How do I add illuminance Mesurment to groveStreams?
I edited CyborgMaster smart app and added illuminance. The app allowed
me to select zooZ sensor that had illuminance Mesurment, but it didn’t show
up in Observation Studio.
SmartApp:[code]
definition(name: “GroveStreams w Light”,
namespace: “CyborgMaster”,
author: “NathanEdit”,
description: “Log to GroveStreams”,
category: “My Apps”,
iconUrl: “https://s3.amazonaws.com/smartapp-icons/Convenience/Cat-Convenience.png”,
iconX2Url: “https://s3.amazonaws.com/smartapp-icons/Convenience/Cat-Convenience@2x.png”,
iconX3Url: “https://s3.amazonaws.com/smartapp-icons/Convenience/Cat-Convenience@2x.png”)
preferences {
section(“Log devices…”) {
input(“temperatures”, “capability.temperatureMeasurement”,
title: “Temperatures”, required:false, multiple: true)
input(“humidities”, “capability.relativeHumidityMeasurement”,
title: “Humidities”, required:false, multiple: true)
input(“thermostats”, “capability.thermostat”,
title: “Thermostats”, required: false, multiple: true)
input(“illuminance”, “capability.illuminanceMeasurement”,
title: “Illuminance”, required:false, multiple: true)
input(“contacts”, “capability.contactSensor”,
title: “Doors open/close”, required: false, multiple: true)
input(“accelerations”, “capability.accelerationSensor”,
title: “Accelerations”, required: false, multiple: true)
input(“motions”, “capability.motionSensor”,
title: “Motions”, required: false, multiple: true)
input(“presence”, “capability.presenceSensor”,
title: “Presence”, required: false, multiple: true)
input(“switches”, “capability.switch”,
title: “Switches”, required: false, multiple: true)
input(“batteries”, “capability.battery”,
title: “Batteries”, required: false, multiple: true)
}
section (“GroveStreams Feed PUT API key…”) {
input “channelKey”, “text”, title: “API key”
}
}
def installed() {
initialize()
}
def updated() {
log.debug "Updating…"
unsubscribe()
unschedule()
initialize()
}
def initialize() {
subscribe(temperatures, “temperature”, handleTemperatureEvent)
subscribe(humidities, “humidity”, handleHumidityEvent)
subscribe(illuminance, “illuminance”, handleIlluminanceEvent)
subscribe(thermostats, “thermostatOperatingState”, handleThermostatOperatingStateEvent)
subscribe(contacts, “contact”, handleContactEvent)
subscribe(accelerations, “acceleration”, handleAccelerationEvent)
subscribe(motions, “motion”, handleMotionEvent)
subscribe(presence, “presence”, handlePresenceEvent)
subscribe(switches, “switch”, handleSwitchEvent)
subscribe(batteries, “battery”, handleBatteryEvent)
if (atomicState.queue == null) {
log.debug "Initializing queue"
atomicState.queue = []
}
if (atomicState.lock == null) {
log.debug "Initializing lock"
atomicState.lock = []
}
schedule(“27 * * * * ?”, processQueue)
}
def handleTemperatureEvent(evt) {
queueValue(evt) { it.toString() }
}
def handleHumidityEvent(evt) {
queueValue(evt) { it.toString() }
}
def handleilluminanceEvent(evt) {
queueValue(evt) { it.toString() }
}
def handleThermostatOperatingStateEvent(evt) {
queueValue(evt) { it == “idle” ? “false” : “true” }
}
def handleBatteryEvent(evt) {
queueValue(evt) { it.toString() }
}
def handleContactEvent(evt) {
queueValue(evt) { it == “open” ? “true” : “false” }
}
def handleAccelerationEvent(evt) {
queueValue(evt) { it == “active” ? “true” : “false” }
}
def handleMotionEvent(evt) {
queueValue(evt) { it == “active” ? “true” : “false” }
}
def handlePresenceEvent(evt) {
queueValue(evt) { it == “present” ? “true” : “false” }
}
def handleSwitchEvent(evt) {
queueValue(evt) { it == “on” ? “true” : “false” }
