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PowerTimer.py
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PowerTimer.py
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import os
from boxbranding import getMachineBrand, getMachineName
import xml.etree.cElementTree
from datetime import datetime
from time import ctime, time, strftime, localtime, mktime
from bisect import insort
from enigma import eActionMap, quitMainloop
from Components.config import config
from Components.TimerSanityCheck import TimerSanityCheck
from Screens.MessageBox import MessageBox
import Screens.Standby
from Tools import Directories, Notifications
from Tools.XMLTools import stringToXML
import timer
import NavigationInstance
#global variables begin
DSsave = False
RSsave = False
RBsave = False
aeDSsave = False
wasTimerWakeup = False
#+++
debug = False
#+++
#global variables end
#----------------------------------------------------------------------------------------------------
#Timer shutdown, reboot and restart priority
#1. wakeup
#2. wakeuptostandby -> (same as 1.)
#3. deepstandby -> DSsave
#4. deppstandby after event -> aeDSsave
#5. reboot system -> RBsave
#6. restart gui -> RSsave
#7. standby
#8. autostandby
#9. nothing (no function, only for suppress autodeepstandby timer)
#10. autodeepstandby
#-overlapping timers or next timer start is within 15 minutes, will only the high-order timer executed (at same types will executed the next timer)
#-autodeepstandby timer is only effective if no other timer is active or current time is in the time window
#-priority for repeated timer: shift from begin and end time only temporary, end-action priority is higher as the begin-action
#----------------------------------------------------------------------------------------------------
#reset wakeup state after ending timer
def resetTimerWakeup():
global wasTimerWakeup
if os.path.exists("/tmp/was_powertimer_wakeup"):
os.remove("/tmp/was_powertimer_wakeup")
if debug: print "[POWERTIMER] reset wakeup state"
wasTimerWakeup = False
# parses an event, and gives out a (begin, end, name, duration, eit)-tuple.
# begin and end will be corrected
def parseEvent(ev):
begin = ev.getBeginTime()
end = begin + ev.getDuration()
return begin, end
class AFTEREVENT:
def __init__(self):
pass
NONE = 0
WAKEUP = 1
WAKEUPTOSTANDBY = 2
STANDBY = 3
DEEPSTANDBY = 4
class TIMERTYPE:
def __init__(self):
pass
NONE = 0
WAKEUP = 1
WAKEUPTOSTANDBY = 2
AUTOSTANDBY = 3
AUTODEEPSTANDBY = 4
STANDBY = 5
DEEPSTANDBY = 6
REBOOT = 7
RESTART = 8
# please do not translate log messages
class PowerTimerEntry(timer.TimerEntry, object):
def __init__(self, begin, end, disabled = False, afterEvent = AFTEREVENT.NONE, timerType = TIMERTYPE.WAKEUP, checkOldTimers = False, autosleepdelay = 60):
timer.TimerEntry.__init__(self, int(begin), int(end))
if checkOldTimers:
if self.begin < time() - 1209600:
self.begin = int(time())
if self.end < self.begin:
self.end = self.begin
self.dontSave = False
self.disabled = disabled
self.timer = None
self.__record_service = None
self.start_prepare = 0
self.timerType = timerType
self.afterEvent = afterEvent
self.autoincrease = False
self.autoincreasetime = 3600 * 24 # 1 day
self.autosleepinstandbyonly = 'no'
self.autosleepdelay = autosleepdelay
self.autosleeprepeat = 'once'
self.autosleepwindow = 'no'
self.autosleepbegin = self.begin
self.autosleepend = self.end
self.nettraffic = 'no'
self.trafficlimit = 100
self.netip = 'no'
self.ipadress = "0.0.0.0"
self.log_entries = []
self.resetState()
#check autopowertimer
if (self.timerType == TIMERTYPE.AUTOSTANDBY or self.timerType == TIMERTYPE.AUTODEEPSTANDBY) and not self.disabled and time() > 3600 and self.begin > time():
self.begin = int(time()) #the begin is in the future -> set to current time = no start delay of this timer
def __repr__(self):
timertype = {
TIMERTYPE.NONE: "nothing",
TIMERTYPE.WAKEUP: "wakeup",
TIMERTYPE.WAKEUPTOSTANDBY: "wakeuptostandby",
TIMERTYPE.AUTOSTANDBY: "autostandby",
TIMERTYPE.AUTODEEPSTANDBY: "autodeepstandby",
TIMERTYPE.STANDBY: "standby",
TIMERTYPE.DEEPSTANDBY: "deepstandby",
TIMERTYPE.REBOOT: "reboot",
TIMERTYPE.RESTART: "restart"
}[self.timerType]
if not self.disabled:
return "PowerTimerEntry(type=%s, begin=%s)" % (timertype, ctime(self.begin))
