def test_correctness(self):
# Test all commands, randomize the params.
for _ in xrange(1000):
# Hyundai
car_fingerprint = hyundai_checksum["crc8"][0]
apply_steer = (random.randint(0, 2) % 2 == 0)
steer_req = (random.randint(0, 2) % 2 == 0)
cnt = random.randint(0, 65536)
enabled = (random.randint(0, 2) % 2 == 0)
lkas11 = {
"CF_Lkas_Bca_R": random.randint(0, 65536),
"CF_Lkas_LdwsSysState": random.randint(0, 65536),
"CF_Lkas_SysWarning": random.randint(0, 65536),
"CF_Lkas_LdwsLHWarning": random.randint(0, 65536),
"CF_Lkas_LdwsRHWarning": random.randint(0, 65536),
"CF_Lkas_HbaLamp": random.randint(0, 65536),
"CF_Lkas_FcwBasReq": random.randint(0, 65536),
"CR_Lkas_StrToqReq": random.randint(0, 65536),
"CF_Lkas_ActToi": random.randint(0, 65536),
"CF_Lkas_ToiFlt": random.randint(0, 65536),
"CF_Lkas_HbaSysState": random.randint(0, 65536),
"CF_Lkas_FcwOpt": random.randint(0, 65536),
"CF_Lkas_HbaOpt": random.randint(0, 65536),
"CF_Lkas_FcwSysState": random.randint(0, 65536),
"CF_Lkas_FcwCollisionWarning": random.randint(0, 65536),
"CF_Lkas_FusionState": random.randint(0, 65536),
"CF_Lkas_FcwOpt_USM": random.randint(0, 65536),
"CF_Lkas_LdwsOpt_USM": random.randint(0, 65536)
}
hud_alert = random.randint(0, 65536)
keep_stock = (random.randint(0, 2) % 2 == 0)
m_old = hyundaican.create_lkas11(self.hyundai_cp_old,
car_fingerprint, apply_steer,
steer_req, cnt, enabled, lkas11,
hud_alert, keep_stock)
m = hyundaican.create_lkas11(self.hyundai_cp, car_fingerprint,
apply_steer, steer_req, cnt, enabled,
lkas11, hud_alert, keep_stock)
self.assertEqual(m_old, m)
clu11 = {
"CF_Clu_CruiseSwState": random.randint(0, 65536),
"CF_Clu_CruiseSwMain": random.randint(0, 65536),
"CF_Clu_SldMainSW": random.randint(0, 65536),
"CF_Clu_ParityBit1": random.randint(0, 65536),
"CF_Clu_VanzDecimal": random.randint(0, 65536),
"CF_Clu_Vanz": random.randint(0, 65536),
"CF_Clu_SPEED_UNIT": random.randint(0, 65536),
"CF_Clu_DetentOut": random.randint(0, 65536),
"CF_Clu_RheostatLevel": random.randint(0, 65536),
"CF_Clu_CluInfo": random.randint(0, 65536),
"CF_Clu_AmpInfo": random.randint(0, 65536),
"CF_Clu_AliveCnt1": random.randint(0, 65536),
}
button = random.randint(0, 65536)
cnt = random.randint(0, 65536)
m_old = hyundaican.create_clu11(self.hyundai_cp_old, clu11, button,
cnt)
m = hyundaican.create_clu11(self.hyundai_cp, clu11, button, cnt)
self.assertEqual(m_old, m)
def update(self, enabled, CS, actuators, pcm_cancel_cmd, hud_alert):
### Steering Torque
new_steer = actuators.steer * SteerLimitParams.STEER_MAX
apply_steer = apply_std_steer_torque_limits(new_steer, self.apply_steer_last, CS.out.steeringTorque, SteerLimitParams)
self.steer_rate_limited = new_steer != apply_steer
if not enabled:
apply_steer = 0
steer_req = 1 if enabled else 0
self.apply_steer_last = apply_steer
can_sends = []
self.lkas11_cnt = self.cnt % 0x10
self.clu11_cnt = self.cnt % 0x10
can_sends.append(create_lkas11(self.packer, self.car_fingerprint, apply_steer, steer_req, self.lkas11_cnt,
enabled, CS.lkas11, hud_alert, keep_stock=True))
if pcm_cancel_cmd:
can_sends.append(create_clu11(self.packer, CS.clu11, Buttons.CANCEL))
elif CS.out.cruiseState.standstill and (self.cnt - self.last_resume_cnt) > 5:
self.last_resume_cnt = self.cnt
can_sends.append(create_clu11(self.packer, CS.clu11, Buttons.RES_ACCEL))
self.cnt += 1
return can_sends
def update(self, enabled, CS, frame, actuators, pcm_cancel_cmd,
visual_alert, left_lane, right_lane, left_lane_depart,
right_lane_depart):
self.lfa_available = True if self.car_fingerprint in FEATURES[
"send_lfa_mfa"] else False
self.high_steer_allowed = True if self.car_fingerprint in FEATURES[
"allow_high_steer"] else False
# Steering Torque
new_steer = actuators.steer * SteerLimitParams.STEER_MAX
apply_steer = apply_std_steer_torque_limits(new_steer,
self.apply_steer_last,
CS.out.steeringTorque,
SteerLimitParams)
self.steer_rate_limited = new_steer != apply_steer
# disable if steer angle reach 90 deg, otherwise mdps fault in some models
lkas_active = enabled and ((abs(CS.out.steeringAngle) < 90.)
or self.high_steer_allowed)
# fix for Genesis hard fault at low speed
if CS.out.vEgo < 16.7 and self.car_fingerprint == CAR.HYUNDAI_GENESIS:
lkas_active = False
if not lkas_active:
apply_steer = 0
self.apply_steer_last = apply_steer
sys_warning, sys_state, left_lane_warning, right_lane_warning =\
process_hud_alert(enabled, self.car_fingerprint, visual_alert,
left_lane, right_lane, left_lane_depart, right_lane_depart)
can_sends = []
can_sends.append(
create_lkas11(self.packer, frame, self.car_fingerprint,
apply_steer, lkas_active, CS.lkas11, sys_warning,
sys_state, enabled, left_lane, right_lane,
left_lane_warning, right_lane_warning,
self.lfa_available))
if pcm_cancel_cmd:
can_sends.append(
create_clu11(self.packer, frame, CS.clu11, Buttons.CANCEL))
elif CS.out.cruiseState.standstill:
# send resume at a max freq of 5Hz
if (frame - self.last_resume_frame) * DT_CTRL > 0.2:
can_sends.append(
create_clu11(self.packer, frame, CS.clu11,
Buttons.RES_ACCEL))
self.last_resume_frame = frame
# 20 Hz LFA MFA message
if frame % 5 == 0 and self.lfa_available:
can_sends.append(create_lfa_mfa(self.packer, frame, enabled))
return can_sends
def update(self, sendcan, enabled, CS, actuators, pcm_cancel_cmd,
hud_alert):
if not self.enable_camera:
return
### Steering Torque
apply_steer = actuators.steer * SteerLimitParams.STEER_MAX
apply_steer = apply_std_steer_torque_limits(apply_steer,
self.apply_steer_last,
CS.steer_torque_driver,
SteerLimitParams)
if not enabled:
apply_steer = 0
steer_req = 1 if enabled else 0
self.apply_steer_last = apply_steer
can_sends = []
self.lkas11_cnt = self.cnt % 0x10
self.clu11_cnt = self.cnt % 0x10
if self.camera_disconnected:
if (self.cnt % 10) == 0:
can_sends.append(create_lkas12())
if (self.cnt % 50) == 0:
can_sends.append(create_1191())
if (self.cnt % 7) == 0:
can_sends.append(create_1156())
can_sends.append(
create_lkas11(self.packer,
self.car_fingerprint,
apply_steer,
steer_req,
self.lkas11_cnt,
enabled,
CS.lkas11,
hud_alert,
keep_stock=(not self.camera_disconnected)))
if pcm_cancel_cmd:
can_sends.append(
create_clu11(self.packer, CS.clu11, Buttons.CANCEL))
elif CS.stopped and (self.cnt - self.last_resume_cnt) > 5:
self.last_resume_cnt = self.cnt
can_sends.append(
create_clu11(self.packer, CS.clu11, Buttons.RES_ACCEL))
### Send messages to canbus
sendcan.send(
can_list_to_can_capnp(can_sends, msgtype='sendcan').to_bytes())
self.cnt += 1
def update(self, enabled, CS, frame, actuators, pcm_cancel_cmd, visual_alert,
left_lane, right_lane, left_lane_depart, right_lane_depart):
# Steering Torque
new_steer = actuators.steer * SteerLimitParams.STEER_MAX
apply_steer = apply_std_steer_torque_limits(new_steer, self.apply_steer_last, CS.out.steeringTorque, SteerLimitParams)
self.steer_rate_limited = new_steer != apply_steer
# disable if steer angle reach 90 deg, otherwise mdps fault in some models
lkas_active = enabled and abs(CS.out.steeringAngle) < 90.
# fix for Genesis hard fault at low speed
if CS.out.vEgo < 16.7 and self.car_fingerprint == CAR.HYUNDAI_GENESIS:
lkas_active = 0
if not lkas_active:
apply_steer = 0
self.apply_steer_last = apply_steer
sys_warning, sys_state, left_lane_warning, right_lane_warning =\
process_hud_alert(enabled, self.car_fingerprint, visual_alert,
left_lane, right_lane, left_lane_depart, right_lane_depart)
can_sends = []
can_sends.append(create_lkas11(self.packer, frame, self.car_fingerprint, apply_steer, lkas_active,
CS.lkas11, sys_warning, sys_state, enabled,
left_lane, right_lane,
left_lane_warning, right_lane_warning))
if pcm_cancel_cmd:
can_sends.append(create_clu11(self.packer, frame, CS.clu11, Buttons.CANCEL))
elif CS.out.cruiseState.standstill:
# run only first time when the car stopped
if self.last_lead_distance == 0:
# get the lead distance from the Radar
self.last_lead_distance = CS.lead_distance
self.resume_cnt = 0
# when lead car starts moving, create 6 RES msgs
elif CS.lead_distance != self.last_lead_distance and (frame - self.last_resume_frame) > 5:
can_sends.append(create_clu11(self.packer, frame, CS.clu11, Buttons.RES_ACCEL))
self.resume_cnt += 1
# interval after 6 msgs
if self.resume_cnt > 5:
self.last_resume_frame = frame
self.clu11_cnt = 0
# reset lead distnce after the car starts moving
elif self.last_lead_distance != 0:
self.last_lead_distance = 0
# 20 Hz LFA MFA message
if frame % 5 == 0 and self.car_fingerprint == CAR.SONATA:
can_sends.append(create_lfa_mfa(self.packer, frame, enabled))
return can_sends
def update(self, enabled, CS, actuators, pcm_cancel_cmd, hud_alert):
### Steering Torque
apply_steer = actuators.steer * SteerLimitParams.STEER_MAX
apply_steer = apply_std_steer_torque_limits(apply_steer,
self.apply_steer_last,
CS.steer_torque_driver,
SteerLimitParams)
if not enabled:
apply_steer = 0
steer_req = 1 if enabled else 0
self.apply_steer_last = apply_steer
can_sends = []
self.lkas11_cnt = self.cnt % 0x10
self.clu11_cnt = self.cnt % 0x10
self.mdps12_cnt = self.cnt % 0x100
if self.camera_disconnected:
if (self.cnt % 10) == 0:
can_sends.append(create_lkas12())
if (self.cnt % 50) == 0:
can_sends.append(create_1191())
if (self.cnt % 7) == 0:
can_sends.append(create_1156())
else:
can_sends.append(
create_mdps12(self.packer, self.car_fingerprint,
self.mdps12_cnt, CS.mdps12, CS.lkas11))
can_sends.append(
create_lkas11(self.packer,
self.car_fingerprint,
apply_steer,
steer_req,
self.lkas11_cnt,
enabled,
CS.lkas11,
hud_alert,
keep_stock=(not self.camera_disconnected)))
#if pcm_cancel_cmd:
#can_sends.append(create_clu11(self.packer, CS.clu11, Buttons.CANCEL))
if CS.stopped and (self.cnt - self.last_resume_cnt) > 20:
if (self.cnt - self.last_resume_cnt) % 5 == 0:
self.last_resume_cnt = self.cnt
can_sends.append(
create_clu11(self.packer, CS.clu11, Buttons.RES_ACCEL,
self.clu11_cnt))
self.cnt += 1
return can_sends
def update(self, enabled, CS, frame, actuators, pcm_cancel_cmd,
visual_alert, left_lane, right_lane, left_lane_depart,
right_lane_depart):
# Steering Torque
new_steer = int(round(actuators.steer * self.p.STEER_MAX))
apply_steer = apply_std_steer_torque_limits(new_steer,
self.apply_steer_last,
CS.out.steeringTorque,
self.p)
self.steer_rate_limited = new_steer != apply_steer
# disable when temp fault is active
lkas_active = enabled and not CS.out.steerWarning
# fix for Genesis hard fault at low speed
if CS.out.vEgo < 16.7 and self.car_fingerprint == CAR.HYUNDAI_GENESIS:
lkas_active = False
if not lkas_active:
apply_steer = 0
self.apply_steer_last = apply_steer
sys_warning, sys_state, left_lane_warning, right_lane_warning = \
process_hud_alert(enabled, self.car_fingerprint, visual_alert,
left_lane, right_lane, left_lane_depart, right_lane_depart)
can_sends = []
can_sends.append(
create_lkas11(self.packer, frame, self.car_fingerprint,
apply_steer, lkas_active, CS.lkas11, sys_warning,
sys_state, enabled, left_lane, right_lane,
left_lane_warning, right_lane_warning))
if pcm_cancel_cmd:
can_sends.append(
create_clu11(self.packer, frame, CS.clu11, Buttons.CANCEL))
elif CS.out.cruiseState.standstill:
# send resume at a max freq of 10Hz
if (frame - self.last_resume_frame) * DT_CTRL > 0.1:
# send 25 messages at a time to increases the likelihood of resume being accepted
can_sends.extend([
create_clu11(self.packer, frame, CS.clu11,
Buttons.RES_ACCEL)
] * 25)
self.last_resume_frame = frame
# 20 Hz LFA MFA message
if frame % 5 == 0 and self.car_fingerprint in [
CAR.SONATA, CAR.PALISADE, CAR.IONIQ, CAR.KIA_NIRO_EV,
CAR.KONA_EV, CAR.IONIQ_EV_2020, CAR.IONIQ_PHEV, CAR.KIA_CEED,
CAR.KIA_SELTOS, CAR.ELANTRA_2021, CAR.ELANTRA_HEV_2021
]:
can_sends.append(create_lfahda_mfc(self.packer, enabled))
return can_sends
def update(self, enabled, CS, frame, actuators, pcm_cancel_cmd,
visual_alert, left_lane, right_lane, left_lane_depart,
right_lane_depart):
# Steering Torque
new_steer = actuators.steer * SteerLimitParams.STEER_MAX
apply_steer = apply_std_steer_torque_limits(new_steer,
self.apply_steer_last,
CS.out.steeringTorque,
SteerLimitParams)
self.steer_rate_limited = new_steer != apply_steer
# disable if steer angle reach 90 deg, otherwise mdps fault in some models
lkas_active = enabled and abs(CS.out.steeringAngle) < 90.
# fix for Genesis hard fault at low speed
if CS.out.vEgo < 16.7 and self.car_fingerprint == CAR.HYUNDAI_GENESIS:
lkas_active = False
if not lkas_active:
apply_steer = 0
self.apply_steer_last = apply_steer
sys_warning, sys_state, left_lane_warning, right_lane_warning =\
process_hud_alert(enabled, self.car_fingerprint, visual_alert,
left_lane, right_lane, left_lane_depart, right_lane_depart)
can_sends = []
can_sends.append(
create_lkas11(self.packer, frame, self.car_fingerprint,
apply_steer, lkas_active, CS.lkas11, sys_warning,
sys_state, enabled, left_lane, right_lane,
left_lane_warning, right_lane_warning))
if pcm_cancel_cmd:
can_sends.append(
create_clu11(self.packer, frame, CS.clu11, Buttons.CANCEL))
elif CS.out.cruiseState.standstill:
# SCC won't resume anyway when the lead distace is less than 3.7m
# send resume at a max freq of 5Hz
if CS.lead_distance > 3.7 and (
frame - self.last_resume_frame) * DT_CTRL > 0.2:
can_sends.append(
create_clu11(self.packer, frame, CS.clu11,
Buttons.RES_ACCEL))
self.last_resume_frame = frame
# 20 Hz LFA MFA message
if frame % 5 == 0 and self.car_fingerprint in [
CAR.SONATA, CAR.PALISADE, CAR.IONIQ
]:
can_sends.append(create_lfa_mfa(self.packer, frame, enabled))
return can_sends
def update(self, enabled, CS, frame, actuators, pcm_cancel_cmd, visual_alert,
left_lane, right_lane, left_lane_depart, right_lane_depart, dragonconf):
# Steering Torque
new_steer = actuators.steer * self.p.STEER_MAX
apply_steer = apply_std_steer_torque_limits(new_steer, self.apply_steer_last, CS.out.steeringTorque, self.p)
self.steer_rate_limited = new_steer != apply_steer
# disable if steer angle reach 90 deg, otherwise mdps fault in some models
lkas_active = enabled and abs(CS.out.steeringAngle) < 90.
# fix for Genesis hard fault at low speed
if not self.dp_hkg_smart_mdps and CS.out.vEgo < 16.7 and self.car_fingerprint == CAR.HYUNDAI_GENESIS:
lkas_active = False
if not lkas_active:
apply_steer = 0
self.apply_steer_last = apply_steer
sys_warning, sys_state, left_lane_warning, right_lane_warning = \
process_hud_alert(enabled, self.car_fingerprint, visual_alert,
left_lane, right_lane, left_lane_depart, right_lane_depart)
# dp
blinker_on = CS.out.leftBlinker or CS.out.rightBlinker
if not enabled:
self.blinker_end_frame = 0
if self.last_blinker_on and not blinker_on:
self.blinker_end_frame = frame + dragonconf.dpSignalOffDelay
apply_steer = common_controller_ctrl(enabled,
dragonconf,
blinker_on or frame < self.blinker_end_frame,
apply_steer, CS.out.vEgo)
self.last_blinker_on = blinker_on
can_sends = []
can_sends.append(create_lkas11(self.packer, frame, self.car_fingerprint, apply_steer, lkas_active,
CS.lkas11, sys_warning, sys_state, enabled,
left_lane, right_lane,
left_lane_warning, right_lane_warning))
if pcm_cancel_cmd:
can_sends.append(create_clu11(self.packer, frame, CS.clu11, Buttons.CANCEL))
elif CS.out.cruiseState.standstill:
# send resume at a max freq of 10Hz
if (frame - self.last_resume_frame)*DT_CTRL > 0.1:
can_sends.extend([create_clu11(self.packer, frame, CS.clu11, Buttons.RES_ACCEL)] * 20)
self.last_resume_frame = frame
# 20 Hz LFA MFA message
if frame % 5 == 0 and self.car_fingerprint in [CAR.SONATA, CAR.PALISADE, CAR.IONIQ, CAR.KIA_NIRO_EV, CAR.IONIQ_EV_2020]:
can_sends.append(create_lfa_mfa(self.packer, frame, enabled))
return can_sends
def update(self, enabled, CS, frame, CC, actuators, pcm_cancel_cmd, visual_alert,
left_lane, right_lane, left_lane_depart, right_lane_depart, set_speed, lead_visible, controls):
# *** compute control surfaces ***
# gas and brake
apply_accel = actuators.gas - actuators.brake
apply_accel, self.accel_steady = accel_hysteresis(apply_accel, self.accel_steady)
apply_accel = clip(apply_accel * ACCEL_SCALE, ACCEL_MIN, ACCEL_MAX)
# Steering Torque
new_steer = actuators.steer * SteerLimitParams.STEER_MAX
apply_steer = apply_std_steer_torque_limits(new_steer, self.apply_steer_last, CS.out.steeringTorque,
SteerLimitParams)
self.steer_rate_limited = new_steer != apply_steer
# SPAS limit angle extremes for safety
if CS.spas_enabled:
apply_steer_ang_req = clip(actuators.steerAngle, -1 * (STEER_ANG_MAX), STEER_ANG_MAX)
# SPAS limit angle rate for safety
if abs(self.apply_steer_ang - apply_steer_ang_req) > STEER_ANG_MAX_RATE:
if apply_steer_ang_req > self.apply_steer_ang:
self.apply_steer_ang += STEER_ANG_MAX_RATE
else:
self.apply_steer_ang -= STEER_ANG_MAX_RATE
else:
self.apply_steer_ang = apply_steer_ang_req
spas_active = CS.spas_enabled and enabled and (self.spas_always or CS.out.vEgo < 7.0) # 25km/h
# disable if steer angle reach 90 deg, otherwise mdps fault in some models
lkas_active = enabled and abs(CS.out.steeringAngle) < 90. and not spas_active
# fix for Genesis hard fault at low speed
if CS.out.vEgo < 60 * CV.KPH_TO_MS and self.car_fingerprint == CAR.GENESIS and not CS.mdps_bus:
lkas_active = False
# Disable steering while turning blinker on and speed below 60 kph
if CS.out.leftBlinker or CS.out.rightBlinker:
self.turning_signal_timer = 0.5 / DT_CTRL # Disable for 0.5 Seconds after blinker turned off
if self.turning_indicator_alert and CS.out.vEgo < 2 * CV.KPH_TO_MS: # set and clear by interface
lkas_active = 0
if self.turning_signal_timer > 0:
self.turning_signal_timer -= 1
if not lkas_active:
apply_steer = 0
self.apply_accel_last = apply_accel
self.apply_steer_last = apply_steer
sys_warning, sys_state, left_lane_warning, right_lane_warning = \
process_hud_alert(lkas_active, self.car_fingerprint, visual_alert,
left_lane, right_lane, left_lane_depart, right_lane_depart)
clu11_speed = CS.clu11["CF_Clu_Vanz"]
enabled_speed = 38 if CS.is_set_speed_in_mph else 60
if clu11_speed > enabled_speed or not lkas_active:
enabled_speed = clu11_speed
if not (min_set_speed < set_speed < 255 * CV.KPH_TO_MS):
set_speed = min_set_speed
set_speed *= CV.MS_TO_MPH if CS.is_set_speed_in_mph else CV.MS_TO_KPH
if frame == 0: # initialize counts from last received count signals
self.lkas11_cnt = CS.lkas11["CF_Lkas_MsgCount"]
self.scc12_cnt = CS.scc12["CR_VSM_Alive"] + 1 if not CS.no_radar else 0
# TODO: fix this
# self.prev_scc_cnt = CS.scc11["AliveCounterACC"]
# self.scc_update_frame = frame
# check if SCC is alive
# if frame % 7 == 0:
# if CS.scc11["AliveCounterACC"] == self.prev_scc_cnt:
# if frame - self.scc_update_frame > 20 and self.scc_live:
# self.scc_live = False
# else:
# self.scc_live = True
# self.prev_scc_cnt = CS.scc11["AliveCounterACC"]
# self.scc_update_frame = frame
self.prev_scc_cnt = CS.scc11["AliveCounterACC"]
self.lkas11_cnt = (self.lkas11_cnt + 1) % 0x10
self.scc12_cnt %= 0xF
can_sends = []
can_sends.append(create_lkas11(self.packer, frame, self.car_fingerprint, apply_steer, lkas_active,
CS.lkas11, sys_warning, sys_state, enabled, left_lane, right_lane,
left_lane_warning, right_lane_warning, 0))
if CS.mdps_bus or CS.scc_bus == 1: # send lkas11 bus 1 if mdps or scc is on bus 1
can_sends.append(create_lkas11(self.packer, frame, self.car_fingerprint, apply_steer, lkas_active,
CS.lkas11, sys_warning, sys_state, enabled, left_lane, right_lane,
left_lane_warning, right_lane_warning, 1))
if CS.mdps_bus: # send clu11 to mdps if it is not on bus 0
can_sends.append(create_clu11(self.packer, frame % 0x10, CS.mdps_bus, CS.clu11, Buttons.NONE, enabled_speed))
if pcm_cancel_cmd and self.longcontrol:
can_sends.append(create_clu11(self.packer, frame % 0x10, CS.scc_bus, CS.clu11, Buttons.CANCEL, clu11_speed))
# fix auto resume - by neokii
if CS.out.cruiseState.standstill:
if self.last_lead_distance == 0:
self.last_lead_distance = CS.lead_distance
self.resume_cnt = 0
self.resume_wait_timer = 0
# scc smoother
elif self.scc_smoother.is_active(frame):
pass
elif self.resume_wait_timer > 0:
self.resume_wait_timer -= 1
elif CS.lead_distance != self.last_lead_distance:
can_sends.append(create_clu11(self.packer, self.resume_cnt, CS.scc_bus, CS.clu11, Buttons.RES_ACCEL, clu11_speed))
self.resume_cnt += 1
if self.resume_cnt >= 8:
self.resume_cnt = 0
self.resume_wait_timer = SccSmoother.get_wait_count()
# reset lead distnce after the car starts moving
elif self.last_lead_distance != 0:
self.last_lead_distance = 0
# scc smoother
if not self.longcontrol:
self.scc_smoother.update(enabled, can_sends, self.packer, CC, CS, frame, apply_accel, controls)
if CS.mdps_bus: # send mdps12 to LKAS to prevent LKAS error
can_sends.append(create_mdps12(self.packer, frame, CS.mdps12))