}
private queueValue(evt, Closure convert) {
def jsonPayload = [compId: evt.displayName, streamId: evt.name, data: convert(evt.value), time: now()]
log.debug “Appending to queue ${jsonPayload}”
synchronized(atomicState.lock) {
def queue = atomicState.queue
queue << jsonPayload
atomicState.queue = queue
}
log.debug “Queue ${atomicState.queue}”
}
def processQueue() {
log.debug "Processing queue"
def url = "https://grovestreams.com/api/feed?api_key=${channelKey}"
def header = [“X-Forwarded-For”: location.id]
if (atomicState.queue != null && atomicState.queue.size() > 0) {
synchronized(atomicState.lock) {
log.debug "Events: ${atomicState.queue}"
try {
httpPutJson([“uri”: url, “header”: header, “body”: atomicState.queue]) {
response ->
if (response.status != 200 ) {
log.debug “GroveStreams logging failed, status = ${response.status}”
} else {
log.debug "GroveStreams accepted event(s)"
atomicState.queue = []
}
}
} catch(e) {
def errorInfo = "Error sending value: ${e}"
log.error errorInfo
if (e instanceof groovyx.net.http.ResponseParseException) {
log.debug "Simple parse error, events were still accepted. Clearing queue"
atomicState.queue = []
}
}
}
}
}[/code]
zooZ Device Handler:
[code] metadata {
definition (name: “zooZ Sensor 1.2 - Temperature”, namespace: “robertvandervoort”, author: “Robert Vandervoort”) {
capability "Motion Sensor"
capability "Acceleration Sensor"
capability "Temperature Measurement"
capability "Relative Humidity Measurement"
capability "Illuminance Measurement"
capability "Configuration"
capability "Sensor"
capability “Battery”
// RAW Description: 0 0 0x0701 0 0 0 e 0x5E 0x98 0x86 0x72 0x5A 0x85 0x59 0x73 0x80 0x71 0x31 0x70 0x84 0x7A
attribute "tamper", "enum", ["detected", "clear"]
fingerprint deviceId: "0x0701", inClusters: "0x5E,0x86,0x72,0x59,0x85,0x73,0x71,0x84,0x80,0x31,0x70,0x5A,0x98,0x7A"
}
/* simulator {
status “no motion” : "command: 9881, payload: 00300300"
status “motion” : "command: 9881, payload: 003003FF"
status “clear” : " command: 9881, payload: 0071050000000007030000"
status “tamper” : “command: 9881, payload: 007105000000FF07030000”
for (int i = 0; i <= 100; i += 20) {
status "temperature ${i}F": new physicalgraph.zwave.Zwave().securityV1.securityMessageEncapsulation().encapsulate(
new physicalgraph.zwave.Zwave().sensorMultilevelV2.sensorMultilevelReport(
scaledSensorValue: i,
precision: 2,
sensorType: 1,
scale: 1
)
).incomingMessage()
}
for (int i = 0; i <= 100; i += 20) {
status "RH ${i}%": new physicalgraph.zwave.Zwave().securityV1.securityMessageEncapsulation().encapsulate(
new physicalgraph.zwave.Zwave().sensorMultilevelV2.sensorMultilevelReport(
scaledSensorValue: i,
sensorType: 5
)
).incomingMessage()
}
for (int i in [0, 1, 2, 8, 12, 16, 20, 24, 30, 64, 82, 100, 200, 500, 1000]) {
status "illuminance ${i}%": new physicalgraph.zwave.Zwave().securityV1.securityMessageEncapsulation().encapsulate(
new physicalgraph.zwave.Zwave().sensorMultilevelV2.sensorMultilevelReport(
scaledSensorValue: i,
sensorType: 3
)
).incomingMessage()
}
for (int i in [0, 5, 10, 15, 50, 99, 100]) {
status "battery ${i}%": new physicalgraph.zwave.Zwave().securityV1.securityMessageEncapsulation().encapsulate(
new physicalgraph.zwave.Zwave().batteryV1.batteryReport(
batteryLevel: i
)
).incomingMessage()
}
status "low battery alert": new physicalgraph.zwave.Zwave().securityV1.securityMessageEncapsulation().encapsulate(
new physicalgraph.zwave.Zwave().batteryV1.batteryReport(
batteryLevel: 255
)
).incomingMessage()
status "wake up": "command: 8407, payload:"
