def __init__(self, CP):
self.kegman = kegman_conf(CP)
self.kegtime_prev = 0
self.profiler = Profiler(False, 'LaC')
self.frame = 0
self.pid = PIController((CP.lateralTuning.pid.kpBP, CP.lateralTuning.pid.kpV),
(CP.lateralTuning.pid.kiBP, CP.lateralTuning.pid.kiV),
k_f=CP.lateralTuning.pid.kf)
self.angle_steers_des = 0.
self.polyReact = 1.
self.poly_damp = 0
self.poly_factor = CP.lateralTuning.pid.polyFactor
self.poly_scale = CP.lateralTuning.pid.polyScale
self.path_error_comp = 0.0
self.damp_angle_steers = 0.
self.damp_angle_rate = 0.
self.damp_steer = 0.1
self.react_steer = 0.01
self.react_mpc = 0.0
self.damp_mpc = 0.25
self.angle_ff_ratio = 0.0
self.angle_ff_gain = 1.0
self.rate_ff_gain = CP.lateralTuning.pid.rateFFGain
self.angle_ff_bp = [[0.5, 5.0],[0.0, 1.0]]
self.lateral_offset = 0.0
self.previous_integral = 0.0
self.damp_angle_steers= 0.0
self.damp_rate_steers_des = 0.0
self.damp_angle_steers_des = 0.0
self.limited_damp_angle_steers_des = 0.0
self.old_plan_count = 0
self.last_plan_time = 0
self.lane_change_adjustment = 1.0
self.angle_index = 0.
self.avg_plan_age = 0.
self.min_index = 0
self.max_index = 0
self.prev_angle_steers = 0.
self.c_prob = 0.
self.deadzone = 0.
self.starting_angle = 0.
self.projected_lane_error = 0.
self.prev_projected_lane_error = 0.
self.path_index = None #np.arange((30.))*100.0/15.0
self.angle_rate_des = 0.0 # degrees/sec, rate dynamically limited by accel_limit
self.fast_angles = [[]]
self.center_angles = []
self.live_tune(CP)
self.react_index = 0.0
self.next_params_put = 36000
self.zero_poly_crossed = 0
self.zero_steer_crossed = 0
try:
params = Params()
lateral_params = params.get("LateralGain")
lateral_params = json.loads(lateral_params)
self.angle_ff_gain = max(1.0, float(lateral_params['angle_ff_gain']))
except:
self.angle_ff_gain = 1.0
def data_sample(self):
self.prof = Profiler()
self.cur_time = sec_since_boot()
# first read can and compute car states
self.CS = self.CI.update()
self.prof.checkpoint("CarInterface")
# *** thermal checking logic ***
# thermal data, checked every second
td = messaging.recv_sock(self.thermal)
if td is not None:
# Check temperature.
self.overtemp = any(
t > 950
for t in (td.thermal.cpu0, td.thermal.cpu1, td.thermal.cpu2,
td.thermal.cpu3, td.thermal.mem, td.thermal.gpu))
# under 15% of space free
self.free_space = td.thermal.freeSpace
# read calibration status
cal = messaging.recv_sock(self.cal)
if cal is not None:
self.cal_status = cal.liveCalibration.calStatus
self.cal_perc = cal.liveCalibration.calPerc
def controlsd_thread(sm=None, pm=None, can_sock=None):
gc.disable()
# start the loop
set_realtime_priority(3)
params = Params()
is_metric = params.get("IsMetric") == "1"
passive = params.get("Passive") != "0"
# Pub/Sub Sockets
if pm is None:
pm = messaging.PubMaster([
'sendcan', 'controlsState', 'carState', 'carControl', 'carEvents',
'carParams'
])
if sm is None:
sm = messaging.SubMaster(['thermal', 'health', 'liveCalibration', 'driverMonitoring', 'plan', 'pathPlan', \
'gpsLocation'], ignore_alive=['gpsLocation'])
if can_sock is None:
can_timeout = None if os.environ.get('NO_CAN_TIMEOUT', False) else 100
can_sock = messaging.sub_sock(service_list['can'].port,
timeout=can_timeout)
# wait for health and CAN packets
hw_type = messaging.recv_one(sm.sock['health']).health.hwType
is_panda_black = hw_type == log.HealthData.HwType.blackPanda
print("Waiting for CAN messages...")
get_one_can(can_sock)
CI, CP = get_car(can_sock, pm.sock['sendcan'], is_panda_black)
car_recognized = CP.carName != 'mock'
# If stock camera is disconnected, we loaded car controls and it's not chffrplus
controller_available = CP.enableCamera and CI.CC is not None and not passive
read_only = not car_recognized or not controller_available or CP.dashcamOnly
if read_only:
CP.safetyModel = CP.safetyModelPassive
# Write CarParams for radard and boardd safety mode
params.put("CarParams", CP.to_bytes())
params.put("LongitudinalControl",
"1" if CP.openpilotLongitudinalControl else "0")
CC = car.CarControl.new_message()
AM = AlertManager()
startup_alert = get_startup_alert(car_recognized, controller_available)
AM.add(sm.frame, startup_alert, False)
LoC = LongControl(CP, CI.compute_gb)
VM = VehicleModel(CP)
if CP.lateralTuning.which() == 'pid':
LaC = LatControlPID(CP)
elif CP.lateralTuning.which() == 'indi':
LaC = LatControlINDI(CP)
elif CP.lateralTuning.which() == 'lqr':
LaC = LatControlLQR(CP)
driver_status = DriverStatus()
is_rhd = params.get("IsRHD")
if is_rhd is not None:
driver_status.is_rhd = bool(int(is_rhd))
state = State.disabled
soft_disable_timer = 0
v_cruise_kph = 255
v_cruise_kph_last = 0
overtemp = False
free_space = False
cal_status = Calibration.INVALID
cal_perc = 0
mismatch_counter = 0
low_battery = False
events_prev = []
sm['pathPlan'].sensorValid = True
sm['pathPlan'].posenetValid = True
# detect sound card presence
sounds_available = not os.path.isfile('/EON') or (
os.path.isdir('/proc/asound/card0')
and open('/proc/asound/card0/state').read().strip() == 'ONLINE')
# controlsd is driven by can recv, expected at 100Hz
rk = Ratekeeper(100, print_delay_threshold=None)
prof = Profiler(False) # off by default
while True:
start_time = sec_since_boot()
prof.checkpoint("Ratekeeper", ignore=True)
# Sample data and compute car events
CS, events, cal_status, cal_perc, overtemp, free_space, low_battery, mismatch_counter =\
data_sample(CI, CC, sm, can_sock, cal_status, cal_perc, overtemp, free_space, low_battery,
driver_status, state, mismatch_counter, params)
prof.checkpoint("Sample")
# Create alerts
if not sm.all_alive_and_valid():
events.append(
create_event('commIssue', [ET.NO_ENTRY, ET.SOFT_DISABLE]))
if not sm['pathPlan'].mpcSolutionValid:
events.append(
create_event('plannerError',
[ET.NO_ENTRY, ET.IMMEDIATE_DISABLE]))
if not sm['pathPlan'].sensorValid:
events.append(
create_event('sensorDataInvalid', [ET.NO_ENTRY, ET.PERMANENT]))
if not sm['pathPlan'].paramsValid:
events.append(create_event('vehicleModelInvalid', [ET.WARNING]))
if not sm['pathPlan'].posenetValid:
events.append(
create_event('posenetInvalid', [ET.NO_ENTRY, ET.SOFT_DISABLE]))
if not sm['plan'].radarValid:
events.append(
create_event('radarFault', [ET.NO_ENTRY, ET.SOFT_DISABLE]))
if sm['plan'].radarCanError:
events.append(
create_event('radarCanError', [ET.NO_ENTRY, ET.SOFT_DISABLE]))
if not CS.canValid:
events.append(
create_event('canError', [ET.NO_ENTRY, ET.IMMEDIATE_DISABLE]))
if not sounds_available:
events.append(
create_event('soundsUnavailable', [ET.NO_ENTRY, ET.PERMANENT]))
# Only allow engagement with brake pressed when stopped behind another stopped car
if CS.brakePressed and sm[
'plan'].vTargetFuture >= STARTING_TARGET_SPEED and not CP.radarOffCan and CS.vEgo < 0.3:
events.append(
create_event('noTarget', [ET.NO_ENTRY, ET.IMMEDIATE_DISABLE]))
if not read_only:
# update control state
state, soft_disable_timer, v_cruise_kph, v_cruise_kph_last = \
state_transition(sm.frame, CS, CP, state, events, soft_disable_timer, v_cruise_kph, AM)
prof.checkpoint("State transition")
# Compute actuators (runs PID loops and lateral MPC)
actuators, v_cruise_kph, driver_status, v_acc, a_acc, lac_log = \
state_control(sm.frame, sm.rcv_frame, sm['plan'], sm['pathPlan'], CS, CP, state, events, v_cruise_kph, v_cruise_kph_last, AM, rk,
driver_status, LaC, LoC, VM, read_only, is_metric, cal_perc)
prof.checkpoint("State Control")
# Publish data
CC, events_prev = data_send(sm, pm, CS, CI, CP, VM, state, events,
actuators, v_cruise_kph, rk, AM,
driver_status, LaC, LoC, read_only,
start_time, v_acc, a_acc, lac_log,
events_prev)
prof.checkpoint("Sent")
rk.monitor_time()
prof.display()
camera_scaler = joblib.load(os.path.expanduser('models/GRU_MaxAbs_%d_camera_%s.scaler' % (32, MODEL_VERSION)))
from selfdrive.kegman_conf import kegman_conf
from selfdrive.services import service_list
from selfdrive.car.honda.values import CAR
from enum import Enum
from cereal import log, car
from setproctitle import setproctitle
from common.params import Params, put_nonblocking
from common.profiler import Profiler
from tensorflow.python.keras.models import load_model
setproctitle('transcoderd')
params = Params()
profiler = Profiler(False, 'transcoder')
#kegman = kegman_conf()
BIT_MASK = [1, 128, 64, 32, 8, 4, 2, 8,
1, 128, 64, 32, 8, 4, 2, 8,
1, 128, 64, 32, 8, 4, 2, 8,
1, 128, 64, 32, 8, 4, 2, 8]
#import sys
#sys.stderr = open('../laterald.txt', 'w')
history_rows = []
for filename in os.listdir('models/'):
if filename[-5:] == '.hdf5':
if os.path.exists('models/models.json'):
models = []
with open('models/models.json', 'r') as f:
def controlsd_thread(gctx=None):
gc.disable()
# start the loop
set_realtime_priority(3)
context = zmq.Context()
params = Params()
# Pub Sockets
controlsstate = messaging.pub_sock(context,
service_list['controlsState'].port)
carstate = messaging.pub_sock(context, service_list['carState'].port)
carcontrol = messaging.pub_sock(context, service_list['carControl'].port)
is_metric = params.get("IsMetric") == "1"
passive = params.get("Passive") != "0"
sendcan = messaging.pub_sock(context, service_list['sendcan'].port)
# Sub sockets
poller = zmq.Poller()
thermal = messaging.sub_sock(context,
service_list['thermal'].port,
conflate=True,
poller=poller)
health = messaging.sub_sock(context,
service_list['health'].port,
conflate=True,
poller=poller)
cal = messaging.sub_sock(context,
service_list['liveCalibration'].port,
conflate=True,
poller=poller)
driver_monitor = messaging.sub_sock(context,
service_list['driverMonitoring'].port,
conflate=True,
poller=poller)
plan_sock = messaging.sub_sock(context,
service_list['plan'].port,
conflate=True,
poller=poller)
path_plan_sock = messaging.sub_sock(context,
service_list['pathPlan'].port,
conflate=True,
poller=poller)
logcan = messaging.sub_sock(context, service_list['can'].port)
CC = car.CarControl.new_message()
CI, CP = get_car(logcan, sendcan)
AM = AlertManager()
car_recognized = CP.carName != 'mock'
# If stock camera is disconnected, we loaded car controls and it's not chffrplus
controller_available = CP.enableCamera and CI.CC is not None and not passive
read_only = not car_recognized or not controller_available
if read_only:
CP.safetyModel = car.CarParams.SafetyModels.elm327 # diagnostic only
startup_alert = get_startup_alert(car_recognized, controller_available)
AM.add(startup_alert, False)
LoC = LongControl(CP, CI.compute_gb)
VM = VehicleModel(CP)
if CP.lateralTuning.which() == 'pid':
LaC = LatControlPID(CP)
else:
LaC = LatControlINDI(CP)
driver_status = DriverStatus()
# Write CarParams for radard and boardd safety mode
params.put("CarParams", CP.to_bytes())
params.put("LongitudinalControl",
"1" if CP.openpilotLongitudinalControl else "0")
state = State.disabled
soft_disable_timer = 0
v_cruise_kph = 255
v_cruise_kph_last = 0
overtemp = False
free_space = False
cal_status = Calibration.INVALID
cal_perc = 0
mismatch_counter = 0
low_battery = False
rcv_times = defaultdict(int)
plan = messaging.new_message()
plan.init('plan')
path_plan = messaging.new_message()
path_plan.init('pathPlan')
path_plan.pathPlan.sensorValid = True
# controlsd is driven by can recv, expected at 100Hz
rk = Ratekeeper(100, print_delay_threshold=None)
controls_params = params.get("ControlsParams")
# Read angle offset from previous drive
angle_model_bias = 0.
if controls_params is not None:
try:
controls_params = json.loads(controls_params)
angle_model_bias = controls_params['angle_model_bias']
except (ValueError, KeyError):
pass
prof = Profiler(False) # off by default
while True:
start_time = sec_since_boot()
prof.checkpoint("Ratekeeper", ignore=True)
# Sample data and compute car events
CS, events, cal_status, cal_perc, overtemp, free_space, low_battery, mismatch_counter, plan, path_plan =\
data_sample(rcv_times, CI, CC, plan_sock, path_plan_sock, thermal, cal, health, driver_monitor,
poller, cal_status, cal_perc, overtemp, free_space, low_battery, driver_status,
state, mismatch_counter, params, plan, path_plan)
prof.checkpoint("Sample")
# Create alerts
path_plan_age = start_time - rcv_times['pathPlan']
plan_age = start_time - rcv_times['plan']
if not path_plan.pathPlan.valid or plan_age > 0.5 or path_plan_age > 0.5:
events.append(
create_event('plannerError', [ET.NO_ENTRY, ET.SOFT_DISABLE]))
if not path_plan.pathPlan.sensorValid:
events.append(
create_event('sensorDataInvalid', [ET.NO_ENTRY, ET.PERMANENT]))
if not path_plan.pathPlan.paramsValid:
events.append(create_event('vehicleModelInvalid', [ET.WARNING]))
if not path_plan.pathPlan.modelValid:
events.append(
create_event('modelCommIssue', [ET.NO_ENTRY, ET.SOFT_DISABLE]))
if not plan.plan.radarValid:
events.append(
create_event('radarFault', [ET.NO_ENTRY, ET.SOFT_DISABLE]))
if plan.plan.radarCommIssue:
events.append(
create_event('radarCommIssue', [ET.NO_ENTRY, ET.SOFT_DISABLE]))
# Only allow engagement with brake pressed when stopped behind another stopped car
if CS.brakePressed and plan.plan.vTargetFuture >= STARTING_TARGET_SPEED and not CP.radarOffCan and CS.vEgo < 0.3:
events.append(
create_event('noTarget', [ET.NO_ENTRY, ET.IMMEDIATE_DISABLE]))
if not read_only:
# update control state
state, soft_disable_timer, v_cruise_kph, v_cruise_kph_last = \
state_transition(CS, CP, state, events, soft_disable_timer, v_cruise_kph, AM)
prof.checkpoint("State transition")
# Compute actuators (runs PID loops and lateral MPC)
actuators, v_cruise_kph, driver_status, angle_model_bias, v_acc, a_acc, lac_log = \
state_control(rcv_times, plan.plan, path_plan.pathPlan, CS, CP, state, events, v_cruise_kph,
v_cruise_kph_last, AM, rk, driver_status,
LaC, LoC, VM, angle_model_bias, read_only, is_metric, cal_perc)
prof.checkpoint("State Control")
# Publish data
CC = data_send(plan, path_plan, CS, CI, CP, VM, state, events,
actuators, v_cruise_kph, rk, carstate, carcontrol,
controlsstate, sendcan, AM, driver_status, LaC, LoC,
angle_model_bias, read_only, start_time, v_acc, a_acc,
lac_log)
prof.checkpoint("Sent")
rk.monitor_time()
prof.display()
def __init__(self, sm=None, pm=None, can_sock=None):
gc.disable()
set_realtime_priority(3)
self.trace_log = trace1.Loger("controlsd")
# Setup sockets
self.pm = pm
if self.pm is None:
self.pm = messaging.PubMaster(['sendcan', 'controlsState', 'carState', \
'carControl', 'carEvents', 'carParams'])
self.sm = sm
if self.sm is None:
socks = [
'thermal', 'health', 'model', 'liveCalibration',
'dMonitoringState', 'plan', 'pathPlan', 'liveLocationKalman'
]
self.sm = messaging.SubMaster(socks,
ignore_alive=['dMonitoringState'])
#self.sm = messaging.SubMaster(['thermal', 'health', 'model', 'liveCalibration', \
# 'dMonitoringState', 'plan', 'pathPlan', 'liveLocationKalman'])
print(" start_Controls messages...1")
self.can_sock = can_sock
if can_sock is None:
can_timeout = None if os.environ.get('NO_CAN_TIMEOUT',
False) else 100
self.can_sock = messaging.sub_sock('can', timeout=can_timeout)
print(" start_Controls messages...2")
# wait for one health and one CAN packet
hw_type = messaging.recv_one(self.sm.sock['health']).health.hwType
has_relay = hw_type in [HwType.blackPanda, HwType.uno]
print("Waiting for CAN messages...")
