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RecordTimer.py
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RecordTimer.py
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import os
from enigma import eEPGCache, getBestPlayableServiceReference, eServiceReference, eServiceCenter, iRecordableService, quitMainloop, eActionMap, getMachineBrand, getMachineName
from Components.config import config
from Components import Harddisk
from Components.UsageConfig import defaultMoviePath
from Components.TimerSanityCheck import TimerSanityCheck
from Screens.MessageBox import MessageBox
import Screens.Standby
from Tools import Directories, Notifications, ASCIItranslit, Trashcan
from Tools.XMLTools import stringToXML
import timer
import xml.etree.cElementTree
import NavigationInstance
from ServiceReference import ServiceReference
from time import localtime, strftime, ctime, time
from bisect import insort
from sys import maxint
import os
# ok, for descriptions etc we have:
# service reference (to get the service name)
# name (title)
# description (description)
# event data (ONLY for time adjustments etc.)
# parses an event, and gives out a (begin, end, name, duration, eit)-tuple.
# begin and end will be corrected
def parseEvent(ev, description = True):
if description:
name = ev.getEventName()
description = ev.getShortDescription()
if description == "":
description = ev.getExtendedDescription()
else:
name = ""
description = ""
begin = ev.getBeginTime()
end = begin + ev.getDuration()
eit = ev.getEventId()
begin -= config.recording.margin_before.getValue() * 60
end += config.recording.margin_after.getValue() * 60
return (begin, end, name, description, eit)
class AFTEREVENT:
NONE = 0
STANDBY = 1
DEEPSTANDBY = 2
AUTO = 3
def findSafeRecordPath(dirname):
if not dirname:
return None
dirname = os.path.realpath(dirname)
mountpoint = Harddisk.findMountPoint(dirname)
if not os.path.ismount(mountpoint):
print '[RecordTimer] media is not mounted:', dirname
return None
if not os.path.isdir(dirname):
try:
os.makedirs(dirname)
except Exception, ex:
print '[RecordTimer] Failed to create dir "%s":' % dirname, ex
return None
return dirname
# type 1 = digital television service
# type 4 = nvod reference service (NYI)
# type 17 = MPEG-2 HD digital television service
# type 22 = advanced codec SD digital television
# type 24 = advanced codec SD NVOD reference service (NYI)
# type 25 = advanced codec HD digital television
# type 27 = advanced codec HD NVOD reference service (NYI)
# type 2 = digital radio sound service
# type 10 = advanced codec digital radio sound service
service_types_tv = '1:7:1:0:0:0:0:0:0:0:(type == 1) || (type == 17) || (type == 22) || (type == 25) || (type == 134) || (type == 195)'
wasRecTimerWakeup = False
# please do not translate log messages
class RecordTimerEntry(timer.TimerEntry, object):
def __init__(self, serviceref, begin, end, name, description, eit, disabled = False, justplay = False, afterEvent = AFTEREVENT.AUTO, checkOldTimers = False, dirname = None, tags = None, descramble = 'notset', record_ecm = 'notset', isAutoTimer = False, always_zap = False):
timer.TimerEntry.__init__(self, int(begin), int(end))
if checkOldTimers == True:
if self.begin < time() - 1209600:
self.begin = int(time())
if self.end < self.begin:
self.end = self.begin
assert isinstance(serviceref, ServiceReference)
if serviceref.isRecordable():
self.service_ref = serviceref
else:
self.service_ref = ServiceReference(None)
self.eit = eit
self.dontSave = False
self.name = name
self.description = description
self.disabled = disabled
self.timer = None
self.__record_service = None
self.start_prepare = 0
self.justplay = justplay
self.always_zap = always_zap
self.afterEvent = afterEvent
self.dirname = dirname
self.dirnameHadToFallback = False
self.autoincrease = False
self.autoincreasetime = 3600 * 24 # 1 day
self.tags = tags or []
if descramble == 'notset' and record_ecm == 'notset':
