Fibaro Devices with No Built In Driver

I hope this OK @mike.maxwell If not I will delete it.
This thread is for Fibaro devices that we do not have 'in-built' drivers for.
Please keep this thread to just that and let's try not to get off topic.
Hopefully we can then get the HE guys to have a look and maybe get support for these devices.

I'll kick it off with the FGS-222.
This is a z-wave double relay switch.
Currently this works OK on any hub apart from the C7.
The driver used is below and when defined, an app called 'Virtual Device Sync' is used to define the 2 switches.

FGS-222 driver.
/**
*
* Fibaro FGS-222 Double Relay Switch Device Type - For use on Hubitat
*
* Author: Robin Winbourne
* Date: 2018-03-24
*/

metadata {
definition (name: "Fibaro FGS-222 Double Relay Switch", namespace: "hubitat", author: "Robin Winbourne") {
capability "Switch"
capability "Relay Switch"
capability "Polling"
capability "Configuration"
capability "Refresh"
//capability "Zw Multichannel"

attribute "switch1", "string"
attribute "switch2", "string"

command "on1"
command "off1"
command "on2"
command "off2"
    
command "updateSingleParam" // This custom command can be used with Rule Machine or webCoRE, to send parameter values (paramNr & paramvalue) to the device

fingerprint deviceId: "0x1001", inClusters:"0x86, 0x72, 0x85, 0x60, 0x8E, 0x25, 0x20, 0x70, 0x27"

}
    
   preferences {
        input name: "param1", type: "enum", defaultValue: "255", required: true,
            title: "Parameter No. 1 - Activate / deactivate functions ALL ON / ALL OFF. Default value: 255.",
       		options: [
                    ["255" : "255 - ALL ON active, ALL OFF active"],
                    ["0" : "0 - ALL ON is not active ALL OFF is not active"],
                    ["1" : "1 - ALL ON is not active ALL OFF active"],
                    ["2" : "2 - ALL ON active ALL OFF is not active"]
                ]
       
        input name: "param3", type: "enum", defaultValue: "0", required: true,
            title: "Parameter No. 3 - Auto off relay after specified time, with the possibility of manual override - immediate Off after button push. Default value: 0.",
       		options: [
                    ["0" : "0 - Manual override disabled"],
                    ["1" : "1 - Manual override enabled"]
                ]

		input name: "param4", type: "number", range: "0..65535", defaultValue: "0", required: true,
            title: "Parameter No. 4 - Auto off for relay 1.  " +
                   "Available settings:\n" +
                   "[1 - 65535] (0,1 s – 6553,5 s) Time period for auto off, in miliseconds,\n" +
                   "0 - Auto off disabled.\n" +
                   "Default value: 0."

		input name: "param5", type: "number", range: "0..65535", defaultValue: "0", required: true,
            title: "Parameter No. 5 - Auto off for relay 2.  " +
                   "Available settings:\n" +
                   "[1 - 65535] (0,1 s – 6553,5 s) Time period for auto off, in miliseconds,\n" +
                   "0 - Auto off disabled.\n" +
                   "Default value: 0."

		input name: "param6", type: "enum", defaultValue: "0", required: true,
            title: "Parameter No. 6 - Sending commands to control devices assigned to 1st association group (key no. 1). " +
                   "NOTE: Parameter 15 value must be set to 1 to work properly. Default value: 0.",
       		options: [
                    ["0" : "0 - Commands are sent when device is turned on and off"],
                    ["1" : "1 - Commands are sent when device is turned off"],
                	["2" : "2 - Commands are sent when device is turned off"]
                ]

       		input name: "param7", type: "enum", defaultValue: "0", required: true,
            title: "Parameter No. 7 - Sending commands to control devices assigned to 2nd association group (key no. 2). " +
                   "NOTE: Parameter 15 value must be set to 1 to work properly. Default value: 0.",
       		options: [
                    ["0" : "0 - Commands are sent when device is turned on and off"],
                    ["1" : "1 - Commands are sent when device is turned off"],
                	["2" : "2 - Commands are sent when device is turned off"]
                ]

		input name: "param13", type: "enum", defaultValue: "0", required: true,
            title: "Parameter No. 13 - Assigns bistable key status to the device. Default value: 0.",
       		options: [
                    ["0" : "0 - Device changes status on key status change"],
                    ["1" : "1 - Device status depends on key status: ON when the key is ON"]
                ]

		input name: "param14", type: "enum", defaultValue: "1", required: true,
            title: "Parameter No. 14 - Switch type connector, you may choose between momentary and toggle switches. Default value: 1.",
       		options: [
                    ["0" : "0 - Momentary switch"],
                    ["1" : "1 - Toggle switch"]
                ]

		input name: "param15", type: "enum", defaultValue: "0", required: true,
            title: "Parameter No. 15 - Operation of the Dimmer and Roller Shutter Controller - enabling this option allows the user to dim lighting/shut roller by associating Dimmer/Roller Shutter Controller and holding or double press of double switch (only mono-stable switch). Default value: 0.",
       		options: [
                    ["0" : "0 - Dimmer/Roller Shutter Controller control is not active"],
                    ["1" : "1 - Dimmer/Roller Shutter Controller control is active"]
                ]

		input name: "param16", type: "enum", defaultValue: "1", required: true,
            title: "Parameter No. 16 - Saving the state of the device after a power failure. Default value: 1.",
       		options: [
                    ["0" : "0 - Switch returns to 'off' position"],
                    ["1" : "1 - Switch saves its state before power failure"]
                ]

        input name: "param30", type: "enum", defaultValue: "3", required: true,
            title: "Parameter No. 30 - Relay 1 - Response to General Alarm. Default value: 3.",
       		options: [
                    ["0" : "0 - Switch does not respond to alarm"],
                    ["1" : "1 - Switch turns on after detecting an alarm"],
                	["2" : "2 - Switch turns off after detecting an alarm"],
                	["3" : "3 - Switch flashes after detecting an alarm"]
                ]

     	input name: "param31", type: "enum", defaultValue: "2", required: true,
            title: "Parameter No. 31 - Relay 1 - Response to Flood Alarm. Default value: 2.",
       		options: [
                    ["0" : "0 - Switch does not respond to alarm"],
                    ["1" : "1 - Switch turns on after detecting an alarm"],
                	["2" : "2 - Switch turns off after detecting an alarm"],
                	["3" : "3 - Switch flashes after detecting an alarm"]
                ]
               
       input name: "param32", type: "enum", defaultValue: "3", required: true,
            title: "Parameter No. 32 - Relay 1 - Response to Smoke, CO, CO2 Alarm. Default value: 3.",
       		options: [
                    ["0" : "0 - Switch does not respond to alarm"],
                    ["1" : "1 - Switch turns on after detecting an alarm"],
                	["2" : "2 - Switch turns off after detecting an alarm"],
                	["3" : "3 - Switch flashes after detecting an alarm"]
                ]
       
       input name: "param33", type: "enum", defaultValue: "1", required: true,
            title: "Parameter No. 33 - Relay 1 - Response to Temperature Alarm. Default value: 1.",
       		options: [
                    ["0" : "0 - Switch does not respond to alarm"],
                    ["1" : "1 - Switch turns on after detecting an alarm"],
                	["2" : "2 - Switch turns off after detecting an alarm"],
                	["3" : "3 - Switch flashes after detecting an alarm"]
                ]