}
*/
tiles (scale: 2) {
multiAttributeTile(name:“main”, type:“generic”, width:6, height:4) {
tileAttribute(“device.temperature”, key: “PRIMARY_CONTROL”) {
attributeState “temperature”,label:’${currentValue}°’, precision:2, backgroundColors:[
[value: 32, color: “#153591”],
[value: 44, color: “#1e9cbb”],
[value: 59, color: “#90d2a7”],
[value: 74, color: “#44b621”],
[value: 84, color: “#f1d801”],
[value: 92, color: “#d04e00”],
[value: 98, color: “#bc2323”]
]
}
tileAttribute(“device.humidity”, key: “SECONDARY_CONTROL”) {
attributeState “humidity”,label:‘RH ${currentValue} %’, precision:2
}
}
standardTile(“motion”,“device.motion”, width: 2, height: 2) {
state “active”,label:‘motion’,icon:“st.motion.motion.active”,backgroundColor:"#53a7c0"
state “inactive”,label:‘no motion’,icon:“st.motion.motion.inactive”,backgroundColor:"#ffffff"
}
valueTile(“humidity”,“device.humidity”, width: 2, height: 2) {
state “humidity”,label:‘RH ${currentValue}%’, precision:2
}
valueTile(“illuminance”,“device.illuminance”, width: 2, height: 2) {
state “luminosity”,label:‘LIGHT ${currentValue}%’, precision:2
}
standardTile(“acceleration”, “device.acceleration”, width: 2, height: 2) {
state(“active”, label:‘tamper’, icon:“st.motion.acceleration.active”, backgroundColor:"#ff0000")
state(“inactive”, label:‘clear’, icon:“st.motion.acceleration.inactive”, backgroundColor:"#00ff00")
}
valueTile(“battery”, “device.battery”, decoration: “flat”, width: 2, height: 2) {
state “battery”, label:’${currentValue}% battery’
}
main([“main”])
details([“main”,“humidity”,“illuminance”,“motion”,“acceleration”,“battery”])
}
preferences {
input “debugOutput”, “boolean”,
title: “Enable debug logging?”,
defaultValue: false,
displayDuringSetup: true
input “LEDbehavior”, “enum”,
title: “LED Behavior”,
options: [“LED Off”, “Breathing”, “Quick Blink on Temp/PIR”],
defaultValue: “Quick Blink on Temp/PIR”,
required: false,
displayDuringSetup: false
input “tempoffset”, “number”,
title: “Reporting threshold for temp”,
description: “Enter a value 1-50 changing reporting threshold for temp. Represents 0.1 degree increments.”,
range: “1…50”,
defaultValue: 50,
required: false,
displayDuringSetup: false
input “humidityoffset”, “number”,
title: “Reporting threshold for humidity”,
description: “Report when change occurs from 1%-50% RH)”,
range: “1…50”,
defaultValue: 1,
required: false,
displayDuringSetup: false
input “luminanceoffset”, “number”,
title: “Reporting threshold for Luminance”,
description: “valid values from 5% to 50%”,
range: “5…50”,
defaultValue: 5,
required: false,
displayDuringSetup: false
input “PIRsensitivity”, “number”,
title: “PIR motion sensitivity”,
description: “A value from 1-7, from high to low sensitivity (1 is highest)”,
range: “1…7”,
defaultValue: 4,
required: false,
displayDuringSetup: true
input “MotionReset”, “number”,
title: “PIR reset time”,
description: “Number of minutes to wait to report motion cleared after a motion event if there is no motion detected.”,
range: “1…255”,
defaultValue: 5,
required: false,
displayDuringSetup: true
}
}
def updated()
{
updateDataValue(“configured”, “false”)
state.debug = (“true” == debugOutput)
}
def parse(String description)
{
def result = null
if (description.startsWith(“Err 106”)) {
state.sec = 0
result = createEvent( name: “secureInclusion”, value: “failed”, isStateChange: true,
descriptionText: “This sensor failed to complete the network security key exchange. If you are unable to control it via SmartThings, you must remove it from your network and add it again.”)
