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Single_Relay_Switch_Plug_PM_1.2.5.groovy
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Single_Relay_Switch_Plug_PM_1.2.5.groovy
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/**
* Tasmota Sync N Port Relay\Switch\Plug Driver with\without PM
* Version: v1.2.5
* Download: See importUrl in definition
* Description: Hubitat Driver for Tasmota N Port Relay\Switch\Plug with\without Power Monitoring. Provides Realtime and native synchronization between Hubitat and Tasmota.
* The N port version handles any number of switches from 1 to 8. The SINGLE, DUAL, TRIPLE, QUAD and EIGHT port relay/switch/plug are all simply copies of this driver with the following adjustment.
* 1) edit line @Field static final Integer switchCount = ? to reflect correct switchcount
* 2) definition - Uncomment the appropriate definition.
* Names used for published drivers are found in the definitions.
*
* Copyright 2022 Gary J. Milne
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation.
*
* This driver is one of several in the Tasmota Sync series. All of these drivers are architecturally similar and much of the code is identical.
* To simplifiy maintenance all of these drivers have two sections. Search for the phrase "END OF UNIQUE FUNCTIONS" to find the split.
* #1 The top section contains code that is UNIQUE to a specific driver such as a bulb vs a switch vs a dimmer. Although this code is UNIQUE it is very similar between drivers.
* #2 The bottom section is code that is IDENTICAL and shared across all drivers and is about 700 - 800 lines of code. This section of code is referred to as CORE.
*
* N PORT RELAY\SWITCH\PLUG - UNIQUE - CHANGELOG
* Version 0.91 - Internal version
* Version 0.92.0 - Changed versioning to comply with Semantic Versioning standards (https://semver.org/). Moved CORE changelog to beginning of CORE section. Added links
* Version 0.98.0 - All versions incremented and synchronised for HPM plublication
* Version 1.0.0 - Created new version for 8 Port Relay switch\plug. Remove LastOn\LastOff per switch state variables because it was too messy in the UI.
* Version 1.1.0 - Created new generic version for N ports\switches\plugs to reduce maintenance footprint.
* Version 1.2.0 - Added Power Monitoring logic. Only applies if switchCount is 2 or less.
* Version 1.2.1 - Fixed bug for interchangeable handling of POWER\POWER1 responses.
* Version 1.2.2 - Fixed bug for POWER values received by TasmotaSync not being recorded properly
* Version 1.2.2 - Fixed bug for POWER values received by TasmotaSync not being recorded properly
* Version 1.2.3 - Restored missing Toggle command option. Added option to display\track all Tasmota Energy events
* Version 1.2.4 - Incremented Core 0.98.2. Fixed "DIMMER" code with improved version from Dimmer implementation.
* Version 1.2.5 - Added some logic (powerEnabled) so the driver could easily be configured to not list any power attributes or capabilities.
*
* Authors Notes:
* For more information on Tasmota Sync drivers check out these resources:
* Original posting on Hubitat Community forum. https://community.hubitat.com/t/tasmota-sync-drivers-native-and-real-time-synchronization-between-hubitat-and-tasmota-11/93651
* How to upgrade from Tasmota 8.X to Tasmota 11.X https://github.com/GaryMilne/Hubitat-Tasmota/blob/main/How%20to%20Upgrade%20from%20Tasmota%20from%208.X%20to%2011.X.pdf
* Tasmota Sync Installation and Use Guide https://github.com/GaryMilne/Hubitat-Tasmota/blob/main/Tasmota%20Sync%20Documentation.pdf
*
* Gary Milne - Nov 19th, 2022
*
**/
import groovy.transform.Field
import groovy.json.JsonSlurper
//This determines the number of switches that will appear within the device. If the switchCount is greater than 2 or powerEnabled == false then power monitoring option is no longer visible in settings regardless of switchCount.
//The powerEnabled setting also controls which capabilities are configured for the device which determines whether the device will show up in the capability selector.
@Field static final Integer switchCount = 1
@Field static final boolean powerEnabled = true
metadata {
definition (name: "Tasmota Sync - Single Relay/Switch/Plug PM", namespace: "garyjmilne", author: "Gary J. Milne", importUrl: "https://raw.githubusercontent.com/GaryMilne/Hubitat-Tasmota/main/Single_Relay_Switch_Plug_PM.groovy", singleThreaded: true ) {
//definition (name: "Tasmota Sync - Dual Relay/Switch/Plug PM", namespace: "garyjmilne", author: "Gary J. Milne", importUrl: "https://raw.githubusercontent.com/GaryMilne/Hubitat-Tasmota/main/Dual_Relay_Switch_Plug_PM.groovy", singleThreaded: true ) {
//definition (name: "Tasmota Sync - Single Relay/Switch/Plug", namespace: "garyjmilne", author: "Gary J. Milne", importUrl: "https://raw.githubusercontent.com/GaryMilne/Hubitat-Tasmota/main/Single_Relay_Switch_Plug.groovy", singleThreaded: true ) {
//definition (name: "Tasmota Sync - Dual Relay/Switch/Plug", namespace: "garyjmilne", author: "Gary J. Milne", importUrl: "https://raw.githubusercontent.com/GaryMilne/Hubitat-Tasmota/main/Dual_Relay_Switch_Plug.groovy", singleThreaded: true ) {
//definition (name: "Tasmota Sync - Triple Relay/Switch/Plug", namespace: "garyjmilne", author: "Gary J. Milne", importUrl: "https://raw.githubusercontent.com/GaryMilne/Hubitat-Tasmota/main/Triple_Relay_Switch_Plug.groovy", singleThreaded: true ) {
//definition (name: "Tasmota Sync - Quad Relay/Switch/Plug", namespace: "garyjmilne", author: "Gary J. Milne", importUrl: "https://raw.githubusercontent.com/GaryMilne/Hubitat-Tasmota/main/Quad_Relay_Switch_Plug.groovy", singleThreaded: true ) {
//definition (name: "Tasmota Sync - Eight Relay/Switch/Plug", namespace: "garyjmilne", author: "Gary J. Milne", importUrl: "https://raw.githubusercontent.com/GaryMilne/Hubitat-Tasmota/main/Eight_Relay_Switch_Plug.groovy", singleThreaded: true ) {
capability "Switch"
capability "Refresh"
//Driver specific variables where case does not matter.