# send scc to car if longcontrol enabled and SCC not on bus 0 or ont live
if self.longcontrol and (CS.scc_bus or not self.scc_live) and frame % 2 == 0:
can_sends.append(create_scc12(self.packer, apply_accel, enabled, self.scc12_cnt, self.scc_live, CS.scc12))
can_sends.append(create_scc11(self.packer, frame, enabled, set_speed, lead_visible, self.scc_live, CS.scc11))
if CS.has_scc13 and frame % 20 == 0:
can_sends.append(create_scc13(self.packer, CS.scc13))
if CS.has_scc14:
can_sends.append(create_scc14(self.packer, enabled, CS.scc14))
self.scc12_cnt += 1
# 20 Hz LFA MFA message
if frame % 5 == 0 and self.car_fingerprint in FEATURES["send_lfa_mfa"]:
can_sends.append(create_lfa_mfa(self.packer, frame, lkas_active))
if CS.spas_enabled:
if CS.mdps_bus:
can_sends.append(create_ems11(self.packer, CS.ems11, spas_active))
# SPAS11 50hz
if (frame % 2) == 0:
if CS.mdps11_stat == 7 and not self.mdps11_stat_last == 7:
self.en_spas = 7
self.en_cnt = 0
if self.en_spas == 7 and self.en_cnt >= 8:
self.en_spas = 3
self.en_cnt = 0
if self.en_cnt < 8 and spas_active:
self.en_spas = 4
elif self.en_cnt >= 8 and spas_active:
self.en_spas = 5
if not spas_active:
self.apply_steer_ang = CS.mdps11_strang
self.en_spas = 3
self.en_cnt = 0
self.mdps11_stat_last = CS.mdps11_stat
self.en_cnt += 1
can_sends.append(create_spas11(self.packer, self.car_fingerprint, (frame // 2), self.en_spas, self.apply_steer_ang, CS.mdps_bus))
# SPAS12 20Hz
if (frame % 5) == 0:
can_sends.append(create_spas12(CS.mdps_bus))
return can_sends
def update(self, enabled, CS, frame, actuators, pcm_cancel_cmd,
visual_alert, left_lane, right_lane, left_lane_depart,
right_lane_depart):
# *** compute control surfaces ***
# gas and brake
apply_accel = actuators.gas - actuators.brake
apply_accel, self.accel_steady = accel_hysteresis(
apply_accel, self.accel_steady)
apply_accel = clip(apply_accel * ACCEL_SCALE, ACCEL_MIN, ACCEL_MAX)
# Steering Torque
new_steer = actuators.steer * SteerLimitParams.STEER_MAX
apply_steer = apply_std_steer_torque_limits(new_steer,
self.apply_steer_last,
CS.out.steeringTorque,
SteerLimitParams)
self.steer_rate_limited = new_steer != apply_steer
# disable if steer angle reach 90 deg, otherwise mdps fault in some models
# temporarily disable steering when LKAS button off
# lkas_active = enabled and abs(CS.out.steeringAngle) < 90. and self.lkas_button_on
lkas_active = enabled and self.lkas_button_on
# fix for Genesis hard fault at low speed
if CS.out.vEgo < 60 * CV.KPH_TO_MS and self.car_fingerprint == CAR.HYUNDAI_GENESIS and not CS.mdps_bus:
lkas_active = 0
# Disable steering while turning blinker on and speed below 60 kph
if CS.out.leftBlinker or CS.out.rightBlinker:
if self.car_fingerprint not in [CAR.KIA_OPTIMA, CAR.KIA_OPTIMA_H]:
self.turning_signal_timer = 100 # Disable for 1.0 Seconds after blinker turned off
elif CS.left_blinker_flash or CS.right_blinker_flash: # Optima has blinker flash signal only
self.turning_signal_timer = 100
#if self.turning_signal_timer and CS.out.vEgo < 60 * CV.KPH_TO_MS:
if self.turning_signal_timer:
lkas_active = 0
if self.turning_signal_timer:
self.turning_signal_timer -= 1
if not lkas_active:
apply_steer = 0
self.apply_accel_last = apply_accel
self.apply_steer_last = apply_steer
sys_warning, sys_state, left_lane_warning, right_lane_warning =\
process_hud_alert(lkas_active, self.car_fingerprint, visual_alert,
left_lane, right_lane, left_lane_depart, right_lane_depart,
self.lkas_button_on)
clu11_speed = CS.clu11["CF_Clu_Vanz"]
enabled_speed = 38 if CS.is_set_speed_in_mph else 60
if clu11_speed > enabled_speed or not lkas_active:
enabled_speed = clu11_speed
if frame == 0: # initialize counts from last received count signals
self.lkas11_cnt = CS.lkas11["CF_Lkas_MsgCount"]
self.scc12_cnt = CS.scc12[
"CR_VSM_Alive"] + 1 if not CS.no_radar else 0
self.lkas11_cnt = (self.lkas11_cnt + 1) % 0x10
self.scc12_cnt %= 0xF
can_sends = []
can_sends.append(
create_lkas11(self.packer, frame, self.car_fingerprint,
apply_steer, lkas_active, CS.lkas11, sys_warning,
sys_state, enabled, left_lane, right_lane,
left_lane_warning, right_lane_warning, 0))
if CS.mdps_bus or CS.scc_bus == 1: # send lkas11 bus 1 if mdps or scc is on bus 1
can_sends.append(
create_lkas11(self.packer, frame, self.car_fingerprint,
apply_steer, lkas_active, CS.lkas11, sys_warning,
sys_state, enabled, left_lane, right_lane,
left_lane_warning, right_lane_warning, 1))
if CS.mdps_bus: # send clu11 to mdps if it is not on bus 0
can_sends.append(
create_clu11(self.packer, frame, CS.mdps_bus, CS.clu11,
Buttons.NONE, enabled_speed))
if pcm_cancel_cmd and self.longcontrol:
can_sends.append(
create_clu11(self.packer, frame, CS.scc_bus, CS.clu11,
Buttons.CANCEL, clu11_speed))
elif CS.mdps_bus: # send mdps12 to LKAS to prevent LKAS error if no cancel cmd
can_sends.append(create_mdps12(self.packer, frame, CS.mdps12))
if CS.scc_bus and self.longcontrol and frame % 2: # send scc12 to car if SCC not on bus 0 and longcontrol enabled
can_sends.append(
create_scc12(self.packer, apply_accel, enabled, self.scc12_cnt,
CS.scc12))
self.scc12_cnt += 1
if CS.out.cruiseState.standstill:
# run only first time when the car stopped
if self.last_lead_distance == 0:
# get the lead distance from the Radar
self.last_lead_distance = CS.lead_distance
self.resume_cnt = 0
# when lead car starts moving, create 6 RES msgs
elif (self.last_lead_distance + 0.9) < CS.lead_distance > 4.8 and (
frame - self.last_resume_frame) > 5:
can_sends.append(
create_clu11(self.packer, frame, CS.scc_bus, CS.clu11,
Buttons.RES_ACCEL, clu11_speed))
self.resume_cnt += 1
# interval after 6 msgs
if self.resume_cnt > 5:
self.last_resume_frame = frame
self.clu11_cnt = 0
# reset lead distnce after the car starts moving
elif self.last_lead_distance != 0:
self.last_lead_distance = 0
# 20 Hz LFA MFA message
if frame % 5 == 0 and self.car_fingerprint in [
CAR.SONATA, CAR.PALISADE, CAR.SONATA_H, CAR.SANTA_FE
]:
can_sends.append(create_lfa_mfa(self.packer, frame, enabled))
return can_sends
def update(self, enabled, CS, frame, actuators, pcm_cancel_cmd,
visual_alert, left_line, right_line, sm, LaC):
path_plan = sm['pathPlan']
# *** compute control surfaces ***
v_ego_kph = CS.v_ego * CV.MS_TO_KPH
# gas and brake
apply_accel = actuators.gas - actuators.brake
apply_accel, self.accel_steady = self.accel_hysteresis(
apply_accel, self.accel_steady)
apply_accel = clip(apply_accel * ACCEL_SCALE, ACCEL_MIN, ACCEL_MAX)
abs_angle_steers = abs(
actuators.steerAngle) # abs(CS.angle_steers) #
param = SteerLimitParams()
if path_plan.laneChangeState != LaneChangeState.off:
#param.STEER_MAX *= 0.99
param.STEER_DELTA_UP = 1
param.STEER_DELTA_DOWN = 5
#v_curvature
elif LaC.v_curvature < 200:
self.timer_curvature = 300
elif abs_angle_steers < 1 and self.timer_curvature <= 0:
xp = [0.5, 1]
fp = [240, 255]
param.STEER_MAX = interp(abs_angle_steers, xp, fp)
if abs_angle_steers < 1 or v_ego_kph < 5:
param.STEER_DELTA_UP = 2
param.STEER_DELTA_DOWN = 4
if self.timer_curvature:
self.timer_curvature -= 1
### Steering Torque
new_steer = actuators.steer * param.STEER_MAX
apply_steer = apply_std_steer_torque_limits(new_steer,
self.apply_steer_last,
CS.steer_torque_driver,
param)
self.steer_rate_limited = new_steer != apply_steer
if abs(CS.steer_torque_driver) > self.steer_torque_over_max: #200:
self.steer_torque_over_timer += 1
if self.steer_torque_over_timer > 5:
self.steer_torque_over = True
self.steer_torque_over_timer = 100
elif self.steer_torque_over_timer:
self.steer_torque_over_timer -= 1
else:
self.steer_torque_over = False
### LKAS button to temporarily disable steering
#if not CS.lkas_error:
# if self.lkas_button != CS.lkas_button_on:
# self.lkas_button = CS.lkas_button_on
# disable if steer angle reach 90 deg, otherwise mdps fault in some models
if self.car_fingerprint == CAR.GENESIS:
lkas_active = enabled and abs(CS.angle_steers) < 90.
else:
lkas_active = enabled and abs(CS.angle_steers) < 100.
# fix for Genesis hard fault at low speed
if v_ego_kph < 60 and self.car_fingerprint == CAR.GENESIS and not CS.mdps_bus:
lkas_active = 0
low_speed = self.low_speed_car
#if not self.lkas_button:
# low_speed = False
#elif not CS.cruiseState.enabled:
# low_speed = False
if CS.stopped:
low_speed = False
elif CS.v_ego > (CS.CP.minSteerSpeed + 0.7):
low_speed = False
elif CS.v_ego < (CS.CP.minSteerSpeed + 0.2):
low_speed = True
if self.low_speed_car != low_speed:
self.low_speed_car = low_speed
# streer over check
if enabled and abs(CS.angle_steers) > 100. or CS.steer_error:
self.streer_angle_over = True
self.steer_timer = 250
elif abs(CS.angle_steers) < 7.5 or not self.steer_timer:
self.streer_angle_over = False
elif self.steer_timer:
self.steer_timer -= 1
# Disable steering while turning blinker on and speed below 60 kph
if CS.left_blinker_on or CS.right_blinker_on:
self.steer_torque_over = False
self.turning_signal_timer = 100 # Disable for 1.0 Seconds after blinker turned off
elif CS.left_blinker_flash or CS.right_blinker_flash:
self.steer_torque_over = False
self.turning_signal_timer = 100
# turning indicator alert logic
if self.lane_change_enabled:
self.turning_indicator = self.turning_signal_timer and CS.v_ego < LaneChangeParms.LANE_CHANGE_SPEED_MIN
else:
self.turning_indicator = self.turning_signal_timer
if self.turning_signal_timer:
self.turning_signal_timer -= 1
if left_line:
self.hud_timer_left = 100
elif self.hud_timer_left:
self.hud_timer_left -= 1
if right_line:
self.hud_timer_right = 100
elif self.hud_timer_right:
self.hud_timer_right -= 1
if path_plan.laneChangeState != LaneChangeState.off:
if LaC.v_curvature > 200:
self.lkas_active_timer1 = 300
apply_steer = self.limit_ctrl(apply_steer, 100, 0)
elif not self.hud_timer_left and not self.hud_timer_right:
self.lkas_active_timer1 = 200 # apply_steer = 70
elif path_plan.laneChangeState != LaneChangeState.off:
self.steer_torque_over = False
# disable lkas
if not CS.main_on:
lkas_active = 0
self.turning_signal_timer = 0
self.turning_indicator = False
self.steer_torque_over = False
elif CS.stopped:
lkas_active = 0
elif self.steer_torque_over:
lkas_active = 0
if self.streer_angle_over:
lkas_active = 0
elif self.turning_indicator:
lkas_active = 0
if not lkas_active:
apply_steer = 0
steer_req = 1 if apply_steer else 0
steer_limit = param.STEER_MAX #param.STEER_MAX
if not lkas_active:
self.lkas_active_timer1 = 200
elif self.lkas_active_timer1 < 400:
self.lkas_active_timer1 += 1
ratio_steer = self.lkas_active_timer1 / 400
if ratio_steer < 1:
steer_limit = ratio_steer * param.STEER_MAX
apply_steer = self.limit_ctrl(apply_steer, steer_limit, 0)
dRel, yRel, vRel = self.SC.get_lead(sm, CS)
vRel = int(vRel * 3.6 + 0.5)
lead_objspd = CS.lead_objspd
str_log1 = 'CV={:03.0f}/{:06.3f} TQ=V:{:04.0f}/S:{:04.0f}'.format(
LaC.v_curvature, LaC.model_sum, apply_steer,
CS.steer_torque_driver)
str_log2 = 'D={:05.1f} V={:03.0f} S_LIM={:03.0f} S_MAX={:03.0f}'.format(
dRel, vRel, steer_limit, param.STEER_MAX)
trace1.printf('{} {}'.format(str_log1, str_log2))
self.apply_accel_last = apply_accel
self.apply_steer_last = apply_steer
hud_alert, lane_visible = self.process_hud_alert(
lkas_active, self.lkas_button, visual_alert, self.hud_timer_left,
self.hud_timer_right, CS)
clu11_speed = CS.clu11["CF_Clu_Vanz"]
enabled_speed = 38 if CS.is_set_speed_in_mph else 60
if clu11_speed > enabled_speed or not lkas_active:
enabled_speed = clu11_speed
can_sends = []
if frame == 0: # initialize counts from last received count signals
self.lkas11_cnt = CS.lkas11["CF_Lkas_MsgCount"] + 1
self.lkas11_cnt %= 0x10
self.clu11_cnt = frame % 0x10
self.mdps12_cnt = frame % 0x100
can_sends.append(
create_lkas11(self.packer,
self.car_fingerprint,
0,
apply_steer,
steer_req,
self.lkas11_cnt,
lkas_active,
CS.lkas11,
hud_alert,
lane_visible,
keep_stock=True))
if CS.mdps_bus or CS.scc_bus == 1: # send lkas12 bus 1 if mdps or scc is on bus 1
can_sends.append(
create_lkas11(self.packer,
self.car_fingerprint,
1,
apply_steer,
steer_req,
self.lkas11_cnt,
lkas_active,
CS.lkas11,
hud_alert,
lane_visible,
keep_stock=True))
if CS.mdps_bus: # send clu11 to mdps if it is not on bus 0
can_sends.append(
create_clu11(self.packer, CS.mdps_bus, CS.clu11, Buttons.NONE,
enabled_speed, self.clu11_cnt))
if pcm_cancel_cmd and self.longcontrol:
can_sends.append(
create_clu11(self.packer, CS.scc_bus, CS.clu11, Buttons.CANCEL,
clu11_speed, self.clu11_cnt))
else: # send mdps12 to LKAS to prevent LKAS error if no cancel cmd
can_sends.append(
create_mdps12(self.packer, self.car_fingerprint,
self.mdps12_cnt, CS.mdps12))
# AVM
#if CS.mdps_bus:
#if not CS.cp_AVM.can_valid:
#can_sends.append(create_AVM(self.packer, self.car_fingerprint, CS.avm, CS ))
if CS.stopped:
#self.model_speed = 300
# run only first time when the car stopped
if self.last_lead_distance == 0:
# get the lead distance from the Radar
self.last_lead_distance = CS.lead_distance
self.resume_cnt = 0
# when lead car starts moving, create 6 RES msgs
elif CS.lead_distance != self.last_lead_distance and (
frame - self.last_resume_frame) > 5:
can_sends.append(
create_clu11(self.packer, CS.scc_bus, CS.clu11,
Buttons.RES_ACCEL, clu11_speed,
self.resume_cnt))
self.resume_cnt += 1
# interval after 6 msgs
if self.resume_cnt > 5:
self.last_resume_frame = frame
self.resume_cnt = 0
# reset lead distnce after the car starts moving
elif self.last_lead_distance != 0:
self.last_lead_distance = 0
elif CS.driverOverride == 2 or not CS.pcm_acc_status or CS.clu_CruiseSwState == 1 or CS.clu_CruiseSwState == 2:
#self.model_speed = 300
self.resume_cnt = 0
self.sc_btn_type = Buttons.NONE
self.sc_wait_timer2 = 10
self.sc_active_timer2 = 0
elif self.sc_wait_timer2:
self.sc_wait_timer2 -= 1
elif self.speed_control_enabled:
#acc_mode, clu_speed = self.long_speed_cntrl( v_ego_kph, CS, actuators )
btn_type, clu_speed = self.SC.update(
v_ego_kph, CS, sm, actuators, dRel, yRel, vRel,
LaC.v_curvature) # speed controller spdcontroller.py
if CS.clu_Vanz < 5:
self.sc_btn_type = Buttons.NONE
elif self.sc_btn_type != Buttons.NONE:
pass
elif btn_type != Buttons.NONE:
self.resume_cnt = 0
self.sc_active_timer2 = 0
self.sc_btn_type = btn_type
self.sc_clu_speed = clu_speed
if self.sc_btn_type != Buttons.NONE:
self.sc_active_timer2 += 1
if self.sc_active_timer2 > 10:
self.sc_wait_timer2 = 5
self.resume_cnt = 0
self.sc_active_timer2 = 0
self.sc_btn_type = Buttons.NONE
else:
#self.traceCC.add( 'sc_btn_type={} clu_speed={} set={:.0f} vanz={:.0f}'.format( self.sc_btn_type, self.sc_clu_speed, CS.VSetDis, clu11_speed ) )
can_sends.append(
create_clu11(self.packer, CS.scc_bus, CS.clu11,
self.sc_btn_type, self.sc_clu_speed,
self.resume_cnt))
self.resume_cnt += 1
self.lkas11_cnt += 1
return can_sends
def update(self, enabled, CS, frame, CC, actuators, pcm_cancel_cmd, visual_alert,
left_lane, right_lane, left_lane_depart, right_lane_depart, set_speed, lead_visible, sm):
# *** compute control surfaces ***
# gas and brake
apply_accel = actuators.gas - actuators.brake
apply_accel, self.accel_steady = accel_hysteresis(apply_accel, self.accel_steady)
apply_accel = clip(apply_accel * ACCEL_SCALE, ACCEL_MIN, ACCEL_MAX)
param = self.p
#self.model_speed = 255 - self.SC.calc_va(sm, CS.out.vEgo)
#atom model_speed
#self.model_speed = self.SC.cal_model_speed(sm, CS.out.vEgo)
#self.curve_speed = self.SC.cal_curve_speed(sm, CS.out.vEgo, frame)
plan = sm['longitudinalPlan']
self.dRel = int(plan.dRel1) #EON Lead
self.yRel = int(plan.yRel1) #EON Lead
self.vRel = int(plan.vRel1 * 3.6 + 0.5) #EON Lead
self.dRel2 = int(plan.dRel2) #EON Lead
self.yRel2 = int(plan.yRel2) #EON Lead
self.vRel2 = int(plan.vRel2 * 3.6 + 0.5) #EON Lead
self.lead2_status = plan.status2
self.target_map_speed_camera = plan.targetSpeedCamera
self.accActive = CS.acc_active
lateral_plan = sm['lateralPlan']
self.outScale = lateral_plan.outputScale
self.vCruiseSet = lateral_plan.vCruiseSet
#self.model_speed = interp(abs(lateral_plan.vCurvature), [0.0002, 0.01], [255, 30])
#Hoya
self.model_speed = interp(abs(lateral_plan.vCurvature), [0.0, 0.0002, 0.00074, 0.0025, 0.008, 0.02], [255, 255, 130, 90, 60, 20])
if CS.out.vEgo > 8:
if self.variable_steer_max:
self.steerMax = interp(int(abs(self.model_speed)), self.model_speed_range, self.steerMax_range)
else:
self.steerMax = int(self.params.get("SteerMaxBaseAdj", encoding='utf8'))
if self.variable_steer_delta:
self.steerDeltaUp = interp(int(abs(self.model_speed)), self.model_speed_range, self.steerDeltaUp_range)
self.steerDeltaDown = interp(int(abs(self.model_speed)), self.model_speed_range, self.steerDeltaDown_range)
else:
self.steerDeltaUp = int(self.params.get("SteerDeltaUpBaseAdj", encoding='utf8'))
self.steerDeltaDown = int(self.params.get("SteerDeltaDownBaseAdj", encoding='utf8'))
else:
self.steerMax = int(self.params.get("SteerMaxBaseAdj", encoding='utf8'))
self.steerDeltaUp = int(self.params.get("SteerDeltaUpBaseAdj", encoding='utf8'))
self.steerDeltaDown = int(self.params.get("SteerDeltaDownBaseAdj", encoding='utf8'))
param.STEER_MAX = min(CarControllerParams.STEER_MAX, self.steerMax) # variable steermax
param.STEER_DELTA_UP = min(CarControllerParams.STEER_DELTA_UP, self.steerDeltaUp) # variable deltaUp
param.STEER_DELTA_DOWN = min(CarControllerParams.STEER_DELTA_DOWN, self.steerDeltaDown) # variable deltaDown
#param.STEER_DELTA_UP = CarControllerParams.STEER_DELTA_UP # fixed deltaUp
#param.STEER_DELTA_DOWN = CarControllerParams.STEER_DELTA_DOWN # fixed deltaDown
# Steering Torque
if 0 <= self.driver_steering_torque_above_timer < 100:
new_steer = int(round(actuators.steer * self.steerMax * (self.driver_steering_torque_above_timer / 100)))
else:
new_steer = int(round(actuators.steer * self.steerMax))
apply_steer = apply_std_steer_torque_limits(new_steer, self.apply_steer_last, CS.out.steeringTorque, param)
self.steer_rate_limited = new_steer != apply_steer
# SPAS limit angle extremes for safety
if CS.spas_enabled:
apply_steer_ang_req = clip(actuators.steeringAngleDeg, -1*(STEER_ANG_MAX), STEER_ANG_MAX)
# SPAS limit angle rate for safety
if abs(self.apply_steer_ang - apply_steer_ang_req) > STEER_ANG_MAX_RATE:
if apply_steer_ang_req > self.apply_steer_ang:
self.apply_steer_ang += STEER_ANG_MAX_RATE
else:
self.apply_steer_ang -= STEER_ANG_MAX_RATE
else:
self.apply_steer_ang = apply_steer_ang_req
spas_active = CS.spas_enabled and enabled and (self.spas_always or CS.out.vEgo < 7.0) # 25km/h
# disable if steer angle reach 90 deg, otherwise mdps fault in some models
if self.opkr_maxanglelimit >= 90:
lkas_active = enabled and abs(CS.out.steeringAngleDeg) < self.opkr_maxanglelimit and not spas_active
else:
lkas_active = enabled and not spas_active
if (( CS.out.leftBlinker and not CS.out.rightBlinker) or ( CS.out.rightBlinker and not CS.out.leftBlinker)) and CS.out.vEgo < LANE_CHANGE_SPEED_MIN and self.opkr_turnsteeringdisable:
self.lanechange_manual_timer = 50
if CS.out.leftBlinker and CS.out.rightBlinker:
self.emergency_manual_timer = 50
if self.lanechange_manual_timer:
lkas_active = 0
if self.lanechange_manual_timer > 0:
self.lanechange_manual_timer -= 1
if self.emergency_manual_timer > 0:
self.emergency_manual_timer -= 1
if abs(CS.out.steeringTorque) > 180 and CS.out.vEgo < LANE_CHANGE_SPEED_MIN:
self.driver_steering_torque_above = True
else:
self.driver_steering_torque_above = False
if self.driver_steering_torque_above == True:
self.driver_steering_torque_above_timer -= 1
if self.driver_steering_torque_above_timer <= 0:
self.driver_steering_torque_above_timer = 0
elif self.driver_steering_torque_above == False:
self.driver_steering_torque_above_timer += 5
if self.driver_steering_torque_above_timer >= 100:
self.driver_steering_torque_above_timer = 100
if not lkas_active:
apply_steer = 0
self.apply_accel_last = apply_accel
self.apply_steer_last = apply_steer
if CS.acc_active and CS.lead_distance > 149 and self.dRel < ((CS.out.vEgo * CV.MS_TO_KPH)+5) < 100 and self.vRel < -5 and CS.out.vEgo > 7 and abs(lateral_plan.steerAngleDesireDeg) < 15:
self.need_brake_timer += 1
if self.need_brake_timer > 50:
self.need_brake = True
else:
self.need_brake = False
self.need_brake_timer = 0
sys_warning, sys_state, left_lane_warning, right_lane_warning =\
process_hud_alert(lkas_active, self.car_fingerprint, visual_alert,
left_lane, right_lane, left_lane_depart, right_lane_depart,
self.lkas_button_on)
clu11_speed = CS.clu11["CF_Clu_Vanz"]
enabled_speed = 38 if CS.is_set_speed_in_mph else 55
if clu11_speed > enabled_speed or not lkas_active:
enabled_speed = clu11_speed
if not(min_set_speed < set_speed < 255 * CV.KPH_TO_MS):
set_speed = min_set_speed
