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CHANGE-751 Step 0 of migrating the deprecated DTH over to the new DTHs

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This commit is contained in:
Vinay Rao
2016-11-02 08:06:10 -07:00
parent add519433c
commit a98d3dc2d6
9 changed files with 989 additions and 1960 deletions
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116
devicetypes/smartthings/centralite-dimmer.src/centralite-dimmer.groovy
View File

@@ -28,17 +28,6 @@ metadata {
}
// simulator metadata
simulator {
// status messages
status "on": "on/off: 1"
status "off": "on/off: 0"
// reply messages
reply "zcl on-off on": "on/off: 1"
reply "zcl on-off off": "on/off: 0"
}
tiles(scale: 2) {
multiAttributeTile(name:"switch", type: "lighting", width: 6, height: 4, canChangeIcon: true){
tileAttribute ("device.switch", key: "PRIMARY_CONTROL") {
@@ -54,103 +43,54 @@ metadata {
attributeState "power", label:'${currentValue} W'
}
}
standardTile("refresh", "device.power", inactiveLabel: false, decoration: "flat", width: 2, height: 2) {
state "default", label:'', action:"refresh.refresh", icon:"st.secondary.refresh"
standardTile("refresh", "device.refresh", inactiveLabel: false, decoration: "flat", width: 2, height: 2) {
state "default", label:"", action:"refresh.refresh", icon:"st.secondary.refresh"
}
main "switch"
details(["switch","refresh"])
details(["switch", "refresh"])
}
}
// Parse incoming device messages to generate events
def parse(String description) {
log.debug "Parse description $description"
def name = null
def value = null
if (description?.startsWith("catchall:")) {
def msg = zigbee.parse(description)
log.trace msg
log.trace "data: $msg.data"
} else if (description?.startsWith("read attr -")) {
def descMap = parseDescriptionAsMap(description)
log.debug "Read attr: $description"
if (descMap.cluster == "0006" && descMap.attrId == "0000") {
name = "switch"
value = descMap.value.endsWith("01") ? "on" : "off"
} else {
def reportValue = description.split(",").find {it.split(":")[0].trim() == "value"}?.split(":")[1].trim()
name = "power"
// assume 16 bit signed for encoding and power divisor is 10
value = Integer.parseInt(reportValue, 16) / 10
log.debug "description is $description"
def event = zigbee.getEvent(description)
if (event) {
log.info event
if (event.name == "power") {
if (device.getDataValue("manufacturer") != "OSRAM") { //OSRAM devices do not reliably update power
event.value = (event.value as Integer) / 10 //TODO: The divisor value needs to be set as part of configuration
sendEvent(event)
}
}
else {
sendEvent(event)
}
} else if (description?.startsWith("on/off:")) {
log.debug "Switch command"
name = "switch"
value = description?.endsWith(" 1") ? "on" : "off"
}
def result = createEvent(name: name, value: value)
log.debug "Parse returned ${result?.descriptionText}"
return result
}
def parseDescriptionAsMap(description) {
(description - "read attr - ").split(",").inject([:]) { map, param ->
def nameAndValue = param.split(":")
map += [(nameAndValue[0].trim()):nameAndValue[1].trim()]
else {
log.warn "DID NOT PARSE MESSAGE for description : $description"
log.debug zigbee.parseDescriptionAsMap(description)
}
}
// Commands to device
def on() {
[
'zcl on-off on',
'delay 200',
"send 0x${zigbee.deviceNetworkId} 0x01 0x${zigbee.endpointId}",
'delay 500'
]
}
def off() {
[
'zcl on-off off',
'delay 200',
"send 0x${zigbee.deviceNetworkId} 0x01 0x${zigbee.endpointId}",
'delay 500'
]
zigbee.off()
}
def on() {
zigbee.on()
}
def setLevel(value) {
log.trace "setLevel($value)"
sendEvent(name: "level", value: value)
def level = hexString(Math.round(value * 255/100))
def cmd = "st cmd 0x${device.deviceNetworkId} 1 8 4 {${level} 2000}"
log.debug cmd
cmd
}
def meter() {
"st rattr 0x${device.deviceNetworkId} 1 0xB04 0x50B"
zigbee.setLevel(value)
}
def refresh() {
"st rattr 0x${device.deviceNetworkId} 1 0xB04 0x50B"
zigbee.onOffRefresh() + zigbee.levelRefresh() + zigbee.simpleMeteringPowerRefresh() + zigbee.electricMeasurementPowerRefresh() + zigbee.onOffConfig() + zigbee.levelConfig() + zigbee.simpleMeteringPowerConfig() + zigbee.electricMeasurementPowerConfig()
}
def configure() {
[
"zdo bind 0x${device.deviceNetworkId} 1 1 8 {${device.zigbeeId}} {}", "delay 200",
"zdo bind 0x${device.deviceNetworkId} 1 1 6 {${device.zigbeeId}} {}", "delay 200",
"zdo bind 0x${device.deviceNetworkId} 1 1 0xB04 {${device.zigbeeId}} {}"
]
}
private hex(value, width=2) {
def s = new BigInteger(Math.round(value).toString()).toString(16)
while (s.size() < width) {
s = "0" + s
}
s
log.debug "Configuring Reporting and Bindings."
refresh()
}

299
devicetypes/smartthings/ge-zigbee-dimmer.src/ge-zigbee-dimmer.groovy
View File

@@ -28,17 +28,6 @@ metadata {
}
// simulator metadata
simulator {
// status messages
status "on": "on/off: 1"
status "off": "on/off: 0"
// reply messages
reply "zcl on-off on": "on/off: 1"
reply "zcl on-off off": "on/off: 0"
}
tiles(scale: 2) {
multiAttributeTile(name:"switch", type: "lighting", width: 6, height: 4, canChangeIcon: true){
tileAttribute ("device.switch", key: "PRIMARY_CONTROL") {
@@ -50,18 +39,15 @@ metadata {
tileAttribute ("device.level", key: "SLIDER_CONTROL") {
attributeState "level", action:"switch level.setLevel"
}
tileAttribute ("power", key: "SECONDARY_CONTROL") {
attributeState "power", label:'${currentValue} W'
}
}
valueTile("level", "device.level", inactiveLabel: false, decoration: "flat", width: 2, height: 2) {
state "level", label: 'Level ${currentValue}%'
}
valueTile("power", "device.power", decoration: "flat", width: 2, height: 2) {
state "power", label:'${currentValue} W'
}
standardTile("refresh", "device.power", inactiveLabel: false, decoration: "flat", width: 2, height: 2) {
state "default", label:'', action:"refresh.refresh", icon:"st.secondary.refresh"
standardTile("refresh", "device.refresh", inactiveLabel: false, decoration: "flat", width: 2, height: 2) {
state "default", label:"", action:"refresh.refresh", icon:"st.secondary.refresh"
}
main "switch"
details(["switch", "level", "power","levelSliderControl","refresh"])
details(["switch", "refresh"])
}
}
@@ -69,283 +55,42 @@ metadata {
def parse(String description) {
log.debug "description is $description"
def finalResult = isKnownDescription(description)
if (finalResult != "false") {
log.info finalResult
if (finalResult.type == "update") {
log.info "$device updates: ${finalResult.value}"
}
else if (finalResult.type == "power") {
def powerValue = (finalResult.value as Integer)/10
sendEvent(name: "power", value: powerValue)
/*
Dividing by 10 as the Divisor is 10000 and unit is kW for the device. AttrId: 0302 and 0300. Simplifying to 10
power level is an integer. The exact power level with correct units needs to be handled in the device type
to account for the different Divisor value (AttrId: 0302) and POWER Unit (AttrId: 0300). CLUSTER for simple metering is 0702
*/
def event = zigbee.getEvent(description)
if (event) {
log.info event
if (event.name == "power") {
if (device.getDataValue("manufacturer") != "OSRAM") { //OSRAM devices do not reliably update power
event.value = (event.value as Integer) / 10 //TODO: The divisor value needs to be set as part of configuration
sendEvent(event)
}
}
else {
sendEvent(name: finalResult.type, value: finalResult.value)
sendEvent(event)
}
}
else {
log.warn "DID NOT PARSE MESSAGE for description : $description"
log.debug parseDescriptionAsMap(description)
log.debug zigbee.parseDescriptionAsMap(description)
}
}
// Commands to device
def zigbeeCommand(cluster, attribute){
["st cmd 0x${device.deviceNetworkId} ${endpointId} ${cluster} ${attribute} {}"]
}
def off() {
zigbeeCommand("6", "0")
zigbee.off()
}
def on() {
zigbeeCommand("6", "1")
zigbee.on()
}
def setLevel(value) {
value = value as Integer
if (value == 0) {
off()
}
else {
sendEvent(name: "level", value: value)
setLevelWithRate(value, "0000") + ["delay 1000"] + on() //value is between 0 to 100; GE does NOT switch on if OFF
}
zigbee.setLevel(value)
}
def refresh() {
[
"st rattr 0x${device.deviceNetworkId} ${endpointId} 6 0", "delay 500",
"st rattr 0x${device.deviceNetworkId} ${endpointId} 8 0", "delay 500",
"st rattr 0x${device.deviceNetworkId} ${endpointId} 0x0702 0x0400", "delay 500"
]
zigbee.onOffRefresh() + zigbee.levelRefresh() + zigbee.simpleMeteringPowerRefresh() + zigbee.electricMeasurementPowerRefresh() + zigbee.onOffConfig() + zigbee.levelConfig() + zigbee.simpleMeteringPowerConfig() + zigbee.electricMeasurementPowerConfig()
}
def configure() {
onOffConfig() + levelConfig() + powerConfig() + refresh()
}
private getEndpointId() {
new BigInteger(device.endpointId, 16).toString()
}
private hex(value, width=2) {
def s = new BigInteger(Math.round(value).toString()).toString(16)
while (s.size() < width) {
s = "0" + s
}
s
}
private String swapEndianHex(String hex) {
reverseArray(hex.decodeHex()).encodeHex()
}
private Integer convertHexToInt(hex) {
Integer.parseInt(hex,16)
}
//Need to reverse array of size 2
private byte[] reverseArray(byte[] array) {
byte tmp;
tmp = array[1];
array[1] = array[0];
array[0] = tmp;
return array
}
def parseDescriptionAsMap(description) {
if (description?.startsWith("read attr -")) {
(description - "read attr - ").split(",").inject([:]) { map, param ->
def nameAndValue = param.split(":")
map += [(nameAndValue[0].trim()): nameAndValue[1].trim()]
}
}
else if (description?.startsWith("catchall: ")) {
def seg = (description - "catchall: ").split(" ")
def zigbeeMap = [:]
zigbeeMap += [raw: (description - "catchall: ")]
zigbeeMap += [profileId: seg[0]]
zigbeeMap += [clusterId: seg[1]]
zigbeeMap += [sourceEndpoint: seg[2]]
zigbeeMap += [destinationEndpoint: seg[3]]
zigbeeMap += [options: seg[4]]
zigbeeMap += [messageType: seg[5]]
zigbeeMap += [dni: seg[6]]
zigbeeMap += [isClusterSpecific: Short.valueOf(seg[7], 16) != 0]
zigbeeMap += [isManufacturerSpecific: Short.valueOf(seg[8], 16) != 0]
zigbeeMap += [manufacturerId: seg[9]]
zigbeeMap += [command: seg[10]]
zigbeeMap += [direction: seg[11]]
zigbeeMap += [data: seg.size() > 12 ? seg[12].split("").findAll { it }.collate(2).collect {
it.join('')
} : []]
zigbeeMap
}
}
def isKnownDescription(description) {
if ((description?.startsWith("catchall:")) || (description?.startsWith("read attr -"))) {
def descMap = parseDescriptionAsMap(description)
if (descMap.cluster == "0006" || descMap.clusterId == "0006") {
isDescriptionOnOff(descMap)
}
else if (descMap.cluster == "0008" || descMap.clusterId == "0008"){
isDescriptionLevel(descMap)
}
else if (descMap.cluster == "0702" || descMap.clusterId == "0702"){
isDescriptionPower(descMap)
}
else {
return "false"
}
}
else if(description?.startsWith("on/off:")) {
def switchValue = description?.endsWith("1") ? "on" : "off"
return [type: "switch", value : switchValue]
}
else {
return "false"
}
}
def isDescriptionOnOff(descMap) {
def switchValue = "undefined"
if (descMap.cluster == "0006") { //cluster info from read attr
value = descMap.value
if (value == "01"){
switchValue = "on"
}
else if (value == "00"){
switchValue = "off"
}
}
else if (descMap.clusterId == "0006") {
//cluster info from catch all
//command 0B is Default response and the last two bytes are [on/off][success]. on/off=00, success=00
//command 01 is Read attr response. the last two bytes are [datatype][value]. boolean datatype=10; on/off value = 01/00
if ((descMap.command=="0B" && descMap.raw.endsWith("0100")) || (descMap.command=="01" && descMap.raw.endsWith("1001"))){
switchValue = "on"
}
else if ((descMap.command=="0B" && descMap.raw.endsWith("0000")) || (descMap.command=="01" && descMap.raw.endsWith("1000"))){
switchValue = "off"
}
else if(descMap.command=="07"){
return [type: "update", value : "switch (0006) capability configured successfully"]
}
}
if (switchValue != "undefined"){
return [type: "switch", value : switchValue]
}
else {
return "false"
}
}
//@return - false or "success" or level [0-100]
def isDescriptionLevel(descMap) {
def dimmerValue = -1
if (descMap.cluster == "0008"){
//TODO: the message returned with catchall is command 0B with clusterId 0008. That is just a confirmation message
def value = convertHexToInt(descMap.value)
dimmerValue = Math.round(value * 100 / 255)
if(dimmerValue==0 && value > 0) {
dimmerValue = 1 //handling for non-zero hex value less than 3
}
}
else if(descMap.clusterId == "0008") {
if(descMap.command=="0B"){
return [type: "update", value : "level updated successfully"] //device updating the level change was successful. no value sent.
}
else if(descMap.command=="07"){
return [type: "update", value : "level (0008) capability configured successfully"]
}
}
if (dimmerValue != -1){
return [type: "level", value : dimmerValue]
}
else {
return "false"
}
}
def isDescriptionPower(descMap) {
def powerValue = "undefined"
if (descMap.cluster == "0702") {
if (descMap.attrId == "0400") {
powerValue = convertHexToInt(descMap.value)
}
}
else if (descMap.clusterId == "0702") {
if(descMap.command=="07"){
return [type: "update", value : "power (0702) capability configured successfully"]
}
}
if (powerValue != "undefined"){
return [type: "power", value : powerValue]
}
else {
return "false"
}
}
def onOffConfig() {
[
"zdo bind 0x${device.deviceNetworkId} 1 ${endpointId} 6 {${device.zigbeeId}} {}", "delay 200",
"zcl global send-me-a-report 6 0 0x10 0 600 {01}",
"send 0x${device.deviceNetworkId} 1 ${endpointId}", "delay 1500"
]
}
//level config for devices with min reporting interval as 5 seconds and reporting interval if no activity as 1hour (3600s)
//min level change is 01
def levelConfig() {
[
"zdo bind 0x${device.deviceNetworkId} 1 ${endpointId} 8 {${device.zigbeeId}} {}", "delay 200",
"zcl global send-me-a-report 8 0 0x20 1 3600 {01}",
"send 0x${device.deviceNetworkId} 1 ${endpointId}", "delay 1500"
]
}
//power config for devices with min reporting interval as 1 seconds and reporting interval if no activity as 10min (600s)
//min change in value is 05
def powerConfig() {
[
//Meter (Power) Reporting
"zdo bind 0x${device.deviceNetworkId} 1 ${endpointId} 0x0702 {${device.zigbeeId}} {}", "delay 200",
"zcl global send-me-a-report 0x0702 0x0400 0x2A 1 600 {05}",
"send 0x${device.deviceNetworkId} 1 ${endpointId}", "delay 1500"
]
}
def setLevelWithRate(level, rate) {
if(rate == null){
rate = "0000"
}
level = convertToHexString(level * 255 / 100) //Converting the 0-100 range to 0-FF range in hex
["st cmd 0x${device.deviceNetworkId} ${endpointId} 8 4 {$level $rate}"]
}
String convertToHexString(value, width=2) {
def s = new BigInteger(Math.round(value).toString()).toString(16)
while (s.size() < width) {
s = "0" + s
}
s
log.debug "Configuring Reporting and Bindings."
refresh()
}

