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server.js
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server.js
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/*
AUTHOR: Andrew Hodel with additional functionality by Peter van der Walt
RepRapWeb - A Web Based 3d Printer Controller
Copyright (C) 2015 Andrew Hodel
THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU Affero General Public License as published by
the Free Software Foundation, either version 3 of the License.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU Affero General Public License for more details.
You should have received a copy of the GNU Affero General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
var config = require('./config');
var serialport = require("serialport");
var SerialPort = serialport.SerialPort; // localize object constructor
var app = require('http').createServer(handler)
, io = require('socket.io').listen(app)
, fs = require('fs');
var static = require('node-static');
var EventEmitter = require('events').EventEmitter;
var url = require('url');
var qs = require('querystring');
var util = require('util');
var http = require('http');
var chalk = require('chalk');
var slBaseOpts = require('./slBaseOpts');
// Debug Parameters in command line
args = process.argv.slice(2);
if (args[0]) {
if (args[0].indexOf('--debug') == 0) { // add --debug <firmwarestring>
console.log(chalk.yellow('WARN:'), chalk.blue('Forcing debug testing with specific Firmware String: '), chalk.yellow(args[1]));
var debugfirmware = args[1];
};
};
console.log(chalk.green('***************************************************************'));
console.log(chalk.green('* Notice: *'));
console.log(chalk.green('***************************************************************'));
console.log(chalk.green('*'),chalk.white(' Remember to update (: !!! '), chalk.green('*'));
console.log(chalk.green('* 1. Run ./update.sh or git pull *'));
console.log(chalk.green('* 2. or check the commit log on *'));
console.log(chalk.green('*'), chalk.yellow('https://github.com/openhardwarecoza/LaserWeb/commits/master'), chalk.green('*'));
console.log(chalk.green('***************************************************************'));
// Lets add a message so users know where to point their browser
require('dns').lookup(require('os').hostname(), function (err, add, fam) {
console.log(chalk.green('*'),chalk.white('Access the LaserWeb User Interface: '), chalk.green('*'));
console.log(chalk.green('* 1. Open Chrome *'));
console.log(chalk.green('* 2. Go to : *'));
console.log(chalk.green('*'), chalk.yellow(' http://'+add+':'+config.webPort+'/ '), chalk.green('*'));
console.log(chalk.green('***************************************************************'));
console.log(chalk.green(' '));
console.log(chalk.green(' '));
})
// test for webcam
config.showWebCam = false;
http.get('http://127.0.0.1:8080', function(res) {
// valid response, enable webcam
console.log(chalk.green('INFO:'),
chalk.yellow(' Enabling webcam Widget'));
config.showWebCam = true;
}).on('socket', function(socket) {
// 2 second timeout on this socket
socket.setTimeout(2000);
socket.on('timeout', function() {
//this.abort();
});
}).on('error', function(e) {
console.error(
chalk.red('ERROR:'),
chalk.yellow('Error connecting to webcam:'),
chalk.blue(e.message),
chalk.red('- Disabling Webcam Widget')
);
});
app.listen(config.webPort);
var fileServer = new static.Server('./i');
function handler (req, res) {
//console.log(chalk.gray('url request: '+req.url));
