def wrap():
update_apks()
pm_apply_packages('enable')
start_offroad()
func()
try:
for package in android_packages:
apk_is_running = (subprocess.call(["pidof", package]) == 0)
assert apk_is_running, package
finally:
pm_apply_packages('disable')
for package in android_packages:
apk_is_not_running = (subprocess.call(["pidof",
package]) == 1)
assert apk_is_not_running, package
def manager_thread():
# now loop
thermal_sock = messaging.sub_sock('thermal')
if os.getenv("GET_CPU_USAGE"):
proc_sock = messaging.sub_sock('procLog', conflate=True)
cloudlog.info("manager start")
cloudlog.info({"environ": os.environ})
# save boot log
subprocess.call(["./loggerd", "--bootlog"],
cwd=os.path.join(BASEDIR, "selfdrive/loggerd"))
params = Params()
# start daemon processes
for p in daemon_processes:
start_daemon_process(p)
# start persistent processes
for p in persistent_processes:
start_managed_process(p)
# start offroad
if ANDROID:
pm_apply_packages('enable')
start_offroad()
if os.getenv("NOBOARD") is None:
start_managed_process("pandad")
if os.getenv("BLOCK") is not None:
for k in os.getenv("BLOCK").split(","):
del managed_processes[k]
logger_dead = False
start_t = time.time()
first_proc = None
while 1:
msg = messaging.recv_sock(thermal_sock, wait=True)
# heavyweight batch processes are gated on favorable thermal conditions
if msg.thermal.thermalStatus >= ThermalStatus.yellow:
for p in green_temp_processes:
if p in persistent_processes:
kill_managed_process(p)
else:
for p in green_temp_processes:
if p in persistent_processes:
start_managed_process(p)
if msg.thermal.freeSpace < 0.05:
logger_dead = True
if msg.thermal.started and "driverview" not in running:
for p in car_started_processes:
if p == "loggerd" and logger_dead:
kill_managed_process(p)
else:
start_managed_process(p)
else:
logger_dead = False
for p in reversed(car_started_processes):
kill_managed_process(p)
# this is ugly
if "driverview" not in running and params.get(
"IsDriverViewEnabled") == b"1":
start_managed_process("driverview")
elif "driverview" in running and params.get(
"IsDriverViewEnabled") == b"0":
kill_managed_process("driverview")
# check the status of all processes, did any of them die?
running_list = [
"%s%s\u001b[0m" %
("\u001b[32m" if running[p].is_alive() else "\u001b[31m", p)
for p in running
]
cloudlog.debug(' '.join(running_list))
# Exit main loop when uninstall is needed
if params.get("DoUninstall", encoding='utf8') == "1":
break
if os.getenv("GET_CPU_USAGE"):
dt = time.time() - start_t
# Get first sample
if dt > 30 and first_proc is None:
first_proc = messaging.recv_sock(proc_sock)
# Get last sample and exit
if dt > 90:
last_proc = messaging.recv_sock(proc_sock, wait=True)
cleanup_all_processes(None, None)
sys.exit(print_cpu_usage(first_proc, last_proc))
def manager_thread():
# now loop
thermal_sock = messaging.sub_sock('thermal')
cloudlog.info("manager start")
cloudlog.info({"environ": os.environ})
params = Params()
EnableLogger = int(params.get('OpkrEnableLogger'))
#EnableLogger = (params.get("RecordFront") != b"0")
if not EnableLogger:
car_started_processes.remove('loggerd')
persistent_processes.remove('logmessaged')
persistent_processes.remove('uploader')
persistent_processes.remove('logcatd')
persistent_processes.remove('updated')
persistent_processes.remove('deleter')
persistent_processes.remove('tombstoned')
else:
# save boot log
subprocess.call(["./loggerd", "--bootlog"],
cwd=os.path.join(BASEDIR, "selfdrive/loggerd"))
# start daemon processes
for p in daemon_processes:
start_daemon_process(p)
# start persistent processes
for p in persistent_processes:
start_managed_process(p)
# start offroad
if ANDROID:
pm_apply_packages('enable')
start_offroad()
if os.getenv("NOBOARD") is None:
start_managed_process("pandad")
if os.getenv("BLOCK") is not None:
for k in os.getenv("BLOCK").split(","):
del managed_processes[k]
logger_dead = False
while 1:
msg = messaging.recv_sock(thermal_sock, wait=True)
# heavyweight batch processes are gated on favorable thermal conditions
if msg.thermal.thermalStatus >= ThermalStatus.yellow:
for p in green_temp_processes:
if p in persistent_processes:
kill_managed_process(p)
else:
for p in green_temp_processes:
if p in persistent_processes:
start_managed_process(p)
if msg.thermal.freeSpace < 0.05:
logger_dead = True
if msg.thermal.started and "driverview" not in running:
for p in car_started_processes:
if p == "loggerd" and logger_dead:
kill_managed_process(p)
else:
start_managed_process(p)
else:
logger_dead = False
for p in reversed(car_started_processes):
kill_managed_process(p)
# this is ugly
if "driverview" not in running and params.get(
"IsDriverViewEnabled") == b"1":
start_managed_process("driverview")
elif "driverview" in running and params.get(
"IsDriverViewEnabled") == b"0":
kill_managed_process("driverview")
