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ecowittgateway.groovy
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ecowittgateway.groovy
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/**
* Driver: Ecowitt WiFi Gateway
* Author: Mirco Caramori
* Repository: https://github.com/mircolino/ecowitt
* Import URL: https://raw.githubusercontent.com/mircolino/ecowitt/master/ecowitt_gateway.groovy
*
* 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.
*
* Change Log:
*
* 2020.04.24 - Initial implementation
* 2020.04.29 - Added GitHub versioning
* - Added support for more sensors: WH40, WH41, WH43, WS68 and WS80
* 2020.04.29 - Added sensor battery range conversion to 0-100%
* 2020.05.03 - Optimized state dispatch and removed unnecessary attributes
* 2020.05.04 - Added metric/imperial unit conversion
* 2020.05.05 - Gave child sensors a friendlier default name
* 2020.05.08 - Further state optimization and release to stable
* 2020.05.11 - HTML templates
* - Normalization of floating values
* 2020.05.12 - Added windDirectionCompass, ultravioletDanger, ultravioletColor, aqiIndex, aqiDanger, aqiColor attributes
* 2020.05.13 - Improved PM2.5 -> AQI range conversion
* - HTML template syntax checking and optimization
* - UI error handling using red-colored state text messages
* 2020.05.14 - Major refactoring and architectural change
* - PWS like the WS2902 are recognized and no longer split into multiple child sensors
* - Rain (WH40), Wind and Solar (WH80) and Outdoor Temp/Hum (WH32) if detected, are combined into a single
* virtual WS2902 PWS to improve HTML Templating
* - Fixed several imperial-metric conversion issues
* - Metric pressure is now converted to hPa
* - Laid the groundwork for identification and support of sensors WH41, WH55 and WH57
* - Added several calculated values such as windChill, dewPoint, heatIndex etc. with color and danger levels
* - Time of data received converted from UTC to hubitat default locale format
* - Added error handling using state variables
* - Code optimization
* 2020.05.22 - Added orphaned sensor garbage collection using "Resync Sensors" commands
* 2020.05.23 - Fixed a bug in the PM2.5 to AQI conversion
* 2020.05.24 - Fixed a possible command() and parse() race condition
* 2020.05.26 - Added icons support in the HTML template
* 2020.05.30 - Added HTML template repository
* - Added support for multiple (up to 5) HTML template to each child sensor
* - Fixed wind icon as direction is reported as "from" where the wind originates
* 2020.06.01 - Fixed a cosmetic bug where "pending" status would not be set on non-existing attributes
* 2020.06.02 - Added visual confirmation of "resync sensors pending"
* 2020.06.03 - Added last data received timestamp to the child drivers to easily spot if data is not being received from the sensor
* - Added battery icons (0%, 20%, 40%, 60%, 80%, 100%)
* - Reorganized error e/o status reporting, now displayed in a dedicated "status" attribute
* 2020.06.04 - Added the ability to enter the MAC address directly as a DNI in the parent device creation page
* 2020.06.05 - Added support for both MAC and IP addresses (since MACs don't work across VLANs)
* 2020.06.06 - Add importURL for easier updating
* 2020.06.08 - Added support for Lightning Detection Sensor (WH57)
* 2020.06.08 - Added support for Multi-channel Water Leak Sensor (WH55)
* 2020.06.21 - Added support for pressure correction to sea level based on altitude and temperature
* 2020.06.22 - Added preference to let the end-user decide whether to compound or not outdoor sensors
* Added custom battery attributes in bundled PWS sensors
* 2020.08.27 - Added user defined min/max voltage values to fine-tune battery status in sensors reporting it as voltage range
* Added Hubitat Package Manager repository tags
* 2020.08.27 - Fixed null exception caused by preferences being set asynchronously
* - Removed sensor "time" attribute which could cause excessive sendEvent activity
* 2020.08.31 - Added support for new Indoor Air Quality Sensor (WH45)
* - Optimized calculation of inferred values: dewPoint, heatIndex, windChill and AQI
* 2020.09.08 - Added support for Water/Soil Temperature Sensor (WH34)
* 2020.09.17 - Added (back) real-time AQI index, color and danger
* 2020.09.20 - https://github.com/lymanepp: Added Summer Simmer Index attributes
* - Added preferences to selectively calculate HeatIndex, SimmerIndex, WindChill and DewPoint on a per-sensor basis
* 2020.09.21 - https://github.com/lymanepp: Improved accuracy of dew point calculations
* 2020.10.02 - Added WeatherFlow Smart Weather Stations local UDP support
* 2020.10.06 - Fixed a minor issue with lightning attributes
* - Added new templates to the template repository