if (req.url.indexOf('/api/upload') == 0 && req.method == 'POST') {
// this is a gcode upload, probably from jscut
console.log(chalk.green('INFO:'), chalk.yellow(' API - New GCODE via POST'));
var b = '';
req.on('data', function (data) {
b += data;
if (b.length > 1e6) {
req.connection.destroy();
}
});
req.on('end', function() {
var post = qs.parse(b);
//console.log(post);
io.sockets.emit('gcodeFromAPI', {'val':post.val});
//res.writeHead(200, {"Content-Type": "application/json"});
//res.end(JSON.stringify({'data':'ok'}));
});
} else {
fileServer.serve(req, res, function (err, result) {
if (err) {
console.error(chalk.red('ERROR:'), chalk.yellow(' fileServer error:'+req.url+' : '), err.message);
}
});
}
}
function ConvChar( str ) {
c = {'<':'<', '>':'>', '&':'&', '"':'"', "'":''',
'#':'#' };
return str.replace( /[<&>'"#]/g, function(s) { return c[s]; } );
}
var sp = [];
var allPorts = [];
serialport.list(function (err, ports) {
if (fs.existsSync('/dev/ttyAMA0')) {
(ports = ports || []).push({comName:'/dev/ttyAMA0',manufacturer: undefined,pnpId: 'raspberryPi__GPIO'});
console.log(chalk.green('INFO:'), chalk.yellow('adding /dev/ttyAMA0 because it is enabled in config.js, you may need to enable it in the os - http://www.hobbytronics.co.uk/raspberry-pi-serial-port'));
}
allPorts = ports;
for (var i=0; i<ports.length; i++) {
!function outer(i){
sp[i] = {};
sp[i].port = ports[i].comName;
sp[i].manufacturer = ports[i].manufacturer;
sp[i].firmware = ""
sp[i].q = [];
sp[i].qCurrentMax = 0;
sp[i].lastSerialWrite = [];
sp[i].lastSerialReadLine = '';
sp[i].handle = new SerialPort(ports[i].comName, {
parser: serialport.parsers.readline("\n"),
baudrate: config.serialBaudRate
});
sp[i].sockets = [];
sp[i].handle.on("open", function() {
//console.log(
// chalk.green('Connecting to'),
// chalk.blue(sp[i].port),
// chalk.green('at'),
// chalk.blue(config.serialBaudRate)
//);
sp[i].handle.write("?\n"); // Lets check if its LasaurGrbl?
sp[i].handle.write("M115\n"); // Lets check if its Marlin?
sp[i].handle.write("version\n"); // Lets check if its Smoothieware?
sp[i].handle.write("$fb\n"); // Lets check if its TinyG
// line from serial port
sp[i].handle.on("data", function (data) {
serialData(data, i);
});
});
sp[i].handle.on('error', function (error) {
var errMsg = 'Cannot open';
var errMsg2 = 'Error Input/output';
if (error.message.slice(0, errMsg.length) === errMsg) {
console.error(
chalk.red('ERROR:'), chalk.yellow(' Could not connect to device:'),
chalk.blue(sp[i].port)
);
} else if (error.message.slice(0, errMsg2.length) === errMsg2 ) {
//console.error(
// chalk.red('Skipped:'), // Most likely /dev/ttyS* on ubuntu (;
// chalk.blue(sp[i].port),
// chalk.green(' - No response from port')
//);
} else {
console.error(
chalk.red('ERROR:'), chalk.yellow(' SerialPort Failure:'),
chalk.blue(sp[i].port));
throw error
}
});
}(i)
}
});
function emitToPortSockets(port, evt, obj) {
for (var i=0; i<sp[port].sockets.length; i++) {
sp[port].sockets[i].emit(evt, obj);
}
}
function serialData(data, port) {
// new line of data terminated with \n
//console.log('Port '+port+' got newline from serial: '+data);
if (data.match(/^\{/)) {
jsondata = JSON.parse(data);
//console.log('Got JSON response: ' + jsondata);
if (jsondata.r) {
sendFirstQ(port);
// ok is green
emitToPortSockets(port, 'serialRead', {c:0,l:data});
// remove first
sp[port].lastSerialWrite.shift();
};
};
// Try to determine Firmware in use and set up queryloop
if (data.indexOf('#') == 0) { // Found LasaurGrbl
setInterval(function() {