    	input name: "param40", type: "enum", defaultValue: "3", required: true,
            title: "Parameter No. 40 - Relay 2 - Response to General Alarm. Default value: 3.",
       		options: [
                    ["0" : "0 - Switch does not respond to alarm"],
                    ["1" : "1 - Switch turns on after detecting an alarm"],
                	["2" : "2 - Switch turns off after detecting an alarm"],
                	["3" : "3 - Switch flashes after detecting an alarm"]
                ]

     	input name: "param41", type: "enum", defaultValue: "2", required: true,
            title: "Parameter No. 41 - Relay 2 - Response to Flood Alarm. Default value: 2.",
       		options: [
                    ["0" : "0 - Switch does not respond to alarm"],
                    ["1" : "1 - Switch turns on after detecting an alarm"],
                	["2" : "2 - Switch turns off after detecting an alarm"],
                	["3" : "3 - Switch flashes after detecting an alarm"]
                ]
               
       input name: "param42", type: "enum", defaultValue: "3", required: true,
            title: "Parameter No. 42 - Relay 2 - Response to Smoke, CO, CO2 Alarm. Default value: 3.",
       		options: [
                    ["0" : "0 - Switch does not respond to alarm"],
                    ["1" : "1 - Switch turns on after detecting an alarm"],
                	["2" : "2 - Switch turns off after detecting an alarm"],
                	["3" : "3 - Switch flashes after detecting an alarm"]
                ]
       
       input name: "param43", type: "enum", defaultValue: "1", required: true,
            title: "Parameter No. 43 - Relay 2 - Response to Temperature Alarm. Default value: 1.",
       		options: [
                    ["0" : "0 - Switch does not respond to alarm"],
                    ["1" : "1 - Switch turns on after detecting an alarm"],
                	["2" : "2 - Switch turns off after detecting an alarm"],
                	["3" : "3 - Switch flashes after detecting an alarm"]
                ]

		input name: "param39", type: "number", range: "0..65535", defaultValue: "600", required: true,
            title: "Parameter No. 39 - Active flashing alarm time. " +
            	   "This parameter allows to set time parameter used in timed modes.\n" +
                   "Available settings:\n" +
                   "[1-65535][ms].\n" +
                   "Default value: 600."
       
    input name: "paramAssociationGroup1", type: "bool", defaultValue: true, required: true,
             title: "The Fibaro Sigle Switch provides the association of three groups.\n\n" +
                    "1st group is assigned to key no. 1.\n" +
                    "Default value: true"

        input name: "paramAssociationGroup2", type: "bool", defaultValue: true, required: true,
             title: "2nd group is assigned to key no. 2.\n" +
                    "Default value: true"

        input name: "paramAssociationGroup3", type: "bool", defaultValue: false, required: true,
             title: "3rd group reports state of devices. Only one device can be associated to this group.\n" +
                    "Default value: false"
    }
}

def parse(String description) {
    def result = []
    def cmd = zwave.parse(description)
    if (cmd) {
        result += zwaveEvent(cmd)
        log.debug "Parsed ${cmd} to ${result.inspect()}"
    } else {
        log.debug "Non-parsed event: ${description}"
    }
    return result
}


def zwaveEvent(hubitat.zwave.commands.basicv1.BasicSet cmd) {
	sendEvent(name: "switch", value: cmd.value ? "on" : "off", type: "digital")
    def result = []
    result << zwave.multiChannelV4.multiChannelCmdEncap(sourceEndPoint:1, destinationEndPoint:1, commandClass:37, command:2).format()
    result << zwave.multiChannelV4.multiChannelCmdEncap(sourceEndPoint:1, destinationEndPoint:2, commandClass:37, command:2).format()
    response(delayBetween(result, 1000)) // returns the result of reponse()
}

def zwaveEvent(hubitat.zwave.commands.switchbinaryv1.SwitchBinaryReport cmd)
{
    sendEvent(name: "switch", value: cmd.value ? "on" : "off", type: "digital")
    def result = []
    result << zwave.multiChannelV4.multiChannelCmdEncap(sourceEndPoint:1, destinationEndPoint:1, commandClass:37, command:2).format()
    result << zwave.multiChannelV4.multiChannelCmdEncap(sourceEndPoint:1, destinationEndPoint:2, commandClass:37, command:2).format()
    response(delayBetween(result, 1000)) // returns the result of reponse()
}


def zwaveEvent(hubitat.zwave.commands.multichannelv4.MultiChannelCapabilityReport cmd) 
{
    log.debug "multichannelv4.MultiChannelCapabilityReport $cmd"
    if (cmd.endPoint == 2 ) {
        def currstate = device.currentState("switch2").getValue()
        if (currstate == "on")
        	sendEvent(name: "switch2", value: "off", isStateChange: true, display: false)
        else if (currstate == "off")
        	sendEvent(name: "switch2", value: "on", isStateChange: true, display: false)
    }
    else if (cmd.endPoint == 1 ) {
        def currstate = device.currentState("switch1").getValue()
        if (currstate == "on")
        sendEvent(name: "switch1", value: "off", isStateChange: true, display: false)
        else if (currstate == "off")
        sendEvent(name: "switch1", value: "on", isStateChange: true, display: false)
    }
}

def zwaveEvent(hubitat.zwave.commands.multichannelv4.MultiChannelCmdEncap cmd) {
   def map = [ name: "switch$cmd.sourceEndPoint" ]
    
   switch(cmd.commandClass) {
      case 32:
         if (cmd.parameter == [0]) {
            map.value = "off"
         }
         if (cmd.parameter == [255]) {
            map.value = "on"
         }
         createEvent(map)
         break
      case 37:
         if (cmd.parameter == [0]) {
            map.value = "off"
         }
         if (cmd.parameter == [255]) {
            map.value = "on"
         }
         break
    }
    def events = [createEvent(map)]
    if (map.value == "on") {
            events += [createEvent([name: "switch", value: "on"])]
    } else {
         def allOff = true
         (1..2).each { n ->
             if (n != cmd.sourceEndPoint) {
                 if (device.currentState("switch${n}").value != "off") allOff = false
             }
         }
         if (allOff) {
             events += [createEvent([name: "switch", value: "off"])]
         }
    }
    events
}

def zwaveEvent(hubitat.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
    return createEvent(descriptionText: "${device.displayName}: ${cmd}")
}

def zwaveEvent(hubitat.zwave.commands.switchallv1.SwitchAllReport cmd) {
   log.debug "SwitchAllReport $cmd"
}

def refresh() {
	def cmds = []
    cmds << zwave.manufacturerSpecificV2.manufacturerSpecificGet().format()
	cmds << zwave.multiChannelV4.multiChannelCmdEncap(sourceEndPoint:1, destinationEndPoint:1, commandClass:37, command:2).format()
    cmds << zwave.multiChannelV4.multiChannelCmdEncap(sourceEndPoint:1, destinationEndPoint:2, commandClass:37, command:2).format()
	delayBetween(cmds, 1000)
}

def zwaveEvent(hubitat.zwave.commands.manufacturerspecificv2.ManufacturerSpecificReport cmd) {
	def msr = String.format("%04X-%04X-%04X", cmd.manufacturerId, cmd.productTypeId, cmd.productId)
	log.debug "msr: $msr"
    updateDataValue("MSR", msr)
}

