def EvaluateTrigger(self, event):
        try:
            ruleUID = None
            if (self._proxyHandler is not None):
                ruleUID = self._proxyHandler.getRuleUID()

            getLogger().debug(
                "EvaluateTrigger called for rule '{}' because item '{}' was changed or updated to state '{}' (Event='{}' RuleUID='{}')"
                .format(self.getName(), event.itemName, str(event.getState()),
                        event.event, ruleUID))

            newActiveState = False
            for curTriggerName, curTrigger in self._arrVirtualTriggers.iteritems(
            ):
                newActiveState = newActiveState or curTrigger.isActive()

            if (self.GetRequestedTriggerState() != newActiveState):
                self.SetRequestedTriggerState(newActiveState)

            #Do the update (which checks both Trigger and Conditions)
            self.UpdateState()

        except:
            LogException()
            return
    def __init__(self,
                 name,
                 arrTimeSchedule,
                 arrOutputItems,
                 arrConditions=[],
                 description=''):

        try:
            getLogger().debug((
                "Initialize 'ScheduleRule': Name='{}, TimeSchedule='{}', OutputItems='{}', Conditions='{}'"
            ).format(name, arrTimeSchedule, arrOutputItems, arrConditions))

            #Validate TimeIntervals
            for idx in range(len(arrTimeSchedule)):
                if (isinstance(arrTimeSchedule[idx], TimeInterval) == False):
                    getLogger().error(
                        "'" + name + "' has invalid TimeInterval at index " +
                        str(idx) +
                        ", a valid parameter must be of type 'TimeInterval'")
                    self._configValid = False

            #First add conditions (assume they are easiest to evaluate)
            conditions = arrConditions
            conditions.append(TimeScheduleCondition(arrTimeSchedule))

            #No TriggerItems!
            BaseRule.__init__(self, name, description, [], arrOutputItems,
                              conditions)

        except:
            LogException()
            return
    def __init__(self, name, description, arrTriggerItems, arrOutputItems,
                 arrConditions):
        try:
            self.requestedTriggeredState = False
            self.actualTriggeredState = False

            BaseCore.__init__(self, name)
            self._description = description
            self._configValid = True
            self._mgr = None
            self._proxyHandler = None
            self._conditionMgr = ConditionManager()

            self._arrRequiredService = []
            self._arrVirtualTriggers = {}
            self._arrVirtualSwitches = {}

            self._arrOutputItems = arrOutputItems
            self._arrTriggerItems = arrTriggerItems
            self._conditionMgr.Add(arrConditions)

            getLogger().debug((
                "Created new rule '{}' - Triggers='{}', Outputs='{}', Conditions='{}'"
            ).format(name, self._arrTriggerItems, self._arrOutputItems,
                     arrConditions))
        except:
            LogException()
	def runNow(self):
		try:
			if ((self._ruleUID is not None) and (getRuleManager() is not None)):
				getLogger().debug(("Manual execute rule '{}' UID='{}'").format(self.getConfigName(), self._ruleUID))
				getRuleManager().runNow(self._ruleUID)
		except:
			LogException()
Ejemplo n.º 5
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	def createVirtualOutputAdvanced(self, virtualItemName, physicalDeviceName, actualItem, strSwitchPurpose = ""):
		curVirtualSwitch = None
		try:
			getLogger().debug("Create VirtualSwitch '" + str(physicalDeviceName) + "' for virtualItem='" + virtualItemName +"'")
			
			# 1. Get/Create Physical Switch
			# ######################################################################
			physicalDevice = self.createPhysicalDevice(physicalDeviceName)
			if (physicalDevice == None):
				getLogger().error(("Unable to create PhysicalDevice for '{}'.").format(physicalDeviceName))
				return None
				
