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mtan93:revert-490-boggess/convert_hexToSignedInt_to_method mtan93:MSA-862-1 mtan93:MSA-867-2 mtan93:MSA-861-5 mtan93:MSA-859-3 mtan93:MSA-860-3 mtan93:MSA-852-1 mtan93:MSA-857-2 mtan93:MSA-858-2 mtan93:MSA-837-1 mtan93:MSA-835-1 mtan93:MSA-757-1 mtan93:MSA-811-1 mtan93:MSA-817-1 mtan93:WEMO_fi mtan93:MSA-809-4 mtan93:MSA-795-1 mtan93:MSA-796 mtan93:MSA-787-1 mtan93:MSA-753-12 mtan93:MSA-741-1 mtan93:MSA-743-1 mtan93:DEVC-256-11 mtan93:MSA-736-2 mtan93:MSA-733-1 mtan93:MSA-700-1 mtan93:MSA-727-1 mtan93:MSA-726-1 mtan93:MSA-724-1 mtan93:MSA-715-1 mtan93:MSA-709-4 mtan93:MSA-708-3 mtan93:MSA-707-1 mtan93:MSA-65-1 mtan93:MSA-685-7 mtan93:MSA-692-2 mtan93:master_old mtan93:MSA-691-1 mtan93:MSA-689-6 mtan93:MSA-687-2 mtan93:MSA-640-3 mtan93:MSA-637-1 mtan93:MSA-633-1 mtan93:MSA-644-3 mtan93:MSA-647-1 mtan93:MSA-649-1 mtan93:MSA-632-2 mtan93:MSA-631-2 mtan93:MSA-628-2 mtan93:MSA-63-1 mtan93:MSA-618-4 mtan93:MSA-614-2 mtan93:MSA-599-1 mtan93:MSA-615-3 mtan93:MSA-613-1 mtan93:MSA-611-1 mtan93:MSA-608-3 mtan93:MSA-598-1 mtan93:MSA-584-1 mtan93:MSA-582-2 mtan93:MSA-42-3
mtan93:PROD_2017.08.08 mtan93:PROD_2017.08.01 mtan93:PROD_2017.07.25 mtan93:PROD_2017.07.18 mtan93:PROD_2017.07.11 mtan93:PROD_2017.07.05 mtan93:PROD_2017.06.27 mtan93:PROD_2017.06.20 mtan93:PROD_2017.06.13 mtan93:PROD_2017.06.06 mtan93:PROD_2017.05.31 mtan93:PROD_2017.05.23 mtan93:PROD_2017.05.16 mtan93:PROD_2017.05.09 mtan93:PROD_2017.05.02 mtan93:PROD_2017.04.25 mtan93:PROD_2017.04.18 mtan93:PROD_2017.04.11 mtan93:PROD_2017.04.04 mtan93:PROD_2017.03.28 mtan93:PROD_2017.03.21 mtan93:PROD_2017.03.14 mtan93:PROD_2017.03.07 mtan93:PROD_2017.03.01 mtan93:PROD_2017.02.22 mtan93:PROD_2017.02.14 mtan93:PROD_2017.02.07 mtan93:PROD_2017.01.31 mtan93:PROD_2017.01.24 mtan93:PROD_2017.01.18 mtan93:PROD_2017.01.10 mtan93:PROD_2016.12.07 mtan93:PROD_2016.11.22 mtan93:PROD_2016.11.15 mtan93:PROD_2016.11.08 mtan93:PROD_2016.11.01 mtan93:PROD_2016.10.25 mtan93:PROD_2016.10.18 mtan93:PROD_2016.10.11 mtan93:PROD_2016.10.04 mtan93:PROD_2016.09.27 mtan93:PROD_2016.09.20 mtan93:PROD_2016.09.13 mtan93:PROD_2016.09.06 mtan93:PROD_2016.08.30 mtan93:PROD_2016.08.23 mtan93:PROD_2016.08.16 mtan93:PROD_2016.08.09 mtan93:PROD_2016.08.02 mtan93:PROD_2016.07.26 mtan93:PROD_2016.07.19 mtan93:PROD_2016.07.12 mtan93:PROD_2016.06.28 mtan93:PROD_2016.06.21 mtan93:PROD_2016.06.14 mtan93:PROD_2016.06.07 mtan93:PROD_2016.05.24 mtan93:PROD_2016.05.17 mtan93:PROD_2016.05.10 mtan93:PROD_2016.05.03 mtan93:PROD_2016.04.26 mtan93:PROD_2016.04.19 mtan93:PROD_2016.04.12 mtan93:PROD_2016.03.31 mtan93:PROD_2016.03.24 mtan93:PROD_2016.03.18 mtan93:PROD_2016.03.10

1 Commits
MSA-1780-2 ... MSA-733-1

Author SHA1 Message Date
Jason Patton
d1170a2dd6 MSA-733: Test 2015-12-08 23:19:12 -06:00
254 changed files with 9622 additions and 24003 deletions
Expand all files Collapse all files

23
.gitignore vendored
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@@ -1,23 +0,0 @@
# Eclipse files
/.settings
/.classpath
/.project
/eclipse/
/target-eclipse
# IntelliJ files
*.iws
*.iml
.idea
/out
*.ipr
# Gradle files
.gradletasknamecache
.gradle/
# Mac OS files
.DS_Store
# Build files
/build

4
README.md
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@@ -1,10 +1,10 @@
# SmartThings Public GitHub Repo
# SmartThings Public Github Repo
An official list of SmartApps and Device Types from SmartThings.
Here are some links to help you get started coding right away:
* [GitHub-specific Documentation](http://docs.smartthings.com/en/latest/tools-and-ide/github-integration.html)
* [Github-specific Documentation](http://docs.smartthings.com/en/latest/tools-and-ide/github-integration.html)
* [Full Documentation](http://docs.smartthings.com)
* [IDE & Simulator](http://ide.smartthings.com)
* [Community Forums](http://community.smartthings.com)

133
build.gradle
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import java.nio.charset.StandardCharsets
import java.nio.file.Paths
import com.smartthings.deployment.slack.FileUpload
import com.smartthings.deployment.slack.Message
apply plugin: 'groovy'
apply plugin: 'smartthings-executable-deployment'
apply plugin: 'smartthings-slack'
buildscript {
dependencies {
classpath "com.smartthings.deployment:executable-deployment-scripts:1.0.8"
}
repositories {
mavenLocal()
jcenter()
maven {
credentials {
username smartThingsArtifactoryUserName
password smartThingsArtifactoryPassword
}
url "https://artifactory.smartthings.com/libs-release-local"
}
}
}
repositories {
mavenLocal()
jcenter()
maven {
credentials {
username smartThingsArtifactoryUserName
password smartThingsArtifactoryPassword
}
url "https://artifactory.smartthings.com/libs-release-local"
}
}
sourceSets {
devicetypes {
groovy {
srcDirs = ['devicetypes']
}
}
smartapps {
groovy {
srcDirs = ['smartapps']
}
}
}
dependencies {
devicetypesCompile 'org.codehaus.groovy:groovy-all:2.4.7'
devicetypesCompile 'smartthings:appengine-z-wave:0.1.2'
devicetypesCompile 'smartthings:appengine-zigbee:0.1.11'
smartappsCompile 'org.codehaus.groovy:groovy-all:2.4.7'
smartappsCompile 'smartthings:appengine-common:0.1.8'
smartappsCompile 'org.codehaus.groovy.modules.http-builder:http-builder:0.7.1'
smartappsCompile 'org.grails:grails-web:2.3.11'
smartappsCompile 'org.json:json:20140107'
}
slackSendMessage {
String branch = project.hasProperty('branch') ? project.property('branch') : 'unknown'
String token = project.hasProperty('slackToken') ? project.property('slackToken') : null
String webhookUrl = project.hasProperty('slackWebhookUrl') ? project.property('slackWebhookUrl') : null
String channel = project.hasProperty('slackChannel') ? project.property('slackChannel') : null
String drinks = 'https://dl.dropboxusercontent.com/s/m1z5mpd3c83lwev/minion_beer.jpeg?dl=0'
String wolverine = 'https://dl.dropboxusercontent.com/s/4lbjqzvm2v033u9/minion_wolverine.jpg?dl=0'
String beach = 'https://dl.dropboxusercontent.com/s/rqrfgxk53gfng69/minion_beach.png?dl=0'
String iconUrl
String color
String messageText
String username
switch (branch) {
case 'master':
username = 'Hickory'
iconUrl = wolverine
color = '#35D0F2'
messageText = 'Began deployment of _SmartThingsPublic[master]_ branch to the _Dev_ environments.'
break
case 'staging':
username = 'Dickory'
iconUrl = beach
color = '#FFDE20'
messageText = 'Began deployment of _SmartThingsPublic[staging]_ branch to the _Staging_ environments.'
break
case 'production':
username = 'Dock'
iconUrl = drinks
color = '#FF1D23'
messageText = 'Began deployment of _SmartThingsPublic[production]_ branch to the _Prod_ environments.'
break
default:
username = 'Hickory'
iconUrl = wolverine
color = '#35D0F2'
messageText = "Began deployment of an _SmartThingsPublic[${branch}]_ branch. Have no idea what's going on."
}
List<String> archives = []
File rootDir = new File("${project.buildDir}/archives")
if (rootDir.exists()) {
// Create a list of archives which were deployed.
java.nio.file.Path rootPath = Paths.get(rootDir.absolutePath)
rootDir.eachFileRecurse { File file ->
if (file.name.endsWith('.tar.gz')) {
java.nio.file.Path archivePath = Paths.get(file.absolutePath)
archives.add(rootPath.relativize(archivePath).toString())
}
}
}
Date date = new Date()
String fileDate = date.format('yyyy-MM-dd_HH-mm-ss', TimeZone.getTimeZone('GMT'))
// Required Task Arguments.
file = new FileUpload(
data: archives.join('\n').getBytes(StandardCharsets.UTF_8),
filename: "deployment-notes-${fileDate}.txt",
title: 'Deployment Notes',
channels: channel,
token: token,
color: color
)
message = new Message(
webhookUrl: webhookUrl,
username: username,
asUser: true,
iconUrl: iconUrl,
channel: channel,
fallback: 'Deployment Notification',
text: messageText
)
}

27
circle.yml
View File

@@ -1,27 +0,0 @@
machine:
java:
version:
oraclejdk8
dependencies:
override:
- ./gradlew dependencies -PsmartThingsArtifactoryUserName="$ARTIFACTORY_USERNAME" -PsmartThingsArtifactoryPassword="$ARTIFACTORY_PASSWORD"
post:
- ./gradlew compileSmartappsGroovy compileDevicetypesGroovy -PsmartThingsArtifactoryUserName="$ARTIFACTORY_USERNAME" -PsmartThingsArtifactoryPassword="$ARTIFACTORY_PASSWORD"
test:
override:
- echo "We don't have any tests :-("
deployment:
develop:
branch: master
commands:
- ./gradlew deployArchives -PsmartThingsArtifactoryUserName="$ARTIFACTORY_USERNAME" -PsmartThingsArtifactoryPassword="$ARTIFACTORY_PASSWORD" -Ps3Buckets="$S3_BUCKETS_DEV"
- ./gradlew slackSendMessage -PsmartThingsArtifactoryUserName="$ARTIFACTORY_USERNAME" -PsmartThingsArtifactoryPassword="$ARTIFACTORY_PASSWORD" -Pbranch="$CIRCLE_BRANCH" -PslackToken="$SLACK_TOKEN" -PslackWebhookUrl="$SLACK_WEBHOOK_URL" -PslackChannel="$SLACK_CHANNEL" --stacktrace
stage:
branch: staging
commands:
- ./gradlew deployArchives -PsmartThingsArtifactoryUserName="$ARTIFACTORY_USERNAME" -PsmartThingsArtifactoryPassword="$ARTIFACTORY_PASSWORD" -Ps3Buckets="$S3_BUCKETS_STAGE"
- ./gradlew slackSendMessage -PsmartThingsArtifactoryUserName="$ARTIFACTORY_USERNAME" -PsmartThingsArtifactoryPassword="$ARTIFACTORY_PASSWORD" -Pbranch="$CIRCLE_BRANCH" -PslackToken="$SLACK_TOKEN" -PslackWebhookUrl="$SLACK_WEBHOOK_URL" -PslackChannel="$SLACK_CHANNEL" --stacktrace

107
devicetypes/com-obycode/beaconthing.src/beaconthing.groovy
View File

@@ -1,107 +0,0 @@
/**
* BeaconThing
*
* Copyright 2015 obycode
*
* Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except
* in compliance with the License. You may obtain a copy of the License at:
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software distributed under the License is distributed
* on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License
* for the specific language governing permissions and limitations under the License.
*
*/
import groovy.json.JsonSlurper
metadata {
definition (name: "BeaconThing", namespace: "com.obycode", author: "obycode") {
capability "Beacon"
capability "Presence Sensor"
capability "Sensor"
attribute "inRange", "json_object"
attribute "inRangeFriendly", "string"
command "setPresence", ["string"]
command "arrived", ["string"]
command "left", ["string"]
}
simulator {
status "present": "presence: 1"
status "not present": "presence: 0"
}
tiles {
standardTile("presence", "device.presence", width: 2, height: 2, canChangeBackground: true) {
state("present", labelIcon:"st.presence.tile.present", backgroundColor:"#53a7c0")
state("not present", labelIcon:"st.presence.tile.not-present", backgroundColor:"#ffffff")
}
valueTile("inRange", "device.inRangeFriendly", inactiveLabel: true, height:1, width:3, decoration: "flat") {
state "default", label:'${currentValue}', backgroundColor:"#ffffff"
}
main "presence"
details (["presence","inRange"])
}
}
// parse events into attributes
def parse(String description) {
log.debug "Parsing '${description}'"
}
def installed() {
sendEvent(name: "presence", value: "not present")
def emptyList = []
def json = new groovy.json.JsonBuilder(emptyList)
sendEvent(name:"inRange", value:json.toString())
}
def setPresence(status) {
log.debug "Status is $status"
sendEvent(name:"presence", value:status)
}
def arrived(id) {
log.debug "$id has arrived"
def theList = device.latestValue("inRange")
def inRangeList = new JsonSlurper().parseText(theList)
if (inRangeList.contains(id)) {
return
}
inRangeList += id
def json = new groovy.json.JsonBuilder(inRangeList)
log.debug "Now in range: ${json.toString()}"
sendEvent(name:"inRange", value:json.toString())
// Generate human friendly string for tile
def friendlyList = "Nearby: " + inRangeList.join(", ")
sendEvent(name:"inRangeFriendly", value:friendlyList)
if (inRangeList.size() == 1) {
setPresence("present")
}
}
def left(id) {
log.debug "$id has left"
def theList = device.latestValue("inRange")
def inRangeList = new JsonSlurper().parseText(theList)
inRangeList -= id
def json = new groovy.json.JsonBuilder(inRangeList)
log.debug "Now in range: ${json.toString()}"
sendEvent(name:"inRange", value:json.toString())
// Generate human friendly string for tile
def friendlyList = "Nearby: " + inRangeList.join(", ")
if (inRangeList.empty) {
setPresence("not present")
friendlyList = "No one is nearby"
}
sendEvent(name:"inRangeFriendly", value:friendlyList)
}

1
devicetypes/dianoga/netatmo-additional-module.src/netatmo-additional-module.groovy
View File

@@ -15,7 +15,6 @@
*/
metadata {
definition (name: "Netatmo Additional Module", namespace: "dianoga", author: "Brian Steere") {
capability "Sensor"
capability "Relative Humidity Measurement"
capability "Temperature Measurement"

1
devicetypes/dianoga/netatmo-basestation.src/netatmo-basestation.groovy
View File

@@ -15,7 +15,6 @@
*/
metadata {
definition (name: "Netatmo Basestation", namespace: "dianoga", author: "Brian Steere") {
capability "Sensor"
capability "Relative Humidity Measurement"
capability "Temperature Measurement"

1
devicetypes/dianoga/netatmo-outdoor-module.src/netatmo-outdoor-module.groovy
View File

@@ -15,7 +15,6 @@
*/
metadata {
definition (name: "Netatmo Outdoor Module", namespace: "dianoga", author: "Brian Steere") {
capability "Sensor"
capability "Relative Humidity Measurement"
capability "Temperature Measurement"
}

2
devicetypes/dianoga/netatmo-rain.src/netatmo-rain.groovy
View File

@@ -15,8 +15,6 @@
*/
metadata {
definition (name: "Netatmo Rain", namespace: "dianoga", author: "Brian Steere") {
capability "Sensor"
attribute "rain", "number"
attribute "rainSumHour", "number"
attribute "rainSumDay", "number"

104
devicetypes/encored-technologies/enertalk-energy-meter.src/enertalk-energy-meter.groovy
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@@ -1,104 +0,0 @@
/**
* EnerTalk Energy Meter
*
* Copyright 2015 hyeon seok yang
*
* Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except
* in compliance with the License. You may obtain a copy of the License at:
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software distributed under the License is distributed
* on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License
* for the specific language governing permissions and limitations under the License.
*
*/
metadata {
definition (name: "EnerTalk Energy Meter", namespace: "Encored Technologies", author: "hyeon seok yang") {
}
simulator {
// TODO: define status and reply messages here
}
tiles(scale:2) {
valueTile("view", "device.view", decoration: "flat") {
state "view", label:' ${currentValue} kWh'
}
valueTile("month", "device.month", width: 6, height : 3, decoration: "flat") {
state "month", label:' ${currentValue}'
}
valueTile("real", "device.real", width: 2, height : 2, decoration: "flat") {
state "real", label:' ${currentValue}'
}
valueTile("tier", "device.tier", width: 2, height : 2, decoration: "flat") {
state "tier", label:' ${currentValue}'
}
valueTile("plan", "device.plan", width: 2, height : 2, decoration: "flat") {
state "plan", label:' ${currentValue}'
}
htmlTile(name:"deepLink", action:"linkApp", whitelist:["code.jquery.com",
"ajax.googleapis.com",
"fonts.googleapis.com",
"code.highcharts.com",
"enertalk-card.encoredtech.com",
"s3-ap-northeast-1.amazonaws.com",
"s3.amazonaws.com",
"ui-hub.encoredtech.com",
"enertalk-auth.encoredtech.com",
"api.encoredtech.com",
"cdnjs.cloudflare.com",
"encoredtech.com",
"itunes.apple.com"], width:2, height:2){}
main (["view"])
details (["month", "real", "tier", "plan", "deepLink"])
}
}
mappings {
path("/linkApp") {action: [ GET: "getLinkedApp" ]}
}
def getLinkedApp() {
def lang = clientLocale?.language
if ("${lang}" == "ko") {
lang = "<p style=\'margin-left:15vw; color: #aeaeb0;\'>기기 설정</p>"
} else {
lang = "<p style=\'margin-left:5vw; color: #aeaeb0;\'>Setup Device</p>"
}
renderHTML() {
head {
"""
<meta name="viewport" content="initial-scale=1, maximum-scale=1, user-scalable=no, width=device-width, height=device-height">
<style>
#레이어_1 { margin-left : 17vw; width : 50vw; height : 50vw;}
.st0{fill:#B5B6BB;}
</style>
"""
}
body {
"""
<div id="container">
<a id="st-deep-link" href="#">
<svg version="1.1" id="레이어_1" xmlns="http://www.w3.org/2000/svg" xmlns:xlink="http://www.w3.org/1999/xlink" x="0px" y="0px" viewBox="0 0 40 40" style="enable-background:new 0 0 40 40;" xml:space="preserve"><path class="st0" d="M20,0C9,0,0,9,0,20C0,30.5,8,39,18.2,40l3.8-4.8l-3.9-4.8c-4.9-0.9-8.6-5.2-8.6-10.4c0-5.8,4.7-10.5,10.5-10.5
S30.5,14.2,30.5,20c0,5.1-3.7,9.4-8.5,10.3l3.7,4.5L21.8,40C32,39.1,40,30.5,40,20C40,9,31,0,20,0z"/></svg>
</a>
${lang}
</div>
<script src="https://ajax.googleapis.com/ajax/libs/jquery/1.11.3/jquery.min.js"></script>
<script>
var ua = navigator.userAgent.toLowerCase();
var isAndroid = ua.indexOf("android") > -1;
if(!isAndroid) {
\$("#st-deep-link").attr("href", "https://itunes.apple.com/kr/app/enertalk-for-home/id1024660780?mt=8");
} else {
\$("#st-deep-link").attr("href", "market://details?id=com.ionicframework.enertalkhome874425");
}
</script>
"""
}
}
}

272
devicetypes/fibargroup/fibaro-door-window-sensor-zw5-with-temperature.src/fibaro-door-window-sensor-zw5-with-temperature.groovy
View File

@@ -1,272 +0,0 @@
/**
* Fibaro Door/Window Sensor ZW5
*
* Copyright 2016 Fibar Group S.A.
*
* Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except
* in compliance with the License. You may obtain a copy of the License at:
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software distributed under the License is distributed
* on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License
* for the specific language governing permissions and limitations under the License.
*
*/
metadata {
definition (name: "Fibaro Door/Window Sensor ZW5 with Temperature", namespace: "fibargroup", author: "Fibar Group S.A.") {
capability "Battery"
capability "Contact Sensor"
capability "Sensor"
capability "Configuration"
capability "Tamper Alert"
capability "Temperature Measurement"
fingerprint deviceId: "0x0701", inClusters: "0x5E, 0x85, 0x59, 0x22, 0x20, 0x80, 0x70, 0x56, 0x5A, 0x7A, 0x72, 0x8E, 0x71, 0x73, 0x98, 0x2B, 0x9C, 0x30, 0x31, 0x86", outClusters: ""
fingerprint deviceId: "0x0701", inClusters: "0x5E, 0x85, 0x59, 0x22, 0x20, 0x80, 0x70, 0x56, 0x5A, 0x7A, 0x72, 0x8E, 0x71, 0x73, 0x98, 0x2B, 0x9C, 0x30, 0x31, 0x86, 0x84", outClusters: ""//actual NIF
}
simulator {
}
tiles(scale: 2) {
multiAttributeTile(name:"FGK", type:"lighting", width:6, height:4) {//with generic type secondary control text is not displayed in Android app
tileAttribute("device.contact", key:"PRIMARY_CONTROL") {
attributeState("open", icon:"st.contact.contact.open", backgroundColor:"#ffa81e")
attributeState("closed", icon:"st.contact.contact.closed", backgroundColor:"#79b821")
}
tileAttribute("device.tamper", key:"SECONDARY_CONTROL") {
attributeState("active", label:'tamper active', backgroundColor:"#53a7c0")
attributeState("inactive", label:'tamper inactive', backgroundColor:"#ffffff")
}
}
valueTile("battery", "device.battery", inactiveLabel: false, , width: 2, height: 2, decoration: "flat") {
state "battery", label:'${currentValue}% battery', unit:""
}
valueTile("temperature", "device.temperature", inactiveLabel: false, width: 2, height: 2) {
state "temperature", label:'${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"]
]
}
main "FGK"
details(["FGK","battery", "temperature"])
}
}
// parse events into attributes
def parse(String description) {
log.debug "Parsing '${description}'"
def result = []
if (description.startsWith("Err 106")) {
if (state.sec) {
result = createEvent(descriptionText:description, displayed:false)
} else {
result = createEvent(
descriptionText: "FGK failed to complete the network security key exchange. If you are unable to receive data from it, you must remove it from your network and add it again.",
eventType: "ALERT",
name: "secureInclusion",
value: "failed",
displayed: true,
)
}
} else if (description == "updated") {
return null
} else {
def cmd = zwave.parse(description, [0x31: 5, 0x56: 1, 0x71: 3, 0x72: 2, 0x80: 1, 0x84: 2, 0x85: 2, 0x86: 1, 0x98: 1])
if (cmd) {
log.debug "Parsed '${cmd}'"
zwaveEvent(cmd)
}
}
}
//security
def zwaveEvent(physicalgraph.zwave.commands.securityv1.SecurityMessageEncapsulation cmd) {
def encapsulatedCommand = cmd.encapsulatedCommand([0x71: 3, 0x84: 2, 0x85: 2, 0x98: 1])
if (encapsulatedCommand) {
return zwaveEvent(encapsulatedCommand)
} else {
log.warn "Unable to extract encapsulated cmd from $cmd"
createEvent(descriptionText: cmd.toString())
}
}
//crc16
def zwaveEvent(physicalgraph.zwave.commands.crc16encapv1.Crc16Encap cmd)
{
def versions = [0x31: 5, 0x72: 2, 0x80: 1, 0x86: 1]
def version = versions[cmd.commandClass as Integer]
def ccObj = version ? zwave.commandClass(cmd.commandClass, version) : zwave.commandClass(cmd.commandClass)
def encapsulatedCommand = ccObj?.command(cmd.command)?.parse(cmd.data)
if (!encapsulatedCommand) {
log.debug "Could not extract command from $cmd"
} else {
zwaveEvent(encapsulatedCommand)
}
}
def zwaveEvent(physicalgraph.zwave.commands.notificationv3.NotificationReport cmd) {
//it is assumed that default notification events are used
//(parameter 20 was not changed before device's re-inclusion)
def map = [:]
if (cmd.notificationType == 6) {
switch (cmd.event) {
case 22:
map.name = "contact"
map.value = "open"
map.descriptionText = "${device.displayName}: is open"
break
case 23:
map.name = "contact"
map.value = "closed"
map.descriptionText = "${device.displayName}: is closed"
break
}
} else if (cmd.notificationType == 7) {
switch (cmd.event) {
case 0:
map.name = "tamper"
map.value = "inactive"
map.descriptionText = "${device.displayName}: tamper alarm has been deactivated"
break
case 3:
map.name = "tamper"
map.value = "active"
map.descriptionText = "${device.displayName}: tamper alarm activated"
break
}
}
createEvent(map)
}
def zwaveEvent(physicalgraph.zwave.commands.batteryv1.BatteryReport cmd) {
def map = [:]
map.name = "battery"
map.value = cmd.batteryLevel == 255 ? 1 : cmd.batteryLevel.toString()
map.unit = "%"
map.displayed = true
createEvent(map)
}
def zwaveEvent(physicalgraph.zwave.commands.wakeupv2.WakeUpNotification cmd) {
def event = createEvent(descriptionText: "${device.displayName} woke up", displayed: false)
def cmds = []
cmds << encap(zwave.batteryV1.batteryGet())
cmds << "delay 500"
cmds << encap(zwave.sensorMultilevelV5.sensorMultilevelGet(sensorType: 1, scale: 0))
cmds << "delay 1200"
cmds << encap(zwave.wakeUpV1.wakeUpNoMoreInformation())
[event, response(cmds)]
}
def zwaveEvent(physicalgraph.zwave.commands.manufacturerspecificv2.ManufacturerSpecificReport cmd) {
log.debug "manufacturerId: ${cmd.manufacturerId}"
log.debug "manufacturerName: ${cmd.manufacturerName}"
log.debug "productId: ${cmd.productId}"
log.debug "productTypeId: ${cmd.productTypeId}"
}
def zwaveEvent(physicalgraph.zwave.commands.manufacturerspecificv2.DeviceSpecificReport cmd) {
log.debug "deviceIdData: ${cmd.deviceIdData}"
log.debug "deviceIdDataFormat: ${cmd.deviceIdDataFormat}"
log.debug "deviceIdDataLengthIndicator: ${cmd.deviceIdDataLengthIndicator}"
log.debug "deviceIdType: ${cmd.deviceIdType}"
if (cmd.deviceIdType == 1 && cmd.deviceIdDataFormat == 1) {//serial number in binary format
String serialNumber = "h'"
cmd.deviceIdData.each{ data ->
serialNumber += "${String.format("%02X", data)}"
}
updateDataValue("serialNumber", serialNumber)
log.debug "${device.displayName} - serial number: ${serialNumber}"
}
}
def zwaveEvent(physicalgraph.zwave.commands.versionv1.VersionReport cmd) {
updateDataValue("version", "${cmd.applicationVersion}.${cmd.applicationSubVersion}")
log.debug "applicationVersion: ${cmd.applicationVersion}"
log.debug "applicationSubVersion: ${cmd.applicationSubVersion}"
log.debug "zWaveLibraryType: ${cmd.zWaveLibraryType}"
log.debug "zWaveProtocolVersion: ${cmd.zWaveProtocolVersion}"
log.debug "zWaveProtocolSubVersion: ${cmd.zWaveProtocolSubVersion}"
}
def zwaveEvent(physicalgraph.zwave.commands.sensormultilevelv5.SensorMultilevelReport cmd) {
def map = [:]
if (cmd.sensorType == 1) {
// temperature
def cmdScale = cmd.scale == 1 ? "F" : "C"
map.value = convertTemperatureIfNeeded(cmd.scaledSensorValue, cmdScale, cmd.precision)
map.unit = getTemperatureScale()
map.name = "temperature"
map.displayed = true
}
createEvent(map)
}
def zwaveEvent(physicalgraph.zwave.commands.deviceresetlocallyv1.DeviceResetLocallyNotification cmd) {
log.info "${device.displayName}: received command: $cmd - device has reset itself"
}
def configure() {
log.debug "Executing 'configure'"
def cmds = []
cmds += zwave.wakeUpV2.wakeUpIntervalSet(seconds:21600, nodeid: zwaveHubNodeId)//FGK's default wake up interval
cmds += zwave.manufacturerSpecificV2.manufacturerSpecificGet()
cmds += zwave.manufacturerSpecificV2.deviceSpecificGet()
cmds += zwave.versionV1.versionGet()
cmds += zwave.batteryV1.batteryGet()
cmds += zwave.sensorMultilevelV5.sensorMultilevelGet(sensorType: 1, scale: 0)
cmds += zwave.associationV2.associationSet(groupingIdentifier:1, nodeId: [zwaveHubNodeId])
cmds += zwave.wakeUpV2.wakeUpNoMoreInformation()
encapSequence(cmds, 500)
}
private secure(physicalgraph.zwave.Command cmd) {
zwave.securityV1.securityMessageEncapsulation().encapsulate(cmd).format()
}
private crc16(physicalgraph.zwave.Command cmd) {
//zwave.crc16EncapV1.crc16Encap().encapsulate(cmd).format()
"5601${cmd.format()}0000"
}
private encapSequence(commands, delay=200) {
delayBetween(commands.collect{ encap(it) }, delay)
}
private encap(physicalgraph.zwave.Command cmd) {
def secureClasses = [0x20, 0x2B, 0x30, 0x5A, 0x70, 0x71, 0x84, 0x85, 0x8E, 0x9C]
//todo: check if secure inclusion was successful
//if not do not send security-encapsulated command
if (secureClasses.find{ it == cmd.commandClassId }) {
secure(cmd)
} else {
crc16(cmd)
}
}

239
devicetypes/fibargroup/fibaro-door-window-sensor-zw5.src/fibaro-door-window-sensor-zw5.groovy
View File

@@ -1,239 +0,0 @@
/**
* Fibaro Door/Window Sensor ZW5
*
* Copyright 2016 Fibar Group S.A.
*
* Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except
* in compliance with the License. You may obtain a copy of the License at:
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software distributed under the License is distributed
* on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License
* for the specific language governing permissions and limitations under the License.
*
*/
metadata {
definition (name: "Fibaro Door/Window Sensor ZW5", namespace: "fibargroup", author: "Fibar Group S.A.") {
capability "Battery"
capability "Contact Sensor"
capability "Sensor"
capability "Configuration"
capability "Tamper Alert"
fingerprint deviceId: "0x0701", inClusters: "0x5E, 0x85, 0x59, 0x22, 0x20, 0x80, 0x70, 0x56, 0x5A, 0x7A, 0x72, 0x8E, 0x71, 0x73, 0x98, 0x2B, 0x9C, 0x30, 0x86, 0x84", outClusters: ""
}
simulator {
}
tiles(scale: 2) {
multiAttributeTile(name:"FGK", type:"lighting", width:6, height:4) {//with generic type secondary control text is not displayed in Android app
tileAttribute("device.contact", key:"PRIMARY_CONTROL") {
attributeState("open", icon:"st.contact.contact.open", backgroundColor:"#ffa81e")
attributeState("closed", icon:"st.contact.contact.closed", backgroundColor:"#79b821")
}
tileAttribute("device.tamper", key:"SECONDARY_CONTROL") {
attributeState("active", label:'tamper active', backgroundColor:"#53a7c0")
attributeState("inactive", label:'tamper inactive', backgroundColor:"#ffffff")
}
}
valueTile("battery", "device.battery", inactiveLabel: false, , width: 2, height: 2, decoration: "flat") {
state "battery", label:'${currentValue}% battery', unit:""
}
main "FGK"
details(["FGK","battery"])
}
}
// parse events into attributes
def parse(String description) {
log.debug "Parsing '${description}'"
def result = []
if (description.startsWith("Err 106")) {
if (state.sec) {
result = createEvent(descriptionText:description, displayed:false)
} else {
result = createEvent(
descriptionText: "FGK failed to complete the network security key exchange. If you are unable to receive data from it, you must remove it from your network and add it again.",
eventType: "ALERT",
name: "secureInclusion",
value: "failed",
displayed: true,
)
}
} else if (description == "updated") {
return null
} else {
def cmd = zwave.parse(description, [0x56: 1, 0x71: 3, 0x72: 2, 0x80: 1, 0x84: 2, 0x85: 2, 0x86: 1, 0x98: 1])
if (cmd) {
log.debug "Parsed '${cmd}'"
zwaveEvent(cmd)
}
}
}
//security
def zwaveEvent(physicalgraph.zwave.commands.securityv1.SecurityMessageEncapsulation cmd) {
def encapsulatedCommand = cmd.encapsulatedCommand([0x71: 3, 0x84: 2, 0x85: 2, 0x98: 1])
if (encapsulatedCommand) {
return zwaveEvent(encapsulatedCommand)
} else {
log.warn "Unable to extract encapsulated cmd from $cmd"
createEvent(descriptionText: cmd.toString())
}
}
//crc16
def zwaveEvent(physicalgraph.zwave.commands.crc16encapv1.Crc16Encap cmd)
{
def versions = [0x72: 2, 0x80: 1, 0x86: 1]
def version = versions[cmd.commandClass as Integer]
def ccObj = version ? zwave.commandClass(cmd.commandClass, version) : zwave.commandClass(cmd.commandClass)
def encapsulatedCommand = ccObj?.command(cmd.command)?.parse(cmd.data)
if (!encapsulatedCommand) {
log.debug "Could not extract command from $cmd"
} else {
zwaveEvent(encapsulatedCommand)
}
}
def zwaveEvent(physicalgraph.zwave.commands.notificationv3.NotificationReport cmd) {
//it is assumed that default notification events are used
//(parameter 20 was not changed before device's re-inclusion)
def map = [:]
if (cmd.notificationType == 6) {
switch (cmd.event) {
case 22:
map.name = "contact"
map.value = "open"
map.descriptionText = "${device.displayName}: is open"
break
case 23:
map.name = "contact"
map.value = "closed"
map.descriptionText = "${device.displayName}: is closed"
break
}
} else if (cmd.notificationType == 7) {
switch (cmd.event) {
case 0:
map.name = "tamper"
map.value = "inactive"
map.descriptionText = "${device.displayName}: tamper alarm has been deactivated"
break
case 3:
map.name = "tamper"
map.value = "active"
map.descriptionText = "${device.displayName}: tamper alarm activated"
break
}
}
createEvent(map)
}
def zwaveEvent(physicalgraph.zwave.commands.batteryv1.BatteryReport cmd) {
def map = [:]
map.name = "battery"
map.value = cmd.batteryLevel == 255 ? 1 : cmd.batteryLevel.toString()
map.unit = "%"
map.displayed = true
createEvent(map)
}
def zwaveEvent(physicalgraph.zwave.commands.wakeupv2.WakeUpNotification cmd) {
def event = createEvent(descriptionText: "${device.displayName} woke up", displayed: false)
def cmds = []
cmds << encap(zwave.batteryV1.batteryGet())
cmds << "delay 1200"
cmds << encap(zwave.wakeUpV1.wakeUpNoMoreInformation())
[event, response(cmds)]
}
def zwaveEvent(physicalgraph.zwave.commands.manufacturerspecificv2.ManufacturerSpecificReport cmd) {
log.debug "manufacturerId: ${cmd.manufacturerId}"
log.debug "manufacturerName: ${cmd.manufacturerName}"
log.debug "productId: ${cmd.productId}"
log.debug "productTypeId: ${cmd.productTypeId}"
}
def zwaveEvent(physicalgraph.zwave.commands.manufacturerspecificv2.DeviceSpecificReport cmd) {
log.debug "deviceIdData: ${cmd.deviceIdData}"
log.debug "deviceIdDataFormat: ${cmd.deviceIdDataFormat}"
log.debug "deviceIdDataLengthIndicator: ${cmd.deviceIdDataLengthIndicator}"
log.debug "deviceIdType: ${cmd.deviceIdType}"
if (cmd.deviceIdType == 1 && cmd.deviceIdDataFormat == 1) {//serial number in binary format
String serialNumber = "h'"
cmd.deviceIdData.each{ data ->
serialNumber += "${String.format("%02X", data)}"
}
updateDataValue("serialNumber", serialNumber)
log.debug "${device.displayName} - serial number: ${serialNumber}"
}
}
def zwaveEvent(physicalgraph.zwave.commands.versionv1.VersionReport cmd) {
updateDataValue("version", "${cmd.applicationVersion}.${cmd.applicationSubVersion}")
log.debug "applicationVersion: ${cmd.applicationVersion}"
log.debug "applicationSubVersion: ${cmd.applicationSubVersion}"
log.debug "zWaveLibraryType: ${cmd.zWaveLibraryType}"
log.debug "zWaveProtocolVersion: ${cmd.zWaveProtocolVersion}"
log.debug "zWaveProtocolSubVersion: ${cmd.zWaveProtocolSubVersion}"
}
def zwaveEvent(physicalgraph.zwave.commands.deviceresetlocallyv1.DeviceResetLocallyNotification cmd) {
log.info "${device.displayName}: received command: $cmd - device has reset itself"
}
def configure() {
log.debug "Executing 'configure'"
def cmds = []
cmds += zwave.wakeUpV2.wakeUpIntervalSet(seconds:21600, nodeid: zwaveHubNodeId)//FGK's default wake up interval
cmds += zwave.manufacturerSpecificV2.manufacturerSpecificGet()
cmds += zwave.manufacturerSpecificV2.deviceSpecificGet()
cmds += zwave.versionV1.versionGet()
cmds += zwave.batteryV1.batteryGet()
cmds += zwave.associationV2.associationSet(groupingIdentifier:1, nodeId: [zwaveHubNodeId])
cmds += zwave.wakeUpV2.wakeUpNoMoreInformation()
encapSequence(cmds, 500)
}
private secure(physicalgraph.zwave.Command cmd) {
zwave.securityV1.securityMessageEncapsulation().encapsulate(cmd).format()
}
private crc16(physicalgraph.zwave.Command cmd) {
//zwave.crc16EncapV1.crc16Encap().encapsulate(cmd).format()
"5601${cmd.format()}0000"
}
private encapSequence(commands, delay=200) {
delayBetween(commands.collect{ encap(it) }, delay)
}
private encap(physicalgraph.zwave.Command cmd) {
def secureClasses = [0x20, 0x2B, 0x30, 0x5A, 0x70, 0x71, 0x84, 0x85, 0x8E, 0x9C]
//todo: check if secure inclusion was successful
//if not do not send security-encapsulated command
if (secureClasses.find{ it == cmd.commandClassId }) {
secure(cmd)
} else {
crc16(cmd)
}
}

269
devicetypes/fibargroup/fibaro-flood-sensor-zw5.src/fibaro-flood-sensor-zw5.groovy
View File

@@ -1,269 +0,0 @@
/**
* Fibaro Flood Sensor ZW5
*
* Copyright 2016 Fibar Group S.A.
*
* Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except
* in compliance with the License. You may obtain a copy of the License at:
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software distributed under the License is distributed
* on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License
* for the specific language governing permissions and limitations under the License.
*
*/
metadata {
definition (name: "Fibaro Flood Sensor ZW5", namespace: "fibargroup", author: "Fibar Group S.A.") {
capability "Battery"
capability "Configuration"
capability "Sensor"
capability "Tamper Alert"
capability "Temperature Measurement"
capability "Water Sensor"
fingerprint deviceId: "0x0701", inClusters: "0x5E, 0x22, 0x85, 0x59, 0x20, 0x80, 0x70, 0x56, 0x5A, 0x7A, 0x72, 0x8E, 0x71, 0x73, 0x98, 0x9C, 0x31, 0x86", outClusters: ""
}
simulator {
}
tiles(scale: 2) {
multiAttributeTile(name:"FGFS", type:"lighting", width:6, height:4) {//with generic type secondary control text is not displayed in Android app
tileAttribute("device.water", key:"PRIMARY_CONTROL") {
attributeState("dry", icon:"st.alarm.water.dry", backgroundColor:"#79b821")
attributeState("wet", icon:"st.alarm.water.wet", backgroundColor:"#ffa81e")
}
tileAttribute("device.tamper", key:"SECONDARY_CONTROL") {
attributeState("active", label:'tamper active', backgroundColor:"#53a7c0")
attributeState("inactive", label:'tamper inactive', backgroundColor:"#ffffff")
}
}
valueTile("temperature", "device.temperature", inactiveLabel: false, width: 2, height: 2) {
state "temperature", label:'${currentValue}°',
backgroundColors:[
[value: 31, color: "#153591"],
[value: 44, color: "#1e9cbb"],
[value: 59, color: "#90d2a7"],
[value: 74, color: "#44b621"],
[value: 84, color: "#f1d801"],
[value: 95, color: "#d04e00"],
[value: 96, color: "#bc2323"]
]
}
valueTile("battery", "device.battery", inactiveLabel: false, decoration: "flat", width: 2, height: 2) {
state "battery", label:'${currentValue}% battery', unit:""
}
main "FGFS"
details(["FGFS","battery", "temperature"])
}
}
// parse events into attributes
def parse(String description) {
log.debug "Parsing '${description}'"
def result = []
if (description.startsWith("Err 106")) {
if (state.sec) {
result = createEvent(descriptionText:description, displayed:false)
} else {
result = createEvent(
descriptionText: "FGFS failed to complete the network security key exchange. If you are unable to receive data from it, you must remove it from your network and add it again.",
eventType: "ALERT",
name: "secureInclusion",
value: "failed",
displayed: true,
)
}
} else if (description == "updated") {
return null
} else {
def cmd = zwave.parse(description, [0x31: 5, 0x56: 1, 0x71: 3, 0x72:2, 0x80: 1, 0x84: 2, 0x85: 2, 0x86: 1, 0x98: 1])
if (cmd) {
log.debug "Parsed '${cmd}'"
zwaveEvent(cmd)
}
}
}
//security
def zwaveEvent(physicalgraph.zwave.commands.securityv1.SecurityMessageEncapsulation cmd) {
def encapsulatedCommand = cmd.encapsulatedCommand([0x71: 3, 0x84: 2, 0x85: 2, 0x86: 1, 0x98: 1])
if (encapsulatedCommand) {
return zwaveEvent(encapsulatedCommand)
} else {
log.warn "Unable to extract encapsulated cmd from $cmd"
createEvent(descriptionText: cmd.toString())
}
}
//crc16
def zwaveEvent(physicalgraph.zwave.commands.crc16encapv1.Crc16Encap cmd)
{
def versions = [0x31: 5, 0x72: 2, 0x80: 1]
def version = versions[cmd.commandClass as Integer]
def ccObj = version ? zwave.commandClass(cmd.commandClass, version) : zwave.commandClass(cmd.commandClass)
def encapsulatedCommand = ccObj?.command(cmd.command)?.parse(cmd.data)
if (!encapsulatedCommand) {
log.debug "Could not extract command from $cmd"
} else {
zwaveEvent(encapsulatedCommand)
}
}
def zwaveEvent(physicalgraph.zwave.commands.wakeupv2.WakeUpNotification cmd)
{
def event = createEvent(descriptionText: "${device.displayName} woke up", displayed: false)
def cmds = []
cmds << encap(zwave.batteryV1.batteryGet())
cmds << "delay 500"
cmds << encap(zwave.sensorMultilevelV5.sensorMultilevelGet(sensorType: 1, scale: 0))
cmds << "delay 1200"
cmds << encap(zwave.wakeUpV1.wakeUpNoMoreInformation())
[event, response(cmds)]
}
def zwaveEvent(physicalgraph.zwave.commands.manufacturerspecificv2.ManufacturerSpecificReport cmd) {
log.debug "manufacturerId: ${cmd.manufacturerId}"
log.debug "manufacturerName: ${cmd.manufacturerName}"
log.debug "productId: ${cmd.productId}"
log.debug "productTypeId: ${cmd.productTypeId}"
}
def zwaveEvent(physicalgraph.zwave.commands.manufacturerspecificv2.DeviceSpecificReport cmd) {
log.debug "deviceIdData: ${cmd.deviceIdData}"
log.debug "deviceIdDataFormat: ${cmd.deviceIdDataFormat}"
log.debug "deviceIdDataLengthIndicator: ${cmd.deviceIdDataLengthIndicator}"
log.debug "deviceIdType: ${cmd.deviceIdType}"
if (cmd.deviceIdType == 1 && cmd.deviceIdDataFormat == 1) {//serial number in binary format
String serialNumber = "h'"
cmd.deviceIdData.each{ data ->
serialNumber += "${String.format("%02X", data)}"
}
updateDataValue("serialNumber", serialNumber)
log.debug "${device.displayName} - serial number: ${serialNumber}"
}
}
def zwaveEvent(physicalgraph.zwave.commands.versionv1.VersionReport cmd) {
updateDataValue("version", "${cmd.applicationVersion}.${cmd.applicationSubVersion}")
log.debug "applicationVersion: ${cmd.applicationVersion}"
log.debug "applicationSubVersion: ${cmd.applicationSubVersion}"
log.debug "zWaveLibraryType: ${cmd.zWaveLibraryType}"
log.debug "zWaveProtocolVersion: ${cmd.zWaveProtocolVersion}"
log.debug "zWaveProtocolSubVersion: ${cmd.zWaveProtocolSubVersion}"
}
def zwaveEvent(physicalgraph.zwave.commands.batteryv1.BatteryReport cmd) {
def map = [:]
map.name = "battery"
map.value = cmd.batteryLevel == 255 ? 1 : cmd.batteryLevel.toString()
map.unit = "%"
map.displayed = true
createEvent(map)
}
def zwaveEvent(physicalgraph.zwave.commands.notificationv3.NotificationReport cmd) {
def map = [:]
if (cmd.notificationType == 5) {
switch (cmd.event) {
case 2:
map.name = "water"
map.value = "wet"
map.descriptionText = "${device.displayName} is ${map.value}"
break
case 0:
map.name = "water"
map.value = "dry"
map.descriptionText = "${device.displayName} is ${map.value}"
break
}
} else if (cmd.notificationType == 7) {
switch (cmd.event) {
case 0:
map.name = "tamper"
map.value = "inactive"
map.descriptionText = "${device.displayName}: tamper alarm has been deactivated"
break
case 3:
map.name = "tamper"
map.value = "active"
map.descriptionText = "${device.displayName}: tamper alarm activated"
break
}
}
createEvent(map)
}
def zwaveEvent(physicalgraph.zwave.commands.sensormultilevelv5.SensorMultilevelReport cmd) {
def map = [:]
if (cmd.sensorType == 1) {
// temperature
def cmdScale = cmd.scale == 1 ? "F" : "C"
map.value = convertTemperatureIfNeeded(cmd.scaledSensorValue, cmdScale, cmd.precision)
map.unit = getTemperatureScale()
map.name = "temperature"
map.displayed = true
}
createEvent(map)
}
def zwaveEvent(physicalgraph.zwave.commands.deviceresetlocallyv1.DeviceResetLocallyNotification cmd) {
log.info "${device.displayName}: received command: $cmd - device has reset itself"
}
def configure() {
log.debug "Executing 'configure'"
def cmds = []
cmds += zwave.wakeUpV2.wakeUpIntervalSet(seconds:21600, nodeid: zwaveHubNodeId)//FGFS' default wake up interval
cmds += zwave.manufacturerSpecificV2.manufacturerSpecificGet()
cmds += zwave.manufacturerSpecificV2.deviceSpecificGet()
cmds += zwave.versionV1.versionGet()
cmds += zwave.batteryV1.batteryGet()
cmds += zwave.sensorMultilevelV5.sensorMultilevelGet(sensorType: 1, scale: 0)
cmds += zwave.associationV2.associationSet(groupingIdentifier:1, nodeId: [zwaveHubNodeId])
cmds += zwave.wakeUpV2.wakeUpNoMoreInformation()
encapSequence(cmds, 500)
}
private secure(physicalgraph.zwave.Command cmd) {
zwave.securityV1.securityMessageEncapsulation().encapsulate(cmd).format()
}
private crc16(physicalgraph.zwave.Command cmd) {
//zwave.crc16EncapV1.crc16Encap().encapsulate(cmd).format()
"5601${cmd.format()}0000"
}
private encapSequence(commands, delay=200) {
delayBetween(commands.collect{ encap(it) }, delay)
}
private encap(physicalgraph.zwave.Command cmd) {
def secureClasses = [0x20, 0x5A, 0x70, 0x71, 0x84, 0x85, 0x8E, 0x9C]
//todo: check if secure inclusion was successful
//if not do not send security-encapsulated command
if (secureClasses.find{ it == cmd.commandClassId }) {
secure(cmd)
} else {
crc16(cmd)
}
}

282
devicetypes/fibargroup/fibaro-motion-sensor-zw5.src/fibaro-motion-sensor-zw5.groovy
View File

@@ -1,282 +0,0 @@
/**
* Fibaro Motion Sensor ZW5
*
* Copyright 2016 Fibar Group S.A.
*
* Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except
* in compliance with the License. You may obtain a copy of the License at:
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software distributed under the License is distributed
* on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License
* for the specific language governing permissions and limitations under the License.
*
*/
metadata {
definition (name: "Fibaro Motion Sensor ZW5", namespace: "fibargroup", author: "Fibar Group S.A.") {
capability "Battery"
capability "Configuration"
capability "Illuminance Measurement"
capability "Motion Sensor"
capability "Sensor"
capability "Tamper Alert"
capability "Temperature Measurement"
fingerprint deviceId: "0x0701", inClusters: "0x5E, 0x20, 0x86, 0x72, 0x5A, 0x59, 0x85, 0x73, 0x84, 0x80, 0x71, 0x56, 0x70, 0x31, 0x8E, 0x22, 0x30, 0x9C, 0x98, 0x7A", outClusters: ""
}
simulator {
}
tiles(scale: 2) {
multiAttributeTile(name:"FGMS", type:"lighting", width:6, height:4) {//with generic type secondary control text is not displayed in Android app
tileAttribute("device.motion", key:"PRIMARY_CONTROL") {
attributeState("inactive", label:"no motion", icon:"st.motion.motion.inactive", backgroundColor:"#79b821")
attributeState("active", label:"motion", icon:"st.motion.motion.active", backgroundColor:"#ffa81e")
}
tileAttribute("device.tamper", key:"SECONDARY_CONTROL") {
attributeState("active", label:'tamper active', backgroundColor:"#53a7c0")
attributeState("inactive", label:'tamper inactive', backgroundColor:"#ffffff")
}
}
valueTile("temperature", "device.temperature", inactiveLabel: false, width: 2, height: 2) {
state "temperature", label:'${currentValue}°',
backgroundColors:[
[value: 31, color: "#153591"],
[value: 44, color: "#1e9cbb"],
[value: 59, color: "#90d2a7"],
[value: 74, color: "#44b621"],
[value: 84, color: "#f1d801"],
[value: 95, color: "#d04e00"],
[value: 96, color: "#bc2323"]
]
}
valueTile("illuminance", "device.illuminance", inactiveLabel: false, width: 2, height: 2) {
state "luminosity", label:'${currentValue} ${unit}', unit:"lux"
}
valueTile("battery", "device.battery", inactiveLabel: false, width: 2, height: 2, decoration: "flat") {
state "battery", label:'${currentValue}% battery', unit:""
}
main "FGMS"
details(["FGMS","battery","temperature","illuminance"])
}
}
// parse events into attributes
def parse(String description) {
log.debug "Parsing '${description}'"
def result = []
if (description.startsWith("Err 106")) {
if (state.sec) {
result = createEvent(descriptionText:description, displayed:false)
} else {
result = createEvent(
descriptionText: "FGK failed to complete the network security key exchange. If you are unable to receive data from it, you must remove it from your network and add it again.",
eventType: "ALERT",
name: "secureInclusion",
value: "failed",
displayed: true,
)
}
} else if (description == "updated") {
return null
} else {
def cmd = zwave.parse(description, [0x31: 5, 0x56: 1, 0x71: 3, 0x72: 2, 0x80: 1, 0x84: 2, 0x85: 2, 0x86: 1, 0x98: 1])
if (cmd) {
log.debug "Parsed '${cmd}'"
zwaveEvent(cmd)
}
}
}
//security
def zwaveEvent(physicalgraph.zwave.commands.securityv1.SecurityMessageEncapsulation cmd) {
def encapsulatedCommand = cmd.encapsulatedCommand([0x71: 3, 0x84: 2, 0x85: 2, 0x86: 1, 0x98: 1])
if (encapsulatedCommand) {
return zwaveEvent(encapsulatedCommand)
} else {
log.warn "Unable to extract encapsulated cmd from $cmd"
createEvent(descriptionText: cmd.toString())
}
}
//crc16
def zwaveEvent(physicalgraph.zwave.commands.crc16encapv1.Crc16Encap cmd)
{
def versions = [0x31: 5, 0x71: 3, 0x72: 2, 0x80: 1, 0x84: 2, 0x85: 2, 0x86: 1]
def version = versions[cmd.commandClass as Integer]
def ccObj = version ? zwave.commandClass(cmd.commandClass, version) : zwave.commandClass(cmd.commandClass)
def encapsulatedCommand = ccObj?.command(cmd.command)?.parse(cmd.data)
if (!encapsulatedCommand) {
log.debug "Could not extract command from $cmd"
} else {
zwaveEvent(encapsulatedCommand)
}
}
def zwaveEvent(physicalgraph.zwave.commands.sensormultilevelv5.SensorMultilevelReport cmd) {
def map = [ displayed: true ]
switch (cmd.sensorType) {
case 1:
def cmdScale = cmd.scale == 1 ? "F" : "C"
map.name = "temperature"
map.unit = getTemperatureScale()
map.value = convertTemperatureIfNeeded(cmd.scaledSensorValue, cmdScale, cmd.precision)
break
case 3:
map.name = "illuminance"
map.value = cmd.scaledSensorValue.toInteger().toString()
map.unit = "lux"
break
}
createEvent(map)
}
def zwaveEvent(physicalgraph.zwave.commands.notificationv3.NotificationReport cmd) {
def map = [:]
if (cmd.notificationType == 7) {
switch (cmd.event) {
case 0:
if (cmd.eventParameter[0] == 3) {
map.name = "tamper"
map.value = "inactive"
map.descriptionText = "${device.displayName}: tamper alarm has been deactivated"
}
if (cmd.eventParameter[0] == 8) {
map.name = "motion"
map.value = "inactive"
map.descriptionText = "${device.displayName}: motion has stopped"
}
break
case 3:
map.name = "tamper"
map.value = "active"
map.descriptionText = "${device.displayName}: tamper alarm activated"
break
case 8:
map.name = "motion"
map.value = "active"
map.descriptionText = "${device.displayName}: motion detected"
break
}
}
createEvent(map)
}
def zwaveEvent(physicalgraph.zwave.commands.batteryv1.BatteryReport cmd) {
def map = [:]
map.name = "battery"
map.value = cmd.batteryLevel == 255 ? 1 : cmd.batteryLevel.toString()
map.unit = "%"
map.displayed = true
createEvent(map)
}
def zwaveEvent(physicalgraph.zwave.commands.wakeupv2.WakeUpNotification cmd)
{
def event = createEvent(descriptionText: "${device.displayName} woke up", displayed: false)
def cmds = []
cmds << encap(zwave.batteryV1.batteryGet())
cmds << "delay 500"
cmds << encap(zwave.sensorMultilevelV5.sensorMultilevelGet(sensorType: 1, scale: 0))
cmds << "delay 500"
cmds << encap(zwave.sensorMultilevelV5.sensorMultilevelGet(sensorType: 3, scale: 1))
cmds << "delay 1200"
cmds << encap(zwave.wakeUpV1.wakeUpNoMoreInformation())
[event, response(cmds)]
}
def zwaveEvent(physicalgraph.zwave.commands.manufacturerspecificv2.ManufacturerSpecificReport cmd) {
log.debug "manufacturerId: ${cmd.manufacturerId}"
log.debug "manufacturerName: ${cmd.manufacturerName}"
log.debug "productId: ${cmd.productId}"
log.debug "productTypeId: ${cmd.productTypeId}"
}
def zwaveEvent(physicalgraph.zwave.commands.manufacturerspecificv2.DeviceSpecificReport cmd) {
log.debug "deviceIdData: ${cmd.deviceIdData}"
log.debug "deviceIdDataFormat: ${cmd.deviceIdDataFormat}"
log.debug "deviceIdDataLengthIndicator: ${cmd.deviceIdDataLengthIndicator}"
log.debug "deviceIdType: ${cmd.deviceIdType}"
if (cmd.deviceIdType == 1 && cmd.deviceIdDataFormat == 1) {//serial number in binary format
String serialNumber = "h'"
cmd.deviceIdData.each{ data ->
serialNumber += "${String.format("%02X", data)}"
}
updateDataValue("serialNumber", serialNumber)
log.debug "${device.displayName} - serial number: ${serialNumber}"
}
}
def zwaveEvent(physicalgraph.zwave.commands.versionv1.VersionReport cmd) {
updateDataValue("version", "${cmd.applicationVersion}.${cmd.applicationSubVersion}")
log.debug "applicationVersion: ${cmd.applicationVersion}"
log.debug "applicationSubVersion: ${cmd.applicationSubVersion}"
log.debug "zWaveLibraryType: ${cmd.zWaveLibraryType}"
log.debug "zWaveProtocolVersion: ${cmd.zWaveProtocolVersion}"
log.debug "zWaveProtocolSubVersion: ${cmd.zWaveProtocolSubVersion}"
}
def zwaveEvent(physicalgraph.zwave.commands.deviceresetlocallyv1.DeviceResetLocallyNotification cmd) {
log.info "${device.displayName}: received command: $cmd - device has reset itself"
}
def configure() {
log.debug "Executing 'configure'"
def cmds = []
cmds += zwave.wakeUpV2.wakeUpIntervalSet(seconds: 7200, nodeid: zwaveHubNodeId)//FGMS' default wake up interval
cmds += zwave.manufacturerSpecificV2.manufacturerSpecificGet()
cmds += zwave.manufacturerSpecificV2.deviceSpecificGet()
cmds += zwave.versionV1.versionGet()
cmds += zwave.associationV2.associationSet(groupingIdentifier:1, nodeId:[zwaveHubNodeId])
cmds += zwave.batteryV1.batteryGet()
cmds += zwave.sensorMultilevelV5.sensorMultilevelGet(sensorType: 1, scale: 0)
cmds += zwave.sensorMultilevelV5.sensorMultilevelGet(sensorType: 3, scale: 1)
cmds += zwave.wakeUpV2.wakeUpNoMoreInformation()
encapSequence(cmds, 500)
}
private secure(physicalgraph.zwave.Command cmd) {
zwave.securityV1.securityMessageEncapsulation().encapsulate(cmd).format()
}
private crc16(physicalgraph.zwave.Command cmd) {
//zwave.crc16encapV1.crc16Encap().encapsulate(cmd).format()
"5601${cmd.format()}0000"
}
private encapSequence(commands, delay=200) {
delayBetween(commands.collect{ encap(it) }, delay)
}
private encap(physicalgraph.zwave.Command cmd) {
def secureClasses = [0x20, 0x30, 0x5A, 0x70, 0x71, 0x84, 0x85, 0x8E, 0x9C]
//todo: check if secure inclusion was successful
//if not do not send security-encapsulated command
if (secureClasses.find{ it == cmd.commandClassId }) {
secure(cmd)
} else {
crc16(cmd)
}
}