messaging.get_one_can(self.can_sock)
self.CI, self.CP = get_car(self.can_sock, self.pm.sock['sendcan'],
has_relay)
# read params
params = Params()
self.is_metric = params.get("IsMetric", encoding='utf8') == "1"
self.is_ldw_enabled = params.get("IsLdwEnabled",
encoding='utf8') == "1"
internet_needed = params.get("Offroad_ConnectivityNeeded",
encoding='utf8') is not None
community_feature_toggle = params.get("CommunityFeaturesToggle",
encoding='utf8') == "1"
openpilot_enabled_toggle = params.get("OpenpilotEnabledToggle",
encoding='utf8') == "1"
passive = params.get("Passive", encoding='utf8') == "1" or \
internet_needed or not openpilot_enabled_toggle
# detect sound card presence and ensure successful init
sounds_available = not os.path.isfile('/EON') or (os.path.isfile('/proc/asound/card0/state') \
and open('/proc/asound/card0/state').read().strip() == 'ONLINE')
car_recognized = self.CP.carName != 'mock'
# If stock camera is disconnected, we loaded car controls and it's not dashcam mode
controller_available = self.CP.enableCamera and self.CI.CC is not None and not passive
community_feature_disallowed = self.CP.communityFeature and not community_feature_toggle
self.read_only = not car_recognized or not controller_available or \
self.CP.dashcamOnly or community_feature_disallowed
if self.read_only:
self.CP.safetyModel = car.CarParams.SafetyModel.noOutput
# Write CarParams for radard and boardd safety mode
cp_bytes = self.CP.to_bytes()
params.put("CarParams", cp_bytes)
put_nonblocking("CarParamsCache", cp_bytes)
put_nonblocking("LongitudinalControl",
"1" if self.CP.openpilotLongitudinalControl else "0")
self.CC = car.CarControl.new_message()
self.AM = AlertManager()
self.events = Events()
self.LoC = LongControl(self.CP, self.CI.compute_gb)
self.VM = VehicleModel(self.CP)
print('self.CP.lateralTuning.which()={}'.format(
self.CP.lateralTuning.which()))
if self.CP.lateralTuning.which() == 'pid':
self.LaC = LatControlPID(self.CP)
elif self.CP.lateralTuning.which() == 'indi':
self.LaC = LatControlINDI(self.CP)
elif self.CP.lateralTuning.which() == 'lqr':
self.LaC = LatControlLQR(self.CP)
self.state = State.disabled
self.enabled = False
self.active = False
self.can_rcv_error = False
self.soft_disable_timer = 0
self.v_cruise_kph = 255
self.v_cruise_kph_last = 0
self.mismatch_counter = 0
self.can_error_counter = 0
self.consecutive_can_error_count = 0
self.last_blinker_frame = 0
self.saturated_count = 0
self.events_prev = []
self.current_alert_types = []
self.sm['liveCalibration'].calStatus = Calibration.INVALID
self.sm['thermal'].freeSpace = 1.
self.sm['dMonitoringState'].events = []
self.sm['dMonitoringState'].awarenessStatus = 1.
self.sm['dMonitoringState'].faceDetected = False
self.startup_event = get_startup_event(car_recognized,
controller_available, hw_type)
if not sounds_available:
self.events.add(EventName.soundsUnavailable, static=True)
if internet_needed:
self.events.add(EventName.internetConnectivityNeeded, static=True)
if community_feature_disallowed:
self.events.add(EventName.communityFeatureDisallowed, static=True)
if self.read_only and not passive:
self.events.add(EventName.carUnrecognized, static=True)
# if hw_type == HwType.whitePanda:
# self.events.add(EventName.whitePandaUnsupported, static=True)
uname = subprocess.check_output(["uname", "-v"],
encoding='utf8').strip()
if uname == "#1 SMP PREEMPT Wed Jun 10 12:40:53 PDT 2020":
self.events.add(EventName.neosUpdateRequired, static=True)
# controlsd is driven by can recv, expected at 100Hz
self.rk = Ratekeeper(100, print_delay_threshold=None)
self.prof = Profiler(False) # off by default
self.hyundai_lkas = self.read_only #read_only
self.init_flag = True
def controlsd_thread(gctx, rate=100):
# start the loop
set_realtime_priority(2)
context = zmq.Context()
params = Params()
# pub
live100 = messaging.pub_sock(context, service_list['live100'].port)
carstate = messaging.pub_sock(context, service_list['carState'].port)
carcontrol = messaging.pub_sock(context, service_list['carControl'].port)
livempc = messaging.pub_sock(context, service_list['liveMpc'].port)
passive = params.get("Passive") != "0"
if not passive:
sendcan = messaging.pub_sock(context, service_list['sendcan'].port)
else:
sendcan = None
# sub
thermal = messaging.sub_sock(context, service_list['thermal'].port)
health = messaging.sub_sock(context, service_list['health'].port)
cal = messaging.sub_sock(context, service_list['liveCalibration'].port)
logcan = messaging.sub_sock(context, service_list['can'].port)
CC = car.CarControl.new_message()
CI, CP = get_car(logcan, sendcan, 1.0 if passive else None)
if CI is None:
if passive:
return
else:
raise Exception("unsupported car")
if passive:
CP.safetyModel = car.CarParams.SafetyModels.noOutput
fcw_enabled = params.get("IsFcwEnabled") == "1"
PL = Planner(CP, fcw_enabled)
LoC = LongControl(CP, CI.compute_gb)
VM = VehicleModel(CP)
LaC = LatControl(VM)
AM = AlertManager()
if not passive:
AM.add("startup", False)
# write CarParams
params.put("CarParams", CP.to_bytes())
state = State.DISABLED
soft_disable_timer = 0
v_cruise_kph = 255
overtemp = False
free_space = False
cal_status = Calibration.UNCALIBRATED
rear_view_toggle = False
rear_view_allowed = params.get("IsRearViewMirror") == "1"
# 0.0 - 1.0
awareness_status = 1.
rk = Ratekeeper(rate, print_delay_threshold=2./1000)
# learned angle offset
angle_offset = 1.5 # Default model bias
calibration_params = params.get("CalibrationParams")
if calibration_params:
try:
calibration_params = json.loads(calibration_params)
angle_offset = calibration_params["angle_offset"]
except (ValueError, KeyError):
pass
prof = Profiler()
while 1:
prof.reset() # avoid memory leak
# sample data and compute car events
CS, events, cal_status, overtemp, free_space = data_sample(CI, CC, thermal, health, cal, cal_status,
overtemp, free_space)
prof.checkpoint("Sample")
# define plan
plan, plan_ts = calc_plan(CS, events, PL, LoC, v_cruise_kph, awareness_status)
prof.checkpoint("Plan")
if not passive:
# update control state
state, soft_disable_timer, v_cruise_kph = state_transition(CS, CP, state, events, soft_disable_timer, v_cruise_kph, AM)
prof.checkpoint("State transition")
# compute actuators
actuators, v_cruise_kph, awareness_status, angle_offset, rear_view_toggle = state_control(plan, CS, CP, state, events, v_cruise_kph,
AM, rk, awareness_status, PL, LaC, LoC, VM, angle_offset,
rear_view_allowed, rear_view_toggle)
prof.checkpoint("State Control")
# publish data
CC = data_send(plan, plan_ts, CS, CI, CP, state, events, actuators, v_cruise_kph,
rk, carstate, carcontrol, live100, livempc, AM, rear_view_allowed,
rear_view_toggle, awareness_status, LaC, LoC, angle_offset, passive)
prof.checkpoint("Sent")
# *** run loop at fixed rate ***
if rk.keep_time():
prof.display()
def controlsd_thread(gctx=None, rate=100, default_bias=0.):
gc.disable()
# start the loop
set_realtime_priority(3)
context = zmq.Context()
params = Params()
# pub
live100 = messaging.pub_sock(context, service_list['live100'].port)
carstate = messaging.pub_sock(context, service_list['carState'].port)
carcontrol = messaging.pub_sock(context, service_list['carControl'].port)
livempc = messaging.pub_sock(context, service_list['liveMpc'].port)
is_metric = params.get("IsMetric") == "1"
passive = params.get("Passive") != "0"
if not passive:
while 1:
try:
sendcan = messaging.pub_sock(context,
service_list['sendcan'].port)
break
except zmq.error.ZMQError:
kill_defaultd()
else:
sendcan = None
# sub
poller = zmq.Poller()
thermal = messaging.sub_sock(context,
service_list['thermal'].port,
conflate=True,
poller=poller)
health = messaging.sub_sock(context,
service_list['health'].port,
conflate=True,
poller=poller)
cal = messaging.sub_sock(context,
service_list['liveCalibration'].port,
conflate=True,
poller=poller)
driver_monitor = messaging.sub_sock(context,
service_list['driverMonitoring'].port,
conflate=True,
poller=poller)
gps_location = messaging.sub_sock(context,
service_list['gpsLocationExternal'].port,
conflate=True,
poller=poller)
logcan = messaging.sub_sock(context, service_list['can'].port)
CC = car.CarControl.new_message()
CI, CP = get_car(logcan, sendcan, 1.0 if passive else None)
if CI is None:
raise Exception("unsupported car")
# if stock camera is connected, then force passive behavior
if not CP.enableCamera:
passive = True
sendcan = None
if passive:
CP.safetyModel = car.CarParams.SafetyModels.noOutput
fcw_enabled = params.get("IsFcwEnabled") == "1"
geofence = None
PL = Planner(CP, fcw_enabled)
LoC = LongControl(CP, CI.compute_gb)
VM = VehicleModel(CP)
LaC = LatControl(VM)
AM = AlertManager()
driver_status = DriverStatus()
if not passive:
AM.add("startup", False)
# write CarParams
params.put("CarParams", CP.to_bytes())
state = State.disabled
soft_disable_timer = 0
v_cruise_kph = 255
v_cruise_kph_last = 0
overtemp = False
free_space = False
cal_status = Calibration.INVALID
cal_perc = 0
mismatch_counter = 0
low_battery = False
rk = Ratekeeper(rate, print_delay_threshold=2. / 1000)
# learned angle offset
angle_offset = default_bias
calibration_params = params.get("CalibrationParams")
if calibration_params:
try:
calibration_params = json.loads(calibration_params)
angle_offset = calibration_params["angle_offset2"]
except (ValueError, KeyError):
pass
prof = Profiler(False) # off by default
while 1:
prof.checkpoint("Ratekeeper", ignore=True)
# sample data and compute car events
CS, events, cal_status, cal_perc, overtemp, free_space, low_battery, mismatch_counter = data_sample(
CI, CC, thermal, cal, health, driver_monitor, gps_location, poller,
cal_status, cal_perc, overtemp, free_space, low_battery,
driver_status, geofence, state, mismatch_counter, params)
prof.checkpoint("Sample")
# define plan
plan, plan_ts = calc_plan(CS, CP, events, PL, LaC, LoC, v_cruise_kph,
driver_status, geofence)
prof.checkpoint("Plan")
if not passive:
# update control state
state, soft_disable_timer, v_cruise_kph, v_cruise_kph_last = \
state_transition(CS, CP, state, events, soft_disable_timer, v_cruise_kph, AM)
prof.checkpoint("State transition")
# compute actuators
actuators, v_cruise_kph, driver_status, angle_offset = state_control(
plan, CS, CP, state, events, v_cruise_kph, v_cruise_kph_last, AM,
rk, driver_status, PL, LaC, LoC, VM, angle_offset, passive,
is_metric, cal_perc)
prof.checkpoint("State Control")
# publish data
CC = data_send(PL.perception_state, plan, plan_ts, CS, CI, CP, VM,
state, events, actuators, v_cruise_kph, rk, carstate,
carcontrol, live100, livempc, AM, driver_status, LaC,
LoC, angle_offset, passive)
prof.checkpoint("Sent")
# *** run loop at fixed rate ***
rk.keep_time()
prof.display()
def __init__(self, sm=None, pm=None, can_sock=None):
config_realtime_process(4 if TICI else 3, Priority.CTRL_HIGH)
# Setup sockets
self.pm = pm
if self.pm is None:
self.pm = messaging.PubMaster([
'sendcan', 'controlsState', 'carState', 'carControl',
'carEvents', 'carParams'
])
self.camera_packets = ["roadCameraState", "driverCameraState"]
if TICI:
self.camera_packets.append("wideRoadCameraState")
params = Params()
self.joystick_mode = params.get_bool("JoystickDebugMode")
joystick_packet = ['testJoystick'] if self.joystick_mode else []
self.sm = sm
if self.sm is None:
ignore = ['driverCameraState', 'managerState'
] if SIMULATION else None
self.sm = messaging.SubMaster(
[
'deviceState', 'pandaStates', 'peripheralState', 'modelV2',
'liveCalibration', 'driverMonitoringState',
'longitudinalPlan', 'lateralPlan', 'liveLocationKalman',
'managerState', 'liveParameters', 'radarState'
] + self.camera_packets + joystick_packet,
ignore_alive=ignore,
ignore_avg_freq=['radarState', 'longitudinalPlan'])
self.can_sock = can_sock
if can_sock is None:
can_timeout = None if os.environ.get('NO_CAN_TIMEOUT',
False) else 100
self.can_sock = messaging.sub_sock('can', timeout=can_timeout)
if TICI:
self.log_sock = messaging.sub_sock('androidLog')
# wait for one pandaState and one CAN packet
print("Waiting for CAN messages...")
