/*
* Zooz ZEN52 Double Relay Advanced
* - Model: ZEN52 - MINIMUM FIRMWARE 1.40
*
* For Support, Information, and Updates:
* https://community.hubitat.com/t/zooz-relays-advanced/98194
* https://github.com/jtp10181/Hubitat/tree/main/Drivers/zooz
*
Changelog:
## [1.2.0 - 2024-01-31 (@jtp10181)
- Updated library code (logging fixes)
- Added setParamater command
- Added proper endpoint detection
## [1.1.2] - 2023-05-24 (@jtp10181)
- Library updates and moving some functions
- Multichannel endpoint handling updates (ZEN52)
## [1.1.0] - 2023-05-11 (@jtp10181)
- Refactoring to use custom library code
- Flash command now remembers last rate for default
- Fixed on/off handling for ZEN52 FW 1.60
- Changed to new logging engine / options
## [1.0.2] - 2023-02-28 (@jtp10181)
- Added Association Group Support
- Fixed some variable typing to be more lax to prevent errors
- Fixed lifeline association configuration for ZEN52
## [0.2.0] - 2021-08-22 (@jtp10181)
- Initial Release of ZEN52
- Minor fixes for ZEN51
* Copyright 2022-2024 Jeff Page
*
* 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.
*
*/
import groovy.transform.Field
@Field static final String VERSION = "1.2.0"
@Field static final String DRIVER = "Zooz-ZEN52"
@Field static final String COMM_LINK = "https://community.hubitat.com/t/zooz-relays-advanced/98194"
@Field static final Map deviceModelNames = ["0104:0202":"ZEN52", "0904:0202":"ZEN52"]
metadata {
definition (
name: "Zooz ZEN52 Double Relay Advanced",
namespace: "jtp10181",
author: "Jeff Page (@jtp10181)",
importUrl: "https://raw.githubusercontent.com/jtp10181/Hubitat/main/Drivers/zooz/zooz-zen52-double-relay.groovy"
) {
capability "Actuator"
//capability "Switch"
capability "Configuration"
capability "Refresh"
capability "PushableButton"
capability "HoldableButton"
capability "ReleasableButton"
capability "DoubleTapableButton"
capability "Flash"
//command "refreshParams"
command "setParameter",[[name:"parameterNumber*",type:"NUMBER", description:"Parameter Number"],
[name:"value*",type:"NUMBER", description:"Parameter Value"],
[name:"size",type:"NUMBER", description:"Parameter Size"]]
//DEBUGGING
//command "debugShowVars"
attribute "syncStatus", "string"
fingerprint mfr:"027A", prod:"0104", deviceId:"0202", inClusters:"0x5E,0x55,0x9F,0x6C,0x25,0x70,0x85,0x59,0x8E,0x86,0x72,0x5A,0x73,0x7A,0x60,0x22,0x5B,0x87" //Zooz ZEN52 Double Relay
fingerprint mfr:"027A", prod:"0904", deviceId:"0202", inClusters:"0x00,0x00" //Zooz ZEN52 Double Relay LR
}
preferences {
configParams.each { param ->
if (!param.hidden) {
Integer paramVal = getParamValue(param)
if (param.options) {
input "configParam${param.num}", "enum",
title: fmtTitle("${param.title}"),
description: fmtDesc("• Parameter #${param.num}, Selected: ${paramVal}" + (param?.description ? "
• ${param?.description}" : '')),
defaultValue: paramVal,
options: param.options,
required: false
}
else if (param.range) {
input "configParam${param.num}", "number",
title: fmtTitle("${param.title}"),
description: fmtDesc("• Parameter #${param.num}, Range: ${(param.range).toString()}, DEFAULT: ${param.defaultVal}" + (param?.description ? "
• ${param?.description}" : '')),
defaultValue: paramVal,
range: param.range,
required: false
}
}
}
for(int i in 2..maxAssocGroups) {
input "assocDNI$i", "string",
title: fmtTitle("Device Associations - Group $i"),
description: fmtDesc("Supports up to ${maxAssocNodes} Hex Device IDs separated by commas. Check device documentation for more info. Save as blank or 0 to clear."),
required: false
}
input "childScene", "bool",
title: fmtTitle("Scene Events on Child"),
description: fmtDesc("Send scene events to child devices and allow up to 5x button push events. Child devices must be using Central Scene Switch driver for this to work.