232
devicetypes/smartthings/ge-zigbee-switch.src/ge-zigbee-switch.groovy
View File

@@ -28,17 +28,6 @@ metadata {
}
// simulator metadata
simulator {
// status messages
status "on": "on/off: 1"
status "off": "on/off: 0"
// reply messages
reply "zcl on-off on": "on/off: 1"
reply "zcl on-off off": "on/off: 0"
}
tiles(scale: 2) {
multiAttributeTile(name:"switch", type: "lighting", width: 6, height: 4, canChangeIcon: true){
tileAttribute ("device.switch", key: "PRIMARY_CONTROL") {
@@ -47,238 +36,51 @@ metadata {
attributeState "turningOn", label:'${name}', action:"switch.off", icon:"st.switches.switch.on", backgroundColor:"#79b821", nextState:"turningOff"
attributeState "turningOff", label:'${name}', action:"switch.on", icon:"st.switches.switch.off", backgroundColor:"#ffffff", nextState:"turningOn"
}
tileAttribute ("power", key: "SECONDARY_CONTROL") {
attributeState "power", label:'${currentValue} W'
}
}
standardTile("refresh", "device.switch", inactiveLabel: false, decoration: "flat", width: 2, height: 2) {
standardTile("refresh", "device.refresh", inactiveLabel: false, decoration: "flat", width: 2, height: 2) {
state "default", label:"", action:"refresh.refresh", icon:"st.secondary.refresh"
}
valueTile("power", "device.power", inactiveLabel: false, decoration: "flat", width: 2, height: 2) {
state "power", label:'${currentValue} Watts'
}
main "switch"
details(["switch", "power", "refresh"])
details(["switch", "refresh"])
}
}
// Parse incoming device messages to generate events
def parse(String description) {
log.debug "description is $description"
def finalResult = isKnownDescription(description)
if (finalResult != "false") {
log.info finalResult
if (finalResult.type == "update") {
log.info "$device updates: ${finalResult.value}"
}
else if (finalResult.type == "power") {
def powerValue = (finalResult.value as Integer)/10
def event = zigbee.getEvent(description)
if (event) {
if (event.name == "power") {
def powerValue
powerValue = (event.value as Integer)/10 //TODO: The divisor value needs to be set as part of configuration
sendEvent(name: "power", value: powerValue)
/*
Dividing by 10 as the Divisor is 10000 and unit is kW for the device. AttrId: 0302 and 0300. Simplifying to 10
power level is an integer. The exact power level with correct units needs to be handled in the device type
to account for the different Divisor value (AttrId: 0302) and POWER Unit (AttrId: 0300). CLUSTER for simple metering is 0702
*/
}
else {
sendEvent(name: finalResult.type, value: finalResult.value)
sendEvent(event)
}
}
else {
log.warn "DID NOT PARSE MESSAGE for description : $description"
log.debug parseDescriptionAsMap(description)
log.debug zigbee.parseDescriptionAsMap(description)
}
}
// Commands to device
def zigbeeCommand(cluster, attribute){
"st cmd 0x${device.deviceNetworkId} ${endpointId} ${cluster} ${attribute} {}"
}
def off() {
zigbeeCommand("6", "0")
zigbee.off()
}
def on() {
zigbeeCommand("6", "1")
zigbee.on()
}
def refresh() {
[
"st rattr 0x${device.deviceNetworkId} ${endpointId} 6 0", "delay 500",
"st rattr 0x${device.deviceNetworkId} ${endpointId} 8 0", "delay 500",
"st rattr 0x${device.deviceNetworkId} ${endpointId} 0x0702 0x0400", "delay 500"
]
zigbee.onOffRefresh() + zigbee.simpleMeteringPowerRefresh() + zigbee.electricMeasurementPowerRefresh() + zigbee.onOffConfig() + zigbee.simpleMeteringPowerConfig() + zigbee.electricMeasurementPowerConfig()
}
def configure() {
onOffConfig() + powerConfig() + refresh()
}
private getEndpointId() {
new BigInteger(device.endpointId, 16).toString()
}
private hex(value, width=2) {
def s = new BigInteger(Math.round(value).toString()).toString(16)
while (s.size() < width) {
s = "0" + s
}
s
}
private String swapEndianHex(String hex) {
reverseArray(hex.decodeHex()).encodeHex()
}
private Integer convertHexToInt(hex) {
Integer.parseInt(hex,16)
}
//Need to reverse array of size 2
private byte[] reverseArray(byte[] array) {
byte tmp;
tmp = array[1];
array[1] = array[0];
array[0] = tmp;
return array
}
def parseDescriptionAsMap(description) {
if (description?.startsWith("read attr -")) {
(description - "read attr - ").split(",").inject([:]) { map, param ->
def nameAndValue = param.split(":")
map += [(nameAndValue[0].trim()): nameAndValue[1].trim()]
}
}
else if (description?.startsWith("catchall: ")) {
def seg = (description - "catchall: ").split(" ")
def zigbeeMap = [:]
zigbeeMap += [raw: (description - "catchall: ")]
zigbeeMap += [profileId: seg[0]]
zigbeeMap += [clusterId: seg[1]]
zigbeeMap += [sourceEndpoint: seg[2]]
zigbeeMap += [destinationEndpoint: seg[3]]
zigbeeMap += [options: seg[4]]
zigbeeMap += [messageType: seg[5]]
zigbeeMap += [dni: seg[6]]
zigbeeMap += [isClusterSpecific: Short.valueOf(seg[7], 16) != 0]
zigbeeMap += [isManufacturerSpecific: Short.valueOf(seg[8], 16) != 0]
zigbeeMap += [manufacturerId: seg[9]]
zigbeeMap += [command: seg[10]]
zigbeeMap += [direction: seg[11]]
zigbeeMap += [data: seg.size() > 12 ? seg[12].split("").findAll { it }.collate(2).collect {
it.join('')
} : []]
zigbeeMap
}
}
def isKnownDescription(description) {
if ((description?.startsWith("catchall:")) || (description?.startsWith("read attr -"))) {
def descMap = parseDescriptionAsMap(description)
if (descMap.cluster == "0006" || descMap.clusterId == "0006") {
isDescriptionOnOff(descMap)
}
else if (descMap.cluster == "0702" || descMap.clusterId == "0702"){
isDescriptionPower(descMap)
}
else {
return "false"
}
}
else if(description?.startsWith("on/off:")) {
def switchValue = description?.endsWith("1") ? "on" : "off"
return [type: "switch", value : switchValue]
}
else {
return "false"
}
}
def isDescriptionOnOff(descMap) {
def switchValue = "undefined"
if (descMap.cluster == "0006") { //cluster info from read attr
value = descMap.value
if (value == "01"){
switchValue = "on"
}
else if (value == "00"){
switchValue = "off"
}
}
else if (descMap.clusterId == "0006") {
//cluster info from catch all
//command 0B is Default response and the last two bytes are [on/off][success]. on/off=00, success=00
//command 01 is Read attr response. the last two bytes are [datatype][value]. boolean datatype=10; on/off value = 01/00
if ((descMap.command=="0B" && descMap.raw.endsWith("0100")) || (descMap.command=="01" && descMap.raw.endsWith("1001"))){
switchValue = "on"
}
else if ((descMap.command=="0B" && descMap.raw.endsWith("0000")) || (descMap.command=="01" && descMap.raw.endsWith("1000"))){
switchValue = "off"
}
else if(descMap.command=="07"){
return [type: "update", value : "switch (0006) capability configured successfully"]
}
}
if (switchValue != "undefined"){
return [type: "switch", value : switchValue]
}
else {
return "false"
}
}
def isDescriptionPower(descMap) {
def powerValue = "undefined"
if (descMap.cluster == "0702") {
if (descMap.attrId == "0400") {
powerValue = convertHexToInt(descMap.value)
}
}
else if (descMap.clusterId == "0702") {
if(descMap.command=="07"){
return [type: "update", value : "power (0702) capability configured successfully"]
}
}
if (powerValue != "undefined"){
return [type: "power", value : powerValue]
}
else {
return "false"
}
}
def onOffConfig() {
[
"zdo bind 0x${device.deviceNetworkId} 1 ${endpointId} 6 {${device.zigbeeId}} {}", "delay 200",
"zcl global send-me-a-report 6 0 0x10 0 600 {01}",
"send 0x${device.deviceNetworkId} 1 ${endpointId}", "delay 1500"
]
}
//power config for devices with min reporting interval as 1 seconds and reporting interval if no activity as 10min (600s)
//min change in value is 05
def powerConfig() {
[
//Meter (Power) Reporting
"zdo bind 0x${device.deviceNetworkId} 1 ${endpointId} 0x0702 {${device.zigbeeId}} {}", "delay 200",
"zcl global send-me-a-report 0x0702 0x0400 0x2A 1 600 {05}",
"send 0x${device.deviceNetworkId} 1 ${endpointId}", "delay 1500"
]
}
String convertToHexString(value, width=2) {
def s = new BigInteger(Math.round(value).toString()).toString(16)
while (s.size() < width) {
s = "0" + s
}
s
log.debug "Configuring Reporting and Bindings."
refresh()
}

400
devicetypes/smartthings/osram-lightify-gardenspot-mini-rgb.src/osram-lightify-gardenspot-mini-rgb.groovy
View File