* 2020.10.09 - Fixed a regression causing a null exception when the lightning sensor reports no strikes
* 2020.10.27 - Changed the sensor DNI naming scheme which prevented the support for multiple gateways
* 2020.10.29 - In a virtual (bundled) PWS, now each individual component is correctly identified if orphaned
* - Added safeguards for heat, summer simmer and wind chill indexes to prevent invalid values when temperature is
* above or below a certain threshold
* 2021.02.04 - Added support for humidityAbs (absolute humidity) based on current relative humidity and temperature
* 2021.02.06 - Fixed WH45 temperature and humidity signature
* 2021.11-25 -lgk change attribute from time to lastUpdate to avoid weird output on device page.. also remove timeUtcToLocalOlf function and improve way to query date/time.
* 11/30/21 - lgk add parameters for using a weather device in a remote location so that dynamic dns ddns will work to resolve name and change ip address if it changes. Also
* add the function for this.
*
* 06/22 lgk add code for ws90
* 3/24 add dniupdatecmd so that it can be called via a rule as the auto schedule seems to be failing at times.
* also call dni update regardless if the field is not blank to see if that fixes issue with loosing connection.
*/
public static String version() { return "v1.23.17"; }
// Metadata -------------------------------------------------------------------------------------------------------------------
metadata {
definition(name: "Ecowitt WiFi Gateway", namespace: "mircolino", author: "Mirco Caramori", importUrl: "https://raw.githubusercontent.com/mircolino/ecowitt/master/ecowitt_gateway.groovy") {
capability "Sensor";
command "resyncSensors";
// Gateway info
attribute "driver", "string"; // Driver version (new version notification)
attribute "mac", "string"; // Address (either MAC or IP)
attribute "model", "string"; // Model number
attribute "firmware", "string"; // Firmware version
attribute "rf", "string"; // Sensors radio frequency
attribute "passkey", "string"; // PASSKEY
attribute "status", "string"; // Display current driver status
attribute "lastUpdate", "string";
attribute "dynamicIPResult","STRING"
attribute "upTime", "string"
command "DNIUpdateCMD"
}
preferences {
input(name: "macAddress", type: "string", title: "<font style='font-size:12px; color:#1a77c9'>MAC / IP Address</font>", description: "<font style='font-size:12px; font-style: italic'>Wi-Fi gateway MAC or IP address</font>", defaultValue: "", required: true);
input(name: "DDNSName", type: "text", title: "Dynamic DNS Name to use to resolve a changing ip address. Leave Blank if not used.", description: "Enter DDNS Name", required: false)
input(name: "DDNSRefreshTime", type: "number", title: "How often (in Hours) to check/resolve the DDNS Name to discover an IP address change on a remote weather station? (Range 1 - 1440, Default 24)?", range: "1..1440", defaultValue: 3, required: false)
input(name: "bundleSensors", type: "bool", title: "<font style='font-size:12px; color:#1a77c9'>Compound Outdoor Sensors</font>", description: "<font style='font-size:12px; font-style: italic'>Combine sensors in a virtual PWS array</font>", defaultValue: true);
input(name: "unitSystem", type: "enum", title: "<font style='font-size:12px; color:#1a77c9'>System of Measurement</font>", description: "<font style='font-size:12px; font-style: italic'>Unit system all values are converted to</font>", options: [0:"Imperial", 1:"Metric"], multiple: false, defaultValue: 0, required: true);
input(name: "logLevel", type: "enum", title: "<font style='font-size:12px; color:#1a77c9'>Log Verbosity</font>", description: "<font style='font-size:12px; font-style: italic'>Default: 'Debug' for 30 min and 'Info' thereafter</font>", options: [0:"Error", 1:"Warning", 2:"Info", 3:"Debug", 4:"Trace"], multiple: false, defaultValue: 3, required: true);
}
}
/*
* Data variables used by the driver:
*
* "sensorResync" // User command triggered condition to cleanup/resynchronize the sensors
* "sensorMap" // Map of whether sensors have been combined or not into a PWS
* "sensorBundled" // "true" is we have an actual bundled PWS
* "sensorList" // List of children IDs
*/
// Preferences ----------------------------------------------------------------------------------------------------------------
import groovy.json.JsonSlurper;
private String gatewayMacAddress() {
//
// Return the MAC or IP address as entered by the user, or the current DNI if one hasn't been entered yet
//
String address = settings.macAddress as String;
if (address == null) {
//
// *** This is a timing hack ***
// When the users sets the DNI at installation, we update the settings before
// calling update() but when we get here the setting is still null!
