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riscritto service.py con schedule

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marco
2020-05-10 12:03:28 +02:00
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commit e40e3cb0cb
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lib/python_libtorrent/linux_x86_64/1.1.1/libtorrent.so
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lib/schedule.py
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"""
Python job scheduling for humans.
github.com/dbader/schedule
An in-process scheduler for periodic jobs that uses the builder pattern
for configuration. Schedule lets you run Python functions (or any other
callable) periodically at pre-determined intervals using a simple,
human-friendly syntax.
Inspired by Addam Wiggins' article "Rethinking Cron" [1] and the
"clockwork" Ruby module [2][3].
Features:
- A simple to use API for scheduling jobs.
- Very lightweight and no external dependencies.
- Excellent test coverage.
- Tested on Python 2.7, 3.5 and 3.6
Usage:
>>> import schedule
>>> import time
>>> def job(message='stuff'):
>>> print("I'm working on:", message)
>>> schedule.every(10).minutes.do(job)
>>> schedule.every(5).to(10).days.do(job)
>>> schedule.every().hour.do(job, message='things')
>>> schedule.every().day.at("10:30").do(job)
>>> while True:
>>> schedule.run_pending()
>>> time.sleep(1)
[1] https://adam.herokuapp.com/past/2010/4/13/rethinking_cron/
[2] https://github.com/Rykian/clockwork
[3] https://adam.herokuapp.com/past/2010/6/30/replace_cron_with_clockwork/
"""
try:
from collections.abc import Hashable
except ImportError:
from collections import Hashable
import datetime
import functools
import logging
import random
import re
import time
logger = logging.getLogger('schedule')
class ScheduleError(Exception):
"""Base schedule exception"""
pass
class ScheduleValueError(ScheduleError):
"""Base schedule value error"""
pass
class IntervalError(ScheduleValueError):
"""An improper interval was used"""
pass
class CancelJob(object):
"""
Can be returned from a job to unschedule itself.
"""
pass
class Scheduler(object):
"""
Objects instantiated by the :class:`Scheduler <Scheduler>` are
factories to create jobs, keep record of scheduled jobs and
handle their execution.
"""
def __init__(self):
self.jobs = []
def run_pending(self):
"""
Run all jobs that are scheduled to run.
Please note that it is *intended behavior that run_pending()
does not run missed jobs*. For example, if you've registered a job
that should run every minute and you only call run_pending()
in one hour increments then your job won't be run 60 times in
between but only once.
"""
runnable_jobs = (job for job in self.jobs if job.should_run)
for job in sorted(runnable_jobs):
self._run_job(job)
def run_all(self, delay_seconds=0):
"""
Run all jobs regardless if they are scheduled to run or not.
A delay of `delay` seconds is added between each job. This helps
distribute system load generated by the jobs more evenly
over time.
:param delay_seconds: A delay added between every executed job
"""
logger.info('Running *all* %i jobs with %is delay inbetween',
len(self.jobs), delay_seconds)
for job in self.jobs[:]:
self._run_job(job)
time.sleep(delay_seconds)
def clear(self, tag=None):
"""
Deletes scheduled jobs marked with the given tag, or all jobs
if tag is omitted.
:param tag: An identifier used to identify a subset of
jobs to delete
"""
if tag is None:
del self.jobs[:]
else:
self.jobs[:] = (job for job in self.jobs if tag not in job.tags)
def cancel_job(self, job):
"""
Delete a scheduled job.
:param job: The job to be unscheduled
"""
try:
self.jobs.remove(job)
except ValueError:
pass
def every(self, interval=1):
"""
Schedule a new periodic job.
:param interval: A quantity of a certain time unit
:return: An unconfigured :class:`Job <Job>`
"""
job = Job(interval, self)
return job
def _run_job(self, job):
ret = job.run()
if isinstance(ret, CancelJob) or ret is CancelJob:
self.cancel_job(job)
@property
def next_run(self):
"""
Datetime when the next job should run.
