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|
"""
Device health monitoring
"""
import errno
import json
from mgr_module import MgrModule, CommandResult, MgrModuleRecoverDB, CLIRequiresDB, CLICommand, CLIReadCommand, Option, MgrDBNotReady
import operator
import rados
import re
from threading import Event
from datetime import datetime, timedelta, timezone
from typing import cast, Any, Dict, List, Optional, Sequence, Tuple, TYPE_CHECKING, Union
TIME_FORMAT = '%Y%m%d-%H%M%S'
DEVICE_HEALTH = 'DEVICE_HEALTH'
DEVICE_HEALTH_IN_USE = 'DEVICE_HEALTH_IN_USE'
DEVICE_HEALTH_TOOMANY = 'DEVICE_HEALTH_TOOMANY'
HEALTH_MESSAGES = {
DEVICE_HEALTH: '%d device(s) expected to fail soon',
DEVICE_HEALTH_IN_USE: '%d daemon(s) expected to fail soon and still contain data',
DEVICE_HEALTH_TOOMANY: 'Too many daemons are expected to fail soon',
}
def get_ata_wear_level(data: Dict[Any, Any]) -> Optional[float]:
"""
Extract wear level (as float) from smartctl -x --json output for SATA SSD
"""
for page in data.get("ata_device_statistics", {}).get("pages", []):
if page is None or page.get("number") != 7:
continue
for item in page.get("table", []):
if item["offset"] == 8:
return item["value"] / 100.0
return None
def get_nvme_wear_level(data: Dict[Any, Any]) -> Optional[float]:
"""
Extract wear level (as float) from smartctl -x --json output for NVME SSD
"""
pct_used = data.get("nvme_smart_health_information_log", {}).get("percentage_used")
if pct_used is None:
return None
return pct_used / 100.0
class Module(MgrModule):
# latest (if db does not exist)
SCHEMA = """
CREATE TABLE Device (
devid TEXT PRIMARY KEY
) WITHOUT ROWID;
CREATE TABLE DeviceHealthMetrics (
time DATETIME DEFAULT (strftime('%s', 'now')),
devid TEXT NOT NULL REFERENCES Device (devid),
raw_smart TEXT NOT NULL,
PRIMARY KEY (time, devid)
);
"""
SCHEMA_VERSIONED = [
# v1
"""
CREATE TABLE Device (
devid TEXT PRIMARY KEY
) WITHOUT ROWID;
CREATE TABLE DeviceHealthMetrics (
time DATETIME DEFAULT (strftime('%s', 'now')),
devid TEXT NOT NULL REFERENCES Device (devid),
raw_smart TEXT NOT NULL,
PRIMARY KEY (time, devid)
);
"""
]
MODULE_OPTIONS = [
Option(
name='enable_monitoring',
default=True,
type='bool',
desc='monitor device health metrics',
runtime=True,
),
Option(
name='scrape_frequency',
default=86400,
type='secs',
desc='how frequently to scrape device health metrics',
runtime=True,
),
Option(
name='pool_name',
default='device_health_metrics',
type='str',
desc='name of pool in which to store device health metrics',
runtime=True,
),
Option(
name='retention_period',
default=(86400 * 180),
type='secs',
desc='how long to retain device health metrics',
runtime=True,
),
Option(
name='mark_out_threshold',
default=(86400 * 14 * 2),
type='secs',
desc='automatically mark OSD if it may fail before this long',
runtime=True,
),
Option(
name='warn_threshold',
default=(86400 * 14 * 6),
type='secs',
desc='raise health warning if OSD may fail before this long',
runtime=True,
),
Option(
name='self_heal',
default=True,
type='bool',
desc='preemptively heal cluster around devices that may fail',
runtime=True,
),
Option(
name='sleep_interval',
default=600,
type='secs',
desc='how frequently to wake up and check device health',
runtime=True,
),
]
def __init__(self, *args: Any, **kwargs: Any) -> None:
super(Module, self).__init__(*args, **kwargs)
# populate options (just until serve() runs)
for opt in self.MODULE_OPTIONS:
setattr(self, opt['name'], opt['default'])
# other
self.run = True
self.event = Event()
# for mypy which does not run the code
if TYPE_CHECKING:
self.enable_monitoring = True
self.scrape_frequency = 0.0
self.pool_name = ''
self.device_health_metrics = ''
self.retention_period = 0.0
self.mark_out_threshold = 0.0
self.warn_threshold = 0.0
self.self_heal = True
self.sleep_interval = 0.0
def is_valid_daemon_name(self, who: str) -> bool:
parts = who.split('.', 1)
if len(parts) != 2:
return False
return parts[0] in ('osd', 'mon')
@CLIReadCommand('device query-daemon-health-metrics')
def do_query_daemon_health_metrics(self, who: str) -> Tuple[int, str, str]:
'''
Get device health metrics for a given daemon
'''
if not self.is_valid_daemon_name(who):
return -errno.EINVAL, '', 'not a valid mon or osd daemon name'
(daemon_type, daemon_id) = who.split('.')
