mcopy/app/main.js

447 lines
10 KiB
JavaScript

'use strict'
const electron = require('electron')
const { Menu, MenuItem, ipcMain, BrowserWindow, app } = electron
const fs = require('fs')
const winston = require('winston')
const moment = require('moment')
const uuid = require('uuid')
const events = require('events')
const async = require('async')
const path = require('path')
const ee = new events.EventEmitter()
const capture = require('./lib/capture')(ee)
const Server = require('./lib/server')
const settings = require('./lib/settings')
const mcopy = {}
let mainWindow
let mscript
let arduino
let projector
let camera
let server
let menu
let log = {}
//console.log(process.version)
//cfg is now hardcoded, should only be modified by developers
//settings is now the source of user editable variables
mcopy.cfg = require('./data/cfg.json')
var enumerateDevices = function (err, devices) {
if (err) {
log.info(err, 'SERIAL', false, true)
setTimeout(() =>{
distinguishDevices([])
}, 1000)
} else {
log.info('Found ' + devices.length + ' USB devices', 'SERIAL', true, true)
distinguishDevices(devices)
}
}
var distinguishDevice = function (device, callback) {
var connectCb = function (err, device) {
if (err) {
return console.error(err)
}
setTimeout(function () {
arduino.verify(verifyCb)
}, 2000);
},
verifyCb = function (err, success) {
if (err) {
return console.error(err)
}
log.info(`Verified ${device} as mcopy device`, 'SERIAL', true, true)
setTimeout(function () {
arduino.distinguish(distinguishCb);
}, 1000);
},
distinguishCb = function (err, type) {
if (err) {
return console.error(err)
}
log.info(`Determined ${device} to be ${type}`, 'SERIAL', true, true)
if (callback) { callback(err, type); }
}
arduino.connect('connect', device, true, connectCb)
};
//Cases for 1 or 2 arduinos connected
var distinguishDevices = function (devices) {
const connected = {
projector : false,
camera : false,
light : false
}
let checklist = []
var fakeProjector = function () {
connected.projector = '/dev/fake'
arduino.fakeConnect('projector', () => {
log.info('Connected to fake PROJECTOR device', 'SERIAL', true, true)
})
}
var fakeCamera = function () {
connected.camera = '/dev/fake'
arduino.fakeConnect('camera', () => {
log.info('Connected to fake CAMERA device', 'SERIAL', true, true)
})
}
var fakeLight = function () {
connected.light = '/dev/fake'
arduino.fakeConnect('light', () => {
log.info('Connected to fake LIGHT device', 'SERIAL', true, true)
})
}
var distinguishCb = function (device, type, cb) {
arduino.close(() => {
if (type === 'projector') {
connected.projector = device
arduino.connect('projector', device, false, () => {
log.info(`Connected to ${device} as PROJECTOR`, 'SERIAL', true, true)
cb()
})
} else if (type === 'camera') {
connected.camera = device
arduino.connect('camera', device, false, () => {
log.info(`Connected to ${device} as CAMERA`, 'SERIAL', true, true)
cb()
})
} else if (type === 'light') {
connected.light = device
arduino.connect('light', device, false, () => {
log.info(`Connected to ${device} as LIGHT`, 'SERIAL', true, true)
cb()
})
} else if (type === 'projector,light') {
connected.projector = device
connected.light = device
arduino.connect('projector', device, false, () => {
log.info(`Connected to ${device} as PROJECTOR + LIGHT`, 'SERIAL', true, true)
cb()
})
arduino.alias('light', device)
} else if (type === 'projector,camera,light') {
connected.projector = device
connected.camera = device
connected.light = device
arduino.connect('projector', device, false, () => {
log.info(`Connected to ${device} as PROJECTOR + CAMERA + LIGHT`, 'SERIAL', true, true)
cb()
})
arduino.alias('camera', device)
arduino.alias('light', device)
} else if (type === 'projector,camera') {
connected.projector = device
connected.camera = device
arduino.connect('projector', device, false, () => {
log.info(`Connected to ${device} as PROJECTOR`, 'SERIAL', true, true)
cb()
})
arduino.alias('camera', device)
} else {
cb()
}
})
}
checklist = devices.map(device => {
return next => {
distinguishDevice(device, (err, type) => {
if (err) {
console.error(err)
return next()
}
distinguishCb(device, type, next)
})
}
})
async.series(checklist, () => {
//done checking devices
if (!connected.projector) {
fakeProjector()
}
if (!connected.camera) {
fakeCamera()
}
if (!connected.light) {
fakeLight()
}
devicesReady(connected.projector, connected.camera, connected.light)
})
};
var devicesReady = function (projector, camera, light) {
mainWindow.webContents.send('ready', {camera: camera, projector: projector, light: light })
settings.update('camera', { arduino : camera })
settings.update('projector', { arduino : projector })
settings.update('light', { arduino : light })
settings.save()
};
var createMenu = function () {
const template = require('./data/menu.json')
menu = Menu.buildFromTemplate(template)
Menu.setApplicationMenu(menu)
}
var createWindow = function () {
mainWindow = new BrowserWindow({
width: 800,
height: 600,
minWidth : 800,
minHeight : 600
})