:return: A :class:`~datetime.datetime` object
"""
if not self.jobs:
return None
return min(self.jobs).next_run
@property
def idle_seconds(self):
"""
:return: Number of seconds until
:meth:`next_run <Scheduler.next_run>`.
"""
return (self.next_run - datetime.datetime.now()).total_seconds()
class Job(object):
"""
A periodic job as used by :class:`Scheduler`.
:param interval: A quantity of a certain time unit
:param scheduler: The :class:`Scheduler <Scheduler>` instance that
this job will register itself with once it has
been fully configured in :meth:`Job.do()`.
Every job runs at a given fixed time interval that is defined by:
* a :meth:`time unit <Job.second>`
* a quantity of `time units` defined by `interval`
A job is usually created and returned by :meth:`Scheduler.every`
method, which also defines its `interval`.
"""
def __init__(self, interval, scheduler=None):
self.interval = interval # pause interval * unit between runs
self.latest = None # upper limit to the interval
self.job_func = None # the job job_func to run
self.unit = None # time units, e.g. 'minutes', 'hours', ...
self.at_time = None # optional time at which this job runs
self.last_run = None # datetime of the last run
self.next_run = None # datetime of the next run
self.period = None # timedelta between runs, only valid for
self.start_day = None # Specific day of the week to start on
self.tags = set() # unique set of tags for the job
self.scheduler = scheduler # scheduler to register with
def __lt__(self, other):
"""
PeriodicJobs are sortable based on the scheduled time they
run next.
"""
return self.next_run < other.next_run
def __str__(self):
return (
"Job(interval={}, "
"unit={}, "
"do={}, "
"args={}, "
"kwargs={})"
).format(self.interval,
self.unit,
self.job_func.__name__,
self.job_func.args,
self.job_func.keywords)
def __repr__(self):
def format_time(t):
return t.strftime('%Y-%m-%d %H:%M:%S') if t else '[never]'
def is_repr(j):
return not isinstance(j, Job)
timestats = '(last run: %s, next run: %s)' % (
format_time(self.last_run), format_time(self.next_run))
if hasattr(self.job_func, '__name__'):
job_func_name = self.job_func.__name__
else:
job_func_name = repr(self.job_func)
args = [repr(x) if is_repr(x) else str(x) for x in self.job_func.args]
kwargs = ['%s=%s' % (k, repr(v))
for k, v in self.job_func.keywords.items()]
call_repr = job_func_name + '(' + ', '.join(args + kwargs) + ')'
if self.at_time is not None:
return 'Every %s %s at %s do %s %s' % (
self.interval,
self.unit[:-1] if self.interval == 1 else self.unit,
self.at_time, call_repr, timestats)
else:
fmt = (
'Every %(interval)s ' +
('to %(latest)s ' if self.latest is not None else '') +
'%(unit)s do %(call_repr)s %(timestats)s'
)
return fmt % dict(
interval=self.interval,
latest=self.latest,
unit=(self.unit[:-1] if self.interval == 1 else self.unit),
call_repr=call_repr,
timestats=timestats
)
@property
def second(self):
if self.interval != 1:
raise IntervalError('Use seconds instead of second')
return self.seconds
@property
def seconds(self):
self.unit = 'seconds'
return self
@property
def minute(self):
if self.interval != 1:
raise IntervalError('Use minutes instead of minute')
return self.minutes
@property
def minutes(self):
self.unit = 'minutes'
return self
@property
def hour(self):
if self.interval != 1:
raise IntervalError('Use hours instead of hour')
return self.hours
@property
def hours(self):
self.unit = 'hours'
return self
@property
def day(self):
if self.interval != 1:
raise IntervalError('Use days instead of day')
return self.days
@property
def days(self):
self.unit = 'days'
return self
@property
def week(self):
if self.interval != 1:
raise IntervalError('Use weeks instead of week')
return self.weeks
@property
def weeks(self):
self.unit = 'weeks'
return self
@property
def monday(self):
if self.interval != 1:
raise IntervalError('Use mondays instead of monday')
self.start_day = 'monday'
return self.weeks
@property
def tuesday(self):
if self.interval != 1:
raise IntervalError('Use tuesdays instead of tuesday')
self.start_day = 'tuesday'
return self.weeks
@property
def wednesday(self):
if self.interval != 1:
raise IntervalError('Use wednesdays instead of wednesday')
self.start_day = 'wednesday'
return self.weeks
@property
def thursday(self):
if self.interval != 1:
raise IntervalError('Use thursdays instead of thursday')
self.start_day = 'thursday'
return self.weeks
@property
def friday(self):
if self.interval != 1:
raise IntervalError('Use fridays instead of friday')
self.start_day = 'friday'
return self.weeks
@property
def saturday(self):
if self.interval != 1:
raise IntervalError('Use saturdays instead of saturday')
self.start_day = 'saturday'
return self.weeks
@property
def sunday(self):
if self.interval != 1:
raise IntervalError('Use sundays instead of sunday')
self.start_day = 'sunday'
return self.weeks
def tag(self, *tags):
"""
Tags the job with one or more unique indentifiers.
