MSA-2033: tcp

Rolling down staging to master

devicetypes/smartthings/bose-soundtouch.src/bose-soundtouch.groovy

@@ -1,3 +1,5 @@
+//DEPRECATED. INTEGRATION MOVED TO SUPER LAN CONNECT
+
 /**
  *  Bose SoundTouch
  *

devicetypes/smartthings/hue-bloom.src/hue-bloom.groovy

@@ -1,3 +1,5 @@
+//DEPRECATED. INTEGRATION MOVED TO SUPER LAN CONNECT
+
 /**
  *  Hue Bloom
  *

devicetypes/smartthings/hue-bridge.src/hue-bridge.groovy

@@ -1,3 +1,5 @@
+//DEPRECATED. INTEGRATION MOVED TO SUPER LAN CONNECT
+
 /**
  *  Hue Bridge
  *

devicetypes/smartthings/hue-bulb.src/hue-bulb.groovy

@@ -1,3 +1,5 @@
+//DEPRECATED. INTEGRATION MOVED TO SUPER LAN CONNECT
+
 /**
  *  Hue Bulb
  *

devicetypes/smartthings/hue-lux-bulb.src/hue-lux-bulb.groovy

@@ -1,3 +1,5 @@
+//DEPRECATED. INTEGRATION MOVED TO SUPER LAN CONNECT
+
 /**
  *  Hue Lux Bulb
  *

devicetypes/smartthings/hue-white-ambiance-bulb.src/hue-white-ambiance-bulb.groovy

@@ -1,3 +1,5 @@
+//DEPRECATED. INTEGRATION MOVED TO SUPER LAN CONNECT
+
 /**
  *  Hue White Ambiance Bulb
  *

devicetypes/smartthings/wemo-light-switch.src/wemo-light-switch.groovy

@@ -1,3 +1,5 @@
+//DEPRECATED. INTEGRATION MOVED TO SUPER LAN CONNECT
+
 /**
  *  Copyright 2015 SmartThings
  *

devicetypes/smartthings/wemo-motion.src/wemo-motion.groovy

@@ -1,3 +1,5 @@
+//DEPRECATED. INTEGRATION MOVED TO SUPER LAN CONNECT
+
 /**
  *  Copyright 2015 SmartThings
  *

devicetypes/smartthings/wemo-switch.src/wemo-switch.groovy

@@ -1,3 +1,5 @@
+//DEPRECATED. INTEGRATION MOVED TO SUPER LAN CONNECT
+
 /**
  *  Copyright 2015 SmartThings
  *

devicetypes/smartthings/zigbee-dimmer.src/zigbee-dimmer.groovy

@@ -66,22 +66,29 @@ def parse(String description) {
         else {
             sendEvent(event)
         }
-    }
-    else {
-        def cluster = zigbee.parse(description)
-
-        if (cluster && cluster.clusterId == 0x0006 && cluster.command == 0x07) {
-            if (cluster.data[0] == 0x00) {
+    } else {
+        def descMap = zigbee.parseDescriptionAsMap(description)
+        if (descMap && descMap.clusterInt == 0x0006 && descMap.commandInt == 0x07) {
+            if (descMap.data[0] == "00") {
                 log.debug "ON/OFF REPORTING CONFIG RESPONSE: " + cluster
                 sendEvent(name: "checkInterval", value: 60 * 12, displayed: false, data: [protocol: "zigbee", hubHardwareId: device.hub.hardwareID])
-            }
-            else {
+            } else {
                 log.warn "ON/OFF REPORTING CONFIG FAILED- error code:${cluster.data[0]}"
             }
-        }
-        else {
+        } else if (device.getDataValue("manufacturer") == "sengled" && descMap && descMap.clusterInt == 0x0008 && descMap.attrInt == 0x0000) {
+            // This is being done because the sengled element touch/classic incorrectly uses the value 0xFF for the max level.
+            // Per the ZCL spec for the UINT8 data type 0xFF is an invalid value, and 0xFE should be the max.  Here we
+            // manually handle the invalid attribute value since it will be ignored by getEvent as an invalid value.
+            // We also set the level of the bulb to 0xFE so future level reports will be 0xFE until it is changed by
+            // something else.
+            if (descMap.value.toUpperCase() == "FF") {
+                descMap.value = "FE"
+            }
+            sendHubCommand(zigbee.command(zigbee.LEVEL_CONTROL_CLUSTER, 0x00, "FE0000").collect { new physicalgraph.device.HubAction(it) }, 0)
+            sendEvent(zigbee.getEventFromAttrData(descMap.clusterInt, descMap.attrInt, descMap.encoding, descMap.value))
+        } else {
             log.warn "DID NOT PARSE MESSAGE for description : $description"
-            log.debug "${cluster}"
+            log.debug "${descMap}"
         }
     }
 }