@@ -23,359 +23,123 @@ metadata {
command "setAdjustedColor"
}
// simulator metadata
simulator {
// status messages
status "on": "on/off: 1"
status "off": "on/off: 0"
// reply messages
reply "zcl on-off on": "on/off: 1"
reply "zcl on-off off": "on/off: 0"
}
// UI tile definitions
tiles {
standardTile("switch", "device.switch", width: 2, height: 2, canChangeIcon: true) {
state "on", label: '${name}', action: "switch.off", icon: "st.switches.light.on", backgroundColor: "#79b821"
state "off", label: '${name}', action: "switch.on", icon: "st.switches.light.off", backgroundColor: "#ffffff"
tiles(scale: 2) {
multiAttributeTile(name:"switch", type: "lighting", width: 6, height: 4, canChangeIcon: true){
tileAttribute ("device.switch", key: "PRIMARY_CONTROL") {
attributeState "on", label:'${name}', action:"switch.off", icon:"st.lights.philips.hue-single", backgroundColor:"#79b821", nextState:"turningOff"
attributeState "off", label:'${name}', action:"switch.on", icon:"st.lights.philips.hue-single", backgroundColor:"#ffffff", nextState:"turningOn"
attributeState "turningOn", label:'${name}', action:"switch.off", icon:"st.lights.philips.hue-single", backgroundColor:"#79b821", nextState:"turningOff"
attributeState "turningOff", label:'${name}', action:"switch.on", icon:"st.lights.philips.hue-single", backgroundColor:"#ffffff", nextState:"turningOn"
}
tileAttribute ("device.level", key: "SLIDER_CONTROL") {
attributeState "level", action:"switch level.setLevel"
}
tileAttribute ("device.color", key: "COLOR_CONTROL") {
attributeState "color", action:"color control.setColor"
}
}
standardTile("refresh", "device.switch", inactiveLabel: false, decoration: "flat") {
standardTile("refresh", "device.refresh", inactiveLabel: false, decoration: "flat", width: 2, height: 2) {
state "default", label:"", action:"refresh.refresh", icon:"st.secondary.refresh"
}
controlTile("rgbSelector", "device.color", "color", height: 3, width: 3, inactiveLabel: false) {
state "color", action:"setAdjustedColor"
}
valueTile("colorName", "device.colorName", inactiveLabel: false, decoration: "flat") {
state "colorName", label: '${currentValue}'
}
controlTile("levelSliderControl", "device.level", "slider", height: 1, width: 2, inactiveLabel: false, range:"(0..100)") {
state "level", action:"switch level.setLevel"
}
valueTile("level", "device.level", inactiveLabel: false, decoration: "flat") {
state "level", label: 'Level ${currentValue}%'
}
main(["switch"])
details(["switch", "refresh", "colorName", "levelSliderControl", "level", "rgbSelector"])
details(["switch", "refresh"])
}
}
//Globals
private getATTRIBUTE_HUE() { 0x0000 }
private getATTRIBUTE_SATURATION() { 0x0001 }
private getHUE_COMMAND() { 0x00 }
private getSATURATION_COMMAND() { 0x03 }
private getCOLOR_CONTROL_CLUSTER() { 0x0300 }
// Parse incoming device messages to generate events
def parse(String description) {
//log.info "description is $description"
if (description?.startsWith("catchall:")) {
if(description?.endsWith("0100") ||description?.endsWith("1001") || description?.matches("on/off\\s*:\\s*1"))
{
def result = createEvent(name: "switch", value: "on")
log.debug "Parse returned ${result?.descriptionText}"
return result
}
else if(description?.endsWith("0000") || description?.endsWith("1000") || description?.matches("on/off\\s*:\\s*0"))
{
if(!(description?.startsWith("catchall: 0104 0300"))){
def result = createEvent(name: "switch", value: "off")
log.debug "Parse returned ${result?.descriptionText}"
return result
}
}
}
else if (description?.startsWith("read attr -")) {
def descMap = parseDescriptionAsMap(description)
log.trace "descMap : $descMap"
log.debug "description is $description"
if (descMap.cluster == "0300") {
if(descMap.attrId == "0000"){ //Hue Attribute
def hueValue = Math.round(convertHexToInt(descMap.value) / 255 * 100)
log.debug "Hue value returned is $hueValue"
sendEvent(name: "hue", value: hueValue, displayed:false)
}
else if(descMap.attrId == "0001"){ //Saturation Attribute
def saturationValue = Math.round(convertHexToInt(descMap.value) / 255 * 100)
log.debug "Saturation from refresh is $saturationValue"
sendEvent(name: "saturation", value: saturationValue, displayed:false)
}
}
else if(descMap.cluster == "0008"){
def dimmerValue = Math.round(convertHexToInt(descMap.value) * 100 / 255)
log.debug "dimmer value is $dimmerValue"
sendEvent(name: "level", value: dimmerValue)
def event = zigbee.getEvent(description)
if (event) {
log.debug event
if (event.name=="level" && event.value==0) {}
else {
sendEvent(event)
}
}
else {
def name = description?.startsWith("on/off: ") ? "switch" : null
def value = name == "switch" ? (description?.endsWith(" 1") ? "on" : "off") : null
def result = createEvent(name: name, value: value)
log.debug "Parse returned ${result?.descriptionText}"
return result
def zigbeeMap = zigbee.parseDescriptionAsMap(description)
def cluster = zigbee.parse(description)
if (zigbeeMap?.clusterInt == COLOR_CONTROL_CLUSTER) {
if(zigbeeMap.attrInt == ATTRIBUTE_HUE){ //Hue Attribute
def hueValue = Math.round(zigbee.convertHexToInt(zigbeeMap.value) / 255 * 100)
sendEvent(name: "hue", value: hueValue, descriptionText: "Color has changed")
}
else if(zigbeeMap.attrInt == ATTRIBUTE_SATURATION){ //Saturation Attribute
def saturationValue = Math.round(zigbee.convertHexToInt(zigbeeMap.value) / 255 * 100)
sendEvent(name: "saturation", value: saturationValue, descriptionText: "Color has changed", displayed: false)
}
}
else if (cluster && cluster.clusterId == 0x0006 && cluster.command == 0x07) {
if (cluster.data[0] == 0x00){
log.debug "ON/OFF REPORTING CONFIG RESPONSE: $cluster"
sendEvent(name: "checkInterval", value: 60 * 12, displayed: false, data: [protocol: "zigbee", hubHardwareId: device.hub.hardwareID])
}
else {
log.warn "ON/OFF REPORTING CONFIG FAILED- error code:${cluster.data[0]}"
}
}
else {
log.info "DID NOT PARSE MESSAGE for description : $description"
log.debug zigbeeMap
}
}
}
def on() {
log.debug "on()"
sendEvent(name: "switch", value: "on")
setLevel(state?.levelValue)
}
def zigbeeOff() {
"st cmd 0x${device.deviceNetworkId} ${endpointId} 6 0 {}"
zigbee.on()
}
def off() {
log.debug "off()"
sendEvent(name: "switch", value: "off")
zigbeeOff()
zigbee.off()
}
/**
* PING is used by Device-Watch in attempt to reach the Device
* */
def ping() {
return zigbee.onOffRefresh()
}
def refresh() {
[
"st rattr 0x${device.deviceNetworkId} ${endpointId} 6 0", "delay 500",
"st rattr 0x${device.deviceNetworkId} ${endpointId} 8 0", "delay 500",
"st rattr 0x${device.deviceNetworkId} ${endpointId} 0x0300 0", "delay 500",
"st rattr 0x${device.deviceNetworkId} ${endpointId} 0x0300 1"
]
zigbee.onOffRefresh() + zigbee.levelRefresh() + zigbee.readAttribute(COLOR_CONTROL_CLUSTER, ATTRIBUTE_HUE) + zigbee.readAttribute(COLOR_CONTROL_CLUSTER, ATTRIBUTE_SATURATION) + zigbee.onOffConfig(0, 300) + zigbee.levelConfig() + zigbee.configureReporting(COLOR_CONTROL_CLUSTER, ATTRIBUTE_HUE, 0x20, 1, 3600, 0x01) + zigbee.configureReporting(COLOR_CONTROL_CLUSTER, ATTRIBUTE_SATURATION, 0x20, 1, 3600, 0x01)
}
def configure() {
state.levelValue = 100
log.debug "Configuring Reporting and Bindings."
def configCmds = [
// Device-Watch allows 3 check-in misses from device (plus 1 min lag time)
// enrolls with default periodic reporting until newer 5 min interval is confirmed
sendEvent(name: "checkInterval", value: 3 * 10 * 60 + 1 * 60, displayed: false, data: [protocol: "zigbee", hubHardwareId: device.hub.hardwareID])
//Switch Reporting
"zcl global send-me-a-report 6 0 0x10 0 3600 {01}", "delay 500",
"send 0x${device.deviceNetworkId} ${endpointId} 1", "delay 1000",
//Level Control Reporting
"zcl global send-me-a-report 8 0 0x20 5 3600 {0010}", "delay 200",
"send 0x${device.deviceNetworkId} ${endpointId} 1", "delay 1500",
"zdo bind 0x${device.deviceNetworkId} ${endpointId} 1 6 {${device.zigbeeId}} {}", "delay 1000",
"zdo bind 0x${device.deviceNetworkId} ${endpointId} 1 8 {${device.zigbeeId}} {}", "delay 500",
"zdo bind 0x${device.deviceNetworkId} ${endpointId} 1 0x0300 {${device.zigbeeId}} {}", "delay 500"
]
return configCmds + refresh() // send refresh cmds as part of config
}
def parseDescriptionAsMap(description) {
(description - "read attr - ").split(",").inject([:]) { map, param ->
def nameAndValue = param.split(":")
map += [(nameAndValue[0].trim()):nameAndValue[1].trim()]
}
}
def poll(){
log.debug "Poll is calling refresh"
refresh()
}
def zigbeeSetLevel(level) {
"st cmd 0x${device.deviceNetworkId} ${endpointId} 8 4 {${level} 0000}"
// OnOff minReportTime 0 seconds, maxReportTime 5 min. Reporting interval if no activity
zigbee.onOffConfig(0, 300) + zigbee.levelConfig() + zigbee.configureReporting(COLOR_CONTROL_CLUSTER, ATTRIBUTE_HUE, 0x20, 1, 3600, 0x01) + zigbee.configureReporting(COLOR_CONTROL_CLUSTER, ATTRIBUTE_SATURATION, 0x20, 1, 3600, 0x01) + zigbee.onOffRefresh() + zigbee.levelRefresh() + zigbee.readAttribute(COLOR_CONTROL_CLUSTER, ATTRIBUTE_HUE) + zigbee.readAttribute(COLOR_CONTROL_CLUSTER, ATTRIBUTE_SATURATION)
}
def setLevel(value) {
state.levelValue = (value==null) ? 100 : value
log.trace "setLevel($value)"
def cmds = []
if (value == 0) {
sendEvent(name: "switch", value: "off")
cmds << zigbeeOff()
}
else if (device.latestValue("switch") == "off") {
sendEvent(name: "switch", value: "on")
}
sendEvent(name: "level", value: state.levelValue)
def level = hex(state.levelValue * 255 / 100)
cmds << zigbeeSetLevel(level)
//log.debug cmds
cmds
}
//input Hue Integer values; returns color name for saturation 100%
private getColorName(hueValue){
if(hueValue>100 || hueValue<0)
return
hueValue = Math.round(hueValue / 100 * 360)
log.debug "hue value is $hueValue"
def colorName = "Color Mode"
if(hueValue>=0 && hueValue <= 4){
colorName = "Red"
}
else if (hueValue>=5 && hueValue <=21 ){
colorName = "Brick Red"
}
else if (hueValue>=22 && hueValue <=30 ){
colorName = "Safety Orange"
}
else if (hueValue>=31 && hueValue <=40 ){
colorName = "Dark Orange"
}
else if (hueValue>=41 && hueValue <=49 ){
colorName = "Amber"
}
else if (hueValue>=50 && hueValue <=56 ){
colorName = "Gold"
}
else if (hueValue>=57 && hueValue <=65 ){
colorName = "Yellow"
}
else if (hueValue>=66 && hueValue <=83 ){
colorName = "Electric Lime"
}
else if (hueValue>=84 && hueValue <=93 ){
colorName = "Lawn Green"
}
else if (hueValue>=94 && hueValue <=112 ){
colorName = "Bright Green"
}
else if (hueValue>=113 && hueValue <=135 ){
colorName = "Lime"
}
else if (hueValue>=136 && hueValue <=166 ){
colorName = "Spring Green"
}
else if (hueValue>=167 && hueValue <=171 ){
colorName = "Turquoise"
}
else if (hueValue>=172 && hueValue <=187 ){
colorName = "Aqua"
}
else if (hueValue>=188 && hueValue <=203 ){
colorName = "Sky Blue"
}
else if (hueValue>=204 && hueValue <=217 ){
colorName = "Dodger Blue"
}
else if (hueValue>=218 && hueValue <=223 ){
colorName = "Navy Blue"
}
else if (hueValue>=224 && hueValue <=251 ){
colorName = "Blue"
}
else if (hueValue>=252 && hueValue <=256 ){
colorName = "Han Purple"
}
else if (hueValue>=257 && hueValue <=274 ){
colorName = "Electric Indigo"
}
else if (hueValue>=275 && hueValue <=289 ){
colorName = "Electric Purple"
}
else if (hueValue>=290 && hueValue <=300 ){
colorName = "Orchid Purple"
}
else if (hueValue>=301 && hueValue <=315 ){
colorName = "Magenta"
}
else if (hueValue>=316 && hueValue <=326 ){
colorName = "Hot Pink"
}
else if (hueValue>=327 && hueValue <=335 ){
colorName = "Deep Pink"
}
else if (hueValue>=336 && hueValue <=339 ){
colorName = "Raspberry"
}
else if (hueValue>=340 && hueValue <=352 ){
colorName = "Crimson"
}
else if (hueValue>=353 && hueValue <=360 ){
colorName = "Red"
}
colorName
}
private getEndpointId() {
new BigInteger(device.endpointId, 16).toString()
}
private hex(value, width=2) {
def s = new BigInteger(Math.round(value).toString()).toString(16)
while (s.size() < width) {
s = "0" + s
}
s
}
private evenHex(value){
def s = new BigInteger(Math.round(value).toString()).toString(16)
while (s.size() % 2 != 0) {
s = "0" + s
}
s
}
private String swapEndianHex(String hex) {
reverseArray(hex.decodeHex()).encodeHex()
}
private Integer convertHexToInt(hex) {
Integer.parseInt(hex,16)
}
//Need to reverse array of size 2
private byte[] reverseArray(byte[] array) {
byte tmp;
tmp = array[1];
array[1] = array[0];
array[0] = tmp;
return array
}
def setAdjustedColor(value) {
log.debug "setAdjustedColor: ${value}"
def adjusted = value + [:]
adjusted.level = null // needed because color picker always sends 100
setColor(adjusted)
zigbee.setLevel(value)
}
def setColor(value){
log.trace "setColor($value)"
def max = 0xfe
if (value.hex) { sendEvent(name: "color", value: value.hex, displayed:false)}
def colorName = getColorName(value.hue)
sendEvent(name: "colorName", value: colorName)
log.debug "color name is : $colorName"
sendEvent(name: "hue", value: value.hue, displayed:false)
sendEvent(name: "saturation", value: value.saturation, displayed:false)
def scaledHueValue = evenHex(Math.round(value.hue * max / 100.0))
def scaledSatValue = evenHex(Math.round(value.saturation * max / 100.0))
def cmd = []
if (value.switch != "off" && device.latestValue("switch") == "off") {
cmd << "st cmd 0x${device.deviceNetworkId} ${endpointId} 6 1 {}"
cmd << "delay 150"
}
cmd << "st cmd 0x${device.deviceNetworkId} ${endpointId} 0x300 0x00 {${scaledHueValue} 00 0000}"
cmd << "delay 150"
cmd << "st cmd 0x${device.deviceNetworkId} ${endpointId} 0x300 0x03 {${scaledSatValue} 0000}"
if (value.level) {
state.levelValue = value.level
sendEvent(name: "level", value: value.level)
def level = hex(value.level * 255 / 100)
cmd << zigbeeSetLevel(level)
}
if (value.switch == "off") {
cmd << "delay 150"
cmd << off()
}
cmd
zigbee.on() + setHue(value.hue) + "delay 500" + setSaturation(value.saturation)
}
def setHue(value) {
def scaledHueValue = zigbee.convertToHexString(Math.round(value * 0xfe / 100.0), 2)
zigbee.command(COLOR_CONTROL_CLUSTER, HUE_COMMAND, scaledHueValue, "00", "0500") //payload-> hue value, direction (00-> shortest distance), transition time (1/10th second) (0500 in U16 reads 5)
}
def setSaturation(value) {
def scaledSatValue = zigbee.convertToHexString(Math.round(value * 0xfe / 100.0), 2)
zigbee.command(COLOR_CONTROL_CLUSTER, SATURATION_COMMAND, scaledSatValue, "0500") + "delay 1000" + zigbee.readAttribute(COLOR_CONTROL_CLUSTER, ATTRIBUTE_SATURATION)
}

498
devicetypes/smartthings/osram-lightify-led-flexible-strip-rgbw.src/osram-lightify-led-flexible-strip-rgbw.groovy
View File