Tags must be hashable. Duplicate tags are discarded.
:param tags: A unique list of ``Hashable`` tags.
:return: The invoked job instance
"""
if not all(isinstance(tag, Hashable) for tag in tags):
raise TypeError('Tags must be hashable')
self.tags.update(tags)
return self
def at(self, time_str):
"""
Specify a particular time that the job should be run at.
:param time_str: A string in one of the following formats: `HH:MM:SS`,
`HH:MM`,`:MM`, `:SS`. The format must make sense given how often
the job is repeating; for example, a job that repeats every minute
should not be given a string in the form `HH:MM:SS`. The difference
between `:MM` and `:SS` is inferred from the selected time-unit
(e.g. `every().hour.at(':30')` vs. `every().minute.at(':30')`).
:return: The invoked job instance
"""
if (self.unit not in ('days', 'hours', 'minutes')
and not self.start_day):
raise ScheduleValueError('Invalid unit')
if not isinstance(time_str, str):
raise TypeError('at() should be passed a string')
if self.unit == 'days' or self.start_day:
if not re.match(r'^([0-2]\d:)?[0-5]\d:[0-5]\d$', time_str):
raise ScheduleValueError('Invalid time format')
if self.unit == 'hours':
if not re.match(r'^([0-5]\d)?:[0-5]\d$', time_str):
raise ScheduleValueError(('Invalid time format for'
' an hourly job'))
if self.unit == 'minutes':
if not re.match(r'^:[0-5]\d$', time_str):
raise ScheduleValueError(('Invalid time format for'
' a minutely job'))
time_values = time_str.split(':')
if len(time_values) == 3:
hour, minute, second = time_values
elif len(time_values) == 2 and self.unit == 'minutes':
hour = 0
minute = 0
_, second = time_values
else:
hour, minute = time_values
second = 0
if self.unit == 'days' or self.start_day:
hour = int(hour)
if not (0 <= hour <= 23):
raise ScheduleValueError('Invalid number of hours')
elif self.unit == 'hours':
hour = 0
elif self.unit == 'minutes':
hour = 0
minute = 0
minute = int(minute)
second = int(second)
self.at_time = datetime.time(hour, minute, second)
return self
def to(self, latest):
"""
Schedule the job to run at an irregular (randomized) interval.
The job's interval will randomly vary from the value given
to `every` to `latest`. The range defined is inclusive on
both ends. For example, `every(A).to(B).seconds` executes
the job function every N seconds such that A <= N <= B.
:param latest: Maximum interval between randomized job runs
:return: The invoked job instance
"""
self.latest = latest
return self
def do(self, job_func, *args, **kwargs):
"""
Specifies the job_func that should be called every time the
job runs.
Any additional arguments are passed on to job_func when
the job runs.
:param job_func: The function to be scheduled
:return: The invoked job instance
"""
self.job_func = functools.partial(job_func, *args, **kwargs)
try:
functools.update_wrapper(self.job_func, job_func)
except AttributeError:
# job_funcs already wrapped by functools.partial won't have
# __name__, __module__ or __doc__ and the update_wrapper()
# call will fail.
pass
self._schedule_next_run()
self.scheduler.jobs.append(self)
return self
@property
def should_run(self):
"""
:return: ``True`` if the job should be run now.