sp[port].handle.write("?\n"); //for LasaurGrbl
}, 1000);
var firmwareVersion = data.split(/(\s+)/);
var lasaurGrblVersion = firmwareVersion[2]+' '+firmwareVersion[4];
var firmware = lasaurGrblVersion;
// console.log(chalk.green('Firmware Detected: '+firmware));
console.log(chalk.green('INFO:'), chalk.yellow(' Found device: '),
chalk.yellow(sp[port].manufacturer),
chalk.blue(sp[port].port),
chalk.yellow('Firmware Detected:'),
chalk.blue(firmware),
chalk.yellow(' Port ID No: '),
chalk.blue(port)
);
sp[port].firmware = firmware;
}
if (data.indexOf('Grbl') == 0) { // Found Grbl
setInterval(function() {
sp[port].handle.write("?\n"); //for Grbl
}, 1000);
var firmwareVersion = data.split(/(\s+)/);
var lasaurGrblVersion = firmwareVersion[0]+' '+firmwareVersion[2];
var firmware = lasaurGrblVersion;
console.log(chalk.green('INFO:'), chalk.yellow(' Found device: '),
chalk.yellow(sp[port].manufacturer),
chalk.blue(sp[port].port),
chalk.yellow('Firmware Detected:'),
chalk.blue(firmware),
chalk.yellow(' Port ID No: '),
chalk.blue(port)
);
sp[port].firmware = firmware;
}
if (data.indexOf('Marlin') != -1) { // Found Marlin
setInterval(function() {
sp[port].handle.write("M114\n"); //for Marlin
}, 1000);
var firmwareVersion = data.split(/(:+)/);
var firmware = firmwareVersion[2];
console.log(chalk.green('INFO:'), chalk.yellow(' Found device: '),
chalk.yellow(sp[port].manufacturer),
chalk.blue(sp[port].port),
chalk.yellow('Firmware Detected:'),
chalk.blue(firmware),
chalk.yellow(' Port ID No: '),
chalk.blue(port)
);
sp[port].firmware = firmware;
}
if (data.indexOf('Repetier') != -1) { //found Repetier
//setInterval(function() {
// sp[port].handle.write("M114\n"); //for Repetier
//}, 1000);
//setInterval(function() {
// sp[port].handle.write("M105\n"); //for Repetier
//}, 1001);
data = data.replace(/_/g,' ');
data = data.replace(/:/g,' ');
var firmwareVersion = data.split(/(\s+)/);
var firmware = firmwareVersion[4]+' '+firmwareVersion[6];
console.log(chalk.green('INFO:'), chalk.yellow(' Found device: '),
chalk.yellow(sp[port].manufacturer),
chalk.blue(sp[port].port),
chalk.yellow('Firmware Detected:'),
chalk.blue(firmware),
chalk.yellow(' Port ID No: '),
chalk.blue(port)
);
sp[port].firmware = firmware;
}
if (data.indexOf('LPC1769') != -1 || data.indexOf('LPC1768') != -1) { // found a Smoothie or AZSMZ type Board
setInterval(function() {
sp[port].handle.write("M114\n"); //for Smoothieware
}, 1000);
data = data.replace(/:/g,',');
var firmwareVersion = data.split(/(,+)/);
var smoothieVersion = 'Smoothie'+firmwareVersion[14]+''+firmwareVersion[2];
var firmware = smoothieVersion;
console.log(chalk.green('INFO:'), chalk.yellow(' Found device: '),
chalk.yellow(sp[port].manufacturer),
chalk.blue(sp[port].port),
chalk.yellow('Firmware Detected:'),
chalk.blue(firmware),
chalk.yellow(' Port ID No: '),
chalk.blue(port)
);
sp[port].firmware = firmware;
}
if (data.indexOf('firmware build') != -1 ) { // found a TinyG
// setInterval(function() {
// sp[port].handle.write("M114\n"); //for Smoothieware
// }, 1000);
//data = data.replace(/:/g,',');
//data = data.replace(/ /g,',');
data = data.replace( /(?!\s+$)\s+/g, "," );
//console.log('Data' + data);
var firmwareVersion = data.split(',');
var tinyGVersion = 'TinyG '+firmwareVersion[3];
var firmware = tinyGVersion;
console.log(chalk.green('INFO:'), chalk.yellow(' Found device: '),
chalk.yellow(sp[port].manufacturer),
chalk.blue(sp[port].port),
chalk.yellow('Firmware Detected:'),
chalk.blue(firmware),
chalk.yellow(' Port ID No: '),
chalk.blue(port)
);
