MSA-2027: Removed setpoint value tile since the tile does not support text on multiple lines anymore

Merge pull request #2075 from lymanepp/master
MSA-2076: Fix debug message
2026-03-18 13:20:53 +00:00 · 2017-06-08 08:01:41 -07:00 · 2017-06-07 15:32:43 -07:00 · 2017-06-07 12:22:33 -05:00 · 2017-06-06 11:55:16 -07:00 · 2017-06-06 11:50:59 -07:00
22 changed files with 1785 additions and 112 deletions
--- a/devicetypes/erocm123/inovelli-2-channel-smart-plug.src/inovelli-2-channel-smart-plug.groovy
+++ b/devicetypes/erocm123/inovelli-2-channel-smart-plug.src/inovelli-2-channel-smart-plug.groovy
@@ -0,0 +1,268 @@
 /**
 *
 *  Inovelli 2-Channel Smart Plug
 *
 *  github: Eric Maycock (erocm123)
 *  Date: 2017-04-27
 *  Copyright Eric Maycock
 *
 *  Includes all configuration parameters and ease of advanced configuration.
 *
 *  Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except
 *  in compliance with the License. You may obtain a copy of the License at:
 *
 *      http://www.apache.org/licenses/LICENSE-2.0
 *
 *  Unless required by applicable law or agreed to in writing, software distributed under the License is distributed
 *  on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License
 *  for the specific language governing permissions and limitations under the License.
 *
 */
 metadata {
 	definition(name: "Inovelli 2-Channel Smart Plug", namespace: "erocm123", author: "Eric Maycock") {
 		capability "Actuator"
 		capability "Sensor"
 		capability "Switch"
 		capability "Polling"
 		capability "Refresh"
 		capability "Health Check"
 		fingerprint manufacturer: "015D", prod: "0221", model: "251C", deviceJoinName: "Show Home 2-Channel Smart Plug"
 		fingerprint manufacturer: "0312", prod: "B221", model: "251C", deviceJoinName: "Inovelli 2-Channel Smart Plug"
 	}
 	simulator {}
 	preferences {}
 	tiles {
 		multiAttributeTile(name: "switch", type: "lighting", width: 6, height: 4, canChangeIcon: true) {
 			tileAttribute("device.switch", key: "PRIMARY_CONTROL") {
 				attributeState "off", label: '${name}', action: "switch.on", icon: "st.switches.switch.off", backgroundColor: "#ffffff", nextState: "turningOn"
 				attributeState "on", label: '${name}', action: "switch.off", icon: "st.switches.switch.on", backgroundColor: "#00a0dc", nextState: "turningOff"
 				attributeState "turningOff", label: '${name}', action: "switch.on", icon: "st.switches.switch.off", backgroundColor: "#ffffff", nextState: "turningOn"
 				attributeState "turningOn", label: '${name}', action: "switch.off", icon: "st.switches.switch.on", backgroundColor: "#00a0dc", nextState: "turningOff"
 			}
 		}
 		standardTile("refresh", "device.switch", inactiveLabel: false, decoration: "flat", width: 2, height: 2) {
 			state "default", label: "", action: "refresh.refresh", icon: "st.secondary.refresh"
 		}
 		main(["switch"])
 		details(["switch",
 				 childDeviceTiles("all"), "refresh"
 		])
 	}
 }
 def parse(String description) {
 	def result = []
 	def cmd = zwave.parse(description)
 	if (cmd) {
 		result += zwaveEvent(cmd)
 		logging("Parsed ${cmd} to ${result.inspect()}", 1)
 	} else {
 		logging("Non-parsed event: ${description}", 2)
 	}
 	return result
 }
 def zwaveEvent(physicalgraph.zwave.commands.basicv1.BasicReport cmd, ep = null) {
 	logging("BasicReport ${cmd} - ep ${ep}", 2)
 	if (ep) {
 		def event
 		childDevices.each {
 			childDevice ->
 				if (childDevice.deviceNetworkId == "$device.deviceNetworkId-ep$ep") {
 					childDevice.sendEvent(name: "switch", value: cmd.value ? "on" : "off")
 				}
 		}
 		if (cmd.value) {
 			event = [createEvent([name: "switch", value: "on"])]
 		} else {
 			def allOff = true
 			childDevices.each {
 				n ->
 					if (n.currentState("switch").value != "off") allOff = false
 			}
 			if (allOff) {
 				event = [createEvent([name: "switch", value: "off"])]
 			} else {
 				event = [createEvent([name: "switch", value: "on"])]
 			}
 		}
 		return event
 	}
 }
 def zwaveEvent(physicalgraph.zwave.commands.basicv1.BasicSet cmd) {
 	logging("BasicSet ${cmd}", 2)
 	def result = createEvent(name: "switch", value: cmd.value ? "on" : "off", type: "digital")
 	def cmds = []
 	cmds << encap(zwave.switchBinaryV1.switchBinaryGet(), 1)
 	cmds << encap(zwave.switchBinaryV1.switchBinaryGet(), 2)
 	return [result, response(commands(cmds))] // returns the result of reponse()
 }
 def zwaveEvent(physicalgraph.zwave.commands.switchbinaryv1.SwitchBinaryReport cmd, ep = null) {
 	logging("SwitchBinaryReport ${cmd} - ep ${ep}", 2)
 	if (ep) {
 		def event
 		def childDevice = childDevices.find {
 			it.deviceNetworkId == "$device.deviceNetworkId-ep$ep"
 		}
 		if (childDevice) childDevice.sendEvent(name: "switch", value: cmd.value ? "on" : "off")
 		if (cmd.value) {
 			event = [createEvent([name: "switch", value: "on"])]
 		} else {
 			def allOff = true
 			childDevices.each {
 				n->
 					if (n.currentState("switch").value != "off") allOff = false
 			}
 			if (allOff) {
 				event = [createEvent([name: "switch", value: "off"])]
 			} else {
 				event = [createEvent([name: "switch", value: "on"])]
 			}
 		}
 		return event
 	} else {
 		def result = createEvent(name: "switch", value: cmd.value ? "on" : "off", type: "digital")
 		def cmds = []
 		cmds << encap(zwave.switchBinaryV1.switchBinaryGet(), 1)
 		cmds << encap(zwave.switchBinaryV1.switchBinaryGet(), 2)
 		return [result, response(commands(cmds))] // returns the result of reponse()
 	}
 }
 def zwaveEvent(physicalgraph.zwave.commands.multichannelv3.MultiChannelCmdEncap cmd) {
 	logging("MultiChannelCmdEncap ${cmd}", 2)
 	def encapsulatedCommand = cmd.encapsulatedCommand([0x32: 3, 0x25: 1, 0x20: 1])
 	if (encapsulatedCommand) {
 		zwaveEvent(encapsulatedCommand, cmd.sourceEndPoint as Integer)
 	}
 }
 def zwaveEvent(physicalgraph.zwave.commands.manufacturerspecificv2.ManufacturerSpecificReport cmd) {
 	logging("ManufacturerSpecificReport ${cmd}", 2)
 	def msr = String.format("%04X-%04X-%04X", cmd.manufacturerId, cmd.productTypeId, cmd.productId)
 	logging("msr: $msr", 2)
 	updateDataValue("MSR", msr)
 }
 def zwaveEvent(physicalgraph.zwave.Command cmd) {
 	// This will capture any commands not handled by other instances of zwaveEvent
 	// and is recommended for development so you can see every command the device sends
 	logging("Unhandled Event: ${cmd}", 2)
 }
 def on() {
 	logging("on()", 1)
 	commands([
 			zwave.switchAllV1.switchAllOn(),
 			encap(zwave.switchBinaryV1.switchBinaryGet(), 1),
 			encap(zwave.switchBinaryV1.switchBinaryGet(), 2)
 	])
 }
 def off() {
 	logging("off()", 1)
 	commands([
 			zwave.switchAllV1.switchAllOff(),
 			encap(zwave.switchBinaryV1.switchBinaryGet(), 1),
 			encap(zwave.switchBinaryV1.switchBinaryGet(), 2)
 	])
 }
 void childOn(String dni) {
 	logging("childOn($dni)", 1)
 	def cmds = []
 	cmds << new physicalgraph.device.HubAction(command(encap(zwave.basicV1.basicSet(value: 0xFF), channelNumber(dni))))
 	cmds << new physicalgraph.device.HubAction(command(encap(zwave.switchBinaryV1.switchBinaryGet(), channelNumber(dni))))
 	sendHubCommand(cmds, 1000)
 }
 void childOff(String dni) {
 	logging("childOff($dni)", 1)
 	def cmds = []
 	cmds << new physicalgraph.device.HubAction(command(encap(zwave.basicV1.basicSet(value: 0x00), channelNumber(dni))))
 	cmds << new physicalgraph.device.HubAction(command(encap(zwave.switchBinaryV1.switchBinaryGet(), channelNumber(dni))))
 	sendHubCommand(cmds, 1000)
 }
 void childRefresh(String dni) {
 	logging("childRefresh($dni)", 1)
 	def cmds = []
 	cmds << new physicalgraph.device.HubAction(command(encap(zwave.switchBinaryV1.switchBinaryGet(), channelNumber(dni))))
 	sendHubCommand(cmds, 1000)
 }
 def poll() {
 	logging("poll()", 1)
 	commands([
 			encap(zwave.switchBinaryV1.switchBinaryGet(), 1),
 			encap(zwave.switchBinaryV1.switchBinaryGet(), 2),
 	])
 }
 def refresh() {
 	logging("refresh()", 1)
 	commands([
 			encap(zwave.switchBinaryV1.switchBinaryGet(), 1),
 			encap(zwave.switchBinaryV1.switchBinaryGet(), 2),
 	])
 }
 def ping() {
 	logging("ping()", 1)
 	refresh()
 }
 def installed() {
 	logging("installed()", 1)
 	command(zwave.manufacturerSpecificV1.manufacturerSpecificGet())
 	createChildDevices()
 }
 def updated() {
 	logging("updated()", 1)
 	if (!childDevices) {
 		createChildDevices()
 	} else if (device.label != state.oldLabel) {
 		childDevices.each {
 			if (it.label == "${state.oldLabel} (CH${channelNumber(it.deviceNetworkId)})") {
 				def newLabel = "${device.displayName} (CH${channelNumber(it.deviceNetworkId)})"
 				it.setLabel(newLabel)
 			}
 		}
 		state.oldLabel = device.label
 	}
 	sendEvent(name: "checkInterval", value: 2 * 15 * 60 + 2 * 60, displayed: false, data: [protocol: "zwave", hubHardwareId: device.hub.hardwareID])
 	sendEvent(name: "needUpdate", value: device.currentValue("needUpdate"), displayed: false, isStateChange: true)
 }
 def zwaveEvent(physicalgraph.zwave.commands.configurationv2.ConfigurationReport cmd) {
 	logging("${device.displayName} parameter '${cmd.parameterNumber}' with a byte size of '${cmd.size}' is set to '${cmd2Integer(cmd.configurationValue)}'", 2)
 }
 private encap(cmd, endpoint) {
 	if (endpoint) {
 		zwave.multiChannelV3.multiChannelCmdEncap(destinationEndPoint: endpoint).encapsulate(cmd)
 	} else {
 		cmd
 	}
 }
 private command(physicalgraph.zwave.Command cmd) {
 	if (state.sec) {
 		zwave.securityV1.securityMessageEncapsulation().encapsulate(cmd).format()
 	} else {
 		cmd.format()
 	}
 }
 private commands(commands, delay = 1000) {
 	delayBetween(commands.collect {
 		command(it)
 	}, delay)
 }
 private channelNumber(String dni) {
 	dni.split("-ep")[-1] as Integer
 }
 private void createChildDevices() {
 	state.oldLabel = device.label
 	for (i in 1..2) {
 		addChildDevice("Switch Child Device", "${device.deviceNetworkId}-ep${i}", null, [completedSetup: true, label: "${device.displayName} (CH${i})",
 																						 isComponent: true, componentName: "ep$i", componentLabel: "Channel $i"
 		])
 	}
 }
 private def logging(message, level) {
 	if (logLevel != "0") {
 		switch (logLevel) {
 			case "1":
 				if (level > 1) log.debug "$message"
 				break
 			case "99":
 				log.debug "$message"
 				break
 		}
 	}
 }
--- a/devicetypes/erocm123/switch-child-device.src/switch-child-device.groovy
+++ b/devicetypes/erocm123/switch-child-device.src/switch-child-device.groovy
@@ -0,0 +1,49 @@
 /**
 *  Switch Child Device
 *
 *  Copyright 2017 Eric Maycock
 *
 *  Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except
 *  in compliance with the License. You may obtain a copy of the License at:
 *
 *      http://www.apache.org/licenses/LICENSE-2.0
 *
 *  Unless required by applicable law or agreed to in writing, software distributed under the License is distributed
 *  on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License
 *  for the specific language governing permissions and limitations under the License.