795
devicetypes/johnrucker/coopboss-h3vx.src/coopboss-h3vx.groovy
View File

@@ -1,795 +0,0 @@
/**
* CoopBoss H3Vx
* 02/29/16 Fixed app crash with Android by changing the syntax of default state in tile definition.
* Fixed null value errors during join process. Added 3 new commands to refresh data.
*
* 01/18/16 Masked invalid temperature reporting when TempProbe1 is below 0C
* Added setBaseCurrentNE, readBaseCurrentNE, commands as well as baseCurrentNE attribute.
*
* Copyright 2016 John Rucker
*
* Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except
* in compliance with the License. You may obtain a copy of the License at:
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software distributed under the License is distributed
* on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License
* for the specific language governing permissions and limitations under the License.
* Icon location = http://scripts.3dgo.net/smartthings/icons/
*/
metadata {
definition (name: "CoopBoss H3Vx", namespace: "JohnRucker", author: "John.Rucker@Solar-Current.com") {
capability "Refresh"
capability "Polling"
capability "Sensor"
capability "Actuator"
capability "Configuration"
capability "Temperature Measurement"
capability "Door Control"
capability "Switch"
command "closeDoor"
command "closeDoorHiI"
command "openDoor"
command "autoCloseOn"
command "autoCloseOff"
command "autoOpenOn"
command "autoOpenOff"
command "setCloseLevelTo"
command "setOpenLevelTo"
command "setSensitivityLevel"
command "Aux1On"
command "Aux1Off"
command "Aux2On"
command "Aux2Off"
command "updateTemp1"
command "updateTemp2"
command "updateSun"
command "setNewBaseCurrent"
command "setNewPhotoCalibration"
command "readNewPhotoCalibration"
command "readBaseCurrentNE"
command "setBaseCurrentNE"
command "updateSensitivity"
command "updateCloseLightLevel"
command "updateOpenLightLevel"
attribute "doorState","string"
attribute "currentLightLevel","number"
attribute "closeLightLevel","number"
attribute "openLightLevel","number"
attribute "autoCloseEnable","string"
attribute "autoOpenEnable","string"
attribute "TempProb1","number"
attribute "TempProb2","number"
attribute "dayOrNight","string"
attribute "doorSensitivity","number"
attribute "doorCurrent","number"
attribute "doorVoltage","number"
attribute "Aux1","string"
attribute "Aux2","string"
attribute "coopStatus","string"
attribute "baseDoorCurrent","number"
attribute "photoCalibration","number"
attribute "baseCurrentNE","string"
fingerprint profileId: "0104", inClusters: "0000,0101,0402", manufacturer: "Solar-Current", model: "Coop Boss"
}
// simulator metadata
simulator {
}
preferences {
input 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 "tempOffsetCoop", "number", title: "Coop Temperature Offset", description: "Adjust temperature by this many degrees", range: "*..*", displayDuringSetup: false
input "tempOffsetOutside", "number", title: "Outside Temperature Offset", description: "Adjust temperature by this many degrees", range: "*..*", displayDuringSetup: false
}
// UI tile definitions
tiles(scale: 2){
multiAttributeTile(name:"doorCtrl", type:"generic", width:6, height:4) {tileAttribute("device.doorState", key: "PRIMARY_CONTROL")
{
attributeState "unknown", label: '${name}', action:"openDoor", icon: "st.Outdoor.outdoor20", nextState:"Sent"
attributeState "open", label: '${name}', action:"closeDoor", icon: "st.Outdoor.outdoor20", backgroundColor: "#0000ff" , nextState:"Sent"
attributeState "opening", label: '${name}', action:"closeDoor", icon: "st.Outdoor.outdoor20", backgroundColor: "#ffa81e"
attributeState "closed", label: '${name}', action:"openDoor", icon: "st.Outdoor.outdoor20", backgroundColor: "#79b821", nextState:"Sent"
attributeState "closing", label: '${name}', action:"openDoor", icon: "st.Outdoor.outdoor20", backgroundColor: "#ffa81e"
attributeState "jammed", label: '${name}', action:"closeDoorHiI", icon: "st.Outdoor.outdoor20", backgroundColor: "#ff0000", nextState:"Sent"
attributeState "forced close", label: 'forced\rclose', action:"openDoor", icon: "st.Outdoor.outdoor20", backgroundColor: "#ff8000", nextState:"Sent"
attributeState "fault", label: 'FAULT', action:"openDoor", icon: "st.Outdoor.outdoor20", backgroundColor: "#ff0000", nextState:"Sent"
attributeState "Sent", label: 'wait', icon: "st.motion.motion.active", backgroundColor: "#ffa81e"
}
tileAttribute ("device.coopStatus", key: "SECONDARY_CONTROL") {
attributeState "device.coopStatus", label:'${currentValue}'
}
}
multiAttributeTile(name:"dtlsDoorCtrl", type:"generic", width:6, height:4) {tileAttribute("device.doorState", key: "PRIMARY_CONTROL")
{
attributeState "unknown", label: '${name}', action:"openDoor", icon: "st.secondary.tools", nextState:"Sent"
attributeState "open", label: '${name}', action:"closeDoor", icon: "st.doors.garage.garage-open", backgroundColor: "#0000ff", nextState:"Sent"
attributeState "opening", label: '${name}', action:"closeDoor", icon: "st.doors.garage.garage-opening", backgroundColor: "#ffa81e"
attributeState "closed", label: '${name}', action:"openDoor", icon: "st.doors.garage.garage-closed", backgroundColor: "#79b821", nextState:"Sent"
attributeState "closing", label: '${name}', action:"openDoor", icon: "st.doors.garage.garage-closing", backgroundColor: "#ffa81e"
attributeState "jammed", label: '${name}', action:"closeDoorHiI", icon: "st.doors.garage.garage-open", backgroundColor: "#ff0000", nextState:"Sent"
attributeState "forced close", label: "forced", action:"openDoor", icon: "st.doors.garage.garage-closed", backgroundColor: "#ff8000", nextState:"Sent"
attributeState "fault", label: 'FAULT', action:"openDoor", icon: "st.secondary.tools", backgroundColor: "#ff0000", nextState:"Sent"
attributeState "Sent", label: 'wait', icon: "st.motion.motion.active", backgroundColor: "#ffa81e"
}
tileAttribute ("device.doorState", key: "SECONDARY_CONTROL") {
attributeState "unknown", label: 'Door is in unknown state. Push to open.'
attributeState "open", label: 'Coop door is open. Push to close.'
attributeState "opening", label: 'Caution, door is opening!'
attributeState "closed", label: 'Coop door is closed. Push to open.'
attributeState "closing", label: 'Caution, door is closing!'
attributeState "jammed", label: 'Door open! Push for high-force close'
attributeState "forced close", label: "Door is closed. Push to open."
attributeState "fault", label: 'Door fault check electrical connection.'
attributeState "Sent", label: 'Command sent to CoopBoss...'
}
}
standardTile("autoClose", "device.autoCloseEnable", width: 2, height: 2){
state "on", label: 'Auto', action:"autoCloseOff", icon: "st.doors.garage.garage-closing", backgroundColor: "#79b821", nextState:"Sent"
state "off", label: 'Auto', action:"autoCloseOn", icon: "st.doors.garage.garage-closing", nextState:"Sent"
state "Sent", label: 'wait', icon: "st.motion.motion.active", backgroundColor: "#ffa81e"
}
standardTile("autoOpen", "device.autoOpenEnable", width: 2, height: 2){
state "on", label: 'Auto', action:"autoOpenOff", icon: "st.doors.garage.garage-opening", backgroundColor: "#79b821", nextState:"Sent"
state "off", label: 'Auto', action:"autoOpenOn", icon: "st.doors.garage.garage-opening", nextState:"Sent"
state "Sent", label: 'wait', icon: "st.motion.motion.active", backgroundColor: "#ffa81e"
}
valueTile("TempProb1", "device.TempProb1", width: 2, height: 2, decoration: "flat"){
state "default", label:'Coop\r${currentValue}°', unit:"F", action:"updateTemp1"}
valueTile("TempProb2", "device.TempProb2", width: 2, height: 2, decoration: "flat"){
state "default", label:'Outside\r${currentValue}°', unit:"F", action:"updateTemp2"}
valueTile("currentLevel", "device.currentLightLevel", width: 2, height: 2, decoration: "flat") {
state "default", label:'Sun\r${currentValue}', action:"updateSun"}
valueTile("dayOrNight", "device.dayOrNight", decoration: "flat", inactiveLabel: false, width: 2, height: 2) {
state "default", label:'${currentValue}.'
}
controlTile("SetClSlider", "device.closeLightLevel", "slider", height: 2, width: 4, inactiveLabel: false, range:"(1..100)") {
state "closeLightLevel", action:"setCloseLevelTo", backgroundColor:"#d04e00"
}
valueTile("SetClValue", "device.closeLightLevel", decoration: "flat", inactiveLabel: false, width: 2, height: 2) {
state "default", label:'Close\nSunlight\n${currentValue}', action:'updateCloseLightLevel'
}
controlTile("SetOpSlider", "device.openLightLevel", "slider", height: 2, width: 4, inactiveLabel: false, range:"(1..100)") {
state "openLightLevel", action:"setOpenLevelTo", backgroundColor:"#d04e00"
}
valueTile("SetOpValue", "device.openLightLevel", decoration: "flat", inactiveLabel: false, width: 2, height: 2) {
state "default", label:'Open\nSunlight\n${currentValue}', action:'updateOpenLightLevel'
}
controlTile("SetSensitivitySlider", "device.doorSensitivity", "slider", height: 2, width: 4, inactiveLabel: false, range:"(1..100)") {
state "openLightLevel", action:"setSensitivityLevel", backgroundColor:"#d04e00"
}
valueTile("SetSensitivityValue", "device.doorSensitivity", decoration: "flat", inactiveLabel: false, width: 2, height: 2) {
state "default", label:'Door\nSensitivity\n${currentValue}', action:'updateSensitivity'
}
standardTile("refresh", "device.refresh", width: 2, height: 2, decoration: "flat", inactiveLabel: false) {
state "default", label:'All', action:"refresh.refresh", icon:"st.secondary.refresh-icon"
}
standardTile("aux1", "device.Aux1", width: 2, height: 2, canChangeIcon: true) {
state "off", label:'Aux 1', action:"Aux1On", icon:"st.switches.switch.off", backgroundColor:"#ffffff", nextState:"Sent"
state "on", label:'Aux 1', action:"Aux1Off", icon:"st.switches.switch.on", backgroundColor:"#79b821", nextState:"Sent"
state "Sent", label: 'wait', icon: "st.motion.motion.active", backgroundColor: "#ffa81e"
}
standardTile("aux2", "device.Aux2", width: 2, height: 2, canChangeIcon: true) {
state "off", label:'Aux 2', action:"Aux2On", icon:"st.switches.switch.off", backgroundColor:"#ffffff", nextState:"Sent"
state "on", label:'Aux 2', action:"Aux2Off", icon:"st.switches.switch.on", backgroundColor:"#79b821", nextState:"Sent"
state "Sent", label: 'wait', icon: "st.motion.motion.active", backgroundColor: "#ffa81e"
}
main "doorCtrl"
details (["dtlsDoorCtrl", "TempProb1", "TempProb2", "currentLevel", "autoClose", "autoOpen", "dayOrNight",
"SetClSlider", "SetClValue", "SetOpSlider", "SetOpValue", "SetSensitivitySlider", "SetSensitivityValue",
"aux1", "aux2", "refresh"])
}
}
// Parse incoming device messages to generate events def parse(String description) {
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: ') || description?.startsWith('humidity: ')) {
map = parseCustomMessage(description)
}
log.debug map
//return map ? createEvent(map) : null
sendEvent(map)
callUpdateStatusTxt()
}
private Map parseCatchAllMessage(String description) {
Map resultMap = [:]
def cluster = zigbee.parse(description)
log.debug cluster
if (cluster.clusterId == 0x0402) {
switch(cluster.sourceEndpoint) {
case 0x39: // Endpoint 0x39 is the temperature of probe 1
String temp = cluster.data[-2..-1].reverse().collect { cluster.hex1(it) }.join()
resultMap.name = "TempProb1"
def celsius = Integer.valueOf(temp,16).shortValue()
if (celsius == -32768){ // This number is used to indicate an error in the temperature reading
resultMap.value = "---"
}else{
celsius = celsius / 100 // Temperature value is sent X 100.
resultMap.value = celsiusToFahrenheit(celsius)
if (tempOffsetOutside) {
def offset = tempOffsetOutside as int
resultMap.value = resultMap.value + offset
}
}
sendEvent(name: "temperature", value: resultMap.value, displayed: false) // set the temperatureMeasurment capability to temperature
break
case 0x40: // Endpoint 0x40 is the temperature of probe 2
String temp = cluster.data[-2..-1].reverse().collect { cluster.hex1(it) }.join()
resultMap.name = "TempProb2"
def celsius = Integer.valueOf(temp,16).shortValue()
//resultMap.descriptionText = "Prob2 celsius value = ${celsius}"
if (celsius == -32768){ // This number is used to indicate an error in the temperature reading
resultMap.value = "---"
}else{
celsius = celsius / 100 // Temperature value is sent X 100.
resultMap.value = celsiusToFahrenheit(celsius)
if (tempOffsetCoop) {
def offset = tempOffsetCoop as int
resultMap.value = resultMap.value + offset
}
}
break
}
}
if (cluster.clusterId == 0x0101 && cluster.command == 0x0b) { // This is a default response to a command sent to cluster 0x0101 door control
//log.debug "Default Response Data = $cluster.data"
switch(cluster.data) {
case "[10, 0]": // 0x0a turn auto close on command verified
resultMap.name = "autoCloseEnable"
resultMap.value = "on"
break
case "[11, 0]": // 0x0b turn auto close off command verified
resultMap.name = "autoCloseEnable"
resultMap.value = "off"
break
case "[12, 0]": // 0x0C turn auto open on command verified
resultMap.name = "autoOpenEnable"
resultMap.value = "on"
break
case "[13, 0]": // 0x0d turn auto open off command verified
resultMap.name = "autoOpenEnable"
resultMap.value = "off"
break
case "[20, 0]": // 0x14 Aux1 On command verified
log.info "verified Aux1 On"
sendEvent(name: "switch", value: "on", displayed: false)
resultMap.name = "Aux1"
resultMap.value = "on"
break
case "[21, 0]": // 0x15 Aux1 Off command verified
log.info "verified Aux1 Off"
sendEvent(name: "switch", value: "off", displayed: false)
resultMap.name = "Aux1"
resultMap.value = "off"
break
case "[22, 0]": // 0x16 Aux2 On command verified
log.info "verified Aux2 On"
resultMap.name = "Aux2"
resultMap.value = "on"
break
case "[23, 0]": // 0x17 Aux2 Off command verified
log.info "verified Aux2 Off"
resultMap.name = "Aux2"
resultMap.value = "off"
break
}
}
return resultMap
}
private Map parseReportAttributeMessage(String description) {
Map resultMap = [:]
def descMap = parseDescriptionAsMap(description)
//log.debug "read attr descMap --> $descMap"
if (descMap.cluster == "0101" && descMap.attrId == "0003") {
resultMap.name = "doorState"
if (descMap.value == "00"){
resultMap.value = "unknown"
sendEvent(name: "door", value: "unknown", displayed: false)
}else if(descMap.value == "01"){
resultMap.value = "closed"
sendEvent(name: "door", value: "closed", displayed: false)
}else if(descMap.value == "02"){
resultMap.value = "open"
sendEvent(name: "door", value: "open", displayed: false)
}else if(descMap.value == "03"){
resultMap.value = "jammed"
}else if(descMap.value == "04"){
resultMap.value = "forced close"
}else if(descMap.value == "05"){
resultMap.value = "forced close"
}else if(descMap.value == "06"){
resultMap.value = "closing"
sendEvent(name: "door", value: "closing", displayed: false)
}else if(descMap.value == "07"){
resultMap.value = "opening"
sendEvent(name: "door", value: "opening", displayed: false)
}else if(descMap.value == "08"){
resultMap.value = "fault"
}else {
resultMap.value = "unknown"
}
resultMap.descriptionText = "Door State Changed to ${resultMap.value}"
} else if (descMap.cluster == "0101" && descMap.attrId == "0400") {
resultMap.name = "currentLightLevel"
resultMap.value = (Integer.parseInt(descMap.value, 16))
resultMap.displayed = false
} else if (descMap.cluster == "0101" && descMap.attrId == "0401") {
resultMap.name = "closeLightLevel"
resultMap.value = (Integer.parseInt(descMap.value, 16))
} else if (descMap.cluster == "0101" && descMap.attrId == "0402") {
resultMap.name = "openLightLevel"
resultMap.value = (Integer.parseInt(descMap.value, 16))
} else if (descMap.cluster == "0101" && descMap.attrId == "0403") {
resultMap.name = "autoCloseEnable"
if (descMap.value == "01"){resultMap.value = "on"}
else{resultMap.value = "off"}
} else if (descMap.cluster == "0101" && descMap.attrId == "0404") {
resultMap.name = "autoOpenEnable"
if (descMap.value == "01"){resultMap.value = "on"}
else{resultMap.value = "off"}
} else if (descMap.cluster == "0101" && descMap.attrId == "0405") {
resultMap.name = "doorCurrent"
resultMap.value = (Integer.parseInt(descMap.value, 16))
resultMap.value = resultMap.value * 0.001
} else if (descMap.cluster == "0101" && descMap.attrId == "0408") {
resultMap.name = "doorSensitivity"
resultMap.value = (100 - Integer.parseInt(descMap.value, 16))
} else if (descMap.cluster == "0101" && descMap.attrId == "0409") {
resultMap.name = "baseDoorCurrent"
resultMap.value = (Integer.parseInt(descMap.value, 16))
resultMap.value = resultMap.value * 0.001
} else if (descMap.cluster == "0101" && descMap.attrId == "040a") {
resultMap.name = "doorVoltage"
resultMap.value = (Integer.parseInt(descMap.value, 16))
resultMap.value = resultMap.value * 0.001
} else if (descMap.cluster == "0101" && descMap.attrId == "040b") {
resultMap.name = "Aux1"
if(descMap.value == "01"){
resultMap.value = "on"
sendEvent(name: "switch", value: "on", displayed: false)
}else{
resultMap.value = "off"
sendEvent(name: "switch", value: "off", displayed: false)
}
} else if (descMap.cluster == "0101" && descMap.attrId == "040c") {
resultMap.name = "Aux2"
if(descMap.value == "01"){
resultMap.value = "on"
}else{
resultMap.value = "off"
}
} else if (descMap.cluster == "0101" && descMap.attrId == "040d") {
resultMap.name = "photoCalibration"
resultMap.value = (Integer.parseInt(descMap.value, 16))
} else if (descMap.cluster == "0101" && descMap.attrId == "040e") {
resultMap.name = "baseCurrentNE"
resultMap.value = (Integer.parseInt(descMap.value, 16))
}
return resultMap
}
private Map parseCustomMessage(String description) {
//log.info "ParseCustomMessage called with ${description}"
Map resultMap = [:]
if (description?.startsWith('temperature: ')) {
resultMap.name = "temperature"
def rawT = (description - "temperature: ").trim()
resultMap.descriptionText = "Temperature celsius value = ${rawT}"
def rawTint = Float.parseFloat(rawT)
if (rawTint > 65){
resultMap.name = null
resultMap.value = null
resultMap.descriptionText = "Temperature celsius value = ${rawT} is invalid not updating"
log.warn "Invalid temperature value detected! rawT = ${rawT}, description = ${description}"
}else if (rawT == -32768){ // This number is used to indicate an error in the temperature reading
resultMap.value = "ERR"
}else{
resultMap.value = celsiusToFahrenheit(rawT.toFloat()) as Float
sendEvent(name: "TempProb1", value: resultMap.value, displayed: false) // Workaround for lack of access to endpoint information for Temperature report
}
}
resultMap.displayed = false
log.info "Temperature reported = ${resultMap.value}"
return resultMap
}
def parseDescriptionAsMap(description) {
(description - "read attr - ").split(",").inject([:]) { map, param ->
def nameAndValue = param.split(":")
map += [(nameAndValue[0].trim()):nameAndValue[1].trim()]
}
}
// Added for Temeperature parse
def getFahrenheit(value) {
def celsius = Integer.parseInt(value, 16)
return celsiusToFahrenheit(celsius) as Integer
}
// Private methods
def callUpdateStatusTxt(){
def cTemp = device.currentState("TempProb1")?.value
def cLight = 0
def testNull = device.currentState("currentLightLevel")?.value
if (testNull != null){
cLight = device.currentState("currentLightLevel")?.value as int
}
updateStatusTxt(cTemp, cLight)
}
def updateStatusTxt(currentTemp, currentLight){
//log.info "called updateStatusTxt with ${currentTemp}, ${currentLight}"
def cTmp = currentTemp
def cLL = 10
def oLL = 10
def testNull = device.currentState("closeLightLevel")?.value
if (testNull != null){
cLL = device.currentState("closeLightLevel")?.value as int
}
testNull = device.currentState("openLightLevel")?.value
if (testNull != null){
oLL = device.currentState("openLightLevel")?.value as int
}
def aOpnEn = device.currentState("autoOpenEnable")?.value
def aClsEn = device.currentState("autoCloseEnable")?.value
if (currentLight < cLL){
if (aOpnEn == "on"){
sendEvent(name: "dayOrNight", value: "Sun must be > ${oLL} to auto open", displayed: false)
sendEvent(name: "coopStatus", value: "Sunlight ${currentLight} open at ${oLL}. Coop ${cTmp}°", displayed: false)
}else{
sendEvent(name: "dayOrNight", value: "Auto Open is turned off.", displayed: false)
sendEvent(name: "coopStatus", value: "Sunlight ${currentLight} auto open off. Coop ${cTmp}°", displayed: false)
}
}else {
if (aClsEn == "on"){
sendEvent(name: "dayOrNight", value: "Sun must be < ${cLL} to auto close", displayed: false)
sendEvent(name: "coopStatus", value: "Sunlight ${currentLight} close at ${cLL}. Coop ${cTmp}°", displayed: false)
}else{
sendEvent(name: "dayOrNight", value: "Auto Close is turned off.", displayed: false)
sendEvent(name: "coopStatus", value: "Sunlight ${currentLight} auto close off. Coop ${cTmp}°", displayed: false)
}
}
}
// Commands to device
def on() {
log.debug "on calling Aux1On"
Aux1On()
}
def off() {
log.debug "off calling Aux1Off"
Aux1Off()
}
def close() {
log.debug "close calling closeDoor"
closeDoor()
}
def open() {
log.debug "open calling openDoor"
openDoor()
}
def Aux1On(){
log.debug "Sending Aux1 = on command"
"st cmd 0x${device.deviceNetworkId} 0x38 0x0101 0x14 {}"
}
def Aux1Off(){
log.debug "Sending Aux1 = off command"
"st cmd 0x${device.deviceNetworkId} 0x38 0x0101 0x15 {}"
}
def Aux2On(){
log.debug "Sending Aux2 = on command"
"st cmd 0x${device.deviceNetworkId} 0x38 0x0101 0x16 {}"
}
def Aux2Off(){
log.debug "Sending Aux2 = off command"
"st cmd 0x${device.deviceNetworkId} 0x38 0x0101 0x17 {}"
}
def openDoor() {
log.debug "Sending Open command"
"st cmd 0x${device.deviceNetworkId} 0x38 0x0101 0x1 {}"
}
def closeDoor() {
log.debug "Sending Close command"
"st cmd 0x${device.deviceNetworkId} 0x38 0x0101 0x0 {}"
}
def closeDoorHiI() {
log.debug "Sending High Current Close command"
"st cmd 0x${device.deviceNetworkId} 0x38 0x0101 0x4 {}"
}
def autoOpenOn() {
log.debug "Setting Auto Open On"
"st cmd 0x${device.deviceNetworkId} 0x38 0x0101 0x0C {}"
}
def autoOpenOff() {
log.debug "Setting Auto Open Off"
"st cmd 0x${device.deviceNetworkId} 0x38 0x0101 0x0D {}"
}
def autoCloseOn() {
log.debug "Setting Auto Close On"
"st cmd 0x${device.deviceNetworkId} 0x38 0x0101 0x0A {}"
}
def autoCloseOff() {
log.debug "Setting Auto Close Off"
"st cmd 0x${device.deviceNetworkId} 0x38 0x0101 0x0B {}"
}
def setOpenLevelTo(cValue) {
def cX = cValue
log.debug "Setting Open Light Level to ${cX} Hex = 0x${Integer.toHexString(cX)}"
def cmd = []
cmd << "st wattr 0x${device.deviceNetworkId} 0x38 0x0101 0x402 0x23 {${Integer.toHexString(cX)}}"
cmd << "delay 150"
cmd << "st rattr 0x${device.deviceNetworkId} 0x38 0x0101 0x402" // Read light value
cmd
}
def setCloseLevelTo(cValue) {
def cX = cValue
log.debug "Setting Close Light Level to ${cX} Hex = 0x${Integer.toHexString(cX)}"
def cmd = []
cmd << "st wattr 0x${device.deviceNetworkId} 0x38 0x0101 0x401 0x23 {${Integer.toHexString(cX)}}"
cmd << "delay 150"
cmd << "st rattr 0x${device.deviceNetworkId} 0x38 0x0101 0x401" // Read light value
cmd
}
def setSensitivityLevel(cValue) {
def cX = 100 - cValue
log.debug "Setting Door sensitivity level to ${cX} Hex = 0x${Integer.toHexString(cX)}"
def cmd = []
cmd << "st wattr 0x${device.deviceNetworkId} 0x38 0x0101 0x408 0x23 {${Integer.toHexString(cX)}}" // Write attribute. 0x23 is a 32 bit integer value.
cmd << "delay 150"
cmd << "st rattr 0x${device.deviceNetworkId} 0x38 0x0101 0x408" // Read attribute
cmd
}
def setNewBaseCurrent(cValue) {
def cX = cValue as int
log.info "Setting new BaseCurrent to ${cX} Hex = 0x${Integer.toHexString(cX)}"
def cmd = []
cmd << "st wattr 0x${device.deviceNetworkId} 0x38 0x0101 0x409 0x23 {${Integer.toHexString(cX)}}" // Write attribute. 0x23 is a 32 bit integer value.
cmd << "delay 150"
cmd << "st rattr 0x${device.deviceNetworkId} 0x38 0x0101 0x409" // Read attribute
cmd
}
def setNewPhotoCalibration(cValue) {
def cX = cValue as int
log.info "Setting new Photoresister calibration to ${cX} Hex = 0x${Integer.toHexString(cX)}"
def cmd = []
cmd << "st wattr 0x${device.deviceNetworkId} 0x38 0x0101 0x40D 0x2B {${Integer.toHexString(cX)}}" // Write attribute. 0x2B is a 32 bit signed integer value.
cmd << "st rattr 0x${device.deviceNetworkId} 0x38 0x0101 0x40D" // Read attribute
cmd
}
def readNewPhotoCalibration() {
log.info "Requesting current Photoresister calibration "
def cmd = []
cmd << "st rattr 0x${device.deviceNetworkId} 0x38 0x0101 0x40D" // Read attribute
cmd
}
def readBaseCurrentNE() {
log.info "Requesting base current never exceed setting "
def cmd = []
cmd << "st rattr 0x${device.deviceNetworkId} 0x38 0x0101 0x40E" // Read attribute
cmd
}
def setBaseCurrentNE(cValue) {
def cX = cValue as int
log.info "Setting new base Current Never Exceed to ${cX} Hex = 0x${Integer.toHexString(cX)}"
def cmd = []
cmd << "st wattr 0x${device.deviceNetworkId} 0x38 0x0101 0x40E 0x23 {${Integer.toHexString(cX)}}" // Write attribute. 0x23 is a 32 bit unsigned integer value.
cmd << "st rattr 0x${device.deviceNetworkId} 0x38 0x0101 0x40E" // Read attribute
cmd
}
def poll(){
log.debug "Polling Device"
def cmd = []
cmd << "st rattr 0x${device.deviceNetworkId} 0x38 0x0101 0x0003" // Read Door State
cmd << "delay 150"
cmd << "st rattr 0x${device.deviceNetworkId} 0x38 0x0101 0x0400" // Read Current Light Level
cmd << "delay 150"
cmd << "st rattr 0x${device.deviceNetworkId} 0x39 0x0402 0x0000" // Read probe 1 Temperature
cmd << "delay 150"
cmd << "st rattr 0x${device.deviceNetworkId} 0x40 0x0402 0x0000" // Read probe 2 Temperature
cmd
}
def updateTemp1() {
log.debug "Sending attribute read request for Temperature Probe1"
def cmd = []
cmd << "st rattr 0x${device.deviceNetworkId} 0x39 0x0402 0x0000" // Read Current Temperature from Coop Probe 1
cmd
}
def updateTemp2() {
log.debug "Sending attribute read request for Temperature Probe2"
def cmd = []
cmd << "st rattr 0x${device.deviceNetworkId} 0x40 0x0402 0x0000" // Read Current Temperature from Coop Probe 2
cmd
}
def updateSun() {
log.debug "Sending attribute read request for Sun Light Level"
def cmd = []
cmd << "st rattr 0x${device.deviceNetworkId} 0x38 0x0101 0x0400" // Read Current Light Level
cmd
}
def updateSensitivity() {
log.debug "Sending attribute read request for door sensitivity"
def cmd = []
cmd << "st rattr 0x${device.deviceNetworkId} 0x38 0x0101 0x0408" // Read Door sensitivity
cmd
}
def updateCloseLightLevel() {
log.debug "Sending attribute read close light level"
def cmd = []
cmd << "st rattr 0x${device.deviceNetworkId} 0x38 0x0101 0x0401"
cmd
}
def updateOpenLightLevel() {
log.debug "Sending attribute read open light level"
def cmd = []
cmd << "st rattr 0x${device.deviceNetworkId} 0x38 0x0101 0x0402"
cmd
}
def refresh() {
log.debug "sending refresh command"
def cmd = []
cmd << "st rattr 0x${device.deviceNetworkId} 0x38 0x0101 0x0003" // Read Door State
cmd << "delay 150"
cmd << "st rattr 0x${device.deviceNetworkId} 0x38 0x0101 0x0400" // Read Current Light Level
cmd << "delay 150"
cmd << "st rattr 0x${device.deviceNetworkId} 0x38 0x0101 0x0401" // Read Door Close Light Level
cmd << "delay 150"
cmd << "st rattr 0x${device.deviceNetworkId} 0x38 0x0101 0x0402" // Read Door Open Light Level
cmd << "delay 150"
cmd << "st rattr 0x${device.deviceNetworkId} 0x38 0x0101 0x0403" // Read Auto Door Close Settings
cmd << "delay 150"
cmd << "st rattr 0x${device.deviceNetworkId} 0x38 0x0101 0x0404" // Read Auto Door Open Settings
cmd << "delay 150"
cmd << "st rattr 0x${device.deviceNetworkId} 0x39 0x0402 0x0000" // Read Current Temperature from Coop Probe 1
cmd << "delay 150"
cmd << "st rattr 0x${device.deviceNetworkId} 0x38 0x0101 0x0408" // Object detection sensitivity
cmd << "delay 150"
cmd << "st rattr 0x${device.deviceNetworkId} 0x40 0x0402 0x0000" // Read Current Temperature from Coop Probe 2
cmd << "delay 150"
cmd << "st rattr 0x${device.deviceNetworkId} 0x38 0x0101 0x0405" // Current required to close door
cmd << "delay 150"
cmd << "st rattr 0x${device.deviceNetworkId} 0x38 0x0101 0x040B" // Aux1 Status
cmd << "delay 150"
cmd << "st rattr 0x${device.deviceNetworkId} 0x38 0x0101 0x040C" // Aux2 Status
cmd << "delay 150"
cmd << "st rattr 0x${device.deviceNetworkId} 0x38 0x0101 0x409" // Read Base current
cmd
}
def configure() {
log.debug "Binding SEP 0x38 DEP 0x01 Cluster 0x0101 Lock cluster to hub"
log.debug "Binding SEP 0x39 DEP 0x01 Cluster 0x0402 Temperature cluster to hub"
log.debug "Binding SEP 0x40 DEP 0x01 Cluster 0x0402 Temperature cluster to hub"
def cmd = []
cmd << "zdo bind 0x${device.deviceNetworkId} 0x38 0x01 0x0101 {${device.zigbeeId}} {}" // Bind to end point 0x38 and the lock cluster
cmd << "delay 150"
cmd << "zdo bind 0x${device.deviceNetworkId} 0x39 0x01 0x0402 {${device.zigbeeId}} {}" // Bind to end point 0x39 and the temperature cluster
cmd << "delay 150"
cmd << "zdo bind 0x${device.deviceNetworkId} 0x40 0x01 0x0402 {${device.zigbeeId}} {}" // Bind to end point 0x40 and the temperature cluster
cmd << "delay 1500"
log.info "Sending ZigBee Configuration Commands to Coop Control"
return cmd + refresh()
}

1
devicetypes/keen-home/keen-home-smart-vent.src/keen-home-smart-vent.groovy
View File

@@ -274,7 +274,6 @@ private Map makeTemperatureResult(value) {
name: 'temperature',
value: "" + value,
descriptionText: "${linkText} is ${value}°${temperatureScale}",
unit: temperatureScale
]
}

164
devicetypes/osotech/plantlink.src/plantlink.groovy
View File

@@ -1,164 +0,0 @@
/**
* PlantLink
*
* This device type takes sensor data and converts it into a json packet to send to myplantlink.com
* where its values will be computed for soil and plant type to show user readable values of how your
* specific plant is doing.
*
*
* Copyright 2015 Oso Technologies
*
* Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except
* in compliance with the License. You may obtain a copy of the License at:
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software distributed under the License is distributed
* on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License
* for the specific language governing permissions and limitations under the License.
*
*/
import groovy.json.JsonBuilder
metadata {
definition (name: "PlantLink", namespace: "OsoTech", author: "Oso Technologies") {
capability "Sensor"
command "setStatusIcon"
command "setPlantFuelLevel"
command "setBatteryLevel"
command "setInstallSmartApp"
attribute "plantStatus","string"
attribute "plantFuelLevel","number"
attribute "linkBatteryLevel","string"
attribute "installSmartApp","string"
fingerprint profileId: "0104", inClusters: "0000,0001,0B04"
}
simulator {
status "battery": "read attr - raw: C0720100010A000021340A, dni: C072, endpoint: 01, cluster: 0001, size: 0A, attrId: 0000, encoding: 21, value: 0a34"
status "moisture": "read attr - raw: C072010B040A0001290000, dni: C072, endpoint: 01, cluster: 0B04, size: 0A, attrId: 0100, encoding: 29, value: 0000"
}
tiles {
standardTile("Title", "device.label") {
state("label", label:'PlantLink ${device.label}')
}
valueTile("plantMoistureTile", "device.plantFuelLevel", width: 1, height: 1) {
state("plantMoisture", label: '${currentValue}% Moisture')
}
valueTile("plantStatusTextTile", "device.plantStatus", decoration: "flat", width: 2, height: 2) {
state("plantStatusTextTile", label:'${currentValue}')
}
valueTile("battery", "device.linkBatteryLevel" ) {
state("battery", label:'${currentValue}% battery')
}
valueTile("installSmartApp","device.installSmartApp", decoration: "flat", width: 3, height: 1) {
state "needSmartApp", label:'Please install SmartApp "Required PlantLink Connector"', defaultState:true
state "connectedToSmartApp", label:'Connected to myplantlink.com'
}
main "plantStatusTextTile"
details(['plantStatusTextTile', "plantMoistureTile", "battery", "installSmartApp"])
}
}
def setStatusIcon(value){
def status = ''
switch (value) {
case '0':
status = 'Needs Water'
break
case '1':
status = 'Dry'
break
case '2':
case '3':
status = 'Good'
break
case '4':
status = 'Too Wet'
break
case 'No Soil':
status = 'Too Dry'
setPlantFuelLevel(0)
break
case 'Recently Watered':
status = 'Watered'
setPlantFuelLevel(100)
break
case 'Low Battery':
status = 'Low Battery'
break
case 'Waiting on First Measurement':
status = 'Calibrating'
break
default:
status = "?"
break
}
sendEvent("name":"plantStatus", "value":status, "description":statusText, displayed: true, isStateChange: true)
}
def setPlantFuelLevel(value){
sendEvent("name":"plantFuelLevel", "value":value, "description":statusText, displayed: true, isStateChange: true)
}
def setBatteryLevel(value){
sendEvent("name":"linkBatteryLevel", "value":value, "description":statusText, displayed: true, isStateChange: true)
}
def setInstallSmartApp(value){
sendEvent("name":"installSmartApp", "value":value)
}
def parse(String description) {
log.debug description
def description_map = parseDescriptionAsMap(description)
def event_name = ""
def measurement_map = [
type: "link",
signal: "0x00",
zigbeedeviceid: device.zigbeeId,
created: new Date().time /1000 as int
]
if (description_map.cluster == "0001"){
/* battery voltage in mV (device needs minimium 2.1v to run) */
log.debug "PlantLink - id ${device.zigbeeId} battery ${description_map.value}"
event_name = "battery_status"
measurement_map["battery"] = "0x${description_map.value}"
} else if (description_map.cluster == "0B04"){
/* raw moisture reading (needs to be sent to plantlink for soil/plant type conversion) */
log.debug "PlantLink - id ${device.zigbeeId} raw moisture ${description_map.value}"
measurement_map["moisture"] = "0x${description_map.value}"
event_name = "moisture_status"
} else{
log.debug "PlantLink - id ${device.zigbeeId} Unknown '${description}'"
return
}
def json_builder = new JsonBuilder(measurement_map)
def result = createEvent(name: event_name, value: json_builder.toString())
return result
}
def parseDescriptionAsMap(description) {
(description - "read attr - ").split(",").inject([:]) { map, param ->
def nameAndValue = param.split(":")
if(nameAndValue.length == 2){
map += [(nameAndValue[0].trim()):nameAndValue[1].trim()]
}else{
map += []
}
}
}

627
devicetypes/plaidsystems/spruce-controller.src/spruce-controller.groovy
View File

@@ -1,627 +0,0 @@
/**
* Spruce Controller - Pre Release V2 10/11/2015
*
* Copyright 2015 Plaid Systems
*
* Author: NC
* Date: 2015-11
*
* Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except
* in compliance with the License. You may obtain a copy of the License at:
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software distributed under the License is distributed
* on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License
* for the specific language governing permissions and limitations under the License.
*
-----------V3 updates-11-2015------------
-Start program button updated to signal schedule check in Scheduler
11/17 alarm "0" -> 0 (ln 305)
*/
metadata {
definition (name: "Spruce Controller", namespace: "plaidsystems", author: "NCauffman") {
capability "Switch"
capability "Configuration"
capability "Refresh"
capability "Actuator"
capability "Valve"
attribute "switch", "string"
attribute "switch1", "string"
attribute "switch2", "string"
attribute "switch8", "string"
attribute "switch5", "string"
attribute "switch3", "string"
attribute "switch4", "string"
attribute "switch6", "string"
attribute "switch7", "string"
attribute "switch9", "string"
attribute "switch10", "string"
attribute "switch11", "string"
attribute "switch12", "string"
attribute "switch13", "string"
attribute "switch14", "string"
attribute "switch15", "string"
attribute "switch16", "string"
attribute "status", "string"
command "programOn"
command "programOff"
command "on"
command "off"
command "z1on"
command "z1off"
command "z2on"
command "z2off"
command "z3on"
command "z3off"
command "z4on"
command "z4off"
command "z5on"
command "z5off"
command "z6on"
command "z6off"
command "z7on"
command "z7off"
command "z8on"
command "z8off"
command "z9on"
command "z9off"
command "z10on"
command "z10off"
command "z11on"
command "z11off"
command "z12on"
command "z12off"
command "z13on"
command "z13off"
command "z14on"
command "z14off"
command "z15on"
command "z15off"
command "z16on"
command "z16off"
command "offtime"
command "refresh"
command "rain"
command "manual"
command "setDisplay"
command "settingsMap"
command "writeTime"
command "writeType"
command "notify"
command "updated"
fingerprint endpointId: "1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18", profileId: "0104", deviceId: "0002", deviceVersion: "00", inClusters: "0000,0003,0004,0005,0006,000F", outClusters: "0003, 0019", manufacturer: "PLAID SYSTEMS", model: "PS-SPRZ16-01"
}
// simulator metadata
simulator {
// status messages
// reply messages
}
preferences {
input description: "Press Configure button after making changes to these preferences", displayDuringSetup: true, type: "paragraph", element: "paragraph", title: ""
input "RainEnable", "bool", title: "Rain Sensor Attached?", required: false, displayDuringSetup: true
input "ManualTime", "number", title: "Automatic shutoff time when a zone is turned on manually?", required: false, displayDuringSetup: true
}
// UI tile definitions
tiles {
standardTile("status", "device.status") {
state "schedule", label: 'Schedule Set', icon: "http://www.plaidsystems.com/smartthings/st_spruce_leaf_225_t.png"
state "finished", label: 'Spruce Finished', icon: "st.Outdoor.outdoor5", backgroundColor: "#46c2e8"
state "raintoday", label: 'Rain Today', icon: "st.custom.wuk.nt_chancerain"
state "rainy", label: 'Previous Rain', icon: "st.custom.wuk.nt_chancerain"
state "raintom", label: 'Rain Tomorrow', icon: "st.custom.wuk.nt_chancerain"
state "donewweek", label: 'Spruce Finished', icon: "st.Outdoor.outdoor5", backgroundColor: "#52c435"
state "skipping", label: 'Skip Today', icon: "st.Outdoor.outdoor20", backgroundColor: "#36cfe3"
state "moisture", label: '', icon: "st.Weather.weather2", backgroundColor: "#36cfe3"
state "pause", label: 'PAUSE', icon: "st.contact.contact.open", backgroundColor: "#f2a51f"
state "active", label: 'Active', icon: "st.Outdoor.outdoor12", backgroundColor: "#3DC72E"
state "season", label: 'Seasonal Adjustment', icon: "st.Outdoor.outdoor17", backgroundColor: "#ffb900"
state "disable", label: 'Disabled', icon: "st.secondary.off", backgroundColor: "#888888"
state "warning", label: '', icon: "st.categories.damageAndDanger", backgroundColor: "#ffff7f"
state "alarm", label: 'Alarm', icon: "st.categories.damageAndDanger", backgroundColor: "#f9240c"
}
standardTile("switch", "device.switch") {
//state "programOff", label: 'Start Program', action: "programOn", icon: "st.sonos.play-icon", backgroundColor: "#a9a9a9"
state "off", label: 'Start Program', action: "programOn", icon: "st.sonos.play-icon", backgroundColor: "#a9a9a9"
state "programOn", label: 'Initialize Program', action: "programOff", icon: "st.contact.contact.open", backgroundColor: "#f6e10e"
state "on", label: 'Program Running', action: "off", icon: "st.Outdoor.outdoor12", backgroundColor: "#3DC72E"
}
standardTile("rainsensor", "device.rainsensor") {
state "rainSensrooff", label: 'Rain Sensor Clear', icon: "st.Weather.weather14", backgroundColor: "#a9a9a9"
state "rainSensoron", label: 'Rain Detected', icon: "st.Weather.weather10", backgroundColor: "#f6e10e"
}
standardTile("switch1", "device.switch1") {
state "z1off", label: '1', action: "z1on", icon: "st.valves.water.closed", backgroundColor: "#ffffff"
state "z1on", label: '1', action: "z1off", icon: "st.valves.water.open", backgroundColor: "#46c2e8"
}
standardTile("switch2", "device.switch2") {
state "z2off", label: '2', action: "z2on", icon: "st.valves.water.closed", backgroundColor: "#ffffff"
state "z2on", label: '2', action: "z2off", icon: "st.valves.water.open", backgroundColor: "#46c2e8"
}
standardTile("switch3", "device.switch3", inactiveLabel: false) {
state "z3off", label: '3', action: "z3on", icon: "st.valves.water.closed", backgroundColor: "#ffffff"
state "z3on", label: '3', action: "z3off", icon: "st.valves.water.open", backgroundColor: "#46c2e8"
}
standardTile("switch4", "device.switch4", inactiveLabel: false) {
state "z4off", label: '4', action: "z4on", icon: "st.valves.water.closed", backgroundColor: "#ffffff"
state "z4on", label: '4', action: "z4off", icon: "st.valves.water.open", backgroundColor: "#46c2e8"
}
standardTile("switch5", "device.switch5", inactiveLabel: false) {
state "z5off", label: '5', action: "z5on", icon: "st.valves.water.closed", backgroundColor: "#ffffff"
state "z5on", label: '5', action: "z5off", icon: "st.valves.water.open", backgroundColor: "#46c2e8"
}
standardTile("switch6", "device.switch6", inactiveLabel: false) {
state "z6off", label: '6', action: "z6on", icon: "st.valves.water.closed", backgroundColor: "#ffffff"
state "z6on", label: '6', action: "z6off", icon: "st.valves.water.open", backgroundColor: "#46c2e8"
}
standardTile("switch7", "device.switch7", inactiveLabel: false) {
state "z7off", label: '7', action: "z7on", icon: "st.valves.water.closed", backgroundColor: "#ffffff"
state "z7on", label: '7', action: "z7off", icon: "st.valves.water.open", backgroundColor: "#46c2e8"
}
standardTile("switch8", "device.switch8", inactiveLabel: false) {
state "z8off", label: '8', action: "z8on", icon: "st.valves.water.closed", backgroundColor: "#ffffff"
state "z8on", label: '8', action: "z8off", icon: "st.valves.water.open", backgroundColor: "#46c2e8"
}
standardTile("switch9", "device.switch9", inactiveLabel: false) {
state "z9off", label: '9', action: "z9on", icon: "st.valves.water.closed", backgroundColor: "#ffffff"
state "z9on", label: '9', action: "z9off", icon: "st.valves.water.open", backgroundColor: "#46c2e8"
}
standardTile("switch10", "device.switch10", inactiveLabel: false) {
state "z10off", label: '10', action: "z10on", icon: "st.valves.water.closed", backgroundColor: "#ffffff"
state "z10on", label: '10', action: "z10off", icon: "st.valves.water.open", backgroundColor: "#46c2e8"
}
standardTile("switch11", "device.switch11", inactiveLabel: false) {
state "z11off", label: '11', action: "z11on", icon: "st.valves.water.closed", backgroundColor: "#ffffff"
state "z11on", label: '11', action: "z11off", icon: "st.valves.water.open", backgroundColor: "#46c2e8"
}
standardTile("switch12", "device.switch12", inactiveLabel: false) {
state "z12off", label: '12', action: "z12on", icon: "st.valves.water.closed", backgroundColor: "#ffffff"
state "z12on", label: '12', action: "z12off", icon: "st.valves.water.open", backgroundColor: "#46c2e8"
}
standardTile("switch13", "device.switch13", inactiveLabel: false) {
state "z13off", label: '13', action: "z13on", icon: "st.valves.water.closed", backgroundColor: "#ffffff"
state "z13on", label: '13', action: "z13off", icon: "st.valves.water.open", backgroundColor: "#46c2e8"
}
standardTile("switch14", "device.switch14", inactiveLabel: false) {
state "z14off", label: '14', action: "z14on", icon: "st.valves.water.closed", backgroundColor: "#ffffff"
state "z14on", label: '14', action: "z14off", icon: "st.valves.water.open", backgroundColor: "#46c2e8"
}
standardTile("switch15", "device.switch15", inactiveLabel: false) {
state "z15off", label: '15', action: "z15on", icon: "st.valves.water.closed", backgroundColor: "#ffffff"
state "z15on", label: '15', action: "z15off", icon: "st.valves.water.open", backgroundColor: "#46c2e8"
}
standardTile("switch16", "device.switch16", inactiveLabel: false) {
state "z16off", label: '16', action: "z16on", icon: "st.valves.water.closed", backgroundColor: "#ffffff"
state "z16on", label: '16', action: "z16off", icon: "st.valves.water.open", backgroundColor: "#46c2e8"
}
standardTile("refresh", "device.switch", inactiveLabel: false, decoration: "flat") {
state "default", action: "refresh", icon:"st.secondary.refresh"
}
standardTile("configure", "device.configure", inactiveLabel: false, decoration: "flat") {
state "configure", label:'', action:"configuration.configure", icon:"st.secondary.configure"
}
main (["status"])
details(["status","rainsensor","switch","switch1","switch2","switch3","switch4","switch5","switch6","switch7","switch8","switch9","switch10","switch11","switch12","switch13","switch14","switch15","switch16","refresh","configure"])
}
}
def programOn(){
sendEvent(name: "switch", value: "programOn", descriptionText: "Program turned on")
}
def programOff(){
sendEvent(name: "switch", value: "off", descriptionText: "Program turned off")
off()
}
def updated(){
log.debug "updated"
}
// Parse incoming device messages to generate events
def parse(String description) {
//log.debug "Parse description $description"
def result = null
def map = [:]
if (description?.startsWith("read attr -")) {
def descMap = parseDescriptionAsMap(description)
//log.debug "Desc Map: $descMap"
//using 000F cluster instead of 0006 (switch) because ST does not differentiate between EPs and processes all as switch
if (descMap.cluster == "000F" && descMap.attrId == "0055") {
log.debug "Zone"
map = getZone(descMap)
}
else if (descMap.cluster == "0009" && descMap.attrId == "0000") {
log.debug "Alarm"
map = getAlarm(descMap)
}
}
if (map) {
result = createEvent(map)
}
log.debug "Parse returned $map $result"
return result
}
def parseDescriptionAsMap(description) {
(description - "read attr - ").split(",").inject([:]) { map, param ->
def nameAndValue = param.split(":")
map += [(nameAndValue[0].trim()):nameAndValue[1].trim()]
}
}
def getZone(descMap){
def map = [:]
def EP = Integer.parseInt(descMap.endpoint.trim(), 16)
String onoff
if(descMap.value == "00"){
onoff = "off"
}
else onoff = "on"
if (EP == 1){
map.name = "switch"
map.value = onoff
map.descriptionText = "${device.displayName} turned sprinkler program $onoff"
}
else if (EP == 18) {
map.name = "rainsensor"
map.value = "rainSensor" + onoff
map.descriptionText = "${device.displayName} rain sensor is $onoff"
}
else {
EP -= 1
map.name = "switch" + EP
map.value = "z" + EP + onoff
map.descriptionText = "${device.displayName} turned Zone $EP $onoff"
}
map.isStateChange = true
map.displayed = true
return map
}
def getAlarm(descMap){
def map = [:]
map.name = "status"
def alarmID = Integer.parseInt(descMap.value.trim(), 16)
log.debug "${alarmID}"
if(alarmID <= 0) map.descriptionText = "${device.displayName} has rebooted, no other alarms"
else map.descriptionText = "${device.displayName} rebooted, reported error on zone ${alarmID - 1}, please check zone is working correctly"
map.value = "alarm"
map.isStateChange = true
map.displayed = true
return map
}
//status notify and change status
def notify(value, text){
sendEvent(name:"status", value:"$value", descriptionText:"$text", isStateChange: true, display: false)
}
//prefrences - rain sensor, manual time
def rain() {
log.debug "Rain $RainEnable"
if (RainEnable) "st wattr 0x${device.deviceNetworkId} 18 0x0F 0x51 0x10 {01}"
else "st wattr 0x${device.deviceNetworkId} 18 0x0F 0x51 0x10 {00}"
}
def manual(){
log.debug "Time $ManualTime"
def mTime = 10
if (ManualTime) mTime = ManualTime
def manualTime = hex(mTime)
"st wattr 0x${device.deviceNetworkId} 1 6 0x4002 0x21 {00${manualTime}}"
}
//write switch time settings map
def settingsMap(WriteTimes, attrType){
log.debug WriteTimes
def i = 1
def runTime
def sendCmds = []
while(i <= 17){
if (WriteTimes."${i}"){
runTime = hex(Integer.parseInt(WriteTimes."${i}"))
log.debug "${i} : $runTime"
if (attrType == 4001) sendCmds.push("st wattr 0x${device.deviceNetworkId} ${i} 0x06 0x4001 0x21 {00${runTime}}")
else sendCmds.push("st wattr 0x${device.deviceNetworkId} ${i} 0x06 0x4002 0x21 {00${runTime}}")
sendCmds.push("delay 500")
}
i++
}
return sendCmds
}
//send switch time
def writeType(wEP, cycle){
log.debug "wt ${wEP} ${cycle}"
"st wattr 0x${device.deviceNetworkId} ${wEP} 0x06 0x4001 0x21 {00" + hex(cycle) + "}"
}
//send switch off time
def writeTime(wEP, runTime){
"st wattr 0x${device.deviceNetworkId} ${wEP} 0x06 0x4002 0x21 {00" + hex(runTime) + "}"
}
//set reporting and binding
def configure() {
String zigbeeId = swapEndianHex(device.hub.zigbeeId)
log.debug "Confuguring Reporting and Bindings ${device.deviceNetworkId} ${device.zigbeeId}"
sendEvent(name: 'configuration',value: 100, descriptionText: "Configuration initialized")
def configCmds = [
//program on/off
"zdo bind 0x${device.deviceNetworkId} 1 1 6 {${device.zigbeeId}} {}", "delay 1000",
"zdo bind 0x${device.deviceNetworkId} 1 1 0x09 {${device.zigbeeId}} {}", "delay 1000",
"zdo bind 0x${device.deviceNetworkId} 1 1 0x0F {${device.zigbeeId}} {}", "delay 1000",
//zones 1-8
"zdo bind 0x${device.deviceNetworkId} 2 1 0x0F {${device.zigbeeId}} {}", "delay 1000",
"zdo bind 0x${device.deviceNetworkId} 3 1 0x0F {${device.zigbeeId}} {}", "delay 1000",
"zdo bind 0x${device.deviceNetworkId} 4 1 0x0F {${device.zigbeeId}} {}", "delay 1000",
"zdo bind 0x${device.deviceNetworkId} 5 1 0x0F {${device.zigbeeId}} {}", "delay 1000",
"zdo bind 0x${device.deviceNetworkId} 6 1 0x0F {${device.zigbeeId}} {}", "delay 1000",
"zdo bind 0x${device.deviceNetworkId} 7 1 0x0F {${device.zigbeeId}} {}", "delay 1000",
"zdo bind 0x${device.deviceNetworkId} 8 1 0x0F {${device.zigbeeId}} {}", "delay 1000",
"zdo bind 0x${device.deviceNetworkId} 9 1 0x0F {${device.zigbeeId}} {}", "delay 1000",
//zones 9-16
"zdo bind 0x${device.deviceNetworkId} 10 1 0x0F {${device.zigbeeId}} {}", "delay 1000",
"zdo bind 0x${device.deviceNetworkId} 11 1 0x0F {${device.zigbeeId}} {}", "delay 1000",
"zdo bind 0x${device.deviceNetworkId} 12 1 0x0F {${device.zigbeeId}} {}", "delay 1000",
"zdo bind 0x${device.deviceNetworkId} 13 1 0x0F {${device.zigbeeId}} {}", "delay 1000",
"zdo bind 0x${device.deviceNetworkId} 14 1 0x0F {${device.zigbeeId}} {}", "delay 1000",
"zdo bind 0x${device.deviceNetworkId} 15 1 0x0F {${device.zigbeeId}} {}", "delay 1000",
"zdo bind 0x${device.deviceNetworkId} 16 1 0x0F {${device.zigbeeId}} {}", "delay 1000",
"zdo bind 0x${device.deviceNetworkId} 17 1 0x0F {${device.zigbeeId}} {}", "delay 1000",
//rain sensor
"zdo bind 0x${device.deviceNetworkId} 18 1 0x0F {${device.zigbeeId}} {}",
"zcl global send-me-a-report 6 0 0x10 1 0 {01}", "delay 500",
"send 0x${device.deviceNetworkId} 1 1", "delay 500",
"zcl global send-me-a-report 0x0F 0x55 0x10 1 0 {01}", "delay 500",
"send 0x${device.deviceNetworkId} 1 1", "delay 500",
"zcl global send-me-a-report 0x0F 0x55 0x10 1 0 {01}", "delay 500",
"send 0x${device.deviceNetworkId} 1 2", "delay 500",
"zcl global send-me-a-report 0x0F 0x55 0x10 1 0 {01}", "delay 500",
"send 0x${device.deviceNetworkId} 1 3", "delay 500",
"zcl global send-me-a-report 0x0F 0x55 0x10 1 0 {01}", "delay 500",
"send 0x${device.deviceNetworkId} 1 4", "delay 500",
"zcl global send-me-a-report 0x0F 0x55 0x10 1 0 {01}", "delay 500",
"send 0x${device.deviceNetworkId} 1 5", "delay 500",
"zcl global send-me-a-report 0x0F 0x55 0x10 1 0 {01}", "delay 500",
"send 0x${device.deviceNetworkId} 1 6", "delay 500",
"zcl global send-me-a-report 0x0F 0x55 0x10 1 0 {01}", "delay 500",
"send 0x${device.deviceNetworkId} 1 7", "delay 500",
"zcl global send-me-a-report 0x0F 0x55 0x10 1 0 {01}", "delay 500",
"send 0x${device.deviceNetworkId} 1 8", "delay 500",
"zcl global send-me-a-report 0x0F 0x55 0x10 1 0 {01}", "delay 500",
"send 0x${device.deviceNetworkId} 1 9", "delay 500",
"zcl global send-me-a-report 0x0F 0x55 0x10 1 0 {01}", "delay 500",
"send 0x${device.deviceNetworkId} 1 10", "delay 500",
"zcl global send-me-a-report 0x0F 0x55 0x10 1 0 {01}", "delay 500",
"send 0x${device.deviceNetworkId} 1 11", "delay 500",
"zcl global send-me-a-report 0x0F 0x55 0x10 1 0 {01}", "delay 500",
"send 0x${device.deviceNetworkId} 1 12", "delay 500",
"zcl global send-me-a-report 0x0F 0x55 0x10 1 0 {01}", "delay 500",
"send 0x${device.deviceNetworkId} 1 13", "delay 500",
"zcl global send-me-a-report 0x0F 0x55 0x10 1 0 {01}", "delay 500",
"send 0x${device.deviceNetworkId} 1 14", "delay 500",
"zcl global send-me-a-report 0x0F 0x55 0x10 1 0 {01}", "delay 500",
"send 0x${device.deviceNetworkId} 1 15", "delay 500",
"zcl global send-me-a-report 0x0F 0x55 0x10 1 0 {01}", "delay 500",
"send 0x${device.deviceNetworkId} 1 16", "delay 500",
"zcl global send-me-a-report 0x0F 0x55 0x10 1 0 {01}", "delay 500",
"send 0x${device.deviceNetworkId} 1 17", "delay 500",
"zcl global send-me-a-report 0x0F 0x55 0x10 1 0 {01}", "delay 500",
"send 0x${device.deviceNetworkId} 1 18", "delay 500",
"zcl global send-me-a-report 0x09 0x00 0x21 1 0 {00}", "delay 500",
"send 0x${device.deviceNetworkId} 1 1", "delay 500"
]
return configCmds + rain() + manual()
}
private hex(value) {
new BigInteger(Math.round(value).toString()).toString(16)
}
private String swapEndianHex(String hex) {
reverseArray(hex.decodeHex()).encodeHex()
}
private byte[] reverseArray(byte[] array) {
int i = 0;
int j = array.length - 1;
byte tmp;
while (j > i) {
tmp = array[j];
array[j] = array[i];
array[i] = tmp;
j--;
i++;
}
return array
}
def refresh() {
log.debug "refresh"
def refreshCmds = [
"st rattr 0x${device.deviceNetworkId} 1 0x0F 0x55", "delay 500",
"st rattr 0x${device.deviceNetworkId} 2 0x0F 0x55", "delay 500",
"st rattr 0x${device.deviceNetworkId} 3 0x0F 0x55", "delay 500",
"st rattr 0x${device.deviceNetworkId} 4 0x0F 0x55", "delay 500",
"st rattr 0x${device.deviceNetworkId} 5 0x0F 0x55", "delay 500",
"st rattr 0x${device.deviceNetworkId} 6 0x0F 0x55", "delay 500",
"st rattr 0x${device.deviceNetworkId} 7 0x0F 0x55", "delay 500",
"st rattr 0x${device.deviceNetworkId} 8 0x0F 0x55", "delay 500",
"st rattr 0x${device.deviceNetworkId} 9 0x0F 0x55", "delay 500",
"st rattr 0x${device.deviceNetworkId} 10 0x0F 0x55", "delay 500",
"st rattr 0x${device.deviceNetworkId} 11 0x0F 0x55", "delay 500",
"st rattr 0x${device.deviceNetworkId} 12 0x0F 0x55", "delay 500",
"st rattr 0x${device.deviceNetworkId} 13 0x0F 0x55", "delay 500",
"st rattr 0x${device.deviceNetworkId} 14 0x0F 0x55", "delay 500",
"st rattr 0x${device.deviceNetworkId} 15 0x0F 0x55", "delay 500",
"st rattr 0x${device.deviceNetworkId} 16 0x0F 0x55", "delay 500",
"st rattr 0x${device.deviceNetworkId} 17 0x0F 0x55", "delay 500",
"st rattr 0x${device.deviceNetworkId} 18 0x0F 0x51","delay 500",
]
return refreshCmds + rain() + manual()
}
// Commands to device
//zones on - 8
def on() {
//sendEvent(name:"status", value:"active", descriptionText:"Program Running", isStateChange: true, display: false)
log.debug "on"
"st cmd 0x${device.deviceNetworkId} 1 6 1 {}"
}
def off() {
log.debug "off"
"st cmd 0x${device.deviceNetworkId} 1 6 0 {}"
}
def z1on() {
"st cmd 0x${device.deviceNetworkId} 2 6 1 {}"
}
def z1off() {
"st cmd 0x${device.deviceNetworkId} 2 6 0 {}"
}
def z2on() {
"st cmd 0x${device.deviceNetworkId} 3 6 1 {}"
}
def z2off() {
"st cmd 0x${device.deviceNetworkId} 3 6 0 {}"
}
def z3on() {
"st cmd 0x${device.deviceNetworkId} 4 6 1 {}"
}
def z3off() {
"st cmd 0x${device.deviceNetworkId} 4 6 0 {}"
}
def z4on() {
"st cmd 0x${device.deviceNetworkId} 5 6 1 {}"
}
def z4off() {
"st cmd 0x${device.deviceNetworkId} 5 6 0 {}"
}
def z5on() {
"st cmd 0x${device.deviceNetworkId} 6 6 1 {}"
}
def z5off() {
"st cmd 0x${device.deviceNetworkId} 6 6 0 {}"
}
def z6on() {
"st cmd 0x${device.deviceNetworkId} 7 6 1 {}"
}
def z6off() {
"st cmd 0x${device.deviceNetworkId} 7 6 0 {}"
}
def z7on() {
"st cmd 0x${device.deviceNetworkId} 8 6 1 {}"
}
def z7off() {
"st cmd 0x${device.deviceNetworkId} 8 6 0 {}"
}
def z8on() {
"st cmd 0x${device.deviceNetworkId} 9 6 1 {}"
}
def z8off() {
"st cmd 0x${device.deviceNetworkId} 9 6 0 {}"
}
//zones 9 - 16
def z9on() {
"st cmd 0x${device.deviceNetworkId} 10 6 1 {}"
}
def z9off() {
"st cmd 0x${device.deviceNetworkId} 10 6 0 {}"
}
def z10on() {
"st cmd 0x${device.deviceNetworkId} 11 6 1 {}"
}
def z10off() {
"st cmd 0x${device.deviceNetworkId} 11 6 0 {}"
}
def z11on() {
"st cmd 0x${device.deviceNetworkId} 12 6 1 {}"
}
def z11off() {
"st cmd 0x${device.deviceNetworkId} 12 6 0 {}"
}
def z12on() {
"st cmd 0x${device.deviceNetworkId} 13 6 1 {}"
}
def z12off() {
"st cmd 0x${device.deviceNetworkId} 13 6 0 {}"
}
def z13on() {
"st cmd 0x${device.deviceNetworkId} 14 6 1 {}"
}
def z13off() {
"st cmd 0x${device.deviceNetworkId} 14 6 0 {}"
}
def z14on() {
"st cmd 0x${device.deviceNetworkId} 15 6 1 {}"
}
def z14off() {
"st cmd 0x${device.deviceNetworkId} 15 6 0 {}"
}
def z15on() {
"st cmd 0x${device.deviceNetworkId} 16 6 1 {}"
}
def z15off() {
"st cmd 0x${device.deviceNetworkId} 16 6 0 {}"
}
def z16on() {
"st cmd 0x${device.deviceNetworkId} 17 6 1 {}"
}
def z16off() {
"st cmd 0x${device.deviceNetworkId} 17 6 0 {}"
}