" +
"If disabled scene events are limited to 2x and posted on the parent device as two buttons."),
defaultValue: false
}
}
void debugShowVars() {
log.warn "settings ${settings.hashCode()} ${settings}"
log.warn "paramsList ${paramsList.hashCode()} ${paramsList}"
log.warn "paramsMap ${paramsMap.hashCode()} ${paramsMap}"
}
//Association Settings
@Field static final int maxAssocGroups = 3
@Field static final int maxAssocNodes = 5
/*** Static Lists and Settings ***/
//NONE
//Main Parameters Listing
@Field static Map paramsMap =
[
ledIndicator: [ num: 2,
title: "LED Indicator (On when On)",
size: 1, defaultVal: 1,
options: [1:"LED Enabled", 0:"LED Disabled"],
],
offTimer: [ num: 3,
title: "Auto Turn-Off Timer (R1)",
size: 2, defaultVal: 0,
description: "0 = Disabled",
range: 0..65535,
],
onTimer: [ num: 4,
title: "Auto Turn-On Timer (R1)",
size: 2, defaultVal: 0,
description: "0 = Disabled",
range: 0..65535,
],
timerUnits: [ num: 7,
title: "Time Units (R1)",
size: 1, defaultVal: 1,
options: [1:"minutes",2:"seconds"],
],
offTimer2: [ num: 5,
title: "Auto Turn-Off Timer (R2)",
size: 2, defaultVal: 0,
description: "0 = Disabled",
range: 0..65535,
],
onTimer2: [ num: 6,
title: "Auto Turn-On Timer (R2)",
size: 2, defaultVal: 0,
description: "0 = Disabled",
range: 0..65535,
],
timerUnits2: [ num: 8,
title: "Time Units (R2)",
size: 1, defaultVal: 1,
options: [1:"minutes",2:"seconds"],
],
powerFailure: [ num: 14,
title: "Behavior After Power Failure (R1)",
size: 1, defaultVal: 2,
options: [2:"Restores Last Status", 0:"Forced to Off", 1:"Forced to On"],
],
powerFailure2: [ num: 15,
title: "Behavior After Power Failure (R2)",
size: 1, defaultVal: 2,
options: [2:"Restores Last Status", 0:"Forced to Off", 1:"Forced to On"],
],
sceneControl: [ num: 16,
title: "Scene Control Events",
description: "Enable to get push and multi-tap events (for momentary switches)",
size: 1, defaultVal: 0,
options: [0:"Disabled", 1:"Enabled"],
],
loadControl: [ num: 17,
title: "Smart Bulb Mode - Load Control (R1)",
description: "When control is disabled the relay will still report on/off states",
size: 1, defaultVal: 1,
options: [1:"Enable Button, Switch and Z-Wave", 0:"Disable Button/Switch Control", 2:"Disable Button, Switch and Z-Wave Control"],
],
loadControl2: [ num: 18,
title: "Smart Bulb Mode - Load Control (R2)",
description: "When control is disabled the relay will still report on/off states",
size: 1, defaultVal: 1,
options: [1:"Enable Button, Switch and Z-Wave", 0:"Disable Button/Switch Control", 2:"Disable Button, Switch and Z-Wave Control"],
],
switchType: [ num: 20,
title: "External Switch Type (R1)",
size: 1, defaultVal: 2,
options: [0:"Toggle Switch", 1:"Momentary Switch", 2:"On/Off Switch", 3:"3-way Impulse Control", 4:"Garage Door Mode"],
],
switchType2: [ num: 21,
title: "External Switch Type (R2)",
size: 1, defaultVal: 2,
options: [0:"Toggle Switch", 1:"Momentary Switch", 2:"On/Off Switch", 3:"3-way Impulse Control", 4:"Garage Door Mode"],
],
relayType: [ num: 25,
title: "Relay Type Behavior (R1)",
size: 1, defaultVal: 0,
options: [0:"NO: Relay Open when Off", 1:"NC: Relay Closed when Off"],
],
relayType2: [ num: 26,
title: "Relay Type Behavior (R2)",
size: 1, defaultVal: 0,
options: [0:"NO: Relay Open when Off", 1:"NC: Relay Closed when Off"],
],
impulseDuration: [ num: 22,
title: "Impulse Duration for 3-way (R1) [seconds]",
size: 1, defaultVal: 10,
range: 2..200,
],
impulseDuration2: [ num: 23,
title: "Impulse Duration for 3-way (R2) [seconds]",
size: 1, defaultVal: 10,
range: 2..200,
],
// Hidden Parameters to Set Defaults
assocReports: [ num: 24,
title: "Association Reports",
size: 1, defaultVal: 0,
options: [0:"Binary for Z-Wave, Basic for Physical", 1:"Always Binary Reports"],
hidden: true
],
]
/* ZEN52
CommandClassReport - class:0x22, version:1 (Application Status)
CommandClassReport - class:0x25, version:2 (Binary Switch)
CommandClassReport - class:0x55, version:2 (Transport Service)
CommandClassReport - class:0x59, version:3 (Association Group Information (AGI))
CommandClassReport - class:0x5A, version:1 (Device Reset Locally)
CommandClassReport - class:0x5B, version:3 (Central Scene)
CommandClassReport - class:0x5E, version:2 (Z-Wave Plus Info)
CommandClassReport - class:0x60, version:4 (Multi Channel)
CommandClassReport - class:0x6C, version:1 (Supervision)
CommandClassReport - class:0x70, version:4 (Configuration)
CommandClassReport - class:0x72, version:2 (Manufacturer Specific)
CommandClassReport - class:0x73, version:1 (Powerlevel)
CommandClassReport - class:0x7A, version:5 (Firmware Update Meta Data)
CommandClassReport - class:0x85, version:2 (Association)
CommandClassReport - class:0x86, version:3 (Version)
CommandClassReport - class:0x87, version:3 (Indicator)
CommandClassReport - class:0x8E, version:3 (Multi Channel Association)
CommandClassReport - class:0x9F, version:1 (Security 2)
*/
//Set Command Class Versions
@Field static final Map commandClassVersions = [
0x25: 1, // switchBinary
0x5B: 3, // centralScene
0x60: 3, // multiChannel
0x6C: 1, // supervision
0x70: 2, // configuration
0x72: 2, // manufacturerSpecific
0x85: 2, // association
0x86: 2, // version
0x8E: 3, // multiChannelAssociation
]
/*******************************************************************
***** Core Functions
********************************************************************/
void installed() {
logWarn "installed..."