devicetypes/stelpro/stelpro-ki-thermostat.src/stelpro-ki-thermostat.groovy

@@ -1,537 +0,0 @@
-/**
- *  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"
-}

devicetypes/stelpro/stelpro-ki-zigbee-thermostat.src/stelpro-ki-zigbee-thermostat.groovy

@@ -1,651 +0,0 @@
-/**
- *  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)
-    }
-}
-

smartapps/mujica/tcp-bulbs-connect.src/tcp-bulbs-connect.groovy

@@ -0,0 +1,412 @@
+/**
+ *  Copyright 2015 SmartThings
+ *
+ *  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.
+ *
+ */
+
+definition(
+	name: "Tcp Bulbs (Connect)",
+	namespace: "mujica",
+	author: "SmartThings-Ule",
+	description: "Connect your TCP bulbs to SmartThings using local integration. You must have a geteway with firmware ver 2",
+	category: "SmartThings Labs",
+	iconUrl: "https://s3.amazonaws.com/smartapp-icons/Partner/tcp.png",
+	iconX2Url: "https://s3.amazonaws.com/smartapp-icons/Partner/tcp@2x.png",
+	singleInstance: true
+)
+
+
+preferences {
+	page(name: "iniSettings", title: "Connect Your TCP Lights to SmartThings", content: "iniSettings")
+	page(name: "chooseBulbs", title: "Choose Bulbs to Control With SmartThings", content: "bulbDiscovery")
+}
+
+def iniSettings(){
+	state.loadStatus = "Inactive"
+    log.trace "state.loadStatus ${state.loadStatus}"
+    return dynamicPage(name:"iniSettings", title:"Connect Your TCP Lights to SmartThings", nextPage:"chooseBulbs", install:false, uninstall: true) {
+       section("TCP Connected Remote Credentials") {
+			input "ipGateway", "text", title: "Enter TCP Gateway IP", required: true
+			paragraph "Tap 'Next' after you have entered the ip of your TCP Connected Gateway.\r\n\r\nOnce your ip are accepted, SmartThings will scan your TCP installation for Bulbs."
+		}
+    }
+}
+
+def bulbDiscovery() {
+	debugOut "bulbDiscovery()"
+	//getToken()
+	state.token = "1234567890"
+    
+    if (state.loadStatus == "Inactive"){
+    	state.count = 0
+    	state.loadStatus = "Loading"
+        log.trace "state.loadStatus ${state.loadStatus}"
+    	deviceDiscovery()
+    }
+    log.trace "state.count ${state.count}"
+    state.count = state.count + 1 
+    log.trace "state.count ${state.count}"
+    if(state.loadStatus == "Loaded" ){
+        def options = devicesDiscovered() ?: []
+		log.trace "state.loadStatus ${state.loadStatus}"
+        return dynamicPage(name:"chooseBulbs", title:"", nextPage:"", install:true, uninstall: true) {
+            section("Tap Below to View Device List") {
+                input "selectedBulbs", "enum", required:false, title:"Select Bulb", multiple:true, options:options
+                paragraph """Tap 'Done' after you have selected the desired devices."""
+            }
+        }
+    }else{
+    	if (state.count)
+    
+    	log.trace "state.loadStatus ${state.loadStatus}"
+        def msg = state.count >= 3 ? "The TCP Gateway is not responding, please verify the ip address" : "Please wait while we discover your devices. Discovery can take some minutes or more, so sit back and relax! Select your device below once discovered."