attribute "Status", "string"
//Allow Power Monitoring for Plugs with 2 or less switches
if (switchCount <= 2 && powerEnabled == true) { capability "PowerMeter" ; capability "CurrentMeter" ; capability "VoltageMeasurement"
attribute "current", "number" ; attribute "power", "number" ; attribute "voltage", "number" ; attribute "apparentPower", "number" ; attribute "energyToday", "number" ;
attribute "energyTotal", "number" ; attribute "energyYesterday", "number" ; attribute "powerFactor", "number" ; "number" ; attribute "reactivePower", "number"
}
//log.debug ("SwitchCount is: ${switchCount}")
if (switchCount >= 1) { attribute "switch", "string" }
if (switchCount >= 2) { attribute "switch2", "string" ; command "Power2On" ; command "Power2Off" }
if (switchCount >= 3) { attribute "switch3", "string" ; command "Power3On" ; command "Power3Off" }
if (switchCount >= 4) { attribute "switch4", "string" ; command "Power4On" ; command "Power4Off" }
if (switchCount >= 5) { attribute "switch5", "string" ; command "Power5On" ; command "Power5Off" }
if (switchCount >= 6) { attribute "switch6", "string" ; command "Power6On" ; command "Power6Off" }
if (switchCount >= 7) { attribute "switch7", "string" ; command "Power7On" ; command "Power7Off" }
if (switchCount >= 8) { attribute "switch8", "string" ; command "Power8On" ; command "Power8Off" }
command "initialize"
command "tasmotaInjectRule"
command "tasmotaCustomCommand", [ [name:"Command*", type: "STRING", description: "A single word command to be issued such as COLOR, CT, DIMMER etc."], [name:"Parameter", type: "STRING", description: "An optional single parameter that accompanies the command such as FFFFFFFF, 350, 75 etc."] ]
command "tasmotaTelePeriod", [ [name:"Seconds*", type: "STRING", description: "The number of seconds between Tasmota sensor updates (TelePeriod XX)."] ]
command "toggle"
//command "test"
}
section("Configure the Inputs"){
input name: "destIP", type: "text", title: bold(dodgerBlue("Tasmota Device IP Address")), description: italic("The IP address of the Tasmota device."), defaultValue: "192.168.0.X", required:true, displayDuringSetup: true
input name: "HubIP", type: "text", title: bold(dodgerBlue("Hubitat Hub IP Address")), description: italic("The Hubitat Hub Address. Used by Tasmota rules to send HTTP responses."), defaultValue: "192.168.0.X", required:true, displayDuringSetup: true
if (switchCount <= 2 && powerEnabled == true) {
input name: "relayType", type: "enum", title: bold(dodgerBlue("Type: Simple Plug - Plug (W) - Plug (W,V,A) - Plug (All Tasmota Energy Stats)")),description: italic("A Tasmota device that reports data can generate a lot of events, especially if the Tasmota TelePeriod is a low value. This setting will reduce the amount of data being recorded by ignoring non-essential changes. ") + underline("Note: A change in plug type requires re-installation of RULE3 for proper function."),
options: [[0:"Simple Plug. Log ONLY switch events. (Default)"], [1:"Plug with Power Monitoring. Log ONLY Switch and Power events."],[2:"Plug with Power Monitoring. Log ONLY Switch, Power, Current and Voltage events"],[3:"Plug with Power Monitoring. Log ALL Switch and Tasmota Energy stats"]], defaultValue: 0, required:true
}
input name: "timeout", type: "number", title: bold("Timeout for Tasmota reponse."), description: italic("Time in ms after which a Transaction is closed by the watchdog and subsequent responses will be ignored. Default 5000ms."), defaultValue: "5000", required:true, displayDuringSetup: false
input name: "debounce", type: "number", title: bold("Debounce Interval for Tasmota Sync."), description: italic("The period in ms from command invocation during which a Tasmota Sync request will be ignored. Default 7000ms."), defaultValue: "7000", required:true, displayDuringSetup: false
input name: "switchBehaviour", type: "enum", title: bold("Switch Behaviour."), description: italic("Whether the primary Switch affects only Relay 1 or ALL Relays."),
options: [ [1:"Turns ON\\OFF only Power1"],[2:"Turns ON\\OFF ALL Power Relays"] ], defaultValue: 1
input name: "logging_level", type: "number", title: bold("Level of detail displayed in log"), description: italic("Enter log level 0-3. (Default is 0.)"), defaultValue: "0", required:true, displayDuringSetup: false
input name: "loggingEnhancements", type: "enum", title: bold("Logging Enhancements."), description: italic("Allows log entries for this device to be enhanced with HTML tags for increased increased readability. (Default - All enhancements.)"),
options: [ [0:" No enhancements."],[1:" Prepend log events with device name."],[2:" Enable HTML tags on logged events for this device."],[3:" Prepend log events with device name and enable HTML tags." ] ], defaultValue: 3, required:true
input name: "pollFrequency", type: "enum", title: bold("Poll Frequency. Polling not required if using Tasmota Sync on Tasmota 11."), description: italic("The time between Hubitat initiated synchronisation of values with Tasmota. Tasmota is considered authoritative (Default - 0 (Never) )"),
options: [ [0:" Never"],[60:" 1 minute"],[300:" 5 minutes"],[600:"10 minutes"],[900:"15 minutes"],[1800:"30 minutes"],[3600:" 1 hour"],[10800:" 3 hours"] ], defaultValue: 0
input name: "destPort", type: "text", title: bold("Port"), description: italic("The Tasmota webserver port. Only required if not at the default value of 80."), defaultValue: "80", required:false, displayDuringSetup: true
input name: "username", type: "text", title: bold("Tasmota Username"), description: italic("Tasmota username is required if configured on the Tasmota device."), required: false, displayDuringSetup: true
input name: "password", type: "password", title: bold("Tasmota Password"), description: italic("Tasmota password is required if configured on the Tasmota device."), required: false, displayDuringSetup: true
}
}
//Function used for quickly testing out logic and cleaning up.
def test(){
}
//*********************************************************************************************************************************************
//******
//****** Start of All functions that have any uniqueness to them across all of the TSync driver base.
//****** This allows for easier updates to core functions
//******
//*******************************************************************************************************************************************
//*********************************************************************************************************************************************************************
//******
//****** Start of UNIQUE standard functions
//******
//*********************************************************************************************************************************************************************
//Updated gets run when the "Initialize" button is clicked or when the device driver is selected
def initialize(){
log("Initialize", "Device initialized", 0)
//Cancel any existing scheduled tasks for this device
unschedule("poll")
//Make sure we are using the right address
updateDeviceNetworkID()
log("Initialize", "pollFrequency value: ${settings.pollFrequency} seconds.",0)
//Test to make sure the entered frequency is in range
switch(settings.pollFrequency) {
case "0": unschedule("poll") ; break
case "60": runEvery1Minute("poll") ; break
case "300": runEvery5Minutes("poll") ; break
case "600": runEvery10Minutes("poll") ; break
case "900": runEvery15Minutes("poll") ; break
case "1800": runEvery30Minutes("poll") ; break
case "3600": runEvery1Hours("poll") ; break
case "10800": runEvery3Hours("poll") ; break
}
//To be safe these are populated with initial values to prevent a null return if they are used as logic flags
if ( state.Action == null ) state.Action = "None"
if ( state.ActionValue == null ) state.ActionValue = "None"
if ( device.currentValue("Status") == null ) updateStatus("Complete")
//If the number of switches is greater than 2 then the relayType is set to Simple with no PM. I'm not aware of any PM switches with greater than 2 ports.