def poll() {
	def cmds = []
	cmds << zwave.multiChannelV4.multiChannelCmdEncap(sourceEndPoint:1, destinationEndPoint:1, commandClass:37, command:2).format()
    cmds << zwave.multiChannelV4.multiChannelCmdEncap(sourceEndPoint:1, destinationEndPoint:2, commandClass:37, command:2).format()
	delayBetween(cmds, 1000)
}

def configure() {
	log.debug "Executing 'configure'"
    delayBetween([
          zwave.configurationV1.configurationSet(parameterNumber:1, configurationValue:[param1.value]).format(),
          zwave.configurationV1.configurationSet(parameterNumber:3, configurationValue:[param3.value]).format(),
          zwave.configurationV1.configurationSet(parameterNumber:4, configurationValue:[param4.value]).format(),
          zwave.configurationV1.configurationSet(parameterNumber:5, configurationValue:[param5.value]).format(),
          zwave.configurationV1.configurationSet(parameterNumber:6, configurationValue:[param6.value]).format(),
          zwave.configurationV1.configurationSet(parameterNumber:7, configurationValue:[param7.value]).format(),
          zwave.configurationV1.configurationSet(parameterNumber:13, configurationValue:[param13.value]).format(),
          zwave.configurationV1.configurationSet(parameterNumber:14, configurationValue:[param14.value]).format(),
          zwave.configurationV1.configurationSet(parameterNumber:15, configurationValue:[param15.value]).format(),
          zwave.configurationV1.configurationSet(parameterNumber:16, configurationValue:[param16.value]).format(),
          zwave.configurationV1.configurationSet(parameterNumber:30, configurationValue:[param30.value]).format(),
          zwave.configurationV1.configurationSet(parameterNumber:31, configurationValue:[param31.value]).format(),
          zwave.configurationV1.configurationSet(parameterNumber:32, configurationValue:[param32.value]).format(),
          zwave.configurationV1.configurationSet(parameterNumber:33, configurationValue:[param33.value]).format(),
          zwave.configurationV1.configurationSet(parameterNumber:39, configurationValue:[param39.value]).format(),
          zwave.configurationV1.configurationSet(parameterNumber:40, configurationValue:[param40.value]).format(),
          zwave.configurationV1.configurationSet(parameterNumber:41, configurationValue:[param41.value]).format(),
          zwave.configurationV1.configurationSet(parameterNumber:42, configurationValue:[param42.value]).format(),
          zwave.configurationV1.configurationSet(parameterNumber:43, configurationValue:[param43.value]).format(),
          zwave.associationV2.associationSet(groupingIdentifier:1, nodeId:[zwaveHubNodeId]).format(),
          zwave.associationV2.associationSet(groupingIdentifier:2, nodeId:[zwaveHubNodeId]).format(),
          zwave.associationV2.associationSet(groupingIdentifier:3, nodeId:[zwaveHubNodeId]).format(),
    ])  
}

def updateSingleparam(paramNum, paramValue) {
	log.debug "Updating single Parameter (paramNum: $paramNum, paramValue: $paramValue)"
    	zwave.configurationV1.configurationSet(parameterNumber: paramNum, ConfigurationValue: paramValue)
}

/**
* Triggered when Save button is pushed on Preference UI
*/
def updated()
{
	log.debug "Preferences have been changed. Attempting configure()"
    def cmds = configure()
    response(cmds)
}
def on() { 
   delayBetween([
        zwave.switchAllV1.switchAllOn().format(),
        zwave.multiChannelV4.multiChannelCmdEncap(sourceEndPoint:1, destinationEndPoint:1, commandClass:37, command:2).format(),
        zwave.multiChannelV4.multiChannelCmdEncap(sourceEndPoint:1, destinationEndPoint:2, commandClass:37, command:2).format()
    ], 500)
}
def off() {
   delayBetween([
        zwave.switchAllV1.switchAllOff().format(),
        zwave.multiChannelV4.multiChannelCmdEncap(sourceEndPoint:1, destinationEndPoint:1, commandClass:37, command:2).format(),
        zwave.multiChannelV4.multiChannelCmdEncap(sourceEndPoint:1, destinationEndPoint:2, commandClass:37, command:2).format()
    ], 500)
}

def on1() {
    delayBetween([
        zwave.multiChannelV4.multiChannelCmdEncap(sourceEndPoint:1, destinationEndPoint:1, commandClass:37, command:1, parameter:[255]).format(),
        zwave.multiChannelV4.multiChannelCmdEncap(sourceEndPoint:1, destinationEndPoint:1, commandClass:37, command:2).format()
    ], 500)
}

def off1() {
    delayBetween([
        zwave.multiChannelV4.multiChannelCmdEncap(sourceEndPoint:1, destinationEndPoint:1, commandClass:37, command:1, parameter:[0]).format(),
        zwave.multiChannelV4.multiChannelCmdEncap(sourceEndPoint:1, destinationEndPoint:1, commandClass:37, command:2).format()
    ], 500)
}

def on2() {
    delayBetween([
        zwave.multiChannelV4.multiChannelCmdEncap(sourceEndPoint:2, destinationEndPoint:2, commandClass:37, command:1, parameter:[255]).format(),
        zwave.multiChannelV4.multiChannelCmdEncap(sourceEndPoint:2, destinationEndPoint:2, commandClass:37, command:2).format()
    ], 500)
}

def off2() {
    delayBetween([
        zwave.multiChannelV4.multiChannelCmdEncap(sourceEndPoint:2, destinationEndPoint:2, commandClass:37, command:1, parameter:[0]).format(),
        zwave.multiChannelV4.multiChannelCmdEncap(sourceEndPoint:2, destinationEndPoint:2, commandClass:37, command:2).format()
    ], 500)
}

We won't be using or following the pattern set forth by the Virtual Device Sync App the app, so you can delete that code.
We support multi endpoint devices directly by creating children straight off the parent.

Thanks @mike.maxwell
Here is another one for you.
You need this driver installed and also a second one called Metering Switch Child Device.

With this one, when discovered you press a button on the device page do define the child devices.

Fibaro FGS-223 Double switch.

/**
 *  Note: This handler requires the "Metering Switch Child Device" to be installed.
 *
 *  Copyright 2016 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.
 *
 *  Fibaro FGS-223 Dual Relay
 *
 *  Author: Eric Maycock (erocm123)
 *  
 *  04/25/2017 - Fix for combined energy & power reports & switch endpoints showing correct info.
 *  04/18/2017 - This handler requires the Metering Switch Child device to create the multiple switch endpoints.
 */
 
metadata {
definition (name: "Fibaro Double Switch 2 FGS-223", namespace: "erocm123", author: "Eric Maycock") {
    capability "Sensor"
    capability "Actuator"
    capability "Switch"
    capability "Polling"
    capability "Configuration"
    capability "Refresh"
    //capability "Zw Multichannel"
    capability "Energy Meter"
    capability "Power Meter"
    capability "Health Check"
    capability "PushableButton"
    capability "HoldableButton"

    command "reset"
    command "childOn"
        command "childOff"
        command "childRefresh"
	command "childReset"


    fingerprint mfr: "010F", prod: "0203", model: "2000", deviceJoinName: "Fibaro Double Switch 2"
    fingerprint mfr: "010F", prod: "0203", model: "1000", deviceJoinName: "Fibaro Double Switch 2"

    fingerprint deviceId: "0x1001", inClusters:"0x5E,0x86,0x72,0x59,0x73,0x22,0x56,0x32,0x71,0x98,0x7A,0x25,0x5A,0x85,0x70,0x8E,0x60,0x75,0x5B"
}