initialize()
}
void initialize() {
logWarn "initialize..."
refresh()
}
void configure() {
logWarn "configure..."
checkLogLevel() //Checks and sets scheduled turn off
if (!pendingChanges || state.resyncAll == null) {
logDebug "Enabling Full Re-Sync"
clearVariables()
state.resyncAll = true
}
updateSyncingStatus(6)
executeProbeCmds()
runIn(2, executeRefreshCmds)
runIn(5, executeConfigureCmds)
}
void updated() {
logDebug "updated..."
checkLogLevel() //Checks and sets scheduled turn off
//Check to make sure childScene setting can work
childDevices.each { child ->
if (child.hasCapability("PushableButton")) {
child.sendEvent(name:"numberOfButtons", value:(childScene ? 5 : 0))
}
else {
child.deleteCurrentState("numberOfButtons")
if (childScene) {
logWarn "$child is missing PushableButton, turning off 'Scene Events to Child'"
device.updateSetting("childScene",[value:"false",type:"bool"])
childScene = false
}
}
}
//Configure for childScene setting
sendEvent(name:"numberOfButtons", value:(childScene ? 0 : 2))
if (childScene) {
logDebug "Removing unnecessary attributes"
device.deleteCurrentState("doubleTapped")
device.deleteCurrentState("held")
device.deleteCurrentState("pushed")
device.deleteCurrentState("released")
}
executeProbeCmds()
runIn(1, executeConfigureCmds)
runIn(3, createChildDevices)
}
void refresh() {
logDebug "refresh..."
executeRefreshCmds()
}
/*******************************************************************
***** Driver Commands
********************************************************************/
/*** Capabilities ***/
def on() {
logDebug "on..."
flashStop()
return getOnOffCmds(0xFF)
}
def off() {
logDebug "off..."
flashStop()
return getOnOffCmds(0x00)
}
//Button commands required with capabilities
void push(buttonId) { sendBasicButtonEvent(buttonId, "pushed") }
void hold(buttonId) { sendBasicButtonEvent(buttonId, "held") }
void release(buttonId) { sendBasicButtonEvent(buttonId, "released") }
void doubleTap(buttonId) { sendBasicButtonEvent(buttonId, "doubleTapped") }
//Flashing Capability
void flash(rateToFlash = null) {
if (!rateToFlash) rateToFlash = state.flashRate
//Min rate of 750ms sec, max of 30s
rateToFlash = validateRange(rateToFlash, 1500, 750, 30000)
Integer maxRun = 30 * 60 //30 Minutes
state.flashNext = (device.currentValue("switch")=="on" ? "off" : "on")
state.flashRate = rateToFlash
logInfo "Flashing started with rate of ${rateToFlash}ms"
//Start the flashing
runIn(maxRun,flashStop,[data:true])
flashHandler(rateToFlash)
}
void flashStop(Boolean turnOn = false) {
if (state.flashNext != null) {
logInfo "Flashing stopped..."
unschedule("flashHandler")
unschedule("flashStop")
state.remove("flashNext")
if (turnOn) { runIn(1,on) }
}
}
void flashHandler(Integer rateToFlash) {
if (state.flashNext == "on") {
logDebug "Flash On"
state.flashNext = "off"
runInMillis(rateToFlash, flashHandler, [data:rateToFlash])
sendCommands(getOnOffCmds(0xFF))
}
else if (state.flashNext == "off") {
logDebug "Flash Off"
state.flashNext = "on"
runInMillis(rateToFlash, flashHandler, [data:rateToFlash])
sendCommands(getOnOffCmds(0x00))
}
}
/*** Custom Commands ***/
void refreshParams() {
List cmds = []
cmds << mcAssociationGetCmd(1)
for (int i = 1; i <= maxAssocGroups; i++) {
cmds << associationGetCmd(i)
}
configParams.each { param ->
cmds << configGetCmd(param)
}
if (cmds) sendCommands(cmds)
}
def setParameter(paramNum, value, size = null) {
paramNum = safeToInt(paramNum)
Map param = getParam(paramNum)
if (param && !size) { size = param.size }
if (paramNum == null || value == null || size == null) {
logWarn "Incomplete parameter list supplied..."
