redmatic-homekit
Version:
HAP-Nodejs based Node-RED nodes to create HomeKit Accessories
125 lines (109 loc) • 5.44 kB
JavaScript
const Accessory = require('./lib/accessory');
module.exports = class HmipBwth extends Accessory {
init(config, node) {
const {bridgeConfig, ccu} = node;
const {hap} = bridgeConfig;
let state;
let valueSetpoint;
let setpointMode;
let target;
function targetState() {
// 0=off, 1=heat, 3=auto
switch (setpointMode) {
case 1:
// Manu
target = valueSetpoint > 4.5 ? 1 : 0;
break;
default:
// Auto / Party
target = 3;
}
return target;
}
function currentState() {
// 0=off, 1=heat
return state ? 1 : 0;
}
const serviceThermostat = this.addService('Thermostat', config.name);
const subtypeThermostat = serviceThermostat.subtype;
serviceThermostat
.setProps('CurrentTemperature', {minValue: -40, maxValue: 80})
.get('CurrentTemperature', config.deviceAddress + ':1.ACTUAL_TEMPERATURE')
.setProps('TargetTemperature', {minValue: 4.5, maxValue: 30.5, minStep: 0.5})
.get('TargetTemperature', config.deviceAddress + ':1.SET_POINT_TEMPERATURE', value => {
valueSetpoint = value;
updateHeatingCoolingState();
return value;
})
.set('TargetTemperature', config.deviceAddress + ':1.SET_POINT_TEMPERATURE')
.setProps('CurrentHeatingCoolingState', {validValues: [0, 1], maxValue: 1})
.get('CurrentHeatingCoolingState', config.deviceAddress + ':9.STATE', value => {
state = value;
setTimeout(() => {
updateHeatingCoolingState();
}, 1000);
return currentState();
})
.setProps('TargetHeatingCoolingState', {validValues: [0, 1, 3]})
.get('TargetHeatingCoolingState', config.deviceAddress + ':1.SET_POINT_TEMPERATURE', () => {
setTimeout(() => {
updateHeatingCoolingState();
}, 1000);
return targetState();
})
.set('TargetHeatingCoolingState', (value, callback) => {
// 0=off, 1=heat, 3=auto
if (value === 0) {
const params = {
CONTROL_MODE: 1,
SET_POINT_TEMPERATURE: 4.5
};
node.debug('set ' + config.name + ' (' + subtypeThermostat + ') TargetHeatingCoolingState ' + value + ' -> ' + config.description.ADDRESS + ':1 ' + JSON.stringify(params));
ccu.methodCall(config.iface, 'putParamset', [config.description.ADDRESS + ':1', 'VALUES', params])
.then(() => {
callback();
}).catch(() => {
callback(new Error(hap.HAPServer.Status.SERVICE_COMMUNICATION_FAILURE));
});
} else if (value === 1) {
const params = {
CONTROL_MODE: 1,
SET_POINT_TEMPERATURE: 21
};
node.debug('set ' + config.name + ' (' + subtypeThermostat + ') TargetHeatingCoolingState ' + value + ' -> ' + config.description.ADDRESS + ':1 ' + JSON.stringify(params));
ccu.methodCall(config.iface, 'putParamset', [config.description.ADDRESS + ':1', 'VALUES', params])
.then(() => {
callback();
}).catch(() => {
callback(new Error(hap.HAPServer.Status.SERVICE_COMMUNICATION_FAILURE));
});
} else {
node.debug('set ' + config.name + ' (' + subtypeThermostat + ') TargetHeatingCoolingState ' + value + ' -> ' + config.description.ADDRESS + ':1.CONTROL_MODE ' + (value === 3 ? 0 : 1));
ccu.setValue(config.iface, config.description.ADDRESS + ':1', 'CONTROL_MODE', value === 3 ? 0 : 1)
.then(() => {
callback();
}).catch(() => {
callback(new Error(hap.HAPServer.Status.SERVICE_COMMUNICATION_FAILURE));
});
}
});
function updateHeatingCoolingState() {
serviceThermostat.update('CurrentHeatingCoolingState', currentState());
serviceThermostat.update('TargetHeatingCoolingState', targetState());
}
this.subscribe(config.deviceAddress + ':1.SET_POINT_MODE', value => {
setpointMode = value;
node.debug('update ' + config.name + ' setpointMode ' + setpointMode);
updateHeatingCoolingState();
});
if (this.option('HumiditySensor')) {
this.addService('HumiditySensor', config.name)
.get('CurrentRelativeHumidity', config.deviceAddress + ':1.HUMIDITY');
}
if (this.option('BoostSwitch')) {
this.addService('Switch', 'Boost ' + config.name, 'Boost')
.set('On', config.deviceAddress + ':1.BOOST_MODE')
.get('On', config.deviceAddress + ':1.BOOST_MODE');
}
}
};