set_speed *= CV.MS_TO_MPH if CS.is_set_speed_in_mph else CV.MS_TO_KPH
if frame == 0: # initialize counts from last received count signals
self.lkas11_cnt = CS.lkas11["CF_Lkas_MsgCount"]
self.scc12_cnt = CS.scc12["CR_VSM_Alive"] + 1 if not CS.no_radar else 0
#TODO: fix this
# self.prev_scc_cnt = CS.scc11["AliveCounterACC"]
# self.scc_update_frame = frame
# check if SCC is alive
# if frame % 7 == 0:
# if CS.scc11["AliveCounterACC"] == self.prev_scc_cnt:
# if frame - self.scc_update_frame > 20 and self.scc_live:
# self.scc_live = False
# else:
# self.scc_live = True
# self.prev_scc_cnt = CS.scc11["AliveCounterACC"]
# self.scc_update_frame = frame
self.prev_scc_cnt = CS.scc11["AliveCounterACC"]
self.lkas11_cnt = (self.lkas11_cnt + 1) % 0x10
self.scc12_cnt %= 0xF
can_sends = []
can_sends.append(create_lkas11(self.packer, frame, self.car_fingerprint, apply_steer, lkas_active,
CS.lkas11, sys_warning, sys_state, enabled, left_lane, right_lane,
left_lane_warning, right_lane_warning, 0))
if CS.mdps_bus or CS.scc_bus == 1: # send lkas11 bus 1 if mdps or scc is on bus 1
can_sends.append(create_lkas11(self.packer, frame, self.car_fingerprint, apply_steer, lkas_active,
CS.lkas11, sys_warning, sys_state, enabled, left_lane, right_lane,
left_lane_warning, right_lane_warning, 1))
if frame % 2 and CS.mdps_bus: # send clu11 to mdps if it is not on bus 0
can_sends.append(create_clu11(self.packer, frame, CS.mdps_bus, CS.clu11, Buttons.NONE, enabled_speed))
str_log1 = 'CV={:03.0f} TQ={:03.0f} R={:03.0f} ST={:03.0f}/{:01.0f}/{:01.0f}'.format(abs(self.model_speed), abs(new_steer), self.timer1.sampleTime(), self.steerMax, self.steerDeltaUp, self.steerDeltaDown)
if self.params.get("OpkrLiveTune", encoding='utf8') == "1":
if int(self.params.get("LateralControlMethod", encoding='utf8')) == 0:
self.str_log2 = 'T={:0.2f}/{:0.3f}/{:0.2f}/{:0.5f}'.format(float(int(self.params.get("PidKp", encoding='utf8')) * 0.01), float(int(self.params.get("PidKi", encoding='utf8')) * 0.001), float(int(self.params.get("PidKd", encoding='utf8')) * 0.01), float(int(self.params.get("PidKf", encoding='utf8')) * 0.00001))
elif int(self.params.get("LateralControlMethod", encoding='utf8')) == 1:
self.str_log2 = 'T={:03.1f}/{:03.1f}/{:03.1f}/{:03.1f}'.format(float(int(self.params.get("InnerLoopGain", encoding='utf8')) * 0.1), float(int(self.params.get("OuterLoopGain", encoding='utf8')) * 0.1), float(int(self.params.get("TimeConstant", encoding='utf8')) * 0.1), float(int(self.params.get("ActuatorEffectiveness", encoding='utf8')) * 0.1))
elif int(self.params.get("LateralControlMethod", encoding='utf8')) == 2:
self.str_log2 = 'T={:04.0f}/{:05.3f}/{:06.4f}'.format(float(int(self.params.get("Scale", encoding='utf8')) * 1.0), float(int(self.params.get("LqrKi", encoding='utf8')) * 0.001), float(int(self.params.get("DcGain", encoding='utf8')) * 0.0001))
trace1.printf1('{} {}'.format(str_log1, self.str_log2))
if CS.out.cruiseState.modeSel == 0 and self.mode_change_switch == 3:
self.mode_change_timer = 50
self.mode_change_switch = 0
elif CS.out.cruiseState.modeSel == 1 and self.mode_change_switch == 0:
self.mode_change_timer = 50
self.mode_change_switch = 1
elif CS.out.cruiseState.modeSel == 2 and self.mode_change_switch == 1:
self.mode_change_timer = 50
self.mode_change_switch = 2
elif CS.out.cruiseState.modeSel == 3 and self.mode_change_switch == 2:
self.mode_change_timer = 50
self.mode_change_switch = 3
if self.mode_change_timer > 0:
self.mode_change_timer -= 1
run_speed_ctrl = self.opkr_variablecruise and CS.acc_active and (CS.out.cruiseState.modeSel == 1 or CS.out.cruiseState.modeSel == 2 or CS.out.cruiseState.modeSel == 3)
if not run_speed_ctrl:
if CS.out.cruiseState.modeSel == 0:
self.steer_mode = "OpenPilot"
elif CS.out.cruiseState.modeSel == 1:
self.steer_mode = "Dist+Curv"
elif CS.out.cruiseState.modeSel == 2:
self.steer_mode = "DistOnly"
elif CS.out.cruiseState.modeSel == 3:
self.steer_mode = "OneWay"
if CS.out.steerWarning == 0:
self.mdps_status = "OK"
elif CS.out.steerWarning == 1:
self.mdps_status = "ERR"
if CS.lkas_button_on == 0:
self.lkas_switch = "OFF"
elif CS.lkas_button_on == 1:
self.lkas_switch = "ON"
else:
self.lkas_switch = "-"
if self.cruise_gap != CS.cruiseGapSet:
self.cruise_gap = CS.cruiseGapSet
if CS.lead_distance < 149:
self.leadcar_status = "O"
else:
self.leadcar_status = "-"
str_log2 = 'MODE={:s} MDPS={:s} LKAS={:s} CSG={:1.0f} LEAD={:s}'.format(self.steer_mode, self.mdps_status, self.lkas_switch, self.cruise_gap, self.leadcar_status)
trace1.printf2( '{}'.format( str_log2 ) )
if pcm_cancel_cmd and self.longcontrol:
can_sends.append(create_clu11(self.packer, frame, CS.scc_bus, CS.clu11, Buttons.CANCEL, clu11_speed))
if CS.out.cruiseState.standstill:
self.standstill_status = 1
if self.opkr_autoresume:
# run only first time when the car stopped
if self.last_lead_distance == 0:
# get the lead distance from the Radar
self.last_lead_distance = CS.lead_distance
self.resume_cnt = 0
self.res_switch_timer = 0
self.standstill_fault_reduce_timer += 1
elif self.res_switch_timer > 0:
self.res_switch_timer -= 1
self.standstill_fault_reduce_timer += 1
# at least 1 sec delay after entering the standstill
elif 100 < self.standstill_fault_reduce_timer and CS.lead_distance != self.last_lead_distance:
can_sends.append(create_clu11(self.packer, frame, CS.scc_bus, CS.clu11, Buttons.RES_ACCEL, clu11_speed))
self.resume_cnt += 1
if self.resume_cnt > 5:
self.resume_cnt = 0
self.res_switch_timer = randint(10, 15)
self.standstill_fault_reduce_timer += 1
# gap save
elif 160 < self.standstill_fault_reduce_timer and self.cruise_gap_prev == 0 and self.opkr_autoresume:
self.cruise_gap_prev = CS.cruiseGapSet
self.cruise_gap_set_init = 1
# gap adjust to 1 for fast start
elif 160 < self.standstill_fault_reduce_timer and CS.cruiseGapSet != 1.0 and self.opkr_autoresume:
self.cruise_gap_switch_timer += 1
if self.cruise_gap_switch_timer > 100:
can_sends.append(create_clu11(self.packer, frame, CS.scc_bus, CS.clu11, Buttons.GAP_DIST, clu11_speed))
self.cruise_gap_switch_timer = 0
elif self.opkr_autoresume:
self.standstill_fault_reduce_timer += 1
# reset lead distnce after the car starts moving
elif self.last_lead_distance != 0:
self.last_lead_distance = 0
elif run_speed_ctrl:
is_sc_run = self.SC.update(CS, sm, self)
if is_sc_run:
can_sends.append(create_clu11(self.packer, self.resume_cnt, CS.scc_bus, CS.clu11, self.SC.btn_type, self.SC.sc_clu_speed))
self.resume_cnt += 1
else:
self.resume_cnt = 0
# gap restore
if self.dRel > 17 and self.vRel < 5 and self.cruise_gap_prev != CS.cruiseGapSet and self.cruise_gap_set_init == 1 and self.opkr_autoresume:
self.cruise_gap_switch_timer += 1
if self.cruise_gap_switch_timer > 50:
can_sends.append(create_clu11(self.packer, frame, CS.scc_bus, CS.clu11, Buttons.GAP_DIST, clu11_speed))
self.cruise_gap_switch_timer = 0
elif self.cruise_gap_prev == CS.cruiseGapSet and self.opkr_autoresume:
self.cruise_gap_set_init = 0
self.cruise_gap_prev = 0
if CS.out.brakeLights and CS.out.vEgo == 0 and not CS.acc_active:
self.standstill_status_timer += 1
if self.standstill_status_timer > 200:
self.standstill_status = 1
self.standstill_status_timer = 0
if self.standstill_status == 1 and CS.out.vEgo > 1:
self.standstill_status = 0
self.standstill_fault_reduce_timer = 0
self.v_set_dis_prev = 180
self.last_resume_frame = frame
self.res_switch_timer = 0
self.resume_cnt = 0
if CS.mdps_bus: # send mdps12 to LKAS to prevent LKAS error
can_sends.append(create_mdps12(self.packer, frame, CS.mdps12))
# send scc to car if longcontrol enabled and SCC not on bus 0 or ont live
if self.longcontrol and (CS.scc_bus or not self.scc_live) and frame % 2 == 0:
can_sends.append(create_scc12(self.packer, apply_accel, enabled, self.scc12_cnt, self.scc_live, CS.scc12))
can_sends.append(create_scc11(self.packer, frame, enabled, set_speed, lead_visible, self.scc_live, CS.scc11))
if CS.has_scc13 and frame % 20 == 0:
can_sends.append(create_scc13(self.packer, CS.scc13))
if CS.has_scc14:
can_sends.append(create_scc14(self.packer, enabled, CS.scc14))
self.scc12_cnt += 1
# 20 Hz LFA MFA message
if frame % 5 == 0 and self.car_fingerprint in FEATURES["send_lfahda_mfa"]:
can_sends.append(create_lfahda_mfc(self.packer, frame, lkas_active))
if CS.spas_enabled:
if CS.mdps_bus:
can_sends.append(create_ems11(self.packer, CS.ems11, spas_active))
# SPAS11 50hz
if (frame % 2) == 0:
if CS.mdps11_stat == 7 and not self.mdps11_stat_last == 7:
self.en_spas = 7
self.en_cnt = 0
if self.en_spas == 7 and self.en_cnt >= 8:
self.en_spas = 3
self.en_cnt = 0
if self.en_cnt < 8 and spas_active:
self.en_spas = 4
elif self.en_cnt >= 8 and spas_active:
self.en_spas = 5
if not spas_active:
self.apply_steer_ang = CS.mdps11_strang
self.en_spas = 3
self.en_cnt = 0
self.mdps11_stat_last = CS.mdps11_stat
self.en_cnt += 1
can_sends.append(create_spas11(self.packer, self.car_fingerprint, (frame // 2), self.en_spas, self.apply_steer_ang, CS.mdps_bus))
# SPAS12 20Hz
if (frame % 5) == 0:
can_sends.append(create_spas12(CS.mdps_bus))
return can_sends
def update(self, CC, CS):
actuators = CC.actuators
hud_control = CC.hudControl
# Steering Torque
new_steer = int(round(actuators.steer * self.params.STEER_MAX))
apply_steer = apply_std_steer_torque_limits(new_steer, self.apply_steer_last, CS.out.steeringTorque, self.params)
self.steer_rate_limited = new_steer != apply_steer
if not CC.latActive:
apply_steer = 0
self.apply_steer_last = apply_steer
sys_warning, sys_state, left_lane_warning, right_lane_warning = process_hud_alert(CC.enabled, self.car_fingerprint,
hud_control)
can_sends = []
if self.CP.carFingerprint in HDA2_CAR:
# steering control
can_sends.append(hda2can.create_lkas(self.packer, CC.enabled, self.frame, CC.latActive, apply_steer))
# cruise cancel
if (self.frame - self.last_button_frame) * DT_CTRL > 0.25:
if CC.cruiseControl.cancel:
for _ in range(20):
can_sends.append(hda2can.create_buttons(self.packer, CS.buttons_counter+1, True, False))
self.last_button_frame = self.frame
# cruise standstill resume
elif CC.cruiseControl.resume:
can_sends.append(hda2can.create_buttons(self.packer, CS.buttons_counter+1, False, True))
self.last_button_frame = self.frame
else:
# tester present - w/ no response (keeps radar disabled)
if self.CP.openpilotLongitudinalControl:
if self.frame % 100 == 0:
can_sends.append([0x7D0, 0, b"\x02\x3E\x80\x00\x00\x00\x00\x00", 0])
can_sends.append(hyundaican.create_lkas11(self.packer, self.frame, self.car_fingerprint, apply_steer, CC.latActive,
CS.lkas11, sys_warning, sys_state, CC.enabled,
hud_control.leftLaneVisible, hud_control.rightLaneVisible,
left_lane_warning, right_lane_warning))
if not self.CP.openpilotLongitudinalControl:
if CC.cruiseControl.cancel:
can_sends.append(hyundaican.create_clu11(self.packer, self.frame, CS.clu11, Buttons.CANCEL))
elif CC.cruiseControl.resume:
# send resume at a max freq of 10Hz
if (self.frame - self.last_button_frame) * DT_CTRL > 0.1:
# send 25 messages at a time to increases the likelihood of resume being accepted
can_sends.extend([hyundaican.create_clu11(self.packer, self.frame, CS.clu11, Buttons.RES_ACCEL)] * 25)
self.last_button_frame = self.frame
if self.frame % 2 == 0 and self.CP.openpilotLongitudinalControl:
accel = actuators.accel
jerk = 0
if CC.longActive:
jerk = clip(2.0 * (accel - CS.out.aEgo), -12.7, 12.7)
if accel < 0:
accel = interp(accel - CS.out.aEgo, [-1.0, -0.5], [2 * accel, accel])
accel = clip(accel, CarControllerParams.ACCEL_MIN, CarControllerParams.ACCEL_MAX)
stopping = actuators.longControlState == LongCtrlState.stopping
set_speed_in_units = hud_control.setSpeed * (CV.MS_TO_MPH if CS.clu11["CF_Clu_SPEED_UNIT"] == 1 else CV.MS_TO_KPH)
can_sends.extend(hyundaican.create_acc_commands(self.packer, CC.enabled, accel, jerk, int(self.frame / 2),
hud_control.leadVisible, set_speed_in_units, stopping, CS.out.gasPressed))
self.accel = accel
# 20 Hz LFA MFA message
if self.frame % 5 == 0 and self.car_fingerprint in (CAR.SONATA, CAR.PALISADE, CAR.IONIQ, CAR.KIA_NIRO_EV, CAR.KIA_NIRO_HEV_2021,
CAR.IONIQ_EV_2020, CAR.IONIQ_PHEV, CAR.KIA_CEED, CAR.KIA_SELTOS, CAR.KONA_EV,
CAR.ELANTRA_2021, CAR.ELANTRA_HEV_2021, CAR.SONATA_HYBRID, CAR.KONA_HEV, CAR.SANTA_FE_2022,
CAR.KIA_K5_2021, CAR.IONIQ_HEV_2022, CAR.SANTA_FE_HEV_2022, CAR.GENESIS_G70_2020, CAR.SANTA_FE_PHEV_2022):
can_sends.append(hyundaican.create_lfahda_mfc(self.packer, CC.enabled))
# 5 Hz ACC options
if self.frame % 20 == 0 and self.CP.openpilotLongitudinalControl:
can_sends.extend(hyundaican.create_acc_opt(self.packer))
# 2 Hz front radar options
if self.frame % 50 == 0 and self.CP.openpilotLongitudinalControl:
can_sends.append(hyundaican.create_frt_radar_opt(self.packer))
new_actuators = actuators.copy()
new_actuators.steer = apply_steer / self.params.STEER_MAX
new_actuators.accel = self.accel
self.frame += 1
return new_actuators, can_sends
def update(self, enabled, CS, frame, actuators, pcm_cancel_cmd,
visual_alert, left_line, right_line, left_lane_depart,
right_lane_depart):
### Steering Torque
new_steer = actuators.steer * SteerLimitParams.STEER_MAX
apply_steer = apply_std_steer_torque_limits(new_steer,
self.apply_steer_last,
CS.steer_torque_driver,
SteerLimitParams)
self.steer_rate_limited = new_steer != apply_steer
### LKAS button to temporarily disable steering
if not CS.lkas_error:
if CS.lkas_button_on != self.lkas_button_last:
self.lkas_button = not self.lkas_button
self.lkas_button_last = CS.lkas_button_on
if self.car_fingerprint == CAR.GENESIS:
lkas_active = enabled and abs(
CS.angle_steers) < 90. and not self.lkas_button
else:
lkas_active = enabled and not self.lkas_button
# Fix for sharp turns mdps fault and Genesis hard fault at low speed
if CS.v_ego < 15.4 and self.car_fingerprint == CAR.GENESIS and not CS.mdps_bus:
self.turning_signal_timer = 100
if ((CS.left_blinker_flash or CS.right_blinker_flash)
and (CS.steer_override or abs(CS.angle_steers) > 15.)
and CS.v_ego < 15.0):
self.turning_signal_timer = 100 # Disable for 1.0 Seconds after blinker turned off
if self.turning_signal_timer:
lkas_active = 0
self.turning_signal_timer -= 1
if not lkas_active:
apply_steer = 0
steer_req = 1 if apply_steer else 0
self.apply_steer_last = apply_steer
hud_alert, lane_visible, left_lane_warning, right_lane_warning =\
process_hud_alert(lkas_active, self.lkas_button, self.car_fingerprint, visual_alert,
left_line, right_line,left_lane_depart, right_lane_depart)
clu11_speed = CS.clu11["CF_Clu_Vanz"]
enabled_speed = 35 if CS.is_set_speed_in_mph else 55
if clu11_speed > enabled_speed or not lkas_active:
enabled_speed = clu11_speed
can_sends = []
lkas11_cnt = frame % 0x10
clu11_cnt = frame % 0x10
mdps12_cnt = frame % 0x100
self.scc12_cnt %= 15
can_sends.append(
create_lkas11(self.packer,
self.car_fingerprint,
0,
apply_steer,
steer_req,
lkas11_cnt,
lkas_active,
CS.lkas11,
hud_alert,
lane_visible,
left_lane_depart,
right_lane_depart,
keep_stock=True))
if CS.mdps_bus or CS.scc_bus == 1: # send lkas12 bus 1 if mdps or scc is on bus 1
can_sends.append(
create_lkas11(self.packer,
self.car_fingerprint,
1,
apply_steer,
steer_req,
lkas11_cnt,
lkas_active,
CS.lkas11,
hud_alert,
lane_visible,
left_lane_depart,
right_lane_depart,
keep_stock=True))
if CS.mdps_bus: # send clu11 to mdps if it is not on bus 0
can_sends.append(
create_clu11(self.packer, CS.mdps_bus, CS.clu11, Buttons.NONE,
enabled_speed, clu11_cnt))
if pcm_cancel_cmd and self.longcontrol:
can_sends.append(
create_clu11(self.packer, CS.scc_bus, CS.clu11, Buttons.CANCEL,
clu11_speed, clu11_cnt))
else: # send mdps12 to LKAS to prevent LKAS error if no cancel cmd
can_sends.append(
create_mdps12(self.packer, self.car_fingerprint, mdps12_cnt,
CS.mdps12))
if self.longcontrol and frame % 2:
can_sends.append(
create_scc12(self.packer, apply_accel, enabled, self.scc12_cnt,
CS.scc12))
self.scc12_cnt += 1
if CS.stopped:
# run only first time when the car stopped
if self.last_lead_distance == 0:
# get the lead distance from the Radar
self.last_lead_distance = CS.lead_distance
self.resume_cnt = 0
# when lead car starts moving, create 6 RES msgs
elif CS.lead_distance > self.last_lead_distance and (
frame - self.last_resume_frame) > 5:
can_sends.append(
create_clu11(self.packer, CS.scc_bus, CS.clu11,
Buttons.RES_ACCEL, clu11_speed,
self.resume_cnt))
self.resume_cnt += 1
# interval after 6 msgs
if self.resume_cnt > 5:
self.last_resume_frame = frame
self.resume_cnt = 0
# reset lead distnce after the car starts moving
elif self.last_lead_distance != 0:
self.last_lead_distance = 0
return can_sends
def update(self, enabled, CS, frame, actuators, pcm_cancel_cmd,
visual_alert, left_lane, right_lane, left_lane_depart,
right_lane_depart, set_speed, lead_visible):
# Steering Torque
self.scc11_cnt %= 16
self.scc12_cnt %= 0xF
new_steer = actuators.steer * SteerLimitParams.STEER_MAX
apply_steer = apply_std_steer_torque_limits(new_steer,
self.apply_steer_last,
CS.out.steeringTorque,
SteerLimitParams)
self.steer_rate_limited = new_steer != apply_steer
apply_accel = actuators.gas - actuators.brake
apply_accel, self.accel_steady = accel_hysteresis(
apply_accel, self.accel_steady, enabled)
apply_accel = clip(apply_accel * ACCEL_SCALE, ACCEL_MIN, ACCEL_MAX)
# disable if steer angle reach 90 deg, otherwise mdps fault in some models
lkas_active = enabled and abs(CS.out.steeringAngle) < 90.
# fix for Genesis hard fault at low speed
if CS.out.vEgo < 16.7 and self.car_fingerprint == CAR.HYUNDAI_GENESIS:
lkas_active = 0
if not lkas_active:
apply_steer = 0
self.apply_steer_last = apply_steer
sys_warning, sys_state, left_lane_warning, right_lane_warning =\
process_hud_alert(enabled, self.car_fingerprint, visual_alert,
left_lane, right_lane, left_lane_depart, right_lane_depart)
can_sends = []
can_sends.append(
create_lkas11(self.packer, frame, self.car_fingerprint,
apply_steer, lkas_active, CS.lkas11, sys_warning,
sys_state, enabled, left_lane, right_lane,
left_lane_warning, right_lane_warning))
if pcm_cancel_cmd:
can_sends.append(
create_clu11(self.packer, frame, CS.clu11, Buttons.CANCEL))
elif CS.out.cruiseState.standstill:
# run only first time when the car stopped
if self.last_lead_distance == 0:
# get the lead distance from the Radar
self.last_lead_distance = CS.lead_distance
self.resume_cnt = 0
# when lead car starts moving, create 6 RES msgs
elif CS.lead_distance != self.last_lead_distance and (
frame - self.last_resume_frame) > 5:
can_sends.append(
create_clu11(self.packer, frame, CS.clu11,
Buttons.RES_ACCEL))
self.resume_cnt += 1
# interval after 6 msgs
if self.resume_cnt > 5:
self.last_resume_frame = frame
self.resume_cnt = 0
# reset lead distnce after the car starts moving
elif self.last_lead_distance != 0:
self.last_lead_distance = 0
if frame % 2 == 0:
#cloudlog.info("create_scc11(self.packer, %d, %d)" % (frame, self.scc11_cnt))
can_sends.append(
create_scc11(self.packer, enabled, self.scc11_cnt, set_speed,
lead_visible))
self.scc11_cnt += 1
self.scc12_cnt += 1
#cloudlog.info("create_scc12(self.packer, %d, %d, %d)" % (apply_accel, enabled, self.scc12_cnt))
can_sends.append(
create_scc12(self.packer, apply_accel, enabled,
self.scc12_cnt))
can_sends.append(create_scc14(self.packer, enabled))
#cloudlog.info("create_scc14(self.packer, %d)" % (enabled))
if frame % 20 == 0:
can_sends.append(create_scc13(self.packer))
#cloudlog.info("create_scc13(self.packer)")
# if frame % 50 == 0:
# can_sends.append(create_4a2SCC(self.packer))
#20 Hz LFA MFA message
if frame % 5 == 0 and self.car_fingerprint in [
CAR.SONATA, CAR.PALISADE
]:
can_sends.append(create_lfa_mfa(self.packer, frame, enabled))
return can_sends
def update(self, enabled, CS, frame, actuators, pcm_cancel_cmd,
visual_alert, left_lane, right_lane, left_lane_depart,
right_lane_depart, set_speed, lead_visible, lead_dist,
lead_vrel, lead_yrel):
self.enabled = enabled
# gas and brake
self.accel_lim_prev = self.accel_lim
apply_accel = actuators.gas - actuators.brake
apply_accel, self.accel_steady = accel_hysteresis(
apply_accel, self.accel_steady)
apply_accel = clip(apply_accel * ACCEL_SCALE, ACCEL_MIN, ACCEL_MAX)
self.accel_lim = apply_accel
apply_accel = accel_rate_limit(self.accel_lim, self.accel_lim_prev)
# Steering Torque
new_steer = actuators.steer * self.p.STEER_MAX
apply_steer = apply_std_steer_torque_limits(new_steer,
self.apply_steer_last,
CS.out.steeringTorque,
self.p)
self.steer_rate_limited = new_steer != apply_steer
# disable if steer angle reach 90 deg, otherwise mdps fault in some models
self.high_steer_allowed = True if self.car_fingerprint in FEATURES[
"allow_high_steer"] else False
lkas_active = enabled and ((abs(CS.out.steeringAngle) < 90.)