result = CommandResult('')
self.send_command(result, daemon_type, daemon_id, json.dumps({
'prefix': 'smart',
'format': 'json',
}), '')
return result.wait()
@CLIRequiresDB
@CLIReadCommand('device scrape-daemon-health-metrics')
@MgrModuleRecoverDB
def do_scrape_daemon_health_metrics(self, who: str) -> Tuple[int, str, str]:
'''
Scrape and store device health metrics for a given daemon
'''
if not self.is_valid_daemon_name(who):
return -errno.EINVAL, '', 'not a valid mon or osd daemon name'
(daemon_type, daemon_id) = who.split('.')
return self.scrape_daemon(daemon_type, daemon_id)
@CLIRequiresDB
@CLIReadCommand('device scrape-health-metrics')
@MgrModuleRecoverDB
def do_scrape_health_metrics(self, devid: Optional[str] = None) -> Tuple[int, str, str]:
'''
Scrape and store device health metrics
'''
if devid is None:
return self.scrape_all()
else:
return self.scrape_device(devid)
@CLIRequiresDB
@CLIReadCommand('device get-health-metrics')
@MgrModuleRecoverDB
def do_get_health_metrics(self, devid: str, sample: Optional[str] = None) -> Tuple[int, str, str]:
'''
Show stored device metrics for the device
'''
return self.show_device_metrics(devid, sample)
@CLIRequiresDB
@CLICommand('device check-health')
@MgrModuleRecoverDB
def do_check_health(self) -> Tuple[int, str, str]:
'''
Check life expectancy of devices
'''
return self.check_health()
@CLICommand('device monitoring on')
def do_monitoring_on(self) -> Tuple[int, str, str]:
'''
Enable device health monitoring
'''
self.set_module_option('enable_monitoring', True)
self.event.set()
return 0, '', ''
@CLICommand('device monitoring off')
def do_monitoring_off(self) -> Tuple[int, str, str]:
'''
Disable device health monitoring
'''
self.set_module_option('enable_monitoring', False)
self.set_health_checks({}) # avoid stuck health alerts
return 0, '', ''
@CLIRequiresDB
@CLIReadCommand('device predict-life-expectancy')
@MgrModuleRecoverDB
def do_predict_life_expectancy(self, devid: str) -> Tuple[int, str, str]:
'''
Predict life expectancy with local predictor
'''
return self.predict_lift_expectancy(devid)
def self_test(self) -> None:
assert self.db_ready()
self.config_notify()
osdmap = self.get('osd_map')
osd_id = osdmap['osds'][0]['osd']
osdmeta = self.get('osd_metadata')
devs = osdmeta.get(str(osd_id), {}).get('device_ids')
if devs:
devid = devs.split()[0].split('=')[1]
self.log.debug(f"getting devid {devid}")
(r, before, err) = self.show_device_metrics(devid, None)
assert r == 0
self.log.debug(f"before: {before}")
(r, out, err) = self.scrape_device(devid)
assert r == 0
(r, after, err) = self.show_device_metrics(devid, None)
assert r == 0
self.log.debug(f"after: {after}")
assert before != after
def config_notify(self) -> None:
for opt in self.MODULE_OPTIONS:
setattr(self,
opt['name'],
self.get_module_option(opt['name']))
self.log.debug(' %s = %s', opt['name'], getattr(self, opt['name']))
def _legacy_put_device_metrics(self, t: str, devid: str, data: str) -> None:
SQL = """
INSERT OR IGNORE INTO DeviceHealthMetrics (time, devid, raw_smart)
VALUES (?, ?, ?);
"""
self._create_device(devid)
epoch = self._t2epoch(t)
json.loads(data) # valid?