 *
 */
 metadata {
 	definition (name: "Switch Child Device", namespace: "erocm123", author: "Eric Maycock") {
 		capability "Switch"
 		capability "Actuator"
 		capability "Sensor"
 		capability "Refresh"
 	}
 	tiles {
 		multiAttributeTile(name:"switch", type: "lighting", width: 3, height: 4, canChangeIcon: true){
 			tileAttribute ("device.switch", key: "PRIMARY_CONTROL") {
 				attributeState "off", label: '${name}', action: "switch.on", icon: "st.switches.switch.off", backgroundColor: "#ffffff", nextState:"turningOn"
 				attributeState "on", label: '${name}', action: "switch.off", icon: "st.switches.switch.on", backgroundColor: "#00A0DC", nextState:"turningOff"
 				attributeState "turningOn", label:'${name}', action:"switch.off", icon:"st.switches.switch.on", backgroundColor:"#00A0DC", nextState:"turningOff"
 				attributeState "turningOff", label:'${name}', action:"switch.on", icon:"st.switches.switch.off", backgroundColor:"#ffffff", nextState:"turningOn"
 			}
 		}
 		standardTile("refresh", "device.switch", inactiveLabel: false, decoration: "flat", width: 2, height: 2) {
 			state "default", label:"", action:"refresh.refresh", icon:"st.secondary.refresh"
 		}
 	}
 }
 void on() {
 	parent.childOn(device.deviceNetworkId)
 }
 void off() {
 	parent.childOff(device.deviceNetworkId)
 }
 void refresh() {
 	parent.childRefresh(device.deviceNetworkId)
 }
--- a/devicetypes/smartthings/aeon-multisensor-gen5.src/aeon-multisensor-gen5.groovy
+++ b/devicetypes/smartthings/aeon-multisensor-gen5.src/aeon-multisensor-gen5.groovy
@@ -22,8 +22,6 @@ metadata {
 		capability "Battery"
 		capability "Health Check"
 		command "configureAfterSecure"
 		fingerprint deviceId: "0x0701", inClusters: "0x5E,0x86,0x72,0x59,0x85,0x73,0x71,0x84,0x80,0x30,0x31,0x70,0x98,0x7A", outClusters:"0x5A"
 		fingerprint mfr:"0086", prod:"0102", model:"004A", deviceJoinName: "Aeon Labs MultiSensor (Gen 5)"
 	}
@@ -91,12 +89,12 @@ metadata {
 		valueTile("battery", "device.battery", inactiveLabel: false, decoration: "flat", width: 2, height: 2) {
 			state "battery", label:'${currentValue}% battery', unit:""
 		}
-        standardTile("configureAfterSecure", "device.configure", inactiveLabel: false, decoration: "flat", width: 2, height: 2) {
+		standardTile("configure", "device.configure", inactiveLabel: false, decoration: "flat", width: 2, height: 2) {
-			state "configure", label:'', action:"configureAfterSecure", icon:"st.secondary.configure"
+			state "configure", label:'', action:"configure", icon:"st.secondary.configure"
 		}
 		main(["motion", "temperature", "humidity", "illuminance"])
-		details(["motion", "temperature", "humidity", "illuminance", "battery", "configureAfterSecure"])
+		details(["motion", "temperature", "humidity", "illuminance", "battery", "configure"])
 	}
 }
@@ -131,8 +129,8 @@ def zwaveEvent(physicalgraph.zwave.commands.wakeupv1.WakeUpNotification cmd)
 	if (!isConfigured()) {
 		// we're still in the process of configuring a newly joined device
-		log.debug("not sending wakeUpNoMoreInformation yet")
+		log.debug("not sending wakeUpNoMoreInformation yet: late configure")
-        result += response(configureAfterSecure())
+		result += response(configure())
 	} else {
 		result += response(zwave.wakeUpV1.wakeUpNoMoreInformation())
 	}
@@ -150,11 +148,6 @@ def zwaveEvent(physicalgraph.zwave.commands.securityv1.SecurityMessageEncapsulat
 	}
 }
 def zwaveEvent(physicalgraph.zwave.commands.securityv1.SecurityCommandsSupportedReport cmd) {
    // log.debug "Received SecurityCommandsSupportedReport"
 	response(configureAfterSecure())
 }
 def zwaveEvent(physicalgraph.zwave.commands.batteryv1.BatteryReport cmd) {
 	def map = [ name: "battery", unit: "%" ]
 	if (cmd.batteryLevel == 0xFF) {
@@ -226,36 +219,6 @@ def zwaveEvent(physicalgraph.zwave.Command cmd) {
 	createEvent(descriptionText: cmd.toString(), isStateChange: false)
 }
 def configureAfterSecure() {
    // log.debug "configureAfterSecure()"
    def request = [
 		// send temperature, humidity, and illuminance every 8 minutes
 		zwave.configurationV1.configurationSet(parameterNumber: 101, size: 4, scaledConfigurationValue: 128|64|32),
 		zwave.configurationV1.configurationSet(parameterNumber: 111, size: 4, scaledConfigurationValue: 8*60),
 		// send battery every 20 hours
 		zwave.configurationV1.configurationSet(parameterNumber: 102, size: 4, scaledConfigurationValue: 1),
 		zwave.configurationV1.configurationSet(parameterNumber: 112, size: 4, scaledConfigurationValue: 20*60*60),
 		// send no-motion report 60 seconds after motion stops
 		zwave.configurationV1.configurationSet(parameterNumber: 3, size: 2, scaledConfigurationValue: 60),
 		// send binary sensor report instead of basic set for motion
 		zwave.configurationV1.configurationSet(parameterNumber: 5, size: 1, scaledConfigurationValue: 2),
 		// disable notification-style motion events
 		zwave.notificationV3.notificationSet(notificationType: 7, notificationStatus: 0),
 		zwave.batteryV1.batteryGet(),
 		zwave.sensorBinaryV2.sensorBinaryGet(sensorType:0x0C)
    ]
    setConfigured()
    secureSequence(request) + ["delay 20000", zwave.wakeUpV1.wakeUpNoMoreInformation().format()]
 }
 /**
 * PING is used by Device-Watch in attempt to reach the Device
 * */
@@ -265,7 +228,36 @@ def ping() {
 def configure() {
 	// log.debug "configure()"
-    //["delay 30000"] + secure(zwave.securityV1.securityCommandsSupportedGet())
+	def request = []
 	// send temperature, humidity, and illuminance every 8 minutes
 	request << zwave.configurationV1.configurationSet(parameterNumber: 101, size: 4, scaledConfigurationValue: 128|64|32)
 	request << zwave.configurationV1.configurationSet(parameterNumber: 111, size: 4, scaledConfigurationValue: 8*60)
 	// send battery every 20 hours
 	request << zwave.configurationV1.configurationSet(parameterNumber: 102, size: 4, scaledConfigurationValue: 1)
 	request << zwave.configurationV1.configurationSet(parameterNumber: 112, size: 4, scaledConfigurationValue: 20*60*60)
 	// send no-motion report 60 seconds after motion stops
 	request << zwave.configurationV1.configurationSet(parameterNumber: 3, size: 2, scaledConfigurationValue: 60)
 	// send binary sensor report instead of basic set for motion
 	request << zwave.configurationV1.configurationSet(parameterNumber: 5, size: 1, scaledConfigurationValue: 2)
 	// Turn on the Multisensor Gen5 PIR sensor
 	request << zwave.configurationV1.configurationSet(parameterNumber: 4, size: 1, scaledConfigurationValue: 1)
 	// disable notification-style motion events
 	request << zwave.notificationV3.notificationSet(notificationType: 7, notificationStatus: 0)
 	request << zwave.batteryV1.batteryGet()
 	request << zwave.sensorBinaryV2.sensorBinaryGet(sensorType: 0x0C) //motion
 	request << zwave.sensorMultilevelV5.sensorMultilevelGet(sensorType: 0x01) //temperature
 	request << zwave.sensorMultilevelV5.sensorMultilevelGet(sensorType: 0x03) //illuminance
 	request << zwave.sensorMultilevelV5.sensorMultilevelGet(sensorType: 0x05) //humidity
 	setConfigured()
 	secureSequence(request) + ["delay 20000", zwave.wakeUpV1.wakeUpNoMoreInformation().format()]
 }
 private setConfigured() {
--- a/devicetypes/smartthings/aeon-multisensor.src/.st-ignore
+++ b/devicetypes/smartthings/aeon-multisensor.src/.st-ignore
@@ -0,0 +1,2 @@
 .st-ignore
 README.md
--- a/devicetypes/smartthings/aeon-multisensor.src/README.md
+++ b/devicetypes/smartthings/aeon-multisensor.src/README.md
@@ -0,0 +1,48 @@
 # Aeon Multisensor
 Cloud Execution
 Works with: 
 * [Aeotec MultiSensor (DSB05-ZWUS)](https://www.smartthings.com/products/aeotec-multisensor-5)
 ## Table of contents
 * [Capabilities](#capabilities)
 * [Health](#device-health)
 * [Battery](#battery-specification)
 * [Troubleshooting](#troubleshooting)
 ## Capabilities
 * **Motion Sensor** - can detect motion
 * **Temperature Measurement** - defines device measures current temperature
 * **Relative Humidity Measurement** - allow reading the relative humidity from devices that support it
 * **Illuminance Measurement** - gives the illuminance reading from devices that support it
 * **Configuration** - _configure()_ command called when device is installed or device preferences updated
 * **Sensor** - detects sensor events
 * **Battery** - defines device uses a battery
 * **Health Check** - indicates ability to get device health notifications
 ## Device Health
 Aeon Labs MultiSensor is polled by the hub.
 As of hubCore version 0.14.38 the hub sends up reports every 15 minutes regardless of whether the state changed.
 Device-Watch allows 2 check-in misses from device plus some lag time. So Check-in interval = (2*15 + 2)mins = 32 mins.
 Not to mention after going OFFLINE when the device is plugged back in, it might take a considerable amount of time for
 the device to appear as ONLINE again. This is because if this listening device does not respond to two poll requests in a row,
 it is not polled for 5 minutes by the hub. This can delay up the process of being marked ONLINE by quite some time.
 * __32min__ checkInterval
 ## Battery Specification
 Four AAA batteries are required.
 ## Troubleshooting
 If the device doesn't pair when trying from the SmartThings mobile app, it is possible that the device is out of range.
 Pairing needs to be tried again by placing the device closer to the hub.