if (switchCount > 2) device.updateSetting("relayType", [value:"0", type:"enum"])
//Simple switch - no PM
if (settings.relayType.toInteger() == 0 ) {
state.relayType = "Simple switch"
log("Initialize", "Configured as simple switch. No power monitoring information.", 0)
device.deleteCurrentState("current")
device.deleteCurrentState("voltage")
device.deleteCurrentState("power")
device.deleteCurrentState("apparentPower")
device.deleteCurrentState("energyToday")
device.deleteCurrentState("energyTotal")
device.deleteCurrentState("energyYesterday")
device.deleteCurrentState("powerFactor")
device.deleteCurrentState("reactivePower")
}
//Plug with PM. Only log switch and power events
if (settings.relayType.toInteger() == 1 ) {
state.relayType = "Lite Power Monitoring (Watts only)."
log("Initialize", "Configured as switch with lite power monitoring. ONLY logging switch and power events.", 0)
if ( device.currentValue("power") == null ) sendEvent(name: "power", value: 0, descriptionText: "Power (watts) events have been enabled", unit: "Watts", isStateChange: true )
device.deleteCurrentState("current")
device.deleteCurrentState("voltage")
device.deleteCurrentState("apparentPower")
device.deleteCurrentState("energyToday")
device.deleteCurrentState("energyTotal")
device.deleteCurrentState("energyYesterday")
device.deleteCurrentState("powerFactor")
device.deleteCurrentState("reactivePower")
}
//Plug with PM. Log switch, current and voltage events
if (settings.relayType.toInteger() == 2 ) {
state.relayType = "Normal Power Monitoring (Current, Voltage and Watts)."
log("Initialize", "Configured as switch with power monitoring. Logging ALL switch, power, voltage and amps events.", 0)
if ( device.currentValue("current") == null ) sendEvent(name: "current", value: 0, descriptionText: "Current events have been enabled", unit: "Amps", isStateChange: true )
if ( device.currentValue("voltage") == null ) sendEvent(name: "voltage", value: 0, descriptionText: "Voltage events have been enabled", unit: "Volts", isStateChange: true )
if ( device.currentValue("power") == null ) sendEvent(name: "power", value: 0, descriptionText: "Power (watts) events have been enabled", unit: "Watts", isStateChange: true )
device.deleteCurrentState("apparentPower")
device.deleteCurrentState("energyToday")
device.deleteCurrentState("energyTotal")
device.deleteCurrentState("energyYesterday")
device.deleteCurrentState("powerFactor")
device.deleteCurrentState("reactivePower")
}
//Plug with PM. All Tasmota Energy Events
if (settings.relayType.toInteger() == 3 ) {
state.relayType = "Full Power Monitoring (All Tasmota Energy Events)."
log("Initialize", "Configured as switch with power monitoring. Logging ALL switch, power, voltage and amps events.", 0)
if ( device.currentValue("current") == null ) sendEvent(name: "current", value: 0, descriptionText: "Current events have been enabled", unit: "Amps", isStateChange: true )
if ( device.currentValue("voltage") == null ) sendEvent(name: "voltage", value: 0, descriptionText: "Voltage events have been enabled", unit: "Volts", isStateChange: true )
if ( device.currentValue("power") == null ) sendEvent(name: "power", value: 0, descriptionText: "Power (watts) events have been enabled", unit: "Watts", isStateChange: true )
if ( device.currentValue("apparentPower") == null ) sendEvent(name: "apparentPower", value: 0, descriptionText: "Apparent Power events have been enabled", unit: "VA", isStateChange: true )
if ( device.currentValue("energyToday") == null ) sendEvent(name: "energyToday", value: 0, descriptionText: "Energy Today events have been enabled", unit: "kWh", isStateChange: true )
if ( device.currentValue("energyTotal") == null ) sendEvent(name: "energyTotal", value: 0, descriptionText: "Energy Total events have been enabled", unit: "kWh", isStateChange: true )
if ( device.currentValue("energyYesterday") == null ) sendEvent(name: "energyYesterday", value: 0, descriptionText: "Energy Yesterday events have been enabled", unit: "kWh", isStateChange: true )
if ( device.currentValue("powerFactor") == null ) sendEvent(name: "powerFactor", value: 0, descriptionText: "Power Factor events have been enabled", isStateChange: true )
if ( device.currentValue("reactivePower") == null ) sendEvent(name: "reactivePower", value: 0, descriptionText: "Reactive events have been enabled", unit: "VAr", isStateChange: true )
}
//Do a refresh to sync the device driver
refresh()
}
//Function used to remove old state variables that are no longer used
def clean(){
state.remove("lastOff")
state.remove("lastOn")
state.remove("switchType")
state.remove("plugType")
device.deleteCurrentState("powerWithUnit")
}
//*********************************************************************************************************************************************************************
//******
//****** End of UNIQUE standard functions
//******
//*********************************************************************************************************************************************************************
//*********************************************************************************************************************************************************************
//******
//****** UNIQUE: Start of Power related functions. These may be UNIQUE across all Tasmota Sync drivers
//******
//*********************************************************************************************************************************************************************
//Turns the Power on to one or all switches based on settings. Note: Power and Power1 are synonymous in Tasmota
def on() {
if (settings.switchBehaviour == "1") {
log("Action", "Turn on switch", 0)
callTasmota("POWER", "ON")
}
else
{
log("Action", "Turn on all switches", 0)
i = 1
String command = "POWER ON;"
while ( i <= switchCount ) {
command = command + "POWER${i} ON;"
i++
}
//command = "POWER ON; POWER2 ON; POWER3 ON; POWER4 ON; POWER5 ON; POWER6 ON; POWER7 ON; POWER8 ON"
callTasmota("BACKLOG", command)
}
//Remove any left over state variables from prior versions. This will get swept into version control when added.
clean()
}
//Turns off one or all switches.
def off() {
if (settings.switchBehaviour == "1") {
log("Action", "Turn off switch", 0)
callTasmota("POWER", "OFF")
}
else
{
log("Action", "Turn off all switches", 0)
i = 1
String command = "POWER OFF;"
while ( i <= switchCount ) {
command = command + "POWER${i} OFF;"
i++
}
callTasmota("BACKLOG", command)
}
}
def Power2On() {
log("Action", "Turn on switch 2", 0)
callTasmota("POWER2", "ON")
}
def Power2Off() {
log("Action", "Turn off switch 2", 0)
callTasmota("POWER2", "OFF")
}
def Power3On() {
log("Action", "Turn on switch 3", 0)
callTasmota("POWER3", "ON")
}
def Power3Off() {
log("Action", "Turn off switch 3", 0)
callTasmota("POWER3", "OFF")
}
def Power4On() {
log("Action", "Turn on switch 4", 0)
callTasmota("POWER4", "ON")
}
def Power4Off() {
log("Action", "Turn off switch 4", 0)
callTasmota("POWER4", "OFF")
}
def Power5On() {
log("Action", "Turn on switch 5", 0)
callTasmota("POWER5", "ON")
}
def Power5Off() {
log("Action", "Turn off switch 5", 0)
callTasmota("POWER5", "OFF")
}
def Power6On() {
log("Action", "Turn on switch 6", 0)
callTasmota("POWER6", "ON")
}
def Power6Off() {
log("Action", "Turn off switch 6", 0)
callTasmota("POWER6", "OFF")
}
def Power7On() {
log("Action", "Turn on switch 7", 0)
callTasmota("POWER7", "ON")
}
def Power7Off() {
log("Action", "Turn off switch 7", 0)
callTasmota("POWER7", "OFF")
}
def Power8On() {
log("Action", "Turn on switch 8", 0)
callTasmota("POWER8", "ON")
}
def Power8Off() {
log("Action", "Turn off switch 8", 0)
callTasmota("POWER8", "OFF")
}
//*********************************************************************************************************************************************************************
//******
//****** End of Power related functions
//******
//*********************************************************************************************************************************************************************
//**************************************************************************************************************************************************************************
//******
//****** UNIQUE: Start of Background task run by Hubitat
//******
//**************************************************************************************************************************************************************************
//Sync the UI to the actual status of the device. The results come back to the parse function.