if config.recording.ecm_data.getValue() == 'descrambled+ecm':
self.descramble = True
self.record_ecm = True
elif config.recording.ecm_data.getValue() == 'scrambled+ecm':
self.descramble = False
self.record_ecm = True
elif config.recording.ecm_data.getValue() == 'normal':
self.descramble = True
self.record_ecm = False
else:
self.descramble = descramble
self.record_ecm = record_ecm
self.isAutoTimer = isAutoTimer
self.wasInStandby = False
self.log_entries = []
self.resetState()
def __repr__(self):
if not self.disabled:
return "RecordTimerEntry(name=%s, begin=%s, serviceref=%s, justplay=%s, isAutoTimer=%s)" % (self.name, ctime(self.begin), self.service_ref, self.justplay, self.isAutoTimer)
else:
return "RecordTimerEntry(name=%s, begin=%s, serviceref=%s, justplay=%s, isAutoTimer=%s, Disabled)" % (self.name, ctime(self.begin), self.service_ref, self.justplay, self.isAutoTimer)
def log(self, code, msg):
self.log_entries.append((int(time()), code, msg))
print "[TIMER]", msg
def freespace(self):
self.MountPath = None
if not self.dirname:
dirname = findSafeRecordPath(defaultMoviePath())
else:
dirname = findSafeRecordPath(self.dirname)
if dirname is None:
dirname = findSafeRecordPath(defaultMoviePath())
self.dirnameHadToFallback = True
if not dirname:
return False
self.MountPath = dirname
mountwriteable = os.access(dirname, os.W_OK)
if not mountwriteable:
self.log(0, ("Mount '%s' is not writeable." % dirname))
return False
s = os.statvfs(dirname)
if (s.f_bavail * s.f_bsize) / 1000000 < 1024:
self.log(0, "Not enough free space to record")
return False
else:
self.log(0, "Found enough free space to record")
return True
def calculateFilename(self):
service_name = self.service_ref.getServiceName()
begin_date = strftime("%Y%m%d %H%M", localtime(self.begin))
# print "begin_date: ", begin_date
# print "service_name: ", service_name
# print "name:", self.name
# print "description: ", self.description
#
filename = begin_date + " - " + service_name
if self.name:
if config.recording.filename_composition.getValue() == "short":
filename = strftime("%Y%m%d", localtime(self.begin)) + " - " + self.name
elif config.recording.filename_composition.getValue() == "long":
filename += " - " + self.name + " - " + self.description
else:
filename += " - " + self.name # standard
if config.recording.ascii_filenames.getValue():
filename = ASCIItranslit.legacyEncode(filename)
self.Filename = Directories.getRecordingFilename(filename, self.MountPath)
self.log(0, "Filename calculated as: '%s'" % self.Filename)
return self.Filename
def tryPrepare(self):
if self.justplay:
return True
else:
if not self.calculateFilename():
self.do_backoff()
self.start_prepare = time() + self.backoff
return False
rec_ref = self.service_ref and self.service_ref.ref
if rec_ref and rec_ref.flags & eServiceReference.isGroup:
rec_ref = getBestPlayableServiceReference(rec_ref, eServiceReference())
if not rec_ref:
self.log(1, "'get best playable service for group... record' failed")
return False
self.record_service = rec_ref and NavigationInstance.instance.recordService(rec_ref)
if not self.record_service:
self.log(1, "'record service' failed")
return False
if self.repeated:
epgcache = eEPGCache.getInstance()
queryTime=self.begin+(self.end-self.begin)/2
evt = epgcache.lookupEventTime(rec_ref, queryTime)
if evt:
self.description = evt.getShortDescription()
if self.description == "":
self.description = evt.getExtendedDescription()
event_id = evt.getEventId()
else:
event_id = -1
else:
event_id = self.eit
if event_id is None:
event_id = -1
prep_res=self.record_service.prepare(self.Filename + ".ts", self.begin, self.end, event_id, self.name.replace("\n", ""), self.description.replace("\n", ""), ' '.join(self.tags), self.descramble, self.record_ecm)
if prep_res:
if prep_res == -255:
self.log(4, "failed to write meta information")
else:
self.log(2, "'prepare' failed: error %d" % prep_res)