self.db.execute(SQL, (epoch, devid, data))
devre = r"[a-zA-Z0-9-]+[_-][a-zA-Z0-9-]+[_-][a-zA-Z0-9-]+"
def _load_legacy_object(self, ioctx: rados.Ioctx, oid: str) -> bool:
MAX_OMAP = 10000
self.log.debug(f"loading object {oid}")
if re.search(self.devre, oid) is None:
return False
with rados.ReadOpCtx() as op:
it, rc = ioctx.get_omap_vals(op, None, None, MAX_OMAP)
if rc == 0:
ioctx.operate_read_op(op, oid)
count = 0
for t, raw_smart in it:
self.log.debug(f"putting {oid} {t}")
self._legacy_put_device_metrics(t, oid, raw_smart)
count += 1
assert count < MAX_OMAP
self.log.debug(f"removing object {oid}")
ioctx.remove_object(oid)
return True
def check_legacy_pool(self) -> bool:
try:
# 'device_health_metrics' is automatically renamed '.mgr' in
# create_mgr_pool
ioctx = self.rados.open_ioctx(self.MGR_POOL_NAME)
except rados.ObjectNotFound:
return True
if not ioctx:
return True
done = False
with ioctx, self._db_lock, self.db:
count = 0
for obj in ioctx.list_objects():
try:
if self._load_legacy_object(ioctx, obj.key):
count += 1
except json.decoder.JSONDecodeError:
pass
if count >= 10:
break
done = count < 10
self.log.debug(f"finished reading legacy pool, complete = {done}")
return done
@MgrModuleRecoverDB
def _do_serve(self) -> None:
last_scrape = None
finished_loading_legacy = False
while self.run:
# sleep first, in case of exceptions causing retry:
sleep_interval = self.sleep_interval or 60
if not finished_loading_legacy:
sleep_interval = 2
self.log.debug('Sleeping for %d seconds', sleep_interval)
self.event.wait(sleep_interval)
self.event.clear()
if self.db_ready() and self.enable_monitoring:
self.log.debug('Running')
if not finished_loading_legacy:
finished_loading_legacy = self.check_legacy_pool()
if last_scrape is None:
ls = self.get_kv('last_scrape')
if ls:
try:
last_scrape = datetime.strptime(ls, TIME_FORMAT)
except ValueError:
pass
self.log.debug('Last scrape %s', last_scrape)
self.check_health()
now = datetime.utcnow()
if not last_scrape:
next_scrape = now
else:
# align to scrape interval
scrape_frequency = self.scrape_frequency or 86400
seconds = (last_scrape - datetime.utcfromtimestamp(0)).total_seconds()
seconds -= seconds % scrape_frequency
seconds += scrape_frequency
next_scrape = datetime.utcfromtimestamp(seconds)
if last_scrape:
self.log.debug('Last scrape %s, next scrape due %s',
last_scrape.strftime(TIME_FORMAT),
next_scrape.strftime(TIME_FORMAT))
else:
self.log.debug('Last scrape never, next scrape due %s',
next_scrape.strftime(TIME_FORMAT))
if now >= next_scrape:
self.scrape_all()
self.predict_all_devices()
last_scrape = now
self.set_kv('last_scrape', last_scrape.strftime(TIME_FORMAT))
def serve(self) -> None:
self.log.info("Starting")
self.config_notify()
self._do_serve()
def shutdown(self) -> None:
self.log.info('Stopping')
self.run = False
self.event.set()
def scrape_daemon(self, daemon_type: str, daemon_id: str) -> Tuple[int, str, str]:
if not self.db_ready():
return -errno.EAGAIN, "", "mgr db not yet available"
raw_smart_data = self.do_scrape_daemon(daemon_type, daemon_id)
if raw_smart_data:
for device, raw_data in raw_smart_data.items():
data = self.extract_smart_features(raw_data)
if device and data:
self.put_device_metrics(device, data)
return 0, "", ""
def scrape_all(self) -> Tuple[int, str, str]:
if not self.db_ready():
return -errno.EAGAIN, "", "mgr db not yet available"
osdmap = self.get("osd_map")
assert osdmap is not None
did_device = {}
ids = []
for osd in osdmap['osds']:
ids.append(('osd', str(osd['osd'])))
monmap = self.get("mon_map")
for mon in monmap['mons']:
ids.append(('mon', mon['name']))
for daemon_type, daemon_id in ids:
raw_smart_data = self.do_scrape_daemon(daemon_type, daemon_id)
if not raw_smart_data:
continue
for device, raw_data in raw_smart_data.items():
if device in did_device:
self.log.debug('skipping duplicate %s' % device)
continue
did_device[device] = 1
data = self.extract_smart_features(raw_data)
if device and data:
self.put_device_metrics(device, data)
return 0, "", ""
def scrape_device(self, devid: str) -> Tuple[int, str, str]:
if not self.db_ready():
return -errno.EAGAIN, "", "mgr db not yet available"
r = self.get("device " + devid)
if not r or 'device' not in r.keys():
return -errno.ENOENT, '', 'device ' + devid + ' not found'
daemons = r['device'].get('daemons', [])
if not daemons:
return (-errno.EAGAIN, '',
'device ' + devid + ' not claimed by any active daemons')
(daemon_type, daemon_id) = daemons[0].split('.')