			# 1. Create VirutalSwitch
			# ######################################################################
			uniqueName = RuleManager.GenerateVirtualItemUniqueName(virtualItemName, physicalDevice.getName(), strSwitchPurpose)
								
			if (isinstance(actualItem, SwitchOutput)):
				curVirtualSwitch = VirtualSwitch(uniqueName, physicalDevice, actualItem.getActivateDelay(), actualItem.getDeactivateDelay())
				
			elif (isinstance(actualItem, DimmerOutput)):
				curVirtualSwitch = VirtualDimmer(uniqueName, physicalDevice, actualItem.getActiveState(), actualItem.getDeactiveState(), actualItem.getActivateDelay(), actualItem.getDeactivateDelay())

			else:
				curVirtualSwitch = VirtualSwitch(uniqueName, physicalDevice, actualItem.getActivateDelay(), actualItem.getDeactivateDelay())


			if (self.dictVirtualSwitches.has_key(curVirtualSwitch.getId())):
				getLogger().error("VirtualSwitch with name '" + uniqueName + "' already exist")
			else:
				self.dictVirtualSwitches[curVirtualSwitch.getId()] = curVirtualSwitch
				getLogger().info("Added new VirtualSwitch '" + curVirtualSwitch.getName() + "' to dictionary")
				getLogger().debug("New VirtualSwicth dictionary: '" + str(self.dictVirtualSwitches) + "'")
		except:
			LogException()
		return curVirtualSwitch
Ejemplo n.º 6
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    def Add(self, arrConditions):
        try:

            for current in arrConditions:
                isValid = False
                curCondition = current

                if (isinstance(curCondition, basestring)):
                    if (isItemBinaryType(curCondition)):
                        condition = BinaryCriteria.CreateInstance(curCondition)
                        curCondition = condition
                        self.conditions.append(condition)
                        isValid = True

                #TODO:: Do check if it supports conditions?
                elif (isinstance(curCondition, BaseCriteria)):
                    self.conditions.append(curCondition)
                    isValid = True

                if (isValid == False):
                    getLogger().error(
                        "Invalid condition added to ConditionManager. A string must refer to either a 'OnOff' or a 'OpenClosed' Item in openHAB (Condition='"
                        + str(curCondition) + "')")
                    return False

                getLogger().debug(
                    ("Condition '{}' added to ConditionManager.").format(
                        curCondition.getName()))

        except:
            LogException()
Ejemplo n.º 7
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	def Create(cls, itemName):
		try:
			curItem = scope.itemRegistry.getItem(itemName)
			
			getLogger().debug(("DeviceFactory: Item accepts datatypes: '{}'").format(curItem.getAcceptedDataTypes()))

			#
			# BinaryDevice
			# #############################################
			
			#Check if we should create a OnOffDevice
			if (len(list(set(curItem.getAcceptedDataTypes()) & set(OnOffDevice.getAcceptedTypes())))>0):
				return OnOffDevice(itemName)

			#Check if we should create a OpenClosedDevice
			elif (len(list(set(curItem.getAcceptedDataTypes()) & set(OpenClosedDevice.getAcceptedTypes())))>0):
				return OpenClosedDevice(itemName)

			#Check if we should create a NumberDevice
			elif (len(list(set(curItem.getAcceptedDataTypes()) & set(NumberDevice.getAcceptedTypes())))>0):
				return NumberDevice(itemName, moduleName)
			
			#Check if we should create a StringDevice
			elif (len(list(set(curItem.getAcceptedDataTypes()) & set(StringDevice.getAcceptedTypes())))>0):
				return StringDevice(itemName)
			
			else:
				getLogger().error(("ItemType for '{}' not supported in DeviceFactory.Create()").format(itemName))
				
		except:
			LogException()
		
		return None
Ejemplo n.º 8
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	def subscribeItemStateChangedEvent(self, ruleUID, itemName):
		try:
			triggerName = itemName
			getLogger().info("Adding ItemStateChangeTrigger for item '{}', triggerName='{}', ruleUID='{}'".format(itemName, triggerName, ruleUID))
			self._subscribeTriggerEvent(ruleUID, itemName, ItemStateChangeTrigger(itemName, None, None, triggerName))
		except:
			LogException()
Ejemplo n.º 9
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    def _evaluateViritualSwitch(self, curOffset, actSequence):
        activate = False
        getLogger().info((
            "_evaluateViritualSwitch: actSequence='{}' curOffset='{}'").format(
                actSequence, curOffset))