//This function is called from the button press and automatically via the polling method
//In drivers with SENSOR data this function is a little different.
def refresh(){
log ("Action", "Refresh started....", 0)
//If it is configured for PM then we will get sensor data (STATUS 8) first.
if (settings.relayType.toInteger() > 0 ) {
log("refresh", "Getting sensor data.", 1)
state.lastSensorData = new Date().format('yyyy-MM-dd HH:mm:ss')
callTasmota("STATUS", "8" )
}
//Calculate when the current operations should be finished and schedule the "STATE" command to run after them.
def parameters = ["STATE",""]
runInMillis(remainingTime() + 500, "callTasmota", [data:parameters])
state.LastSync = new Date().format('yyyy-MM-dd HH:mm:ss')
}
//*****************************************************************************************************************************************************************************************************
//******
//****** End of Background tasks
//******
//*****************************************************************************************************************************************************************************************************
//******************************************************************************************************************************************************************************************************
//******
//****** Start of main program section where most of the work gets done. There are 3 main functions, parse which receives all LAN input and directs it to either hubitatResponse or syncTasmota for processing.
//****** The functions callTasmota() and parse() are IDENTICAL in all Tasmota Sync drivers and are found toward the end of the file.
//****** The functions syncTasmota, hubitatResponse() and tasmotaInjectRule() are UNIQUE in all Tasmota Sync drivers and are located immediately below.
//******
//******************************************************************************************************************************************************************************************************
//*************************************************************************************************************************************************************************************************************
//******
//****** UNIQUE: The only things that get routed here are expected responses to commands issued through Hubitat.
//******
//*************************************************************************************************************************************************************************************************************
def hubitatResponse(body){
log ("hubitatResponse", "Entering, data received", 1)
log ("hubitatResponse", "Raw data is: ${body}.", 2)
//Get the command and value that was submitted to the callTasmota function
Action = state.Action
ActionValue = state.ActionValue
log ("hubitatResponse", "Flags are Action:${state.Action} ActionValue:${state.ActionValue}", 2)
//Test to see if we got a warning from Tasmota
tasmotaWarning = false
if (body.contains("WARNING") == true ) {
tasmotaWarning = true
log ("hubitatResponse","A warning was received from Tasmota. Review the message '${body}' and make appropriate changes.", -1)
updateStatus("Complete:Failed")
}
//Now parse into JSON to extract data.
body = parseJson(body)
//Check to make sure we have some data to act on.
if (body !=null){
//If the response contains the WiFi info then we extract the RSSI value for display as a state variable.
if (body.WIFI != null ){
def wifi = body.WIFI
def RSSI = wifi.RSSI
state.RSSI = RSSI
log ("hubitatResponse", "RSSI: ${state.RSSI}", 2)
}
switch(Action.toUpperCase()) {
case ["POWER"]:
//On a single relay\plug\switch the response to "POWER1 OFF" is {"POWER":"OFF"}. On a multi-port relay the response to "POWER1 OFF" is {"POWER1":"OFF"} so we have to be ready to accept either response.
if (body?.POWER != null) log("hubitatResponse","Command: Power ${body.POWER}", 0)
if (body?.POWER1 != null) log("hubitatResponse","Command: Power ${body.POWER1}", 0)
if (ActionValue.equalsIgnoreCase(body.POWER) || ActionValue.equalsIgnoreCase(body.POWER1) ){
log ("hubitatResponse","Power state applied successfully", 0)
updateStatus("Complete:Success")
//We got the response we were looking for so we can actually change the state of the switch in the UI.
//If the switch is turned off then the power statistics must be zero. However, if TSync is enabled then it will fire a Sync anyway.
sendEvent(name: "switch", value: ActionValue.toLowerCase(), descriptionText: "The switch has been turned ${ActionValue.toLowerCase()}", isStateChange: true )
}
else {
log("hubitatResponse","Power state failed to apply", -1)
updateStatus("Complete:Fail")
}
break
case ["POWER2"]:
log("hubitatResponse","Command: Power2 ${body.POWER2}", 0)
if (ActionValue.equalsIgnoreCase(body.POWER2) ){
log ("hubitatResponse","Power2 state applied successfully", 0)
updateStatus("Complete:Success")
//We got the response we were looking for so we can actually change the state of the switch in the UI.
//If the switch is turned off then the power statistics must be zero. However, if TSync is enabled then it will fire a Sync anyway.
sendEvent(name: "switch2", value: ActionValue.toLowerCase(), descriptionText: "The switch2 has been turned ${ActionValue.toLowerCase()}", isStateChange: true )
}
else {
log("hubitatResponse","Power2 state failed to apply", -1)
updateStatus("Complete:Fail")
}
break
case ["POWER3"]:
log("hubitatResponse","Command: Power3 ${body.POWER3}", 0)
if (ActionValue.equalsIgnoreCase(body.POWER3) ){
log ("hubitatResponse","Power3 state applied successfully", 0)
updateStatus("Complete:Success")
//We got the response we were looking for so we can actually change the state of the switch in the UI.
//If the switch is turned off then the power statistics must be zero. However, if TSync is enabled then it will fire a Sync anyway.
sendEvent(name: "switch3", value: ActionValue.toLowerCase(), descriptionText: "The switch3 has been turned ${ActionValue.toLowerCase()}", isStateChange: true )
}
else {
log("hubitatResponse","Power3 state failed to apply", -1)
updateStatus("Complete:Fail")
}
break
case ["POWER4"]:
log("hubitatResponse","Command: Power4 ${body.POWER4}", 0)
if (ActionValue.equalsIgnoreCase(body.POWER4) ){
log ("hubitatResponse","Power4 state applied successfully", 0)
updateStatus("Complete:Success")
//We got the response we were looking for so we can actually change the state of the switch in the UI.
//If the switch is turned off then the power statistics must be zero. However, if TSync is enabled then it will fire a Sync anyway.
sendEvent(name: "switch4", value: ActionValue.toLowerCase(), descriptionText: "The switch4 has been turned ${ActionValue.toLowerCase()}", isStateChange: true )
}
else {
log("hubitatResponse","Power4 state failed to apply", -1)
updateStatus("Complete:Fail")
}
break
case ["POWER5"]:
log("hubitatResponse","Command: Power5 ${body.POWER5}", 0)
if (ActionValue.equalsIgnoreCase(body.POWER5) ){
log ("hubitatResponse","Power5 state applied successfully", 0)
updateStatus("Complete:Success")
//We got the response we were looking for so we can actually change the state of the switch in the UI.