398
devicetypes/plaidsystems/spruce-sensor.src/spruce-sensor.groovy
View File

@@ -1,398 +0,0 @@
/**
* Spruce Sensor -Pre-release V2 10/8/2015
*
* Copyright 2014 Plaid Systems
*
* Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except
* in compliance with the License. You may obtain a copy of the License at:
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software distributed under the License is distributed
* on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License
* for the specific language governing permissions and limitations under the License.
*
-------10/20/2015 Updates--------
-Fix/add battery reporting interval to update
-remove polling and/or refresh(?)
*/
metadata {
definition (name: "Spruce Sensor", namespace: "plaidsystems", author: "NCauffman") {
capability "Configuration"
capability "Battery"
capability "Relative Humidity Measurement"
capability "Temperature Measurement"
capability "Sensor"
//capability "Polling"
attribute "maxHum", "string"
attribute "minHum", "string"
command "resetHumidity"
command "refresh"
fingerprint profileId: "0104", inClusters: "0000,0001,0003,0402,0405", outClusters: "0003, 0019", manufacturer: "PLAID SYSTEMS", model: "PS-SPRZMS-01"
}
preferences {
input 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", title: ""
input "tempOffset", "number", title: "Temperature Offset", description: "Adjust temperature by this many degrees", range: "*..*", displayDuringSetup: false
input "interval", "number", title: "Measurement Interval 1-120 minutes (default: 10 minutes)", description: "Set how often you would like to check soil moisture in minutes", range: "1..120", defaultValue: 10, displayDuringSetup: false
input "resetMinMax", "bool", title: "Reset Humidity min and max", required: false, displayDuringSetup: false
}
tiles {
valueTile("temperature", "device.temperature", canChangeIcon: false, canChangeBackground: false) {
state "temperature", label:'${currentValue}°',
backgroundColors:[
[value: 31, color: "#153591"],
[value: 44, color: "#1e9cbb"],
[value: 59, color: "#90d2a7"],
[value: 74, color: "#44b621"],
[value: 84, color: "#f1d801"],
[value: 95, color: "#d04e00"],
[value: 96, color: "#bc2323"]
]
}
valueTile("humidity", "device.humidity", width: 2, height: 2, canChangeIcon: false, canChangeBackground: true) {
state "humidity", label:'${currentValue}%', unit:"",
backgroundColors:[
[value: 0, color: "#635C0C"],
[value: 16, color: "#EBEB21"],
[value: 22, color: "#C7DE6A"],
[value: 42, color: "#9AD290"],
[value: 64, color: "#44B621"],
[value: 80, color: "#3D79D9"],
[value: 96, color: "#0A50C2"]
]
}
valueTile("maxHum", "device.maxHum", canChangeIcon: false, canChangeBackground: false) {
state "maxHum", label:'High ${currentValue}%', unit:"",
backgroundColors:[
[value: 0, color: "#635C0C"],
[value: 16, color: "#EBEB21"],
[value: 22, color: "#C7DE6A"],
[value: 42, color: "#9AD290"],
[value: 64, color: "#44B621"],
[value: 80, color: "#3D79D9"],
[value: 96, color: "#0A50C2"]
]
}
valueTile("minHum", "device.minHum", canChangeIcon: false, canChangeBackground: false) {
state "minHum", label:'Low ${currentValue}%', unit:"",
backgroundColors:[
[value: 0, color: "#635C0C"],
[value: 16, color: "#EBEB21"],
[value: 22, color: "#C7DE6A"],
[value: 42, color: "#9AD290"],
[value: 64, color: "#44B621"],
[value: 80, color: "#3D79D9"],
[value: 96, color: "#0A50C2"]
]
}
valueTile("battery", "device.battery", decoration: "flat", canChangeIcon: false, canChangeBackground: false) {
state "battery", label:'${currentValue}% battery'
}
main (["humidity"])
details(["humidity","maxHum","minHum","temperature","battery"])
}
}
def parse(String description) {
log.debug "Parse description $description config: ${device.latestValue('configuration')} interval: $interval"
Map map = [:]
if (description?.startsWith('catchall:')) {
map = parseCatchAllMessage(description)
}
else if (description?.startsWith('read attr -')) {
map = parseReportAttributeMessage(description)
}
else if (description?.startsWith('temperature: ') || description?.startsWith('humidity: ')) {
map = parseCustomMessage(description)
}
def result = map ? createEvent(map) : null
//check in configuration change
if (!device.latestValue('configuration')) result = poll()
if (device.latestValue('configuration').toInteger() != interval && interval != null) {
result = poll()
}
log.debug "result: $result"
return result
}
private Map parseCatchAllMessage(String description) {
Map resultMap = [:]
def linkText = getLinkText(device)
//log.debug "Catchall"
def descMap = zigbee.parse(description)
//check humidity configuration is complete
if (descMap.command == 0x07 && descMap.clusterId == 0x0405){
def configInterval = 10
if (interval != null) configInterval = interval
sendEvent(name: 'configuration',value: configInterval, descriptionText: "Configuration Successful")
//setConfig()
log.debug "config complete"
//return resultMap = [name: 'configuration', value: configInterval, descriptionText: "Settings configured successfully"]
}
else if (descMap.command == 0x0001){
def hexString = "${hex(descMap.data[5])}" + "${hex(descMap.data[4])}"
def intString = Integer.parseInt(hexString, 16)
//log.debug "command: $descMap.command clusterid: $descMap.clusterId $hexString $intString"
if (descMap.clusterId == 0x0402){
def value = getTemperature(hexString)
resultMap = getTemperatureResult(value)
}
else if (descMap.clusterId == 0x0405){
def value = Math.round(new BigDecimal(intString / 100)).toString()
resultMap = getHumidityResult(value)
}
else return null
}
else return null
return resultMap
}
private Map parseReportAttributeMessage(String description) {
def descMap = parseDescriptionAsMap(description)
log.debug "Desc Map: $descMap"
log.debug "Report Attributes"
Map resultMap = [:]
if (descMap.cluster == "0001" && descMap.attrId == "0000") {
resultMap = getBatteryResult(descMap.value)
}
return resultMap
}
def parseDescriptionAsMap(description) {
(description - "read attr - ").split(",").inject([:]) { map, param ->
def nameAndValue = param.split(":")
map += [(nameAndValue[0].trim()):nameAndValue[1].trim()]
}
}
private Map parseCustomMessage(String description) {
Map resultMap = [:]
log.debug "parseCustom"
if (description?.startsWith('temperature: ')) {
def value = zigbee.parseHATemperatureValue(description, "temperature: ", getTemperatureScale())
resultMap = getTemperatureResult(value)
}
else if (description?.startsWith('humidity: ')) {
def pct = (description - "humidity: " - "%").trim()
if (pct.isNumber()) {
def value = Math.round(new BigDecimal(pct)).toString()
resultMap = getHumidityResult(value)
} else {
log.error "invalid humidity: ${pct}"
}
}
return resultMap
}
private Map getHumidityResult(value) {
def linkText = getLinkText(device)
def maxHumValue = 0
def minHumValue = 0
if (device.currentValue("maxHum") != null) maxHumValue = device.currentValue("maxHum").toInteger()
if (device.currentValue("minHum") != null) minHumValue = device.currentValue("minHum").toInteger()
log.debug "Humidity max: ${maxHumValue} min: ${minHumValue}"
def compare = value.toInteger()
if (compare > maxHumValue) {
sendEvent(name: 'maxHum', value: value, unit: '%', descriptionText: "${linkText} soil moisture high is ${value}%")
}
else if (((compare < minHumValue) || (minHumValue <= 2)) && (compare != 0)) {
sendEvent(name: 'minHum', value: value, unit: '%', descriptionText: "${linkText} soil moisture low is ${value}%")
}
return [
name: 'humidity',
value: value,
unit: '%',
descriptionText: "${linkText} soil moisture is ${value}%"
]
}
def getTemperature(value) {
def celsius = (Integer.parseInt(value, 16).shortValue()/100)
//log.debug "Report Temp $value : $celsius C"
if(getTemperatureScale() == "C"){
return celsius
} else {
return celsiusToFahrenheit(celsius) as Integer
}
}
private Map getTemperatureResult(value) {
log.debug "Temperature: $value"
def linkText = getLinkText(device)
if (tempOffset) {
def offset = tempOffset as int
def v = value as int
value = v + offset
}
def descriptionText = "${linkText} is ${value}°${temperatureScale}"
return [
name: 'temperature',
value: value,
descriptionText: descriptionText,
unit: temperatureScale
]
}
private Map getBatteryResult(value) {
log.debug 'Battery'
def linkText = getLinkText(device)
def result = [
name: 'battery'
]
def min = 2500
def percent = ((Integer.parseInt(value, 16) - min) / 5)
percent = Math.max(0, Math.min(percent, 100.0))
result.value = Math.round(percent)
def descriptionText
if (percent < 10) result.descriptionText = "${linkText} battery is getting low $percent %."
else result.descriptionText = "${linkText} battery is ${result.value}%"
return result
}
def resetHumidity(){
def linkText = getLinkText(device)
def minHumValue = 0
def maxHumValue = 0
sendEvent(name: 'minHum', value: minHumValue, unit: '%', descriptionText: "${linkText} min soil moisture reset to ${minHumValue}%")
sendEvent(name: 'maxHum', value: maxHumValue, unit: '%', descriptionText: "${linkText} max soil moisture reset to ${maxHumValue}%")
}
def setConfig(){
def configInterval = 100
if (interval != null) configInterval = interval
sendEvent(name: 'configuration',value: configInterval, descriptionText: "Configuration initialized")
}
//when device preferences are changed
def updated(){
log.debug "device updated"
if (!device.latestValue('configuration')) configure()
else{
if (resetMinMax == true) resetHumidity()
if (device.latestValue('configuration').toInteger() != interval && interval != null){
sendEvent(name: 'configuration',value: 0, descriptionText: "Settings changed and will update at next report. Measure interval set to ${interval} mins")
}
}
}
//poll
def poll() {
log.debug "poll called"
List cmds = []
if (!device.latestValue('configuration')) cmds += configure()
else if (device.latestValue('configuration').toInteger() != interval && interval != null) {
cmds += intervalUpdate()
}
//cmds += refresh()
log.debug "commands $cmds"
return cmds?.collect { new physicalgraph.device.HubAction(it) }
}
//update intervals
def intervalUpdate(){
log.debug "intervalUpdate"
def minReport = 10
def maxReport = 610
if (interval != null) {
minReport = interval
maxReport = interval * 61
}
[
"zcl global send-me-a-report 0x405 0x0000 0x21 $minReport $maxReport {6400}", "delay 500",
"send 0x${device.deviceNetworkId} 1 1", "delay 500",
"zcl global send-me-a-report 1 0x0000 0x21 0x0C 0 {0500}", "delay 500",
"send 0x${device.deviceNetworkId} 1 1", "delay 500",
]
}
def refresh() {
log.debug "refresh"
[
"st rattr 0x${device.deviceNetworkId} 1 0x402 0", "delay 500",
"st rattr 0x${device.deviceNetworkId} 1 0x405 0", "delay 500",
"st rattr 0x${device.deviceNetworkId} 1 1 0"
]
}
//configure
def configure() {
//set minReport = measurement in minutes
def minReport = 10
def maxReport = 610
//String zigbeeId = swapEndianHex(device.hub.zigbeeId)
//log.debug "zigbeeid ${device.zigbeeId} deviceId ${device.deviceNetworkId}"
if (!device.zigbeeId) sendEvent(name: 'configuration',value: 0, descriptionText: "Device Zigbee Id not found, remove and attempt to rejoin device")
else sendEvent(name: 'configuration',value: 100, descriptionText: "Configuration initialized")
//log.debug "Configuring Reporting and Bindings. min: $minReport max: $maxReport "
[
"zdo bind 0x${device.deviceNetworkId} 1 1 0x402 {${device.zigbeeId}} {}", "delay 500",
"zdo bind 0x${device.deviceNetworkId} 1 1 0x405 {${device.zigbeeId}} {}", "delay 500",
"zdo bind 0x${device.deviceNetworkId} 1 1 1 {${device.zigbeeId}} {}", "delay 1000",
//temperature
"zcl global send-me-a-report 0x402 0x0000 0x29 1 0 {3200}",
"send 0x${device.deviceNetworkId} 1 1", "delay 500",
//min = soil measure interval
"zcl global send-me-a-report 0x405 0x0000 0x21 $minReport $maxReport {6400}",
"send 0x${device.deviceNetworkId} 1 1", "delay 500",
//min = battery measure interval 1 = 1 hour
"zcl global send-me-a-report 1 0x0000 0x21 0x0C 0 {0500}",
"send 0x${device.deviceNetworkId} 1 1", "delay 500"
] + refresh()
}
private hex(value) {
new BigInteger(Math.round(value).toString()).toString(16)
}
private String swapEndianHex(String hex) {
reverseArray(hex.decodeHex()).encodeHex()
}
private byte[] reverseArray(byte[] array) {
int i = 0;
int j = array.length - 1;
byte tmp;
while (j > i) {
tmp = array[j];
array[j] = array[i];
array[i] = tmp;
j--;
i++;
}
return array
}

128
devicetypes/roomieremote-agent/simple-sync.src/simple-sync.groovy
View File

@@ -1,128 +0,0 @@
/**
* Simple Sync
*
* Copyright 2015 Roomie Remote, Inc.
*
* Date: 2015-09-22
*/
metadata
{
definition (name: "Simple Sync", namespace: "roomieremote-agent", author: "Roomie Remote, Inc.")
{
capability "Media Controller"
}
// simulator metadata
simulator
{
}
// UI tile definitions
tiles
{
standardTile("mainTile", "device.status", width: 1, height: 1, icon: "st.Entertainment.entertainment11")
{
state "default", label: "Simple Sync", icon: "st.Home.home2", backgroundColor: "#55A7FF"
}
def detailTiles = ["mainTile"]
main "mainTile"
details(detailTiles)
}
}
def parse(String description)
{
def results = []
try
{
def msg = parseLanMessage(description)
if (msg.headers && msg.body)
{
switch (msg.headers["X-Roomie-Echo"])
{
case "getAllActivities":
handleGetAllActivitiesResponse(msg)
break
}
}
}
catch (Throwable t)
{
sendEvent(name: "parseError", value: "$t", description: description)
throw t
}
results
}
def handleGetAllActivitiesResponse(response)
{
def body = parseJson(response.body)
if (body.status == "success")
{
def json = new groovy.json.JsonBuilder()
def root = json activities: body.data
def data = json.toString()
sendEvent(name: "activities", value: data)
}
}
def getAllActivities(evt)
{
def host = getHostAddress(device.deviceNetworkId)
def action = new physicalgraph.device.HubAction(method: "GET",
path: "/api/v1/activities",
headers: [HOST: host, "X-Roomie-Echo": "getAllActivities"])
action
}
def startActivity(evt)
{
def uuid = evt
def host = getHostAddress(device.deviceNetworkId)
def activity = new groovy.json.JsonSlurper().parseText(device.currentValue('activities') ?: "{ 'activities' : [] }").activities.find { it.uuid == uuid }
def toggle = activity["toggle"]
def jsonMap = ["activity_uuid": uuid]
if (toggle != null)
{
jsonMap << ["toggle_state": toggle ? "on" : "off"]
}
def json = new groovy.json.JsonBuilder(jsonMap)
def jsonBody = json.toString()
def headers = [HOST: host, "Content-Type": "application/json"]
def action = new physicalgraph.device.HubAction(method: "POST",
path: "/api/v1/runactivity",
body: jsonBody,
headers: headers)
action
}
def getHostAddress(d)
{
def parts = d.split(":")
def ip = convertHexToIP(parts[0])
def port = convertHexToInt(parts[1])
return ip + ":" + port
}
def String convertHexToIP(hex)
{
[convertHexToInt(hex[0..1]),convertHexToInt(hex[2..3]),convertHexToInt(hex[4..5]),convertHexToInt(hex[6..7])].join(".")
}
def Integer convertHexToInt(hex)
{
Integer.parseInt(hex,16)
}

14
devicetypes/smartthings/aeon-key-fob.src/aeon-key-fob.groovy
View File

@@ -15,7 +15,6 @@ metadata {
definition (name: "Aeon Key Fob", namespace: "smartthings", author: "SmartThings") {
capability "Actuator"
capability "Button"
capability "Holdable Button"
capability "Configuration"
capability "Sensor"
capability "Battery"
@@ -119,16 +118,3 @@ def configure() {
log.debug("Sending configuration: $cmd")
return cmd
}
def installed() {
initialize()
}
def updated() {
initialize()
}
def initialize() {
sendEvent(name: "numberOfButtons", value: 4)
}

14
devicetypes/smartthings/aeon-minimote.src/aeon-minimote.groovy
View File

@@ -15,7 +15,6 @@ metadata {
definition (name: "Aeon Minimote", namespace: "smartthings", author: "SmartThings") {
capability "Actuator"
capability "Button"
capability "Holdable Button"
capability "Configuration"
capability "Sensor"
@@ -108,16 +107,3 @@ def configure() {
log.debug("Sending configuration: $cmds")
return cmds
}
def installed() {
initialize()
}
def updated() {
initialize()
}
def initialize() {
sendEvent(name: "numberOfButtons", value: 4)
}

3
devicetypes/smartthings/aeon-multisensor-6.src/aeon-multisensor-6.groovy
View File

@@ -28,7 +28,6 @@ metadata {
attribute "powerSupply", "enum", ["USB Cable", "Battery"]
fingerprint deviceId: "0x2101", inClusters: "0x5E,0x86,0x72,0x59,0x85,0x73,0x71,0x84,0x80,0x30,0x31,0x70,0x7A", outClusters: "0x5A"
fingerprint deviceId: "0x2101", inClusters: "0x5E,0x86,0x72,0x59,0x85,0x73,0x71,0x84,0x80,0x30,0x31,0x70,0x7A,0x5A"
}
simulator {
@@ -353,7 +352,7 @@ def configure() {
motionSensitivity == "minimum" ? 0 : 64)
//5. report every x minutes (threshold reports don't work on battery power, default 8 mins)
request << zwave.configurationV1.configurationSet(parameterNumber: 111, size: 4, scaledConfigurationValue: timeOptionValueMap[reportInterval] ?: (8*60)) //association group 1
request << zwave.configurationV1.configurationSet(parameterNumber: 111, size: 4, scaledConfigurationValue: timeOptionValueMap[reportInterval] ?: 8*60) //association group 1
request << zwave.configurationV1.configurationSet(parameterNumber: 112, size: 4, scaledConfigurationValue: 6*60*60) //association group 2

2
devicetypes/smartthings/aeon-multisensor-gen5.src/aeon-multisensor-gen5.groovy
View File

@@ -21,8 +21,6 @@ metadata {
capability "Sensor"
capability "Battery"
command "configureAfterSecure"
fingerprint deviceId: "0x0701", inClusters: "0x5E,0x86,0x72,0x59,0x85,0x73,0x71,0x84,0x80,0x30,0x31,0x70,0x98,0x7A", outClusters:"0x5A"
}

169
devicetypes/smartthings/arrival-sensor-ha.src/arrival-sensor-ha.groovy
View File

@@ -1,169 +0,0 @@
/**
* Copyright 2016 SmartThings
*
* Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except
* in compliance with the License. You may obtain a copy of the License at:
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software distributed under the License is distributed
* on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License
* for the specific language governing permissions and limitations under the License.
*
*/
metadata {
definition (name: "Arrival Sensor HA", namespace: "smartthings", author: "SmartThings") {
capability "Tone"
capability "Actuator"
capability "Presence Sensor"
capability "Sensor"
capability "Battery"
capability "Configuration"
fingerprint inClusters: "0000,0001,0003,000F,0020", outClusters: "0003,0019",
manufacturer: "SmartThings", model: "tagv4", deviceJoinName: "Arrival Sensor"
}
preferences {
section {
image(name: 'educationalcontent', multiple: true, images: [
"http://cdn.device-gse.smartthings.com/Arrival/Arrival1.png",
"http://cdn.device-gse.smartthings.com/Arrival/Arrival2.png"
])
}
section {
input "checkInterval", "enum", title: "Presence timeout (minutes)", description: "Tap to set",
defaultValue:"2", options: ["2", "3", "5"], displayDuringSetup: false
}
}
tiles {
standardTile("presence", "device.presence", width: 2, height: 2, canChangeBackground: true) {
state "present", labelIcon:"st.presence.tile.present", backgroundColor:"#53a7c0"
state "not present", labelIcon:"st.presence.tile.not-present", backgroundColor:"#ffffff"
}
standardTile("beep", "device.beep", decoration: "flat") {
state "beep", label:'', action:"tone.beep", icon:"st.secondary.beep", backgroundColor:"#ffffff"
}
valueTile("battery", "device.battery", decoration: "flat", inactiveLabel: false) {
state "battery", label:'${currentValue}% battery', unit:""
}
main "presence"
details(["presence", "beep", "battery"])
}
}
def updated() {
startTimer()
}
def configure() {
def cmds = zigbee.batteryConfig(20, 20, 0x01)
log.debug "configure -- cmds: ${cmds}"
return cmds
}
def beep() {
log.debug "Sending Identify command to beep the sensor for 5 seconds"
return zigbee.command(0x0003, 0x00, "0500")
}
def parse(String description) {
state.lastCheckin = now()
handlePresenceEvent(true)
if (description?.startsWith('read attr -')) {
handleReportAttributeMessage(description)
}
return []
}
private handleReportAttributeMessage(String description) {
def descMap = zigbee.parseDescriptionAsMap(description)
if (descMap.clusterInt == 0x0001 && descMap.attrInt == 0x0020) {
handleBatteryEvent(Integer.parseInt(descMap.value, 16))
}
}
/**
* Create battery event from reported battery voltage.
*
* @param volts Battery voltage in .1V increments
*/
private handleBatteryEvent(volts) {
def descriptionText
if (volts == 0 || volts == 255) {
log.debug "Ignoring invalid value for voltage (${volts/10}V)"
}
else {
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 value = batteryMap[volts]
if (value != null) {
def linkText = getLinkText(device)
descriptionText = '{{ linkText }} battery was {{ value }}'
def eventMap = [
name: 'battery',
value: value,
descriptionText: descriptionText,
translatable: true
]
log.debug "Creating battery event for voltage=${volts/10}V: ${linkText} ${eventMap.name} is ${eventMap.value}%"
sendEvent(eventMap)
}
}
}
private handlePresenceEvent(present) {
def wasPresent = device.currentState("presence")?.value == "present"
if (!wasPresent && present) {
log.debug "Sensor is present"
startTimer()
} else if (!present) {
log.debug "Sensor is not present"
stopTimer()
}
def linkText = getLinkText(device)
def descriptionText
if ( present )
descriptionText = "{{ linkText }} has arrived"
else
descriptionText = "{{ linkText }} has left"
def eventMap = [
name: "presence",
value: present ? "present" : "not present",
linkText: linkText,
descriptionText: descriptionText,
translatable: true
]
log.debug "Creating presence event: ${device.displayName} ${eventMap.name} is ${eventMap.value}"
sendEvent(eventMap)
}
private startTimer() {
log.debug "Scheduling periodic timer"
schedule("0 * * * * ?", checkPresenceCallback)
}
private stopTimer() {
log.debug "Stopping periodic timer"
unschedule()
}
def checkPresenceCallback() {
def timeSinceLastCheckin = (now() - state.lastCheckin) / 1000
def theCheckInterval = (checkInterval ? checkInterval as int : 2) * 60
log.debug "Sensor checked in ${timeSinceLastCheckin} seconds ago"
if (timeSinceLastCheckin >= theCheckInterval) {
handlePresenceEvent(false)
}
}

26
devicetypes/smartthings/arrival-sensor-ha.src/i18n/messages.properties
View File

@@ -1,26 +0,0 @@
# Copyright 2016 SmartThings
#
# Licensed under the Apache License, Version 2.0 (the "License"); you may not
# use this file except in compliance with the License. You may obtain a copy
# of the License at:
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
# WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
# License for the specific language governing permissions and limitations
# under the License.
# Korean (ko)
# Device Preferences
'''Give your device a name'''.ko=기기 이름 설정
'''Set Device Image'''.ko=기기 이미지 설정
'''Presence timeout (minutes)'''.ko=알람 유예 시간 설정 (분)
'''Tap to set'''.ko=눌러서 설정
'''Arrival Sensor'''.ko=도착알림 센서
'''${currentValue}% battery'''.ko=${currentValue}% 배터리
# Events / Notifications
'''{{ linkText }} battery was {{ value }}'''.ko={{ linkText }}의 남은 배터리 {{ value }}
'''{{ linkText }} has arrived'''.ko={{ linkText }} 귀가
'''{{ linkText }} has left'''.ko={{ linkText }} 외출
#==============================================================================

13
devicetypes/smartthings/arrival-sensor.src/arrival-sensor.groovy
View File

@@ -87,27 +87,16 @@ def beep() {
up to this long from the time you send the message to the time you hear a sound.
*/
// Used source endpoint of 0x02 because we are using smartthings manufacturer specific cluster.
[
"raw 0xFC05 {15 0A 11 00 00 15 01}",
"delay 200",
"send 0x$zigbee.deviceNetworkId 0x02 0x$zigbee.endpointId",
"delay 7000",
"raw 0xFC05 {15 0A 11 00 00 15 01}",
"delay 200",
"send 0x$zigbee.deviceNetworkId 0x02 0x$zigbee.endpointId",
"delay 7000",
"raw 0xFC05 {15 0A 11 00 00 15 01}",
"delay 200",
"send 0x$zigbee.deviceNetworkId 0x02 0x$zigbee.endpointId",
"delay 7000",
"raw 0xFC05 {15 0A 11 00 00 15 01}",
"delay 200",
"send 0x$zigbee.deviceNetworkId 0x02 0x$zigbee.endpointId",
"delay 7000",
"raw 0xFC05 {15 0A 11 00 00 15 01}",
"delay 200",
"send 0x$zigbee.deviceNetworkId 0x02 0x$zigbee.endpointId",
"raw 0xFC05 {15 0A 11 00 00 15 01}"
]
}

96
devicetypes/smartthings/bose-soundtouch.src/bose-soundtouch.groovy
View File

@@ -27,7 +27,7 @@ metadata {
capability "Switch"
capability "Refresh"
capability "Music Player"
capability "Health Check"
capability "Polling"
/**
* Define all commands, ie, if you have a custom action not
@@ -47,9 +47,6 @@ metadata {
command "everywhereJoin"
command "everywhereLeave"
command "forceOff"
command "forceOn"
}
/**
@@ -67,10 +64,8 @@ metadata {
}
standardTile("switch", "device.switch", width: 1, height: 1, canChangeIcon: true) {
state "on", label: '${name}', action: "forceOff", icon: "st.Electronics.electronics16", backgroundColor: "#79b821", nextState:"turningOff"
state "turningOff", label:'TURNING OFF', icon:"st.Electronics.electronics16", backgroundColor:"#ffffff"
state "off", label: '${name}', action: "forceOn", icon: "st.Electronics.electronics16", backgroundColor: "#ffffff", nextState:"turningOn"
state "turningOn", label:'TURNING ON', icon:"st.Electronics.electronics16", backgroundColor:"#79b821"
state "off", label: '${name}', action: "switch.on", icon: "st.Electronics.electronics16", backgroundColor: "#ffffff"
state "on", label: '${name}', action: "switch.off", icon: "st.Electronics.electronics16", backgroundColor: "#79b821"
}
valueTile("1", "device.station1", decoration: "flat", canChangeIcon: false) {
state "station1", label:'${currentValue}', action:"preset1"
@@ -143,22 +138,8 @@ metadata {
* one place.
*
*/
def off() {
if (device.currentState("switch")?.value == "on") {
onAction("off")
}
}
def forceOff() {
onAction("off")
}
def on() {
if (device.currentState("switch")?.value == "off") {
onAction("on")
}
}
def forceOn() {
onAction("on")
}
def off() { onAction("off") }
def on() { onAction("on") }
def volup() { onAction("volup") }
def voldown() { onAction("voldown") }
def preset1() { onAction("1") }
@@ -236,33 +217,7 @@ def parse(String event) {
* @return action(s) to take or null
*/
def installed() {
// Notify health check about this device with timeout interval 12 minutes
sendEvent(name: "checkInterval", value: 12 * 60, data: [protocol: "lan", hubHardwareId: device.hub.hardwareID], displayed: false)
startPoll()
}
/**
* Called by health check if no events been generated in the last 12 minutes
* If device doesn't respond it will be marked offline (not available)
*/
def ping() {
TRACE("ping")
boseSendGetNowPlaying()
}
/**
* Schedule a 2 minute poll of the device to refresh the
* tiles so the user gets the correct information.
*/
def startPoll() {
TRACE("startPoll")
unschedule()
// Schedule 2 minute polling of speaker status (song average length is 3-4 minutes)
def sec = Math.round(Math.floor(Math.random() * 60))
//def cron = "$sec 0/5 * * * ?" // every 5 min
def cron = "$sec 0/2 * * * ?" // every 2 min
log.debug "schedule('$cron', boseSendGetNowPlaying)"
schedule(cron, boseSendGetNowPlaying)
onAction("refresh")
}
/**
@@ -283,11 +238,11 @@ def onAction(String user, data=null) {
def actions = null
switch (user) {
case "on":
boseSetPowerState(true)
actions = boseSetPowerState(true)
break
case "off":
boseSetNowPlaying(null, "STANDBY")
boseSetPowerState(false)
actions = boseSetPowerState(false)
break
case "volume":
actions = boseSetVolume(data)
@@ -342,6 +297,14 @@ def onAction(String user, data=null) {
return actions
}
/**
* Called every so often (every 5 minutes actually) to refresh the
* tiles so the user gets the correct information.
*/
def poll() {
return boseRefreshNowPlaying()
}
/**
* Joins this speaker into the everywhere zone
*/
@@ -784,16 +747,8 @@ def cb_boseSetInput(xml, input) {
*/
def boseSetPowerState(boolean enable) {
log.info "boseSetPowerState(${enable})"
// Fix to get faster update of power status back from speaker after sending on/off
// Instead of queuing the command to be sent after the refresh send it directly via sendHubCommand
// Note: This is a temporary hack that should be replaced by a re-design of the
// DTH to use sendHubCommand for all commands
sendHubCommand(bosePOST("/key", "<key state=\"press\" sender=\"Gabbo\">POWER</key>"))
sendHubCommand(bosePOST("/key", "<key state=\"release\" sender=\"Gabbo\">POWER</key>"))
sendHubCommand(boseGET("/now_playing"))
if (enable) {
queueCallback('nowPlaying', "cb_boseConfirmPowerOn", 5)
}
queueCallback('nowPlaying', "cb_boseSetPowerState", enable ? "POWERON" : "POWEROFF")
return boseRefreshNowPlaying()
}
/**
@@ -832,11 +787,10 @@ def cb_boseSetPowerState(xml, state) {
*/
def cb_boseConfirmPowerOn(xml, tries) {
def result = []
def attempt = tries as Integer
log.warn "boseConfirmPowerOn() attempt #$attempt"
if (xml.attributes()['source'] == "STANDBY" && attempt > 0) {
log.warn "boseConfirmPowerOn() attempt #" + tries
if (xml.attributes()['source'] == "STANDBY" && tries > 0) {
result << boseRefreshNowPlaying()
queueCallback('nowPlaying', "cb_boseConfirmPowerOn", attempt-1)
queueCallback('nowPlaying', "cb_boseConfirmPowerOn", tries-1)
}
return result
}
@@ -855,10 +809,6 @@ def boseRefreshNowPlaying(delay=0) {
return boseGET("/now_playing")
}
def boseSendGetNowPlaying() {
sendHubCommand(boseGET("/now_playing"))
}
/**
* Requests the list of presets
*
@@ -1036,8 +986,4 @@ def boseGetDeviceID() {
*/
def getDeviceIP() {
return parent.resolveDNI2Address(device.deviceNetworkId)
}
def TRACE(text) {
log.trace "${text}"
}

146
devicetypes/smartthings/centralite-dimmer.src/centralite-dimmer.groovy Normal file
View File

@@ -0,0 +1,146 @@
/**
* Copyright 2015 SmartThings
*
* Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except
* in compliance with the License. You may obtain a copy of the License at:
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software distributed under the License is distributed
* on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License
* for the specific language governing permissions and limitations under the License.
*
* CentraLite Dimmer
*
* Author: SmartThings
* Date: 2013-12-04
*/
//DEPRECATED - Using the generic DTH for this device. Users need to be moved before deleting this DTH
metadata {
definition (name: "CentraLite Dimmer", namespace: "smartthings", author: "SmartThings") {
capability "Switch Level"
capability "Actuator"
capability "Switch"
capability "Power Meter"
capability "Configuration"
capability "Refresh"
capability "Sensor"
}
// 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") {
attributeState "on", label:'${name}', action:"switch.off", icon:"st.switches.switch.on", backgroundColor:"#79b821", nextState:"turningOff"
attributeState "off", label:'${name}', action:"switch.on", icon:"st.switches.switch.off", backgroundColor:"#ffffff", nextState:"turningOn"
attributeState "turningOn", label:'${name}', action:"switch.off", icon:"st.switches.switch.on", backgroundColor:"#79b821", nextState:"turningOff"
attributeState "turningOff", label:'${name}', action:"switch.on", icon:"st.switches.switch.off", backgroundColor:"#ffffff", nextState:"turningOn"
}
tileAttribute ("device.level", key: "SLIDER_CONTROL") {
attributeState "level", action:"switch level.setLevel"
}
tileAttribute ("power", key: "SECONDARY_CONTROL") {
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"
}
main "switch"
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
}
} 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 ${result?.descriptionText}"
return result
}
def parseDescriptionAsMap(description) {
(description - "read attr - ").split(",").inject([:]) { map, param ->
def nameAndValue = param.split(":")
map += [(nameAndValue[0].trim()):nameAndValue[1].trim()]
}
}
// Commands to device
def on() {
'zcl on-off on'
}
def off() {
'zcl on-off off'
}
def setLevel(value) {
log.trace "setLevel($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${device.deviceNetworkId} 1 0xB04 0x50B"
}
def refresh() {
"st rattr 0x${device.deviceNetworkId} 1 0xB04 0x50B"
}
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
}

57
devicetypes/smartthings/centralite-thermostat.src/centralite-thermostat.groovy
View File

@@ -81,47 +81,48 @@ metadata {
// parse events into attributes
def parse(String description) {
log.debug "Parse description $description"
List result = []
def descMap = zigbee.parseDescriptionAsMap(description)
log.debug "Desc Map: $descMap"
List attrData = [[cluster: descMap.cluster ,attrId: descMap.attrId, value: descMap.value]]
descMap.additionalAttrs.each {
attrData << [cluster: descMap.cluster, attrId: it.attrId, value: it.value]
}
attrData.each {
def map = [:]
if (it.cluster == "0201" && it.attrId == "0000") {
def map = [:]
if (description?.startsWith("read attr -")) {
def descMap = parseDescriptionAsMap(description)
log.debug "Desc Map: $descMap"
if (descMap.cluster == "0201" && descMap.attrId == "0000") {
log.debug "TEMP"
map.name = "temperature"
map.value = getTemperature(it.value)
map.unit = temperatureScale
} else if (it.cluster == "0201" && it.attrId == "0011") {
map.value = getTemperature(descMap.value)
} else if (descMap.cluster == "0201" && descMap.attrId == "0011") {
log.debug "COOLING SETPOINT"
map.name = "coolingSetpoint"
map.value = getTemperature(it.value)
map.unit = temperatureScale
} else if (it.cluster == "0201" && it.attrId == "0012") {
map.value = getTemperature(descMap.value)
} else if (descMap.cluster == "0201" && descMap.attrId == "0012") {
log.debug "HEATING SETPOINT"
map.name = "heatingSetpoint"
map.value = getTemperature(it.value)
map.unit = temperatureScale
} else if (it.cluster == "0201" && it.attrId == "001c") {
map.value = getTemperature(descMap.value)
} else if (descMap.cluster == "0201" && descMap.attrId == "001c") {
log.debug "MODE"
map.name = "thermostatMode"
map.value = getModeMap()[it.value]
} else if (it.cluster == "0202" && it.attrId == "0000") {
map.value = getModeMap()[descMap.value]
} else if (descMap.cluster == "0202" && descMap.attrId == "0000") {
log.debug "FAN MODE"
map.name = "thermostatFanMode"
map.value = getFanModeMap()[it.value]
map.value = getFanModeMap()[descMap.value]
}
if (map) {
result << createEvent(map)
}
log.debug "Parse returned $map"
}
def result = null
if (map) {
result = createEvent(map)
}
log.debug "Parse returned $map"
return result
}
def parseDescriptionAsMap(description) {
(description - "read attr - ").split(",").inject([:]) { map, param ->
def nameAndValue = param.split(":")
map += [(nameAndValue[0].trim()):nameAndValue[1].trim()]
}
}
def getModeMap() { [
"00":"off",
"03":"cool",
@@ -168,7 +169,7 @@ def setHeatingSetpoint(degrees) {
def degreesInteger = Math.round(degrees)
log.debug "setHeatingSetpoint({$degreesInteger} ${temperatureScale})"
sendEvent("name": "heatingSetpoint", "value": degreesInteger, "unit": temperatureScale)
sendEvent("name": "heatingSetpoint", "value": degreesInteger)
def celsius = (getTemperatureScale() == "C") ? degreesInteger : (fahrenheitToCelsius(degreesInteger) as Double).round(2)
"st wattr 0x${device.deviceNetworkId} 1 0x201 0x12 0x29 {" + hex(celsius * 100) + "}"
@@ -179,7 +180,7 @@ def setCoolingSetpoint(degrees) {
if (degrees != null) {
def degreesInteger = Math.round(degrees)
log.debug "setCoolingSetpoint({$degreesInteger} ${temperatureScale})"
sendEvent("name": "coolingSetpoint", "value": degreesInteger, "unit": temperatureScale)
sendEvent("name": "coolingSetpoint", "value": degreesInteger)
def celsius = (getTemperatureScale() == "C") ? degreesInteger : (fahrenheitToCelsius(degreesInteger) as Double).round(2)
"st wattr 0x${device.deviceNetworkId} 1 0x201 0x11 0x29 {" + hex(celsius * 100) + "}"
}

35
devicetypes/smartthings/cooper-rf9500.src/cooper-rf9500.groovy
View File

@@ -16,7 +16,7 @@ metadata {
capability "Switch"
capability "Switch Level"
capability "Button"
capability "Actuator"
capability "Actuator"
//fingerprint deviceId: "0x1200", inClusters: "0x77 0x86 0x75 0x73 0x85 0x72 0xEF", outClusters: "0x26"
}
@@ -74,20 +74,20 @@ def off() {
}
def levelup() {
def curlevel = device.currentValue('level') as Integer
def curlevel = device.currentValue('level') as Integer
if (curlevel <= 90)
setLevel(curlevel + 10);
setLevel(curlevel + 10);
}
def leveldown() {
def curlevel = device.currentValue('level') as Integer
def curlevel = device.currentValue('level') as Integer
if (curlevel >= 10)
setLevel(curlevel - 10)
setLevel(curlevel - 10)
}
def setLevel(value) {
log.trace "setLevel($value)"
sendEvent(name: "level", value: value)
sendEvent(name: "level", value: value)
}
def zwaveEvent(physicalgraph.zwave.commands.wakeupv1.WakeUpNotification cmd) {
@@ -106,11 +106,11 @@ def zwaveEvent(physicalgraph.zwave.commands.switchmultilevelv1.SwitchMultilevelS
if (cmd.upDown == true) {
Integer buttonid = 2
leveldown()
checkbuttonEvent(buttonid)
checkbuttonEvent(buttonid)
} else if (cmd.upDown == false) {
Integer buttonid = 3
levelup()
checkbuttonEvent(buttonid)
checkbuttonEvent(buttonid)
}
}
@@ -140,12 +140,12 @@ def buttonEvent(button) {
def result = []
if (button == 1) {
def mystate = device.currentValue('switch');
if (mystate == "on")
if (mystate == "on")
off()
else
on()
on()
}
updateState("currentButton", "$button")
updateState("currentButton", "$button")
// update the device state, recording the button press
result << createEvent(name: "button", value: "pushed", data: [buttonNumber: button], descriptionText: "$device.displayName button $button was pushed", isStateChange: true)
result
@@ -182,16 +182,3 @@ def updateState(String name, String value) {
state[name] = value
device.updateDataValue(name, value)
}
def installed() {
initialize()
}
def updated() {
initialize()
}
def initialize() {
sendEvent(name: "numberOfButtons", value: 3)
}

2
devicetypes/smartthings/cree-bulb.src/.st-ignore
View File

@@ -1,2 +0,0 @@
.st-ignore
README.md

36
devicetypes/smartthings/cree-bulb.src/README.md
View File

@@ -1,36 +0,0 @@
# Connected Cree LED Bulb
Cloud Execution
Works with:
* [Connected Cree LED Bulb](https://support.smartthings.com/hc/en-us/articles/204258280-Cree-Connected-LED-Bulb)
## Table of contents
* [Capabilities](#capabilities)
* [Health](#device-health)
## Capabilities
* **Actuator** - represents that a Device has commands
* **Configuration** - _configure()_ command called when device is installed or device preferences updated
* **Polling** - represents that poll() can be implemented for the device
* **Refresh** - _refresh()_ command for status updates
* **Switch** - can detect state (possible values: on/off)
* **Switch Level** - represents current light level, usually 0-100 in percent
* **Health Check** - indicates ability to get device health notifications
## Device Health
Connected Cree LED Bulb with cloud polling it every __5min__
SmartThings platform will ping the device after `checkInterval` seconds of inactivity in last attempt to reach the device before marking it `OFFLINE`
* __12min__ checkInterval
## Troubleshooting
If the device doesn't pair when trying from the SmartThings mobile app, it is possible that the device is out of range.
Pairing needs to be tried again by placing the device closer to the hub.
Instructions related to pairing, resetting and removing the device from SmartThings can be found in the following link:
* [Cree Connected LED Bulb Troubleshooting Tips](https://support.smartthings.com/hc/en-us/articles/204258280-Cree-Connected-LED-Bulb)

76
devicetypes/smartthings/cree-bulb.src/cree-bulb.groovy
View File

@@ -1,7 +1,7 @@
/**
* Cree Bulb
*
* Copyright 2016 SmartThings
* Copyright 2014 SmartThings
*
* Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except
* in compliance with the License. You may obtain a copy of the License at:
@@ -13,33 +13,31 @@
* for the specific language governing permissions and limitations under the License.
*
*/
metadata {
definition (name: "Cree Bulb", namespace: "smartthings", author: "SmartThings") {
definition (name: "Cree Bulb", namespace: "smartthings", author: "SmartThings") {
capability "Actuator"
capability "Actuator"
capability "Configuration"
capability "Refresh"
capability "Switch"
capability "Switch Level"
capability "Health Check"
capability "Light"
capability "Refresh"
capability "Switch"
capability "Switch Level"
fingerprint profileId: "C05E", inClusters: "0000,0003,0004,0005,0006,0008,1000", outClusters: "0000,0019"
}
fingerprint profileId: "C05E", inClusters: "0000,0003,0004,0005,0006,0008,1000", outClusters: "0000,0019"
}
// simulator metadata
simulator {
// status messages
status "on": "on/off: 1"
status "off": "on/off: 0"
// 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"
}
// reply messages
reply "zcl on-off on": "on/off: 1"
reply "zcl on-off off": "on/off: 0"
}
// UI tile definitions
// UI tile definitions
tiles(scale: 2) {
multiAttributeTile(name:"switch", type: "lighting", width: 6, height: 4, canChangeIcon: true){
tileAttribute ("device.switch", key: "PRIMARY_CONTROL") {
@@ -64,12 +62,18 @@ metadata {
def parse(String description) {
log.debug "description is $description"
def resultMap = zigbee.getEvent(description)
def resultMap = zigbee.getKnownDescription(description)
if (resultMap) {
sendEvent(resultMap)
log.info resultMap
if (resultMap.type == "update") {
log.info "$device updates: ${resultMap.value}"
}
else {
sendEvent(name: resultMap.type, value: resultMap.value)
}
}
else {
log.debug "DID NOT PARSE MESSAGE for description : $description"
log.warn "DID NOT PARSE MESSAGE for description : $description"
log.debug zigbee.parseDescriptionAsMap(description)
}
}
@@ -83,30 +87,14 @@ def on() {
}
def setLevel(value) {
zigbee.setLevel(value) + zigbee.onOffRefresh() + zigbee.levelRefresh() //adding refresh because of ZLL bulb not conforming to send-me-a-report
}
/**
* PING is used by Device-Watch in attempt to reach the Device
* */
def ping() {
return zigbee.levelRefresh()
zigbee.setLevel(value)
}
def refresh() {
zigbee.onOffRefresh() + zigbee.levelRefresh()
}
def healthPoll() {
log.debug "healthPoll()"
def cmds = zigbee.onOffRefresh() + zigbee.levelRefresh()
cmds.each{ sendHubCommand(new physicalgraph.device.HubAction(it))}
zigbee.onOffRefresh() + zigbee.levelRefresh() + zigbee.onOffConfig() + zigbee.levelConfig()
}
def configure() {
unschedule()
runEvery5Minutes("healthPoll")
// Device-Watch allows 2 check-in misses from device + ping
sendEvent(name: "checkInterval", value: 60 * 12, displayed: false, data: [protocol: "zigbee", hubHardwareId: device.hub.hardwareID])
zigbee.onOffRefresh() + zigbee.levelRefresh()
log.debug "Configuring Reporting and Bindings."
zigbee.onOffConfig() + zigbee.levelConfig() + zigbee.onOffRefresh() + zigbee.levelRefresh()
}

