'use strict'; Object.defineProperty(exports, "__esModule", { value: true }); const delay_1 = require("delay"); const Log = require("log"); /** * class representing the device discovery features * * **/ class Devices { /** * Constructor assigns arduino, settings, UI browser window and cam objects * locally to this class for reference. **/ constructor(arduino, settings, mainWindow, cam) { this.connected = {}; this.arduino = arduino; this.settings = settings; this.mainWindow = mainWindow; this.ui = this.mainWindow.webContents; this.cam = cam; this.init(); } /** * Initialize the log for "devices". Establish an ipc connection to the UI. * Start listening on that ipc connection. **/ async init() { this.log = await Log({ label: 'devices' }); this.ipc = require('electron').ipcMain; this.listen(); } /** * Listen to the "profile" channel for messages from the UI. **/ listen() { this.ipc.on('profile', this.listener.bind(this)); } /** * The "profile" channel callback. If a profile is changed, set it in the * local settings object. **/ listener(event, arg) { if (typeof arg.profile !== 'undefined') { this.log.info(`Saving profile ${arg.profile}`, 'SETTINGS', false, false); this.settings.update('profile', arg.profile); this.settings.save(); } if (typeof arg.timing !== 'undefined') { this.log.info(`Saving timing info`, 'SETTINGS', false, false); this.settings.update('timing', arg.timing); this.settings.save(); } } /** * **/ async enumerate() { let serials; try { serials = await this.arduino.enumerate(); } catch (err) { this.log.warn(err, 'SERIAL', false, true); await delay_1.delay(1000); return this.all([]); } this.log.info(`Found ${serials.length} USB devices`, 'SERIAL', true, true); serials = this.favor(serials); return await this.all(serials); } /** * **/ favor(serials) { const past = this.settings.state.devices.filter((device) => { if (device.serial) { return device; } }).map((device) => { return device.serial; }); if (past.length === 0) { return serials; } serials.sort((a, b) => { 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 serials; } /** * **/ async distinguish(serial) { let connectSuccess; let verifySuccess; let device; //this.log.info(`distinguish() ${serial}`) try { connectSuccess = await this.arduino.connect('connect', serial, true); } catch (err) { this.log.error('Error connecting', err); return null; } await delay_1.delay(2000); try { verifySuccess = await this.arduino.verify(); } catch (err) { this.log.error('Error verifying device', err); return null; } this.log.info(`Verified ${serial} as mcopy device`, 'SERIAL', true, true); await delay_1.delay(1000); try { device = await this.arduino.distinguish(); } catch (err) { this.log.error('Error distinguishing device', err); return null; } this.remember('arduino', device, serial); this.log.info(`Determined ${device} to be ${device}`, 'SERIAL', true, true); await delay_1.delay(100); try { await this.arduino.state(device, true); } catch (err) { this.log.error('Error checking state capability', err); } return device; } /** * **/ async fakeProjector() { this.connected.projector = '/dev/fake'; try { await this.arduino.fakeConnect('projector'); } catch (err) { this.log.error(`Error connecting to fake PROjECTOR device`, 'SERIAL', true, true); this.log.error(err); return false; } this.log.info('Connected to fake PROJECTOR device', 'SERIAL', true, true); return true; } /** * **/ async fakeCamera() { this.connected.camera = '/dev/fake'; try { await this.arduino.fakeConnect('camera'); } catch (err) { this.log.error(`Error connecting to fake CAMERA device`, 'SERIAL', true, true); this.log.error(err); return false; } this.log.info('Connected to fake CAMERA device', 'SERIAL', true, true); return true; } /** * **/ async fakeLight() { this.connected.light = '/dev/fake'; try { await this.arduino.fakeConnect('light'); } catch (err) { this.log.error(`Error connecting to fake LIGHT device`, 'SERIAL', true, true); this.log.error(err); return false; } this.log.info('Connected to fake LIGHT device', 'SERIAL', true, true); return true; } /** * **/ async fakeCapper() { this.connected.capper = '/dev/fake'; try { await this.arduino.fakeConnect('capper'); } catch (err) { this.log.error(`Error connecting to fake CAPPER device`, 'SERIAL', true, true); this.log.error(err); return false; } this.log.info('Connected to fake CAPPER device', 'SERIAL', true, true); return true; } /** * **/ async connectDevice(device, serial) { let closeSuccess; let connectSuccess; try { closeSuccess = await this.arduino.close(); } catch (err) { this.log.error('Error closing arduino connection', err); return false; } if (device === 'projector') { this.connected.projector = serial; try { connectSuccess = await this.arduino.connect('projector', serial, 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 (device === 'camera') { this.connected.camera = serial; try { connectSuccess = await this.arduino.connect('camera', serial, 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 (device === 'light') { this.connected.light = serial; try { connectSuccess = await this.arduino.connect('light', serial, 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 (device === 'projector,light') { this.connected.projector = serial; this.connected.light = serial; this.arduino.aliasSerial('light', serial); try { connectSuccess = await this.arduino.connect('projector', serial, 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 (device === 'projector,camera,light') { this.connected.projector = serial; this.connected.camera = serial; this.connected.light = serial; this.arduino.aliasSerial('camera', serial); this.arduino.aliasSerial('light', serial); try { connectSuccess = await this.arduino.connect('projector', serial, 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 (device === 'projector,camera') { this.connected.projector = serial; this.connected.camera = serial; this.arduino.aliasSerial('camera', serial); try { connectSuccess = await this.arduino.connect('projector', serial, 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 (device === 'projector_second') { this.connected.projector_second = serial; try { connectSuccess = await this.arduino.connect('projector_second', serial, 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 (device === 'projector,projector_second') { this.connected.projector = serial; this.connected.projector_second = serial; this.arduino.aliasSerial('projector_second', serial); try { connectSuccess = await this.arduino.connect('projector', serial, false); } catch (err) { this.log.error('Error connecting to projector and secondary projector', err); return false; } } else if (device === 'camera_second') { this.connected.camera_second = serial; try { connectSuccess = await this.arduino.connect('camera_second', serial, false); } catch (err) { this.log.error(err); return false; } } else if (device === 'camera,camera_second') { this.connected.camera = serial; this.connected.camera_second = serial; this.arduino.aliasSerial('camera_second', serial); try { connectSuccess = await this.arduino.connect('camera', serial, false); } catch (err) { this.log.error('Error connecting to camera, camera_secondary and projector', err); return false; } } else if (device === 'camera,projector,projector_second') { this.connected.camera = serial; this.connected.projector = serial; this.connected.projector_second = serial; this.arduino.aliasSerial('projector', serial); this.arduino.aliasSerial('projector_second', serial); try { connectSuccess = await this.arduino.connect('camera', serial, false); } catch (err) { this.log.error('Error connecting to camera, projector and projector_second', err); return false; } } else if (device === 'camera,camera_second,projector') { this.connected.camera = serial; this.connected.camera_second = serial; this.connected.projector = serial; this.arduino.aliasSerial('camera_second', serial); this.arduino.aliasSerial('projector', serial); try { connectSuccess = await this.arduino.connect('camera', serial, false); } catch (err) { this.log.error('Error connecting to camera, camera_second and projector', err); return false; } } else if (device === 'camera,camera_second,projector,projector_second') { this.connected.camera = serial; this.connected.camera_second = serial; this.connected.projector = serial; this.connected.projector_second = serial; this.arduino.aliasSerial('camera_second', serial); this.arduino.aliasSerial('projector', serial); this.arduino.aliasSerial('projector_second', serial); try { connectSuccess = await this.arduino.connect('camera', serial, false); } catch (err) { this.log.error('Error connecting to camera, camera_second, projector and projector_second', err); return false; } } else if (device === 'capper') { this.connected.capper = serial; try { connectSuccess = await this.arduino.connect('capper', serial, false); } catch (err) { this.log.error('Error connecting capper', err); return false; } } else if (device === 'camera,capper') { this.connected.camera = serial; this.connected.capper = serial; this.arduino.aliasSerial('capper', serial); try { connectSuccess = await this.arduino.connect('camera', serial, false); } catch (err) { this.log.error('Error connecting to camera and capper', err); return false; } } else if (device === 'camera,capper,projector') { this.connected.camera = serial; this.connected.capper = serial; this.connected.projector = serial; this.arduino.aliasSerial('capper', serial); this.arduino.aliasSerial('projector', serial); try { connectSuccess = await this.arduino.connect('camera', serial, false); } catch (err) { this.log.error('Error connecting to camera, capper and projector', err); return false; } } else if (device === 'camera,capper,projector,projector_second') { this.connected.camera = serial; this.connected.capper = serial; this.connected.projector = serial; this.connected.projector_second = serial; this.arduino.aliasSerial('capper', serial); this.arduino.aliasSerial('projector', serial); this.arduino.aliasSerial('projector_second', serial); try { connectSuccess = await this.arduino.connect('camera', serial, false); } catch (err) { this.log.error('Error connecting to camera, capper, projector and projector_second', err); return false; } } return connectSuccess; } /** * **/ //Cases for 1 or 2 arduinos connected async all(serials) { let c = {}; let p = {}; let l = {}; let device; let d; let cs = {}; let ps = {}; let capper = {}; let checklist = []; let exposure; let parts; this.connected = { projector: false, camera: false, light: false, projector_second: false, capper: false }; for (let serial of serials) { try { device = await this.distinguish(serial); } catch (err) { this.log.error('Error distinguishing device', err); throw err; } try { await this.connectDevice(device, serial); } catch (err) { this.log.error('Error connecting to device', err); throw err; } } //done checking devices if (!this.connected.projector) { await this.fakeProjector(); } else if (this.arduino.hasState['projector']) { p.state = true; } p.arduino = this.connected.projector; if (!this.connected.camera) { await this.fakeCamera(); } else if (this.arduino.hasState['camera']) { if (device.indexOf('camera') !== -1) { parts = this.arduino.stateStr[device].split('G'); if (parts.length > 1) { parts = parts[1].split('H'); exposure = parseInt(parts[0]); if (!isNaN(exposure)) { this.log.info(`Timing for [${device}] = ${exposure}`); this.ui.send('timing', { c: 'c', ms: exposure }); } } } c.state = true; c.exposure = true; } c.arduino = this.connected.camera; if (!this.connected.light) { await this.fakeLight(); } l.arduino = this.connected.light; if (this.connected.camera_second) { cs.arduino = this.connected.camera_second; } if (this.connected.projector_second) { ps.arduino = this.connected.projector_second; } if (this.connected.capper) { capper.arduino = this.connected.capper; } if (this.settings.state.camera && this.settings.state.camera.intval) { c.intval = this.settings.state.camera.intval; } return this.ready(p, c, l, cs, ps, capper); } /** * **/ remember(device, serial, type) { let deviceEntry; const match = this.settings.state.devices.filter((dev) => { if (dev[device] && dev[device] === serial) { return dev; } }); if (match.length === 0) { deviceEntry = { device, serial }; this.settings.state.devices.push(deviceEntry); this.settings.update('devices', this.settings.state.devices); this.settings.save(); } } /** * **/ ready(projector, camera, light, camera_second, projector_second, capper) { let args = { camera, projector, light, profile: this.settings.state.profile }; if (this.settings.state.timing) { args.timing = this.settings.state.timing; } if (projector_second && projector_second.arduino) { args.projector_second = projector_second; this.settings.update('projector_second', projector_second); this.mainWindow.setSize(800, 800); } if (camera_second && camera_second.arduino) { args.camera_second = camera_second; this.settings.update('camera_second', camera_second); if (projector_second && projector_second.arduino) { this.mainWindow.setSize(900, 800); } else { this.mainWindow.setSize(800, 800); } } if (capper && capper.arduino) { args.capper = capper; this.mainWindow.setSize(800, 800); this.settings.update('capper', capper); } this.settings.update('camera', camera); this.settings.update('projector', projector); this.settings.update('light', light); this.settings.save(); this.ui.send('ready', args); return true; } } module.exports = function (arduino, settings, mainWindow, cam) { return new Devices(arduino, settings, mainWindow, cam); }; //# sourceMappingURL=index.js.map