//
address = device.getDeviceNetworkId();
}
return (address);
}
// ------------------------------------------------------------
private Boolean bundleOutdoorSensors() {
//
// Return true if outdoor sensors are to be bundled together
//
if (settings.bundleSensors != null) return (settings.bundleSensors);
return (true);
}
// ------------------------------------------------------------
Boolean unitSystemIsMetric() {
//
// Return true if the selected unit system is metric
// Declared public because it's being used by the child-devices
//
if (settings.unitSystem != null) return (settings.unitSystem.toInteger() != 0);
return (false);
}
// ------------------------------------------------------------
Integer logGetLevel() {
//
// Get the log level as an Integer:
//
// 0) log only Errors
// 1) log Errors and Warnings
// 2) log Errors, Warnings and Info
// 3) log Errors, Warnings, Info and Debug
// 4) log Errors, Warnings, Info, Debug and Trace/diagnostic (everything)
//
// If the level is not yet set in the driver preferences, return a default of 2 (Info)
// Declared public because it's being used by the child-devices as well
//
if (settings.logLevel != null) return (settings.logLevel.toInteger());
return (2);
}
// Versioning -----------------------------------------------------------------------------------------------------------------
private Map versionExtract(String ver) {
//
// Given any version string (e.g. version 2.5.78-prerelease) will return a Map as following:
// Map.major version
// Map.minor version
// Map.build version
// Map.desc version
// or "null" if no version info was found in the given string
//
Map val = null;
if (ver) {
String pattern = /.*?(\d+)\.(\d+)\.(\d+).*/;
java.util.regex.Matcher matcher = ver =~ pattern;
if (matcher.groupCount() == 3) {
val = [:];
val.major = matcher[0][1].toInteger();
val.minor = matcher[0][2].toInteger();
val.build = matcher[0][3].toInteger();
val.desc = "v${val.major}.${val.minor}.${val.build}";
}
}
return (val);
}
// ------------------------------------------------------------
Boolean versionUpdate() {
//
// Return true is a new version is available
//
logDebug("versionUpdate()");
Boolean ok = false;
String attribute = "driver";
try {
// Retrieve current version
Map verCur = versionExtract(version());
if (verCur) {
// Retrieve latest version from GitHub repository manifest
// If the file is not found, it will throw an exception
Map verNew = null;
String manifestText = "https://raw.githubusercontent.com/mircolino/ecowitt/master/packageManifest.json".toURL().getText();
if (manifestText) {
// text -> json
Object parser = new groovy.json.JsonSlurper();
Object manifest = parser.parseText(manifestText);
verNew = versionExtract(manifest.version);
if (verNew) {
// Compare versions
if (verCur.major > verNew.major) verNew = null;
else if (verCur.major == verNew.major) {
if (verCur.minor > verNew.minor) verNew = null;
else if (verCur.minor == verNew.minor) {
if (verCur.build >= verNew.build) verNew = null;
}
}
}
}
String version = verCur.desc;
if (verNew) version = "<font style='color:#3ea72d'>${verCur.desc} (${verNew.desc} available)</font>";
ok = attributeUpdateString(version, attribute);
}
}
catch (Exception e) {
logError("Exception in versionUpdate(): ${e}");
}
return (ok);
}
// DNI ------------------------------------------------------------------------------------------------------------------------
private Map dniIsValid(String str) {
//
// Return null if not valid
// otherwise return both hex and canonical version
//
List<Integer> val = [];
try {