2
devicetypes/smartthings/dimmer-switch.src/.st-ignore
View File

@@ -1,2 +0,0 @@
.st-ignore
README.md

47
devicetypes/smartthings/dimmer-switch.src/README.md
View File

@@ -1,47 +0,0 @@
# Z-wave Dimmer Switch
Local Execution on V2 Hubs
Works with:
* [GE Z-Wave In-Wall Smart Dimmer (GE 12724)](http://products.z-wavealliance.org/products/1197)
* [GE Z-Wave In-Wall Smart Dimmer (Toggle) (GE 12729)](http://products.z-wavealliance.org/products/1201)
* [GE Z-Wave Plug-in Smart Dimmer (GE 12718)](http://products.z-wavealliance.org/products/1191)
## Table of contents
* [Capabilities](#capabilities)
* [Health](#device-health)
* [Troubleshooting](#Troubleshooting)
## Capabilities
* **Switch Level** - it's defined to accept two parameters, the level and the rate of dimming
* **Actuator** - represents that a Device has commands
* **Indicator** - gives you the ability to set the indicator LED light on a Z-Wave switch
* **Switch** - can detect state (possible values: on/off)
* **Polling** - represents that poll() can be implemented for the device
* **Refresh** - _refresh()_ command for status updates
* **Sensor** - detects sensor events
* **Health Check** - indicates ability to get device health notifications
## Device Health
Z-Wave Smart Dimmers (In-Wall, In-Wall(Toggle), Plug-In) are polled by the hub.
As of hubCore version 0.14.38 the hub sends up reports every 15 minutes regardless of whether the state changed.
Check-in interval = 32 mins.
Not to mention after going OFFLINE when the device is plugged back in, it might take a considerable amount of time for
the device to appear as ONLINE again. This is because if this listening device does not respond to two poll requests in a row,
it is not polled for 5 minutes by the hub. This can delay up the process of being marked ONLINE by quite some time.
* __32min__ checkInterval
## Troubleshooting
If the device doesn't pair when trying from the SmartThings mobile app, it is possible that the device is out of range.
Pairing needs to be tried again by placing the device closer to the hub.
Instructions related to pairing, resetting and removing the device from SmartThings can be found in the following link:
* [General Z-Wave Dimmer/Switch Troubleshooting Tips](https://support.smartthings.com/hc/en-us/articles/200955890-Troubleshooting-GE-in-wall-switch-or-dimmer-won-t-respond-to-commands-or-automations-Z-Wave-)
* [GE Z-Wave In-Wall Smart Dimmer (GE 12724) Troubleshooting Tips](https://support.smartthings.com/hc/en-us/articles/200902600-GE-In-Wall-Paddle-Dimmer-Switch-GE-12724-Z-Wave-)
* [GE Z-Wave In-Wall Smart Dimmer (Toggle) (GE 12729) Troubleshooting Tips](https://support.smartthings.com/hc/en-us/articles/207568463-GE-In-Wall-Smart-Toggle-Dimmer-GE-12729-Z-Wave-)
* [GE Z-Wave Plug-in Smart Dimmer (GE 12718) Troubleshooting Tips](https://support.smartthings.com/hc/en-us/articles/202088474-GE-Plug-In-Smart-Dimmer-GE-12718-Z-Wave-)

60
devicetypes/smartthings/dimmer-switch.src/dimmer-switch.groovy
View File

@@ -20,13 +20,8 @@ metadata {
capability "Polling"
capability "Refresh"
capability "Sensor"
capability "Health Check"
capability "Light"
fingerprint mfr:"0063", prod:"4457", deviceJoinName: "GE In-Wall Smart Dimmer "
fingerprint mfr:"0063", prod:"4944", deviceJoinName: "GE In-Wall Smart Dimmer "
fingerprint mfr:"0063", prod:"5044", deviceJoinName: "GE Plug-In Smart Dimmer "
fingerprint mfr:"0063", prod:"4944", model:"3034", deviceJoinName: "GE In-Wall Smart Fan Control"
fingerprint inClusters: "0x26"
}
simulator {
@@ -47,10 +42,6 @@ metadata {
reply "200163,delay 5000,2602": "command: 2603, payload: 63"
}
preferences {
input "ledIndicator", "enum", title: "LED Indicator", description: "Turn LED indicator... ", required: false, options:["on": "When On", "off": "When Off", "never": "Never"], defaultValue: "off"
}
tiles(scale: 2) {
multiAttributeTile(name:"switch", type: "lighting", width: 6, height: 4, canChangeIcon: true){
tileAttribute ("device.switch", key: "PRIMARY_CONTROL") {
@@ -79,30 +70,11 @@ metadata {
}
main(["switch"])
details(["switch", "level", "refresh"])
details(["switch", "level", "indicator", "refresh"])
}
}
def updated(){
// Device-Watch simply pings if no device events received for 32min(checkInterval)
sendEvent(name: "checkInterval", value: 2 * 15 * 60 + 2 * 60, displayed: false, data: [protocol: "zwave", hubHardwareId: device.hub.hardwareID])
switch (ledIndicator) {
case "on":
indicatorWhenOn()
break
case "off":
indicatorWhenOff()
break
case "never":
indicatorNever()
break
default:
indicatorWhenOn()
break
}
}
def parse(String description) {
def result = null
if (description != "updated") {
@@ -166,7 +138,6 @@ def zwaveEvent(physicalgraph.zwave.commands.manufacturerspecificv2.ManufacturerS
log.debug "productTypeId: ${cmd.productTypeId}"
def msr = String.format("%04X-%04X-%04X", cmd.manufacturerId, cmd.productTypeId, cmd.productId)
updateDataValue("MSR", msr)
updateDataValue("manufacturer", cmd.manufacturerName)
createEvent([descriptionText: "$device.displayName MSR: $msr", isStateChange: false])
}
@@ -220,13 +191,6 @@ def poll() {
zwave.switchMultilevelV1.switchMultilevelGet().format()
}
/**
* PING is used by Device-Watch in attempt to reach the Device
* */
def ping() {
refresh()
}
def refresh() {
log.debug "refresh() is called"
def commands = []
@@ -237,19 +201,19 @@ def refresh() {
delayBetween(commands,100)
}
void indicatorWhenOn() {
sendEvent(name: "indicatorStatus", value: "when on", displayed: false)
sendHubCommand(new physicalgraph.device.HubAction(zwave.configurationV1.configurationSet(configurationValue: [1], parameterNumber: 3, size: 1).format()))
def indicatorWhenOn() {
sendEvent(name: "indicatorStatus", value: "when on")
zwave.configurationV1.configurationSet(configurationValue: [1], parameterNumber: 3, size: 1).format()
}
void indicatorWhenOff() {
sendEvent(name: "indicatorStatus", value: "when off", displayed: false)
sendHubCommand(new physicalgraph.device.HubAction(zwave.configurationV1.configurationSet(configurationValue: [0], parameterNumber: 3, size: 1).format()))
def indicatorWhenOff() {
sendEvent(name: "indicatorStatus", value: "when off")
zwave.configurationV1.configurationSet(configurationValue: [0], parameterNumber: 3, size: 1).format()
}
void indicatorNever() {
sendEvent(name: "indicatorStatus", value: "never", displayed: false)
sendHubCommand(new physicalgraph.device.HubAction(zwave.configurationV1.configurationSet(configurationValue: [2], parameterNumber: 3, size: 1).format()))
def indicatorNever() {
sendEvent(name: "indicatorStatus", value: "never")
zwave.configurationV1.configurationSet(configurationValue: [2], parameterNumber: 3, size: 1).format()
}
def invertSwitch(invert=true) {
@@ -259,4 +223,4 @@ def invertSwitch(invert=true) {
else {
zwave.configurationV1.configurationSet(configurationValue: [0], parameterNumber: 4, size: 1).format()
}
}
}

35
devicetypes/smartthings/ecobee-sensor.src/ecobee-sensor.groovy
View File

@@ -1,5 +1,7 @@
/**
* Copyright 2015 SmartThings
* Ecobee Sensor
*
* Copyright 2015 Juan Risso
*
* Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except
* in compliance with the License. You may obtain a copy of the License at:
@@ -10,9 +12,6 @@
* on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License
* for the specific language governing permissions and limitations under the License.
*
* Ecobee Sensor
*
* Author: SmartThings
*/
metadata {
definition (name: "Ecobee Sensor", namespace: "smartthings", author: "SmartThings") {
@@ -20,22 +19,18 @@ metadata {
capability "Temperature Measurement"
capability "Motion Sensor"
capability "Refresh"
capability "Polling"
}
simulator {
// TODO: define status and reply messages here
}
tiles {
valueTile("temperature", "device.temperature", width: 2, height: 2) {
state("temperature", label:'${currentValue}°', unit:"F",
backgroundColors:[
// Celsius
[value: 0, color: "#153591"],
[value: 7, color: "#1e9cbb"],
[value: 15, color: "#90d2a7"],
[value: 23, color: "#44b621"],
[value: 28, color: "#f1d801"],
[value: 35, color: "#d04e00"],
[value: 37, color: "#bc2323"],
// Fahrenheit
[value: 40, color: "#153591"],
[value: 31, color: "#153591"],
[value: 44, color: "#1e9cbb"],
[value: 59, color: "#90d2a7"],
[value: 74, color: "#44b621"],
@@ -47,8 +42,8 @@ metadata {
}
standardTile("motion", "device.motion") {
state("inactive", label:'no motion', icon:"st.motion.motion.inactive", backgroundColor:"#ffffff")
state("active", label:'motion', icon:"st.motion.motion.active", backgroundColor:"#53a7c0")
state("inactive", label:'no motion', icon:"st.motion.motion.inactive", backgroundColor:"#ffffff")
}
standardTile("refresh", "device.refresh", inactiveLabel: false, decoration: "flat") {
@@ -61,12 +56,16 @@ metadata {
}
def refresh() {
log.debug "refresh called"
log.debug "refresh..."
poll()
}
void poll() {
log.debug "Executing 'poll' using parent SmartApp"
parent.pollChild()
parent.pollChildren(this)
}
//generate custom mobile activity feeds event
def generateActivityFeedsEvent(notificationMessage) {
sendEvent(name: "notificationMessage", value: "$device.displayName $notificationMessage", descriptionText: "$device.displayName $notificationMessage", displayed: true)
}

602
devicetypes/smartthings/ecobee-thermostat.src/ecobee-thermostat.groovy
View File

@@ -19,50 +19,34 @@ metadata {
definition (name: "Ecobee Thermostat", namespace: "smartthings", author: "SmartThings") {
capability "Actuator"
capability "Thermostat"
capability "Temperature Measurement"
capability "Polling"
capability "Sensor"
capability "Refresh"
capability "Relative Humidity Measurement"
capability "Health Check"
capability "Refresh"
command "generateEvent"
command "raiseSetpoint"
command "lowerSetpoint"
command "resumeProgram"
command "switchMode"
command "switchFanMode"
command "generateEvent"
command "raiseSetpoint"
command "lowerSetpoint"
command "resumeProgram"
command "switchMode"
attribute "thermostatSetpoint", "number"
attribute "thermostatStatus", "string"
attribute "maxHeatingSetpoint", "number"
attribute "minHeatingSetpoint", "number"
attribute "maxCoolingSetpoint", "number"
attribute "minCoolingSetpoint", "number"
attribute "deviceTemperatureUnit", "string"
attribute "deviceAlive", "enum", ["true", "false"]
attribute "thermostatSetpoint","number"
attribute "thermostatStatus","string"
}
tiles {
simulator { }
tiles {
valueTile("temperature", "device.temperature", width: 2, height: 2) {
state("temperature", label:'${currentValue}°', unit:"F",
backgroundColors:[
// Celsius
[value: 0, color: "#153591"],
[value: 7, color: "#1e9cbb"],
[value: 15, color: "#90d2a7"],
[value: 23, color: "#44b621"],
[value: 28, color: "#f1d801"],
[value: 35, color: "#d04e00"],
[value: 37, color: "#bc2323"],
// Fahrenheit
[value: 40, 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"]
]
)
}
standardTile("mode", "device.thermostatMode", inactiveLabel: false, decoration: "flat") {
@@ -74,15 +58,16 @@ metadata {
state "updating", label:"Working", icon: "st.secondary.secondary"
}
standardTile("fanMode", "device.thermostatFanMode", inactiveLabel: false, decoration: "flat") {
state "auto", action:"switchFanMode", nextState: "updating", icon: "st.thermostat.fan-auto"
state "on", action:"switchFanMode", nextState: "updating", icon: "st.thermostat.fan-on"
state "updating", label:"Working", icon: "st.secondary.secondary"
state "auto", label:'Fan: ${currentValue}', action:"switchFanMode", nextState: "on"
state "on", label:'Fan: ${currentValue}', action:"switchFanMode", nextState: "off"
state "off", label:'Fan: ${currentValue}', action:"switchFanMode", nextState: "circulate"
state "circulate", label:'Fan: ${currentValue}', action:"switchFanMode", nextState: "auto"
}
standardTile("upButtonControl", "device.thermostatSetpoint", inactiveLabel: false, decoration: "flat") {
state "setpoint", action:"raiseSetpoint", icon:"st.thermostat.thermostat-up"
}
valueTile("thermostatSetpoint", "device.thermostatSetpoint", width: 1, height: 1, decoration: "flat") {
state "thermostatSetpoint", label:'${currentValue}'
state "thermostatSetpoint", label:'${currentValue}°'
}
valueTile("currentStatus", "device.thermostatStatus", height: 1, width: 2, decoration: "flat") {
state "thermostatStatus", label:'${currentValue}', backgroundColor:"#ffffff"
@@ -106,40 +91,24 @@ metadata {
state "default", action:"refresh.refresh", icon:"st.secondary.refresh"
}
standardTile("resumeProgram", "device.resumeProgram", inactiveLabel: false, decoration: "flat") {
state "resume", action:"resumeProgram", nextState: "updating", label:'Resume', icon:"st.samsung.da.oven_ic_send"
state "resume", action:"resumeProgram", nextState: "updating", label:'Resume Schedule', icon:"st.samsung.da.oven_ic_send"
state "updating", label:"Working", icon: "st.secondary.secondary"
}
valueTile("humidity", "device.humidity", decoration: "flat") {
state "humidity", label:'${currentValue}%'
}
main "temperature"
details(["temperature", "upButtonControl", "thermostatSetpoint", "currentStatus", "downButtonControl", "mode", "fanMode","humidity", "resumeProgram", "refresh"])
details(["temperature", "upButtonControl", "thermostatSetpoint", "currentStatus", "downButtonControl", "mode", "resumeProgram", "refresh"])
}
preferences {
input "holdType", "enum", title: "Hold Type", description: "When changing temperature, use Temporary (Until next transition) or Permanent hold (default)", required: false, options:["Temporary", "Permanent"]
input "holdType", "enum", title: "Hold Type", description: "When changing temperature, use Temporary or Permanent hold (default)", required: false, options:["Temporary", "Permanent"]
}
}
void installed() {
// The device refreshes every 5 minutes by default so if we miss 2 refreshes we can consider it offline
// Using 12 minutes because in testing, device health team found that there could be "jitter"
sendEvent(name: "checkInterval", value: 60 * 12, data: [protocol: "cloud"], displayed: false)
}
// Device Watch will ping the device to proactively determine if the device has gone offline
// If the device was online the last time we refreshed, trigger another refresh as part of the ping.
def ping() {
def isAlive = device.currentValue("deviceAlive") == "true" ? true : false
if (isAlive) {
refresh()
}
}
// parse events into attributes
def parse(String description) {
log.debug "Parsing '${description}'"
// TODO: handle '' attribute
}
def refresh() {
@@ -150,7 +119,9 @@ def refresh() {
void poll() {
log.debug "Executing 'poll' using parent SmartApp"
parent.pollChild()
def results = parent.pollChild(this)
generateEvent(results) //parse received message from parent
}
def generateEvent(Map results) {
@@ -162,30 +133,17 @@ def generateEvent(Map results) {
def isChange = false
def isDisplayed = true
def event = [name: name, linkText: linkText, descriptionText: getThermostatDescriptionText(name, value, linkText),
handlerName: name]
handlerName: name]
if (name=="temperature" || name=="heatingSetpoint" || name=="coolingSetpoint" ) {
def sendValue = location.temperatureScale == "C"? roundC(convertFtoC(value.toDouble())) : value.toInteger()
if (name=="temperature" || name=="heatingSetpoint" || name=="coolingSetpoint") {
def sendValue = value? convertTemperatureIfNeeded(value.toDouble(), "F", 1): value //API return temperature value in F
isChange = isTemperatureStateChange(device, name, value.toString())
isDisplayed = isChange
event << [value: sendValue, unit: temperatureScale, isStateChange: isChange, displayed: isDisplayed]
} else if (name=="maxCoolingSetpoint" || name=="minCoolingSetpoint" || name=="maxHeatingSetpoint" || name=="minHeatingSetpoint") {
def sendValue = location.temperatureScale == "C"? roundC(convertFtoC(value.toDouble())) : value.toInteger()
event << [value: sendValue, unit: temperatureScale, displayed: false]
} else if (name=="heatMode" || name=="coolMode" || name=="autoMode" || name=="auxHeatMode"){
event << [value: sendValue, isStateChange: isChange, displayed: isDisplayed]
} else if (name=="heatMode" || name=="coolMode" || name=="autoMode" || name=="auxHeatMode"){
isChange = isStateChange(device, name, value.toString())
event << [value: value.toString(), isStateChange: isChange, displayed: false]
} else if (name=="thermostatFanMode"){
isChange = isStateChange(device, name, value.toString())
event << [value: value.toString(), isStateChange: isChange, displayed: false]
} else if (name=="humidity") {
isChange = isStateChange(device, name, value.toString())
event << [value: value.toString(), isStateChange: isChange, displayed: false, unit: "%"]
} else if (name == "deviceAlive") {
isChange = isStateChange(device, name, value.toString())
event['isStateChange'] = isChange
event['displayed'] = false
} else {
} else {
isChange = isStateChange(device, name, value.toString())
isDisplayed = isChange
event << [value: value.toString(), isStateChange: isChange, displayed: isDisplayed]
@@ -200,19 +158,13 @@ def generateEvent(Map results) {
//return descriptionText to be shown on mobile activity feed
private getThermostatDescriptionText(name, value, linkText) {
if(name == "temperature") {
def sendValue = convertTemperatureIfNeeded(value.toDouble(), "F", 1) //API return temperature value in F
sendValue = location.temperatureScale == "C"? roundC(sendValue) : sendValue
return "$linkText temperature is $sendValue ${location.temperatureScale}"
return "$linkText temperature is $value°F"
} else if(name == "heatingSetpoint") {
def sendValue = convertTemperatureIfNeeded(value.toDouble(), "F", 1) //API return temperature value in F
sendValue = location.temperatureScale == "C"? roundC(sendValue) : sendValue
return "heating setpoint is $sendValue ${location.temperatureScale}"
return "heating setpoint is $value°F"
} else if(name == "coolingSetpoint"){
def sendValue = convertTemperatureIfNeeded(value.toDouble(), "F", 1) //API return temperature value in F
sendValue = location.temperatureScale == "C"? roundC(sendValue) : sendValue
return "cooling setpoint is $sendValue ${location.temperatureScale}"
return "cooling setpoint is $value°F"
} else if (name == "thermostatMode") {
return "thermostat mode is ${value}"
@@ -220,26 +172,26 @@ private getThermostatDescriptionText(name, value, linkText) {
} else if (name == "thermostatFanMode") {
return "thermostat fan mode is ${value}"
} else if (name == "humidity") {
return "humidity is ${value} %"
} else {
return "${name} = ${value}"
}
}
void setHeatingSetpoint(setpoint) {
log.debug "***heating setpoint $setpoint"
setHeatingSetpoint(setpoint.toDouble())
}
void setHeatingSetpoint(Double setpoint) {
// def mode = device.currentValue("thermostatMode")
def heatingSetpoint = setpoint
def coolingSetpoint = device.currentValue("coolingSetpoint")
def coolingSetpoint = device.currentValue("coolingSetpoint").toDouble()
def deviceId = device.deviceNetworkId.split(/\./).last()
def maxHeatingSetpoint = device.currentValue("maxHeatingSetpoint")
def minHeatingSetpoint = device.currentValue("minHeatingSetpoint")
//enforce limits of heatingSetpoint
if (heatingSetpoint > maxHeatingSetpoint) {
heatingSetpoint = maxHeatingSetpoint
} else if (heatingSetpoint < minHeatingSetpoint) {
heatingSetpoint = minHeatingSetpoint
if (heatingSetpoint > 79) {
heatingSetpoint = 79
} else if (heatingSetpoint < 45) {
heatingSetpoint = 45
}
//enforce limits of heatingSetpoint vs coolingSetpoint
@@ -249,33 +201,32 @@ void setHeatingSetpoint(setpoint) {
log.debug "Sending setHeatingSetpoint> coolingSetpoint: ${coolingSetpoint}, heatingSetpoint: ${heatingSetpoint}"
def coolingValue = location.temperatureScale == "C"? convertCtoF(coolingSetpoint) : coolingSetpoint
def heatingValue = location.temperatureScale == "C"? convertCtoF(heatingSetpoint) : heatingSetpoint
def sendHoldType = holdType ? (holdType=="Temporary")? "nextTransition" : (holdType=="Permanent")? "indefinite" : "indefinite" : "indefinite"
if (parent.setHold(heatingValue, coolingValue, deviceId, sendHoldType)) {
sendEvent("name":"heatingSetpoint", "value":heatingSetpoint, "unit":location.temperatureScale)
sendEvent("name":"coolingSetpoint", "value":coolingSetpoint, "unit":location.temperatureScale)
if (parent.setHold (this, heatingSetpoint, coolingSetpoint, deviceId, sendHoldType)) {
sendEvent("name":"heatingSetpoint", "value":heatingSetpoint)
sendEvent("name":"coolingSetpoint", "value":coolingSetpoint)
log.debug "Done setHeatingSetpoint> coolingSetpoint: ${coolingSetpoint}, heatingSetpoint: ${heatingSetpoint}"
generateSetpointEvent()
generateStatusEvent()
} else {
log.error "Error setHeatingSetpoint(setpoint)"
log.error "Error setHeatingSetpoint(setpoint)" //This error is handled by the connect app
}
}
void setCoolingSetpoint(setpoint) {
log.debug "***cooling setpoint $setpoint"
def heatingSetpoint = device.currentValue("heatingSetpoint")
setCoolingSetpoint(setpoint.toDouble())
}
void setCoolingSetpoint(Double setpoint) {
// def mode = device.currentValue("thermostatMode")
def heatingSetpoint = device.currentValue("heatingSetpoint").toDouble()
def coolingSetpoint = setpoint
def deviceId = device.deviceNetworkId.split(/\./).last()
def maxCoolingSetpoint = device.currentValue("maxCoolingSetpoint")
def minCoolingSetpoint = device.currentValue("minCoolingSetpoint")
if (coolingSetpoint > maxCoolingSetpoint) {
coolingSetpoint = maxCoolingSetpoint
} else if (coolingSetpoint < minCoolingSetpoint) {
coolingSetpoint = minCoolingSetpoint
if (coolingSetpoint > 92) {
coolingSetpoint = 92
} else if (coolingSetpoint < 65) {
coolingSetpoint = 65
}
//enforce limits of heatingSetpoint vs coolingSetpoint
@@ -285,33 +236,31 @@ void setCoolingSetpoint(setpoint) {
log.debug "Sending setCoolingSetpoint> coolingSetpoint: ${coolingSetpoint}, heatingSetpoint: ${heatingSetpoint}"
def coolingValue = location.temperatureScale == "C"? convertCtoF(coolingSetpoint) : coolingSetpoint
def heatingValue = location.temperatureScale == "C"? convertCtoF(heatingSetpoint) : heatingSetpoint
def sendHoldType = holdType ? (holdType=="Temporary")? "nextTransition" : (holdType=="Permanent")? "indefinite" : "indefinite" : "indefinite"
if (parent.setHold(heatingValue, coolingValue, deviceId, sendHoldType)) {
sendEvent("name":"heatingSetpoint", "value":heatingSetpoint, "unit":location.temperatureScale)
sendEvent("name":"coolingSetpoint", "value":coolingSetpoint, "unit":location.temperatureScale)
if (parent.setHold (this, heatingSetpoint, coolingSetpoint, deviceId, sendHoldType)) {
sendEvent("name":"heatingSetpoint", "value":heatingSetpoint)
sendEvent("name":"coolingSetpoint", "value":coolingSetpoint)
log.debug "Done setCoolingSetpoint>> coolingSetpoint = ${coolingSetpoint}, heatingSetpoint = ${heatingSetpoint}"
generateSetpointEvent()
generateStatusEvent()
} else {
log.error "Error setCoolingSetpoint(setpoint)"
log.error "Error setCoolingSetpoint(setpoint)" //This error is handled by the connect app
}
}
void resumeProgram() {
log.debug "resumeProgram() is called"
sendEvent("name":"thermostatStatus", "value":"resuming schedule", "description":statusText, displayed: false)
def deviceId = device.deviceNetworkId.split(/\./).last()
if (parent.resumeProgram(deviceId)) {
if (parent.resumeProgram(this, deviceId)) {
sendEvent("name":"thermostatStatus", "value":"setpoint is updating", "description":statusText, displayed: false)
runIn(5, "poll")
log.debug "resumeProgram() is done"
sendEvent("name":"resumeProgram", "value":"resume", descriptionText: "resumeProgram is done", displayed: false, isStateChange: true)
} else {
sendEvent("name":"thermostatStatus", "value":"failed resume click refresh", "description":statusText, displayed: false)
log.error "Error resumeProgram() check parent.resumeProgram(deviceId)"
log.error "Error resumeProgram() check parent.resumeProgram(this, deviceId)"
}
}
@@ -329,7 +278,7 @@ def modes() {
}
def fanModes() {
["on", "auto"]
["off", "on", "auto", "circulate"]
}
def switchMode() {
@@ -358,36 +307,44 @@ def switchFanMode() {
def returnCommand
switch (currentFanMode) {
case "on":
returnCommand = switchToFanMode("auto")
case "fanAuto":
returnCommand = switchToFanMode("fanOn")
break
case "auto":
returnCommand = switchToFanMode("on")
case "fanOn":
returnCommand = switchToFanMode("fanCirculate")
break
case "fanCirculate":
returnCommand = switchToFanMode("fanAuto")
break
}
if(!currentFanMode) { returnCommand = switchToFanMode("auto") }
if(!currentFanMode) { returnCommand = switchToFanMode("fanOn") }
returnCommand
}
def switchToFanMode(nextMode) {
log.debug "switching to fan mode: $nextMode"
def returnCommand
if(nextMode == "auto") {
if(!fanModes.contains("auto")) {
if(nextMode == "fanAuto") {
if(!fanModes.contains("fanAuto")) {
returnCommand = fanAuto()
} else {
returnCommand = switchToFanMode("on")
returnCommand = switchToFanMode("fanOn")
}
} else if(nextMode == "on") {
if(!fanModes.contains("on")) {
} else if(nextMode == "fanOn") {
if(!fanModes.contains("fanOn")) {
returnCommand = fanOn()
} else {
returnCommand = switchToFanMode("auto")
returnCommand = switchToFanMode("fanCirculate")
}
} else if(nextMode == "fanCirculate") {
if(!fanModes.contains("fanCirculate")) {
returnCommand = fanCirculate()
} else {
returnCommand = switchToFanMode("fanAuto")
}
}
returnCommand
}
@@ -395,16 +352,15 @@ def getDataByName(String name) {
state[name] ?: device.getDataValue(name)
}
def setThermostatMode(String mode) {
log.debug "setThermostatMode($mode)"
mode = mode.toLowerCase()
switchToMode(mode)
def setThermostatMode(String value) {
log.debug "setThermostatMode({$value})"
}
def setThermostatFanMode(String mode) {
log.debug "setThermostatFanMode($mode)"
mode = mode.toLowerCase()
switchToFanMode(mode)
def setThermostatFanMode(String value) {
log.debug "setThermostatFanMode({$value})"
}
def generateModeEvent(mode) {
@@ -412,7 +368,7 @@ def generateModeEvent(mode) {
}
def generateFanModeEvent(fanMode) {
sendEvent(name: "thermostatFanMode", value: fanMode, descriptionText: "$device.displayName fan is in ${fanMode} mode", displayed: true)
sendEvent(name: "thermostatFanMode", value: fanMode, descriptionText: "$device.displayName fan is in ${mode} mode", displayed: true)
}
def generateOperatingStateEvent(operatingState) {
@@ -422,7 +378,7 @@ def generateOperatingStateEvent(operatingState) {
def off() {
log.debug "off"
def deviceId = device.deviceNetworkId.split(/\./).last()
if (parent.setMode ("off", deviceId))
if (parent.setMode (this,"off", deviceId))
generateModeEvent("off")
else {
log.debug "Error setting new mode."
@@ -436,7 +392,7 @@ def off() {
def heat() {
log.debug "heat"
def deviceId = device.deviceNetworkId.split(/\./).last()
if (parent.setMode ("heat", deviceId))
if (parent.setMode (this,"heat", deviceId))
generateModeEvent("heat")
else {
log.debug "Error setting new mode."
@@ -447,14 +403,10 @@ def heat() {
generateStatusEvent()
}
def emergencyHeat() {
auxHeatOnly()
}
def auxHeatOnly() {
log.debug "auxHeatOnly"
def deviceId = device.deviceNetworkId.split(/\./).last()
if (parent.setMode ("auxHeatOnly", deviceId))
if (parent.setMode (this,"auxHeatOnly", deviceId))
generateModeEvent("auxHeatOnly")
else {
log.debug "Error setting new mode."
@@ -468,7 +420,7 @@ def auxHeatOnly() {
def cool() {
log.debug "cool"
def deviceId = device.deviceNetworkId.split(/\./).last()
if (parent.setMode ("cool", deviceId))
if (parent.setMode (this,"cool", deviceId))
generateModeEvent("cool")
else {
log.debug "Error setting new mode."
@@ -482,7 +434,7 @@ def cool() {
def auto() {
log.debug "auto"
def deviceId = device.deviceNetworkId.split(/\./).last()
if (parent.setMode ("auto", deviceId))
if (parent.setMode (this,"auto", deviceId))
generateModeEvent("auto")
else {
log.debug "Error setting new mode."
@@ -495,139 +447,92 @@ def auto() {
def fanOn() {
log.debug "fanOn"
String fanMode = "on"
def heatingSetpoint = device.currentValue("heatingSetpoint")
def coolingSetpoint = device.currentValue("coolingSetpoint")
def deviceId = device.deviceNetworkId.split(/\./).last()
// parent.setFanMode (this,"on")
def sendHoldType = holdType ? (holdType=="Temporary")? "nextTransition" : (holdType=="Permanent")? "indefinite" : "indefinite" : "indefinite"
def coolingValue = location.temperatureScale == "C"? convertCtoF(coolingSetpoint) : coolingSetpoint
def heatingValue = location.temperatureScale == "C"? convertCtoF(heatingSetpoint) : heatingSetpoint
if (parent.setFanMode(heatingValue, coolingValue, deviceId, sendHoldType, fanMode)) {
generateFanModeEvent(fanMode)
} else {
log.debug "Error setting new mode."
def currentFanMode = device.currentState("thermostatFanMode")?.value
generateFanModeEvent(currentFanMode) // reset the tile back
}
}
def fanAuto() {
log.debug "fanAuto"
String fanMode = "auto"
def heatingSetpoint = device.currentValue("heatingSetpoint")
def coolingSetpoint = device.currentValue("coolingSetpoint")
def deviceId = device.deviceNetworkId.split(/\./).last()
// parent.setFanMode (this,"auto")
def sendHoldType = holdType ? (holdType=="Temporary")? "nextTransition" : (holdType=="Permanent")? "indefinite" : "indefinite" : "indefinite"
}
def coolingValue = location.temperatureScale == "C"? convertCtoF(coolingSetpoint) : coolingSetpoint
def heatingValue = location.temperatureScale == "C"? convertCtoF(heatingSetpoint) : heatingSetpoint
def fanCirculate() {
log.debug "fanCirculate"
// parent.setFanMode (this,"circulate")
}
def fanOff() {
log.debug "fanOff"
// parent.setFanMode (this,"off")
if (parent.setFanMode(heatingValue, coolingValue, deviceId, sendHoldType, fanMode)) {
generateFanModeEvent(fanMode)
} else {
log.debug "Error setting new mode."
def currentFanMode = device.currentState("thermostatFanMode")?.value
generateFanModeEvent(currentFanMode) // reset the tile back
}
}
def generateSetpointEvent() {
log.debug "Generate SetPoint Event"
def mode = device.currentValue("thermostatMode")
def heatingSetpoint = device.currentValue("heatingSetpoint")
def coolingSetpoint = device.currentValue("coolingSetpoint")
def maxHeatingSetpoint = device.currentValue("maxHeatingSetpoint")
def maxCoolingSetpoint = device.currentValue("maxCoolingSetpoint")
def minHeatingSetpoint = device.currentValue("minHeatingSetpoint")
def minCoolingSetpoint = device.currentValue("minCoolingSetpoint")
if(location.temperatureScale == "C") {
maxHeatingSetpoint = maxHeatingSetpoint > 40 ? roundC(convertFtoC(maxHeatingSetpoint)) : roundC(maxHeatingSetpoint)
maxCoolingSetpoint = maxCoolingSetpoint > 40 ? roundC(convertFtoC(maxCoolingSetpoint)) : roundC(maxCoolingSetpoint)
minHeatingSetpoint = minHeatingSetpoint > 40 ? roundC(convertFtoC(minHeatingSetpoint)) : roundC(minHeatingSetpoint)
minCoolingSetpoint = minCoolingSetpoint > 40 ? roundC(convertFtoC(minCoolingSetpoint)) : roundC(minCoolingSetpoint)
heatingSetpoint = heatingSetpoint > 40 ? roundC(convertFtoC(heatingSetpoint)) : roundC(heatingSetpoint)
coolingSetpoint = coolingSetpoint > 40 ? roundC(convertFtoC(coolingSetpoint)) : roundC(coolingSetpoint)
} else {
maxHeatingSetpoint = maxHeatingSetpoint < 40 ? roundC(convertCtoF(maxHeatingSetpoint)) : maxHeatingSetpoint
maxCoolingSetpoint = maxCoolingSetpoint < 40 ? roundC(convertCtoF(maxCoolingSetpoint)) : maxCoolingSetpoint
minHeatingSetpoint = minHeatingSetpoint < 40 ? roundC(convertCtoF(minHeatingSetpoint)) : minHeatingSetpoint
minCoolingSetpoint = minCoolingSetpoint < 40 ? roundC(convertCtoF(minCoolingSetpoint)) : minCoolingSetpoint
heatingSetpoint = heatingSetpoint < 40 ? roundC(convertCtoF(heatingSetpoint)) : heatingSetpoint
coolingSetpoint = coolingSetpoint < 40 ? roundC(convertCtoF(coolingSetpoint)) : coolingSetpoint
}
log.debug "Current Mode = ${mode}"
def heatingSetpoint = device.currentValue("heatingSetpoint").toInteger()
log.debug "Heating Setpoint = ${heatingSetpoint}"
def coolingSetpoint = device.currentValue("coolingSetpoint").toInteger()
log.debug "Cooling Setpoint = ${coolingSetpoint}"
sendEvent("name":"maxHeatingSetpoint", "value":maxHeatingSetpoint, "unit":location.temperatureScale)
sendEvent("name":"maxCoolingSetpoint", "value":maxCoolingSetpoint, "unit":location.temperatureScale)
sendEvent("name":"minHeatingSetpoint", "value":minHeatingSetpoint, "unit":location.temperatureScale)
sendEvent("name":"minCoolingSetpoint", "value":minCoolingSetpoint, "unit":location.temperatureScale)
sendEvent("name":"heatingSetpoint", "value":heatingSetpoint, "unit":location.temperatureScale)
sendEvent("name":"coolingSetpoint", "value":coolingSetpoint, "unit":location.temperatureScale)
if (mode == "heat") {
sendEvent("name":"thermostatSetpoint", "value":heatingSetpoint, "unit":location.temperatureScale)
sendEvent("name":"thermostatSetpoint", "value":heatingSetpoint.toString())
}
else if (mode == "cool") {
sendEvent("name":"thermostatSetpoint", "value":coolingSetpoint, "unit":location.temperatureScale)
sendEvent("name":"thermostatSetpoint", "value":coolingSetpoint.toString())
} else if (mode == "auto") {
sendEvent("name":"thermostatSetpoint", "value":"Auto")
} else if (mode == "off") {
sendEvent("name":"thermostatSetpoint", "value":"Off")
} else if (mode == "auxHeatOnly") {
sendEvent("name":"thermostatSetpoint", "value":heatingSetpoint, "unit":location.temperatureScale)
} else if (mode == "emergencyHeat") {
sendEvent("name":"thermostatSetpoint", "value":heatingSetpoint.toString())
}
}
void raiseSetpoint() {
def mode = device.currentValue("thermostatMode")
def targetvalue
def maxHeatingSetpoint = device.currentValue("maxHeatingSetpoint")
def maxCoolingSetpoint = device.currentValue("maxCoolingSetpoint")
if (mode == "off" || mode == "auto") {
log.warn "this mode: $mode does not allow raiseSetpoint"
} else {
def heatingSetpoint = device.currentValue("heatingSetpoint")
def coolingSetpoint = device.currentValue("coolingSetpoint")
def thermostatSetpoint = device.currentValue("thermostatSetpoint")
if (location.temperatureScale == "C") {
maxHeatingSetpoint = maxHeatingSetpoint > 40 ? convertFtoC(maxHeatingSetpoint) : maxHeatingSetpoint
maxCoolingSetpoint = maxCoolingSetpoint > 40 ? convertFtoC(maxCoolingSetpoint) : maxCoolingSetpoint
heatingSetpoint = heatingSetpoint > 40 ? convertFtoC(heatingSetpoint) : heatingSetpoint
coolingSetpoint = coolingSetpoint > 40 ? convertFtoC(coolingSetpoint) : coolingSetpoint
thermostatSetpoint = thermostatSetpoint > 40 ? convertFtoC(thermostatSetpoint) : thermostatSetpoint
} else {
maxHeatingSetpoint = maxHeatingSetpoint < 40 ? convertCtoF(maxHeatingSetpoint) : maxHeatingSetpoint
maxCoolingSetpoint = maxCoolingSetpoint < 40 ? convertCtoF(maxCoolingSetpoint) : maxCoolingSetpoint
heatingSetpoint = heatingSetpoint < 40 ? convertCtoF(heatingSetpoint) : heatingSetpoint
coolingSetpoint = coolingSetpoint < 40 ? convertCtoF(coolingSetpoint) : coolingSetpoint
thermostatSetpoint = thermostatSetpoint < 40 ? convertCtoF(thermostatSetpoint) : thermostatSetpoint
}
def heatingSetpoint = device.currentValue("heatingSetpoint").toInteger()
def coolingSetpoint = device.currentValue("coolingSetpoint").toInteger()
def thermostatSetpoint = device.currentValue("thermostatSetpoint").toInteger()
log.debug "raiseSetpoint() mode = ${mode}, heatingSetpoint: ${heatingSetpoint}, coolingSetpoint:${coolingSetpoint}, thermostatSetpoint:${thermostatSetpoint}"
targetvalue = thermostatSetpoint ? thermostatSetpoint : 0
targetvalue = location.temperatureScale == "F"? targetvalue + 1 : targetvalue + 0.5
if (device.latestState('thermostatSetpoint')) {
targetvalue = device.latestState('thermostatSetpoint').value as Integer
} else {
targetvalue = 0
}
targetvalue = targetvalue + 1
if ((mode == "heat" || mode == "auxHeatOnly") && targetvalue > maxHeatingSetpoint) {
targetvalue = maxHeatingSetpoint
} else if (mode == "cool" && targetvalue > maxCoolingSetpoint) {
targetvalue = maxCoolingSetpoint
if (mode == "heat" && targetvalue > 79) {
targetvalue = 79
} else if (mode == "cool" && targetvalue > 92) {
targetvalue = 92
}
sendEvent("name":"thermostatSetpoint", "value":targetvalue, "unit":location.temperatureScale, displayed: false)
sendEvent("name":"thermostatSetpoint", "value":targetvalue, displayed: false)
log.info "In mode $mode raiseSetpoint() to $targetvalue"
runIn(3, "alterSetpoint", [data: [value:targetvalue], overwrite: true]) //when user click button this runIn will be overwrite
@@ -638,41 +543,28 @@ void raiseSetpoint() {
void lowerSetpoint() {
def mode = device.currentValue("thermostatMode")
def targetvalue
def minHeatingSetpoint = device.currentValue("minHeatingSetpoint")
def minCoolingSetpoint = device.currentValue("minCoolingSetpoint")
if (mode == "off" || mode == "auto") {
log.warn "this mode: $mode does not allow lowerSetpoint"
} else {
def heatingSetpoint = device.currentValue("heatingSetpoint")
def coolingSetpoint = device.currentValue("coolingSetpoint")
def thermostatSetpoint = device.currentValue("thermostatSetpoint")
if (location.temperatureScale == "C") {
minHeatingSetpoint = minHeatingSetpoint > 40 ? convertFtoC(minHeatingSetpoint) : minHeatingSetpoint
minCoolingSetpoint = minCoolingSetpoint > 40 ? convertFtoC(minCoolingSetpoint) : minCoolingSetpoint
heatingSetpoint = heatingSetpoint > 40 ? convertFtoC(heatingSetpoint) : heatingSetpoint
coolingSetpoint = coolingSetpoint > 40 ? convertFtoC(coolingSetpoint) : coolingSetpoint
thermostatSetpoint = thermostatSetpoint > 40 ? convertFtoC(thermostatSetpoint) : thermostatSetpoint
} else {
minHeatingSetpoint = minHeatingSetpoint < 40 ? convertCtoF(minHeatingSetpoint) : minHeatingSetpoint
minCoolingSetpoint = minCoolingSetpoint < 40 ? convertCtoF(minCoolingSetpoint) : minCoolingSetpoint
heatingSetpoint = heatingSetpoint < 40 ? convertCtoF(heatingSetpoint) : heatingSetpoint
coolingSetpoint = coolingSetpoint < 40 ? convertCtoF(coolingSetpoint) : coolingSetpoint
thermostatSetpoint = thermostatSetpoint < 40 ? convertCtoF(thermostatSetpoint) : thermostatSetpoint
}
def heatingSetpoint = device.currentValue("heatingSetpoint").toInteger()
def coolingSetpoint = device.currentValue("coolingSetpoint").toInteger()
def thermostatSetpoint = device.currentValue("thermostatSetpoint").toInteger()
log.debug "lowerSetpoint() mode = ${mode}, heatingSetpoint: ${heatingSetpoint}, coolingSetpoint:${coolingSetpoint}, thermostatSetpoint:${thermostatSetpoint}"
if (device.latestState('thermostatSetpoint')) {
targetvalue = device.latestState('thermostatSetpoint').value as Integer
} else {
targetvalue = 0
}
targetvalue = targetvalue - 1
targetvalue = thermostatSetpoint ? thermostatSetpoint : 0
targetvalue = location.temperatureScale == "F"? targetvalue - 1 : targetvalue - 0.5
if ((mode == "heat" || mode == "auxHeatOnly") && targetvalue < minHeatingSetpoint) {
targetvalue = minHeatingSetpoint
} else if (mode == "cool" && targetvalue < minCoolingSetpoint) {
targetvalue = minCoolingSetpoint
if (mode == "heat" && targetvalue.toInteger() < 45) {
targetvalue = 45
} else if (mode == "cool" && targetvalue.toInteger() < 65) {
targetvalue = 65
}
sendEvent("name":"thermostatSetpoint", "value":targetvalue, "unit":location.temperatureScale, displayed: false)
sendEvent("name":"thermostatSetpoint", "value":targetvalue, displayed: false)
log.info "In mode $mode lowerSetpoint() to $targetvalue"
runIn(3, "alterSetpoint", [data: [value:targetvalue], overwrite: true]) //when user click button this runIn will be overwrite
@@ -681,83 +573,63 @@ void lowerSetpoint() {
//called by raiseSetpoint() and lowerSetpoint()
void alterSetpoint(temp) {
def mode = device.currentValue("thermostatMode")
def heatingSetpoint = device.currentValue("heatingSetpoint").toInteger()
def coolingSetpoint = device.currentValue("coolingSetpoint").toInteger()
def deviceId = device.deviceNetworkId.split(/\./).last()
if (mode == "off" || mode == "auto") {
log.warn "this mode: $mode does not allow alterSetpoint"
} else {
def heatingSetpoint = device.currentValue("heatingSetpoint")
def coolingSetpoint = device.currentValue("coolingSetpoint")
def deviceId = device.deviceNetworkId.split(/\./).last()
def targetHeatingSetpoint
def targetCoolingSetpoint
def targetHeatingSetpoint
def targetCoolingSetpoint
def temperatureScaleHasChanged = false
if (location.temperatureScale == "C") {
if ( heatingSetpoint > 40.0 || coolingSetpoint > 40.0 ) {
temperatureScaleHasChanged = true
}
//step1: check thermostatMode, enforce limits before sending request to cloud
if (mode == "heat"){
if (temp.value > coolingSetpoint){
targetHeatingSetpoint = temp.value
targetCoolingSetpoint = temp.value
} else {
if ( heatingSetpoint < 40.0 || coolingSetpoint < 40.0 ) {
temperatureScaleHasChanged = true
}
targetHeatingSetpoint = temp.value
targetCoolingSetpoint = coolingSetpoint
}
//step1: check thermostatMode, enforce limits before sending request to cloud
if (mode == "heat" || mode == "auxHeatOnly"){
if (temp.value > coolingSetpoint){
targetHeatingSetpoint = temp.value
targetCoolingSetpoint = temp.value
} else {
targetHeatingSetpoint = temp.value
targetCoolingSetpoint = coolingSetpoint
}
} else if (mode == "cool") {
//enforce limits before sending request to cloud
if (temp.value < heatingSetpoint){
targetHeatingSetpoint = temp.value
targetCoolingSetpoint = temp.value
} else {
targetHeatingSetpoint = heatingSetpoint
targetCoolingSetpoint = temp.value
}
}
log.debug "alterSetpoint >> in mode ${mode} trying to change heatingSetpoint to $targetHeatingSetpoint " +
"coolingSetpoint to $targetCoolingSetpoint with holdType : ${holdType}"
def sendHoldType = holdType ? (holdType=="Temporary")? "nextTransition" : (holdType=="Permanent")? "indefinite" : "indefinite" : "indefinite"
def coolingValue = location.temperatureScale == "C"? convertCtoF(targetCoolingSetpoint) : targetCoolingSetpoint
def heatingValue = location.temperatureScale == "C"? convertCtoF(targetHeatingSetpoint) : targetHeatingSetpoint
if (parent.setHold(heatingValue, coolingValue, deviceId, sendHoldType)) {
sendEvent("name": "thermostatSetpoint", "value": temp.value, displayed: false)
sendEvent("name": "heatingSetpoint", "value": targetHeatingSetpoint, "unit": location.temperatureScale)
sendEvent("name": "coolingSetpoint", "value": targetCoolingSetpoint, "unit": location.temperatureScale)
log.debug "alterSetpoint in mode $mode succeed change setpoint to= ${temp.value}"
} else if (mode == "cool") {
//enforce limits before sending request to cloud
if (temp.value < heatingSetpoint){
targetHeatingSetpoint = temp.value
targetCoolingSetpoint = temp.value
} else {
log.error "Error alterSetpoint()"
if (mode == "heat" || mode == "auxHeatOnly"){
sendEvent("name": "thermostatSetpoint", "value": heatingSetpoint.toString(), displayed: false)
} else if (mode == "cool") {
sendEvent("name": "thermostatSetpoint", "value": coolingSetpoint.toString(), displayed: false)
}
targetHeatingSetpoint = heatingSetpoint
targetCoolingSetpoint = temp.value
}
if ( temperatureScaleHasChanged )
generateSetpointEvent()
generateStatusEvent()
}
log.debug "alterSetpoint >> in mode ${mode} trying to change heatingSetpoint to ${targetHeatingSetpoint} " +
"coolingSetpoint to ${targetCoolingSetpoint} with holdType : ${holdType}"
def sendHoldType = holdType ? (holdType=="Temporary")? "nextTransition" : (holdType=="Permanent")? "indefinite" : "indefinite" : "indefinite"
//step2: call parent.setHold to send http request to 3rd party cloud
if (parent.setHold(this, targetHeatingSetpoint, targetCoolingSetpoint, deviceId, sendHoldType)) {
sendEvent("name": "thermostatSetpoint", "value": temp.value.toString(), displayed: false)
sendEvent("name": "heatingSetpoint", "value": targetHeatingSetpoint)
sendEvent("name": "coolingSetpoint", "value": targetCoolingSetpoint)
log.debug "alterSetpoint in mode $mode succeed change setpoint to= ${temp.value}"
} else {
log.error "Error alterSetpoint()"
if (mode == "heat"){
sendEvent("name": "thermostatSetpoint", "value": heatingSetpoint.toString(), displayed: false)
} else if (mode == "cool") {
sendEvent("name": "thermostatSetpoint", "value": coolingSetpoint.toString(), displayed: false)
}
}
generateStatusEvent()
}
def generateStatusEvent() {
def mode = device.currentValue("thermostatMode")
def heatingSetpoint = device.currentValue("heatingSetpoint")
def coolingSetpoint = device.currentValue("coolingSetpoint")
def temperature = device.currentValue("temperature")
def heatingSetpoint = device.currentValue("heatingSetpoint").toInteger()
def coolingSetpoint = device.currentValue("coolingSetpoint").toInteger()
def temperature = device.currentValue("temperature").toInteger()
def statusText
log.debug "Generate Status Event for Mode = ${mode}"
@@ -767,41 +639,41 @@ def generateStatusEvent() {
log.debug "HVAC Mode = ${mode}"
if (mode == "heat") {
if (temperature >= heatingSetpoint)
statusText = "Right Now: Idle"
else
statusText = "Heating to ${heatingSetpoint} ${location.temperatureScale}"
statusText = "Heating to ${heatingSetpoint}° F"
} else if (mode == "cool") {
if (temperature <= coolingSetpoint)
statusText = "Right Now: Idle"
else
statusText = "Cooling to ${coolingSetpoint} ${location.temperatureScale}"
} else if (mode == "auto") {
statusText = "Right Now: Auto"
} else if (mode == "off") {
statusText = "Right Now: Off"
} else if (mode == "auxHeatOnly") {
statusText = "Emergency Heat"
} else {
statusText = "?"
}
statusText = "Cooling to ${coolingSetpoint}° F"
} else if (mode == "auto") {
statusText = "Right Now: Auto"
} else if (mode == "off") {
statusText = "Right Now: Off"
} else if (mode == "emergencyHeat") {
statusText = "Emergency Heat"
} else {
statusText = "?"
}
log.debug "Generate Status Event = ${statusText}"
sendEvent("name":"thermostatStatus", "value":statusText, "description":statusText, displayed: true)
}
//generate custom mobile activity feeds event
def generateActivityFeedsEvent(notificationMessage) {
sendEvent(name: "notificationMessage", value: "$device.displayName $notificationMessage", descriptionText: "$device.displayName $notificationMessage", displayed: true)
}
def roundC (tempC) {
return (Math.round(tempC.toDouble() * 2))/2
}
def convertFtoC (tempF) {
return ((Math.round(((tempF - 32)*(5/9)) * 2))/2).toDouble()
}
def convertCtoF (tempC) {
return (Math.round(tempC * (9/5)) + 32).toInteger()
}

202
devicetypes/smartthings/fibaro-rgbw-controller.src/fibaro-rgbw-controller.groovy
View File