get_one_can(self.can_sock)
self.CI, self.CP = get_car(self.can_sock, self.pm.sock['sendcan'])
# read params
self.is_metric = params.get_bool("IsMetric")
self.is_ldw_enabled = params.get_bool("IsLdwEnabled")
community_feature_toggle = params.get_bool("CommunityFeaturesToggle")
openpilot_enabled_toggle = params.get_bool("OpenpilotEnabledToggle")
passive = params.get_bool("Passive") or not openpilot_enabled_toggle
# detect sound card presence and ensure successful init
sounds_available = HARDWARE.get_sound_card_online()
car_recognized = self.CP.carName != 'mock'
controller_available = self.CI.CC is not None and not passive and not self.CP.dashcamOnly
community_feature = self.CP.communityFeature or \
self.CP.fingerprintSource == car.CarParams.FingerprintSource.can
community_feature_disallowed = community_feature and (
not community_feature_toggle)
self.read_only = not car_recognized or not controller_available or \
self.CP.dashcamOnly or community_feature_disallowed
if self.read_only:
safety_config = car.CarParams.SafetyConfig.new_message()
safety_config.safetyModel = car.CarParams.SafetyModel.noOutput
self.CP.safetyConfigs = [safety_config]
# Write CarParams for radard
cp_bytes = self.CP.to_bytes()
params.put("CarParams", cp_bytes)
put_nonblocking("CarParamsCache", cp_bytes)
self.CC = car.CarControl.new_message()
self.AM = AlertManager()
self.events = Events()
self.LoC = LongControl(self.CP)
self.VM = VehicleModel(self.CP)
if self.CP.steerControlType == car.CarParams.SteerControlType.angle:
self.LaC = LatControlAngle(self.CP)
elif self.CP.lateralTuning.which() == 'pid':
self.LaC = LatControlPID(self.CP, self.CI)
elif self.CP.lateralTuning.which() == 'indi':
self.LaC = LatControlINDI(self.CP)
elif self.CP.lateralTuning.which() == 'lqr':
self.LaC = LatControlLQR(self.CP)
self.initialized = False
self.state = State.disabled
self.enabled = False
self.active = False
self.can_rcv_error = False
self.soft_disable_timer = 0
self.v_cruise_kph = 255
self.v_cruise_kph_last = 0
self.mismatch_counter = 0
self.can_error_counter = 0
self.last_blinker_frame = 0
self.saturated_count = 0
self.distance_traveled = 0
self.last_functional_fan_frame = 0
self.events_prev = []
self.current_alert_types = [ET.PERMANENT]
self.logged_comm_issue = False
self.button_timers = {
ButtonEvent.Type.decelCruise: 0,
ButtonEvent.Type.accelCruise: 0
}
# TODO: no longer necessary, aside from process replay
self.sm['liveParameters'].valid = True
self.startup_event = get_startup_event(car_recognized,
controller_available,
len(self.CP.carFw) > 0)
if not sounds_available:
self.events.add(EventName.soundsUnavailable, static=True)
if community_feature_disallowed and car_recognized and not self.CP.dashcamOnly:
self.events.add(EventName.communityFeatureDisallowed, static=True)
if not car_recognized:
self.events.add(EventName.carUnrecognized, static=True)
elif self.read_only:
self.events.add(EventName.dashcamMode, static=True)
elif self.joystick_mode:
self.events.add(EventName.joystickDebug, static=True)
self.startup_event = None
# controlsd is driven by can recv, expected at 100Hz
self.rk = Ratekeeper(100, print_delay_threshold=None)
self.prof = Profiler(False) # off by default
def controlsd_thread(gctx=None, rate=100, default_bias=0.):
gc.disable()
# start the loop
set_realtime_priority(3)
context = zmq.Context()
params = Params()
# pub
live100 = messaging.pub_sock(context, service_list['live100'].port)
carstate = messaging.pub_sock(context, service_list['carState'].port)
carcontrol = messaging.pub_sock(context, service_list['carControl'].port)
livempc = messaging.pub_sock(context, service_list['liveMpc'].port)
is_metric = params.get("IsMetric") == "1"
passive = params.get("Passive") != "0"
if not passive:
while 1:
try:
sendcan = messaging.pub_sock(context,
service_list['sendcan'].port)
break
except zmq.error.ZMQError:
kill_defaultd()
else:
sendcan = None
# sub
poller = zmq.Poller()
thermal = messaging.sub_sock(context,
service_list['thermal'].port,
conflate=True,
poller=poller)
health = messaging.sub_sock(context,
service_list['health'].port,
conflate=True,
poller=poller)
cal = messaging.sub_sock(context,
service_list['liveCalibration'].port,
conflate=True,
poller=poller)
driver_monitor = messaging.sub_sock(context,
service_list['driverMonitoring'].port,
conflate=True,
poller=poller)
gps_location = messaging.sub_sock(context,
service_list['gpsLocationExternal'].port,
conflate=True,
poller=poller)
logcan = messaging.sub_sock(context, service_list['can'].port)
CC = car.CarControl.new_message()
CI, CP = get_car(logcan, sendcan, 1.0 if passive else None)
if CI is None:
raise Exception("unsupported car")
# if stock camera is connected, then force passive behavior
if not CP.enableCamera:
passive = True
sendcan = None
if passive:
CP.safetyModel = car.CarParams.SafetyModels.noOutput
fcw_enabled = params.get("IsFcwEnabled") == "1"
geofence = None
PL = Planner(CP, fcw_enabled)
LoC = LongControl(CP, CI.compute_gb)
VM = VehicleModel(CP)
LaC = LatControl(VM)
AM = AlertManager()
driver_status = DriverStatus()
if not passive:
AM.add("startup", False)
# write CarParams
params.put("CarParams", CP.to_bytes())
state = State.disabled
soft_disable_timer = 0
v_cruise_kph = 255
v_cruise_kph_last = 0
overtemp = False
free_space = False
cal_status = Calibration.INVALID
cal_perc = 0
mismatch_counter = 0
low_battery = False
rk = Ratekeeper(rate, print_delay_threshold=2. / 1000)
# learned angle offset
angle_offset = default_bias
calibration_params = params.get("CalibrationParams")
if calibration_params:
try:
calibration_params = json.loads(calibration_params)
angle_offset = calibration_params["angle_offset2"]
except (ValueError, KeyError):
pass
prof = Profiler(False) # off by default
# Setup for real-time tuning
rt_tuning_file = '/data/.openpilot_rtt_params.pkl'
rtt_params = {}
last_mod_time = 0
while 1:
prof.checkpoint("Ratekeeper", ignore=True)
# sample data and compute car events
CS, events, cal_status, cal_perc, overtemp, free_space, low_battery, mismatch_counter = data_sample(
CI, CC, thermal, cal, health, driver_monitor, gps_location, poller,
cal_status, cal_perc, overtemp, free_space, low_battery,
driver_status, geofence, state, mismatch_counter, params)
prof.checkpoint("Sample")
# define plan
plan, plan_ts = calc_plan(CS, CP, events, PL, LaC, LoC, v_cruise_kph,
driver_status, geofence)
prof.checkpoint("Plan")
if not passive:
# update control state
state, soft_disable_timer, v_cruise_kph, v_cruise_kph_last = \
state_transition(CS, CP, state, events, soft_disable_timer, v_cruise_kph, AM)
prof.checkpoint("State transition")
# compute actuators
actuators, v_cruise_kph, driver_status, angle_offset = state_control(
plan, CS, CP, state, events, v_cruise_kph, v_cruise_kph_last, AM,
rk, driver_status, PL, LaC, LoC, VM, angle_offset, passive,
is_metric, cal_perc)
prof.checkpoint("State Control")
# publish data
CC = data_send(PL.perception_state, plan, plan_ts, CS, CI, CP, VM,
state, events, actuators, v_cruise_kph, rk, carstate,
carcontrol, live100, livempc, AM, driver_status, LaC,
LoC, angle_offset, passive)
prof.checkpoint("Sent")
###################### Real-Time Tuning Add-on ########################
# TODO: Move this into it's own function to clean things up
# TODO: Need to delay until fingerprint, or is this after already?
# Run this once per second... on frame 29, of course.
if rk.frame % 100 == 29:
# Get the last update time of our real-time tuning file
#print('Real-Time Tuning: Checking tuning file modification time.')
try:
mod_time = os.path.getmtime(rt_tuning_file)
#print('RTT mod_time: {0}'.format(mod_time))
except OSError:
# File doesn't exist or is inaccessible
mod_time = None
print(
'Real-Time Tuning: RT_TUNING_FILE did not exist or was inaccessible.'
)
# If rt_tuning_file doesn't exist, then create it from the current CarParams:
if mod_time is None:
rtt_params['steerKpBP'] = list(
CP.steerKpBP
) # Note that the Kp/Ki are lists! But if you reference them directly they are <capnp list builder []>.. oops.
rtt_params['steerKpV'] = list(CP.steerKpV)
rtt_params['steerKiBP'] = list(CP.steerKiBP)
rtt_params['steerKiV'] = list(CP.steerKiV)
rtt_params['steerKf'] = CP.steerKf
# TODO: Give the option to link the front and rear tire stiffness changes together
rtt_params['tireStiffnessFront'] = CP.tireStiffnessFront
rtt_params['tireStiffnessRear'] = CP.tireStiffnessRear
rtt_params['steerRatio'] = CP.steerRatio
rtt_params['steerRateCost'] = CP.steerRateCost
rtt_params['latPidDeadzone'] = 0.0
rtt_params['steerActuatorDelay'] = CP.steerActuatorDelay
# rtt_params['Camera Offset'] = PL.PP.cam_offset
# Write the pickle file
# TODO: try/except the open
with open(rt_tuning_file, "wb") as f_write:
pickle.dump(
rtt_params, f_write,
-1) # Dump to file with highest protocol (fastest)
# No need to update next time if we just wrote the file out...
last_mod_time = os.path.getmtime(rt_tuning_file)
#print('RTT Last_mod_time: {0}'.format(last_mod_time))
# If file exists and has been updated since the last time we read it in
elif last_mod_time != mod_time:
print(
'Real-Time Tuning: Reading in the modified tuning file.')
# Read in parameters from file
# TODO: try/except the open
with open(rt_tuning_file, "rb") as f_read:
rtt_params = pickle.load(f_read)
# Sanity check the data before setting it.. format is [min, max, failsafe]
# Failsafe is used if a value is not found or if the value sent is out of the range limits
rt_data_limits = {
'steerKpBP': [0.0, 67.0, 0.0],
'steerKpV': [0.0, 1.0, 0.2],
'steerKiBP': [0.0, 67.0, 0.0],
'steerKiV': [0.0, 1.0, 0.05],
'steerKf': [0.0, 0.001, 0.00005],
'tireStiffnessFront': [20000, 1000000, 192150],
'tireStiffnessRear': [20000, 1000000, 202500],
'steerRatio': [8.0, 25.0, 14.0],
'steerRateCost': [0.05, 1.0, 0.5],
'latPidDeadzone': [0.0, 4.0, 0.0],
'steerActuatorDelay': [0.0, 0.5, 0.1]
# 'Camera Offset': [ -0.2, 0.2, 0.06 ]
}
# Do the checks and set the values
for key in rt_data_limits:
rt_val = rtt_params.get(key)
if rt_val is None:
# If this key from data limits doesn't exist in our tuning data, then add it as the failsafe
# TODO: Use CP value here instead of failsafe?
rtt_params[key] = rt_data_limits[key][2]
print(
'Real-Time Tuning: Value did not exist in tuning file, replaced with failsafe. Key: '
+ key)
continue
# If it does exist, then check the values. First see if it's a list
try:
# If it's an iterable list...
for i, val2 in enumerate(rt_val):
# Check each value in the list
if (val2 < rt_data_limits[key][0]) or (
val2 > rt_data_limits[key][1]):
rt_val[i] = rt_data_limits[key][2]
print(
'Real-Time Tuning: Invalid value replaced! Key: '
+ key)
except:
# Not interable, compare it and fix if necessary
if (rt_val < rt_data_limits[key][0]) or (
rt_val > rt_data_limits[key][1]):
rt_val = rt_data_limits[key][2]
print(
'Real-Time Tuning: Invalid value replaced! Key: '
+ key)
# Set it back so if anything was fixed we have the updated value
rtt_params[key] = rt_val
# Update CP with the new params
CP.steerKpBP = rtt_params['steerKpBP']
CP.steerKpV = rtt_params['steerKpV']
CP.steerKiBP = rtt_params['steerKiBP']
CP.steerKiV = rtt_params['steerKiV']
CP.steerKf = rtt_params['steerKf']
CP.tireStiffnessFront = rtt_params['tireStiffnessFront']
CP.tireStiffnessRear = rtt_params['tireStiffnessRear']
CP.steerRatio = rtt_params['steerRatio']
CP.steerActuatorDelay = rtt_params['steerActuatorDelay']
if CP.steerRateCost != rtt_params['steerRateCost']:
print(CP.steerRateCost)
print(rtt_params['steerRateCost'])
CP.steerRateCost = rtt_params['steerRateCost']
rt_mpc_flag = True
print(
'Real-Time Tuning: CP.steerRateCost changed - Re-initializing lateral MPC.'
)
else:
rt_mpc_flag = False
# TODO: try/except the open
# Write the pickle file back so if we fixed any data errors the revised values will show up on the client-side
with open(rt_tuning_file, "wb") as f_write:
pickle.dump(
rtt_params, f_write,
-1) # Dump to file with highest protocol (fastest)
# Set the last modified time to this write.... we don't need to read back in what we just wrote out
# Only set this if we were able to successfully make the write (once the try/except is added)
last_mod_time = os.path.getmtime(rt_tuning_file)
# Make updates in latcontrol, etc. I'm not sure if this is actually necessary, depends on if the objects are referenced or not. Anyway, one less thing to debug atm.
VM.update_rt_params(CP)
LaC.update_rt_params(VM,
rt_mpc_flag,
deadzone=rtt_params['latPidDeadzone'])
#PL.PP.update_rt_params(rtt_params['Camera Offset'])
#print('RTT Last_mod_time: {0}'.format(last_mod_time))
####### END OF REAL-TIME TUNING ADD-ON #######
# *** run loop at fixed rate ***
rk.keep_time()
prof.display()
def controlsd_thread(gctx=None, rate=100):
gc.disable()
# start the loop
set_realtime_priority(3)
##### AS
context = zmq.Context()
live100 = messaging.pub_sock(context, service_list['live100'].port)
carstate = messaging.pub_sock(context, service_list['carState'].port)
carcontrol = messaging.pub_sock(context, service_list['carControl'].port)
carla_socket = context.socket(zmq.PAIR)
carla_socket.bind("tcp://*:5560")
is_metric = True
passive = True
##### AS
# No sendcan if passive
if not passive:
sendcan = messaging.pub_sock(context, service_list['sendcan'].port)
else:
sendcan = None
# Sub sockets
poller = zmq.Poller()
#thermal = messaging.sub_sock(context, service_list['thermal'].port, conflate=True, poller=poller)
#health = messaging.sub_sock(context, service_list['health'].port, conflate=True, poller=poller)
cal = messaging.sub_sock(context,
service_list['liveCalibration'].port,
conflate=True,
poller=poller)
#driver_monitor = messaging.sub_sock(context, service_list['driverMonitoring'].port, conflate=True, poller=poller)
plan_sock = messaging.sub_sock(context,
service_list['plan'].port,
conflate=True,
poller=poller)
path_plan_sock = messaging.sub_sock(context,
service_list['pathPlan'].port,
conflate=True,
poller=poller)
#logcan = messaging.sub_sock(context, service_list['can'].port)
CC = car.CarControl.new_message()
CP = ToyotaInterface.get_params("TOYOTA PRIUS 2017", {})
CP.steerRatio = 1.0
CI = ToyotaInterface(CP, sendcan)
if CI is None:
raise Exception("unsupported car")
# if stock camera is connected, then force passive behavior
if not CP.enableCamera:
passive = True
sendcan = None
if passive:
CP.safetyModel = car.CarParams.SafetyModels.noOutput
LoC = LongControl(CP, CI.compute_gb)
VM = VehicleModel(CP)
LaC = LatControl(CP)
AM = AlertManager()
if not passive:
AM.add("startup", False)
state = State.enabled
soft_disable_timer = 0
v_cruise_kph = 50 ##### !!! change
v_cruise_kph_last = 0 ##### !! change
cal_status = Calibration.INVALID
cal_perc = 0
plan = messaging.new_message()
plan.init('plan')
path_plan = messaging.new_message()
path_plan.init('pathPlan')
rk = Ratekeeper(rate, print_delay_threshold=2. / 1000)
angle_offset = 0.