logWarn "Syntax: setParameter(paramNum, value, size)"
return
}
logDebug "setParameter ( number: $paramNum, value: $value, size: $size )" + (param ? " [${param.name} - ${param.title}]" : "")
// return configSetCmd([num: paramNum, size: size], value as Integer)
return configSetGetCmd([num: paramNum, size: size], value as Integer)
}
/*** Child Capabilities ***/
def componentOn(cd) {
logDebug "componentOn from ${cd.displayName} (${cd.deviceNetworkId})"
sendCommands(getOnOffCmds(0xFF, getChildEP(cd)))
}
def componentOff(cd) {
logDebug "componentOff from ${cd.displayName} (${cd.deviceNetworkId})"
sendCommands(getOnOffCmds(0x00, getChildEP(cd)))
}
def componentRefresh(cd) {
logDebug "componentRefresh from ${cd.displayName} (${cd.deviceNetworkId})"
sendCommands(getChildRefreshCmds(getChildEP(cd)))
}
/*******************************************************************
***** Z-Wave Reports
********************************************************************/
void parse(String description) {
zwaveParse(description)
sendEvent(name:"numberOfButtons", value:(childScene ? 0 : 2))
}
void zwaveEvent(hubitat.zwave.commands.multichannelv3.MultiChannelCmdEncap cmd) {
zwaveMultiChannel(cmd)
}
void zwaveEvent(hubitat.zwave.commands.supervisionv1.SupervisionGet cmd, ep=0) {
zwaveSupervision(cmd,ep)
}
void zwaveEvent(hubitat.zwave.commands.configurationv2.ConfigurationReport cmd) {
logTrace "${cmd}"
updateSyncingStatus()
Map param = getParam(cmd.parameterNumber)
Integer val = cmd.scaledConfigurationValue
if (param) {
//Convert scaled signed integer to unsigned
Long sizeFactor = Math.pow(256,param.size).round()
if (val < 0) { val += sizeFactor }
logDebug "${param.name} - ${param.title} (#${param.num}) = ${val.toString()}"
setParamStoredValue(param.num, val)
}
else {
logDebug "Parameter #${cmd.parameterNumber} = ${val.toString()}"
}
}
void zwaveEvent(hubitat.zwave.commands.associationv2.AssociationReport cmd) {
logTrace "${cmd}"
updateSyncingStatus()
Integer grp = cmd.groupingIdentifier
if (grp == 1) {
logDebug "Lifeline Association: ${cmd.nodeId}"
//state.group1Assoc = (cmd.nodeId == [zwaveHubNodeId]) ? true : false
}
else if (grp > 1 && grp <= maxAssocGroups) {
logDebug "Group $grp Association: ${cmd.nodeId}"
if (cmd.nodeId.size() > 0) {
state["assocNodes$grp"] = cmd.nodeId
} else {
state.remove("assocNodes$grp".toString())
}
String dnis = convertIntListToHexList(cmd.nodeId)?.join(", ")
device.updateSetting("assocDNI$grp", [value:"${dnis}", type:"string"])
}
else {
logDebug "Unhandled Group: $cmd"
}
}
void zwaveEvent(hubitat.zwave.commands.multichannelassociationv3.MultiChannelAssociationReport cmd) {
logTrace "${cmd}"
updateSyncingStatus()
List mcNodes = []
cmd.multiChannelNodeIds.each {mcNodes += "${it.nodeId}:${it.endPointId}"}
if (cmd.groupingIdentifier == 1) {
logDebug "Lifeline Association: ${cmd.nodeId} | MC: ${mcNodes}"
state.group1Assoc = (mcNodes == ["${zwaveHubNodeId}:0"] ? true : false)
}
else {
logDebug "Unhandled Group: $cmd"
}
}
//Physical Only
void zwaveEvent(hubitat.zwave.commands.basicv1.BasicReport cmd, ep=0) {
logTrace "${cmd} (ep ${ep})"
flashStop() //Stop flashing if its running
List epList = (ep ? [ep] : endPointList)
epList.each { sendSwitchEvents(cmd.value, "physical", it) }
}
//Digital or Refresh
void zwaveEvent(hubitat.zwave.commands.switchbinaryv1.SwitchBinaryReport cmd, ep=0) {
logTrace "${cmd} (ep ${ep})"
List epList = (ep ? [ep] : endPointList)
epList.each {
if (ep==0 && !state."isDigital$it") return
String type = (state."isDigital$it" ? "digital" : null)
state.remove("isDigital$it" as String)
sendSwitchEvents(cmd.value, type, it)
}
}
void zwaveEvent(hubitat.zwave.commands.multichannelv3.MultiChannelEndPointReport cmd, ep=0) {
logTrace "${cmd} (ep ${ep})"
if (cmd.endPoints > 0) {
logDebug "Endpoints (${cmd.endPoints}) Detected and Enabled"
state.endPoints = cmd.endPoints
runIn(1,createChildDevices)
}
}
void zwaveEvent(hubitat.zwave.commands.centralscenev3.CentralSceneNotification cmd, ep=0){
if (state.lastSequenceNumber != cmd.sequenceNumber) {