@@ -29,10 +29,10 @@
capability "Polling"
capability "Refresh"
capability "Sensor"
capability "Configuration"
capability "Configuration"
capability "Color Control"
capability "Power Meter"
command "getDeviceData"
command "softwhite"
command "daylight"
@@ -54,12 +54,12 @@
command "setAdjustedColor"
command "setWhiteLevel"
command "test"
attribute "whiteLevel", "string"
fingerprint deviceId: "0x1101", inClusters: "0x27,0x72,0x86,0x26,0x60,0x70,0x32,0x31,0x85,0x33"
}
simulator {
status "on": "command: 2003, payload: FF"
status "off": "command: 2003, payload: 00"
@@ -84,7 +84,7 @@
}
controlTile("levelSliderControl", "device.level", "slider", height: 1, width: 2, inactiveLabel: false) {
state "level", action:"switch level.setLevel"
}
}
controlTile("whiteSliderControl", "device.whiteLevel", "slider", height: 1, width: 3, inactiveLabel: false) {
state "whiteLevel", action:"setWhiteLevel", label:'White Level'
}
@@ -183,24 +183,24 @@
valueTile("hue", "device.hue", inactiveLabel: false, decoration: "flat") {
state "hue", label: 'Hue ${currentValue} '
}
main(["switch"])
details(["switch",
"levelSliderControl",
"rgbSelector",
"whiteSliderControl",
details(["switch",
"levelSliderControl",
"rgbSelector",
"whiteSliderControl",
/*"softwhite",
"daylight",
"warmwhite",
"red",
"green",
"red",
"green",
"blue",
"white",
"cyan",
"magenta",
"orange",
"purple",
"yellow",
"yellow",
"fireplace",
"storm",
"deepfade",
@@ -214,7 +214,7 @@
def setAdjustedColor(value) {
log.debug "setAdjustedColor: ${value}"
toggleTiles("off") //turn off the hard color tiles
def level = device.latestValue("level")
@@ -223,19 +223,19 @@ def setAdjustedColor(value) {
log.debug "level is: ${level}"
value.level = level
def c = hexToRgb(value.hex)
def c = hexToRgb(value.hex)
value.rh = hex(c.r * (level/100))
value.gh = hex(c.g * (level/100))
value.bh = hex(c.b * (level/100))
setColor(value)
setColor(value)
}
def setColor(value) {
log.debug "setColor: ${value}"
log.debug "hue is: ${value.hue}"
log.debug "saturation is: ${value.saturation}"
if (value.size() < 8)
toggleTiles("off")
@@ -246,22 +246,22 @@ def setColor(value) {
value.gh = hex(rgb.g)
value.bh = hex(rgb.b)
}
if ((value.size() == 3) && (value.hue != null) && (value.saturation != null) && (value.level)) { //user passed in a level value too from outside (App)
def rgb = hslToRGB(value.hue, value.saturation, 0.5)
value.hex = rgbToHex(rgb)
value.rh = hex(rgb.r * value.level/100)
value.gh = hex(rgb.g * value.level/100)
value.bh = hex(rgb.b * value.level/100)
value.bh = hex(rgb.b * value.level/100)
}
if (( value.size() == 1) && (value.hex)) { //being called from outside of device (App) with only hex
def rgbInt = hexToRgb(value.hex)
value.rh = hex(rgbInt.r)
value.gh = hex(rgbInt.g)
value.bh = hex(rgbInt.b)
}
if (( value.size() == 2) && (value.hex) && (value.level)) { //being called from outside of device (App) with only hex and level
def rgbInt = hexToRgb(value.hex)
@@ -269,7 +269,7 @@ def setColor(value) {
value.gh = hex(rgbInt.g * value.level/100)
value.bh = hex(rgbInt.b * value.level/100)
}
if (( value.size() == 1) && (value.colorName)) { //being called from outside of device (App) with only color name
def colorData = getColorData(value.colorName)
value.rh = colorData.rh
@@ -277,7 +277,7 @@ def setColor(value) {
value.bh = colorData.bh
value.hex = "#${value.rh}${value.gh}${value.bh}"
}
if (( value.size() == 2) && (value.colorName) && (value.level)) { //being called from outside of device (App) with only color name and level
def colorData = getColorData(value.colorName)
value.rh = hex(colorData.r * value.level/100)
@@ -285,7 +285,7 @@ def setColor(value) {
value.bh = hex(colorData.b * value.level/100)
value.hex = "#${hex(colorData.r)}${hex(colorData.g)}${hex(colorData.b)}"
}
if (( value.size() == 3) && (value.red != null) && (value.green != null) && (value.blue != null)) { //being called from outside of device (App) with only color values (0-255)
value.rh = hex(value.red)
value.gh = hex(value.green)
@@ -299,7 +299,7 @@ def setColor(value) {
value.bh = hex(value.blue * value.level/100)
value.hex = "#${hex(value.red)}${hex(value.green)}${hex(value.blue)}"
}
sendEvent(name: "hue", value: value.hue, displayed: false)
sendEvent(name: "saturation", value: value.saturation, displayed: false)
sendEvent(name: "color", value: value.hex, displayed: false)
@@ -309,26 +309,26 @@ def setColor(value) {
if (value.switch) {
sendEvent(name: "switch", value: value.switch)
}
sendRGB(value.rh, value.gh, value.bh)
}
def setLevel(level) {
log.debug "setLevel($level)"
if (level == 0) { off() }
else if (device.latestValue("switch") == "off") { on() }
def colorHex = device.latestValue("color")
if (colorHex == null)
colorHex = "#FFFFFF"
def c = hexToRgb(colorHex)
def r = hex(c.r * (level/100))
def g = hex(c.g * (level/100))
def b = hex(c.b * (level/100))
sendEvent(name: "level", value: level)
sendEvent(name: "setLevel", value: level, displayed: false)
sendRGB(r, g, b)
@@ -337,14 +337,14 @@ def setLevel(level) {
def setWhiteLevel(value) {
log.debug "setWhiteLevel: ${value}"
def level = Math.min(value as Integer, 99)
def level = Math.min(value as Integer, 99)
level = 255 * level/99 as Integer
def channel = 0
if (device.latestValue("switch") == "off") { on() }
sendEvent(name: "whiteLevel", value: value)
sendWhite(channel, value)
sendWhite(channel, value)
}
def sendWhite(channel, value) {
@@ -367,20 +367,20 @@ def sendRGBW(redHex, greenHex, blueHex, whiteHex) {
def configure() {
log.debug "Configuring Device For SmartThings Use"
def cmds = []
// send associate to group 3 to get sensor data reported only to hub
cmds << zwave.associationV2.associationSet(groupingIdentifier:5, nodeId:[zwaveHubNodeId]).format()
//cmds << sendEvent(name: "level", value: 50)
//cmds << on()
//cmds << doColorButton("Green")
delayBetween(cmds, 500)
}
def parse(String description) {
@@ -411,11 +411,11 @@ def parse(String description) {
def getDeviceData() {
def cmd = []
cmd << response(zwave.manufacturerSpecificV2.manufacturerSpecificGet())
cmd << response(zwave.manufacturerSpecificV2.manufacturerSpecificGet())
cmd << response(zwave.versionV1.versionGet())
cmd << response(zwave.firmwareUpdateMdV1.firmwareMdGet())
delayBetween(cmd, 500)
}
@@ -426,7 +426,7 @@ def createEvent(physicalgraph.zwave.commands.manufacturerspecificv2.Manufacturer
log.debug "productTypeId: ${cmd.productTypeId}"
}
def createEvent(physicalgraph.zwave.commands.versionv1.VersionReport cmd, Map item1) {
def createEvent(physicalgraph.zwave.commands.versionv1.VersionReport cmd, Map item1) {
updateDataValue("applicationVersion", "${cmd.applicationVersion}")
log.debug "applicationVersion: ${cmd.applicationVersion}"
log.debug "applicationSubVersion: ${cmd.applicationSubVersion}"
@@ -435,13 +435,13 @@ def createEvent(physicalgraph.zwave.commands.versionv1.VersionReport cmd, Map it
log.debug "zWaveProtocolSubVersion: ${cmd.zWaveProtocolSubVersion}"
}
def createEvent(physicalgraph.zwave.commands.firmwareupdatemdv1.FirmwareMdReport cmd, Map item1) {
def createEvent(physicalgraph.zwave.commands.firmwareupdatemdv1.FirmwareMdReport cmd, Map item1) {
log.debug "checksum: ${cmd.checksum}"
log.debug "firmwareId: ${cmd.firmwareId}"
log.debug "manufacturerId: ${cmd.manufacturerId}"
}
def zwaveEvent(physicalgraph.zwave.commands.colorcontrolv1.CapabilityReport cmd, Map item1) {
def zwaveEvent(physicalgraph.zwave.commands.colorcontrolv1.CapabilityReport cmd, Map item1) {
log.debug "In CapabilityReport"
}
@@ -546,7 +546,7 @@ def zwaveEvent(physicalgraph.zwave.commands.configurationv1.ConfigurationReport
def value = "when off"
if (cmd.configurationValue[0] == 1) {value = "when on"}
if (cmd.configurationValue[0] == 2) {value = "never"}
[name: "indicatorStatus", value: value, displayed: false]
[name: "indicatorStatus", value: value, display: false]
}
*/
def createEvent(physicalgraph.zwave.Command cmd, Map map) {
@@ -557,7 +557,7 @@ def createEvent(physicalgraph.zwave.Command cmd, Map map) {
def on() {
log.debug "on()"
sendEvent(name: "switch", value: "on")
delayBetween([zwave.basicV1.basicSet(value: 0xFF).format(),
delayBetween([zwave.basicV1.basicSet(value: 0xFF).format(),
zwave.switchMultilevelV1.switchMultilevelGet().format()], 5000)
}
@@ -593,7 +593,7 @@ def refresh() {
* @return none
*/
def updateZwaveParam(params) {
if ( params ) {
if ( params ) {
def pNumber = params.paramNumber
def pSize = params.size
def pValue = [params.value]
@@ -601,9 +601,9 @@ def updateZwaveParam(params) {
def cmds = []
cmds << zwave.configurationV1.configurationSet(configurationValue: pValue, parameterNumber: pNumber, size: pSize).format()
cmds << zwave.configurationV1.configurationGet(parameterNumber: pNumber).format()
delayBetween(cmds, 1500)
delayBetween(cmds, 1500)
}
}
@@ -612,22 +612,22 @@ def test() {
//value = [hue: 0, saturation: 100, level: 5]
//value = [red: 255, green: 0, blue: 255, level: 60]
//setColor(value)
def cmd = []
if ( !state.cnt ) {
state.cnt = 6
} else {
state.cnt = state.cnt + 1
}
if ( state.cnt > 10 )
state.cnt = 6
// run programmed light show
cmd << zwave.configurationV1.configurationSet(configurationValue: [state.cnt], parameterNumber: 72, size: 1).format()
cmd << zwave.configurationV1.configurationGet(parameterNumber: 72).format()
cmd << zwave.configurationV1.configurationGet(parameterNumber: 72).format()
delayBetween(cmd, 500)
}
@@ -638,23 +638,23 @@ def colorNameToRgb(color) {
[name:"Soft White", r: 255, g: 241, b: 224 ],
[name:"Daylight", r: 255, g: 255, b: 251 ],
[name:"Warm White", r: 255, g: 244, b: 229 ],
[name:"Red", r: 255, g: 0, b: 0 ],
[name:"Green", r: 0, g: 255, b: 0 ],
[name:"Blue", r: 0, g: 0, b: 255 ],
[name:"Cyan", r: 0, g: 255, b: 255 ],
[name:"Magenta", r: 255, g: 0, b: 33 ],
[name:"Magenta", r: 255, g: 0, b: 33 ],
[name:"Orange", r: 255, g: 102, b: 0 ],
[name:"Purple", r: 170, g: 0, b: 255 ],
[name:"Yellow", r: 255, g: 255, b: 0 ],
[name:"White", r: 255, g: 255, b: 255 ]
]
def colorData = [:]
def colorData = [:]
colorData = colors.find { it.name == color }
colorData
}
@@ -670,7 +670,7 @@ def hexToRgb(colorHex) {
def rrInt = Integer.parseInt(colorHex.substring(1,3),16)
def ggInt = Integer.parseInt(colorHex.substring(3,5),16)
def bbInt = Integer.parseInt(colorHex.substring(5,7),16)
def colorData = [:]
colorData = [r: rrInt, g: ggInt, b: bbInt]
colorData
@@ -681,7 +681,7 @@ def rgbToHex(rgb) {
def g = hex(rgb.g)
def b = hex(rgb.b)
def hexColor = "#${r}${g}${b}"
hexColor
}
@@ -689,11 +689,11 @@ def hslToRGB(float var_h, float var_s, float var_l) {
float h = var_h / 100
float s = var_s / 100
float l = var_l
def r = 0
def g = 0
def b = 0
if (s == 0) {
r = l * 255
g = l * 255
@@ -705,26 +705,26 @@ def hslToRGB(float var_h, float var_s, float var_l) {
} else {
var_2 = (l + s) - (s * l)
}
float var_1 = 2 * l - var_2
r = 255 * hueToRgb(var_1, var_2, h + (1 / 3))
g = 255 * hueToRgb(var_1, var_2, h)
b = 255 * hueToRgb(var_1, var_2, h - (1 / 3))
b = 255 * hueToRgb(var_1, var_2, h - (1 / 3))
}
def rgb = [:]
rgb = [r: r, g: g, b: b]
rgb
rgb
}
def hueToRgb(v1, v2, vh) {
if (vh < 0) { vh += 1 }
if (vh < 0) { vh += 1 }
if (vh > 1) { vh -= 1 }
if ((6 * vh) < 1) { return (v1 + (v2 - v1) * 6 * vh) }
if ((2 * vh) < 1) { return (v2) }
if ((3 * vh) < 2) { return (v1 + (v2 - $v1) * ((2 / 3 - vh) * 6)) }
if ((3 * vh) < 2) { return (v1 + (v2 - $v1) * ((2 / 3 - vh) * 6)) }
return (v1)
}
@@ -735,49 +735,49 @@ def rgbToHSL(rgb) {
def h = 0
def s = 0
def l = 0
def var_min = [r,g,b].min()
def var_max = [r,g,b].max()
def del_max = var_max - var_min
l = (var_max + var_min) / 2
if (del_max == 0) {
h = 0
s = 0
} else {
if (l < 0.5) { s = del_max / (var_max + var_min) }
if (l < 0.5) { s = del_max / (var_max + var_min) }
else { s = del_max / (2 - var_max - var_min) }
def del_r = (((var_max - r) / 6) + (del_max / 2)) / del_max
def del_g = (((var_max - g) / 6) + (del_max / 2)) / del_max
def del_b = (((var_max - b) / 6) + (del_max / 2)) / del_max
if (r == var_max) { h = del_b - del_g }
else if (g == var_max) { h = (1 / 3) + del_r - del_b }
if (r == var_max) { h = del_b - del_g }
else if (g == var_max) { h = (1 / 3) + del_r - del_b }
else if (b == var_max) { h = (2 / 3) + del_g - del_r }
if (h < 0) { h += 1 }
if (h > 1) { h -= 1 }
}
def hsl = [:]
def hsl = [:]
hsl = [h: h * 100, s: s * 100, l: l]
hsl
}
def getColorData(colorName) {
log.debug "getColorData: ${colorName}"
def colorRGB = colorNameToRgb(colorName)
def colorHex = rgbToHex(colorRGB)
def colorHSL = rgbToHSL(colorRGB)
def colorData = [:]
colorData = [h: colorHSL.h,
s: colorHSL.s,
l: device.latestValue("level"),
r: colorRGB.r,
colorData = [h: colorHSL.h,
s: colorHSL.s,
l: device.latestValue("level"),
r: colorRGB.r,
g: colorRGB.g,
b: colorRGB.b,
rh: hex(colorRGB.r),
@@ -785,8 +785,8 @@ def getColorData(colorName) {
bh: hex(colorRGB.b),
hex: colorHex,
alpha: 1]
colorData
colorData
}
def doColorButton(colorName) {
@@ -798,7 +798,7 @@ def doColorButton(colorName) {
def maxLevel = hex(99)
toggleTiles(colorName.toLowerCase().replaceAll("\\s",""))
if ( colorName == "Fire Place" ) { updateZwaveParam([paramNumber:72, value:6, size:1]) }
else if ( colorName == "Storm" ) { updateZwaveParam([paramNumber:72, value:7, size:1]) }
else if ( colorName == "Deep Fade" ) { updateZwaveParam([paramNumber:72, value:8, size:1]) }
@@ -808,8 +808,8 @@ def doColorButton(colorName) {
else if ( colorName == "Daylight" ) { String.format("33050400${maxLevel}02${maxLevel}03${maxLevel}04${maxLevel}%02X", 100) }
else {
def c = getColorData(colorName)
def newValue = ["hue": c.h, "saturation": c.s, "level": level, "red": c.r, "green": c.g, "blue": c.b, "hex": c.hex, "alpha": c.alpha]
setColor(newValue)
def newValue = ["hue": c.h, "saturation": c.s, "level": level, "red": c.r, "green": c.g, "blue": c.b, "hex": c.hex, "alpha": c.alpha]
setColor(newValue)
def r = hex(c.r * (level/100))
def g = hex(c.g * (level/100))
def b = hex(c.b * (level/100))
@@ -823,19 +823,19 @@ def toggleTiles(color) {
if ( !state.colorTiles ) {
state.colorTiles = ["softwhite","daylight","warmwhite","red","green","blue","cyan","magenta","orange","purple","yellow","white","fireplace","storm","deepfade","litefade","police"]
}
def cmds = []
state.colorTiles.each({
if ( it == color ) {
log.debug "Turning ${it} on"
cmds << sendEvent(name: it, value: "on${it}", displayed: True, descriptionText: "${device.displayName} ${color} is 'ON'", isStateChange: true)
cmds << sendEvent(name: it, value: "on${it}", display: True, descriptionText: "${device.displayName} ${color} is 'ON'", isStateChange: true)
} else {
//log.debug "Turning ${it} off"
cmds << sendEvent(name: it, value: "off${it}", displayed: false)
}
})
delayBetween(cmds, 2500)
}

1
devicetypes/smartthings/fibaro-smoke-sensor.src/fibaro-smoke-sensor.groovy
View File

@@ -21,7 +21,6 @@ metadata {
attribute "tamper", "enum", ["detected", "clear"]
attribute "heatAlarm", "enum", ["overheat detected", "clear", "rapid temperature rise", "underheat detected"]
fingerprint deviceId: "0x0701", inClusters: "0x5E, 0x86, 0x72, 0x5A, 0x59, 0x85, 0x73, 0x84, 0x80, 0x71, 0x56, 0x70, 0x31, 0x8E, 0x22, 0x9C, 0x98, 0x7A", outClusters: "0x20, 0x8B"
fingerprint mfr:"010F", prod:"0C02", model:"1002"
}
simulator {
//battery

4
devicetypes/smartthings/fidure-thermostat.src/fidure-thermostat.groovy
View File

@@ -682,7 +682,7 @@ def setHeatingSetpoint(degrees) {
def temperatureScale = getTemperatureScale()
def degreesInteger = degrees as Integer
sendEvent("name":"heatingSetpoint", "value":degreesInteger, "unit":temperatureScale)
sendEvent("name":"heatingSetpoint", "value":degreesInteger)
def celsius = (getTemperatureScale() == "C") ? degreesInteger : (fahrenheitToCelsius(degreesInteger) as Double).round(2)
"st wattr 0x${device.deviceNetworkId} 1 0x201 0x12 0x29 {" + hex(celsius*100) + "}"
@@ -691,7 +691,7 @@ def setHeatingSetpoint(degrees) {
def setCoolingSetpoint(degrees) {
def degreesInteger = degrees as Integer
sendEvent("name":"coolingSetpoint", "value":degreesInteger, "unit":temperatureScale)
sendEvent("name":"coolingSetpoint", "value":degreesInteger)
def celsius = (getTemperatureScale() == "C") ? degreesInteger : (fahrenheitToCelsius(degreesInteger) as Double).round(2)
"st wattr 0x${device.deviceNetworkId} 1 0x201 0x11 0x29 {" + hex(celsius*100) + "}"

289
devicetypes/smartthings/ge-link-bulb.src/ge-link-bulb.groovy
View File

@@ -1,7 +1,7 @@
/**
* GE Link Bulb
*
* Copyright 2016 SmartThings
* Copyright 2014 SmartThings
*
* Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except
* in compliance with the License. You may obtain a copy of the License at:
@@ -36,73 +36,155 @@
* Slider range from 0..100
* Change 9: 2015-03-06 (Juan Risso)
* Setlevel -> value to integer (to prevent smartapp calling this function from not working).
* Change 10: 2016-03-06 (Vinay Rao/Tom Manley)
* changed 2/3rds of the file to clean up code and add zigbee library improvements
*
*/
metadata {
definition (name: "GE Link Bulb", namespace: "smartthings", author: "SmartThings") {
definition (name: "GE Link Bulb", namespace: "smartthings", author: "SmartThings") {
capability "Actuator"
capability "Actuator"
capability "Configuration"
capability "Refresh"
capability "Sensor"
capability "Sensor"
capability "Switch"
capability "Switch Level"
capability "Switch Level"
capability "Polling"
fingerprint profileId: "0104", inClusters: "0000,0003,0004,0005,0006,0008,1000", outClusters: "0019", manufacturer: "GE_Appliances", model: "ZLL Light", deviceJoinName: "GE Link Bulb"
fingerprint profileId: "0104", inClusters: "0000,0003,0004,0005,0006,0008,1000", outClusters: "0019", manufacturer: "GE", model: "SoftWhite", deviceJoinName: "GE Link Soft White Bulb"
fingerprint profileId: "0104", inClusters: "0000,0003,0004,0005,0006,0008,1000", outClusters: "0019", manufacturer: "GE", model: "Daylight", deviceJoinName: "GE Link Daylight Bulb"
}
}
// 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:'${name}', action:"switch.off", icon:"st.switches.light.on", backgroundColor:"#79b821", nextState:"turningOff"
attributeState "off", label:'${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.refresh", inactiveLabel: false, decoration: "flat", width: 2, height: 2) {
state "default", label:"", action:"refresh.refresh", icon:"st.secondary.refresh"
}
main "switch"
details(["switch", "refresh"])
}
tiles {
standardTile("switch", "device.switch", width: 2, height: 2, canChangeIcon: true) {
state "on", label: '${name}', action: "switch.off", icon: "st.switches.light.on", backgroundColor: "#79b821", nextState:"turningOff"
state "off", label: '${name}', action: "switch.on", icon: "st.switches.light.off", backgroundColor: "#ffffff", nextState:"turningOn"
state "turningOn", label:'${name}', action: "switch.off", icon:"st.switches.light.on", backgroundColor:"#79b821", nextState:"turningOff"
state "turningOff", label:'${name}', action: "switch.on", icon:"st.switches.light.off", backgroundColor:"#ffffff", nextState:"turningOn"
}
standardTile("refresh", "device.switch", inactiveLabel: false, decoration: "flat") {
state "default", label:"", action:"refresh.refresh", icon:"st.secondary.refresh"
}
controlTile("levelSliderControl", "device.level", "slider", height: 1, width: 3, 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", "level", "levelSliderControl", "refresh"])
}
preferences {
input("dimRate", "enum", title: "Dim Rate", options: ["Instant", "Normal", "Slow", "Very Slow"], defaultValue: "Normal", required: false, displayDuringSetup: true)
input("dimOnOff", "enum", title: "Dim transition for On/Off commands?", options: ["Yes", "No"], defaultValue: "No", required: false, displayDuringSetup: true)
preferences {
input("dimRate", "enum", title: "Dim Rate", options: ["Instant", "Normal", "Slow", "Very Slow"], defaultValue: "Normal", required: false, displayDuringSetup: true)
input("dimOnOff", "enum", title: "Dim transition for On/Off commands?", options: ["Yes", "No"], defaultValue: "No", required: false, displayDuringSetup: true)
}
}
// Parse incoming device messages to generate events
def parse(String description) {
def resultMap = zigbee.getEvent(description)
if (resultMap) {
if (resultMap.name != "level" || resultMap.value != 0) { // Ignore level reports of 0 sent when bulb turns off
sendEvent(resultMap)
log.trace description
if (description?.startsWith("on/off:")) {
log.debug "The bulb was sent a command to do something just now..."
if (description[-1] == "1") {
def result = createEvent(name: "switch", value: "on")
log.debug "On command was sent maybe from manually turning on? : Parse returned ${result?.descriptionText}"
return result
} else if (description[-1] == "0") {
def result = createEvent(name: "switch", value: "off")
log.debug "Off command was sent : Parse returned ${result?.descriptionText}"
return result
}
}
else {
log.debug "DID NOT PARSE MESSAGE for description : $description"
log.debug zigbee.parseDescriptionAsMap(description)
def msg = zigbee.parse(description)
if (description?.startsWith("catchall:")) {
// log.trace msg
// log.trace "data: $msg.data"
def x = description[-4..-1]
// log.debug x
switch (x)
{
case "0000":
def result = createEvent(name: "switch", value: "off")
log.debug "${result?.descriptionText}"
return result
break
case "1000":
def result = createEvent(name: "switch", value: "off")
log.debug "${result?.descriptionText}"
return result
break
case "0100":
def result = createEvent(name: "switch", value: "on")
log.debug "${result?.descriptionText}"
return result
break
case "1001":
def result = createEvent(name: "switch", value: "on")
log.debug "${result?.descriptionText}"
return result
break
}
}
if (description?.startsWith("read attr")) {
// log.trace description[27..28]
// log.trace description[-2..-1]
if (description[27..28] == "0A") {
// log.debug description[-2..-1]
def i = Math.round(convertHexToInt(description[-2..-1]) / 256 * 100 )
sendEvent( name: "level", value: i )
sendEvent( name: "switch.setLevel", value: i) //added to help subscribers
}
else {
if (description[-2..-1] == "00" && state.trigger == "setLevel") {
// log.debug description[-2..-1]
def i = Math.round(convertHexToInt(description[-2..-1]) / 256 * 100 )
sendEvent( name: "level", value: i )
sendEvent( name: "switch.setLevel", value: i) //added to help subscribers
}
if (description[-2..-1] == state.lvl) {
// log.debug description[-2..-1]
def i = Math.round(convertHexToInt(description[-2..-1]) / 256 * 100 )
sendEvent( name: "level", value: i )
sendEvent( name: "switch.setLevel", value: i) //added to help subscribers
}
}
}
}
def poll() {
def refreshCmds = [
"st wattr 0x${device.deviceNetworkId} 1 8 0x10 0x21 {${state?.dOnOff ?: '0000'}}", "delay 2000"
[
"st rattr 0x${device.deviceNetworkId} 1 6 0", "delay 500",
"st rattr 0x${device.deviceNetworkId} 1 8 0", "delay 500",
"st wattr 0x${device.deviceNetworkId} 1 8 0x10 0x21 {${state?.dOnOff ?: '0000'}}"
]
return refreshCmds + zigbee.onOffRefresh() + zigbee.levelRefresh()
}
def updated() {
@@ -188,60 +270,109 @@ def updated() {
}
def on() {
zigbee.on()
state.lvl = "00"
state.trigger = "on/off"
// log.debug "on()"
sendEvent(name: "switch", value: "on")
"st cmd 0x${device.deviceNetworkId} 1 6 1 {}"
}
def off() {
zigbee.off()
state.lvl = "00"
state.trigger = "on/off"
// log.debug "off()"
sendEvent(name: "switch", value: "off")
"st cmd 0x${device.deviceNetworkId} 1 6 0 {}"
}
def refresh() {
def refreshCmds = [
"st wattr 0x${device.deviceNetworkId} 1 8 0x10 0x21 {${state?.dOnOff ?: '0000'}}", "delay 2000"
]
return refreshCmds + zigbee.onOffRefresh() + zigbee.levelRefresh() + zigbee.onOffConfig()
[
"st rattr 0x${device.deviceNetworkId} 1 6 0", "delay 500",
"st rattr 0x${device.deviceNetworkId} 1 8 0", "delay 500",
"st wattr 0x${device.deviceNetworkId} 1 8 0x10 0x21 {${state?.dOnOff ?: '0000'}}"
]
poll()
}
def setLevel(value) {
def cmd
def delayForRefresh = 500
def cmds = []
value = value as Integer
if (value == 0) {
sendEvent(name: "switch", value: "off")
cmds << "st cmd 0x${device.deviceNetworkId} 1 8 0 {0000 ${state.rate}}"
}
else if (device.latestValue("switch") == "off") {
sendEvent(name: "switch", value: "on")
}
sendEvent(name: "level", value: value)
value = (value * 255 / 100)
def level = hex(value);
state.trigger = "setLevel"
state.lvl = "${level}"
if (dimRate && (state?.rate != null)) {
def computedRate = convertRateValue(state.rate)
cmd = zigbee.setLevel(value, computedRate)
delayForRefresh += computedRate * 100 //converting tenth of second to milliseconds
cmds << "st cmd 0x${device.deviceNetworkId} 1 8 4 {${level} ${state.rate}}"
}
else {
cmd = zigbee.setLevel(value, 20)
delayForRefresh += 2000
cmds << "st cmd 0x${device.deviceNetworkId} 1 8 4 {${level} 1500}"
}
cmd + ["delay $delayForRefresh"] + zigbee.levelRefresh()
}
int convertRateValue(rate) {
int convertedRate = 0
switch (rate)
{
case "0000":
convertedRate = 0
break
case "1500":
convertedRate = 20 //0015 hex in int is 2.1
break
case "2500":
convertedRate = 35 //0025 hex in int is 3.7
break
case "3500":
convertedRate = 50 //0035 hex in int is 5.1
break
}
convertedRate
log.debug cmds
cmds
}
def configure() {
log.debug "Configuring Reporting and Bindings."
return zigbee.onOffConfig() + zigbee.onOffRefresh() + zigbee.levelRefresh()
log.debug "Configuring Reporting and Bindings."
def configCmds = [
//Switch Reporting
"zcl global send-me-a-report 6 0 0x10 0 3600 {01}", "delay 500",
"send 0x${device.deviceNetworkId} 1 1", "delay 1000",
//Level Control Reporting
"zcl global send-me-a-report 8 0 0x20 5 3600 {0010}", "delay 200",
"send 0x${device.deviceNetworkId} 1 1", "delay 1500",
"zdo bind 0x${device.deviceNetworkId} 1 1 6 {${device.zigbeeId}} {}", "delay 1000",
"zdo bind 0x${device.deviceNetworkId} 1 1 8 {${device.zigbeeId}} {}", "delay 500",
]
return configCmds + refresh() // send refresh cmds as part of config
}
private hex(value, width=2) {
def s = new BigInteger(Math.round(value).toString()).toString(16)
while (s.size() < width) {
s = "0" + s
}
s
}
private Integer convertHexToInt(hex) {
Integer.parseInt(hex,16)
}
private String swapEndianHex(String hex) {
reverseArray(hex.decodeHex()).encodeHex()
}
private byte[] reverseArray(byte[] array) {
int i = 0;
int j = array.length - 1;
byte tmp;
while (j > i) {
tmp = array[j];
array[j] = array[i];
array[i] = tmp;
j--;
i++;
}
return array
}

351
devicetypes/smartthings/ge-zigbee-dimmer.src/ge-zigbee-dimmer.groovy Normal file
View File

@@ -0,0 +1,351 @@
/**
* Copyright 2015 SmartThings
*
* Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except
* in compliance with the License. You may obtain a copy of the License at:
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software distributed under the License is distributed
* on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License
* for the specific language governing permissions and limitations under the License.
*
* GE/Jasco ZigBee Dimmer
*
* Author: SmartThings
* Date: 2015-07-01
*/
metadata {
definition (name: "GE ZigBee Dimmer", namespace: "smartthings", author: "SmartThings") {
capability "Switch"
capability "Switch Level"
capability "Power Meter"
capability "Configuration"
capability "Refresh"
capability "Actuator"
capability "Sensor"
}
// 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") {
attributeState "on", label:'${name}', action:"switch.off", icon:"st.switches.switch.on", backgroundColor:"#79b821", nextState:"turningOff"
attributeState "off", label:'${name}', action:"switch.on", icon:"st.switches.switch.off", backgroundColor:"#ffffff", nextState:"turningOn"
attributeState "turningOn", label:'${name}', action:"switch.off", icon:"st.switches.switch.on", backgroundColor:"#79b821", nextState:"turningOff"
attributeState "turningOff", label:'${name}', action:"switch.on", icon:"st.switches.switch.off", backgroundColor:"#ffffff", nextState:"turningOn"
}
tileAttribute ("device.level", key: "SLIDER_CONTROL") {
attributeState "level", action:"switch level.setLevel"
}
}
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"
}
main "switch"
details(["switch", "level", "power","levelSliderControl","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
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)
}
}
else {
log.warn "DID NOT PARSE MESSAGE for description : $description"
log.debug parseDescriptionAsMap(description)
}
}
// Commands to device
def zigbeeCommand(cluster, attribute){
["st cmd 0x${device.deviceNetworkId} ${endpointId} ${cluster} ${attribute} {}"]
}
def off() {
zigbeeCommand("6", "0")
}
def on() {
zigbeeCommand("6", "1")
}
def setLevel(value) {
value = value as Integer
if (value == 0) {
off()
}
else {
sendEvent(name: "level", value: value)
setLevelWithRate(value, "0000") + ["delay 1000"] + on() //value is between 0 to 100; GE does NOT switch on if OFF
}
}
def refresh() {
[
"st rattr 0x${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"
]
}
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
}

284
devicetypes/smartthings/ge-zigbee-switch.src/ge-zigbee-switch.groovy Normal file
View File

@@ -0,0 +1,284 @@
/**
* Copyright 2015 SmartThings
*
* Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except
* in compliance with the License. You may obtain a copy of the License at:
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software distributed under the License is distributed
* on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License
* for the specific language governing permissions and limitations under the License.
*
* GE/Jasco ZigBee Switch
*
* Author: SmartThings
* Date: 2015-07-01
*/
metadata {
// Automatically generated. Make future change here.
definition (name: "GE ZigBee Switch", namespace: "smartthings", author: "SmartThings") {
capability "Switch"
capability "Power Meter"
capability "Configuration"
capability "Refresh"
capability "Actuator"
capability "Sensor"
}
// 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") {
attributeState "on", label:'${name}', action:"switch.off", icon:"st.switches.switch.on", backgroundColor:"#79b821", nextState:"turningOff"
attributeState "off", label:'${name}', action:"switch.on", icon:"st.switches.switch.off", backgroundColor:"#ffffff", nextState:"turningOn"
attributeState "turningOn", label:'${name}', action:"switch.off", icon:"st.switches.switch.on", backgroundColor:"#79b821", nextState:"turningOff"
attributeState "turningOff", label:'${name}', action:"switch.on", icon:"st.switches.switch.off", backgroundColor:"#ffffff", nextState:"turningOn"
}
}
standardTile("refresh", "device.switch", 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"])
}
}
// 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
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)
}
}
else {
log.warn "DID NOT PARSE MESSAGE for description : $description"
log.debug parseDescriptionAsMap(description)
}
}
// Commands to device
def zigbeeCommand(cluster, attribute){
"st cmd 0x${device.deviceNetworkId} ${endpointId} ${cluster} ${attribute} {}"
}
def off() {
zigbeeCommand("6", "0")
}
def on() {
zigbeeCommand("6", "1")
}
def refresh() {
[
"st rattr 0x${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"
]
}
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
}

126
devicetypes/smartthings/gentle-wake-up-controller.src/gentle-wake-up-controller.groovy
View File

@@ -1,126 +0,0 @@
/**
* Copyright 2016 SmartThings
*
* Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except
* in compliance with the License. You may obtain a copy of the License at:
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software distributed under the License is distributed
* on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License
* for the specific language governing permissions and limitations under the License.
*
*/
metadata {
definition (name: "Gentle Wake Up Controller", namespace: "smartthings", author: "SmartThings") {
capability "Switch"
capability "Timed Session"
attribute "percentComplete", "number"
command "setPercentComplete", ["number"]
}
simulator {
// TODO: define status and reply messages here
}
tiles(scale: 2) {
multiAttributeTile(name: "richTile", type:"generic", width:6, height:4) {
tileAttribute("sessionStatus", key: "PRIMARY_CONTROL") {
attributeState "cancelled", action: "timed session.start", icon: "http://f.cl.ly/items/322n181j2K3f281r2s0A/playbutton.png", backgroundColor: "#ffffff", nextState: "running"
attributeState "stopped", action: "timed session.start", icon: "http://f.cl.ly/items/322n181j2K3f281r2s0A/playbutton.png", backgroundColor: "#ffffff", nextState: "cancelled"
attributeState "running", action: "timed session.stop", icon: "http://f.cl.ly/items/0B3y3p2V3X2l3P3y3W09/stopbutton.png", backgroundColor: "#79b821", nextState: "cancelled"
}
tileAttribute("timeRemaining", key: "SECONDARY_CONTROL") {
attributeState "timeRemaining", label:'${currentValue} remaining'
}
tileAttribute("percentComplete", key: "SLIDER_CONTROL") {
attributeState "percentComplete", action: "timed session.setTimeRemaining"
}
}
// start/stop
standardTile("sessionStatusTile", "sessionStatus", width: 1, height: 1, canChangeIcon: true) {
state "cancelled", label: "Stopped", action: "timed session.start", backgroundColor: "#ffffff", icon: "http://f.cl.ly/items/1J1g0H2P0S1G1f2O1s1s/icon.png"
state "stopped", label: "Stopped", action: "timed session.start", backgroundColor: "#ffffff", icon: "http://f.cl.ly/items/1J1g0H2P0S1G1f2O1s1s/icon.png"
state "running", label: "Running", action: "timed session.stop", backgroundColor: "#79b821", icon: "http://f.cl.ly/items/1J1g0H2P0S1G1f2O1s1s/icon.png"
}
// duration
valueTile("timeRemainingTile", "timeRemaining", decoration: "flat", width: 2) {
state "timeRemaining", label:'${currentValue} left'
}
controlTile("percentCompleteTile", "percentComplete", "slider", height: 1, width: 3) {
state "percentComplete", action: "timed session.setTimeRemaining"
}
main "sessionStatusTile"
details "richTile"
// details(["richTile", "sessionStatusTile", "timeRemainingTile", "percentCompleteTile"])
}
}
// parse events into attributes
def parse(description) {
log.debug "Parsing '${description}'"
// TODO: handle 'switch' attribute
// TODO: handle 'level' attribute
// TODO: handle 'sessionStatus' attribute
// TODO: handle 'timeRemaining' attribute
}
// handle commands
def on() {
log.debug "Executing 'on'"
startDimming()
}
def off() {
log.debug "Executing 'off'"
stopDimming()
}
def setTimeRemaining(percentComplete) {
log.debug "Executing 'setTimeRemaining' to ${percentComplete}% complete"
parent.jumpTo(percentComplete)
}
def start() {
log.debug "Executing 'start'"
startDimming()
}
def stop() {
log.debug "Executing 'stop'"
stopDimming()
}
def pause() {
log.debug "Executing 'pause'"
// TODO: handle 'pause' command
}
def cancel() {
log.debug "Executing 'cancel'"
stopDimming()
}
def startDimming() {
log.trace "startDimming"
log.debug "parent: ${parent}"
parent.start("controller")
}
def stopDimming() {
log.trace "stopDimming"
log.debug "parent: ${parent}"
parent.stop("controller")
}
def controllerEvent(eventData) {
log.trace "controllerEvent"
sendEvent(eventData)
}

11
devicetypes/smartthings/homeseer-multisensor.src/homeseer-multisensor.groovy
View File

@@ -80,12 +80,19 @@ def parse(String description) {
if (cmd) {
result = zwaveEvent(cmd)
}
log.debug "Parsed ${description.inspect()} to ${result.inspect()}"
// log.debug "Parsed ${description.inspect()} to ${result.inspect()}"
return result
}
def zwaveEvent(physicalgraph.zwave.commands.multiinstancev1.MultiInstanceCmdEncap cmd) {
def encapsulated = cmd.encapsulatedCommand([0x31: 1, 0x84: 2, 0x60: 1, 0x85: 1, 0x70: 1])
def encapsulated = null
if (cmd.respondsTo("encapsulatedCommand")) {
encapsulated = cmd.encapsulatedCommand()
} else {
def hex1 = { n -> String.format("%02X", n) }
def sorry = "command: ${hex1(cmd.commandClass)}${hex1(cmd.command)}, payload: " + cmd.parameter.collect{ hex1(it) }.join(" ")
encapsulated = zwave.parse(sorry, [0x31: 1, 0x84: 2, 0x60: 1, 0x85: 1, 0x70: 1])
}
return encapsulated ? zwaveEvent(encapsulated) : null
}

175
devicetypes/smartthings/hue-bloom.src/hue-bloom.groovy
View File

@@ -1,175 +0,0 @@
/**
* Hue Bloom
*
* Philips Hue Type "Color Light"
*
* Author: SmartThings
*/
// for the UI
metadata {
// Automatically generated. Make future change here.
definition (name: "Hue Bloom", namespace: "smartthings", author: "SmartThings") {
capability "Switch Level"
capability "Actuator"
capability "Color Control"
capability "Switch"
capability "Refresh"
capability "Sensor"
capability "Health Check"
capability "Light"
command "setAdjustedColor"
command "reset"
command "refresh"
}
simulator {
// TODO: define status and reply messages here
}
tiles (scale: 2){
multiAttributeTile(name:"rich-control", 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", range:"(0..100)"
}
tileAttribute ("device.color", key: "COLOR_CONTROL") {
attributeState "color", action:"setAdjustedColor"
}
}
standardTile("reset", "device.reset", height: 2, width: 2, inactiveLabel: false, decoration: "flat") {
state "default", label:"Reset To White", action:"reset", icon:"st.lights.philips.hue-single"
}
standardTile("refresh", "device.refresh", height: 2, width: 2, inactiveLabel: false, decoration: "flat") {
state "default", label:"", action:"refresh.refresh", icon:"st.secondary.refresh"
}
main(["rich-control"])
details(["rich-control", "reset", "refresh"])
}
}
void installed() {
sendEvent(name: "DeviceWatch-Enroll", value: "{\"protocol\": \"LAN\", \"scheme\":\"untracked\", \"hubHardwareId\": \"${device.hub.hardwareID}\"}")
}
// parse events into attributes
def parse(description) {
log.debug "parse() - $description"
def results = []
def map = description
if (description instanceof String) {
log.debug "Hue Bulb stringToMap - ${map}"
map = stringToMap(description)
}
if (map?.name && map?.value) {
results << createEvent(name: "${map?.name}", value: "${map?.value}")
}
results
}
// handle commands
void on() {
log.trace parent.on(this)
}
void off() {
log.trace parent.off(this)
}
void setLevel(percent) {
log.debug "Executing 'setLevel'"
if (verifyPercent(percent)) {
log.trace parent.setLevel(this, percent)
}
}
void setSaturation(percent) {
log.debug "Executing 'setSaturation'"
if (verifyPercent(percent)) {
log.trace parent.setSaturation(this, percent)
}
}
void setHue(percent) {
log.debug "Executing 'setHue'"
if (verifyPercent(percent)) {
log.trace parent.setHue(this, percent)
}
}
void setColor(value) {
def events = []
def validValues = [:]
if (verifyPercent(value.hue)) {
validValues.hue = value.hue
}
if (verifyPercent(value.saturation)) {
validValues.saturation = value.saturation
}
if (value.hex != null) {
if (value.hex ==~ /^\#([A-Fa-f0-9]){6}$/) {
validValues.hex = value.hex
} else {
log.warn "$value.hex is not a valid color"
}
}
if (verifyPercent(value.level)) {
validValues.level = value.level
}
if (value.switch == "off" || (value.level != null && value.level <= 0)) {
validValues.switch = "off"
} else {
validValues.switch = "on"
}
if (!validValues.isEmpty()) {
log.trace parent.setColor(this, validValues)
}
}
void reset() {
log.debug "Executing 'reset'"
def value = [hue:20, saturation:2]
setAdjustedColor(value)
}
void setAdjustedColor(value) {
if (value) {
log.trace "setAdjustedColor: ${value}"
def adjusted = value + [:]
// Needed because color picker always sends 100
adjusted.level = null
setColor(adjusted)
} else {
log.warn "Invalid color input $value"
}
}
void refresh() {
log.debug "Executing 'refresh'"
parent.manualRefresh()
}
def verifyPercent(percent) {
if (percent == null)
return false
else if (percent >= 0 && percent <= 100) {
return true
} else {
log.warn "$percent is not 0-100"
return false
}
}

52
devicetypes/smartthings/hue-bridge.src/hue-bridge.groovy
View File

@@ -7,15 +7,8 @@
metadata {
// Automatically generated. Make future change here.
definition (name: "Hue Bridge", namespace: "smartthings", author: "SmartThings") {
capability "Health Check"
attribute "serialNumber", "string"
attribute "networkAddress", "string"
// Used to indicate if bridge is reachable or not, i.e. is the bridge connected to the network
// Possible values "Online" or "Offline"
attribute "status", "string"
// Id is the number on the back of the hub, Hue uses last six digits of Mac address
// This is also used in the Hue application as ID
attribute "idNumber", "string"
}
simulator {
@@ -24,30 +17,28 @@ metadata {
tiles(scale: 2) {
multiAttributeTile(name:"rich-control"){
tileAttribute ("device.status", key: "PRIMARY_CONTROL") {
attributeState "Offline", label: '${currentValue}', action: "", icon: "st.Lighting.light99-hue", backgroundColor: "#ffffff"
attributeState "Online", label: '${currentValue}', action: "", icon: "st.Lighting.light99-hue", backgroundColor: "#79b821"
}
}
valueTile("doNotRemove", "v", decoration: "flat", height: 2, width: 6, inactiveLabel: false) {
state "default", label:'If removed, Hue lights will not work properly'
tileAttribute ("device.switch", key: "PRIMARY_CONTROL") {
attributeState "default", label: "Hue Bridge", action: "", icon: "st.Lighting.light99-hue", backgroundColor: "#F3C200"
}
tileAttribute ("serialNumber", key: "SECONDARY_CONTROL") {
attributeState "default", label:'SN: ${currentValue}'
}
}
standardTile("icon", "icon", width: 1, height: 1, canChangeIcon: false, inactiveLabel: true, canChangeBackground: false) {
state "default", label: "Hue Bridge", action: "", icon: "st.Lighting.light99-hue", backgroundColor: "#FFFFFF"
}
valueTile("idNumber", "device.idNumber", decoration: "flat", height: 2, width: 6, inactiveLabel: false) {
state "default", label:'ID: ${currentValue}'
valueTile("serialNumber", "device.serialNumber", decoration: "flat", height: 1, width: 2, inactiveLabel: false) {
state "default", label:'SN: ${currentValue}'
}
valueTile("networkAddress", "device.networkAddress", decoration: "flat", height: 2, width: 6, inactiveLabel: false) {
state "default", label:'IP: ${currentValue}'
valueTile("networkAddress", "device.networkAddress", decoration: "flat", height: 2, width: 4, inactiveLabel: false) {
state "default", label:'${currentValue}', height: 1, width: 2, inactiveLabel: false
}
main (["rich-control"])
details(["rich-control", "doNotRemove", "idNumber", "networkAddress"])
main (["icon"])
details(["rich-control", "networkAddress"])
}
}
void installed() {
sendEvent(name: "DeviceWatch-Enroll", value: "{\"protocol\": \"LAN\", \"scheme\":\"untracked\", \"hubHardwareId\": \"${device.hub.hardwareID}\"}")
}
// parse events into attributes
def parse(description) {
log.debug "Parsing '${description}'"
@@ -68,7 +59,7 @@ def parse(description) {
log.trace "HUE BRIDGE, GENERATING EVENT: $map.name: $map.value"
results << createEvent(name: "${map.name}", value: "${map.value}")
} else {
log.trace "Parsing description"
log.trace "Parsing description"
def msg = parseLanMessage(description)
if (msg.body) {
def contentType = msg.headers["Content-Type"]
@@ -76,14 +67,17 @@ def parse(description) {
def bulbs = new groovy.json.JsonSlurper().parseText(msg.body)
if (bulbs.state) {
log.info "Bridge response: $msg.body"
} else {
// Sending Bulbs List to parent"
if (parent.state.inBulbDiscovery)
log.info parent.bulbListHandler(device.hub.id, msg.body)
}
} else if (contentType?.contains("xml")) {
}
else if (contentType?.contains("xml")) {
log.debug "HUE BRIDGE ALREADY PRESENT"
parent.hubVerification(device.hub.id, msg.body)
}
}
}
}
results
}

181
devicetypes/smartthings/hue-bulb.src/hue-bulb.groovy
View File

@@ -1,11 +1,9 @@
/**
* Hue Bulb
*
* Philips Hue Type "Extended Color Light"
*
* Author: SmartThings
*/
// for the UI
metadata {
// Automatically generated. Make future change here.
@@ -13,16 +11,13 @@ metadata {
capability "Switch Level"
capability "Actuator"
capability "Color Control"
capability "Color Temperature"
capability "Switch"
capability "Refresh"
capability "Sensor"
capability "Health Check"
capability "Light"
command "setAdjustedColor"
command "reset"
command "refresh"
command "reset"
command "refresh"
}
simulator {
@@ -30,7 +25,7 @@ metadata {
}
tiles (scale: 2){
multiAttributeTile(name:"rich-control", type: "lighting", width: 6, height: 4, canChangeIcon: true){
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"
@@ -38,49 +33,34 @@ metadata {
attributeState "turningOff", label:'${name}', action:"switch.on", icon:"st.lights.philips.hue-single", backgroundColor:"#ffffff", nextState:"turningOn"
}
tileAttribute ("device.level", key: "SLIDER_CONTROL") {
attributeState "level", action:"switch level.setLevel", range:"(0..100)"
}
attributeState "level", action:"switch level.setLevel"
}
tileAttribute ("device.color", key: "COLOR_CONTROL") {
attributeState "color", action:"setAdjustedColor"
}
}
controlTile("colorTempSliderControl", "device.colorTemperature", "slider", width: 4, height: 2, inactiveLabel: false, range:"(2000..6500)") {
state "colorTemperature", action:"color temperature.setColorTemperature"
}
valueTile("colorTemp", "device.colorTemperature", inactiveLabel: false, decoration: "flat", width: 2, height: 2) {
state "colorTemperature", label: 'WHITES'
}
standardTile("reset", "device.reset", height: 2, width: 2, inactiveLabel: false, decoration: "flat") {
state "default", label:"Reset To White", action:"reset", icon:"st.lights.philips.hue-single"
standardTile("reset", "device.reset", inactiveLabel: false, decoration: "flat", width: 2, height: 2) {
state "default", label:"Reset Color", action:"reset", icon:"st.lights.philips.hue-single"
}
standardTile("refresh", "device.refresh", height: 2, width: 2, inactiveLabel: false, decoration: "flat") {
standardTile("refresh", "device.switch", inactiveLabel: false, decoration: "flat", width: 2, height: 2) {
state "default", label:"", action:"refresh.refresh", icon:"st.secondary.refresh"
}
main(["rich-control"])
details(["rich-control", "colorTempSliderControl", "colorTemp", "reset", "refresh"])
}
}
void installed() {
sendEvent(name: "DeviceWatch-Enroll", value: "{\"protocol\": \"LAN\", \"scheme\":\"untracked\", \"hubHardwareId\": \"${device.hub.hardwareID}\"}")
main(["switch"])
details(["switch", "levelSliderControl", "rgbSelector", "refresh", "reset"])
}
// parse events into attributes
def parse(description) {
log.debug "parse() - $description"
def results = []
def map = description
if (description instanceof String) {
log.debug "Hue Bulb stringToMap - ${map}"
map = stringToMap(description)
}
if (map?.name && map?.value) {
results << createEvent(name: "${map?.name}", value: "${map?.value}")
}
@@ -88,104 +68,91 @@ def parse(description) {
}
// handle commands
void on() {
def on() {
log.trace parent.on(this)
sendEvent(name: "switch", value: "on")
}
void off() {
def off() {
log.trace parent.off(this)
sendEvent(name: "switch", value: "off")
}
void setLevel(percent) {
log.debug "Executing 'setLevel'"
if (verifyPercent(percent)) {
log.trace parent.setLevel(this, percent)
}
def nextLevel() {
def level = device.latestValue("level") as Integer ?: 0
if (level <= 100) {
level = Math.min(25 * (Math.round(level / 25) + 1), 100) as Integer
}
else {
level = 25
}
setLevel(level)
}
void setSaturation(percent) {
log.debug "Executing 'setSaturation'"
if (verifyPercent(percent)) {
log.trace parent.setSaturation(this, percent)
}
def setLevel(percent) {
log.debug "Executing 'setLevel'"
parent.setLevel(this, percent)
sendEvent(name: "level", value: percent)
}
void setHue(percent) {
log.debug "Executing 'setHue'"
if (verifyPercent(percent)) {
log.trace parent.setHue(this, percent)
}
def setSaturation(percent) {
log.debug "Executing 'setSaturation'"
parent.setSaturation(this, percent)
sendEvent(name: "saturation", value: percent)
}
void setColor(value) {
def events = []
def validValues = [:]
if (verifyPercent(value.hue)) {
validValues.hue = value.hue
}
if (verifyPercent(value.saturation)) {
validValues.saturation = value.saturation
}
if (value.hex != null) {
if (value.hex ==~ /^\#([A-Fa-f0-9]){6}$/) {
validValues.hex = value.hex
} else {
log.warn "$value.hex is not a valid color"
}
}
if (verifyPercent(value.level)) {
validValues.level = value.level
}
if (value.switch == "off" || (value.level != null && value.level <= 0)) {
validValues.switch = "off"
} else {
validValues.switch = "on"
}
if (!validValues.isEmpty()) {
log.trace parent.setColor(this, validValues)
}
def setHue(percent) {
log.debug "Executing 'setHue'"
parent.setHue(this, percent)
sendEvent(name: "hue", value: percent)
}
void reset() {
log.debug "Executing 'reset'"
setColorTemperature(4000)
def setColor(value) {
log.debug "setColor: ${value}, $this"
parent.setColor(this, value)
if (value.hue) { sendEvent(name: "hue", value: value.hue)}
if (value.saturation) { sendEvent(name: "saturation", value: value.saturation)}
if (value.hex) { sendEvent(name: "color", value: value.hex)}
if (value.level) { sendEvent(name: "level", value: value.level)}
if (value.switch) { sendEvent(name: "switch", value: value.switch)}
}
void setAdjustedColor(value) {
if (value) {
def reset() {
log.debug "Executing 'reset'"
def value = [level:100, hex:"#90C638", saturation:56, hue:23]
setAdjustedColor(value)
parent.poll()
}
def setAdjustedColor(value) {
if (value) {
log.trace "setAdjustedColor: ${value}"
def adjusted = value + [:]
adjusted.hue = adjustOutgoingHue(value.hue)
// Needed because color picker always sends 100
adjusted.level = null
setColor(adjusted)
} else {
log.warn "Invalid color input $value"
adjusted.level = null
setColor(adjusted)
}
}
void setColorTemperature(value) {
if (value) {
log.trace "setColorTemperature: ${value}k"
log.trace parent.setColorTemperature(this, value)
} else {
log.warn "Invalid color temperature $value"
}
def refresh() {
log.debug "Executing 'refresh'"
parent.manualRefresh()
}
void refresh() {
log.debug "Executing 'refresh'"
parent?.manualRefresh()
def 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: $adjusted"
adjusted
}
def verifyPercent(percent) {
if (percent == null)
return false
else if (percent >= 0 && percent <= 100) {
return true
} else {
log.warn "$percent is not 0-100"
return false
}
}

58
devicetypes/smartthings/hue-lux-bulb.src/hue-lux-bulb.groovy
View File

@@ -1,8 +1,6 @@
/**
* Hue Lux Bulb
*
* Philips Hue Type "Dimmable Light"
*
* Author: SmartThings
*/
// for the UI
@@ -14,16 +12,14 @@ metadata {
capability "Switch"
capability "Refresh"
capability "Sensor"
capability "Health Check"
capability "Light"
command "refresh"
command "refresh"
}
simulator {
// TODO: define status and reply messages here
}
tiles(scale: 2) {
multiAttributeTile(name:"rich-control", type: "lighting", canChangeIcon: true){
tileAttribute ("device.switch", key: "PRIMARY_CONTROL") {
@@ -35,23 +31,29 @@ metadata {
tileAttribute ("device.level", key: "SLIDER_CONTROL") {
attributeState "level", action:"switch level.setLevel", range:"(0..100)"
}
tileAttribute ("device.level", key: "SECONDARY_CONTROL") {
attributeState "level", label: 'Level ${currentValue}%'
}
}
standardTile("switch", "device.switch", width: 2, height: 2, canChangeIcon: true) {
state "on", label:'${name}', action:"switch.off", icon:"st.lights.philips.hue-single", backgroundColor:"#79b821", nextState:"turningOff"
state "off", label:'${name}', action:"switch.on", icon:"st.lights.philips.hue-single", backgroundColor:"#ffffff", nextState:"turningOn"
state "turningOn", label:'${name}', action:"switch.off", icon:"st.lights.philips.hue-single", backgroundColor:"#79b821", nextState:"turningOff"
state "turningOff", label:'${name}', action:"switch.on", icon:"st.lights.philips.hue-single", backgroundColor:"#ffffff", nextState:"turningOn"
}
controlTile("levelSliderControl", "device.level", "slider", height: 1, width: 2, inactiveLabel: false, range:"(0..100)") {
state "level", action:"switch level.setLevel"
}
standardTile("refresh", "device.switch", inactiveLabel: false, decoration: "flat", width: 2, height: 2) {
standardTile("refresh", "device.switch", inactiveLabel: false, height: 2, width: 2, decoration: "flat") {
state "default", label:"", action:"refresh.refresh", icon:"st.secondary.refresh"
}
}
main(["rich-control"])
main(["switch"])
details(["rich-control", "refresh"])
}
}
void installed() {
sendEvent(name: "DeviceWatch-Enroll", value: "{\"protocol\": \"LAN\", \"scheme\":\"untracked\", \"hubHardwareId\": \"${device.hub.hardwareID}\"}")
}
}
// parse events into attributes
@@ -72,25 +74,23 @@ def parse(description) {
}
// handle commands
void on() {
log.trace parent.on(this)
def on() {
parent.on(this)
sendEvent(name: "switch", value: "on")
}
void off() {
log.trace parent.off(this)
def off() {
parent.off(this)
sendEvent(name: "switch", value: "off")
}
void setLevel(percent) {
def setLevel(percent) {
log.debug "Executing 'setLevel'"
if (percent != null && percent >= 0 && percent <= 100) {
parent.setLevel(this, percent)
} else {
log.warn "$percent is not 0-100"
}
parent.setLevel(this, percent)
sendEvent(name: "level", value: percent)
}
void refresh() {
def refresh() {
log.debug "Executing 'refresh'"
parent.manualRefresh()
}

110
devicetypes/smartthings/hue-white-ambiance-bulb.src/hue-white-ambiance-bulb.groovy
View File

@@ -1,110 +0,0 @@
/**
* Hue White Ambiance Bulb
*
* Philips Hue Type "Color Temperature Light"
*
* Author: SmartThings
*/
// for the UI
metadata {
// Automatically generated. Make future change here.
definition (name: "Hue White Ambiance Bulb", namespace: "smartthings", author: "SmartThings") {
capability "Switch Level"
capability "Actuator"
capability "Color Temperature"
capability "Switch"
capability "Refresh"
capability "Health Check"
capability "Light"
command "refresh"
}
simulator {
// TODO: define status and reply messages here
}
tiles (scale: 2){
multiAttributeTile(name:"rich-control", 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", range:"(0..100)"
}
}
controlTile("colorTempSliderControl", "device.colorTemperature", "slider", width: 4, height: 2, inactiveLabel: false, range:"(2200..6500)") {
state "colorTemperature", action:"color temperature.setColorTemperature"
}
valueTile("colorTemp", "device.colorTemperature", inactiveLabel: false, decoration: "flat", width: 2, height: 2) {
state "colorTemperature", label: 'WHITES'
}
standardTile("refresh", "device.refresh", height: 2, width: 2, inactiveLabel: false, decoration: "flat") {
state "default", label:"", action:"refresh.refresh", icon:"st.secondary.refresh"
}
main(["rich-control"])
details(["rich-control", "colorTempSliderControl", "colorTemp", "refresh"])
}
}
void installed() {
sendEvent(name: "DeviceWatch-Enroll", value: "{\"protocol\": \"LAN\", \"scheme\":\"untracked\", \"hubHardwareId\": \"${device.hub.hardwareID}\"}")
}
// parse events into attributes
def parse(description) {
log.debug "parse() - $description"
def results = []
def map = description
if (description instanceof String) {
log.debug "Hue Ambience Bulb stringToMap - ${map}"
map = stringToMap(description)
}
if (map?.name && map?.value) {
results << createEvent(name: "${map?.name}", value: "${map?.value}")
}
results
}
// handle commands
void on() {
log.trace parent.on(this)
}
void off() {
log.trace parent.off(this)
}
void setLevel(percent) {
log.debug "Executing 'setLevel'"
if (percent != null && percent >= 0 && percent <= 100) {
log.trace parent.setLevel(this, percent)
} else {
log.warn "$percent is not 0-100"
}
}
void setColorTemperature(value) {
if (value) {
log.trace "setColorTemperature: ${value}k"
log.trace parent.setColorTemperature(this, value)
} else {
log.warn "Invalid color temperature"
}
}
void refresh() {
log.debug "Executing 'refresh'"
parent.manualRefresh()
}