        try:
            for curSequence in actSequence:
                getLogger().info((
                    "Evaluate sequence '{}'  (begin='{}' end='{}', curOffset='{}')"
                ).format(curSequence.getName(), curSequence.getBeginOffset(),
                         curSequence.getEndOffset(), curOffset))

                if ((curSequence.getBeginOffset() <= curOffset)
                        and (curOffset < curSequence.getEndOffset())):
                    getLogger().debug(("  Light '{}' is ACTIVE").format(
                        curSequence.getName()))
                    activate = True
                    break
                else:
                    getLogger().debug(("  Light '{}' is INACTIVE").format(
                        curSequence.getName()))
        except:
            LogException()
        finally:
            getLogger().info(("_evaluateViritualSwitch: DONE! activate='{}'"
                              ).format(activate))

        return activate
Ejemplo n.º 10
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    def isIntervalActive(self):
        try:
            strBeginTime = self.getStartTime()
            strEndTime = self.getEndTime()
            dateToday = getDateToday()
            curTime = DateTime()

            calculatedStartTime = ParseTimeStringToDate(dateToday, self._begin)
            calculatedEndTime = ParseTimeStringToDate(dateToday, self._end)

            #End is before start -> interval is over midnight
            if calculatedEndTime.isBefore(calculatedStartTime):
                if (curTime.isAfter(calculatedStartTime)):
                    calculatedEndTime = calculatedEndTime.plusDays(1)

                elif (curTime.isBefore(calculatedEndTime)):
                    calculatedStartTime = calculatedStartTime.minusDays(1)

                else:
                    calculatedEndTime = calculatedEndTime.plusDays(1)

            getLogger().debug((
                "Processing interval '{}' - '{}' -> '{}' - '{}'  - Current Time '{}', isActive='{}'"
            ).format(self.getStartTime(), self.getEndTime(),
                     calculatedStartTime, calculatedEndTime, curTime,
                     (curTime.isAfter(calculatedStartTime)
                      and curTime.isBefore(calculatedEndTime))))

            return (curTime.isAfter(calculatedStartTime)
                    and curTime.isBefore(calculatedEndTime))

        except:
            LogException()

        return False
Ejemplo n.º 11
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	def getPhysicalDevice(self, deviceName):
		if (self.dictPhysicalDevices.has_key(deviceName)==False):
			getLogger().warn("PhysicalDevice not found for '" + deviceName + "'")
			getLogger().debug(("PhysicalDevice dictionary -> {}").format(self.dictPhysicalDevices))
			return None