prof = Profiler(False) # off by default
startup = True ##### AS
while True:
start_time = int(sec_since_boot() * 1e9)
prof.checkpoint("Ratekeeper", ignore=True)
# Sample data and compute car events
CS, events, cal_status, cal_perc, plan, path_plan =\
data_sample(CI, CC, plan_sock, path_plan_sock, cal, poller, cal_status, cal_perc, state, plan, path_plan, v_cruise_kph)
prof.checkpoint("Sample")
##### AS since we dont do preenabled state
if startup:
LaC.reset()
LoC.reset(v_pid=CS.vEgo)
if cal_status != Calibration.CALIBRATED:
continue
startup = False
path_plan_age = (start_time - path_plan.logMonoTime) / 1e9
plan_age = (start_time - plan.logMonoTime) / 1e9
if not path_plan.pathPlan.valid or plan_age > 0.5 or path_plan_age > 0.5:
print 'planner time too long'
#events.append(create_event('plannerError', [ET.NO_ENTRY, ET.SOFT_DISABLE]))
events += list(plan.plan.events)
# Only allow engagement with brake pressed when stopped behind another stopped car
#if CS.brakePressed and plan.plan.vTargetFuture >= STARTING_TARGET_SPEED and not CP.radarOffCan and CS.vEgo < 0.3:
# events.append(create_event('noTarget', [ET.NO_ENTRY, ET.IMMEDIATE_DISABLE]))
if not passive:
# update control state
state, soft_disable_timer, v_cruise_kph, v_cruise_kph_last = \
state_transition(CS, CP, state, events, soft_disable_timer, v_cruise_kph, AM)
prof.checkpoint("State transition")
# Compute actuators (runs PID loops and lateral MPC)
actuators, v_cruise_kph, angle_offset, v_acc, a_acc = \
state_control(plan.plan, path_plan.pathPlan, CS, CP, state, events, v_cruise_kph,
v_cruise_kph_last, AM, rk,
LaC, LoC, VM, angle_offset, passive, is_metric, cal_perc)
prof.checkpoint("State Control")
# Publish data
CC = data_send(plan, path_plan, CS, CI, CP, VM, state, events,
actuators, v_cruise_kph, rk, carstate, carcontrol,
live100, AM, LaC, LoC, angle_offset, passive,
start_time, v_acc, a_acc, carla_socket)
prof.checkpoint("Sent")
rk.keep_time() # Run at 100Hz, no 20 Hz
prof.display()
def controlsd_thread(gctx=None):
setproctitle('controlsd')
params = Params()
print(params)
# Pub Sockets
profiler = Profiler(True, 'controls')
sendcan = messaging.pub_sock(service_list['sendcan'].port)
controlsstate = messaging.pub_sock(service_list['controlsState'].port)
carstate = None #messaging.pub_sock(service_list['carState'].port)
carcontrol = messaging.pub_sock(service_list['carControl'].port)
carevents = messaging.pub_sock(service_list['carEvents'].port)
carparams = messaging.pub_sock(service_list['carParams'].port)
sm = messaging.SubMaster(['pathPlan', 'health', 'gpsLocationExternal'])
can_sock = messaging.sub_sock(service_list['can'].port)
hw_type = messaging.recv_one(sm.sock['health']).health.hwType
is_panda_black = hw_type == log.HealthData.HwType.blackPanda
print("panda black: ", is_panda_black)
wait_for_can(can_sock)
CI, CP = get_car(can_sock, sendcan, is_panda_black)
#logcan.close()
# TODO: Use the logcan socket from above, but that will currenly break the tests
#can_timeout = None #if os.environ.get('NO_CAN_TIMEOUT', False) else 100
#can_sock = messaging.sub_sock(service_list['can'].port, timeout=can_timeout)
# Write CarParams for radard and boardd safety mode
params.put("CarParams", CP.to_bytes())
params.put("LongitudinalControl",
"1" if CP.openpilotLongitudinalControl else "0")
CC = car.CarControl.new_message()
AM = AlertManager()
startup_alert = get_startup_alert(True, True)
AM.add(sm.frame, startup_alert, False)
LaC = LatControlPID(CP)
lateral = Lateral(CP)
lkasMode = int(float(LaC.kegman.conf['lkasMode']))
#CI.CS.lkasMode = (lkasMode == 0)
lac_log = None #car.CarState.lateralControlState.pidState.new_message()
state = State.disabled
soft_disable_timer = 0
v_cruise_kph = 255
events_prev = []
frame = 0
sm['pathPlan'].sensorValid = True
sm['pathPlan'].posenetValid = True
while True:
start_time = 0 # time.time() #sec_since_boot()
# Sample data and compute car events
CS, events = data_sample(CI, CC, can_sock, carstate, lac_log, lateral,
sm, profiler)
profiler.checkpoint('data_sample')
state, soft_disable_timer, v_cruise_kph, v_cruise_kph_last = \
state_transition(sm.frame, CS, CP, state, events, soft_disable_timer, v_cruise_kph, AM)
profiler.checkpoint('state_transition')
# Compute actuators (runs PID loops and lateral MPC)
sm.update(0)
profiler.checkpoint('sm_update')
actuators, lac_log = state_control(sm.frame, lkasMode, sm['pathPlan'],
CS, CP, state, events, AM, LaC,
lac_log, profiler)
profiler.checkpoint('state_control')
# Publish data
CC, events_prev = data_send(sm, CS, CI, CP, state, events, actuators,
carstate, carcontrol, carevents, carparams,
controlsstate, sendcan, AM, LaC,
start_time, lac_log, events_prev, profiler)
profiler.checkpoint('data_send')
frame += 1
if frame % 10000 == 0 and profiler.enabled:
profiler.display()
profiler.reset(True)
def __init__(self, sm=None, pm=None, can_sock=None, arne_sm=None):
gc.disable()
set_realtime_priority(53)
set_core_affinity(3)
# Setup sockets
self.pm = pm
if self.pm is None:
self.pm = messaging.PubMaster(['sendcan', 'controlsState', 'carState',
'carControl', 'carEvents', 'carParams'])
self.sm = sm
if self.sm is None:
self.sm = messaging.SubMaster(['thermal', 'health', 'frame', 'model', 'liveCalibration',
'dMonitoringState', 'plan', 'pathPlan', 'liveLocationKalman', 'radarState'])
self.arne_sm = arne_sm
if self.arne_sm is None:
self.arne_sm = messaging_arne.SubMaster(['arne182Status', 'dynamicFollowButton', 'trafficModelEvent', 'modelLongButton' ])
self.op_params = opParams()
self.df_manager = dfManager(self.op_params)
self.hide_auto_df_alerts = self.op_params.get('hide_auto_df_alerts')
self.traffic_light_alerts = self.op_params.get('traffic_light_alerts')
self.last_model_long = False
self.can_sock = can_sock
if can_sock is None:
can_timeout = None if os.environ.get('NO_CAN_TIMEOUT', False) else 100
self.can_sock = messaging.sub_sock('can', timeout=can_timeout)
# wait for one health and one CAN packet
hw_type = messaging.recv_one(self.sm.sock['health']).health.hwType
has_relay = hw_type in [HwType.blackPanda, HwType.uno, HwType.dos]
print("Waiting for CAN messages...")
messaging.get_one_can(self.can_sock)
self.CI, self.CP = get_car(self.can_sock, self.pm.sock['sendcan'], has_relay)
# read params
params = Params()
self.is_metric = params.get("IsMetric", encoding='utf8') == "1"
self.is_ldw_enabled = params.get("IsLdwEnabled", encoding='utf8') == "1"
internet_needed = (params.get("Offroad_ConnectivityNeeded", encoding='utf8') is not None) and (params.get("DisableUpdates") != b"1")
community_feature_toggle = params.get("CommunityFeaturesToggle", encoding='utf8') == "1"
openpilot_enabled_toggle = params.get("OpenpilotEnabledToggle", encoding='utf8') == "1"
passive = params.get("Passive", encoding='utf8') == "1" or \
internet_needed or not openpilot_enabled_toggle
# detect sound card presence and ensure successful init
#sounds_available = not ANDROID or get_sound_card_online()
car_recognized = self.CP.carName != 'mock'
# If stock camera is disconnected, we loaded car controls and it's not dashcam mode
controller_available = self.CP.enableCamera and self.CI.CC is not None and not passive
community_feature_disallowed = self.CP.communityFeature and not community_feature_toggle
self.read_only = not car_recognized or not controller_available or \
self.CP.dashcamOnly or community_feature_disallowed
if self.read_only:
self.CP.safetyModel = car.CarParams.SafetyModel.noOutput
# Write CarParams for radard and boardd safety mode
cp_bytes = self.CP.to_bytes()
params.put("CarParams", cp_bytes)
put_nonblocking("CarParamsCache", cp_bytes)
put_nonblocking("LongitudinalControl", "1" if self.CP.openpilotLongitudinalControl else "0")
if self.CP.openpilotLongitudinalControl and self.CP.safetyModel in [car.CarParams.SafetyModel.hondaBoschGiraffe, car.CarParams.SafetyModel.hondaBoschHarness]:
disable_radar(can_sock, pm.sock['sendcan'], 1 if has_relay else 0, timeout=1, retry=10)
self.CC = car.CarControl.new_message()
self.AM = AlertManager()
self.events = Events()
self.eventsArne182 = Events_arne182()
self.LoC = LongControl(self.CP, self.CI.compute_gb)
self.VM = VehicleModel(self.CP)
if self.CP.lateralTuning.which() == 'pid':
self.LaC = LatControlPID(self.CP)
elif self.CP.lateralTuning.which() == 'indi':
self.LaC = LatControlINDI(self.CP)
elif self.CP.lateralTuning.which() == 'lqr':
self.LaC = LatControlLQR(self.CP)
self.state = State.disabled
self.enabled = False
self.active = False
self.can_rcv_error = False
self.soft_disable_timer = 0
self.v_cruise_kph = 255
self.v_cruise_kph_last = 0
self.mismatch_counter = 0
self.can_error_counter = 0
self.last_blinker_frame = 0
self.last_ldw_frame = 0
self.saturated_count = 0
self.distance_traveled_now = 0
if not travis:
self.distance_traveled = float(params.get("DistanceTraveled", encoding='utf8'))
self.distance_traveled_engaged = float(params.get("DistanceTraveledEngaged", encoding='utf8'))
self.distance_traveled_override = float(params.get("DistanceTraveledOverride", encoding='utf8'))
else:
self.distance_traveled = 0
self.distance_traveled_engaged = 0
self.distance_traveled_override = 0
self.distance_traveled_frame = 0
self.events_prev = []
self.current_alert_types = [ET.PERMANENT]
self.sm['liveCalibration'].calStatus = Calibration.INVALID
self.sm['thermal'].freeSpace = 1.
self.sm['dMonitoringState'].events = []
self.sm['dMonitoringState'].awarenessStatus = 1.
self.sm['dMonitoringState'].faceDetected = False
self.startup_event = get_startup_event(car_recognized, controller_available)
#if not sounds_available:
# self.events.add(EventName.soundsUnavailable, static=True)
if internet_needed:
self.events.add(EventName.internetConnectivityNeeded, static=True)
if community_feature_disallowed:
self.events.add(EventName.communityFeatureDisallowed, static=True)
if self.read_only and not passive:
self.events.add(EventName.carUnrecognized, static=True)
if hw_type == HwType.whitePanda:
self.events.add(EventName.whitePandaUnsupported, static=True)
# controlsd is driven by can recv, expected at 100Hz
self.rk = Ratekeeper(100, print_delay_threshold=None)
self.prof = Profiler(False) # off by default
def __init__(self, sm=None, pm=None, can_sock=None):
config_realtime_process(4 if TICI else 3, Priority.CTRL_HIGH)
# Setup sockets
self.pm = pm
if self.pm is None:
self.pm = messaging.PubMaster(['sendcan', 'controlsState', 'carState',
'carControl', 'carEvents', 'carParams'])
self.sm = sm
if self.sm is None:
ignore = ['driverCameraState', 'managerState'] if SIMULATION else ['ubloxd']
self.sm = messaging.SubMaster(['deviceState', 'pandaState', 'modelV2', 'liveCalibration',
'driverMonitoringState', 'longitudinalPlan', 'lateralPlan', 'liveLocationKalman',
'roadCameraState', 'driverCameraState', 'managerState', 'liveParameters', 'radarState'],
ignore_alive=ignore, ignore_avg_freq=['radarState', 'longitudinalPlan'])
self.can_sock = can_sock
if can_sock is None:
can_timeout = None if os.environ.get('NO_CAN_TIMEOUT', False) else 100
self.can_sock = messaging.sub_sock('can', timeout=can_timeout)
# wait for one pandaState and one CAN packet
print("Waiting for CAN messages...")