# we must calc nur start time before stopRecordService call because in Screens/Standby.py TryQuitMainloop tries to get
# the next start time in evEnd event handler...
self.do_backoff()
self.start_prepare = time() + self.backoff
NavigationInstance.instance.stopRecordService(self.record_service)
self.record_service = None
return False
return True
def do_backoff(self):
if self.backoff == 0:
self.backoff = 5
else:
self.backoff *= 2
if self.backoff > 100:
self.backoff = 100
self.log(10, "backoff: retry in %d seconds" % self.backoff)
def activate(self):
next_state = self.state + 1
self.log(5, "activating state %d" % next_state)
if next_state == self.StatePrepared:
if not self.justplay and not self.freespace():
Notifications.AddPopup(text = _("Write error while recording. Disk full?\n%s") % self.name, type = MessageBox.TYPE_ERROR, timeout = 5, id = "DiskFullMessage")
self.failed = True
self.next_activation = time()
self.end = time() + 5
self.backoff = 0
return True
if self.always_zap:
if Screens.Standby.inStandby:
self.wasInStandby = True
eActionMap.getInstance().bindAction('', -maxint - 1, self.keypress)
#set service to zap after standby
Screens.Standby.inStandby.prev_running_service = self.service_ref.ref
Screens.Standby.inStandby.paused_service = None
#wakeup standby
Screens.Standby.inStandby.Power()
self.log(5, "wakeup and zap to recording service")
else:
cur_zap_ref = NavigationInstance.instance.getCurrentlyPlayingServiceReference()
if cur_zap_ref and not cur_zap_ref.getPath():# we do not zap away if it is no live service
Notifications.AddNotification(MessageBox, _("In order to record a timer, the TV was switched to the recording service!\n"), type=MessageBox.TYPE_INFO, timeout=20)
self.failureCB(True)
self.log(5, "zap to recording service")
if self.tryPrepare():
self.log(6, "prepare ok, waiting for begin")
# create file to "reserve" the filename
# because another recording at the same time on another service can try to record the same event
# i.e. cable / sat.. then the second recording needs an own extension... when we create the file
# here than calculateFilename is happy
if not self.justplay:
open(self.Filename + ".ts", "w").close()
# Give the Trashcan a chance to clean up
try:
Trashcan.instance.cleanIfIdle()
except Exception, e:
print "[TIMER] Failed to call Trashcan.instance.cleanIfIdle()"
print "[TIMER] Error:", e
# fine. it worked, resources are allocated.
self.next_activation = self.begin
self.backoff = 0
return True
self.log(7, "prepare failed")
if self.first_try_prepare:
self.first_try_prepare = False
cur_ref = NavigationInstance.instance.getCurrentlyPlayingServiceReference()
if cur_ref and not cur_ref.getPath():
if not config.recording.asktozap.getValue():
self.log(8, "asking user to zap away")
Notifications.AddNotificationWithCallback(self.failureCB, MessageBox, _("A timer failed to record!\nDisable TV and try again?\n"), timeout=20)
else: # zap without asking
self.log(9, "zap without asking")
Notifications.AddNotification(MessageBox, _("In order to record a timer, the TV was switched to the recording service!\n"), type=MessageBox.TYPE_INFO, timeout=20)
self.failureCB(True)
elif cur_ref:
self.log(8, "currently running service is not a live service.. so stop it makes no sense")
else:
self.log(8, "currently no service running... so we dont need to stop it")
return False
elif next_state == self.StateRunning:
global wasRecTimerWakeup
if os.path.exists("/tmp/was_rectimer_wakeup") and not wasRecTimerWakeup:
wasRecTimerWakeup = int(open("/tmp/was_rectimer_wakeup", "r").read()) and True or False
os.remove("/tmp/was_rectimer_wakeup")