state.lastSequenceNumber = cmd.sequenceNumber
logTrace "${cmd} (ep ${ep})"
Map scene = [name: "pushed", value: cmd.sceneNumber, desc: "", type:"physical", isStateChange:true]
String actionType
String btnVal
switch (cmd.sceneNumber) {
case 1:
case 2:
actionType = "S${cmd.sceneNumber}"
if (childScene) {
ep = cmd.sceneNumber
scene.value = 1
}
break
default:
logDebug "Unknown sceneNumber: ${cmd}"
}
switch (cmd.keyAttributes){
case 0:
btnVal = "${actionType} 1x"
break
case 1:
scene.name = "released"
btnVal = "${actionType} released"
break
case 2:
scene.name = "held"
btnVal = "${actionType} held"
break
case 3:
scene.name = "doubleTapped"
btnVal = "${actionType} 2x"
break
case {it >=4 && it <= 6 && childScene}:
scene.value = cmd.keyAttributes - 1
btnVal = "${actionType} ${cmd.keyAttributes - 1}x"
break
default:
logDebug "Unhandled keyAttributes: ${cmd}"
}
if (actionType && btnVal) {
scene.desc = "button ${scene.value} ${scene.name} [${btnVal}]"
sendEventLog(scene, ep)
}
}
}
/*******************************************************************
***** Event Senders
********************************************************************/
//evt = [name, value, type, unit, desc, isStateChange]
void sendEventLog(Map evt, ep=0) {
//Set description if not passed in
evt.descriptionText = evt.desc ?: "${evt.name} set to ${evt.value} ${evt.unit ?: ''}".trim()
//Endpoint Events
if (ep) {
def childDev = getChildByEP(ep)
if (childDev) {
if (childDev.currentValue(evt.name).toString() != evt.value.toString() || evt.isStateChange) {
evt.descriptionText = "${childDev}: ${evt.descriptionText}"
childDev.parse([evt])
} else {
String epName = "Switch ${ep}"
logDebug "(${epName}) ${evt.descriptionText} [NOT CHANGED]"
childDev.sendEvent(evt)
}
}
else {
logErr "No device for endpoint (${ep}). Press Configure to create child devices."
}
return
}
//Main Device Events
if (device.currentValue(evt.name).toString() != evt.value.toString() || evt.isStateChange) {
logInfo "${evt.descriptionText}"
} else {
logDebug "${evt.descriptionText} [NOT CHANGED]"
}
//Always send event to update last activity
sendEvent(evt)
}
void sendSwitchEvents(rawVal, String type, Integer ep=0) {
String value = (rawVal ? "on" : "off")
String desc = "switch is turned ${value}" + (type ? " (${type})" : "")
sendEventLog(name:"switch", value:value, type:type, desc:desc, ep)
}
void sendBasicButtonEvent(buttonId, String name) {
String desc = "button ${buttonId} ${name} (digital)"
sendEventLog(name:name, value:buttonId, type:"digital", desc:desc, isStateChange:true)
}
/*******************************************************************
***** Execute / Build Commands
********************************************************************/
void executeConfigureCmds() {
logDebug "executeConfigureCmds..."
List cmds = []
if (!firmwareVersion || !state.deviceModel) {
cmds << versionGetCmd()
}
cmds += getConfigureAssocsCmds()
configParams.each { param ->
Integer paramVal = getParamValueAdj(param)
Integer storedVal = getParamStoredValue(param.num)
if ((paramVal != null) && (state.resyncAll || (storedVal != paramVal))) {
logDebug "Changing ${param.name} - ${param.title} (#${param.num}) from ${storedVal} to ${paramVal}"
cmds += configSetGetCmd(param, paramVal)
}
}
state.resyncAll = false
if (cmds) sendCommands(cmds)
}
void executeProbeCmds() {
logTrace "executeProbeCmds..."
List cmds = []
//End Points Check
if (state.endPoints == null) {
logDebug "Probing for Multiple End Points"
cmds << secureCmd(zwave.multiChannelV3.multiChannelEndPointGet())
state.endPoints = 0
}
if (cmds) sendCommands(cmds)
}
void executeRefreshCmds() {
List cmds = []
if (state.resyncAll || !firmwareVersion || !state.deviceModel) {
cmds << mfgSpecificGetCmd()
cmds << versionGetCmd()
}
//Refresh Children
endPointList.each { endPoint ->
cmds += getChildRefreshCmds(endPoint)
}
sendCommands(cmds)
}
List getConfigureAssocsCmds() {
List cmds = []
if (!state.group1Assoc || state.resyncAll) {
if (!state.group1Assoc) {
logDebug "Setting lifeline association..."