//If the switch is turned off then the power statistics must be zero. However, if TSync is enabled then it will fire a Sync anyway.
sendEvent(name: "switch5", value: ActionValue.toLowerCase(), descriptionText: "The switch5 has been turned ${ActionValue.toLowerCase()}", isStateChange: true )
}
else {
log("hubitatResponse","Power5 state failed to apply", -1)
updateStatus("Complete:Fail")
}
break
case ["POWER6"]:
log("hubitatResponse","Command: Power6 ${body.POWER6}", 0)
if (ActionValue.equalsIgnoreCase(body.POWER6) ){
log ("hubitatResponse","Power6 state applied successfully", 0)
updateStatus("Complete:Success")
//We got the response we were looking for so we can actually change the state of the switch in the UI.
//If the switch is turned off then the power statistics must be zero. However, if TSync is enabled then it will fire a Sync anyway.
sendEvent(name: "switch6", value: ActionValue.toLowerCase(), descriptionText: "The switch6 has been turned ${ActionValue.toLowerCase()}", isStateChange: true )
}
else {
log("hubitatResponse","Power6 state failed to apply", -1)
updateStatus("Complete:Fail")
}
break
case ["POWER7"]:
log("hubitatResponse","Command: Power7 ${body.POWER7}", 0)
if (ActionValue.equalsIgnoreCase(body.POWER7) ){
log ("hubitatResponse","Power7 state applied successfully", 0)
updateStatus("Complete:Success")
//We got the response we were looking for so we can actually change the state of the switch in the UI.
//If the switch is turned off then the power statistics must be zero. However, if TSync is enabled then it will fire a Sync anyway.
sendEvent(name: "switch7", value: ActionValue.toLowerCase(), descriptionText: "The switch7 has been turned ${ActionValue.toLowerCase()}", isStateChange: true )
}
else {
log("hubitatResponse","Power7 state failed to apply", -1)
updateStatus("Complete:Fail")
}
break
case ["POWER8"]:
log("hubitatResponse","Command: Power8 ${body.POWER8}", 0)
if (ActionValue.equalsIgnoreCase(body.POWER8) ){
log ("hubitatResponse","Power8 state applied successfully", 0)
updateStatus("Complete:Success")
//We got the response we were looking for so we can actually change the state of the switch in the UI.
//If the switch is turned off then the power statistics must be zero. However, if TSync is enabled then it will fire a Sync anyway.
sendEvent(name: "switch8", value: ActionValue.toLowerCase(), descriptionText: "The switch8 has been turned ${ActionValue.toLowerCase()}", isStateChange: true )
}
else {
log("hubitatResponse","Power8 state failed to apply", -1)
updateStatus("Complete:Fail")
}
break
case ["TELEPERIOD"]:
log("hubitatResponse","Command: TelePeriod ${body.TELEPERIOD}", 1)
if (ActionValue.toInteger() == body.TELEPERIOD)
{
log ("hubitatResponse","TelePeriod applied successfully", 0)
state.TelePeriod = body.TELEPERIOD
updateStatus("Complete:Success")
}
else {
log("hubitatResponse","TelePeriod failed to apply", -1)
updateStatus("Complete:Fail")
}
break
case ["BACKLOG"]:
//Backlog commands do not return anything useful to indicate success or failure. A typical response might be [WARNING:Enable weblog 2 if response expected]. But the bulb may be in weblog 4 and get a different response.
//If we come back to this spot we know a BACKLOG command was issued and SOMETHING came back so we know the command at least got to the device.
log ("hubitatResponse","Backlog Command acknowledged.", 0)
updateStatus("Complete:Backlogged")
break
case ["STATE"]:
//Synchronise the UI to the values we get from the device via the STATE command. Typical response looks like this
//{"Time":"2022-04-12T06:20:36","Uptime":"0T10:05:13","UptimeSec":36313,"Heap":26,"SleepMode":"Dynamic","Sleep":50,"LoadAvg":19,"MqttCount":0,"Power":"OFF","Dimmer":68,"Color":"00000000AD",
//"HSBColor":"248,84,0","White":68,"CT":500,"Channel":[0,0,0,0,68],"Scheme":0,"Fade":"OFF","Speed":20,"LedTable":"ON","Wifi":{"AP":1,"SSId":"5441","BSSId":"A0:04:60:95:0E:62","Channel":6,"Mode":"11n",
//"RSSI":100,"Signal":-47,"LinkCount":1,"Downtime":"0T00:00:06"}}
log ("hubitatResponse","Setting device handler values to match device.", 0)
if (body?.POWER) sendEvent(name: "switch", value: body.POWER.toLowerCase(), displayed:false)
if (body?.POWER1) sendEvent(name: "switch", value: body.POWER1.toLowerCase(), displayed:false)
if (body?.POWER2) sendEvent(name: "switch2", value: body.POWER2.toLowerCase(), displayed:false)
if (body?.POWER3) sendEvent(name: "switch3", value: body.POWER3.toLowerCase(), displayed:false)
if (body?.POWER4) sendEvent(name: "switch4", value: body.POWER4.toLowerCase(), displayed:false)
if (body?.POWER5) sendEvent(name: "switch5", value: body.POWER5.toLowerCase(), displayed:false)
if (body?.POWER6) sendEvent(name: "switch6", value: body.POWER6.toLowerCase(), displayed:false)
if (body?.POWER7) sendEvent(name: "switch7", value: body.POWER7.toLowerCase(), displayed:false)
if (body?.POWER8) sendEvent(name: "switch8", value: body.POWER8.toLowerCase(), displayed:false)
updateStatus("Complete:Success")
break
default:
//Response to any other undefined commands will come here. This is most likely because of a custom command
//If we come back to this spot we know a command was issued and SOMETHING came back so we know the command at least got to the device.
log ("hubitatResponse","Command acknowledged.", 0)
updateStatus("Complete")
break
}
}
log ("hubitatResponse","Closing Transaction", 1)
state.inTransaction = false
log ("hubitatResponse","Exiting", 1)
}
//*****************************************************************************************************************************************************************************************************
//******
//****** End of hubitatResponse()
//******
//*****************************************************************************************************************************************************************************************************
//*************************************************************************************************************************************************************************************************************
//******
//****** UNIQUE: The only things that get routed here are expected responses to commands issued through Hubitat.
