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flutter/dev/devicelab/lib/framework/framework.dart
Matan Lurey a7997f606e
Update dev/devicelab/** to provide --local-engine-host. (#132342) 
Partial work towards https://github.com/flutter/flutter/issues/132245.

I have to admit I don't totally understand what I've updated, or whether
there are more integration points needed.
2023-08-10 17:25:30 -07:00

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Dart
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// Copyright 2014 The Flutter 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:convert';
import 'dart:developer';
import 'dart:io';
import 'dart:isolate';
import 'package:logging/logging.dart';
import 'package:path/path.dart' as path;
import 'package:process/process.dart';
import 'package:stack_trace/stack_trace.dart';
import 'devices.dart';
import 'host_agent.dart';
import 'running_processes.dart';
import 'task_result.dart';
import 'utils.dart';
/// Identifiers for devices that should never be rebooted.
final Set<String> noRebootForbidList = <String>{
'822ef7958bba573829d85eef4df6cbdd86593730', // 32bit iPhone requires manual intervention on reboot.
};
/// The maximum number of test runs before a device must be rebooted.
///
/// This number was chosen arbitrarily.
const int maximumRuns = 30;
/// Represents a unit of work performed in the CI environment that can
/// succeed, fail and be retried independently of others.
typedef TaskFunction = Future<TaskResult> Function();
bool _isTaskRegistered = false;
/// Registers a [task] to run, returns the result when it is complete.
///
/// The task does not run immediately but waits for the request via the
/// VM service protocol to run it.
///
/// It is OK for a [task] to perform many things. However, only one task can be
/// registered per Dart VM.
///
/// If no `processManager` is provided, a default [LocalProcessManager] is created
/// for the task.
Future<TaskResult> task(TaskFunction task, { ProcessManager? processManager }) async {
if (_isTaskRegistered) {
throw StateError('A task is already registered');
}
_isTaskRegistered = true;
processManager ??= const LocalProcessManager();
// TODO(ianh): allow overriding logging.
Logger.root.level = Level.ALL;
Logger.root.onRecord.listen((LogRecord rec) {
print('${rec.level.name}: ${rec.time}: ${rec.message}');
});
final _TaskRunner runner = _TaskRunner(task, processManager);
runner.keepVmAliveUntilTaskRunRequested();
return runner.whenDone;
}
class _TaskRunner {
_TaskRunner(this.task, this.processManager) {
registerExtension('ext.cocoonRunTask',
(String method, Map<String, String> parameters) async {
final Duration? taskTimeout = parameters.containsKey('timeoutInMinutes')
? Duration(minutes: int.parse(parameters['timeoutInMinutes']!))
: null;
final bool runFlutterConfig = parameters['runFlutterConfig'] != 'false'; // used by tests to avoid changing the configuration
final bool runProcessCleanup = parameters['runProcessCleanup'] != 'false';
final String? localEngine = parameters['localEngine'];
final String? localEngineHost = parameters['localEngineHost'];
final TaskResult result = await run(
taskTimeout,
runProcessCleanup: runProcessCleanup,
runFlutterConfig: runFlutterConfig,
localEngine: localEngine,
localEngineHost: localEngineHost,
);
return ServiceExtensionResponse.result(json.encode(result.toJson()));
});
registerExtension('ext.cocoonRunnerReady',
(String method, Map<String, String> parameters) async {
return ServiceExtensionResponse.result('"ready"');
});
}
final TaskFunction task;
final ProcessManager processManager;
Future<Device?> _getWorkingDeviceIfAvailable() async {
try {
return await devices.workingDevice;
} on DeviceException {
return null;
}
}
// TODO(ianh): workaround for https://github.com/dart-lang/sdk/issues/23797
RawReceivePort? _keepAlivePort;
Timer? _startTaskTimeout;
bool _taskStarted = false;
final Completer<TaskResult> _completer = Completer<TaskResult>();
static final Logger logger = Logger('TaskRunner');
/// Signals that this task runner finished running the task.