else:
return "PowerTimerEntry(type=%s, begin=%s Disabled)" % (timertype, ctime(self.begin))
def log(self, code, msg):
self.log_entries.append((int(time()), code, msg))
def do_backoff(self):
if Screens.Standby.inStandby and not wasTimerWakeup or RSsave or RBsave or aeDSsave or DSsave:
self.backoff = 300
else:
if self.backoff == 0:
self.backoff = 300
else:
self.backoff += 300
if self.backoff > 900:
self.backoff = 900
self.log(10, "backoff: retry in %d minutes" % (int(self.backoff)/60))
def activate(self):
global RSsave, RBsave, DSsave, aeDSsave, wasTimerWakeup
isRecTimerWakeup = breakPT = shiftPT = False
now = time()
next_state = self.state + 1
self.log(5, "activating state %d" % next_state)
if next_state == self.StatePrepared and (self.timerType == TIMERTYPE.AUTOSTANDBY or self.timerType == TIMERTYPE.AUTODEEPSTANDBY):
eActionMap.getInstance().bindAction('', -0x7FFFFFFF, self.keyPressed)
if self.autosleepwindow == 'yes':
ltm = localtime(now)
asb = strftime("%H:%M", localtime(self.autosleepbegin)).split(':')
ase = strftime("%H:%M", localtime(self.autosleepend)).split(':')
self.autosleepbegin = int(mktime(datetime(ltm.tm_year, ltm.tm_mon, ltm.tm_mday, int(asb[0]), int(asb[1])).timetuple()))
self.autosleepend = int(mktime(datetime(ltm.tm_year, ltm.tm_mon, ltm.tm_mday, int(ase[0]), int(ase[1])).timetuple()))
if self.autosleepend <= self.autosleepbegin:
self.autosleepbegin -= 86400
if self.getAutoSleepWindow():
if now < self.autosleepbegin and now > self.autosleepbegin - self.prepare_time - 3: #begin is in prepare time window
self.begin = self.end = self.autosleepbegin + int(self.autosleepdelay)*60
else:
self.begin = self.end = int(now) + int(self.autosleepdelay)*60
else:
return False
if self.timerType == TIMERTYPE.AUTODEEPSTANDBY:
self.getNetworkTraffic(getInitialValue = True)
if (next_state == self.StateRunning or next_state == self.StateEnded) and NavigationInstance.instance.PowerTimer is None:
#TODO: running/ended timer at system start has no nav instance
#First fix: crash in getPriorityCheck (NavigationInstance.instance.PowerTimer...)
#Second fix: suppress the message (A finished powertimer wants to ...)
if debug: print "*****NavigationInstance.instance.PowerTimer is None*****", self.timerType, self.state, ctime(self.begin), ctime(self.end)
return True
elif next_state == self.StateRunning and abs(self.begin - now) > 900: return True
elif next_state == self.StateEnded and abs(self.end - now) > 900: return True
if next_state == self.StateRunning or next_state == self.StateEnded:
if NavigationInstance.instance.isRecordTimerImageStandard:
isRecTimerWakeup = NavigationInstance.instance.RecordTimer.isRecTimerWakeup()
if isRecTimerWakeup:
wasTimerWakeup = True
elif os.path.exists("/tmp/was_powertimer_wakeup") and not wasTimerWakeup:
wasTimerWakeup = int(open("/tmp/was_powertimer_wakeup", "r").read()) and True or False
if next_state == self.StatePrepared:
self.log(6, "prepare ok, waiting for begin: %s" % ctime(self.begin))
self.backoff = 0
return True
elif next_state == self.StateRunning:
# if this timer has been cancelled, just go to "end" state.
if self.cancelled:
return True
if self.failed:
return True
if self.timerType == TIMERTYPE.NONE:
return True
elif self.timerType == TIMERTYPE.WAKEUP:
if debug: print "self.timerType == TIMERTYPE.WAKEUP:"
if Screens.Standby.inStandby:
Screens.Standby.inStandby.Power()
return True
#elif self.timerType == TIMERTYPE.WAKEUPTOSTANDBY:
# return True
elif self.timerType == TIMERTYPE.WAKEUPTOSTANDBY or self.timerType == TIMERTYPE.STANDBY:
if debug:
if self.timerType == TIMERTYPE.WAKEUPTOSTANDBY:
print "self.timerType == TIMERTYPE.WAKEUPTOSTANDBY:"
else:
print "self.timerType == TIMERTYPE.STANDBY:"
prioPT = [TIMERTYPE.WAKEUP,TIMERTYPE.RESTART,TIMERTYPE.REBOOT,TIMERTYPE.DEEPSTANDBY]
prioPTae = [AFTEREVENT.WAKEUP,AFTEREVENT.DEEPSTANDBY]
shiftPT,breakPT = self.getPriorityCheck(prioPT,prioPTae)
if not Screens.Standby.inStandby and not breakPT: # not already in standby
Notifications.AddNotificationWithCallback(self.sendStandbyNotification, MessageBox, _("A finished powertimer wants to set your\n%s %s to standby. Do that now?") % (getMachineBrand(), getMachineName()), timeout = 180)
return True
elif self.timerType == TIMERTYPE.AUTOSTANDBY:
if debug: print "self.timerType == TIMERTYPE.AUTOSTANDBY:"
if not self.getAutoSleepWindow():
return False
if not Screens.Standby.inStandby: # not already in standby
Notifications.AddNotificationWithCallback(self.sendStandbyNotification, MessageBox, _("A finished powertimer wants to set your\n%s %s to standby. Do that now?") % (getMachineBrand(), getMachineName()), timeout = 180)
if self.autosleeprepeat == "once":
eActionMap.getInstance().unbindAction('', self.keyPressed)
return True
else:
self.begin = self.end = int(now) + int(self.autosleepdelay)*60
else:
self.begin = self.end = int(now) + int(self.autosleepdelay)*60
elif self.timerType == TIMERTYPE.AUTODEEPSTANDBY:
if debug: print "self.timerType == TIMERTYPE.AUTODEEPSTANDBY:"
if not self.getAutoSleepWindow():
return False
if isRecTimerWakeup or (self.autosleepinstandbyonly == 'yes' and not Screens.Standby.inStandby) \
or NavigationInstance.instance.PowerTimer.isProcessing() or abs(NavigationInstance.instance.PowerTimer.getNextPowerManagerTime() - now) <= 900 or self.getNetworkAdress() or self.getNetworkTraffic() \
or NavigationInstance.instance.RecordTimer.isRecording() or abs(NavigationInstance.instance.RecordTimer.getNextRecordingTime() - now) <= 900 or abs(NavigationInstance.instance.RecordTimer.getNextZapTime() - now) <= 900:
self.do_backoff()
# retry
self.begin = self.end = int(now) + self.backoff
return False
elif not Screens.Standby.inTryQuitMainloop: # not a shutdown messagebox is open
if self.autosleeprepeat == "once":
self.disabled = True
if Screens.Standby.inStandby or self.autosleepinstandbyonly == 'noquery': # in standby or option 'without query' is enabled
print "[PowerTimer] quitMainloop #1"
quitMainloop(1)
return True
else:
Notifications.AddNotificationWithCallback(self.sendTryQuitMainloopNotification, MessageBox, _("A finished powertimer wants to shutdown your %s %s.\nDo that now?") % (getMachineBrand(), getMachineName()), timeout = 180)
if self.autosleeprepeat == "once":
eActionMap.getInstance().unbindAction('', self.keyPressed)
return True
else:
self.begin = self.end = int(now) + int(self.autosleepdelay)*60
elif self.timerType == TIMERTYPE.RESTART:
if debug: print "self.timerType == TIMERTYPE.RESTART:"
#check priority
prioPT = [TIMERTYPE.RESTART,TIMERTYPE.REBOOT,TIMERTYPE.DEEPSTANDBY]
prioPTae = [AFTEREVENT.DEEPSTANDBY]
shiftPT,breakPT = self.getPriorityCheck(prioPT,prioPTae)
#a timer with higher priority was shifted - no execution of current timer
if RBsave or aeDSsave or DSsave:
if debug: print "break#1"
breakPT = True
#a timer with lower priority was shifted - shift now current timer and wait for restore the saved time values from other timer
if False:
if debug: print "shift#1"
breakPT = False
shiftPT = True
#shift or break
if isRecTimerWakeup or shiftPT or breakPT \
or NavigationInstance.instance.RecordTimer.isRecording() or abs(NavigationInstance.instance.RecordTimer.getNextRecordingTime() - now) <= 900 or abs(NavigationInstance.instance.RecordTimer.getNextZapTime() - now) <= 900:
if self.repeated and not RSsave:
self.savebegin = self.begin
self.saveend = self.end
RSsave = True
if not breakPT:
self.do_backoff()
#check difference begin to end before shift begin time
if RSsave and self.end - self.begin > 3 and self.end - now - self.backoff <= 240: breakPT = True
#breakPT
if breakPT:
if self.repeated and RSsave:
try:
self.begin = self.savebegin
self.end = self.saveend
except:
pass
RSsave = False
return True
# retry
oldbegin = self.begin
self.begin = int(now) + self.backoff
if abs(self.end - oldbegin) <= 3:
self.end = self.begin
else:
if not self.repeated and self.end < self.begin + 300:
self.end = self.begin + 300
return False
elif not Screens.Standby.inTryQuitMainloop: # not a shutdown messagebox is open
if self.repeated and RSsave:
try:
self.begin = self.savebegin
self.end = self.saveend
except:
pass
if Screens.Standby.inStandby: # in standby
print "[PowerTimer] quitMainloop #4"
quitMainloop(3)
else:
Notifications.AddNotificationWithCallback(self.sendTryToRestartNotification, MessageBox, _("A finished powertimer wants to restart the user interface.\nDo that now?"), timeout = 180)
RSsave = False
return True
elif self.timerType == TIMERTYPE.REBOOT:
if debug: print "self.timerType == TIMERTYPE.REBOOT:"