cmds << secureCmd(zwave.multiChannelAssociationV3.multiChannelAssociationRemove(groupingIdentifier: 1, nodeId:[], multiChannelNodeIds:[]))
cmds << secureCmd(zwave.multiChannelAssociationV3.multiChannelAssociationSet(groupingIdentifier: 1, multiChannelNodeIds: [[nodeId: zwaveHubNodeId, bitAddress:0, endPointId: 0]]))
}
cmds << mcAssociationGetCmd(1)
}
for (int i = 2; i <= maxAssocGroups; i++) {
List cmdsEach = []
List settingNodeIds = getAssocDNIsSettingNodeIds(i)
//Need to remove first then add in case we are at limit
List oldNodeIds = state."assocNodes$i"?.findAll { !(it in settingNodeIds) }
if (oldNodeIds) {
logDebug "Removing Nodes: Group $i - $oldNodeIds"
cmdsEach << associationRemoveCmd(i, oldNodeIds)
}
List newNodeIds = settingNodeIds.findAll { !(it in state."assocNodes$i") }
if (newNodeIds) {
logDebug "Adding Nodes: Group $i - $newNodeIds"
cmdsEach << associationSetCmd(i, newNodeIds)
}
if (cmdsEach || state.resyncAll) {
cmdsEach << associationGetCmd(i)
cmds += cmdsEach
}
}
return cmds
}
String getOnOffCmds(val, Integer endPoint=0) {
List epList = (endPoint ? [endPoint] : endPointList)
epList.each { state."isDigital$it" = true }
return switchBinarySetCmd(val ? 0xFF : 0x00, endPoint)
}
List getChildRefreshCmds(Integer endPoint) {
List cmds = []
cmds << switchBinaryGetCmd(endPoint)
return cmds
}
/*******************************************************************
***** Required for Library
********************************************************************/
//These have to be added in after the fact or groovy complains
void fixParamsMap() {
paramsMap['settings'] = [fixed: true]
}
Integer getParamValueAdj(Map param) {
return getParamValue(param)
}
/*******************************************************************
***** Child/Other Functions
********************************************************************/
/*** Child Creation Functions ***/
void createChildDevices() {
endPointList.each { endPoint ->
if (!getChildByEP(endPoint)) {
logDebug "Creating new child device for endPoint ${endPoint}, did not find existing"
addChild(endPoint)
}
}
}
void addChild(endPoint) {
Map deviceType = [namespace:"hubitat", typeName:"Generic Component Central Scene Switch"]
Map deviceTypeBak = [namespace:"hubitat", typeName:"Generic Component Switch"]
String dni = getChildDNI(endPoint)
String epName = "Switch ${endPoint}"
Map properties = [name: "${device.name} - ${epName}", isComponent: false, endPoint:"${endPoint}"]
logDebug "Creating '${epName}' Child Device"
def childDev
try {
childDev = addChildDevice(deviceType.namespace, deviceType.typeName, dni, properties)
}
catch (e) {
logWarn "The '${deviceType}' driver failed"
if (deviceTypeBak) {
logWarn "Defaulting to '${deviceTypeBak}' instead"
childDev = addChildDevice(deviceTypeBak.namespace, deviceTypeBak.typeName, dni, properties)
}
}
if (childDev) {
childDev.sendEvent(name:"numberOfButtons", value:(childScene ? 5 : 0))
}
}
/*** Child Common Functions ***/
private getChildByEP(endPoint) {
endPoint = endPoint.toString()
//Searching using endPoint data value
def childDev = childDevices?.find { it.getDataValue("endPoint") == endPoint }
if (childDev) logTrace "Found Child for endPoint ${endPoint} using data.endPoint: ${childDev.displayName} (${childDev.deviceNetworkId})"
//If not found try deeper search using the child DNIs
else {
String dni = getChildDNI(endPoint)
childDev = childDevices?.find { it.deviceNetworkId == dni }
if (childDev) {
logDebug "Found Child for endPoint ${endPoint} parsing DNI: ${childDev.displayName} (${childDev.deviceNetworkId})"
//Save the EP on the device so we can find it easily next time
childDev.updateDataValue("endPoint","$endPoint")
}
}
return childDev
}
private getChildEP(childDev) {
Integer endPoint = safeToInt(childDev.getDataValue("endPoint"))
if (!endPoint) logWarn "Cannot determine endPoint number for $childDev (defaulting to 0), run Configure to detect existing endPoints"
return endPoint
}
String getChildDNI(epName) {
return "${device.deviceId}-${epName}".toUpperCase()
}
List getEndPointList() {
return (state.endPoints>0 ? 1..(state.endPoints) : [])
}
//#include jtp10181.zwaveDriverLibrary
/*******************************************************************
*******************************************************************
***** Z-Wave Driver Library by Jeff Page (@jtp10181)
*******************************************************************
********************************************************************
Changelog:
2023-05-10 - First version used in drivers
2023-05-12 - Adjustments to community links
2023-05-14 - Updates for power metering
2023-05-18 - Adding requirement for getParamValueAdj in driver
2023-05-24 - Fix for possible RuntimeException error due to bad cron string
2023-10-25 - Less saving to the configVals data, and some new functions
2023-10-26 - Added some battery shortcut functions