self.autostate = Screens.Standby.inStandby
# if this timer has been cancelled, just go to "end" state.
if self.cancelled:
return True
if self.failed:
return True
if self.justplay:
if Screens.Standby.inStandby:
self.wasInStandby = True
eActionMap.getInstance().bindAction('', -maxint - 1, self.keypress)
self.log(11, "wakeup and zap")
#set service to zap after standby
Screens.Standby.inStandby.prev_running_service = self.service_ref.ref
Screens.Standby.inStandby.paused_service = None
#wakeup standby
Screens.Standby.inStandby.Power()
else:
self.log(11, "zapping")
NavigationInstance.instance.isMovieplayerActive()
from Screens.ChannelSelection import ChannelSelection
ChannelSelectionInstance = ChannelSelection.instance
self.service_types = service_types_tv
if ChannelSelectionInstance:
if config.usage.multibouquet.getValue():
bqrootstr = '1:7:1:0:0:0:0:0:0:0:FROM BOUQUET "bouquets.tv" ORDER BY bouquet'
else:
bqrootstr = '%s FROM BOUQUET "userbouquet.favourites.tv" ORDER BY bouquet'%(self.service_types)
rootstr = ''
serviceHandler = eServiceCenter.getInstance()
rootbouquet = eServiceReference(bqrootstr)
bouquet = eServiceReference(bqrootstr)
bouquetlist = serviceHandler.list(bouquet)
if not bouquetlist is None:
while True:
bouquet = bouquetlist.getNext()
if bouquet.flags & eServiceReference.isDirectory:
ChannelSelectionInstance.clearPath()
ChannelSelectionInstance.setRoot(bouquet)
servicelist = serviceHandler.list(bouquet)
if not servicelist is None:
serviceIterator = servicelist.getNext()
while serviceIterator.valid():
if self.service_ref.ref == serviceIterator:
break
serviceIterator = servicelist.getNext()
if self.service_ref.ref == serviceIterator:
break
ChannelSelectionInstance.enterPath(rootbouquet)
ChannelSelectionInstance.enterPath(bouquet)
ChannelSelectionInstance.saveRoot()
ChannelSelectionInstance.saveChannel(self.service_ref.ref)
ChannelSelectionInstance.addToHistory(self.service_ref.ref)
NavigationInstance.instance.playService(self.service_ref.ref)
return True
else:
self.log(11, "start recording")
record_res = self.record_service.start()
if record_res:
self.log(13, "start record returned %d" % record_res)
self.do_backoff()
# retry
self.begin = time() + self.backoff
return False
return True
elif next_state == self.StateEnded or next_state == self.StateFailed:
old_end = self.end
if self.setAutoincreaseEnd():
self.log(12, "autoincrase recording %d minute(s)" % int((self.end - old_end)/60))
self.state -= 1
return True
self.log(12, "stop recording")
if not self.justplay:
if self.record_service:
NavigationInstance.instance.stopRecordService(self.record_service)
self.record_service = None
NavigationInstance.instance.RecordTimer.saveTimer()
if self.afterEvent == AFTEREVENT.STANDBY or (not wasRecTimerWakeup and self.autostate and self.afterEvent == AFTEREVENT.AUTO) or self.wasInStandby:
self.keypress() #this unbinds the keypress detection
if not Screens.Standby.inStandby: # not already in standby
Notifications.AddNotificationWithCallback(self.sendStandbyNotification, MessageBox, _("A finished record timer wants to set your\n%s %s to standby. Do that now?") % (getMachineBrand(), getMachineName()), timeout = 180)
elif self.afterEvent == AFTEREVENT.DEEPSTANDBY or (wasRecTimerWakeup and self.afterEvent == AFTEREVENT.AUTO):
if (abs(NavigationInstance.instance.RecordTimer.getNextRecordingTime() - time()) <= 900 or abs(NavigationInstance.instance.RecordTimer.getNextZapTime() - time()) <= 900) or NavigationInstance.instance.RecordTimer.getStillRecording():
print '[Timer] Recording or Recording due is next 15 mins, not return to deepstandby'
return True
if not Screens.Standby.inTryQuitMainloop: # not a shutdown messagebox is open
if Screens.Standby.inStandby: # in standby
quitMainloop(1)
