SickGear/sickgear/network_timezones.py

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#
# This file is part of SickGear.
#
# SickGear is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# SickGear is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with SickGear. If not, see <http://www.gnu.org/licenses/>.
from itertools import chain
import datetime
import os
import re
import sys
import threading
import sickgear
from . import db, helpers, logger
from sg_helpers import int_to_time
from lib.dateutil import tz, zoneinfo
from lib.tzlocal import get_localzone
from sg_helpers import remove_file_perm, scantree
from six import integer_types, iteritems, string_types
# noinspection PyUnreachableCode
if False:
from _23 import DirEntry
from typing import AnyStr, Optional, Tuple, Union
# regex to parse time (12/24-hour format)
time_regex = re.compile(r'(\d{1,2})(([:.](\d{2}))? ?([PA][. ]? ?M)|[:.](\d{2}))\b', flags=re.I)
am_regex = re.compile(r'(A[. ]? ?M)', flags=re.I)
pm_regex = re.compile(r'(P[. ]? ?M)', flags=re.I)
network_dict = {}
network_dupes = {}
last_failure = {'datetime': datetime.datetime.fromordinal(1), 'count': 0} # type: dict
max_retry_time = 900
max_retry_count = 3
is_win = 'win32' == sys.platform
country_timezones = {
'AU': 'Australia/Sydney', 'AR': 'America/Buenos_Aires', 'AUSTRALIA': 'Australia/Sydney', 'BR': 'America/Sao_Paulo',
'CA': 'Canada/Eastern', 'CZ': 'Europe/Prague', 'DE': 'Europe/Berlin', 'ES': 'Europe/Madrid',
'FI': 'Europe/Helsinki', 'FR': 'Europe/Paris', 'HK': 'Asia/Hong_Kong', 'IE': 'Europe/Dublin',
'IS': 'Atlantic/Reykjavik', 'IT': 'Europe/Rome', 'JP': 'Asia/Tokyo', 'MX': 'America/Mexico_City',
'MY': 'Asia/Kuala_Lumpur', 'NL': 'Europe/Amsterdam', 'NZ': 'Pacific/Auckland', 'PH': 'Asia/Manila',
'PT': 'Europe/Lisbon', 'RU': 'Europe/Kaliningrad', 'SE': 'Europe/Stockholm', 'SG': 'Asia/Singapore',
'TW': 'Asia/Taipei', 'UK': 'Europe/London', 'US': 'US/Eastern', 'ZA': 'Africa/Johannesburg'}
EPOCH_START = None # type: Optional[datetime.datetime]
EPOCH_START_WIN = None # type: Optional[datetime.datetime]
SG_TIMEZONE = None # type: Optional[datetime.tzinfo]
network_timezone_lock = threading.Lock()
def reset_last_retry():
# type: (...) -> None
global last_failure
last_failure = {'datetime': datetime.datetime.fromordinal(1), 'count': 0}
def update_last_retry():
# type: (...) -> None
global last_failure
last_failure = {'datetime': datetime.datetime.now(), 'count': last_failure.get('count', 0) + 1}
def should_try_loading():
# type: (...) -> bool
global last_failure
if last_failure.get('count', 0) >= max_retry_count \
and max_retry_time > (datetime.datetime.now() - last_failure.get(
'datetime', datetime.datetime.fromordinal(1))).seconds:
return False
return True
def tz_fallback(t):
# type: (...) -> datetime.tzinfo
if isinstance(t, datetime.tzinfo):
return t
if is_win:
return tz.tzwinlocal()
return tz.tzlocal()
def get_tz():
# type: (...) -> datetime.tzinfo
t = None
try:
t = get_localzone()
except (BaseException, Exception):
pass
if isinstance(t, datetime.tzinfo) and hasattr(t, 'zone') and t.zone and hasattr(sickgear, 'ZONEINFO_DIR'):
try:
# noinspection PyUnresolvedReferences
t = tz_fallback(tz.gettz(t.zone, zoneinfo_priority=True))
