/** * Copyright (c) 2015-present, Facebook, Inc. * All rights reserved. * * This source code is licensed under the BSD-style license found in the * LICENSE file in the root directory of this source tree. An additional grant * of patent rights can be found in the PATENTS file in the same directory. */ 'use strict'; const adb = require('./adb'); const chalk = require('chalk'); const child_process = require('child_process'); const fs = require('fs'); const isPackagerRunning = require('../util/isPackagerRunning'); const findReactNativeScripts = require('../util/findReactNativeScripts'); const isString = require('lodash/isString'); const path = require('path'); const Promise = require('promise'); // Verifies this is an Android project function checkAndroid(root) { return fs.existsSync(path.join(root, 'android/gradlew')); } /** * Starts the app on a connected Android emulator or device. */ function runAndroid(argv, config, args) { if (!checkAndroid(args.root)) { const reactNativeScriptsPath = findReactNativeScripts(); if (reactNativeScriptsPath) { child_process.spawnSync( reactNativeScriptsPath, ['android'].concat(process.argv.slice(1)), {stdio: 'inherit'} ); } else { console.log(chalk.red('Android project not found. Maybe run react-native android first?')); } return; } if (!args.packager) { return buildAndRun(args); } return isPackagerRunning().then(result => { if (result === 'running') { console.log(chalk.bold('JS server already running.')); } else if (result === 'unrecognized') { console.warn(chalk.yellow('JS server not recognized, continuing with build...')); } else { // result == 'not_running' console.log(chalk.bold('Starting JS server...')); startServerInNewWindow(); } return buildAndRun(args); }); } function getAdbPath() { return process.env.ANDROID_HOME ? process.env.ANDROID_HOME + '/platform-tools/adb' : 'adb'; } // Runs ADB reverse tcp:8081 tcp:8081 to allow loading the jsbundle from the packager function tryRunAdbReverse(packagerPort, device) { try { const adbPath = getAdbPath(); const adbArgs = ['reverse', `tcp:${packagerPort}`, `tcp:${packagerPort}`]; // If a device is specified then tell adb to use it if (device) { adbArgs.unshift('-s', device); } console.log(chalk.bold( `Running ${adbPath} ${adbArgs.join(' ')}` )); child_process.execFileSync(adbPath, adbArgs, { stdio: [process.stdin, process.stdout, process.stderr], }); } catch (e) { console.log(chalk.yellow(`Could not run adb reverse: ${e.message}`)); } } // Builds the app and runs it on a connected emulator / device. function buildAndRun(args) { process.chdir(path.join(args.root, 'android')); const cmd = process.platform.startsWith('win') ? 'gradlew.bat' : './gradlew'; const packageName = fs.readFileSync( `${args.appFolder}/src/main/AndroidManifest.xml`, 'utf8' ).match(/package="(.+?)"/)[1]; const packageNameWithSuffix = args.appIdSuffix ? packageName + '.' + args.appIdSuffix : packageName; const adbPath = getAdbPath(); if (args.deviceId) { if (isString(args.deviceId)) { runOnSpecificDevice(args, cmd, packageNameWithSuffix, packageName, adbPath); } else { console.log(chalk.red('Argument missing for parameter --deviceId')); } } else { runOnAllDevices(args, cmd, packageNameWithSuffix, packageName, adbPath); } } function runOnSpecificDevice(args, gradlew, packageNameWithSuffix, packageName, adbPath) { let devices = adb.getDevices(); if (devices && devices.length > 0) { if (devices.indexOf(args.deviceId) !== -1) { buildApk(gradlew); installAndLaunchOnDevice(args, args.deviceId, packageNameWithSuffix, packageName, adbPath); } else { console.log('Could not find device with the id: "' + args.deviceId + '".'); console.log('Choose one of the following:'); console.log(devices); } } else { console.log('No Android devices connected.'); } } function buildApk(gradlew) { try { console.log(chalk.bold('Building the app...')); // using '-x lint' in order to ignore linting errors while building the apk child_process.execFileSync(gradlew, ['build', '-x', 'lint'], { stdio: [process.stdin, process.stdout, process.stderr], }); } catch (e) { console.log(chalk.red('Could not build the app, read the error above for details.\n')); } } function tryInstallAppOnDevice(args, device) { try { const pathToApk = `${args.appFolder}/build/outputs/apk/${args.appFolder}-debug.apk`; const adbPath = getAdbPath(); const adbArgs = ['-s', device, 'install', pathToApk]; console.log(chalk.bold( `Installing the app on the device (cd android && adb -s ${device} install ${pathToApk}` )); child_process.execFileSync(adbPath, adbArgs, { stdio: [process.stdin, process.stdout, process.stderr], }); } catch (e) { console.log(e.message); console.log(chalk.red( 'Could not install the app on the device, read the error above for details.\n' )); } } function tryLaunchAppOnDevice(device, packageNameWithSuffix, packageName, adbPath, mainActivity) { try { const adbArgs = ['-s', device, 'shell', 'am', 'start', '-n', packageNameWithSuffix + '/' + packageName + '.' + mainActivity]; console.log(chalk.bold( `Starting the app on ${device} (${adbPath} ${adbArgs.join(' ')})...