"""
return datetime.datetime.now() >= self.next_run
def run(self):
"""
Run the job and immediately reschedule it.
:return: The return value returned by the `job_func`
"""
logger.info('Running job %s', self)
ret = self.job_func()
self.last_run = datetime.datetime.now()
self._schedule_next_run()
return ret
def _schedule_next_run(self):
"""
Compute the instant when this job should run next.
"""
if self.unit not in ('seconds', 'minutes', 'hours', 'days', 'weeks'):
raise ScheduleValueError('Invalid unit')
if self.latest is not None:
if not (self.latest >= self.interval):
raise ScheduleError('`latest` is greater than `interval`')
interval = random.randint(self.interval, self.latest)
else:
interval = self.interval
self.period = datetime.timedelta(**{self.unit: interval})
self.next_run = datetime.datetime.now() + self.period
if self.start_day is not None:
if self.unit != 'weeks':
raise ScheduleValueError('`unit` should be \'weeks\'')
weekdays = (
'monday',
'tuesday',
'wednesday',
'thursday',
'friday',
'saturday',
'sunday'
)
if self.start_day not in weekdays:
raise ScheduleValueError('Invalid start day')
weekday = weekdays.index(self.start_day)
days_ahead = weekday - self.next_run.weekday()
if days_ahead <= 0: # Target day already happened this week
days_ahead += 7
self.next_run += datetime.timedelta(days_ahead) - self.period
if self.at_time is not None:
if (self.unit not in ('days', 'hours', 'minutes')
and self.start_day is None):
raise ScheduleValueError(('Invalid unit without'
' specifying start day'))
kwargs = {
'second': self.at_time.second,
'microsecond': 0
}
if self.unit == 'days' or self.start_day is not None:
kwargs['hour'] = self.at_time.hour
if self.unit in ['days', 'hours'] or self.start_day is not None:
kwargs['minute'] = self.at_time.minute
self.next_run = self.next_run.replace(**kwargs)
# If we are running for the first time, make sure we run
# at the specified time *today* (or *this hour*) as well
if not self.last_run:
now = datetime.datetime.now()
if (self.unit == 'days' and self.at_time > now.time() and
self.interval == 1):
self.next_run = self.next_run - datetime.timedelta(days=1)
elif self.unit == 'hours' \
and self.at_time.minute > now.minute \
or (self.at_time.minute == now.minute
and self.at_time.second > now.second):
self.next_run = self.next_run - datetime.timedelta(hours=1)
elif self.unit == 'minutes' \
and self.at_time.second > now.second:
self.next_run = self.next_run - \
datetime.timedelta(minutes=1)
if self.start_day is not None and self.at_time is not None:
# Let's see if we will still make that time we specified today
if (self.next_run - datetime.datetime.now()).days >= 7:
self.next_run -= self.period
# The following methods are shortcuts for not having to
# create a Scheduler instance:
#: Default :class:`Scheduler <Scheduler>` object
default_scheduler = Scheduler()
#: Default :class:`Jobs <Job>` list
jobs = default_scheduler.jobs # todo: should this be a copy, e.g. jobs()?
def every(interval=1):
"""Calls :meth:`every <Scheduler.every>` on the
:data:`default scheduler instance <default_scheduler>`.
"""
return default_scheduler.every(interval)
def run_pending():
"""Calls :meth:`run_pending <Scheduler.run_pending>` on the
:data:`default scheduler instance <default_scheduler>`.
"""
default_scheduler.run_pending()
def run_all(delay_seconds=0):
"""Calls :meth:`run_all <Scheduler.run_all>` on the
:data:`default scheduler instance <default_scheduler>`.
"""
default_scheduler.run_all(delay_seconds=delay_seconds)
def clear(tag=None):
"""Calls :meth:`clear <Scheduler.clear>` on the
:data:`default scheduler instance <default_scheduler>`.