sp[port].firmware = firmware;
// INIT COMMANDS
sp[port].handle.write("{sv:2}\n"); //for Smoothieware
}
// End of Queryloop
// handle M105
if (data.indexOf('ok T:') == 0 || data.indexOf('T:') == 0) {
emitToPortSockets(port, 'tempStatus', data);
sp[port].lastSerialReadLine = data;
return;
}
// handle M114 (Marlin)
if (data.indexOf('X:') == 0 || data.indexOf('ok X:') == 0) {
emitToPortSockets(port, 'posStatusM', data);
sp[port].lastSerialReadLine = data;
return;
}
// handle M114 (Smoothie)
if (data.indexOf('ok C: X:') == 0 || data.indexOf('C: X:') == 0) {
emitToPortSockets(port, 'posStatusS', data);
sp[port].lastSerialReadLine = data;
return;
}
// handle ? (LasaurGrbl) (like M114 but also contains feedback data on chiller, endstops, etc in one line. See http://www.lasersaur.com/manual/gcode
if (data.indexOf('V') !=-1 && data.indexOf('X') !=-1) {
emitToPortSockets(port, 'posStatusL', data);
sp[port].lastSerialReadLine = data;
return;
}
// handle Always On Feedback (TinyG)
if (data.indexOf('pos') != -1 || data.indexOf('ok pos') != -1) {
emitToPortSockets(port, 'posStatusT', data);
sp[port].lastSerialReadLine = data;
return;
}
if (sp[port].firmware) {
if (sp[port].firmware.indexOf('Lasaur') == 0) {
if (data.indexOf('N') !=-1 || data.indexOf('E') !=-1 || data.indexOf('U') !=-1 || data.indexOf('B') !=-1 || data.indexOf('B') !=-1 || data.indexOf('T') !=-1 || data.indexOf('P') !=-1 || data.indexOf('L') !=-1 || data.indexOf('R') !=-1 || data.indexOf('D') !=-1 || data.indexOf('C') !=-1 || data.indexOf('V') !=-1 ) {
emitToPortSockets(port, 'posStatusL', data);
sp[port].lastSerialReadLine = data;
return;
}
}
}
// Handle Grbl Feedback
if (data.indexOf('<') == 0) {
// https://github.com/grbl/grbl/wiki/Configuring-Grbl-v0.8#---current-status
// remove first <
var t = data.substr(1);
// remove last >
t = t.substr(0,t.length-2);
// split on , and :
t = t.split(/,|:/);
emitToPortSockets(port, 'machineStatus', {'status':t[0], 'mpos':[t[2], t[3], t[4]], 'wpos':[t[6], t[7], t[8]]});
return;
}
// handle Endstop Alarm
if (data.indexOf('echo:endstops hit:') == 0) {
emitToPortSockets(port, 'endstopAlarm', data);
sp[port].lastSerialReadLine = data;
return;
}
// handle unknown GCode
if (data.indexOf('echo:Unknown command:') == 0) {
emitToPortSockets(port, 'unknownGcode', data);
sp[port].lastSerialReadLine = data;
return;
}
if (queuePause == 1) {
// pause queue
return;
}
data = ConvChar(data);
if (data.indexOf('ok') == 0 || data.indexOf('{"qr":32}') == 0 || data == "" ) { // data == "" relates to supporting LaserSaur - monitor if it causes bugs on other firmwares. Refer to https://groups.google.com/forum/#!topic/lasersaur/_6wTYNJgGyI
console.log('Got OK');
// run another line from the q
sendFirstQ(port);
// ok is green
emitToPortSockets(port, 'serialRead', {c:0,l:data});
// remove first
sp[port].lastSerialWrite.shift();
} else if (data.indexOf('rs') == 0) { //Marlin
// handle resend
// resend last
sp[port].handle.write(sp[port].lastSerialWrite[-1]);
console.log(chalk.red('ERROR:'), chalk.yellow(' rs (resend) from printer, resending'));
} else if (data.indexOf('Resend') == 0) { // Repetier
// handle resend
// resend last
if (sp[port].lastSerialWrite[-1]) {
sp[port].handle.write(sp[port].lastSerialWrite[-1]);
console.log(chalk.red('ERROR:'), chalk.yellow(' (resend) from printer, resending: '), chalk.blue(+sp[port].lastSerialWrite[-1]));
} else {
console.log(chalk.red('ERROR:'), chalk.yellow(' (resend) from printer Queue Empty. '));
}
;
} else if (data.indexOf('!!') == 0) {
// error is red