#check priority
prioPT = [TIMERTYPE.REBOOT,TIMERTYPE.DEEPSTANDBY]
prioPTae = [AFTEREVENT.DEEPSTANDBY]
shiftPT,breakPT = self.getPriorityCheck(prioPT,prioPTae)
#a timer with higher priority was shifted - no execution of current timer
if aeDSsave or DSsave:
if debug: print "break#1"
breakPT = True
#a timer with lower priority was shifted - shift now current timer and wait for restore the saved time values from other timer
if RSsave:
if debug: print "shift#1"
breakPT = False
shiftPT = True
#shift or break
if isRecTimerWakeup or shiftPT or breakPT \
or NavigationInstance.instance.RecordTimer.isRecording() or abs(NavigationInstance.instance.RecordTimer.getNextRecordingTime() - now) <= 900 or abs(NavigationInstance.instance.RecordTimer.getNextZapTime() - now) <= 900:
if self.repeated and not RBsave:
self.savebegin = self.begin
self.saveend = self.end
RBsave = True
if not breakPT:
self.do_backoff()
#check difference begin to end before shift begin time
if RBsave and self.end - self.begin > 3 and self.end - now - self.backoff <= 240: breakPT = True
#breakPT
if breakPT:
if self.repeated and RBsave:
try:
self.begin = self.savebegin
self.end = self.saveend
except:
pass
RBsave = False
return True
# retry
oldbegin = self.begin
self.begin = int(now) + self.backoff
if abs(self.end - oldbegin) <= 3:
self.end = self.begin
else:
if not self.repeated and self.end < self.begin + 300:
self.end = self.begin + 300
return False
elif not Screens.Standby.inTryQuitMainloop: # not a shutdown messagebox is open
if self.repeated and RBsave:
try:
self.begin = self.savebegin
self.end = self.saveend
except:
pass
if Screens.Standby.inStandby: # in standby
print "[PowerTimer] quitMainloop #3"
quitMainloop(2)
else:
Notifications.AddNotificationWithCallback(self.sendTryToRebootNotification, MessageBox, _("A finished powertimer wants to reboot your %s %s.\nDo that now?") % (getMachineBrand(), getMachineName()), timeout = 180)
RBsave = False
return True
elif self.timerType == TIMERTYPE.DEEPSTANDBY:
if debug: print "self.timerType == TIMERTYPE.DEEPSTANDBY:"
#check priority
prioPT = [TIMERTYPE.WAKEUP,TIMERTYPE.WAKEUPTOSTANDBY,TIMERTYPE.DEEPSTANDBY]
prioPTae = [AFTEREVENT.WAKEUP,AFTEREVENT.WAKEUPTOSTANDBY,AFTEREVENT.DEEPSTANDBY]
shiftPT,breakPT = self.getPriorityCheck(prioPT,prioPTae)
#a timer with higher priority was shifted - no execution of current timer
if False:
if debug: print "break#1"
breakPT = True
#a timer with lower priority was shifted - shift now current timer and wait for restore the saved time values from other timer
if RSsave or RBsave or aeDSsave:
if debug: print "shift#1"
breakPT = False
shiftPT = True
#shift or break
if isRecTimerWakeup or shiftPT or breakPT \
or NavigationInstance.instance.RecordTimer.isRecording() or abs(NavigationInstance.instance.RecordTimer.getNextRecordingTime() - now) <= 900 or abs(NavigationInstance.instance.RecordTimer.getNextZapTime() - now) <= 900:
if self.repeated and not DSsave:
self.savebegin = self.begin
self.saveend = self.end
DSsave = True
if not breakPT:
self.do_backoff()
#check difference begin to end before shift begin time
if DSsave and self.end - self.begin > 3 and self.end - now - self.backoff <= 240: breakPT = True
#breakPT
if breakPT:
if self.repeated and DSsave:
try:
self.begin = self.savebegin
self.end = self.saveend
except:
pass
DSsave = False
return True
# retry
oldbegin = self.begin
self.begin = int(now) + self.backoff
if abs(self.end - oldbegin) <= 3:
self.end = self.begin
else:
if not self.repeated and self.end < self.begin + 300:
self.end = self.begin + 300
return False
elif not Screens.Standby.inTryQuitMainloop: # not a shutdown messagebox is open
if self.repeated and DSsave:
try:
self.begin = self.savebegin
self.end = self.saveend
except:
pass
if Screens.Standby.inStandby: # in standby
print "[PowerTimer] quitMainloop #2"
quitMainloop(1)
else:
Notifications.AddNotificationWithCallback(self.sendTryQuitMainloopNotification, MessageBox, _("A finished powertimer wants to shutdown your %s %s.\nDo that now?") % (getMachineBrand(), getMachineName()), timeout = 180)
DSsave = False
return True
elif next_state == self.StateEnded:
if self.afterEvent == AFTEREVENT.WAKEUP:
if Screens.Standby.inStandby:
Screens.Standby.inStandby.Power()
elif self.afterEvent == AFTEREVENT.STANDBY:
if not Screens.Standby.inStandby: # not already in standby
Notifications.AddNotificationWithCallback(self.sendStandbyNotification, MessageBox, _("A finished powertimer wants to set your\n%s %s to standby. Do that now?") % (getMachineBrand(), getMachineName()), timeout = 180)
elif self.afterEvent == AFTEREVENT.DEEPSTANDBY:
if debug: print "self.afterEvent == AFTEREVENT.DEEPSTANDBY:"
#check priority
prioPT = [TIMERTYPE.WAKEUP,TIMERTYPE.WAKEUPTOSTANDBY,TIMERTYPE.DEEPSTANDBY]
prioPTae = [AFTEREVENT.WAKEUP,AFTEREVENT.WAKEUPTOSTANDBY,AFTEREVENT.DEEPSTANDBY]
shiftPT,breakPT = self.getPriorityCheck(prioPT,prioPTae)
#a timer with higher priority was shifted - no execution of current timer
if DSsave:
if debug: print "break#1"
breakPT = True
#a timer with lower priority was shifted - shift now current timer and wait for restore the saved time values
if RSsave or RBsave:
if debug: print "shift#1"
breakPT = False
shiftPT = True
#shift or break
runningPT = False
#option: check other powertimer is running (current disabled)
#runningPT = NavigationInstance.instance.PowerTimer.isProcessing(exceptTimer = TIMERTYPE.NONE, endedTimer = self.timerType)
if isRecTimerWakeup or shiftPT or breakPT or runningPT \
or NavigationInstance.instance.RecordTimer.isRecording() or abs(NavigationInstance.instance.RecordTimer.getNextRecordingTime() - now) <= 900 or abs(NavigationInstance.instance.RecordTimer.getNextZapTime() - now) <= 900:
if self.repeated and not aeDSsave:
self.savebegin = self.begin
self.saveend = self.end
aeDSsave = True
if not breakPT: self.do_backoff()
#breakPT
if breakPT:
if self.repeated and aeDSsave:
try:
self.begin = self.savebegin
self.end = self.saveend
except:
pass
aeDSsave = False
return True
# retry
self.end = int(now) + self.backoff
return False
elif not Screens.Standby.inTryQuitMainloop: # not a shutdown messagebox is open
if self.repeated and aeDSsave:
try:
self.begin = self.savebegin
self.end = self.saveend
except:
pass
if Screens.Standby.inStandby: # in standby
print "[PowerTimer] quitMainloop #5"
quitMainloop(1)
else:
Notifications.AddNotificationWithCallback(self.sendTryQuitMainloopNotification, MessageBox, _("A finished powertimer wants to shutdown your %s %s.\nDo that now?") % (getMachineBrand(), getMachineName()), timeout = 180)
aeDSsave = False
NavigationInstance.instance.PowerTimer.saveTimer()
resetTimerWakeup()
return True
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 = PowerTimerEntry(self.begin, new_end, disabled=True, afterEvent = self.afterEvent, timerType = self.timerType)
dummyentry.disabled = self.disabled
timersanitycheck = TimerSanityCheck(NavigationInstance.instance.PowerManager.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)
def sendTryToRebootNotification(self, answer):
if answer:
Notifications.AddNotification(Screens.Standby.TryQuitMainloop, 2)
def sendTryToRestartNotification(self, answer):
if answer:
Notifications.AddNotification(Screens.Standby.TryQuitMainloop, 3)
def keyPressed(self, key, tag):
if self.getAutoSleepWindow():
self.begin = self.end = int(time()) + int(self.autosleepdelay)*60
def getAutoSleepWindow(self):
now = time()
if self.autosleepwindow == 'yes':
if now < self.autosleepbegin and now < self.autosleepend:
self.begin = self.autosleepbegin
self.end = self.autosleepend
elif now > self.autosleepbegin and now > self.autosleepend:
while self.autosleepend < now:
self.autosleepend += 86400
while self.autosleepbegin + 86400 < self.autosleepend:
self.autosleepbegin += 86400
self.begin = self.autosleepbegin
self.end = self.autosleepend
if not (now > self.autosleepbegin - self.prepare_time - 3 and now < self.autosleepend):
eActionMap.getInstance().unbindAction('', self.keyPressed)
self.state = 0
self.timeChanged()
return False
return True
def getPriorityCheck(self,prioPT,prioPTae):
shiftPT = breakPT = False
nextPTlist = NavigationInstance.instance.PowerTimer.getNextPowerManagerTime(getNextTimerTyp = True)
for entry in nextPTlist:
#check timers within next 15 mins will started or ended
if abs(entry[0] - time()) > 900:
continue
#faketime
if entry[1] is None and entry[2] is None and entry[3] is None:
if debug: print "shift#2 - entry is faketime", ctime(entry[0]), entry
shiftPT = True
continue
#is timer in list itself?