//******
//*************************************************************************************************************************************************************************************************************
def syncTasmota(body){
log ("syncTasmota", "Data received: ${body}", 0)
//This is a special case that only happens when the rules are being injected
if (state.ruleInjection == true){
log ("syncTasmota", "Rule3 special case complete.", 1)
state.ruleInjection = false
state.inTransaction = false
log ("syncTasmota","Closing Transaction", 2)
updateStatus("Complete:Success")
return
}
//Let's see how long it's been since the last command initiated by Hubitat. If it is less than X seconds we will ignore this sync request as it is an "echo" of the Hubitat request.
elapsed = now() - state.startTime
if (elapsed > settings.debounce){
log ("syncTasmota", "Tasmota Sync request processing.", 1)
state.Action = "Tasmota"
state.ActionValue = "Sync"
state.lastTasmotaSync = new Date().format('yyyy-MM-dd HH:mm:ss')
//Now parse into JSON to extract data.
body = parseJson(body)
//Preset the values for when the %vars% are empty
switch1 = -1 ; switch2 = -1 ; switch3 = -1 ; switch4 = -1 ; switch5 = -1 ; switch6 = -1 ; switch7 = -1 ; switch8 = -1
current = -1 ; voltage = -1 ; power = -1 ; apparentPower = -1 ; energyToday = -1 ; energyTotal = -1 ; energyYesterday = -1 ; powerFactor = -1 ; reactivePower = -1
//A value of '' for any of these means no update. Probably because the device has restarted and the %vars% have not repopulated. This is expected.
if (body?.CURRENT != '') { current = body?.CURRENT ; log ("syncTasmota","Current is: ${current}", 2) }
if (body?.VOLTAGE != '') { voltage = body?.VOLTAGE ; log ("syncTasmota","Voltage is: ${voltage}", 2) }
if (body?.POWER != '') { power = body?.POWER ; log ("syncTasmota","Power is: ${power}", 2) }
if (body?.APPARENTPOWER != '') { apparentPower = body?.APPARENTPOWER ; log ("syncTasmota","apparentPower is: ${apparentPower}", 2) }
if (body?.TODAY != '') { energyToday = body?.TODAY ; log ("syncTasmota","energyToday is: ${energyToday}", 2) }
if (body?.TOTAL != '') { energyTotal = body?.TOTAL ; log ("syncTasmota","energyTotal is: ${energyTotal}", 2) }
if (body?.YESTERDAY != '') { energyYesterday = body?.YESTERDAY ; log ("syncTasmota","energyYesterday is: ${energyYesterday}", 2) }
if (body?.FACTOR != '') { powerFactor = body?.FACTOR ; log ("syncTasmota","powerFactor is: ${powerFactor}", 2) }
if (body?.REACTIVEPOWER != '') { reactivePower = body?.REACTIVEPOWER ; log ("syncTasmota","reactivePower is: ${reactivePower}", 2) }
//A value of '' for any of these means no update. Probably because the device has restarted and the %vars% have not repopulated. This is expected.
if (body?.SWITCH1 != '') { switch1 = body?.SWITCH1 ; log ("syncTasmota","Switch 1 is: ${switch1}", 2) }
if (body?.SWITCH2 != '') { switch2 = body?.SWITCH2 ; log ("syncTasmota","Switch 2 is: ${switch2}", 2) }
if (body?.SWITCH3 != '') { switch3 = body?.SWITCH3 ; log ("syncTasmota","Switch 3 is: ${switch3}", 2) }
if (body?.SWITCH4 != '') { switch4 = body?.SWITCH4 ; log ("syncTasmota","Switch 4 is: ${switch4}", 2) }
if (body?.SWITCH5 != '') { switch5 = body?.SWITCH5 ; log ("syncTasmota","Switch 5 is: ${switch5}", 2) }
if (body?.SWITCH6 != '') { switch6 = body?.SWITCH6 ; log ("syncTasmota","Switch 6 is: ${switch6}", 2) }
if (body?.SWITCH7 != '') { switch7 = body?.SWITCH7 ; log ("syncTasmota","Switch 7 is: ${switch7}", 2) }
if (body?.SWITCH8 != '') { switch8 = body?.SWITCH8 ; log ("syncTasmota","Switch 8 is: ${switch8}", 2) }
//Now apply any changes that have been found. In Tasmota, "power" is the switch state unless referring to sensor data.
if ( switch1?.toInteger() == 0 ) sendEvent(name: "switch", value: "off", descriptionText: "Switch was turned off.")
if ( switch1?.toInteger() == 1 ) sendEvent(name: "switch", value: "on", descriptionText: "Switch was turned on.")
if ( switch2?.toInteger() == 0 ) sendEvent(name: "switch2", value: "off", descriptionText: "Switch 2 was turned off.")
if ( switch2?.toInteger() == 1 ) sendEvent(name: "switch2", value: "on", descriptionText: "Switch 2 was turned on.")
if ( switch3?.toInteger() == 0 ) sendEvent(name: "switch3", value: "off", descriptionText: "Switch 3 was turned off.")
if ( switch3?.toInteger() == 1 ) sendEvent(name: "switch3", value: "on", descriptionText: "Switch 3 was turned on.")
if ( switch4?.toInteger() == 0 ) sendEvent(name: "switch4", value: "off", descriptionText: "Switch 4 was turned off.")
if ( switch4?.toInteger() == 1 ) sendEvent(name: "switch4", value: "on", descriptionText: "Switch 4 was turned on.")
if ( switch5?.toInteger() == 0 ) sendEvent(name: "switch5", value: "off", descriptionText: "Switch 5 was turned off.")
if ( switch5?.toInteger() == 1 ) sendEvent(name: "switch5", value: "on", descriptionText: "Switch 5 was turned on.")
if ( switch6?.toInteger() == 0 ) sendEvent(name: "switch6", value: "off", descriptionText: "Switch 6 was turned off.")
if ( switch6?.toInteger() == 1 ) sendEvent(name: "switch6", value: "on", descriptionText: "Switch 6 was turned on.")
if ( switch7?.toInteger() == 0 ) sendEvent(name: "switch7", value: "off", descriptionText: "Switch 7 was turned off.")
if ( switch7?.toInteger() == 1 ) sendEvent(name: "switch7", value: "on", descriptionText: "Switch 7 was turned on.")
if ( switch8?.toInteger() == 0 ) sendEvent(name: "switch8", value: "off", descriptionText: "Switch 8 was turned off.")
if ( switch8?.toInteger() == 1 ) sendEvent(name: "switch8", value: "on", descriptionText: "Switch 8 was turned on.")
//Send Wattage information if configured. Ignore anything less than 0.
if (settings?.relayType.toInteger() >= 1 ){
if ( power?.toFloat() >= 0 ) sendEvent(name: "power", value: power, unit: "Watts")
}
//Send current and voltage events if configured. Ignore anything less than 0.
if (settings?.relayType.toInteger() >= 2 ){
if ( current?.toFloat() >= 0 ) sendEvent(name: "current", value: current, unit: "Amps" )
if ( voltage?.toFloat() >= 0 ) sendEvent(name: "voltage", value: voltage, unit: "Volts" )
}
//Send remaining Tasmota Energy events if configured. Ignore anything less than 0.
if (settings?.relayType.toInteger() >= 3 ){
if ( apparentPower?.toFloat() >= 0 ) sendEvent(name: "apparentPower", value: apparentPower, unit: "VA" )
if ( energyToday?.toFloat() >= 0 ) sendEvent(name: "energyToday", value: energyToday, unit: "kWh" )
if ( energyTotal?.toFloat() >= 0 ) sendEvent(name: "energyTotal", value: energyTotal, unit: "kWh" )
if ( energyYesterday?.toFloat() >= 0 ) sendEvent(name: "energyYesterday", value: energyYesterday, unit: "kWh" )
if ( powerFactor?.toFloat() >= 0 ) sendEvent(name: "powerFactor", value: powerFactor )
if ( reactivePower?.toFloat() >= 0 ) sendEvent(name: "reactivePower", value: reactivePower, unit: "VAr" )
}
updateStatus ("Complete:Tasmota Sync")
log ("syncTasmota", "Sync completed. Exiting", 0)
return
}
else {
log ("syncTasmota", "Tasmota Sync request debounced. Exiting.", 0)
log ("syncTasmota", "Elapsed time of ${elapsed}ms is less than debounce limit of ${settings.debounce}. This can be adjusted in settings.", 1)
}
}
//*****************************************************************************************************************************************************************************************************
//******
//****** End of syncTasmota()
//******
//*****************************************************************************************************************************************************************************************************
//*************************************************************************************************************************************************************************************************************
//******
//****** UNIQUE: The only things that gets routed here are responses to requests for Sensor updates. Not used in this particular driver.