get_one_can(self.can_sock)
self.CI, self.CP, candidate = get_car(self.can_sock, self.pm.sock['sendcan'])
# read params
params = Params()
self.is_metric = params.get_bool("IsMetric")
self.is_ldw_enabled = params.get_bool("IsLdwEnabled")
self.enable_lte_onroad = params.get_bool("EnableLteOnroad")
community_feature_toggle = params.get_bool("CommunityFeaturesToggle")
openpilot_enabled_toggle = params.get_bool("OpenpilotEnabledToggle")
passive = params.get_bool("Passive") or not openpilot_enabled_toggle
self.commIssue_ignored = params.get_bool("ComIssueGone")
self.auto_enabled = params.get_bool("AutoEnable") and params.get_bool("MadModeEnabled")
# detect sound card presence and ensure successful init
sounds_available = HARDWARE.get_sound_card_online()
car_recognized = self.CP.carName != 'mock'
fuzzy_fingerprint = self.CP.fuzzyFingerprint
# If stock camera is disconnected, we loaded car controls and it's not dashcam mode
controller_available = self.CP.enableCamera and self.CI.CC is not None and not passive and not self.CP.dashcamOnly
community_feature = self.CP.communityFeature or fuzzy_fingerprint
community_feature_disallowed = community_feature and (not community_feature_toggle)
self.read_only = not car_recognized or not controller_available or \
self.CP.dashcamOnly or community_feature_disallowed
if self.read_only:
self.CP.safetyModel = car.CarParams.SafetyModel.noOutput
# Write CarParams for radard
cp_bytes = self.CP.to_bytes()
params.put("CarParams", cp_bytes)
put_nonblocking("CarParamsCache", cp_bytes)
self.CC = car.CarControl.new_message()
self.AM = AlertManager()
self.events = Events()
self.LoC = LongControl(self.CP, self.CI.compute_gb, candidate)
self.VM = VehicleModel(self.CP)
self.lateral_control_method = 0
if self.CP.steerControlType == car.CarParams.SteerControlType.angle:
self.LaC = LatControlAngle(self.CP)
self.lateral_control_method = 3
elif self.CP.lateralTuning.which() == 'pid':
self.LaC = LatControlPID(self.CP)
self.lateral_control_method = 0
elif self.CP.lateralTuning.which() == 'indi':
self.LaC = LatControlINDI(self.CP)
self.lateral_control_method = 1
elif self.CP.lateralTuning.which() == 'lqr':
self.LaC = LatControlLQR(self.CP)
self.lateral_control_method = 2
self.long_plan_source = 0
self.controlsAllowed = False
self.initialized = False
self.state = State.disabled
self.enabled = False
self.active = False
self.can_rcv_error = False
self.soft_disable_timer = 0
self.v_cruise_kph = 255
self.v_cruise_kph_last = 0
self.mismatch_counter = 0
self.can_error_counter = 0
self.last_blinker_frame = 0
self.saturated_count = 0
self.distance_traveled = 0
self.last_functional_fan_frame = 0
self.events_prev = []
self.current_alert_types = [ET.PERMANENT]
self.logged_comm_issue = False
# TODO: no longer necessary, aside from process replay
self.sm['liveParameters'].valid = True
self.startup_event = get_startup_event(car_recognized, controller_available, fuzzy_fingerprint)
if not sounds_available:
self.events.add(EventName.soundsUnavailable, static=True)
if community_feature_disallowed:
self.events.add(EventName.communityFeatureDisallowed, static=True)
if not car_recognized:
self.events.add(EventName.carUnrecognized, static=True)
#elif self.read_only:
# self.events.add(EventName.dashcamMode, static=True)
# controlsd is driven by can recv, expected at 100Hz
self.rk = Ratekeeper(100, print_delay_threshold=None)
self.prof = Profiler(False) # off by default
self.hyundai_lkas = self.read_only #read_only
self.mpc_frame = 0
self.steerRatio_Max = float(int(params.get("SteerRatioMaxAdj", encoding="utf8")) * 0.1)
self.angle_differ_range = [0, 15]
self.steerRatio_range = [self.CP.steerRatio, self.steerRatio_Max]
self.new_steerRatio = self.CP.steerRatio
self.new_steerRatio_prev = self.CP.steerRatio
self.steerRatio_to_send = 0
self.model_long_alert_prev = True
self.delayed_comm_issue_timer = 0
def controlsd_thread(gctx=None, rate=100):
gc.disable()
# start the loop
set_realtime_priority(3)
##### AS
context = zmq.Context()
live100 = messaging.pub_sock(context, service_list['live100'].port)
carstate = messaging.pub_sock(context, service_list['carState'].port)
carcontrol = messaging.pub_sock(context, service_list['carControl'].port)
carla_socket = context.socket(zmq.PAIR)
carla_socket.bind("tcp://*:5560")
is_metric = True
passive = True
##### AS
# No sendcan if passive
if not passive:
sendcan = messaging.pub_sock(context, service_list['sendcan'].port)
else:
sendcan = None
# Sub sockets
poller = zmq.Poller()
#thermal = messaging.sub_sock(context, service_list['thermal'].port, conflate=True, poller=poller)
#health = messaging.sub_sock(context, service_list['health'].port, conflate=True, poller=poller)
cal = messaging.sub_sock(context,
service_list['liveCalibration'].port,
conflate=True,
poller=poller)
#driver_monitor = messaging.sub_sock(context, service_list['driverMonitoring'].port, conflate=True, poller=poller)
plan_sock = messaging.sub_sock(context,
service_list['plan'].port,
conflate=True,
poller=poller)
path_plan_sock = messaging.sub_sock(context,
service_list['pathPlan'].port,
conflate=True,
poller=poller)
#logcan = messaging.sub_sock(context, service_list['can'].port)
CC = car.CarControl.new_message()
CP = ToyotaInterface.get_params("TOYOTA PRIUS 2017", {})
CP.steerRatio = 1.0
CI = ToyotaInterface(CP, sendcan)
if CI is None:
raise Exception("unsupported car")
# if stock camera is connected, then force passive behavior
if not CP.enableCamera:
passive = True
sendcan = None
if passive:
CP.safetyModel = car.CarParams.SafetyModels.noOutput
LoC = LongControl(CP, CI.compute_gb)
VM = VehicleModel(CP)
LaC = LatControl(CP)
AM = AlertManager()
if not passive:
AM.add("startup", False)
state = State.enabled
soft_disable_timer = 0
v_cruise_kph = 50 ##### !!! change
v_cruise_kph_last = 0 ##### !! change
cal_status = Calibration.CALIBRATED
cal_perc = 0
plan = messaging.new_message()
plan.init('plan')
path_plan = messaging.new_message()
path_plan.init('pathPlan')
rk = Ratekeeper(rate, print_delay_threshold=2. / 1000)
angle_offset = 0.
prof = Profiler(False) # off by default
startup = True ##### AS
while True:
start_time = int(sec_since_boot() * 1e9)
prof.checkpoint("Ratekeeper", ignore=True)
if cal_status != Calibration.CALIBRATED:
assert (1 == 0), 'Got uncalibrated for some reason'
stuff = recv_array(carla_socket)
current_vel = float(stuff[0])
current_steer = float(stuff[1])
v_cruise_kph = float(stuff[2])
updateInternalCS(CI.CS, current_vel, current_steer, 0, v_cruise_kph)
CS = returnNewCS(CI)
events = list(CS.events)
##### AS since we dont do preenabled state
if startup:
LaC.reset()
LoC.reset(v_pid=CS.vEgo)
v_acc = 0
a_acc = 0
AM.process_alerts(0.0)
startup = False
ASsend_live100_CS(plan, path_plan, CS, VM, state, events, v_cruise_kph,
AM, LaC, LoC, angle_offset, v_acc, a_acc, rk,
start_time, live100, carstate)
cal_status, cal_perc, plan, path_plan =\
ASdata_sample(plan_sock, path_plan_sock, cal, poller, cal_status, cal_perc, state, plan, path_plan)
prof.checkpoint("Sample")
path_plan_age = (start_time - path_plan.logMonoTime) / 1e9
plan_age = (start_time - plan.logMonoTime) / 1e9
if not path_plan.pathPlan.valid or plan_age > 0.5 or path_plan_age > 0.5:
print 'planner time too long or invalid'
#events.append(create_event('plannerError', [ET.NO_ENTRY, ET.SOFT_DISABLE]))
events += list(plan.plan.events)
# Only allow engagement with brake pressed when stopped behind another stopped car
#if CS.brakePressed and plan.plan.vTargetFuture >= STARTING_TARGET_SPEED and not CP.radarOffCan and CS.vEgo < 0.3:
# events.append(create_event('noTarget', [ET.NO_ENTRY, ET.IMMEDIATE_DISABLE]))
if not passive:
# update control state
state, soft_disable_timer, v_cruise_kph, v_cruise_kph_last = \
state_transition(CS, CP, state, events, soft_disable_timer, v_cruise_kph, AM)
prof.checkpoint("State transition")
v_acc, a_acc = \
ASstate_control(plan.plan, path_plan.pathPlan, CS, CP, state, events, v_cruise_kph,
v_cruise_kph_last, AM, rk,
LaC, LoC, VM, angle_offset, passive, is_metric, cal_perc)
prof.checkpoint("State Control")
# Publish data
yawrate = VM.yaw_rate(math.radians(path_plan.pathPlan.angleSteers),
v_acc)
beta = (VM.aR + VM.aF * VM.chi -
VM.m * v_acc**2 / VM.cF / VM.cR / VM.l *
(VM.cF * VM.aF - VM.cR * VM.aR * VM.chi))
beta *= yawrate / (1 - VM.chi) / v_acc
send_array(
carla_socket,
np.array([
v_acc, path_plan.pathPlan.angleSteers,
-3.3 * math.degrees(yawrate), -3.3 * math.degrees(beta)
]))
prof.checkpoint("Sent")
rk.monitor_time() # Run at 100Hz, no 20 Hz
prof.display()
def controlsd_thread(gctx=None):
gc.disable()
# start the loop
set_realtime_priority(3)
params = Params()
# Pub Sockets
sendcan = messaging.pub_sock(service_list['sendcan'].port)
controlsstate = messaging.pub_sock(service_list['controlsState'].port)
carstate = messaging.pub_sock(service_list['carState'].port)
carcontrol = messaging.pub_sock(service_list['carControl'].port)
carevents = messaging.pub_sock(service_list['carEvents'].port)
carparams = messaging.pub_sock(service_list['carParams'].port)
is_metric = params.get("IsMetric") == "1"
passive = params.get("Passive") != "0"
sm = messaging.SubMaster([
'thermal', 'health', 'liveCalibration', 'driverMonitoring', 'plan',
'pathPlan'
])
logcan = messaging.sub_sock(service_list['can'].port)
CI, CP = get_car(logcan, sendcan)
logcan.close()
# TODO: Use the logcan socket from above, but that will currenly break the tests
can_sock = messaging.sub_sock(service_list['can'].port, timeout=100)
CC = car.CarControl.new_message()
AM = AlertManager()
car_recognized = CP.carName != 'mock'
# If stock camera is disconnected, we loaded car controls and it's not chffrplus
controller_available = CP.enableCamera and CI.CC is not None and not passive
read_only = not car_recognized or not controller_available
if read_only:
CP.safetyModel = car.CarParams.SafetyModel.elm327 # diagnostic only
startup_alert = get_startup_alert(car_recognized, controller_available)
AM.add(sm.frame, startup_alert, False)
LoC = LongControl(CP, CI.compute_gb)
VM = VehicleModel(CP)
if CP.lateralTuning.which() == 'pid':
LaC = LatControlPID(CP)
else:
LaC = LatControlINDI(CP)
driver_status = DriverStatus()
# Write CarParams for radard and boardd safety mode
params.put("CarParams", CP.to_bytes())
params.put("LongitudinalControl",
"1" if CP.openpilotLongitudinalControl else "0")
state = State.disabled
soft_disable_timer = 0
v_cruise_kph = 255
v_cruise_kph_last = 0
overtemp = False
free_space = False
cal_status = Calibration.INVALID
cal_perc = 0
mismatch_counter = 0
low_battery = False
events_prev = []
sm['pathPlan'].sensorValid = True
# controlsd is driven by can recv, expected at 100Hz
rk = Ratekeeper(100, print_delay_threshold=None)
prof = Profiler(False) # off by default
while True:
start_time = sec_since_boot()
prof.checkpoint("Ratekeeper", ignore=True)
# Sample data and compute car events
CS, events, cal_status, cal_perc, overtemp, free_space, low_battery, mismatch_counter =\
data_sample(CI, CC, sm, can_sock, cal_status, cal_perc, overtemp, free_space, low_battery,
driver_status, state, mismatch_counter, params)
prof.checkpoint("Sample")
# Create alerts
if not sm.all_alive_and_valid():
events.append(
create_event('commIssue', [ET.NO_ENTRY, ET.SOFT_DISABLE]))
if not sm['pathPlan'].mpcSolutionValid:
events.append(
create_event('plannerError',
[ET.NO_ENTRY, ET.IMMEDIATE_DISABLE]))
if not sm['pathPlan'].sensorValid:
events.append(
create_event('sensorDataInvalid', [ET.NO_ENTRY, ET.PERMANENT]))
if not sm['pathPlan'].paramsValid:
events.append(create_event('vehicleModelInvalid', [ET.WARNING]))
if not sm['plan'].radarValid:
events.append(
create_event('radarFault', [ET.NO_ENTRY, ET.SOFT_DISABLE]))
if sm['plan'].radarCanError:
events.append(
create_event('radarCanError', [ET.NO_ENTRY, ET.SOFT_DISABLE]))
if not CS.canValid:
events.append(
create_event('canError', [ET.NO_ENTRY, ET.IMMEDIATE_DISABLE]))
# Only allow engagement with brake pressed when stopped behind another stopped car
if CS.brakePressed and sm[
'plan'].vTargetFuture >= STARTING_TARGET_SPEED and not CP.radarOffCan and CS.vEgo < 0.3:
events.append(
create_event('noTarget', [ET.NO_ENTRY, ET.IMMEDIATE_DISABLE]))
if not read_only:
# update control state
state, soft_disable_timer, v_cruise_kph, v_cruise_kph_last = \
state_transition(sm.frame, CS, CP, state, events, soft_disable_timer, v_cruise_kph, AM)
prof.checkpoint("State transition")
# Compute actuators (runs PID loops and lateral MPC)
actuators, v_cruise_kph, driver_status, v_acc, a_acc, lac_log = \
state_control(sm.frame, sm.rcv_frame, sm['plan'], sm['pathPlan'], CS, CP, state, events, v_cruise_kph, v_cruise_kph_last, AM, rk,
driver_status, LaC, LoC, VM, read_only, is_metric, cal_perc)
prof.checkpoint("State Control")
# Publish data
CC, events_prev = data_send(sm, CS, CI, CP, VM, state, events,
actuators, v_cruise_kph, rk, carstate,
carcontrol, carevents, carparams,
controlsstate, sendcan, AM, driver_status,
LaC, LoC, read_only, start_time, v_acc,
a_acc, lac_log, events_prev)
prof.checkpoint("Sent")
rk.monitor_time()
prof.display()
def controlsd_thread(gctx, rate=100): #rate in Hz
# *** log ***
context = zmq.Context()
live100 = messaging.pub_sock(context, service_list['live100'].port)
carstate = messaging.pub_sock(context, service_list['carState'].port)
carcontrol = messaging.pub_sock(context, service_list['carControl'].port)
thermal = messaging.sub_sock(context, service_list['thermal'].port)
health = messaging.sub_sock(context, service_list['health'].port)
plan_sock = messaging.sub_sock(context, service_list['plan'].port)
logcan = messaging.sub_sock(context, service_list['can'].port)
# connects to can
CP = fingerprint(logcan)
# import the car from the fingerprint
cloudlog.info("controlsd is importing %s", CP.carName)
exec('from selfdrive.car.'+CP.carName+'.interface import CarInterface')
sendcan = messaging.pub_sock(context, service_list['sendcan'].port)
CI = CarInterface(CP, logcan, sendcan)
# write CarParams
Params().put("CarParams", CP.to_bytes())
AM = AlertManager()
LoC = LongControl()
LaC = LatControl()
# fake plan
plan = log.Plan.new_message()
plan.lateralValid = False
plan.longitudinalValid = False
last_plan_time = 0
# controls enabled state
enabled = False
last_enable_request = 0
# learned angle offset
angle_offset = 0
# rear view camera state
rear_view_toggle = False
v_cruise_kph = 255
# 0.0 - 1.0
awareness_status = 0.0
soft_disable_timer = None
# Is cpu temp too high to enable?
overtemp = False
free_space = 1.0
# start the loop
set_realtime_priority(2)
rk = Ratekeeper(rate, print_delay_threshold=2./1000)
while 1:
prof = Profiler()
cur_time = sec_since_boot()
# read CAN
CS = CI.update()
# broadcast carState
cs_send = messaging.new_message()
cs_send.init('carState')
cs_send.carState = CS # copy?