		return self.dictPhysicalDevices[deviceName]
	def AddItemCommandTrigger(self, itemName):
		try:
			triggerName = itemName
			getLogger().info("Adding ItemCommandTrigger for item='{}', trigger='{}'".format(itemName, triggerName))
			self._AddTriggerCore(ItemCommandTrigger(itemName, triggerName=triggerName), triggerName)
		except:
			LogException()
Ejemplo n.º 13
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	def fireEvent(self, event):
		try:
			getLogger().debug("fireEvent called for '" + self.getName() + "' event='" + str(event) + "'")
			for key, value in self.callbacks.iteritems():
				getLogger().debug("Calling callback for subscriber='" + str(key) + "'")
				value(event)
		except:
			LogException()
	def AddItemStateUpdateTrigger(self, itemName):
		try:
			triggerName = itemName
			getLogger().info("Adding ItemStateUpdateTrigger for item='{}', trigger='{}'".format(itemName, triggerName))
			newTrigger = ItemStateUpdateTrigger(itemName, triggerName=triggerName)
			self._AddTriggerCore(newTrigger, triggerName)
		except:
			LogException()
Ejemplo n.º 15
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	def StateChangedEvent(self, oldState, newState, eventStr):
		try:
			getLogger().debug("StateChangedEvent called for '" + self.getName() + "' oldState='" + oldState + "', newState='" + newState + "', event='" + eventStr + "'")
			self._state = newState
			self.fireStateChangedEvent(oldState, newState, eventStr)
		except:
			LogException()
			return False		
		return True
Ejemplo n.º 16
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	def StateUpdatedEvent(self, state, eventStr):
		try:
			getLogger().debug("StateUpdatedEvent called for '" + self.getName() + "' state='" + state + "', event='" + eventStr + "'")
			self._state = state
			self.fireStateUpdatedEvent(state, eventStr)
		except:
			LogException()
			return False
		return True
	def setEnabled(self, newState):
		try:
			if ((self._ruleUID is not None) and (getRuleManager() is not None)):	
				getRuleManager().setEnabled(self._ruleUID, newState)
				getLogger().info("Enabled state of rule '{}', was changed to '{}'".format(self._ruleUID, newState))
			else:
				getLogger().error("Not able to alter enabled state of rule '{}'".format(self._ruleUID))
		except:
			LogException()
	def isEnabled(self):
		try:
			if ((self._ruleUID is not None) and (getRuleManager() is not None)):
				return getRuleManager().isEnabled(self._ruleUID)
			else:
				getLogger().error("Not able to query enabled state of rule '{}'".format(self._ruleUID))
		except:
			LogException()

		return False
    def CreateInstance(cls, itemName):
        if (isItemOnOffType(itemName)):
            return OnOffCriteria(itemName)
        elif (isItemOpenClosedType(itemName)):
            return OpenClosedCriteria(itemName)

        getLogger().error(
            "BinaryCriteria could not be created for '%s', either a OnOff or a OpenClosed item is expected. The provided Item is none of those."
            % (itemName))
        return None
Ejemplo n.º 20
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	def onEvent(self, event):
		try:
			getLogger().debug("Calling 'onEvent' for VirtualTrigger name='" + self.getName() + "'")
			newActiveState = False
			#TODO:: Make this generic
			if event.getState() in ('ON', 'OPEN'):
				newActiveState = True
			
			self.updateState(newActiveState)
		except:
			LogException()
    def __init__(self, name, description, arrTriggerItems):

        try:
            getLogger().debug(
                ("Initialize 'MaintenanceRule': Name='{}").format(name))

            #No Condition or Output items!
            BaseRule.__init__(self, name, description, arrTriggerItems, [], [])

        except:
            LogException()
            return
Ejemplo n.º 22
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	def __init__(self, name, physicalDevice, activeState, inactiveState, activateDelay, deactivateDelay):
		try:
			self._delayActivateTimer = None
			self._delayDeactivateTimer = None
			self._activeState = activeState
			self._inactiveState = inactiveState 
			self.delayActivate = float(activateDelay)
			self.delayDeactivate = float(deactivateDelay)
			VirtualItem.__init__(self, name, physicalDevice, None)
			getLogger().info(("Create VirtualSwitch '{}' - states='{}'/'{}', delayActivate='{}', delayDeactivate='{}', type='{}' ").format(name, self._activeState, self._inactiveState, self.delayActivate, self.delayDeactivate, self.__class__.__name__))
		except:
			LogException()
def getConfigValue(cfg, configKey, defaultValue=None, decode=False):
    if (configKey not in cfg) and (defaultValue is not None):
        getLogger().error(
            "Required config key '{}' not found in configuration".format(
                configKey))

    elif configKey in cfg:
        if decode:
            return cfg[configKey].decode('utf8')
        else:
            return cfg[configKey]

    return defaultValue
Ejemplo n.º 24
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	def __init__(self, name):
		try:
			