# check the status of all processes, did any of them die?
running_list = [
"%s%s\u001b[0m" %
("\u001b[32m" if running[p].is_alive() else "\u001b[31m", p)
for p in running
]
cloudlog.debug(' '.join(running_list))
# Exit main loop when uninstall is needed
if params.get("DoUninstall", encoding='utf8') == "1":
break
def manager_thread():
# now loop
thermal_sock = messaging.sub_sock('thermal')
cloudlog.info("manager start")
cloudlog.info({"environ": os.environ})
# save boot log
subprocess.call(["./loggerd", "--bootlog"],
cwd=os.path.join(BASEDIR, "selfdrive/loggerd"))
params = Params()
# start daemon processes
for p in daemon_processes:
start_daemon_process(p)
# start persistent processes
for p in persistent_processes:
start_managed_process(p)
# start offroad
if ANDROID:
pm_apply_packages('enable')
start_offroad()
if os.getenv("NOBOARD") is None:
start_managed_process("pandad")
if os.getenv("BLOCK") is not None:
for k in os.getenv("BLOCK").split(","):
del managed_processes[k]
started_prev = False
logger_dead = False
while 1:
msg = messaging.recv_sock(thermal_sock, wait=True)
if msg.thermal.freeSpace < 0.05:
logger_dead = True
if msg.thermal.started:
for p in car_started_processes:
if p == "loggerd" and logger_dead:
kill_managed_process(p)
else:
start_managed_process(p)
else:
logger_dead = False
driver_view = params.get("IsDriverViewEnabled") == b"1"
# TODO: refactor how manager manages processes
for p in reversed(car_started_processes):
if p not in driver_view_processes or not driver_view:
kill_managed_process(p)
for p in driver_view_processes:
if driver_view:
start_managed_process(p)
else:
kill_managed_process(p)
# trigger an update after going offroad
if started_prev:
send_managed_process_signal("updated", signal.SIGHUP)
started_prev = msg.thermal.started
# check the status of all processes, did any of them die?
running_list = [
"%s%s\u001b[0m" %
("\u001b[32m" if running[p].is_alive() else "\u001b[31m", p)
for p in running
]
cloudlog.debug(' '.join(running_list))
# Exit main loop when uninstall is needed
if params.get("DoUninstall", encoding='utf8') == "1":
break
def manager_thread():
# now loop
thermal_sock = messaging.sub_sock('thermal')
if os.getenv("GET_CPU_USAGE"):
proc_sock = messaging.sub_sock('procLog', conflate=True)
cloudlog.info("manager start")
cloudlog.info({"environ": os.environ})
params = Params()
EnableLogger = int(params.get('OpkrEnableLogger'))
if not EnableLogger:
car_started_processes.remove('loggerd')
persistent_processes.remove('logmessaged')
persistent_processes.remove('uploader')
persistent_processes.remove('logcatd')
persistent_processes.remove('updated')
persistent_processes.remove('deleter')
persistent_processes.remove('tombstoned')
else:
# save boot log
subprocess.call(["./loggerd", "--bootlog"],
cwd=os.path.join(BASEDIR, "selfdrive/loggerd"))
# start daemon processes
for p in daemon_processes:
start_daemon_process(p)
# start persistent processes
for p in persistent_processes:
start_managed_process(p)
# start offroad
if ANDROID:
pm_apply_packages('enable')
start_offroad()
if os.getenv("NOBOARD") is None:
start_managed_process("pandad")
if os.getenv("BLOCK") is not None:
for k in os.getenv("BLOCK").split(","):
del managed_processes[k]
started_prev = False
logger_dead = False
start_t = time.time()
first_proc = None
while 1:
msg = messaging.recv_sock(thermal_sock, wait=True)
# heavyweight batch processes are gated on favorable thermal conditions
if msg.thermal.thermalStatus >= ThermalStatus.yellow:
for p in green_temp_processes:
if p in persistent_processes:
kill_managed_process(p)
else:
for p in green_temp_processes:
if p in persistent_processes:
start_managed_process(p)
if msg.thermal.freeSpace < 0.05:
logger_dead = True
if msg.thermal.started:
for p in car_started_processes:
if (p == "loggerd" and logger_dead) or p == "uploader":
kill_managed_process(p)
else:
start_managed_process(p)
else:
logger_dead = False
driver_view = params.get("IsDriverViewEnabled") == b"1"
# TODO: refactor how manager manages processes
for p in reversed(car_started_processes):
if p not in driver_view_processes or not driver_view:
kill_managed_process(p)
for p in driver_view_processes:
if driver_view:
start_managed_process(p)
else:
kill_managed_process(p)
# trigger an update after going offroad
if started_prev:
send_managed_process_signal("updated", signal.SIGHUP)
