
elif candidate == CAR . SKODA_OCTAVIA_MK3 :
ret . mass = 1388 + STD_CARGO_KG
ret . wheelbase = 2.68
elif candidate == CAR . SKODA_SCALA_MK1 :
ret . mass = 1192 + STD_CARGO_KG
ret . wheelbase = 2.65
elif candidate == CAR . SKODA_SUPERB_MK3 :
ret . mass = 1505 + STD_CARGO_KG
ret . wheelbase = 2.84
# 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 . centerToFront = ret . wheelbase * 0.45
ret . tireStiffnessFront , ret . tireStiffnessRear = scale_tire_stiffness ( ret . mass , ret . wheelbase , ret . centerToFront ,
tire_stiffness_factor = tire_stiffness_factor )
return ret
# returns a car.CarState
def update ( self , c , can_strings ) :
buttonEvents = [ ]
# Process the most recent CAN message traffic, and check for validity
# The camera CAN has no signals we use at this time, but we process it
# anyway so we can test connectivity with can_valid
self . cp . update_strings ( can_strings )
self . cp_cam . update_strings ( can_strings )
ret = self . CS . update ( self . cp , self . cp_cam , self . cp_ext , self . CP . transmissionType )
ret . canValid = self . cp . can_valid and self . cp_cam . can_valid
ret . steeringRateLimited = self . CC . steer_rate_limited if self . CC is not None else False
# TODO: add a field for this to carState, car interface code shouldn't write params
# Update the device metric configuration to match the car at first startup,
# or if there's been a change.
#if self.CS.displayMetricUnits != self.displayMetricUnitsPrev:
# put_nonblocking("IsMetric", "1" if self.CS.displayMetricUnits else "0")
# Check for and process state-change events (button press or release) from
# the turn stalk switch or ACC steering wheel/control stalk buttons.
for button in self . CS . buttonStates :
if self . CS . buttonStates [ button ] != self . buttonStatesPrev [ button ] :
be = car . CarState . ButtonEvent . new_message ( )
be . type = button
be . pressed = self . CS . buttonStates [ button ]
buttonEvents . append ( be )
events = self . create_common_events ( ret , extra_gears = [ GearShifter . eco , GearShifter . sport , GearShifter . manumatic ] )
# Vehicle health and operation safety checks
if self . CS . parkingBrakeSet :
events . add ( EventName . parkBrake )
ret . events = events . to_msg ( )
ret . buttonEvents = buttonEvents
# update previous car states
self . displayMetricUnitsPrev = self . CS . displayMetricUnits
self . buttonStatesPrev = self . CS . buttonStates . copy ( )
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 , self . ext_bus , c . actuators ,
c . hudControl . visualAlert ,
c . hudControl . leftLaneVisible ,
c . hudControl . rightLaneVisible ,
c . hudControl . leftLaneDepart ,
c . hudControl . rightLaneDepart )
self . frame + = 1
return can_sends