or self.high_steer_allowed)
# fix for Genesis hard fault at low speed
if CS.out.vEgo < 55 * CV.KPH_TO_MS and self.car_fingerprint == CAR.HYUNDAI_GENESIS and CS.CP.minSteerSpeed > 0.:
lkas_active = False
if ((CS.out.leftBlinker and not CS.out.rightBlinker) or
(CS.out.rightBlinker
and not CS.out.leftBlinker)) and CS.out.vEgo <= 39 * CV.KPH_TO_MS:
self.lanechange_manual_timer = 10
if CS.out.leftBlinker and CS.out.rightBlinker:
self.emergency_manual_timer = 10
if abs(CS.out.steeringTorque) > 200:
self.driver_steering_torque_above_timer = 15
if self.lanechange_manual_timer or self.driver_steering_torque_above_timer:
lkas_active = 0
if self.lanechange_manual_timer > 0:
self.lanechange_manual_timer -= 1
if self.emergency_manual_timer > 0:
self.emergency_manual_timer -= 1
if self.driver_steering_torque_above_timer > 0:
self.driver_steering_torque_above_timer -= 1
if not lkas_active:
apply_steer = 0
if CS.CP.radarOffCan:
self.usestockscc = not self.cp_oplongcontrol
elif (CS.cancel_button_count == 3) and self.cp_oplongcontrol:
self.usestockscc = not self.usestockscc
if not self.usestockscc:
self.gapcount += 1
if self.gapcount == 50 and self.gapsettingdance == 2:
self.gapsettingdance = 1
self.gapcount = 0
elif self.gapcount == 50 and self.gapsettingdance == 1:
self.gapsettingdance = 4
self.gapcount = 0
elif self.gapcount == 50 and self.gapsettingdance == 4:
self.gapsettingdance = 3
self.gapcount = 0
elif self.gapcount == 50 and self.gapsettingdance == 3:
self.gapsettingdance = 2
self.gapcount = 0
self.apply_steer_last = apply_steer
sys_warning, sys_state, left_lane_warning, right_lane_warning =\
process_hud_alert(enabled, self.car_fingerprint, visual_alert,
left_lane, right_lane, left_lane_depart, right_lane_depart)
speed_conv = CV.MS_TO_MPH if CS.is_set_speed_in_mph else CV.MS_TO_KPH
self.clu11_speed = CS.clu11["CF_Clu_Vanz"]
enabled_speed = 38 if CS.is_set_speed_in_mph else 55
if self.clu11_speed > enabled_speed or not lkas_active or CS.out.gearShifter != GearShifter.drive:
enabled_speed = self.clu11_speed
self.current_veh_speed = int(CS.out.vEgo * speed_conv)
self.clu11_cnt = frame % 0x10
can_sends = []
self.lfa_available = True if self.lfainFingerprint or self.car_fingerprint in FEATURES[
"send_lfa_mfa"] else False
can_sends.append(
create_lkas11(self.packer, frame, self.car_fingerprint,
apply_steer, lkas_active, CS.lkas11, sys_warning,
sys_state, enabled, left_lane, right_lane,
left_lane_warning, right_lane_warning,
self.lfa_available, 0))
if CS.CP.mdpsHarness: # send lkas11 bus 1 if mdps
can_sends.append(
create_lkas11(self.packer, frame, self.car_fingerprint,
apply_steer, lkas_active, CS.lkas11, sys_warning,
sys_state, enabled, left_lane, right_lane,
left_lane_warning, right_lane_warning,
self.lfa_available, 1))
can_sends.append(
create_clu11(self.packer, 1, CS.clu11, Buttons.NONE,
enabled_speed, self.clu11_cnt))
if pcm_cancel_cmd and CS.scc12[
"ACCMode"] != 0 and not CS.out.standstill:
self.vdiff = 0.
self.resumebuttoncnt = 0
can_sends.append(
create_clu11(self.packer, CS.CP.sccBus, CS.clu11,
Buttons.CANCEL, self.current_veh_speed,
self.clu11_cnt))
elif CS.out.cruiseState.standstill and CS.scc12[
"ACCMode"] != 0 and CS.vrelative > 0:
self.vdiff += (CS.vrelative - self.vdiff)
if (frame - self.lastresumeframe > 5) and (self.vdiff > .2 or
CS.lead_distance > 5.5):
can_sends.append(
create_clu11(self.packer, CS.CP.sccBus, CS.clu11,
Buttons.RES_ACCEL, self.current_veh_speed,
self.resumebuttoncnt))
self.resumebuttoncnt += 1
if self.resumebuttoncnt > 5:
self.lastresumeframe = frame
self.resumebuttoncnt = 0
else:
self.vdiff = 0.
self.resumebuttoncnt = 0
if CS.out.vEgo < 5.:
self.sm.update(0)
long_control_state = self.sm['controlsState'].longControlState
self.acc_standstill = True if long_control_state == LongCtrlState.stopping else False
else:
self.acc_standstill = False
if lead_visible:
self.lead_visible = True
self.lead_debounce = 50
elif self.lead_debounce > 0:
self.lead_debounce -= 1
else:
self.lead_visible = lead_visible
self.setspeed = set_speed * speed_conv
if enabled:
self.sendaccmode = enabled
if CS.CP.radarDisablePossible:
self.radarDisableOverlapTimer += 1
self.radarDisableResetTimer = 0
if self.radarDisableOverlapTimer >= 30:
self.radarDisableActivated = True
if 200 > self.radarDisableOverlapTimer > 36:
if frame % 41 == 0 or self.radarDisableOverlapTimer == 37:
can_sends.append(
create_scc7d0(b'\x02\x10\x03\x00\x00\x00\x00\x00'))
elif frame % 43 == 0 or self.radarDisableOverlapTimer == 37:
can_sends.append(
create_scc7d0(b'\x03\x28\x03\x01\x00\x00\x00\x00'))
elif frame % 19 == 0 or self.radarDisableOverlapTimer == 37:
can_sends.append(
create_scc7d0(b'\x02\x10\x85\x00\x00\x00\x00\x00')
) # this disables RADAR for
else:
self.counter_init = False
can_sends.append(
create_scc7d0(b'\x02\x10\x90\x00\x00\x00\x00\x00')
) # this enables RADAR
can_sends.append(
create_scc7d0(b'\x03\x29\x03\x01\x00\x00\x00\x00'))
elif self.radarDisableActivated:
can_sends.append(create_scc7d0(
b'\x02\x10\x90\x00\x00\x00\x00\x00')) # this enables RADAR
can_sends.append(
create_scc7d0(b'\x03\x29\x03\x01\x00\x00\x00\x00'))
self.radarDisableOverlapTimer = 0
if frame % 50 == 0:
self.radarDisableResetTimer += 1
if self.radarDisableResetTimer > 2:
self.radarDisableActivated = False
self.counter_init = True
else:
self.radarDisableOverlapTimer = 0
self.radarDisableResetTimer = 0
if (frame % 50 == 0 or self.radarDisableOverlapTimer == 37) and \
CS.CP.radarDisablePossible and self.radarDisableOverlapTimer >= 30:
can_sends.append(
create_scc7d0(b'\x02\x3E\x00\x00\x00\x00\x00\x00'))
if self.lead_visible:
self.objdiststat = 1 if lead_dist < 25 else 2 if lead_dist < 40 else \
3 if lead_dist < 60 else 4 if lead_dist < 80 else 5
else:
self.objdiststat = 0
# send scc to car if longcontrol enabled and SCC not on bus 0 or ont live
if (CS.CP.sccBus == 2 or not self.usestockscc
or self.radarDisableActivated) and self.counter_init:
if frame % 2 == 0:
self.scc12cnt += 1
self.scc12cnt %= 0xF
self.scc11cnt += 1
self.scc11cnt %= 0x10
self.fca11supcnt += 1
self.fca11supcnt %= 0xF
if self.fca11alivecnt == 1:
self.fca11inc = 0
if self.fca11cnt13 == 3:
self.fca11maxcnt = 0x9
self.fca11cnt13 = 0
else:
self.fca11maxcnt = 0xD
self.fca11cnt13 += 1
else:
self.fca11inc += 4
self.fca11alivecnt = self.fca11maxcnt - self.fca11inc
can_sends.append(
create_scc11(self.packer, enabled, self.setspeed,
self.lead_visible, lead_dist, lead_vrel,
lead_yrel, self.gapsettingdance,
CS.out.standstill, CS.scc11, self.usestockscc,
CS.CP.radarOffCan, self.scc11cnt,
self.sendaccmode))
can_sends.append(
create_scc12(self.packer, apply_accel, enabled,
self.acc_standstill, CS.out.gasPressed,
CS.out.brakePressed, CS.out.stockAeb,
CS.scc12, self.usestockscc, CS.CP.radarOffCan,
self.scc12cnt))
can_sends.append(
create_scc14(self.packer, enabled, self.usestockscc,
CS.out.stockAeb, apply_accel, CS.scc14,
self.objdiststat, CS.out.gasPressed,
self.acc_standstill, CS.out.vEgo))
if CS.CP.fcaBus == -1:
can_sends.append(
create_fca11(self.packer, CS.fca11, self.fca11alivecnt,
self.fca11supcnt))
if frame % 20 == 0:
can_sends.append(create_scc13(self.packer, CS.scc13))
if CS.CP.fcaBus == -1:
can_sends.append(create_fca12(self.packer))
if frame % 50 == 0:
can_sends.append(create_scc42a(self.packer))
else:
self.counter_init = True
self.scc12cnt = CS.scc12init["CR_VSM_Alive"]
self.scc11cnt = CS.scc11init["AliveCounterACC"]
self.fca11alivecnt = CS.fca11init["CR_FCA_Alive"]
self.fca11supcnt = CS.fca11init["Supplemental_Counter"]
# 20 Hz LFA MFA message
if frame % 5 == 0 and self.lfa_available:
can_sends.append(create_lfa_mfa(self.packer, frame, enabled))
return can_sends
def update(self, enabled, CS, frame, actuators, pcm_cancel_cmd,
visual_alert, left_line, right_line, left_lane_depart,
right_lane_depart):
# *** compute control surfaces ***
# gas and brake
apply_accel = actuators.gas - actuators.brake
apply_accel, self.accel_steady = accel_hysteresis(
apply_accel, self.accel_steady)
apply_accel = clip(apply_accel * ACCEL_SCALE, ACCEL_MIN, ACCEL_MAX)
### Steering Torque
new_steer = actuators.steer * SteerLimitParams.STEER_MAX
apply_steer = apply_std_steer_torque_limits(new_steer,
self.apply_steer_last,
CS.steer_torque_driver,
SteerLimitParams)
self.steer_rate_limited = new_steer != apply_steer
# SPAS limit angle extremes for safety
apply_steer_ang_req = clip(actuators.steer, -1 * (STEER_ANG_MAX),
STEER_ANG_MAX)
# SPAS limit angle rate for safety
if abs(self.apply_steer_ang - apply_steer_ang_req) > 1.5:
if apply_steer_ang_req > self.apply_steer_ang:
self.apply_steer_ang += 0.5
else:
self.apply_steer_ang -= 0.5
else:
self.apply_steer_ang = apply_steer
# LKAS button to temporarily disable steering
if not CS.lkas_error:
if CS.lkas_button_on != self.lkas_button_last:
self.lkas_button = not self.lkas_button
self.lkas_button_last = CS.lkas_button_on
# disable if steer angle reach 90 deg, otherwise mdps fault in some models
lkas_active = enabled and abs(
CS.angle_steers) < 90. and self.lkas_button
# fix for Genesis hard fault at low speed
if CS.v_ego < 16.7 and self.car_fingerprint == CAR.GENESIS and not CS.mdps_bus:
lkas_active = 0
# Disable steering while turning blinker on and speed below 60 kph
if CS.left_blinker_on or CS.right_blinker_on:
if self.car_fingerprint not in [CAR.KIA_OPTIMA, CAR.KIA_OPTIMA_H]:
self.turning_signal_timer = 100 # Disable for 1.0 Seconds after blinker turned off
elif CS.left_blinker_flash or CS.right_blinker_flash: # Optima has blinker flash signal only
self.turning_signal_timer = 100
if self.turning_signal_timer and CS.v_ego < 16.7:
lkas_active = 0
if self.turning_signal_timer:
self.turning_signal_timer -= 1
if not lkas_active:
apply_steer = 0
steer_req = 1 if apply_steer else 0
self.apply_accel_last = apply_accel
self.apply_steer_last = apply_steer
hud_alert, lane_visible, left_lane_warning, right_lane_warning =\
process_hud_alert(lkas_active, self.lkas_button, self.car_fingerprint, visual_alert,
left_line, right_line,left_lane_depart, right_lane_depart)
clu11_speed = CS.clu11["CF_Clu_Vanz"]
enabled_speed = 38 if CS.is_set_speed_in_mph else 60
if clu11_speed > enabled_speed or not lkas_active:
enabled_speed = clu11_speed
can_sends = []
if frame == 0: # initialize counts from last received count signals
self.lkas11_cnt = CS.lkas11["CF_Lkas_MsgCount"] + 1
self.scc12_cnt = CS.scc12[
"CR_VSM_Alive"] + 1 if not CS.no_radar else 0
self.lkas11_cnt %= 0x10
self.scc12_cnt %= 0xF
self.clu11_cnt = frame % 0x10
self.mdps12_cnt = frame % 0x100
self.spas_cnt = frame % 0x200
# SPAS11 50hz
if (frame % 2) == 0:
if CS.mdps11_stat == 7 and not self.mdps11_stat_last == 7:
self.en_spas == 7
self.en_cnt = 0
if self.en_spas == 7 and self.en_cnt >= 8:
self.en_spas = 3
self.en_cnt = 0
if self.en_cnt < 8 and enabled and not self.lkas:
self.en_spas = 4
elif self.en_cnt >= 8 and enabled and not self.lkas:
self.en_spas = 5
if self.lkas or not enabled:
self.apply_steer_ang = CS.mdps11_strang
self.en_spas = 3
self.en_cnt = 0
self.mdps11_stat_last = CS.mdps11_stat
self.en_cnt += 1
can_sends.append(
create_spas11(self.packer, (frame // 2), self.en_spas,
self.apply_steer_ang, self.checksum))
#can_sends.append(create_spas11(self.packer, (self.spas_cnt / 2), self.en_spas, apply_steer, 'crc8'))
# SPAS12 20Hz
if (frame % 5) == 0:
can_sends.append(create_spas12(self.packer))
#can_sends.append(create_ems11(self.packer, CS.ems11, enabled))
#can_sends.append(create_vsm11(self.packer, CS.vsm11, enabled, 1, steer_req, 1, self.lkas11_cnt))
#can_sends.append(create_790())
#can_sends.append([790, 0, b'\x00\x00\xff\xff\x00\xff\xff\xff', 0])
#print('send car data',CS.vsm11, enabled, 1, steer_req, self.lkas11_cnt)
#can_sends.append(create_vsm11(self.packer, CS.vsm11, 1, 2, steer_req,0, self.clu11_cnt))
#can_sends.append(create_vsm11(self.packer, CS.vsm11, 1, 2, steer_req,1, self.clu11_cnt))
#can_sends.append(create_clu11(self.packer, CS.scc_bus, CS.clu11, Buttons.NONE, clu11_speed, self.clu11_cnt))
#can_sends.append(create_clu11(self.packer, CS.scc_bus, CS.clu11, Buttons.CANCEL, clu11_speed, self.clu11_cnt))
#can_sends.append(create_vsm2(self.packer, CS.vsm2, 1, apply_steer,0, self.lkas11_cnt))
#can_sends.append(create_vsm2(self.packer, CS.vsm2, 1, apply_steer,1, self.lkas11_cnt))
can_sends.append(
create_lkas11(self.packer,
self.car_fingerprint,
0,
apply_steer,
steer_req,
self.lkas11_cnt,
lkas_active,
CS.lkas11,
hud_alert,
lane_visible,
left_lane_depart,
right_lane_depart,
keep_stock=True))
if CS.mdps_bus or CS.scc_bus == 1: # send lkas12 bus 1 if mdps or scc is on bus 1
can_sends.append(
create_lkas11(self.packer,
self.car_fingerprint,
1,
apply_steer,
steer_req,
self.lkas11_cnt,
lkas_active,
CS.lkas11,
hud_alert,
lane_visible,
left_lane_depart,
right_lane_depart,
keep_stock=True))
if CS.mdps_bus: # send clu11 to mdps if it is not on bus 0
can_sends.append(
create_clu11(self.packer, CS.mdps_bus, CS.clu11, Buttons.NONE,
enabled_speed, self.clu11_cnt))
if pcm_cancel_cmd and self.longcontrol:
can_sends.append(
create_clu11(self.packer, CS.scc_bus, CS.clu11, Buttons.CANCEL,
clu11_speed, self.clu11_cnt))
#else: send mdps12 to LKAS to prevent LKAS error if no cancel cmd
#can_sends.append(create_mdps12(self.packer, self.car_fingerprint, self.mdps12_cnt, CS.mdps12))
if CS.scc_bus and self.longcontrol and frame % 2: # send scc12 to car if SCC not on bus 0 and longcontrol enabled
can_sends.append(
create_scc12(self.packer, apply_accel, enabled, self.scc12_cnt,
CS.scc12))
self.scc12_cnt += 1
if CS.stopped:
# run only first time when the car stopped
if self.last_lead_distance == 0:
# get the lead distance from the Radar
self.last_lead_distance = CS.lead_distance
self.resume_cnt = 0
# when lead car starts moving, create 6 RES msgs
elif CS.lead_distance > self.last_lead_distance and (
frame - self.last_resume_frame) > 5:
can_sends.append(
create_clu11(self.packer, CS.scc_bus, CS.clu11,
Buttons.RES_ACCEL, clu11_speed,
self.clu11_cnt))
self.resume_cnt += 1
# interval after 6 msgs
if self.resume_cnt > 5:
self.last_resume_frame = frame
self.clu11_cnt = 0
# reset lead distnce after the car starts moving
elif self.last_lead_distance != 0:
self.last_lead_distance = 0
self.lkas11_cnt += 1
return can_sends
def update(self, c, CS, frame, sm, CP):
if self.CP != CP:
self.CP = CP
self.param_load()
enabled = c.enabled
actuators = c.actuators
pcm_cancel_cmd = c.cruiseControl.cancel
path_plan = sm['pathPlan']
self.dRel, self.yRel, self.vRel = SpdController.get_lead(sm)
if self.SC is not None:
self.model_speed, self.model_sum = self.SC.calc_va(sm, CS.out.vEgo)
else:
self.model_speed = self.model_sum = 0
# Steering Torque
param, dst_steer = self.steerParams_torque(CS, c.actuators, path_plan)
new_steer = actuators.steer * param.STEER_MAX
apply_steer = apply_std_steer_torque_limits(new_steer,
self.apply_steer_last,
CS.out.steeringTorque,
param)
self.steer_rate_limited = new_steer != apply_steer
apply_steer_limit = param.STEER_MAX
if self.steer_torque_ratio < 1:
apply_steer_limit = int(self.steer_torque_ratio * param.STEER_MAX)
apply_steer = self.limit_ctrl(apply_steer, apply_steer_limit, 0)
# disable if steer angle reach 90 deg, otherwise mdps fault in some models
lkas_active = enabled and CS.main_on and CS.out.cruiseState.enabled and abs(
CS.out.steeringAngle) < 180. #and self.lkas_button
if not lkas_active:
apply_steer = 0
steer_req = 1 if apply_steer else 0
self.apply_steer_last = apply_steer
sys_warning, self.hud_sys_state = self.process_hud_alert(
lkas_active, c)
can_sends = []
if frame == 0: # initialize counts from last received count signals
self.lkas11_cnt = CS.lkas11["CF_Lkas_MsgCount"] + 1
self.lkas11_cnt %= 0x10
can_sends.append(
create_lkas11(self.packer, self.lkas11_cnt, self.car_fingerprint,
apply_steer, steer_req, CS.lkas11, sys_warning,
self.hud_sys_state, c))
# send mdps12 to LKAS to prevent LKAS error if no cancel cmd
can_sends.append(create_mdps12(self.packer, frame, CS.mdps12))
str_log1 = 'torg:{:5.0f}/{:5.0f}/{:5.0f} CV={:5.1f}'.format(
apply_steer, new_steer, dst_steer, self.model_speed)
str_log2 = 'limit={:.0f} tm={:.1f} '.format(apply_steer_limit,
self.timer1.sampleTime())
trace1.printf('{} {}'.format(str_log1, str_log2))
run_speed_ctrl = self.param_OpkrAccelProfile and CS.acc_active and self.SC != None
if not run_speed_ctrl:
str_log2 = 'LKAS={:.0f} steer={:5.0f} '.format(
CS.lkas_button_on, CS.out.steeringTorque)
trace1.printf2('{}'.format(str_log2))
if pcm_cancel_cmd and self.CP.longcontrolEnabled:
can_sends.append(
create_clu11(self.packer, frame, CS.clu11, Buttons.CANCEL))
elif CS.out.cruiseState.standstill:
# run only first time when the car stopped
if self.last_lead_distance == 0 or not self.param_OpkrAutoResume:
# get the lead distance from the Radar
self.last_lead_distance = CS.lead_distance
self.resume_cnt = 0
# when lead car starts moving, create 6 RES msgs
elif CS.lead_distance != self.last_lead_distance and (
frame - self.last_resume_frame) > 5:
can_sends.append(
create_clu11(self.packer, self.resume_cnt, CS.clu11,
Buttons.RES_ACCEL))
self.resume_cnt += 1
# interval after 6 msgs
if self.resume_cnt > 5:
self.last_resume_frame = frame
self.resume_cnt = 0
# reset lead distnce after the car starts moving
elif self.last_lead_distance != 0:
self.last_lead_distance = 0
elif run_speed_ctrl and self.SC != None:
is_sc_run = self.SC.update(CS, sm, self)
if is_sc_run:
can_sends.append(
create_clu11(self.packer, self.resume_cnt, CS.clu11,
self.SC.btn_type, self.SC.sc_clu_speed))
self.resume_cnt += 1
else:
self.resume_cnt = 0
str1 = 'run={} cruise_set_mode={} kph={:.1f}/{:.1f} DO={:.0f}/{:.0f} '.format(
is_sc_run, self.SC.cruise_set_mode,
self.SC.cruise_set_speed_kph, CS.VSetDis, CS.driverOverride,
CS.cruise_buttons)
str2 = 'btn_type={:.0f} speed={:.1f} cnt={:.0f}'.format(
self.SC.btn_type, self.SC.sc_clu_speed, self.resume_cnt)
str_log = str1 + str2
self.traceCC.add(str_log)
# 20 Hz LFA MFA message
if frame % 5 == 0 and self.car_fingerprint in [
CAR.SONATA, CAR.PALISADE
]:
can_sends.append(create_lfa_mfa(self.packer, frame, enabled))
# counter inc
self.lkas11_cnt += 1
return can_sends
def update(self, CC, CS, frame, sm, CP):
if self.CP != CP:
self.CP = CP
self.param_load()
enabled = CC.enabled
actuators = CC.actuators
pcm_cancel_cmd = CC.cruiseControl.cancel
self.dRel, self.yRel, self.vRel = SpdController.get_lead(sm)
if self.SC is not None:
self.model_speed, self.model_sum = self.SC.calc_va(sm, CS.out.vEgo)
else:
self.model_speed = self.model_sum = 0
# Steering Torque
new_steer = actuators.steer * SteerLimitParams.STEER_MAX
apply_steer = apply_std_steer_torque_limits(new_steer,
self.apply_steer_last,
CS.out.steeringTorque,
SteerLimitParams)
self.steer_rate_limited = new_steer != apply_steer
# disable if steer angle reach 90 deg, otherwise mdps fault in some models
lkas_active = enabled and abs(CS.out.steeringAngle) < 180. #90
if ((CS.out.leftBlinker and not CS.out.rightBlinker) or
(CS.out.rightBlinker
and not CS.out.leftBlinker)) and CS.out.vEgo < 60 * CV.KPH_TO_MS:
self.lanechange_manual_timer = 10
if CS.out.leftBlinker and CS.out.rightBlinker:
self.emergency_manual_timer = 10
if abs(CS.out.steeringTorque) > 409: #360: #180
self.driver_steering_torque_above_timer = 100
if self.lanechange_manual_timer or self.driver_steering_torque_above_timer:
lkas_active = 0
if self.lanechange_manual_timer > 0:
self.lanechange_manual_timer -= 1
if self.emergency_manual_timer > 0:
self.emergency_manual_timer -= 1
if self.driver_steering_torque_above_timer > 0:
self.driver_steering_torque_above_timer -= 1
if not lkas_active:
apply_steer = 0
steer_req = 1 if apply_steer else 0
self.apply_steer_last = apply_steer