@@ -29,431 +29,155 @@ metadata {
}
// simulator metadata
simulator {
// status messages
status "on": "on/off: 1"
status "off": "on/off: 0"
// UI tile definitions
tiles(scale: 2) {
multiAttributeTile(name:"switch", type: "lighting", width: 6, height: 4, canChangeIcon: true){
tileAttribute ("device.switch", key: "PRIMARY_CONTROL") {
attributeState "on", label:'${name}', action:"switch.off", icon:"st.lights.philips.hue-single", backgroundColor:"#79b821", nextState:"turningOff"
attributeState "off", label:'${name}', action:"switch.on", icon:"st.lights.philips.hue-single", backgroundColor:"#ffffff", nextState:"turningOn"
attributeState "turningOn", label:'${name}', action:"switch.off", icon:"st.lights.philips.hue-single", backgroundColor:"#79b821", nextState:"turningOff"
attributeState "turningOff", label:'${name}', action:"switch.on", icon:"st.lights.philips.hue-single", backgroundColor:"#ffffff", nextState:"turningOn"
}
tileAttribute ("device.level", key: "SLIDER_CONTROL") {
attributeState "level", action:"switch level.setLevel"
}
tileAttribute ("device.color", key: "COLOR_CONTROL") {
attributeState "color", action:"color control.setColor"
}
}
controlTile("colorTempSliderControl", "device.colorTemperature", "slider", width: 4, height: 2, inactiveLabel: false, range:"(2700..6500)") {
state "colorTemperature", action:"color temperature.setColorTemperature"
}
valueTile("colorName", "device.colorName", inactiveLabel: false, decoration: "flat", width: 2, height: 2) {
state "colorName", label: '${currentValue}'
}
standardTile("refresh", "device.refresh", inactiveLabel: false, decoration: "flat", width: 2, height: 2) {
state "default", label:"", action:"refresh.refresh", icon:"st.secondary.refresh"
}
// reply messages
reply "zcl on-off on": "on/off: 1"
reply "zcl on-off off": "on/off: 0"
}
// UI tile definitions
tiles {
standardTile("switch", "device.switch", width: 2, height: 2, canChangeIcon: true) {
state "on", label: '${name}', action: "switch.off", icon: "st.switches.light.on", backgroundColor: "#79b821"
state "off", label: '${name}', action: "switch.on", icon: "st.switches.light.off", backgroundColor: "#ffffff"
}
standardTile("refresh", "device.switch", inactiveLabel: false, decoration: "flat") {
state "default", label:"", action:"refresh.refresh", icon:"st.secondary.refresh"
}
controlTile("colorTempSliderControl", "device.colorTemperature", "slider", height: 1, width: 2, inactiveLabel: false, range:"(2700..6500)") {
state "colorTemperature", action:"color temperature.setColorTemperature"
}
valueTile("colorTemp", "device.colorTemperature", inactiveLabel: false, decoration: "flat") {
state "colorTemperature", label: '${currentValue} K'
}
valueTile("colorName", "device.colorName", inactiveLabel: false, decoration: "flat") {
state "colorName", label: '${currentValue}'
}
controlTile("rgbSelector", "device.color", "color", height: 3, width: 3, inactiveLabel: false) {
state "color", action:"setAdjustedColor"
}
controlTile("levelSliderControl", "device.level", "slider", height: 1, width: 2, inactiveLabel: false, range:"(0..100)") {
state "level", action:"switch level.setLevel"
}
valueTile("level", "device.level", inactiveLabel: false, decoration: "flat") {
state "level", label: 'Level ${currentValue}%'
}
main(["switch"])
details(["switch", "refresh", "colorName", "levelSliderControl", "level", "colorTempSliderControl", "colorTemp", "rgbSelector"])
}
main(["switch"])
details(["switch", "colorTempSliderControl", "colorName", "refresh"])
}
}
//Globals
private getATTRIBUTE_HUE() { 0x0000 }
private getATTRIBUTE_SATURATION() { 0x0001 }
private getHUE_COMMAND() { 0x00 }
private getSATURATION_COMMAND() { 0x03 }
private getCOLOR_CONTROL_CLUSTER() { 0x0300 }
private getATTRIBUTE_COLOR_TEMPERATURE() { 0x0007 }
// Parse incoming device messages to generate events
def parse(String description) {
//log.info "description is $description"
if (description?.startsWith("catchall:")) {
if(description?.endsWith("0100") ||description?.endsWith("1001") || description?.matches("on/off\\s*:\\s*1"))
{
def result = createEvent(name: "switch", value: "on")
log.debug "Parse returned ${result?.descriptionText}"
return result
}
else if(description?.endsWith("0000") || description?.endsWith("1000") || description?.matches("on/off\\s*:\\s*0"))
{
if(!(description?.startsWith("catchall: 0104 0300"))){
def result = createEvent(name: "switch", value: "off")
log.debug "Parse returned ${result?.descriptionText}"
return result
}
}
log.debug "description is $description"
}
else if (description?.startsWith("read attr -")) { //for values returned after hitting refresh
def descMap = parseDescriptionAsMap(description)
log.trace "descMap : $descMap"
if (descMap.cluster == "0300") {
if(descMap.attrId == "0007"){
log.debug "in read attr"
log.debug descMap.value
def tempInMired = convertHexToInt(descMap.value)
def tempInKelvin = Math.round(1000000/tempInMired)
log.trace "temp in kelvin: $tempInKelvin"
sendEvent(name: "colorTemperature", value: tempInKelvin, displayed:false)
def event = zigbee.getEvent(description)
if (event) {
log.debug event
if (event.name=="level" && event.value==0) {}
else {
if (event.name=="colorTemperature") {
setGenericName(event.value)
}
else if(descMap.attrId == "0008"){ //Color mode attribute
if(descMap.value == "00"){
state.colorType = "rgb"
}else if(descMap.value == "02"){
state.colorType = "white"
}
}
else if(descMap.attrId == "0000"){ //Hue Attribute
def hueValue = Math.round(convertHexToInt(descMap.value) / 255 * 100)
log.debug "Hue value returned is $hueValue"
sendEvent(name: "hue", value: hueValue, displayed:false)
}
else if(descMap.attrId == "0001"){ //Saturation Attribute
def saturationValue = Math.round(convertHexToInt(descMap.value) / 255 * 100)
log.debug "Saturation from refresh is $saturationValue"
sendEvent(name: "saturation", value: saturationValue, displayed:false)
}
}
else if(descMap.cluster == "0008"){
def dimmerValue = Math.round(convertHexToInt(descMap.value) * 100 / 255)
log.debug "dimmer value is $dimmerValue"
sendEvent(name: "level", value: dimmerValue)
sendEvent(event)
}
}
else {
def name = description?.startsWith("on/off: ") ? "switch" : null
def value = name == "switch" ? (description?.endsWith(" 1") ? "on" : "off") : null
def result = createEvent(name: name, value: value)
log.debug "description is $description"
return result
}
else {
def zigbeeMap = zigbee.parseDescriptionAsMap(description)
def cluster = zigbee.parse(description)
if (zigbeeMap?.clusterInt == COLOR_CONTROL_CLUSTER) {
if(zigbeeMap.attrInt == ATTRIBUTE_HUE){ //Hue Attribute
def hueValue = Math.round(zigbee.convertHexToInt(zigbeeMap.value) / 255 * 100)
sendEvent(name: "hue", value: hueValue, descriptionText: "Color has changed")
}
else if(zigbeeMap.attrInt == ATTRIBUTE_SATURATION){ //Saturation Attribute
def saturationValue = Math.round(zigbee.convertHexToInt(zigbeeMap.value) / 255 * 100)
sendEvent(name: "saturation", value: saturationValue, descriptionText: "Color has changed", displayed: false)
}
}
else if (cluster && cluster.clusterId == 0x0006 && cluster.command == 0x07) {
if (cluster.data[0] == 0x00){
log.debug "ON/OFF REPORTING CONFIG RESPONSE: " + cluster
sendEvent(name: "checkInterval", value: 60 * 12, displayed: false, data: [protocol: "zigbee", hubHardwareId: device.hub.hardwareID])
}
else {
log.warn "ON/OFF REPORTING CONFIG FAILED- error code:${cluster.data[0]}"
}
}
else {
log.info "DID NOT PARSE MESSAGE for description : $description"
log.debug zigbeeMap
}
}
}
def on() {
log.debug "on()"
sendEvent(name: "switch", value: "on")
setLevel(state?.levelValue)
}
def zigbeeOff() {
"st cmd 0x${device.deviceNetworkId} ${endpointId} 6 0 {}"
zigbee.on()
}
def off() {
log.debug "off()"
sendEvent(name: "switch", value: "off")
zigbeeOff()
zigbee.off()
}
/**
* PING is used by Device-Watch in attempt to reach the Device
* */
def ping() {
return zigbee.onOffRefresh()
}
def refresh() {
[
"st rattr 0x${device.deviceNetworkId} ${endpointId} 6 0", "delay 500",
"st rattr 0x${device.deviceNetworkId} ${endpointId} 8 0", "delay 500",
"st rattr 0x${device.deviceNetworkId} ${endpointId} 0x0300 0", "delay 500",
"st rattr 0x${device.deviceNetworkId} ${endpointId} 0x0300 1", "delay 500",
"st rattr 0x${device.deviceNetworkId} ${endpointId} 0x0300 7", "delay 500",
"st rattr 0x${device.deviceNetworkId} ${endpointId} 0x0300 8"
]
zigbee.onOffRefresh() + zigbee.levelRefresh() + zigbee.readAttribute(COLOR_CONTROL_CLUSTER, ATTRIBUTE_COLOR_TEMPERATURE) + zigbee.readAttribute(COLOR_CONTROL_CLUSTER, ATTRIBUTE_HUE) + zigbee.readAttribute(COLOR_CONTROL_CLUSTER, ATTRIBUTE_SATURATION) + zigbee.onOffConfig(0, 300) + zigbee.levelConfig() + zigbee.colorTemperatureConfig() + zigbee.configureReporting(COLOR_CONTROL_CLUSTER, ATTRIBUTE_HUE, 0x20, 1, 3600, 0x01) + zigbee.configureReporting(COLOR_CONTROL_CLUSTER, ATTRIBUTE_SATURATION, 0x20, 1, 3600, 0x01)
}
def configure() {
state.levelValue = 100
state.colorType = "white"
log.debug "Configuring Reporting and Bindings."
def configCmds = [
log.debug "Configuring Reporting and Bindings."
// Device-Watch allows 3 check-in misses from device (plus 1 min lag time)
// enrolls with default periodic reporting until newer 5 min interval is confirmed
sendEvent(name: "checkInterval", value: 3 * 10 * 60 + 1 * 60, displayed: false, data: [protocol: "zigbee", hubHardwareId: device.hub.hardwareID])
//Switch Reporting
"zcl global send-me-a-report 6 0 0x10 0 3600 {01}", "delay 500",
"send 0x${device.deviceNetworkId} ${endpointId} 1", "delay 1000",
//Level Control Reporting
"zcl global send-me-a-report 8 0 0x20 5 3600 {0010}", "delay 200",
"send 0x${device.deviceNetworkId} ${endpointId} 1", "delay 1500",
"zdo bind 0x${device.deviceNetworkId} ${endpointId} 1 6 {${device.zigbeeId}} {}", "delay 1000",
"zdo bind 0x${device.deviceNetworkId} ${endpointId} 1 8 {${device.zigbeeId}} {}", "delay 500",
"zdo bind 0x${device.deviceNetworkId} ${endpointId} 1 0x0300 {${device.zigbeeId}} {}", "delay 500"
]
return configCmds + refresh() // send refresh cmds as part of config
// OnOff minReportTime 0 seconds, maxReportTime 5 min. Reporting interval if no activity
refresh()
}
def setColorTemperature(value) {
state?.colorType = "white"
if(value<101){
value = (value*38) + 2700 //Calculation of mapping 0-100 to 2700-6500
}
def tempInMired = Math.round(1000000/value)
def finalHex = swapEndianHex(hex(tempInMired, 4))
def genericName = getGenericName(value)
log.debug "generic name is : $genericName"
def cmds = []
sendEvent(name: "colorTemperature", value: value, displayed:false)
sendEvent(name: "colorName", value: genericName)
cmds << "st cmd 0x${device.deviceNetworkId} ${endpointId} 0x0300 0x0a {${finalHex} 2000}"
cmds
}
def parseDescriptionAsMap(description) {
(description - "read attr - ").split(",").inject([:]) { map, param ->
def nameAndValue = param.split(":")
map += [(nameAndValue[0].trim()):nameAndValue[1].trim()]
}
}
def poll(){
log.debug "Poll is calling refresh"
refresh()
}
def zigbeeSetLevel(level) {
"st cmd 0x${device.deviceNetworkId} ${endpointId} 8 4 {${level} 0000}"
}
def setLevel(value) {
state.levelValue = (value==null) ? 100 : value
log.trace "setLevel($value)"
def cmds = []
if (value == 0) {
sendEvent(name: "switch", value: "off")
cmds << zigbeeOff()
}
else if (device.latestValue("switch") == "off") {
sendEvent(name: "switch", value: "on")
}
sendEvent(name: "level", value: state.levelValue)
def level = hex(state.levelValue * 255 / 100)
cmds << zigbeeSetLevel(level)
//log.debug cmds
cmds
setGenericName(value)
zigbee.setColorTemperature(value)
}
//Naming based on the wiki article here: http://en.wikipedia.org/wiki/Color_temperature
private getGenericName(value){
def genericName = "White"
if(state?.colorType == "rgb"){
genericName = "Color Mode"
}
else{
if(value < 3300){
def setGenericName(value){
if (value != null) {
def genericName = "White"
if (value < 3300) {
genericName = "Soft White"
} else if(value < 4150){
} else if (value < 4150) {
genericName = "Moonlight"
} else if(value < 5000){
} else if (value <= 5000) {
genericName = "Cool White"
} else if(value <= 6500){
} else if (value >= 5000) {
genericName = "Daylight"
}
sendEvent(name: "colorName", value: genericName)
}
genericName
}
//input Hue Integer values; returns color name for saturation 100%
private getColorName(hueValue){
if(hueValue>100 || hueValue<0)
return
hueValue = Math.round(hueValue / 100 * 360)
log.debug "hue value is $hueValue"
def colorName = "Color Mode"
if(hueValue>=0 && hueValue <= 4){
colorName = "Red"
}
else if (hueValue>=5 && hueValue <=21 ){
colorName = "Brick Red"
}
else if (hueValue>=22 && hueValue <=30 ){
colorName = "Safety Orange"
}
else if (hueValue>=31 && hueValue <=40 ){
colorName = "Dark Orange"
}
else if (hueValue>=41 && hueValue <=49 ){
colorName = "Amber"
}
else if (hueValue>=50 && hueValue <=56 ){
colorName = "Gold"
}
else if (hueValue>=57 && hueValue <=65 ){
colorName = "Yellow"
}
else if (hueValue>=66 && hueValue <=83 ){
colorName = "Electric Lime"
}
else if (hueValue>=84 && hueValue <=93 ){
colorName = "Lawn Green"
}
else if (hueValue>=94 && hueValue <=112 ){
colorName = "Bright Green"
}
else if (hueValue>=113 && hueValue <=135 ){
colorName = "Lime"
}
else if (hueValue>=136 && hueValue <=166 ){
colorName = "Spring Green"
}
else if (hueValue>=167 && hueValue <=171 ){
colorName = "Turquoise"
}
else if (hueValue>=172 && hueValue <=187 ){
colorName = "Aqua"
}
else if (hueValue>=188 && hueValue <=203 ){
colorName = "Sky Blue"
}
else if (hueValue>=204 && hueValue <=217 ){
colorName = "Dodger Blue"
}
else if (hueValue>=218 && hueValue <=223 ){
colorName = "Navy Blue"
}
else if (hueValue>=224 && hueValue <=251 ){
colorName = "Blue"
}
else if (hueValue>=252 && hueValue <=256 ){
colorName = "Han Purple"
}
else if (hueValue>=257 && hueValue <=274 ){
colorName = "Electric Indigo"
}
else if (hueValue>=275 && hueValue <=289 ){
colorName = "Electric Purple"
}
else if (hueValue>=290 && hueValue <=300 ){
colorName = "Orchid Purple"
}
else if (hueValue>=301 && hueValue <=315 ){
colorName = "Magenta"
}
else if (hueValue>=316 && hueValue <=326 ){
colorName = "Hot Pink"
}
else if (hueValue>=327 && hueValue <=335 ){
colorName = "Deep Pink"
}
else if (hueValue>=336 && hueValue <=339 ){
colorName = "Raspberry"
}
else if (hueValue>=340 && hueValue <=352 ){
colorName = "Crimson"
}
else if (hueValue>=353 && hueValue <=360 ){
colorName = "Red"
}
colorName
}
private getEndpointId() {
new BigInteger(device.endpointId, 16).toString()
}
private hex(value, width=2) {
def s = new BigInteger(Math.round(value).toString()).toString(16)
while (s.size() < width) {
s = "0" + s
}
s
}
private evenHex(value){
def s = new BigInteger(Math.round(value).toString()).toString(16)
while (s.size() % 2 != 0) {
s = "0" + s
}
s
}
private String swapEndianHex(String hex) {
reverseArray(hex.decodeHex()).encodeHex()
}
private Integer convertHexToInt(hex) {
Integer.parseInt(hex,16)
}
//Need to reverse array of size 2
private byte[] reverseArray(byte[] array) {
byte tmp;
tmp = array[1];
array[1] = array[0];
array[0] = tmp;
return array
}
def setAdjustedColor(value) {
log.debug "setAdjustedColor: ${value}"
def adjusted = value + [:]
adjusted.level = null // needed because color picker always sends 100
setColor(adjusted)
def setLevel(value) {
zigbee.setLevel(value)
}
def setColor(value){
state?.colorType = "rgb"
log.trace "setColor($value)"
def max = 0xfe
if (value.hex) { sendEvent(name: "color", value: value.hex, displayed:false)}
def colorName = getColorName(value.hue)
log.debug "color name is : $colorName"
sendEvent(name: "colorName", value: colorName)
sendEvent(name: "colorTemperature", value: "--", displayed:false)
sendEvent(name: "hue", value: value.hue, displayed:false)
sendEvent(name: "saturation", value: value.saturation, displayed:false)
def scaledHueValue = evenHex(Math.round(value.hue * max / 100.0))
def scaledSatValue = evenHex(Math.round(value.saturation * max / 100.0))
def cmd = []
if (value.switch != "off" && device.latestValue("switch") == "off") {
cmd << "st cmd 0x${device.deviceNetworkId} ${endpointId} 6 1 {}"
cmd << "delay 150"
}
cmd << "st cmd 0x${device.deviceNetworkId} ${endpointId} 0x300 0x00 {${scaledHueValue} 00 0000}"
cmd << "delay 150"
cmd << "st cmd 0x${device.deviceNetworkId} ${endpointId} 0x300 0x03 {${scaledSatValue} 0000}"
if (value.level) {
state.levelValue = value.level
sendEvent(name: "level", value: value.level)
def level = hex(value.level * 255 / 100)
cmd << zigbeeSetLevel(level)
}
if (value.switch == "off") {
cmd << "delay 150"
cmd << off()
}
cmd
log.trace "setColor($value)"
zigbee.on() + setHue(value.hue) + "delay 300" + setSaturation(value.saturation)
}
def setHue(value) {
def scaledHueValue = zigbee.convertToHexString(Math.round(value * 0xfe / 100.0), 2)
zigbee.command(COLOR_CONTROL_CLUSTER, HUE_COMMAND, scaledHueValue, "00", "0500") //payload-> hue value, direction (00-> shortest distance), transition time (1/10th second) (0500 in U16 reads 5)
}
def setSaturation(value) {
def scaledSatValue = zigbee.convertToHexString(Math.round(value * 0xfe / 100.0), 2)
zigbee.command(COLOR_CONTROL_CLUSTER, SATURATION_COMMAND, scaledSatValue, "0500") + "delay 1000" + zigbee.readAttribute(COLOR_CONTROL_CLUSTER, ATTRIBUTE_SATURATION)
}

