module.exports = function(RED) { "use strict"; var fs = require('fs'); // unlikely if not on a Pi try { var cpuinfo = fs.readFileSync("/proc/cpuinfo").toString(); if (cpuinfo.indexOf(": BCM") === -1) { throw "Info : "+RED._("rpi-gpio.errors.ignorenode"); } } catch(err) { throw "Info : "+RED._("rpi-gpio.errors.ignorenode"); } var mcpadc = require('mcp-spi-adc'); var mcp3008 = []; function PiMcpNode(n) { RED.nodes.createNode(this,n); this.pin = n.pin || 0; this.interval = n.interval || 1000; this.dnum = parseInt(n.dnum || 0); var node = this; try { fs.statSync("/dev/spidev0."+node.dnum); if (mcp3008.length === 0) { for (var i=0; i<8; i++) { mcp3008.push(mcpadc.openMcp3008(i, { deviceNumber:node.dnum }, function (err) { if (err) { node.error("Error: "+err); } })); } } node.on("input", function(msg) { var pin = null; if (node.pin === "M") { var pay = parseInt(msg.payload.toString()); if ((pay >= 0) && (pay <= 7)) { pin = pay; } else { node.warn("Payload needs to select channel 0 to 7"); } } else { pin = parseInt(node.pin); } if (pin !== null) { mcp3008[pin].read(function (err, reading) { if (err) { node.warn("Read error: "+err); } else { node.send({payload:reading.rawValue, topic:"adc/"+pin}); } }); } }); } catch(err) { node.error("Error : Can't find SPI device - is SPI enabled in raspi-config ?"); } node.on("close", function(done) { if (mcp3008.length !== 0) { var j=0; for (var i=0; i<8; i++) { mcp3008[i].close(function() { j += 1; if (j === 8) {done()} }); } mcp3008 = []; } else { done(); } }); } RED.nodes.registerType("pimcp3008",PiMcpNode); }