"""
default_scheduler.clear(tag)
def cancel_job(job):
"""Calls :meth:`cancel_job <Scheduler.cancel_job>` on the
:data:`default scheduler instance <default_scheduler>`.
"""
default_scheduler.cancel_job(job)
def next_run():
"""Calls :meth:`next_run <Scheduler.next_run>` on the
:data:`default scheduler instance <default_scheduler>`.
"""
return default_scheduler.next_run
def idle_seconds():
"""Calls :meth:`idle_seconds <Scheduler.idle_seconds>` on the
:data:`default scheduler instance <default_scheduler>`.
"""
return default_scheduler.idle_seconds
platformcode/config.py
-22
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@@ -189,29 +189,7 @@ def get_all_settings_addon():
def open_settings():
settings_pre = get_all_settings_addon()
__settings__.openSettings()
settings_post = get_all_settings_addon()
from specials import videolibrary
from platformcode import xbmc_videolibrary
if settings_pre.get('downloadpath', None) != settings_post.get('downloadpath', None):
xbmc_videolibrary.update_sources(settings_post.get('downloadpath', None), settings_pre.get('downloadpath', None))
# si se ha cambiado la ruta de la videoteca llamamos a comprobar directorios para que lo cree y pregunte
# automaticamente si configurar la videoteca
if settings_pre.get("videolibrarypath", None) != settings_post.get("videolibrarypath", None) or \
settings_pre.get("folder_movies", None) != settings_post.get("folder_movies", None) or \
settings_pre.get("folder_tvshows", None) != settings_post.get("folder_tvshows", None):
videolibrary.move_videolibrary(settings_pre.get("videolibrarypath", None), settings_post.get("videolibrarypath", None),
settings_pre.get("folder_movies", None), settings_post.get("folder_movies", None),
settings_pre.get("folder_tvshows", None), settings_post.get("folder_tvshows", None))
# si se ha puesto que se quiere autoconfigurar y se había creado el directorio de la videoteca
if not settings_pre.get("videolibrary_kodi", None) and settings_post.get("videolibrary_kodi", None):
xbmc_videolibrary.ask_set_content(silent=True)
elif settings_pre.get("videolibrary_kodi", None) and not settings_post.get("videolibrary_kodi", None):
xbmc_videolibrary.clean()
def get_setting(name, channel="", server="", default=None):
resources/language/English/strings.po
+1 -1
View File
@@ -5928,7 +5928,7 @@ msgid "Logging"
msgstr ""
msgctxt "#70789"
msgid "* Change by opening the settings from KoD main menu"
msgid ""
msgstr ""
msgctxt "#70790"
resources/language/Italian/strings.po
+2 -2
View File
@@ -5928,8 +5928,8 @@ msgid "Logging"
msgstr "Logging"
msgctxt "#70789"
msgid "* Change by opening the settings from KoD main menu"
msgstr "* Cambia aprendo le impostazioni dal menu principale di KoD"
msgid ""
msgstr ""
msgctxt "#70790"
msgid "RAR download in progress"
resources/settings.xml
-2
View File
@@ -33,7 +33,6 @@
<setting id="folder_tvshows" type="text" label="70118" default="Serie TV"/>
<setting id="folder_movies" type="text" label="70119" default="Film"/>
<setting id="videolibrary_kodi" type="bool" label="70120" default="false"/>
<setting id="settings_kod" type="action" label="70789" action=""/>
<setting label="59997" type="lsep"/>
<setting id="videolibrary_max_quality" type="bool" label="70729" default="false" visible="true"/>
<setting id="next_ep" type="select" label="70746" lvalues="70752|70747|70748" default="0"/>
@@ -95,7 +94,6 @@
<category label="30153">
<setting id="downloadenabled" type="bool" label="70689" default="false"/>
<setting id="downloadpath" type="folder" label="30017" visible="eq(-1,true)" default="special://profile/addon_data/plugin.video.kod/downloads/" option="writeable"/>
<setting id="settings_kod1" type="action" label="70789" action="" visible="eq(-2,true)"/>
<!-- <setting id="library_add" type="bool" label="70230" default="false"/>