//******
//*************************************************************************************************************************************************************************************************************
def statusResponse(body){
log ("statusResponse", "Entering, data Received.", 1)
log ("statusResponse", "Raw data is: ${body}.", 1)
//Now parse into JSON to extract data.
body = parseJson(body)
//STATUS 1 - 12 calls return data fields about Tasmota. STATUS 8 returns sensor data and is probably the most important to Hubitat.
if ( (state.ActionValue == "8") && (body.STATUSSNS.ENERGY != null) )
{
state.lastSensorData = new Date().format('yyyy-MM-dd HH:mm:ss')
//Update the Power\Watts information.
if (settings.relayType.toInteger() >= 1){
if (body?.STATUSSNS?.ENERGY?.POWER != null ) {
log("updateData", "Watts is: ${body.STATUSSNS.ENERGY.POWER}" , 2)
sendEvent(name: "power", value: body.STATUSSNS.ENERGY.POWER )
}
}
//Update Current and Voltage
if (settings.relayType.toInteger() >= 2){
if (body?.STATUSSNS?.ENERGY?.CURRENT != null ) { log("updateData", "Current is: ${body.STATUSSNS.ENERGY.CURRENT}" , 2) ; sendEvent(name: "current", value: body.STATUSSNS.ENERGY.CURRENT ) }
if (body?.STATUSSNS?.ENERGY?.VOLTAGE != null ) { log("updateData", "Voltage is: ${body.STATUSSNS.ENERGY.VOLTAGE}" , 2) ; sendEvent(name: "voltage", value: body.STATUSSNS.ENERGY.VOLTAGE ) }
}
//Update remaining Tasmota Energy attributes
if (settings.relayType.toInteger() >= 3){
if (body?.STATUSSNS?.ENERGY?.APPARENTPOWER != null ) { log("updateData", "Apparent Power is: ${body.STATUSSNS.ENERGY.APPARENTPOWER}" , 2) ; sendEvent(name: "apparentPower", value: body.STATUSSNS.ENERGY.APPARENTPOWER ) }
if (body?.STATUSSNS?.ENERGY?.TODAY != null ) { log("updateData", "Energy Today is: ${body.STATUSSNS.ENERGY.TODAY}" , 2) ; sendEvent(name: "energyToday", value: body.STATUSSNS.ENERGY.TODAY ) }
if (body?.STATUSSNS?.ENERGY?.TOTAL != null ) { log("updateData", "Energy Total is: ${body.STATUSSNS.ENERGY.TOTAL}" , 2) ; sendEvent(name: "energyTotal", value: body.STATUSSNS.ENERGY.TOTAL ) }
if (body?.STATUSSNS?.ENERGY?.YESTERDAY != null ) { log("updateData", "Energy Yesterday is: ${body.STATUSSNS.ENERGY.YESTERDAY}" , 2) ; sendEvent(name: "energyYesterday", value: body.STATUSSNS.ENERGY.YESTERDAY ) }
if (body?.STATUSSNS?.ENERGY?.FACTOR != null ) { log("updateData", "Power Factor is: ${body.STATUSSNS.ENERGY.POWERFACOR}" , 2) ; sendEvent(name: "powerFactor", value: body.STATUSSNS.ENERGY.FACTOR ) }
if (body?.STATUSSNS?.ENERGY?.REACTIVEPOWER != null ) { log("updateData", "Reactive Power is: ${body.STATUSSNS.ENERGY.REACTIVEPOWER}" , 2) ; sendEvent(name: "reactivePower", value: body.STATUSSNS.ENERGY.REACTIVEPOWER ) }
}
log("statusResponse","STATUS 8 - ENERGY values processed.", 0)
updateStatus("Complete:Success")
}
else
{
log("statusResponse","STATUS 8 - NO ENERGY data found.", 0)
updateStatus("Complete:No Data")
}
log ("statusResponse","Closing Transaction", 1)
state.inTransaction = false
log ("statusResponse","Exiting", 1)
}
//******** End of statusResponse() ***************************************************************************************************************************************************************************
//*************************************************************************************************************************************************************************************************************
//******
//****** UNIQUE: Installs the rule onto the Tasmota device and enables it.
// Note that the variables are initially empty and the bulb has go through a change in Power, Color, Dimmer, CT, Fade and Speed before the values are all populated.
// This function is very unique on a driver by driver basis as the triggers are all different.
//******
//*************************************************************************************************************************************************************************************************************
//This version of the function dynamically allocates variables and builds the rule based on the switchCount.
//Design to handle any number of relays from 1 - 8
//Also handles Energy monitoring triggers when specified in settings.
def tasmotaInjectRule(){
log ("Action - tasmotaInjectRule","Injecting Rule3 into Tasmota Host. To verify go to Tasmota console and type: rule 3", 0)
state.ruleInjection = true
//Variables used in assembling final rule3 string
varString1 = ""
varString2 = ""
rule3 = ""
//start the use of vars at the highest possible number. var15 and 16 are reserved for comparisons.
nextVar = 14 - switchCount + 1
//Build a list of Triggers for this configuration
//This formatting keeps things roughly consistent with how rule3 is built in the Universal Sensor driver.
log ("tasmotaInjectRule", "Relay Type:" + settings.relayType.toInteger(), 0)
def triggers = "[]"
if ( settings.relayType.toInteger() == 0 ) triggers = "[]"
if ( settings.relayType.toInteger() == 1 ) triggers = "[Tele-ENERGY#POWER]"
if ( settings.relayType.toInteger() == 2 ) triggers = "[Tele-ENERGY#POWER,Tele-ENERGY#VOLTAGE,Tele-ENERGY#CURRENT]"
if ( settings.relayType.toInteger() == 3 ) triggers = "[Tele-ENERGY#POWER,Tele-ENERGY#VOLTAGE,Tele-ENERGY#CURRENT,Tele-ENERGY#APPARENTPOWER,Tele-ENERGY#TODAY,Tele-ENERGY#TOTAL,Tele-ENERGY#YESTERDAY,Tele-ENERGY#FACTOR,Tele-ENERGY#REACTIVEPOWER]"
temp = triggers.replace("[","")
temp = temp.replace("]","")
triggers = temp.tokenize(',')
triggerCount = triggers.size
log("tasmotaInjectRule", "triggers list is: " + triggers.toString() , 1)
log("tasmotaInjectRule", "trigger count is: " + triggerCount , 1)
nextVar = nextVar - triggerCount
startVar = nextVar
//Iterate through each switch and add a Power#State trigger to the rule.
