from common . numpy_fast import mean
from opendbc . can . can_define import CANDefine
from selfdrive . car . interfaces import CarStateBase
from opendbc . can . parser import CANParser
from selfdrive . config import Conversions as CV
from selfdrive . car . toyota . values import CAR , DBC , STEER_THRESHOLD , TSS2_CAR , NO_DSU_CAR
def get_can_parser ( CP ) :
signals = [
# sig_name, sig_address, default
( " STEER_ANGLE " , " STEER_ANGLE_SENSOR " , 0 ) ,
( " GEAR " , " GEAR_PACKET " , 0 ) ,
( " BRAKE_PRESSED " , " BRAKE_MODULE " , 0 ) ,
( " GAS_PEDAL " , " GAS_PEDAL " , 0 ) ,
( " WHEEL_SPEED_FL " , " WHEEL_SPEEDS " , 0 ) ,
( " WHEEL_SPEED_FR " , " WHEEL_SPEEDS " , 0 ) ,
( " WHEEL_SPEED_RL " , " WHEEL_SPEEDS " , 0 ) ,
( " WHEEL_SPEED_RR " , " WHEEL_SPEEDS " , 0 ) ,
( " DOOR_OPEN_FL " , " SEATS_DOORS " , 1 ) ,
( " DOOR_OPEN_FR " , " SEATS_DOORS " , 1 ) ,
( " DOOR_OPEN_RL " , " SEATS_DOORS " , 1 ) ,
( " DOOR_OPEN_RR " , " SEATS_DOORS " , 1 ) ,
( " SEATBELT_DRIVER_UNLATCHED " , " SEATS_DOORS " , 1 ) ,
( " TC_DISABLED " , " ESP_CONTROL " , 1 ) ,
( " STEER_FRACTION " , " STEER_ANGLE_SENSOR " , 0 ) ,
( " STEER_RATE " , " STEER_ANGLE_SENSOR " , 0 ) ,
( " CRUISE_ACTIVE " , " PCM_CRUISE " , 0 ) ,
( " CRUISE_STATE " , " PCM_CRUISE " , 0 ) ,
( " STEER_TORQUE_DRIVER " , " STEER_TORQUE_SENSOR " , 0 ) ,
( " STEER_TORQUE_EPS " , " STEER_TORQUE_SENSOR " , 0 ) ,
( " TURN_SIGNALS " , " STEERING_LEVERS " , 3 ) , # 3 is no blinkers
( " LKA_STATE " , " EPS_STATUS " , 0 ) ,
( " IPAS_STATE " , " EPS_STATUS " , 1 ) ,
( " BRAKE_LIGHTS_ACC " , " ESP_CONTROL " , 0 ) ,
( " AUTO_HIGH_BEAM " , " LIGHT_STALK " , 0 ) ,
]
checks = [
( " BRAKE_MODULE " , 40 ) ,
( " GAS_PEDAL " , 33 ) ,
( " WHEEL_SPEEDS " , 80 ) ,
( " STEER_ANGLE_SENSOR " , 80 ) ,
( " PCM_CRUISE " , 33 ) ,
( " STEER_TORQUE_SENSOR " , 50 ) ,
( " EPS_STATUS " , 25 ) ,
]
if CP . carFingerprint == CAR . LEXUS_IS :
signals . append ( ( " MAIN_ON " , " DSU_CRUISE " , 0 ) )
signals . append ( ( " SET_SPEED " , " DSU_CRUISE " , 0 ) )
checks . append ( ( " DSU_CRUISE " , 5 ) )
else :
signals . append ( ( " MAIN_ON " , " PCM_CRUISE_2 " , 0 ) )
signals . append ( ( " SET_SPEED " , " PCM_CRUISE_2 " , 0 ) )
signals . append ( ( " LOW_SPEED_LOCKOUT " , " PCM_CRUISE_2 " , 0 ) )
checks . append ( ( " PCM_CRUISE_2 " , 33 ) )
if CP . carFingerprint in NO_DSU_CAR :
signals + = [ ( " STEER_ANGLE " , " STEER_TORQUE_SENSOR " , 0 ) ]
if CP . carFingerprint == CAR . PRIUS :
signals + = [ ( " STATE " , " AUTOPARK_STATUS " , 0 ) ]
# add gas interceptor reading if we are using it
if CP . enableGasInterceptor :