except (BaseException, Exception):
t = tz_fallback(t)
else:
t = tz_fallback(t)
return t
def get_utc():
# type: (...) -> Optional[datetime.tzinfo]
if hasattr(sickgear, 'ZONEINFO_DIR'):
utc = None
try:
utc = tz.gettz('GMT', zoneinfo_priority=True)
except (BaseException, Exception):
pass
if isinstance(utc, datetime.tzinfo):
return utc
tz_utc_file = os.path.join(os.path.dirname(zoneinfo.__file__), 'Greenwich')
if os.path.isfile(tz_utc_file):
return tz.tzfile(tz_utc_file)
def set_vars():
# type: (...) -> None
global EPOCH_START, EPOCH_START_WIN, SG_TIMEZONE
SG_TIMEZONE = get_tz()
params = dict(year=1970, month=1, day=1)
EPOCH_START_WIN = EPOCH_START = datetime.datetime(tzinfo=get_utc(), **params)
if is_win:
try:
EPOCH_START_WIN = datetime.datetime(tzinfo=tz.win.tzwin('UTC'), **params)
except (BaseException, Exception):
pass
set_vars()
def _remove_old_zoneinfo():
# type: (...) -> None
"""
helper to remove old unneeded zoneinfo files
"""
if None is not zoneinfo.ZONEFILENAME:
current_file = helpers.real_path(
os.path.join(sickgear.ZONEINFO_DIR, os.path.basename(zoneinfo.ZONEFILENAME)))
for entry in chain.from_iterable([scantree(helpers.real_path(_dir), include=r'\.tar\.gz$', filter_kind=False)
for _dir in (sickgear.ZONEINFO_DIR, )]): # type: DirEntry
if current_file != entry.path:
if remove_file_perm(entry.path, log_err=False):
logger.log(f'Delete unneeded old zoneinfo File: {entry.path}')
else:
logger.error(f'Unable to delete: {entry.path}')
def _update_zoneinfo():
# type: (...) -> None
"""
update the dateutil zoneinfo
"""
set_vars()
# check if the zoneinfo needs update
url = 'https://raw.githubusercontent.com/Prinz23/sb_network_timezones/master/zoneinfo.txt'
url_data = helpers.get_url(url)
if None is url_data:
update_last_retry()
# when None is urlData, trouble connecting to GitHub
logger.warning(f'Fetching zoneinfo.txt failed, this can happen from time to time. Unable to get URL: {url}')
return
reset_last_retry()
try:
(new_zoneinfo, zoneinfo_md5) = url_data.strip().rsplit(' ')
except (BaseException, Exception):
logger.debug('Fetching zoneinfo.txt failed, update contains unparsable data: %s' % url_data)
return
current_file = zoneinfo.ZONEFILENAME
if None is not current_file:
current_file = os.path.basename(current_file)
zonefile = helpers.real_path(os.path.join(sickgear.ZONEINFO_DIR, current_file))
zonemetadata = None if not os.path.isfile(zonefile) else \
zoneinfo.ZoneInfoFile(zoneinfo.getzoneinfofile_stream()).metadata
newtz_regex = re.search(r'(\d{4}[^.]+)', new_zoneinfo)
if not newtz_regex or 1 != len(newtz_regex.groups()):
return
newtzversion = newtz_regex.group(1)
if None is not current_file \
and None is not zonemetadata \
and 'tzversion' in zonemetadata \
and zonemetadata['tzversion'] == newtzversion:
return
# load the new zoneinfo
url_tar = f'https://raw.githubusercontent.com/Prinz23/sb_network_timezones/master/{new_zoneinfo}'
zonefile_tmp = re.sub(r'\.tar\.gz$', '.tmp', zonefile)
if not remove_file_perm(zonefile_tmp, log_err=False):
logger.error(f'Unable to delete: {zonefile_tmp}')
return
if not helpers.download_file(url_tar, zonefile_tmp):
return
if not os.path.exists(zonefile_tmp):
logger.error(f'Download of {zonefile_tmp} failed.')
