// Copyright 2015 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
import 'dart:async';
import 'dart:io';
import 'dart:math' as math;
import 'android/android_device.dart';
import 'application_package.dart';
import 'base/common.dart';
import 'base/os.dart';
import 'base/utils.dart';
import 'build_info.dart';
import 'globals.dart';
import 'vmservice.dart';
import 'ios/devices.dart';
import 'ios/simulators.dart';
/// A class to get all available devices.
class DeviceManager {
/// Constructing DeviceManagers is cheap; they only do expensive work if some
/// of their methods are called.
DeviceManager() {
// Register the known discoverers.
_deviceDiscoverers.add(new AndroidDevices());
_deviceDiscoverers.add(new IOSDevices());
_deviceDiscoverers.add(new IOSSimulators());
}
List<DeviceDiscovery> _deviceDiscoverers = <DeviceDiscovery>[];
/// A user-specified device ID.
String specifiedDeviceId;
bool get hasSpecifiedDeviceId => specifiedDeviceId != null;
/// Return the devices with a name or id matching [deviceId].
/// This does a case insentitive compare with [deviceId].
Future<List<Device>> getDevicesById(String deviceId) async {
deviceId = deviceId.toLowerCase();
List<Device> devices = await getAllConnectedDevices();
Device device = devices.firstWhere(
(Device device) =>
device.id.toLowerCase() == deviceId ||
device.name.toLowerCase() == deviceId,
orElse: () => null);
if (device != null)
return <Device>[device];
// Match on a id or name starting with [deviceId].
return devices.where((Device device) {
return (device.id.toLowerCase().startsWith(deviceId) ||
device.name.toLowerCase().startsWith(deviceId));
}).toList();
}
/// Return the list of connected devices, filtered by any user-specified device id.
Future<List<Device>> getDevices() async {
if (specifiedDeviceId == null) {
return getAllConnectedDevices();
} else {
return getDevicesById(specifiedDeviceId);
}
}
/// Return the list of all connected devices.
Future<List<Device>> getAllConnectedDevices() async {
return _deviceDiscoverers
.where((DeviceDiscovery discoverer) => discoverer.supportsPlatform)
.expand((DeviceDiscovery discoverer) => discoverer.devices)
.toList();
}
}
/// An abstract class to discover and enumerate a specific type of devices.
abstract class DeviceDiscovery {
bool get supportsPlatform;
List<Device> get devices;
}
/// A [DeviceDiscovery] implementation that uses polling to discover device adds
/// and removals.
abstract class PollingDeviceDiscovery extends DeviceDiscovery {
PollingDeviceDiscovery(this.name);
static const Duration _pollingDuration = const Duration(seconds: 4);
final String name;
ItemListNotifier<Device> _items;
Timer _timer;
List<Device> pollingGetDevices();
void startPolling() {
if (_timer == null) {
if (_items == null)
_items = new ItemListNotifier<Device>();
_timer = new Timer.periodic(_pollingDuration, (Timer timer) {
_items.updateWithNewList(pollingGetDevices());
});
}
}
void stopPolling() {
_timer?.cancel();
_timer = null;
}
@override
List<Device> get devices {
if (_items == null)
_items = new ItemListNotifier<Device>.from(pollingGetDevices());
return _items.items;
}
Stream<Device> get onAdded {
if (_items == null)
_items = new ItemListNotifier<Device>();
return _items.onAdded;
}
Stream<Device> get onRemoved {
if (_items == null)
_items = new ItemListNotifier<Device>();
return _items.onRemoved;
}
void dispose() => stopPolling();
@override
String toString() => '$name device discovery';
}
abstract class Device {
Device(this.id);
final String id;
String get name;
bool get supportsStartPaused => true;
/// Whether it is an emulated device running on localhost.
bool get isLocalEmulator;
/// Check if a version of the given app is already installed
bool isAppInstalled(ApplicationPackage app);
/// Install an app package on the current device
bool installApp(ApplicationPackage app);
/// Uninstall an app package from the current device
bool uninstallApp(ApplicationPackage app);
/// Check if the device is supported by Flutter
bool isSupported();
// String meant to be displayed to the user indicating if the device is
// supported by Flutter, and, if not, why.
String supportMessage() => isSupported() ? "Supported" : "Unsupported";
TargetPlatform get platform;
/// Get the log reader for this device.
DeviceLogReader get logReader;
/// Get the port forwarder for this device.
DevicePortForwarder get portForwarder;
/// Clear the device's logs.
void clearLogs();
/// Start an app package on the current device.
///
/// [platformArgs] allows callers to pass platform-specific arguments to the
/// start call. The build mode is not used by all platforms.
Future<LaunchResult> startApp(
ApplicationPackage package,
BuildMode mode, {
String mainPath,
String route,
DebuggingOptions debuggingOptions,
Map<String, dynamic> platformArgs,
bool prebuiltApplication: false
});
/// Does this device implement support for hot reloading / restarting?
bool get supportsHotMode => false;
/// Run from a file. Necessary for hot mode.