mainWindow.loadURL('file://' + __dirname + '/index.html')
//mainWindow.webContents.openDevTools()
mainWindow.on('closed', () => {
mainWindow = null
})
}
var light = {}
light.init = function () {
light.listen()
};
light.listen = function () {
ipcMain.on('light', (event, arg) => {
light.set(arg.rgb, arg.id)
event.returnValue = true
})
};
light.set = function (rgb, id) {
var str = rgb.join(',');
arduino.send('light', mcopy.cfg.arduino.cmd.light, (ms) => {
light.end(rgb, id, ms)
})
arduino.string('light', str)
};
light.end = function (rgb, id, ms) {
log.info('Light set to ' + rgb.join(','), 'LIGHT', true, true)
mainWindow.webContents.send('light', {rgb: rgb, id : id, ms: ms})
};
var proj = {}
proj.state = {
dir : true //default dir
};
proj.init = function () {
proj.listen()
}
proj.set = function (dir, id) {
var cmd
if (dir) {
cmd = mcopy.cfg.arduino.cmd.proj_forward
} else {
cmd = mcopy.cfg.arduino.cmd.proj_backward
}
proj.state.dir = dir
arduino.send('projector', cmd, (ms) => {
proj.end(cmd, id, ms)
})
}
proj.move = function (frame, id) {
arduino.send('projector', mcopy.cfg.arduino.cmd.projector, (ms) => {
proj.end(mcopy.cfg.arduino.cmd.projector, id, ms)
})
}
proj.listen = function () {
ipcMain.on('proj', (event, arg) => {
if (typeof arg.dir !== 'undefined') {
proj.set(arg.dir, arg.id)
} else if (typeof arg.frame !== 'undefined') {
proj.move(arg.frame, arg.id)
}
event.returnValue = true
})
}
proj.end = function (cmd, id, ms) {
var message = ''
if (cmd === mcopy.cfg.arduino.cmd.proj_forward) {
message = 'Projector set to FORWARD'
} else if (cmd === mcopy.cfg.arduino.cmd.proj_backward) {
message = 'Projector set to BACKWARD'
} else if (cmd === mcopy.cfg.arduino.cmd.projector) {
message = 'Projector '
if (proj.state.dir) {
message += 'ADVANCED'
} else {
message += 'REWOUND'
}
message += ' 1 frame'
}
log.info(message, 'PROJECTOR', true, true)
mainWindow.webContents.send('proj', {cmd: cmd, id : id, ms: ms})
}
var cam = {}
cam.state = {
dir : true //default dir
}
cam.init = function () {
cam.listen()
}
cam.set = function (dir, id) {
var cmd
if (dir) {
cmd = mcopy.cfg.arduino.cmd.cam_forward
} else {
cmd = mcopy.cfg.arduino.cmd.cam_backward
}
cam.state.dir = dir
arduino.send('camera', cmd, (ms) => {
cam.end(cmd, id, ms)
})
}
cam.setWeb = function (dir, id) {
}
cam.move = function (frame, id) {
arduino.send('camera', mcopy.cfg.arduino.cmd.camera, (ms) => {
cam.end(mcopy.cfg.arduino.cmd.camera, id, ms)
})
}
cam.moveWeb = function (frame, id) {
}
cam.listen = function () {
ipcMain.on('cam', (event, arg) => {
if (typeof arg.dir !== 'undefined') {
cam.set(arg.dir, arg.id)
} else if (typeof arg.frame !== 'undefined') {
cam.move(arg.frame, arg.id)
}
event.returnValue = true
});
};
cam.end = function (cmd, id, ms) {
var message = ''
if (cmd === mcopy.cfg.arduino.cmd.cam_forward) {
message = 'Camera set to FORWARD'
} else if (cmd === mcopy.cfg.arduino.cmd.cam_backward) {
message = 'Camera set to BACKWARD'
} else if (cmd === mcopy.cfg.arduino.cmd.camera) {
message = 'Camera '
if (cam.state.dir) {
message += 'ADVANCED'
} else {
message += 'REWOUND'
}
message += ' 1 frame'
}
log.info(message, 'CAMERA', true, true)
mainWindow.webContents.send('cam', {cmd: cmd, id : id, ms: ms})
};
log.file = function () {
let logPath = `/var/log/mcopy/`
if (process.platform === 'darwin') {
} else if (process.platform === 'win32') {
}
return path.join(logPath, 'mcopy.log')
}
log.time = 'MM/DD/YY-HH:mm:ss'
log.transport = new (winston.Logger)({
transports: [
new (winston.transports.Console)(),
new (winston.transports.File)({ filename: './logs/mcopy.log' })
]
})
log.init = function () {
log.listen()
}
log.display = function (obj) {
mainWindow.webContents.send('log', obj)
}
log.listen = function () {
ipcMain.on('log', (event, arg) => {
log.transport.info('renderer', arg)
event.returnValue = true
})
}
log.info = function (action, service, status, display) {
var obj = {
time : moment().format(log.time),
action : action,
service : service,
status : status
}
log.transport.info('main', obj)
if (display) {
log.display(obj)
}
}
var transfer = {}
transfer.init = function () {
transfer.listen()
};
transfer.listen = function () {
ipcMain.on('transfer', (event, arg) => {
var res = '';
//also turn on and off
if (arg.action === 'enable') {
capture.active = true
res = capture.active
} else if (arg.action === 'disable') {
capture.active = false
res = capture.active
} else if (arg.action === 'start') {
capture.start()
} else if (arg.action === 'end') {
res = capture.end()
}
event.returnValue = res
})
}
var init = function () {
settings.restore()
createWindow()
//createMenu()
log.init()
light.init()
proj.init()
cam.init()
//transfer.init()
//capture.init()
arduino = require('./lib/arduino')(mcopy.cfg, ee)
mscript = require('./lib/mscript')
setTimeout( () => {
arduino.enumerate(enumerateDevices)
}, 1000)
}
app.on('ready', init)
app.on('window-all-closed', () => {
//if (process.platform !== 'darwin') {
app.quit();
//}
});
app.on('activate', () => {
if (mainWindow === null) {
createWindow();
}
});