/*
* UnifiNetworkChild-UCGMax
*
* Description:
* This Hubitat driver provides a spot to put data from Unifi Cloud Gateway Max device
*
* Instructions for using Tile method:
* 1) In "Preferences -> Tile Template" enter your template (example below) and click "Save Preferences"
* Ex: "[b]Temperature:[/b] @temperature@°@location.getTemperatureScale()@[/br]"
* 2) In a Hubitat dashboard, add a new tile, and select the child/sensor, in the center select "Attribute", and on the right select the "Tile" attribute
* 3) Select the Add Tile button and the tile should appear
* NOTE1: Put a @ before and after variable names
* NOTE2: Should accept most HTML formatting commands with [] instead of <>
*
* Features List:
* Ability to check a website (mine) to notify user if there is a newer version of the driver available
* Ability to change port names
* Ability to start/stop device location signaling
* Ability to turn on/off device LEDs
* Ability to restart device
* Ability to set LED color and brightness if device is capable
* Holds a variety of data as attributes for use by other areas of Hubitat hub
*
* Licensing:
* Copyright 2025 David Snell
* 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.
*
* Version Control:
* 0.1.1 - Added ability to name ports
* 0.1.0 - Initial version
*
* Thank you(s):
* @Cobra for inspiration of driver version checking
* @mircolino for original concept of HTML Template method
*/
// Returns the driver name
def DriverName(){
return "UnifiNetworkChild-UCGMax"
}
// Returns the driver version
def DriverVersion(){
return "0.1.1"
}
// Driver Metadata
metadata{
definition( name: "UnifiNetworkChild-UCGMax", namespace: "Snell", author: "David Snell", importUrl: "https://www.drdsnell.com/projects/hubitat/drivers/UnifiNetworkChild-UCGMax.groovy" ) {
capability "PresenceSensor" // Adds an attribute "presence" with possible values of "present" or "not present"
capability "TemperatureMeasurement"
capability "Actuator"
capability "Refresh"
// Commands
command "StartLocateDevice"
command "StopLocateDevice"
command "LEDOn"
command "LEDOff"
command "SetPortName", [
[ name: "Port", type: "ENUM", constraints: [ 1, 2, 3, 4, 5 ], description: "Enter Port # (ex: 1 ... 5)" ],
[ name: "State", type: "STRING", defaultValue: "Port #", description: "Port's Name" ]
] // Sets the name of the port
command "SetLEDColor", [ [ name: "RGB*", type: "STRING", description: "RGB Color (HTML: 000000 to FFFFFF format)" ] ]
command "SetLEDBrightness", [ [ name: "Brightness*", type: "NUMBER", constraints: [ 0 .. 100 ], description: "Brightness from 0 to 100" ] ]
command "RestartDevice"
// Attributes - Driver Related
attribute "DriverName", "string" // Identifies the driver being used for update purposes
attribute "DriverVersion", "string" // Handles version for driver
attribute "DriverStatus", "string" // Handles version notices for driver
// Attributes - Device Related
attribute "LastSeen", "string" // Date/Time the device was last seen by the Unifi controller
attribute "Memory Usage", "number"
attribute "CPU Usage", "number"
attribute "Overheating", "string"
attribute "Satisfaction", "number"
attribute "Model LTS", "string"
attribute "Model EOL", "string"
attribute "CPU Temperature", "number"
attribute "PHY Temperature", "number"
attribute "Local Temperature", "number"
attribute "LED Override", "string"
attribute "LED Color", "string"
attribute "Speedtest Download", "number"
attribute "Speedtest Upload", "number"
attribute "Uplink", "map"
attribute "Port 01 Status", "map"
attribute "Port 02 Status", "map"
attribute "Port 03 Status", "map"
attribute "Port 04 Status", "map"
attribute "Port 05 Status", "map"
attribute "Uptime", "string"
attribute "Last_WAN_IP", "string"
attribute "WAN1 Average Latency", "number"
attribute "WAN1 Availability", "number"
attribute "WAN2 Average Latency", "number"
attribute "WAN2 Availability", "number"
attribute "IP", "string"
attribute "DeviceVersion", "string"