else:
Notifications.AddNotificationWithCallback(self.sendTryQuitMainloopNotification, MessageBox, _("A finished record timer wants to shut down\nyour %s %s. Shutdown now?") % (getMachineBrand(), getMachineName()), timeout = 180)
return True
def keypress(self, key=None, flag=1):
if flag and self.wasInStandby:
self.wasInStandby = False
eActionMap.getInstance().unbindAction('', self.keypress)
def setAutoincreaseEnd(self, entry = None):
if not self.autoincrease:
return False
if entry is None:
new_end = int(time()) + self.autoincreasetime
else:
new_end = entry.begin -30
dummyentry = RecordTimerEntry(self.service_ref, self.begin, new_end, self.name, self.description, self.eit, disabled=True, justplay = self.justplay, afterEvent = self.afterEvent, dirname = self.dirname, tags = self.tags)
dummyentry.disabled = self.disabled
timersanitycheck = TimerSanityCheck(NavigationInstance.instance.RecordTimer.timer_list, dummyentry)
if not timersanitycheck.check():
simulTimerList = timersanitycheck.getSimulTimerList()
if simulTimerList is not None and len(simulTimerList) > 1:
new_end = simulTimerList[1].begin
new_end -= 30 # 30 Sekunden Prepare-Zeit lassen
if new_end <= time():
return False
self.end = new_end
return True
def sendStandbyNotification(self, answer):
if answer:
Notifications.AddNotification(Screens.Standby.Standby)
def sendTryQuitMainloopNotification(self, answer):
if answer:
Notifications.AddNotification(Screens.Standby.TryQuitMainloop, 1)
else:
global wasRecTimerWakeup
wasRecTimerWakeup = False
def getNextActivation(self):
self.isStillRecording = False
if self.state == self.StateEnded or self.state == self.StateFailed:
if self.end > time():
self.isStillRecording = True
return self.end
next_state = self.state + 1
if next_state == self.StateEnded or next_state == self.StateFailed:
if self.end > time():
self.isStillRecording = True
return {self.StatePrepared: self.start_prepare,
self.StateRunning: self.begin,
self.StateEnded: self.end}[next_state]
def failureCB(self, answer):
if answer == True:
self.log(13, "ok, zapped away")
#NavigationInstance.instance.stopUserServices()
NavigationInstance.instance.playService(self.service_ref.ref)
else:
self.log(14, "user didn't want to zap away, record will probably fail")
def timeChanged(self):
old_prepare = self.start_prepare
self.start_prepare = self.begin - self.prepare_time
self.backoff = 0
if int(old_prepare) > 60 and int(old_prepare) != int(self.start_prepare):
self.log(15, "record time changed, start prepare is now: %s" % ctime(self.start_prepare))
def gotRecordEvent(self, record, event):
# TODO: this is not working (never true), please fix. (comparing two swig wrapped ePtrs)
if self.__record_service.__deref__() != record.__deref__():
return
# self.log(16, "record event %d" % event)
if event == iRecordableService.evRecordWriteError:
print "WRITE ERROR on recording, disk full?"
# show notification. the 'id' will make sure that it will be
# displayed only once, even if more timers are failing at the
# same time. (which is very likely in case of disk fullness)
Notifications.AddPopup(text = _("Write error while recording. Disk full?\n"), type = MessageBox.TYPE_ERROR, timeout = 0, id = "DiskFullMessage")
# ok, the recording has been stopped. we need to properly note
# that in our state, with also keeping the possibility to re-try.
# TODO: this has to be done.
elif event == iRecordableService.evStart:
text = _("A recording has been started:\n%s") % self.name
notify = config.usage.show_message_when_recording_starts.getValue() and not Screens.Standby.inStandby
if self.dirnameHadToFallback:
text = '\n'.join((text, _("Please note that the previously selected media could not be accessed and therefore the default directory is being used instead.")))