sys_warning, sys_state = self.process_hud_alert(lkas_active, CC)
clu11_speed = CS.clu11["CF_Clu_Vanz"]
enabled_speed = 38 if CS.is_set_speed_in_mph else 55
if clu11_speed > enabled_speed:
enabled_speed = clu11_speed
can_sends = []
if frame == 0: # initialize counts from last received count signals
self.lkas11_cnt = CS.lkas11["CF_Lkas_MsgCount"] + 1
self.lkas11_cnt %= 0x10
can_sends.append(
create_lkas11(self.packer, self.lkas11_cnt, self.car_fingerprint,
apply_steer, steer_req, CS.lkas11, sys_warning,
sys_state, CC, enabled, 0))
if CS.mdps_bus or CS.scc_bus == 1: # send lkas11 bus 1 if mdps is on bus 1
can_sends.append(
create_lkas11(self.packer, self.lkas11_cnt,
self.car_fingerprint, apply_steer, steer_req,
CS.lkas11, sys_warning, sys_state, CC, enabled,
1))
if CS.mdps_bus: # send clu11 to mdps if it is not on bus 0
#if frame % 2 and CS.mdps_bus == 1: # send clu11 to mdps if it is not on bus 0
can_sends.append(
create_clu11(self.packer, frame, CS.mdps_bus, CS.clu11,
Buttons.NONE, enabled_speed))
#if CS.mdps_bus:
can_sends.append(create_mdps12(self.packer, frame, CS.mdps12))
str_log1 = '곡률={:04.1f}/{:=+06.3f} 토크={:=+04.0f}/{:=+04.0f}'.format(
self.model_speed, self.model_sum, new_steer, CS.out.steeringTorque)
str_log2 = '프레임율={:03.0f}'.format(self.timer1.sampleTime())
trace1.printf('{} {}'.format(str_log1, str_log2))
if CS.out.cruiseState.modeSel == 0 and self.mode_change_switch == 4:
self.mode_change_timer = 50
self.mode_change_switch = 0
elif CS.out.cruiseState.modeSel == 1 and self.mode_change_switch == 0:
self.mode_change_timer = 50
self.mode_change_switch = 1
elif CS.out.cruiseState.modeSel == 2 and self.mode_change_switch == 1:
self.mode_change_timer = 50
self.mode_change_switch = 2
elif CS.out.cruiseState.modeSel == 3 and self.mode_change_switch == 2:
self.mode_change_timer = 50
self.mode_change_switch = 3
elif CS.out.cruiseState.modeSel == 4 and self.mode_change_switch == 3:
self.mode_change_timer = 50
self.mode_change_switch = 4
if self.mode_change_timer > 0:
self.mode_change_timer -= 1
run_speed_ctrl = self.param_OpkrAccelProfile and CS.acc_active and self.SC != None
if not run_speed_ctrl:
if CS.out.cruiseState.modeSel == 0:
self.steer_mode = "오파모드"
elif CS.out.cruiseState.modeSel == 1:
self.steer_mode = "차간+커브"
elif CS.out.cruiseState.modeSel == 2:
self.steer_mode = "차간ONLY"
elif CS.out.cruiseState.modeSel == 3:
self.steer_mode = "자동RES"
elif CS.out.cruiseState.modeSel == 4:
self.steer_mode = "순정모드"
if CS.out.steerWarning == 0:
self.mdps_status = "정상"
elif CS.out.steerWarning == 1:
self.mdps_status = "오류"
if CS.lkas_button_on == 0:
self.lkas_switch = "OFF"
elif CS.lkas_button_on == 1:
self.lkas_switch = "ON"
else:
self.lkas_switch = "-"
str_log2 = '주행모드={:s} MDPS상태={:s} LKAS버튼={:s}'.format(
self.steer_mode, self.mdps_status, self.lkas_switch)
trace1.printf2('{}'.format(str_log2))
#print( 'st={} cmd={} long={} steer={} req={}'.format(CS.out.cruiseState.standstill, pcm_cancel_cmd, self.CP.openpilotLongitudinalControl, apply_steer, steer_req ) )
if pcm_cancel_cmd and self.CP.openpilotLongitudinalControl:
can_sends.append(
create_clu11(self.packer, frame, CS.scc_bus, CS.clu11,
Buttons.CANCEL, clu11_speed))
elif CS.out.cruiseState.standstill and not self.car_fingerprint == CAR.NIRO_EV:
# run only first time when the car stopped
if self.last_lead_distance == 0 or not self.param_OpkrAutoResume:
# get the lead distance from the Radar
self.last_lead_distance = CS.lead_distance
self.resume_cnt = 0
# when lead car starts moving, create 6 RES msgs
elif CS.lead_distance != self.last_lead_distance and (
frame - self.last_resume_frame) > 5:
can_sends.append(
create_clu11(self.packer, frame, CS.scc_bus, CS.clu11,
Buttons.RES_ACCEL, clu11_speed))
self.resume_cnt += 1
# interval after 6 msgs
if self.resume_cnt > 5:
self.last_resume_frame = frame
self.resume_cnt = 0
elif CS.out.cruiseState.standstill and self.car_fingerprint == CAR.NIRO_EV:
if CS.lead_distance > 3.7 and (
frame - self.last_resume_frame
) * DT_CTRL > 0.2 and self.param_OpkrAutoResume:
can_sends.append(
create_clu11(self.packer, frame, CS.scc_bus, CS.clu11,
Buttons.RES_ACCEL, clu11_speed))
self.last_resume_frame = frame
# reset lead distnce after the car starts moving
elif self.last_lead_distance != 0:
self.last_lead_distance = 0
elif run_speed_ctrl and self.SC != None:
is_sc_run = self.SC.update(CS, sm, self)
if is_sc_run:
can_sends.append(
create_clu11(self.packer, self.resume_cnt, CS.scc_bus,
CS.clu11, self.SC.btn_type,
self.SC.sc_clu_speed))
self.resume_cnt += 1
else:
self.resume_cnt = 0
if CS.out.cruiseState.modeSel == 3:
if CS.out.brakeLights and CS.VSetDis > 30:
self.res_cnt = 0
self.res_delay = 50
elif self.res_delay:
self.res_delay -= 1
elif not self.res_delay and self.res_cnt < 0 and CS.VSetDis > 30 and CS.out.vEgo > 30 * CV.KPH_TO_MS:
can_sends.append(
create_clu11(self.packer, frame, CS.scc_bus, CS.clu11,
Buttons.CANCEL, clu11_speed))
can_sends.append(
create_clu11(self.packer, frame, CS.scc_bus, CS.clu11,
Buttons.RES_ACCEL, clu11_speed))
self.res_cnt += 1
else:
self.res_cnt = 7
self.res_delay = 0
# 20 Hz LFA MFA message
if frame % 5 == 0 and self.car_fingerprint in FEATURES["send_lfa_mfa"]:
can_sends.append(create_lfa_mfa(self.packer, frame, enabled))
self.lkas11_cnt += 1
return can_sends
def update(self, enabled, CS, frame, actuators, pcm_cancel_cmd,
visual_alert, left_lane, right_lane, left_lane_depart,
right_lane_depart, set_speed, lead_visible, lead_dist,
lead_vrel, lead_yrel, sm):
# *** compute control surfaces ***
# gas and brake
self.accel_lim_prev = self.accel_lim
apply_accel = actuators.gas - actuators.brake
apply_accel, self.accel_steady = accel_hysteresis(
apply_accel, self.accel_steady)
apply_accel = clip(apply_accel * ACCEL_SCALE, ACCEL_MIN, ACCEL_MAX)
self.accel_lim = apply_accel
apply_accel = accel_rate_limit(self.accel_lim, self.accel_lim_prev)
param = self.p
#self.model_speed = 255 - self.SC.calc_va(sm, CS.out.vEgo)
#atom model_speed
#self.model_speed = self.SC.cal_model_speed(sm, CS.out.vEgo)
if frame % 10 == 0:
self.curve_speed = self.SC.cal_curve_speed(sm, CS.out.vEgo)
plan = sm['longitudinalPlan']
self.dRel = int(plan.dRel1) #EON Lead
self.yRel = int(plan.yRel1) #EON Lead
self.vRel = int(plan.vRel1 * 3.6 + 0.5) #EON Lead
self.dRel2 = int(plan.dRel2) #EON Lead
self.yRel2 = int(plan.yRel2) #EON Lead
self.vRel2 = int(plan.vRel2 * 3.6 + 0.5) #EON Lead
self.lead2_status = plan.status2
lateral_plan = sm['lateralPlan']
self.outScale = lateral_plan.outputScale
self.vCruiseSet = lateral_plan.vCruiseSet
#self.model_speed = interp(abs(lateral_plan.vCurvature), [0.0002, 0.01], [255, 30])
#Hoya
self.model_speed = interp(abs(lateral_plan.vCurvature),
[0.0, 0.0002, 0.00074, 0.0025, 0.008, 0.02],
[255, 255, 130, 90, 60, 20])
if CS.out.vEgo > 8:
if self.variable_steer_max:
self.steerMax = interp(int(abs(self.model_speed)),
self.model_speed_range,
self.steerMax_range)
else:
self.steerMax = self.steerMax_base
if self.variable_steer_delta:
self.steerDeltaUp = interp(int(abs(self.model_speed)),
self.model_speed_range,
self.steerDeltaUp_range)
self.steerDeltaDown = interp(int(abs(self.model_speed)),
self.model_speed_range,
self.steerDeltaDown_range)
else:
self.steerDeltaUp = self.steerDeltaUp_base
self.steerDeltaDown = self.steerDeltaDown_base
else:
self.steerMax = self.steerMax_base
self.steerDeltaUp = self.steerDeltaUp_base
self.steerDeltaDown = self.steerDeltaDown_base
param.STEER_MAX = min(CarControllerParams.STEER_MAX,
self.steerMax) # variable steermax
param.STEER_DELTA_UP = min(CarControllerParams.STEER_DELTA_UP,
self.steerDeltaUp) # variable deltaUp
param.STEER_DELTA_DOWN = min(CarControllerParams.STEER_DELTA_DOWN,
self.steerDeltaDown) # variable deltaDown
# Steering Torque
if 0 <= self.driver_steering_torque_above_timer < 100:
new_steer = int(
round(actuators.steer * self.steerMax *
(self.driver_steering_torque_above_timer / 100)))
else:
new_steer = int(round(actuators.steer * self.steerMax))
apply_steer = apply_std_steer_torque_limits(new_steer,
self.apply_steer_last,
CS.out.steeringTorque,
param)
self.steer_rate_limited = new_steer != apply_steer
# disable if steer angle reach 90 deg, otherwise mdps fault in some models
if self.opkr_maxanglelimit >= 90 and not self.steer_wind_down_enabled:
lkas_active = enabled and abs(
CS.out.steeringAngleDeg
) < self.opkr_maxanglelimit and CS.out.gearShifter == GearShifter.drive
else:
lkas_active = enabled and not CS.out.steerWarning and CS.out.gearShifter == GearShifter.drive
if (
(CS.out.leftBlinker and not CS.out.rightBlinker) or
(CS.out.rightBlinker and not CS.out.leftBlinker)
) and CS.out.vEgo < LANE_CHANGE_SPEED_MIN and self.opkr_turnsteeringdisable:
self.lanechange_manual_timer = 50
if CS.out.leftBlinker and CS.out.rightBlinker:
self.emergency_manual_timer = 50
if self.lanechange_manual_timer:
lkas_active = 0
if self.lanechange_manual_timer > 0:
self.lanechange_manual_timer -= 1
if self.emergency_manual_timer > 0:
self.emergency_manual_timer -= 1
if abs(CS.out.steeringTorque
) > 180 and CS.out.vEgo < LANE_CHANGE_SPEED_MIN:
self.driver_steering_torque_above = True
else:
self.driver_steering_torque_above = False
if self.driver_steering_torque_above == True:
self.driver_steering_torque_above_timer -= 1
if self.driver_steering_torque_above_timer <= 0:
self.driver_steering_torque_above_timer = 0
elif self.driver_steering_torque_above == False:
self.driver_steering_torque_above_timer += 5
if self.driver_steering_torque_above_timer >= 100:
self.driver_steering_torque_above_timer = 100
if not lkas_active:
apply_steer = 0
if self.apply_steer_last != 0:
self.steer_wind_down = 1
if lkas_active or CS.out.steeringPressed:
self.steer_wind_down = 0
self.apply_accel_last = apply_accel
self.apply_steer_last = apply_steer
if CS.acc_active and CS.lead_distance > 149 and self.dRel < ((CS.out.vEgo * CV.MS_TO_KPH)+5) < 100 and \
self.vRel < -(CS.out.vEgo * CV.MS_TO_KPH * 0.16) and CS.out.vEgo > 7 and abs(CS.out.steeringAngleDeg) < 10 and not self.longcontrol:
self.need_brake_timer += 1
if self.need_brake_timer > 50:
self.need_brake = True
else:
self.need_brake = False
self.need_brake_timer = 0
sys_warning, sys_state, left_lane_warning, right_lane_warning =\
process_hud_alert(lkas_active, self.car_fingerprint, visual_alert,
left_lane, right_lane, left_lane_depart, right_lane_depart)
clu11_speed = CS.clu11["CF_Clu_Vanz"]
enabled_speed = 38 if CS.is_set_speed_in_mph else 60
if clu11_speed > enabled_speed or not lkas_active or CS.out.gearShifter != GearShifter.drive:
enabled_speed = clu11_speed
can_sends = []
can_sends.append(
create_lkas11(self.packer, frame, self.car_fingerprint,
apply_steer, lkas_active, self.steer_wind_down,
CS.lkas11, sys_warning, sys_state, enabled,
left_lane, right_lane, left_lane_warning,
right_lane_warning, 0, self.ldws_fix,
self.steer_wind_down_enabled))
if CS.CP.mdpsBus: # send lkas11 bus 1 if mdps is bus 1
can_sends.append(
create_lkas11(self.packer, frame, self.car_fingerprint,
apply_steer, lkas_active, self.steer_wind_down,
CS.lkas11, sys_warning, sys_state, enabled,
left_lane, right_lane, left_lane_warning,
right_lane_warning, 1, self.ldws_fix,
self.steer_wind_down_enabled))
if frame % 2: # send clu11 to mdps if it is not on bus 0
can_sends.append(
create_clu11(self.packer, frame, CS.clu11, Buttons.NONE,
enabled_speed, CS.CP.mdpsBus))
if CS.out.cruiseState.modeSel == 0 and self.mode_change_switch == 4:
self.mode_change_timer = 50
self.mode_change_switch = 0
elif CS.out.cruiseState.modeSel == 1 and self.mode_change_switch == 0:
self.mode_change_timer = 50
self.mode_change_switch = 1
elif CS.out.cruiseState.modeSel == 2 and self.mode_change_switch == 1:
self.mode_change_timer = 50
self.mode_change_switch = 2
elif CS.out.cruiseState.modeSel == 3 and self.mode_change_switch == 2:
self.mode_change_timer = 50
self.mode_change_switch = 3
elif CS.out.cruiseState.modeSel == 4 and self.mode_change_switch == 3:
self.mode_change_timer = 50
self.mode_change_switch = 4
if self.mode_change_timer > 0:
self.mode_change_timer -= 1
run_speed_ctrl = self.opkr_variablecruise and CS.acc_active and (
CS.out.cruiseState.modeSel > 0)
if not run_speed_ctrl:
if CS.out.cruiseState.modeSel == 0:
self.steer_mode = "오파모드"
elif CS.out.cruiseState.modeSel == 1:
self.steer_mode = "차간+커브"
elif CS.out.cruiseState.modeSel == 2:
self.steer_mode = "차간ONLY"
elif CS.out.cruiseState.modeSel == 3:
self.steer_mode = "편도1차선"
elif CS.out.cruiseState.modeSel == 4:
self.steer_mode = "맵감속ONLY"
if CS.out.steerWarning == 0:
self.mdps_status = "정상"
elif CS.out.steerWarning == 1:
self.mdps_status = "오류"
if CS.lkas_button_on == 0:
self.lkas_switch = "OFF"
elif CS.lkas_button_on == 1:
self.lkas_switch = "ON"
else:
self.lkas_switch = "-"
if self.cruise_gap != CS.cruiseGapSet:
self.cruise_gap = CS.cruiseGapSet
if CS.lead_distance < 149:
self.leadcar_status = "O"
else:
self.leadcar_status = "-"
str_log2 = 'MODE={:s} MDPS={:s} LKAS={:s} CSG={:1.0f} LEAD={:s} FR={:03.0f}'.format(self.steer_mode, \
self.mdps_status, self.lkas_switch, self.cruise_gap, self.leadcar_status, self.timer1.sampleTime())
trace1.printf2('{}'.format(str_log2))
if pcm_cancel_cmd and self.longcontrol:
can_sends.append(
create_clu11(self.packer, frame, CS.clu11, Buttons.CANCEL,
clu11_speed, CS.CP.sccBus))
if CS.out.cruiseState.standstill:
self.standstill_status = 1
if self.opkr_autoresume:
# run only first time when the car stopped
if self.last_lead_distance == 0:
# get the lead distance from the Radar
self.last_lead_distance = CS.lead_distance
self.resume_cnt = 0
self.res_switch_timer = 0
self.standstill_fault_reduce_timer += 1
elif self.res_switch_timer > 0:
self.res_switch_timer -= 1
self.standstill_fault_reduce_timer += 1
# at least 1 sec delay after entering the standstill
elif 100 < self.standstill_fault_reduce_timer and CS.lead_distance != self.last_lead_distance:
self.acc_standstill_timer = 0
self.acc_standstill = False
can_sends.append(create_clu11(self.packer, frame, CS.clu11, Buttons.RES_ACCEL)) if not self.longcontrol \
else can_sends.append(create_clu11(self.packer, frame, CS.clu11, Buttons.RES_ACCEL, clu11_speed, CS.CP.sccBus))
self.resume_cnt += 1
if self.resume_cnt > 5:
self.resume_cnt = 0
self.res_switch_timer = randint(10, 15)
self.standstill_fault_reduce_timer += 1
# gap save
elif 160 < self.standstill_fault_reduce_timer and self.cruise_gap_prev == 0 and self.opkr_autoresume and self.opkr_cruisegap_auto_adj:
self.cruise_gap_prev = CS.cruiseGapSet
self.cruise_gap_set_init = 1
# gap adjust to 1 for fast start
elif 160 < self.standstill_fault_reduce_timer and CS.cruiseGapSet != 1.0 and self.opkr_autoresume and self.opkr_cruisegap_auto_adj:
self.cruise_gap_switch_timer += 1
if self.cruise_gap_switch_timer > 100:
can_sends.append(create_clu11(self.packer, frame, CS.clu11, Buttons.GAP_DIST)) if not self.longcontrol \
else can_sends.append(create_clu11(self.packer, frame, CS.clu11, Buttons.GAP_DIST, clu11_speed, CS.CP.sccBus))
self.cruise_gap_switch_timer = 0
elif self.opkr_autoresume:
self.standstill_fault_reduce_timer += 1
# reset lead distnce after the car starts moving
elif self.last_lead_distance != 0:
self.last_lead_distance = 0
elif run_speed_ctrl:
is_sc_run = self.SC.update(CS, sm, self)
if is_sc_run:
can_sends.append(create_clu11(self.packer, self.resume_cnt, CS.clu11, self.SC.btn_type, self.SC.sc_clu_speed)) if not self.longcontrol \
else can_sends.append(create_clu11(self.packer, self.resume_cnt, CS.clu11, self.SC.btn_type, self.SC.sc_clu_speed, CS.CP.sccBus))
self.resume_cnt += 1
else:
self.resume_cnt = 0
if self.opkr_cruisegap_auto_adj:
# gap restore
if self.dRel > 17 and self.vRel < 5 and self.cruise_gap_prev != CS.cruiseGapSet and self.cruise_gap_set_init == 1 and self.opkr_autoresume:
self.cruise_gap_switch_timer += 1
if self.cruise_gap_switch_timer > 50:
can_sends.append(create_clu11(self.packer, frame, CS.clu11, Buttons.GAP_DIST)) if not self.longcontrol \
else can_sends.append(create_clu11(self.packer, frame, CS.clu11, Buttons.GAP_DIST, clu11_speed, CS.CP.sccBus))
self.cruise_gap_switch_timer = 0
elif self.cruise_gap_prev == CS.cruiseGapSet and self.opkr_autoresume:
self.cruise_gap_set_init = 0
self.cruise_gap_prev = 0
if CS.cruise_buttons == 4:
self.cancel_counter += 1
elif CS.acc_active:
self.cancel_counter = 0
if self.res_speed_timer > 0:
self.res_speed_timer -= 1
else:
self.v_cruise_kph_auto_res = 0
self.res_speed = 0
if self.model_speed > 95 and self.cancel_counter == 0 and not CS.acc_active and not CS.out.brakeLights and int(CS.VSetDis) > 30 and \
(CS.lead_distance < 149 or int(CS.clu_Vanz) > 30) and int(CS.clu_Vanz) >= 3 and self.auto_res_timer <= 0 and self.opkr_cruise_auto_res:
if self.opkr_cruise_auto_res_option == 0:
can_sends.append(create_clu11(self.packer, frame, CS.clu11, Buttons.RES_ACCEL)) if not self.longcontrol \
else can_sends.append(create_clu11(self.packer, frame, CS.clu11, Buttons.RES_ACCEL, clu11_speed, CS.CP.sccBus)) # auto res
self.res_speed = int(CS.clu_Vanz * 1.1)
self.res_speed_timer = 350
elif self.opkr_cruise_auto_res_option == 1:
can_sends.append(create_clu11(self.packer, frame, CS.clu11, Buttons.SET_DECEL)) if not self.longcontrol \
else can_sends.append(create_clu11(self.packer, frame, CS.clu11, Buttons.SET_DECEL, clu11_speed, CS.CP.sccBus)) # auto res but set_decel to set current speed
self.v_cruise_kph_auto_res = int(CS.clu_Vanz)
self.res_speed_timer = 50
if self.auto_res_timer <= 0:
self.auto_res_timer = randint(10, 15)
elif self.auto_res_timer > 0 and self.opkr_cruise_auto_res:
self.auto_res_timer -= 1
if CS.out.brakeLights and CS.out.vEgo == 0 and not CS.acc_active:
self.standstill_status_timer += 1
if self.standstill_status_timer > 200:
self.standstill_status = 1
self.standstill_status_timer = 0
if self.standstill_status == 1 and CS.out.vEgo > 1:
self.standstill_status = 0
self.standstill_fault_reduce_timer = 0
self.last_resume_frame = frame
self.res_switch_timer = 0
self.resume_cnt = 0
if CS.out.vEgo <= 1:
self.sm.update(0)
long_control_state = self.sm['controlsState'].longControlState
if long_control_state == LongCtrlState.stopping and CS.out.vEgo < 0.1 and not CS.out.gasPressed:
self.acc_standstill_timer += 1
if self.acc_standstill_timer >= 200:
self.acc_standstill_timer = 200
self.acc_standstill = True
else:
self.acc_standstill_timer = 0
self.acc_standstill = False
elif CS.out.gasPressed or CS.out.vEgo > 1:
self.acc_standstill = False
self.acc_standstill_timer = 0
else:
self.acc_standstill = False
self.acc_standstill_timer = 0
if CS.CP.mdpsBus: # send mdps12 to LKAS to prevent LKAS error
can_sends.append(create_mdps12(self.packer, frame, CS.mdps12))
if CS.CP.sccBus != 0 and self.counter_init and self.longcontrol:
if frame % 2 == 0:
self.scc12cnt += 1
self.scc12cnt %= 0xF
self.scc11cnt += 1
self.scc11cnt %= 0x10
self.fca11supcnt += 1
self.fca11supcnt %= 0xF
if self.fca11alivecnt == 1:
self.fca11inc = 0
if self.fca11cnt13 == 3:
self.fca11maxcnt = 0x9
self.fca11cnt13 = 0
else:
self.fca11maxcnt = 0xD
self.fca11cnt13 += 1
else:
self.fca11inc += 4
self.fca11alivecnt = self.fca11maxcnt - self.fca11inc
lead_objspd = CS.lead_objspd # vRel (km/h)
aReqValue = CS.scc12["aReqValue"]
if 0 < CS.out.radarDistance <= 149:
if aReqValue > 0.:
stock_weight = interp(CS.out.radarDistance, [3., 25.],
[0.8, 0.])
elif aReqValue < 0.:
stock_weight = interp(CS.out.radarDistance, [3., 25.],
[1., 0.])
if lead_objspd < 0:
vRel_weight = interp(abs(lead_objspd), [0, 25],
[1, 2])
stock_weight = interp(
CS.out.radarDistance,
[3.**vRel_weight, 25. * vRel_weight], [1., 0.])
else:
stock_weight = 0.
apply_accel = apply_accel * (
1. - stock_weight) + aReqValue * stock_weight
else:
stock_weight = 0.