 Instructions related to pairing, resetting and removing the device from SmartThings can be found in the following link:
 * [Aeon MultiSensor Troubleshooting Tips](https://support.smartthings.com/hc/en-us/articles/206157226-How-to-connect-Aeon-Labs-MultiSensors)
--- a/devicetypes/smartthings/aeon-multisensor.src/aeon-multisensor.groovy
+++ b/devicetypes/smartthings/aeon-multisensor.src/aeon-multisensor.groovy
@@ -20,6 +20,7 @@ metadata {
 		capability "Illuminance Measurement"
 		capability "Sensor"
 		capability "Battery"
 		capability "Health Check"
 		fingerprint deviceId: "0x2001", inClusters: "0x30,0x31,0x80,0x84,0x70,0x85,0x72,0x86"
 	}
@@ -93,6 +94,16 @@ metadata {
 	}
 }
 def installed(){
 // Device-Watch simply pings if no device events received for 32min(checkInterval)
 	sendEvent(name: "checkInterval", value: 2 * 15 * 60 + 2 * 60, displayed: false, data: [protocol: "zwave", hubHardwareId: device.hub.hardwareID])
 }
 def updated(){
 // Device-Watch simply pings if no device events received for 32min(checkInterval)
 	sendEvent(name: "checkInterval", value: 2 * 15 * 60 + 2 * 60, displayed: false, data: [protocol: "zwave", hubHardwareId: device.hub.hardwareID])
 }
 // Parse incoming device messages to generate events
 def parse(String description)
 {
@@ -179,6 +190,13 @@ def zwaveEvent(physicalgraph.zwave.Command cmd) {
 	[:]
 }
 /**
 * PING is used by Device-Watch in attempt to reach the Device
 * */
 def ping() {
 	secure(zwave.batteryV1.batteryGet())
 }
 def configure() {
 	delayBetween([
 		// send binary sensor report instead of basic set for motion
--- a/devicetypes/smartthings/aeon-siren.src/aeon-siren.groovy
+++ b/devicetypes/smartthings/aeon-siren.src/aeon-siren.groovy
@@ -61,6 +61,8 @@ metadata {
 def installed() {
 // Device-Watch simply pings if no device events received for 32min(checkInterval)
 	sendEvent(name: "checkInterval", value: 2 * 15 * 60 + 2 * 60, displayed: false, data: [protocol: "zwave", hubHardwareId: device.hub.hardwareID])
 	response(secure(zwave.basicV1.basicGet()))
 }
 def updated() {
@@ -163,4 +165,4 @@ private secure(physicalgraph.zwave.Command cmd) {
 * */
 def ping() {
 	secure(zwave.basicV1.basicGet())
-}
+}
--- a/devicetypes/smartthings/dimmer-switch.src/dimmer-switch.groovy
+++ b/devicetypes/smartthings/dimmer-switch.src/dimmer-switch.groovy
@@ -108,11 +108,20 @@ def updated(){
    }
 }
 def getCommandClassVersions() {
 	[
 		0x20: 1,  // Basic
 		0x26: 1,  // SwitchMultilevel
 		0x56: 1,  // Crc16Encap
 		0x70: 1,  // Configuration
 	]
 }
 def parse(String description) {
 	def result = null
 	if (description != "updated") {
 		log.debug "parse() >> zwave.parse($description)"
-		def cmd = zwave.parse(description, [0x20: 1, 0x26: 1, 0x70: 1])
+		def cmd = zwave.parse(description, commandClassVersions)
 		if (cmd) {
 			result = zwaveEvent(cmd)
 		}
@@ -179,6 +188,16 @@ def zwaveEvent(physicalgraph.zwave.commands.switchmultilevelv1.SwitchMultilevelS
 	[createEvent(name:"switch", value:"on"), response(zwave.switchMultilevelV1.switchMultilevelGet().format())]
 }
 def zwaveEvent(physicalgraph.zwave.commands.crc16encapv1.Crc16Encap cmd) {
 	def versions = commandClassVersions
 	def version = versions[cmd.commandClass as Integer]
 	def ccObj = version ? zwave.commandClass(cmd.commandClass, version) : zwave.commandClass(cmd.commandClass)
 	def encapsulatedCommand = ccObj?.command(cmd.command)?.parse(cmd.data)
 	if (encapsulatedCommand) {
 		zwaveEvent(encapsulatedCommand)
 	}
 }
 def zwaveEvent(physicalgraph.zwave.Command cmd) {
 	// Handles all Z-Wave commands we aren't interested in
 	[:]
--- a/devicetypes/smartthings/smartalert-siren.src/smartalert-siren.groovy
+++ b/devicetypes/smartthings/smartalert-siren.src/smartalert-siren.groovy
@@ -16,7 +16,7 @@
 *  Date: 2013-03-05
 */
 metadata {
-	definition (name: "SmartAlert Siren", namespace: "smartthings", author: "SmartThings", ocfDeviceType: "x.com.st.smokedetector") {
+	definition (name: "SmartAlert Siren", namespace: "smartthings", author: "SmartThings", ocfDeviceType: "x.com.st.d.sensor.smoke") {
 		capability "Actuator"
 		capability "Switch"
 		capability "Sensor"
--- a/devicetypes/smartthings/testing/simulated-presence-sensor.src/simulated-presence-sensor.groovy
+++ b/devicetypes/smartthings/testing/simulated-presence-sensor.src/simulated-presence-sensor.groovy
@@ -49,6 +49,6 @@ def arrived() {
 def departed() {
-	log.trace "Executing 'arrived'"
+	log.trace "Executing 'departed'"
 	sendEvent(name: "presence", value: "not present")
 }
--- a/devicetypes/smartthings/zigbee-rgbw-bulb.src/zigbee-rgbw-bulb.groovy
+++ b/devicetypes/smartthings/zigbee-rgbw-bulb.src/zigbee-rgbw-bulb.groovy
@@ -103,12 +103,12 @@ def parse(String description) {
        if (zigbeeMap?.clusterInt == COLOR_CONTROL_CLUSTER) {
            if(zigbeeMap.attrInt == ATTRIBUTE_HUE){  //Hue Attribute
-                def hueValue = Math.round(zigbee.convertHexToInt(zigbeeMap.value) / 0xfe * 100)
+                state.hueValue = Math.round(zigbee.convertHexToInt(zigbeeMap.value) / 0xfe * 100)
-                sendEvent(name: "hue", value: hueValue, descriptionText: "Color has changed")
+                runIn(5, updateColor, [overwrite: true])
            }
            else if(zigbeeMap.attrInt == ATTRIBUTE_SATURATION){ //Saturation Attribute
-                def saturationValue = Math.round(zigbee.convertHexToInt(zigbeeMap.value) / 0xfe * 100)
+                state.saturationValue = Math.round(zigbee.convertHexToInt(zigbeeMap.value) / 0xfe * 100)
-                sendEvent(name: "saturation", value: saturationValue, descriptionText: "Color has changed", displayed: false)
+                runIn(5, updateColor, [overwrite: true])
            }
        }
        else if (cluster && cluster.clusterId == 0x0006 && cluster.command == 0x07) {
@@ -127,6 +127,11 @@ def parse(String description) {
    }
 }
 def updateColor() {
 	sendEvent(name: "hue", value: state.hueValue, descriptionText: "Color has changed")
 	sendEvent(name: "saturation", value: state.saturationValue, descriptionText: "Color has changed", displayed: false)
 }
 def on() {
    zigbee.on()
 }
@@ -204,9 +209,9 @@ def setColor(value){
    log.trace "setColor($value)"
    zigbee.on() +
    zigbee.command(COLOR_CONTROL_CLUSTER, MOVE_TO_HUE_AND_SATURATION_COMMAND,
-        getScaledHue(value.hue), getScaledSaturation(value.saturation), "0000") +
+    getScaledHue(value.hue), getScaledSaturation(value.saturation), "0000") +
-    zigbee.readAttribute(COLOR_CONTROL_CLUSTER, ATTRIBUTE_HUE) +
+    zigbee.readAttribute(COLOR_CONTROL_CLUSTER, ATTRIBUTE_SATURATION) +
-    zigbee.readAttribute(COLOR_CONTROL_CLUSTER, ATTRIBUTE_SATURATION)
+    zigbee.readAttribute(COLOR_CONTROL_CLUSTER, ATTRIBUTE_HUE)
 }
 def setHue(value) {
--- a/devicetypes/smartthings/zwave-dimmer-switch-generic.src/zwave-dimmer-switch-generic.groovy
+++ b/devicetypes/smartthings/zwave-dimmer-switch-generic.src/zwave-dimmer-switch-generic.groovy
@@ -88,11 +88,20 @@ def updated(){
 	sendEvent(name: "checkInterval", value: 2 * 15 * 60 + 2 * 60, displayed: false, data: [protocol: "zwave", hubHardwareId: device.hub.hardwareID])
 }
 def getCommandClassVersions() {
 	[
 		0x20: 1,  // Basic
 		0x26: 1,  // SwitchMultilevel
 		0x56: 1,  // Crc16Encap
 		0x70: 1,  // Configuration
 	]
 }
 def parse(String description) {
 	def result = null
 	if (description != "updated") {
 		log.debug "parse() >> zwave.parse($description)"
-		def cmd = zwave.parse(description, [0x20: 1, 0x26: 1, 0x70: 1])
+		def cmd = zwave.parse(description, commandClassVersions)
 		if (cmd) {
 			result = zwaveEvent(cmd)
 		}
@@ -159,6 +168,16 @@ def zwaveEvent(physicalgraph.zwave.commands.switchmultilevelv1.SwitchMultilevelS
 	[createEvent(name:"switch", value:"on"), response(zwave.switchMultilevelV1.switchMultilevelGet().format())]
 }
 def zwaveEvent(physicalgraph.zwave.commands.crc16encapv1.Crc16Encap cmd) {
 	def versions = commandClassVersions
 	def version = versions[cmd.commandClass as Integer]
 	def ccObj = version ? zwave.commandClass(cmd.commandClass, version) : zwave.commandClass(cmd.commandClass)
 	def encapsulatedCommand = ccObj?.command(cmd.command)?.parse(cmd.data)
 	if (encapsulatedCommand) {
 		zwaveEvent(encapsulatedCommand)
 	}
 }
 def zwaveEvent(physicalgraph.zwave.Command cmd) {
 	// Handles all Z-Wave commands we aren't interested in
 	[:]
--- a/devicetypes/smartthings/zwave-door-window-sensor.src/zwave-door-window-sensor.groovy
+++ b/devicetypes/smartthings/zwave-door-window-sensor.src/zwave-door-window-sensor.groovy
@@ -113,9 +113,9 @@ def updated() {
 def configure() {
 	commands([
-		zwave.manufacturerSpecificV2.manufacturerSpecificGet(),
+		zwave.sensorBinaryV2.sensorBinaryGet(sensorType: zwave.sensorBinaryV2.SENSOR_TYPE_DOOR_WINDOW),
-		zwave.batteryV1.batteryGet()
+		zwave.manufacturerSpecificV2.manufacturerSpecificGet()
-	], 6000)
+	], 1000)
 }
 def sensorValueEvent(value) {
@@ -190,11 +190,17 @@ def zwaveEvent(physicalgraph.zwave.commands.wakeupv1.WakeUpNotification cmd)
 		cmds << command(zwave.manufacturerSpecificV2.manufacturerSpecificGet())
 		cmds << "delay 1200"
 	}
 	if (device.currentValue("contact") == null) { // Incase our initial request didn't make it
 		cmds << command(zwave.sensorBinaryV2.sensorBinaryGet(sensorType: zwave.sensorBinaryV2.SENSOR_TYPE_DOOR_WINDOW))
 	}
 	if (!state.lastbat || now() - state.lastbat > 53*60*60*1000) {
 		cmds << command(zwave.batteryV1.batteryGet())
-	} else {
+	} else { // If we check the battery state we will send NoMoreInfo in the handler for BatteryReport so that we definitely get the report
 		cmds << zwave.wakeUpV1.wakeUpNoMoreInformation().format()
 	}
 	[event, response(cmds)]
 }
--- a/devicetypes/smartthings/zwave-lock.src/zwave-lock.groovy
+++ b/devicetypes/smartthings/zwave-lock.src/zwave-lock.groovy
@@ -86,13 +86,13 @@ import physicalgraph.zwave.commands.doorlockv1.*
 import physicalgraph.zwave.commands.usercodev1.*
 def installed() {