` )); child_process.spawnSync(adbPath, adbArgs, {stdio: 'inherit'}); } catch (e) { console.log(chalk.red( 'adb invocation failed. Do you have adb in your PATH?' )); } } function installAndLaunchOnDevice(args, selectedDevice, packageNameWithSuffix, packageName, adbPath) { tryRunAdbReverse(args.port, selectedDevice); tryInstallAppOnDevice(args, selectedDevice); tryLaunchAppOnDevice(selectedDevice, packageNameWithSuffix, packageName, adbPath, args.mainActivity); } function runOnAllDevices(args, cmd, packageNameWithSuffix, packageName, adbPath){ try { const gradleArgs = []; if (args.variant) { gradleArgs.push('install' + args.variant[0].toUpperCase() + args.variant.slice(1) ); } else if (args.flavor) { console.warn(chalk.yellow( '--flavor has been deprecated. Use --variant instead' )); gradleArgs.push('install' + args.flavor[0].toUpperCase() + args.flavor.slice(1) ); } else { gradleArgs.push('installDebug'); } if (args.installDebug) { gradleArgs.push(args.installDebug); } console.log(chalk.bold( `Building and installing the app on the device (cd android && ${cmd} ${gradleArgs.join(' ')})...` )); child_process.execFileSync(cmd, gradleArgs, { stdio: [process.stdin, process.stdout, process.stderr], }); } catch (e) { console.log(chalk.red( 'Could not install the app on the device, read the error above for details.\n' + 'Make sure you have an Android emulator running or a device connected and have\n' + 'set up your Android development environment:\n' + 'https://facebook.github.io/react-native/docs/android-setup.html' )); // stderr is automatically piped from the gradle process, so the user // should see the error already, there is no need to do // `console.log(e.stderr)` return Promise.reject(); } const devices = adb.getDevices(); if (devices && devices.length > 0) { devices.forEach((device) => { tryRunAdbReverse(args.port, device); tryLaunchAppOnDevice(device, packageNameWithSuffix, packageName, adbPath, args.mainActivity); }); } else { try { // If we cannot execute based on adb devices output, fall back to // shell am start const fallbackAdbArgs = [ 'shell', 'am', 'start', '-n', packageNameWithSuffix + '/' + packageName + '.MainActivity' ]; console.log(chalk.bold( `Starting the app (${adbPath} ${fallbackAdbArgs.join(' ')}...` )); child_process.spawnSync(adbPath, fallbackAdbArgs, {stdio: 'inherit'}); } catch (e) { console.log(chalk.red( 'adb invocation failed. Do you have adb in your PATH?' )); // stderr is automatically piped from the gradle process, so the user // should see the error already, there is no need to do // `console.log(e.stderr)` return Promise.reject(); } } } function startServerInNewWindow() { const scriptFile = /^win/.test(process.platform) ? 'launchPackager.bat' : 'launchPackager.command'; const scriptsDir = path.resolve(__dirname, '..', '..', 'scripts'); const launchPackagerScript = path.resolve(scriptsDir, scriptFile); const procConfig = {cwd: scriptsDir}; const terminal = process.env.REACT_TERMINAL; if (process.platform === 'darwin') { if (terminal) { return child_process.spawnSync('open', ['-a', terminal, launchPackagerScript], procConfig); } return child_process.spawnSync('open', [launchPackagerScript], procConfig); } else if (process.platform === 'linux') { procConfig.detached = true; if (terminal){ return child_process.spawn(terminal, ['-e', 'sh ' + launchPackagerScript], procConfig); } return child_process.spawn('sh', [launchPackagerScript], procConfig); } else if (/^win/.test(process.platform)) { procConfig.detached = true; procConfig.stdio = 'ignore'; return child_process.spawn('cmd.exe', ['/C', launchPackagerScript], procConfig); } else { console.log(chalk.red(`Cannot start the packager. Unknown platform ${process.platform}`)); } } module.exports = { name: 'run-android', description: 'builds your app and starts it on a connected Android emulator or device', func: runAndroid, options: [{ command: '--install-debug', }, { command: '--root [string]', description: 'Override the root directory for the android build (which contains the android directory)', default: '', }, { command: '--flavor [string]', description: '--flavor has been deprecated. Use --variant instead', }, { command: '--variant [string]', }, { command: '--appFolder [string]', description: 'Specify a different application folder name for the android source.', default: 'app', }, { command: '--appIdSuffix [string]', description: 'Specify an applicationIdSuffix to launch after build.', default: '', }, { command: '--main-activity [string]', description: 'Name of the activity to start', default: 'MainActivity', }, { command: '--deviceId [string]', description: 'builds your app and starts it on a specific device/simulator with the ' + 'given device id (listed by running "adb devices" on the command line).', }, { command: '--no-packager', description: 'Do not launch packager while building', }, { command: '--port [number]', default: 8081, parse: (val: string) => Number(val), }], };