return
new_hash = str(helpers.md5_for_file(zonefile_tmp))
if zoneinfo_md5.upper() == new_hash.upper():
logger.log(f'Updating timezone info with new one: {new_zoneinfo}', logger.MESSAGE)
try:
# remove the old zoneinfo file
if None is not current_file:
remove_file_perm(zonefile)
# rename downloaded file
os.rename(zonefile_tmp, zonefile)
setattr(zoneinfo, '_CLASS_ZONE_INSTANCE', list())
tz.gettz.cache_clear()
from dateutil.zoneinfo import get_zonefile_instance
try:
delattr(get_zonefile_instance, '_cached_instance')
except AttributeError:
pass
set_vars()
except (BaseException, Exception):
remove_file_perm(zonefile_tmp, log_err=False)
return
else:
remove_file_perm(zonefile_tmp, log_err=False)
logger.error(f'MD5 hash does not match: {zoneinfo_md5.upper()} File: {new_hash.upper()}')
return
def update_network_dict():
# type: (...) -> None
"""
update the network timezone table
"""
if not should_try_loading():
return
_remove_old_zoneinfo()
_update_zoneinfo()
_load_network_conversions()
network_tz_data = {}
# network timezones are stored on GitHub pages
url = 'https://raw.githubusercontent.com/Prinz23/sb_network_timezones/master/network_timezones.txt'
url_data = helpers.get_url(url)
if url_data in (None, ''):
update_last_retry()
# When None is urlData, trouble connecting to GitHub
logger.debug(f'Updating network timezones failed, this can happen from time to time. URL: {url}')
load_network_dict(load=False)
return
reset_last_retry()
try:
for line in url_data.splitlines():
try:
(name, tzone) = line.strip().rsplit(':', 1)
except (BaseException, Exception):
continue
if None is name or None is tzone:
continue
network_tz_data[name] = tzone
except (IOError, OSError):
pass
with network_timezone_lock:
my_db = db.DBConnection('cache.db')
# load current network timezones
sql_result = dict(my_db.select('SELECT * FROM network_timezones'))
# list of sql commands to update the network_timezones table
cl = []
for cur_name, cur_tz in iteritems(network_tz_data):
network_known = cur_name in sql_result
if network_known and cur_tz != sql_result[cur_name]:
# update old record
cl.append(
['UPDATE network_timezones SET network_name=?, timezone=? WHERE network_name=?',
[cur_name, cur_tz, cur_name]])
elif not network_known:
# add new record
cl.append(['REPLACE INTO network_timezones (network_name, timezone) VALUES (?,?)', [cur_name, cur_tz]])
if network_known:
del sql_result[cur_name]
# remove deleted records
if 0 < len(sql_result):
network_names = list([network_name for network_name in sql_result])
cl.append(['DELETE FROM network_timezones WHERE network_name IN (%s)'
% ','.join(['?'] * len(network_names)), network_names])
# change all network timezone infos at once (much faster)
if 0 < len(cl):
my_db.mass_action(cl)
load_network_dict(load=False)
def load_network_dict(load=True):
# type: (bool) -> None
"""
load network timezones from db into dict
:param load: load networks
"""
global network_dict, network_dupes
my_db = db.DBConnection('cache.db')
sql_name = 'REPLACE(LOWER(network_name), " ", "")'
try:
sql = 'SELECT %s AS network_name, timezone FROM [network_timezones] ' % sql_name + \
'GROUP BY %s HAVING COUNT(*) = 1 ORDER BY %s;' % (sql_name, sql_name)
cur_network_list = my_db.select(sql)
if load and (None is cur_network_list or 1 > len(cur_network_list)):
update_network_dict()
cur_network_list = my_db.select(sql)
network_dict = dict(cur_network_list)
except (BaseException, Exception):
network_dict = {}
try:
case_dupes = my_db.select('SELECT * FROM [network_timezones] WHERE %s IN ' % sql_name +
'(SELECT %s FROM [network_timezones]' % sql_name +
' GROUP BY %s HAVING COUNT(*) > 1)' % sql_name +
' ORDER BY %s;' % sql_name)
network_dupes = dict(case_dupes)
except (BaseException, Exception):
network_dupes = {}
def get_network_timezone(network, return_name=False):
# type: (AnyStr, bool) -> Optional[datetime.tzinfo, Tuple[datetime.tzinfo, AnyStr]]
"""
get timezone of a network or return default timezone
:param network: network name
:param return_name: return name
:return: timezone info or tuple of timezone info, timezone name