notify = True
if notify:
Notifications.AddPopup(text = text, type = MessageBox.TYPE_INFO, timeout = 3)
elif event == iRecordableService.evRecordAborted:
NavigationInstance.instance.RecordTimer.removeEntry(self)
# we have record_service as property to automatically subscribe to record service events
def setRecordService(self, service):
if self.__record_service is not None:
# print "[remove callback]"
NavigationInstance.instance.record_event.remove(self.gotRecordEvent)
self.__record_service = service
if self.__record_service is not None:
# print "[add callback]"
NavigationInstance.instance.record_event.append(self.gotRecordEvent)
record_service = property(lambda self: self.__record_service, setRecordService)
def createTimer(xml):
begin = int(xml.get("begin"))
end = int(xml.get("end"))
serviceref = ServiceReference(xml.get("serviceref").encode("utf-8"))
description = xml.get("description").encode("utf-8")
repeated = xml.get("repeated").encode("utf-8")
disabled = long(xml.get("disabled") or "0")
justplay = long(xml.get("justplay") or "0")
always_zap = long(xml.get("always_zap") or "0")
afterevent = str(xml.get("afterevent") or "nothing")
afterevent = {
"nothing": AFTEREVENT.NONE,
"standby": AFTEREVENT.STANDBY,
"deepstandby": AFTEREVENT.DEEPSTANDBY,
"auto": AFTEREVENT.AUTO
}[afterevent]
eit = xml.get("eit")
if eit and eit != "None":
eit = long(eit)
else:
eit = None
location = xml.get("location")
if location and location != "None":
location = location.encode("utf-8")
else:
location = None
tags = xml.get("tags")
if tags and tags != "None":
tags = tags.encode("utf-8").split(' ')
else:
tags = None
descramble = int(xml.get("descramble") or "1")
record_ecm = int(xml.get("record_ecm") or "0")
isAutoTimer = int(xml.get("isAutoTimer") or "0")
name = xml.get("name").encode("utf-8")
#filename = xml.get("filename").encode("utf-8")
entry = RecordTimerEntry(serviceref, begin, end, name, description, eit, disabled, justplay, afterevent, dirname = location, tags = tags, descramble = descramble, record_ecm = record_ecm, isAutoTimer = isAutoTimer, always_zap = always_zap)
entry.repeated = int(repeated)
for l in xml.findall("log"):
time = int(l.get("time"))
code = int(l.get("code"))
msg = l.text.strip().encode("utf-8")
entry.log_entries.append((time, code, msg))
return entry
class RecordTimer(timer.Timer):
def __init__(self):
timer.Timer.__init__(self)
self.Filename = Directories.resolveFilename(Directories.SCOPE_CONFIG, "timers.xml")
try:
self.loadTimer()
except IOError:
print "unable to load timers from file!"
def doActivate(self, w):
# when activating a timer which has already passed,
# simply abort the timer. don't run trough all the stages.
if w.shouldSkip():
w.state = RecordTimerEntry.StateEnded
else:
# when active returns true, this means "accepted".
# otherwise, the current state is kept.
# the timer entry itself will fix up the delay then.
if w.activate():
w.state += 1
try:
self.timer_list.remove(w)
except:
print '[RecordTimer]: Remove list failed'
# did this timer reached the last state?
if w.state < RecordTimerEntry.StateEnded:
# no, sort it into active list
insort(self.timer_list, w)
else:
# yes. Process repeated, and re-add.
if w.repeated:
w.processRepeated()
w.state = RecordTimerEntry.StateWaiting
self.addTimerEntry(w)
else:
# check for disabled timers, if time as passed set to completed.
self.cleanupDisabled()
# Remove old timers as set in config
self.cleanupDaily(config.recording.keep_timers.getValue())
insort(self.processed_timers, w)
self.stateChanged(w)
def isRecTimerWakeup(self):
return wasRecTimerWakeup
def isRecording(self):
isRunning = False
for timer in self.timer_list:
if timer.isRunning() and not timer.justplay:
isRunning = True
return isRunning
def loadTimer(self):
# TODO: PATH!
if not Directories.fileExists(self.Filename):
return
try:
file = open(self.Filename, 'r')
doc = xml.etree.cElementTree.parse(file)
file.close()
except SyntaxError:
from Tools.Notifications import AddPopup
from Screens.MessageBox import MessageBox
AddPopup(_("The timer file (timers.xml) is corrupt and could not be loaded."), type = MessageBox.TYPE_ERROR, timeout = 0, id = "TimerLoadFailed")
print "timers.xml failed to load!"
try:
os.rename(self.Filename, self.Filename + "_old")
except (IOError, OSError):
print "renaming broken timer failed"
return
except IOError:
print "timers.xml not found!"