			PhysicalDevice.__init__(self, name)
			
			curItem = scope.itemRegistry.getItem(self.getName())
			strState = str(curItem.state).upper()
			getLogger().debug(("Initialize BinaryDevice '{}', current state is '{}' (Type='{}')").format(self.getName(), curItem.state, type(curItem.state)))
			if (strState == 'NULL'):
				getLogger().info(("BinaryDevice '{}' is in uninitialized state. Changing state from '{}' to state '{}'").format(self.getName(), curItem.state, self.getStateInactive()))
				events.sendCommand(curItem, self.getStateInactive())
		except:
			LogException()
    def EventHandler_CronJob(self):
        try:
            ruleUID = None
            if (self._proxyHandler is not None):
                ruleUID = self._proxyHandler.getRuleUID()

            getLogger().debug(
                ("Processing EventHandler_CronJob for '{}' (RuleUID='{}')"
                 ).format(self.getName(), ruleUID))
            self.UpdateState()
            self.onCronJob()
        except:
            LogException()
    def runNow(self):
        try:
            ruleUID = None
            if (self._proxyHandler is not None):
                ruleUID = self._proxyHandler.getRuleUID()

            getLogger().debug(
                "calling 'runNow' for '{}' (ruleUID='{}')".format(
                    self.getName(), ruleUID))
            self.getProxyHandler().runNow()
        except:
            LogException()
            return
Ejemplo n.º 27
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    def isActive(self):
        try:

            for idx in range(len(self._schedules)):
                curInterval = self._schedules[idx]
                if (curInterval.isIntervalActive()):
                    getLogger().debug(
                        "TimeScheduleCondition 'isActive()' evaluates 'True'")
                    return True
        except:
            LogException()
        getLogger().debug(
            "TimeScheduleCondition 'isActive()' evaluates 'False'")
        return False
Ejemplo n.º 28
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	def createPhysicalDevice(self, deviceName):
		try:
			# 1. Check that items exist in openHAB
			# ######################################################################
				
		
			# 2. Check if it already exists in the dictionary, else create
			# ######################################################################
			if (self.dictPhysicalDevices.has_key(deviceName)==False):

				getLogger().info("Creating new PhysicalDevice '" + deviceName + "'")
				device = DeviceFactory.Create(deviceName)
				
				if (device is None):
					getLogger().error(("New PhysicalDevice '{}' could not be created!!!!").format(deviceName))
					return None
					
				self.dictPhysicalDevices[deviceName] = device
								
				getLogger().debug("New PhysicalDevice added to dictionary: '" + str(self.dictPhysicalDevices) + "'")
				getLogger().debug("Added new PhysicalDevice '" + deviceName + "' to triggers")
				

		except:
			LogException()
			return None
			
		# 3. return PhysicalDevice
		# ######################################################################
		return self.dictPhysicalDevices[deviceName]
    def createTriggerRule(self, cfgRule):
        cfgTriggers = cfgRule[KEY_TRIGGERS]
        cfgConditions = cfgRule[KEY_CONDITIONS]
        cfgOutputs = cfgRule[KEY_OUTPUTS]
        ruleName = getConfigValue(cfgRule, KEY_NAME)

        arrTriggers = self.processTriggers(ruleName, cfgTriggers)
        arrConditions = self.processConditions(ruleName, cfgConditions)
        arrOutputs = self.processOutputs(ruleName, cfgOutputs)
        getLogger().debug(
            "Loaded config for '{}' Triggers='{}', Conditions='{}', Outputs='{}'"
            .format(ruleName, arrTriggers, arrConditions, arrOutputs))
        return StateTriggerRule(ruleName, arrTriggers, arrOutputs,
                                arrConditions)
	def __init__(self, configName, _name, _description, manager):
		try:
			self._id = str(uuid.uuid4())
			self._ruleUID = None
			self._ruleObj = None
			self.name = _name
			self.description = _description
			self._manager = manager

			getLogger().debug("Creating new rule '{}'".format(configName))
			self.triggers = []
			self._configName = configName
		except:
			LogException()