if entry[0] == self.begin and entry[1] == self.timerType and entry[2] is None and entry[3] == self.state \
or entry[0] == self.end and entry[1] is None and entry[2] == self.afterEvent and entry[3] == self.state:
if debug: print "entry is itself", ctime(entry[0]), entry
nextPTitself = True
else:
nextPTitself = False
if (entry[1] in prioPT or entry[2] in prioPTae) and not nextPTitself:
if debug: print "break#2 <= 900", ctime(entry[0]), entry
breakPT = True
break
return shiftPT, breakPT
def getNextActivation(self):
if self.state == self.StateEnded or self.state == self.StateFailed:
return self.end
next_state = self.state + 1
return {self.StatePrepared: self.start_prepare,
self.StateRunning: self.begin,
self.StateEnded: self.end }[next_state]
def getNextWakeup(self, getNextStbPowerOn = False):
next_state = self.state + 1
if getNextStbPowerOn:
if next_state == 3 and (self.timerType == TIMERTYPE.WAKEUP or self.timerType == TIMERTYPE.WAKEUPTOSTANDBY or self.afterEvent == AFTEREVENT.WAKEUP or self.afterEvent == AFTEREVENT.WAKEUPTOSTANDBY):
if self.start_prepare > time() and (self.timerType == TIMERTYPE.WAKEUP or self.timerType == TIMERTYPE.WAKEUPTOSTANDBY): #timer start time is later as now - begin time was changed while running timer
return self.start_prepare
elif self.begin > time() and (self.timerType == TIMERTYPE.WAKEUP or self.timerType == TIMERTYPE.WAKEUPTOSTANDBY): #timer start time is later as now - begin time was changed while running timer
return self.begin
if self.afterEvent == AFTEREVENT.WAKEUP or self.afterEvent == AFTEREVENT.WAKEUPTOSTANDBY:
return self.end
next_day = 0
count_day = 0
wd_timer = datetime.fromtimestamp(self.begin).isoweekday()*-1
wd_repeated = bin(128+self.repeated)
for s in range(wd_timer-1,-8,-1):
count_day +=1
if int(wd_repeated[s]):
next_day = s
break
if next_day == 0:
for s in range(-1,wd_timer-1,-1):
count_day +=1
if int(wd_repeated[s]):
next_day = s
break
#return self.begin + 86400 * count_day
return self.start_prepare + 86400 * count_day
elif next_state == 2 and (self.timerType == TIMERTYPE.WAKEUP or self.timerType == TIMERTYPE.WAKEUPTOSTANDBY):
return self.begin
elif next_state == 1 and (self.timerType == TIMERTYPE.WAKEUP or self.timerType == TIMERTYPE.WAKEUPTOSTANDBY):
return self.start_prepare
elif next_state < 3 and (self.afterEvent == AFTEREVENT.WAKEUP or self.afterEvent == AFTEREVENT.WAKEUPTOSTANDBY):
return self.end
else:
return -1
if self.state == self.StateEnded or self.state == self.StateFailed:
return self.end
return {self.StatePrepared: self.start_prepare,
self.StateRunning: self.begin,
self.StateEnded: self.end}[next_state]
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, "time changed, start prepare is now: %s" % ctime(self.start_prepare))
def getNetworkAdress(self):
ret = False
if self.netip == 'yes':
try:
for ip in self.ipadress.split(','):
if not os.system("ping -q -w1 -c1 " + ip):
ret = True
break
except:
print '[PowerTimer] Error reading ip! -> %s' % self.ipadress
return ret
def getNetworkTraffic(self, getInitialValue = False):
now = time()
newbytes = 0
if self.nettraffic == 'yes':
try:
if os.path.exists('/proc/net/dev'):
f = open('/proc/net/dev', 'r')
temp = f.readlines()
f.close()
for lines in temp:
lisp = lines.split()
if lisp[0].endswith(':') and (lisp[0].startswith('eth') or lisp[0].startswith('wlan')):
newbytes += long(lisp[1]) + long(lisp[9])
if getInitialValue:
self.netbytes = newbytes
self.netbytes_time = now
print '[PowerTimer] Receive/Transmit initialBytes=%d, time is %s' % (self.netbytes, ctime(self.netbytes_time))
return
oldbytes = self.netbytes
seconds = int(now-self.netbytes_time)
self.netbytes = newbytes
self.netbytes_time = now
diffbytes = float(newbytes - oldbytes) * 8 / 1024 / seconds #in kbit/s
if diffbytes < 0:
print '[PowerTimer] Receive/Transmit -> overflow interface counter, waiting for next value'
return True
else:
print '[PowerTimer] Receive/Transmit kilobits per second: %0.2f (%0.2f MByte in %d seconds), actualBytes=%d, time is %s' % (diffbytes, diffbytes/8/1024*seconds, seconds, self.netbytes, ctime(self.netbytes_time))
if diffbytes > self.trafficlimit:
return True
except:
print '[PowerTimer] Receive/Transmit Bytes: Error reading values! Use "cat /proc/net/dev" for testing on command line.'
