module.exports = function(RED) { "use strict"; var Heatmiser = require("heatmiser"); function HeatmiserInputNode(n) { // TODO - holiday and hot water cases when confirmed working var DEBUG = false; RED.nodes.createNode(this,n); this.ip = n.ip || "192.168.0.1"; this.pin = n.pin || "1234"; this.pollTime = n.pollTime*60*1000 || 30*60*1000; this.pollIntervalRef = undefined; var hmoutnode = this; this.hm = new Heatmiser.Wifi(this.ip, this.pin); this.hm.on('success', function(data) { if (DEBUG) { hmoutnode.log("Successfully wrote data. Response : " + JSON.stringify(data)); } hmoutnode.send({topic: "", payload:JSON.stringify(data.dcb)}); }); this.hm.on('error', function(data) { if (DEBUG) { hmoutnode.log("Error during data setting : " + JSON.stringify(data)); } hmoutnode.send(data); }); this.read = function() { if (hmoutnode.hm) { hmoutnode.hm.read_device(); } }; if (!this.currentStatus) { this.read(); this.pollIntervalRef = setInterval(this.read, this.pollTime); } this.on("close", function() { if (this.pollIntervalRef) { clearInterval(this.pollIntervalRef); this.pollIntervalRef = undefined; } }); this.on("input", function(message) { // Valid inputs are heating:{target:, hold:}, read:, runmode:frost/heating, holiday:{enabled:, time:}, hotwater:{'on':1/0 / 'boost':1/0} if (message.payload == "undefined" || !message.payload) { message.payload = {read : true}; } if (typeof(message.payload) == "string") { message.payload = JSON.parse(message.payload); } if (message.payload.read) { hmoutnode.read(); } else if (message.payload) { // Compare message.payload data to confirm valid and send to thermostat var validInputs = ["heating", "runmode"]; for (var key in message.payload) { if (message.payload.hasOwnProperty(key)) { if (validInputs.indexOf(key) < 0) { hmoutnode.log("Warning: Unsupported key ("+key+") passed!"); return; } } } hmoutnode.validateAndWrite(message); } }); } RED.nodes.registerType("heatmiser-in",HeatmiserInputNode); function HeatmiserOutputNode(n) { // TODO - holiday and hot water cases when confirmed working var DEBUG = false; RED.nodes.createNode(this,n); this.ip = n.ip || "192.168.0.1"; this.pin = n.pin || "1234"; this.multiWriteFunc = undefined; var hminnode = this; this.pollIntervalRef = undefined; this.hm = new Heatmiser.Wifi(this.ip, this.pin); this.hm.on('success', function(data) { if (DEBUG) { hminnode.log("Successfully wrote data. Response : " + JSON.stringify(data)); } hminnode.currentStatus = data.dcb; if (hminnode.multiWriteFunc) { hminnode.multiWriteFunc(); hminnode.multiWriteFunc = undefined; return; } hminnode.send({topic: "", payload:JSON.stringify(data.dcb)}); }); this.hm.on('error', function(data) { if (DEBUG) { hminnode.log("Error during data setting : " + JSON.stringify(data)); } hminnode.send(data); }); this.on("close", function() { if (this.pollIntervalRef) { clearInterval(this.pollIntervalRef); this.pollIntervalRef = undefined; } }); this.read = function() { if (hminnode.hm) { hminnode.hm.read_device(); } }; if (!this.currentStatus) { this.read(); this.pollIntervalRef = setInterval(this.read, 30*60*1000); } this.write = function(dcb) { if (hminnode.hm) { hminnode.hm.write_device(dcb); } }; this.validateAndWrite = function(message) { for (var key in message.payload) { if (message.payload.hasOwnProperty(key)) { // Ensure our valid keys contain valid values switch (key) { case "runmode" : { if (DEBUG) { hminnode.log("Hit the runmode case"); } if (message.payload[key] !== "frost" && message.payload[key] !== "heating") { hminnode.log("Warning: Unsupported 'runmode' value passed!"); return; } break; } case "heating" : { // Ensure heating stays last! It's got a multi write scenario if (DEBUG) { hminnode.log("Hit the heating case"); } if (!('target' in message.payload[key]) && !('hold' in message.payload[key])) { hminnode.log("Warning: Unsupported 'heating' value passed!"); return; } // Set sane temp and time ranges and sanitise to float/int var target = parseFloat(message.payload[key].target); var hold = parseInt(message.payload[key].hold); if (target > 30.0) { message.payload[key].target = 30.0; } else { message.payload[key].target = target; } if (hold > 1440) { message.payload[key].hold = 1440; } else { message.payload[key].hold = hold; } if (target <= 10.0) { message.payload[key].target = 10.0; } else { message.payload[key].target = target; } if (hold <= 0) { message.payload[key].hold = 0; } else { message.payload[key].hold = hold; } // Ensure hminnode runmode == heating first if (hminnode.currentStatus.run_mode === "frost_protection") { // Use the multiWriteFunc as a callback in our success case hminnode.multiWriteFunc = function() { hminnode.write(message.payload); } hminnode.write({"runmode" : "heating"}); // End the flow here to ensure no double-writing return; } break; } default : { break; } } // Valid set of key messages, construct DCB and write var dcb = message.payload; if (DEBUG) { hminnode.log("Injecting " + JSON.stringify(dcb)); } hminnode.write(dcb); } } }; this.on("input", function(message) { // Valid inputs are heating:{target:, hold:}, read:, runmode:frost/heating, holiday:{enabled:, time:}, hotwater:{'on':1/0 / 'boost':1/0} if (message.payload) { if (typeof(message.payload) === "string") { message.payload = JSON.parse(message.payload); } // Compare message.payload data to confirm valid and send to thermostat var validInputs = ["heating", "runmode"]; for (var key in message.payload) { if (message.payload.hasOwnProperty(key)) { if (validInputs.indexOf(key) < 0) { hminnode.log("Warning: Unsupported key ("+key+") passed!"); return; } } } hminnode.validateAndWrite(message); } else { hminnode.log("Warning: Invalid input passed!"); return; } }); } RED.nodes.registerType("heatmiser-out",HeatmiserOutputNode); }