-	// Device-Watch simply pings if no device events received for 32min(checkInterval)
+	// Device-Watch pings if no device events received for 1 hour (checkInterval)
-	sendEvent(name: "checkInterval", value: 2 * 15 * 60 + 2 * 60, displayed: false, data: [protocol: "zwave", hubHardwareId: device.hub.hardwareID])
+	sendEvent(name: "checkInterval", value: 1 * 60 * 60, displayed: false, data: [protocol: "zwave", hubHardwareId: device.hub.hardwareID])
 }
 def updated() {
-	// Device-Watch simply pings if no device events received for 32min(checkInterval)
+	// Device-Watch pings if no device events received for 1 hour (checkInterval)
-	sendEvent(name: "checkInterval", value: 2 * 15 * 60 + 2 * 60, displayed: false, data: [protocol: "zwave", hubHardwareId: device.hub.hardwareID])
+	sendEvent(name: "checkInterval", value: 1 * 60 * 60, displayed: false, data: [protocol: "zwave", hubHardwareId: device.hub.hardwareID])
 	try {
 		if (!state.init) {
 			state.init = true
@@ -152,6 +152,10 @@ def zwaveEvent(physicalgraph.zwave.commands.securityv1.SecurityCommandsSupported
 def zwaveEvent(DoorLockOperationReport cmd) {
 	def result = []
 	unschedule("followupStateCheck")
 	unschedule("stateCheck")
 	def map = [ name: "lock" ]
 	if (cmd.doorLockMode == 0xFF) {
 		map.value = "locked"
@@ -365,7 +369,7 @@ def zwaveEvent(UserCodeReport cmd) {
 			code = state["set$name"] ?: decrypt(state[name]) ?: "****"
 			state.remove("set$name".toString())
 		} else {
-			map = [ name: "codeReport", value: cmd.userIdentifier, data: [ code: code ] ]
+			map = [ name: "codeReport", value: cmd.userIdentifier, data: [ code: code ], isStateChange: true ]
 			map.descriptionText = "$device.displayName code $cmd.userIdentifier is set"
 			map.displayed = (cmd.userIdentifier != state.requestCode && cmd.userIdentifier != state.pollCode)
 			map.isStateChange = true
@@ -456,11 +460,12 @@ def zwaveEvent(physicalgraph.zwave.commands.timev1.TimeGet cmd) {
 def zwaveEvent(physicalgraph.zwave.commands.basicv1.BasicSet cmd) {
 	// The old Schlage locks use group 1 for basic control - we don't want that, so unsubscribe from group 1
 	def result = [ createEvent(name: "lock", value: cmd.value ? "unlocked" : "locked") ]
-	result << response(zwave.associationV1.associationRemove(groupingIdentifier:1, nodeId:zwaveHubNodeId))
+	def cmds = [
-	if (state.assoc != zwaveHubNodeId) {
+			zwave.associationV1.associationRemove(groupingIdentifier:1, nodeId:zwaveHubNodeId).format(),
-		result << response(zwave.associationV1.associationGet(groupingIdentifier:2))
+			"delay 1200",
-	}
+			zwave.associationV1.associationGet(groupingIdentifier:2).format()
-	result
+	]
 	[result, response(cmds)]
 }
 def zwaveEvent(physicalgraph.zwave.commands.batteryv1.BatteryReport cmd) {
@@ -530,11 +535,18 @@ def unlockwtimeout() {
 	lockAndCheck(DoorLockOperationSet.DOOR_LOCK_MODE_DOOR_UNSECURED_WITH_TIMEOUT)
 }
 /**
 * PING is used by Device-Watch in attempt to reach the Device
 * */
 def ping() {
-	refresh()
+	runIn(30, followupStateCheck)
 	secure(zwave.doorLockV1.doorLockOperationGet())
 }
 def followupStateCheck() {
 	runEvery1Hour(stateCheck)
 	stateCheck()
 }
 def stateCheck() {
 	sendHubCommand(new physicalgraph.device.HubAction(secure(zwave.doorLockV1.doorLockOperationGet())))
 }
 def refresh() {
--- a/devicetypes/smartthings/zwave-metering-dimmer.src/zwave-metering-dimmer.groovy
+++ b/devicetypes/smartthings/zwave-metering-dimmer.src/zwave-metering-dimmer.groovy
@@ -85,11 +85,21 @@ metadata {
 	details(["switch", "power", "energy", "levelSliderControl", "refresh", "reset"])
 }
 def getCommandClassVersions() {
 	[
 		0x20: 1,  // Basic
 		0x26: 3,  // SwitchMultilevel
 		0x56: 1,  // Crc16Encap
 		0x70: 1,  // Configuration
 		0x32: 3,  // Meter
 	]
 }
 // parse events into attributes
 def parse(String description) {
 	def result = null
 	if (description != "updated") {
-		def cmd = zwave.parse(description, [0x20: 1, 0x26: 3, 0x70: 1, 0x32:3])
+		def cmd = zwave.parse(description, commandClassVersions)
 		if (cmd) {
 			result = zwaveEvent(cmd)
 	        log.debug("'$description' parsed to $result")
@@ -124,6 +134,21 @@ def zwaveEvent(physicalgraph.zwave.commands.switchmultilevelv3.SwitchMultilevelR
 	dimmerEvents(cmd)
 }
 def zwaveEvent(physicalgraph.zwave.commands.crc16encapv1.Crc16Encap cmd) {
 	def versions = commandClassVersions
 	def version = versions[cmd.commandClass as Integer]
 	def ccObj = version ? zwave.commandClass(cmd.commandClass, version) : zwave.commandClass(cmd.commandClass)
 	def encapsulatedCommand = ccObj?.command(cmd.command)?.parse(cmd.data)
 	if (encapsulatedCommand) {
 		zwaveEvent(encapsulatedCommand)
 	}
 }
 def zwaveEvent(physicalgraph.zwave.Command cmd) {
 	// Handles all Z-Wave commands we aren't interested in
 	[:]
 }
 def dimmerEvents(physicalgraph.zwave.Command cmd) {
 	def result = []
 	def value = (cmd.value ? "on" : "off")
--- a/devicetypes/smartthings/zwave-metering-switch.src/zwave-metering-switch.groovy
+++ b/devicetypes/smartthings/zwave-metering-switch.src/zwave-metering-switch.groovy
@@ -89,10 +89,19 @@ def updated() {
 	} catch (e) { log.debug e }
 }
 def getCommandClassVersions() {
 	[
 		0x20: 1,  // Basic
 		0x32: 1,  // SwitchMultilevel
 		0x56: 1,  // Crc16Encap
 		0x72: 2,  // ManufacturerSpecific
 	]
 }
 def parse(String description) {
 	def result = null
 	if(description == "updated") return
-	def cmd = zwave.parse(description, [0x20: 1, 0x32: 1, 0x72: 2])
+	def cmd = zwave.parse(description, commandClassVersions)
 	if (cmd) {
 		result = zwaveEvent(cmd)
 	}
@@ -157,6 +166,16 @@ def zwaveEvent(physicalgraph.zwave.commands.manufacturerspecificv2.ManufacturerS
 	result
 }
 def zwaveEvent(physicalgraph.zwave.commands.crc16encapv1.Crc16Encap cmd) {
 	def versions = commandClassVersions
 	def version = versions[cmd.commandClass as Integer]
 	def ccObj = version ? zwave.commandClass(cmd.commandClass, version) : zwave.commandClass(cmd.commandClass)
 	def encapsulatedCommand = ccObj?.command(cmd.command)?.parse(cmd.data)
 	if (encapsulatedCommand) {
 		zwaveEvent(encapsulatedCommand)
 	}
 }
 def zwaveEvent(physicalgraph.zwave.Command cmd) {
 	log.debug "$device.displayName: Unhandled: $cmd"
 	[:]
--- a/devicetypes/smartthings/zwave-siren.src/zwave-siren.groovy
+++ b/devicetypes/smartthings/zwave-siren.src/zwave-siren.groovy
@@ -16,7 +16,7 @@
 *  Date: 2014-07-15
 */
 metadata {
-	definition (name: "Z-Wave Siren", namespace: "smartthings", author: "SmartThings") {
+	definition (name: "Z-Wave Siren", namespace: "smartthings", author: "SmartThings", ocfDeviceType: "x.com.st.d.sensor.smoke") {
 		capability "Actuator"
        capability "Alarm"
        capability "Battery"
--- a/devicetypes/smartthings/zwave-switch-generic.src/zwave-switch-generic.groovy
+++ b/devicetypes/smartthings/zwave-switch-generic.src/zwave-switch-generic.groovy
@@ -71,9 +71,17 @@ def updated(){
 	sendEvent(name: "checkInterval", value: 2 * 15 * 60 + 2 * 60, displayed: false, data: [protocol: "zwave", hubHardwareId: device.hub.hardwareID])
 }
 def getCommandClassVersions() {
 	[
 		0x20: 1,  // Basic
 		0x56: 1,  // Crc16Encap
 		0x70: 1,  // Configuration
 	]
 }
 def parse(String description) {
 	def result = null
-	def cmd = zwave.parse(description, [0x20: 1, 0x70: 1])
+	def cmd = zwave.parse(description, commandClassVersions)
 	if (cmd) {
 		result = createEvent(zwaveEvent(cmd))
 	}
@@ -120,6 +128,15 @@ def zwaveEvent(physicalgraph.zwave.commands.manufacturerspecificv2.ManufacturerS
 	createEvent([descriptionText: "$device.displayName MSR: $msr", isStateChange: false])
 }
 def zwaveEvent(physicalgraph.zwave.commands.crc16encapv1.Crc16Encap cmd) {
 	def versions = commandClassVersions
 	def version = versions[cmd.commandClass as Integer]
 	def ccObj = version ? zwave.commandClass(cmd.commandClass, version) : zwave.commandClass(cmd.commandClass)
 	def encapsulatedCommand = ccObj?.command(cmd.command)?.parse(cmd.data)
 	if (encapsulatedCommand) {
 		zwaveEvent(encapsulatedCommand)
 	}
 }
 def zwaveEvent(physicalgraph.zwave.Command cmd) {
 	// Handles all Z-Wave commands we aren't interested in
--- a/devicetypes/smartthings/zwave-switch.src/zwave-switch.groovy
+++ b/devicetypes/smartthings/zwave-switch.src/zwave-switch.groovy
@@ -89,9 +89,17 @@ def updated(){
    }
 }
 def getCommandClassVersions() {
 	[
 		0x20: 1,  // Basic
 		0x56: 1,  // Crc16Encap
 		0x70: 1,  // Configuration
 	]
 }
 def parse(String description) {
 	def result = null
-	def cmd = zwave.parse(description, [0x20: 1, 0x70: 1])
+	def cmd = zwave.parse(description, commandClassVersions)
 	if (cmd) {
 		result = createEvent(zwaveEvent(cmd))
 	}
@@ -138,6 +146,16 @@ def zwaveEvent(physicalgraph.zwave.commands.manufacturerspecificv2.ManufacturerS
 	createEvent([descriptionText: "$device.displayName MSR: $msr", isStateChange: false])
 }
 def zwaveEvent(physicalgraph.zwave.commands.crc16encapv1.Crc16Encap cmd) {
 	def versions = commandClassVersions
 	def version = versions[cmd.commandClass as Integer]
 	def ccObj = version ? zwave.commandClass(cmd.commandClass, version) : zwave.commandClass(cmd.commandClass)
 	def encapsulatedCommand = ccObj?.command(cmd.command)?.parse(cmd.data)
 	if (encapsulatedCommand) {
 		zwaveEvent(encapsulatedCommand)
 	}
 }
 def zwaveEvent(physicalgraph.zwave.Command cmd) {
 	// Handles all Z-Wave commands we aren't interested in
--- a/devicetypes/stelpro/stelpro-ki-thermostat.src/stelpro-ki-thermostat.groovy
+++ b/devicetypes/stelpro/stelpro-ki-thermostat.src/stelpro-ki-thermostat.groovy
@@ -0,0 +1,537 @@
 /**
 *  Copyright 2017 Stelpro
 *
 *  Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except
 *  in compliance with the License. You may obtain a copy of the License at:
 *
 *      http://www.apache.org/licenses/LICENSE-2.0
 *
 *  Unless required by applicable law or agreed to in writing, software distributed under the License is distributed
 *  on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License
 *  for the specific language governing permissions and limitations under the License.