+        return dynamicPage(name:"chooseBulbs", title:"", nextPage:"", refreshInterval:5) {
+            section(msg) {}
+        }
+    }
+}
+
+
+def installed() {
+	debugOut "Installed with settings: ${settings}"
+
+	unschedule()
+	unsubscribe()
+
+	setupBulbs()
+
+	def cron = "0 0/1 * * * ?"
+	log.debug "schedule('$cron', syncronizeDevices)"
+	schedule(cron, syncronizeDevices)
+}
+
+def updated() {
+	debugOut "Updated with settings: ${settings}"
+	unschedule()
+	setupBulbs()
+	def cron = "0 0/1 * * * ?"
+	log.debug "schedule('$cron', syncronizeDevices)"
+	schedule(cron, syncronizeDevices)
+}
+
+def uninstalled()
+{
+	unschedule() //in case we have hanging runIn()'s
+}
+
+private removeChildDevices(delete)
+{
+	debugOut "deleting ${delete.size()} bulbs"
+	debugOut "deleting ${delete}"
+	delete.each {
+		deleteChildDevice(it.device.deviceNetworkId)
+	}
+}
+
+def uninstallFromChildDevice(childDevice)
+{
+	def errorMsg = "uninstallFromChildDevice was called and "
+	if (!settings.selectedBulbs) {
+		debugOut errorMsg += "had empty list passed in"
+		return
+	}
+
+	def dni = childDevice.device.deviceNetworkId
+
+	if ( !dni ) {
+		debugOut errorMsg += "could not find dni of device"
+		return
+	}
+
+	def newDeviceList = settings.selectedBulbs - dni
+	app.updateSetting("selectedBulbs", newDeviceList)
+	debugOut errorMsg += "completed succesfully"
+}
+
+
+def setupBulbs() {
+	debugOut "setupBulbs()"
+	def bulbs = state.devices
+	def deviceFile = "TCP Bulb"
+
+	selectedBulbs.each { did ->
+		//see if this is a selected bulb and install it if not already
+		def d = getChildDevice(did)
+
+		if(!d) {
+			def newBulb = bulbs.find { (it.did) == did }
+			d = addChildDevice("mujica", deviceFile, did, null, [name: "${newBulb?.name}", label: "${newBulb?.name}", completedSetup: true,"data":["model":newBulb?.model,"nodetype":newBulb?.nodetype,"node":newBulb?.node,"dni":did]])
+		} else {
+			infoOut "Avoid add existent device ${did}"
+		}
+	}
+	def delete = getChildDevices().findAll { !selectedBulbs?.contains(it.deviceNetworkId) }
+	removeChildDevices(delete)
+}
+
+
+def deviceDiscovery() {
+	log.trace "deviceDiscovery()"
+	def data = "<gip><version>1</version><token>${state.token}</token></gip>"
+
+	def Params = [
+		cmd: "RoomGetCarousel",
+		data: "${data}",
+		fmt: "json"
+	]
+
+	def cmd = toQueryString(Params)
+
+	debugOut "deviceDiscovery()"
+
+	apiGet(cmd,"RoomGetCarouselHandler")
+}
+
+def apiGet(String data, String calledBackHandler) {
+	debugOut "apiGet($data, $calledBackHandler) $ipGateway"
+    sendHubCommand(new physicalgraph.device.HubAction([
+		method: "GET",
+		path: "/gwr/gop.php?$data",
+		headers: [
+			HOST: "$ipGateway:80"
+		]], getNetworkId("$ipGateway","80"), [callback: calledBackHandler]))
+}
+
+
+void SendCommandHandler(physicalgraph.device.HubResponse hubResponse){
+	debugOut "SendCommandHandler($hubResponse)"
+    debugOut "hubResponse.body ${hubResponse.body}"
+}
+void RoomGetCarouselHandler(physicalgraph.device.HubResponse hubResponse){
+	debugOut "RoomGetCarouselHandler($hubResponse)"
+    def bodyXml
+
+    if (hubResponse?.body?.contains("<gip>"))
+    { // description.xml response (application/xml)