return
root = doc.getroot()
# put out a message when at least one timer overlaps
checkit = True
for timer in root.findall("timer"):
newTimer = createTimer(timer)
if (self.record(newTimer, True, dosave=False) is not None) and (checkit == True):
from Tools.Notifications import AddPopup
from Screens.MessageBox import MessageBox
AddPopup(_("Timer overlap in timers.xml detected!\nPlease recheck it!"), type = MessageBox.TYPE_ERROR, timeout = 0, id = "TimerLoadFailed")
checkit = False # at moment it is enough when the message is displayed one time
def saveTimer(self):
list = []
list.append('<?xml version="1.0" ?>\n')
list.append('<timers>\n')
for timer in self.timer_list + self.processed_timers:
if timer.dontSave:
continue
list.append('<timer')
list.append(' begin="' + str(int(timer.begin)) + '"')
list.append(' end="' + str(int(timer.end)) + '"')
list.append(' serviceref="' + stringToXML(str(timer.service_ref)) + '"')
list.append(' repeated="' + str(int(timer.repeated)) + '"')
list.append(' name="' + str(stringToXML(timer.name)) + '"')
list.append(' description="' + str(stringToXML(timer.description)) + '"')
list.append(' afterevent="' + str(stringToXML({
AFTEREVENT.NONE: "nothing",
AFTEREVENT.STANDBY: "standby",
AFTEREVENT.DEEPSTANDBY: "deepstandby",
AFTEREVENT.AUTO: "auto"
}[timer.afterEvent])) + '"')
if timer.eit is not None:
list.append(' eit="' + str(timer.eit) + '"')
if timer.dirname is not None:
list.append(' location="' + str(stringToXML(timer.dirname)) + '"')
if timer.tags is not None:
list.append(' tags="' + str(stringToXML(' '.join(timer.tags))) + '"')
list.append(' disabled="' + str(int(timer.disabled)) + '"')
list.append(' justplay="' + str(int(timer.justplay)) + '"')
list.append(' always_zap="' + str(int(timer.always_zap)) + '"')
list.append(' descramble="' + str(int(timer.descramble)) + '"')
list.append(' record_ecm="' + str(int(timer.record_ecm)) + '"')
list.append(' isAutoTimer="' + str(int(timer.isAutoTimer)) + '"')
list.append('>\n')
for time, code, msg in timer.log_entries:
list.append('<log')
list.append(' code="' + str(code) + '"')
list.append(' time="' + str(time) + '"')
list.append('>')
list.append(str(stringToXML(msg)))
list.append('</log>\n')
list.append('</timer>\n')
list.append('</timers>\n')
file = open(self.Filename + ".writing", "w")
for x in list:
file.write(x)
file.flush()
os.fsync(file.fileno())
file.close()
os.rename(self.Filename + ".writing", self.Filename)
def getNextZapTime(self):
now = time()
for timer in self.timer_list:
if not timer.justplay or timer.begin < now:
continue
return timer.begin
return -1
def getStillRecording(self):
isStillRecording = False
now = time()
for timer in self.timer_list:
if timer.isStillRecording:
isStillRecording = True
break
elif (abs(timer.begin - now) <= 10):
isStillRecording = True
break
return isStillRecording
def getNextRecordingTimeOld(self):
now = time()
for timer in self.timer_list:
next_act = timer.getNextActivation()
if timer.justplay or next_act < now:
continue
return next_act
return -1
def getNextRecordingTime(self):
nextrectime = self.getNextRecordingTimeOld()
faketime = time()+300
if config.timeshift.isRecording.getValue():
if nextrectime > 0 and nextrectime < faketime:
return nextrectime
else:
return faketime
else:
return nextrectime
def isNextRecordAfterEventActionAuto(self):
for timer in self.timer_list:
if timer.justplay:
continue
if timer.afterEvent == AFTEREVENT.AUTO or timer.afterEvent == AFTEREVENT.DEEPSTANDBY:
return True
return False
def record(self, entry, ignoreTSC=False, dosave=True): #wird von loadTimer mit dosave=False aufgerufen
timersanitycheck = TimerSanityCheck(self.timer_list,entry)
if not timersanitycheck.check():
if ignoreTSC != True:
print "timer conflict detected!"