// Tile Template attribute
attribute "Tile", "string"; // Ex: "[b]Temperature:[/b] @temperature@°@location.getTemperatureScale()@[/br]"
}
preferences{
//section{
if( ShowAllPreferences ){
if( state.DeviceName != null ){
input( type: "string", name: "DeviceName", title: "Device Name", description: "If set it will change the device's name on the controller.", defaultValue: "${ state.DeviceName }" )
} else {
input( type: "string", name: "DeviceName", title: "Device Name", description: "If set it will change the device's name on the controller.", defaultValue: "" )
}
input( name: "TileTemplate", type: "string", title: "Tile Template", description: "Ex: [b]Temperature:[/b] @temperature@°@location.getTemperatureScale()@[/br]", defaultValue: "");
input( type: "enum", name: "LogType", title: "Enable Logging?", required: false, multiple: false, options: [ "None", "Info", "Debug", "Trace" ], defaultValue: "Info" )
input( type: "bool", name: "ShowAllPreferences", title: "Show All Preferences?", defaultValue: true )
} else {
input( type: "bool", name: "ShowAllPreferences", title: "Show All Preferences?", defaultValue: true )
}
//}
}
}
// SetDefaults sets "unknown" as initial value for some attributes of the device
def SetDefaults( boolean isMax = false ){
for( int x = 1; x <= 5; x++ ){
ProcessState( "Port 0${ x } Status", [ PortID: x, Name: "unknown", Enabled: "unknown", Media: "unknown", PoE: "unknown", PoE_Status: "unknown", PoE_Usage: "unknown", Speed: 0, Connected: "unknown" ] )
}
ProcessState( "Uplink", [ PortID: "unknown", Name: "unknown", Enabled: "unknown", Media: "unknown", Speed: 0, RemotePort: "unknown", UplinkDevice: "unknown" ] )
ProcessEvent( "LastSeen", "Unknown" )
ProcessEvent( "Overheating", "Unknown" )
ProcessEvent( "Model LTS", "Unknown" )
ProcessEvent( "Model EOL", "Unknown" )
ProcessEvent( "LED Override", "Unknown" )
ProcessEvent( "LED OnOff", "Unknown" )
}
// updated
def updated( boolean NewDevice = false ){
ProcessEvent( "DriverName", "${ DriverName() }" )
ProcessEvent( "DriverVersion", "${ DriverVersion() }" )
ProcessEvent( "DriverStatus", null )
if( LogType == null ){
LogType = "Info"
}
if( NewDevice != true ){
if( ( DeviceName != state.DeviceName ) ){
SendSettings()
}
}
def Hour = ( new Date().format( "h" ) as int )
def Minute = ( new Date().format( "m" ) as int )
def Second = ( new Date().format( "s" ) as int )
// Schedule checks that are only performed once a day
schedule( "${ Second } ${ Minute } ${ Hour } ? * *", "CheckForUpdate" )
Logging( "Updated", 2 )
}
// RestartDevice attempts to restart device
def RestartDevice(){
if( state.MAC != null ){
parent.RestartDevice( state.MAC )
} else {
Logging( "No MAC known for ${ device.getDeviceNetworkId() }, cannot restart.", 5 )
}
}
// Refresh the specific device's information
def refresh(){
if( state.MAC != null ){
parent.RefreshSpecificUnifiDevice( state.MAC )
} else {
Logging( "No MAC for ${ device.getDeviceNetworkId() }, cannot refresh.", 5 )
}
}
// Sets the name of the port
def SetPortName( String PortNumber, String Name ){
if( state.ID != null && state.MAC != null ){
parent.SetPortName( device.getDeviceNetworkId(), state.ID, state.MAC, PortNumber as int, Name )
} else {
Logging( "No ID or MAC for ${ device.getDeviceNetworkId() }, cannot set port name.", 5 )
}
}
// Set the color of the LED
def SetLEDColor( String RGB ){
if( state.ID != null ){
parent.SetLEDColor( device.getDeviceNetworkId(), state.ID, state.MAC, RGB )
} else {
Logging( "No ID for ${ device.getDeviceNetworkId() }, cannot set the device's LED.", 5 )
}
}
// Set the brightness of the LED
def SetLEDBrightness( Number Brightness ){
if( state.ID != null ){
parent.SetLEDBrightness( device.getDeviceNetworkId(), state.ID, state.MAC, Brightness )
} else {
Logging( "No ID for ${ device.getDeviceNetworkId() }, cannot set the device's LED.", 5 )
}
}
// Starts the device location method
def StartLocateDevice(){
if( state.MAC != null ){
parent.LocateDevice( state.MAC, "On" )