 *
 *  Stelpro Ki Thermostat
 *
 *  Author: Stelpro
 *
 *  Date: 2017-06-08
 */
 preferences {
    input("zipcode", "text", title: "ZipCode (Outdoor Temperature)", description: "[Do not use space](Blank = No Forecast)")
    input("heatdetails", "enum", title: "Do you want a detailed operating state notification?", options: ["No", "Yes"], defaultValue: "No", required: false, displayDuringSetup: true)
 }
 metadata {
    definition (name: "Stelpro Ki Thermostat", namespace: "stelpro", author: "Stelpro") {
        capability "Thermostat"
        capability "Temperature Measurement"
        capability "Actuator"
        capability "Polling"
        capability "Refresh"
        capability "Sensor"
        capability "Configuration"
        attribute "outsideTemp", "number"
        command "switchMode"
        command "quickSetHeat"
        command "quickSetOutTemp"
        command "increaseHeatSetpoint"
        command "decreaseHeatSetpoint"
        command "setCustomThermostatMode"
        command "eco"
        command "applyNow"
        fingerprint deviceId: "0x0806", inClusters: "0x5E,0x86,0x72,0x40,0x43,0x31,0x85,0x59,0x5A,0x73,0x20,0x42"
    }
    // simulator metadata
    simulator {
        //Add test code here
    }
    tiles(scale : 2) {
 		multiAttributeTile(name:"thermostatMulti", type:"thermostat", width:6, height:4) {
 			tileAttribute("device.temperature", key: "PRIMARY_CONTROL") {
 				attributeState("temp", label:'${currentValue}')
                attributeState("high", label:'HIGH')
            	attributeState("low", label:'LOW')
            	attributeState("--", label:'--')
 			}
            tileAttribute("device.heatingSetpoint", key: "VALUE_CONTROL") {
 				attributeState("VALUE_UP", action: "increaseHeatSetpoint")
                attributeState("VALUE_DOWN", action: "decreaseHeatSetpoint")
 			}
 			tileAttribute("device.thermostatOperatingState", key: "OPERATING_STATE") {
 				attributeState("idle", backgroundColor:"#44b621")
 				attributeState("heating", backgroundColor:"#ffa81e")
 			}
 			tileAttribute("device.thermostatMode", key: "THERMOSTAT_MODE") {
 				attributeState("off", label:'Off')
 				attributeState("comfort", label:'Comfort')
 				attributeState("eco", label:'Eco')
 			}
            tileAttribute("device.heatingSetpoint", key: "HEATING_SETPOINT")
            {
            	attributeState("heatingSetpoint", label:'${currentValue}')
            }
 		}
        standardTile("mode", "device.thermostatMode", width: 2, height: 2) {
        	state "off", label:'${name}', action:"switchMode", nextState:"to_comfort", icon:"st.thermostat.off"
 			state "comfort", label:'${name}', action:"switchMode", nextState:"to_eco", icon:"http://cdn.device-icons.smartthings.com/Home/home29-icn@2x.png"
 			state "eco", label:'${name}', action:"switchMode", nextState:"...", icon:"http://cdn.device-icons.smartthings.com/Outdoor/outdoor3-icn@2x.png"
 			state "to_comfort", label: "comfort", action:"switchMode", nextState:"to_eco"
 			state "to_eco", label: "eco", action:"switchMode", nextState:"..."
 			state "...", label: "...", action:"heat", nextState:"comfort"
        }
        standardTile("refresh", "device.refresh", decoration: "flat", width: 2, height: 2) {
            state "default", action:"refresh.refresh", icon:"st.secondary.refresh"
        }
        main ("thermostatMulti")
        details(["thermostatMulti", "mode", "refresh"])
    }
 }
 def parse(String description)
 {
 	if (description == "updated")
    	return []
    def unitScale = getTemperatureScale()
    //Class, version
    def map = createEvent(zwaveEvent(zwave.parse(description, [0x40:2, 0x43:2, 0x31:3, 0x42:1])))
    if (!map) {
        return null
    }
    def result = [map]
    if (map.name in ["heatingSetpoint","thermostatMode"]) {
        def map2 = [
                name: "thermostatSetpoint",
                unit: getTemperatureScale()
        ]
        if (map.name == "thermostatMode") {
            state.lastTriedMode = map.value
        }
        else {
            def mode = device.latestValue("thermostatMode")
            log.info "THERMOSTAT, latest mode = ${mode}"
            if (map.name == "heatingSetpoint") {
                map2.value = map.value
                map2.unit = map.unit
            }
        }
        if (map2.value != null) {
            log.debug "THERMOSTAT, adding setpoint event: $map"
            result << createEvent(map2)
        }
    }
    log.debug "Parse returned $result"
    result
 }
 // Event Generation
 def zwaveEvent(physicalgraph.zwave.commands.thermostatsetpointv2.ThermostatSetpointReport cmd)
 {
    def cmdScale = cmd.scale == 1 ? "F" : "C"
    def temp;
    float tempfloat;
    def map = [:]
    if (cmd.scaledValue >= 327)
    {
    	map.value = "--"
    }
    else
    {
        temp = convertTemperatureIfNeeded(cmd.scaledValue, cmdScale, cmd.precision)
        tempfloat = (Math.round(temp.toFloat() * 2)) / 2
        map.value = tempfloat
    }
    map.unit = getTemperatureScale()
    map.displayed = false
    switch (cmd.setpointType) {
        case 1:
            map.name = "heatingSetpoint"
            break;
        default:
            return [:]
    }
    // So we can respond with same format
    state.size = cmd.size
    state.scale = cmd.scale
    state.precision = cmd.precision
    sendEvent(name:"heatingSetpoint", value:map.value)
    map
 }
 def zwaveEvent(physicalgraph.zwave.commands.sensormultilevelv3.SensorMultilevelReport cmd)
 {
    def temp;
    float tempfloat;
    def format;
    def map = [:]
    if (cmd.sensorType == 1) {
        map.value = convertTemperatureIfNeeded(cmd.scaledSensorValue, cmd.scale == 1 ? "F" : "C", cmd.precision)
        map.unit = getTemperatureScale()
        map.name = "temperature"
        temp = map.value
        if (temp == "32765")		//0x7FFD
        {
            map.value = "low"
        }
        else if (temp == "32767")	//0x7FFF
        {
            map.value = "high"
        }
        else if (temp == "-32768")	//0x8000
        {
            map.value = "--"
        }
        else
        {
    		tempfloat = (Math.round(temp.toFloat() * 2)) / 2
    		map.value = tempfloat
        }
    } else if (cmd.sensorType == 5) {
        map.value = cmd.scaledSensorValue
        map.unit = "%"
        map.name = "humidity"
    }
    sendEvent(name:"temperature", value:map.value)
    map
 }
 def zwaveEvent(physicalgraph.zwave.commands.thermostatoperatingstatev1.ThermostatOperatingStateReport cmd)
 {
    def map = [:]
    switch (cmd.operatingState) {
        case physicalgraph.zwave.commands.thermostatoperatingstatev1.ThermostatOperatingStateReport.OPERATING_STATE_IDLE:
        map.value = "idle"
        break
        case physicalgraph.zwave.commands.thermostatoperatingstatev1.ThermostatOperatingStateReport.OPERATING_STATE_HEATING:
        map.value = "heating"
        break
    }
    map.name = "thermostatOperatingState"
    if (settings.heatdetails == "No") {
    	map.displayed = false
    }
    map
 }
 def zwaveEvent(physicalgraph.zwave.commands.thermostatmodev2.ThermostatModeReport cmd) {
    def map = [:]
    switch (cmd.mode) {
        case physicalgraph.zwave.commands.thermostatmodev2.ThermostatModeReport.MODE_HEAT:
            map.value = "comfort"
            break
        case physicalgraph.zwave.commands.thermostatmodev2.ThermostatModeReport.MODE_OFF:
            map.value = "off"
            break
        default:
            map.value = "eco"
            break
    }
    map.name = "thermostatMode"
    sendEvent(name:"thermostatMode", value:map.value)
    map
 }
 def zwaveEvent(physicalgraph.zwave.commands.associationv2.AssociationReport cmd) {
 	delayBetween([
    	zwave.associationV1.associationRemove(groupingIdentifier:1, nodeId:0).format(),
        zwave.associationV1.associationSet(groupingIdentifier:1, nodeId:[zwaveHubNodeId]).format(),
        poll()
    ], 2300)
 }
 def zwaveEvent(physicalgraph.zwave.commands.thermostatmodev2.ThermostatModeSupportedReport cmd) {
    log.debug "Zwave event received: $cmd"
 }
 def zwaveEvent(physicalgraph.zwave.commands.basicv1.BasicReport cmd) {
    log.debug "Zwave event received: $cmd"
 }
 def zwaveEvent(physicalgraph.zwave.Command cmd) {
    log.warn "Unexpected zwave command $cmd"
 }
 // Command Implementations
 def poll() {
    def weather
    // If there is a zipcode defined, weather forecast will be sent. Otherwise, no weather forecast.
    if (settings.zipcode) {
        log.debug "ZipCode: ${settings.zipcode}"
        weather = getWeatherFeature( "conditions", settings.zipcode )
        // Check if the variable is populated, otherwise return.
        if (!weather) {
            log.debug( "Something went wrong, no data found." )
            return false
        }
        // Set the tiles
        def locationScale = getTemperatureScale()
        def tempToSend
        if (locationScale == "C")
        {
            log.debug( "Outdoor Temperature: ${weather.current_observation.temp_c}ºC" )
            sendEvent( name: 'outsideTemp', value: weather.current_observation.temp_c )
            tempToSend = weather.current_observation.temp_c
        }
        else
        {
            log.debug( "Outdoor Temperature: ${weather.current_observation.temp_f}ºF" )
            sendEvent( name: 'outsideTemp', value: weather.current_observation.temp_f )
            tempToSend = weather.current_observation.temp_f
        }
        delayBetween([
                quickSetOutTemp(tempToSend),
                zwave.thermostatOperatingStateV1.thermostatOperatingStateGet().format(),
                zwave.thermostatModeV2.thermostatModeGet().format(),
                zwave.thermostatSetpointV2.thermostatSetpointGet(setpointType: 1).format(),
                zwave.sensorMultilevelV3.sensorMultilevelGet().format(), // current temperature
                sendEvent( name: 'change', value: 0 )
        ], 100)
    } else {
        delayBetween([
                zwave.thermostatOperatingStateV1.thermostatOperatingStateGet().format(),
                zwave.thermostatModeV2.thermostatModeGet().format(),
                zwave.thermostatSetpointV2.thermostatSetpointGet(setpointType: 1).format(),
                zwave.sensorMultilevelV3.sensorMultilevelGet().format(), // current temperature
                sendEvent( name: 'change', value: 0 )
        ], 100)
    }
 }
 def refresh() {
 	poll()
 }
 def configure() {
 	poll()
 }
 def applyNow() {
    float currentHeatSetpoint = device.currentValue("heatingSetpoint")
    def deviceScale
    def locationScale = getTemperatureScale()
    sendEvent( name: 'change', value: 0 )
    log.debug("currentHeatSetpoint $currentHeatSetpoint")
    if (locationScale == "C")
    {
        deviceScale = 0
    }
    else
    {
        deviceScale = 1
    }
    delayBetween([
            zwave.thermostatSetpointV2.thermostatSetpointSet(setpointType: 1, scale: deviceScale, precision: state.precision, scaledValue: currentHeatSetpoint).format(),
            poll()
    ], 1000)
 }
 def quickSetHeat(degrees) {
    setHeatingSetpoint(degrees, 0)
 }
 def setHeatingSetpoint(degrees, delay = 0) {
    sendEvent(name:"heatingSetpoint", value:degrees)
    applyNow()
 }
 def quickSetOutTemp(degrees) {
    setOutdoorTemperature(degrees, 0)
 }
 def setOutdoorTemperature(degrees, delay = 0) {
    setOutdoorTemperature(degrees.toDouble(), delay)
 }
 def setOutdoorTemperature(Double degrees, Integer delay = 0) {
    def deviceScale
    def locationScale = getTemperatureScale()
    def p = (state.precision == null) ? 1 : state.precision
    if (locationScale == "C")
    {
        deviceScale = 0
    }
    else
    {
        deviceScale = 1
    }
    log.info "setOutdoorTemperature: ${degrees}"
    zwave.sensorMultilevelV3.sensorMultilevelReport(sensorType: 1, scale: deviceScale, precision: p,  scaledSensorValue: degrees).format()
 }
 def increaseHeatSetpoint()
 {
 	def currentMode = device.currentState("thermostatMode")?.value
    if (currentMode != "off")
    {
        float currentSetpoint = device.currentValue("heatingSetpoint")
        def locationScale = getTemperatureScale()
        float maxSetpoint
        float step
        if (locationScale == "C")
        {
            maxSetpoint = 30;
            step = 0.5
        }
        else
        {
            maxSetpoint = 86
            step = 1
        }
        if (currentSetpoint < maxSetpoint)
        {
            currentSetpoint = currentSetpoint + step
            quickSetHeat(currentSetpoint)
        }
    }
 }
 def decreaseHeatSetpoint()
 {
 	def currentMode = device.currentState("thermostatMode")?.value
    if (currentMode != "off")
    {
        float currentSetpoint = device.currentValue("heatingSetpoint")
        def locationScale = getTemperatureScale()
        float minSetpoint
        float step
        if (locationScale == "C")
        {
            minSetpoint = 5;
            step = 0.5
        }
        else
        {
            minSetpoint = 41
            step = 1
        }
        if (currentSetpoint > minSetpoint)
        {
            currentSetpoint = currentSetpoint - step
            quickSetHeat(currentSetpoint)
        }
    }
 }
 def switchMode() {
    def currentMode = device.currentState("thermostatMode")?.value
    def lastTriedMode = state.lastTriedMode ?: currentMode ?: "comfort"
    def supportedModes = getDataByName("supportedModes")
    def modeOrder = modes()
    def next = { modeOrder[modeOrder.indexOf(it) + 1] ?: modeOrder[0] }
    def nextMode = next(lastTriedMode)
    if (supportedModes?.contains(currentMode)) {
        while (!supportedModes.contains(nextMode) && nextMode != "comfort") {
            nextMode = next(nextMode)
        }
    }
    state.lastTriedMode = nextMode
    delayBetween([
            zwave.thermostatModeV2.thermostatModeSet(mode: modeMap[nextMode]).format(),
            poll()
    ], 1000)
 }
 def modes() {
    ["comfort", "eco", "off"]
 }
 def getModeMap() { [
 		"off": 0,
        "comfort": 1,
        "eco": 11,
 ]}
 def getDataByName(String name) {
    state[name] ?: device.getDataValue(name)
 }
 def setCoolingSetpoint(coolingSetpoint) {
    log.trace "${device.displayName} does not support cool setpoint"
 }
 def off() {
    log.trace "off mode applied"
 	delayBetween([
 		zwave.thermostatModeV2.thermostatModeSet(mode: 0).format(),
 		poll()
 	], 1000)
 }
 def heat() {
 	log.trace "heat mode applied"
 	delayBetween([
 		zwave.thermostatModeV2.thermostatModeSet(mode: 1).format(),
 		poll()
 	], 1000)
 }
 def eco() {
 	log.trace "eco mode applied"
 	delayBetween([
 		zwave.thermostatModeV2.thermostatModeSet(mode: 11).format(),
 		poll()
 	], 1000)
 }
 def auto() {
    log.trace "${device.displayName} does not support auto mode"
 }
 def emergencyHeat() {
    log.trace "${device.displayName} does not support emergency heat mode"
 }
 def cool() {
    log.trace "${device.displayName} does not support cool mode"
 }
 def setCustomThermostatMode(mode) {
   setThermostatMode(mode)
 }
 def setThermostatMode(String value) {
 	delayBetween([
 		zwave.thermostatModeV2.thermostatModeSet(mode: modeMap[value]).format(),
 		poll()
 	], 1000)
 }
 def fanOn() {
    log.trace "${device.displayName} does not support fan on"
 }
 def fanAuto() {
    log.trace "${device.displayName} does not support fan auto"
 }
 def fanCirculate() {
    log.trace "${device.displayName} does not support fan circulate"
 }
 def setThermostatFanMode() {
    log.trace "${device.displayName} does not support fan mode"
 }
--- a/devicetypes/stelpro/stelpro-ki-zigbee-thermostat.src/stelpro-ki-zigbee-thermostat.groovy
+++ b/devicetypes/stelpro/stelpro-ki-zigbee-thermostat.src/stelpro-ki-zigbee-thermostat.groovy
@@ -0,0 +1,651 @@
 /**
 *  Copyright 2017 Stelpro
 *
 *  Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except
 *  in compliance with the License. You may obtain a copy of the License at:
 *
 *      http://www.apache.org/licenses/LICENSE-2.0
 *
 *  Unless required by applicable law or agreed to in writing, software distributed under the License is distributed
 *  on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License
 *  for the specific language governing permissions and limitations under the License.