273
devicetypes/smartthings/osram-lightify-led-tunable-white-60w.src/osram-lightify-led-tunable-white-60w.groovy
View File

@@ -21,232 +21,119 @@ metadata {
attribute "colorName", "string"
}
// simulator metadata
simulator {
// status messages
status "on": "on/off: 1"
status "off": "on/off: 0"
// reply messages
reply "zcl on-off on": "on/off: 1"
reply "zcl on-off off": "on/off: 0"
}
// UI tile definitions
tiles {
standardTile("switch", "device.switch", width: 2, height: 2, canChangeIcon: true) {
state "on", label: '${name}', action: "switch.off", icon: "st.switches.light.on", backgroundColor: "#79b821"
state "off", label: '${name}', action: "switch.on", icon: "st.switches.light.off", backgroundColor: "#ffffff"
tiles(scale: 2) {
multiAttributeTile(name:"switch", type: "lighting", width: 6, height: 4, canChangeIcon: true){
tileAttribute ("device.switch", key: "PRIMARY_CONTROL") {
attributeState "on", label:'${name}', action:"switch.off", icon:"st.switches.light.on", backgroundColor:"#79b821", nextState:"turningOff"
attributeState "off", label:'${name}', action:"switch.on", icon:"st.switches.light.off", backgroundColor:"#ffffff", nextState:"turningOn"
attributeState "turningOn", label:'${name}', action:"switch.off", icon:"st.switches.light.on", backgroundColor:"#79b821", nextState:"turningOff"
attributeState "turningOff", label:'${name}', action:"switch.on", icon:"st.switches.light.off", backgroundColor:"#ffffff", nextState:"turningOn"
}
tileAttribute ("device.level", key: "SLIDER_CONTROL") {
attributeState "level", action:"switch level.setLevel"
}
}
standardTile("refresh", "device.switch", inactiveLabel: false, decoration: "flat") {
standardTile("refresh", "device.refresh", inactiveLabel: false, decoration: "flat", width: 2, height: 2) {
state "default", label:"", action:"refresh.refresh", icon:"st.secondary.refresh"
}
controlTile("colorTempSliderControl", "device.colorTemperature", "slider", height: 1, width: 2, inactiveLabel: false, range:"(2700..6500)") {
controlTile("colorTempSliderControl", "device.colorTemperature", "slider", width: 4, height: 2, inactiveLabel: false, range:"(2700..6500)") {
state "colorTemperature", action:"color temperature.setColorTemperature"
}
valueTile("colorTemp", "device.colorTemperature", inactiveLabel: false, decoration: "flat") {
state "colorTemperature", label: '${currentValue} K'
}
valueTile("colorName", "device.colorName", inactiveLabel: false, decoration: "flat") {
valueTile("colorName", "device.colorName", inactiveLabel: false, decoration: "flat", width: 2, height: 2) {
state "colorName", label: '${currentValue}'
}
controlTile("levelSliderControl", "device.level", "slider", height: 1, width: 2, inactiveLabel: false, range:"(0..100)") {
state "level", action:"switch level.setLevel"
}
valueTile("level", "device.level", inactiveLabel: false, decoration: "flat") {
state "level", label: 'Level ${currentValue}%'
}
main(["switch"])
details(["switch", "refresh", "colorName", "levelSliderControl", "level", "colorTempSliderControl", "colorTemp"])
details(["switch", "colorTempSliderControl", "colorName", "refresh"])
}
}
// Parse incoming device messages to generate events
def parse(String description) {
//log.trace description
if (description?.startsWith("catchall:")) {
if(description?.endsWith("0100") ||description?.endsWith("1001") || description?.matches("on/off\\s*:\\s*1"))
{
def result = createEvent(name: "switch", value: "on")
log.debug "Parse returned ${result?.descriptionText}"
return result
}
else if(description?.endsWith("0000") || description?.endsWith("1000") || description?.matches("on/off\\s*:\\s*0"))
{
def result = createEvent(name: "switch", value: "off")
log.debug "Parse returned ${result?.descriptionText}"
return result
}
}
else if (description?.startsWith("read attr -")) {
def descMap = parseDescriptionAsMap(description)
log.trace "descMap : $descMap"
if (descMap.cluster == "0300") {
log.debug descMap.value
def tempInMired = convertHexToInt(descMap.value)
def tempInKelvin = Math.round(1000000/tempInMired)
log.trace "temp in kelvin: $tempInKelvin"
sendEvent(name: "colorTemperature", value: tempInKelvin, displayed:false)
}
else if(descMap.cluster == "0008"){
def dimmerValue = Math.round(convertHexToInt(descMap.value) * 100 / 255)
log.debug "dimmer value is $dimmerValue"
sendEvent(name: "level", value: dimmerValue)
log.debug "description is $description"
def event = zigbee.getEvent(description)
if (event) {
if (event.name=="level" && event.value==0) {}
else {
if (event.name=="colorTemperature") {
setGenericName(event.value)
}
sendEvent(event)
}
}
else {
def name = description?.startsWith("on/off: ") ? "switch" : null
def value = name == "switch" ? (description?.endsWith(" 1") ? "on" : "off") : null
def result = createEvent(name: name, value: value)
log.debug "Parse returned ${result?.descriptionText}"
return result
}
}
def cluster = zigbee.parse(description)
def on() {
log.debug "on()"
sendEvent(name: "switch", value: "on")
setLevel(state?.levelValue)
if (cluster && cluster.clusterId == 0x0006 && cluster.command == 0x07) {
if (cluster.data[0] == 0x00) {
log.debug "ON/OFF REPORTING CONFIG RESPONSE: " + cluster
sendEvent(name: "checkInterval", value: 60 * 12, displayed: false, data: [protocol: "zigbee", hubHardwareId: device.hub.hardwareID])
}
else {
log.warn "ON/OFF REPORTING CONFIG FAILED- error code:${cluster.data[0]}"
}
}
else {
log.warn "DID NOT PARSE MESSAGE for description : $description"
log.debug "${cluster}"
}
}
}
def off() {
log.debug "off()"
sendEvent(name: "switch", value: "off")
"st cmd 0x${device.deviceNetworkId} ${endpointId} 6 0 {}"
zigbee.off()
}
def refresh() {
[
"st rattr 0x${device.deviceNetworkId} ${endpointId} 6 0", "delay 500",
"st rattr 0x${device.deviceNetworkId} ${endpointId} 8 0", "delay 500",
"st rattr 0x${device.deviceNetworkId} ${endpointId} 0x0300 7"
]
}
def configure() {
state.levelValue = 100
log.debug "Configuring Reporting and Bindings."
def configCmds = [
"zdo bind 0x${device.deviceNetworkId} ${endpointId} 1 0x0300 {${device.zigbeeId}} {}", "delay 500"
]
return onOffConfig() + levelConfig() + configCmds + refresh() // send refresh cmds as part of config
}
def onOffConfig() {
[
"zdo bind 0x${device.deviceNetworkId} ${endpointId} 1 6 {${device.zigbeeId}} {}", "delay 200",
"zcl global send-me-a-report 6 0 0x10 0 300 {01}",
"send 0x${device.deviceNetworkId} 1 ${endpointId}", "delay 1500"
]
}
//level config for devices with min reporting interval as 5 seconds and reporting interval if no activity as 1hour (3600s)
//min level change is 01
def levelConfig() {
[
"zdo bind 0x${device.deviceNetworkId} ${endpointId} 1 8 {${device.zigbeeId}} {}", "delay 200",
"zcl global send-me-a-report 8 0 0x20 5 3600 {01}",
"send 0x${device.deviceNetworkId} 1 ${endpointId}", "delay 1500"
]
}
def setColorTemperature(value) {
if(value<101){
value = (value*38) + 2700 //Calculation of mapping 0-100 to 2700-6500
}
def tempInMired = Math.round(1000000/value)
def finalHex = swapEndianHex(hex(tempInMired, 4))
def genericName = getGenericName(value)
log.debug "generic name is : $genericName"
def cmds = []
sendEvent(name: "colorTemperature", value: value, displayed:false)
sendEvent(name: "colorName", value: genericName)
cmds << "st cmd 0x${device.deviceNetworkId} ${endpointId} 0x0300 0x0a {${finalHex} 2000}"
cmds
}
def parseDescriptionAsMap(description) {
(description - "read attr - ").split(",").inject([:]) { map, param ->
def nameAndValue = param.split(":")
map += [(nameAndValue[0].trim()):nameAndValue[1].trim()]
}
def on() {
zigbee.on()
}
def setLevel(value) {
state.levelValue = (value==null) ? 100 : value
log.trace "setLevel($value)"
def cmds = []
zigbee.setLevel(value)
}
if (value == 0) {
sendEvent(name: "switch", value: "off")
cmds << "st cmd 0x${device.deviceNetworkId} ${endpointId} 6 0 {}"
}
else if (device.latestValue("switch") == "off") {
sendEvent(name: "switch", value: "on")
}
/**
* PING is used by Device-Watch in attempt to reach the Device
* */
def ping() {
return zigbee.onOffRefresh()
}
sendEvent(name: "level", value: state.levelValue)
def level = hex(state.levelValue * 254 / 100)
cmds << "st cmd 0x${device.deviceNetworkId} ${endpointId} 8 4 {${level} 0000}"
def refresh() {
zigbee.onOffRefresh() + zigbee.levelRefresh() + zigbee.colorTemperatureRefresh() + zigbee.onOffConfig(0, 300) + zigbee.levelConfig() + zigbee.colorTemperatureConfig()
}
//log.debug cmds
cmds
def configure() {
log.debug "Configuring Reporting and Bindings."
// Device-Watch allows 3 check-in misses from device (plus 1 min lag time)
// enrolls with default periodic reporting until newer 5 min interval is confirmed
sendEvent(name: "checkInterval", value: 3 * 10 * 60 + 1 * 60, displayed: false, data: [protocol: "zigbee", hubHardwareId: device.hub.hardwareID])
// OnOff minReportTime 0 seconds, maxReportTime 5 min. Reporting interval if no activity
refresh()
}
def setColorTemperature(value) {
setGenericName(value)
zigbee.setColorTemperature(value)
}
//Naming based on the wiki article here: http://en.wikipedia.org/wiki/Color_temperature
private getGenericName(value){
def genericName = "White"
if(value < 3300){
genericName = "Soft White"
} else if(value < 4150){
genericName = "Moonlight"
} else if(value < 5000){
genericName = "Cool White"
} else if(value <= 6500){
genericName = "Daylight"
def setGenericName(value){
if (value != null) {
def genericName = "White"
if (value < 3300) {
genericName = "Soft White"
} else if (value < 4150) {
genericName = "Moonlight"
} else if (value <= 5000) {
genericName = "Cool White"
} else if (value >= 5000) {
genericName = "Daylight"
}
sendEvent(name: "colorName", value: genericName)
}
genericName
}
private getEndpointId() {
new BigInteger(device.endpointId, 16).toString()
}
private hex(value, width=2) {
def s = new BigInteger(Math.round(value).toString()).toString(16)
while (s.size() < width) {
s = "0" + s
}
s
}
private String swapEndianHex(String hex) {
reverseArray(hex.decodeHex()).encodeHex()
}
private Integer convertHexToInt(hex) {
Integer.parseInt(hex,16)
}
//Need to reverse array of size 2
private byte[] reverseArray(byte[] array) {
byte tmp;
tmp = array[1];
array[1] = array[0];
array[0] = tmp;
return array
}

281
devicetypes/smartthings/smartsense-motion-temp-sensor.src/smartsense-motion-temp-sensor.groovy
View File