can_sends.append(
create_scc11(self.packer, frame, set_speed, lead_visible,
self.scc_live, lead_dist, lead_vrel,
lead_yrel, self.car_fingerprint,
CS.out.vEgo * CV.MS_TO_KPH,
self.acc_standstill, CS.scc11))
if (CS.brake_check
or CS.cancel_check) and self.car_fingerprint not in [
CAR.NIRO_EV
]:
can_sends.append(
create_scc12(self.packer, apply_accel, enabled,
self.scc_live, CS.out.gasPressed, 1,
CS.out.stockAeb, self.car_fingerprint,
CS.out.vEgo * CV.MS_TO_KPH, CS.scc12))
else:
can_sends.append(
create_scc12(self.packer, apply_accel, enabled,
self.scc_live, CS.out.gasPressed,
CS.out.brakePressed, CS.out.stockAeb,
self.car_fingerprint,
CS.out.vEgo * CV.MS_TO_KPH, CS.scc12))
can_sends.append(
create_scc14(self.packer, enabled, CS.scc14,
CS.out.stockAeb, lead_visible, lead_dist,
CS.out.vEgo, self.acc_standstill,
self.car_fingerprint))
if CS.CP.fcaBus == -1:
can_sends.append(
create_fca11(self.packer, CS.fca11, self.fca11alivecnt,
self.fca11supcnt))
if frame % 20 == 0:
can_sends.append(create_scc13(self.packer, CS.scc13))
if CS.CP.fcaBus == -1:
can_sends.append(create_fca12(self.packer))
if frame % 50 == 0:
can_sends.append(create_scc42a(self.packer))
elif CS.CP.sccBus == 2 and self.longcontrol:
self.counter_init = True
self.scc12cnt = CS.scc12init["CR_VSM_Alive"]
self.scc11cnt = CS.scc11init["AliveCounterACC"]
self.fca11alivecnt = CS.fca11init["CR_FCA_Alive"]
self.fca11supcnt = CS.fca11init["Supplemental_Counter"]
aq_value = CS.scc12["aReqValue"] if CS.CP.sccBus == 0 else apply_accel
if self.apks_enabled:
str_log1 = 'M/C={:03.0f}/{:03.0f} TQ={:03.0f} ST={:03.0f}/{:01.0f}/{:01.0f} AQ={:+04.2f}'.format(abs(self.model_speed), self.curve_speed, \
abs(new_steer), max(self.steerMax, abs(new_steer)), self.steerDeltaUp, self.steerDeltaDown, aq_value)
else:
str_log1 = 'M/C={:03.0f}/{:03.0f} TQ={:03.0f} ST={:03.0f}/{:01.0f}/{:01.0f} AQ={:+04.2f} S={:.0f}/{:.0f}'.format(abs(self.model_speed), self.curve_speed, \
abs(new_steer), max(self.steerMax, abs(new_steer)), self.steerDeltaUp, self.steerDeltaDown, aq_value, int(CS.is_highway), CS.safety_sign_check)
trace1.printf1('{} {}'.format(str_log1, self.str_log2))
# 20 Hz LFA MFA message
if frame % 5 == 0 and self.car_fingerprint in FEATURES[
"send_lfahda_mfa"]:
can_sends.append(create_lfahda_mfc(self.packer, frame,
lkas_active))
return can_sends
def update(self, enabled, CS, frame, actuators, pcm_cancel_cmd,
visual_alert, left_lane, right_lane, left_lane_depart,
right_lane_depart, set_speed, lead_visible):
# *** compute control surfaces ***
# gas and brake
apply_accel = actuators.gas - actuators.brake
apply_accel, self.accel_steady = accel_hysteresis(
apply_accel, self.accel_steady)
apply_accel = clip(apply_accel * ACCEL_SCALE, ACCEL_MIN, ACCEL_MAX)
# Steering Torque
new_steer = actuators.steer * SteerLimitParams.STEER_MAX
apply_steer = apply_std_steer_torque_limits(new_steer,
self.apply_steer_last,
CS.out.steeringTorque,
SteerLimitParams)
self.steer_rate_limited = new_steer != apply_steer
# SPAS limit angle extremes for safety
if CS.spas_enabled:
apply_steer_ang_req = clip(actuators.steerAngle,
-1 * (STEER_ANG_MAX), STEER_ANG_MAX)
# SPAS limit angle rate for safety
if abs(self.apply_steer_ang -
apply_steer_ang_req) > STEER_ANG_MAX_RATE:
if apply_steer_ang_req > self.apply_steer_ang:
self.apply_steer_ang += STEER_ANG_MAX_RATE
else:
self.apply_steer_ang -= STEER_ANG_MAX_RATE
else:
self.apply_steer_ang = apply_steer_ang_req
spas_active = CS.spas_enabled and enabled and (
self.spas_always or CS.out.vEgo < 7.0) # 25km/h
# disable if steer angle reach 90 deg, otherwise mdps fault in some models
# temporarily disable steering when LKAS button off
lkas_active = enabled and abs(
CS.out.steeringAngle
) < 90. and self.lkas_button_on and not spas_active
# fix for Genesis hard fault at low speed
if CS.out.vEgo < 60 * CV.KPH_TO_MS and self.car_fingerprint == CAR.HYUNDAI_GENESIS and not CS.mdps_bus:
lkas_active = False
# Disable steering while turning blinker on and speed below 60 kph
if CS.out.leftBlinker or CS.out.rightBlinker:
if self.car_fingerprint not in [CAR.KIA_OPTIMA, CAR.KIA_OPTIMA_H]:
self.turning_signal_timer = 100 # Disable for 1.0 Seconds after blinker turned off
elif CS.left_blinker_flash or CS.right_blinker_flash: # Optima has blinker flash signal only
self.turning_signal_timer = 100
if self.turning_indicator_alert: # set and clear by interface
lkas_active = 0
if self.turning_signal_timer > 0:
self.turning_signal_timer -= 1
if not lkas_active:
apply_steer = 0
self.apply_accel_last = apply_accel
self.apply_steer_last = apply_steer
sys_warning, sys_state, left_lane_warning, right_lane_warning =\
process_hud_alert(lkas_active, self.car_fingerprint, visual_alert,
left_lane, right_lane, left_lane_depart, right_lane_depart,
self.lkas_button_on)
clu11_speed = CS.clu11["CF_Clu_Vanz"]
enabled_speed = 38 if CS.is_set_speed_in_mph else 60
if clu11_speed > enabled_speed or not lkas_active:
enabled_speed = clu11_speed
if not (min_set_speed < set_speed < 255 * CV.KPH_TO_MS):
set_speed = min_set_speed
set_speed *= CV.MS_TO_MPH if CS.is_set_speed_in_mph else CV.MS_TO_KPH
if frame == 0: # initialize counts from last received count signals
self.lkas11_cnt = CS.lkas11["CF_Lkas_MsgCount"]
self.scc12_cnt = CS.scc12[
"CR_VSM_Alive"] + 1 if not CS.no_radar else 0
#TODO: fix this
# self.prev_scc_cnt = CS.scc11["AliveCounterACC"]
# self.scc_update_frame = frame
# check if SCC is alive
# if frame % 7 == 0:
# if CS.scc11["AliveCounterACC"] == self.prev_scc_cnt:
# if frame - self.scc_update_frame > 20 and self.scc_live:
# self.scc_live = False
# else:
# self.scc_live = True
# self.prev_scc_cnt = CS.scc11["AliveCounterACC"]
# self.scc_update_frame = frame
self.prev_scc_cnt = CS.scc11["AliveCounterACC"]
self.lkas11_cnt = (self.lkas11_cnt + 1) % 0x10
self.scc12_cnt %= 0xF
can_sends = []
can_sends.append(
create_lkas11(self.packer, frame, self.car_fingerprint,
apply_steer, lkas_active, CS.lkas11, sys_warning,
sys_state, enabled, left_lane, right_lane,
left_lane_warning, right_lane_warning, 0))
if CS.mdps_bus or CS.scc_bus == 1: # send lkas11 bus 1 if mdps or scc is on bus 1
can_sends.append(
create_lkas11(self.packer, frame, self.car_fingerprint,
apply_steer, lkas_active, CS.lkas11, sys_warning,
sys_state, enabled, left_lane, right_lane,
left_lane_warning, right_lane_warning, 1))
if frame % 2 and CS.mdps_bus: # send clu11 to mdps if it is not on bus 0
can_sends.append(
create_clu11(self.packer, frame, CS.mdps_bus, CS.clu11,
Buttons.NONE, enabled_speed))
if pcm_cancel_cmd and self.longcontrol:
can_sends.append(
create_clu11(self.packer, frame, CS.scc_bus, CS.clu11,
Buttons.CANCEL, clu11_speed))
elif CS.out.cruiseState.standstill:
# SCC won't resume anyway when the lead distace is less than 3.7m
# send resume at a max freq of 5Hz
if CS.lead_distance > 3.7 and (
frame - self.last_resume_frame) * DT_CTRL > 0.2:
can_sends.append(
create_clu11(self.packer, frame, CS.scc_bus, CS.clu11,
Buttons.RES_ACCEL, clu11_speed))
self.last_resume_frame = frame
if CS.mdps_bus: # send mdps12 to LKAS to prevent LKAS error
can_sends.append(create_mdps12(self.packer, frame, CS.mdps12))
# send scc to car if longcontrol enabled and SCC not on bus 0 or ont live
if self.longcontrol and (CS.scc_bus
or not self.scc_live) and frame % 2 == 0:
can_sends.append(
create_scc12(self.packer, apply_accel, enabled, self.scc12_cnt,
self.scc_live, CS.scc12))
can_sends.append(
create_scc11(self.packer, frame, enabled, set_speed,
lead_visible, self.scc_live, CS.scc11))
if CS.has_scc13 and frame % 20 == 0:
can_sends.append(create_scc13(self.packer, CS.scc13))
if CS.has_scc14:
can_sends.append(create_scc14(self.packer, enabled, CS.scc14))
self.scc12_cnt += 1
# 20 Hz LFA MFA message
if frame % 5 == 0 and self.car_fingerprint in FEATURES["send_lfa_mfa"]:
can_sends.append(create_lfa_mfa(self.packer, frame, lkas_active))
if CS.spas_enabled:
if CS.mdps_bus:
can_sends.append(
create_ems11(self.packer, CS.ems11, spas_active))
# SPAS11 50hz
if (frame % 2) == 0:
if CS.mdps11_stat == 7 and not self.mdps11_stat_last == 7:
self.en_spas == 7
self.en_cnt = 0
if self.en_spas == 7 and self.en_cnt >= 8:
self.en_spas = 3
self.en_cnt = 0
if self.en_cnt < 8 and spas_active:
self.en_spas = 4
elif self.en_cnt >= 8 and spas_active:
self.en_spas = 5
if not spas_active:
self.apply_steer_ang = CS.mdps11_strang
self.en_spas = 3
self.en_cnt = 0
self.mdps11_stat_last = CS.mdps11_stat
self.en_cnt += 1
can_sends.append(
create_spas11(self.packer, self.car_fingerprint,
(frame // 2), self.en_spas,
self.apply_steer_ang, CS.mdps_bus))
# SPAS12 20Hz
if (frame % 5) == 0:
can_sends.append(create_spas12(CS.mdps_bus))
# DIY cruise speed code
sm.update(0)
lead_data = sm['radarState'].leadOne
lead_one = sm['radarState'].leadOne
lead_two = sm['radarState'].leadTwo
if lead_one.status == True:
lead_data = lead_one
if lead_two.status == True and ((lead_one.dRel - lead_two.dRel) > 3.0):
lead_data = lead_two
lead_rel_dist = lead_data.dRel
lead_rel_vel = lead_data.vRel
lead_vel = lead_data.vLead
cruise_curr_set_speed = CS.out.cruiseState.speed #currently set cruise speed in m/s
d_cru_vego = 1.11 #4km/h diff between cruise/realspeed #cruise_curr_set_speed - CS.out.vEgo
min_dist = 10. #min dist to lead car to engage in meters
max_dist = 300. #max dist to lead car to disable acceleration and allow only deceleration
max_cru_speed = 36.11 #limit set max cruise speed to 130km/h
press_button_speed = 40 #press buttons at 400 milliseconds interval
if (
cruise_curr_set_speed - lead_vel
) > 8.33: #>30km/h faster button presses on deceleration and big cruise speed gap
press_button_speed = 5
elif (cruise_curr_set_speed - lead_vel) > 5.55: #>20km/h
press_button_speed = 10
elif (cruise_curr_set_speed - lead_vel) > 2.77: #>10km/h
press_button_speed = 20
if lead_vel > (
cruise_curr_set_speed - d_cru_vego
) and lead_rel_dist > 0. and cruise_curr_set_speed < max_cru_speed and (
frame % press_button_speed == 0
or frame % press_button_speed == 1):
if not CS.out.cruiseState.available: #prevent pressing up and resume prev speed
can_sends.append(
create_clu11(self.packer, frame, 0, CS.clu11,
Buttons.SET_DECEL, clu11_speed)) #button down
elif lead_rel_dist > min_dist and lead_rel_dist < max_dist:
can_sends.append(
create_clu11(self.packer, frame, 0, CS.clu11,
Buttons.RES_ACCEL, clu11_speed)) #button up
elif lead_vel < (cruise_curr_set_speed -
d_cru_vego) and lead_rel_dist > 0. and (
frame % press_button_speed == 0
or frame % press_button_speed == 1):
can_sends.append(
create_clu11(self.packer, frame, 0, CS.clu11,
Buttons.SET_DECEL, clu11_speed)) #button down
return can_sends
def update(self, enabled, CS, frame, actuators, pcm_cancel_cmd, visual_alert, hud_speed,
left_lane, right_lane, left_lane_depart, right_lane_depart):
# Steering Torque
new_steer = int(round(actuators.steer * self.p.STEER_MAX))
apply_steer = apply_std_steer_torque_limits(new_steer, self.apply_steer_last, CS.out.steeringTorque, self.p)
self.steer_rate_limited = new_steer != apply_steer
# disable when temp fault is active, or below LKA minimum speed
lkas_active = enabled and not CS.out.steerWarning and CS.out.vEgo >= CS.CP.minSteerSpeed
if not lkas_active:
apply_steer = 0
self.apply_steer_last = apply_steer
sys_warning, sys_state, left_lane_warning, right_lane_warning = \
process_hud_alert(enabled, self.car_fingerprint, visual_alert,
left_lane, right_lane, left_lane_depart, right_lane_depart)
can_sends = []
# tester present - w/ no response (keeps radar disabled)
if CS.CP.openpilotLongitudinalControl:
if (frame % 100) == 0:
can_sends.append([0x7D0, 0, b"\x02\x3E\x80\x00\x00\x00\x00\x00", 0])
can_sends.append(create_lkas11(self.packer, frame, self.car_fingerprint, apply_steer, lkas_active,
CS.lkas11, sys_warning, sys_state, enabled,
left_lane, right_lane,
left_lane_warning, right_lane_warning))
if not CS.CP.openpilotLongitudinalControl:
if pcm_cancel_cmd:
can_sends.append(create_clu11(self.packer, frame, CS.clu11, Buttons.CANCEL))
elif CS.out.cruiseState.standstill:
# send resume at a max freq of 10Hz
if (frame - self.last_resume_frame) * DT_CTRL > 0.1:
# send 25 messages at a time to increases the likelihood of resume being accepted
can_sends.extend([create_clu11(self.packer, frame, CS.clu11, Buttons.RES_ACCEL)] * 25)
self.last_resume_frame = frame
if frame % 2 == 0 and CS.CP.openpilotLongitudinalControl:
lead_visible = False
accel = actuators.accel if enabled else 0
jerk = clip(2.0 * (accel - CS.out.aEgo), -12.7, 12.7)
if accel < 0:
accel = interp(accel - CS.out.aEgo, [-1.0, -0.5], [2 * accel, accel])
accel = clip(accel, CarControllerParams.ACCEL_MIN, CarControllerParams.ACCEL_MAX)
stopping = (actuators.longControlState == LongCtrlState.stopping)
set_speed_in_units = hud_speed * (CV.MS_TO_MPH if CS.clu11["CF_Clu_SPEED_UNIT"] == 1 else CV.MS_TO_KPH)
can_sends.extend(create_acc_commands(self.packer, enabled, accel, jerk, int(frame / 2), lead_visible, set_speed_in_units, stopping))
self.accel = accel
# 20 Hz LFA MFA message
if frame % 5 == 0 and self.car_fingerprint in [CAR.SONATA, CAR.PALISADE, CAR.IONIQ, CAR.KIA_NIRO_EV, CAR.KIA_NIRO_HEV_2021,
CAR.IONIQ_EV_2020, CAR.IONIQ_PHEV, CAR.KIA_CEED, CAR.KIA_SELTOS, CAR.KONA_EV,
CAR.ELANTRA_2021, CAR.ELANTRA_HEV_2021, CAR.SONATA_HYBRID, CAR.KONA_HEV, CAR.SANTA_FE_2022,
CAR.KIA_K5_2021, CAR.IONIQ_HEV_2022, CAR.SANTA_FE_HEV_2022, CAR.GENESIS_G70_2020]:
can_sends.append(create_lfahda_mfc(self.packer, enabled))
# 5 Hz ACC options
if frame % 20 == 0 and CS.CP.openpilotLongitudinalControl:
can_sends.extend(create_acc_opt(self.packer))
# 2 Hz front radar options
if frame % 50 == 0 and CS.CP.openpilotLongitudinalControl:
can_sends.append(create_frt_radar_opt(self.packer))
new_actuators = actuators.copy()
new_actuators.steer = apply_steer / self.p.STEER_MAX
new_actuators.accel = self.accel
return new_actuators, can_sends
def update(self, enabled, CS, frame, CC, actuators, pcm_cancel_cmd,
visual_alert, left_lane, right_lane, left_lane_depart,
right_lane_depart, set_speed, lead_visible, sm):
# *** compute control surfaces ***
# gas and brake
apply_accel = actuators.gas - actuators.brake
apply_accel, self.accel_steady = accel_hysteresis(
apply_accel, self.accel_steady)
apply_accel = clip(apply_accel * ACCEL_SCALE, ACCEL_MIN, ACCEL_MAX)
param = self.p
self.model_speed, self.model_sum = self.SC.calc_va(sm, CS.out.vEgo)
plan = sm['plan']
self.dRel = int(plan.dRel1) #EON Lead
self.yRel = int(plan.yRel1) #EON Lead
self.vRel = int(plan.vRel1 * 3.6 + 0.5) #EON Lead
self.dRel2 = int(plan.dRel2) #EON Lead
self.yRel2 = int(plan.yRel2) #EON Lead
self.vRel2 = int(plan.vRel2 * 3.6 + 0.5) #EON Lead
self.lead2_status = plan.status2
self.target_map_speed = plan.targetSpeed
self.target_map_speed_camera = plan.targetSpeedCamera
self.accActive = CS.acc_active
path_plan = sm['pathPlan']
self.outScale = path_plan.outputScale
self.vCruiseSet = path_plan.vCruiseSet
self.angle_steers_des = path_plan.angleSteers - path_plan.angleOffset
self.angle_steers = CS.out.steeringAngle
self.angle_diff = abs(self.angle_steers_des) - abs(self.angle_steers)
if abs(self.outScale) >= 1 and CS.out.vEgo > 8:
self.steerMax_prev = interp(self.angle_diff,
self.angle_differ_range,
self.steerMax_range)
if self.steerMax_prev > self.steerMax:
self.steerMax = self.steerMax_prev
self.steerDeltaUp_prev = interp(self.angle_diff,
self.angle_differ_range,
self.steerDeltaUp_range)
if self.steerDeltaUp_prev > self.steerDeltaUp:
self.steerDeltaUp = self.steerDeltaUp_prev
self.steerDeltaDown_prev = interp(self.angle_diff,
self.angle_differ_range,
self.steerDeltaDown_range)
if self.steerDeltaDown_prev > self.steerDeltaDown:
self.steerDeltaDown = self.steerDeltaDown_prev
#if abs(self.outScale) >= 0.9 and CS.out.vEgo > 8:
# self.steerMax_timer += 1
# self.steerDeltaUp_timer += 1
# self.steerDeltaDown_timer += 1
# if self.steerMax_timer > 5:
# self.steerMax += int(CS.out.vEgo//2)
# self.steerMax_timer = 0
# if self.steerMax >= int(self.params.get('SteerMaxAdj')):
# self.steerMax = int(self.params.get('SteerMaxAdj'))
# if self.steerDeltaUp_timer > 50:
# self.steerDeltaUp += 1
# self.steerDeltaUp_timer = 0
# if self.steerDeltaUp >= 7:
# self.steerDeltaUp = 7
# if self.steerDeltaDown_timer > 25:
# self.steerDeltaDown += 1
# self.steerDeltaDown_timer = 0
# if self.steerDeltaDown >= 15:
# self.steerDeltaDown = 15
else:
self.steerMax_timer += 1
self.steerDeltaUp_timer += 1
self.steerDeltaDown_timer += 1
if self.steerMax_timer > 20:
self.steerMax -= 5
self.steerMax_timer = 0
if self.steerMax < int(self.params.get('SteerMaxBaseAdj')):
self.steerMax = int(self.params.get('SteerMaxBaseAdj'))
if self.steerDeltaUp_timer > 100:
self.steerDeltaUp -= 1
self.steerDeltaUp_timer = 0
if self.steerDeltaUp <= int(
self.params.get('SteerDeltaUpAdj')):
self.steerDeltaUp = int(self.params.get('SteerDeltaUpAdj'))
if self.steerDeltaDown_timer > 50:
self.steerDeltaDown -= 1
self.steerDeltaDown_timer = 0
if self.steerDeltaDown <= int(
self.params.get('SteerDeltaDownAdj')):
self.steerDeltaDown = int(
self.params.get('SteerDeltaDownAdj'))
param.STEER_MAX = min(SteerLimitParams.STEER_MAX, self.steerMax)
param.STEER_DELTA_UP = max(int(self.params.get('SteerDeltaUpAdj')),
self.steerDeltaUp)
param.STEER_DELTA_DOWN = max(int(self.params.get('SteerDeltaDownAdj')),
self.steerDeltaDown)
# Steering Torque
if 0 <= self.driver_steering_torque_above_timer < 100:
new_steer = actuators.steer * self.steerMax * (
self.driver_steering_torque_above_timer / 100)
else:
new_steer = actuators.steer * self.steerMax
apply_steer = apply_std_steer_torque_limits(new_steer,
self.apply_steer_last,
CS.out.steeringTorque,
param)
self.steer_rate_limited = new_steer != apply_steer
CC.applyAccel = apply_accel
CC.applySteer = apply_steer
# SPAS limit angle extremes for safety
if CS.spas_enabled:
apply_steer_ang_req = clip(actuators.steerAngle,
-1 * (STEER_ANG_MAX), STEER_ANG_MAX)
# SPAS limit angle rate for safety
if abs(self.apply_steer_ang -
apply_steer_ang_req) > STEER_ANG_MAX_RATE:
if apply_steer_ang_req > self.apply_steer_ang:
self.apply_steer_ang += STEER_ANG_MAX_RATE
else:
self.apply_steer_ang -= STEER_ANG_MAX_RATE
else:
self.apply_steer_ang = apply_steer_ang_req
spas_active = CS.spas_enabled and enabled and (
self.spas_always or CS.out.vEgo < 7.0) # 25km/h
# disable if steer angle reach 90 deg, otherwise mdps fault in some models
if self.opkr_maxanglelimit >= 90:
lkas_active = enabled and abs(
CS.out.steeringAngle
) < self.opkr_maxanglelimit and not spas_active
else:
lkas_active = enabled and not spas_active
if ((CS.out.leftBlinker and not CS.out.rightBlinker) or
(CS.out.rightBlinker and
not CS.out.leftBlinker)) and CS.out.vEgo < LANE_CHANGE_SPEED_MIN:
self.lanechange_manual_timer = 50
if CS.out.leftBlinker and CS.out.rightBlinker:
self.emergency_manual_timer = 50
if self.lanechange_manual_timer:
lkas_active = 0
if self.lanechange_manual_timer > 0:
self.lanechange_manual_timer -= 1
if self.emergency_manual_timer > 0:
self.emergency_manual_timer -= 1
if abs(CS.out.steeringTorque
) > 200 and CS.out.vEgo < LANE_CHANGE_SPEED_MIN:
self.driver_steering_torque_above = True
else:
self.driver_steering_torque_above = False
if self.driver_steering_torque_above == True:
self.driver_steering_torque_above_timer -= 1
if self.driver_steering_torque_above_timer <= 0:
self.driver_steering_torque_above_timer = 0
elif self.driver_steering_torque_above == False:
self.driver_steering_torque_above_timer += 5
if self.driver_steering_torque_above_timer >= 100:
self.driver_steering_torque_above_timer = 100
if not lkas_active:
apply_steer = 0
self.apply_accel_last = apply_accel
self.apply_steer_last = apply_steer
if CS.acc_active and CS.lead_distance > 149 and self.dRel < (
(CS.out.vEgo * CV.MS_TO_KPH) +
3) and self.vRel < -5 and CS.out.vEgo > 7:
self.need_brake_timer += 1
if self.need_brake_timer > 50:
self.need_brake = True
else:
self.need_brake = False
self.need_brake_timer = 0
sys_warning, sys_state, left_lane_warning, right_lane_warning =\
process_hud_alert(lkas_active, self.car_fingerprint, visual_alert,
left_lane, right_lane, left_lane_depart, right_lane_depart,
self.lkas_button_on)
clu11_speed = CS.clu11["CF_Clu_Vanz"]
enabled_speed = 38 if CS.is_set_speed_in_mph else 55
if clu11_speed > enabled_speed or not lkas_active:
enabled_speed = clu11_speed
if not (min_set_speed < set_speed < 255 * CV.KPH_TO_MS):
set_speed = min_set_speed
set_speed *= CV.MS_TO_MPH if CS.is_set_speed_in_mph else CV.MS_TO_KPH
if frame == 0: # initialize counts from last received count signals
self.lkas11_cnt = CS.lkas11["CF_Lkas_MsgCount"]
self.scc12_cnt = CS.scc12[
"CR_VSM_Alive"] + 1 if not CS.no_radar else 0
#TODO: fix this
# self.prev_scc_cnt = CS.scc11["AliveCounterACC"]
# self.scc_update_frame = frame
# check if SCC is alive
# if frame % 7 == 0:
# if CS.scc11["AliveCounterACC"] == self.prev_scc_cnt:
# if frame - self.scc_update_frame > 20 and self.scc_live:
# self.scc_live = False
# else:
# self.scc_live = True
# self.prev_scc_cnt = CS.scc11["AliveCounterACC"]
# self.scc_update_frame = frame
self.prev_scc_cnt = CS.scc11["AliveCounterACC"]
self.lkas11_cnt = (self.lkas11_cnt + 1) % 0x10
self.scc12_cnt %= 0xF
can_sends = []
can_sends.append(
create_lkas11(self.packer, frame, self.car_fingerprint,
apply_steer, lkas_active, CS.lkas11, sys_warning,
sys_state, enabled, left_lane, right_lane,
left_lane_warning, right_lane_warning, 0))
if CS.mdps_bus or CS.scc_bus == 1: # send lkas11 bus 1 if mdps or scc is on bus 1
can_sends.append(
create_lkas11(self.packer, frame, self.car_fingerprint,
apply_steer, lkas_active, CS.lkas11, sys_warning,
sys_state, enabled, left_lane, right_lane,