2
devicetypes/smartthings/life360-user.src/life360-user.groovy
View File

@@ -39,7 +39,7 @@ metadata {
}
def generatePresenceEvent(boolean present) {
log.info "Life360 generatePresenceEvent($present)"
log.debug "Here in generatePresenceEvent!"
def value = formatValue(present)
def linkText = getLinkText(device)
def descriptionText = formatDescriptionText(linkText, present)

48
devicetypes/smartthings/lifx-color-bulb.src/lifx-color-bulb.groovy
View File

@@ -11,9 +11,9 @@ metadata {
capability "Color Temperature"
capability "Switch"
capability "Switch Level" // brightness
capability "Polling"
capability "Refresh"
capability "Sensor"
capability "Health Check"
}
simulator {
@@ -23,6 +23,7 @@ metadata {
tiles(scale: 2) {
multiAttributeTile(name:"switch", type: "lighting", width: 6, height: 4, canChangeIcon: true){
tileAttribute ("device.switch", key: "PRIMARY_CONTROL") {
attributeState "unreachable", label: "?", action:"refresh.refresh", icon:"http://hosted.lifx.co/smartthings/v1/196xUnreachable.png", backgroundColor:"#666666"
attributeState "on", label:'${name}', action:"switch.off", icon:"http://hosted.lifx.co/smartthings/v1/196xOn.png", backgroundColor:"#79b821", nextState:"turningOff"
attributeState "off", label:'${name}', action:"switch.on", icon:"http://hosted.lifx.co/smartthings/v1/196xOff.png", backgroundColor:"#ffffff", nextState:"turningOn"
attributeState "turningOn", label:'Turning on', action:"switch.off", icon:"http://hosted.lifx.co/smartthings/v1/196xOn.png", backgroundColor:"#79b821", nextState:"turningOff"
@@ -63,8 +64,12 @@ metadata {
}
}
void installed() {
sendEvent(name: "DeviceWatch-Enroll", value: "{\"protocol\": \"cloud\", \"scheme\":\"untracked\", \"hubHardwareId\": \"${device?.hub?.hardwareID}\"}")
// parse events into attributes
def parse(String description) {
if (description == 'updated') {
return // don't poll when config settings is being updated as it may time out
}
poll()
}
// handle commands
@@ -79,7 +84,6 @@ def setHue(percentage) {
log.error("Bad setHue result: [${resp.status}] ${resp.data}")
}
}
return []
}
def setSaturation(percentage) {
@@ -93,7 +97,6 @@ def setSaturation(percentage) {
log.error("Bad setSaturation result: [${resp.status}] ${resp.data}")
}
}
return []
}
def setColor(Map color) {
@@ -119,15 +122,13 @@ def setColor(Map color) {
parent.logErrors(logObject:log) {
def resp = parent.apiPUT("/lights/${selector()}/state", [color: attrs.join(" "), power: "on"])
if (resp.status < 300) {
if (color.hex)
sendEvent(name: "color", value: color.hex)
sendEvent(name: "color", value: color.hex)
sendEvent(name: "switch", value: "on")
events.each { sendEvent(it) }
} else {
log.error("Bad setColor result: [${resp.status}] ${resp.data}")
}
}
return []
}
def setLevel(percentage) {
@@ -136,6 +137,7 @@ def setLevel(percentage) {
percentage = 1 // clamp to 1%
}
if (percentage == 0) {
sendEvent(name: "level", value: 0) // Otherwise the level value tile does not update
return off() // if the brightness is set to 0, just turn it off
}
parent.logErrors(logObject:log) {
@@ -148,7 +150,6 @@ def setLevel(percentage) {
log.error("Bad setLevel result: [${resp.status}] ${resp.data}")
}
}
return []
}
def setColorTemperature(kelvin) {
@@ -164,7 +165,6 @@ def setColorTemperature(kelvin) {
}
}
return []
}
def on() {
@@ -174,7 +174,6 @@ def on() {
sendEvent(name: "switch", value: "on")
}
}
return []
}
def off() {
@@ -184,20 +183,16 @@ def off() {
sendEvent(name: "switch", value: "off")
}
}
return []
}
def refresh() {
log.debug "Executing 'refresh'"
def poll() {
log.debug "Executing 'poll' for ${device} ${this} ${device.deviceNetworkId}"
def resp = parent.apiGET("/lights/${selector()}")
if (resp.status == 404) {
state.online = false
sendEvent(name: "DeviceWatch-DeviceStatusUpdate", value: "offline", displayed: false)
log.warn "$device is Offline"
sendEvent(name: "switch", value: "unreachable")
return []
} else if (resp.status != 200) {
log.error("Unexpected result in refresh(): [${resp.status}] ${resp.data}")
log.error("Unexpected result in poll(): [${resp.status}] ${resp.data}")
return []
}
def data = resp.data[0]
@@ -206,20 +201,19 @@ def refresh() {
sendEvent(name: "label", value: data.label)
sendEvent(name: "level", value: Math.round((data.brightness ?: 1) * 100))
sendEvent(name: "switch.setLevel", value: Math.round((data.brightness ?: 1) * 100))
sendEvent(name: "switch", value: data.power)
sendEvent(name: "switch", value: data.connected ? data.power : "unreachable")
sendEvent(name: "color", value: colorUtil.hslToHex((data.color.hue / 3.6) as int, (data.color.saturation * 100) as int))
sendEvent(name: "hue", value: data.color.hue / 3.6)
sendEvent(name: "saturation", value: data.color.saturation * 100)
sendEvent(name: "colorTemperature", value: data.color.kelvin)
sendEvent(name: "model", value: data.product.name)
sendEvent(name: "model", value: "${data.product.company} ${data.product.name}")
if (data.connected) {
sendEvent(name: "DeviceWatch-DeviceStatus", value: "online", displayed: false)
log.debug "$device is Online"
} else {
sendEvent(name: "DeviceWatch-DeviceStatus", value: "offline", displayed: false)
log.warn "$device is Offline"
return []
}
def refresh() {
log.debug "Executing 'refresh'"
poll()
}
def selector() {

45
devicetypes/smartthings/lifx-white-bulb.src/lifx-white-bulb.groovy
View File

@@ -10,9 +10,9 @@ metadata {
capability "Color Temperature"
capability "Switch"
capability "Switch Level" // brightness
capability "Polling"
capability "Refresh"
capability "Sensor"
capability "Health Check"
}
simulator {
@@ -22,12 +22,13 @@ metadata {
tiles(scale: 2) {
multiAttributeTile(name:"switch", type: "lighting", width: 6, height: 4, canChangeIcon: true){
tileAttribute ("device.switch", key: "PRIMARY_CONTROL") {
attributeState "unreachable", label: "?", action:"refresh.refresh", icon:"http://hosted.lifx.co/smartthings/v1/196xUnreachable.png", backgroundColor:"#666666"
attributeState "on", label:'${name}', action:"switch.off", icon:"http://hosted.lifx.co/smartthings/v1/196xOn.png", backgroundColor:"#79b821", nextState:"turningOff"
attributeState "off", label:'${name}', action:"switch.on", icon:"http://hosted.lifx.co/smartthings/v1/196xOff.png", backgroundColor:"#ffffff", nextState:"turningOn"
attributeState "turningOn", label:'Turning on', action:"switch.off", icon:"http://hosted.lifx.co/smartthings/v1/196xOn.png", backgroundColor:"#79b821", nextState:"turningOff"
attributeState "turningOff", label:'Turning off', action:"switch.on", icon:"http://hosted.lifx.co/smartthings/v1/196xOff.png", backgroundColor:"#ffffff", nextState:"turningOn"
}
}
tileAttribute ("device.level", key: "SLIDER_CONTROL") {
attributeState "level", action:"switch level.setLevel"
}
@@ -52,10 +53,15 @@ metadata {
main "switch"
details(["switch", "colorTempSliderControl", "colorTemp", "refresh"])
}
}
void installed() {
sendEvent(name: "DeviceWatch-Enroll", value: "{\"protocol\": \"cloud\", \"scheme\":\"untracked\", \"hubHardwareId\": \"${device?.hub?.hardwareID}\"}")
// parse events into attributes
def parse(String description) {
if (description == 'updated') {
return // don't poll when config settings is being updated as it may time out
}
poll()
}
// handle commands
@@ -65,6 +71,7 @@ def setLevel(percentage) {
percentage = 1 // clamp to 1%
}
if (percentage == 0) {
sendEvent(name: "level", value: 0) // Otherwise the level value tile does not update
return off() // if the brightness is set to 0, just turn it off
}
parent.logErrors(logObject:log) {
@@ -77,7 +84,6 @@ def setLevel(percentage) {
log.error("Bad setLevel result: [${resp.status}] ${resp.data}")
}
}
return []
}
def setColorTemperature(kelvin) {
@@ -93,7 +99,6 @@ def setColorTemperature(kelvin) {
log.error("Bad setColorTemperature result: [${resp.status}] ${resp.data}")
}
}
return []
}
def on() {
@@ -103,7 +108,6 @@ def on() {
sendEvent(name: "switch", value: "on")
}
}
return []
}
def off() {
@@ -113,20 +117,16 @@ def off() {
sendEvent(name: "switch", value: "off")
}
}
return []
}
def refresh() {
log.debug "Executing 'refresh'"
def poll() {
log.debug "Executing 'poll' for ${device} ${this} ${device.deviceNetworkId}"
def resp = parent.apiGET("/lights/${selector()}")
if (resp.status == 404) {
state.online = false
sendEvent(name: "DeviceWatch-DeviceStatusUpdate", value: "offline", displayed: false)
log.warn "$device is Offline"
sendEvent(name: "switch", value: "unreachable")
return []
} else if (resp.status != 200) {
log.error("Unexpected result in refresh(): [${resp.status}] ${resp.data}")
log.error("Unexpected result in poll(): [${resp.status}] ${resp.data}")
return []
}
def data = resp.data[0]
@@ -134,17 +134,16 @@ def refresh() {
sendEvent(name: "label", value: data.label)
sendEvent(name: "level", value: Math.round((data.brightness ?: 1) * 100))
sendEvent(name: "switch.setLevel", value: Math.round((data.brightness ?: 1) * 100))
sendEvent(name: "switch", value: data.power)
sendEvent(name: "switch", value: data.connected ? data.power : "unreachable")
sendEvent(name: "colorTemperature", value: data.color.kelvin)
sendEvent(name: "model", value: data.product.name)
if (data.connected) {
sendEvent(name: "DeviceWatch-DeviceStatus", value: "online", displayed: false)
log.debug "$device is Online"
} else {
sendEvent(name: "DeviceWatch-DeviceStatus", value: "offline", displayed: false)
log.warn "$device is Offline"
}
return []
}
def refresh() {
log.debug "Executing 'refresh'"
poll()
}
def selector() {

22
devicetypes/smartthings/mobile-presence.src/i18n/messages.properties
View File

@@ -1,22 +0,0 @@
# Copyright 2016 SmartThings
#
# Licensed under the Apache License, Version 2.0 (the "License"); you may not
# use this file except in compliance with the License. You may obtain a copy
# of the License at:
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
# WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
# License for the specific language governing permissions and limitations
# under the License.
# Korean (ko)
# Device Preferences
'''Give your device a name'''.ko=기기 이름 설정
'''Set Device Image'''.ko=기기 이미지 설정
# Events / Notifications
'''{{ linkText }} has left'''.ko={{ linkText }} 외출
'''{{ linkText }} has arrived'''.ko={{ linkText }} 귀가
'''present'''.ko=집안
'''not present'''.ko=외출

26
devicetypes/smartthings/mobile-presence.src/mobile-presence.groovy
View File

@@ -1,19 +1,16 @@
/*
* Copyright 2016 SmartThings
/**
* Copyright 2015 SmartThings
*
* Licensed under the Apache License, Version 2.0 (the "License"); you may not
* use this file except in compliance with the License. You may obtain a copy
* of the License at:
* Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except
* in compliance with the License. You may obtain a copy of the License at:
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
* WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
* License for the specific language governing permissions and limitations
* under the License.
* Unless required by applicable law or agreed to in writing, software distributed under the License is distributed
* on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License
* for the specific language governing permissions and limitations under the License.
*
*/
metadata {
definition (name: "Mobile Presence", namespace: "smartthings", author: "SmartThings") {
capability "Presence Sensor"
@@ -44,7 +41,6 @@ def parse(String description) {
def isStateChange = isStateChange(device, name, value)
def results = [
translatable: true,
name: name,
value: value,
unit: null,
@@ -76,8 +72,8 @@ private String parseValue(String description) {
private parseDescriptionText(String linkText, String value, String description) {
switch(value) {
case "present": return "{{ linkText }} has arrived"
case "not present": return "{{ linkText }} has left"
case "present": return "$linkText has arrived"
case "not present": return "$linkText has left"
default: return value
}
}
@@ -88,4 +84,4 @@ private getState(String value) {
case "not present": return "left"
default: return value
}
}
}

4
devicetypes/smartthings/momentary-button-tile.src/momentary-button-tile.groovy
View File

@@ -43,8 +43,8 @@ def parse(String description) {
}
def push() {
sendEvent(name: "switch", value: "on", isStateChange: true, displayed: false)
sendEvent(name: "switch", value: "off", isStateChange: true, displayed: false)
sendEvent(name: "switch", value: "on", isStateChange: true, display: false)
sendEvent(name: "switch", value: "off", isStateChange: true, display: false)
sendEvent(name: "momentary", value: "pushed", isStateChange: true)
}

50
devicetypes/smartthings/nyce-motion-sensor.src/nyce-motion-sensor.groovy
View File

@@ -13,7 +13,6 @@
* for the specific language governing permissions and limitations under the License.
*
*/
import physicalgraph.zigbee.clusters.iaszone.ZoneStatus
metadata {
definition (name: "NYCE Motion Sensor", namespace: "smartthings", author: "SmartThings") {
@@ -144,14 +143,51 @@ private Map parseReportAttributeMessage(String description) {
private Map parseIasMessage(String description) {
ZoneStatus zs = zigbee.parseZoneStatus(description)
Map resultMap = [:]
List parsedMsg = description.split(' ')
String msgCode = parsedMsg[2]
Map resultMap = [:]
switch(msgCode) {
case '0x0030': // Closed/No Motion/Dry
log.debug 'no motion'
resultMap.name = 'motion'
resultMap.value = 'inactive'
break
resultMap.name = 'motion'
resultMap.value = zs.isAlarm2Set() ? 'active' : 'inactive'
log.debug(zs.isAlarm2Set() ? 'motion' : 'no motion')
case '0x0032': // Open/Motion/Wet
log.debug 'motion'
resultMap.name = 'motion'
resultMap.value = 'active'
break
return resultMap
case '0x0032': // Tamper Alarm
log.debug 'motion with tamper alarm'
resultMap.name = 'motion'
resultMap.value = 'active'
break
case '0x0033': // Battery Alarm
break
case '0x0034': // Supervision Report
log.debug 'no motion with tamper alarm'
resultMap.name = 'motion'
resultMap.value = 'inactive'
break
case '0x0035': // Restore Report
break
case '0x0036': // Trouble/Failure
log.debug 'motion with failure alarm'
resultMap.name = 'motion'
resultMap.value = 'active'
break
case '0x0038': // Test Mode
break
}
return resultMap
}
def refresh()

2
devicetypes/smartthings/nyce-open-closed-sensor.src/.st-ignore
View File

@@ -1,2 +0,0 @@
.st-ignore
README.md

41
devicetypes/smartthings/nyce-open-closed-sensor.src/README.md
View File

@@ -1,41 +0,0 @@
# Nyce Door/Window Sensor (Open/Close Sensor)
Cloud Execution
Works with:
* [NYCE Door/Window Sensor NCZ-3011](https://support.smartthings.com/hc/en-us/articles/204576764-NYCE-Door-Window-Sensor)
## Table of contents
* [Capabilities](#capabilities)
* [Health](#device-health)
* [Battery](#battery-specification)
* [Troubleshooting](#troubleshooting)
## Capabilities
* **Configuration** - _configure()_ command called when device is installed or device preferences updated
* **Contact Sensor** - can detect contact (with possible values - open/closed)
* **Battery** - defines device uses a battery
* **Refresh** - _refresh()_ command for status updates
* **Health Check** - indicates ability to get device health notifications
## Device Health
Nyce Door/Window sensor with reporting interval of 5 min.
SmartThings platform will ping the device after `checkInterval` seconds of inactivity in last attempt to reach the device before marking it `OFFLINE`
* __12min__ checkInterval
## Battery Specification
One 3V CR2032 battery required.
## Troubleshooting
If the device doesn't pair when trying from the SmartThings mobile app, it is possible that the sensor is out of range.
Pairing needs to be tried again by placing the sensor closer to the hub.
Instructions related to pairing, resetting and removing the sensor from SmartThings can be found in the following link:
* [Nyce Door/Window Sensor](https://support.smartthings.com/hc/en-us/articles/204576764-NYCE-Door-Window-Sensor)

83
devicetypes/smartthings/nyce-open-closed-sensor.src/nyce-open-closed-sensor.groovy
View File

@@ -13,32 +13,27 @@
* for the specific language governing permissions and limitations under the License.
*
*/
import physicalgraph.zigbee.clusters.iaszone.ZoneStatus
metadata {
definition (name: "NYCE Open/Closed Sensor", namespace: "smartthings", author: "NYCE") {
capability "Battery"
capability "Battery"
capability "Configuration"
capability "Contact Sensor"
capability "Contact Sensor"
capability "Refresh"
capability "Health Check"
command "enrollResponse"
fingerprint inClusters: "0000,0001,0003,0500,0020", manufacturer: "NYCE", model: "3010", deviceJoinName: "NYCE Door Hinge Sensor"
command "enrollResponse"
fingerprint inClusters: "0000,0001,0003,0406,0500,0020", manufacturer: "NYCE", model: "3011", deviceJoinName: "NYCE Door/Window Sensor"
fingerprint inClusters: "0000,0001,0003,0500,0020", manufacturer: "NYCE", model: "3011", deviceJoinName: "NYCE Door/Window Sensor"
fingerprint inClusters: "0000,0001,0003,0406,0500,0020", manufacturer: "NYCE", model: "3014", deviceJoinName: "NYCE Tilt Sensor"
fingerprint inClusters: "0000,0001,0003,0500,0020", manufacturer: "NYCE", model: "3014", deviceJoinName: "NYCE Tilt Sensor"
fingerprint inClusters: "0000,0001,0003,0500,0020", manufacturer: "NYCE", model: "3011", deviceJoinName: "NYCE Door/Window Sensor"
fingerprint inClusters: "0000,0001,0003,0406,0500,0020", manufacturer: "NYCE", model: "3014", deviceJoinName: "NYCE Tilt Sensor"
fingerprint inClusters: "0000,0001,0003,0500,0020", manufacturer: "NYCE", model: "3014", deviceJoinName: "NYCE Tilt Sensor"
}
simulator {
}
tiles {
standardTile("contact", "device.contact", width: 2, height: 2) {
state("open", label:'${name}', icon:"st.contact.contact.open", backgroundColor:"#ffa81e")
@@ -223,33 +218,40 @@ private Map parseReportAttributeMessage(String description) {
}
private List parseIasMessage(String description) {
ZoneStatus zs = zigbee.parseZoneStatus(description)
log.debug "parseIasMessage: $description"
List parsedMsg = description.split(" ")
String msgCode = parsedMsg[2]
List resultListMap = []
Map resultMap_battery = [:]
Map resultMap_battery_state = [:]
Map resultMap_sensor = [:]
resultMap_sensor.name = "contact"
resultMap_sensor.value = zs.isAlarm1Set() ? "open" : "closed"
// Relevant bit field definitions from ZigBee spec
def BATTERY_BIT = ( 1 << 3 )
def TROUBLE_BIT = ( 1 << 6 )
def SENSOR_BIT = ( 1 << 0 ) // it's ALARM1 bit from the ZCL spec
// Convert hex string to integer
def zoneStatus = Integer.parseInt(msgCode[-4..-1],16)
log.debug "parseIasMessage: zoneStatus: ${zoneStatus}"
// Check each relevant bit, create map for it, and add to list
log.debug "parseIasMessage: Battery Status ${zs.battery}"
log.debug "parseIasMessage: Trouble Status ${zs.trouble}"
log.debug "parseIasMessage: Sensor Status ${zs.alarm1}"
log.debug "parseIasMessage: Battery Status ${zoneStatus & BATTERY_BIT}"
log.debug "parseIasMessage: Trouble Status ${zoneStatus & TROUBLE_BIT}"
log.debug "parseIasMessage: Sensor Status ${zoneStatus & SENSOR_BIT}"
/* Comment out this path to check the battery state to avoid overwriting the
battery value (Change log #2), but keep these conditions for later use
resultMap_battery_state.name = "battery_state"
if (zs.isTroubleSet()) {
if (zoneStatus & TROUBLE_BIT) {
resultMap_battery_state.value = "failed"
resultMap_battery.name = "battery"
resultMap_battery.value = 0
}
else {
if (zs.isBatterySet()) {
if (zoneStatus & BATTERY_BIT) {
resultMap_battery_state.value = "low"
// to generate low battery notification by the platform
@@ -267,6 +269,9 @@ private List parseIasMessage(String description) {
}
*/
resultMap_sensor.name = "contact"
resultMap_sensor.value = (zoneStatus & SENSOR_BIT) ? "open" : "closed"
resultListMap << resultMap_battery_state
resultListMap << resultMap_battery
resultListMap << resultMap_sensor
@@ -274,28 +279,23 @@ private List parseIasMessage(String description) {
return resultListMap
}
/**
* PING is used by Device-Watch in attempt to reach the Device
* */
def ping() {
return zigbee.readAttribute(0x001, 0x0020) // Read the Battery Level
}
def configure() {
// Device-Watch allows 2 check-in misses from device
sendEvent(name: "checkInterval", value: 60 * 12, displayed: false, data: [protocol: "zigbee", hubHardwareId: device.hub.hardwareID])
String zigbeeEui = swapEndianHex(device.hub.zigbeeEui)
def enrollCmds = [
def configCmds = [
//battery reporting and heartbeat
"zdo bind 0x${device.deviceNetworkId} 1 ${endpointId} 1 {${device.zigbeeId}} {}", "delay 200",
"zcl global send-me-a-report 1 0x20 0x20 600 3600 {01}", "delay 200",
"send 0x${device.deviceNetworkId} 1 ${endpointId}", "delay 1500",
// Writes CIE attribute on end device to direct reports to the hub's EUID
"zcl global write 0x500 0x10 0xf0 {${zigbeeEui}}", "delay 200",
"send 0x${device.deviceNetworkId} 1 1", "delay 500",
]
log.debug "configure: Write IAS CIE"
// battery minReportTime 30 seconds, maxReportTime 5 min. Reporting interval if no activity
return enrollCmds + zigbee.batteryConfig(30, 300) + refresh() // send refresh cmds as part of config
return configCmds
}
def enrollResponse() {
@@ -340,8 +340,7 @@ Integer convertHexToInt(hex) {
def refresh() {
log.debug "Refreshing Battery"
def refreshCmds = [
[
"st rattr 0x${device.deviceNetworkId} ${endpointId} 1 0x20", "delay 200"
]
return refreshCmds + enrollResponse()
}

13
devicetypes/smartthings/open-closed-sensor.src/open-closed-sensor.groovy
View File

@@ -40,11 +40,14 @@ metadata {
// Parse incoming device messages to generate events
def parse(String description) {
def resMap
if (description.startsWith("zone")) {
resMap = createEvent(name: "contact", value: zigbee.parseZoneStatus(description).isAlarm1Set() ? "open" : "closed")
def name = null
def value = description
if (zigbee.isZoneType19(description)) {
name = "contact"
value = zigbee.translateStatusZoneType19(description) ? "open" : "closed"
}
log.debug "Parse returned $resMap"
return resMap
def result = createEvent(name: name, value: value)
log.debug "Parse returned ${result?.descriptionText}"
return result
}

384
devicetypes/smartthings/osram-lightify-gardenspot-mini-rgb.src/osram-lightify-gardenspot-mini-rgb.groovy Normal file
View File

@@ -0,0 +1,384 @@
/*
Osram Lightify Gardenspot Mini RGB
Osram bulbs have a firmware issue causing it to forget its dimming level when turned off (via commands). Handling
that issue by using state variables
*/
metadata {
definition (name: "OSRAM LIGHTIFY Gardenspot mini RGB", namespace: "smartthings", author: "SmartThings") {
capability "Color Temperature"
capability "Actuator"
capability "Switch"
capability "Switch Level"
capability "Configuration"
capability "Polling"
capability "Refresh"
capability "Sensor"
capability "Color Control"
attribute "colorName", "string"
command "setAdjustedColor"
fingerprint profileId: "0104", inClusters: "0000,0003,0004,0005,0006,0008,0300,0B04,FC0F", outClusters: "0019", manufacturer: "OSRAM", model: "Gardenspot RGB"
fingerprint profileId: "0104", inClusters: "0000,0003,0004,0005,0006,0008,0300,0B04,FC0F", outClusters: "0019", manufacturer: "OSRAM", model: "LIGHTIFY Gardenspot RGB"
}
// 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"
}
standardTile("refresh", "device.switch", inactiveLabel: false, decoration: "flat") {
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"])
}
}
// 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"
if (descMap.cluster == "0300") {
if(descMap.attrId == "0000"){ //Hue Attribute
def hueValue = Math.round(convertHexToInt(descMap.value) / 255 * 360)
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)
}
}
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 ${result?.descriptionText}"
return result
}
}
def on() {
log.debug "on()"
sendEvent(name: "switch", value: "on")
setLevel(state?.levelValue)
}
def zigbeeOff() {
"st cmd 0x${device.deviceNetworkId} ${endpointId} 6 0 {}"
}
def off() {
log.debug "off()"
sendEvent(name: "switch", value: "off")
zigbeeOff()
}
def refresh() {
[
"st rattr 0x${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} ${endpointId} 0x0300 1"
]
}
def configure() {
state.levelValue = 100
log.debug "Configuring Reporting and Bindings."
def configCmds = [
//Switch Reporting
"zcl global send-me-a-report 6 0 0x10 0 3600 {01}", "delay 500",
"send 0x${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}"
}
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>360 || 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: ${value}"
def adjusted = value + [:]
adjusted.level = null // needed because color picker always sends 100
setColor(adjusted)
}
def setColor(value){
log.trace "setColor($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
}

458
devicetypes/smartthings/osram-lightify-led-flexible-strip-rgbw.src/osram-lightify-led-flexible-strip-rgbw.groovy Normal file
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/*
Osram Flex RGBW Light Strip
Osram bulbs have a firmware issue causing it to forget its dimming level when turned off (via commands). Handling
that issue by using state variables
*/
metadata {
definition (name: "OSRAM LIGHTIFY LED Flexible Strip RGBW", namespace: "smartthings", author: "SmartThings") {
capability "Color Temperature"
capability "Actuator"
capability "Switch"
capability "Switch Level"
capability "Configuration"
capability "Polling"
capability "Refresh"
capability "Sensor"
capability "Color Control"
attribute "colorName", "string"
command "setAdjustedColor"
fingerprint profileId: "0104", inClusters: "0000,0003,0004,0005,0006,0008,0300,0B04,FC0F", outClusters: "0019", manufacturer: "OSRAM", model: "LIGHTIFY Flex RGBW"
fingerprint profileId: "0104", inClusters: "0000,0003,0004,0005,0006,0008,0300,0B04,FC0F", outClusters: "0019", manufacturer: "OSRAM", model: "Flex RGBW"
}
// 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"
}
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"])
}
}
// 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 -")) { //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)
}
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 * 360)
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)
}
}
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 $description"
return result
}
}
def on() {
log.debug "on()"
sendEvent(name: "switch", value: "on")
setLevel(state?.levelValue)
}
def zigbeeOff() {
"st cmd 0x${device.deviceNetworkId} ${endpointId} 6 0 {}"
}
def off() {
log.debug "off()"
sendEvent(name: "switch", value: "off")
zigbeeOff()
}
def refresh() {
[
"st rattr 0x${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} ${endpointId} 0x0300 8"
]
}
def configure() {
state.levelValue = 100
state.colorType = "white"
log.debug "Configuring Reporting and Bindings."
def configCmds = [
//Switch Reporting
"zcl global send-me-a-report 6 0 0x10 0 3600 {01}", "delay 500",
"send 0x${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 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
}
//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){
genericName = "Soft White"
} else if(value < 4150){
genericName = "Moonlight"
} else if(value < 5000){
genericName = "Cool White"
} else if(value <= 6500){
genericName = "Daylight"
}
}
genericName
}
//input Hue Integer values; returns color name for saturation 100%
private getColorName(hueValue){
if(hueValue>360 || 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: ${value}"
def adjusted = value + [:]
adjusted.level = null // needed because color picker always sends 100
setColor(adjusted)
}
def setColor(value){
state?.colorType = "rgb"
log.trace "setColor($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
}

261
devicetypes/smartthings/osram-lightify-led-tunable-white-60w.src/osram-lightify-led-tunable-white-60w.groovy Normal file
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/*
Osram Tunable White 60 A19 bulb
Osram bulbs have a firmware issue causing it to forget its dimming level when turned off (via commands). Handling
that issue by using state variables
*/
//DEPRECATED - Using the generic DTH for this device. Users need to be moved before deleting this DTH
metadata {
definition (name: "OSRAM LIGHTIFY LED Tunable White 60W", namespace: "smartthings", author: "SmartThings") {
capability "Color Temperature"
capability "Actuator"
capability "Switch"
capability "Switch Level"
capability "Configuration"
capability "Refresh"
capability "Sensor"
attribute "colorName", "string"
// indicates that device keeps track of heartbeat (in state.heartbeat)
attribute "heartbeat", "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"
}
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("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"])
}
}
// Parse incoming device messages to generate events
def parse(String description) {
//log.trace description
// save heartbeat (i.e. last time we got a message from device)
state.heartbeat = Calendar.getInstance().getTimeInMillis()
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)
}
}
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 ${result?.descriptionText}"
return result
}
}
def on() {
log.debug "on()"
sendEvent(name: "switch", value: "on")
setLevel(state?.levelValue)
}
def off() {
log.debug "off()"
sendEvent(name: "switch", value: "off")
"st cmd 0x${device.deviceNetworkId} ${endpointId} 6 0 {}"
}
def refresh() {
sendEvent(name: "heartbeat", value: "alive", displayed:false)
[
"st rattr 0x${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 setLevel(value) {
state.levelValue = (value==null) ? 100 : value
log.trace "setLevel($value)"
def cmds = []
if (value == 0) {
sendEvent(name: "switch", value: "off")
cmds << "st cmd 0x${device.deviceNetworkId} ${endpointId} 6 0 {}"
}
else if (device.latestValue("switch") == "off") {
sendEvent(name: "switch", value: "on")
}
sendEvent(name: "level", value: state.levelValue)
def level = hex(state.levelValue * 254 / 100)
cmds << "st cmd 0x${device.deviceNetworkId} ${endpointId} 8 4 {${level} 0000}"
//log.debug cmds
cmds
}
//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"
}
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
}

235
devicetypes/smartthings/samsung-smart-tv.src/samsung-smart-tv.groovy Normal file
View File

@@ -0,0 +1,235 @@
/**
* Copyright 2015 SmartThings
*
* Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except
* in compliance with the License. You may obtain a copy of the License at:
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software distributed under the License is distributed
* on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License
* for the specific language governing permissions and limitations under the License.
*
* Samsung TV
*
* Author: SmartThings (juano23@gmail.com)
* Date: 2015-01-08
*/
metadata {
definition (name: "Samsung Smart TV", namespace: "smartthings", author: "SmartThings") {
capability "switch"
command "mute"
command "source"
command "menu"
command "tools"
command "HDMI"
command "Sleep"
command "Up"
command "Down"
command "Left"
command "Right"
command "chup"
command "chdown"
command "prech"
command "volup"
command "voldown"
command "Enter"
command "Return"
command "Exit"
command "Info"
command "Size"
}
standardTile("switch", "device.switch", width: 1, height: 1, canChangeIcon: true) {
state "default", label:'TV', action:"switch.off", icon:"st.Electronics.electronics15", backgroundColor:"#ffffff"
}
standardTile("power", "device.switch", width: 1, height: 1, canChangeIcon: false) {
state "default", label:'', action:"switch.off", decoration: "flat", icon:"st.thermostat.heating-cooling-off", backgroundColor:"#ffffff"
}
standardTile("mute", "device.switch", decoration: "flat", canChangeIcon: false) {
state "default", label:'Mute', action:"mute", icon:"st.custom.sonos.muted", backgroundColor:"#ffffff"
}
standardTile("source", "device.switch", decoration: "flat", canChangeIcon: false) {
state "default", label:'Source', action:"source", icon:"st.Electronics.electronics15"
}
standardTile("tools", "device.switch", decoration: "flat", canChangeIcon: false) {
state "default", label:'Tools', action:"tools", icon:"st.secondary.tools"
}
standardTile("menu", "device.switch", decoration: "flat", canChangeIcon: false) {
state "default", label:'Menu', action:"menu", icon:"st.vents.vent"
}
standardTile("HDMI", "device.switch", decoration: "flat", canChangeIcon: false) {
state "default", label:'Source', action:"HDMI", icon:"st.Electronics.electronics15"
}
standardTile("Sleep", "device.switch", decoration: "flat", canChangeIcon: false) {
state "default", label:'Sleep', action:"Sleep", icon:"st.Bedroom.bedroom10"
}
standardTile("Up", "device.switch", decoration: "flat", canChangeIcon: false) {
state "default", label:'Up', action:"Up", icon:"st.thermostat.thermostat-up"
}
standardTile("Down", "device.switch", decoration: "flat", canChangeIcon: false) {
state "default", label:'Down', action:"Down", icon:"st.thermostat.thermostat-down"
}
standardTile("Left", "device.switch", decoration: "flat", canChangeIcon: false) {
state "default", label:'Left', action:"Left", icon:"st.thermostat.thermostat-left"
}
standardTile("Right", "device.switch", decoration: "flat", canChangeIcon: false) {
state "default", label:'Right', action:"Right", icon:"st.thermostat.thermostat-right"
}
standardTile("chup", "device.switch", decoration: "flat", canChangeIcon: false) {
state "default", label:'CH Up', action:"chup", icon:"st.thermostat.thermostat-up"
}
standardTile("chdown", "device.switch", decoration: "flat", canChangeIcon: false) {
state "default", label:'CH Down', action:"chdown", icon:"st.thermostat.thermostat-down"
}
standardTile("prech", "device.switch", decoration: "flat", canChangeIcon: false) {
state "default", label:'Pre CH', action:"prech", icon:"st.secondary.refresh-icon"
}
standardTile("volup", "device.switch", decoration: "flat", canChangeIcon: false) {
state "default", label:'Vol Up', action:"volup", icon:"st.thermostat.thermostat-up"
}
standardTile("voldown", "device.switch", decoration: "flat", canChangeIcon: false) {
state "default", label:'Vol Down', action:"voldown", icon:"st.thermostat.thermostat-down"
}
standardTile("Enter", "device.switch", decoration: "flat", canChangeIcon: false) {
state "default", label:'Enter', action:"Enter", icon:"st.illuminance.illuminance.dark"
}
standardTile("Return", "device.switch", decoration: "flat", canChangeIcon: false) {
state "default", label:'Return', action:"Return", icon:"st.secondary.refresh-icon"
}
standardTile("Exit", "device.switch", decoration: "flat", canChangeIcon: false) {
state "default", label:'Exit', action:"Exit", icon:"st.locks.lock.unlocked"
}
standardTile("Info", "device.switch", decoration: "flat", canChangeIcon: false) {
state "default", label:'Info', action:"Info", icon:"st.motion.acceleration.active"
}
standardTile("Size", "device.switch", decoration: "flat", canChangeIcon: false) {
state "default", label:'Picture Size', action:"Size", icon:"st.contact.contact.open"
}
main "switch"
details (["power","HDMI","Sleep","chup","prech","volup","chdown","mute","voldown", "menu", "Up", "tools", "Left", "Enter", "Right", "Return", "Down", "Exit", "Info","Size"])
}
def parse(String description) {
return null
}
def off() {
log.debug "Turning TV OFF"
parent.tvAction("POWEROFF",device.deviceNetworkId)
sendEvent(name:"Command", value: "Power Off", displayed: true)
}
def mute() {
log.trace "MUTE pressed"
parent.tvAction("MUTE",device.deviceNetworkId)
sendEvent(name:"Command", value: "Mute", displayed: true)
}
def source() {
log.debug "SOURCE pressed"
parent.tvAction("SOURCE",device.deviceNetworkId)
sendEvent(name:"Command", value: "Source", displayed: true)
}
def menu() {
log.debug "MENU pressed"
parent.tvAction("MENU",device.deviceNetworkId)
}
def tools() {
log.debug "TOOLS pressed"
parent.tvAction("TOOLS",device.deviceNetworkId)
sendEvent(name:"Command", value: "Tools", displayed: true)
}
def HDMI() {
log.debug "HDMI pressed"
parent.tvAction("HDMI",device.deviceNetworkId)
sendEvent(name:"Command sent", value: "Source", displayed: true)
}
def Sleep() {
log.debug "SLEEP pressed"
parent.tvAction("SLEEP",device.deviceNetworkId)
sendEvent(name:"Command", value: "Sleep", displayed: true)
}
def Up() {
log.debug "UP pressed"
parent.tvAction("UP",device.deviceNetworkId)
}
def Down() {
log.debug "DOWN pressed"
parent.tvAction("DOWN",device.deviceNetworkId)
}
def Left() {
log.debug "LEFT pressed"
parent.tvAction("LEFT",device.deviceNetworkId)
}
def Right() {
log.debug "RIGHT pressed"
parent.tvAction("RIGHT",device.deviceNetworkId)
}
def chup() {
log.debug "CHUP pressed"
parent.tvAction("CHUP",device.deviceNetworkId)
sendEvent(name:"Command", value: "Channel Up", displayed: true)
}
def chdown() {
log.debug "CHDOWN pressed"
parent.tvAction("CHDOWN",device.deviceNetworkId)
sendEvent(name:"Command", value: "Channel Down", displayed: true)
}
def prech() {
log.debug "PRECH pressed"
parent.tvAction("PRECH",device.deviceNetworkId)
sendEvent(name:"Command", value: "Prev Channel", displayed: true)
}
def Exit() {
log.debug "EXIT pressed"
parent.tvAction("EXIT",device.deviceNetworkId)
}
def volup() {
log.debug "VOLUP pressed"
parent.tvAction("VOLUP",device.deviceNetworkId)
sendEvent(name:"Command", value: "Volume Up", displayed: true)
}
def voldown() {
log.debug "VOLDOWN pressed"
parent.tvAction("VOLDOWN",device.deviceNetworkId)
sendEvent(name:"Command", value: "Volume Down", displayed: true)
}
def Enter() {
log.debug "ENTER pressed"
parent.tvAction("ENTER",device.deviceNetworkId)
}
def Return() {
log.debug "RETURN pressed"
parent.tvAction("RETURN",device.deviceNetworkId)
}
def Info() {
log.debug "INFO pressed"
parent.tvAction("INFO",device.deviceNetworkId)
sendEvent(name:"Command", value: "Info", displayed: true)
}
def Size() {
log.debug "PICTURE_SIZE pressed"
parent.tvAction("PICTURE_SIZE",device.deviceNetworkId)
sendEvent(name:"Command", value: "Picture Size", displayed: true)
}

280
devicetypes/smartthings/smartpower-dimming-outlet.src/smartpower-dimming-outlet.groovy
View File

@@ -69,35 +69,283 @@ metadata {
def parse(String description) {
log.debug "description is $description"
def event = zigbee.getEvent(description)
if (!event) {
log.warn "DID NOT PARSE MESSAGE for description : $description"
log.debug zigbee.parseDescriptionAsMap(description)
} else if (event.name == "power") {
/*
Dividing by 10 as the Divisor is 10000 and unit is kW for the device. Simplifying to 10 power level is an integer.
*/
event.value = event.value / 10
def finalResult = isKnownDescription(description)
if (finalResult != "false") {
log.info finalResult
if (finalResult.type == "update") {
log.info "$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
*/
}
else {
sendEvent(name: finalResult.type, value: finalResult.value)
}
}
else {
log.warn "DID NOT PARSE MESSAGE for description : $description"
log.debug parseDescriptionAsMap(description)
}
return event
}
def setLevel(value) {
zigbee.setLevel(value)
// Commands to device
def zigbeeCommand(cluster, attribute){
"st cmd 0x${device.deviceNetworkId} ${endpointId} ${cluster} ${attribute} {}"
}
def off() {
zigbee.off()
zigbeeCommand("6", "0")
}
def on() {
zigbee.on()
zigbeeCommand("6", "1")
}
def setLevel(value) {
value = value as Integer
if (value == 0) {
off()
}
else {
if (device.latestValue("switch") == "off") {
sendEvent(name: "switch", value: "on")
}
sendEvent(name: "level", value: value)
setLevelWithRate(value, "0000") //value is between 0 to 100
}
}
def refresh() {
zigbee.onOffRefresh() + zigbee.levelRefresh() + zigbee.electricMeasurementPowerRefresh()
[
"st rattr 0x${device.deviceNetworkId} ${endpointId} 6 0", "delay 500",
"st rattr 0x${device.deviceNetworkId} ${endpointId} 8 0", "delay 500",
"st rattr 0x${device.deviceNetworkId} ${endpointId} 0x0B04 0x050B", "delay 500"
]
}
def configure() {
refresh() + zigbee.onOffConfig() + zigbee.levelConfig() + zigbee.electricMeasurementPowerConfig()
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 == "0B04" || descMap.clusterId == "0B04"){
isDescriptionPower(descMap)
}
}
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 == "0B04") {
if (descMap.attrId == "050b") {
if(descMap.value!="ffff")
powerValue = convertHexToInt(descMap.value)
}
}
else if (descMap.clusterId == "0B04") {
if(descMap.command=="07"){
return [type: "update", value : "power (0B04) 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 5 3600 {01}",
"send 0x${device.deviceNetworkId} 1 ${endpointId}", "delay 1500"
]
}
//power config for devices with min reporting interval as 1 seconds and reporting interval if no activity as 10min (600s)
//min change in value is 05
def powerConfig() {
[
"zdo bind 0x${device.deviceNetworkId} 1 ${endpointId} 0x0B04 {${device.zigbeeId}} {}", "delay 200",
"zcl global send-me-a-report 0x0B04 0x050B 0x29 1 600 {05 00}", //The send-me-a-report is custom to the attribute type for CentraLite
"send 0x${device.deviceNetworkId} 1 ${endpointId}", "delay 500"
]
}
def setLevelWithRate(level, rate) {
if(rate == null){
rate = "0000"
}
level = convertToHexString(level * 255 / 100) //Converting the 0-100 range to 0-FF range in hex
"st cmd 0x${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
}

18
devicetypes/smartthings/smartpower-outlet-v1.src/smartpower-outlet-v1.groovy
View File

@@ -5,7 +5,7 @@ metadata {
capability "Switch"
capability "Sensor"
fingerprint profileId: "0104", inClusters: "0006, 0004, 0003, 0000, 0005", outClusters: "0019", manufacturer: "Compacta International, Ltd", model: "ZBMPlug15", deviceJoinName: "SmartPower Outlet V1"
fingerprint profileId: "0104", inClusters: "0000,0003,0006", outClusters: "0019"
}
// simulator metadata
@@ -47,21 +47,9 @@ def parse(String description) {
// Commands to device
def on() {
[
'zcl on-off on',
'delay 200',
"send 0x${zigbee.deviceNetworkId} 0x01 0x${zigbee.endpointId}",
'delay 2000'
]
'zcl on-off on'
}
def off() {
[
'zcl on-off off',
'delay 200',
"send 0x${zigbee.deviceNetworkId} 0x01 0x${zigbee.endpointId}",
'delay 2000'
]
'zcl on-off off'
}

2
devicetypes/smartthings/smartpower-outlet.src/.st-ignore
View File

@@ -1,2 +0,0 @@
.st-ignore
README.md

39
devicetypes/smartthings/smartpower-outlet.src/README.md
View File

@@ -1,39 +0,0 @@
# SmartPower Outlet
Local Execution on V2 Hubs
Works with:
* [Samsung SmartPower Outlet](https://shop.smartthings.com/#!/products/smartpower-outlet)
## Table of contents
* [Capabilities](#capabilities)
* [Health](#device-health)
## Capabilities
* **Configuration** - _configure()_ command called when device is installed or device preferences updated
* **Actuator** - represents that a Device has commands
* **Switch** - can detect state (possible values: on/off)
* **Refresh** - _refresh()_ command for status updates
* **Power Meter** - detects power meter for device in either w or kw.
* **Health Check** - indicates ability to get device health notifications
* **Sensor** - detects sensor events
## Device Health
SmartPower outlet with reporting interval of 5 mins
SmartThings platform will ping the device after `checkInterval` seconds of inactivity in last attempt to reach the device before marking it `OFFLINE`
* V1, TV, HubV2 AppEngine < 1.5.1 - __21min__ checkInterval
* HubV2 AppEngine 1.5.1 - __12min__ checkInterval
## Troubleshooting
If the device doesn't pair when trying from the SmartThings mobile app, it is possible that the device is out of range.
Pairing needs to be tried again by placing the device closer to the hub.
Instructions related to pairing, resetting and removing the device from SmartThings can be found in the following links
for the different models:
* [SmartPower Outlet Troubleshooting Tips](https://support.smartthings.com/hc/en-us/articles/201084854-SmartPower-Outlet)
* [Samsung SmartThings Outlet Troubleshooting Tips](https://support.smartthings.com/hc/en-us/articles/205957620)

26
devicetypes/smartthings/smartpower-outlet.src/i18n/messages.properties
View File

@@ -1,26 +0,0 @@
# Copyright 2016 SmartThings
#
# Licensed under the Apache License, Version 2.0 (the "License"); you may not
# use this file except in compliance with the License. You may obtain a copy
# of the License at:
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
# WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
# License for the specific language governing permissions and limitations
# under the License.
# Korean (ko)
# Device Preferences
'''Give your device a name'''.ko=기기 이름 설정
'''Outlet'''.ko= 스마트 플러그
# Events descriptionText
'''{{ device.displayName }} is On'''.ko={{ device.displayName }} 켜짐
'''{{ device.displayName }} is Off'''.ko={{ device.displayName }} 꺼짐
'''{{ device.displayName }} power is {{ value }} Watts'''.ko={{ device.displayName }} 전력은 {{ value }}와트입니다.
'''On'''.ko= 켜짐
'''Off'''.ko=꺼짐
'''Turning On'''.ko=켜는 중
'''Turning Off'''.ko=끄는 중
#==============================================================================

164
devicetypes/smartthings/smartpower-outlet.src/smartpower-outlet.groovy
View File

@@ -1,34 +1,36 @@
/*
* Copyright 2016 SmartThings
/**
* Copyright 2015 SmartThings
*
* Licensed under the Apache License, Version 2.0 (the "License"); you may not
* use this file except in compliance with the License. You may obtain a copy
* of the License at:
* Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except
* in compliance with the License. You may obtain a copy of the License at:
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
* WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
* License for the specific language governing permissions and limitations
* under the License.
* Unless required by applicable law or agreed to in writing, software distributed under the License is distributed
* on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License
* for the specific language governing permissions and limitations under the License.
*
* SmartPower Outlet (CentraLite)
*
* Author: SmartThings
* Date: 2015-08-23
*/
metadata {
// Automatically generated. Make future change here.
definition(name: "SmartPower Outlet", namespace: "smartthings", author: "SmartThings") {
definition (name: "SmartPower Outlet", namespace: "smartthings", author: "SmartThings") {
capability "Actuator"
capability "Switch"
capability "Power Meter"
capability "Configuration"
capability "Refresh"
capability "Sensor"
capability "Health Check"
capability "Light"
capability "Outlet"
fingerprint profileId: "0104", inClusters: "0000,0003,0004,0005,0006,0B04,0B05", outClusters: "0019", manufacturer: "CentraLite", model: "3200", deviceJoinName: "Outlet"
fingerprint profileId: "0104", inClusters: "0000,0003,0004,0005,0006,0B04,0B05", outClusters: "0019", manufacturer: "CentraLite", model: "3200-Sgb", deviceJoinName: "Outlet"
fingerprint profileId: "0104", inClusters: "0000,0003,0004,0005,0006,0B04,0B05", outClusters: "0019", manufacturer: "CentraLite", model: "4257050-RZHAC", deviceJoinName: "Outlet"
// indicates that device keeps track of heartbeat (in state.heartbeat)
attribute "heartbeat", "string"
fingerprint profileId: "0104", inClusters: "0000,0003,0004,0005,0006,0B04,0B05", outClusters: "0019", manufacturer: "CentraLite", model: "3200", deviceJoinName: "Outlet"
fingerprint profileId: "0104", inClusters: "0000,0003,0004,0005,0006,0B04,0B05", outClusters: "0019", manufacturer: "CentraLite", model: "3200-Sgb", deviceJoinName: "Outlet"
fingerprint profileId: "0104", inClusters: "0000,0003,0004,0005,0006,0B04,0B05", outClusters: "0019", manufacturer: "CentraLite", model: "4257050-RZHAC", deviceJoinName: "Outlet"
fingerprint profileId: "0104", inClusters: "0000,0003,0004,0005,0006,0B04,0B05", outClusters: "0019"
}
@@ -46,32 +48,32 @@ metadata {
preferences {
section {
image(name: 'educationalcontent', multiple: true, images: [
"http://cdn.device-gse.smartthings.com/Outlet/US/OutletUS1.jpg",
"http://cdn.device-gse.smartthings.com/Outlet/US/OutletUS2.jpg"
])
"http://cdn.device-gse.smartthings.com/Outlet/US/OutletUS1.jpg",
"http://cdn.device-gse.smartthings.com/Outlet/US/OutletUS2.jpg"
])
}
}
// 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: 'On', action: "switch.off", icon: "st.switches.switch.on", backgroundColor: "#79b821", nextState: "turningOff"
attributeState "off", label: 'Off', action: "switch.on", icon: "st.switches.switch.off", backgroundColor: "#ffffff", nextState: "turningOn"
attributeState "turningOn", label: 'Turning On', action: "switch.off", icon: "st.switches.switch.on", backgroundColor: "#79b821", nextState: "turningOff"
attributeState "turningOff", label: 'Turning Off', action: "switch.on", icon: "st.switches.switch.off", backgroundColor: "#ffffff", nextState: "turningOn"
multiAttributeTile(name:"switch", type: "lighting", width: 6, height: 4, canChangeIcon: true){
tileAttribute ("device.switch", key: "PRIMARY_CONTROL") {
attributeState "on", label: '${name}', action: "switch.off", icon: "st.switches.switch.on", backgroundColor: "#79b821", nextState: "turningOff"
attributeState "off", label: '${name}', action: "switch.on", icon: "st.switches.switch.off", backgroundColor: "#ffffff", nextState: "turningOn"
attributeState "turningOn", label: '${name}', action: "switch.off", icon: "st.switches.switch.on", backgroundColor: "#79b821", nextState: "turningOff"
attributeState "turningOff", label: '${name}', action: "switch.on", icon: "st.switches.switch.off", backgroundColor: "#ffffff", nextState: "turningOn"
}
tileAttribute("power", key: "SECONDARY_CONTROL") {
attributeState "power", label: '${currentValue} W'
tileAttribute ("power", key: "SECONDARY_CONTROL") {
attributeState "power", label:'${currentValue} W'
}
}
standardTile("refresh", "device.power", inactiveLabel: false, decoration: "flat", width: 2, height: 2) {
state "default", label: '', action: "refresh.refresh", icon: "st.secondary.refresh"
state "default", label:'', action:"refresh.refresh", icon:"st.secondary.refresh"
}
main "switch"
details(["switch", "refresh"])
details(["switch","refresh"])
}
}
@@ -79,34 +81,38 @@ metadata {
def parse(String description) {
log.debug "description is $description"
def event = zigbee.getEvent(description)
// save heartbeat (i.e. last time we got a message from device)
state.heartbeat = Calendar.getInstance().getTimeInMillis()
if (event) {
if (event.name == "power") {
event.value = event.value / 10
event.descriptionText = '{{ device.displayName }} power is {{ value }} Watts'
event.translatable = true
} else if (event.name == "switch") {
def descriptionText = event.value == "on" ? '{{ device.displayName }} is On' : '{{ device.displayName }} is Off'
event = createEvent(name: event.name, value: event.value, descriptionText: descriptionText, translatable: true)
def finalResult = zigbee.getKnownDescription(description)
//TODO: Remove this after getKnownDescription can parse it automatically
if (!finalResult && description!="updated")
finalResult = getPowerDescription(zigbee.parseDescriptionAsMap(description))
if (finalResult) {
log.info finalResult
if (finalResult.type == "update") {
log.info "$device updates: ${finalResult.value}"
}
} else {
def cluster = zigbee.parse(description)
else if (finalResult.type == "power") {
def powerValue = (finalResult.value as Integer)/10
sendEvent(name: "power", value: powerValue)
/*
Dividing by 10 as the Divisor is 10000 and unit is kW for the device. AttrId: 0302 and 0300. Simplifying to 10
if (cluster && cluster.clusterId == 0x0006 && cluster.command == 0x07) {
if (cluster.data[0] == 0x00) {
log.debug "ON/OFF REPORTING CONFIG RESPONSE: " + cluster
event = createEvent(name: "checkInterval", value: 60 * 12, displayed: false, data: [protocol: "zigbee", hubHardwareId: device.hub.hardwareID])
} else {
log.warn "ON/OFF REPORTING CONFIG FAILED- error code:${cluster.data[0]}"
event = null
}
} else {
log.warn "DID NOT PARSE MESSAGE for description : $description"
log.debug "${cluster}"
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)
}
}
return event
else {
log.warn "DID NOT PARSE MESSAGE for description : $description"
log.debug zigbee.parseDescriptionAsMap(description)
}
}
def off() {
@@ -116,23 +122,49 @@ def off() {
def on() {
zigbee.on()
}
/**
* PING is used by Device-Watch in attempt to reach the Device
* */
def ping() {
return zigbee.onOffRefresh()
}
def refresh() {
zigbee.onOffRefresh() + zigbee.electricMeasurementPowerRefresh()
sendEvent(name: "heartbeat", value: "alive", displayed:false)
zigbee.onOffRefresh() + zigbee.refreshData("0x0B04", "0x050B")
}
def configure() {
// Device-Watch allows 2 check-in misses from device + ping (plus 1 min lag time)
// enrolls with default periodic reporting until newer 5 min interval is confirmed
sendEvent(name: "checkInterval", value: 2 * 10 * 60 + 1 * 60, displayed: false, data: [protocol: "zigbee", hubHardwareId: device.hub.hardwareID])
// OnOff minReportTime 0 seconds, maxReportTime 5 min. Reporting interval if no activity
refresh() + zigbee.onOffConfig(0, 300) + zigbee.electricMeasurementPowerConfig()
zigbee.onOffConfig() + powerConfig() + refresh()
}
//power config for devices with min reporting interval as 1 seconds and reporting interval if no activity as 10min (600s)
//min change in value is 01
def powerConfig() {
[
"zdo bind 0x${device.deviceNetworkId} 1 ${endpointId} 0x0B04 {${device.zigbeeId}} {}", "delay 200",
"zcl global send-me-a-report 0x0B04 0x050B 0x29 1 600 {05 00}", //The send-me-a-report is custom to the attribute type for CentraLite
"send 0x${device.deviceNetworkId} 1 ${endpointId}", "delay 500"
]
}
private getEndpointId() {
new BigInteger(device.endpointId, 16).toString()
}
//TODO: Remove this after getKnownDescription can parse it automatically
def getPowerDescription(descMap) {
def powerValue = "undefined"
if (descMap.cluster == "0B04") {
if (descMap.attrId == "050b") {
if(descMap.value!="ffff")
powerValue = zigbee.convertHexToInt(descMap.value)
}
}
else if (descMap.clusterId == "0B04") {
if(descMap.command=="07"){
return [type: "update", value : "power (0B04) capability configured successfully"]
}
}
if (powerValue != "undefined"){
return [type: "power", value : powerValue]
}
else {
return [:]
}
}

4
devicetypes/smartthings/smartsense-garage-door-multi.src/smartsense-garage-door-multi.groovy
View File