} else if (description != “updated”) {
def cmd = zwave.parse(description, [0x31: 5, 0x71:3, 0x7A: 2, 0x81: 1, 0x84: 2, 0x86: 2])
if (cmd) {
result = zwaveEvent(cmd)
}
}
if (state.debug) log.debug "Parsed ‘${description}’ to ${result.inspect()}"
return result
}
def zwaveEvent(physicalgraph.zwave.commands.wakeupv2.WakeUpNotification cmd)
{
def result = [createEvent(descriptionText: “${device.displayName} woke up”, isStateChange: false)]
if (!isConfigured()) {
// we’re still in the process of configuring a newly joined device
if (state.debug) log.debug(“late configure”)
result += response(configure())
} else {
result += response(checkBattery())
}
result
}
def zwaveEvent(physicalgraph.zwave.commands.securityv1.SecurityMessageEncapsulation cmd) {
def encapsulatedCommand = cmd.encapsulatedCommand([0x31: 5, 0x71: 3, 0x7A: 2, 0x81: 1, 0x84: 2])
state.sec = 1
// if (state.debug) log.debug "encapsulated: ${encapsulatedCommand}"
if (encapsulatedCommand) {
zwaveEvent(encapsulatedCommand)
} else {
log.warn "Unable to extract encapsulated cmd from $cmd"
createEvent(descriptionText: cmd.toString())
}
}
def zwaveEvent(physicalgraph.zwave.commands.securityv1.SecurityCommandsSupportedReport cmd) {
if (state.debug) log.debug "—SECURITY COMMANDS SUPPORTED REPORT V1— ${device.displayName} sent commandClassControl: ${cmd.commandClassControl}, commandClassSupport: ${cmd.commandClassSupport}, reportsToFollow: ${cmd.reportsToFollow}"
response(configure())
}
def zwaveEvent(physicalgraph.zwave.commands.manufacturerspecificv2.DeviceSpecificReport cmd) {
if (state.debug) log.debug “—MANUFACTURER SPECIFIC REPORT V2— ${device.displayName} sent deviceIdDataFormat: ${cmd.deviceIdDataFormat}, deviceIdDataLengthIndicator: ${cmd.deviceIdDataLengthIndicator}, deviceIdType: ${cmd.deviceIdType}, payload: ${cmd.payload}”
}
def zwaveEvent(physicalgraph.zwave.commands.versionv1.VersionCommandClassReport cmd) {
if (state.debug) log.debug “—COMMAND CLASS VERSION REPORT V1— ${device.displayName} has command class version: ${cmd.commandClassVersion} - payload: ${cmd.payload}”
}
def zwaveEvent(physicalgraph.zwave.commands.versionv1.VersionReport cmd) {
def fw = "${cmd.applicationVersion}.${cmd.applicationSubVersion}"
updateDataValue(“fw”, fw)
if (state.debug) log.debug “—VERSION REPORT V1— ${device.displayName} is running firmware version: $fw, Z-Wave version: ${cmd.zWaveProtocolVersion}.${cmd.zWaveProtocolSubVersion}”
}
def zwaveEvent(physicalgraph.zwave.commands.configurationv1.ConfigurationReport cmd) {
if (state.debug) log.debug “—CONFIGURATION REPORT V1— ${device.displayName} parameter ${cmd.parameterNumber} with a byte size of ${cmd.size} is set to ${cmd.configurationValue}”
}
def zwaveEvent(physicalgraph.zwave.commands.configurationv2.ConfigurationReport cmd) {