@@ -30,14 +30,18 @@ metadata {
}
simulator {
status "active": "zone report :: type: 19 value: 0031"
status "inactive": "zone report :: type: 19 value: 0030"
}
preferences {
input title: "Temperature Offset", description: "This feature allows you to correct any temperature variations by selecting an offset. Ex: If your sensor consistently reports a temp that's 5 degrees too warm, you'd enter \"-5\". If 3 degrees too cold, enter \"+3\".", displayDuringSetup: false, type: "paragraph", element: "paragraph"
input "tempOffset", "number", title: "Degrees", description: "Adjust temperature by this many degrees", range: "*..*", displayDuringSetup: false
section {
image(name: 'educationalcontent', multiple: true, images: [
"http://cdn.device-gse.smartthings.com/Motion/Motion1.jpg",
"http://cdn.device-gse.smartthings.com/Motion/Motion2.jpg",
"http://cdn.device-gse.smartthings.com/Motion/Motion3.jpg"
])
}
section {
input title: "Temperature Offset", description: "This feature allows you to correct any temperature variations by selecting an offset. Ex: If your sensor consistently reports a temp that's 5 degrees too warm, you'd enter '-5'. If 3 degrees too cold, enter '+3'.", displayDuringSetup: false, type: "paragraph", element: "paragraph"
input "tempOffset", "number", title: "Degrees", description: "Adjust temperature by this many degrees", range: "*..*", displayDuringSetup: false
}
}
tiles(scale: 2) {
@@ -49,15 +53,15 @@ metadata {
}
valueTile("temperature", "device.temperature", width: 2, height: 2) {
state("temperature", label:'${currentValue}°', unit:"F",
backgroundColors:[
[value: 31, color: "#153591"],
[value: 44, color: "#1e9cbb"],
[value: 59, color: "#90d2a7"],
[value: 74, color: "#44b621"],
[value: 84, color: "#f1d801"],
[value: 95, color: "#d04e00"],
[value: 96, color: "#bc2323"]
]
backgroundColors:[
[value: 31, color: "#153591"],
[value: 44, color: "#1e9cbb"],
[value: 59, color: "#90d2a7"],
[value: 74, color: "#44b621"],
[value: 84, color: "#f1d801"],
[value: 95, color: "#d04e00"],
[value: 96, color: "#bc2323"]
]
)
}
valueTile("battery", "device.battery", decoration: "flat", inactiveLabel: false, width: 2, height: 2) {
@@ -85,55 +89,71 @@ def parse(String description) {
else if (description?.startsWith('temperature: ')) {
map = parseCustomMessage(description)
}
else if (description?.startsWith('zone status')) {
map = parseIasMessage(description)
}
else if (description?.startsWith('zone status')) {
map = parseIasMessage(description)
}
log.debug "Parse returned $map"
def result = map ? createEvent(map) : null
if (description?.startsWith('enroll request')) {
List cmds = enrollResponse()
log.debug "enroll response: ${cmds}"
result = cmds?.collect { new physicalgraph.device.HubAction(it) }
}
return result
if (description?.startsWith('enroll request')) {
List cmds = enrollResponse()
log.debug "enroll response: ${cmds}"
result = cmds?.collect { new physicalgraph.device.HubAction(it) }
}
return result
}
private Map parseCatchAllMessage(String description) {
Map resultMap = [:]
def cluster = zigbee.parse(description)
if (shouldProcessMessage(cluster)) {
switch(cluster.clusterId) {
case 0x0001:
resultMap = getBatteryResult(cluster.data.last())
break
Map resultMap = [:]
def cluster = zigbee.parse(description)
if (shouldProcessMessage(cluster)) {
switch(cluster.clusterId) {
case 0x0001:
// 0x07 - configure reporting
if (cluster.command != 0x07) {
resultMap = getBatteryResult(cluster.data.last())
}
break
case 0x0402:
// temp is last 2 data values. reverse to swap endian
String temp = cluster.data[-2..-1].reverse().collect { cluster.hex1(it) }.join()
def value = getTemperature(temp)
resultMap = getTemperatureResult(value)
break
case 0x0402:
if (cluster.command == 0x07) {
if (cluster.data[0] == 0x00) {
log.debug "TEMP REPORTING CONFIG RESPONSE" + cluster
sendEvent(name: "checkInterval", value: 60 * 12, displayed: false, data: [protocol: "zigbee", hubHardwareId: device.hub.hardwareID])
}
else {
log.warn "TEMP REPORTING CONFIG FAILED- error code:${cluster.data[0]}"
}
}
else {
// temp is last 2 data values. reverse to swap endian
String temp = cluster.data[-2..-1].reverse().collect { cluster.hex1(it) }.join()
def value = getTemperature(temp)
resultMap = getTemperatureResult(value)
}
break
case 0x0406:
log.debug 'motion'
resultMap.name = 'motion'
break
}
}
// 0x07 - configure reporting
if (cluster.command != 0x07) {
log.debug 'motion'
resultMap.name = 'motion'
}
break
}
}
return resultMap
return resultMap
}
private boolean shouldProcessMessage(cluster) {
// 0x0B is default response indicating message got through
// 0x07 is bind message
boolean ignoredMessage = cluster.profileId != 0x0104 ||
cluster.command == 0x0B ||
cluster.command == 0x07 ||
(cluster.data.size() > 0 && cluster.data.first() == 0x3e)
return !ignoredMessage
// 0x0B is default response indicating message got through
boolean ignoredMessage = cluster.profileId != 0x0104 ||
cluster.command == 0x0B ||
(cluster.data.size() > 0 && cluster.data.first() == 0x3e)
return !ignoredMessage
}
private Map parseReportAttributeMessage(String description) {
@@ -151,10 +171,10 @@ private Map parseReportAttributeMessage(String description) {
else if (descMap.cluster == "0001" && descMap.attrId == "0020") {
resultMap = getBatteryResult(Integer.parseInt(descMap.value, 16))
}
else if (descMap.cluster == "0406" && descMap.attrId == "0000") {
def value = descMap.value.endsWith("01") ? "active" : "inactive"
resultMap = getMotionResult(value)
}
else if (descMap.cluster == "0406" && descMap.attrId == "0000") {
def value = descMap.value.endsWith("01") ? "active" : "inactive"
resultMap = getMotionResult(value)
}
return resultMap
}
@@ -170,46 +190,66 @@ private Map parseCustomMessage(String description) {
private Map parseIasMessage(String description) {
ZoneStatus zs = zigbee.parseZoneStatus(description)
// Some sensor models that use this DTH use alarm1 and some use alarm2 to signify motion
return (zs.isAlarm1Set() || zs.isAlarm2Set()) ? getMotionResult('active') : getMotionResult('inactive')
}
def getTemperature(value) {
def celsius = Integer.parseInt(value, 16).shortValue() / 100
if(getTemperatureScale() == "C"){
return celsius
return Math.round(celsius)
} else {
return celsiusToFahrenheit(celsius) as Integer
return Math.round(celsiusToFahrenheit(celsius))
}
}
private Map getBatteryResult(rawValue) {
log.debug 'Battery'
log.debug "Battery rawValue = ${rawValue}"
def linkText = getLinkText(device)
log.debug rawValue
def result = [
name: 'battery',
value: '--'
name: 'battery',
value: '--',
translatable: true
]
def volts = rawValue / 10
def descriptionText
if (rawValue == 0 || rawValue == 255) {}
if (rawValue == 0 || rawValue == 255) {}
else {
if (volts > 3.5) {
result.descriptionText = "${linkText} battery has too much power (${volts} volts)."
result.descriptionText = "{{ device.displayName }} battery has too much power: (> 3.5) volts."
}
else if (volts > 0){
def minVolts = 2.1
def maxVolts = 3.0
def pct = (volts - minVolts) / (maxVolts - minVolts)
def roundedPct = Math.round(pct * 100)
if (roundedPct <= 0)
roundedPct = 1
result.value = Math.min(100, roundedPct)
result.descriptionText = "${linkText} battery was ${result.value}%"
else {
if (device.getDataValue("manufacturer") == "SmartThings") {
volts = rawValue // For the batteryMap to work the key needs to be an int
def batteryMap = [28:100, 27:100, 26:100, 25:90, 24:90, 23:70,
22:70, 21:50, 20:50, 19:30, 18:30, 17:15, 16:1, 15:0]
def minVolts = 15
def maxVolts = 28
if (volts < minVolts)
volts = minVolts
else if (volts > maxVolts)
volts = maxVolts
def pct = batteryMap[volts]
if (pct != null) {
result.value = pct
def value = pct
result.descriptionText = "{{ device.displayName }} battery was {{ value }}%"
}
}
else {
def minVolts = 2.1
def maxVolts = 3.0
def pct = (volts - minVolts) / (maxVolts - minVolts)
def roundedPct = Math.round(pct * 100)
if (roundedPct <= 0)
roundedPct = 1
result.value = Math.min(100, roundedPct)
result.descriptionText = "{{ device.displayName }} battery was {{ value }}%"
}
}
}
@@ -218,68 +258,75 @@ private Map getBatteryResult(rawValue) {
private Map getTemperatureResult(value) {
log.debug 'TEMP'
def linkText = getLinkText(device)
if (tempOffset) {
def offset = tempOffset as int
def v = value as int
value = v + offset
}
def descriptionText = "${linkText} was ${value}°${temperatureScale}"
def descriptionText
if ( temperatureScale == 'C' )
descriptionText = '{{ device.displayName }} was {{ value }}°C'
else
descriptionText = '{{ device.displayName }} was {{ value }}°F'
return [
name: 'temperature',
value: value,
descriptionText: descriptionText,
unit: temperatureScale
name: 'temperature',
value: value,
descriptionText: descriptionText,
translatable: true,
unit: temperatureScale
]
}
private Map getMotionResult(value) {
log.debug 'motion'
String linkText = getLinkText(device)
String descriptionText = value == 'active' ? "${linkText} detected motion" : "${linkText} motion has stopped"
String descriptionText = value == 'active' ? "{{ device.displayName }} detected motion" : "{{ device.displayName }} motion has stopped"
return [
name: 'motion',
value: value,
descriptionText: descriptionText
name: 'motion',
value: value,
descriptionText: descriptionText,
translatable: true
]
}
/**
* PING is used by Device-Watch in attempt to reach the Device
* */
def ping() {
return zigbee.readAttribute(0x001, 0x0020) // Read the Battery Level
}
def refresh() {
log.debug "refresh called"
def refreshCmds = [
"st rattr 0x${device.deviceNetworkId} 1 0x402 0", "delay 200",
"st rattr 0x${device.deviceNetworkId} 1 1 0x20", "delay 200"
"st rattr 0x${device.deviceNetworkId} 1 0x402 0", "delay 200",
"st rattr 0x${device.deviceNetworkId} 1 1 0x20", "delay 200"
]
return refreshCmds + enrollResponse()
}
def configure() {
log.debug "Configuring Reporting, IAS CIE, and Bindings."
// Device-Watch allows 3 check-in misses from device (plus 1 min lag time)
// enrolls with default periodic reporting until newer 5 min interval is confirmed
sendEvent(name: "checkInterval", value: 3 * 60 * 60 + 1 * 60, displayed: false, data: [protocol: "zigbee", hubHardwareId: device.hub.hardwareID])
def configCmds = [
"zdo bind 0x${device.deviceNetworkId} ${endpointId} 1 1 {${device.zigbeeId}} {}", "delay 200",
"zcl global send-me-a-report 1 0x20 0x20 30 21600 {01}", //checkin time 6 hrs
"send 0x${device.deviceNetworkId} 1 ${endpointId}", "delay 500",
"zdo bind 0x${device.deviceNetworkId} ${endpointId} 1 0x402 {${device.zigbeeId}} {}", "delay 200",
"zcl global send-me-a-report 0x402 0 0x29 30 3600 {6400}",
"send 0x${device.deviceNetworkId} 1 ${endpointId}", "delay 500"
]
return refresh() + configCmds // send refresh cmds as part of config
// temperature minReportTime 30 seconds, maxReportTime 5 min. Reporting interval if no activity
// battery minReport 30 seconds, maxReportTime 6 hrs by default
return refresh() + zigbee.batteryConfig() + zigbee.temperatureConfig(30, 300) // send refresh cmds as part of config
}
def enrollResponse() {
log.debug "Sending enroll response"
String zigbeeEui = swapEndianHex(device.hub.zigbeeEui)
[
//Resending the CIE in case the enroll request is sent before CIE is written
"zcl global write 0x500 0x10 0xf0 {${zigbeeEui}}", "delay 200",
"send 0x${device.deviceNetworkId} 1 ${endpointId}", "delay 500",
//Enroll Response
"raw 0x500 {01 23 00 00 00}",
"send 0x${device.deviceNetworkId} 1 1", "delay 200"
]
//Resending the CIE in case the enroll request is sent before CIE is written
"zcl global write 0x500 0x10 0xf0 {${zigbeeEui}}", "delay 200",
"send 0x${device.deviceNetworkId} 1 ${endpointId}", "delay 500",
//Enroll Response
"raw 0x500 {01 23 00 00 00}",
"send 0x${device.deviceNetworkId} 1 1", "delay 200"
]
}
private getEndpointId() {
@@ -291,19 +338,19 @@ private hex(value) {
}
private String swapEndianHex(String hex) {
reverseArray(hex.decodeHex()).encodeHex()
reverseArray(hex.decodeHex()).encodeHex()
}
private byte[] reverseArray(byte[] array) {
int i = 0;
int j = array.length - 1;
byte tmp;
while (j > i) {
tmp = array[j];
array[j] = array[i];
array[i] = tmp;
j--;
i++;
}
return array
int i = 0;
int j = array.length - 1;
byte tmp;
while (j > i) {
tmp = array[j];
array[j] = array[i];
array[i] = tmp;
j--;
i++;
}
return array
}

603
devicetypes/smartthings/smartsense-open-closed-accelerometer-sensor.src/smartsense-open-closed-accelerometer-sensor.groovy
View File