 *
 *  Stelpro Ki ZigBee Thermostat
 *
 *  Author: Stelpro
 *
 *  Date: 2017-06-08
 */
 preferences {
 	section {
 			input("unitformat", "enum", title: "What unit format do you want your thermostat to display temperature?", options: ["Celsius", "Fahrenheit"], defaultValue: "Celsius", required: false, displayDuringSetup: false)
            input("lock", "enum", title: "Do you want to lock your thermostat's physical keypad?", options: ["No", "Yes"], defaultValue: "No", required: false, displayDuringSetup: false)
            input("heatdetails", "enum", title: "Do you want a detailed operating state notification?", options: ["No", "Yes"], defaultValue: "No", required: false, displayDuringSetup: true)
    		input("zipcode", "text", title: "ZipCode (Outdoor Temperature)", description: "[Do not use space](Blank = No Forecast)")
    }
 }
 metadata {
 	definition (name: "Stelpro Ki ZigBee Thermostat", namespace: "Stelpro", author: "Stelpro") {
        capability "Thermostat"
        capability "Temperature Measurement"
        capability "Actuator"
        capability "Polling"
        capability "Refresh"
        capability "Sensor"
        capability "Configuration"
 		command "switchMode"
        command "quickSetHeat"
        command "quickSetOutTemp"
        command "increaseHeatSetpoint"
        command "decreaseHeatSetpoint"
        command "parameterSetting"
 		fingerprint profileId: "0104", endpointId: "19", inClusters: " 0000,0003,0201,0204", outClusters: "0402"
 	}
 	// simulator metadata
 	simulator { }
 	tiles(scale: 2) {
 		multiAttributeTile(name:"thermostatMulti", type:"thermostat", width:6, height:4) {
 			tileAttribute("device.temperature", key: "PRIMARY_CONTROL") {
 				attributeState("temp", label:'${currentValue}')
                attributeState("high", label:'HIGH')
            	attributeState("low", label:'LOW')
            	attributeState("--", label:'--')
 			}
            tileAttribute("device.heatingSetpoint", key: "VALUE_CONTROL") {
 				attributeState("VALUE_UP", action: "increaseHeatSetpoint")
                attributeState("VALUE_DOWN", action: "decreaseHeatSetpoint")
 			}
 			tileAttribute("device.thermostatOperatingState", key: "OPERATING_STATE") {
 				attributeState("idle", backgroundColor:"#44b621")
 				attributeState("heating", backgroundColor:"#ffa81e")
 			}
 			tileAttribute("device.thermostatMode", key: "THERMOSTAT_MODE") {
 				attributeState("off", label:'Off')
 				attributeState("comfort", label:'Comfort')
 				attributeState("eco", label:'Eco')
 			}
            tileAttribute("device.heatingSetpoint", key: "HEATING_SETPOINT")
            {
            	attributeState("heatingSetpoint", label:'${currentValue}')
            }
 		}
        standardTile("mode", "device.thermostatMode", width: 2, height: 2) {
        	state "off", label:'Off', action:"switchMode", nextState:"comfort", icon:"st.thermostat.off"
 			state "comfort", label:'Comfort', action:"switchMode", nextState:"eco", icon:"http://cdn.device-icons.smartthings.com/Home/home29-icn@2x.png"
 			state "eco", label:'Eco', action:"switchMode", nextState:"off", icon:"http://cdn.device-icons.smartthings.com/Outdoor/outdoor3-icn@2x.png"
        }
        standardTile("refresh", "device.refresh", decoration: "flat", width: 2, height: 2) {
            state "default", action:"poll", icon:"st.secondary.refresh"
        }
        standardTile("configure", "device.configure", inactiveLabel: false, decoration: "flat", width: 2, height: 2) {
 			state "configure", label:'', action:"configuration.configure", icon:"st.secondary.configure"
 		}
        main ("thermostatMulti")
        details(["thermostatMulti", "mode", "refresh", "configure"])
    }
 }
 // parse events into attributes
 def parse(String description) {
 	log.debug "Parse description $description"
 	def map = [:]
 	if (description?.startsWith("read attr -")) {
 		def descMap = parseDescriptionAsMap(description)
 		log.debug "Desc Map: $descMap"
 		if (descMap.cluster == "0201" && descMap.attrId == "0000")
        {
 			log.debug "TEMP"
 			map.name = "temperature"
 			map.value = getTemperature(descMap.value)
            if (descMap.value == "7ffd")		//0x7FFD
            {
                map.value = "low"
            }
            else if (descMap.value == "7fff")	//0x7FFF
            {
                map.value = "high"
            }
            else if (descMap.value == "8000")	//0x8000
            {
                map.value = "--"
            }
            sendEvent(name:"temperature", value:map.value)
 		}
        else if (descMap.cluster == "0201" && descMap.attrId == "0012")
        {
 			log.debug "HEATING SETPOINT"
 			map.name = "heatingSetpoint"
 			map.value = getTemperature(descMap.value)
            if (descMap.value == "8000")		//0x8000
            {
                map.value = "--"
            }
            sendEvent(name:"heatingSetpoint", value:map.value)
 		}
        else if (descMap.cluster == "0201" && descMap.attrId == "001c")
        {
        	if (descMap.value.size() == 8)
            {
 				log.debug "MODE"
 				map.name = "thermostatMode"
 				map.value = getModeMap()[descMap.value]
 				sendEvent(name:"thermostatMode", value:map.value)
            }
            else if (descMap.value.size() == 10)
            {
            	log.debug "MODE & SETPOINT MODE"
                def twoModesAttributes = descMap.value[0..-9]
                map.name = "thermostatMode"
 				map.value = getModeMap()[twoModesAttributes]
 				sendEvent(name:"thermostatMode", value:map.value)
            }
 		}
        else if (descMap.cluster == "0201" && descMap.attrId == "401c")
        {
            log.debug "SETPOINT MODE"
            log.debug "descMap.value $descMap.value"
            map.name = "thermostatMode"
            map.value = getModeMap()[descMap.value]
            sendEvent(name:"thermostatMode", value:map.value)
 		}
        else if (descMap.cluster == "0201" && descMap.attrId == "0008")
        {
        	log.debug "HEAT DEMAND"
            map.name = "thermostatOperatingState"
            map.value = getModeMap()[descMap.value]
            if (map.value == "off")
            {
            	map.value = "idle"
            }
            else
            {
            	map.value = "heating"
            }
            sendEvent(name:"thermostatOperatingState", value:map.value)
            if (settings.heatdetails == "No")
            {
    			map.displayed = false
    		}
        }
 	}
 	def result = null
 	if (map) {
 		result = createEvent(map)
 	}
 	log.debug "Parse returned $map"
 	return result
 }
 def parseDescriptionAsMap(description) {
 	(description - "read attr - ").split(",").inject([:]) { map, param ->
 		def nameAndValue = param.split(":")
 		map += [(nameAndValue[0].trim()):nameAndValue[1].trim()]
 	}
 }
 def getModeMap() { [
 	"00":"off",
    "04":"comfort",
 	"05":"eco"
 ]}
 def getFanModeMap() { [
 	"04":"fanOn",
 	"05":"fanAuto"
 ]}
 def poll() {
    def weather
    // If there is a zipcode defined, weather forecast will be sent. Otherwise, no weather forecast.
    if (settings.zipcode) {
        log.debug "ZipCode: ${settings.zipcode}"
        weather = getWeatherFeature( "conditions", settings.zipcode )
        // Check if the variable is populated, otherwise return.
