openpilot0/selfdrive/thermald.py

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#!/usr/bin/env python3.7
import os
import json
import copy
import datetime
import psutil
import subprocess
from smbus2 import SMBus
from cereal import log
from common.android import ANDROID, get_network_type
from common.basedir import BASEDIR
from common.params import Params
from common.realtime import sec_since_boot, DT_TRML
from common.numpy_fast import clip, interp
from common.filter_simple import FirstOrderFilter
from selfdrive.version import terms_version, training_version
from selfdrive.swaglog import cloudlog
import cereal.messaging as messaging
from selfdrive.loggerd.config import get_available_percent
from selfdrive.pandad import get_expected_signature
FW_SIGNATURE = get_expected_signature()
ThermalStatus = log.ThermalData.ThermalStatus
NetworkType = log.ThermalData.NetworkType
CURRENT_TAU = 15. # 15s time constant
DAYS_NO_CONNECTIVITY_MAX = 7 # do not allow to engage after a week without internet
DAYS_NO_CONNECTIVITY_PROMPT = 4 # send an offroad prompt after 4 days with no internet
with open(BASEDIR + "/selfdrive/controls/lib/alerts_offroad.json") as json_file:
OFFROAD_ALERTS = json.load(json_file)
def read_tz(x, clip=True):
try:
with open("/sys/devices/virtual/thermal/thermal_zone%d/temp" % x) as f:
ret = int(f.read())
if clip:
ret = max(0, ret)
except FileNotFoundError:
return 0
return ret
def read_thermal():
dat = messaging.new_message()
dat.init('thermal')
dat.thermal.cpu0 = read_tz(5)
dat.thermal.cpu1 = read_tz(7)
dat.thermal.cpu2 = read_tz(10)
dat.thermal.cpu3 = read_tz(12)
dat.thermal.mem = read_tz(2)
dat.thermal.gpu = read_tz(16)
dat.thermal.bat = read_tz(29)
dat.thermal.pa0 = read_tz(25)
return dat
LEON = False
def setup_eon_fan():
global LEON
os.system("echo 2 > /sys/module/dwc3_msm/parameters/otg_switch")
bus = SMBus(7, force=True)
try:
bus.write_byte_data(0x21, 0x10, 0xf) # mask all interrupts
bus.write_byte_data(0x21, 0x03, 0x1) # set drive current and global interrupt disable
bus.write_byte_data(0x21, 0x02, 0x2) # needed?
bus.write_byte_data(0x21, 0x04, 0x4) # manual override source
except IOError:
print("LEON detected")
#os.system("echo 1 > /sys/devices/soc/6a00000.ssusb/power_supply/usb/usb_otg")
LEON = True
bus.close()
last_eon_fan_val = None
def set_eon_fan(val):
global LEON, last_eon_fan_val
if last_eon_fan_val is None or last_eon_fan_val != val:
bus = SMBus(7, force=True)
if LEON:
try:
i = [0x1, 0x3 | 0, 0x3 | 0x08, 0x3 | 0x10][val]
bus.write_i2c_block_data(0x3d, 0, [i])
except IOError:
# tusb320
if val == 0:
bus.write_i2c_block_data(0x67, 0xa, [0])
#bus.write_i2c_block_data(0x67, 0x45, [1<<2])
else:
#bus.write_i2c_block_data(0x67, 0x45, [0])
bus.write_i2c_block_data(0x67, 0xa, [0x20])
bus.write_i2c_block_data(0x67, 0x8, [(val-1)<<6])
else:
bus.write_byte_data(0x21, 0x04, 0x2)
bus.write_byte_data(0x21, 0x03, (val*2)+1)
bus.write_byte_data(0x21, 0x04, 0x4)
bus.close()
last_eon_fan_val = val
# temp thresholds to control fan speed - high hysteresis
_TEMP_THRS_H = [50., 65., 80., 10000]
# temp thresholds to control fan speed - low hysteresis
_TEMP_THRS_L = [42.5, 57.5, 72.5, 10000]
# fan speed options
_FAN_SPEEDS = [0, 16384, 32768, 65535]
# max fan speed only allowed if battery is hot
_BAT_TEMP_THERSHOLD = 45.