List<String> token = str.replaceAll(" ", "").tokenize(".:");
if (token.size() == 4) {
// Regular IPv4
token.each {
Integer num = Integer.parseInt(it, 10);
if (num < 0 || num > 255) throw new Exception();
val.add(num);
}
}
else if (token.size() == 6) {
// Regular MAC
token.each {
Integer num = Integer.parseInt(it, 16);
if (num < 0 || num > 255) throw new Exception();
val.add(num);
}
}
else if (token.size() == 1) {
// Hexadecimal IPv4 or MAC
str = token[0];
if ((str.length() != 8 && str.length() != 12) || str.replaceAll("[a-fA-F0-9]", "").length()) throw new Exception();
for (Integer idx = 0; idx < str.length(); idx += 2) val.add(Integer.parseInt(str.substring(idx, idx + 2), 16));
}
}
catch (Exception ignored) {
val.clear();
}
Map dni = null;
if (val.size() == 4) {
dni = [:];
dni.hex = sprintf("%02X%02X%02X%02X", val[0], val[1], val[2], val[3]);
dni.canonical = sprintf("%d.%d.%d.%d", val[0], val[1], val[2], val[3]);
}
if (val.size() == 6) {
dni = [:];
dni.hex = sprintf("%02X%02X%02X%02X%02X%02X", val[0], val[1], val[2], val[3], val[4], val[5]);
dni.canonical = sprintf("%02x:%02x:%02x:%02x:%02x:%02x", val[0], val[1], val[2], val[3], val[4], val[5]);
}
return (dni);
}
// ------------------------------------------------------------
def DNIUpdateCMD()
{
log.warn "Calling dniUpdate()"
dniUpdate()
}
private String dniUpdate() {
//
// Get the gateway address (either MAC or IP) from the properties and, if valid and not done already, update the driver DNI
// Return "error") invalid address entered by the user
// null) same address as before
// "") new valid address
//
logDebug("dniUpdate()");
String error = "";
String attribute = "mac";
String setting = gatewayMacAddress();
Map dni = dniIsValid(setting);
if (dni) {
if ((device.currentValue(attribute) as String) == dni.canonical) {
// The address hasn't changed: we do nothing
log.debug "setting dni to ${dni.hex}"
device.setDeviceNetworkId(dni.hex);
error = null;
}
else {
// Save the new address as an attribute for later comparison
attributeUpdateString(dni.canonical, attribute);
// Update the DNI
log.debug "setting dni to ${dni.hex}"
device.setDeviceNetworkId(dni.hex);
}
}
else {
error = "\"${setting}\" is not a valid MAC or IP address";
}
return (error);
}
// Conversion -----------------------------------------------------------------------------------------------------------------
// Logging --------------------------------------------------------------------------------------------------------------------
void logDebugOff() {
//
// runIn() callback to disable "Debug" logging after 30 minutes
// Cannot be private
//
if (logGetLevel() > 2) device.updateSetting("logLevel", [type: "enum", value: "2"]);
}
// ------------------------------------------------------------
private void logError(String str) { log.error(str); }
private void logWarning(String str) { if (logGetLevel() > 0) log.warn(str); }
private void logInfo(String str) { if (logGetLevel() > 1) log.info(str); }
private void logDebug(String str) { if (logGetLevel() > 2) log.debug(str); }
private void logTrace(String str) { if (logGetLevel() > 3) log.trace(str); }
// ------------------------------------------------------------
private void logData(Map data) {
//
// Log all data received from the wifi gateway
// Used only for diagnostic/debug purposes
//
if (logGetLevel() > 3) {
data.each {
logTrace("$it.key = $it.value");
}
}
}
// Ztatus ---------------------------------------------------------------------------------------------------------------------
private Boolean ztatus(String str, String color = null) {