        if (!weather) {
            log.debug( "Something went wrong, no data found." )
            return false
        }
        // Set the tiles
        def locationScale = getTemperatureScale()
        def tempToSend
        log.debug( "Outdoor Temperature: ${weather.current_observation.temp_c}ºC" )
        sendEvent( name: 'outsideTemp', value: weather.current_observation.temp_c )
        tempToSend = weather.current_observation.temp_c
 		delayBetween([
                quickSetOutTemp(tempToSend),
                zigbee.readAttribute(0x201, 0x0000),	//Read Local Temperature
                zigbee.readAttribute(0x201, 0x0008),	//Read PI Heating State
    			zigbee.readAttribute(0x201, 0x0012),	//Read Heat Setpoint
                zigbee.readAttribute(0x201, 0x001C),	//Read System Mode
                my_readAttribute(0x201, 0x401C, ["mfgCode": "0x1185"]),	//Read Manufacturer Specific Setpoint Mode
                zigbee.readAttribute(0x204, 0x0000),	//Read Temperature Display Mode
                zigbee.readAttribute(0x204, 0x0001),	//Read Keypad Lockout
                sendEvent( name: 'change', value: 0 )
        ], 200)
    } else {
        delayBetween([
        		zigbee.readAttribute(0x201, 0x0000),	//Read Local Temperature
                zigbee.readAttribute(0x201, 0x0008),	//Read PI Heating State
    			zigbee.readAttribute(0x201, 0x0012),	//Read Heat Setpoint
                zigbee.readAttribute(0x201, 0x001C),	//Read System Mode
                my_readAttribute(0x201, 0x401C, ["mfgCode": "0x1185"]),	//Read Manufacturer Specific Setpoint Mode
                zigbee.readAttribute(0x204, 0x0000),	//Read Temperature Display Mode
                zigbee.readAttribute(0x204, 0x0001),	//Read Keypad Lockout
                sendEvent( name: 'change', value: 0 )
        ], 200)
    }
 }
 def getTemperature(value) {
 	if (value != null) {
    	log.debug("value $value")
 		def celsius = Integer.parseInt(value, 16) / 100
 		if (getTemperatureScale() == "C") {
 			return celsius
 		} else {
 			return Math.round(celsiusToFahrenheit(celsius))
 		}
 	}
 }
 def quickSetHeat(degrees) {
    sendEvent( name: 'change', value: 1 )
    setHeatingSetpoint(degrees)
 }
 def setHeatingSetpoint(degrees) {
 	if (degrees != null) {
 		def temperatureScale = getTemperatureScale()
 		def degreesInteger = Math.round(degrees)
        float tempfloat;
 	    tempfloat = (Math.round(degrees.toFloat() * 2)) / 2
 		log.debug "setHeatingSetpoint({$tempfloat} ${temperatureScale})"
 		sendEvent("name": "heatingSetpoint", "value": tempfloat)
        def celsius = (getTemperatureScale() == "C") ? tempfloat : (fahrenheitToCelsius(tempfloat) as Float).round(2)
        delayBetween([
        	"st wattr 0x${device.deviceNetworkId} 0x19 0x201 0x12 0x29 {" + hex(celsius * 100) + "}",
        	zigbee.readAttribute(0x201, 0x12),	//Read Heat Setpoint
    	], 100)
 	}
 }
 def setCoolingSetpoint(degrees) {
 	if (degrees != null) {
 		def degreesInteger = Math.round(degrees)
 		log.debug "setCoolingSetpoint({$degreesInteger} ${temperatureScale})"
 		sendEvent("name": "coolingSetpoint", "value": degreesInteger)
 		def celsius = (getTemperatureScale() == "C") ? degreesInteger : (fahrenheitToCelsius(degreesInteger) as Double).round(2)
 		"st wattr 0x${device.deviceNetworkId} 0x19 0x201 0x11 0x29 {" + hex(celsius * 100) + "}"
 	}
 }
 def quickSetOutTemp(degrees) {
    setOutdoorTemperature(degrees, 0)
 }
 def setOutdoorTemperature(degrees, delay = 0) {
    setOutdoorTemperature(degrees.toDouble(), delay)
 }
 def setOutdoorTemperature(Double degrees, Integer delay = 0) {
    def deviceScale
    def locationScale = getTemperatureScale()
    def p = (state.precision == null) ? 1 : state.precision
    Integer tempToSend
    def tempToSendInString
    if (locationScale == "C")
    {
        deviceScale = 0
    }
    else
    {
        deviceScale = 1
    }
    if (degrees < 0)
    {
    	tempToSend = -degrees*100 - 65536
    	tempToSend = -tempToSend
    }
    else
    {
    	tempToSend = (degrees*100)
    }
    tempToSendInString = zigbee.convertToHexString(tempToSend, 4)
    my_writeAttribute(0x201, 0x4001, 0x29, tempToSendInString, ["mfgCode": "0x1185"])
 }
 def increaseHeatSetpoint()
 {
    def currentMode = device.currentState("thermostatMode")?.value
    if (currentMode != "off")
    {
 		float currentSetpoint = device.currentValue("heatingSetpoint")
 		def locationScale = getTemperatureScale()
    	float maxSetpoint
    	float step
    	if (locationScale == "C")
    	{
        	maxSetpoint = 30;
        	step = 0.5
    	}
    	else
    	{
        	maxSetpoint = 86
        	step = 1
    	}
        if (currentSetpoint < maxSetpoint)
        {
            currentSetpoint = currentSetpoint + step
            quickSetHeat(currentSetpoint)
        }
    }
 }
 def decreaseHeatSetpoint()
 {
    def currentMode = device.currentState("thermostatMode")?.value
    if (currentMode != "off")
    {
        float currentSetpoint = device.currentValue("heatingSetpoint")
        def locationScale = getTemperatureScale()
        float minSetpoint
        float step
        if (locationScale == "C")
        {
            minSetpoint = 5;
            step = 0.5
        }
        else
        {
            minSetpoint = 41
            step = 1
        }
    	if (currentSetpoint > minSetpoint)
    	{
        	currentSetpoint = currentSetpoint - step
        	quickSetHeat(currentSetpoint)
    	}
    }
 }
 def modes() {
 	["comfort", "eco", "off"]
 }
 def switchMode() {
    def currentMode = device.currentState("thermostatMode")?.value
    def lastTriedMode = state.lastTriedMode ?: currentMode ?: "comfort"
    def modeOrder = modes()
    def next = { modeOrder[modeOrder.indexOf(it) + 1] ?: modeOrder[0] }
 	def nextMode = next(currentMode)
    def modeNumber;
    Integer setpointModeNumber;
    def modeToSendInString;
    if (nextMode == "comfort")
    {
    	modeNumber = 04
        setpointModeNumber = 04
    }
    else if (nextMode == "eco")
    {
    	modeNumber = 04
        setpointModeNumber = 05
    }
    else
    {
    	modeNumber = 00
        setpointModeNumber = 00
    }
    if (supportedModes?.contains(currentMode)) {
        while (!supportedModes.contains(nextMode) && nextMode != "comfort") {
            nextMode = next(nextMode)
        }
    }
    state.lastTriedMode = nextMode
 	modeToSendInString = zigbee.convertToHexString(setpointModeNumber, 2)
    delayBetween([
    		"st wattr 0x${device.deviceNetworkId} 0x19 0x201 0x001C 0x30 {$modeNumber}",
            my_writeAttribute(0x201, 0x401C, 0x30, modeToSendInString, ["mfgCode": "0x1185"]),
            poll()
    ], 1000)
 }
 def setThermostatMode() {
 	log.debug "switching thermostatMode"
 	def currentMode = device.currentState("thermostatMode")?.value
 	def modeOrder = modes()
 	def index = modeOrder.indexOf(currentMode)
 	def next = index >= 0 && index < modeOrder.size() - 1 ? modeOrder[index + 1] : modeOrder[0]
 	log.debug "switching mode from $currentMode to $next"
 	"$next"()
 }
 def setThermostatFanMode() {
 	log.debug "Switching fan mode"
 	def currentFanMode = device.currentState("thermostatFanMode")?.value
 	log.debug "switching fan from current mode: $currentFanMode"
 	def returnCommand
 	switch (currentFanMode) {
 		case "fanAuto":
 			returnCommand = fanOn()
 			break
 		case "fanOn":
 			returnCommand = fanAuto()
 			break
 	}
 	if(!currentFanMode) { returnCommand = fanAuto() }
 	returnCommand
 }
 def setThermostatMode(String value) {
 	log.debug "setThermostatMode({$value})"
 	"$value"()
 }
 def setThermostatFanMode(String value) {
 	log.debug "setThermostatFanMode({$value})"
 	"$value"()
 }
 def off() {
 	log.debug "off"
 	sendEvent("name":"thermostatMode", "value":"off")
 	"st wattr 0x${device.deviceNetworkId} 0x19 0x201 0x1C 0x30 {00}"
 }
 def cool() {
 	log.debug "cool"
 	sendEvent("name":"thermostatMode", "value":"cool")
 	"st wattr 0x${device.deviceNetworkId} 0x19 0x201 0x1C 0x30 {03}"
 }
 def heat() {
 	log.debug "heat"
 	sendEvent("name":"thermostatMode", "value":"heat")
 	"st wattr 0x${device.deviceNetworkId} 0x19 0x201 0x1C 0x30 {04}"
 }
 def emergencyHeat() {
 	log.debug "emergencyHeat"
 	sendEvent("name":"thermostatMode", "value":"emergency heat")
 	"st wattr 0x${device.deviceNetworkId} 0x19 0x201 0x1C 0x30 {05}"
 }
 def on() {
 	fanOn()
 }
 def fanOn() {
 	log.debug "fanOn"
 	sendEvent("name":"thermostatFanMode", "value":"fanOn")
 	"st wattr 0x${device.deviceNetworkId} 0x19 0x202 0 0x30 {04}"
 }
 def auto() {
 	fanAuto()
 }
 def fanAuto() {
 	log.debug "fanAuto"
 	sendEvent("name":"thermostatFanMode", "value":"fanAuto")
 	"st wattr 0x${device.deviceNetworkId} 1 0x202 0 0x30 {05}"
 }
 def configure() {
 	log.debug "binding to Thermostat cluster"
 	delayBetween([
        "zdo bind 0x${device.deviceNetworkId} 1 0x19 0x201 {${device.zigbeeId}} {}",
        //Cluster ID (0x0201 = Thermostat Cluster), Attribute ID, Data Type, Payload (Min report, Max report, On change trigger)
        zigbee.configureReporting(0x0201, 0x0000, 0x29, 10, 60, 50), 	//Attribute ID 0x0000 = local temperature, Data Type: S16BIT
    	zigbee.configureReporting(0x0201, 0x0012, 0x29, 1, 0, 50),  	//Attribute ID 0x0012 = occupied heat setpoint, Data Type: S16BIT
        zigbee.configureReporting(0x0201, 0x001C, 0x30, 1, 0, 1),   	//Attribute ID 0x001C = system mode, Data Type: 8 bits enum
        zigbee.configureReporting(0x0201, 0x401C, 0x30, 1, 0, 1),   	//Attribute ID 0x401C = manufacturer specific setpoint mode, Data Type: 8 bits enum
        zigbee.configureReporting(0x0201, 0x0008, 0x20, 300, 900, 5),   //Attribute ID 0x0008 = pi heating demand, Data Type: U8BIT
        //Cluster ID (0x0204 = Thermostat Ui Conf Cluster), Attribute ID, Data Type, Payload (Min report, Max report, On change trigger)
        zigbee.configureReporting(0x0204, 0x0000, 0x30, 1, 0, 1),   //Attribute ID 0x0000 = temperature display mode, Data Type: 8 bits enum
    	zigbee.configureReporting(0x0204, 0x0001, 0x30, 1, 0, 1),   //Attribute ID 0x0001 = keypad lockout, Data Type: 8 bits enum
        //Read the configured variables
        zigbee.readAttribute(0x201, 0x0000),	//Read Local Temperature
    	zigbee.readAttribute(0x201, 0x0012),	//Read Heat Setpoint
        zigbee.readAttribute(0x201, 0x001C),	//Read System Mode
        my_readAttribute(0x201, 0x401C, ["mfgCode": "0x1185"]),	//Read Manufacturer Specific Setpoint Mode
        zigbee.readAttribute(0x201, 0x0008),	//Read PI Heating State
        zigbee.readAttribute(0x204, 0x0000),	//Read Temperature Display Mode
    	zigbee.readAttribute(0x204, 0x0001),	//Read Keypad Lockout
 	], 200)
 }
 def updated() {
 	log.debug "updated called"
    response(parameterSetting())
 }
 def parameterSetting() {
 	def format = null
    def lockmode = null
    def valid_format = 0
    def valid_lock = 0
    log.info "unitformat : $settings.unitformat"
    if (settings.unitformat == "Celsius") {
        format = 0x00
        valid_format = 1
    }
    else if (settings.unitformat == "Fahrenheit") {
        format = 0x01
        valid_format = 1
    }
    log.info "lock : $settings.lock"
    if (settings.lock == "Yes") {
        lockmode = 0x01
        valid_lock = 1
    }
    else if (settings.lock == "No") {
        lockmode = 0x00
        valid_lock = 1
    }
    if ((valid_format == 1) && (valid_lock == 1))
    {
    	log.info "both valid"
        delayBetween([
            zigbee.writeAttribute(0x204, 0x00, 0x30, format),	//Write Unit Format Mode
            zigbee.writeAttribute(0x204, 0x01, 0x30, lockmode),	//Write Lock Mode
            poll(),
        ], 200)
    }
    else if (valid_format == 1)
    {
    	log.info "format valid"
        delayBetween([
            zigbee.writeAttribute(0x204, 0x00, 0x30, format),	//Write Unit Format Mode
            poll(),
        ], 200)
    }
 	else if (valid_lock == 1)
    {
    	log.info "lock valid"
        delayBetween([
            zigbee.writeAttribute(0x204, 0x01, 0x30, lockmode),	//Write Lock Mode
            poll(),
        ], 200)
    }
    else
    {
    	log.info "nothing valid"
    }
 }
 private hex(value) {
 	new BigInteger(Math.round(value).toString()).toString(16)
 }
 private getEndpointId() {
    new BigInteger(device.endpointId, 16).toString()
 }
 private String swapEndianHex(String hex) {
    reverseArray(hex.decodeHex()).encodeHex()
 }
 private byte[] reverseArray(byte[] array) {
    int i = 0;
    int j = array.length - 1;
    byte tmp;
    while (j > i) {
        tmp = array[j];
        array[j] = array[i];
        array[i] = tmp;
        j--;
        i++;
    }
    return array
 }
 def my_readAttribute(cluster, attributeId, Map additional=null)
 {
    if (additional?.get("mfgCode")) {
        [ "zcl mfg-code ${additional['mfgCode']}", "delay 200",
          "zcl global read ${cluster} ${attributeId}", "delay 200",
          "send 0x${device.deviceNetworkId} 1 ${endpointId}" ] 
    } else {
        zigbee.readAttribute(cluster, attributeId)
    }
 }
 def my_writeAttribute(cluster, attributeId, dataType, value, Map additional=null)
 {
 	value = swapEndianHex(value)
    if (additional ?.get("mfgCode")) {
        [ "zcl mfg-code ${additional['mfgCode']}", "delay 200",
          "zcl global write ${cluster} ${attributeId} ${dataType} {${value}}", "delay 200",
          "send 0x${device.deviceNetworkId} 1 ${endpointId}" ]
    } else {
        zigbee.writeAttribute(cluster, attributeId, dataType, value)
    }
 }
--- a/smartapps/smartthings/hue-connect.src/hue-connect.groovy
+++ b/smartapps/smartthings/hue-connect.src/hue-connect.groovy
@@ -1083,7 +1083,6 @@ def on(childDevice) {
 	log.debug "Executing 'on'"
 	def id = getId(childDevice)
 	updateInProgress()
 	createSwitchEvent(childDevice, "on")
 	put("lights/$id/state", [on: true])
 	return "Bulb is turning On"
 }
@@ -1092,7 +1091,6 @@ def off(childDevice) {
 	log.debug "Executing 'off'"
 	def id = getId(childDevice)
 	updateInProgress()
 	createSwitchEvent(childDevice, "off")
 	put("lights/$id/state", [on: false])
 	return "Bulb is turning Off"
 }
@@ -1108,8 +1106,6 @@ def setLevel(childDevice, percent) {
 	else
 		level = Math.min(Math.round(percent * 254 / 100), 254)
 	createSwitchEvent(childDevice, level > 0, percent)
 	// For Zigbee lights, if level is set to 0 ST just turns them off without changing level
 	// that means that the light will still be on when on is called next time
 	// Lets emulate that here
@@ -1128,7 +1124,6 @@ def setSaturation(childDevice, percent) {
 	// 0 - 254
 	def level = Math.min(Math.round(percent * 254 / 100), 254)
 	// TODO should this be done by app only or should we default to on?