i = 1
while ( i <= switchCount ) {
rule3 = rule3 + "ON Power${i}#state DO backlog0 Var${nextVar} %value% ; RuleTimer1 1 ENDON "
varString1 = varString1 + "'%var${nextVar}%',"
varString2 = varString2 + "'SWITCH${i}':'%var${nextVar}%',"
i++
nextVar++
}
//Iterate through each trigger and add a Tele-Energy#Value trigger to the rule.
triggers.each { trigger ->
log("tasmotaInjectRule", "trigger name is: " + trigger , 1)
rule3 = rule3 + "ON ${trigger} DO backlog0 var${nextVar} %value% ; RuleTimer1 1 ENDON "
//Build strings that will be used in the final rules.
varString1 = varString1 + "'%var${nextVar}%',"
attribute = trigger.substring(trigger.lastIndexOf("#")+1)
log("tasmotaInjectRule", "Attribute is: " + attribute , 1)
varString2 = varString2 + "'${attribute}':'%var${nextVar}%',"
nextVar = nextVar + 1
}
//Clean up the varStrings to remove the trailing character
varString1 = varString1.substring(0, varString1.length() - 1)
varString2 = varString2.substring(0, varString2.length() - 1)
log("tasmotaInjectRule", "varString1 is: " + varString1 , 2)
log("tasmotaInjectRule", "varString2 is: " + varString2 , 2)
//Assemble the final rule3.
rule3 = rule3 + "ON Rules#Timer=1 DO var15 " + varString1 + " ENDON "
rule3 = rule3 + "ON var15#State\$!%var16% DO backlog ; var16 %var15% ; webquery http://" + settings.HubIP + ":39501/ POST {'TSync':'True'," + varString2 + "} ENDON "
//Now install the rule onto Tasmota
callTasmota("RULE3", rule3)
log("tasmotaInjectRule", "rule3 is: " + rule3 , 0)
clearVars = ""
command = ""
//Create a string that we can use to clear the VARs whenever the rule changes
i = startVar
while ( i < 15 ) { command = command + "VAR${i}" + '""' + ";" ; i++ }
//Now clear all the VARs that were used and make sure the rule is turned on.
command = command + " RULE3 ON"
def parameters = ["BACKLOG","${command}"]
log("tasmotaInjectRule", "parameters is: " + parameters , 0)
//Runs the prepared BACKLOG command after the latest that last command could have finished.
runInMillis(remainingTime() + 50, "callTasmota", [data:parameters])
}
//*********************************************************************************************************************************************************************
//******
//****** End of main program section
//******
//*********************************************************************************************************************************************************************
//*********************************************************************************************************************************************************************
//*********************************************************************************************************************************************************************
//********************** *****************************************************************************************************************
//********************** END OF UNIQUE FUNCTIONS *****************************************************************************************************************
//********************** EVERYTHING BELOW HERE IS *****************************************************************************************************************
//********************** COMMON CODE FOR ALL TSYNC *****************************************************************************************************************
//********************** FAMILY OF DRIVERS *****************************************************************************************************************
//********************** *****************************************************************************************************************
//*********************************************************************************************************************************************************************
//*********************************************************************************************************************************************************************
/*
* CORE - IDENTICAL - CHANGELOG
* All changes to code in the CORE section will be commented here. Changes to the UNIQUE section that are made across all drivers will also be commented here.
* Version 0.91 - Internal version
* Version 0.92E - Global rename of some variables
* Version 0.93A - Enhancement of Tasmota rules to provide more granular data and less MEM usage. Although in the unique section this change was made across all drivers.
* Version 0.93B - Enhancement of Tasmota rules to use only a single MEM register.
* Version 0.94C - Tasmota rules moved to all VAR use, no MEM. Driver handles non-populated TSync fields.
* Version 0.95A - Updates to parse to handle inTransaction logic and reject lan messages after timeout window has closed.
* Version 0.95B - Added toggle function and state variables for lastOff and lastOn
* Version 0.96A - Tweaks to formatting of logging.
* Version 0.96B - Added logging enhancements with HTML tags. Added blue highlight to key fields in preferences.
* Version 0.96C - Added handling for Tasmota "WARNING" message that occurs when authentication fails and possibly other scenarios.
* Version 0.97 - Added option in settings to disable use of HTML enhancements in logging. These do not show correctly on a secondary hub in a two+ hub environment. This option allows them to be disabled.
* Version 0.98.0 - Changed versioning to comply with Semantic Versioning standards (https://semver.org/). Moved CORE changelog to beginning of CORE section.
* Version 0.98.1 - Added a "warning" category and label to the logging section.
* Version 0.98.2 - Added a "tooltip" function into the HTML area. Not yet being used.
*
*/
//*********************************************************************************************************************************************************************
//******
//****** STANDARD: Start of System Required Function
//******
//*********************************************************************************************************************************************************************
//Installed gets run when the device driver is selected and saved
def installed(){
log ("Installed", "Installed with settings: ${settings}", 0)
}
//Updated gets run when the "Save Preferences" button is clicked
def updated(){
log ("Update", "Settings: ${settings}", 0)
initialize()
}
//Uninstalled gets run when called from a parent app???
def uninstalled() {
log ("Uninstall", "Device uninstalled", 0)
}
//********************************************************************************************************************************************************************
//******
//****** End of System Required functions
//******
//********************************************************************************************************************************************************************
//**************************************************************************************************************************************************************************
//******
//****** STANDARD: Start of Background task run by Hubitat - Is executed by the polling function which syncs the state of the device with the UI. The device being considered authoritative.
//****** All of these functions are IDENTICAL across all Tasmota Sync drivers
//******
//**************************************************************************************************************************************************************************
//Runs on a frequency determined by the user. It will synchronize the Hubitat values to those of the actual device.
//This function is only called internally and is used to schedule future refreshes. Polling is not require with Tasmota 11 and Rule3 installed.
def poll(nextPoll){
log ("Poll", "Polling started.. ", 0)
refresh()
log ("Poll", "Polling ended. Next poll in ${settings.pollFrequency} seconds.", 0)
}
//This function is called settings.timeout milliseconds after the the transaction started.
//If the transaction has timed then it resets out and resets any temporary values.
def watchdog(){
if (state.inTransaction == false ) {
log ("watchdog", "All normal. Not in a transaction.", 2)
}
else
{
log ("watchdog", "Transaction timed out. Cancelled.", 2)
updateStatus("Complete:Timeout")
//If the transaction has not finished successfully then we should mark it complete now the timeout has expired.
state.inTransaction = false
}
state.remove("ruleInjection")
log ("watchdog", "Finished.", 1)
//If the last command was a backlog then we don't really know what happened so we should do a refresh.
if ( state.Action == "BACKLOG" ) {
log ("watchdog", "Last command was a BACKLOG. Initiating STATE refresh for current settings.", 0)
//Calculate when the current operations should be finished and schedule the "STATE" command to run after them.
def parameters = ["STATE",""]