"""
if None is network:
return SG_TIMEZONE
timezone = None
timezone_name = None
try:
if None is not zoneinfo.ZONEFILENAME:
if not network_dict:
load_network_dict()
try:
timezone_name = network_dupes.get(network) or network_dict.get(network.replace(' ', '').lower())
if isinstance(timezone_name, string_types):
timezone = tz.gettz(timezone_name, zoneinfo_priority=True)
except (BaseException, Exception):
pass
if None is timezone:
cc = re.search(r'\(([a-z]+)\)$', network, flags=re.I)
try:
timezone_name = country_timezones.get(cc.group(1).upper())
if isinstance(timezone_name, string_types):
timezone = tz.gettz(timezone_name, zoneinfo_priority=True)
except (BaseException, Exception):
pass
except (BaseException, Exception):
pass
if not isinstance(timezone, datetime.tzinfo):
timezone = SG_TIMEZONE
if return_name:
return timezone, timezone_name
return timezone
def parse_time(time_of_day):
# type: (AnyStr) -> Tuple[int, int]
"""
:param time_of_day: time string
:return: tuple of hour, minute
"""
time_parsed = time_regex.search(time_of_day)
hour = mins = 0
if None is not time_parsed and 5 <= len(time_parsed.groups()):
if None is not time_parsed.group(5):
try:
hour = helpers.try_int(time_parsed.group(1))
mins = helpers.try_int(time_parsed.group(4))
ampm = time_parsed.group(5)
# convert am/pm to 24-hour clock
if None is not ampm:
if None is not pm_regex.search(ampm) and 12 != hour:
hour += 12
elif None is not am_regex.search(ampm) and 12 == hour:
hour -= 12
except (BaseException, Exception):
hour = mins = 0
else:
try:
hour = helpers.try_int(time_parsed.group(1))
mins = helpers.try_int(time_parsed.group(6))
except (BaseException, Exception):
hour = mins = 0
if 0 > hour or 23 < hour or 0 > mins or 59 < mins:
hour = mins = 0
return hour, mins
def parse_date_time(date_stamp, time_of_day, network):
# type: (int, Union[AnyStr or Tuple[int, int]], Union[AnyStr, datetime.tzinfo]) -> datetime.datetime
"""
parse date and time string into local time
:param date_stamp: ordinal datetime
:param time_of_day: time as a string or as a tuple(hr, m)
:param network: network names
"""
dt_t = None
hour = mins = 0
if isinstance(time_of_day, integer_types):
dt_t = int_to_time(time_of_day)
elif isinstance(time_of_day, tuple) and 2 == len(time_of_day) and isinstance(time_of_day[0], int) \
and isinstance(time_of_day[1], int):
(hour, mins) = time_of_day
else:
(hour, mins) = parse_time(time_of_day)
dt = datetime.datetime.fromordinal(helpers.try_int(date_stamp))
try:
if isinstance(network, datetime.tzinfo):
foreign_timezone = network
else:
foreign_timezone = get_network_timezone(network)
if None is not dt_t:
foreign_naive = datetime.datetime.combine(datetime.date(dt.year, dt.month, dt.day),
dt_t).replace(tzinfo=foreign_timezone)
else:
foreign_naive = datetime.datetime(dt.year, dt.month, dt.day, hour, mins, tzinfo=foreign_timezone)
return foreign_naive
except (BaseException, Exception):
if None is dt_t:
return datetime.datetime(dt.year, dt.month, dt.day, hour, mins, tzinfo=SG_TIMEZONE)
else:
return datetime.datetime.combine(datetime.datetime(dt.year, dt.month, dt.day),
dt_t).replace(tzinfo=SG_TIMEZONE)
def test_timeformat(t):
# type: (AnyStr) -> bool
"""
:param t: time to check
:return: is valid timeformat
"""
time_parsed = time_regex.search(t)
return not (None is time_parsed or 2 > len(time_parsed.groups()))
def standardize_network(network, country):
# type: (AnyStr, AnyStr) -> AnyStr
"""
:param network: network name
:param country: country name
:return: network name
"""
my_db = db.DBConnection('cache.db')
sql_result = my_db.select('SELECT * FROM network_conversions'
' WHERE tvrage_network = ? AND tvrage_country = ?',
[network, country])
if 1 == len(sql_result):
return sql_result[0]['tvdb_network']
return network
def _load_network_conversions():
# type: (...) -> None
conversions_in = []
# network conversions are stored on GitHub pages
url = 'https://raw.githubusercontent.com/prinz23/sg_network_conversions/master/conversions.txt'
url_data = helpers.get_url(url)
if url_data in (None, ''):
update_last_retry()