<setting id="library_move" type="bool" label="70231" default="false" visible="eq(-1,true)" subsetting="true"/> -->
<setting id="downloadlistpath" type="folder" label="30018" visible="eq(-3,true)" default="special://profile/addon_data/plugin.video.kod/downloads/list/" option="writeable"/>
service.py
+119 -161
View File
@@ -1,26 +1,20 @@
# -*- coding: utf-8 -*-
# ------------------------------------------------------------
# Service for updating new episodes on library series
# ------------------------------------------------------------
import datetime, imp, math, threading, traceback, sys, glob, time
from platformcode import config
try:
import xbmc, os
librerias = xbmc.translatePath(os.path.join(config.get_runtime_path(), 'lib'))
sys.path.append(librerias)
except:
import datetime
import math
import os
librerias = os.path.join(config.get_runtime_path(), 'lib')
sys.path.append(librerias)
import sys
import threading
import traceback
import xbmc
import xbmcgui
from platformcode import config
librerias = xbmc.translatePath(os.path.join(config.get_runtime_path(), 'lib'))
sys.path.insert(0, librerias)
from core import channeltools, filetools, videolibrarytools
from platformcode import logger
from platformcode import platformtools
from core import videolibrarytools, filetools, channeltools
from lib import schedule
from platformcode import logger, platformtools, updater
from specials import videolibrary
from platformcode import updater
def update(path, p_dialog, i, t, serie, overwrite):
@@ -61,7 +55,8 @@ def update(path, p_dialog, i, t, serie, overwrite):
if serie.library_filter_show:
serie.show = serie.library_filter_show.get(serie.channel, serie.contentSerieName)
obj = imp.load_source(serie.channel, pathchannels)
obj = __import__('channels.%s' % serie.channel, fromlist=[pathchannels])
itemlist = obj.episodios(serie)
try:
@@ -261,104 +256,13 @@ def check_for_update(overwrite=True):
videolibrary.list_movies(item_dummy, silent=True)
def start(thread=True):
if thread:
t = threading.Thread(target=start, args=[False])
t.setDaemon(True)
t.start()
else:
import time
update_wait = [0, 10000, 20000, 30000, 60000]
wait = update_wait[int(config.get_setting("update_wait", "videolibrary"))]
if wait > 0:
time.sleep(wait)
if not config.get_setting("update", "videolibrary") == 2:
check_for_update(overwrite=False)
# Se ejecuta ciclicamente
while True:
monitor_update()
time.sleep(3600) # cada hora
def monitor_update():
update_setting = config.get_setting("update", "videolibrary")
# "Actualizar "Una sola vez al dia" o "al inicar Kodi y al menos una vez al dia"
if update_setting == 2 or update_setting == 3:
hoy = datetime.date.today()
last_check = config.get_setting("updatelibrary_last_check", "videolibrary")
if last_check:
y, m, d = last_check.split('-')
last_check = datetime.date(int(y), int(m), int(d))
else:
last_check = hoy - datetime.timedelta(days=1)
update_start = config.get_setting("everyday_delay", "videolibrary") * 4
# logger.info("Ultima comprobacion: %s || Fecha de hoy:%s || Hora actual: %s" %
# (last_check, hoy, datetime.datetime.now().hour))
# logger.info("Atraso del inicio del dia: %i:00" % update_start)
if last_check <= hoy and datetime.datetime.now().hour == int(update_start):
logger.info("Inicio actualizacion programada para las %s h.: %s" % (update_start, datetime.datetime.now()))
check_for_update(overwrite=False)
if not config.dev_mode():
period = float(config.get_setting('addon_update_timer')) * 3600
curTime = time.time()
lastCheck = config.get_setting("updater_last_check", "videolibrary", '0')
if lastCheck:
lastCheck = float(lastCheck)
else:
lastCheck = 0
if curTime - lastCheck > period:
updated, needsReload = updater.check(background=True)