return False
def createTimer(xml):
timertype = str(xml.get("timertype") or "wakeup")
timertype = {
"nothing": TIMERTYPE.NONE,
"wakeup": TIMERTYPE.WAKEUP,
"wakeuptostandby": TIMERTYPE.WAKEUPTOSTANDBY,
"autostandby": TIMERTYPE.AUTOSTANDBY,
"autodeepstandby": TIMERTYPE.AUTODEEPSTANDBY,
"standby": TIMERTYPE.STANDBY,
"deepstandby": TIMERTYPE.DEEPSTANDBY,
"reboot": TIMERTYPE.REBOOT,
"restart": TIMERTYPE.RESTART
}[timertype]
begin = int(xml.get("begin"))
end = int(xml.get("end"))
repeated = xml.get("repeated").encode("utf-8")
disabled = long(xml.get("disabled") or "0")
afterevent = str(xml.get("afterevent") or "nothing")
afterevent = {
"nothing": AFTEREVENT.NONE,
"wakeup": AFTEREVENT.WAKEUP,
"wakeuptostandby": AFTEREVENT.WAKEUPTOSTANDBY,
"standby": AFTEREVENT.STANDBY,
"deepstandby": AFTEREVENT.DEEPSTANDBY
}[afterevent]
autosleepinstandbyonly = str(xml.get("autosleepinstandbyonly") or "no")
autosleepdelay = str(xml.get("autosleepdelay") or "0")
autosleeprepeat = str(xml.get("autosleeprepeat") or "once")
autosleepwindow = str(xml.get("autosleepwindow") or "no")
autosleepbegin = int(xml.get("autosleepbegin") or begin)
autosleepend = int(xml.get("autosleepend") or end)
nettraffic = str(xml.get("nettraffic") or "no")
trafficlimit = int(xml.get("trafficlimit") or 100)
netip = str(xml.get("netip") or "no")
ipadress = str(xml.get("ipadress") or "0.0.0.0")
entry = PowerTimerEntry(begin, end, disabled, afterevent, timertype)
entry.repeated = int(repeated)
entry.autosleepinstandbyonly = autosleepinstandbyonly
entry.autosleepdelay = int(autosleepdelay)
entry.autosleeprepeat = autosleeprepeat
entry.autosleepwindow = autosleepwindow
entry.autosleepbegin = autosleepbegin
entry.autosleepend = autosleepend
entry.nettraffic = nettraffic
entry.trafficlimit = trafficlimit
entry.netip = netip
entry.ipadress = ipadress
for l in xml.findall("log"):
ltime = int(l.get("time"))
code = int(l.get("code"))
msg = l.text.strip().encode("utf-8")
entry.log_entries.append((ltime, code, msg))
return entry
class PowerTimer(timer.Timer):
def __init__(self):
timer.Timer.__init__(self)
self.Filename = Directories.resolveFilename(Directories.SCOPE_CONFIG, "pm_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 = PowerTimerEntry.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 '[PowerManager]: Remove list failed'
# did this timer reached the last state?
if w.state < PowerTimerEntry.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 = PowerTimerEntry.StateWaiting
self.addTimerEntry(w)
else:
# Remove old timers as set in config
self.cleanupDaily(config.recording.keep_timers.value)
insort(self.processed_timers, w)
self.stateChanged(w)
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 (pm_timers.xml) is corrupt and could not be loaded."), type = MessageBox.TYPE_ERROR, timeout = 0, id = "TimerLoadFailed")
print "pm_timers.xml failed to load!"