simulator {
}

tiles(scale: 2){

    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"
			}
            tileAttribute ("statusText", key: "SECONDARY_CONTROL") {
           		attributeState "statusText", label:'${currentValue}'       		
            }
	}
	valueTile("power", "device.power", decoration: "flat", width: 2, height: 2) {
			state "default", label:'${currentValue} W'
	}
    valueTile("energy", "device.energy", decoration: "flat", width: 2, height: 2) {
			state "default", label:'${currentValue} kWh'
	}
    standardTile("refresh", "device.switch", inactiveLabel: false, decoration: "flat", width: 2, height: 2) {
		state "default", label:"", action:"refresh.refresh", icon:"st.secondary.refresh"
    }
    standardTile("configure", "device.needUpdate", inactiveLabel: false, decoration: "flat", width: 2, height: 2) {
            state "NO" , label:'', action:"configuration.configure", icon:"st.secondary.configure"
            state "YES", label:'', action:"configuration.configure", icon:"https://github.com/erocm123/SmartThingsPublic/raw/master/devicetypes/erocm123/qubino-flush-1d-relay.src/configure@2x.png"
    }
    standardTile("reset", "device.energy", inactiveLabel: false, decoration: "flat", width: 2, height: 2) {
		state "default", label:'reset kWh', action:"reset"
	}
    
    main(["switch"])
    details(["switch", 
             "refresh","reset","configure"])

}
    preferences {
        input description: "Once you change values on this page, the corner of the \"configuration\" icon will change orange until all configuration parameters are updated.", title: "Settings", displayDuringSetup: false, type: "paragraph", element: "paragraph"
		generate_preferences(configuration_model())
    }
}

private getCommandClassVersions() {
	[
     0x20: 1, // Basic
     0x25: 1, // Switch Binary
     0x70: 2, // Configuration
     0x98: 1, // Security
     0x60: 3, // Multi Channel
     0x8E: 2, // Multi Channel Association
     0x26: 1, // Switch Multilevel
     0x87: 1, // Indicator
     0x72: 2, // Manufacturer Specific
     0x5B: 1, // Central Scene
     0x32: 3, // Meter
     0x85: 2, // Association
     0x86: 1, // Version
     0x9B: 1, // Association Command Configuration
	 0x90: 1, // Energy Production
	 0x73: 1, // Powerlevel
	 0x30: 1, // Sensor Binary
	 0x28: 1, // Switch Toggle Binary
	 0x2B: 1, // Scene Activation
     0x75: 2  // Protection
    ]
}

def parse(String description) {
	//log.debug description
    def result = []
    def cmd = zwave.parse(description, commandClassVersions)
    if (cmd) {
        result += zwaveEvent(cmd)
        //log.debug "Parsed ${cmd} to ${result.inspect()}"
    } else {
        log.debug "Non-parsed event: ${description}"
    }
    
    def statusTextmsg = ""
    
    result.each {
        if ((it instanceof Map) == true && it.find{ it.key == "name" }?.value == "power") {
            statusTextmsg = "${it.value} W ${device.currentValue('energy')? device.currentValue('energy') : "0"} kWh"
        }
        if ((it instanceof Map) == true && it.find{ it.key == "name" }?.value == "energy") {
            statusTextmsg = "${device.currentValue('power')? device.currentValue('power') : "0"} W ${it.value} kWh"
        }
    }
    if (statusTextmsg != "") sendEvent(name:"statusText", value:statusTextmsg, displayed:false)

    return result
}

def zwaveEvent(hubitat.zwave.commands.basicv1.BasicReport cmd)
{
    log.debug "BasicReport $cmd"
}

def zwaveEvent(hubitat.zwave.commands.basicv1.BasicSet cmd, ep=null) {
    logging("BasicSet: $cmd : Endpoint: $ep")
    if (ep) {
    def event
        childDevices.each { childDevice ->
            if (childDevice.deviceNetworkId == "$device.deviceNetworkId-ep$ep") {
                childDevice.sendEvent(name: "switch", value: cmd.value ? "on" : "off")
            }
        }
        if (cmd.value) {
            event = [createEvent([name: "switch", value: "on"])]
        } else {
            def allOff = true
            childDevices.each {
                childDevice ->
				    if (childDevice.deviceNetworkId != "$device.deviceNetworkId-ep$ep") 
                       if (childDevice.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(hubitat.zwave.commands.switchbinaryv1.SwitchBinaryReport cmd, ep=null)
{
    logging("SwitchBinaryReport: $cmd : Endpoint: $ep")
    if (ep) {
        def event
        childDevices.each { childDevice ->
            if (childDevice.deviceNetworkId == "$device.deviceNetworkId-ep$ep") {
                childDevice.sendEvent(name: "switch", value: cmd.value ? "on" : "off")
            }
        }
        if (cmd.value) {
            event = [createEvent([name: "switch", value: "on"])]
        } else {
            def allOff = true
            childDevices.each {
                childDevice ->
				    if (childDevice.deviceNetworkId != "$device.deviceNetworkId-ep$ep") 
                       if (childDevice.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 cmds = []
        cmds << encap(zwave.switchBinaryV1.switchBinaryGet(), 1)
        cmds << encap(zwave.switchBinaryV1.switchBinaryGet(), 2)
        return response(commands(cmds)) // returns the result of reponse()
    }
}

def zwaveEvent(hubitat.zwave.commands.meterv3.MeterReport cmd, ep=null) {
    logging("MeterReport: $cmd : Endpoint: $ep")
    def result
    def cmds = []
    if (cmd.scale == 0) {
       result = [name: "energy", value: cmd.scaledMeterValue, unit: "kWh"]
    } else if (cmd.scale == 1) {
       result = [name: "energy", value: cmd.scaledMeterValue, unit: "kVAh"]
    } else {
       result = [name: "power", value: cmd.scaledMeterValue, unit: "W"]
    }
    if (ep) {
       def childDevice = childDevices.find{it.deviceNetworkId == "$device.deviceNetworkId-ep$ep"}
       if (childDevice)
          childDevice.sendEvent(result)
       def combinedValue = 0.00
       childDevices.each {
           if(it.currentValue(result.name)) combinedValue += it.currentValue(result.name)
       }
       return createEvent([name: result.name, value: combinedValue])
    } else {
       (1..2).each { endpoint ->
			cmds << encap(zwave.meterV2.meterGet(scale: 0), endpoint)
            cmds << encap(zwave.meterV2.meterGet(scale: 2), endpoint)
	   }
       return response(commands(cmds))
    }
}

def zwaveEvent(hubitat.zwave.commands.multichannelv3.MultiChannelCapabilityReport cmd) 
{
    //log.debug "multichannelv3.MultiChannelCapabilityReport $cmd"
    if (cmd.endPoint == 2 ) {
        def currstate = device.currentState("switch2").getValue()
        if (currstate == "on")
        	sendEvent(name: "switch2", value: "off", isStateChange: true, display: false)
        else if (currstate == "off")
        	sendEvent(name: "switch2", value: "on", isStateChange: true, display: false)
    }
    else if (cmd.endPoint == 1 ) {
        def currstate = device.currentState("switch1").getValue()
        if (currstate == "on")
        sendEvent(name: "switch1", value: "off", isStateChange: true, display: false)
        else if (currstate == "off")
        sendEvent(name: "switch1", value: "on", isStateChange: true, display: false)
    }
}