2023-11-08 - Added ability to adjust settings on firmware range
2024-01-28 - Adjusted logging settings for new / upgrade installs, added mfgSpecificReport
********************************************************************/
library (
author: "Jeff Page (@jtp10181)",
category: "zwave",
description: "Z-Wave Driver Library",
name: "zwaveDriverLibrary",
namespace: "jtp10181",
documentationLink: ""
)
/*******************************************************************
***** Z-Wave Reports (COMMON)
********************************************************************/
//Include these in Driver
//void parse(String description) {zwaveParse(description)}
//void zwaveEvent(hubitat.zwave.commands.multichannelv3.MultiChannelCmdEncap cmd) {zwaveMultiChannel(cmd)}
//void zwaveEvent(hubitat.zwave.commands.supervisionv1.SupervisionGet cmd, ep=0) {zwaveSupervision(cmd,ep)}
void zwaveParse(String description) {
hubitat.zwave.Command cmd = zwave.parse(description, commandClassVersions)
if (cmd) {
logTrace "parse: ${description} --PARSED-- ${cmd}"
zwaveEvent(cmd)
} else {
logWarn "Unable to parse: ${description}"
}
//Update Last Activity
updateLastCheckIn()
}
//Decodes Multichannel Encapsulated Commands
void zwaveMultiChannel(hubitat.zwave.commands.multichannelv3.MultiChannelCmdEncap cmd) {
hubitat.zwave.Command encapsulatedCmd = cmd.encapsulatedCommand(commandClassVersions)
logTrace "${cmd} --ENCAP-- ${encapsulatedCmd}"
if (encapsulatedCmd) {
zwaveEvent(encapsulatedCmd, cmd.sourceEndPoint as Integer)
} else {
logWarn "Unable to extract encapsulated cmd from $cmd"
}
}
//Decodes Supervision Encapsulated Commands (and replies to device)
void zwaveSupervision(hubitat.zwave.commands.supervisionv1.SupervisionGet cmd, ep=0) {
hubitat.zwave.Command encapsulatedCmd = cmd.encapsulatedCommand(commandClassVersions)
logTrace "${cmd} --ENCAP-- ${encapsulatedCmd}"
if (encapsulatedCmd) {
zwaveEvent(encapsulatedCmd, ep)
} else {
logWarn "Unable to extract encapsulated cmd from $cmd"
}
sendCommands(secureCmd(zwave.supervisionV1.supervisionReport(sessionID: cmd.sessionID, reserved: 0, moreStatusUpdates: false, status: 0xFF, duration: 0), ep))
}
void zwaveEvent(hubitat.zwave.commands.versionv2.VersionReport cmd) {
logTrace "${cmd}"
String fullVersion = String.format("%d.%02d",cmd.firmware0Version,cmd.firmware0SubVersion)
String zwaveVersion = String.format("%d.%02d",cmd.zWaveProtocolVersion,cmd.zWaveProtocolSubVersion)
device.updateDataValue("firmwareVersion", fullVersion)
device.updateDataValue("protocolVersion", zwaveVersion)
device.updateDataValue("hardwareVersion", "${cmd.hardwareVersion}")
logDebug "Received Version Report - Firmware: ${fullVersion}"
setDevModel(new BigDecimal(fullVersion))
}
void zwaveEvent(hubitat.zwave.commands.manufacturerspecificv2.ManufacturerSpecificReport cmd) {
logTrace "${cmd}"
device.updateDataValue("manufacturer",cmd.manufacturerId.toString())
device.updateDataValue("deviceType",cmd.productTypeId.toString())
device.updateDataValue("deviceId",cmd.productId.toString())
logDebug "fingerprint mfr:\"${hubitat.helper.HexUtils.integerToHexString(cmd.manufacturerId, 2)}\", "+
"prod:\"${hubitat.helper.HexUtils.integerToHexString(cmd.productTypeId, 2)}\", "+
"deviceId:\"${hubitat.helper.HexUtils.integerToHexString(cmd.productId, 2)}\", "+
"inClusters:\"${device.getDataValue("inClusters")}\""+
(device.getDataValue("secureInClusters") ? ", secureInClusters:\"${device.getDataValue("secureInClusters")}\"" : "")
}
void zwaveEvent(hubitat.zwave.Command cmd, ep=0) {
logDebug "Unhandled zwaveEvent: $cmd (ep ${ep})"
}
/*******************************************************************
***** Z-Wave Command Shortcuts
********************************************************************/
//These send commands to the device either a list or a single command
void sendCommands(List cmds, Long delay=200) {
sendHubCommand(new hubitat.device.HubMultiAction(delayBetween(cmds, delay), hubitat.device.Protocol.ZWAVE))
}
//Single Command
void sendCommands(String cmd) {
sendHubCommand(new hubitat.device.HubAction(cmd, hubitat.device.Protocol.ZWAVE))
}
//Consolidated zwave command functions so other code is easier to read
String associationSetCmd(Integer group, List nodes) {
return secureCmd(zwave.associationV2.associationSet(groupingIdentifier: group, nodeId: nodes))
}
String associationRemoveCmd(Integer group, List nodes) {
return secureCmd(zwave.associationV2.associationRemove(groupingIdentifier: group, nodeId: nodes))
}
String associationGetCmd(Integer group) {
return secureCmd(zwave.associationV2.associationGet(groupingIdentifier: group))
}
String mcAssociationGetCmd(Integer group) {
return secureCmd(zwave.multiChannelAssociationV3.multiChannelAssociationGet(groupingIdentifier: group))
}
String versionGetCmd() {
return secureCmd(zwave.versionV2.versionGet())
}
String mfgSpecificGetCmd() {
return secureCmd(zwave.manufacturerSpecificV2.manufacturerSpecificGet())
}