Future<TaskResult> get whenDone => _completer.future;
Future<TaskResult> run(Duration? taskTimeout, {
bool runFlutterConfig = true,
bool runProcessCleanup = true,
required String? localEngine,
required String? localEngineHost,
}) async {
try {
_taskStarted = true;
print('Running task with a timeout of $taskTimeout.');
final String exe = Platform.isWindows ? '.exe' : '';
late Set<RunningProcessInfo> beforeRunningDartInstances;
if (runProcessCleanup) {
section('Checking running Dart$exe processes');
beforeRunningDartInstances = await getRunningProcesses(
processName: 'dart$exe',
processManager: processManager,
);
final Set<RunningProcessInfo> allProcesses = await getRunningProcesses(processManager: processManager);
beforeRunningDartInstances.forEach(print);
for (final RunningProcessInfo info in allProcesses) {
if (info.commandLine.contains('iproxy')) {
print('[LEAK]: ${info.commandLine} ${info.creationDate} ${info.pid} ');
}
}
}
if (runFlutterConfig) {
print('Enabling configs for macOS and Linux...');
final int configResult = await exec(path.join(flutterDirectory.path, 'bin', 'flutter'), <String>[
'config',
'-v',
'--enable-macos-desktop',
'--enable-linux-desktop',
if (localEngine != null) ...<String>['--local-engine', localEngine],
if (localEngineHost != null) ...<String>['--local-engine-host', localEngineHost],
], canFail: true);
if (configResult != 0) {
print('Failed to enable configuration, tasks may not run.');
}
}
final Device? device = await _getWorkingDeviceIfAvailable();
// Some tests assume the phone is in home
await device?.home();
late TaskResult result;
IOSink? sink;
try {
if (device != null && device.canStreamLogs && hostAgent.dumpDirectory != null) {
sink = File(path.join(hostAgent.dumpDirectory!.path, '${device.deviceId}.log')).openWrite();
await device.startLoggingToSink(sink);
}
Future<TaskResult> futureResult = _performTask();
if (taskTimeout != null) {
futureResult = futureResult.timeout(taskTimeout);
}
result = await futureResult;
} finally {
if (device != null && device.canStreamLogs) {
await device.stopLoggingToSink();
await sink?.close();
}
}
if (runProcessCleanup) {
section('Terminating lingering Dart$exe processes after task...');
final Set<RunningProcessInfo> afterRunningDartInstances = await getRunningProcesses(
processName: 'dart$exe',
processManager: processManager,
);
for (final RunningProcessInfo info in afterRunningDartInstances) {
if (!beforeRunningDartInstances.contains(info)) {
print('$info was leaked by this test.');
if (result is TaskResultCheckProcesses) {
result = TaskResult.failure('This test leaked dart processes');
}
if (await info.terminate(processManager: processManager)) {
print('Killed process id ${info.pid}.');
} else {
print('Failed to kill process ${info.pid}.');
}
}
}
}
_completer.complete(result);
return result;
} on TimeoutException catch (err, stackTrace) {
print('Task timed out in framework.dart after $taskTimeout.');
print(err);
print(stackTrace);
return TaskResult.failure('Task timed out after $taskTimeout');
} finally {
await checkForRebootRequired();
await forceQuitRunningProcesses();
_closeKeepAlivePort();
}
}
Future<void> checkForRebootRequired() async {
print('Checking for reboot');
try {
final Device device = await devices.workingDevice;
if (noRebootForbidList.contains(device.deviceId)) {
return;
}
final File rebootFile = _rebootFile();
int runCount;
if (rebootFile.existsSync()) {
runCount = int.tryParse(rebootFile.readAsStringSync().trim()) ?? 0;
} else {
runCount = 0;
}
if (runCount < maximumRuns) {
rebootFile
..createSync()
..writeAsStringSync((runCount + 1).toString());
return;
}
rebootFile.deleteSync();
print('rebooting');
await device.reboot();
} on TimeoutException {
// Could not find device in order to reboot.
} on DeviceException {
// No attached device needed to reboot.
}
}
/// Causes the Dart VM to stay alive until a request to run the task is
/// received via the VM service protocol.
void keepVmAliveUntilTaskRunRequested() {
if (_taskStarted) {
throw StateError('Task already started.');
}
// Merely creating this port object will cause the VM to stay alive and keep
// the VM service server running until the port is disposed of.
_keepAlivePort = RawReceivePort();
// Timeout if nothing bothers to connect and ask us to run the task.
const Duration taskStartTimeout = Duration(seconds: 60);
_startTaskTimeout = Timer(taskStartTimeout, () {
if (!_taskStarted) {
logger.severe('Task did not start in $taskStartTimeout.');
_closeKeepAlivePort();
exitCode = 1;
}
});
}
/// Disables the keepalive port, allowing the VM to exit.
void _closeKeepAlivePort() {
_startTaskTimeout?.cancel();
_keepAlivePort?.close();
}
Future<TaskResult> _performTask() {
final Completer<TaskResult> completer = Completer<TaskResult>();
Chain.capture(() async {
completer.complete(await task());
}, onError: (dynamic taskError, Chain taskErrorStack) {
final String message = 'Task failed: $taskError';
stderr
..writeln(message)
..writeln('\nStack trace:')
..writeln(taskErrorStack.terse);
// IMPORTANT: We're completing the future _successfully_ but with a value
// that indicates a task failure. This is intentional. At this point we
// are catching errors coming from arbitrary (and untrustworthy) task
// code. Our goal is to convert the failure into a readable message.
// Propagating it further is not useful.
if (!completer.isCompleted) {
completer.complete(TaskResult.failure(message));
}
});
return completer.future;
}
}
File _rebootFile() {
if (Platform.isLinux || Platform.isMacOS) {
return File(path.join(Platform.environment['HOME']!, '.reboot-count'));
}
if (!Platform.isWindows) {
throw StateError('Unexpected platform ${Platform.operatingSystem}');
}
return File(path.join(Platform.environment['USERPROFILE']!, '.reboot-count'));
}
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