raw_smart_data = self.do_scrape_daemon(daemon_type, daemon_id,
devid=devid)
if raw_smart_data:
for device, raw_data in raw_smart_data.items():
data = self.extract_smart_features(raw_data)
if device and data:
self.put_device_metrics(device, data)
return 0, "", ""
def do_scrape_daemon(self,
daemon_type: str,
daemon_id: str,
devid: str = '') -> Optional[Dict[str, Any]]:
"""
:return: a dict, or None if the scrape failed.
"""
self.log.debug('do_scrape_daemon %s.%s' % (daemon_type, daemon_id))
result = CommandResult('')
self.send_command(result, daemon_type, daemon_id, json.dumps({
'prefix': 'smart',
'format': 'json',
'devid': devid,
}), '')
r, outb, outs = result.wait()
try:
return json.loads(outb)
except (IndexError, ValueError):
self.log.error(
"Fail to parse JSON result from daemon {0}.{1} ({2})".format(
daemon_type, daemon_id, outb))
return None
def _prune_device_metrics(self) -> None:
SQL = """
DELETE FROM DeviceHealthMetrics
WHERE time < (strftime('%s', 'now') - ?);
"""
cursor = self.db.execute(SQL, (self.retention_period,))
if cursor.rowcount >= 1:
self.log.info(f"pruned {cursor.rowcount} metrics")
def _create_device(self, devid: str) -> None:
SQL = """
INSERT OR IGNORE INTO Device VALUES (?);
"""
cursor = self.db.execute(SQL, (devid,))
if cursor.rowcount >= 1:
self.log.info(f"created device {devid}")
else:
self.log.debug(f"device {devid} already exists")
def put_device_metrics(self, devid: str, data: Any) -> None:
SQL = """
INSERT INTO DeviceHealthMetrics (devid, raw_smart)
VALUES (?, ?);
"""
with self._db_lock, self.db:
self._create_device(devid)
self.db.execute(SQL, (devid, json.dumps(data)))
self._prune_device_metrics()
# extract wear level?
wear_level = get_ata_wear_level(data)
if wear_level is None:
wear_level = get_nvme_wear_level(data)
dev_data = self.get(f"device {devid}") or {}
if wear_level is not None:
if dev_data.get(wear_level) != str(wear_level):
dev_data["wear_level"] = str(wear_level)
self.log.debug(f"updating {devid} wear level to {wear_level}")
self.set_device_wear_level(devid, wear_level)
else:
if "wear_level" in dev_data:
del dev_data["wear_level"]
self.log.debug(f"removing {devid} wear level")
self.set_device_wear_level(devid, -1.0)
def _t2epoch(self, t: Optional[str]) -> int:
if not t:
return 0
else:
return int(datetime.strptime(t, TIME_FORMAT).strftime("%s"))
def _get_device_metrics(self, devid: str,
sample: Optional[str] = None,
min_sample: Optional[str] = None) -> Dict[str, Dict[str, Any]]:
res = {}
SQL_EXACT = """
SELECT time, raw_smart
FROM DeviceHealthMetrics
WHERE devid = ? AND time = ?