if (color) str = "<font style='color:${color}'>${str}</font>";
return (attributeUpdateString(str, "status"));
}
// ------------------------------------------------------------
private Boolean ztatusIsError() {
String str = device.currentValue("status") as String;
if (str && str.contains("<font style='color:red'>")) return (true);
return (false);
}
// Sensor handling ------------------------------------------------------------------------------------------------------------
String sensorIdToDni(String sid) {
String pid = device.getId().concat("-");
if (sid.startsWith(pid)) return (sid);
return (pid.concat(sid));
}
// ------------------------------------------------------------
String sensorDniToId(String dni) {
String pid = device.getId().concat("-");
if (dni.startsWith(pid)) return (dni.substring(pid.size()));
return (dni);
}
// ------------------------------------------------------------
/*
* Outdoor
* Temperature Wind
* & Humidity Rain & Solar
* ------------- ------------- --------------
* WH26 X
* WH40 X
* WH68 X
* WH80 X X
* WH65/WH69 X X X
* WS90 X X X
*
*/
private void sensorMapping(Map data) {
//
// Remap sensors, boundling or decoupling devices, depending on what's present
//
// 0 1 2 3 4 5 6 7 8 9 10 11 12
String[] sensorMap = ["WH69", "WH25", "WH26", "WH31", "WH40", "WH41", "WH51", "WH55", "WH57", "WH80", "WH34","WFST", "WS90"];
logDebug("sensorMapping()");
// log.debug "data = $data"
// Detect outdoor sensors by their battery signature
Boolean wh26 = data.containsKey("wh26batt");
Boolean wh40 = data.containsKey("wh40batt");
Boolean wh68 = data.containsKey("wh68batt");
Boolean wh80 = data.containsKey("wh80batt");
Boolean wh69 = data.containsKey("wh65batt");
Boolean ws90 = data.containsKey("ws90batt");
// Count outdoor sensor
Integer outdoorSensors = 0;
if (wh26) outdoorSensors += 1;
if (wh40) outdoorSensors += 1;
if (wh68) outdoorSensors += 1;
if (wh80) outdoorSensors += 1;
if (ws90) outdoorSensors += 1;
// A bit of sanity check
if (wh69 && outdoorSensors) logWarning("The PWS should be the only outdoor sensor");
if (ws90 && outdoorSensors) logWarning("The PWS should be the only outdoor sensor");
if (wh80 && wh26) logWarning("Both WH80 and WH26 are present with overlapping sensors");
if (wh80) {
//
// WH80 (includes temp & humidity)
//
sensorMap[2] = sensorMap[9];
}
if (wh69) {
//
// We have a real WH65/WH69/ws90 PWS
//
sensorMap[2] = sensorMap[0];
sensorMap[4] = sensorMap[0];
sensorMap[9] = sensorMap[0];
}
if (ws90) {
//
// We have a real ws90 PWS
//
sensorMap[2] = sensorMap[12];
sensorMap[4] = sensorMap[12];
sensorMap[9] = sensorMap[12];
}
else if (bundleOutdoorSensors() && outdoorSensors > 1) {
//
// We are requested to bundle outdoor sensors and we have more than 1
//
sensorMap[2] = sensorMap[0];
sensorMap[4] = sensorMap[0];
sensorMap[9] = sensorMap[0];
device.updateDataValue("sensorBundled", "WH69");
}
// Save the mapping in the state variables
device.updateDataValue("sensorMap", sensorMap.toString());
}
// ------------------------------------------------------------
String sensorModel(Integer id) {
// assert (id >= 0 && id <= 10);
// 0 1 2 3 4 5 6 7 8 9 10 11 12
// String sensorMap = "[WH69, WH25, WH26, WH31, WH40, WH41, WH51, WH55, WH57, WH80, WH34, WFST, WS90]";
//
String sensorMap = device.getDataValue("sensorMap");
id *= 6;
return (sensorMap.substring(id + 1, id + 5));
}
// ------------------------------------------------------------
private String sensorName(Integer id, Integer channel) {
Map sensorId = ["WH69": "PWS Sensor",
"WH25": "Indoor Ambient Sensor",
"WH26": "Outdoor Ambient Sensor",