def zwaveEvent(hubitat.zwave.commands.multichannelv3.MultiChannelCmdEncap cmd) {
   //logging("MultiChannelCmdEncap ${cmd}")
   def encapsulatedCommand = cmd.encapsulatedCommand(commandClassVersions)
   if (encapsulatedCommand) {
		zwaveEvent(encapsulatedCommand, cmd.sourceEndPoint as Integer)
   }
}

def zwaveEvent(hubitat.zwave.commands.associationv2.AssociationReport cmd) {
	log.debug "AssociationReport $cmd"
    if (zwaveHubNodeId in cmd.nodeId) state."association${cmd.groupingIdentifier}" = true
    else state."association${cmd.groupingIdentifier}" = false
}

def zwaveEvent(hubitat.zwave.commands.multichannelassociationv2.MultiChannelAssociationReport cmd) {
	log.debug "MultiChannelAssociationReport $cmd"
    if (cmd.groupingIdentifier == 1) {
        if ([0,zwaveHubNodeId,1] == cmd.nodeId) state."associationMC${cmd.groupingIdentifier}" = true
        else state."associationMC${cmd.groupingIdentifier}" = false
    }
}

def zwaveEvent(hubitat.zwave.Command cmd) {
    log.debug "Unhandled event $cmd"
    // This will capture any commands not handled by other instances of zwaveEvent
    // and is recommended for development so you can see every command the device sends
    return createEvent(descriptionText: "${device.displayName}: ${cmd}")
}

def zwaveEvent(hubitat.zwave.commands.switchallv1.SwitchAllReport cmd) {
   log.debug "SwitchAllReport $cmd"
}

def zwaveEvent(hubitat.zwave.commands.configurationv2.ConfigurationReport cmd) {
     update_current_properties(cmd)
     logging("${device.displayName} parameter '${cmd.parameterNumber}' with a byte size of '${cmd.size}' is set to '${cmd2Integer(cmd.configurationValue)}'")
}

def refresh() {
	def cmds = []
    (1..2).each { endpoint ->
        cmds << encap(zwave.switchBinaryV1.switchBinaryGet(), endpoint)
		cmds << encap(zwave.meterV2.meterGet(scale: 0), endpoint)
        cmds << encap(zwave.meterV2.meterGet(scale: 2), endpoint)
	}
	commands(cmds, 1000)
}

def reset() {
    logging("reset()")
	def cmds = []
    (1..2).each { endpoint ->
        cmds << encap(zwave.meterV2.meterReset(), endpoint)
        cmds << encap(zwave.meterV2.meterGet(scale: 0), endpoint)
        cmds << encap(zwave.meterV2.meterGet(scale: 2), endpoint)
    }
	commands(cmds, 1000)
}

def ping() {
	def cmds = []
    cmds << encap(zwave.switchBinaryV1.switchBinaryGet(), 1)
    cmds << encap(zwave.switchBinaryV1.switchBinaryGet(), 2)
	commands(cmds, 1000)
}

def zwaveEvent(hubitat.zwave.commands.manufacturerspecificv2.ManufacturerSpecificReport cmd) {
	def msr = String.format("%04X-%04X-%04X", cmd.manufacturerId, cmd.productTypeId, cmd.productId)
	log.debug "msr: $msr"
    updateDataValue("MSR", msr)
}

def poll() {
	def cmds = []
    cmds << encap(zwave.switchBinaryV1.switchBinaryGet(), 1)
    cmds << encap(zwave.switchBinaryV1.switchBinaryGet(), 2)
	commands(cmds, 1000)
}

def configure() {
	state.enableDebugging = settings.enableDebugging
    logging("Configuring Device For SmartThings Use")
    def cmds = []

    cmds = update_needed_settings()
    
    if (cmds != []) commands(cmds)
}

def zwaveEvent(hubitat.zwave.commands.centralscenev1.CentralSceneNotification cmd) {
    logging("CentralSceneNotification: $cmd")
    logging("sceneNumber: $cmd.sceneNumber")
    logging("sequenceNumber: $cmd.sequenceNumber")
    logging("keyAttributes: $cmd.keyAttributes")
    
    buttonEvent(cmd.keyAttributes + 1, (cmd.sceneNumber == 1? "pushed" : "held"))

}

def buttonEvent(button, value) {
    logging("buttonEvent() Button:$button, Value:$value")
	sendEvent(name: value, value: button, isStateChange:true)
}

def installed() {
    def cmds = initialize()
	if (cmds != []) commands(cmds)
}

def updated()
{
    logging("updated() is being called")
    def cmds = initialize()
    sendEvent(name:"needUpdate", value: device.currentValue("needUpdate"), displayed:false, isStateChange: true)  
    if (cmds != []) commands(cmds)
}

def initialize() {
    log.debug "initialize()"
	state.enableDebugging = settings.enableDebugging
    if (!childDevices) {
		createChildDevices()
	}
	else if (device.label != state.oldLabel) {
		childDevices.each {
            if (it.label == "${state.oldLabel} (S${channelNumber(it.deviceNetworkId)})") {
			    def newLabel = "${device.displayName} (S${channelNumber(it.deviceNetworkId)})"
			    it.setLabel(newLabel)
            }
		}
		state.oldLabel = device.label
	}
    sendEvent(name: "checkInterval", value: 2 * 30 * 60 + 2 * 60, displayed: false, data: [protocol: "zwave", hubHardwareId: device.hub.hardwareID])
    return update_needed_settings()
}


def on() { 
   commands([
        encap(zwave.basicV1.basicSet(value: 0xFF), 1),
        encap(zwave.basicV1.basicSet(value: 0xFF), 2)
    ])
}
def off() {
   commands([
        encap(zwave.basicV1.basicSet(value: 0x00), 1),
        encap(zwave.basicV1.basicSet(value: 0x00), 2)
    ])
}

def childOn(String dni) {
    logging("childOn($dni)")
    def cmds = []
    cmds << new hubitat.device.HubAction(command(encap(zwave.basicV1.basicSet(value: 0xFF), channelNumber(dni))), hubitat.device.Protocol.ZWAVE)
	cmds
}

def childOff(String dni) {
    logging("childOff($dni)")
	def cmds = []
    cmds << new hubitat.device.HubAction(command(encap(zwave.basicV1.basicSet(value: 0x00), channelNumber(dni))), hubitat.device.Protocol.ZWAVE)
	cmds
}

def childRefresh(String dni) {
    logging("childRefresh($dni)")
	def cmds = []
    cmds << new hubitat.device.HubAction(command(encap(zwave.switchBinaryV1.switchBinaryGet(), channelNumber(dni))), hubitat.device.Protocol.ZWAVE)
    cmds << new hubitat.device.HubAction(command(encap(zwave.meterV2.meterGet(scale: 0), channelNumber(dni))), hubitat.device.Protocol.ZWAVE)
    cmds << new hubitat.device.HubAction(command(encap(zwave.meterV2.meterGet(scale: 2), channelNumber(dni))), hubitat.device.Protocol.ZWAVE)
	cmds
}

def childReset(String dni) {
    logging("childReset($dni)")
	def cmds = []
    cmds << new hubitat.device.HubAction(command(encap(zwave.meterV2.meterReset(), channelNumber(dni))), hubitat.device.Protocol.ZWAVE)
    cmds << new hubitat.device.HubAction(command(encap(zwave.meterV2.meterGet(scale: 0), channelNumber(dni))), hubitat.device.Protocol.ZWAVE)
    cmds << new hubitat.device.HubAction(command(encap(zwave.meterV2.meterGet(scale: 2), channelNumber(dni))), hubitat.device.Protocol.ZWAVE)
	cmds
}