Future<bool> runFromFile(ApplicationPackage package,
String scriptUri,
String packagesUri) {
throw 'runFromFile unsupported';
}
bool get supportsRestart => false;
bool get restartSendsFrameworkInitEvent => true;
/// Restart the given app; the application will already have been launched with
/// [startApp].
Future<bool> restartApp(
ApplicationPackage package,
LaunchResult result, {
String mainPath,
VMService observatory,
bool prebuiltApplication: false
}) async {
throw 'unsupported';
}
/// Stop an app package on the current device.
Future<bool> stopApp(ApplicationPackage app);
bool get supportsScreenshot => false;
Future<bool> takeScreenshot(File outputFile) => new Future<bool>.error('unimplemented');
/// Find the apps that are currently running on this device.
Future<List<DiscoveredApp>> discoverApps() =>
new Future<List<DiscoveredApp>>.value(<DiscoveredApp>[]);
@override
int get hashCode => id.hashCode;
@override
bool operator ==(dynamic other) {
if (identical(this, other))
return true;
if (other is! Device)
return false;
return id == other.id;
}
@override
String toString() => name;
static Iterable<String> descriptions(List<Device> devices) {
int nameWidth = 0;
int idWidth = 0;
for (Device device in devices) {
nameWidth = math.max(nameWidth, device.name.length);
idWidth = math.max(idWidth, device.id.length);
}
return devices.map((Device device) {
String supportIndicator = device.isSupported() ? '' : ' (unsupported)';
if (device.isLocalEmulator) {
String type = device.platform == TargetPlatform.ios ? 'simulator' : 'emulator';
supportIndicator += ' ($type)';
}
return '${device.name.padRight(nameWidth)} • '
'${device.id.padRight(idWidth)} • '
'${getNameForTargetPlatform(device.platform)}$supportIndicator';
});
}
static void printDevices(List<Device> devices) {
descriptions(devices).forEach((String msg) => printStatus(msg));
}
}
class DebuggingOptions {
DebuggingOptions.enabled(this.buildMode, {
this.startPaused: false,
this.observatoryPort,
this.diagnosticPort
}) : debuggingEnabled = true;
DebuggingOptions.disabled(this.buildMode) :
debuggingEnabled = false,
startPaused = false,
observatoryPort = null,
diagnosticPort = null;
final bool debuggingEnabled;
final BuildMode buildMode;
final bool startPaused;
final int observatoryPort;
final int diagnosticPort;
bool get hasObservatoryPort => observatoryPort != null;
/// Return the user specified observatory port. If that isn't available,
/// return [kDefaultObservatoryPort], or a port close to that one.
Future<int> findBestObservatoryPort() {
if (hasObservatoryPort)
return new Future<int>.value(observatoryPort);
return findPreferredPort(observatoryPort ?? kDefaultObservatoryPort);
}
bool get hasDiagnosticPort => diagnosticPort != null;
/// Return the user specified diagnostic port. If that isn't available,
/// return [kDefaultDiagnosticPort], or a port close to that one.
Future<int> findBestDiagnosticPort() {
return findPreferredPort(diagnosticPort ?? kDefaultDiagnosticPort);
}
}
class LaunchResult {
LaunchResult.succeeded({ this.observatoryPort, this.diagnosticPort }) : started = true;
LaunchResult.failed() : started = false, observatoryPort = null, diagnosticPort = null;
bool get hasObservatory => observatoryPort != null;
final bool started;
final int observatoryPort;
final int diagnosticPort;
@override
String toString() {
StringBuffer buf = new StringBuffer('started=$started');
if (observatoryPort != null)
buf.write(', observatory=$observatoryPort');
if (diagnosticPort != null)
buf.write(', diagnostic=$diagnosticPort');
return buf.toString();
}
}
class ForwardedPort {
ForwardedPort(this.hostPort, this.devicePort) : context = null;
ForwardedPort.withContext(this.hostPort, this.devicePort, this.context);
final int hostPort;
final int devicePort;
final dynamic context;
@override
String toString() => 'ForwardedPort HOST:$hostPort to DEVICE:$devicePort';
}
/// Forward ports from the host machine to the device.
abstract class DevicePortForwarder {
/// Returns a Future that completes with the current list of forwarded
/// ports for this device.
List<ForwardedPort> get forwardedPorts;
/// Forward [hostPort] on the host to [devicePort] on the device.
/// If [hostPort] is null, will auto select a host port.
/// Returns a Future that completes with the host port.
Future<int> forward(int devicePort, { int hostPort });
/// Stops forwarding [forwardedPort].
Future<Null> unforward(ForwardedPort forwardedPort);
}
/// Read the log for a particular device.
abstract class DeviceLogReader {
String get name;
/// A broadcast stream where each element in the string is a line of log output.
Stream<String> get logLines;
@override
String toString() => name;
}
/// Describes an app running on the device.
class DiscoveredApp {
DiscoveredApp(this.id, this.observatoryPort);
final String id;
final int observatoryPort;
}