emitToPortSockets(port, 'serialRead', {c:1,l:data});
// remove first
sp[port].lastSerialWrite.shift();
console.log(chalk.red('ERROR:'), chalk.yellow(' !! alarm) from machine'));
} else if (data.indexOf('error') == 0) { //Marlin / Grbl
// error is red
emitToPortSockets(port, 'serialRead', {c:1,l:data});
console.log(chalk.red('ERROR:'), chalk.yellow(' Error from machine:'), chalk.blue(data));
// run another line from the q
// Commenting out the "lets continue" based on discussions with firmware devs Sonny Jeon and Arthur Wolf
/*if (sp[port].q.length > 0) {
// there are remaining lines in the q
// write one
sendFirstQ(port);
}*/
sp[port].q = [];
sp[port].qCurrentMax = 0;
console.log(chalk.red('Aborted Job - safety first!'));
emitToPortSockets(port, 'serialRead', {c:1,l:"Aborted Job! Safety First!"});
} else if (data.indexOf('Error') == 0) { //Repetier
// error is red
emitToPortSockets(port, 'serialRead', {c:1,l:data});
console.log(chalk.red('ERROR:'), chalk.yellow(' Error from machine:'), chalk.blue(data));
// run another line from the q
// Commenting out the "lets continue" based on discussions with firmware devs Sonny Jeon and Arthur Wolf
/*if (sp[port].q.length > 0) {
// there are remaining lines in the q
// write one
sendFirstQ(port);
}*/
// and instead, flushing the queue: Safer to stop a machine after an 'error'
sp[port].q = [];
sp[port].qCurrentMax = 0;
console.log(chalk.red('Aborted Job - safety first!'));
emitToPortSockets(port, 'serialRead', {c:1,l:"Aborted Job! Safety First!"});
// remove first
sp[port].lastSerialWrite.shift();
} else if (data.indexOf('wait') == 0) {
// wait is grey
emitToPortSockets(port, 'serialRead', {c:2,l:data});
}
else {
// other is grey
emitToPortSockets(port, 'serialRead', {c:2,l:data});
// console.log(chalk.yellow('WARN:'),
// chalk.gray('Ignored:'), chalk.yellow(' Port'),
//
// chalk.blue(sp[port].port),
// chalk.yellow('said: '),
// chalk.blue(data));
}
if (sp[port].q.length == 0) {
// reset max once queue is done
sp[port].qCurrentMax = 0;
}
// update q status
emitToPortSockets(port, 'qStatus', {'currentLength':sp[port].q.length, 'currentMax':sp[port].qCurrentMax});
sp[port].lastSerialReadLine = data;
}
var currentSocketPort = {};
function sendFirstQ(port) {
console.log('Queue Length: ' + sp[port].q.length);
if (sp[port].q.length < 1) {
// nothing to send
return;
}
var t = sp[port].q.shift();
// remove any comments after the command
tt = t.split(';');
t = tt[0];
// trim it because we create the \n
t = t.trim();
if (t == '' || t.indexOf(';') == 0) {
// this is a comment or blank line, go to next
sendFirstQ(port);
return;
}
//console.log(chalk.green('sending '+t+' ### '+sp[port].q.length+' current q length'));
// loop through all registered port clients
for (var i=0; i<sp[port].sockets.length; i++) {
sp[port].sockets[i].emit('serialRead', {c:3,l:'SEND: '+t});
}
sp[port].handle.write(t+"\n");
console.log('Sent' + t);
sp[port].lastSerialWrite.push(t);
}
var queuePause = 0;
io.sockets.on('connection', function (socket) {
// emit all ports to ui
socket.emit('ports', allPorts);
socket.on('firstLoad', function(data) {
socket.emit('slOpts', slBaseOpts);
socket.emit('config', config);
if (args[0]) {
if (args[0].indexOf('--debug') == 0) {
socket.emit('firmware', debugfirmware);
console.log(chalk.yellow('WARN:'), chalk.blue('Forcing debug testing with specific Firmware String: '), chalk.yellow(args[1]));
};
};
});
// Save Machine Settings to JSON and re-use
fs.readFile('machines', function(err, cSettings) {
if (err) {
console.log('problem reading Machine Profiles, using none');