@@ -86,9 +86,9 @@ metadata {
def parse(String description) {
log.debug "parse($description)"
def results = [:]
def results = null
if (!isSupportedDescription(description) || description.startsWith("zone")) {
if (!isSupportedDescription(description) || zigbee.isZoneType19(description)) {
// Ignore this in favor of orientation-based state
// results = parseSingleMessage(description)
}

2
devicetypes/smartthings/smartsense-garage-door-sensor-button.src/smartsense-garage-door-sensor-button.groovy
View File

@@ -117,7 +117,7 @@ def parse(String description) {
log.debug "parse($description)"
def results = null
if (!isSupportedDescription(description) || description.startsWith("zone")) {
if (!isSupportedDescription(description) || zigbee.isZoneType19(description)) {
// Ignore this in favor of orientation-based state
// results = parseSingleMessage(description)
}

2
devicetypes/smartthings/smartsense-moisture-sensor.src/.st-ignore
View File

@@ -1,2 +0,0 @@
.st-ignore
README.md

45
devicetypes/smartthings/smartsense-moisture-sensor.src/README.md
View File

@@ -1,45 +0,0 @@
# Smartsense Moisture Sensor
Local Execution on V2 Hubs
Works with:
* [Samsung SmartThings Moisture Sensor](https://shop.smartthings.com/#!/products/samsung-smartthings-water-leak-sensor)
## Table of contents
* [Capabilities](#capabilities)
* [Health](#device-health)
* [Battery](#battery-specification)
## Capabilities
* **Configuration** - _configure()_ command called when device is installed or device preferences updated
* **Battery** - defines device uses a battery
* **Refresh** - _refresh()_ command for status updates
* **Temperature Measurement** - defines device measures current temperature
* **Water Sensor** - can detect presence of water (dry or wet)
* **Health Check** - indicates ability to get device health notifications
## Device Health
SmartSense Moisture sensor with reporting interval of 5 mins.
SmartThings platform will ping the device after `checkInterval` seconds of inactivity in last attempt to reach the device before marking it `OFFLINE`
* V1, TV, HubV2 AppEngine < 1.5.1 - __121min__ checkInterval
* HubV2 AppEngine 1.5.1 - __12min__ checkInterval
## Battery Specification
One CR2 3V battery required.
## Troubleshooting
If the sensor doesn't pair when trying from the SmartThings mobile app, it is possible that the sensor is out of range.
Pairing needs to be tried again by placing the sensor closer to the hub.
Instructions related to pairing, resetting and removing the different sensors from SmartThings can be found in the following links
for the different models:
* [SmartSense Moisture Sensor Troubleshooting Tips](https://support.smartthings.com/hc/en-us/articles/202847044-SmartSense-Moisture-Sensor)
* [Samsung SmartThings Water Leak Sensor Troubleshooting Tips](https://support.smartthings.com/hc/en-us/articles/205957630)
Other troubleshooting tips are listed as follows:
* [Troubleshooting: Samsung SmartThings Water Leak Sensor wont pair after removing pull-tab](https://support.smartthings.com/hc/en-us/articles/204966616-Troubleshooting-Samsung-SmartThings-device-won-t-pair-after-removing-pull-tab)

35
devicetypes/smartthings/smartsense-moisture-sensor.src/i18n/messages.properties
View File

@@ -1,35 +0,0 @@
# Copyright 2016 SmartThings
#
# Licensed under the Apache License, Version 2.0 (the "License"); you may not
# use this file except in compliance with the License. You may obtain a copy
# of the License at:
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
# WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
# License for the specific language governing permissions and limitations
# under the License.
# Korean (ko)
# Device Preferences
'''Dry'''.ko=건조
'''Wet'''.ko=누수
'''dry'''.ko=건조
'''wet'''.ko=누수
'''battery'''.ko=배터리
'''Temperature Offset'''.ko=온도 직접 설정
'''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'.'''.ko=기준 온도를 원하는대로 몇 도 올리거나 내려서 설정할 수 있습니다.
'''Degrees'''.ko=온도
'''Adjust temperature by this many degrees'''.ko=몇 도씩 온도를 조절하십시오
'''Give your device a name'''.ko=기기 이름 설정
'''Water Leak Sensor'''.ko=누수감지 센서
'''${currentValue}% battery'''.ko=${currentValue}% 배터리
# Events descriptionText
'''{{ device.displayName }} is dry'''.ko={{ device.displayName }}가 건조
'''{{ device.displayName }} is wet'''.ko={{ device.displayName }}누수
'''{{ device.displayName }} was {{ value }}°C'''.ko={{ device.displayName }}에서 {{ value }}°C 감지
'''{{ device.displayName }} was {{ value }}°F'''.ko={{ device.displayName }}이(가) {{ value }}°F였습니다
'''{{ device.displayName }} battery has too much power: (> 3.5) volts.'''.ko={{ device.displayName }} 배터리 전력이 너무 높습니다(3.5볼트 초과).
'''{{ device.displayName }} battery was {{ value }}%'''.ko={{ device.displayName }}의 남은 배터리 {{ value }}%
#==============================================================================

392
devicetypes/smartthings/smartsense-moisture-sensor.src/smartsense-moisture-sensor.groovy
View File

@@ -1,206 +1,332 @@
/*
* Copyright 2016 SmartThings
/**
* SmartSense Moisture Sensor
*
* Licensed under the Apache License, Version 2.0 (the "License"); you may not
* use this file except in compliance with the License. You may obtain a copy
* of the License at:
* Copyright 2014 SmartThings
*
* Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except
* in compliance with the License. You may obtain a copy of the License at:
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
* WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
* License for the specific language governing permissions and limitations
* under the License.
* Unless required by applicable law or agreed to in writing, software distributed under the License is distributed
* on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License
* for the specific language governing permissions and limitations under the License.
*
*/
import physicalgraph.zigbee.clusters.iaszone.ZoneStatus
metadata {
definition(name: "SmartSense Moisture Sensor", namespace: "smartthings", author: "SmartThings") {
definition (name: "SmartSense Moisture Sensor",namespace: "smartthings", author: "SmartThings") {
capability "Configuration"
capability "Battery"
capability "Refresh"
capability "Temperature Measurement"
capability "Water Sensor"
capability "Health Check"
capability "Sensor"
command "enrollResponse"
command "enrollResponse"
fingerprint inClusters: "0000,0001,0003,0402,0500,0020,0B05", outClusters: "0019", manufacturer: "CentraLite", model: "3315-S", deviceJoinName: "Water Leak Sensor"
fingerprint inClusters: "0000,0001,0003,0402,0500,0020,0B05", outClusters: "0019", manufacturer: "CentraLite", model: "3315"
fingerprint inClusters: "0000,0001,0003,0402,0500,0020,0B05", outClusters: "0019", manufacturer: "CentraLite", model: "3315-Seu", deviceJoinName: "Water Leak Sensor"
fingerprint inClusters: "0000,0001,0003,0020,0402,0500,0B05", outClusters: "0019", manufacturer: "CentraLite", model: "3315-L", deviceJoinName: "Iris Smart Water Sensor"
fingerprint inClusters: "0000,0001,0003,000F,0020,0402,0500", outClusters: "0019", manufacturer: "SmartThings", model: "moisturev4", deviceJoinName: "Water Leak Sensor"
fingerprint inClusters: "0000,0001,0003,0402,0500,0020,0B05", outClusters: "0019", manufacturer: "CentraLite", model: "3315-S", deviceJoinName: "Water Leak Sensor"
fingerprint inClusters: "0000,0001,0003,0402,0500,0020,0B05", outClusters: "0019", manufacturer: "CentraLite", model: "3315"
fingerprint inClusters: "0000,0001,0003,0402,0500,0020,0B05", outClusters: "0019", manufacturer: "CentraLite", model: "3315-Seu", deviceJoinName: "Water Leak Sensor"
}
simulator {
}
preferences {
section {
image(name: 'educationalcontent', multiple: true, images: [
"http://cdn.device-gse.smartthings.com/Moisture/Moisture1.png",
"http://cdn.device-gse.smartthings.com/Moisture/Moisture2.png",
"http://cdn.device-gse.smartthings.com/Moisture/Moisture3.png"
])
"http://cdn.device-gse.smartthings.com/Moisture/Moisture1.png",
"http://cdn.device-gse.smartthings.com/Moisture/Moisture2.png",
"http://cdn.device-gse.smartthings.com/Moisture/Moisture3.png"
])
}
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 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) {
multiAttributeTile(name: "water", type: "generic", width: 6, height: 4) {
tileAttribute("device.water", key: "PRIMARY_CONTROL") {
attributeState "dry", label: "Dry", icon: "st.alarm.water.dry", backgroundColor: "#ffffff"
attributeState "wet", label: "Wet", icon: "st.alarm.water.wet", backgroundColor: "#53a7c0"
multiAttributeTile(name:"water", type: "generic", width: 6, height: 4){
tileAttribute ("device.water", key: "PRIMARY_CONTROL") {
attributeState "dry", label: "Dry", icon:"st.alarm.water.dry", backgroundColor:"#ffffff"
attributeState "wet", label: "Wet", icon:"st.alarm.water.wet", backgroundColor:"#53a7c0"
}
}
valueTile("temperature", "device.temperature", inactiveLabel: false, width: 2, height: 2) {
state "temperature", label: '${currentValue}°',
backgroundColors: [
[value: 31, color: "#153591"],
[value: 44, color: "#1e9cbb"],
[value: 59, color: "#90d2a7"],
[value: 74, color: "#44b621"],
[value: 84, color: "#f1d801"],
[value: 95, color: "#d04e00"],
[value: 96, color: "#bc2323"]
]
state "temperature", label:'${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: '${currentValue}% battery', unit: ""
state "battery", label:'${currentValue}% battery', unit:""
}
standardTile("refresh", "device.refresh", inactiveLabel: false, decoration: "flat", width: 2, height: 2) {
state "default", action: "refresh.refresh", icon: "st.secondary.refresh"
state "default", action:"refresh.refresh", icon:"st.secondary.refresh"
}
main(["water", "temperature"])
main (["water", "temperature"])
details(["water", "temperature", "battery", "refresh"])
}
}
def parse(String description) {
log.debug "description: $description"
// getEvent will handle temperature and humidity
Map map = zigbee.getEvent(description)
if (!map) {
if (description?.startsWith('zone status')) {
map = parseIasMessage(description)
} else {
Map descMap = zigbee.parseDescriptionAsMap(description)
if (descMap.clusterInt == 0x0001 && descMap.commandInt != 0x07 && descMap?.value) {
map = getBatteryResult(Integer.parseInt(descMap.value, 16))
} else if (descMap?.clusterInt == zigbee.TEMPERATURE_MEASUREMENT_CLUSTER && descMap.commandInt == 0x07) {
if (descMap.data[0] == "00") {
log.debug "TEMP REPORTING CONFIG RESPONSE: $descMap"
sendEvent(name: "checkInterval", value: 60 * 12, displayed: false, data: [protocol: "zigbee", hubHardwareId: device.hub.hardwareID])
} else {
log.warn "TEMP REPORTING CONFIG FAILED- error code: ${descMap.data[0]}"
}
}
}
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) : [:]
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
if (description?.startsWith('enroll request')) {
List cmds = zigbee.enrollResponse()
log.debug "enroll response: ${cmds}"
result = cmds?.collect { new physicalgraph.device.HubAction(it) }
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
}
}
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 Map parseReportAttributeMessage(String description) {
Map descMap = (description - "read attr - ").split(",").inject([:]) { map, param ->
def nameAndValue = param.split(":")
map += [(nameAndValue[0].trim()):nameAndValue[1].trim()]
}
return result
log.debug "Desc Map: $descMap"
Map resultMap = [:]
if (descMap.cluster == "0402" && descMap.attrId == "0000") {
def value = getTemperature(descMap.value)
resultMap = getTemperatureResult(value)
}
else if (descMap.cluster == "0001" && descMap.attrId == "0020") {
resultMap = getBatteryResult(Integer.parseInt(descMap.value, 16))
}
return resultMap
}
private Map parseCustomMessage(String description) {
Map resultMap = [:]
if (description?.startsWith('temperature: ')) {
def value = zigbee.parseHATemperatureValue(description, "temperature: ", getTemperatureScale())
resultMap = getTemperatureResult(value)
}
return resultMap
}
private Map parseIasMessage(String description) {
ZoneStatus zs = zigbee.parseZoneStatus(description)
List parsedMsg = description.split(' ')
String msgCode = parsedMsg[2]
Map resultMap = [:]
switch(msgCode) {
case '0x0020': // Closed/No Motion/Dry
resultMap = getMoistureResult('dry')
break
return zs.isAlarm1Set() ? getMoistureResult('wet') : getMoistureResult('dry')
case '0x0021': // Open/Motion/Wet
resultMap = getMoistureResult('wet')
break
case '0x0022': // Tamper Alarm
break
case '0x0023': // Battery Alarm
break
case '0x0024': // Supervision Report
log.debug 'dry with tamper alarm'
resultMap = getMoistureResult('dry')
break
case '0x0025': // Restore Report
log.debug 'water with tamper alarm'
resultMap = getMoistureResult('wet')
break
case '0x0026': // Trouble/Failure
break
case '0x0028': // Test Mode
break
}
return resultMap
}
def getTemperature(value) {
def celsius = Integer.parseInt(value, 16).shortValue() / 100
if(getTemperatureScale() == "C"){
return celsius
} else {
return celsiusToFahrenheit(celsius) as Integer
}
}
private Map getBatteryResult(rawValue) {
log.debug "Battery rawValue = ${rawValue}"
log.debug 'Battery'
def linkText = getLinkText(device)
def result = [:]
def result = [
name: 'battery'
]
def volts = rawValue / 10
if (!(rawValue == 0 || rawValue == 255)) {
result.name = 'battery'
result.translatable = true
result.descriptionText = "{{ device.displayName }} battery was {{ value }}%"
if (device.getDataValue("manufacturer") == "SmartThings") {
volts = rawValue // For the batteryMap to work the key needs to be an int
def batteryMap = [28: 100, 27: 100, 26: 100, 25: 90, 24: 90, 23: 70,
22: 70, 21: 50, 20: 50, 19: 30, 18: 30, 17: 15, 16: 1, 15: 0]
def minVolts = 15
def maxVolts = 28
if (volts < minVolts)
volts = minVolts
else if (volts > maxVolts)
volts = maxVolts
def pct = batteryMap[volts]
result.value = pct
} else {
def minVolts = 2.1
def maxVolts = 3.0
def pct = (volts - minVolts) / (maxVolts - minVolts)
def roundedPct = Math.round(pct * 100)
if (roundedPct <= 0)
roundedPct = 1
result.value = Math.min(100, roundedPct)
}
def descriptionText
if (volts > 3.5) {
result.descriptionText = "${linkText} battery has too much power (${volts} volts)."
}
else {
def minVolts = 2.1
def maxVolts = 3.0
def pct = (volts - minVolts) / (maxVolts - minVolts)
result.value = Math.min(100, (int) pct * 100)
result.descriptionText = "${linkText} battery was ${result.value}%"
}
return result
}
private Map getMoistureResult(value) {
log.debug "water"
def descriptionText
if (value == "wet")
descriptionText = '{{ device.displayName }} is wet'
else
descriptionText = '{{ device.displayName }} is dry'
private Map getTemperatureResult(value) {
log.debug 'TEMP'
def linkText = getLinkText(device)
if (tempOffset) {
def offset = tempOffset as int
def v = value as int
value = v + offset
}
def descriptionText = "${linkText} was ${value}°${temperatureScale}"
return [
name : 'water',
value : value,
descriptionText: descriptionText,
translatable : true
name: 'temperature',
value: value,
descriptionText: descriptionText
]
}
/**
* PING is used by Device-Watch in attempt to reach the Device
* */
def ping() {
return zigbee.readAttribute(0x001, 0x0020) // Read the Battery Level
private Map getMoistureResult(value) {
log.debug 'water'
String descriptionText = "${device.displayName} is ${value}"
return [
name: 'water',
value: value,
descriptionText: descriptionText
]
}
def refresh() {
log.debug "Refreshing Temperature and Battery"
def refreshCmds = zigbee.readAttribute(zigbee.TEMPERATURE_MEASUREMENT_CLUSTER, 0x0000) +
zigbee.readAttribute(zigbee.POWER_CONFIGURATION_CLUSTER, 0x0020)
def refreshCmds = [
"st rattr 0x${device.deviceNetworkId} 1 0x402 0", "delay 200",
"st rattr 0x${device.deviceNetworkId} 1 1 0x20", "delay 200"
]
return refreshCmds + zigbee.enrollResponse()
return refreshCmds + enrollResponse()
}
def configure() {
// Device-Watch allows 2 check-in misses from device + ping (plus 1 min lag time)
// enrolls with default periodic reporting until newer 5 min interval is confirmed
sendEvent(name: "checkInterval", value: 2 * 60 * 60 + 1 * 60, displayed: false, data: [protocol: "zigbee", hubHardwareId: device.hub.hardwareID])
String zigbeeEui = swapEndianHex(device.hub.zigbeeEui)
log.debug "Configuring Reporting, IAS CIE, and Bindings."
def configCmds = [
"zcl global write 0x500 0x10 0xf0 {${zigbeeEui}}", "delay 200",
"send 0x${device.deviceNetworkId} 1 1", "delay 500",
// temperature minReportTime 30 seconds, maxReportTime 5 min. Reporting interval if no activity
// battery minReport 30 seconds, maxReportTime 6 hrs by default
return refresh() + zigbee.batteryConfig() + zigbee.temperatureConfig(30, 300) // send refresh cmds as part of config
"zdo bind 0x${device.deviceNetworkId} ${endpointId} 1 1 {${device.zigbeeId}} {}", "delay 500",
"zcl global send-me-a-report 1 0x20 0x20 30 21600 {01}", //checkin time 6 hrs
"send 0x${device.deviceNetworkId} 1 1", "delay 500",
"zdo bind 0x${device.deviceNetworkId} ${endpointId} 1 0x402 {${device.zigbeeId}} {}", "delay 500",
"zcl global send-me-a-report 0x402 0 0x29 30 3600 {6400}",
"send 0x${device.deviceNetworkId} 1 1", "delay 500"
]
return configCmds + refresh() // send refresh cmds as part of config
}
def enrollResponse() {
log.debug "Sending enroll response"
String zigbeeEui = swapEndianHex(device.hub.zigbeeEui)
[
//Resending the CIE in case the enroll request is sent before CIE is written
"zcl global write 0x500 0x10 0xf0 {${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"
]
}
private getEndpointId() {
new BigInteger(device.endpointId, 16).toString()
}
private hex(value) {
new BigInteger(Math.round(value).toString()).toString(16)
}
private String swapEndianHex(String hex) {
reverseArray(hex.decodeHex()).encodeHex()
}
private byte[] reverseArray(byte[] array) {
int i = 0;
int j = array.length - 1;
byte tmp;
while (j > i) {
tmp = array[j];
array[j] = array[i];
array[i] = tmp;
j--;
i++;
}
return array
}

48
devicetypes/smartthings/smartsense-moisture.src/smartsense-moisture.groovy
View File

@@ -16,7 +16,6 @@ metadata {
capability "Water Sensor"
capability "Sensor"
capability "Battery"
capability "Temperature Measurement"
fingerprint deviceId: "0x2001", inClusters: "0x30,0x9C,0x9D,0x85,0x80,0x72,0x31,0x84,0x86"
fingerprint deviceId: "0x2101", inClusters: "0x71,0x70,0x85,0x80,0x72,0x31,0x84,0x86"
@@ -40,29 +39,17 @@ metadata {
attributeState "wet", label: "Wet", icon:"st.alarm.water.wet", backgroundColor:"#53a7c0"
}
}
standardTile("temperatureState", "device.temperature", width: 2, height: 2) {
standardTile("temperature", "device.temperature", width: 2, height: 2) {
state "normal", icon:"st.alarm.temperature.normal", backgroundColor:"#ffffff"
state "freezing", icon:"st.alarm.temperature.freeze", backgroundColor:"#53a7c0"
state "overheated", icon:"st.alarm.temperature.overheat", backgroundColor:"#F80000"
}
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:""
}
main (["water", "temperatureState"])
details(["water", "temperatureState", "temperature", "battery"])
main (["water", "temperature"])
details(["water", "temperature", "battery"])
}
}
@@ -128,7 +115,7 @@ def zwaveEvent(physicalgraph.zwave.commands.alarmv2.AlarmReport cmd)
map.descriptionText = "${device.displayName} is ${map.value}"
}
if(cmd.zwaveAlarmType == physicalgraph.zwave.commands.alarmv2.AlarmReport.ZWAVE_ALARM_TYPE_HEAT) {
map.name = "temperatureState"
map.name = "temperature"
if(cmd.zwaveAlarmEvent == 1) { map.value = "overheated"}
if(cmd.zwaveAlarmEvent == 2) { map.value = "overheated"}
if(cmd.zwaveAlarmEvent == 3) { map.value = "changing temperature rapidly"}
@@ -142,30 +129,17 @@ def zwaveEvent(physicalgraph.zwave.commands.alarmv2.AlarmReport cmd)
map
}
def zwaveEvent(physicalgraph.zwave.commands.sensormultilevelv5.SensorMultilevelReport cmd)
def zwaveEvent(physicalgraph.zwave.commands.basicv1.BasicSet cmd)
{
def map = [:]
if(cmd.sensorType == 1) {
map.name = "temperature"
if(cmd.scale == 0) {
map.value = getTemperature(cmd.scaledSensorValue)
} else {
map.value = cmd.scaledSensorValue
}
map.unit = location.temperatureScale
}
map.name = "water"
map.value = cmd.value ? "wet" : "dry"
map.descriptionText = "${device.displayName} is ${map.value}"
map
}
def getTemperature(value) {
if(location.temperatureScale == "C"){
return value
} else {
return Math.round(celsiusToFahrenheit(value))
}
}
def zwaveEvent(physicalgraph.zwave.Command cmd)
{
log.debug "COMMAND CLASS: $cmd"
}
}

2
devicetypes/smartthings/smartsense-motion-sensor.src/.st-ignore
View File

@@ -1,2 +0,0 @@
.st-ignore
README.md

47
devicetypes/smartthings/smartsense-motion-sensor.src/README.md
View File

@@ -1,47 +0,0 @@
# Smartsense Motion Sensor
Local Execution on V2 Hubs
Works with:
* [Samsung SmartThings Motion Sensor](https://shop.smartthings.com/#!/products/samsung-smartthings-motion-sensor)
## Table of contents
* [Capabilities](#capabilities)
* [Health](#device-health)
* [Battery](#battery-specification)
## Capabilities
* **Configuration** - _configure()_ command called when device is installed or device preferences updated
* **Motion Sensor** - can detect motion
* **Battery** - defines device uses a battery
* **Refresh** - _refresh()_ command for status updates
* **Health Check** - indicates ability to get device health notifications
## Device Health
SmartSense Motion sensor with reporting interval of 5 mins.
SmartThings platform will ping the device after `checkInterval` seconds of inactivity in last attempt to reach the device before marking it `OFFLINE`
* V1, TV, HubV2 AppEngine < 1.5.1 - __121min__ checkInterval
* HubV2 AppEngine 1.5.1 - __12min__ checkInterval
## Battery Specification
One CR2477 (for Samsung SmartThings Motion Sensor) / CR123A (SmartSense Motion Sensor) 3V battery is required.
## Troubleshooting
If the device doesn't pair when trying from the SmartThings mobile app, it is possible that the sensor is out of range.
Pairing needs to be tried again by placing the sensor closer to the hub.
Instructions related to pairing, resetting and removing the different motion sensors from SmartThings can be found in the following links
for the different models:
* [SmartSense Motion Sensor (original model) Troubleshooting Tips](https://support.smartthings.com/hc/en-us/articles/200903280-SmartSense-Motion-Sensor-original-model-)
* [SmartSense Motion Sensor (2014 model) Troubleshooting Tips](https://support.smartthings.com/hc/en-us/articles/203077520-SmartSense-Motion-Sensor-2014-model-)
* [Samsung SmartThings Motion Sensor (2015 model) Troubleshooting Tips](https://support.smartthings.com/hc/en-us/articles/205957580-Samsung-SmartThings-Motion-Sensor-2015-model-)
Other troubleshooting tips are listed as follows:
* [Troubleshooting: Samsung SmartThings Motion Sensor is stuck showing "Motion Detected" or "No Motion"](https://support.smartthings.com/hc/en-us/articles/200961130-Troubleshooting-Samsung-SmartThings-Motion-Sensor-is-stuck-showing-Motion-Detected-or-No-Motion-)
* [Troubleshooting: Samsung SmartThings Motion Sensor wont pair after removing pull-tab](https://support.smartthings.com/hc/en-us/articles/204966616-Troubleshooting-Samsung-SmartThings-device-won-t-pair-after-removing-pull-tab)

33
devicetypes/smartthings/smartsense-motion-sensor.src/i18n/messages.properties
View File

@@ -1,33 +0,0 @@
# Copyright 2016 SmartThings
#
# Licensed under the Apache License, Version 2.0 (the "License"); you may not
# use this file except in compliance with the License. You may obtain a copy
# of the License at:
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
# WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
# License for the specific language governing permissions and limitations
# under the License.
# Korean (ko)
# Device Preferences
'''battery'''.ko=배터리
'''Temperature Offset'''.ko=온도 직접 설정
'''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'.'''.ko=기준 온도를 원하는대로 몇 도 올리거나 내려서 설정할 수 있습니다.
'''Degrees'''.ko=온도
'''Adjust temperature by this many degrees'''.ko=몇 도씩 온도를 조절하십시오
'''Give your device a name'''.ko=기기 이름 설정
'''Motion Sensor'''.ko=모션 센서
'''motion'''.ko= 동작 감지
'''no motion'''.ko=동작 없음
'''${currentValue}% battery'''.ko=${currentValue}% 배터리
# Events descriptionText
'''{{ device.displayName }} detected motion'''.ko={{ device.displayName }}에서 움직임이 감지되었습니다.
'''{{ device.displayName }} motion has stopped'''.ko={{ device.displayName }}에서 움직임이 중단되었습니다.
'''{{ device.displayName }} was {{ value }}°C'''.ko={{ device.displayName }}에서 {{ value }}°C 감지
'''{{ device.displayName }} was {{ value }}°F'''.ko={{ device.displayName }}이(가) {{ value }}°F였습니다
'''{{ device.displayName }} battery has too much power: (> 3.5) volts.'''.ko={{ device.displayName }} 배터리 전력이 너무 높습니다(3.5볼트 초과).
'''{{ device.displayName }} battery was {{ value }}%'''.ko={{ device.displayName }}의 남은 배터리 {{ value }}%
#==============================================================================

391
devicetypes/smartthings/smartsense-motion-sensor.src/smartsense-motion-sensor.groovy
View File

@@ -1,40 +1,34 @@
/*
* Copyright 2016 SmartThings
/**
* SmartSense Motion/Temp Sensor
*
* Licensed under the Apache License, Version 2.0 (the "License"); you may not
* use this file except in compliance with the License. You may obtain a copy
* of the License at:
* Copyright 2014 SmartThings
*
* Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except
* in compliance with the License. You may obtain a copy of the License at:
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
* WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
* License for the specific language governing permissions and limitations
* under the License.
* Unless required by applicable law or agreed to in writing, software distributed under the License is distributed
* on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License
* for the specific language governing permissions and limitations under the License.
*
*/
import physicalgraph.zigbee.clusters.iaszone.ZoneStatus
metadata {
definition(name: "SmartSense Motion Sensor", namespace: "smartthings", author: "SmartThings") {
definition (name: "SmartSense Motion Sensor", namespace: "smartthings", author: "SmartThings") {
capability "Motion Sensor"
capability "Configuration"
capability "Battery"
capability "Temperature Measurement"
capability "Temperature Measurement"
capability "Refresh"
capability "Health Check"
capability "Sensor"
command "enrollResponse"
command "enrollResponse"
fingerprint inClusters: "0000,0001,0003,0402,0500,0020,0B05", outClusters: "0019", manufacturer: "CentraLite", model: "3305-S"
fingerprint inClusters: "0000,0001,0003,0402,0500,0020,0B05", outClusters: "0019", manufacturer: "CentraLite", model: "3325-S", deviceJoinName: "Motion Sensor"
fingerprint inClusters: "0000,0001,0003,0402,0500,0020,0B05", outClusters: "0019", manufacturer: "CentraLite", model: "3305"
fingerprint inClusters: "0000,0001,0003,0402,0500,0020,0B05", outClusters: "0019", manufacturer: "CentraLite", model: "3325"
fingerprint inClusters: "0000,0001,0003,0402,0500,0020,0B05", outClusters: "0019", manufacturer: "CentraLite", model: "3326"
fingerprint inClusters: "0000,0001,0003,0402,0500,0020,0B05", outClusters: "0019", manufacturer: "CentraLite", model: "3326-L", deviceJoinName: "Iris Motion Sensor"
fingerprint inClusters: "0000,0001,0003,000F,0020,0402,0500", outClusters: "0019", manufacturer: "SmartThings", model: "motionv4", deviceJoinName: "Motion Sensor"
fingerprint inClusters: "0000,0001,0003,0402,0500,0020,0B05", outClusters: "0019", manufacturer: "CentraLite", model: "3325-S", deviceJoinName: "Motion Sensor"
fingerprint inClusters: "0000,0001,0003,0402,0500,0020,0B05", outClusters: "0019", manufacturer: "CentraLite", model: "3305"
fingerprint inClusters: "0000,0001,0003,0402,0500,0020,0B05", outClusters: "0019", manufacturer: "CentraLite", model: "3325"
fingerprint inClusters: "0000,0001,0003,0402,0500,0020,0B05", outClusters: "0019", manufacturer: "CentraLite", model: "3326"
}
simulator {
@@ -45,42 +39,42 @@ metadata {
preferences {
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"
])
"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 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) {
multiAttributeTile(name: "motion", type: "generic", width: 6, height: 4) {
tileAttribute("device.motion", key: "PRIMARY_CONTROL") {
attributeState "active", label: 'motion', icon: "st.motion.motion.active", backgroundColor: "#53a7c0"
attributeState "inactive", label: 'no motion', icon: "st.motion.motion.inactive", backgroundColor: "#ffffff"
multiAttributeTile(name:"motion", type: "generic", width: 6, height: 4){
tileAttribute ("device.motion", key: "PRIMARY_CONTROL") {
attributeState "active", label:'motion', icon:"st.motion.motion.active", backgroundColor:"#53a7c0"
attributeState "inactive", label:'no motion', icon:"st.motion.motion.inactive", backgroundColor:"#ffffff"
}
}
valueTile("temperature", "device.temperature", width: 2, height: 2) {
state("temperature", label: '${currentValue}°', unit: "F",
backgroundColors: [
[value: 31, color: "#153591"],
[value: 44, color: "#1e9cbb"],
[value: 59, color: "#90d2a7"],
[value: 74, color: "#44b621"],
[value: 84, color: "#f1d801"],
[value: 95, color: "#d04e00"],
[value: 96, color: "#bc2323"]
]
state("temperature", label:'${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"]
]
)
}
valueTile("battery", "device.battery", decoration: "flat", inactiveLabel: false, width: 2, height: 2) {
state "battery", label: '${currentValue}% battery', unit: ""
state "battery", label:'${currentValue}% battery', unit:""
}
standardTile("refresh", "device.refresh", inactiveLabel: false, decoration: "flat", width: 2, height: 2) {
state "default", action: "refresh.refresh", icon: "st.secondary.refresh"
state "default", action:"refresh.refresh", icon:"st.secondary.refresh"
}
main(["motion", "temperature"])
@@ -90,119 +84,272 @@ metadata {
def parse(String description) {
log.debug "description: $description"
Map map = zigbee.getEvent(description)
if (!map) {
if (description?.startsWith('zone status')) {
map = parseIasMessage(description)
} else {
Map descMap = zigbee.parseDescriptionAsMap(description)
if (descMap?.clusterInt == 0x0001 && descMap.commandInt != 0x07 && descMap?.value) {
map = getBatteryResult(Integer.parseInt(descMap.value, 16))
} else if (descMap?.clusterInt == zigbee.TEMPERATURE_MEASUREMENT_CLUSTER && descMap.commandInt == 0x07) {
if (descMap.data[0] == "00") {
log.debug "TEMP REPORTING CONFIG RESPONSE: $descMap"
sendEvent(name: "checkInterval", value: 60 * 12, displayed: false, data: [protocol: "zigbee", hubHardwareId: device.hub.hardwareID])
} else {
log.warn "TEMP REPORTING CONFIG FAILED- error code: ${descMap.data[0]}"
}
} else if (descMap.clusterInt == 0x0406 && descMap.attrInt == 0x0000) {
def value = descMap.value.endsWith("01") ? "active" : "inactive"
log.warn "Doing a read attr motion event"
resultMap = getMotionResult(value)
}
}
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) : [:]
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 = zigbee.enrollResponse()
log.debug "enroll response: ${cmds}"
result = cmds?.collect { new physicalgraph.device.HubAction(it) }
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 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 0x0406:
log.debug 'motion'
resultMap.name = 'motion'
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 Map parseReportAttributeMessage(String description) {
Map descMap = (description - "read attr - ").split(",").inject([:]) { map, param ->
def nameAndValue = param.split(":")
map += [(nameAndValue[0].trim()):nameAndValue[1].trim()]
}
return result
log.debug "Desc Map: $descMap"
Map resultMap = [:]
if (descMap.cluster == "0402" && descMap.attrId == "0000") {
def value = getTemperature(descMap.value)
resultMap = getTemperatureResult(value)
}
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)
}
return resultMap
}
private Map parseCustomMessage(String description) {
Map resultMap = [:]
if (description?.startsWith('temperature: ')) {
def value = zigbee.parseHATemperatureValue(description, "temperature: ", getTemperatureScale())
resultMap = getTemperatureResult(value)
}
return resultMap
}
private Map parseIasMessage(String description) {
ZoneStatus zs = zigbee.parseZoneStatus(description)
List parsedMsg = description.split(' ')
String msgCode = parsedMsg[2]
Map resultMap = [:]
switch(msgCode) {
case '0x0020': // Closed/No Motion/Dry
resultMap = getMotionResult('inactive')
break
// 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')
case '0x0021': // Open/Motion/Wet
resultMap = getMotionResult('active')
break
case '0x0022': // Tamper Alarm
log.debug 'motion with tamper alarm'
resultMap = getMotionResult('active')
break
case '0x0023': // Battery Alarm
break
case '0x0024': // Supervision Report
log.debug 'no motion with tamper alarm'
resultMap = getMotionResult('inactive')
break
case '0x0025': // Restore Report
break
case '0x0026': // Trouble/Failure
log.debug 'motion with failure alarm'
resultMap = getMotionResult('active')
break
case '0x0028': // Test Mode
break
}
return resultMap
}
def getTemperature(value) {
def celsius = Integer.parseInt(value, 16).shortValue() / 100
if(getTemperatureScale() == "C"){
return celsius
} else {
return celsiusToFahrenheit(celsius) as Integer
}
}
private Map getBatteryResult(rawValue) {
log.debug "Battery rawValue = ${rawValue}"
log.debug 'Battery'
def linkText = getLinkText(device)
def result = [:]
log.debug rawValue
def result = [
name: 'battery',
value: '--'
]
def volts = rawValue / 10
def descriptionText
if (!(rawValue == 0 || rawValue == 255)) {
result.name = 'battery'
result.translatable = true
result.descriptionText = "{{ device.displayName }} battery was {{ value }}%"
if (device.getDataValue("manufacturer") == "SmartThings") {
volts = rawValue // For the batteryMap to work the key needs to be an int
def batteryMap = [28: 100, 27: 100, 26: 100, 25: 90, 24: 90, 23: 70,
22: 70, 21: 50, 20: 50, 19: 30, 18: 30, 17: 15, 16: 1, 15: 0]
def minVolts = 15
def maxVolts = 28
if (volts < minVolts)
volts = minVolts
else if (volts > maxVolts)
volts = maxVolts
def pct = batteryMap[volts]
result.value = pct
} else {
if (rawValue == 0) {}
else {
if (volts > 3.5) {
result.descriptionText = "${linkText} battery has too much power (${volts} volts)."
}
else if (volts > 0){
def minVolts = 2.1
def maxVolts = 3.0
def pct = (volts - minVolts) / (maxVolts - minVolts)
def roundedPct = Math.round(pct * 100)
if (roundedPct <= 0)
roundedPct = 1
result.value = Math.min(100, roundedPct)
result.value = Math.min(100, (int) pct * 100)
result.descriptionText = "${linkText} battery was ${result.value}%"
}
}
return result
}
private Map getTemperatureResult(value) {
log.debug 'TEMP'
def linkText = getLinkText(device)
if (tempOffset) {
def offset = tempOffset as int
def v = value as int
value = v + offset
}
def descriptionText = "${linkText} was ${value}°${temperatureScale}"
return [
name: 'temperature',
value: value,
descriptionText: descriptionText
]
}
private Map getMotionResult(value) {
log.debug 'motion'
String descriptionText = value == 'active' ? "{{ device.displayName }} detected motion" : "{{ device.displayName }} motion has stopped"
String linkText = getLinkText(device)
String descriptionText = value == 'active' ? "${linkText} detected motion" : "${linkText} motion has stopped"
return [
name : 'motion',
value : value,
descriptionText: descriptionText,
translatable : true
name: 'motion',
value: value,
descriptionText: descriptionText
]
}
/**
* PING is used by Device-Watch in attempt to reach the Device
* */
def ping() {
return zigbee.readAttribute(zigbee.POWER_CONFIGURATION_CLUSTER, 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"
]
def refreshCmds = zigbee.readAttribute(zigbee.POWER_CONFIGURATION_CLUSTER, 0x0020) +
zigbee.readAttribute(zigbee.TEMPERATURE_MEASUREMENT_CLUSTER, 0x0000)
return refreshCmds + zigbee.enrollResponse()
return refreshCmds + enrollResponse()
}
def configure() {
// Device-Watch allows 2 check-in misses from device + ping (plus 1 min lag time)
// enrolls with default periodic reporting until newer 5 min interval is confirmed
sendEvent(name: "checkInterval", value: 2 * 60 * 60 + 1 * 60, displayed: false, data: [protocol: "zigbee", hubHardwareId: device.hub.hardwareID])
String zigbeeEui = swapEndianHex(device.hub.zigbeeEui)
log.debug "Configuring Reporting, IAS CIE, and Bindings."
// 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 configCmds = [
"zcl global write 0x500 0x10 0xf0 {${zigbeeEui}}", "delay 200",
"send 0x${device.deviceNetworkId} 1 ${endpointId}", "delay 500",
"zdo bind 0x${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 300 3600 {6400}",
"send 0x${device.deviceNetworkId} 1 ${endpointId}", "delay 500"
]
return configCmds + refresh() // send refresh cmds as part of config
}
def enrollResponse() {
log.debug "Sending enroll response"
String zigbeeEui = swapEndianHex(device.hub.zigbeeEui)
[
//Resending the CIE in case the enroll request is sent before CIE is written
"zcl global write 0x500 0x10 0xf0 {${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"
]
}
private getEndpointId() {
new BigInteger(device.endpointId, 16).toString()
}
private hex(value) {
new BigInteger(Math.round(value).toString()).toString(16)
}
private String swapEndianHex(String hex) {
reverseArray(hex.decodeHex()).encodeHex()
}
private byte[] reverseArray(byte[] array) {
int i = 0;
int j = array.length - 1;
byte tmp;
while (j > i) {
tmp = array[j];
array[j] = array[i];
array[i] = tmp;
j--;
i++;
}
return array
}

346
devicetypes/smartthings/smartsense-motion-temp-sensor.src/smartsense-motion-temp-sensor.groovy Normal file
View File

@@ -0,0 +1,346 @@
/**
* SmartSense Motion/Temp Sensor
*
* Copyright 2014 SmartThings
*
* Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except
* in compliance with the License. You may obtain a copy of the License at:
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software distributed under the License is distributed
* on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License
* for the specific language governing permissions and limitations under the License.
*
*/
metadata {
definition (name: "SmartSense Motion/Temp Sensor", namespace: "smartthings", author: "SmartThings") {
capability "Motion Sensor"
capability "Configuration"
capability "Battery"
capability "Temperature Measurement"
capability "Refresh"
capability "Sensor"
command "enrollResponse"
fingerprint inClusters: "0000,0001,0003,0402,0500,0020,0B05", outClusters: "0019", manufacturer: "CentraLite", model: "3305-S"
fingerprint inClusters: "0000,0001,0003,0402,0500,0020,0B05", outClusters: "0019", manufacturer: "CentraLite", model: "3305"
fingerprint inClusters: "0000,0001,0003,0402,0500,0020,0B05", outClusters: "0019", manufacturer: "CentraLite", model: "3325"
fingerprint inClusters: "0000,0001,0003,0402,0500,0020,0B05", outClusters: "0019", manufacturer: "CentraLite", model: "3326"
}
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
}
tiles(scale: 2) {
multiAttributeTile(name:"motion", type: "generic", width: 6, height: 4){
tileAttribute ("device.motion", key: "PRIMARY_CONTROL") {
attributeState "active", label:'motion', icon:"st.motion.motion.active", backgroundColor:"#53a7c0"
attributeState "inactive", label:'no motion', icon:"st.motion.motion.inactive", backgroundColor:"#ffffff"
}
}
valueTile("temperature", "device.temperature", width: 2, height: 2) {
state("temperature", label:'${currentValue}°', unit:"F",
backgroundColors:[
[value: 31, color: "#153591"],
[value: 44, color: "#1e9cbb"],
[value: 59, color: "#90d2a7"],
[value: 74, color: "#44b621"],
[value: 84, color: "#f1d801"],
[value: 95, color: "#d04e00"],
[value: 96, color: "#bc2323"]
]
)
}
valueTile("battery", "device.battery", decoration: "flat", inactiveLabel: false, width: 2, height: 2) {
state "battery", label:'${currentValue}% battery', unit:""
}
standardTile("refresh", "device.refresh", inactiveLabel: false, decoration: "flat", width: 2, height: 2) {
state "default", action:"refresh.refresh", icon:"st.secondary.refresh"
}
main(["motion", "temperature"])
details(["motion", "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 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 0x0406:
log.debug 'motion'
resultMap.name = 'motion'
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 Map 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 = [:]
if (descMap.cluster == "0402" && descMap.attrId == "0000") {
def value = getTemperature(descMap.value)
resultMap = getTemperatureResult(value)
}
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)
}
return resultMap
}
private Map parseCustomMessage(String description) {
Map resultMap = [:]
if (description?.startsWith('temperature: ')) {
def value = zigbee.parseHATemperatureValue(description, "temperature: ", getTemperatureScale())
resultMap = getTemperatureResult(value)
}
return resultMap
}
private Map parseIasMessage(String description) {
List parsedMsg = description.split(' ')
String msgCode = parsedMsg[2]
Map resultMap = [:]
switch(msgCode) {
case '0x0020': // Closed/No Motion/Dry
resultMap = getMotionResult('inactive')
break
case '0x0021': // Open/Motion/Wet
resultMap = getMotionResult('active')
break
case '0x0022': // Tamper Alarm
log.debug 'motion with tamper alarm'
resultMap = getMotionResult('active')
break
case '0x0023': // Battery Alarm
break
case '0x0024': // Supervision Report
log.debug 'no motion with tamper alarm'
resultMap = getMotionResult('inactive')
break
case '0x0025': // Restore Report
break
case '0x0026': // Trouble/Failure
log.debug 'motion with failure alarm'
resultMap = getMotionResult('active')
break
case '0x0028': // Test Mode
break
}
return resultMap
}
def getTemperature(value) {
def celsius = Integer.parseInt(value, 16).shortValue() / 100
if(getTemperatureScale() == "C"){
return celsius
} else {
return celsiusToFahrenheit(celsius) as Integer
}
}
private Map getBatteryResult(rawValue) {
log.debug 'Battery'
def linkText = getLinkText(device)
log.debug rawValue
def result = [
name: 'battery',
value: '--'
]
def volts = rawValue / 10
def descriptionText
if (rawValue == 0) {}
else {
if (volts > 3.5) {
result.descriptionText = "${linkText} battery has too much power (${volts} volts)."
}
else if (volts > 0){
def minVolts = 2.1
def maxVolts = 3.0
def pct = (volts - minVolts) / (maxVolts - minVolts)
result.value = Math.min(100, (int) pct * 100)
result.descriptionText = "${linkText} battery was ${result.value}%"
}
}
return result
}
private Map getTemperatureResult(value) {
log.debug 'TEMP'
def linkText = getLinkText(device)
if (tempOffset) {
def offset = tempOffset as int
def v = value as int
value = v + offset
}
def descriptionText = "${linkText} was ${value}°${temperatureScale}"
return [
name: 'temperature',
value: value,
descriptionText: descriptionText
]
}
private Map getMotionResult(value) {
log.debug 'motion'
String linkText = getLinkText(device)
String descriptionText = value == 'active' ? "${linkText} detected motion" : "${linkText} motion has stopped"
return [
name: 'motion',
value: value,
descriptionText: descriptionText
]
}
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"
]
return refreshCmds + enrollResponse()
}
def configure() {
String zigbeeEui = swapEndianHex(device.hub.zigbeeEui)
log.debug "Configuring Reporting, IAS CIE, and Bindings."
def configCmds = [
"zcl global write 0x500 0x10 0xf0 {${zigbeeEui}}", "delay 200",
"send 0x${device.deviceNetworkId} 1 ${endpointId}", "delay 500",
"zdo bind 0x${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 ${endpointId}", "delay 500"
]
return configCmds + refresh() // send refresh cmds as part of config
}
def enrollResponse() {
log.debug "Sending enroll response"
String zigbeeEui = swapEndianHex(device.hub.zigbeeEui)
[
//Resending the CIE in case the enroll request is sent before CIE is written
"zcl global write 0x500 0x10 0xf0 {${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"
]
}
private getEndpointId() {
new BigInteger(device.endpointId, 16).toString()
}
private hex(value) {
new BigInteger(Math.round(value).toString()).toString(16)
}
private String swapEndianHex(String hex) {
reverseArray(hex.decodeHex()).encodeHex()
}
private byte[] reverseArray(byte[] array) {
int i = 0;
int j = array.length - 1;
byte tmp;
while (j > i) {
tmp = array[j];
array[j] = array[i];
array[i] = tmp;
j--;
i++;
}
return array
}

49
devicetypes/smartthings/smartsense-motion.src/smartsense-motion.groovy
View File

@@ -44,8 +44,8 @@ metadata {
}
def parse(String description) {
def results = [:]
if (description.startsWith("zone") || !isSupportedDescription(description)) {
def results
if (isZoneType19(description) || !isSupportedDescription(description)) {
results = parseBasicMessage(description)
}
else if (isMotionStatusMessage(description)){
@@ -57,24 +57,21 @@ def parse(String description) {
private Map parseBasicMessage(description) {
def name = parseName(description)
def results = [:]
if (name != null) {
def value = parseValue(description)
def linkText = getLinkText(device)
def descriptionText = parseDescriptionText(linkText, value, description)
def handlerName = value
def isStateChange = isStateChange(device, name, value)
def value = parseValue(description)
def linkText = getLinkText(device)
def descriptionText = parseDescriptionText(linkText, value, description)
def handlerName = value
def isStateChange = isStateChange(device, name, value)
results = [
name : name,
value : value,
linkText : linkText,
descriptionText: descriptionText,
handlerName : handlerName,
isStateChange : isStateChange,
displayed : displayed(description, isStateChange)
]
}
def results = [
name: name,
value: value,
linkText: linkText,
descriptionText: descriptionText,
handlerName: handlerName,
isStateChange: isStateChange,
displayed: displayed(description, isStateChange)
]
log.debug "Parse returned $results.descriptionText"
return results
}
@@ -87,12 +84,16 @@ private String parseName(String description) {
}
private String parseValue(String description) {
def zs = zigbee.parseZoneStatus(description)
if (zs) {
zs.isAlarm1Set() ? "active" : "inactive"
} else {
description
if (isZoneType19(description)) {
if (translateStatusZoneType19(description)) {
return "active"
}
else {
return "inactive"
}
}
description
}
private parseDescriptionText(String linkText, String value, String description) {

2
devicetypes/smartthings/smartsense-multi-sensor.src/.st-ignore
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@@ -1,2 +0,0 @@
.st-ignore
README.md

46
devicetypes/smartthings/smartsense-multi-sensor.src/README.md
View File

@@ -1,46 +0,0 @@
# Smartsense Multi Sensor
Local Execution on V2 Hubs
Works with:
* [Samsung SmartThings Multi Sensor](https://shop.smartthings.com/#!/products/smartsense-multi)
## Table of contents
* [Capabilities](#capabilities)
* [Health](#device-health)
* [Battery](#battery-specification)
## Capabilities
* **Three Axis** - monitors the state of a single axis
* **Configuration** - _configure()_ command called when device is installed or device preferences updated
* **Battery** - defines device uses a battery
* **Sensor** - detects sensor events
* **Contact Sensor** - can detect contact (possible values: open,closed)
* **Acceleration Sensor** - allows for acceleration detection.
* **Refresh** - _refresh()_ command for status updates
* **Temperature Measurement** - defines device measures current temperature
* **Health Check** - indicates ability to get device health notifications
## Device Health
SmartSense Multi sensor with reporting interval of 5 mins.
SmartThings platform will ping the device after `checkInterval` seconds of inactivity in last attempt to reach the device before marking it `OFFLINE`
* V1, TV, HubV2 AppEngine < 1.5.1 - __121min__ checkInterval
* HubV2 AppEngine 1.5.1 - __12min__ checkInterval
## Battery Specification
One CR2450 (for Samsung SmartThings Multipurpose Sensor) battery / Two AAAA (for SmartSense Multi Sensor) batteries required.
## Troubleshooting
If the sensor doesn't pair when trying from the SmartThings mobile app, it is possible that the sensor is out of range.
Pairing needs to be tried again by placing the sensor closer to the hub.
Other troubleshooting tips are listed as follows:
* [Troubleshooting: Samsung SmartThings Multipurpose Sensor is stuck on "open" or "closed"](https://support.smartthings.com/hc/en-us/articles/200955940-Troubleshooting-Samsung-SmartThings-Multipurpose-Sensor-is-stuck-on-open-or-closed-)
* [Troubleshooting: Temperature reading for the Samsung SmartThings Multipurpose Sensor is off](https://support.smartthings.com/hc/en-us/articles/200756845-Troubleshooting-Temperature-reading-for-the-Samsung-SmartThings-Multipurpose-Sensor-is-off)
* [Troubleshooting: Samsung SmartThings Multipurpose Sensor wont pair after removing pull-tab](https://support.smartthings.com/hc/en-us/articles/204966616-Troubleshooting-Samsung-SmartThings-device-won-t-pair-after-removing-pull-tab)

41
devicetypes/smartthings/smartsense-multi-sensor.src/i18n/messages.properties
View File

@@ -1,41 +0,0 @@
# Copyright 2016 SmartThings
#
# Licensed under the Apache License, Version 2.0 (the "License"); you may not
# use this file except in compliance with the License. You may obtain a copy
# of the License at:
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
# WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
# License for the specific language governing permissions and limitations
# under the License.
# Korean (ko)
# Device Preferences
'''Yes'''.ko=
'''No'''.ko=아니요
'''battery'''.ko=배터리
'''Temperature Offset'''.ko=온도 직접 설정
'''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'.'''.ko=기준 온도를 원하는대로 몇 도 올리거나 내려서 설정할 수 있습니다.
'''Degrees'''.ko=온도
'''Adjust temperature by this many degrees'''.ko=몇 도씩 온도를 조절하십시오
'''Do you want to use this sensor on a garage door?'''.ko=차고 문의 센서 사용 설정하기
'''Tap to set'''.ko=눌러서 설정
'''Give your device a name'''.ko=기기 이름 설정
'''Multipurpose Sensor'''.ko=문 및 창 센서
# Events descriptionText
'''{{ device.displayName }} was opened'''.ko={{ device.displayName }}에서 열림이 감지되었습니다.
'''{{ device.displayName }} was closed'''.ko={{ device.displayName }}에서 닫힘이 감지되었습니다.
'''{{ device.displayName }} was active'''.ko={{ device.displayName }} 활성화
'''{{ device.displayName }} was inactive'''.ko={{ device.displayName }} 비활성화
'''{{ device.displayName }} was {{ value }}°C'''.ko={{ device.displayName }}에서 {{ value }}°C 감지
'''{{ device.displayName }} was {{ value }}°F'''.ko={{ device.displayName }}이(가) {{ value }}°F였습니다
'''{{ device.displayName }} battery was {{ value }}%'''.ko={{ device.displayName }}의 남은 배터리 {{ value }}%
'''Updating device to garage sensor'''.ko=기기-차고 센서 업데이트 중
'''Updating device to open/close sensor'''.ko=기기-열림/닫힘 센서 업데이트 중
'''Inactive'''.ko=비활성 상태
'''Active'''.ko=활성 상태
'''Open'''.ko= 열림이 감지될 때
'''Closed'''.ko=닫힘
'''${currentValue}% battery'''.ko=${currentValue}% 배터리

738
devicetypes/smartthings/smartsense-multi-sensor.src/smartsense-multi-sensor.groovy
View File