config.set_setting("updater_last_check", str(curTime), "videolibrary")
if needsReload:
xbmc.executescript(__file__)
exit(0)
# always bypass al websites that use cloudflare at startup, so there's no need to wait 5 seconds when opened
def callCloudflare():
from core import httptools, support
import json
channels_path = os.path.join(config.get_runtime_path(), "channels", '*.json')
channel_files = [os.path.splitext(os.path.basename(c))[0] for c in glob.glob(channels_path)]
for channel_name in channel_files:
channel_parameters = channeltools.get_channel_parameters(channel_name)
if 'cloudflare' in channel_parameters and channel_parameters["cloudflare"]:
channel = __import__('channels.%s' % channel_name, fromlist=["channels.%s" % channel_name])
try:
channel.findhost()
except:
pass
httptools.downloadpage(channel.host)
servers_path = os.path.join(config.get_runtime_path(), "servers", '*.json')
servers_files = glob.glob(servers_path)
for server in servers_files:
with open(server) as server:
server_parameters = json.load(server)
if 'cloudflare' in server_parameters and server_parameters["cloudflare"]:
patternUrl = server_parameters["find_videos"]["patterns"][0]["url"]
url = '/'.join(patternUrl.split('/')[:3])
httptools.downloadpage(url)
def viewmodeMonitor(monitor):
import xbmcgui
while not monitor.abortRequested():
time.sleep(0.5)
def viewmodeMonitor():
try:
currentModeName = xbmc.getInfoLabel('Container.Viewmode')
win = xbmcgui.Window(xbmcgui.getCurrentWindowId())
currentMode = int(win.getFocusId())
if currentModeName and 'plugin.video.kod' in xbmc.getInfoLabel('Container.FolderPath') and currentMode < 1000 and currentMode > 50: # inside addon and in itemlist view
if currentModeName and 'plugin.video.kod' in xbmc.getInfoLabel(
'Container.FolderPath') and currentMode < 1000 and currentMode > 50: # inside addon and in itemlist view
content, Type = platformtools.getCurrentView()
defaultMode = int(config.get_setting('view_mode_%s' % content).split(',')[-1])
if currentMode != defaultMode:
@@ -368,59 +272,113 @@ def viewmodeMonitor(monitor):
logger.error(traceback.print_exc())
def updaterCheck():
# updater check
updated, needsReload = updater.check(background=True)
if needsReload:
xbmc.executescript(__file__)
exit(0)
def run_threaded(job_func, args):
job_thread = threading.Thread(target=job_func, args=args)
job_thread.start()
class AddonMonitor(xbmc.Monitor):
def __init__(self):
self.settings_pre = config.get_all_settings_addon()
self.updaterPeriod = None
self.update_setting = None
self.update_hour = None
self.scheduleUpdater()
# videolibrary wait
update_wait = [0, 10000, 20000, 30000, 60000]
wait = update_wait[int(config.get_setting("update_wait", "videolibrary"))]
if wait > 0:
xbmc.sleep(wait)
if not config.get_setting("update", "videolibrary") == 2:
check_for_update(overwrite=False)
run_threaded(check_for_update, (False,))
self.scheduleVideolibrary()
super(AddonMonitor, self).__init__()
def onSettingsChanged(self):
logger.info('settings changed')
settings_post = config.get_all_settings_addon()
from platformcode import xbmc_videolibrary
if self.settings_pre.get('downloadpath', None) != settings_post.get('downloadpath', None):
xbmc_videolibrary.update_sources(settings_post.get('downloadpath', None),
self.settings_pre.get('downloadpath', None))
# si se ha cambiado la ruta de la videoteca llamamos a comprobar directorios para que lo cree y pregunte
# automaticamente si configurar la videoteca
if self.settings_pre.get("videolibrarypath", None) != settings_post.get("videolibrarypath", None) or \
self.settings_pre.get("folder_movies", None) != settings_post.get("folder_movies", None) or \
self.settings_pre.get("folder_tvshows", None) != settings_post.get("folder_tvshows", None):
videolibrary.move_videolibrary(self.settings_pre.get("videolibrarypath", None),