left_lane_warning, right_lane_warning, 1))
if frame % 2 and CS.mdps_bus: # send clu11 to mdps if it is not on bus 0
can_sends.append(
create_clu11(self.packer, frame, CS.mdps_bus, CS.clu11,
Buttons.NONE, enabled_speed))
str_log1 = 'CV={:03.0f} TQ={:03.0f} R={:03.0f} ST={:03.0f}/{:01.0f}/{:01.0f}'.format(
abs(self.model_speed), abs(new_steer), self.timer1.sampleTime(),
self.steerMax, self.steerDeltaUp, self.steerDeltaDown)
trace1.printf1('{} {}'.format(str_log1, self.str_log2))
if CS.out.cruiseState.modeSel == 0 and self.mode_change_switch == 3:
self.mode_change_timer = 50
self.mode_change_switch = 0
elif CS.out.cruiseState.modeSel == 1 and self.mode_change_switch == 0:
self.mode_change_timer = 50
self.mode_change_switch = 1
elif CS.out.cruiseState.modeSel == 2 and self.mode_change_switch == 1:
self.mode_change_timer = 50
self.mode_change_switch = 2
elif CS.out.cruiseState.modeSel == 3 and self.mode_change_switch == 2:
self.mode_change_timer = 50
self.mode_change_switch = 3
if self.mode_change_timer > 0:
self.mode_change_timer -= 1
run_speed_ctrl = self.opkr_variablecruise and CS.acc_active and (
CS.out.cruiseState.modeSel == 1 or CS.out.cruiseState.modeSel == 2
or CS.out.cruiseState.modeSel == 3)
if not run_speed_ctrl:
if CS.out.cruiseState.modeSel == 0:
self.steer_mode = "오파모드"
elif CS.out.cruiseState.modeSel == 1:
self.steer_mode = "차간+커브"
elif CS.out.cruiseState.modeSel == 2:
self.steer_mode = "차간ONLY"
elif CS.out.cruiseState.modeSel == 3:
self.steer_mode = "편도1차선"
if CS.out.steerWarning == 0:
self.mdps_status = "정상"
elif CS.out.steerWarning == 1:
self.mdps_status = "오류"
if CS.lkas_button_on == 0:
self.lkas_switch = "OFF"
elif CS.lkas_button_on == 1:
self.lkas_switch = "ON"
else:
self.lkas_switch = "-"
if self.cruise_gap != CS.cruiseGapSet:
self.cruise_gap = CS.cruiseGapSet
if CS.lead_distance < 149:
self.leadcar_status = "O"
else:
self.leadcar_status = "-"
str_log2 = 'MODE={:s} MDPS={:s} LKAS={:s} CSG={:1.0f} LEAD={:s}'.format(
self.steer_mode, self.mdps_status, self.lkas_switch,
self.cruise_gap, self.leadcar_status)
trace1.printf2('{}'.format(str_log2))
if pcm_cancel_cmd and self.longcontrol:
can_sends.append(
create_clu11(self.packer, frame, CS.scc_bus, CS.clu11,
Buttons.CANCEL, clu11_speed))
if CS.out.cruiseState.standstill:
self.standstill_status = 1
if self.opkr_autoresumeoption == 1 and self.opkr_autoresume:
# run only first time when the car stopped
if self.last_lead_distance == 0:
# get the lead distance from the Radar
self.last_lead_distance = CS.lead_distance
self.resume_cnt = 0
self.res_switch_timer = 0
self.standstill_fault_reduce_timer += 1
elif self.res_switch_timer > 0:
self.res_switch_timer -= 1
self.standstill_fault_reduce_timer += 1
# standstill 진입하자마자 바로 누르지 말고 최소 1초의 딜레이를 주기 위함
elif 100 < self.standstill_fault_reduce_timer and CS.lead_distance != self.last_lead_distance:
can_sends.append(
create_clu11(self.packer, frame, CS.scc_bus, CS.clu11,
Buttons.RES_ACCEL, clu11_speed))
self.resume_cnt += 1
if self.resume_cnt > 5:
self.resume_cnt = 0
self.res_switch_timer = randint(10, 15)
self.standstill_fault_reduce_timer += 1
# gap save
elif 160 < self.standstill_fault_reduce_timer and self.cruise_gap_prev == 0 and self.opkr_autoresume:
self.cruise_gap_prev = CS.cruiseGapSet
self.cruise_gap_set_init = 1
# gap adjust to 1 for fast start
elif 160 < self.standstill_fault_reduce_timer and CS.cruiseGapSet != 1.0 and self.opkr_autoresume:
self.cruise_gap_switch_timer += 1
if self.cruise_gap_switch_timer > 100:
can_sends.append(
create_clu11(self.packer, frame, CS.scc_bus,
CS.clu11, Buttons.GAP_DIST,
clu11_speed))
self.cruise_gap_switch_timer = 0
elif self.opkr_autoresume:
self.standstill_fault_reduce_timer += 1
elif self.opkr_autoresumeoption == 0 and self.opkr_autoresume:
# run only first time when the car stopped
if self.last_lead_distance == 0:
# get the lead distance from the Radar
self.last_lead_distance = CS.lead_distance
self.resume_cnt = 0
# when lead car starts moving, create 6 RES msgs
elif CS.lead_distance != self.last_lead_distance and (
frame -
self.last_resume_frame) > 5 and self.opkr_autoresume:
can_sends.append(
create_clu11(self.packer, frame, CS.scc_bus, CS.clu11,
Buttons.RES_ACCEL, clu11_speed))
self.resume_cnt += 1
# interval after 6 msgs
if self.resume_cnt > 5:
self.last_resume_frame = frame
self.resume_cnt = 0
elif self.cruise_gap_prev == 0 and self.opkr_autoresume:
self.cruise_gap_prev = CS.cruiseGapSet
self.cruise_gap_set_init = 1
elif CS.cruiseGapSet != 1.0 and self.opkr_autoresume:
self.cruise_gap_switch_timer += 1
if self.cruise_gap_switch_timer > 100:
can_sends.append(
create_clu11(self.packer, frame, CS.scc_bus,
CS.clu11, Buttons.GAP_DIST,
clu11_speed))
self.cruise_gap_switch_timer = 0
# reset lead distnce after the car starts moving
elif self.last_lead_distance != 0:
self.last_lead_distance = 0
elif run_speed_ctrl:
is_sc_run = self.SC.update(CS, sm, self)
if is_sc_run:
can_sends.append(
create_clu11(self.packer, self.resume_cnt, CS.scc_bus,
CS.clu11, self.SC.btn_type,
self.SC.sc_clu_speed))
self.resume_cnt += 1
else:
self.resume_cnt = 0
# gap restore
if self.dRel > 17 and self.vRel < 5 and self.cruise_gap_prev != CS.cruiseGapSet and self.cruise_gap_set_init == 1 and self.opkr_autoresume:
self.cruise_gap_switch_timer += 1
if self.cruise_gap_switch_timer > 50:
can_sends.append(
create_clu11(self.packer, frame, CS.scc_bus, CS.clu11,
Buttons.GAP_DIST, clu11_speed))
self.cruise_gap_switch_timer = 0
elif self.cruise_gap_prev == CS.cruiseGapSet and self.opkr_autoresume:
self.cruise_gap_set_init = 0
self.cruise_gap_prev = 0
#if CS.out.vEgo > 8 and self.lead2_status and self.dRel - self.dRel2 > 3 and self.cut_in_detection == 0 and self.cruise_gap_prev2 == 0:
# self.cut_in_detection = 1
# self.cruise_gap_prev2 = CS.cruiseGapSet
#elif CS.out.vEgo > 8 and self.cut_in_detection == 1 and CS.cruiseGapSet != 1.0:
# self.cruise_gap_switch_timer2 += 1
# if self.cruise_gap_switch_timer2 > 150:
# can_sends.append(create_clu11(self.packer, frame, CS.scc_bus, CS.clu11, Buttons.GAP_DIST, clu11_speed))
# self.cruise_gap_switch_timer2 = 0
#elif CS.out.vEgo > 8 and self.cut_in_detection == 1 and CS.cruiseGapSet == 1.0:
# self.cruise_gap_switch_timer2 += 1
# if self.cruise_gap_switch_timer2 > 600:
# if self.cruise_gap_prev2 != CS.cruiseGapSet:
# self.cruise_gap_switch_timer3 += 1
# if self.cruise_gap_switch_timer3 > 50:
# can_sends.append(create_clu11(self.packer, frame, CS.scc_bus, CS.clu11, Buttons.GAP_DIST, clu11_speed))
# self.cruise_gap_switch_timer3 = 0
#elif self.cruise_gap_prev2 == CS.cruiseGapSet:
# self.cut_in_detection == 0
# self.cruise_gap_prev2 = 0
# self.cruise_gap_switch_timer2 = 0
# self.cruise_gap_switch_timer3 = 0
if CS.out.brakeLights and CS.out.vEgo == 0 and not CS.acc_active:
self.standstill_status_timer += 1
if self.standstill_status_timer > 200:
self.standstill_status = 1
self.standstill_status_timer = 0
if self.standstill_status == 1 and CS.out.vEgo > 1:
self.standstill_status = 0
self.standstill_fault_reduce_timer = 0
self.v_set_dis_prev = 180
self.last_resume_frame = frame
self.res_switch_timer = 0
self.resume_cnt = 0
if CS.mdps_bus: # send mdps12 to LKAS to prevent LKAS error
can_sends.append(create_mdps12(self.packer, frame, CS.mdps12))
# send scc to car if longcontrol enabled and SCC not on bus 0 or ont live
if self.longcontrol and (CS.scc_bus
or not self.scc_live) and frame % 2 == 0:
can_sends.append(
create_scc12(self.packer, apply_accel, enabled, self.scc12_cnt,
self.scc_live, CS.scc12))
can_sends.append(
create_scc11(self.packer, frame, enabled, set_speed,
lead_visible, self.scc_live, CS.scc11))
if CS.has_scc13 and frame % 20 == 0:
can_sends.append(create_scc13(self.packer, CS.scc13))
if CS.has_scc14:
can_sends.append(create_scc14(self.packer, enabled, CS.scc14))
self.scc12_cnt += 1
# 20 Hz LFA MFA message
if frame % 5 == 0 and self.car_fingerprint in FEATURES["send_lfa_mfa"]:
can_sends.append(create_lfa_mfa(self.packer, frame, lkas_active))
if CS.spas_enabled:
if CS.mdps_bus:
can_sends.append(
create_ems11(self.packer, CS.ems11, spas_active))
# SPAS11 50hz
if (frame % 2) == 0:
if CS.mdps11_stat == 7 and not self.mdps11_stat_last == 7:
self.en_spas = 7
self.en_cnt = 0
if self.en_spas == 7 and self.en_cnt >= 8:
self.en_spas = 3
self.en_cnt = 0
if self.en_cnt < 8 and spas_active:
self.en_spas = 4
elif self.en_cnt >= 8 and spas_active:
self.en_spas = 5
if not spas_active:
self.apply_steer_ang = CS.mdps11_strang
self.en_spas = 3
self.en_cnt = 0
self.mdps11_stat_last = CS.mdps11_stat
self.en_cnt += 1
can_sends.append(
create_spas11(self.packer, self.car_fingerprint,
(frame // 2), self.en_spas,
self.apply_steer_ang, CS.mdps_bus))
# SPAS12 20Hz
if (frame % 5) == 0:
can_sends.append(create_spas12(CS.mdps_bus))
return can_sends
def update(self, enabled, CS, frame, actuators, pcm_cancel_cmd,
visual_alert, left_lane, right_lane, left_lane_depart,
right_lane_depart):
# Steering Torque
new_steer = actuators.steer * SteerLimitParams.STEER_MAX
apply_steer = apply_std_steer_torque_limits(new_steer,
self.apply_steer_last,
CS.out.steeringTorque,
SteerLimitParams)
self.steer_rate_limited = new_steer != apply_steer
# disable if steer angle reach 90 deg, otherwise mdps fault in some models
lkas_active = enabled #and abs(CS.out.steeringAngle) < 90.
# fix for Genesis hard fault at low speed
#if CS.out.vEgo < 16.7 and self.car_fingerprint == CAR.HYUNDAI_GENESIS:
#lkas_active = False
if not lkas_active:
apply_steer = 0
steer_req = 1 if apply_steer else 0
self.apply_steer_last = apply_steer
sys_warning, sys_state, left_lane_warning, right_lane_warning =\
process_hud_alert(enabled, self.car_fingerprint, visual_alert,
left_lane, right_lane, left_lane_depart, right_lane_depart)
clu11_speed = CS.clu11["CF_Clu_Vanz"]
enabled_speed = 38 if CS.is_set_speed_in_mph else 60
if clu11_speed > enabled_speed:
enabled_speed = clu11_speed
if frame == 0: # initialize counts from last received count signals
self.lkas11_cnt = CS.lkas11["CF_Lkas_MsgCount"]
self.lkas11_cnt = (self.lkas11_cnt + 1) % 0x10
can_sends = []
can_sends.append(
create_lkas11(self.packer, self.lkas11_cnt, self.car_fingerprint,
apply_steer, steer_req, CS.lkas11, sys_warning,
sys_state, enabled, left_lane, right_lane,
left_lane_warning, right_lane_warning, 0))
if CS.mdps_bus or CS.scc_bus == 1: # send lkas11 bus 1 if mdps or scc is on bus 1
can_sends.append(
create_lkas11(self.packer, self.lkas11_cnt,
self.car_fingerprint, apply_steer, steer_req,
CS.lkas11, sys_warning, sys_state, enabled,
left_lane, right_lane, left_lane_warning,
right_lane_warning, 1))
if frame % 2 and CS.mdps_bus == 1: # send clu11 to mdps if it is not on bus 0
can_sends.append(
create_clu11(self.packer, frame, CS.mdps_bus, CS.clu11,
Buttons.NONE, enabled_speed))
if CS.mdps_bus:
can_sends.append(create_mdps12(self.packer, frame, CS.mdps12))
str_log1 = 'torg:{:3.0f}'.format(apply_steer)
str_log2 = 'new_steer={:.0f} tm={:.1f} '.format(
new_steer, self.timer1.sampleTime())
trace1.printf('{} {}'.format(str_log1, str_log2))
#print( 'st={} cmd={} long={} steer={} req={}'.format(CS.out.cruiseState.standstill, pcm_cancel_cmd, self.CP.openpilotLongitudinalControl, apply_steer, steer_req ) )
if pcm_cancel_cmd and self.CP.openpilotLongitudinalControl:
can_sends.append(
create_clu11(self.packer, frame, CS.clu11, Buttons.CANCEL))
elif CS.out.cruiseState.standstill:
if self.last_lead_distance == 0:
# get the lead distance from the Radar
self.last_lead_distance = CS.lead_distance
# SCC won't resume anyway when the lead distace is less than 3.7m
# send resume at a max freq of 5Hz
#if CS.lead_distance > 3.7 and (frame - self.last_resume_frame)*DT_CTRL > 0.2:
if CS.lead_distance != self.last_lead_distance and (
frame - self.last_resume_frame) * DT_CTRL > 0.2:
can_sends.append(
create_clu11(self.packer, frame, CS.scc_bus, CS.clu11,
Buttons.RES_ACCEL, clu11_speed))
self.last_resume_frame = frame
# 20 Hz LFA MFA message
if frame % 5 == 0 and self.car_fingerprint in [
CAR.SONATA, CAR.PALISADE, CAR.IONIQ
]:
can_sends.append(create_lfa_mfa(self.packer, frame, enabled))
return can_sends
def update(self, enabled, CS, frame, actuators, pcm_cancel_cmd,
visual_alert, left_line, right_line, left_lane_depart,
right_lane_depart):
# *** compute control surfaces ***
# gas and brake
apply_accel = actuators.gas - actuators.brake
apply_accel, self.accel_steady = accel_hysteresis(
apply_accel, self.accel_steady)
apply_accel = clip(apply_accel * ACCEL_SCALE, ACCEL_MIN, ACCEL_MAX)
### Steering Torque
new_steer = actuators.steer * SteerLimitParams.STEER_MAX
apply_steer = apply_std_steer_torque_limits(new_steer,
self.apply_steer_last,
CS.steer_torque_driver,
SteerLimitParams)
self.steer_rate_limited = new_steer != apply_steer
### LKAS button to temporarily disable steering
if not CS.lkas_error:
if CS.lkas_button_on != self.lkas_button_last:
self.lkas_button = not self.lkas_button
self.lkas_button_last = CS.lkas_button_on
# disable if steer angle reach 90 deg, otherwise mdps fault in some models
if self.car_fingerprint == CAR.GENESIS:
lkas_active = enabled and abs(
CS.angle_steers) < 90. and self.lkas_button
else:
lkas_active = enabled and self.lkas_button
# Fix for sharp turns mdps fault and Genesis hard fault at low speed
if CS.v_ego < 13.7 and self.car_fingerprint == CAR.GENESIS and not CS.mdps_bus:
self.turning_signal_timer = 100
if ((CS.left_blinker_flash or CS.right_blinker_flash)
and (CS.steer_override or abs(CS.angle_steers) > 10.)
and CS.v_ego <
17.5): # Disable steering when blinker on and belwo ALC speed
self.turning_signal_timer = 100 # Disable for 1.0 Seconds after blinker turned off
if self.turning_signal_timer:
lkas_active = 0
self.turning_signal_timer -= 1
if not lkas_active:
apply_steer = 0
steer_req = 1 if apply_steer else 0
self.apply_accel_last = apply_accel
self.apply_steer_last = apply_steer
hud_alert, lane_visible, left_lane_warning, right_lane_warning =\
process_hud_alert(lkas_active, self.lkas_button, self.car_fingerprint, visual_alert,
left_line, right_line,left_lane_depart, right_lane_depart)
clu11_speed = CS.clu11["CF_Clu_Vanz"]
enabled_speed = 34 if CS.is_set_speed_in_mph else 55
if clu11_speed > enabled_speed or not lkas_active:
enabled_speed = clu11_speed
can_sends = []
if frame == 0: # initialize counts from last received count signals
self.lkas11_cnt = CS.lkas11["CF_Lkas_MsgCount"] + 1
self.scc12_cnt = CS.scc12[
"CR_VSM_Alive"] + 1 if not CS.no_radar else 0
self.lkas11_cnt %= 0x10
self.scc12_cnt %= 0xF
self.clu11_cnt = frame % 0x10
self.mdps12_cnt = frame % 0x100
can_sends.append(
create_lkas11(self.packer,
self.car_fingerprint,
0,
apply_steer,
steer_req,
self.lkas11_cnt,
lkas_active,
CS.lkas11,
hud_alert,
lane_visible,
left_lane_depart,
right_lane_depart,
keep_stock=True))
if CS.mdps_bus or CS.scc_bus == 1: # send lkas12 bus 1 if mdps or scc is on bus 1
can_sends.append(
create_lkas11(self.packer,
self.car_fingerprint,
1,
apply_steer,
steer_req,
self.lkas11_cnt,
lkas_active,
CS.lkas11,
hud_alert,
lane_visible,
left_lane_depart,
right_lane_depart,
keep_stock=True))
if CS.mdps_bus: # send clu11 to mdps if it is not on bus 0
can_sends.append(
create_clu11(self.packer, CS.mdps_bus, CS.clu11, Buttons.NONE,
enabled_speed, self.clu11_cnt))
if pcm_cancel_cmd and self.longcontrol:
can_sends.append(
create_clu11(self.packer, CS.scc_bus, CS.clu11, Buttons.CANCEL,
clu11_speed, self.clu11_cnt))
else: # send mdps12 to LKAS to prevent LKAS error if no cancel cmd
can_sends.append(
create_mdps12(self.packer, self.car_fingerprint,
self.mdps12_cnt, CS.mdps12))
if CS.scc_bus and self.longcontrol and frame % 2: # send scc12 to car if SCC not on bus 0 and longcontrol enabled
can_sends.append(
create_scc12(self.packer, apply_accel, enabled, self.scc12_cnt,
CS.scc12))
self.scc12_cnt += 1
if CS.stopped:
# run only first time when the car stopped
if self.last_lead_distance == 0:
# get the lead distance from the Radar
self.last_lead_distance = CS.lead_distance
self.resume_cnt = 0
# when lead car starts moving, create 6 RES msgs
elif CS.lead_distance > self.last_lead_distance and (
frame - self.last_resume_frame) > 5:
can_sends.append(
create_clu11(self.packer, CS.scc_bus, CS.clu11,
Buttons.RES_ACCEL, clu11_speed,
self.resume_cnt))
self.resume_cnt += 1
# interval after 6 msgs
if self.resume_cnt > 5:
self.last_resume_frame = frame
self.resume_cnt = 0
# reset lead distnce after the car starts moving
elif self.last_lead_distance != 0:
self.last_lead_distance = 0
self.lkas11_cnt += 1
return can_sends
def update(self, enabled, CS, actuators, pcm_cancel_cmd, hud_alert):
### Error State Resets ###
disable_steer = False
can_sends = []
### Learn Checksum ###
if not self.checksum_found:
# Learn Checksum from the Camera
if self.checksum == "NONE":
self.checksum = learn_checksum(self.packer, CS.lkas11)
if self.checksum == "NONE" and self.checksum_learn_cnt < 50:
self.checksum_learn_cnt += 1
return
else:
cloudlog.info("Discovered Checksum %s" % self.checksum)
self.checksum_found = True
# If MDPS is faulted from bad checksum, then cycle through all Checksums until 1 works
if CS.steer_error == 1:
self.camera_disconnected = True
cloudlog.warning("Camera Not Detected: Brute Forcing Checksums")
if self.checksum_learn_cnt > 300:
self.checksum_learn_cnt = 50
if self.checksum == "NONE":
cloudlog.info("Testing 6B Checksum")
self.checksum = "6B"
elif self.checksum == "6B":
cloudlog.info("Testing 7B Checksum")
self.checksum = "7B"
elif self.checksum == "7B":
cloudlog.info("Testing CRC8 Checksum")
self.checksum = "crc8"
else:
self.checksum = "NONE"
return
else:
self.checksum_learn_cnt += 1
else:
cloudlog.info("Discovered Checksum %s" % self.checksum)
self.checksum_found = True
### Minimum Steer Speed ###
# Apply Usage of Minimum Steer Speed
if CS.low_speed_alert:
disable_steer = True
### Turning Indicators ###
if (CS.left_blinker_on == 1 or CS.right_blinker_on == 1):
self.turning_signal_timer = 100 # Disable for 1.0 Seconds after blinker turned off
if self.turning_signal_timer > 0:
disable_steer = True
self.turning_signal_timer -= 1
### Steering Torque ###
apply_steer = actuators.steer * SteerLimitParams.STEER_MAX
apply_steer = limit_steer_rate(apply_steer, self.apply_steer_last, CS.steer_torque_driver, SteerLimitParams)
if not enabled or disable_steer:
apply_steer = 0
steer_req = 0
else:
steer_req = 1
self.apply_steer_last = apply_steer
'''
### Auto Speed Limit ###
# Read Speed Limit and define if adjustment needed
if (self.cnt % 50) == 0 and self.speed_enable:
if not (enabled and CS.acc_active):
self.speed_adjusted = False
map_data = messaging.recv_one_or_none(self.map_data_sock)
if map_data is not None:
if bool(self.params.get("IsMetric")):
self.speed_conv = CV.MS_TO_KPH
else:
self.speed_conv = CV.MS_TO_MPH
if map_data.liveMapData.speedLimitValid:
last_speed = self.map_speed
v_speed = int(map_data.liveMapData.speedLimit * self.speed_offset)
self.map_speed = v_speed * self.speed_conv
if last_speed != self.map_speed:
self.speed_adjusted = False
else:
self.map_speed = 0
self.speed_adjusted = True
else:
self.map_speed = 0
self.speed_adjusted = True
# Spam buttons for Speed Adjustment
if CS.acc_active and not self.speed_adjusted and self.map_speed > (8.5 * self.speed_conv) and (self.cnt % 9 == 0 or self.cnt % 9 == 1):
if (CS.cruise_set_speed * self.speed_conv) > (self.map_speed * 1.005):
can_sends.append(create_clu11(self.packer, CS.clu11, Buttons.SET_DECEL, (1 if self.cnt % 9 == 1 else 0)))
elif (CS.cruise_set_speed * self.speed_conv) < (self.map_speed / 1.005):
can_sends.append(create_clu11(self.packer, CS.clu11, Buttons.RES_ACCEL, (1 if self.cnt % 9 == 1 else 0)))
else:
self.speed_adjusted = True
# Cancel Adjustment on Pedal
if CS.pedal_gas:
self.speed_adjusted = True
'''
### Generate CAN Messages ###
self.lkas11_cnt = self.cnt % 0x10
# self.clu11_cnt = self.cnt % 0x10
self.mdps12_cnt = self.cnt % 0x100
if self.camera_disconnected:
if (self.cnt % 10) == 0:
can_sends.append(create_lkas12())
if (self.cnt % 50) == 0:
can_sends.append(create_1191())
if (self.cnt % 7) == 0:
can_sends.append(create_1156())
can_sends.append(create_lkas11(self.packer, self.car_fingerprint, apply_steer, steer_req, self.lkas11_cnt,
enabled, CS.lkas11, hud_alert, (not self.camera_disconnected), self.checksum))
if not self.camera_disconnected:
can_sends.append(create_mdps12(self.packer, self.car_fingerprint, self.mdps12_cnt, CS.mdps12, CS.lkas11, \
self.checksum))
# if pcm_cancel_cmd:
# can_sends.append(create_clu11(self.packer, CS.clu11, Buttons.CANCEL, 0))
if CS.stopped and (self.cnt - self.last_resume_cnt) > 20:
if (self.cnt - self.last_resume_cnt) > 20:
self.last_resume_cnt = self.cnt
can_sends.append(create_clu11(self.packer, CS.clu11, Buttons.RES_ACCEL, self.clu11_cnt))
self.cnt += 1
return can_sends
def update(self, enabled, CS, frame, CC, actuators, pcm_cancel_cmd,
visual_alert, left_lane, right_lane, left_lane_depart,
right_lane_depart, set_speed, lead_visible, controls):
# *** compute control surfaces ***
# gas and brake
apply_accel = actuators.gas - actuators.brake
apply_accel, self.accel_steady = accel_hysteresis(
apply_accel, self.accel_steady)
apply_accel = clip(apply_accel * CarControllerParams.ACCEL_SCALE,
CarControllerParams.ACCEL_MIN,
CarControllerParams.ACCEL_MAX)
# Steering Torque
new_steer = int(round(actuators.steer * SteerLimitParams.STEER_MAX))
apply_steer = apply_std_steer_torque_limits(new_steer,
self.apply_steer_last,
CS.out.steeringTorque,
SteerLimitParams)
self.steer_rate_limited = new_steer != apply_steer
# disable if steer angle reach 90 deg, otherwise mdps fault in some models
lkas_active = enabled and abs(CS.out.steeringAngleDeg) < 90.