cSettings = {machines:[]};
} else {
cSettings = JSON.parse(cSettings);
console.log(chalk.green('INFO:'), chalk.yellow('Machine Profiles read from file'));
}
socket.emit('machinesettings', {exists:-1,machines:cSettings});
});
socket.on('savePreset', function(data) {
// save presets
// format:
// {slicerName:[{name:'preset_name',opts:[{o:'optName':v:'optValue'}]}],slicer2Name:[{name:'preset_name',opts:[{o:'optName':v:'optValue'}]}]}
fs.readFile('machines', function(err, cSettings) {
if (err) {
console.log('problem reading presets, using none');
cSettings = {machines:[]};
} else {
cSettings = JSON.parse(cSettings);
}
// check the cPresets[slicer] array to see if this named preset already exists
var exists = -1;
for (c in cSettings[data.default]) {
if (cSettings[data.default][c].name == data.name) {
if (data.isNew) {
// return error because that already exists
socket.emit('serverError', 'that preset name is already used');
return;
} else {
// found a match, update it
cSettings[data.default][c].opts = data.opts;
exists = c;
}
}
}
if (exists == -1) {
// add as a new preset
cSettings[data.default].push({name:data.name,opts:data.opts});
// set for return value of new
exists = -2;
}
fs.writeFile('machines', JSON.stringify(cSettings), function(err) {
if (err) {
// return error
socket.emit('serverError', 'error writing to presets');
} else {
socket.emit('machinesettings', {exists:exists,machines:cSettings});
}
});
});
});
socket.on('deletePreset', function(data) {
//console.log('DATA: '+util.inspect(data, {showHidden: false, depth: null}))
// delete preset
// format:
// {slicerName:[{name:'preset_name',opts:[{o:'optName':v:'optValue'}]}],slicer2Name:[{name:'preset_name',opts:[{o:'optName':v:'optValue'}]}]}
//console.log('Deleting');
fs.readFile('machines', function(err, cSettings) {
if (err) {
console.log('problem reading presets, using none');
} else {
cSettings = JSON.parse(cSettings);
//console.log('CSettings: '+util.inspect(cSettings[data.default], {showHidden: false, depth: null}));
}
// check the cPresets[slicer] array to see if this named preset already exists
for (c in cSettings[data.default]) {
if (cSettings[data.default][c].name == data.name) {
// found a match, delete it
console.log(chalk.yellow('WARN: '), chalk.white('Deleting Machine Profile'), chalk.blue(cSettings[data.default][c].name));
cSettings[data.default].splice(c,1);
socket.emit('machinesettings', {exists:-1,machines:cSettings});
}
}
fs.writeFile('machines', JSON.stringify(cSettings), function(err) {
if (err) {
// return error
socket.emit('serverError', 'error writing to presets');
} else {
socket.emit('machinesettings', {exists:-1,machines:cSettings});
}
});
});
});
socket.on('doReset', function (data) {
// soft reset for grbl, send ctrl-x ascii \030
sp[currentSocketPort[socket.id]].handle.write("\030");
// reset vars
sp[currentSocketPort[socket.id]].q = [];
sp[currentSocketPort[socket.id]].qCurrentMax = 0;
sp[currentSocketPort[socket.id]].lastSerialWrite = [];
sp[currentSocketPort[socket.id]].lastSerialRealLine = '';
});
socket.on('clearQ', function(data) {
// clear the command queue
sp[currentSocketPort[socket.id]].q = [];
// update the status
emitToPortSockets(currentSocketPort[socket.id], 'qStatus', {'currentLength':0, 'currentMax':0});
});
socket.on('pause', function(data) {
// pause queue
if (data == 1) {
console.log(chalk.yellow('pausing queue'));
queuePause = 1;
} else {
console.log(chalk.yellow('unpausing queue'));
queuePause = 0;
sendFirstQ(currentSocketPort[socket.id]);
}
});