carstate.send(cs_send.to_bytes())
prof.checkpoint("CarInterface")
# did it request to enable?
enable_request, enable_condition = False, False
if enabled:
# gives the user 6 minutes
awareness_status -= 1.0/(100*60*6)
if awareness_status <= 0.:
AM.add("driverDistracted", enabled)
# reset awareness status on steering
if CS.steeringPressed:
awareness_status = 1.0
# handle button presses
for b in CS.buttonEvents:
print b
# reset awareness on any user action
awareness_status = 1.0
# button presses for rear view
if b.type == "leftBlinker" or b.type == "rightBlinker":
if b.pressed:
rear_view_toggle = True
else:
rear_view_toggle = False
if b.type == "altButton1" and b.pressed:
rear_view_toggle = not rear_view_toggle
if not CP.enableCruise and enabled and not b.pressed:
if b.type == "accelCruise":
v_cruise_kph = v_cruise_kph - (v_cruise_kph % V_CRUISE_DELTA) + V_CRUISE_DELTA
elif b.type == "decelCruise":
v_cruise_kph = v_cruise_kph - (v_cruise_kph % V_CRUISE_DELTA) - V_CRUISE_DELTA
v_cruise_kph = clip(v_cruise_kph, V_CRUISE_MIN, V_CRUISE_MAX)
if not enabled and b.type in ["accelCruise", "decelCruise"] and not b.pressed:
enable_request = True
# do disable on button down
if b.type == "cancel" and b.pressed:
AM.add("disable", enabled)
prof.checkpoint("Buttons")
# *** health checking logic ***
hh = messaging.recv_sock(health)
if hh is not None:
# if the board isn't allowing controls but somehow we are enabled!
if not hh.health.controlsAllowed and enabled:
AM.add("controlsMismatch", enabled)
# *** thermal checking logic ***
# thermal data, checked every second
td = messaging.recv_sock(thermal)
if td is not None:
# Check temperature.
overtemp = any(
t > 950
for t in (td.thermal.cpu0, td.thermal.cpu1, td.thermal.cpu2,
td.thermal.cpu3, td.thermal.mem, td.thermal.gpu))
# under 15% of space free
free_space = td.thermal.freeSpace
prof.checkpoint("Health")
# disable if the pedals are pressed while engaged, this is a user disable
if enabled:
if CS.gasPressed or CS.brakePressed:
AM.add("disable", enabled)
if enable_request:
# check for pressed pedals
if CS.gasPressed or CS.brakePressed:
AM.add("pedalPressed", enabled)
enable_request = False
else:
print "enabled pressed at", cur_time
last_enable_request = cur_time
# don't engage with less than 15% free
if free_space < 0.15:
AM.add("outOfSpace", enabled)
enable_request = False
if CP.enableCruise:
enable_condition = ((cur_time - last_enable_request) < 0.2) and CS.cruiseState.enabled
else:
enable_condition = enable_request
if CP.enableCruise and CS.cruiseState.enabled:
v_cruise_kph = CS.cruiseState.speed * CV.MS_TO_KPH
prof.checkpoint("AdaptiveCruise")
# *** what's the plan ***
new_plan = messaging.recv_sock(plan_sock)
if new_plan is not None:
plan = new_plan.plan
plan = plan.as_builder() # plan can change in controls
last_plan_time = cur_time
# check plan for timeout
if cur_time - last_plan_time > 0.5:
plan.lateralValid = False
plan.longitudinalValid = False
# gives 18 seconds before decel begins (w 6 minute timeout)
if awareness_status < -0.05:
plan.aTargetMax = min(plan.aTargetMax, -0.2)
plan.aTargetMin = min(plan.aTargetMin, plan.aTargetMax)
if enable_request or enable_condition or enabled:
# add all alerts from car
for alert in CS.errors:
AM.add(alert, enabled)
if not plan.longitudinalValid:
AM.add("radarCommIssue", enabled)
if not plan.lateralValid:
# If the model is not broadcasting, assume that it is because
# the user has uploaded insufficient data for calibration.
# Other cases that would trigger this are rare and unactionable by the user.
AM.add("dataNeeded", enabled)
if overtemp:
AM.add("overheat", enabled)
# *** angle offset learning ***
if rk.frame % 5 == 2 and plan.lateralValid:
# *** run this at 20hz again ***
angle_offset = learn_angle_offset(enabled, CS.vEgo, angle_offset, np.asarray(plan.dPoly), LaC.y_des, CS.steeringPressed)
# *** gas/brake PID loop ***
final_gas, final_brake = LoC.update(enabled, CS.vEgo, v_cruise_kph,
plan.vTarget,
[plan.aTargetMin, plan.aTargetMax],
plan.jerkFactor, CP)
# *** steering PID loop ***
final_steer, sat_flag = LaC.update(enabled, CS.vEgo, CS.steeringAngle, CS.steeringPressed, plan.dPoly, angle_offset, CP)
prof.checkpoint("PID")
# ***** handle alerts ****
# send a "steering required alert" if saturation count has reached the limit
if sat_flag:
AM.add("steerSaturated", enabled)
if enabled and AM.alertShouldDisable():
print "DISABLING IMMEDIATELY ON ALERT"
enabled = False
if enabled and AM.alertShouldSoftDisable():
if soft_disable_timer is None:
soft_disable_timer = 3 * rate
elif soft_disable_timer == 0:
print "SOFT DISABLING ON ALERT"
enabled = False
else:
soft_disable_timer -= 1
else:
soft_disable_timer = None
if enable_condition and not enabled and not AM.alertPresent():
print "*** enabling controls"
# beep for enabling
AM.add("enable", enabled)
# enable both lateral and longitudinal controls
enabled = True
# on activation, let's always set v_cruise from where we are, even if PCM ACC is active
v_cruise_kph = int(round(max(CS.vEgo * CV.MS_TO_KPH, V_CRUISE_ENABLE_MIN)))
# 6 minutes driver you're on
awareness_status = 1.0
# reset the PID loops
LaC.reset()
# start long control at actual speed
LoC.reset(v_pid = CS.vEgo)
# *** push the alerts to current ***
alert_text_1, alert_text_2, visual_alert, audible_alert = AM.process_alerts(cur_time)
# ***** control the car *****
CC = car.CarControl.new_message()
CC.enabled = enabled
CC.gas = float(final_gas)
CC.brake = float(final_brake)
CC.steeringTorque = float(final_steer)
CC.cruiseControl.override = True
CC.cruiseControl.cancel = bool((not CP.enableCruise) or (not enabled and CS.cruiseState.enabled)) # always cancel if we have an interceptor
# brake discount removes a sharp nonlinearity
brake_discount = (1.0 - clip(final_brake*3., 0.0, 1.0))
CC.cruiseControl.speedOverride = float(max(0.0, ((LoC.v_pid - .5) * brake_discount)) if CP.enableCruise else 0.0)
#CC.cruiseControl.accelOverride = float(AC.a_pcm)
# TODO: fix this
CC.cruiseControl.accelOverride = float(1.0)
CC.hudControl.setSpeed = float(v_cruise_kph * CV.KPH_TO_MS)
CC.hudControl.speedVisible = enabled
CC.hudControl.lanesVisible = enabled
#CC.hudControl.leadVisible = bool(AC.has_lead)
# TODO: fix this
CC.hudControl.leadVisible = False
CC.hudControl.visualAlert = visual_alert
CC.hudControl.audibleAlert = audible_alert
# this alert will apply next controls cycle
if not CI.apply(CC):
AM.add("controlsFailed", enabled)
# broadcast carControl
cc_send = messaging.new_message()
cc_send.init('carControl')
cc_send.carControl = CC # copy?
carcontrol.send(cc_send.to_bytes())
prof.checkpoint("CarControl")
# ***** publish state to logger *****
# publish controls state at 100Hz
dat = messaging.new_message()
dat.init('live100')
# show rear view camera on phone if in reverse gear or when button is pressed
dat.live100.rearViewCam = ('reverseGear' in CS.errors) or rear_view_toggle
dat.live100.alertText1 = alert_text_1
dat.live100.alertText2 = alert_text_2
dat.live100.awarenessStatus = max(awareness_status, 0.0) if enabled else 0.0
# what packets were used to process
dat.live100.canMonoTimes = list(CS.canMonoTimes)
#dat.live100.mdMonoTime = PP.logMonoTime
#dat.live100.l20MonoTime = AC.logMonoTime
# if controls is enabled
dat.live100.enabled = enabled
# car state
dat.live100.vEgo = CS.vEgo
dat.live100.angleSteers = CS.steeringAngle
dat.live100.steerOverride = CS.steeringPressed
# longitudinal control state
dat.live100.vPid = float(LoC.v_pid)
dat.live100.vCruise = float(v_cruise_kph)
dat.live100.upAccelCmd = float(LoC.Up_accel_cmd)
dat.live100.uiAccelCmd = float(LoC.Ui_accel_cmd)
# lateral control state
dat.live100.yActual = float(LaC.y_actual)
dat.live100.yDes = float(LaC.y_des)
dat.live100.upSteer = float(LaC.Up_steer)
dat.live100.uiSteer = float(LaC.Ui_steer)
# processed radar state, should add a_pcm?
dat.live100.vTargetLead = float(plan.vTarget)
dat.live100.aTargetMin = float(plan.aTargetMin)
dat.live100.aTargetMax = float(plan.aTargetMax)
dat.live100.jerkFactor = float(plan.jerkFactor)
# lag
dat.live100.cumLagMs = -rk.remaining*1000.
live100.send(dat.to_bytes())
prof.checkpoint("Live100")
# *** run loop at fixed rate ***
if rk.keep_time():
prof.display()
def __init__(self, sm=None, pm=None, can_sock=None):
config_realtime_process(4 if TICI else 3, Priority.CTRL_HIGH)
# Setup sockets
self.pm = pm
if self.pm is None:
self.pm = messaging.PubMaster([
'sendcan', 'controlsState', 'carState', 'carControl',
'carEvents', 'carParams'
])
self.sm = sm
if self.sm is None:
ignore = ['driverCameraState', 'managerState'
] if SIMULATION else None
self.sm = messaging.SubMaster([
'deviceState', 'pandaState', 'modelV2', 'liveCalibration',
'driverMonitoringState', 'longitudinalPlan', 'lateralPlan',
'liveLocationKalman', 'roadCameraState', 'driverCameraState',
'managerState', 'liveParameters', 'radarState'
],
ignore_alive=ignore)
self.can_sock = can_sock
if can_sock is None:
can_timeout = None if os.environ.get('NO_CAN_TIMEOUT',
False) else 100
self.can_sock = messaging.sub_sock('can', timeout=can_timeout)
# wait for one pandaState and one CAN packet
print("Waiting for CAN messages...")
get_one_can(self.can_sock)
self.CI, self.CP = get_car(self.can_sock, self.pm.sock['sendcan'])
# read params
params = Params()
self.is_metric = params.get_bool("IsMetric")
self.is_ldw_enabled = params.get_bool("IsLdwEnabled")
community_feature_toggle = params.get_bool("CommunityFeaturesToggle")
openpilot_enabled_toggle = params.get_bool("OpenpilotEnabledToggle")
passive = params.get_bool("Passive") or not openpilot_enabled_toggle
# detect sound card presence and ensure successful init
sounds_available = HARDWARE.get_sound_card_online()
car_recognized = self.CP.carName != 'mock'
# If stock camera is disconnected, we loaded car controls and it's not dashcam mode
controller_available = self.CP.enableCamera and self.CI.CC is not None and not passive and not self.CP.dashcamOnly
community_feature_disallowed = self.CP.communityFeature and not community_feature_toggle
self.read_only = not car_recognized or not controller_available or \
self.CP.dashcamOnly or community_feature_disallowed
if self.read_only:
self.CP.safetyModel = car.CarParams.SafetyModel.noOutput
# Write CarParams for radard and boardd safety mode
cp_bytes = self.CP.to_bytes()
params.put("CarParams", cp_bytes)
put_nonblocking("CarParamsCache", cp_bytes)
self.CC = car.CarControl.new_message()
self.AM = AlertManager()
self.events = Events()
self.LoC = LongControl(self.CP, self.CI.compute_gb)
self.VM = VehicleModel(self.CP)
if self.CP.steerControlType == car.CarParams.SteerControlType.angle:
self.LaC = LatControlAngle(self.CP)
elif self.CP.lateralTuning.which() == 'pid':
self.LaC = LatControlPID(self.CP)
elif self.CP.lateralTuning.which() == 'indi':
self.LaC = LatControlINDI(self.CP)
elif self.CP.lateralTuning.which() == 'lqr':
self.LaC = LatControlLQR(self.CP)
self.state = State.disabled
self.enabled = False
self.active = False
self.can_rcv_error = False
self.soft_disable_timer = 0
self.v_cruise_kph = 255
self.v_cruise_kph_last = 0
self.mismatch_counter = 0
self.can_error_counter = 0
self.last_blinker_frame = 0
self.saturated_count = 0
self.distance_traveled = 0
self.last_functional_fan_frame = 0
self.events_prev = []
self.current_alert_types = [ET.PERMANENT]
self.logged_comm_issue = False
self.sm['liveCalibration'].calStatus = Calibration.CALIBRATED
self.sm['deviceState'].freeSpacePercent = 100
self.sm['driverMonitoringState'].events = []
self.sm['driverMonitoringState'].awarenessStatus = 1.
self.sm['driverMonitoringState'].faceDetected = False
self.sm['liveParameters'].valid = True
self.startup_event = get_startup_event(car_recognized,
controller_available)
if not sounds_available:
self.events.add(EventName.soundsUnavailable, static=True)
if community_feature_disallowed:
self.events.add(EventName.communityFeatureDisallowed, static=True)
if not car_recognized:
self.events.add(EventName.carUnrecognized, static=True)
elif self.read_only:
self.events.add(EventName.dashcamMode, static=True)
# controlsd is driven by can recv, expected at 100Hz
self.rk = Ratekeeper(100, print_delay_threshold=None)
self.prof = Profiler(False) # off by default
def __init__(self, sm=None, pm=None, can_sock=None, CI=None):
config_realtime_process(4, Priority.CTRL_HIGH)
# Setup sockets
self.pm = pm
if self.pm is None:
self.pm = messaging.PubMaster(['sendcan', 'controlsState', 'carState',
'carControl', 'carEvents', 'carParams'])
self.camera_packets = ["roadCameraState", "driverCameraState"]
if TICI:
self.camera_packets.append("wideRoadCameraState")
self.can_sock = can_sock
if can_sock is None:
can_timeout = None if os.environ.get('NO_CAN_TIMEOUT', False) else 20
self.can_sock = messaging.sub_sock('can', timeout=can_timeout)
if TICI:
self.log_sock = messaging.sub_sock('androidLog')
if CI is None:
# wait for one pandaState and one CAN packet
print("Waiting for CAN messages...")
get_one_can(self.can_sock)
self.CI, self.CP = get_car(self.can_sock, self.pm.sock['sendcan'])
else:
self.CI, self.CP = CI, CI.CP
params = Params()
self.joystick_mode = params.get_bool("JoystickDebugMode") or (self.CP.notCar and sm is None)
joystick_packet = ['testJoystick'] if self.joystick_mode else []
self.sm = sm
if self.sm is None:
ignore = ['driverCameraState', 'managerState'] if SIMULATION else None
self.sm = messaging.SubMaster(['deviceState', 'pandaStates', 'peripheralState', 'modelV2', 'liveCalibration',
'driverMonitoringState', 'longitudinalPlan', 'lateralPlan', 'liveLocationKalman',
'managerState', 'liveParameters', 'radarState'] + self.camera_packets + joystick_packet,
ignore_alive=ignore, ignore_avg_freq=['radarState', 'longitudinalPlan'])
# set alternative experiences from parameters
self.disengage_on_accelerator = params.get_bool("DisengageOnAccelerator")
self.CP.alternativeExperience = 0
if not self.disengage_on_accelerator:
self.CP.alternativeExperience |= ALTERNATIVE_EXPERIENCE.DISABLE_DISENGAGE_ON_GAS
# read params
self.is_metric = params.get_bool("IsMetric")
self.is_ldw_enabled = params.get_bool("IsLdwEnabled")
openpilot_enabled_toggle = params.get_bool("OpenpilotEnabledToggle")
passive = params.get_bool("Passive") or not openpilot_enabled_toggle
# detect sound card presence and ensure successful init
sounds_available = HARDWARE.get_sound_card_online()
car_recognized = self.CP.carName != 'mock'
controller_available = self.CI.CC is not None and not passive and not self.CP.dashcamOnly
self.read_only = not car_recognized or not controller_available or self.CP.dashcamOnly
if self.read_only:
safety_config = car.CarParams.SafetyConfig.new_message()
safety_config.safetyModel = car.CarParams.SafetyModel.noOutput
self.CP.safetyConfigs = [safety_config]
# Write CarParams for radard
cp_bytes = self.CP.to_bytes()
params.put("CarParams", cp_bytes)
put_nonblocking("CarParamsCache", cp_bytes)
self.CC = car.CarControl.new_message()
self.CS_prev = car.CarState.new_message()
self.AM = AlertManager()
self.events = Events()
self.LoC = LongControl(self.CP)
self.VM = VehicleModel(self.CP)
if self.CP.steerControlType == car.CarParams.SteerControlType.angle:
self.LaC = LatControlAngle(self.CP, self.CI)
elif self.CP.lateralTuning.which() == 'pid':
self.LaC = LatControlPID(self.CP, self.CI)
elif self.CP.lateralTuning.which() == 'indi':
self.LaC = LatControlINDI(self.CP, self.CI)
elif self.CP.lateralTuning.which() == 'lqr':
self.LaC = LatControlLQR(self.CP, self.CI)
elif self.CP.lateralTuning.which() == 'torque':
self.LaC = LatControlTorque(self.CP, self.CI)
self.initialized = False
self.state = State.disabled
self.enabled = False
self.active = False
self.can_rcv_error = False
self.soft_disable_timer = 0
self.v_cruise_kph = 255
self.v_cruise_kph_last = 0
self.mismatch_counter = 0
self.cruise_mismatch_counter = 0
self.can_rcv_error_counter = 0
self.last_blinker_frame = 0
self.distance_traveled = 0
self.last_functional_fan_frame = 0
self.events_prev = []
self.current_alert_types = [ET.PERMANENT]
self.logged_comm_issue = None
self.button_timers = {ButtonEvent.Type.decelCruise: 0, ButtonEvent.Type.accelCruise: 0}
self.last_actuators = car.CarControl.Actuators.new_message()
# scc smoother
self.is_cruise_enabled = False
self.applyMaxSpeed = 0
self.apply_accel = 0.