return timersanitycheck.getSimulTimerList()
else:
print "ignore timer conflict"
elif timersanitycheck.doubleCheck():
print "ignore double timer"
return None
entry.timeChanged()
print "[Timer] Record " + str(entry)
entry.Timer = self
self.addTimerEntry(entry)
if dosave:
self.saveTimer()
return None
def isInTimer(self, eventid, begin, duration, service):
returnValue = None
type = 0
time_match = 0
isAutoTimer = False
bt = None
end = begin + duration
refstr = str(service)
for x in self.timer_list:
if x.isAutoTimer == 1:
isAutoTimer = True
else:
isAutoTimer = False
check = x.service_ref.ref.toString() == refstr
if not check:
sref = x.service_ref.ref
parent_sid = sref.getUnsignedData(5)
parent_tsid = sref.getUnsignedData(6)
if parent_sid and parent_tsid: # check for subservice
sid = sref.getUnsignedData(1)
tsid = sref.getUnsignedData(2)
sref.setUnsignedData(1, parent_sid)
sref.setUnsignedData(2, parent_tsid)
sref.setUnsignedData(5, 0)
sref.setUnsignedData(6, 0)
check = sref.toCompareString() == refstr
num = 0
if check:
check = False
event = eEPGCache.getInstance().lookupEventId(sref, eventid)
num = event and event.getNumOfLinkageServices() or 0
sref.setUnsignedData(1, sid)
sref.setUnsignedData(2, tsid)
sref.setUnsignedData(5, parent_sid)
sref.setUnsignedData(6, parent_tsid)
for cnt in range(num):
subservice = event.getLinkageService(sref, cnt)
if sref.toCompareString() == subservice.toCompareString():
check = True
break
if check:
timer_end = x.end
if x.justplay and (timer_end - x.begin) <= 1:
timer_end += 60
if x.repeated != 0:
if bt is None:
bt = localtime(begin)
et = localtime(end)
bday = bt.tm_wday
begin2 = bday * 1440 + bt.tm_hour * 60 + bt.tm_min
end2 = et.tm_wday * 1440 + et.tm_hour * 60 + et.tm_min
if x.repeated & (1 << bday):
xbt = localtime(x.begin)
xet = localtime(timer_end)
xbegin = bday * 1440 + xbt.tm_hour * 60 + xbt.tm_min
xend = bday * 1440 + xet.tm_hour * 60 + xet.tm_min
if xend < xbegin:
xend += 1440
if begin2 < xbegin <= end2:
if xend < end2: # recording within event
time_match = (xend - xbegin) * 60
type = 3
else: # recording last part of event
time_match = (end2 - xbegin) * 60
type = 1
elif xbegin <= begin2 <= xend:
if xend < end2: # recording first part of event
time_match = (xend - begin2) * 60
type = 4
else: # recording whole event
time_match = (end2 - begin2) * 60
type = 2
else:
if begin < x.begin <= end:
if timer_end < end: # recording within event
time_match = timer_end - x.begin
type = 3
else: # recording last part of event
time_match = end - x.begin
type = 1
elif x.begin <= begin <= timer_end:
if timer_end < end: # recording first part of event
time_match = timer_end - begin
type = 4
if x.justplay:
type = 2
else: # recording whole event
time_match = end - begin
type = 2
if x.justplay:
type += 5
elif x.always_zap:
type += 10
if time_match:
returnValue = (time_match, type, isAutoTimer)
if type in (2,7,12): # When full recording do not look further
break
return returnValue
def removeEntry(self, entry):
print "[Timer] Remove " + str(entry)
# avoid re-enqueuing
entry.repeated = False
# abort timer.
# this sets the end time to current time, so timer will be stopped.
entry.autoincrease = False
entry.abort()
if entry.state != entry.StateEnded:
self.timeChanged(entry)
# print "state: ", entry.state
# print "in processed: ", entry in self.processed_timers
# print "in running: ", entry in self.timer_list
# autoincrease instanttimer if possible
if not entry.dontSave:
for x in self.timer_list:
if x.setAutoincreaseEnd():
self.timeChanged(x)
# now the timer should be in the processed_timers list. remove it from there.
self.processed_timers.remove(entry)
self.saveTimer()
def shutdown(self):
self.saveTimer()