started_prev = msg.thermal.started
# check the status of all processes, did any of them die?
running_list = [
"%s%s\u001b[0m" %
("\u001b[32m" if running[p].is_alive() else "\u001b[31m", p)
for p in running
]
cloudlog.debug(' '.join(running_list))
# Exit main loop when uninstall is needed
if params.get("DoUninstall", encoding='utf8') == "1":
break
if os.getenv("GET_CPU_USAGE"):
dt = time.time() - start_t
# Get first sample
if dt > 30 and first_proc is None:
first_proc = messaging.recv_sock(proc_sock)
# Get last sample and exit
if dt > 90:
last_proc = messaging.recv_sock(proc_sock, wait=True)
cleanup_all_processes(None, None)
sys.exit(print_cpu_usage(first_proc, last_proc))
def manager_thread():
# now loop
thermal_sock = messaging.sub_sock('thermal')
if os.getenv("GET_CPU_USAGE"):
proc_sock = messaging.sub_sock('procLog', conflate=True)
cloudlog.info("manager start")
cloudlog.info({"environ": os.environ})
# save boot log
subprocess.call(["./loggerd", "--bootlog"],
cwd=os.path.join(BASEDIR, "selfdrive/loggerd"))
params = Params()
# start daemon processes
for p in daemon_processes:
start_daemon_process(p)
# start persistent processes
for p in persistent_processes:
start_managed_process(p)
# start offroad
if ANDROID:
pm_apply_packages('enable')
start_offroad()
if os.getenv("NOBOARD") is None:
start_managed_process("pandad")
if os.getenv("BLOCK") is not None:
for k in os.getenv("BLOCK").split(","):
del managed_processes[k]
logger_dead = False
# Tinkla interface
last_tinklad_send_attempt_time = 0
tinklaClient = TinklaClient()
sendUserInfoToTinkla(params=params, tinklaClient=tinklaClient)
start_t = time.time()
first_proc = None
while 1:
msg = messaging.recv_sock(thermal_sock, wait=True)
# heavyweight batch processes are gated on favorable thermal conditions
if msg.thermal.thermalStatus >= ThermalStatus.yellow:
for p in green_temp_processes:
if p in persistent_processes:
kill_managed_process(p)
else:
for p in green_temp_processes:
if p in persistent_processes:
start_managed_process(p)
# Attempt to send pending messages if there's any that queued while offline
# Seems this loop runs every second or so, throttle to once every 30s
now = time.time()
if now - last_tinklad_send_attempt_time >= 30:
tinklaClient.attemptToSendPendingMessages()
last_tinklad_send_attempt_time = now
if msg.thermal.freeSpace < 0.05:
logger_dead = True
if msg.thermal.started:
for p in car_started_processes:
if p == "loggerd" and logger_dead:
kill_managed_process(p)
else:
start_managed_process(p)
else:
logger_dead = False
for p in reversed(car_started_processes):
kill_managed_process(p)
# check the status of all processes, did any of them die?
running_list = [
"%s%s\u001b[0m" %
("\u001b[32m" if running[p].is_alive() else "\u001b[31m", p)
for p in running
]
cloudlog.debug(' '.join(running_list))
# Exit main loop when uninstall is needed
if params.get("DoUninstall", encoding='utf8') == "1":
break
if os.getenv("GET_CPU_USAGE"):
dt = time.time() - start_t
# Get first sample
if dt > 30 and first_proc is None:
first_proc = messaging.recv_sock(proc_sock)
# Get last sample and exit
if dt > 90:
first_proc = first_proc
last_proc = messaging.recv_sock(proc_sock, wait=True)
cleanup_all_processes(None, None)
sys.exit(print_cpu_usage(first_proc, last_proc))