"WH31": "Ambient Sensor",
"WH40": "Rain Gauge Sensor",
"WH41": "Air Quality Sensor",
"WH51": "Soil Moisture Sensor",
"WH55": "Water Leak Sensor",
"WH57": "Lightning Detection Sensor",
"WH80": "Wind Solar Sensor",
"WH34": "Water/Soil Temperature Sensor",
"WFST": "WeatherFlow Station",
"WS90": "WittBoy Weather Station"];
String model = sensorId."${sensorModel(id)}";
return (channel? "${model} ${channel}": model);
}
// ------------------------------------------------------------
private String sensorId(Integer id, Integer channel) {
String model = sensorModel(id);
return (channel? "${model}_CH${channel}": model);
}
// ------------------------------------------------------------
private Boolean sensorIsBundled(Integer id, Integer channel) {
return (sensorModel(id) == device.getDataValue("sensorBundled"));
}
// ------------------------------------------------------------
private void sensorGarbageCollect() {
//
// Match the new (soon to be created) sensor list with the existing one
// and delete sensors in the existing list that are not in the new one
//
ArrayList<String> sensorList = [];
String value = device.getDataValue("sensorList");
if (value) sensorList = value.tokenize("[, ]");
List<com.hubitat.app.ChildDeviceWrapper> list = getChildDevices();
if (list) list.each {
String dni = it.getDeviceNetworkId();
if (sensorList.contains(sensorDniToId(dni)) == false) deleteChildDevice(dni);
}
}
// ------------------------------------------------------------
private Boolean sensorEnumerate(String key, String value, Integer id = null, Integer channel = null) {
//
// Enumerate sensors needed for the current data
//
if (id) {
String sid = sensorId(id, channel);
ArrayList<String> sensorList = [];
value = device.getDataValue("sensorList");
if (value) sensorList = value.tokenize("[, ]");
if (sensorList.contains(sid) == false) {
sensorList.add(sid);
// Save the list in the state variables
device.updateDataValue("sensorList", sensorList.toString());
}
}
return (true);
}
// ------------------------------------------------------------
private Boolean sensorUpdate(String key, String value, Integer id = null, Integer channel = null) {
//
// If not present, add the child sensor corresponding to the specified id/channel
// and, if child sensor is present, update the attribute
//
// If id is null we broadcast to all children
//
Boolean updated = false;
try {
if (id) {
String dni = sensorIdToDni(sensorId(id, channel));
logDebug("dna = $dni")
com.hubitat.app.ChildDeviceWrapper sensor = getChildDevice(dni);
logDebug("got sensor ${sensor}")
if (sensor == null) {
//
// Support for sensors with legacy DNI (without the parent ID)
//
sensor = getChildDevice(sensorDniToId(dni));
if (sensor) {
// Found existing sensor with legacy name: update it
sensor.setDeviceNetworkId(dni);
logDebug( "found existing sensor")
}
else {
//
// Sensor doesn't exist: we need to create it
//
logDebug("didnt find existing ")
sensor = addChildDevice("Ecowitt RF Sensor", dni, [name: sensorName(id, channel), isComponent: true]);
if (sensor && sensorIsBundled(id, channel)) sensor.updateDataValue("isBundled", "true");
}
ztatus("OK", "green");
}
if (sensor) updated = sensor.attributeUpdate(key, value);
}
else {
// We broadcast to all children
List<com.hubitat.app.ChildDeviceWrapper> list = getChildDevices();
if (list) list.each { if (it.attributeUpdate(key, value)) updated = true; }
}
}
catch (Exception e) {
if (e instanceof com.hubitat.app.exception.UnknownDeviceTypeException) {
logError("Unable to create child sensor device. Please make sure the \"ecowitt_sensor.groovy\" driver is installed.");