ORDER BY time DESC;
"""
SQL_MIN = """
SELECT time, raw_smart
FROM DeviceHealthMetrics
WHERE devid = ? AND ? <= time
ORDER BY time DESC;
"""
isample = None
imin_sample = None
if sample:
isample = self._t2epoch(sample)
else:
imin_sample = self._t2epoch(min_sample)
self.log.debug(f"_get_device_metrics: {devid} {sample} {min_sample}")
with self._db_lock, self.db:
if isample:
cursor = self.db.execute(SQL_EXACT, (devid, isample))
else:
cursor = self.db.execute(SQL_MIN, (devid, imin_sample))
for row in cursor:
t = row['time']
dt = datetime.utcfromtimestamp(t).strftime(TIME_FORMAT)
try:
res[dt] = json.loads(row['raw_smart'])
except (ValueError, IndexError):
self.log.debug(f"unable to parse value for {devid}:{t}")
pass
return res
def show_device_metrics(self, devid: str, sample: Optional[str]) -> Tuple[int, str, str]:
# verify device exists
r = self.get("device " + devid)
if not r or 'device' not in r.keys():
return -errno.ENOENT, '', 'device ' + devid + ' not found'
# fetch metrics
res = self._get_device_metrics(devid, sample=sample)
return 0, json.dumps(res, indent=4, sort_keys=True), ''
def check_health(self) -> Tuple[int, str, str]:
self.log.info('Check health')
config = self.get('config')
min_in_ratio = float(config.get('mon_osd_min_in_ratio'))
mark_out_threshold_td = timedelta(seconds=self.mark_out_threshold)
warn_threshold_td = timedelta(seconds=self.warn_threshold)
checks: Dict[str, Dict[str, Union[int, str, Sequence[str]]]] = {}
health_warnings: Dict[str, List[str]] = {
DEVICE_HEALTH: [],
DEVICE_HEALTH_IN_USE: [],
}
devs = self.get("devices")
osds_in = {}
osds_out = {}
now = datetime.now(timezone.utc) # e.g. '2021-09-22 13:18:45.021712+00:00'
osdmap = self.get("osd_map")
assert osdmap is not None
for dev in devs['devices']:
if 'life_expectancy_max' not in dev:
continue
# ignore devices that are not consumed by any daemons
if not dev['daemons']:
continue
if not dev['life_expectancy_max'] or \
dev['life_expectancy_max'] == '0.000000':
continue
# life_expectancy_(min/max) is in the format of:
# '%Y-%m-%dT%H:%M:%S.%f%z', e.g.:
# '2019-01-20 21:12:12.000000+00:00'
life_expectancy_max = datetime.strptime(
dev['life_expectancy_max'],
'%Y-%m-%dT%H:%M:%S.%f%z')
self.log.debug('device %s expectancy max %s', dev,
life_expectancy_max)
if life_expectancy_max - now <= mark_out_threshold_td:
if self.self_heal:
# dev['daemons'] == ["osd.0","osd.1","osd.2"]
if dev['daemons']:
osds = [x for x in dev['daemons']
if x.startswith('osd.')]
osd_ids = map(lambda x: x[4:], osds)
for _id in osd_ids:
if self.is_osd_in(osdmap, _id):
osds_in[_id] = life_expectancy_max
else:
osds_out[_id] = 1
if life_expectancy_max - now <= warn_threshold_td:
# device can appear in more than one location in case
# of SCSI multipath
device_locations = map(lambda x: x['host'] + ':' + x['dev'],
dev['location'])
health_warnings[DEVICE_HEALTH].append(
'%s (%s); daemons %s; life expectancy between %s and %s'
% (dev['devid'],
','.join(device_locations),
','.join(dev.get('daemons', ['none'])),
dev['life_expectancy_max'],
dev.get('life_expectancy_max', 'unknown')))