signals . append ( ( " INTERCEPTOR_GAS " , " GAS_SENSOR " , 0 ) )
signals . append ( ( " INTERCEPTOR_GAS2 " , " GAS_SENSOR " , 0 ) )
checks . append ( ( " GAS_SENSOR " , 50 ) )
return CANParser ( DBC [ CP . carFingerprint ] [ ' pt ' ] , signals , checks , 0 )
def get_cam_can_parser ( CP ) :
signals = [ ( " FORCE " , " PRE_COLLISION " , 0 ) , ( " PRECOLLISION_ACTIVE " , " PRE_COLLISION " , 0 ) ]
# use steering message to check if panda is connected to frc
checks = [ ( " STEERING_LKA " , 42 ) ]
return CANParser ( DBC [ CP . carFingerprint ] [ ' pt ' ] , signals , checks , 2 )
class CarState ( CarStateBase ) :
def __init__ ( self , CP ) :
super ( ) . __init__ ( CP )
can_define = CANDefine ( DBC [ CP . carFingerprint ] [ ' pt ' ] )
self . shifter_values = can_define . dv [ " GEAR_PACKET " ] [ ' GEAR ' ]
self . angle_offset = 0.
self . init_angle_offset = False
def update ( self , cp , cp_cam ) :
# update prevs, update must run once per loop
self . prev_left_blinker_on = self . left_blinker_on
self . prev_right_blinker_on = self . right_blinker_on
self . door_all_closed = not any ( [ cp . vl [ " SEATS_DOORS " ] [ ' DOOR_OPEN_FL ' ] , cp . vl [ " SEATS_DOORS " ] [ ' DOOR_OPEN_FR ' ] ,
cp . vl [ " SEATS_DOORS " ] [ ' DOOR_OPEN_RL ' ] , cp . vl [ " SEATS_DOORS " ] [ ' DOOR_OPEN_RR ' ] ] )
self . seatbelt = not cp . vl [ " SEATS_DOORS " ] [ ' SEATBELT_DRIVER_UNLATCHED ' ]
self . brake_pressed = cp . vl [ " BRAKE_MODULE " ] [ ' BRAKE_PRESSED ' ]
if self . CP . enableGasInterceptor :
self . pedal_gas = ( cp . vl [ " GAS_SENSOR " ] [ ' INTERCEPTOR_GAS ' ] + cp . vl [ " GAS_SENSOR " ] [ ' INTERCEPTOR_GAS2 ' ] ) / 2.
else :
self . pedal_gas = cp . vl [ " GAS_PEDAL " ] [ ' GAS_PEDAL ' ]
self . esp_disabled = cp . vl [ " ESP_CONTROL " ] [ ' TC_DISABLED ' ]
self . v_wheel_fl = cp . vl [ " WHEEL_SPEEDS " ] [ ' WHEEL_SPEED_FL ' ] * CV . KPH_TO_MS
self . v_wheel_fr = cp . vl [ " WHEEL_SPEEDS " ] [ ' WHEEL_SPEED_FR ' ] * CV . KPH_TO_MS
self . v_wheel_rl = cp . vl [ " WHEEL_SPEEDS " ] [ ' WHEEL_SPEED_RL ' ] * CV . KPH_TO_MS
self . v_wheel_rr = cp . vl [ " WHEEL_SPEEDS " ] [ ' WHEEL_SPEED_RR ' ] * CV . KPH_TO_MS
self . v_ego_raw = mean ( [ self . v_wheel_fl , self . v_wheel_fr , self . v_wheel_rl , self . v_wheel_rr ] )
self . v_ego , self . a_ego = self . update_speed_kf ( self . v_ego_raw )
self . standstill = not self . v_ego_raw > 0.001
if self . CP . carFingerprint in TSS2_CAR :
self . angle_steers = cp . vl [ " STEER_TORQUE_SENSOR " ] [ ' STEER_ANGLE ' ]
elif self . CP . carFingerprint in NO_DSU_CAR :