ztatus("Unable to create child sensor device. Please make sure the \"ecowitt_sensor.groovy\" driver is installed", "red");
}
else logError("Exception in sensorUpdate(${id}, ${channel}): ${e}");
}
return (updated);
}
// Attribute handling ---------------------------------------------------------------------------------------------------------
private Boolean attributeUpdateString(String val, String attribute) {
//
// Only update "attribute" if different
// Return true if "attribute" has actually been updated/created
//
// log.debug "in attributeupdatestring attr = $attribute value = $val"
if ((device.currentValue(attribute) as String) != val) {
sendEvent(name: attribute, value: val);
return (true);
}
return (false);
}
// ------------------------------------------------------------
private Boolean attributeUpdate(Map data, Closure sensor) {
//
// Dispatch parent/childs attribute changes to hub
//
Boolean updated = false;
data.each {
switch (it.key) {
//
// Gateway attributes
//
case "model":
// Eg: model = GW1000_Pro
updated = attributeUpdateString(it.value, "model");
break;
case "stationtype":
// Eg: firmware = GW1000B_V1.5.7
Map ver = versionExtract(it.value);
if (ver) it.value = ver.desc;
updated = attributeUpdateString(it.value, "firmware");
break;
case "freq":
// Eg: rf = 915M
updated = attributeUpdateString(it.value, "rf");
break;
case "PASSKEY":
// Eg: passkey = 15CF2C872932F570B34AC469540099A4
updated = attributeUpdateString(it.value, "passkey");
break;
//
// Integrated/Indoor Ambient Sensor (WH25)
//
case "wh25batt":
case "tempinf":
case "humidityin":
case "baromrelin":
case "baromabsin":
updated = sensor(it.key, it.value, 1);
break;
//
// Outdoor Ambient Sensor (WH26 -> WH80 -> WH69)
//
case "wh26batt":
case "tempf":
case "humidity":
updated = sensor(it.key, it.value, 2);
break;
//
// Multi-channel Ambient Sensor (WH31)
//
case ~/batt([1-8])/:
case ~/temp([1-8])f/:
case ~/humidity([1-8])/:
updated = sensor(it.key, it.value, 3, java.util.regex.Matcher.lastMatcher.group(1).toInteger());
break;
//
// Rain Gauge Sensor (WH40 -> WH69)
//
case "wh40batt":
case "rainratein":
case "eventrainin":
case "hourlyrainin":
case "dailyrainin":
case "weeklyrainin":
case "monthlyrainin":
case "yearlyrainin":
case "totalrainin":
updated = sensor(it.key, it.value, 4);
break;
// Rain ws90)
case "rrain_piezo":
case "erain_piezo":
case "hrain_piezo":
case "drain_piezo":
case "wrain_piezo":
case "mrain_piezo":
case "yrain_piezo":
case "train_piezo":
updated = sensor(it.key, it.value, 4);
break;
//
// Multi-channel Air Quality Sensor (WH41)
//
case ~/pm25batt([1-4])/:
case ~/pm25_ch([1-4])/:
case ~/pm25_avg_24h_ch([1-4])/:
updated = sensor(it.key, it.value, 5, java.util.regex.Matcher.lastMatcher.group(1).toInteger());
break;
//
// Air Quality Monitor (WH45)
//
case "tf_co2":
case "humi_co2":
case "pm25_co2":
case "pm25_24h_co2":
case "pm10_co2":
case "pm10_24h_co2":
case "co2":
case "co2_24h":
case "co2_batt":
updated = sensor(it.key, it.value, 5);
break;
//
// Multi-channel Soil Moisture Sensor (WH51)
//
case ~/soilbatt([1-8])/:
case ~/soilmoisture([1-8])/:
updated = sensor(it.key, it.value, 6, java.util.regex.Matcher.lastMatcher.group(1).toInteger());
break;
//
// Multi-channel Water Leak Sensor (WH55)
//
case ~/leakbatt([1-4])/:
case ~/leak_ch([1-4])/:
updated = sensor(it.key, it.value, 7, java.util.regex.Matcher.lastMatcher.group(1).toInteger());
break;
//
// Lightning Detection Sensor (WH57)
//
case "wh57batt":
case "lightning":
case "lightning_num":