try:
import os
os.rename(self.Filename, self.Filename + "_old")
except (IOError, OSError):
print "renaming broken timer failed"
return
except IOError:
print "pm_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 pm_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):
savedays = 3600 * 24 * 7 #logs older 7 Days will not saved
list = ['<?xml version="1.0" ?>\n', '<timers>\n']
for timer in self.timer_list + self.processed_timers:
if timer.dontSave:
continue
list.append('<timer')
list.append(' timertype="' + str(stringToXML({
TIMERTYPE.NONE: "nothing",
TIMERTYPE.WAKEUP: "wakeup",
TIMERTYPE.WAKEUPTOSTANDBY: "wakeuptostandby",
TIMERTYPE.AUTOSTANDBY: "autostandby",
TIMERTYPE.AUTODEEPSTANDBY: "autodeepstandby",
TIMERTYPE.STANDBY: "standby",
TIMERTYPE.DEEPSTANDBY: "deepstandby",
TIMERTYPE.REBOOT: "reboot",
TIMERTYPE.RESTART: "restart"
}[timer.timerType])) + '"')
list.append(' begin="' + str(int(timer.begin)) + '"')
list.append(' end="' + str(int(timer.end)) + '"')
list.append(' repeated="' + str(int(timer.repeated)) + '"')
list.append(' afterevent="' + str(stringToXML({
AFTEREVENT.NONE: "nothing",
AFTEREVENT.WAKEUP: "wakeup",
AFTEREVENT.WAKEUPTOSTANDBY: "wakeuptostandby",
AFTEREVENT.STANDBY: "standby",
AFTEREVENT.DEEPSTANDBY: "deepstandby"
}[timer.afterEvent])) + '"')
list.append(' disabled="' + str(int(timer.disabled)) + '"')
list.append(' autosleepinstandbyonly="' + str(timer.autosleepinstandbyonly) + '"')
list.append(' autosleepdelay="' + str(timer.autosleepdelay) + '"')
list.append(' autosleeprepeat="' + str(timer.autosleeprepeat) + '"')
list.append(' autosleepwindow="' + str(timer.autosleepwindow) + '"')
list.append(' autosleepbegin="' + str(int(timer.autosleepbegin)) + '"')
list.append(' autosleepend="' + str(int(timer.autosleepend)) + '"')
list.append(' nettraffic="' + str(timer.nettraffic) + '"')
list.append(' trafficlimit="' + str(int(timer.trafficlimit)) + '"')
list.append(' netip="' + str(timer.netip) + '"')
list.append(' ipadress="' + str(timer.ipadress) + '"')
list.append('>\n')
for ltime, code, msg in timer.log_entries:
if ltime > time() - savedays:
list.append('<log')
list.append(' code="' + str(code) + '"')
list.append(' time="' + str(ltime) + '"')
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 isAutoDeepstandbyEnabled(self):
ret = True
now = time()
for timer in self.timer_list:
if timer.timerType == TIMERTYPE.AUTODEEPSTANDBY:
if timer.begin <= now + 900:
ret = not (timer.getNetworkTraffic() or timer.getNetworkAdress())
elif timer.autosleepwindow == 'yes':
ret = timer.autosleepbegin <= now + 900
if not ret:
break
return ret
def isProcessing(self, exceptTimer = None, endedTimer = None):
isRunning = False
for timer in self.timer_list:
if timer.timerType != TIMERTYPE.AUTOSTANDBY and timer.timerType != TIMERTYPE.AUTODEEPSTANDBY and timer.timerType != exceptTimer and timer.timerType != endedTimer:
if timer.isRunning():
isRunning = True
break
return isRunning
def getNextZapTime(self):
now = time()
for timer in self.timer_list:
if timer.begin < now:
continue
return timer.begin
return -1
def getNextPowerManagerTimeOld(self, getNextStbPowerOn = False):
now = int(time())
nextPTlist = [(-1,None,None,None)]
for timer in self.timer_list:
if timer.timerType != TIMERTYPE.AUTOSTANDBY and timer.timerType != TIMERTYPE.AUTODEEPSTANDBY:
next_act = timer.getNextWakeup(getNextStbPowerOn)
if next_act + 3 < now:
continue
if getNextStbPowerOn and debug:
print "[powertimer] next stb power up", strftime("%a, %Y/%m/%d %H:%M", localtime(next_act))
next_timertype = next_afterevent = None
if nextPTlist[0][0] == -1:
if abs(next_act - timer.begin) <= 30:
next_timertype = timer.timerType
elif abs(next_act - timer.end) <= 30:
next_afterevent = timer.afterEvent
nextPTlist = [(next_act,next_timertype,next_afterevent,timer.state)]
else:
if abs(next_act - timer.begin) <= 30:
next_timertype = timer.timerType
elif abs(next_act - timer.end) <= 30:
next_afterevent = timer.afterEvent
nextPTlist.append((next_act,next_timertype,next_afterevent,timer.state))
nextPTlist.sort()
return nextPTlist
def getNextPowerManagerTime(self, getNextStbPowerOn = False, getNextTimerTyp = False):
#getNextStbPowerOn = True returns tuple -> (timer.begin, set standby)
#getNextTimerTyp = True returns next timer list -> [(timer.begin, timer.timerType, timer.afterEvent, timer.state)]
global DSsave, RSsave, RBsave, aeDSsave
nextrectime = self.getNextPowerManagerTimeOld(getNextStbPowerOn)
faketime = int(time()) + 300
if getNextStbPowerOn:
if config.timeshift.isRecording.value:
if 0 < nextrectime[0][0] < faketime:
return nextrectime[0][0], int(nextrectime[0][1] == 2 or nextrectime[0][2] == 2)
else:
return faketime, 0
else:
return nextrectime[0][0], int(nextrectime[0][1] == 2 or nextrectime[0][2] == 2)
elif getNextTimerTyp:
#check entrys and plausibility of shift state (manual canceled timer has shift/save state not reset)
tt = ae = []
now = time()
if debug: print "+++++++++++++++"
for entry in nextrectime:
if entry[0] < now + 900: tt.append(entry[1])
if entry[0] < now + 900: ae.append(entry[2])
if debug: print ctime(entry[0]), entry
if not TIMERTYPE.RESTART in tt: RSsave = False
if not TIMERTYPE.REBOOT in tt: RBsave = False
if not TIMERTYPE.DEEPSTANDBY in tt: DSsave = False