 	createSwitchEvent(childDevice, "on")
 	put("lights/$id/state", [sat: level, on: true])
 	return "Setting saturation to $percent"
 }
@@ -1140,7 +1135,6 @@ def setHue(childDevice, percent) {
 	// 0 - 65535
 	def level = Math.min(Math.round(percent * 65535 / 100), 65535)
 	// TODO should this be done by app only or should we default to on?
 	createSwitchEvent(childDevice, "on")
 	put("lights/$id/state", [hue: level, on: true])
 	return "Setting hue to $percent"
 }
@@ -1151,7 +1145,6 @@ def setColorTemperature(childDevice, huesettings) {
 	updateInProgress()
 	// 153 (6500K) to 500 (2000K)
 	def ct = hueSettings == 6500 ? 153 : Math.round(1000000 / huesettings)
 	createSwitchEvent(childDevice, "on")
 	put("lights/$id/state", [ct: ct, on: true])
 	return "Setting color temperature to $ct"
 }
@@ -1210,7 +1203,6 @@ def setColor(childDevice, huesettings) {
 	if (huesettings.switch == "off")
 		value.on = false
 	createSwitchEvent(childDevice, value.on ? "on" : "off")
 	put("lights/$id/state", value)
 	return "Setting color to $value"
 }
@@ -1322,32 +1314,6 @@ private List getRealHubFirmwareVersions() {
 	return location.hubs*.firmwareVersionString.findAll { it }
 }
 /**
 * Sends appropriate turningOn/turningOff state events depending on switch or level changes.
 *
 * @param childDevice device to send event for
 * @param setSwitch The new switch state, "on" or "off"
 * @param setLevel Optional, switchLevel between 0-100, used if you set level to 0 for example since
 * 				  that should generate "off" instead of level change
 */
 private void createSwitchEvent(childDevice, setSwitch, setLevel = null) {
 	if (setLevel == null) {
 		setLevel = childDevice.device?.currentValue("level")
 	}
 	// Create on, off, turningOn or turningOff event as necessary
 	def currentState = childDevice.device?.currentValue("switch")
 	if ((currentState == "off" || currentState == "turningOff")) {
 		if (setSwitch == "on" || setLevel > 0) {
 			childDevice.sendEvent(name: "switch", value: "turningOn", displayed: false)
 		}
 	} else if ((currentState == "on" || currentState == "turningOn")) {
 		if (setSwitch == "off" || setLevel == 0) {
 			childDevice.sendEvent(name: "switch", value: "turningOff", displayed: false)
 		}
 	}
 }
 /**
 * Return the supported color range for different Hue lights. If model is not specified
 * it defaults to the smallest Gamut (B) to ensure that colors set on a mix of devices
Author	SHA1	Message	Date
Jean-François Many	da708c5430	MSA-2027: Removed setpoint value tile since the tile does not support text on multiple lines anymore	2017-06-08 08:01:41 -07:00
Vinay Rao	320c8918f8	Merge pull request #2075 from lymanepp/master MSA-2076: Fix debug message	2017-06-07 15:32:43 -07:00
Lyman Epp	0f3656cd12	Fix debug message	2017-06-07 12:22:33 -05:00
Vinay Rao	c391ce4b43	Merge pull request #2073 from SmartThingsCommunity/staging Rolling down staging to master	2017-06-06 11:55:16 -07:00
Vinay Rao	073bac8dac	Merge pull request #2069 from larsfinander/DVCSMP-2688_Remove_sending_turningOn_Off_events_staging DVCSMP-2688 Remove sending turningOn/Off events	2017-06-06 11:50:59 -07:00
Vinay Rao	3c83bfb53b	Merge pull request #2071 from SmartThingsCommunity/production Rolling down production to staging	2017-06-06 11:34:24 -07:00
Lars Finander	945a972082	DVCSMP-2688 Remove sending turningOn/Off events -Removed createSwitchEvent()	2017-06-05 16:50:03 -06:00
Tom Manley	535fc112de	Merge pull request #2055 from jmagnuson/DVCSMP-2537 DVCSMP-2537 Add CRC16 un-encapsulation to Z-Wave switches	2017-06-02 16:36:50 -05:00
Jon Magnuson	a844e85c47	Remove extra comment slash	2017-06-02 16:25:04 -05:00
Tom Manley	b65acdb91f	Merge pull request #2060 from varzac/aeon-multisensor-gen5 [DVCSMP-2680] Correctly configure Aeon Multisensor Gen5	2017-06-02 12:02:59 -05:00
Vinay Rao	4067e6e7e2	Merge pull request #2058 from juano2310/jumping_fix ICP-1124 - Sylvania SMART BR30 RGBW ' s color ticker moving randomly	2017-06-01 17:40:42 -07:00
Zach Varberg	4c6d1eddb2	Correctly configure Aeon Multisensor Gen5 Previously this device had been changed to use configureAfterSecure to work around the secure inclusion for Z-Wave. However, support was added hub side for handling this so it needed to be changed back to using the normal configure process. This resolves: https://smartthings.atlassian.net/browse/DVCSMP-2680	2017-06-01 08:28:12 -05:00
Vinay Rao	10d2097ebe	Merge pull request #2065 from bflorian/MSA-1951-1-production-fingerprint MSA-1951 added second Inovelli fingerprint	2017-05-31 17:35:00 -07:00
Bob Florian	d3728d95b2	MSA-1951 added second Inovelli fingerprint	2017-05-31 16:45:55 -07:00
Vinay Rao	60f6e9c02c	Merge pull request #2064 from SmartThingsCommunity/staging Rolling down staging to master	2017-05-31 13:56:22 -07:00
Vinay Rao	b645872d8f	Merge pull request #2063 from SmartThingsCommunity/staging Rolling up staging to production	2017-05-31 13:42:12 -07:00
Vinay Rao	d3731b49fe	Merge pull request #2062 from SmartThingsCommunity/production Rolling down production to staging	2017-05-31 11:44:22 -07:00
Vinay Rao	da139056e1	Merge pull request #2047 from dkirker/ICP-1076 ICP-1076 Fix Aeon Door/Window Sensor 6 initial value of null	2017-05-31 11:24:20 -07:00
Donald Kirker	d864c5e3b3	ICP-1076 Fix Aeon Door/Window Sensor 6 initial value of null	2017-05-31 11:00:43 -07:00
juano2310	74a35eeddb	ICP-1124 - Sylvania SMART BR30 RGBW ' s color ticker moving randomly state overwrite: true	2017-05-30 18:18:22 -04:00
Vinay Rao	7064ce972a	Merge pull request #2048 from dkirker/ICP-1016 ICP-1016 Fix default value for states for Aeon Siren Gen5	2017-05-30 11:53:51 -07:00
Vinay Rao	936ee59242	Merge pull request #2056 from jackchi/zwave-lock-1hr-ping [DHF-7] [ICP-1084] Adds scheduled 1 hr ping for offline devices	2017-05-30 00:27:24 -07:00
jackchi	79a6a6472e	[DHF-7] [ICP-1084] Adds scheduled 1 hr ping for offline devices; updates checkInterval to 1 hour	2017-05-29 11:02:48 -07:00
bflorian	919111ed22	Merge pull request #2051 from bflorian/MSA-1951-1-staging MSA-1951 Added Inovelli 2-Channel Smart Plug	2017-05-26 13:55:20 -04:00
Bob Florian	fc1f1508ad	MSA-1951 Added Inovelli 2-Channel Smart Plug	2017-05-26 13:38:45 -04:00
Donald Kirker	7f3cd0cdaa	ICP-1016 Fix default value for states for Aeon Siren Gen5	2017-05-26 01:39:05 -07:00
Vinay Rao	423c25df53	Merge pull request #2045 from workingmonk/hotfix/siren ICP-1056 Updating the icon and ocf device type for fortrezz siren	2017-05-25 17:17:48 -07:00
Vinay Rao	df8e435fcc	ICP-1056 Updating the icon and ocf device type for fortrezz siren	2017-05-25 17:09:54 -07:00
Jon Magnuson	8aceef9be4	Add CRC16 un-encapsulation to Z-Wave switches Fixes DVCSMP-2663 and DVCSMP-2537.	2017-05-25 17:07:12 -05:00
Vinay Rao	144314d9ae	Merge pull request #2042 from twack/ocf-update-fortrezz-siren ICP-1056 ocf-update-fortrezz-siren	2017-05-25 11:04:17 -07:00
Vinay Rao	a1f39849ed	Merge pull request #2043 from SmartThingsCommunity/staging Rolling down staging to master	2017-05-25 10:58:53 -07:00
Vinay Rao	8eed22ca0c	Merge pull request #2041 from parijatdas/aeon-multisensor [CHF-616] Health check Aeon Multi sensor motion detector	2017-05-25 10:58:25 -07:00
twack	d626c5f2a1	ocf-update-fortrezz-siren	2017-05-25 07:57:19 -07:00
Parijat Das	1dae5d3936	Added health check implementation for Aeon MultiSensor	2017-05-25 18:56:38 +05:30
Vinay Rao	807ff53c6d	Merge pull request #2036 from SmartThingsCommunity/master Rolling up master to staging	2017-05-23 13:52:46 -07:00
Vinay Rao	453dbbdde3	Merge pull request #2034 from SmartThingsCommunity/staging Rolling up staging to production	2017-05-23 13:49:56 -07:00