# when no url_data, trouble connecting to GitHub
logger.debug(f'Updating network conversions failed, this can happen from time to time. URL: {url}')
return
reset_last_retry()
try:
for line in url_data.splitlines():
(tvdb_network, tvrage_network, tvrage_country) = line.strip().rsplit('::', 2)
if not (tvdb_network and tvrage_network and tvrage_country):
continue
conversions_in.append(
dict(tvdb_network=tvdb_network, tvrage_network=tvrage_network, tvrage_country=tvrage_country))
except (IOError, OSError):
pass
my_db = db.DBConnection('cache.db')
sql_result = my_db.select('SELECT * FROM network_conversions')
conversions_db = helpers.build_dict(sql_result, 'tvdb_network')
# list of sql commands to update the network_conversions table
cl = []
for cur_network in conversions_in:
cl.append([
'INSERT OR REPLACE INTO network_conversions (tvdb_network, tvrage_network, tvrage_country) VALUES (?,?,?)',
[cur_network['tvdb_network'], cur_network['tvrage_network'], cur_network['tvrage_country']]])
try:
del conversions_db[cur_network['tvdb_network']]
except (BaseException, Exception):
pass
# remove deleted records
if 0 < len(conversions_db):
network_name = list(conversions_db)
cl.append(['DELETE FROM network_conversions WHERE tvdb_network'
' IN (%s)' % ','.join(['?'] * len(network_name)), network_name])
# change all network conversion info at once (much faster)
if 0 < len(cl):
my_db.mass_action(cl)
def get_episode_time(d, # type: int
t, # type: Union[AnyStr or Tuple[int, int]]
show_network, # type: Optional[AnyStr]
show_airtime=None, # type: Optional[integer_types, datetime.time]
show_timezone=None, # type: Union[AnyStr, datetime.tzinfo]
ep_timestamp=None, # type: Union[integer_types, float]
ep_network=None, # type: Optional[AnyStr]
ep_airtime=None, # type: Optional[integer_types, datetime.time]
ep_timezone=None # type: Union[AnyStr, datetime.tzinfo]
):
# type: (...) -> datetime.datetime
"""
parse data and time data into datetime
:param d: ordinal datetime
:param t: time as a string or as a tuple(hr, m)
:param show_network: network names of show
:param show_airtime: airtime of show as integer or time
:param show_timezone: timezone of show as string or tzinfo
:param ep_timestamp: timestamp of episode
:param ep_network: network name of episode as string
:param ep_airtime: airtime as integer or time
:param ep_timezone: timezone of episode as string or tzinfo
"""
tzinfo = None
if ep_timezone:
if isinstance(ep_timezone, datetime.tzinfo):
tzinfo = ep_timezone
elif isinstance(ep_timezone, string_types):
tzinfo = tz.gettz(ep_timezone, zoneinfo_priority=True)
if not tzinfo:
if ep_network and isinstance(ep_network, string_types):
tzinfo = get_network_timezone(ep_network)
if not tzinfo:
if show_timezone:
if isinstance(show_timezone, datetime.tzinfo):
tzinfo = show_timezone
elif isinstance(show_timezone, string_types):
tzinfo = tz.gettz(show_timezone, zoneinfo_priority=True)
if not tzinfo:
if show_network and isinstance(show_network, string_types):
tzinfo = get_network_timezone(show_network)
if not isinstance(tzinfo, datetime.tzinfo):
tzinfo = SG_TIMEZONE
if isinstance(ep_timestamp, (integer_types, float)):
from .sgdatetime import SGDatetime
try:
return SGDatetime.from_timestamp(ep_timestamp, tzinfo=tzinfo, tz_aware=True, local_time=False)
except OverflowError:
logger.debug('Invalid timestamp: %s, using fallback' % ep_timestamp)
ep_time = None
if isinstance(ep_airtime, integer_types):
ep_time = int_to_time(ep_airtime)
elif isinstance(ep_airtime, datetime.time):
ep_time = ep_airtime
if None is ep_time and show_airtime:
if isinstance(show_airtime, integer_types):
ep_time = int_to_time(show_airtime)
elif isinstance(show_airtime, datetime.time):
ep_time = show_airtime
if None is ep_time:
if isinstance(t, string_types):
ep_hr, ep_min = parse_time(t)
ep_time = datetime.time(ep_hr, ep_min)
else:
ep_time = datetime.time(0, 0)
if d and None is not ep_time and None is not tzinfo:
ep_date = datetime.date.fromordinal(helpers.try_int(d))
return datetime.datetime.combine(ep_date, ep_time, tzinfo)
return parse_date_time(d, t, tzinfo)