# OSD might be marked 'out' (which means it has no
# data), however PGs are still attached to it.
for _id in osds_out:
num_pgs = self.get_osd_num_pgs(_id)
if num_pgs > 0:
health_warnings[DEVICE_HEALTH_IN_USE].append(
'osd.%s is marked out '
'but still has %s PG(s)' %
(_id, num_pgs))
if osds_in:
self.log.debug('osds_in %s' % osds_in)
# calculate target in ratio
num_osds = len(osdmap['osds'])
num_in = len([x for x in osdmap['osds'] if x['in']])
num_bad = len(osds_in)
# sort with next-to-fail first
bad_osds = sorted(osds_in.items(), key=operator.itemgetter(1))
did = 0
to_mark_out = []
for osd_id, when in bad_osds:
ratio = float(num_in - did - 1) / float(num_osds)
if ratio < min_in_ratio:
final_ratio = float(num_in - num_bad) / float(num_osds)
checks[DEVICE_HEALTH_TOOMANY] = {
'severity': 'warning',
'summary': HEALTH_MESSAGES[DEVICE_HEALTH_TOOMANY],
'detail': [
'%d OSDs with failing device(s) would bring "in" ratio to %f < mon_osd_min_in_ratio %f' % (
num_bad - did, final_ratio, min_in_ratio)
]
}
break
to_mark_out.append(osd_id)
did += 1
if to_mark_out:
self.mark_out_etc(to_mark_out)
for warning, ls in health_warnings.items():
n = len(ls)
if n:
checks[warning] = {
'severity': 'warning',
'summary': HEALTH_MESSAGES[warning] % n,
'count': len(ls),
'detail': ls,
}
self.set_health_checks(checks)
return 0, "", ""
def is_osd_in(self, osdmap: Dict[str, Any], osd_id: str) -> bool:
for osd in osdmap['osds']:
if osd_id == str(osd['osd']):
return bool(osd['in'])
return False
def get_osd_num_pgs(self, osd_id: str) -> int:
stats = self.get('osd_stats')
assert stats is not None
for stat in stats['osd_stats']:
if osd_id == str(stat['osd']):
return stat['num_pgs']
return -1
def mark_out_etc(self, osd_ids: List[str]) -> None:
self.log.info('Marking out OSDs: %s' % osd_ids)
result = CommandResult('')
self.send_command(result, 'mon', '', json.dumps({
'prefix': 'osd out',
'format': 'json',
'ids': osd_ids,
}), '')
r, outb, outs = result.wait()
if r != 0:
self.log.warning('Could not mark OSD %s out. r: [%s], outb: [%s], outs: [%s]',
osd_ids, r, outb, outs)
for osd_id in osd_ids:
result = CommandResult('')
self.send_command(result, 'mon', '', json.dumps({
'prefix': 'osd primary-affinity',
'format': 'json',
'id': int(osd_id),
'weight': 0.0,
}), '')
r, outb, outs = result.wait()
if r != 0:
self.log.warning('Could not set osd.%s primary-affinity, '
'r: [%s], outb: [%s], outs: [%s]',
osd_id, r, outb, outs)
def extract_smart_features(self, raw: Any) -> Any:
# FIXME: extract and normalize raw smartctl --json output and
# generate a dict of the fields we care about.
return raw
def predict_lift_expectancy(self, devid: str) -> Tuple[int, str, str]:
plugin_name = ''
model = self.get_ceph_option('device_failure_prediction_mode')
if cast(str, model).lower() == 'local':
plugin_name = 'diskprediction_local'
else:
return -1, '', 'unable to enable any disk prediction model[local/cloud]'
try:
can_run, _ = self.remote(plugin_name, 'can_run')
if can_run:
return self.remote(plugin_name, 'predict_life_expectancy', devid=devid)
else:
return -1, '', f'{plugin_name} is not available'
except Exception:
return -1, '', 'unable to invoke diskprediction local or remote plugin'
def predict_all_devices(self) -> Tuple[int, str, str]:
plugin_name = ''
model = self.get_ceph_option('device_failure_prediction_mode')
if cast(str, model).lower() == 'local':
plugin_name = 'diskprediction_local'
else:
return -1, '', 'unable to enable any disk prediction model[local/cloud]'
try:
can_run, _ = self.remote(plugin_name, 'can_run')
if can_run:
return self.remote(plugin_name, 'predict_all_devices')
else:
return -1, '', f'{plugin_name} is not available'
except Exception:
return -1, '', 'unable to invoke diskprediction local or remote plugin'
def get_recent_device_metrics(self, devid: str, min_sample: str) -> Dict[str, Dict[str, Any]]:
try:
return self._get_device_metrics(devid, min_sample=min_sample)
except MgrDBNotReady:
return dict()
def get_time_format(self) -> str:
return TIME_FORMAT
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