// gcode print
socket.on('printGcode', function (data) {
console.log(chalk.yellow('Job Started'));
if (typeof currentSocketPort[socket.id] != 'undefined') {
// split newlines
var nl = data.line.split("\n");
// add to queue
sp[currentSocketPort[socket.id]].q = sp[currentSocketPort[socket.id]].q.concat(nl);
// set qCurrentMax
sp[currentSocketPort[socket.id]].qCurrentMax = nl.length;
if (sp[currentSocketPort[socket.id]].q.length == nl.length) {
// there was no previous q so write a line
sendFirstQ(currentSocketPort[socket.id]);
}
} else {
socket.emit('serverError', 'you must select a serial port');
}
});
// lines fromweb ui
socket.on('gcodeLine', function (data) {
console.log(chalk.yellow('Command Sent from Console: '));
if (typeof currentSocketPort[socket.id] != 'undefined') {
// valid serial port, safe to send
// split newlines
var nl = data.line.split("\n");
console.log('Line: '+ nl);
// add to queue
sp[currentSocketPort[socket.id]].q = sp[currentSocketPort[socket.id]].q.concat(nl);
// add to qCurrentMax
sp[currentSocketPort[socket.id]].qCurrentMax += nl.length;
if (sp[currentSocketPort[socket.id]].q.length == nl.length) {
// there was no previous q so write a line
// Debug for Issue #70 https://github.com/openhardwarecoza/LaserWeb/issues/70
sendFirstQ(currentSocketPort[socket.id]);
console.log(chalk.yellow('first command'));
if (sp[currentSocketPort[socket.id]].firmware.indexOf('Lasaur') === 0) {
if (nl[0] === '~' && nl.length > 1) {
sendFirstQ(currentSocketPort[socket.id]);
}
}
}
} else {
socket.emit('serverError', 'you must select a serial port');
}
});
socket.on('disconnect', function() {
if (typeof currentSocketPort[socket.id] != 'undefined') {
for (var c=0; c<sp[currentSocketPort[socket.id]].sockets.length; c++) {
if (sp[currentSocketPort[socket.id]].sockets[c].id == socket.id) {
// remove old
sp[currentSocketPort[socket.id]].sockets.splice(c,1);
}
}
}
});
socket.on('usePort', function (data) {
console.log(
//chalk.yellow('switching from '),
//chalk.blue(currentSocketPort[socket.id]),
chalk.green('INFO:'),
chalk.yellow(' Now interacting with '),
//chalk.blue(data),
chalk.blue(sp[data].port),
chalk.yellow(' running '),
chalk.blue(sp[data].firmware)
);
socket.emit('firmware', sp[data].firmware);
if (typeof currentSocketPort[socket.id] != 'undefined') {
for (var c=0; c<sp[currentSocketPort[socket.id]].sockets.length; c++) {
if (sp[currentSocketPort[socket.id]].sockets[c].id == socket.id) {
// remove old
sp[currentSocketPort[socket.id]].sockets.splice(c,1);
}
}
}
if (typeof sp[data] != 'undefined') {
currentSocketPort[socket.id] = data;
sp[data].sockets.push(socket);
} else {
socket.emit('serverError', 'that serial port does not exist');
}
});
socket.on('updateGit', function(data) {
console.log(chalk.yellow('\nChecking for Updates'));
var child = require('child_process').exec('git remote update; git status');
// use event hooks to provide a callback to execute when data are available:
child.stdout.on('data', function(data) {
//console.log(data);
socket.emit('updateStatus', data);
console.log(chalk.green('INFO:'), chalk.yellow('Git Refresh'), chalk.blue(data));
});
});
socket.on('upgradeGit', function(data) {
console.log(chalk.yellow('\nExecuting Updates'));
var child = require('child_process').exec('git pull');
// use event hooks to provide a callback to execute when data are available:
child.stdout.on('data', function(data) {
//console.log(data);
socket.emit('updateStatus', data);
console.log(chalk.green('INFO:'), chalk.yellow('Git Update'), chalk.blue(data));
});
});
});