def handle_fan_eon(max_cpu_temp, bat_temp, fan_speed, ignition):
new_speed_h = next(speed for speed, temp_h in zip(_FAN_SPEEDS, _TEMP_THRS_H) if temp_h > max_cpu_temp)
new_speed_l = next(speed for speed, temp_l in zip(_FAN_SPEEDS, _TEMP_THRS_L) if temp_l > max_cpu_temp)
if new_speed_h > fan_speed:
# update speed if using the high thresholds results in fan speed increment
fan_speed = new_speed_h
elif new_speed_l < fan_speed:
# update speed if using the low thresholds results in fan speed decrement
fan_speed = new_speed_l
if bat_temp < _BAT_TEMP_THERSHOLD:
# no max fan speed unless battery is hot
fan_speed = min(fan_speed, _FAN_SPEEDS[-2])
set_eon_fan(fan_speed//16384)
return fan_speed
def handle_fan_uno(max_cpu_temp, bat_temp, fan_speed, ignition):
new_speed = int(interp(max_cpu_temp, [40.0, 80.0], [0, 80]))
if not ignition:
new_speed = min(30, new_speed)
return new_speed
def thermald_thread():
# prevent LEECO from undervoltage
BATT_PERC_OFF = 10 if LEON else 3
health_timeout = int(1000 * 2.5 * DT_TRML) # 2.5x the expected health frequency
# now loop
thermal_sock = messaging.pub_sock('thermal')
health_sock = messaging.sub_sock('health', timeout=health_timeout)
location_sock = messaging.sub_sock('gpsLocation')
ignition = False
fan_speed = 0
count = 0
off_ts = None
started_ts = None
started_seen = False
thermal_status = ThermalStatus.green
thermal_status_prev = ThermalStatus.green
usb_power = True
usb_power_prev = True
network_type = NetworkType.none
current_filter = FirstOrderFilter(0., CURRENT_TAU, DT_TRML)
health_prev = None
fw_version_match_prev = True
current_connectivity_alert = None
time_valid_prev = True
should_start_prev = False
is_uno = (read_tz(29, clip=False) < -1000)
if is_uno or not ANDROID:
handle_fan = handle_fan_uno
else:
setup_eon_fan()
handle_fan = handle_fan_eon
params = Params()
while 1:
health = messaging.recv_sock(health_sock, wait=True)
location = messaging.recv_sock(location_sock)
location = location.gpsLocation if location else None
msg = read_thermal()
# clear car params when panda gets disconnected
if health is None and health_prev is not None:
params.panda_disconnect()
health_prev = health
if health is not None:
usb_power = health.health.usbPowerMode != log.HealthData.UsbPowerMode.client
# get_network_type is an expensive call. update every 3s
if (count % int(3. / DT_TRML)) == 0:
try:
network_type = get_network_type()
except subprocess.CalledProcessError:
pass
msg.thermal.freeSpace = get_available_percent(default=100.0) / 100.0
msg.thermal.memUsedPercent = int(round(psutil.virtual_memory().percent))
msg.thermal.cpuPerc = int(round(psutil.cpu_percent()))
msg.thermal.networkType = network_type
try:
with open("/sys/class/power_supply/battery/capacity") as f:
msg.thermal.batteryPercent = int(f.read())
with open("/sys/class/power_supply/battery/status") as f:
msg.thermal.batteryStatus = f.read().strip()
with open("/sys/class/power_supply/battery/current_now") as f:
msg.thermal.batteryCurrent = int(f.read())
with open("/sys/class/power_supply/battery/voltage_now") as f:
msg.thermal.batteryVoltage = int(f.read())
with open("/sys/class/power_supply/usb/present") as f:
msg.thermal.usbOnline = bool(int(f.read()))
except FileNotFoundError:
pass
# Fake battery levels on uno for frame
if is_uno:
msg.thermal.batteryPercent = 100
msg.thermal.batteryStatus = "Charging"
current_filter.update(msg.thermal.batteryCurrent / 1e6)
# TODO: add car battery voltage check
max_cpu_temp = max(msg.thermal.cpu0, msg.thermal.cpu1,
msg.thermal.cpu2, msg.thermal.cpu3) / 10.0
max_comp_temp = max(max_cpu_temp, msg.thermal.mem / 10., msg.thermal.gpu / 10.)
