'use strict'; import delay = require('delay'); import Log = require('log'); /** * class representing the device discovery features * * **/ class Devices { public settings : any; public connected : any = {} private arduino : Arduino; private log : any; private ui : any; private ipc : any; private mainWindow : any; private cam : any; /** * **/ constructor (arduino : Arduino, settings : any, mainWindow : any, cam : any) { this.arduino = arduino; this.settings = settings; this.mainWindow = mainWindow; this.ui = this.mainWindow.webContents this.cam = cam; this.init(); } /** * **/ private async init () { this.log = await Log({ label : 'devices' }) this.ipc = require('electron').ipcMain; this.listen() } /** * **/ private listen () { this.ipc.on('profile', this.listener.bind(this)); } /** * **/ private listener (event : any, arg : any){ this.log.info(`Saving profile ${arg.profile}`, 'SETTINGS', false, false); this.settings.update('profile', arg.profile); this.settings.save(); } /** * **/ public async enumerate () { let devices : Device[]; try{ devices = await this.arduino.enumerate(); } catch (err) { this.log.warn(err, 'SERIAL', false, true); await delay(1000); return this.all([]); } this.log.info(`Found ${devices.length} USB devices`, 'SERIAL', true, true); devices = this.favor(devices); return await this.all(devices); } /** * **/ private favor (devices : Device[]) { const past = this.settings.state.devices.filter((device : Device) => { if (device.arduino) { return device; } }).map((device : Device) => { return device.arduino; }) if (past.length === 0) { return devices; } devices.sort((a : any, b : any) => { if (past.indexOf(a) !== -1 && past.indexOf(b) === -1) { return 1; } else if (past.indexOf(a) === -1 && past.indexOf(b) !== -1) { return -1; } return 0; }) return devices; } /** * **/ private async distinguish (device : Device) { let connectSuccess : any; let verifySuccess : any; let type : any; try { connectSuccess = await this.arduino.connect('connect', device, true) } catch (err) { this.log.error('Error connecting', err) return null } await delay(2000) try { verifySuccess = await this.arduino.verify() } catch (err) { this.log.error('Error verifying device', err) return null } this.log.info(`Verified ${device} as mcopy device`, 'SERIAL', true, true) await delay(1000) try { type = await this.arduino.distinguish() } catch (err) { this.log.error('Error distinguishing device', err) return null } this.remember('arduino', device, type) this.log.info(`Determined ${device} to be ${type}`, 'SERIAL', true, true) return type } /** * **/ private async fakeProjector () { this.connected.projector = '/dev/fake' try { await this.arduino.fakeConnect('projector') } catch (err) { console.error(err) this.log.error(`Error connecting to fake PRONECTOR device`, 'SERIAL', true, true) return false } this.log.info('Connected to fake PROJECTOR device', 'SERIAL', true, true) return true } /** * **/ private async fakeCamera () { this.connected.camera = '/dev/fake' try { await this.arduino.fakeConnect('camera') } catch (err) { console.error(err) this.log.error(`Error connecting to fake CAMERA device`, 'SERIAL', true, true) return false } this.log.info('Connected to fake CAMERA device', 'SERIAL', true, true) return true } /** * **/ private async fakeLight () { this.connected.light = '/dev/fake' try { await this.arduino.fakeConnect('light') } catch (err) { console.error(err) this.log.error(`Error connecting to fake LIGHT device`, 'SERIAL', true, true) return false } this.log.info('Connected to fake LIGHT device', 'SERIAL', true, true) return true } /** * **/ private async connectDevice (device : Device, type : any) { let closeSuccess : any; let connectSuccess : any; try { closeSuccess = await this.arduino.close() } catch (err) { this.log.error('Error closing arduino connection', err) return false } if (type === 'projector') { this.connected.projector = device try { connectSuccess = await this.arduino.connect('projector', device, false) } catch (err) { this.log.error('Error connecting to projector', err) return false } this.log.info(`Connected to ${device} as PROJECTOR`, 'SERIAL', true, true) } else if (type === 'camera') { this.connected.camera = device try { connectSuccess = await this.arduino.connect('camera', device, false) } catch (err) { this.log.error('Error connecting to camera', err) return false } this.log.info(`Connected to ${device} as CAMERA`, 'SERIAL', true, true) } else if (type === 'light') { this.connected.light = device try { connectSuccess = await this.arduino.connect('light', device, false) } catch (err) { this.log.error('Error connecting to light', err) return false } this.log.info(`Connected to ${device} as LIGHT`, 'SERIAL', true, true) } else if (type === 'projector,light') { this.connected.projector = device this.connected.light = device