} else {
Logging( "No MAC for ${ device.getDeviceNetworkId() }, cannot locate/identify.", 5 )
}
}
// Stops the device location method
def StopLocateDevice(){
if( state.MAC != null ){
parent.LocateDevice( state.MAC, "Off" )
} else {
Logging( "No MAC for ${ device.getDeviceNetworkId() }, cannot locate/identify.", 5 )
}
}
// Turn on the device's status LED(s)
def LEDOn(){
if( state.ID != null ){
parent.SetLEDOnOff( device.getDeviceNetworkId(), state.ID, state.MAC, "On" )
} else {
Logging( "No ID for ${ device.getDeviceNetworkId() }, cannot set the device's LED.", 5 )
}
}
// Turn off the device's status LED(s)
def LEDOff(){
if( state.ID != null ){
parent.SetLEDOnOff( device.getDeviceNetworkId(), state.ID, state.MAC, "Off" )
} else {
Logging( "No ID for ${ device.getDeviceNetworkId() }, cannot set the device's LED.", 5 )
}
}
// Configure device settings based on Preferences
def SendSettings(){
if( state.ID != null ){
def Settings = ""
if( DeviceName != null && DeviceName != device.label ){
parent.SendChildSettings( device.getDeviceNetworkId(), state.ID, "{\"name\":\"${ DeviceName }\"${ Settings } }" )
} else {
parent.SendChildSettings( device.getDeviceNetworkId(), state.ID, "{\"name\":\"${ device.label }\"${ Settings } }" )
}
} else {
Logging( "No ID for ${ device.getDeviceNetworkId() }, cannot send settings", 5 )
}
}
// installed is called when the device is installed, all it really does is run updated
def installed(){
Logging( "Installed", 2 )
SetDefaults( false )
updated( true )
}
// initialize is called when the device is initialized, all it really does is run updated
def initialize(){
Logging( "Initialized", 2 )
updated( true )
}
// Return a state value
def ReturnState( Variable ){
return state."${ Variable }"
}
// Tile method to produce HTML formatted string for dashboard use
private void UpdateTile( String val ){
if( TileTemplate != null ){
def TempString = ""
Parsing = TileTemplate
Parsing = Parsing.replaceAll( "\\[", "<" )
Parsing = Parsing.replaceAll( "\\]", ">" )
Count = Parsing.count( "@" )
if( Count >= 1 ){
def x = 1
while( x <= Count ){
TempName = Parsing.split( "@" )[ x ]
switch( TempName ){
case "location.latitude":
Value = location.latitude
break
case "location.longitude":
Value = location.longitude
break
case "location.getTemperatureScale()":
Value = location.getTemperatureScale()
break
default:
Value = ReturnState( "${ TempName }" )
break
}
TempString = TempString + Parsing.split( "@" )[ ( x - 1 ) ] + Value
x = ( x + 2 )
}
if( Parsing.split( "@" ).last() != Parsing.split( "@" )[ Count - 1 ] ){
TempString = TempString + Parsing.split( "@" ).last()
}
} else if( Count == 1 ){
TempName = Parsing.split( "@" )[ 1 ]
switch( TempName ){
case "location.latitude":
Value = location.latitude
break
case "location.longitude":
Value = location.longitude
break
case "location.getTemperatureScale()":
Value = location.getTemperatureScale()
break
default:
Value = ReturnState( "${ TempName }" )
break
}
TempString = TempString + Parsing.split( "@" )[ 0 ] + Value
} else {
TempString = TileTemplate
}
Logging( "Tile = ${ TempString }", 4 )
sendEvent( name: "Tile", value: TempString )
}
}
// Process data to check against current state value and then send an event if it has changed
def ProcessEvent( Variable, Value, Unit = null, ForceEvent = false, Description = null ){
if( ForceEvent ){
sendEvent( name: Variable, value: Value, unit: Unit, isStateChange: true, descriptionText: Description )
} else {
sendEvent( name: Variable, value: Value, unit: Unit, descriptionText: Description )
}
Logging( "Event: ${ Variable } = ${ Value } Unit = ${ Unit } Forced = ${ ForceEvent }", 4 )
ProcessState( Variable, Value )
UpdateTile( "${ Value }" )
}
// Set a state variable to a value
def ProcessState( Variable, Value ){
Logging( "State: ${ Variable } = ${ Value }", 4 )
state."${ Variable }" = Value
UpdateTile( "${ Value }" )
}
// Handles whether logging is enabled and thus what to put there.