@@ -1,44 +1,40 @@
/*
* Copyright 2016 SmartThings
/**
* SmartSense Multi
*
* Licensed under the Apache License, Version 2.0 (the "License"); you may not
* use this file except in compliance with the License. You may obtain a copy
* of the License at:
* Copyright 2015 SmartThings
*
* Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except
* in compliance with the License. You may obtain a copy of the License at:
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
* WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
* License for the specific language governing permissions and limitations
* under the License.
* Unless required by applicable law or agreed to in writing, software distributed under the License is distributed
* on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License
* for the specific language governing permissions and limitations under the License.
*
*/
import physicalgraph.zigbee.clusters.iaszone.ZoneStatus
import physicalgraph.zigbee.zcl.DataType
metadata {
definition(name: "SmartSense Multi Sensor", namespace: "smartthings", author: "SmartThings") {
capability "Three Axis"
metadata {
definition (name: "SmartSense Multi Sensor", namespace: "smartthings", author: "SmartThings") {
capability "Three Axis"
capability "Battery"
capability "Configuration"
capability "Sensor"
capability "Contact Sensor"
capability "Acceleration Sensor"
capability "Refresh"
capability "Temperature Measurement"
capability "Health Check"
command "enrollResponse"
fingerprint inClusters: "0000,0001,0003,0402,0500,0020,0B05,FC02", outClusters: "0019", manufacturer: "CentraLite", model: "3320"
capability "Configuration"
capability "Sensor"
capability "Contact Sensor"
capability "Acceleration Sensor"
capability "Refresh"
capability "Temperature Measurement"
command "enrollResponse"
fingerprint inClusters: "0000,0001,0003,0402,0500,0020,0B05,FC02", outClusters: "0019", manufacturer: "CentraLite", model: "3320"
fingerprint inClusters: "0000,0001,0003,0402,0500,0020,0B05,FC02", outClusters: "0019", manufacturer: "CentraLite", model: "3321"
fingerprint inClusters: "0000,0001,0003,0402,0500,0020,0B05,FC02", outClusters: "0019", manufacturer: "CentraLite", model: "3321-S", deviceJoinName: "Multipurpose Sensor"
fingerprint inClusters: "0000,0001,0003,000F,0020,0402,0500,FC02", outClusters: "0019", manufacturer: "SmartThings", model: "multiv4", deviceJoinName: "Multipurpose Sensor"
fingerprint inClusters: "0000,0001,0003,0402,0500,0020,0B05,FC02", outClusters: "0019", manufacturer: "CentraLite", model: "3321-S", deviceJoinName: "Multipurpose Sensor"
attribute "status", "string"
}
}
simulator {
simulator {
status "open": "zone report :: type: 19 value: 0031"
status "closed": "zone report :: type: 19 value: 0030"
@@ -55,299 +51,220 @@ metadata {
status "x,y,z: 0,1000,0": "x: 0, y: 1000, z: 0"
status "x,y,z: 0,0,1000": "x: 0, y: 0, z: 1000"
}
preferences {
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"
])
"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
}
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)
input("garageSensor", "enum", title: "Do you want to use this sensor on a garage door?", options: ["Yes", "No"], defaultValue: "No", required: false, displayDuringSetup: false)
}
}
}
tiles(scale: 2) {
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"
multiAttributeTile(name:"status", type: "generic", width: 6, height: 4){
tileAttribute ("device.status", 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"
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("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")
state("open", label:'${name}', icon:"st.contact.contact.open", backgroundColor:"#ffa81e")
state("closed", label:'${name}', icon:"st.contact.contact.closed", backgroundColor:"#79b821")
}
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")
state("active", label:'${name}', icon:"st.motion.acceleration.active", backgroundColor:"#53a7c0")
state("inactive", label:'${name}', icon:"st.motion.acceleration.inactive", backgroundColor:"#ffffff")
}
valueTile("temperature", "device.temperature", width: 2, height: 2) {
state("temperature", label: '${currentValue}°',
backgroundColors: [
[value: 31, color: "#153591"],
[value: 44, color: "#1e9cbb"],
[value: 59, color: "#90d2a7"],
[value: 74, color: "#44b621"],
[value: 84, color: "#f1d801"],
[value: 95, color: "#d04e00"],
[value: 96, color: "#bc2323"]
]
state("temperature", label:'${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("3axis", "device.threeAxis", decoration: "flat", wordWrap: false, width: 2, height: 2) {
state("threeAxis", label:'${currentValue}', unit:"", backgroundColor:"#ffffff")
}
valueTile("battery", "device.battery", decoration: "flat", inactiveLabel: false, width: 2, height: 2) {
state "battery", label: '${currentValue}% battery', unit: ""
}
standardTile("refresh", "device.refresh", inactiveLabel: false, decoration: "flat", width: 2, height: 2) {
state "default", action: "refresh.refresh", icon: "st.secondary.refresh"
state "battery", label:'${currentValue}% battery', unit:""
}
standardTile("refresh", "device.refresh", inactiveLabel: false, decoration: "flat", width: 2, height: 2) {
state "default", action:"refresh.refresh", icon:"st.secondary.refresh"
}
main(["status", "acceleration", "temperature"])
details(["status", "acceleration", "temperature", "battery", "refresh"])
details(["status", "acceleration", "temperature", "3axis", "battery", "refresh"])
}
}
}
def parse(String description) {
def maps = []
maps << zigbee.getEvent(description)
if (!maps[0]) {
maps = []
if (description?.startsWith('zone status')) {
maps += parseIasMessage(description)
} else {
Map descMap = zigbee.parseDescriptionAsMap(description)
if (descMap?.clusterInt == 0x0001 && descMap.commandInt != 0x07 && descMap?.value) {
maps << getBatteryResult(Integer.parseInt(descMap.value, 16))
} else if (descMap?.clusterInt == zigbee.TEMPERATURE_MEASUREMENT_CLUSTER && descMap.commandInt == 0x07) {
if (descMap.data[0] == "00") {
log.debug "TEMP REPORTING CONFIG RESPONSE: $descMap"
sendEvent(name: "checkInterval", value: 60 * 12, displayed: false, data: [protocol: "zigbee", hubHardwareId: device.hub.hardwareID])
} else {
log.warn "TEMP REPORTING CONFIG FAILED- error code: ${descMap.data[0]}"
}
} else {
maps += handleAcceleration(descMap)
}
}
} else if (maps[0].name == "temperature") {
def map = maps[0]
if (tempOffset) {
map.value = (int) map.value + (int) tempOffset
}
map.descriptionText = temperatureScale == 'C' ? '{{ device.displayName }} was {{ value }}°C' : '{{ device.displayName }} was {{ value }}°F'
map.translatable = true
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 = maps.inject([]) {acc, it ->
if (it) {
acc << createEvent(it)
}
}
def result = map ? createEvent(map) : null
if (description?.startsWith('enroll request')) {
List cmds = zigbee.enrollResponse()
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 List<Map> handleAcceleration(descMap) {
def result = []
if (descMap.clusterInt == 0xFC02 && descMap.attrInt == 0x0010) {
def value = descMap.value == "01" ? "active" : "inactive"
log.debug "Acceleration $value"
result << [
name : "acceleration",
value : value,
descriptionText: "{{ device.displayName }} was $value",
isStateChange : isStateChange(device, "acceleration", value),
translatable : true
]
private Map parseCatchAllMessage(String description) {
Map resultMap = [:]
def cluster = zigbee.parse(description)
log.debug cluster
if (shouldProcessMessage(cluster)) {
switch(cluster.clusterId) {
case 0x0001:
resultMap = getBatteryResult(cluster.data.last())
break
if (descMap.additionalAttrs) {
result += parseAxis(descMap.additionalAttrs)
case 0xFC02:
log.debug 'ACCELERATION'
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 List parseReportAttributeMessage(String description) {
Map descMap = (description - "read attr - ").split(",").inject([:]) { map, param ->
def nameAndValue = param.split(":")
map += [(nameAndValue[0].trim()):nameAndValue[1].trim()]
}
List result = []
if (descMap.cluster == "0402" && descMap.attrId == "0000") {
def value = getTemperature(descMap.value)
result << getTemperatureResult(value)
}
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]
}
} else if (descMap.clusterInt == 0xFC02 && descMap.attrInt == 0x0012) {
def addAttrs = descMap.additionalAttrs
addAttrs << ["attrInt": descMap.attrInt, "value": descMap.value]
result += parseAxis(addAttrs)
result << getAccelerationResult(descMap.value)
}
return result
}
private List<Map> parseAxis(List<Map> attrData) {
def results = []
def x = hexToSignedInt(attrData.find { it.attrInt == 0x0012 }?.value)
def y = hexToSignedInt(attrData.find { it.attrInt == 0x0013 }?.value)
def z = hexToSignedInt(attrData.find { it.attrInt == 0x0014 }?.value)
def xyzResults = [:]
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
else if (descMap.cluster == "FC02" && descMap.attrId == "0012") {
result << parseAxis(descMap.value)
}
log.debug "parseAxis -- ${xyzResults}"
if (garageSensor == "Yes")
results += garageEvent(xyzResults.z)
def value = "${xyzResults.x},${xyzResults.y},${xyzResults.z}"
results << [
name : "threeAxis",
value : value,
linkText : getLinkText(device),
descriptionText: "${getLinkText(device)} was ${value}",
handlerName : name,
isStateChange : isStateChange(device, "threeAxis", value),
displayed : false
]
results
}
private List<Map> parseIasMessage(String description) {
ZoneStatus zs = zigbee.parseZoneStatus(description)
List<Map> results = []
if (garageSensor != "Yes") {
def value = zs.isAlarm1Set() ? 'open' : 'closed'
log.debug "Contact: ${device.displayName} value = ${value}"
def descriptionText = value == 'open' ? '{{ device.displayName }} was opened' : '{{ device.displayName }} was closed'
results << [name: 'contact', value: value, descriptionText: descriptionText, displayed: false, translatable: true]
results << [name: 'status', value: value, descriptionText: descriptionText, translatable: true]
}
return results
}
private Map getBatteryResult(rawValue) {
log.debug "Battery rawValue = ${rawValue}"
def result = [:]
def volts = rawValue / 10
if (!(rawValue == 0 || rawValue == 255)) {
result.name = 'battery'
result.translatable = true
result.descriptionText = "{{ device.displayName }} battery was {{ 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
if (volts < minVolts)
volts = minVolts
else if (volts > maxVolts)
volts = maxVolts
def pct = batteryMap[volts]
result.value = pct
} 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)
}
else if (descMap.cluster == "0001" && descMap.attrId == "0020") {
result << getBatteryResult(Integer.parseInt(descMap.value, 16))
}
return result
}
List<Map> garageEvent(zValue) {
List<Map> results = []
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'
private Map parseCustomMessage(String description) {
Map resultMap = [:]
if (description?.startsWith('temperature: ')) {
def value = zigbee.parseHATemperatureValue(description, "temperature: ", getTemperatureScale())
resultMap = getTemperatureResult(value)
}
if (contactValue != null) {
def descriptionText = contactValue == 'open' ? '{{ device.displayName }} was opened' : '{{ device.displayName }} was closed'
results << [name: 'contact', value: contactValue, descriptionText: descriptionText, displayed: false, translatable: true]
results << [name: 'status', value: garageValue, descriptionText: descriptionText, translatable: true]
}
results
return resultMap
}
/**
* PING is used by Device-Watch in attempt to reach the Device
* */
def ping() {
return zigbee.readAttribute(0x001, 0x0020) // Read the Battery Level
}
private Map parseIasMessage(String description) {
List parsedMsg = description.split(' ')
String msgCode = parsedMsg[2]
def refresh() {
log.debug "Refreshing Values "
Map resultMap = [:]
switch(msgCode) {
case '0x0020': // Closed/No Motion/Dry
if (garageSensor != "Yes"){
resultMap = getContactResult('closed')
}
break
def refreshCmds = zigbee.readAttribute(zigbee.TEMPERATURE_MEASUREMENT_CLUSTER, 0x0000) +
zigbee.readAttribute(zigbee.POWER_CONFIGURATION_CLUSTER, 0x0020) +
zigbee.readAttribute(0xFC02, 0x0010, [mfgCode: manufacturerCode]) +
zigbee.enrollResponse()
case '0x0021': // Open/Motion/Wet
if (garageSensor != "Yes"){
resultMap = getContactResult('open')
}
break
return refreshCmds
}
case '0x0022': // Tamper Alarm
break
def configure() {
// Device-Watch allows 2 check-in misses from device + ping (plus 1 min lag time)
// enrolls with default periodic reporting until newer 5 min interval is confirmed
sendEvent(name: "checkInterval", value: 2 * 60 * 60 + 1 * 60, displayed: false, data: [protocol: "zigbee", hubHardwareId: device.hub.hardwareID])
case '0x0023': // Battery Alarm
break
log.debug "Configuring Reporting"
def configCmds = []
case '0x0024': // Supervision Report
if (garageSensor != "Yes"){
resultMap = getContactResult('closed')
}
break
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.
*/
configCmds += zigbee.writeAttribute(0xFC02, 0x0000, 0x20, 0x01, [mfgCode: manufacturerCode])
configCmds += zigbee.writeAttribute(0xFC02, 0x0002, 0x21, 0x0276, [mfgCode: manufacturerCode])
} else {
// Write a motion threshold of 2 * .063g = .126g
// Currently due to a Centralite firmware issue, this will cause a read attribute response that
// indicates acceleration even when there isn't.
configCmds += zigbee.writeAttribute(0xFC02, 0x0000, 0x20, 0x02, [mfgCode: manufacturerCode])
}
case '0x0025': // Restore Report
if (garageSensor != "Yes"){
resultMap = getContactResult('open')
}
break
// temperature minReportTime 30 seconds, maxReportTime 5 min. Reporting interval if no activity
// battery minReport 30 seconds, maxReportTime 6 hrs by default
configCmds += zigbee.batteryConfig() +
zigbee.temperatureConfig(30, 300) +
zigbee.configureReporting(0xFC02, 0x0010, DataType.BITMAP8, 10, 3600, 0x01, [mfgCode: manufacturerCode]) +
zigbee.configureReporting(0xFC02, 0x0012, DataType.INT16, 1, 3600, 0x0001, [mfgCode: manufacturerCode]) +
zigbee.configureReporting(0xFC02, 0x0013, DataType.INT16, 1, 3600, 0x0001, [mfgCode: manufacturerCode]) +
zigbee.configureReporting(0xFC02, 0x0014, DataType.INT16, 1, 3600, 0x0001, [mfgCode: manufacturerCode])
case '0x0026': // Trouble/Failure
break
return refresh() + configCmds
case '0x0028': // Test Mode
break
}
return resultMap
}
def updated() {
@@ -356,33 +273,286 @@ def updated() {
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)
sendEvent(name: 'status', value: 'garage-open', descriptionText: descriptionText)
}
} else {
else if (device.latestValue("status") == "closed") {
sendEvent(name: 'status', value: 'garage-closed', descriptionText: descriptionText)
}
}
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)
sendEvent(name: 'status', value: 'open', descriptionText: descriptionText)
}
else if (device.latestValue("status") == "garage-closed") {
sendEvent(name: 'status', value: 'closed', descriptionText: descriptionText)
}
}
}
private hexToSignedInt(hexVal) {
def unsignedVal = hexToInt(hexVal)
unsignedVal > 32767 ? unsignedVal - 65536 : unsignedVal
def getTemperature(value) {
def celsius = Integer.parseInt(value, 16).shortValue() / 100
if(getTemperatureScale() == "C"){
return celsius
} else {
return celsiusToFahrenheit(celsius) as Integer
}
}
private Map getBatteryResult(rawValue) {
log.debug "Battery"
log.debug rawValue
def linkText = getLinkText(device)
def result = [
name: 'battery',
value: '--'
]
def volts = rawValue / 10
def descriptionText
if (rawValue == 255) {}
else {
if (volts > 3.5) {
result.descriptionText = "${linkText} battery has too much power (${volts} volts)."
}
else {
def minVolts = 2.1
def maxVolts = 3.0
def pct = (volts - minVolts) / (maxVolts - minVolts)
result.value = Math.min(100, (int) pct * 100)
result.descriptionText = "${linkText} battery was ${result.value}%"
}}
return result
}
private Map getTemperatureResult(value) {
log.debug "Temperature"
def linkText = getLinkText(device)
if (tempOffset) {
def offset = tempOffset as int
def v = value as int
value = v + offset
}
def descriptionText = "${linkText} was ${value}°${temperatureScale}"
return [
name: 'temperature',
value: value,
descriptionText: descriptionText
]
}
private Map getContactResult(value) {
log.debug "Contact"
def linkText = getLinkText(device)
def descriptionText = "${linkText} was ${value == 'open' ? 'opened' : 'closed'}"
sendEvent(name: 'contact', value: value, descriptionText: descriptionText, displayed:false)
sendEvent(name: 'status', value: value, descriptionText: descriptionText)
}
private getAccelerationResult(numValue) {
log.debug "Acceleration"
def name = "acceleration"
def value = numValue.endsWith("1") ? "active" : "inactive"
def linkText = getLinkText(device)
def descriptionText = "$linkText was $value"
def isStateChange = isStateChange(device, name, value)
[
name: name,
value: value,
descriptionText: descriptionText,
isStateChange: isStateChange
]
}
def refresh() {
log.debug "Refreshing Values "
def refreshCmds = [
/* sensitivity - default value (8) */
"zcl mfg-code 0x104E", "delay 200",
"zcl global write 0xFC02 0 0x20 {02}", "delay 200",
"send 0x${device.deviceNetworkId} 1 1", "delay 400",
"st rattr 0x${device.deviceNetworkId} 1 0x402 0", "delay 200",
"st rattr 0x${device.deviceNetworkId} 1 1 0x20", "delay 200",
"zcl mfg-code 0x104E", "delay 200",
"zcl global read 0xFC02 0x0010",
"send 0x${device.deviceNetworkId} 1 1","delay 400",
"zcl mfg-code 0x104E", "delay 200",
"zcl global read 0xFC02 0x0012",
"send 0x${device.deviceNetworkId} 1 1","delay 400",
"zcl mfg-code 0x104E", "delay 200",
"zcl global read 0xFC02 0x0013",
"send 0x${device.deviceNetworkId} 1 1","delay 400",
"zcl mfg-code 0x104E", "delay 200",
"zcl global read 0xFC02 0x0014",
"send 0x${device.deviceNetworkId} 1 1", "delay 400"
]
return refreshCmds + enrollResponse()
}
def configure() {
String zigbeeEui = swapEndianHex(device.hub.zigbeeEui)
log.debug "Configuring Reporting"
def configCmds = [
"zcl global write 0x500 0x10 0xf0 {${zigbeeEui}}", "delay 200",
"send 0x${device.deviceNetworkId} 1 ${endpointId}", "delay 500",
"zdo bind 0x${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 ${endpointId}", "delay 500",
"zdo bind 0x${device.deviceNetworkId} ${endpointId} 1 0xFC02 {${device.zigbeeId}} {}", "delay 200",
"zcl mfg-code 0x104E",
"zcl global send-me-a-report 0xFC02 0x0010 0x18 10 3600 {01}",
"send 0x${device.deviceNetworkId} 1 ${endpointId}", "delay 500",
"zcl mfg-code 0x104E",
"zcl global send-me-a-report 0xFC02 0x0012 0x29 1 3600 {01}",
"send 0x${device.deviceNetworkId} 1 ${endpointId}", "delay 500",
"zcl mfg-code 0x104E",
"zcl global send-me-a-report 0xFC02 0x0013 0x29 1 3600 {01}",
"send 0x${device.deviceNetworkId} 1 ${endpointId}", "delay 500",
"zcl mfg-code 0x104E",
"zcl global send-me-a-report 0xFC02 0x0014 0x29 1 3600 {01}",
"send 0x${device.deviceNetworkId} 1 ${endpointId}", "delay 500"
]
return configCmds + refresh()
}
private getManufacturerCode() {
if (device.getDataValue("manufacturer") == "SmartThings") {
return "0x110A"
} else {
return "0x104E"
private getEndpointId() {
new BigInteger(device.endpointId, 16).toString()
}
def enrollResponse() {
log.debug "Sending enroll response"
String zigbeeEui = swapEndianHex(device.hub.zigbeeEui)
[
//Resending the CIE in case the enroll request is sent before CIE is written
"zcl global write 0x500 0x10 0xf0 {${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"
]
}
private Map parseAxis(String description) {
log.debug "parseAxis"
def xyzResults = [x: 0, y: 0, z: 0]
def parts = description.split("2900")
parts[0] = "12" + parts[0]
parts.each { part ->
part = part.trim()
if (part.startsWith("12")) {
def unsignedX = hexToInt(part.split("12")[1].trim())
def signedX = unsignedX > 32767 ? unsignedX - 65536 : unsignedX
xyzResults.x = signedX
log.debug "X Part: ${signedX}"
}
else if (part.startsWith("13")) {
def unsignedY = hexToInt(part.split("13")[1].trim())
def signedY = unsignedY > 32767 ? unsignedY - 65536 : unsignedY
xyzResults.y = signedY
log.debug "Y Part: ${signedY}"
}
else if (part.startsWith("14")) {
def unsignedZ = hexToInt(part.split("14")[1].trim())
def signedZ = unsignedZ > 32767 ? unsignedZ - 65536 : unsignedZ
xyzResults.z = signedZ
log.debug "Z Part: ${signedZ}"
if (garageSensor == "Yes")
garageEvent(signedZ)
}
}
getXyzResult(xyzResults, description)
}
def garageEvent(zValue) {
def absValue = zValue.abs()
def contactValue = null
def garageValue = null
if (absValue>900) {
contactValue = 'closed'
garageValue = 'garage-closed'
}
else if (absValue < 100) {
contactValue = 'open'
garageValue = 'garage-open'
}
if (contactValue != null){
def linkText = getLinkText(device)
def descriptionText = "${linkText} was ${contactValue == 'open' ? 'opened' : 'closed'}"
sendEvent(name: 'contact', value: contactValue, descriptionText: descriptionText, displayed:false)
sendEvent(name: 'status', value: garageValue, descriptionText: descriptionText)
}
}
private Map getXyzResult(results, description) {
def name = "threeAxis"
def value = "${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 hexToInt(value) {
new BigInteger(value, 16)
}
private hex(value) {
new BigInteger(Math.round(value).toString()).toString(16)
}
private String swapEndianHex(String hex) {
reverseArray(hex.decodeHex()).encodeHex()
}
private byte[] reverseArray(byte[] array) {
int i = 0;
int j = array.length - 1;
byte tmp;
while (j > i) {
tmp = array[j];
array[j] = array[i];
array[i] = tmp;
j--;
i++;
}
return array
}

88
devicetypes/smartthings/smartsense-multi.src/smartsense-multi.groovy
View File

@@ -22,8 +22,6 @@ metadata {
capability "Battery"
fingerprint profileId: "FC01", deviceId: "0139"
attribute "status", "string"
}
simulator {
@@ -74,19 +72,22 @@ metadata {
]
)
}
valueTile("3axis", "device.threeAxis", decoration: "flat", wordWrap: false, width: 2, height: 2) {
state("threeAxis", label:'${currentValue}', unit:"", backgroundColor:"#ffffff")
}
valueTile("battery", "device.battery", decoration: "flat", inactiveLabel: false, width: 2, height: 2) {
state "battery", label:'${currentValue}% battery', unit:""
}
main(["contact", "acceleration", "temperature"])
details(["contact", "acceleration", "temperature", "battery"])
details(["contact", "acceleration", "temperature", "3axis", "battery"])
}
}
def parse(String description) {
def results
if (!isSupportedDescription(description) || description.startsWith("zone")) {
if (!isSupportedDescription(description) || zigbee.isZoneType19(description)) {
results = parseSingleMessage(description)
}
else if (description == 'updated') {
@@ -101,7 +102,7 @@ def parse(String description) {
}
private List parseSingleMessage(description) {
private Map parseSingleMessage(description) {
def name = parseName(description)
def value = parseValue(description)
@@ -110,9 +111,8 @@ private List parseSingleMessage(description) {
def handlerName = value == 'open' ? 'opened' : value
def isStateChange = isStateChange(device, name, value)
def results = []
results << createEvent(
name: "contact",
def results = [
name: name,
value: value,
unit: null,
linkText: linkText,
@@ -120,18 +120,8 @@ private List parseSingleMessage(description) {
handlerName: handlerName,
isStateChange: isStateChange,
displayed: displayed(description, isStateChange)
)
results << createEvent(
name: "status",
value: value,
unit: null,
linkText: linkText,
descriptionText: descriptionText,
handlerName: handlerName,
isStateChange: isStateChange,
displayed: displayed(description, isStateChange)
)
]
log.debug "Parse results for $device: $results"
results
}
@@ -203,7 +193,7 @@ private List parseContactMessage(String description) {
parts.each { part ->
part = part.trim()
if (part.startsWith('contactState:')) {
results.addAll(getContactResult(part, description))
results << getContactResult(part, description)
}
else if (part.startsWith('accelerationState:')) {
results << getAccelerationResult(part, description)
@@ -282,7 +272,7 @@ private List parseRssiLqiMessage(String description) {
results
}
private List getContactResult(part, description) {
private getContactResult(part, description) {
def name = "contact"
def value = part.endsWith("1") ? "open" : "closed"
def handlerName = value == 'open' ? 'opened' : value
@@ -290,33 +280,19 @@ private List getContactResult(part, description) {
def descriptionText = "$linkText was $handlerName"
def isStateChange = isStateChange(device, name, value)
def results = []
results << createEvent(
name: "contact",
value: value,
unit: null,
linkText: linkText,
descriptionText: descriptionText,
handlerName: handlerName,
isStateChange: isStateChange,
displayed:false
)
results << createEvent(
name: "status",
value: value,
unit: null,
linkText: linkText,
descriptionText: descriptionText,
handlerName: handlerName,
isStateChange: isStateChange,
displayed: displayed(description, isStateChange)
)
results
[
name: name,
value: value,
unit: null,
linkText: linkText,
descriptionText: descriptionText,
handlerName: handlerName,
isStateChange: isStateChange,
displayed: displayed(description, isStateChange)
]
}
private Map getAccelerationResult(part, description) {
private getAccelerationResult(part, description) {
def name = "acceleration"
def value = part.endsWith("1") ? "active" : "inactive"
def linkText = getLinkText(device)
@@ -335,7 +311,7 @@ private Map getAccelerationResult(part, description) {
]
}
private Map getTempResult(part, description) {
private getTempResult(part, description) {
def name = "temperature"
def temperatureScale = getTemperatureScale()
def value = zigbee.parseSmartThingsTemperatureValue(part, "temp: ", temperatureScale)
@@ -360,7 +336,7 @@ private Map getTempResult(part, description) {
]
}
private Map getXyzResult(results, description) {
private getXyzResult(results, description) {
def name = "threeAxis"
def value = "${results.x},${results.y},${results.z}"
def linkText = getLinkText(device)
@@ -379,7 +355,7 @@ private Map getXyzResult(results, description) {
]
}
private Map getBatteryResult(part, description) {
private getBatteryResult(part, description) {
def batteryDivisor = description.split(",").find {it.split(":")[0].trim() == "batteryDivisor"} ? description.split(",").find {it.split(":")[0].trim() == "batteryDivisor"}.split(":")[1].trim() : null
def name = "battery"
def value = zigbee.parseSmartThingsBatteryValue(part, batteryDivisor)
@@ -400,7 +376,7 @@ private Map getBatteryResult(part, description) {
]
}
private Map getRssiResult(part, description, lastHop=false) {
private getRssiResult(part, description, lastHop=false) {
def name = lastHop ? "lastHopRssi" : "rssi"
def valueString = part.split(":")[1].trim()
def value = (Integer.parseInt(valueString) - 128).toString()
@@ -431,7 +407,7 @@ private Map getRssiResult(part, description, lastHop=false) {
* Note: To make the signal strength indicator more accurate, we could combine
* LQI with RSSI.
*/
private Map getLqiResult(part, description, lastHop=false) {
private getLqiResult(part, description, lastHop=false) {
def name = lastHop ? "lastHopLqi" : "lqi"
def valueString = part.split(":")[1].trim()
def percentageOf = 255
@@ -476,7 +452,6 @@ private Boolean isOrientationMessage(String description) {
description ==~ /x:.*y:.*z:.*rssi:.*lqi:.*/
}
//Note: Not using this method anymore
private String parseName(String description) {
if (isSupportedDescription(description)) {
return "contact"
@@ -488,7 +463,12 @@ private String parseValue(String description) {
if (!isSupportedDescription(description)) {
return description
}
return zigbee.parseZoneStatus(description)?.isAlarm1Set() ? "open" : "closed"
else if (zigbee.translateStatusZoneType19(description)) {
return "open"
}
else {
return "closed"
}
}
private parseDescriptionText(String linkText, String value, String description) {

360
devicetypes/smartthings/smartsense-open-closed-accelerometer-sensor.src/smartsense-open-closed-accelerometer-sensor.groovy Normal file
View File

@@ -0,0 +1,360 @@
/**
* SmartSense Open/Closed Accelerometer Sensor
*
* Copyright 2014 SmartThings
*
* Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except
* in compliance with the License. You may obtain a copy of the License at:
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software distributed under the License is distributed
* on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License
* for the specific language governing permissions and limitations under the License.
*
*/
metadata {
definition (name: "SmartSense Open/Closed Accelerometer Sensor", namespace: "smartthings", author: "SmartThings") {
capability "Battery"
capability "Configuration"
capability "Contact Sensor"
capability "Acceleration Sensor"
capability "Refresh"
capability "Temperature Measurement"
command "enrollResponse"
fingerprint inClusters: "0000,0001,0003,0402,0500,0020,0B05,FC02", outClusters: "0019", manufacturer: "CentraLite", model: "3320"
fingerprint inClusters: "0000,0001,0003,0402,0500,0020,0B05,FC02", outClusters: "0019", manufacturer: "CentraLite", model: "3321"
}
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
}
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"
}
}
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")
}
valueTile("temperature", "device.temperature", inactiveLabel: false, width: 2, height: 2) {
state "temperature", label:'${currentValue}°',
backgroundColors:[
[value: 31, color: "#153591"],
[value: 44, color: "#1e9cbb"],
[value: 59, color: "#90d2a7"],
[value: 74, color: "#44b621"],
[value: 84, color: "#f1d801"],
[value: 95, color: "#d04e00"],
[value: 96, color: "#bc2323"]
]
}
valueTile("battery", "device.battery", decoration: "flat", inactiveLabel: false, width: 2, height: 2) {
state "battery", label:'${currentValue}% battery', unit:""
}
standardTile("refresh", "device.refresh", inactiveLabel: false, decoration: "flat", width: 2, height: 2) {
state "default", action:"refresh.refresh", icon:"st.secondary.refresh"
}
main (["contact", "acceleration", "temperature"])
details(["contact", "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))
}
private Map 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: $descMap"
Map resultMap = [:]
if (descMap.cluster == "0402" && descMap.attrId == "0000") {
def value = getTemperature(descMap.value)
resultMap = getTemperatureResult(value)
}
else if (descMap.cluster == "FC02" && descMap.attrId == "0002") {
Integer.parseInt(descMap.value,8)
}
else if (descMap.cluster == "0001" && descMap.attrId == "0020") {
resultMap = getBatteryResult(Integer.parseInt(descMap.value, 16))
}
return resultMap
}
private Map parseCustomMessage(String description) {
Map resultMap = [:]
if (description?.startsWith('temperature: ')) {
def value = zigbee.parseHATemperatureValue(description, "temperature: ", getTemperatureScale())
resultMap = getTemperatureResult(value)
}
return resultMap
}
private Map parseIasMessage(String description) {
List parsedMsg = description.split(' ')
String msgCode = parsedMsg[2]
Map resultMap = [:]
switch(msgCode) {
case '0x0020': // Closed/No Motion/Dry
resultMap = getContactResult('closed')
break
case '0x0021': // Open/Motion/Wet
resultMap = getContactResult('open')
break
case '0x0022': // Tamper Alarm
break
case '0x0023': // Battery Alarm
break
case '0x0024': // Supervision Report
resultMap = getContactResult('closed')
break
case '0x0025': // Restore Report
resultMap = getContactResult('open')
break
case '0x0026': // Trouble/Failure
break
case '0x0028': // Test Mode
break
}
return resultMap
}
def getTemperature(value) {
def celsius = Integer.parseInt(value, 16).shortValue() / 100
if(getTemperatureScale() == "C"){
return celsius
} else {
return celsiusToFahrenheit(celsius) as Integer
}
}
private Map getBatteryResult(rawValue) {
log.debug 'Battery'
def linkText = getLinkText(device)
def result = [
name: 'battery'
]
def volts = rawValue / 10
def descriptionText
if (volts > 3.5) {
result.descriptionText = "${linkText} battery has too much power (${volts} volts)."
}
else {
def minVolts = 2.1
def maxVolts = 3.0
def pct = (volts - minVolts) / (maxVolts - minVolts)
result.value = Math.min(100, (int) pct * 100)
result.descriptionText = "${linkText} battery was ${result.value}%"
}
return result
}
private Map getTemperatureResult(value) {
log.debug 'TEMP'
def linkText = getLinkText(device)
if (tempOffset) {
def offset = tempOffset as int
def v = value as int
value = v + offset
}
def descriptionText = "${linkText} was ${value}°${temperatureScale}"
return [
name: 'temperature',
value: value,
descriptionText: descriptionText
]
}
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 $value"
def isStateChange = isStateChange(device, name, value)
[
name: name,
value: value,
//unit: null,
//linkText: linkText,
descriptionText: descriptionText,
//handlerName: value,
isStateChange: isStateChange
// displayed: displayed(description, isStateChange)
]
}
def refresh() {
log.debug "Refreshing Temperature and Battery "
def refreshCmds = [
"st rattr 0x${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()
}
def configure() {
String zigbeeEui = swapEndianHex(device.hub.zigbeeEui)
log.debug "Configuring Reporting, IAS CIE, and Bindings."
def configCmds = [
"zcl global write 0x500 0x10 0xf0 {${zigbeeEui}}", "delay 200",
"send 0x${device.deviceNetworkId} 1 ${endpointId}", "delay 500",
"zdo bind 0x${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 500",
"zcl global send-me-a-report 0x402 0 0x29 30 3600 {6400}",
"send 0x${device.deviceNetworkId} 1 ${endpointId}", "delay 500",
"zdo bind 0x${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 ${endpointId}", "delay 500"
]
return configCmds + refresh() // send refresh cmds as part of config
}
def enrollResponse() {
log.debug "Sending enroll response"
String zigbeeEui = swapEndianHex(device.hub.zigbeeEui)
[
//Resending the CIE in case the enroll request is sent before CIE is written
"zcl global write 0x500 0x10 0xf0 {${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"
]
}
private getEndpointId() {
new BigInteger(device.endpointId, 16).toString()
}
private hex(value) {
new BigInteger(Math.round(value).toString()).toString(16)
}
private String swapEndianHex(String hex) {
reverseArray(hex.decodeHex()).encodeHex()
}
private byte[] reverseArray(byte[] array) {
int i = 0;
int j = array.length - 1;
byte tmp;
while (j > i) {
tmp = array[j];
array[j] = array[i];
array[i] = tmp;
j--;
i++;
}
return array
}

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.st-ignore
README.md

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devicetypes/smartthings/smartsense-open-closed-sensor.src/README.md
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# Smartsense Open/Closed Sensor
Local Execution on V2 Hubs
Works with:
* [Samsung SmartThings Open/Closed Sensor](https://shop.smartthings.com/#!/packs/smartsense-open-closed-sensor/)
## Table of contents
* [Capabilities](#capabilities)
* [Health](#device-health)
* [Battery](#battery-specification)
## Capabilities
* **Configuration** - _configure()_ command called when device is installed or device preferences updated
* **Battery** - defines device uses a battery
* **Contact Sensor** - can detect contact (possible values: open,closed)
* **Refresh** - _refresh()_ command for status updates
* **Temperature Measurement** - defines device measures current temperature
* **Health Check** - indicates ability to get device health notifications
* **Sensor** - detects sensor events
## Device Health
SmartSense Open Closed sensor with reporting interval of 5 mins.
SmartThings platform will ping the device after `checkInterval` seconds of inactivity in last attempt to reach the device before marking it `OFFLINE`
* V1, TV, HubV2 AppEngine < 1.5.1 - __121min__ checkInterval
* HubV2 AppEngine 1.5.1 - __12min__ checkInterval
## Battery Specification
One CR2 3V battery required.
## Troubleshooting
If the sensor doesn't pair when trying from the SmartThings mobile app, it is possible that the sensor is out of range.
Pairing needs to be tried again by placing the sensor closer to the hub.
Instructions related to pairing, resetting and removing the sensor from SmartThings can be found in the following link:
* [SmartSense Open/Closed Sensor Troubleshooting Tips](https://support.smartthings.com/hc/en-us/articles/202836844-SmartSense-Open-Closed-Sensor)

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devicetypes/smartthings/smartsense-open-closed-sensor.src/smartsense-open-closed-sensor.groovy
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@@ -13,163 +13,317 @@
* for the specific language governing permissions and limitations under the License.
*
*/
import physicalgraph.zigbee.clusters.iaszone.ZoneStatus
metadata {
definition(name: "SmartSense Open/Closed Sensor", namespace: "smartthings", author: "SmartThings") {
capability "Battery"
definition (name: "SmartSense Open/Closed Sensor", namespace: "smartthings", author: "SmartThings") {
capability "Battery"
capability "Configuration"
capability "Contact Sensor"
capability "Contact Sensor"
capability "Refresh"
capability "Temperature Measurement"
capability "Health Check"
capability "Sensor"
command "enrollResponse"
command "enrollResponse"
fingerprint inClusters: "0000,0001,0003,0402,0500,0020,0B05", outClusters: "0019", manufacturer: "CentraLite", model: "3300-S"
fingerprint inClusters: "0000,0001,0003,0402,0500,0020,0B05", outClusters: "0019", manufacturer: "CentraLite", model: "3300"
fingerprint inClusters: "0000,0001,0003,0020,0402,0500,0B05", outClusters: "0019", manufacturer: "CentraLite", model: "3320-L", deviceJoinName: "Iris Contact Sensor"
fingerprint inClusters: "0000,0001,0003,0402,0500,0020,0B05", outClusters: "0019", manufacturer: "CentraLite", model: "3300"
}
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
}
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:"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"
}
}
valueTile("temperature", "device.temperature", inactiveLabel: false, width: 2, height: 2) {
state "temperature", label: '${currentValue}°',
backgroundColors: [
[value: 31, color: "#153591"],
[value: 44, color: "#1e9cbb"],
[value: 59, color: "#90d2a7"],
[value: 74, color: "#44b621"],
[value: 84, color: "#f1d801"],
[value: 95, color: "#d04e00"],
[value: 96, color: "#bc2323"]
]
state "temperature", label:'${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: '${currentValue}% battery', unit: ""
state "battery", label:'${currentValue}% battery', unit:""
}
standardTile("refresh", "device.refresh", inactiveLabel: false, decoration: "flat", width: 2, height: 2) {
state "default", action: "refresh.refresh", icon: "st.secondary.refresh"
state "default", action:"refresh.refresh", icon:"st.secondary.refresh"
}
main(["contact", "temperature"])
details(["contact", "temperature", "battery", "refresh"])
main (["contact", "temperature"])
details(["contact","temperature","battery","refresh"])
}
}
def parse(String description) {
log.debug "description: $description"
Map map = zigbee.getEvent(description)
if (!map) {
if (description?.startsWith('zone status')) {
map = parseIasMessage(description)
} else {
Map descMap = zigbee.parseDescriptionAsMap(description)
if (descMap?.clusterInt == 0x0001 && descMap.commandInt != 0x07 && descMap?.value) {
map = getBatteryResult(Integer.parseInt(descMap.value, 16))
} else if (descMap?.clusterInt == zigbee.TEMPERATURE_MEASUREMENT_CLUSTER && descMap.commandInt == 0x07) {
if (descMap.data[0] == "00") {
log.debug "TEMP REPORTING CONFIG RESPONSE: $descMap"
sendEvent(name: "checkInterval", value: 60 * 12, displayed: false, data: [protocol: "zigbee", hubHardwareId: device.hub.hardwareID])
} else {
log.warn "TEMP REPORTING CONFIG FAILED- error code: ${descMap.data[0]}"
}
}
}
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) : [:]
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
if (description?.startsWith('enroll request')) {
List cmds = zigbee.enrollResponse()
log.debug "enroll response: ${cmds}"
result = cmds?.collect { new physicalgraph.device.HubAction(it) }
}
return result
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))
}
private Map 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: $descMap"
Map resultMap = [:]
if (descMap.cluster == "0402" && descMap.attrId == "0000") {
def value = getTemperature(descMap.value)
resultMap = getTemperatureResult(value)
}
else if (descMap.cluster == "0001" && descMap.attrId == "0020") {
resultMap = getBatteryResult(Integer.parseInt(descMap.value, 16))
}
return resultMap
}
private Map parseCustomMessage(String description) {
Map resultMap = [:]
if (description?.startsWith('temperature: ')) {
def value = zigbee.parseHATemperatureValue(description, "temperature: ", getTemperatureScale())
resultMap = getTemperatureResult(value)
}
return resultMap
}
private Map parseIasMessage(String description) {
ZoneStatus zs = zigbee.parseZoneStatus(description)
return zs.isAlarm1Set() ? getContactResult('open') : getContactResult('closed')
List parsedMsg = description.split(' ')
String msgCode = parsedMsg[2]
Map resultMap = [:]
switch(msgCode) {
case '0x0020': // Closed/No Motion/Dry
resultMap = getContactResult('closed')
break
case '0x0021': // Open/Motion/Wet
resultMap = getContactResult('open')
break
case '0x0022': // Tamper Alarm
break
case '0x0023': // Battery Alarm
break
case '0x0024': // Supervision Report
resultMap = getContactResult('closed')
break
case '0x0025': // Restore Report
resultMap = getContactResult('open')
break
case '0x0026': // Trouble/Failure
break
case '0x0028': // Test Mode
break
}
return resultMap
}
def getTemperature(value) {
def celsius = Integer.parseInt(value, 16).shortValue() / 100
if(getTemperatureScale() == "C"){
return celsius
} else {
return celsiusToFahrenheit(celsius) as Integer
}
}
private Map getBatteryResult(rawValue) {
log.debug 'Battery'
def linkText = getLinkText(device)
def result = [:]
def result = [
name: 'battery'
]
def volts = rawValue / 10
if (!(rawValue == 0 || rawValue == 255)) {
def descriptionText
if (volts > 3.5) {
result.descriptionText = "${linkText} battery has too much power (${volts} volts)."
}
else {
def minVolts = 2.1
def maxVolts = 3.0
def maxVolts = 3.0
def pct = (volts - minVolts) / (maxVolts - minVolts)
def roundedPct = Math.round(pct * 100)
if (roundedPct <= 0)
roundedPct = 1
result.value = Math.min(100, roundedPct)
result.value = Math.min(100, (int) pct * 100)
result.descriptionText = "${linkText} battery was ${result.value}%"
result.name = 'battery'
}
return result
}
private Map getTemperatureResult(value) {
log.debug 'TEMP'
def linkText = getLinkText(device)
if (tempOffset) {
def offset = tempOffset as int
def v = value as int
value = v + offset
}
def descriptionText = "${linkText} was ${value}°${temperatureScale}"
return [
name: 'temperature',
value: value,
descriptionText: descriptionText
]
}
private Map getContactResult(value) {
log.debug 'Contact Status'
def linkText = getLinkText(device)
def descriptionText = "${linkText} was ${value == 'open' ? 'opened' : 'closed'}"
return [
name : 'contact',
value : value,
descriptionText: descriptionText
name: 'contact',
value: value,
descriptionText: descriptionText
]
}
/**
* PING is used by Device-Watch in attempt to reach the Device
* */
def ping() {
return zigbee.readAttribute(0x001, 0x0020) // Read the Battery Level
}
def refresh() {
log.debug "Refreshing Temperature and Battery"
def refreshCmds = zigbee.readAttribute(zigbee.TEMPERATURE_MEASUREMENT_CLUSTER, 0x0000) +
zigbee.readAttribute(zigbee.POWER_CONFIGURATION_CLUSTER, 0x0020)
def refreshCmds = [
"st rattr 0x${device.deviceNetworkId} 1 0x402 0", "delay 200",
"st rattr 0x${device.deviceNetworkId} 1 1 0x20", "delay 200"
]
return refreshCmds + zigbee.enrollResponse()
return refreshCmds + enrollResponse()
}
def configure() {
// Device-Watch allows 2 check-in misses from device + ping (plus 1 min lag time)
// enrolls with default periodic reporting until newer 5 min interval is confirmed
sendEvent(name: "checkInterval", value: 2 * 60 * 60 + 1 * 60, displayed: false, data: [protocol: "zigbee", hubHardwareId: device.hub.hardwareID])
String zigbeeEui = swapEndianHex(device.hub.zigbeeEui)
log.debug "Configuring Reporting, IAS CIE, and Bindings."
def configCmds = [
"zcl global write 0x500 0x10 0xf0 {${zigbeeEui}}", "delay 200",
"send 0x${device.deviceNetworkId} 1 1", "delay 500",
// temperature minReportTime 30 seconds, maxReportTime 5 min. Reporting interval if no activity
// battery minReport 30 seconds, maxReportTime 6 hrs by default
return refresh() + zigbee.batteryConfig() + zigbee.temperatureConfig(30, 300) // send refresh cmds as part of config
"zdo bind 0x${device.deviceNetworkId} ${endpointId} 1 1 {${device.zigbeeId}} {}", "delay 500",
"zcl global send-me-a-report 1 0x20 0x20 30 21600 {01}", //checkin time 6 hrs
"send 0x${device.deviceNetworkId} 1 1", "delay 500",
"zdo bind 0x${device.deviceNetworkId} ${endpointId} 1 0x402 {${device.zigbeeId}} {}", "delay 500",
"zcl global send-me-a-report 0x402 0 0x29 30 3600 {6400}",
"send 0x${device.deviceNetworkId} 1 1", "delay 500"
]
return configCmds + refresh() // send refresh cmds as part of config
}
def enrollResponse() {
log.debug "Sending enroll response"
String zigbeeEui = swapEndianHex(device.hub.zigbeeEui)
[
//Resending the CIE in case the enroll request is sent before CIE is written
"zcl global write 0x500 0x10 0xf0 {${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"
]
}
private getEndpointId() {
new BigInteger(device.endpointId, 16).toString()
}
private hex(value) {
new BigInteger(Math.round(value).toString()).toString(16)
}
private String swapEndianHex(String hex) {
reverseArray(hex.decodeHex()).encodeHex()
}
private byte[] reverseArray(byte[] array) {
int i = 0;
int j = array.length - 1;
byte tmp;
while (j > i) {
tmp = array[j];
array[j] = array[i];
array[i] = tmp;
j--;
i++;
}
return array
}

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devicetypes/smartthings/smartsense-temp-humidity-sensor.src/.st-ignore
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.st-ignore
README.md

42
devicetypes/smartthings/smartsense-temp-humidity-sensor.src/README.md
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# SmartSense Temp/Humidity Sensor
Local Execution on V2 Hubs
Works with:
* [Samsung SmartSense Temp/Humidity Sensor](https://shop.smartthings.com/#!/products/smartsense-temp-humidity-sensor)
## Table of contents
* [Capabilities](#capabilities)
* [Health](#device-health)
* [Battery](#battery-specification)
## Capabilities
* **Configuration** - _configure()_ command called when device is installed or device preferences updated
* **Battery** - defines device uses a battery
* **Relative Humidity Measurement** - defines device measures relative humidity
* **Refresh** - _refresh()_ command for status updates
* **Temperature Measurement** - defines device measures current temperature
* **Health Check** - indicates ability to get device health notifications
* **Sensor** - detects sensor events
## Device Health
SmartSense Temp/Humidity Sensor with reporting interval of 5 mins.
SmartThings platform will ping the device after `checkInterval` seconds of inactivity in last attempt to reach the device before marking it `OFFLINE`
* V1, TV, HubV2 AppEngine < 1.5.1 - __121min__ checkInterval
* HubV2 AppEngine 1.5.1 - __12min__ checkIntervalr 5 min interval is confirmed
## Battery Specification
One CR2 battery is required.
## Troubleshooting
If the sensor doesn't pair when trying from the SmartThings mobile app, it is possible that the sensor is out of range.
Pairing needs to be tried by placing the sensor closer to the hub.
Instructions related to pairing, resetting and removing the sensor from SmartThings can be found in the following link:
* [Troubleshooting Tips](https://support.smartthings.com/hc/en-us/articles/203040294)

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devicetypes/smartthings/smartsense-temp-humidity-sensor.src/smartsense-temp-humidity-sensor.groovy
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@@ -13,17 +13,13 @@
* for the specific language governing permissions and limitations under the License.
*
*/
import physicalgraph.zigbee.zcl.DataType
metadata {
definition(name: "SmartSense Temp/Humidity Sensor", namespace: "smartthings", author: "SmartThings") {
definition (name: "SmartSense Temp/Humidity Sensor",namespace: "smartthings", author: "SmartThings") {
capability "Configuration"
capability "Battery"
capability "Refresh"
capability "Temperature Measurement"
capability "Relative Humidity Measurement"
capability "Health Check"
capability "Sensor"
fingerprint endpointId: "01", inClusters: "0001,0003,0020,0402,0B05,FC45", outClusters: "0019,0003"
}
@@ -33,7 +29,7 @@ metadata {
status 'H 45': 'catchall: 0104 FC45 01 01 0140 00 D9B9 00 04 C2DF 0A 01 0000218911'
status 'H 57': 'catchall: 0104 FC45 01 01 0140 00 4E55 00 04 C2DF 0A 01 0000211316'
status 'H 53': 'catchall: 0104 FC45 01 01 0140 00 20CD 00 04 C2DF 0A 01 0000219814'
status 'H 43': 'read attr - raw: BF7601FC450C00000021A410, dni: BF76, endpoint: 01, cluster: FC45, size: 0C, attrId: 0000, result: success, encoding: 21, value: 10a4'
status 'H 43': 'read attr - raw: BF7601FC450C00000021A410, dni: BF76, endpoint: 01, cluster: FC45, size: 0C, attrId: 0000, result: success, encoding: 21, value: 10a4'
}
preferences {
@@ -42,28 +38,28 @@ metadata {
}
tiles(scale: 2) {
multiAttributeTile(name: "temperature", type: "generic", width: 6, height: 4) {
tileAttribute("device.temperature", key: "PRIMARY_CONTROL") {
attributeState "temperature", label: '${currentValue}°',
backgroundColors: [
[value: 31, color: "#153591"],
[value: 44, color: "#1e9cbb"],
[value: 59, color: "#90d2a7"],
[value: 74, color: "#44b621"],
[value: 84, color: "#f1d801"],
[value: 95, color: "#d04e00"],
[value: 96, color: "#bc2323"]
]
multiAttributeTile(name:"temperature", type: "generic", width: 6, height: 4){
tileAttribute ("device.temperature", key: "PRIMARY_CONTROL") {
attributeState "temperature", label:'${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("humidity", "device.humidity", inactiveLabel: false, width: 2, height: 2) {
state "humidity", label: '${currentValue}% humidity', unit: ""
state "humidity", label:'${currentValue}% humidity', unit:""
}
valueTile("battery", "device.battery", decoration: "flat", inactiveLabel: false, width: 2, height: 2) {
state "battery", label: '${currentValue}% battery'
state "battery", label:'${currentValue}% battery'
}
standardTile("refresh", "device.refresh", inactiveLabel: false, decoration: "flat", width: 2, height: 2) {
state "default", action: "refresh.refresh", icon: "st.secondary.refresh"
state "default", action:"refresh.refresh", icon:"st.secondary.refresh"
}
main "temperature", "humidity"
@@ -74,75 +70,222 @@ metadata {
def parse(String description) {
log.debug "description: $description"
// getEvent will handle temperature and humidity
Map map = zigbee.getEvent(description)
if (!map) {
Map descMap = zigbee.parseDescriptionAsMap(description)
if (descMap.clusterInt == 0x0001 && descMap.commandInt != 0x07 && descMap?.value) {
map = getBatteryResult(Integer.parseInt(descMap.value, 16))
} else if (descMap?.clusterInt == zigbee.TEMPERATURE_MEASUREMENT_CLUSTER && descMap.commandInt == 0x07) {
if (descMap.data[0] == "00") {
log.debug "TEMP REPORTING CONFIG RESPONSE: $descMap"
sendEvent(name: "checkInterval", value: 60 * 12, displayed: false, data: [protocol: "zigbee", hubHardwareId: device.hub.hardwareID])
} else {
log.warn "TEMP REPORTING CONFIG FAILED- error code: ${descMap.data[0]}"
}
}
Map map = [:]
if (description?.startsWith('catchall:')) {
map = parseCatchAllMessage(description)
}
else if (description?.startsWith('read attr -')) {
map = parseReportAttributeMessage(description)
}
else if (description?.startsWith('temperature: ') || description?.startsWith('humidity: ')) {
map = parseCustomMessage(description)
}
log.debug "Parse returned $map"
return map ? createEvent(map) : [:]
return map ? createEvent(map) : null
}
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 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 0xFC45:
String pctStr = cluster.data[-1, -2].collect { Integer.toHexString(it) }.join('')
String display = Math.round(Integer.valueOf(pctStr, 16) / 100)
resultMap = getHumidityResult(display)
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 Map 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 = [:]
if (descMap.cluster == "0402" && descMap.attrId == "0000") {
def value = getTemperature(descMap.value)
resultMap = getTemperatureResult(value)
}
else if (descMap.cluster == "0001" && descMap.attrId == "0020") {
resultMap = getBatteryResult(Integer.parseInt(descMap.value, 16))
}
else if (descMap.cluster == "FC45" && descMap.attrId == "0000") {
def value = getReportAttributeHumidity(descMap.value)
resultMap = getHumidityResult(value)
}
return resultMap
}
def getReportAttributeHumidity(String value) {
def humidity = null
if (value?.trim()) {
try {
// value is hex with no decimal
def pct = Integer.parseInt(value.trim(), 16) / 100
humidity = String.format('%.0f', pct)
} catch(NumberFormatException nfe) {
log.debug "Error converting $value to humidity"
}
}
return humidity
}
private Map parseCustomMessage(String description) {
Map resultMap = [:]
if (description?.startsWith('temperature: ')) {
def value = zigbee.parseHATemperatureValue(description, "temperature: ", getTemperatureScale())
resultMap = getTemperatureResult(value)
}
else if (description?.startsWith('humidity: ')) {
def pct = (description - "humidity: " - "%").trim()
if (pct.isNumber()) {
def value = Math.round(new BigDecimal(pct)).toString()
resultMap = getHumidityResult(value)
} else {
log.error "invalid humidity: ${pct}"
}
}
return resultMap
}
def getTemperature(value) {
def celsius = Integer.parseInt(value, 16).shortValue() / 100
if(getTemperatureScale() == "C"){
return celsius
} else {
return celsiusToFahrenheit(celsius) as Integer
}
}
private Map getBatteryResult(rawValue) {
log.debug 'Battery'
def linkText = getLinkText(device)
def result = [:]
def result = [
name: 'battery'
]
def volts = rawValue / 10
if (!(rawValue == 0 || rawValue == 255)) {
def descriptionText
if (volts > 3.5) {
result.descriptionText = "${linkText} battery has too much power (${volts} volts)."
}
else {
def minVolts = 2.1
def maxVolts = 3.0
def maxVolts = 3.0
def pct = (volts - minVolts) / (maxVolts - minVolts)
def roundedPct = Math.round(pct * 100)
if (roundedPct <= 0)
roundedPct = 1
result.value = Math.min(100, roundedPct)
result.value = Math.min(100, (int) pct * 100)
result.descriptionText = "${linkText} battery was ${result.value}%"
result.name = 'battery'
}
return result
}
/**
* PING is used by Device-Watch in attempt to reach the Device
* */
def ping() {
return zigbee.readAttribute(0x0001, 0x0020) // Read the Battery Level
private Map getTemperatureResult(value) {
log.debug 'TEMP'
def linkText = getLinkText(device)
if (tempOffset) {
def offset = tempOffset as int
def v = value as int
value = v + offset
}
def descriptionText = "${linkText} was ${value}°${temperatureScale}"
return [
name: 'temperature',
value: value,
descriptionText: descriptionText
]
}
def refresh() {
private Map getHumidityResult(value) {
log.debug 'Humidity'
return [
name: 'humidity',
value: value,
unit: '%'
]
}
def refresh()
{
log.debug "refresh temperature, humidity, and battery"
return zigbee.readAttribute(0xFC45, 0x0000, ["mfgCode": 0x104E]) + // New firmware
zigbee.readAttribute(0xFC45, 0x0000, ["mfgCode": 0xC2DF]) + // Original firmware
zigbee.readAttribute(zigbee.TEMPERATURE_MEASUREMENT_CLUSTER, 0x0000) +
zigbee.readAttribute(zigbee.POWER_CONFIGURATION_CLUSTER, 0x0020) +
zigbee.configureReporting(0xFC45, 0x0000, DataType.INT16, 30, 3600, 100) +
zigbee.batteryConfig() +
zigbee.temperatureConfig(30, 300)
[
"zcl mfg-code 0xC2DF", "delay 1000",
"zcl global read 0xFC45 0", "delay 1000",
"send 0x${device.deviceNetworkId} 1 1", "delay 1000",
"st rattr 0x${device.deviceNetworkId} 1 0x402 0", "delay 200",
"st rattr 0x${device.deviceNetworkId} 1 1 0x20"
]
}
def configure() {
// Device-Watch allows 2 check-in misses from device + ping (plus 1 min lag time)
// enrolls with default periodic reporting until newer 5 min interval is confirmed
sendEvent(name: "checkInterval", value: 2 * 60 * 60 + 1 * 60, displayed: false, data: [protocol: "zigbee", hubHardwareId: device.hub.hardwareID])
log.debug "Configuring Reporting and Bindings."
def configCmds = [
"zdo bind 0x${device.deviceNetworkId} 1 1 1 {${device.zigbeeId}} {}", "delay 500",
"zcl global send-me-a-report 1 0x20 0x20 30 21600 {01}", //checkin time 6 hrs
"send 0x${device.deviceNetworkId} 1 1", "delay 500",
// temperature minReportTime 30 seconds, maxReportTime 5 min. Reporting interval if no activity
// battery minReport 30 seconds, maxReportTime 6 hrs by default
return refresh()
"zdo bind 0x${device.deviceNetworkId} 1 1 0x402 {${device.zigbeeId}} {}", "delay 500",
"zcl global send-me-a-report 0x402 0 0x29 30 3600 {6400}",
"send 0x${device.deviceNetworkId} 1 1", "delay 500",
"zdo bind 0x${device.deviceNetworkId} 1 1 0xFC45 {${device.zigbeeId}} {}", "delay 500",
"zcl global send-me-a-report 0xFC45 0 0x29 30 3600 {6400}",
"send 0x${device.deviceNetworkId} 1 1", "delay 500"
]
return configCmds + refresh() // send refresh cmds as part of config
}
private hex(value) {
new BigInteger(Math.round(value).toString()).toString(16)
}
private String swapEndianHex(String hex) {
reverseArray(hex.decodeHex()).encodeHex()
}
private byte[] reverseArray(byte[] array) {
int i = 0;
int j = array.length - 1;
byte tmp;
while (j > i) {
tmp = array[j];
array[j] = array[i];
array[i] = tmp;
j--;
i++;
}
return array
}

2
devicetypes/smartthings/smartsense-virtual-open-closed.src/smartsense-virtual-open-closed.groovy
View File

@@ -96,7 +96,7 @@ metadata {
def parse(String description) {
def results
if (!isSupportedDescription(description) || description.startsWith("zone")) {
if (!isSupportedDescription(description) || zigbee.isZoneType19(description)) {
// Ignore this in favor of orientation-based state
// results = parseSingleMessage(description)
}

2
devicetypes/smartthings/testing/simulated-alarm.src/simulated-alarm.groovy
View File

@@ -16,8 +16,6 @@
metadata {
definition (name: "Simulated Alarm", namespace: "smartthings/testing", author: "SmartThings") {
capability "Alarm"
capability "Sensor"
capability "Actuator"
}
simulator {

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