@@ -16,51 +16,68 @@
//DEPRECATED - Using the smartsense-multi-sensor.groovy DTH for this device. Users need to be moved before deleting this DTH
import physicalgraph.zigbee.clusters.iaszone.ZoneStatus
metadata {
definition (name: "SmartSense Open/Closed Accelerometer Sensor", namespace: "smartthings", author: "SmartThings", category: "C2") {
capability "Battery"
capability "Configuration"
capability "Contact Sensor"
capability "Acceleration Sensor"
capability "Refresh"
capability "Temperature Measurement"
metadata {
definition (name: "SmartSense Open/Closed Accelerometer Sensor", namespace: "smartthings", author: "SmartThings", category: "C2") {
capability "Battery"
capability "Configuration"
capability "Contact Sensor"
capability "Acceleration Sensor"
capability "Refresh"
capability "Temperature Measurement"
capability "Health Check"
capability "Sensor"
command "enrollResponse"
}
attribute "status", "string"
}
simulator {
}
preferences {
input title: "Temperature Offset", description: "This feature allows you to correct any temperature variations by selecting an offset. Ex: If your sensor consistently reports a temp that's 5 degrees too warm, you'd enter \"-5\". If 3 degrees too cold, enter \"+3\".", displayDuringSetup: false, type: "paragraph", element: "paragraph"
input "tempOffset", "number", title: "Degrees", description: "Adjust temperature by this many degrees", range: "*..*", displayDuringSetup: false
}
preferences {
section {
image(name: 'educationalcontent', multiple: true, images: [
"http://cdn.device-gse.smartthings.com/Multi/Multi1.jpg",
"http://cdn.device-gse.smartthings.com/Multi/Multi2.jpg",
"http://cdn.device-gse.smartthings.com/Multi/Multi3.jpg",
"http://cdn.device-gse.smartthings.com/Multi/Multi4.jpg"
])
}
section {
input title: "Temperature Offset", description: "This feature allows you to correct any temperature variations by selecting an offset. Ex: If your sensor consistently reports a temp that's 5 degrees too warm, you'd enter '-5'. If 3 degrees too cold, enter '+3'.", displayDuringSetup: false, type: "paragraph", element: "paragraph"
input "tempOffset", "number", title: "Degrees", description: "Adjust temperature by this many degrees", range: "*..*", displayDuringSetup: false
}
section {
input("garageSensor", "enum", title: "Do you want to use this sensor on a garage door?", description: "Tap to set", options: ["Yes", "No"], defaultValue: "No", required: false, displayDuringSetup: false)
}
}
tiles(scale: 2) {
multiAttributeTile(name:"contact", type: "generic", width: 6, height: 4){
tileAttribute ("device.contact", key: "PRIMARY_CONTROL") {
attributeState "open", label:'${name}', icon:"st.contact.contact.open", backgroundColor:"#ffa81e"
attributeState "closed", label:'${name}', icon:"st.contact.contact.closed", backgroundColor:"#79b821"
multiAttributeTile(name:"status", type: "generic", width: 6, height: 4){
tileAttribute ("device.status", key: "PRIMARY_CONTROL") {
attributeState "open", label:'Open', icon:"st.contact.contact.open", backgroundColor:"#ffa81e"
attributeState "closed", label:'Closed', icon:"st.contact.contact.closed", backgroundColor:"#79b821"
attributeState "garage-open", label:'Open', icon:"st.doors.garage.garage-open", backgroundColor:"#ffa81e"
attributeState "garage-closed", label:'Closed', icon:"st.doors.garage.garage-closed", backgroundColor:"#79b821"
}
}
standardTile("acceleration", "device.acceleration", width: 2, height: 2) {
state("active", label:'${name}', icon:"st.motion.acceleration.active", backgroundColor:"#53a7c0")
state("inactive", label:'${name}', icon:"st.motion.acceleration.inactive", backgroundColor:"#ffffff")
standardTile("contact", "device.contact", width: 2, height: 2) {
state("open", label:'Open', icon:"st.contact.contact.open", backgroundColor:"#ffa81e")
state("closed", label:'Closed', icon:"st.contact.contact.closed", backgroundColor:"#79b821")
}
valueTile("temperature", "device.temperature", inactiveLabel: false, width: 2, height: 2) {
state "temperature", label:'${currentValue}°',
backgroundColors:[
[value: 31, color: "#153591"],
[value: 44, color: "#1e9cbb"],
[value: 59, color: "#90d2a7"],
[value: 74, color: "#44b621"],
[value: 84, color: "#f1d801"],
[value: 95, color: "#d04e00"],
[value: 96, color: "#bc2323"]
]
standardTile("acceleration", "device.acceleration", width: 2, height: 2) {
state("active", label:'Active', icon:"st.motion.acceleration.active", backgroundColor:"#53a7c0")
state("inactive", label:'Inactive', icon:"st.motion.acceleration.inactive", backgroundColor:"#ffffff")
}
valueTile("temperature", "device.temperature", width: 2, height: 2) {
state("temperature", label:'${currentValue}°',
backgroundColors:[
[value: 31, color: "#153591"],
[value: 44, color: "#1e9cbb"],
[value: 59, color: "#90d2a7"],
[value: 74, color: "#44b621"],
[value: 84, color: "#f1d801"],
[value: 95, color: "#d04e00"],
[value: 96, color: "#bc2323"]
]
)
}
valueTile("battery", "device.battery", decoration: "flat", inactiveLabel: false, width: 2, height: 2) {
state "battery", label:'${currentValue}% battery', unit:""
@@ -69,98 +86,121 @@ import physicalgraph.zigbee.clusters.iaszone.ZoneStatus
state "default", action:"refresh.refresh", icon:"st.secondary.refresh"
}
main (["contact", "acceleration", "temperature"])
details(["contact", "acceleration", "temperature", "battery", "refresh"])
main(["status", "acceleration", "temperature"])
details(["status", "acceleration", "temperature", "battery", "refresh"])
}
}
def parse(String description) {
log.debug "description: $description"
Map map = [:]
if (description?.startsWith('catchall:')) {
map = parseCatchAllMessage(description)
}
else if (description?.startsWith('read attr -')) {
map = parseReportAttributeMessage(description)
}
else if (description?.startsWith('temperature: ')) {
map = parseCustomMessage(description)
}
else if (description?.startsWith('zone status')) {
map = parseIasMessage(description)
}
log.debug "Parse returned $map"
def result = map ? createEvent(map) : null
if (description?.startsWith('enroll request')) {
List cmds = enrollResponse()
log.debug "enroll response: ${cmds}"
result = cmds?.collect { new physicalgraph.device.HubAction(it) }
}
return result
}
private Map parseCatchAllMessage(String description) {
Map resultMap = [:]
def cluster = zigbee.parse(description)
if (shouldProcessMessage(cluster)) {
switch(cluster.clusterId) {
case 0x0001:
resultMap = getBatteryResult(cluster.data.last())
break
case 0xFC02:
break
case 0x0402:
log.debug 'TEMP'
// temp is last 2 data values. reverse to swap endian
String temp = cluster.data[-2..-1].reverse().collect { cluster.hex1(it) }.join()
def value = getTemperature(temp)
resultMap = getTemperatureResult(value)
break
}
}
return resultMap
}
private boolean shouldProcessMessage(cluster) {
// 0x0B is default response indicating message got through
// 0x07 is bind message
boolean ignoredMessage = cluster.profileId != 0x0104 ||
cluster.command == 0x0B ||
cluster.command == 0x07 ||
(cluster.data.size() > 0 && cluster.data.first() == 0x3e)
return !ignoredMessage
}
private int getHumidity(value) {
return Math.round(Double.parseDouble(value))
def parse(String description) {
Map map = [:]
if (description?.startsWith('catchall:')) {
map = parseCatchAllMessage(description)
}
else if (description?.startsWith('temperature: ')) {
map = parseCustomMessage(description)
}
else if (description?.startsWith('zone status')) {
map = parseIasMessage(description)
}
def result = map ? createEvent(map) : null
if (description?.startsWith('enroll request')) {
List cmds = enrollResponse()
log.debug "enroll response: ${cmds}"
result = cmds?.collect { new physicalgraph.device.HubAction(it) }
}
else if (description?.startsWith('read attr -')) {
result = parseReportAttributeMessage(description).each { createEvent(it) }
}
return result
}
private Map parseReportAttributeMessage(String description) {
private Map parseCatchAllMessage(String description) {
Map resultMap = [:]
def cluster = zigbee.parse(description)
log.debug cluster
if (shouldProcessMessage(cluster)) {
switch(cluster.clusterId) {
case 0x0001:
// 0x07 - configure reporting
if (cluster.command != 0x07) {
resultMap = getBatteryResult(cluster.data.last())
}
break
case 0xFC02:
log.debug 'ACCELERATION'
break
case 0x0402:
if (cluster.command == 0x07) {
if(cluster.data[0] == 0x00) {
log.debug "TEMP REPORTING CONFIG RESPONSE" + cluster
sendEvent(name: "checkInterval", value: 60 * 12, displayed: false, data: [protocol: "zigbee", hubHardwareId: device.hub.hardwareID])
}
else {
log.warn "TEMP REPORTING CONFIG FAILED- error code:${cluster.data[0]}"
}
}
else {
// temp is last 2 data values. reverse to swap endian
String temp = cluster.data[-2..-1].reverse().collect { cluster.hex1(it) }.join()
def value = getTemperature(temp)
resultMap = getTemperatureResult(value)
}
break
}
}
return resultMap
}
private boolean shouldProcessMessage(cluster) {
// 0x0B is default response indicating message got through
boolean ignoredMessage = cluster.profileId != 0x0104 ||
cluster.command == 0x0B ||
(cluster.data.size() > 0 && cluster.data.first() == 0x3e)
return !ignoredMessage
}
private List parseReportAttributeMessage(String description) {
Map descMap = (description - "read attr - ").split(",").inject([:]) { map, param ->
def nameAndValue = param.split(":")
map += [(nameAndValue[0].trim()):nameAndValue[1].trim()]
}
log.debug "Desc Map: $descMap"
Map resultMap = [:]
List result = []
if (descMap.cluster == "0402" && descMap.attrId == "0000") {
def value = getTemperature(descMap.value)
resultMap = getTemperatureResult(value)
result << getTemperatureResult(value)
}
else if (descMap.cluster == "FC02" && descMap.attrId == "0002") {
Integer.parseInt(descMap.value,8)
else if (descMap.cluster == "FC02" && descMap.attrId == "0010") {
if (descMap.value.size() == 32) {
// value will look like 00ae29001403e2290013001629001201
// breaking this apart and swapping byte order where appropriate, this breaks down to:
// X (0x0012) = 0x0016
// Y (0x0013) = 0x03E2
// Z (0x0014) = 0x00AE
// note that there is a known bug in that the x,y,z attributes are interpreted in the wrong order
// this will be fixed in a future update
def threeAxisAttributes = descMap.value[0..-9]
result << parseAxis(threeAxisAttributes)
descMap.value = descMap.value[-2..-1]
}
result << getAccelerationResult(descMap.value)
}
else if (descMap.cluster == "FC02" && descMap.attrId == "0012" && descMap.value.size() == 24) {
// The size is checked to ensure the attribute report contains X, Y and Z values
// If all three axis are not included then the attribute report is ignored
result << parseAxis(descMap.value)
}
else if (descMap.cluster == "0001" && descMap.attrId == "0020") {
resultMap = getBatteryResult(Integer.parseInt(descMap.value, 16))
result << getBatteryResult(Integer.parseInt(descMap.value, 16))
}
return resultMap
return result
}
private Map parseCustomMessage(String description) {
@@ -174,141 +214,296 @@ private Map parseCustomMessage(String description) {
private Map parseIasMessage(String description) {
ZoneStatus zs = zigbee.parseZoneStatus(description)
Map resultMap = [:]
return zs.isAlarm1Set() ? getContactResult('open') : getContactResult('closed')
if (garageSensor != "Yes"){
resultMap = zs.isAlarm1Set() ? getContactResult('open') : getContactResult('closed')
}
return resultMap
}
def updated() {
log.debug "updated called"
log.info "garage value : $garageSensor"
if (garageSensor == "Yes") {
def descriptionText = "Updating device to garage sensor"
if (device.latestValue("status") == "open") {
sendEvent(name: 'status', value: 'garage-open', descriptionText: descriptionText, translatable: true)
}
else if (device.latestValue("status") == "closed") {
sendEvent(name: 'status', value: 'garage-closed', descriptionText: descriptionText, translatable: true)
}
}
else {
def descriptionText = "Updating device to open/close sensor"
if (device.latestValue("status") == "garage-open") {
sendEvent(name: 'status', value: 'open', descriptionText: descriptionText, translatable: true)
}
else if (device.latestValue("status") == "garage-closed") {
sendEvent(name: 'status', value: 'closed', descriptionText: descriptionText, translatable: true)
}
}
}
def getTemperature(value) {
def celsius = Integer.parseInt(value, 16).shortValue() / 100
if(getTemperatureScale() == "C"){
return celsius
} else {
return celsiusToFahrenheit(celsius) as Integer
}
return Math.round(celsius)
} else {
return Math.round(celsiusToFahrenheit(celsius))
}
}
private Map getBatteryResult(rawValue) {
log.debug 'Battery'
def linkText = getLinkText(device)
private Map getBatteryResult(rawValue) {
log.debug "Battery rawValue = ${rawValue}"
def result = [
name: 'battery'
]
def result = [
name: 'battery',
value: '--',
translatable: true
]
def volts = rawValue / 10
def descriptionText
if (rawValue == 0 || rawValue == 255) {}
else if (volts > 3.5) {
result.descriptionText = "${linkText} battery has too much power (${volts} volts)."
def volts = rawValue / 10
if (rawValue == 0 || rawValue == 255) {}
else {
if (volts > 3.5) {
result.descriptionText = "{{ device.displayName }} battery has too much power: (> 3.5) volts."
}
else {
def minVolts = 2.1
def maxVolts = 3.0
def pct = (volts - minVolts) / (maxVolts - minVolts)
def roundedPct = Math.round(pct * 100)
if (roundedPct <= 0)
roundedPct = 1
result.value = Math.min(100, roundedPct)
result.descriptionText = "${linkText} battery was ${result.value}%"
}
if (device.getDataValue("manufacturer") == "SmartThings") {
volts = rawValue // For the batteryMap to work the key needs to be an int
def batteryMap = [28:100, 27:100, 26:100, 25:90, 24:90, 23:70,
22:70, 21:50, 20:50, 19:30, 18:30, 17:15, 16:1, 15:0]
def minVolts = 15
def maxVolts = 28
return result
if (volts < minVolts)
volts = minVolts
else if (volts > maxVolts)
volts = maxVolts
def pct = batteryMap[volts]
if (pct != null) {
result.value = pct
result.descriptionText = "{{ device.displayName }} battery was {{ value }}%"
}
}
else {
def minVolts = 2.1
def maxVolts = 3.0
def pct = (volts - minVolts) / (maxVolts - minVolts)
def roundedPct = Math.round(pct * 100)
if (roundedPct <= 0)
roundedPct = 1
result.value = Math.min(100, roundedPct)
result.descriptionText = "{{ device.displayName }} battery was {{ value }}%"
}
}
}
private Map getTemperatureResult(value) {
log.debug 'TEMP'
def linkText = getLinkText(device)
if (tempOffset) {
def offset = tempOffset as int
def v = value as int
value = v + offset
}
def descriptionText = "${linkText} was ${value}°${temperatureScale}"
return [
return result
}
private Map getTemperatureResult(value) {
log.debug "Temperature"
if (tempOffset) {
def offset = tempOffset as int
def v = value as int
value = v + offset
}
def descriptionText = temperatureScale == 'C' ? '{{ device.displayName }} was {{ value }}°C':
'{{ device.displayName }} was {{ value }}°F'
return [
name: 'temperature',
value: value,
descriptionText: descriptionText,
translatable: true,
unit: temperatureScale
]
]
}
private Map getContactResult(value) {
log.debug "Contact: ${device.displayName} value = ${value}"
def descriptionText = value == 'open' ? '{{ device.displayName }} was opened' : '{{ device.displayName }} was closed'
sendEvent(name: 'contact', value: value, descriptionText: descriptionText, displayed: false, translatable: true)
sendEvent(name: 'status', value: value, descriptionText: descriptionText, translatable: true)
}
private getAccelerationResult(numValue) {
log.debug "Acceleration"
def name = "acceleration"
def value
def descriptionText
if ( numValue.endsWith("1") ) {
value = "active"
descriptionText = '{{ device.displayName }} was active'
} else {
value = "inactive"
descriptionText = '{{ device.displayName }} was inactive'
}
private Map getContactResult(value) {
log.debug 'Contact Status'
def linkText = getLinkText(device)
def descriptionText = "${linkText} was ${value == 'open' ? 'opened' : 'closed'}"
return [
name: 'contact',
value: value,
descriptionText: descriptionText
]
}
private getAccelerationResult(numValue) {
def name = "acceleration"
def value = numValue.endsWith("1") ? "active" : "inactive"
//def linkText = getLinkText(device)
def descriptionText = "$linkText was $value"
def isStateChange = isStateChange(device, name, value)
[
def isStateChange = isStateChange(device, name, value)
return [
name: name,
value: value,
//unit: null,
//linkText: linkText,
descriptionText: descriptionText,
//handlerName: value,
isStateChange: isStateChange
// displayed: displayed(description, isStateChange)
]
isStateChange: isStateChange,
translatable: true
]
}
/**
* PING is used by Device-Watch in attempt to reach the Device
* */
def ping() {
return zigbee.readAttribute(0x001, 0x0020) // Read the Battery Level
}
def refresh() {
log.debug "Refreshing Values "
def refreshCmds = []
if (device.getDataValue("manufacturer") == "SmartThings") {
log.debug "Refreshing Values for manufacturer: SmartThings "
/* These values of Motion Threshold Multiplier(0x01) and Motion Threshold (0x0276)
seem to be giving pretty accurate results for the XYZ co-ordinates for this manufacturer.
Separating these out in a separate if-else because I do not want to touch Centralite part
as of now.
*/
refreshCmds += zigbee.writeAttribute(0xFC02, 0x0000, 0x20, 0x01, [mfgCode: manufacturerCode])
refreshCmds += zigbee.writeAttribute(0xFC02, 0x0002, 0x21, 0x0276, [mfgCode: manufacturerCode])
} else {
refreshCmds += zigbee.writeAttribute(0xFC02, 0x0000, 0x20, 0x02, [mfgCode: manufacturerCode])
}
def refresh() {
log.debug "Refreshing Temperature and Battery "
def refreshCmds = [
//Common refresh commands
refreshCmds += zigbee.readAttribute(0x0402, 0x0000) +
zigbee.readAttribute(0x0001, 0x0020) +
zigbee.readAttribute(0xFC02, 0x0010, [mfgCode: manufacturerCode])
"st rattr 0x${device.deviceNetworkId} 1 0x402 0", "delay 200",
//"st rattr 0x${device.deviceNetworkId} 1 0xFC02 2", "delay 200",
"st rattr 0x${device.deviceNetworkId} 1 1 0x20", "delay 200"
]
return refreshCmds + enrollResponse()
}
return refreshCmds + enrollResponse()
}
def configure() {
sendEvent(name: "checkInterval", value: 7200, displayed: false)
// Device-Watch allows 3 check-in misses from device (plus 1 min lag time)
// enrolls with default periodic reporting until newer 5 min interval is confirmed
sendEvent(name: "checkInterval", value: 3 * 60 * 60 + 1 * 60, displayed: false, data: [protocol: "zigbee", hubHardwareId: device.hub.hardwareID])
log.debug "Configuring Reporting, IAS CIE, and Bindings."
def configCmds = [
"zdo bind 0x${device.deviceNetworkId} ${endpointId} 1 1 {${device.zigbeeId}} {}", "delay 200",
"zcl global send-me-a-report 1 0x20 0x20 30 21600 {01}", //checkin time 6 hrs
"send 0x${device.deviceNetworkId} 1 ${endpointId}", "delay 500",
log.debug "Configuring Reporting"
"zdo bind 0x${device.deviceNetworkId} ${endpointId} 1 0x402 {${device.zigbeeId}} {}", "delay 500",
"zcl global send-me-a-report 0x402 0 0x29 30 3600 {6400}",
"send 0x${device.deviceNetworkId} 1 ${endpointId}", "delay 500",
// temperature minReportTime 30 seconds, maxReportTime 5 min. Reporting interval if no activity
// battery minReport 30 seconds, maxReportTime 6 hrs by default
def configCmds = zigbee.batteryConfig() +
zigbee.temperatureConfig(30, 300) +
zigbee.configureReporting(0xFC02, 0x0010, 0x18, 10, 3600, 0x01, [mfgCode: manufacturerCode]) +
zigbee.configureReporting(0xFC02, 0x0012, 0x29, 1, 3600, 0x0001, [mfgCode: manufacturerCode]) +
zigbee.configureReporting(0xFC02, 0x0013, 0x29, 1, 3600, 0x0001, [mfgCode: manufacturerCode]) +
zigbee.configureReporting(0xFC02, 0x0014, 0x29, 1, 3600, 0x0001, [mfgCode: manufacturerCode])
"zdo bind 0x${device.deviceNetworkId} ${endpointId} 1 0xFC02 {${device.zigbeeId}} {}", "delay 500",
"zcl global send-me-a-report 0xFC02 2 0x18 30 3600 {01}",
"send 0x${device.deviceNetworkId} 1 ${endpointId}", "delay 500"
]
return refresh() + configCmds // send refresh cmds as part of config
return refresh() + configCmds
}
private getEndpointId() {
new BigInteger(device.endpointId, 16).toString()
}
def enrollResponse() {
log.debug "Sending enroll response"
String zigbeeEui = swapEndianHex(device.hub.zigbeeEui)
[
//Resending the CIE in case the enroll request is sent before CIE is written
"zcl global write 0x500 0x10 0xf0 {${zigbeeEui}}", "delay 200",
"send 0x${device.deviceNetworkId} 1 ${endpointId}", "delay 500",
//Enroll Response
"raw 0x500 {01 23 00 00 00}",
"send 0x${device.deviceNetworkId} 1 1", "delay 200"
//Resending the CIE in case the enroll request is sent before CIE is written
"zcl global write 0x500 0x10 0xf0 {${zigbeeEui}}", "delay 200",
"send 0x${device.deviceNetworkId} 1 ${endpointId}", "delay 500",
//Enroll Response
"raw 0x500 {01 23 00 00 00}", "delay 200",
"send 0x${device.deviceNetworkId} 1 1", "delay 200"
]
}
private getEndpointId() {
new BigInteger(device.endpointId, 16).toString()
private Map parseAxis(String description) {
def z = hexToSignedInt(description[0..3])
def y = hexToSignedInt(description[10..13])
def x = hexToSignedInt(description[20..23])
def xyzResults = [x: x, y: y, z: z]
if (device.getDataValue("manufacturer") == "SmartThings") {
// This mapping matches the current behavior of the Device Handler for the Centralite sensors
xyzResults.x = z
xyzResults.y = y
xyzResults.z = -x
} else {
// The axises reported by the Device Handler differ from the axises reported by the sensor
// This may change in the future
xyzResults.x = z
xyzResults.y = x
xyzResults.z = y
}
log.debug "parseAxis -- ${xyzResults}"
if (garageSensor == "Yes")
garageEvent(xyzResults.z)
getXyzResult(xyzResults, description)
}
private hexToSignedInt(hexVal) {
def unsignedVal = hexToInt(hexVal)
unsignedVal > 32767 ? unsignedVal - 65536 : unsignedVal
}
def garageEvent(zValue) {
def absValue = zValue.abs()
def contactValue = null
def garageValue = null
if (absValue>900) {
contactValue = 'closed'
garageValue = 'garage-closed'
}
else if (absValue < 100) {
contactValue = 'open'
garageValue = 'garage-open'
}
if (contactValue != null){
def descriptionText = contactValue == 'open' ? '{{ device.displayName }} was opened' :'{{ device.displayName }} was closed'
sendEvent(name: 'contact', value: contactValue, descriptionText: descriptionText, displayed:false, translatable: true)
sendEvent(name: 'status', value: garageValue, descriptionText: descriptionText, translatable: true)
}
}
private Map getXyzResult(results, description) {
def name = "threeAxis"
def value = "${results.x},${results.y},${results.z}"
def linkText = getLinkText(device)
def descriptionText = "$linkText was $value"
def isStateChange = isStateChange(device, name, value)
[
name: name,
value: value,
unit: null,
linkText: linkText,
descriptionText: descriptionText,
handlerName: name,
isStateChange: isStateChange,
displayed: false
]
}
private getManufacturerCode() {
if (device.getDataValue("manufacturer") == "SmartThings") {
return "0x110A"
} else {
return "0x104E"
}
}
private hexToInt(value) {
new BigInteger(value, 16)
}
private hex(value) {