private command(hubitat.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 encap(cmd, endpoint) {
	if (endpoint) {
		zwave.multiChannelV3.multiChannelCmdEncap(destinationEndPoint:endpoint).encapsulate(cmd)
	} else {
		cmd
	}
}

def zwaveEvent(hubitat.zwave.commands.securityv1.SecurityMessageEncapsulation cmd) {
	//log.debug cmd
	def encapsulatedCommand = cmd.encapsulatedCommand(commandClassVersions) // can specify command class versions here like in zwave.parse
	if (encapsulatedCommand) {
	    state.sec = 1
		return zwaveEvent(encapsulatedCommand)
	} else {
		log.warn "Unable to extract encapsulated cmd from $cmd"
		createEvent(descriptionText: cmd.toString())
	}
}

def generate_preferences(configuration_model)
{
    def configuration = new XmlSlurper().parseText(configuration_model)
   
    configuration.Value.each
    {
        switch(it.@type)
        {   
            case ["byte","short","four"]:
                input "${it.@index}", "number",
                    title:"${it.@label}\n" + "${it.Help}",
                    range: "${it.@min}..${it.@max}",
                    defaultValue: "${it.@value}"
            break
            case "list":
                def items = []
                it.Item.each { items << ["${it.@value}":"${it.@label}"] }
                input "${it.@index}", "enum",
                    title:"${it.@label}\n" + "${it.Help}",
                    defaultValue: "${it.@value}",
                    options: items
            break
            case "decimal":
               input "${it.@index}", "decimal",
                    title:"${it.@label}\n" + "${it.Help}",
                    range: "${it.@min}..${it.@max}",
                    defaultValue: "${it.@value}"
            break
            case "boolean":
               input "${it.@index}", "bool",
                    title: it.@label != "" ? "${it.@label}\n" + "${it.Help}" : "" + "${it.Help}",
                    defaultValue: "${it.@value}"
            break
            case "paragraph":
               input title: "${it.@label}",
                    description: "${it.Help}",
                    type: "paragraph",
                    element: "paragraph"
            break
        }  
    }
}

def update_current_properties(cmd)
{
    def currentProperties = state.currentProperties ?: [:]
    
    currentProperties."${cmd.parameterNumber}" = cmd.configurationValue

    if (settings."${cmd.parameterNumber}" != null)
    {
        if (convertParam(cmd.parameterNumber, settings."${cmd.parameterNumber}") == cmd2Integer(cmd.configurationValue))
        {
            sendEvent(name:"needUpdate", value:"NO", displayed:false, isStateChange: true)
        }
        else
        {
            sendEvent(name:"needUpdate", value:"YES", displayed:false, isStateChange: true)
        }
    }

    state.currentProperties = currentProperties
}

def update_needed_settings()
{
    def cmds = []
    def currentProperties = state.currentProperties ?: [:]
     
    def configuration = new XmlSlurper().parseText(configuration_model())
    def isUpdateNeeded = "NO"
    
    sendEvent(name:"numberOfButtons", value:"5")
    
    if(!state.associationMC1) {
       logging("Adding MultiChannel association group 1")
       cmds << zwave.associationV2.associationRemove(groupingIdentifier: 1, nodeId: [])
	   //cmds << zwave.associationV2.associationGet(groupingIdentifier: 1)
       cmds << zwave.multiChannelAssociationV2.multiChannelAssociationSet(groupingIdentifier: 1, nodeId: [0,zwaveHubNodeId,1])
       cmds << zwave.multiChannelAssociationV2.multiChannelAssociationGet(groupingIdentifier: 1)
    }
    if(state.association2){
       logging("Removing association group 2")
       cmds << zwave.associationV2.associationRemove(groupingIdentifier:2, nodeId:zwaveHubNodeId)
       cmds << zwave.associationV2.associationGet(groupingIdentifier:2)
    }
    if(state.association4){
       logging("Removing association group 4")
       cmds << zwave.associationV2.associationRemove(groupingIdentifier:4, nodeId:zwaveHubNodeId)
       cmds << zwave.associationV2.associationGet(groupingIdentifier:4)
    }
    
    configuration.Value.each
    {     
        if ("${it.@setting_type}" == "zwave"){
            if (currentProperties."${it.@index}" == null)
            {
                isUpdateNeeded = "YES"
                logging("Current value of parameter ${it.@index} is unknown")
                cmds << zwave.configurationV1.configurationGet(parameterNumber: it.@index.toInteger())
            }
            else if (settings."${it.@index}" != null && cmd2Integer(currentProperties."${it.@index}") != convertParam(it.@index.toInteger(), settings."${it.@index}"))
            { 
                isUpdateNeeded = "YES"

                logging("Parameter ${it.@index} will be updated to " + convertParam(it.@index.toInteger(), settings."${it.@index}"))
                def convertedConfigurationValue = convertParam(it.@index.toInteger(), settings."${it.@index}")
                cmds << zwave.configurationV1.configurationSet(configurationValue: integer2Cmd(convertedConfigurationValue, it.@byteSize.toInteger()), parameterNumber: it.@index.toInteger(), size: it.@byteSize.toInteger())
                cmds << zwave.configurationV1.configurationGet(parameterNumber: it.@index.toInteger())
            } 
        }
    }
    
    sendEvent(name:"needUpdate", value: isUpdateNeeded, displayed:false, isStateChange: true)
    return cmds
}

def convertParam(number, value) {
    def parValue
	switch (number){
    	case 28:
            parValue = (value == true ? 1 : 0)
            parValue += (settings."fc_2" == true ? 2 : 0)
            parValue += (settings."fc_3" == true ? 4 : 0)
            parValue += (settings."fc_4" == true ? 8 : 0)
		    log.debug parValue
        break
        case 29:
            parValue = (value == true ? 1 : 0)
            parValue += (settings."sc_2" == true ? 2 : 0)
            parValue += (settings."sc_3" == true ? 4 : 0)
            parValue += (settings."sc_4" == true ? 8 : 0)
        break
        default:
        	parValue = value
        break
    }
    return parValue.toInteger()
}

private def logging(message) {
    if (state.enableDebugging == null || state.enableDebugging == true) log.debug "$message"
}