settings_post.get("videolibrarypath", None),
self.settings_pre.get("folder_movies", None),
settings_post.get("folder_movies", None),
self.settings_pre.get("folder_tvshows", None),
settings_post.get("folder_tvshows", None))
# si se ha puesto que se quiere autoconfigurar y se había creado el directorio de la videoteca
if not self.settings_pre.get("videolibrary_kodi", None) and settings_post.get("videolibrary_kodi", None):
xbmc_videolibrary.ask_set_content(silent=True)
elif self.settings_pre.get("videolibrary_kodi", None) and not settings_post.get("videolibrary_kodi", None):
xbmc_videolibrary.clean()
if self.settings_pre.get('addon_update_timer') != settings_post.get('addon_update_timer'):
schedule.clear('updater')
self.scheduleUpdater()
if self.update_setting != config.get_setting("update", "videolibrary") or self.update_hour != config.get_setting("everyday_delay", "videolibrary") * 4:
schedule.clear('videolibrary')
self.scheduleVideolibrary()
self.settings_pre = settings_post
def onScreensaverActivated(self):
logger.info('screensaver activated, un-scheduling screen-on jobs')
schedule.clear('screenOn')
def onScreensaverDeactivated(self):
logger.info('screensaver deactivated, re-scheduling screen-on jobs')
schedule.every().second.do(viewmodeMonitor).tag('screenOn')
def scheduleUpdater(self):
if not config.dev_mode():
updaterCheck()
self.updaterPeriod = float(config.get_setting('addon_update_timer')) * 3600
schedule.every(self.updaterPeriod).hour.do(updaterCheck).tag('updater')
logger.info('scheduled updater every ' + str(self.updaterPeriod) + ' hours')
def scheduleVideolibrary(self):
self.update_setting = config.get_setting("update", "videolibrary")
# 2= daily 3=daily and when kodi starts
if self.update_setting == 2 or self.update_setting == 3:
self.update_hour = config.get_setting("everyday_delay", "videolibrary") * 4
schedule.every().day.at(str(self.update_hour).zfill(2) + ':00').do(run_threaded, check_for_update, (False,)).tag('videolibrary')
logger.info('scheduled videolibrary at ' + str(self.update_hour).zfill(2) + ':00')
if __name__ == "__main__":
# threading.Thread(target=callCloudflare())
# Se ejecuta en cada inicio
import xbmc
import time
logger.info('Starting KoD service')
monitor = AddonMonitor()
# mark as stopped all downloads (if we are here, probably kodi just started)
from specials.downloads import stop_all
stop_all()
update_wait = [0, 10000, 20000, 30000, 60000]
wait = update_wait[int(config.get_setting("update_wait", "videolibrary"))]
if wait > 0:
xbmc.sleep(wait)
# other things
schedule.every().second.do(viewmodeMonitor).tag('screenOn')
while True:
schedule.run_pending()
# Verificar quick-fixes al abrirse Kodi, y dejarlo corriendo como Thread
if not config.dev_mode():
updated, needsReload = updater.check(background=True)
config.set_setting("updater_last_check", str(time.time()), "videolibrary")
if needsReload:
xbmc.executescript(__file__)
exit(0)
# Copia Custom code a las carpetas de Alfa desde la zona de Userdata
# from platformcode import custom_code
# custom_code.init()
from threading import Thread
Thread(target=viewmodeMonitor).start()
from servers import torrent
Thread(target=torrent.elementum_monitor).start()
if not config.get_setting("update", "videolibrary") == 2:
check_for_update(overwrite=False)
# Se ejecuta ciclicamente
if config.get_platform(True)['num_version'] >= 14:
monitor = xbmc.Monitor() # For Kodi >= 14
else:
monitor = None # For Kodi < 14
from threading import Thread
Thread(target=viewmodeMonitor, args=(monitor,)).start()
if monitor:
while not monitor.abortRequested():
monitor_update()
if monitor.waitForAbort(3600): # cada hora
if monitor.waitForAbort(1): # every second
break
else:
while not xbmc.abortRequested:
monitor_update()
xbmc.sleep(3600)