+        debugOut "body contains xml"
+        bodyXml = new XmlSlurper().parseText(hubResponse.body)
+        debugOut "bodyXml $bodyXml"
+    }
+        
+
+	def rooms = ""
+	def devices = []
+	def deviceList = []
+
+
+	rooms = bodyXml.room
+    
+    
+    debugOut "rooms ${rooms[1]}"
+
+    rooms.each({
+        devices  = it.device
+        debugOut "it.device ${it.device}"
+        def roomName = it.name
+        debugOut "roomName = ${it.name}"
+        debugOut "devices[1] ${devices[1]}"
+        debugOut "devices[1] != null"
+        def roomId = it?.rid
+        debugOut "Room Device Data: did:${roomId} roomName:${roomName}"
+        devices.each({
+            debugOut "Bulb Device Data: did:${it?.did} room:${roomName} BulbName:${it?.name}"
+            deviceList += ["name" : "${roomName} ${it?.name}", "did" : "${it?.did}", "type" : "${devices?.type}", "node" : "${devices?.node}", "nodetype" : "${devices?.nodetype}", "model" : "${devices?.prodmodel}"]
+        })
+    })
+
+	devices = ["devices" : deviceList]
+    debugOut "devices $devices"
+	state.devices = devices.devices
+    state.loadStatus = "Loaded"
+}
+
+def getDevices()
+{
+	state.devices = state.devices ?: [:]
+}
+
+void RoomGetCarouselUpdateHandler(physicalgraph.device.HubResponse hubResponse){
+	debugOut "RoomGetCarouselUpdateHandler($hubResponse)"
+    
+   
+    debugOut "msg ${parseLanMessage(hubResponse.body)}"
+    
+    def bodyXml
+
+    if (hubResponse?.body?.contains("<gip>"))
+    { 
+        debugOut "body contains xml"
+        bodyXml = new XmlSlurper().parseText(hubResponse.body)
+    }
+        
+
+	def rooms = ""
+	def devices = []
+	def deviceList = []
+
+	rooms = bodyXml.room
+
+    rooms.each({
+        devices  = it.device
+        devices.each({
+        	def dni = it.did.text()
+        	def bulb = getChildDevice(dni)
+            if ( bulb ){
+                def power = it.power ? it.power.text() as float :0
+                sendEvent( dni, [name: "power", value: power*1000] )
+                if (( it.state.text() == "1" ) && ( bulb?.currentValue("switch") != "on" ))
+                    sendEvent( dni, [name: "switch",value:"on"] )
+
+                if (( it.state.text() == "0" ) && ( bulb?.currentValue("switch") != "off" ))
+                    sendEvent( dni, [name: "switch",value:"off"] )
+
+                if ( it.level.text() != bulb?.currentValue("level")) {
+                	sendEvent( dni, [name: "level",value: "${it.level.text()}"] )
+                    sendEvent( dni, [name: "setLevel",value: "${it.level.text()}"] )
+                }
+        	}
+        })
+    })
+}
+
+Map devicesDiscovered() {
+	def devices =  state.devices
+	def map = [:]
+	if (devices instanceof java.util.Map) {
+		devices.each {
+			def value = "${it?.name}"
+			def key = it?.did
+			map["${key}"] = value
+		}
+	} else { //backwards compatable
+		devices.each {
+			def value = "${it?.name}"
+			def key = it?.did
+			map["${key}"] = value
+		}
+	}
+	map
+}
+
+def getToken() {
+
+	state.token = "1234567890"
+}
+
+String toQueryString(Map m) {