self.fused_accel = 0.
self.lead_drel = 0.
self.aReqValue = 0.
self.aReqValueMin = 0.
self.aReqValueMax = 0.
self.sccStockCamStatus = 0
self.sccStockCamAct = 0
self.left_lane_visible = False
self.right_lane_visible = False
self.wide_camera = TICI and params.get_bool('EnableWideCamera')
self.disable_op_fcw = params.get_bool('DisableOpFcw')
self.mad_mode_enabled = Params().get_bool('MadModeEnabled')
# TODO: no longer necessary, aside from process replay
self.sm['liveParameters'].valid = True
self.startup_event = get_startup_event(car_recognized, controller_available, len(self.CP.carFw) > 0)
if not sounds_available:
self.events.add(EventName.soundsUnavailable, static=True)
if not car_recognized:
self.events.add(EventName.carUnrecognized, static=True)
if len(self.CP.carFw) > 0:
set_offroad_alert("Offroad_CarUnrecognized", True)
else:
set_offroad_alert("Offroad_NoFirmware", True)
elif self.read_only:
self.events.add(EventName.dashcamMode, static=True)
elif self.joystick_mode:
self.events.add(EventName.joystickDebug, static=True)
self.startup_event = None
# controlsd is driven by can recv, expected at 100Hz
self.rk = Ratekeeper(100, print_delay_threshold=None)
self.prof = Profiler(False) # off by default
def controlsd_thread(gctx=None, rate=100):
gc.disable()
# start the loop
set_realtime_priority(3)
context = zmq.Context()
params = Params()
# Pub Sockets
live100 = messaging.pub_sock(context, service_list['live100'].port)
carstate = messaging.pub_sock(context, service_list['carState'].port)
carcontrol = messaging.pub_sock(context, service_list['carControl'].port)
is_metric = params.get("IsMetric") == "1"
passive = params.get("Passive") != "0"
# No sendcan if passive
if not passive:
sendcan = messaging.pub_sock(context, service_list['sendcan'].port)
else:
sendcan = None
# Sub sockets
poller = zmq.Poller()
thermal = messaging.sub_sock(context,
service_list['thermal'].port,
conflate=True,
poller=poller)
health = messaging.sub_sock(context,
service_list['health'].port,
conflate=True,
poller=poller)
cal = messaging.sub_sock(context,
service_list['liveCalibration'].port,
conflate=True,
poller=poller)
driver_monitor = messaging.sub_sock(context,
service_list['driverMonitoring'].port,
conflate=True,
poller=poller)
plan_sock = messaging.sub_sock(context,
service_list['plan'].port,
conflate=True,
poller=poller)
path_plan_sock = messaging.sub_sock(context,
service_list['pathPlan'].port,
conflate=True,
poller=poller)
logcan = messaging.sub_sock(context, service_list['can'].port)
CC = car.CarControl.new_message()
CI, CP = get_car(logcan, sendcan, 1.0 if passive else None)
if CI is None:
raise Exception("unsupported car")
# if stock camera is connected, then force passive behavior
if not CP.enableCamera:
passive = True
sendcan = None
if passive:
CP.safetyModel = car.CarParams.SafetyModels.noOutput
LoC = LongControl(CP, CI.compute_gb)
VM = VehicleModel(CP)
LaC = LatControl(CP)
AM = AlertManager()
driver_status = DriverStatus()
if not passive:
AM.add("startup", False)
# Write CarParams for radard and boardd safety mode
params.put("CarParams", CP.to_bytes())
params.put("LongitudinalControl",
"1" if CP.openpilotLongitudinalControl else "0")
state = State.disabled
soft_disable_timer = 0
v_cruise_kph = 255
v_cruise_kph_last = 0
overtemp = False
free_space = False
cal_status = Calibration.INVALID
cal_perc = 0
mismatch_counter = 0
low_battery = False
plan = messaging.new_message()
plan.init('plan')
path_plan = messaging.new_message()
path_plan.init('pathPlan')
rk = Ratekeeper(rate, print_delay_threshold=2. / 1000)
controls_params = params.get("ControlsParams")
# Read angle offset from previous drive
if controls_params is not None:
controls_params = json.loads(controls_params)
angle_offset = controls_params['angle_offset']
else:
angle_offset = 0.
prof = Profiler(False) # off by default
while True:
start_time = int(sec_since_boot() * 1e9)
prof.checkpoint("Ratekeeper", ignore=True)
# Sample data and compute car events
CS, events, cal_status, cal_perc, overtemp, free_space, low_battery, mismatch_counter, plan, path_plan =\
data_sample(CI, CC, plan_sock, path_plan_sock, thermal, cal, health, driver_monitor,
poller, cal_status, cal_perc, overtemp, free_space, low_battery, driver_status,
state, mismatch_counter, params, plan, path_plan)
prof.checkpoint("Sample")
path_plan_age = (start_time - path_plan.logMonoTime) / 1e9
plan_age = (start_time - plan.logMonoTime) / 1e9
if not path_plan.pathPlan.valid or plan_age > 0.5 or path_plan_age > 0.5:
events.append(
create_event('plannerError', [ET.NO_ENTRY, ET.SOFT_DISABLE]))
events += list(plan.plan.events)
# Only allow engagement with brake pressed when stopped behind another stopped car
if CS.brakePressed and plan.plan.vTargetFuture >= STARTING_TARGET_SPEED and not CP.radarOffCan and CS.vEgo < 0.3:
events.append(
create_event('noTarget', [ET.NO_ENTRY, ET.IMMEDIATE_DISABLE]))
if not passive:
# update control state
state, soft_disable_timer, v_cruise_kph, v_cruise_kph_last = \
state_transition(CS, CP, state, events, soft_disable_timer, v_cruise_kph, AM)
prof.checkpoint("State transition")
# Compute actuators (runs PID loops and lateral MPC)
actuators, v_cruise_kph, driver_status, angle_offset, v_acc, a_acc = \
state_control(plan.plan, path_plan.pathPlan, CS, CP, state, events, v_cruise_kph,
v_cruise_kph_last, AM, rk, driver_status,
LaC, LoC, VM, angle_offset, passive, is_metric, cal_perc)
prof.checkpoint("State Control")
# Publish data
CC = data_send(plan, path_plan, CS, CI, CP, VM, state, events,
actuators, v_cruise_kph, rk, carstate, carcontrol,
live100, AM, driver_status, LaC, LoC, angle_offset,
passive, start_time, params, v_acc, a_acc)
prof.checkpoint("Sent")
rk.keep_time() # Run at 100Hz
prof.display()
#!/usr/bin/env python
import os
import sys
import json
from setproctitle import setproctitle
sys.path.append(
os.path.join(os.path.dirname(sys.path[0]),
os.path.expanduser('~/raspilot')))
from cereal import log, car
from common.params import Params
from common.profiler import Profiler
from selfdrive.kegman_conf import kegman_conf
setproctitle('webUI')
frame_count = 0
params = Params()
profiler = Profiler(False, 'dashboard')
user_id = str(params.get("PandaDongleId", True))
user_id = user_id.replace("'", "")
try:
car_params = car.CarParams.from_bytes(params.get('CarParams', True))
kegman = kegman_conf(car_params)
kegman_valid = ('tuneRev' in kegman.conf)
except:
print("kegman error")
kegman_valid = False
do_influx = False
def controlsd_thread(sm=None, pm=None, can_sock=None):
gc.disable()
# start the loop
set_realtime_priority(3)
params = Params()
is_metric = params.get("IsMetric", encoding='utf8') == "1"
is_ldw_enabled = params.get("IsLdwEnabled", encoding='utf8') == "1"
passive = params.get("Passive", encoding='utf8') == "1"
openpilot_enabled_toggle = params.get("OpenpilotEnabledToggle",
encoding='utf8') == "1"
community_feature_toggle = params.get("CommunityFeaturesToggle",
encoding='utf8') == "1"
passive = passive or not openpilot_enabled_toggle
# Passive if internet needed
internet_needed = params.get("Offroad_ConnectivityNeeded",
encoding='utf8') is not None
passive = passive or internet_needed
# Pub/Sub Sockets
if pm is None:
pm = messaging.PubMaster([
'sendcan', 'controlsState', 'carState', 'carControl', 'carEvents',
'carParams'
])
if sm is None:
sm = messaging.SubMaster(['thermal', 'health', 'liveCalibration', 'dMonitoringState', 'plan', 'pathPlan', \
'model'])
if can_sock is None:
can_timeout = None if os.environ.get('NO_CAN_TIMEOUT', False) else 100
can_sock = messaging.sub_sock('can', timeout=can_timeout)
# wait for health and CAN packets
hw_type = messaging.recv_one(sm.sock['health']).health.hwType
has_relay = hw_type in [HwType.blackPanda, HwType.uno]
print("Waiting for CAN messages...")
messaging.get_one_can(can_sock)
CI, CP = get_car(can_sock, pm.sock['sendcan'], has_relay)
car_recognized = CP.carName != 'mock'
# If stock camera is disconnected, we loaded car controls and it's not chffrplus
controller_available = CP.enableCamera and CI.CC is not None and not passive
community_feature_disallowed = CP.communityFeature and not community_feature_toggle
read_only = not car_recognized or not controller_available or CP.dashcamOnly or community_feature_disallowed
if read_only:
CP.safetyModel = car.CarParams.SafetyModel.noOutput
# Write CarParams for radard and boardd safety mode
cp_bytes = CP.to_bytes()
params.put("CarParams", cp_bytes)
put_nonblocking("CarParamsCache", cp_bytes)
put_nonblocking("LongitudinalControl",
"1" if CP.openpilotLongitudinalControl else "0")
CC = car.CarControl.new_message()
AM = AlertManager()
startup_alert = get_startup_alert(car_recognized, controller_available)
AM.add(sm.frame, startup_alert, False)
LoC = LongControl(CP, CI.compute_gb)
VM = VehicleModel(CP)
if CP.lateralTuning.which() == 'pid':
LaC = LatControlPID(CP)
elif CP.lateralTuning.which() == 'indi':
LaC = LatControlINDI(CP)
elif CP.lateralTuning.which() == 'lqr':
LaC = LatControlLQR(CP)
state = State.disabled
soft_disable_timer = 0
v_cruise_kph = 255
v_cruise_kph_last = 0
mismatch_counter = 0
can_error_counter = 0
last_blinker_frame = 0
saturated_count = 0
events_prev = []
sm['liveCalibration'].calStatus = Calibration.INVALID
sm['pathPlan'].sensorValid = True
sm['pathPlan'].posenetValid = True
sm['thermal'].freeSpace = 1.
sm['dMonitoringState'].events = []
sm['dMonitoringState'].awarenessStatus = 1.
sm['dMonitoringState'].faceDetected = False
# detect sound card presence
sounds_available = not os.path.isfile('/EON') or (
os.path.isdir('/proc/asound/card0')
and open('/proc/asound/card0/state').read().strip() == 'ONLINE')
# controlsd is driven by can recv, expected at 100Hz
rk = Ratekeeper(100, print_delay_threshold=None)
prof = Profiler(False) # off by default
while True:
start_time = sec_since_boot()
prof.checkpoint("Ratekeeper", ignore=True)
# Sample data and compute car events
CS, events, cal_perc, mismatch_counter, can_error_counter = data_sample(
CI, CC, sm, can_sock, state, mismatch_counter, can_error_counter,
params)
prof.checkpoint("Sample")
# Create alerts
if not sm.alive['plan'] and sm.alive[
'pathPlan']: # only plan not being received: radar not communicating
events.append(
create_event('radarCommIssue', [ET.NO_ENTRY, ET.SOFT_DISABLE]))
elif not sm.all_alive_and_valid():
events.append(
create_event('commIssue', [ET.NO_ENTRY, ET.SOFT_DISABLE]))
if not sm['pathPlan'].mpcSolutionValid:
events.append(
create_event('plannerError',
[ET.NO_ENTRY, ET.IMMEDIATE_DISABLE]))
if not sm['pathPlan'].sensorValid and os.getenv("NOSENSOR") is None:
events.append(
create_event('sensorDataInvalid', [ET.NO_ENTRY, ET.PERMANENT]))
if not sm['pathPlan'].paramsValid:
events.append(create_event('vehicleModelInvalid', [ET.WARNING]))
if not sm['pathPlan'].posenetValid:
events.append(
create_event('posenetInvalid', [ET.NO_ENTRY, ET.WARNING]))
if not sm['plan'].radarValid:
events.append(
create_event('radarFault', [ET.NO_ENTRY, ET.SOFT_DISABLE]))
if sm['plan'].radarCanError:
events.append(
create_event('radarCanError', [ET.NO_ENTRY, ET.SOFT_DISABLE]))
if not CS.canValid:
events.append(
create_event('canError', [ET.NO_ENTRY, ET.IMMEDIATE_DISABLE]))
if not sounds_available:
events.append(
create_event('soundsUnavailable', [ET.NO_ENTRY, ET.PERMANENT]))
if internet_needed:
events.append(
create_event('internetConnectivityNeeded',
[ET.NO_ENTRY, ET.PERMANENT]))
if community_feature_disallowed:
events.append(
create_event('communityFeatureDisallowed', [ET.PERMANENT]))
if read_only and not passive:
events.append(create_event('carUnrecognized', [ET.PERMANENT]))
if log.HealthData.FaultType.relayMalfunction in sm['health'].faults:
events.append(
create_event(
'relayMalfunction',
[ET.NO_ENTRY, ET.PERMANENT, ET.IMMEDIATE_DISABLE]))
# Only allow engagement with brake pressed when stopped behind another stopped car
if CS.brakePressed and sm[
'plan'].vTargetFuture >= STARTING_TARGET_SPEED and not CP.radarOffCan and CS.vEgo < 0.3:
events.append(
create_event('noTarget', [ET.NO_ENTRY, ET.IMMEDIATE_DISABLE]))
if not read_only:
# update control state
state, soft_disable_timer, v_cruise_kph, v_cruise_kph_last = \
state_transition(sm.frame, CS, CP, state, events, soft_disable_timer, v_cruise_kph, AM)
prof.checkpoint("State transition")
# Compute actuators (runs PID loops and lateral MPC)
actuators, v_cruise_kph, v_acc, a_acc, lac_log, last_blinker_frame, saturated_count = \
state_control(sm.frame, sm.rcv_frame, sm['plan'], sm['pathPlan'], CS, CP, state, events, v_cruise_kph, v_cruise_kph_last, AM, rk,
LaC, LoC, read_only, is_metric, cal_perc, last_blinker_frame, saturated_count)
prof.checkpoint("State Control")
# Publish data
CC, events_prev = data_send(sm, pm, CS, CI, CP, VM, state, events,
actuators, v_cruise_kph, rk, AM, LaC, LoC,
read_only, start_time, v_acc, a_acc,
lac_log, events_prev, last_blinker_frame,
is_ldw_enabled, can_error_counter)
prof.checkpoint("Sent")
rk.monitor_time()
prof.display()
def controlsd_thread(gctx, rate=100): #rate in Hz
# *** log ***
context = zmq.Context()
live100 = messaging.pub_sock(context, service_list['live100'].port)
carstate = messaging.pub_sock(context, service_list['carState'].port)
carcontrol = messaging.pub_sock(context, service_list['carControl'].port)
sendcan = messaging.pub_sock(context, service_list['sendcan'].port)
thermal = messaging.sub_sock(context, service_list['thermal'].port)
live20 = messaging.sub_sock(context, service_list['live20'].port)
model = messaging.sub_sock(context, service_list['model'].port)
health = messaging.sub_sock(context, service_list['health'].port)
logcan = messaging.sub_sock(context, service_list['can'].port)
# connects to can and sendcan
CI = CarInterface()
VP = CI.getVehicleParams()
PP = PathPlanner(model)
AC = AdaptiveCruise(live20)
AM = AlertManager()
LoC = LongControl()
LaC = LatControl()
# controls enabled state
enabled = False
last_enable_request = 0
# learned angle offset
angle_offset = 0
# rear view camera state
rear_view_toggle = False
v_cruise_kph = 255
# 0.0 - 1.0
awareness_status = 0.0
soft_disable_timer = None
# Is cpu temp too high to enable?
overtemp = False
free_space = 1.0
# start the loop
set_realtime_priority(2)
rk = Ratekeeper(rate, print_delay_threshold=2. / 1000)
while 1:
prof = Profiler()
cur_time = sec_since_boot()
# read CAN
# CS = CI.update()
CS = car.CarState.new_message()
CS.vEgo = 13
for a in messaging.drain_sock(logcan):
CS.steeringAngle = a.carState.steeringAngle
# broadcast carState
cs_send = messaging.new_message()
cs_send.init('carState')
cs_send.carState = CS # copy?