247
devicetypes/smartthings/zigbee-hue-bulb.src/zigbee-hue-bulb.groovy
View File

@@ -47,197 +47,122 @@ metadata {
//fingerprint profileId: "C05E", inClusters: "0000,0003,0004,0005,0006,0008,0300,1000", outClusters: "0019"
}
// simulator metadata
simulator {
// status messages
status "on": "on/off: 1"
status "off": "on/off: 0"
// reply messages
reply "zcl on-off on": "on/off: 1"
reply "zcl on-off off": "on/off: 0"
}
// UI tile definitions
tiles {
standardTile("switch", "device.switch", width: 1, height: 1, canChangeIcon: true) {
state "on", label:'${name}', action:"switch.off", icon:"st.switches.switch.on", backgroundColor:"#79b821", nextState:"turningOff"
state "off", label:'${name}', action:"switch.on", icon:"st.switches.switch.off", backgroundColor:"#ffffff", nextState:"turningOn"
state "turningOn", label:'${name}', action:"switch.off", icon:"st.switches.switch.on", backgroundColor:"#79b821", nextState:"turningOff"
state "turningOff", label:'${name}', action:"switch.on", icon:"st.switches.switch.off", backgroundColor:"#ffffff", nextState:"turningOn"
tiles(scale: 2) {
multiAttributeTile(name:"switch", type: "lighting", width: 6, height: 4, canChangeIcon: true){
tileAttribute ("device.switch", key: "PRIMARY_CONTROL") {
attributeState "on", label:'${name}', action:"switch.off", icon:"st.lights.philips.hue-single", backgroundColor:"#79b821", nextState:"turningOff"
attributeState "off", label:'${name}', action:"switch.on", icon:"st.lights.philips.hue-single", backgroundColor:"#ffffff", nextState:"turningOn"
attributeState "turningOn", label:'${name}', action:"switch.off", icon:"st.lights.philips.hue-single", backgroundColor:"#79b821", nextState:"turningOff"
attributeState "turningOff", label:'${name}', action:"switch.on", icon:"st.lights.philips.hue-single", backgroundColor:"#ffffff", nextState:"turningOn"
}
tileAttribute ("device.level", key: "SLIDER_CONTROL") {
attributeState "level", action:"switch level.setLevel"
}
tileAttribute ("device.color", key: "COLOR_CONTROL") {
attributeState "color", action:"color control.setColor"
}
}
standardTile("refresh", "device.refresh", inactiveLabel: false, decoration: "flat") {
controlTile("colorTempSliderControl", "device.colorTemperature", "slider", width: 4, height: 2, inactiveLabel: false, range:"(2700..6500)") {
state "colorTemperature", action:"color temperature.setColorTemperature"
}
valueTile("colorTemp", "device.colorTemperature", inactiveLabel: false, decoration: "flat", width: 2, height: 2) {
state "colorTemperature", label: '${currentValue} K'
}
standardTile("refresh", "device.refresh", inactiveLabel: false, decoration: "flat", width: 2, height: 2) {
state "default", label:"", action:"refresh.refresh", icon:"st.secondary.refresh"
}
controlTile("rgbSelector", "device.color", "color", height: 3, width: 3, inactiveLabel: false) {
state "color", action:"setAdjustedColor"
}
controlTile("levelSliderControl", "device.level", "slider", height: 1, width: 2, inactiveLabel: false) {
state "level", action:"switch level.setLevel"
}
valueTile("level", "device.level", inactiveLabel: false, decoration: "flat") {
state "level", label: 'Level ${currentValue}%'
}
controlTile("saturationSliderControl", "device.saturation", "slider", height: 1, width: 2, inactiveLabel: false) {
state "saturation", action:"color control.setSaturation"
}
valueTile("saturation", "device.saturation", inactiveLabel: false, decoration: "flat") {
state "saturation", label: 'Sat ${currentValue} '
}
controlTile("hueSliderControl", "device.hue", "slider", height: 1, width: 2, inactiveLabel: false) {
state "hue", action:"color control.setHue"
}
main(["switch"])
details(["switch", "levelSliderControl", "rgbSelector", "refresh"])
details(["switch", "colorTempSliderControl", "colorTemp", "refresh"])
}
}
//Globals
private getATTRIBUTE_HUE() { 0x0000 }
private getATTRIBUTE_SATURATION() { 0x0001 }
private getHUE_COMMAND() { 0x00 }
private getSATURATION_COMMAND() { 0x03 }
private getCOLOR_CONTROL_CLUSTER() { 0x0300 }
private getATTRIBUTE_COLOR_TEMPERATURE() { 0x0007 }
// Parse incoming device messages to generate events
def parse(String description) {
//log.trace description
if (description?.startsWith("catchall:")) {
def msg = zigbee.parse(description)
//log.trace msg
//log.trace "data: $msg.data"
log.debug "description is $description"
def finalResult = zigbee.getEvent(description)
if (finalResult) {
log.debug finalResult
sendEvent(finalResult)
}
else {
def name = description?.startsWith("on/off: ") ? "switch" : null
def value = name == "switch" ? (description?.endsWith(" 1") ? "on" : "off") : null
def result = createEvent(name: name, value: value)
log.debug "Parse returned ${result?.descriptionText}"
return result
def zigbeeMap = zigbee.parseDescriptionAsMap(description)
log.trace "zigbeeMap : $zigbeeMap"
if (zigbeeMap?.clusterInt == COLOR_CONTROL_CLUSTER) {
if(zigbeeMap.attrInt == ATTRIBUTE_HUE){ //Hue Attribute
def hueValue = Math.round(zigbee.convertHexToInt(zigbeeMap.value) / 255 * 360)
sendEvent(name: "hue", value: hueValue, displayed:false)
}
else if(zigbeeMap.attrInt == ATTRIBUTE_SATURATION){ //Saturation Attribute
def saturationValue = Math.round(zigbee.convertHexToInt(zigbeeMap.value) / 255 * 100)
sendEvent(name: "saturation", value: saturationValue, displayed:false)
}
}
else {
log.info "DID NOT PARSE MESSAGE for description : $description"
}
}
}
def on() {
// just assume it works for now
log.debug "on()"
sendEvent(name: "switch", value: "on")
"st cmd 0x${device.deviceNetworkId} ${endpointId} 6 1 {}"
zigbee.on() + ["delay 1500"] + zigbee.onOffRefresh()
}
def off() {
// just assume it works for now
log.debug "off()"
sendEvent(name: "switch", value: "off")
"st cmd 0x${device.deviceNetworkId} ${endpointId} 6 0 {}"
zigbee.off() + ["delay 1500"] + zigbee.onOffRefresh()
}
def setHue(value) {
def max = 0xfe
log.trace "setHue($value)"
sendEvent(name: "hue", value: value)
def scaledValue = Math.round(value * max / 100.0)
def cmd = "st cmd 0x${device.deviceNetworkId} ${endpointId} 0x300 0x00 {${hex(scaledValue)} 00 0000}"
//log.info cmd
cmd
def refresh() {
refreshAttributes() + configureAttributes()
}
def setAdjustedColor(value) {
log.debug "setAdjustedColor: ${value}"
def adjusted = value + [:]
adjusted.hue = adjustOutgoingHue(value.hue)
adjusted.level = null // needed because color picker always sends 100
setColor(adjusted)
def poll() {
refreshAttributes()
}
def configure() {
log.debug "Configuring Reporting and Bindings."
configureAttributes() + refreshAttributes()
}
def configureAttributes() {
zigbee.onOffConfig() + zigbee.levelConfig() + zigbee.colorTemperatureConfig() + zigbee.configureReporting(COLOR_CONTROL_CLUSTER, ATTRIBUTE_HUE, 0x20, 1, 3600, 0x01) + zigbee.configureReporting(COLOR_CONTROL_CLUSTER, ATTRIBUTE_SATURATION, 0x20, 1, 3600, 0x01)
}
def refreshAttributes() {
zigbee.onOffRefresh() + zigbee.levelRefresh() + zigbee.colorTemperatureRefresh() + zigbee.readAttribute(COLOR_CONTROL_CLUSTER, ATTRIBUTE_HUE) + zigbee.readAttribute(COLOR_CONTROL_CLUSTER, ATTRIBUTE_SATURATION)
}
def setColorTemperature(value) {
zigbee.setColorTemperature(value) + ["delay 1500"] + zigbee.colorTemperatureRefresh()
}
def setLevel(value) {
zigbee.setLevel(value) + ["delay 1500"] + zigbee.levelRefresh() //adding refresh because of ZLL bulb not conforming to send-me-a-report
}
def setColor(value){
log.trace "setColor($value)"
def max = 0xfe
zigbee.on() + setHue(value.hue) + ["delay 300"] + setSaturation(value.saturation) + ["delay 2000"] + refreshAttributes()
}
sendEvent(name: "hue", value: value.hue)
sendEvent(name: "saturation", value: value.saturation)
def scaledHueValue = Math.round(value.hue * max / 100.0)
def scaledSatValue = Math.round(value.saturation * max / 100.0)
def cmd = []
if (value.switch != "off" && device.latestValue("switch") == "off") {
cmd << "st cmd 0x${device.deviceNetworkId} ${endpointId} 6 1 {}"
cmd << "delay 150"
}
cmd << "st cmd 0x${device.deviceNetworkId} ${endpointId} 0x300 0x00 {${hex(scaledHueValue)} 00 0000}"
cmd << "delay 150"
cmd << "st cmd 0x${device.deviceNetworkId} ${endpointId} 0x300 0x03 {${hex(scaledSatValue)} 0000}"
if (value.level != null) {
cmd << "delay 150"
cmd.addAll(setLevel(value.level))
}
if (value.switch == "off") {
cmd << "delay 150"
cmd << off()
}
log.info cmd
cmd
def setHue(value) {
def scaledHueValue = zigbee.convertToHexString(Math.round(value * 0xfe / 100.0), 2)
zigbee.command(COLOR_CONTROL_CLUSTER, HUE_COMMAND, scaledHueValue, "00", "0500") + ["delay 1500"] + zigbee.readAttribute(COLOR_CONTROL_CLUSTER, ATTRIBUTE_HUE) //payload-> hue value, direction (00-> shortest distance), transition time (1/10th second) (0500 in U16 reads 5)
}
def setSaturation(value) {
def max = 0xfe
log.trace "setSaturation($value)"
sendEvent(name: "saturation", value: value)
def scaledValue = Math.round(value * max / 100.0)
def cmd = "st cmd 0x${device.deviceNetworkId} ${endpointId} 0x300 0x03 {${hex(scaledValue)} 0000}"
//log.info cmd
cmd
}
def refresh() {
"st rattr 0x${device.deviceNetworkId} 1 6 0"
}
def poll(){
log.debug "Poll is calling refresh"
refresh()
}
def setLevel(value) {
log.trace "setLevel($value)"
def cmds = []
if (value == 0) {
sendEvent(name: "switch", value: "off")
cmds << "st cmd 0x${device.deviceNetworkId} ${endpointId} 6 0 {}"
}
else if (device.latestValue("switch") == "off") {
sendEvent(name: "switch", value: "on")
}
sendEvent(name: "level", value: value)
def level = hexString(Math.round(value * 255/100))
cmds << "st cmd 0x${device.deviceNetworkId} ${endpointId} 8 4 {${level} 0000}"
//log.debug cmds
cmds
}
private getEndpointId() {
new BigInteger(device.endpointId, 16).toString()
}
private hex(value, width=2) {
def s = new BigInteger(Math.round(value).toString()).toString(16)
while (s.size() < width) {
s = "0" + s
}
s
}
private adjustOutgoingHue(percent) {
def adjusted = percent
if (percent > 31) {
if (percent < 63.0) {
adjusted = percent + (7 * (percent -30 ) / 32)
}
else if (percent < 73.0) {
adjusted = 69 + (5 * (percent - 62) / 10)
}
else {
adjusted = percent + (2 * (100 - percent) / 28)
}
}
log.info "percent: $percent, adjusted: $adjusted"
adjusted
def scaledSatValue = zigbee.convertToHexString(Math.round(value * 0xfe / 100.0), 2)
zigbee.command(COLOR_CONTROL_CLUSTER, SATURATION_COMMAND, scaledSatValue, "0500") + ["delay 1500"] + zigbee.readAttribute(COLOR_CONTROL_CLUSTER, ATTRIBUTE_SATURATION) //payload-> sat value, transition time
}