bat_temp = msg.thermal.bat/1000.
fan_speed = handle_fan(max_cpu_temp, bat_temp, fan_speed, ignition)
msg.thermal.fanSpeed = fan_speed
# thermal logic with hysterisis
if max_cpu_temp > 107. or bat_temp >= 63.:
# onroad not allowed
thermal_status = ThermalStatus.danger
elif max_comp_temp > 92.5 or bat_temp > 60.: # CPU throttling starts around ~90C
# hysteresis between onroad not allowed and engage not allowed
thermal_status = clip(thermal_status, ThermalStatus.red, ThermalStatus.danger)
elif max_cpu_temp > 87.5:
# hysteresis between engage not allowed and uploader not allowed
thermal_status = clip(thermal_status, ThermalStatus.yellow, ThermalStatus.red)
elif max_cpu_temp > 80.0:
# uploader not allowed
thermal_status = ThermalStatus.yellow
elif max_cpu_temp > 75.0:
# hysteresis between uploader not allowed and all good
thermal_status = clip(thermal_status, ThermalStatus.green, ThermalStatus.yellow)
else:
# all good
thermal_status = ThermalStatus.green
# **** starting logic ****
# Check for last update time and display alerts if needed
now = datetime.datetime.now()
# show invalid date/time alert
time_valid = now.year >= 2019
if time_valid and not time_valid_prev:
params.delete("Offroad_InvalidTime")
if not time_valid and time_valid_prev:
params.put("Offroad_InvalidTime", json.dumps(OFFROAD_ALERTS["Offroad_InvalidTime"]))
time_valid_prev = time_valid
# Show update prompt
try:
last_update = datetime.datetime.fromisoformat(params.get("LastUpdateTime", encoding='utf8'))
except (TypeError, ValueError):
last_update = now
dt = now - last_update
update_failed_count = params.get("UpdateFailedCount")
update_failed_count = 0 if update_failed_count is None else int(update_failed_count)
if dt.days > DAYS_NO_CONNECTIVITY_MAX and update_failed_count > 1:
if current_connectivity_alert != "expired":
current_connectivity_alert = "expired"
params.delete("Offroad_ConnectivityNeededPrompt")
params.put("Offroad_ConnectivityNeeded", json.dumps(OFFROAD_ALERTS["Offroad_ConnectivityNeeded"]))
elif dt.days > DAYS_NO_CONNECTIVITY_PROMPT:
remaining_time = str(max(DAYS_NO_CONNECTIVITY_MAX - dt.days, 0))
if current_connectivity_alert != "prompt" + remaining_time:
current_connectivity_alert = "prompt" + remaining_time
alert_connectivity_prompt = copy.copy(OFFROAD_ALERTS["Offroad_ConnectivityNeededPrompt"])
alert_connectivity_prompt["text"] += remaining_time + " days."