+	return m.collect { k, v -> "${k}=${URLEncoder.encode(v.toString())}" }.sort().join("&")
+}
+
+def syncronizeDevices() {
+    poll(null)
+}
+
+def getNetworkId(ipaddr, port) {
+    "${ipaddr.tokenize('.').collect {String.format('%02X', it.toInteger())}.join()}:${String.format('%04X', port.toInteger())}"
+}
+
+/**************************************************************************
+ Child Device Call In Methods
+ **************************************************************************/
+def on(childDevice) {
+
+	def dni = childDevice.device.deviceNetworkId
+	def data = ""
+	def cmd = ""
+
+    data = "<gip><version>1</version><token>$state.token</token><did>${dni}</did><type>power</type><value>1</value></gip>"
+    cmd = "DeviceSendCommand"
+
+	def qParams = [
+		cmd: cmd,
+		data: "${data}",
+		fmt: "json"
+	]
+
+	cmd = toQueryString(qParams)
+	apiGet(cmd,"SendCommandHandler" )
+}
+
+def off(childDevice) {
+
+	def dni = childDevice.device.deviceNetworkId
+	def data = ""
+	def cmd = ""
+
+    data = "<gip><version>1</version><token>$state.token</token><did>${dni}</did><type>power</type><value>0</value></gip>"
+    cmd = "DeviceSendCommand"
+
+	def qParams = [
+		cmd: cmd,
+		data: "${data}",
+		fmt: "json"
+	]
+
+	cmd = toQueryString(qParams)
+	apiGet(cmd,"SendCommandHandler") 
+
+}
+
+def setLevel(childDevice, value) {
+	debugOut "setLevel request from child device"
+
+	def dni = childDevice.device.deviceNetworkId
+	def data = ""
+	def cmd = ""
+
+    data = "<gip><version>1</version><token>${state.token}</token><did>${dni}</did><type>level</type><value>${value}</value></gip>"
+    cmd = "DeviceSendCommand"
+
+
+	def qParams = [
+		cmd: cmd,
+		data: "${data}",
+		fmt: "json"
+	]
+
+	cmd = toQueryString(qParams)
+
+	apiGet(cmd,"SendCommandHandler") 
+}
+
+def poll(childDevice) {
+	infoOut "poll()"
+	def eventTime = new Date().time
+    if ((state.lastPollTime ?:0) + 10000  <=  eventTime ){
+    	state.lastPollTime = new Date().time
+        def Params = [
+            cmd: "RoomGetCarousel",
+            data: "<gip><version>1</version><token>${state.token}</token></gip>",
+            fmt: "json"
+        ]
+        def cmd = toQueryString(Params)
+        apiGet(cmd,"RoomGetCarouselUpdateHandler")
+    }else{
+    	infoOut "Multiple poll requests avoided"
+    }
+}
+
+
+/**************************************************************************
+ Msg Methods
+ **************************************************************************/
+
+def debugOut(msg) {
+	//log.debug msg
+}
+
+def traceOut(msg) {
+	log.trace msg
+}
+
+def infoOut(msg) {
+	log.info msg
+}

smartapps/smartthings/bose-soundtouch-connect.src/bose-soundtouch-connect.groovy

@@ -1,3 +1,5 @@
+//DEPRECATED. INTEGRATION MOVED TO SUPER LAN CONNECT
+
 /**
  *  Bose SoundTouch (Connect)
  *

smartapps/smartthings/hue-connect.src/hue-connect.groovy

@@ -1,3 +1,5 @@
+//DEPRECATED. INTEGRATION MOVED TO SUPER LAN CONNECT
+
 /**
  *  Hue Service Manager
  *

smartapps/smartthings/wemo-connect.src/wemo-connect.groovy

@@ -1,3 +1,5 @@
+//DEPRECATED. INTEGRATION MOVED TO SUPER LAN CONNECT
+
 /**
  *  Copyright 2015 SmartThings
  *