#!/usr/bin/env python3
import os
import time
import cereal . messaging as messaging
from cereal import car , log
from panda import ALTERNATIVE_EXPERIENCE
from openpilot . common . params import Params
from openpilot . common . realtime import config_realtime_process , Priority , Ratekeeper , DT_CTRL
from openpilot . selfdrive . boardd . boardd import can_list_to_can_capnp
from openpilot . selfdrive . car . car_helpers import get_car , get_one_can
from openpilot . selfdrive . car . interfaces import CarInterfaceBase
from openpilot . selfdrive . controls . lib . events import Events
REPLAY = " REPLAY " in os . environ
State = log . ControlsState . OpenpilotState
EventName = car . CarEvent . EventName
class Car :
CI : CarInterfaceBase
def __init__ ( self , CI = None ) :
self . can_sock = messaging . sub_sock ( ' can ' , timeout = 20 )
self . sm = messaging . SubMaster ( [ ' pandaStates ' , ' carControl ' , ' controlsState ' ] )
self . pm = messaging . PubMaster ( [ ' sendcan ' , ' carState ' , ' carParams ' , ' carOutput ' ] )
self . can_rcv_timeout_counter = 0 # consecutive timeout count
self . can_rcv_cum_timeout_counter = 0 # cumulative timeout count
self . CC_prev = car . CarControl . new_message ( )
self . CS_prev = car . CarState . new_message ( )
self . controlsState_prev = car . CarState . new_message ( )
self . last_actuators_output = car . CarControl . Actuators . new_message ( )
params = Params ( )
if CI is None :
# wait for one pandaState and one CAN packet
print ( " Waiting for CAN messages... " )
get_one_can ( self . can_sock )
num_pandas = len ( messaging . recv_one_retry ( self . sm . sock [ ' pandaStates ' ] ) . pandaStates )
experimental_long_allowed = params . get_bool ( " ExperimentalLongitudinalEnabled " )
self . CI , self . CP = get_car ( self . can_sock , self . pm . sock [ ' sendcan ' ] , experimental_long_allowed , num_pandas )
else :
self . CI , self . CP = CI , CI . CP
# set alternative experiences from parameters
self . disengage_on_accelerator = params . get_bool ( " DisengageOnAccelerator " )
self . CP . alternativeExperience = 0
if not self . disengage_on_accelerator :
self . CP . alternativeExperience | = ALTERNATIVE_EXPERIENCE . DISABLE_DISENGAGE_ON_GAS
openpilot_enabled_toggle = params . get_bool ( " OpenpilotEnabledToggle " )
controller_available = self . CI . CC is not None and openpilot_enabled_toggle and not self . CP . dashcamOnly
self . CP . passive = not controller_available or self . CP . dashcamOnly
if self . CP . passive :
safety_config = car . CarParams . SafetyConfig . new_message ( )
safety_config . safetyModel = car . CarParams . SafetyModel . noOutput
self . CP . safetyConfigs = [ safety_config ]
# Write previous route's CarParams
prev_cp = params . get ( " CarParamsPersistent " )
if prev_cp is not None :
params . put ( " CarParamsPrevRoute " , prev_cp )
# Write CarParams for controls and radard
cp_bytes = self . CP . to_bytes ( )
params . put ( " CarParams " , cp_bytes )
params . put_nonblocking ( " CarParamsCache " , cp_bytes )
params . put_nonblocking ( " CarParamsPersistent " , cp_bytes )
self . events = Events ( )
# card is driven by can recv, expected at 100Hz
self . rk = Ratekeeper ( 100 , print_delay_threshold = None )
def state_update ( self ) - > car . CarState :
""" carState update loop, driven by can """
# Update carState from CAN
can_strs = messaging . drain_sock_raw ( self . can_sock , wait_for_one = True )
CS = self . CI . update ( self . CC_prev , can_strs )
self . sm . update ( 0 )
can_rcv_valid = len ( can_strs ) > 0
# Check for CAN timeout
if not can_rcv_valid :
self . can_rcv_timeout_counter + = 1
self . can_rcv_cum_timeout_counter + = 1
else :
self . can_rcv_timeout_counter = 0
self . can_rcv_timeout = self . can_rcv_timeout_counter > = 5
if can_rcv_valid and REPLAY :
self . can_log_mono_time = messaging . log_from_bytes ( can_strs [ 0 ] ) . logMonoTime
return CS
def update_events ( self , CS : car . CarState ) - > car . CarState :
self . events . clear ( )
self . events . add_from_msg ( CS . events )
# Disable on rising edge of accelerator or brake. Also disable on brake when speed > 0
if ( CS . gasPressed and not self . CS_prev . gasPressed and self . disengage_on_accelerator ) or \
( CS . brakePressed and ( not self . CS_prev . brakePressed or not CS . standstill ) ) or \
( CS . regenBraking and ( not self . CS_prev . regenBraking or not CS . standstill ) ) :
self . events . add ( EventName . pedalPressed )
CS . events = self . events . to_msg ( )
def state_publish ( self , CS : car . CarState ) :
""" carState and carParams publish loop """
# carParams - logged every 50 seconds (> 1 per segment)
if self . sm . frame % int ( 50. / DT_CTRL ) == 0 :
cp_send = messaging . new_message ( ' carParams ' )
cp_send . valid = True
cp_send . carParams = self . CP
self . pm . send ( ' carParams ' , cp_send )
# publish new carOutput
co_send = messaging . new_message ( ' carOutput ' )
co_send . valid = self . sm . all_checks ( [ ' carControl ' ] )
co_send . carOutput . actuatorsOutput = self . last_actuators_output
self . pm . send ( ' carOutput ' , co_send )
# kick off controlsd step while we actuate the latest carControl packet
cs_send = messaging . new_message ( ' carState ' )
cs_send . valid = CS . canValid
cs_send . carState = CS
cs_send . carState . canRcvTimeout = self . can_rcv_timeout
cs_send . carState . canErrorCounter = self . can_rcv_cum_timeout_counter
cs_send . carState . cumLagMs = - self . rk . remaining * 1000.
self . pm . send ( ' carState ' , cs_send )
def controls_update ( self , CS : car . CarState , CC : car . CarControl ) :
""" control update loop, driven by carControl """
if not self . controlsState_prev . initialized :
# Initialize CarInterface, once controls are ready
self . CI . init ( self . CP , self . can_sock , self . pm . sock [ ' sendcan ' ] )
if self . sm . all_checks ( [ ' carControl ' ] ) :
# send car controls over can
now_nanos = self . can_log_mono_time if REPLAY else int ( time . monotonic ( ) * 1e9 )
self . last_actuators_output , can_sends = self . CI . apply ( CC , now_nanos )
self . pm . send ( ' sendcan ' , can_list_to_can_capnp ( can_sends , msgtype = ' sendcan ' , valid = CS . canValid ) )
self . CC_prev = CC
def step ( self ) :
CS = self . state_update ( )
self . update_events ( CS )
self . state_publish ( CS )
controlsState = self . sm [ ' controlsState ' ]
if not self . CP . passive and controlsState . initialized :
self . controls_update ( CS , self . sm [ ' carControl ' ] )
self . controlsState_prev = controlsState
self . CS_prev = CS . as_reader ( )
def card_thread ( self ) :
while True :
self . step ( )
self . rk . monitor_time ( )
def main ( ) :
config_realtime_process ( 4 , Priority . CTRL_HIGH )
car = Car ( )
car . card_thread ( )
if __name__ == " __main__ " :
main ( )