if (state.debug) log.debug “—CONFIGURATION REPORT V2— ${device.displayName} parameter ${cmd.parameterNumber} with a byte size of ${cmd.size} is set to ${cmd.configurationValue}”
}
def zwaveEvent(physicalgraph.zwave.commands.batteryv1.BatteryReport cmd) {
def map = [ name: “battery”, unit: “%” ]
if (cmd.batteryLevel == 0xFF) {
map.value = 1
map.descriptionText = "${device.displayName} battery is low"
map.isStateChange = true
createEvent(map)
} else {
map.value = cmd.batteryLevel
createEvent(map)
}
state.lastbatt = now()
createEvent(map)
}
def zwaveEvent(physicalgraph.zwave.commands.sensormultilevelv5.SensorMultilevelReport cmd) {
if (state.debug) log.debug "—SENSOR MULTILEVEL v5 REPORT— ${device.displayName} sent sensorType: ${cmd.sensorType} value: ${cmd.sensorValue} scale: ${cmd.scale} scaledSensorValue: ${cmd.scaledSensorValue}"
def map = [:]
switch (cmd.sensorType) {
case 1:
map.name = "temperature"
def cmdScale = cmd.scale == 1 ? “F” : "C"
map.value = convertTemperatureIfNeeded(cmd.scaledSensorValue, cmdScale, cmd.precision)
map.unit = getTemperatureScale()
break;
case 3:
map.name = "illuminance"
map.value = cmd.scaledSensorValue
map.unit = "%"
break;
case 5:
map.name = "humidity"
map.value = cmd.scaledSensorValue
map.unit = "%"
break;
default:
map.descriptionText = cmd.toString()
}
createEvent(map)
}
def motionEvent(value) {
def map = [name: “motion”]
if (value != 0) {
map.value = "active"
map.descriptionText = “$device.displayName detected motion”
} else {
map.value = "inactive"
map.descriptionText = “$device.displayName motion has stopped”
}
createEvent(map)
}
def zwaveEvent(physicalgraph.zwave.commands.sensorbinaryv2.SensorBinaryReport cmd) {
if (state.debug) log.debug "—SENSOR BINARY REPORT V2— ${device.displayName} sent value: ${cmd.sensorValue}"
motionEvent(cmd.sensorValue)
}
def zwaveEvent(physicalgraph.zwave.commands.basicv1.BasicSet cmd) {
if (state.debug) log.debug "—BASIC SET REPORT V1— ${device.displayName} sent value: ${cmd.value}"
motionEvent(cmd.value)
}
def zwaveEvent(physicalgraph.zwave.commands.notificationv3.NotificationReport cmd) {
if (state.debug) log.debug “—NOTIFICATION REPORT V3— ${device.displayName} sent eventParametersLength: ${cmd.eventParametersLength} eventParameter: ${cmd.eventParameter} notificationType: ${cmd.notificationType} event: ${cmd.event}”
def result = []
if (cmd.notificationType == 7) {
if (cmd.event == 0x00 && cmd.eventParameter == 0x08) {
result << motionEvent(0)
}
else if (cmd.event == 0x03) {
result << createEvent(name: “acceleration”, value: “active”, descriptionText: “$device.displayName cover is open.”)
}
else if (cmd.event == 0X00 || cmd.eventParameter == 0x03) {
result << createEvent(name: “acceleration”, value: “inactive”, descriptionText: “$device.displayName cover has been closed.”)