# fix for Genesis hard fault at low speed
if CS.out.vEgo < 60 * CV.KPH_TO_MS and self.car_fingerprint == CAR.GENESIS and not CS.mdps_bus:
lkas_active = False
# Disable steering while turning blinker on and speed below 60 kph
if CS.out.leftBlinker or CS.out.rightBlinker:
self.turning_signal_timer = 0.5 / DT_CTRL # Disable for 0.5 Seconds after blinker turned off
if self.turning_indicator_alert and CS.out.vEgo < 2 * CV.KPH_TO_MS: # set and clear by interface
lkas_active = 0
if self.turning_signal_timer > 0:
self.turning_signal_timer -= 1
if not lkas_active:
apply_steer = 0
self.apply_accel_last = apply_accel
self.apply_steer_last = apply_steer
sys_warning, sys_state, left_lane_warning, right_lane_warning = \
process_hud_alert(enabled, self.car_fingerprint, visual_alert,
left_lane, right_lane, left_lane_depart, right_lane_depart)
clu11_speed = CS.clu11["CF_Clu_Vanz"]
enabled_speed = 38 if CS.is_set_speed_in_mph else 60
if clu11_speed > enabled_speed or not lkas_active:
enabled_speed = clu11_speed
controls.clu_speed_ms = clu11_speed * CV.KPH_TO_MS
if not (min_set_speed < set_speed < 255 * CV.KPH_TO_MS):
set_speed = min_set_speed
set_speed *= CV.MS_TO_MPH if CS.is_set_speed_in_mph else CV.MS_TO_KPH
if frame == 0: # initialize counts from last received count signals
self.lkas11_cnt = CS.lkas11["CF_Lkas_MsgCount"]
self.scc12_cnt = CS.scc12[
"CR_VSM_Alive"] + 1 if not CS.no_radar else 0
# TODO: fix this
# self.prev_scc_cnt = CS.scc11["AliveCounterACC"]
# self.scc_update_frame = frame
# check if SCC is alive
# if frame % 7 == 0:
# if CS.scc11["AliveCounterACC"] == self.prev_scc_cnt:
# if frame - self.scc_update_frame > 20 and self.scc_live:
# self.scc_live = False
# else:
# self.scc_live = True
# self.prev_scc_cnt = CS.scc11["AliveCounterACC"]
# self.scc_update_frame = frame
self.prev_scc_cnt = CS.scc11["AliveCounterACC"]
self.lkas11_cnt = (self.lkas11_cnt + 1) % 0x10
self.scc12_cnt %= 0xF
# apply_steer = interp(CS.out.vEgo, [0., 3.], [0., 1.])
can_sends = []
can_sends.append(
create_lkas11(self.packer, frame, self.car_fingerprint,
apply_steer, lkas_active, CS.lkas11, sys_warning,
sys_state, enabled, left_lane, right_lane,
left_lane_warning, right_lane_warning, 0))
if CS.mdps_bus or CS.scc_bus == 1: # send lkas11 bus 1 if mdps or scc is on bus 1
can_sends.append(
create_lkas11(self.packer, frame, self.car_fingerprint,
apply_steer, lkas_active, CS.lkas11, sys_warning,
sys_state, enabled, left_lane, right_lane,
left_lane_warning, right_lane_warning, 1))
if frame % 2 and CS.mdps_bus: # send clu11 to mdps if it is not on bus 0
can_sends.append(
create_clu11(self.packer, frame // 2 % 0x10, CS.mdps_bus,
CS.clu11, Buttons.NONE, enabled_speed))
if pcm_cancel_cmd and (self.longcontrol and not self.mad_mode_enabled):
can_sends.append(
create_clu11(self.packer, frame % 0x10, CS.scc_bus, CS.clu11,
Buttons.CANCEL, clu11_speed))
# fix auto resume - by neokii
if CS.out.cruiseState.standstill:
if self.last_lead_distance == 0:
self.last_lead_distance = CS.lead_distance
self.resume_cnt = 0
self.resume_wait_timer = 0
# scc smoother
elif self.scc_smoother.is_active(frame):
pass
elif self.resume_wait_timer > 0:
self.resume_wait_timer -= 1
elif CS.lead_distance != self.last_lead_distance:
can_sends.append(
create_clu11(self.packer, self.resume_cnt, CS.scc_bus,
CS.clu11, Buttons.RES_ACCEL, clu11_speed))
self.resume_cnt += 1
if self.resume_cnt >= 8:
self.resume_cnt = 0
self.resume_wait_timer = SccSmoother.get_wait_count()
# reset lead distnce after the car starts moving
elif self.last_lead_distance != 0:
self.last_lead_distance = 0
# scc smoother
self.scc_smoother.update(enabled, can_sends, self.packer, CC, CS,
frame, apply_accel, controls)
if CS.mdps_bus: # send mdps12 to LKAS to prevent LKAS error
can_sends.append(create_mdps12(self.packer, frame, CS.mdps12))
controls.apply_accel = apply_accel
aReqValue = CS.scc12["aReqValue"]
controls.aReqValue = aReqValue
if aReqValue < controls.aReqValueMin:
controls.aReqValueMin = controls.aReqValue
if aReqValue > controls.aReqValueMax:
controls.aReqValueMax = controls.aReqValue
# send scc to car if longcontrol enabled and SCC not on bus 0 or ont live
if self.longcontrol and CS.cruiseState_enabled and (
CS.scc_bus or not self.scc_live) and frame % 2 == 0:
apply_accel, lead_drel = self.scc_smoother.get_fused_accel(
apply_accel, aReqValue, controls.sm)
controls.fused_accel = apply_accel
controls.lead_drel = lead_drel
can_sends.append(
create_scc12(self.packer, apply_accel, enabled, self.scc12_cnt,
self.scc_live, CS.scc12))
can_sends.append(
create_scc11(self.packer, frame, enabled, set_speed,
controls.sm['radarState'], self.scc_live,
CS.scc11))
if CS.has_scc13 and frame % 20 == 0:
can_sends.append(create_scc13(self.packer, CS.scc13))
if CS.has_scc14:
can_sends.append(create_scc14(self.packer, enabled, CS.scc14))
self.scc12_cnt += 1
# 20 Hz LFA MFA message
if frame % 5 == 0 and self.car_fingerprint in FEATURES["send_lfa_mfa"]:
can_sends.append(create_lfahda_mfc(self.packer, enabled))
return can_sends
def update(self, sendcan, enabled, CS, actuators, pcm_cancel_cmd,
hud_alert):
if not self.enable_camera:
return
if CS.camcan > 0:
if self.checksum == "NONE":
self.checksum = learn_checksum(self.packer, CS.lkas11)
print("Discovered Checksum", self.checksum)
if self.checksum == "NONE":
return
elif CS.steer_error == 1:
if self.checksum_learn_cnt > 200:
self.checksum_learn_cnt = 0
if self.checksum == "NONE":
print("Testing 6B Checksum")
self.checksum == "6B"
elif self.checksum == "6B":
print("Testing 7B Checksum")
self.checksum == "7B"
elif self.checksum == "7B":
print("Testing CRC8 Checksum")
self.checksum == "crc8"
else:
self.checksum == "NONE"
else:
self.checksum_learn_cnt += 1
force_enable = False
# I don't care about your opinion, deal with it!
if (CS.cstm_btns.get_button_status("alwon") > 0) and CS.acc_active:
enabled = True
force_enable = True
if (self.car_fingerprint in FEATURES["soft_disable"]
and CS.v_wheel < 16.8):
enabled = False
force_enable = False
if (CS.left_blinker_on == 1 or CS.right_blinker_on == 1):
self.turning_signal_timer = 100 # Disable for 1.0 Seconds after blinker turned off
#update custom UI buttons and alerts
CS.UE.update_custom_ui()
if (self.cnt % 100 == 0):
CS.cstm_btns.send_button_info()
CS.UE.uiSetCarEvent(CS.cstm_btns.car_folder, CS.cstm_btns.car_name)
# Get the angle from ALCA.
alca_enabled = False
alca_steer = 0.
alca_angle = 0.
turn_signal_needed = 0
# Update ALCA status and custom button every 0.1 sec.
if self.ALCA.pid == None:
self.ALCA.set_pid(CS)
self.ALCA.update_status(CS.cstm_btns.get_button_status("alca") > 0)
alca_angle, alca_steer, alca_enabled, turn_signal_needed = self.ALCA.update(
enabled, CS, self.cnt, actuators)
if force_enable and not CS.acc_active:
apply_steer = int(
round(actuators.steer * SteerLimitParams.STEER_MAX))
else:
apply_steer = int(round(alca_steer * SteerLimitParams.STEER_MAX))
# SPAS limit angle extremes for safety
apply_steer_ang_req = np.clip(actuators.steerAngle,
-1 * (SteerLimitParams.STEER_ANG_MAX),
SteerLimitParams.STEER_ANG_MAX)
# SPAS limit angle rate for safety
if abs(self.apply_steer_ang - apply_steer_ang_req) > 0.6:
if apply_steer_ang_req > self.apply_steer_ang:
self.apply_steer_ang += 0.5
else:
self.apply_steer_ang -= 0.5
else:
self.apply_steer_ang = apply_steer_ang_req
# Limit steer rate for safety
apply_steer = limit_steer_rate(apply_steer, self.apply_steer_last,
SteerLimitParams,
CS.steer_torque_driver)
if alca_enabled:
self.turning_signal_timer = 0
if self.turning_signal_timer > 0:
self.turning_signal_timer = self.turning_signal_timer - 1
turning_signal = 1
else:
turning_signal = 0
# Use LKAS or SPAS
if CS.mdps11_stat == 7 or CS.v_wheel > 2.7:
self.lkas = True
elif CS.v_wheel < 0.1:
self.lkas = False
if self.spas_present:
self.lkas = True
# If ALCA is disabled, and turning indicators are turned on, we do not want OP to steer,
if not enabled or (turning_signal and not alca_enabled):
if self.lkas:
apply_steer = 0
else:
self.apply_steer_ang = 0.0
self.en_cnt = 0
steer_req = 1 if enabled and self.lkas else 0
self.apply_steer_last = apply_steer
can_sends = []
self.lkas11_cnt = self.cnt % 0x10
self.clu11_cnt = self.cnt % 0x10
self.mdps12_cnt = self.cnt % 0x100
self.spas_cnt = self.cnt % 0x200
can_sends.append(create_lkas11(self.packer, self.car_fingerprint, apply_steer, steer_req, self.lkas11_cnt, \
enabled if self.lkas else False, False if CS.camcan == 0 else CS.lkas11, hud_alert, (CS.cstm_btns.get_button_status("cam") > 0), \
(False if CS.camcan == 0 else True), self.checksum))
if CS.camcan > 0:
can_sends.append(create_mdps12(self.packer, self.car_fingerprint, self.mdps12_cnt, CS.mdps12, CS.lkas11, \
CS.camcan, self.checksum))
# SPAS11 50hz
if (self.cnt % 2) == 0 and not self.spas_present:
if CS.mdps11_stat == 7 and not self.mdps11_stat_last == 7:
self.en_spas == 7
self.en_cnt = 0
if self.en_spas == 7 and self.en_cnt >= 8:
self.en_spas = 3
self.en_cnt = 0
if self.en_cnt < 8 and enabled and not self.lkas:
self.en_spas = 4
elif self.en_cnt >= 8 and enabled and not self.lkas:
self.en_spas = 5
if self.lkas or not enabled:
self.apply_steer_ang = CS.mdps11_strang
self.en_spas = 3
self.en_cnt = 0
self.mdps11_stat_last = CS.mdps11_stat
self.en_cnt += 1
can_sends.append(
create_spas11(self.packer, (self.spas_cnt / 2), self.en_spas,
self.apply_steer_ang, self.checksum))
# SPAS12 20Hz
if (self.cnt % 5) == 0 and not self.spas_present:
can_sends.append(create_spas12(self.packer))
# Force Disable
if pcm_cancel_cmd and (not force_enable):
can_sends.append(
create_clu11(self.packer, CS.clu11, Buttons.CANCEL, 0))
elif CS.stopped and (self.cnt - self.last_resume_cnt) > 5:
self.last_resume_cnt = self.cnt
can_sends.append(
create_clu11(self.packer, CS.clu11, Buttons.RES_ACCEL, 0))
# Speed Limit Related Stuff Lot's of comments for others to understand!
# Run this twice a second
if (self.cnt % 50) == 0:
if self.params.get("LimitSetSpeed") == "1" and self.params.get(
"SpeedLimitOffset") is not None:
# If Not Enabled, or cruise not set, allow auto speed adjustment again
if not (enabled and CS.acc_active_real):
self.speed_adjusted = False
# Attempt to read the speed limit from zmq
map_data = messaging.recv_one_or_none(self.map_data_sock)
# If we got a message
if map_data != None:
# See if we use Metric or dead kings extremeties for measurements, and set a variable to the conversion value
if bool(self.params.get("IsMetric")):
self.speed_conv = CV.MS_TO_KPH
else:
self.speed_conv = CV.MS_TO_MPH
# If the speed limit is valid
if map_data.liveMapData.speedLimitValid:
last_speed = self.map_speed
# Get the speed limit, and add the offset to it,
v_speed = (map_data.liveMapData.speedLimit +
float(self.params.get("SpeedLimitOffset")))
## Stolen curvature code from planner.py, and updated it for us
v_curvature = 45.0
if map_data.liveMapData.curvatureValid:
v_curvature = math.sqrt(
1.85 /
max(1e-4, abs(map_data.liveMapData.curvature)))
# Use the minimum between Speed Limit and Curve Limit, and convert it as needed
#self.map_speed = min(v_speed, v_curvature) * self.speed_conv
self.map_speed = v_speed * self.speed_conv
# Compare it to the last time the speed was read. If it is different, set the flag to allow it to auto set our speed
if last_speed != self.map_speed:
self.speed_adjusted = False
else:
# If it is not valid, set the flag so the cruise speed won't be changed.
self.map_speed = 0
self.speed_adjusted = True
else:
self.speed_adjusted = True
# Ensure we have cruise IN CONTROL, so we don't do anything dangerous, like turn cruise on
# Ensure the speed limit is within range of the stock cruise control capabilities
# Do the spamming 10 times a second, we might get from 0 to 10 successful
# Only do this if we have not yet set the cruise speed
if CS.acc_active_real and not self.speed_adjusted and self.map_speed > (
8.5 * self.speed_conv) and (self.cnt % 9 == 0
or self.cnt % 9 == 1):
# Use some tolerance because of Floats being what they are...
if (CS.cruise_set_speed * self.speed_conv) > (self.map_speed *
1.005):
can_sends.append(
create_clu11(self.packer, CS.clu11, Buttons.SET_DECEL,
(1 if self.cnt % 9 == 1 else 0)))
elif (CS.cruise_set_speed * self.speed_conv) < (self.map_speed /
1.005):
can_sends.append(
create_clu11(self.packer, CS.clu11, Buttons.RES_ACCEL,
(1 if self.cnt % 9 == 1 else 0)))
# If nothing needed adjusting, then the speed has been set, which will lock out this control
else:
self.speed_adjusted = True
### If Driver Overrides using accelerator (or gas for the antiquated), cancel auto speed adjustment
if CS.pedal_gas:
self.speed_adjusted = True
### Send messages to canbus
sendcan.send(
can_list_to_can_capnp(can_sends, msgtype='sendcan').to_bytes())
self.cnt += 1
def update(self, CC, CS, frame, sm, CP):
if self.CP != CP:
self.CP = CP
enabled = CC.enabled
actuators = CC.actuators
pcm_cancel_cmd = CC.cruiseControl.cancel
self.dRel, self.yRel, self.vRel = SpdController.get_lead(sm)
self.model_speed, self.model_sum = self.SC.calc_va(sm, CS.out.vEgo)
# Steering Torque
new_steer = actuators.steer * SteerLimitParams.STEER_MAX
apply_steer = apply_std_steer_torque_limits(new_steer,
self.apply_steer_last,
CS.out.steeringTorque,
SteerLimitParams)
self.steer_rate_limited = new_steer != apply_steer
# disable if steer angle reach 90 deg, otherwise mdps fault in some models
lkas_active = enabled and abs(CS.out.steeringAngle) < 90.
if ((CS.out.leftBlinker and not CS.out.rightBlinker) or
(CS.out.rightBlinker
and not CS.out.leftBlinker)) and CS.out.vEgo <= 59 * CV.KPH_TO_MS:
self.lanechange_manual_timer = 10
if CS.out.leftBlinker and CS.out.rightBlinker:
self.emergency_manual_timer = 10
if abs(CS.out.steeringTorque) > 200:
self.driver_steering_torque_above_timer = 15
if self.lanechange_manual_timer or self.driver_steering_torque_above_timer:
lkas_active = 0
if self.lanechange_manual_timer > 0:
self.lanechange_manual_timer -= 1
if self.emergency_manual_timer > 0:
self.emergency_manual_timer -= 1
if self.driver_steering_torque_above_timer > 0:
self.driver_steering_torque_above_timer -= 1
if not lkas_active:
apply_steer = 0
steer_req = 1 if apply_steer else 0
self.apply_steer_last = apply_steer
sys_warning, sys_state = self.process_hud_alert(lkas_active, CC)
clu11_speed = CS.clu11["CF_Clu_Vanz"]
enabled_speed = 38 if CS.is_set_speed_in_mph else 55
if clu11_speed > enabled_speed:
enabled_speed = clu11_speed
can_sends = []
if frame == 0: # initialize counts from last received count signals
self.lkas11_cnt = CS.lkas11["CF_Lkas_MsgCount"] + 1
self.lkas11_cnt %= 0x10
can_sends.append(
create_lkas11(self.packer, self.lkas11_cnt, self.car_fingerprint,
apply_steer, steer_req, CS.lkas11, sys_warning,
sys_state, CC, enabled, 0))
if CS.mdps_bus or CS.scc_bus == 1: # send lkas11 bus 1 if mdps is on bus 1
can_sends.append(
create_lkas11(self.packer, self.lkas11_cnt,
self.car_fingerprint, apply_steer, steer_req,
CS.lkas11, sys_warning, sys_state, CC, enabled,
1))
if CS.mdps_bus: # send clu11 to mdps if it is not on bus 0
#if frame % 2 and CS.mdps_bus == 1: # send clu11 to mdps if it is not on bus 0
can_sends.append(
create_clu11(self.packer, frame, CS.mdps_bus, CS.clu11,
Buttons.NONE, enabled_speed))
#if CS.mdps_bus:
can_sends.append(create_mdps12(self.packer, frame, CS.mdps12))
str_log1 = '곡률={:05.1f}'.format(self.model_speed)
str_log2 = '프레임율={:03.0f} TPMS=FL:{:04.1f}/FR:{:04.1f}/RL:{:04.1f}/RR:{:04.1f}'.format(
self.timer1.sampleTime(), CS.tpmsPressureFl, CS.tpmsPressureFr,
CS.tpmsPressureRl, CS.tpmsPressureRr)
trace1.printf('{} {}'.format(str_log1, str_log2))
if CS.out.cruiseState.modeSel == 0 and self.mode_change_switch == 4:
self.mode_change_timer = 50
self.mode_change_switch = 0
elif CS.out.cruiseState.modeSel == 1 and self.mode_change_switch == 0:
self.mode_change_timer = 50
self.mode_change_switch = 1
elif CS.out.cruiseState.modeSel == 2 and self.mode_change_switch == 1:
self.mode_change_timer = 50
self.mode_change_switch = 2
elif CS.out.cruiseState.modeSel == 3 and self.mode_change_switch == 2:
self.mode_change_timer = 50
self.mode_change_switch = 3
elif CS.out.cruiseState.modeSel == 4 and self.mode_change_switch == 3:
self.mode_change_timer = 50
self.mode_change_switch = 4
if self.mode_change_timer > 0:
self.mode_change_timer -= 1
run_speed_ctrl = self.param_OpkrAccelProfile and CS.acc_active and self.SC != None and (
CS.out.cruiseState.modeSel == 1 or CS.out.cruiseState.modeSel == 2
or CS.out.cruiseState.modeSel == 3)
if not run_speed_ctrl:
if CS.out.cruiseState.modeSel == 0:
self.steer_mode = "오파모드"
elif CS.out.cruiseState.modeSel == 1:
self.steer_mode = "차간+커브"
elif CS.out.cruiseState.modeSel == 2:
self.steer_mode = "차간ONLY"
elif CS.out.cruiseState.modeSel == 3:
self.steer_mode = "정체구간"
elif CS.out.cruiseState.modeSel == 4:
self.steer_mode = "순정모드"
if CS.out.steerWarning == 0:
self.mdps_status = "정상"
elif CS.out.steerWarning == 1:
self.mdps_status = "오류"
if CS.lkas_button_on == 0:
self.lkas_switch = "OFF"
elif CS.lkas_button_on == 1:
self.lkas_switch = "ON"
else:
self.lkas_switch = "-"
if CS.out.cruiseState.modeSel == 3:
str_log2 = '주행모드={:s} MDPS상태={:s} LKAS버튼={:s} CG:{:1.0f}'.format(
self.steer_mode, self.mdps_status, self.lkas_switch,
CS.cruiseGapSet)
else:
str_log2 = '주행모드={:s} MDPS상태={:s} LKAS버튼={:s}'.format(
self.steer_mode, self.mdps_status, self.lkas_switch)
trace1.printf2('{}'.format(str_log2))
#print( 'st={} cmd={} long={} steer={} req={}'.format(CS.out.cruiseState.standstill, pcm_cancel_cmd, self.CP.openpilotLongitudinalControl, apply_steer, steer_req ) )
if pcm_cancel_cmd and self.CP.openpilotLongitudinalControl:
can_sends.append(
create_clu11(self.packer, frame, CS.scc_bus, CS.clu11,
Buttons.CANCEL, clu11_speed))
elif CS.out.cruiseState.standstill:
# run only first time when the car stopped
if self.last_lead_distance == 0 or not self.param_OpkrAutoResume:
# get the lead distance from the Radar
self.last_lead_distance = CS.lead_distance
self.resume_cnt = 0
# when lead car starts moving, create 6 RES msgs
elif CS.lead_distance != self.last_lead_distance and (
frame - self.last_resume_frame) > 5:
can_sends.append(
create_clu11(self.packer, frame, CS.scc_bus, CS.clu11,
Buttons.RES_ACCEL, clu11_speed))
self.resume_cnt += 1
# interval after 6 msgs
if self.resume_cnt > 5:
self.last_resume_frame = frame
self.resume_cnt = 0
elif self.cruise_gap_prev == 0:
self.cruise_gap_prev = CS.cruiseGapSet
self.cruise_gap_set_init = 1
elif CS.cruiseGapSet != 1.0:
self.cruise_gap_switch_timer += 1
if self.cruise_gap_switch_timer > 100:
can_sends.append(
create_clu11(self.packer, frame, CS.scc_bus, CS.clu11,
Buttons.GAP_DIST, clu11_speed))
self.cruise_gap_switch_timer = 0
# reset lead distnce after the car starts moving
elif self.last_lead_distance != 0:
self.last_lead_distance = 0
self.cruise_gap = 0
elif run_speed_ctrl and self.SC != None:
is_sc_run = self.SC.update(CS, sm, self)
if is_sc_run:
can_sends.append(
create_clu11(self.packer, self.resume_cnt, CS.scc_bus,
CS.clu11, self.SC.btn_type,
self.SC.sc_clu_speed))
self.resume_cnt += 1
else:
self.resume_cnt = 0
if self.dRel > 17 and self.cruise_gap_prev != CS.cruiseGapSet and self.cruise_gap_set_init == 1 and CS.out.cruiseState.modeSel != 3:
self.cruise_gap_switch_timer += 1
if self.cruise_gap_switch_timer > 50:
can_sends.append(
create_clu11(self.packer, frame, CS.scc_bus, CS.clu11,
Buttons.GAP_DIST, clu11_speed))
self.cruise_gap_switch_timer = 0
elif self.cruise_gap_prev == CS.cruiseGapSet:
self.cruise_gap_set_init = 0
self.cruise_gap_prev = 0
if CS.out.cruiseState.modeSel == 3 and CS.acc_active:
if 20 > self.dRel > 18 and self.vRel < 0 and CS.cruiseGapSet != 4.0:
self.cruise_gap_switch_timer += 1
if self.cruise_gap_switch_timer > 30:
can_sends.append(
create_clu11(self.packer, frame, CS.scc_bus, CS.clu11,
Buttons.GAP_DIST, clu11_speed))
self.cruise_gap_switch_timer = 0
elif 16 > self.dRel > 14 and self.vRel < 0 and CS.cruiseGapSet != 3.0:
self.cruise_gap_switch_timer += 1
if self.cruise_gap_switch_timer > 30:
can_sends.append(
create_clu11(self.packer, frame, CS.scc_bus, CS.clu11,
Buttons.GAP_DIST, clu11_speed))
self.cruise_gap_switch_timer = 0
elif 12 > self.dRel > 10 and self.vRel < 0 and CS.cruiseGapSet != 2.0:
self.cruise_gap_switch_timer += 1
if self.cruise_gap_switch_timer > 30:
can_sends.append(
create_clu11(self.packer, frame, CS.scc_bus, CS.clu11,
Buttons.GAP_DIST, clu11_speed))
self.cruise_gap_switch_timer = 0
elif 9 > self.dRel > 7 and self.vRel < 0 and CS.cruiseGapSet != 1.0:
self.cruise_gap_switch_timer += 1
if self.cruise_gap_switch_timer > 30:
can_sends.append(
create_clu11(self.packer, frame, CS.scc_bus, CS.clu11,
Buttons.GAP_DIST, clu11_speed))
self.cruise_gap_switch_timer = 0
elif 15 > self.dRel > 4 and self.vRel > 0 and CS.cruiseGapSet != 1.0:
self.cruise_gap_switch_timer += 1
if self.cruise_gap_switch_timer > 30:
can_sends.append(
create_clu11(self.packer, frame, CS.scc_bus, CS.clu11,
Buttons.GAP_DIST, clu11_speed))
self.cruise_gap_switch_timer = 0
elif 25 > self.dRel > 18 and self.vRel >= 0 and CS.cruiseGapSet != 2.0:
self.cruise_gap_switch_timer += 1
if self.cruise_gap_switch_timer > 30:
can_sends.append(
create_clu11(self.packer, frame, CS.scc_bus, CS.clu11,
Buttons.GAP_DIST, clu11_speed))
self.cruise_gap_switch_timer = 0
# 20 Hz LFA MFA message
#if frame % 5 == 0 and self.car_fingerprint in [CAR.IONIQ]:
# can_sends.append(create_lfa_mfa(self.packer, frame, enabled))
self.lkas11_cnt += 1
return can_sends