carstate.send(cs_send.to_bytes())
prof.checkpoint("CarInterface")
# did it request to enable?
enable_request, enable_condition = False, False
if enabled:
# gives the user 6 minutes
# awareness_status -= 1.0/(100*60*6)
if awareness_status <= 0.:
# AM.add("driverDistracted", enabled)
awareness_status = 1.0
# reset awareness status on steering
if CS.steeringPressed:
awareness_status = 1.0
# handle button presses
for b in CS.buttonEvents:
print b
# reset awareness on any user action
awareness_status = 1.0
# button presses for rear view
if b.type == "leftBlinker" or b.type == "rightBlinker":
if b.pressed:
rear_view_toggle = True
else:
rear_view_toggle = False
if b.type == "altButton1" and b.pressed:
rear_view_toggle = not rear_view_toggle
if not VP.brake_only and enabled and not b.pressed:
if b.type == "accelCruise":
v_cruise_kph = v_cruise_kph - (
v_cruise_kph % V_CRUISE_DELTA) + V_CRUISE_DELTA
elif b.type == "decelCruise":
v_cruise_kph = v_cruise_kph - (
v_cruise_kph % V_CRUISE_DELTA) - V_CRUISE_DELTA
v_cruise_kph = clip(v_cruise_kph, V_CRUISE_MIN, V_CRUISE_MAX)
if not enabled and b.type in ["accelCruise", "decelCruise"
] and not b.pressed:
enable_request = True
# do disable on button down
if b.type == "cancel" and b.pressed:
AM.add("disable", enabled)
# Hack-hack
if not enabled:
enable_request = True
prof.checkpoint("Buttons")
# *** health checking logic ***
hh = messaging.recv_sock(health)
if hh is not None:
# if the board isn't allowing controls but somehow we are enabled!
if not hh.health.controlsAllowed and enabled:
AM.add("controlsMismatch", enabled)
# *** thermal checking logic ***
# thermal data, checked every second
td = messaging.recv_sock(thermal)
if False and td is not None:
# Check temperature.
overtemp = any(t > 950 for t in (td.thermal.cpu0, td.thermal.cpu1,
td.thermal.cpu2, td.thermal.cpu3,
td.thermal.mem, td.thermal.gpu))
# under 15% of space free
free_space = td.thermal.freeSpace
prof.checkpoint("Health")
# *** getting model logic ***
PP.update(cur_time, CS.vEgo)
if rk.frame % 5 == 2:
# *** run this at 20hz again ***
angle_offset = learn_angle_offset(enabled, CS.vEgo, angle_offset,
np.asarray(PP.d_poly), LaC.y_des,
CS.steeringPressed)
# disable if the pedals are pressed while engaged, this is a user disable
if enabled:
if CS.gasPressed or CS.brakePressed:
AM.add("disable", enabled)
if enable_request:
# check for pressed pedals
if CS.gasPressed or CS.brakePressed:
AM.add("pedalPressed", enabled)
enable_request = False
else:
print "enabled pressed at", cur_time
last_enable_request = cur_time
# don't engage with less than 15% free
if free_space < 0.15:
AM.add("outOfSpace", enabled)
enable_request = False
if VP.brake_only:
enable_condition = ((cur_time - last_enable_request) <
0.2) and CS.cruiseState.enabled
else:
enable_condition = enable_request
if enable_request or enable_condition or enabled:
# add all alerts from car
for alert in CS.errors:
AM.add(alert, enabled)
if False and AC.dead:
AM.add("radarCommIssue", enabled)
if PP.dead:
AM.add("modelCommIssue", enabled)
if overtemp:
AM.add("overheat", enabled)
prof.checkpoint("Model")
if enable_condition and not enabled and not AM.alertPresent():
print "*** enabling controls"
# beep for enabling
AM.add("enable", enabled)
# enable both lateral and longitudinal controls
enabled = True
# on activation, let's always set v_cruise from where we are, even if PCM ACC is active
v_cruise_kph = int(
round(
max(CS.vEgo * CV.MS_TO_KPH * VP.ui_speed_fudge,
V_CRUISE_ENABLE_MIN)))
# 6 minutes driver you're on
awareness_status = 1.0
# reset the PID loops
LaC.reset()
# start long control at actual speed
LoC.reset(v_pid=CS.vEgo)
if VP.brake_only and CS.cruiseState.enabled:
v_cruise_kph = CS.cruiseState.speed * CV.MS_TO_KPH
# *** put the adaptive in adaptive cruise control ***
AC.update(cur_time, CS.vEgo, CS.steeringAngle, LoC.v_pid,
awareness_status, VP)
prof.checkpoint("AdaptiveCruise")
# *** gas/brake PID loop ***
final_gas, final_brake = LoC.update(enabled, CS.vEgo, v_cruise_kph,
AC.v_target_lead, AC.a_target,
AC.jerk_factor, VP)
# *** steering PID loop ***
final_steer, sat_flag = LaC.update(enabled, CS.vEgo, CS.steeringAngle,
CS.steeringPressed, PP.d_poly,
angle_offset, VP)
prof.checkpoint("PID")
# ***** handle alerts ****
# send a "steering required alert" if saturation count has reached the limit
if False and sat_flag:
AM.add("steerSaturated", enabled)
if enabled and AM.alertShouldDisable():
print "DISABLING IMMEDIATELY ON ALERT"
enabled = False
if enabled and AM.alertShouldSoftDisable():
if soft_disable_timer is None:
soft_disable_timer = 3 * rate
elif soft_disable_timer == 0:
print "SOFT DISABLING ON ALERT"
enabled = False
else:
soft_disable_timer -= 1
else:
soft_disable_timer = None
# *** push the alerts to current ***
alert_text_1, alert_text_2, visual_alert, audible_alert = AM.process_alerts(
cur_time)
# ***** control the car *****
CC = car.CarControl.new_message()
CC.enabled = enabled
CC.gas = float(final_gas)
CC.brake = float(final_brake)
CC.steeringTorque = float(final_steer)
CC.cruiseControl.override = True
CC.cruiseControl.cancel = bool(
(not VP.brake_only)
or (not enabled and CS.cruiseState.enabled
)) # always cancel if we have an interceptor
CC.cruiseControl.speedOverride = float((LoC.v_pid - .3) if (
VP.brake_only and final_brake == 0.) else 0.0)
CC.cruiseControl.accelOverride = float(AC.a_pcm)
CC.hudControl.setSpeed = float(v_cruise_kph * CV.KPH_TO_MS)
CC.hudControl.speedVisible = enabled
CC.hudControl.lanesVisible = enabled
CC.hudControl.leadVisible = bool(AC.has_lead)
CC.hudControl.visualAlert = visual_alert
CC.hudControl.audibleAlert = audible_alert
# this alert will apply next controls cycle
#if not CI.apply(CC):
# AM.add("controlsFailed", enabled)
# broadcast carControl
cc_send = messaging.new_message()
cc_send.init('carControl')
cc_send.carControl = CC # copy?
#carcontrol.send(cc_send.to_bytes())
sendcan.send(cc_send.to_bytes())
prof.checkpoint("CarControl")
# ***** publish state to logger *****
# publish controls state at 100Hz
dat = messaging.new_message()
dat.init('live100')
# show rear view camera on phone if in reverse gear or when button is pressed
dat.live100.rearViewCam = ('reverseGear'
in CS.errors) or rear_view_toggle
dat.live100.alertText1 = alert_text_1
dat.live100.alertText2 = alert_text_2
dat.live100.awarenessStatus = max(awareness_status,
0.0) if enabled else 0.0
# what packets were used to process
dat.live100.canMonoTimes = list(CS.canMonoTimes)
dat.live100.mdMonoTime = PP.logMonoTime
dat.live100.l20MonoTime = AC.logMonoTime
# if controls is enabled
dat.live100.enabled = enabled
# car state
dat.live100.vEgo = CS.vEgo
dat.live100.angleSteers = CS.steeringAngle
dat.live100.steerOverride = CS.steeringPressed
# longitudinal control state
dat.live100.vPid = float(LoC.v_pid)
dat.live100.vCruise = float(v_cruise_kph)
dat.live100.upAccelCmd = float(LoC.Up_accel_cmd)
dat.live100.uiAccelCmd = float(LoC.Ui_accel_cmd)
# lateral control state
dat.live100.yActual = float(LaC.y_actual)
dat.live100.yDes = float(LaC.y_des)
dat.live100.upSteer = float(LaC.Up_steer)
dat.live100.uiSteer = float(LaC.Ui_steer)
# processed radar state, should add a_pcm?
dat.live100.vTargetLead = float(AC.v_target_lead)
dat.live100.aTargetMin = float(AC.a_target[0])
dat.live100.aTargetMax = float(AC.a_target[1])
dat.live100.jerkFactor = float(AC.jerk_factor)
# lag
dat.live100.cumLagMs = -rk.remaining * 1000.
live100.send(dat.to_bytes())
prof.checkpoint("Live100")
# *** run loop at fixed rate ***
if rk.keep_time():
prof.display()
def __init__(self, sm=None, pm=None, can_sock=None):
config_realtime_process(3, Priority.CTRL_HIGH)
# Setup sockets
self.pm = pm
if self.pm is None:
self.pm = messaging.PubMaster(['sendcan', 'controlsState', 'carState',
'carControl', 'carEvents', 'carParams'])
self.sm = sm
if self.sm is None:
self.sm = messaging.SubMaster(['thermal', 'health', 'model', 'liveCalibration',
'dMonitoringState', 'plan', 'pathPlan', 'liveLocationKalman'])
self.can_sock = can_sock
if can_sock is None:
can_timeout = None if os.environ.get('NO_CAN_TIMEOUT', False) else 100
self.can_sock = messaging.sub_sock('can', timeout=can_timeout)
# wait for one health and one CAN packet
hw_type = messaging.recv_one(self.sm.sock['health']).health.hwType
has_relay = hw_type in [HwType.blackPanda, HwType.uno, HwType.dos]
print("Waiting for CAN messages...")
get_one_can(self.can_sock)
self.CI, self.CP = get_car(self.can_sock, self.pm.sock['sendcan'], has_relay)
# read params
params = Params()
self.is_metric = params.get("IsMetric", encoding='utf8') == "1"
self.is_ldw_enabled = params.get("IsLdwEnabled", encoding='utf8') == "1"
internet_needed = (params.get("Offroad_ConnectivityNeeded", encoding='utf8') is not None) and (params.get("DisableUpdates") != b"1")
community_feature_toggle = params.get("CommunityFeaturesToggle", encoding='utf8') == "1"
openpilot_enabled_toggle = params.get("OpenpilotEnabledToggle", encoding='utf8') == "1"
passive = params.get("Passive", encoding='utf8') == "1" or \
internet_needed or not openpilot_enabled_toggle
# detect sound card presence and ensure successful init
sounds_available = HARDWARE.get_sound_card_online()
car_recognized = self.CP.carName != 'mock'
# If stock camera is disconnected, we loaded car controls and it's not dashcam mode
controller_available = self.CP.enableCamera and self.CI.CC is not None and not passive and not self.CP.dashcamOnly
community_feature_disallowed = self.CP.communityFeature and not community_feature_toggle
self.read_only = not car_recognized or not controller_available or \
self.CP.dashcamOnly or community_feature_disallowed
if self.read_only:
self.CP.safetyModel = car.CarParams.SafetyModel.noOutput
# Write CarParams for radard and boardd safety mode
cp_bytes = self.CP.to_bytes()
params.put("CarParams", cp_bytes)
put_nonblocking("CarParamsCache", cp_bytes)
self.CC = car.CarControl.new_message()
self.AM = AlertManager()
self.events = Events()
self.LoC = LongControl(self.CP, self.CI.compute_gb)
self.VM = VehicleModel(self.CP)
if self.CP.lateralTuning.which() == 'pid':
self.LaC = LatControlPID(self.CP)
elif self.CP.lateralTuning.which() == 'indi':
self.LaC = LatControlINDI(self.CP)
elif self.CP.lateralTuning.which() == 'lqr':
self.LaC = LatControlLQR(self.CP)
self.state = State.disabled
self.enabled = False
self.active = False
self.can_rcv_error = False
self.soft_disable_timer = 0
self.v_cruise_kph = 255
self.v_cruise_kph_last = 0
self.mismatch_counter = 0
self.can_error_counter = 0
self.last_blinker_frame = 0
self.saturated_count = 0
self.distance_traveled = 0
self.last_functional_fan_frame = 0
self.events_prev = []
self.current_alert_types = [ET.PERMANENT]
self.sm['liveCalibration'].calStatus = Calibration.CALIBRATED
self.sm['thermal'].freeSpace = 1.
self.sm['dMonitoringState'].events = []
self.sm['dMonitoringState'].awarenessStatus = 1.
self.sm['dMonitoringState'].faceDetected = False
self.startup_event = get_startup_event(car_recognized, controller_available, hw_type)
if not sounds_available:
self.events.add(EventName.soundsUnavailable, static=True)
if internet_needed:
self.events.add(EventName.internetConnectivityNeeded, static=True)
if community_feature_disallowed:
self.events.add(EventName.communityFeatureDisallowed, static=True)
if not car_recognized:
self.events.add(EventName.carUnrecognized, static=True)
if hw_type == HwType.whitePanda:
self.events.add(EventName.whitePandaUnsupported, static=True)
# controlsd is driven by can recv, expected at 100Hz
self.rk = Ratekeeper(100, print_delay_threshold=None)
self.prof = Profiler(False) # off by default
try:
print(len(values[0]), len(s.split(',')))
print(
'insert into {}({}) values ({})'.format(table_name, field2, s),
values[0])
self.cursor.executemany(
'insert into {}({}) values ({})'.format(table_name, field2, s),
values)
except Exception as e:
print(e.message)
finally:
self.conn.commit()
if __name__ == '__main__':
pr = Profiler()
# unit test case 1
# mysql=DB_mysql()
# sql_str='select * from city'
# df = mysql.query(sql_str)
# mysql = DB_mysql()
# tbl_nme = 'world.city'
# data ={
# 'ID':5001,
# 'NAME':'TonyCity',
# 'COUNTRYCODE':'AFG',
# 'DISTRICT':'Herat',
# 'POPULATION':190000
# }
# mysql.insert(tbl_nme,data)
# unit test case 2