this.arduino.aliasSerial('light', device) try{ connectSuccess = await this.arduino.connect('projector', device, false) } catch (err) { this.log.error('Error connecting to projector and light', err) return false } this.log.info(`Connected to ${device} as PROJECTOR + LIGHT`, 'SERIAL', true, true) } else if (type === 'projector,camera,light') { this.connected.projector = device this.connected.camera = device this.connected.light = device this.arduino.aliasSerial('camera', device) this.arduino.aliasSerial('light', device) try { connectSuccess = await this.arduino.connect('projector', device, false) } catch (err) { this.log.error('Error connecting to projector, camera and light', err) return false } this.log.info(`Connected to ${device} as PROJECTOR + CAMERA + LIGHT`, 'SERIAL', true, true) } else if (type === 'projector,camera') { this.connected.projector = device this.connected.camera = device this.arduino.aliasSerial('camera', device) try { connectSuccess = await this.arduino.connect('projector', device, false) } catch (err) { this.log.error('Error connecting to projector and camera', err) return false } this.log.info(`Connected to ${device} as PROJECTOR + CAMERA`, 'SERIAL', true, true) } else if (type === 'projector_second') { this.connected.projector_second = device this.arduino.aliasSerial('projector_second', device) try { connectSuccess = await this.arduino.connect('projector_second', device, false) } catch (err) { this.log.error('Error connecting to secondary projector', err) return false } this.log.info(`Connected to ${device} as PROJECTOR_SECOND`, 'SERIAL', true, true) } else if (type === 'projector,projector_second') { /*this.connected.projector_second = device this.arduino.aliasSerial('projector_second', device) try { connectSuccess = await this.arduino.connect('projector_second', device, false) } catch (err) { console.error(err) return false }*/ } else if (type === 'camera_second') { /*this.connected.projector_second = device this.arduino.aliasSerial('projector_second', device) try { connectSuccess = await this.arduino.connect('projector_second', device, false) } catch (err) { console.error(err) return false }*/ } else if (type === 'camera,camera_second') { /*this.connected.projector_second = device this.arduino.aliasSerial('projector_second', device) try { connectSuccess = await this.arduino.connect('projector_second', device, false) } catch (err) { console.error(err) return false }*/ } return connectSuccess } /** * **/ //Cases for 1 or 2 arduinos connected private async all (devices : Device[]) { let c : any = {} let p : any = {} let l : any = {} let type : string; let d : any let s : any = {} let checklist : any[] = [] this.connected = { projector : false, camera : false, light : false, projector_second : false } for (let device of devices) { try { type = await this.distinguish(device) } catch (err) { this.log.error('Error distinguishing device', err) throw err } try { await this.connectDevice(device, type) } catch (err) { this.log.error('Error connecting to device', err) throw err } } //done checking devices if (!this.connected.projector) { await this.fakeProjector() } p.arduino = this.connected.projector if (!this.connected.camera) { await this.fakeCamera() } c.arduino = this.connected.camera if (this.settings.state.camera && this.settings.state.camera.intval) { c.intval = this.settings.camera.intval await delay(1000) await this.cam.connectIntval(null, { connect : true, url : c.intval }) } if (!this.connected.light) { await this.fakeLight() } l.arduino = this.connected.light if (this.connected.projector_second) { s = this.connected.projector_second } return this.ready(p, c, l, s) } /** * **/ private remember (which : string, device : any, type : string) { let deviceEntry : any; const match = this.settings.state.devices.filter((dev : any) => { if (dev[which] && dev[which] === device) { return dev } }) if (match.length === 0) { deviceEntry = { type : type } deviceEntry[which] = device this.settings.state.devices.push(deviceEntry) this.settings.update('devices', this.settings.state.devices) this.settings.save() } }; /** * **/ private ready (projector : any, camera : any, light : any, projector_second : any) { let args : any = { camera, projector, light, profile: this.settings.profile } if (projector_second && projector_second.arduino) { args.projector_second = projector_second } this.ui.send('ready', args) this.settings.update('camera', camera) this.settings.update('projector', projector) this.settings.update('light', light) if (projector_second && projector_second.arduino) { this.settings.update('projector_second', projector_second) this.mainWindow.setSize(800, 800) } this.settings.save() return true }; /** * **/ } module.exports = function (arduino : Arduino, settings : any, mainWindow : any, cam : any) { return new Devices(arduino, settings, mainWindow, cam) }