String switchBinarySetCmd(Integer value, Integer ep=0) {
return secureCmd(zwave.switchBinaryV1.switchBinarySet(switchValue: value), ep)
}
String switchBinaryGetCmd(Integer ep=0) {
return secureCmd(zwave.switchBinaryV1.switchBinaryGet(), ep)
}
String switchMultilevelSetCmd(Integer value, Integer duration, Integer ep=0) {
return secureCmd(zwave.switchMultilevelV4.switchMultilevelSet(dimmingDuration: duration, value: value), ep)
}
String switchMultilevelGetCmd(Integer ep=0) {
return secureCmd(zwave.switchMultilevelV4.switchMultilevelGet(), ep)
}
String switchMultilevelStartLvChCmd(Boolean upDown, Integer duration, Integer ep=0) {
//upDown: false=up, true=down
return secureCmd(zwave.switchMultilevelV4.switchMultilevelStartLevelChange(upDown: upDown, ignoreStartLevel:1, dimmingDuration: duration), ep)
}
String switchMultilevelStopLvChCmd(Integer ep=0) {
return secureCmd(zwave.switchMultilevelV4.switchMultilevelStopLevelChange(), ep)
}
String meterGetCmd(meter, Integer ep=0) {
return secureCmd(zwave.meterV3.meterGet(scale: meter.scale), ep)
}
String meterResetCmd(Integer ep=0) {
return secureCmd(zwave.meterV3.meterReset(), ep)
}
String wakeUpIntervalGetCmd() {
return secureCmd(zwave.wakeUpV2.wakeUpIntervalGet())
}
String wakeUpIntervalSetCmd(val) {
return secureCmd(zwave.wakeUpV2.wakeUpIntervalSet(seconds:val, nodeid:zwaveHubNodeId))
}
String wakeUpNoMoreInfoCmd() {
return secureCmd(zwave.wakeUpV2.wakeUpNoMoreInformation())
}
String batteryGetCmd() {
return secureCmd(zwave.batteryV1.batteryGet())
}
String sensorMultilevelGetCmd(sensorType) {
Integer scale = (temperatureScale == "F" ? 1 : 0)
return secureCmd(zwave.sensorMultilevelV11.sensorMultilevelGet(scale: scale, sensorType: sensorType))
}
String notificationGetCmd(notificationType, eventType, Integer ep=0) {
return secureCmd(zwave.notificationV3.notificationGet(notificationType: notificationType, v1AlarmType:0, event: eventType), ep)
}
String configSetCmd(Map param, Integer value) {
//Convert from unsigned to signed for scaledConfigurationValue
Long sizeFactor = Math.pow(256,param.size).round()
if (value >= sizeFactor/2) { value -= sizeFactor }
return secureCmd(zwave.configurationV1.configurationSet(parameterNumber: param.num, size: param.size, scaledConfigurationValue: value))
}
String configGetCmd(Map param) {
return secureCmd(zwave.configurationV1.configurationGet(parameterNumber: param.num))
}
List configSetGetCmd(Map param, Integer value) {
List cmds = []
cmds << configSetCmd(param, value)
cmds << configGetCmd(param)
return cmds
}
/*******************************************************************
***** Z-Wave Encapsulation
********************************************************************/
//Secure and MultiChannel Encapsulate
String secureCmd(String cmd) {
return zwaveSecureEncap(cmd)
}
String secureCmd(hubitat.zwave.Command cmd, ep=0) {
return zwaveSecureEncap(multiChannelEncap(cmd, ep))
}
//MultiChannel Encapsulate if needed
//This is called from secureCmd or supervisionEncap, do not call directly
String multiChannelEncap(hubitat.zwave.Command cmd, ep) {
//logTrace "multiChannelEncap: ${cmd} (ep ${ep})"
if (ep > 0) {
cmd = zwave.multiChannelV3.multiChannelCmdEncap(destinationEndPoint:ep).encapsulate(cmd)
}
return cmd.format()
}
/*******************************************************************
***** Common Functions
********************************************************************/
/*** Parameter Store Map Functions ***/
@Field static Map configsList = new java.util.concurrent.ConcurrentHashMap()
Integer getParamStoredValue(Integer paramNum) {
//Using Data (Map) instead of State Variables
Map configsMap = getParamStoredMap()
return safeToInt(configsMap[paramNum], null)
}
void setParamStoredValue(Integer paramNum, Integer value) {
//Using Data (Map) instead of State Variables
TreeMap configsMap = getParamStoredMap()
configsMap[paramNum] = value
configsList[device.id][paramNum] = value
//device.updateDataValue("configVals", configsMap.inspect())
}
Map getParamStoredMap() {
TreeMap configsMap = configsList[device.id]
if (configsMap == null) {
configsMap = [:]
if (device.getDataValue("configVals")) {
try {
configsMap = evaluate(device.getDataValue("configVals"))
}
catch(Exception e) {
logWarn("Clearing Invalid configVals: ${e}")
device.removeDataValue("configVals")
}
}
configsList[device.id] = configsMap
}
return configsMap
}
//Parameter List Functions
//This will rebuild the list for the current model and firmware only as needed
//paramsList Structure: MODEL:[FIRMWARE:PARAM_MAPS]
//PARAM_MAPS [num, name, title, description, size, defaultVal, options, firmVer]
@Field static Map> paramsList = new java.util.concurrent.ConcurrentHashMap()
void updateParamsList() {
logDebug "Update Params List"
String devModel = state.deviceModel
Short modelNum = deviceModelShort
Short modelSeries = Math.floor(modelNum/10)
BigDecimal firmware = firmwareVersion
List