/**
* Convert 1 and 2 bytes values to integer
*/
def cmd2Integer(array) { 

switch(array.size()) {
	case 1:
		array[0]
    break
	case 2:
    	((array[0] & 0xFF) << 8) | (array[1] & 0xFF)
    break
    case 3:
    	((array[0] & 0xFF) << 16) | ((array[1] & 0xFF) << 8) | (array[2] & 0xFF)
    break
	case 4:
    	((array[0] & 0xFF) << 24) | ((array[1] & 0xFF) << 16) | ((array[2] & 0xFF) << 8) | (array[3] & 0xFF)
	break
    }
}

def integer2Cmd(value, size) {
	switch(size) {
	case 1:
		[value]
    break
	case 2:
    	def short value1   = value & 0xFF
        def short value2 = (value >> 8) & 0xFF
        [value2, value1]
    break
    case 3:
    	def short value1   = value & 0xFF
        def short value2 = (value >> 8) & 0xFF
        def short value3 = (value >> 16) & 0xFF
        [value3, value2, value1]
    break
	case 4:
    	def short value1 = value & 0xFF
        def short value2 = (value >> 8) & 0xFF
        def short value3 = (value >> 16) & 0xFF
        def short value4 = (value >> 24) & 0xFF
		[value4, value3, value2, value1]
	break
	}
}

def zwaveEvent(hubitat.zwave.commands.crc16encapv1.Crc16Encap cmd) {
   def encapsulatedCommand = zwave.getCommand(cmd.commandClass, cmd.command, cmd.data,1)
   if (encapsulatedCommand) {
       zwaveEvent(encapsulatedCommand)
   } else {
       log.warn "Unable to extract CRC16 command from ${cmd}"
   }
}

private channelNumber(String dni) {
	dni.split("-ep")[-1] as Integer
}

private void createChildDevices() {
	state.oldLabel = device.label
     try {
        for (i in 1..2) {
	       addChildDevice("Metering Switch Child Device", "${device.deviceNetworkId}-ep${i}",
		      [completedSetup: true, label: "${device.displayName} (S${i})",
		      isComponent: false, componentName: "ep$i", componentLabel: "Switch $i"])
        }
    } catch (e) {
	    runIn(2, "sendAlert")
    }
}

private sendAlert() {
   sendEvent(
      descriptionText: "Child device creation failed. Please make sure that the \"Metering Switch Child Device\" is installed and published.",
	  eventType: "ALERT",
	  name: "childDeviceCreation",
	  value: "failed",
	  displayed: true,
   )
}

def configuration_model()
{
'''
<configuration>
    <Value type="list" byteSize="1" index="9" label="State of the device after a power failure" min="0" max="1" value="1" setting_type="zwave" fw="">
    <Help>
The device will return to the last state before power failure.
0 - the Dimmer 2 does not save the state before a power failure, it returns to the "off" position
1 - the Dimmer 2 restores its state before power failure
Range: 0~1
Default: 1 (Previous State)
    </Help>
        <Item label="Off" value="0" />
        <Item label="Previous State" value="1" />
  </Value>
      <Value type="list" byteSize="1" index="10" label="First Channel - Operating Mode" min="0" max="5" value="0" setting_type="zwave" fw="">
    <Help>
This parameter allows you to choose the operating mode for the 1st channel controlled by the S1 switch.
Range: 0~5
Default: 0 (Standard)
    </Help>
        <Item label="Standard" value="0" />
        <Item label="Delay On" value="1" />
        <Item label="Delay Off" value="2" />
        <Item label="Auto On" value="3" />
        <Item label="Auto Off" value="4" />
        <Item label="Flashing" value="5" />
  </Value>
        <Value type="list" byteSize="1" index="11" label="First Channel - Reaction For Delay/Auto" min="0" max="2" value="0" setting_type="zwave" fw="">
    <Help>
This parameter determines how the device in timed mode reacts to pushing the switch connected to the S1 terminal.
Range: 0~2
Default: 0 (Cancel)
    </Help>
        <Item label="Cancel" value="0" />
        <Item label="No Reaction" value="1" />
        <Item label="Reset" value="2" />
  </Value>
      <Value type="byte" byteSize="2" index="12" label="First Channel - Time Parameter for Delay/Auto" min="0" max="32000" value="50" setting_type="zwave" fw="">
    <Help>
This parameter allows to set time parameter used in timed modes. 
Range: 0~32000 (0.1s, 1-32000s)
Default: 50
    </Help>
  </Value>
      <Value type="byte" byteSize="2" index="13" label="First Channel - Pulse Time For Flashing" min="1" max="32000" value="5" setting_type="zwave" fw="">
    <Help>
This parameter allows to set time of switching to opposite state in flashing mode.
Range: 1~32000 (0.1s-3200.0s)
Default: 5 (0.5s)
    </Help>
  </Value>
        <Value type="list" byteSize="1" index="15" label="Second Channel - Operating Mode" min="0" max="5" value="0" setting_type="zwave" fw="">
    <Help>
This parameter allows you to choose the operating mode for the 2nd channel controlled by the S2 switch.
Range: 0~5
Default: 0 (Standard)
    </Help>
        <Item label="Standard" value="0" />
        <Item label="Delay On" value="1" />
        <Item label="Delay Off" value="2" />
        <Item label="Auto On" value="3" />
        <Item label="Auto Off" value="4" />
        <Item label="Flashing" value="5" />
  </Value>
        <Value type="list" byteSize="1" index="16" label="Second Channel - Reaction For Delay/Auto" min="0" max="2" value="0" setting_type="zwave" fw="">
    <Help>
This parameter determines how the device in timed mode reacts to pushing the switch connected to the S2 terminal.
Range: 0~2
Default: 0 (Cancel)
    </Help>
        <Item label="Cancel" value="0" />
        <Item label="No Reaction" value="1" />
        <Item label="Reset" value="2" />
  </Value>
      <Value type="byte" byteSize="2" index="17" label="Second Channel - Time Parameter for Delay/Auto" min="0" max="32000" value="50" setting_type="zwave" fw="">
    <Help>
This parameter allows to set time parameter used in timed modes. 
Range: 0~32000 (0.1s, 1-32000s)
Default: 50
    </Help>
  </Value>
      <Value type="byte" byteSize="2" index="18" label="Second Channel - Pulse Time For Flashing" min="1" max="32000" value="5" setting_type="zwave" fw="">
    <Help>
This parameter allows to set time of switching to opposite state in flashing mode.
Range: 1~32000 (0.1s-3200.0s)
Default: 5 (0.5s)
    </Help>
  </Value>
    <Value type="list" byteSize="1" index="20" label="Switch type" min="0" max="2" value="2" setting_type="zwave" fw="">
    <Help>
Choose between momentary and toggle switch.
Range: 0~2
Default: 2 (Toggle)
    </Help>
    <Item label="Momentary" value="0" />
    <Item label="Toggle (Open=On, Closed=Off)" value="1" />
    <Item label="Toggle (On Switch Change)" value="2" />
  </Value>
      <Value type="list" byteSize="1" index="40" label="Reaction to General Alarm" min="0" max="3" value="3" setting_type="zwave" fw="">
    <Help>
This parameter determines how the device will react to General Alarm frame.
Range: 0~3
Default: 3 (Flash)
    </Help>
    <Item label="Alarm frame is ignored" value="0" />
    <Item label="Turn ON after receiving the alarm frame" value="1" />
    <Item label="Turn OFF after receiving the alarm frame" value="2" />
	<Item label="Flash after receiving the alarm frame" value="3" />
  </Value>
      <Value type="list" byteSize="1" index="41" label="Reaction to Flood Alarm" min="0" max="3" value="2" setting_type="zwave" fw="">
    <Help>
This parameter determines how the device will react to Flood Alarm frame.
Range: 0~3
Default: 2 (OFF)
    </Help>
    <Item label="Alarm frame is ignored" value="0" />
    <Item label="Turn ON after receiving the alarm frame" value="1" />
    <Item label="Turn OFF after receiving the alarm frame" value="2" />
	<Item label="Flash after receiving the alarm frame" value="3" />
  </Value>
      <Value type="list" byteSize="1" index="42" label="Reaction to CO/CO2/Smoke Alarm" min="0" max="3" value="3" setting_type="zwave" fw="">
    <Help>
This parameter determines how the device will react to CO, CO2 or Smoke frame. 
Range: 0~3
Default: 3 (Flash)
    </Help>
    <Item label="Alarm frame is ignored" value="0" />
    <Item label="Turn ON after receiving the alarm frame" value="1" />
    <Item label="Turn OFF after receiving the alarm frame" value="2" />
	<Item label="Flash after receiving the alarm frame" value="3" />
  </Value>
      <Value type="list" byteSize="1" index="43" label="Reaction to Heat Alarm" min="0" max="3" value="1" setting_type="zwave" fw="">
    <Help>
This parameter determines how the device will react to Heat Alarm frame.
Range: 0~3
Default: 1 (ON)
    </Help>
    <Item label="Alarm frame is ignored" value="0" />
    <Item label="Turn ON after receiving the alarm frame" value="1" />
    <Item label="Turn OFF after receiving the alarm frame" value="2" />
	<Item label="Flash after receiving the alarm frame" value="3" />
  </Value>
        <Value type="byte" byteSize="2" index="44" label="Flashing alarm duration" min="1" max="32000" value="600" setting_type="zwave" fw="">
    <Help>
This parameter allows to set duration of flashing alarm mode. 
Range: 1~32000 (1s-32000s)
Default: 600 (10 min)
    </Help>
  </Value>
    <Value type="byte" byteSize="1" index="50" label="First Channel - Active power reports" min="0" max="100" value="10" setting_type="zwave" fw="">
    <Help>
The parameter defines the power level change that will result in a new power report being sent. The value is a percentage of the previous report.
Range: 0~100 (1-100%)
Default: 10
    </Help>
  </Value>
    <Value type="byte" byteSize="1" index="51" label="First Channel - Periodic active power and energy reports" min="0" max="120" value="10" setting_type="zwave" fw="">
    <Help>
Parameter 51 defines a time period between consecutive reports. Timer is reset and counted from zero after each report. 
Range: 0~120 (1-120s)
Default: 10
    </Help>
  </Value>
    <Value type="short" byteSize="2" index="53" label="First Channel - Energy reports" min="0" max="32000" value="100" setting_type="zwave" fw="">
    <Help>
Energy level change which will result in sending a new energy report.
Range: 0~32000 (0.01-320 kWh)
Default: 100
    </Help>
  </Value>
      <Value type="byte" byteSize="1" index="54" label="Second Channel - Active power reports" min="0" max="100" value="10" setting_type="zwave" fw="">
    <Help>
The parameter defines the power level change that will result in a new power report being sent. The value is a percentage of the previous report.
Range: 0~100 (1-100%)
Default: 10
    </Help>
  </Value>
    <Value type="byte" byteSize="1" index="55" label="Second Channel - Periodic active power and energy reports" min="0" max="120" value="10" setting_type="zwave" fw="">
    <Help>
Parameter 55 defines a time period between consecutive reports. Timer is reset and counted from zero after each report. 
Range: 0~120 (1-120s)
Default: 10
    </Help>
  </Value>
    <Value type="short" byteSize="2" index="57" label="Second Channel - Energy reports" min="0" max="32000" value="100" setting_type="zwave" fw="">
    <Help>
Energy level change which will result in sending a new energy report.
Range: 0~32000 (0.01-320 kWh)
Default: 100
    </Help>
  </Value>
    <Value type="byte" byteSize="2" index="58" label="Periodic power reports" min="0" max="32000" value="3600" setting_type="zwave" fw="">
    <Help>
This parameter determines in what time interval the periodic power reports are sent to the main controller.
Range: 0~32000 (1-32000s)
Default: 3600
    </Help>
  </Value>
     <Value type="byte" byteSize="2" index="59" label="Periodic energy reports" min="0" max="32000" value="3600" setting_type="zwave" fw="">
    <Help>
This parameter determines in what time interval the periodic energy reports are sent to the main controller.
Range: 0~32000 (1-32000s)
Default: 3600
    </Help>
  </Value>
  <Value type="boolean" byteSize="1" index="28" label="First Channel" value="false" setting_type="zwave" fw="">
    <Help>
Send scene ID on single press 
    </Help>
  </Value>
  <Value type="boolean" byteSize="1" index="fc_2" label="" value="false" setting_type="" fw="">
    <Help>
Send scene ID on double press 
    </Help>
  </Value>
    <Value type="boolean" byteSize="1" index="fc_3" label="" value="false" setting_type="" fw="">
    <Help>
Send scene ID on tripple press 
    </Help>
  </Value>
    <Value type="boolean" byteSize="1" index="fc_4" label="" value="false" setting_type="" fw="">
    <Help>
Send scene ID on hold and release 
    </Help>
  </Value>
  <Value type="boolean" byteSize="1" index="29" label="Second Channel" value="false" setting_type="zwave" fw="">
    <Help>
Send scene ID on single press 
    </Help>
  </Value>
  <Value type="boolean" byteSize="1" index="sc_2" label="" value="false" setting_type="" fw="">
    <Help>
Send scene ID on double press 
    </Help>
  </Value>
    <Value type="boolean" byteSize="1" index="sc_3" label="" value="false" setting_type="" fw="">
    <Help>
Send scene ID on tripple press 
    </Help>
  </Value>
    <Value type="boolean" byteSize="1" index="sc_4" label="" value="false" setting_type="" fw="">
    <Help>
Send scene ID on hold and release 
    </Help>
  </Value>
    <Value type="paragraph" byteSize="1" index="mappings" label="Button Mappings" value="false" setting_type="" fw="">
    <Help>
Toggle Mode
1 pushed - S1 1x toggle
4 pushed - S1 2x toggle
5 pushed - S1 3x toggle