def Logging( LogMessage, LogLevel ){
// Add all messages as info logging
if( ( LogLevel == 2 ) && ( LogType != "None" ) ){
log.info( "${ device.displayName } - ${ LogMessage }" )
} else if( ( LogLevel == 3 ) && ( ( LogType == "Debug" ) || ( LogType == "Trace" ) ) ){
log.debug( "${ device.displayName } - ${ LogMessage }" )
} else if( ( LogLevel == 4 ) && ( LogType == "Trace" ) ){
log.trace( "${ device.displayName } - ${ LogMessage }" )
} else if( LogLevel == 5 ){
log.error( "${ device.displayName } - ${ LogMessage }" )
}
}
// Checks drdsnell.com for the latest version of the driver
// Original inspiration from @cobra's version checking
def CheckForUpdate(){
ProcessEvent( "DriverName", DriverName() )
ProcessEvent( "DriverVersion", DriverVersion() )
httpGet( uri: "https://www.drdsnell.com/projects/hubitat/drivers/versions.json", contentType: "application/json" ){ resp ->
switch( resp.status ){
case 200:
if( resp.data."${ DriverName() }" ){
CurrentVersion = DriverVersion().split( /\./ )
if( resp.data."${ DriverName() }".version == "REPLACED" ){
ProcessEvent( "DriverStatus", "Driver replaced, please use ${ resp.data."${ state.DriverName }".file }" )
} else if( resp.data."${ DriverName() }".version == "REMOVED" ){
ProcessEvent( "DriverStatus", "Driver removed and no longer supported." )
} else {
SiteVersion = resp.data."${ DriverName() }".version.split( /\./ )
if( CurrentVersion == SiteVersion ){
Logging( "Driver version up to date", 3 )
ProcessEvent( "DriverStatus", "Up to date" )
} else if( ( CurrentVersion[ 0 ] as int ) > ( SiteVersion [ 0 ] as int ) ){
Logging( "Major development ${ CurrentVersion[ 0 ] }.${ CurrentVersion[ 1 ] }.${ CurrentVersion[ 2 ] } version", 3 )
ProcessEvent( "DriverStatus", "Major development ${ CurrentVersion[ 0 ] }.${ CurrentVersion[ 1 ] }.${ CurrentVersion[ 2 ] } version" )
} else if( ( CurrentVersion[ 1 ] as int ) > ( SiteVersion [ 1 ] as int ) ){
Logging( "Minor development ${ CurrentVersion[ 0 ] }.${ CurrentVersion[ 1 ] }.${ CurrentVersion[ 2 ] } version", 3 )
ProcessEvent( "DriverStatus", "Minor development ${ CurrentVersion[ 0 ] }.${ CurrentVersion[ 1 ] }.${ CurrentVersion[ 2 ] } version" )
} else if( ( CurrentVersion[ 2 ] as int ) > ( SiteVersion [ 2 ] as int ) ){
Logging( "Patch development ${ CurrentVersion[ 0 ] }.${ CurrentVersion[ 1 ] }.${ CurrentVersion[ 2 ] } version", 3 )
ProcessEvent( "DriverStatus", "Patch development ${ CurrentVersion[ 0 ] }.${ CurrentVersion[ 1 ] }.${ CurrentVersion[ 2 ] } version" )
} else if( ( SiteVersion[ 0 ] as int ) > ( CurrentVersion[ 0 ] as int ) ){
Logging( "New major release ${ SiteVersion[ 0 ] }.${ SiteVersion[ 1 ] }.${ SiteVersion[ 2 ] } available", 2 )
ProcessEvent( "DriverStatus", "New major release ${ SiteVersion[ 0 ] }.${ SiteVersion[ 1 ] }.${ SiteVersion[ 2 ] } available" )
} else if( ( SiteVersion[ 1 ] as int ) > ( CurrentVersion[ 1 ] as int ) ){
Logging( "New minor release ${ SiteVersion[ 0 ] }.${ SiteVersion[ 1 ] }.${ SiteVersion[ 2 ] } available", 2 )
ProcessEvent( "DriverStatus", "New minor release ${ SiteVersion[ 0 ] }.${ SiteVersion[ 1 ] }.${ SiteVersion[ 2 ] } available" )
} else if( ( SiteVersion[ 2 ] as int ) > ( CurrentVersion[ 2 ] as int ) ){
Logging( "New patch ${ SiteVersion[ 0 ] }.${ SiteVersion[ 1 ] }.${ SiteVersion[ 2 ] } available", 2 )
ProcessEvent( "DriverStatus", "New patch ${ SiteVersion[ 0 ] }.${ SiteVersion[ 1 ] }.${ SiteVersion[ 2 ] } available" )
}
}
} else {
Logging( "${ DriverName() } is not published on drdsnell.com", 2 )
ProcessEvent( "DriverStatus", "${ DriverName() } is not published on drdsnell.com" )
}
break
default:
Logging( "Unable to check drdsnell.com for ${ DriverName() } driver updates.", 2 )
break
}
}
}