# cp.vl["STEER_TORQUE_SENSOR"]['STEER_ANGLE'] is zeroed to where the steering angle is at start.
# need to apply an offset as soon as the steering angle measurements are both received
self . angle_steers = cp . vl [ " STEER_TORQUE_SENSOR " ] [ ' STEER_ANGLE ' ] - self . angle_offset
angle_wheel = cp . vl [ " STEER_ANGLE_SENSOR " ] [ ' STEER_ANGLE ' ] + cp . vl [ " STEER_ANGLE_SENSOR " ] [ ' STEER_FRACTION ' ]
if abs ( angle_wheel ) > 1e-3 and abs ( self . angle_steers ) > 1e-3 and not self . init_angle_offset :
self . init_angle_offset = True
self . angle_offset = self . angle_steers - angle_wheel
else :
self . angle_steers = cp . vl [ " STEER_ANGLE_SENSOR " ] [ ' STEER_ANGLE ' ] + cp . vl [ " STEER_ANGLE_SENSOR " ] [ ' STEER_FRACTION ' ]
self . angle_steers_rate = cp . vl [ " STEER_ANGLE_SENSOR " ] [ ' STEER_RATE ' ]
can_gear = int ( cp . vl [ " GEAR_PACKET " ] [ ' GEAR ' ] )
self . gear_shifter = self . parse_gear_shifter ( self . shifter_values . get ( can_gear , None ) )
if self . CP . carFingerprint == CAR . LEXUS_IS :
self . main_on = cp . vl [ " DSU_CRUISE " ] [ ' MAIN_ON ' ]
else :
self . main_on = cp . vl [ " PCM_CRUISE_2 " ] [ ' MAIN_ON ' ]
self . left_blinker_on = cp . vl [ " STEERING_LEVERS " ] [ ' TURN_SIGNALS ' ] == 1
self . right_blinker_on = cp . vl [ " STEERING_LEVERS " ] [ ' TURN_SIGNALS ' ] == 2
# 2 is standby, 10 is active. TODO: check that everything else is really a faulty state
self . steer_state = cp . vl [ " EPS_STATUS " ] [ ' LKA_STATE ' ]
self . steer_error = cp . vl [ " EPS_STATUS " ] [ ' LKA_STATE ' ] not in [ 1 , 5 ]
self . ipas_active = cp . vl [ ' EPS_STATUS ' ] [ ' IPAS_STATE ' ] == 3
self . brake_error = 0
self . steer_torque_driver = cp . vl [ " STEER_TORQUE_SENSOR " ] [ ' STEER_TORQUE_DRIVER ' ]
self . steer_torque_motor = cp . vl [ " STEER_TORQUE_SENSOR " ] [ ' STEER_TORQUE_EPS ' ]
# we could use the override bit from dbc, but it's triggered at too high torque values
self . steer_override = abs ( self . steer_torque_driver ) > STEER_THRESHOLD
self . user_brake = 0
if self . CP . carFingerprint == CAR . LEXUS_IS :
self . v_cruise_pcm = cp . vl [ " DSU_CRUISE " ] [ ' SET_SPEED ' ]
self . low_speed_lockout = False
else :
self . v_cruise_pcm = cp . vl [ " PCM_CRUISE_2 " ] [ ' SET_SPEED ' ]
self . low_speed_lockout = cp . vl [ " PCM_CRUISE_2 " ] [ ' LOW_SPEED_LOCKOUT ' ] == 2
self . pcm_acc_status = cp . vl [ " PCM_CRUISE " ] [ ' CRUISE_STATE ' ]
self . pcm_acc_active = bool ( cp . vl [ " PCM_CRUISE " ] [ ' CRUISE_ACTIVE ' ] )
self . brake_lights = bool ( cp . vl [ " ESP_CONTROL " ] [ ' BRAKE_LIGHTS_ACC ' ] or self . brake_pressed )
if self . CP . carFingerprint == CAR . PRIUS :
self . generic_toggle = cp . vl [ " AUTOPARK_STATUS " ] [ ' STATE ' ] != 0
else :
self . generic_toggle = bool ( cp . vl [ " LIGHT_STALK " ] [ ' AUTO_HIGH_BEAM ' ] )
self . stock_aeb = bool ( cp_cam . vl [ " PRE_COLLISION " ] [ " PRECOLLISION_ACTIVE " ] and cp_cam . vl [ " PRE_COLLISION " ] [ " FORCE " ] < - 1e-5 )