1 held - S2 1x toggle
4 held - S2 2x toggle
5 held - S2 3x toggle

Momentary Mode
1 pushed - S1 1x click
2 pushed - S1 release
3 pushed - S1 hold
4 pushed - S1 2x click
5 pushed - S1 3x click

1 held - S2 1x click
2 held - S2 release
3 held - S2 hold
4 held - S2 2x click
5 held - S2 3x click
    </Help>
  </Value>
    <Value type="boolean" index="enableDebugging" label="Enable Debug Logging?" value="true" setting_type="preference" fw="">
    <Help>
    </Help>
  </Value>
</configuration>
'''
}

Metering Child Switch device.

/**
 *  Metering 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: "Metering Switch Child Device", namespace: "erocm123", author: "Eric Maycock") {
		capability "Switch"
		capability "Actuator"
		capability "Sensor"
        capability "Energy Meter"
        capability "Power Meter"
        capability "Refresh"
        
        command "reset"
	}

	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"
			}
		}
        valueTile("power", "device.power", decoration: "flat", width: 2, height: 2) {
			state "default", label:'${currentValue} W'
	    }
        valueTile("energy", "device.energy", decoration: "flat", width: 2, height: 2) {
			state "default", label:'${currentValue} kWh'
	    }
        standardTile("refresh", "device.switch", inactiveLabel: false, decoration: "flat", width: 2, height: 2) {
		    state "default", label:"", action:"refresh.refresh", icon:"st.secondary.refresh"
        }
        standardTile("reset", "device.energy", inactiveLabel: false, decoration: "flat", width: 2, height: 2) {
		    state "default", label:'reset kWh', action:"reset"
	    }
	}
}

void on() {
	parent.childOn(device.deviceNetworkId)
}

void off() {
	parent.childOff(device.deviceNetworkId)
}

void refresh() {
	parent.childRefresh(device.deviceNetworkId)
}

void reset() {
	parent.childReset(device.deviceNetworkId)
}

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