params.delete("Offroad_ConnectivityNeeded")
params.put("Offroad_ConnectivityNeededPrompt", json.dumps(alert_connectivity_prompt))
elif current_connectivity_alert is not None:
current_connectivity_alert = None
params.delete("Offroad_ConnectivityNeeded")
params.delete("Offroad_ConnectivityNeededPrompt")
# start constellation of processes when the car starts
ignition = health is not None and (health.health.ignitionLine or health.health.ignitionCan)
do_uninstall = params.get("DoUninstall") == b"1"
accepted_terms = params.get("HasAcceptedTerms") == terms_version
completed_training = params.get("CompletedTrainingVersion") == training_version
panda_signature = params.get("PandaFirmware")
fw_version_match = (panda_signature is None) or (panda_signature == FW_SIGNATURE) # don't show alert is no panda is connected (None)
should_start = ignition
# with 2% left, we killall, otherwise the phone will take a long time to boot
should_start = should_start and msg.thermal.freeSpace > 0.02
# confirm we have completed training and aren't uninstalling
should_start = should_start and accepted_terms and completed_training and (not do_uninstall)
# check for firmware mismatch
should_start = should_start and fw_version_match
# check if system time is valid
should_start = should_start and time_valid
# don't start while taking snapshot
if not should_start_prev:
is_taking_snapshot = params.get("IsTakingSnapshot") == b"1"
should_start = should_start and (not is_taking_snapshot)
if fw_version_match and not fw_version_match_prev:
params.delete("Offroad_PandaFirmwareMismatch")
if not fw_version_match and fw_version_match_prev:
params.put("Offroad_PandaFirmwareMismatch", json.dumps(OFFROAD_ALERTS["Offroad_PandaFirmwareMismatch"]))
# if any CPU gets above 107 or the battery gets above 63, kill all processes
# controls will warn with CPU above 95 or battery above 60
if thermal_status >= ThermalStatus.danger:
should_start = False
if thermal_status_prev < ThermalStatus.danger:
params.put("Offroad_TemperatureTooHigh", json.dumps(OFFROAD_ALERTS["Offroad_TemperatureTooHigh"]))
else:
if thermal_status_prev >= ThermalStatus.danger:
params.delete("Offroad_TemperatureTooHigh")
if should_start:
if not should_start_prev:
params.delete("IsOffroad")
off_ts = None
if started_ts is None:
started_ts = sec_since_boot()
started_seen = True
os.system('echo performance > /sys/class/devfreq/soc:qcom,cpubw/governor')
else:
if should_start_prev or (count == 0):
params.put("IsOffroad", "1")
started_ts = None
if off_ts is None:
off_ts = sec_since_boot()
os.system('echo powersave > /sys/class/devfreq/soc:qcom,cpubw/governor')
# shutdown if the battery gets lower than 3%, it's discharging, we aren't running for
# more than a minute but we were running
if msg.thermal.batteryPercent < BATT_PERC_OFF and msg.thermal.batteryStatus == "Discharging" and \
started_seen and (sec_since_boot() - off_ts) > 60:
os.system('LD_LIBRARY_PATH="" svc power shutdown')
msg.thermal.chargingError = current_filter.x > 0. and msg.thermal.batteryPercent < 90 # if current is positive, then battery is being discharged
msg.thermal.started = started_ts is not None
msg.thermal.startedTs = int(1e9*(started_ts or 0))
msg.thermal.thermalStatus = thermal_status
thermal_sock.send(msg.to_bytes())
if usb_power_prev and not usb_power:
params.put("Offroad_ChargeDisabled", json.dumps(OFFROAD_ALERTS["Offroad_ChargeDisabled"]))
elif usb_power and not usb_power_prev:
params.delete("Offroad_ChargeDisabled")
thermal_status_prev = thermal_status
usb_power_prev = usb_power
fw_version_match_prev = fw_version_match
should_start_prev = should_start
#print(msg)
# report to server once per minute
if (count % int(60. / DT_TRML)) == 0:
cloudlog.event("STATUS_PACKET",
count=count,
health=(health.to_dict() if health else None),
location=(location.to_dict() if location else None),
thermal=msg.to_dict())
count += 1
def main(gctx=None):
thermald_thread()
if __name__ == "__main__":
main()