case "lightning_time":
updated = sensor(it.key, it.value, 8);
break;
//
// Wind & Solar Sensor (WH80 -> WH69, ws90)
//
case "wh65batt":
case "wh68batt":
case "wh80batt":
case "ws90batt":
case "wh90batt":
case "winddir":
case "winddir_avg10m":
case "windspeedmph":
case "windspdmph_avg10m":
case "windgustmph":
case "maxdailygust":
case "uv":
case "solarradiation":
updated = sensor(it.key, it.value, 9);
break;
//
// Multi-channel Water Leak Sensor (WH34)
//
case ~/tf_batt([1-8])/:
case ~/tf_ch([1-8])/:
updated = sensor(it.key, it.value, 10, java.util.regex.Matcher.lastMatcher.group(1).toInteger());
break;
case ~/batt_wf([1-8])/:
case ~/tempf_wf([1-8])/:
case ~/humidity_wf([1-8])/:
case ~/baromrelin_wf([1-8])/:
case ~/baromabsin_wf([1-8])/:
case ~/lightning_wf([1-8])/:
case ~/lightning_time_wf([1-8])/:
case ~/lightning_energy_wf([1-8])/:
case ~/lightning_num_wf([1-8])/:
case ~/uv_wf([1-8])/:
case ~/solarradiation_wf([1-8])/:
case ~/rainratein_wf([1-8])/:
case ~/eventrainin_wf([1-8])/:
case ~/hourlyrainin_wf([1-8])/:
case ~/dailyrainin_wf([1-8])/:
case ~/weeklyrainin_wf([1-8])/:
case ~/monthlyrainin_wf([1-8])/:
case ~/yearlyrainin_wf([1-8])/:
case ~/totalrainin_wf([1-8])/:
case ~/winddir_wf([1-8])/:
case ~/winddir_avg10m_wf([1-8])/:
case ~/windspeedmph_wf([1-8])/:
case ~/windspdmph_avg10m_wf([1-8])/:
case ~/windgustmph_wf([1-8])/:
case ~/maxdailygust_wf([1-8])/:
updated = sensor(it.key, it.value, 11, java.util.regex.Matcher.lastMatcher.group(1).toInteger());
break;
case "runtime":
def ut = formatUpTime(it.value)
attributeUpdateString(ut, "upTime")
break;
case "endofdata":
// Special key to notify all drivers (parent and children) of end-od-data status
updated = sensor(it.key, it.value);
// Last thing we do on the driver
if (attributeUpdateString(it.value, "lastUpdate")) updated = true;
break;
default:
logDebug("Unrecognized attribute: ${it.key} = ${it.value}");
break;
}
}
return (updated);
}
// Commands -------------------------------------------------------------------------------------------------------------------
void resyncSensors() {
//
// This will trigger a sensor remapping and cleanup
//
try {
logDebug("resyncSensors()");
if (dniIsValid(device.getDeviceNetworkId())) {
// We have a valid gateway dni
ztatus("Sensor sync pending", "blue");
device.updateDataValue("sensorResync", "true");
}
}
catch (Exception e) {
logError("Exception in resyncSensors(): ${e}");
}
}
// Driver lifecycle -----------------------------------------------------------------------------------------------------------
void installed() {
//
// Called once when the driver is created
//
try {
logDebug("installed()");
Map dni = dniIsValid(device.getDeviceNetworkId());
if (dni) {
device.updateSetting("macAddress", [type: "string", value: dni.canonical]);
updated();
}
}
catch (Exception e) {
logError("Exception in installed(): ${e}");
}
}
def nsCallback(resp, data)
{
logDebug("in callback")
// test change
def jSlurp = new JsonSlurper()
Map ipData = (Map)jSlurp.parseText((String)resp.data)
def String newIP = ipData.Answer.data[0]
sendEvent(name:"dynamicIPResult", value:ipData.Answer.data[0])
// now compare ip to our own and if different reset and log
if ((newIP != null) && (newIP != ""))
{
def String currentIP = settings.macAddress
logInfo("Comparing resolved IP: $newIP to $currentIP")
if (currentIP != newIP)
{
logInfo("IP address has Changed !!! Resetting DNI !")
Map dni = dniIsValid(newIP);
// Update Device Network ID
logDebug("got back dni = $dni")
if (dni)
{
device.updateSetting("macAddress", [type: "string", value: dni.canonical]);