}
else if (cmd.event == 0x08) {
result << motionEvent(255)
}
}
else {
result << createEvent(descriptionText: cmd.toString(), isStateChange: false)
}
result
}
def zwaveEvent(physicalgraph.zwave.Command cmd) {
createEvent(descriptionText: cmd.toString(), isStateChange: false)
}
private checkBattery() {
def request = [
zwave.batteryV1.batteryGet(),
zwave.wakeUpV1.wakeUpNoMoreInformation()
]
commands(request)
}
def configure() {
// This sensor joins as a secure device if you double-click the button to include it
//if (device.device.rawDescription =~ /98/ && !state.sec) {
// if (state.debug) log.debug “4-in-1 sensor not sending configure until secure”
// return []
//}
if (state.debug) log.debug “–Sending configuration commands to zooZ 4-in-1 sensor–”
//if (state.debug) log.debug "Prefernces settings: PIRsensitivity: $PIRsensitivity, Temp offset: $tempoffset, Humidity offset: $humidityoffset, Luminance offset: $luminanceoffset"
def LEDbehav = 3
if (LEDbehavior == “LED Off”) {
LEDbehav=1
}
else if (LEDbehavior == “Breathing”) {
LEDbehav=2
}
else {
LEDbehav=3
}
def PIRsens = 4
if (PIRsensitivity) {
PIRsens=PIRsensitivity
}
else {
PIRsens = 4
}
def MotionRst = 3
if (MotionReset) {
MotionRst=MotionReset
}
else {
MotionRst = 3
}
def tempoff = 1
if (tempoffset) {
tempoff=tempoffset
}
else {
tempoff = 1
}
def humidityoff = 10
if (humidityoffset) {
humidityoff=humidityoffset
}
else {
humidityoff = 10
}
def luminanceoff = 10
if (luminanceoffset) {
luminanceoff=luminanceoffset
}
else {
luminanceoff = 10
}
if (state.debug) log.debug "settings: ${settings.inspect()}, state: ${state.inspect()}"
setConfigured()
def request = [
// set wakeup interval to 20 mins
zwave.wakeUpV1.wakeUpIntervalSet(seconds:3600, nodeid:zwaveHubNodeId),
// Get Version information
zwave.versionV1.versionGet(),
zwave.firmwareUpdateMdV2.firmwareMdGet(),
// configure temp scale to celcius or fahrenheight and set offset
zwave.configurationV1.configurationSet(parameterNumber: 0x01, size: 1, scaledConfigurationValue: 1),
zwave.configurationV1.configurationGet(parameterNumber: 0x01),
zwave.configurationV1.configurationSet(parameterNumber: 0x02, size: 1, scaledConfigurationValue: tempoff),
zwave.configurationV1.configurationGet(parameterNumber: 0x02),
// configure humidity offset
zwave.configurationV1.configurationSet(parameterNumber: 0x03, size: 1, scaledConfigurationValue: humidityoff),
zwave.configurationV1.configurationGet(parameterNumber: 0x03),
// configure luminance offset
zwave.configurationV1.configurationSet(parameterNumber: 0x04, size: 1, scaledConfigurationValue: luminanceoff),
zwave.configurationV1.configurationGet(parameterNumber: 0x04),
// send no-motion report x minutes after motion stops
zwave.configurationV1.configurationSet(parameterNumber: 0x05, size: 1, scaledConfigurationValue: MotionRst),
zwave.configurationV1.configurationGet(parameterNumber: 0x05),
// set motion sensor sensitivity
zwave.configurationV1.configurationSet(parameterNumber: 0x06, size: 1, scaledConfigurationValue: PIRsens),
zwave.configurationV1.configurationGet(parameterNumber: 0x06),
// set LED behavior
zwave.configurationV1.configurationSet(parameterNumber: 0x07, size: 1, scaledConfigurationValue: LEDbehav),
zwave.configurationV1.configurationGet(parameterNumber: 0x07),
// get updated battery and sensor data
zwave.batteryV1.batteryGet(),
zwave.sensorMultilevelV5.sensorMultilevelGet(sensorType:1, scale:1),
zwave.sensorMultilevelV5.sensorMultilevelGet(sensorType:3, scale:0),
zwave.sensorMultilevelV5.sensorMultilevelGet(sensorType:5, scale:0),
// Can use the zwaveHubNodeId variable to add the hub to the device's associations:
zwave.associationV1.associationSet(groupingIdentifier:2, nodeId:zwaveHubNodeId)
]
commands(request) + ["delay 20000", zwave.wakeUpV1.wakeUpNoMoreInformation().format()]
}
private setConfigured() {
updateDataValue(“configured”, “true”)
return []
}
private isConfigured() {
getDataValue(“configured”) == “true”
}
private command(physicalgraph.zwave.Command cmd) {
if (state.sec) {
zwave.securityV1.securityMessageEncapsulation().encapsulate(cmd).format()
} else {
cmd.format()
}
}
private commands(commands, delay=1000) {
delayBetween(commands.collect{ command(it) }, delay)
}[/code]