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flutter / mirrors / flutter / refs/tags/v1.7.5 / . / packages / flutter_tools / test / commands / attach_test.dart
blob: c974ffa04e5922358247f0b776a737de98726947 [file] [log] [blame]
// Copyright 2018 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 'package:file/memory.dart';
import 'package:flutter_tools/src/base/common.dart';
import 'package:flutter_tools/src/base/file_system.dart';
import 'package:flutter_tools/src/base/logger.dart';
import 'package:flutter_tools/src/base/platform.dart';
import 'package:flutter_tools/src/base/terminal.dart';
import 'package:flutter_tools/src/cache.dart';
import 'package:flutter_tools/src/commands/attach.dart';
import 'package:flutter_tools/src/device.dart';
import 'package:flutter_tools/src/resident_runner.dart';
import 'package:flutter_tools/src/run_hot.dart';
import 'package:meta/meta.dart';
import 'package:mockito/mockito.dart';
import 'package:multicast_dns/multicast_dns.dart';
import '../src/common.dart';
import '../src/context.dart';
import '../src/mocks.dart';
void main() {
final StreamLogger logger = StreamLogger();
group('attach', () {
final FileSystem testFileSystem = MemoryFileSystem(
style: platform.isWindows ? FileSystemStyle.windows : FileSystemStyle
.posix,
);
setUp(() {
Cache.disableLocking();
testFileSystem.directory('lib').createSync();
testFileSystem.file('lib/main.dart').createSync();
});
group('with one device and no specified target file', () {
const int devicePort = 499;
const int hostPort = 42;
MockDeviceLogReader mockLogReader;
MockPortForwarder portForwarder;
MockAndroidDevice device;
setUp(() {
mockLogReader = MockDeviceLogReader();
portForwarder = MockPortForwarder();
device = MockAndroidDevice();
when(device.getLogReader()).thenAnswer((_) {
// Now that the reader is used, start writing messages to it.
Timer.run(() {
mockLogReader.addLine('Foo');
mockLogReader.addLine('Observatory listening on http://127.0.0.1:$devicePort');
});
return mockLogReader;
});
when(device.portForwarder)
.thenReturn(portForwarder);
when(portForwarder.forward(devicePort, hostPort: anyNamed('hostPort')))
.thenAnswer((_) async => hostPort);
when(portForwarder.forwardedPorts)
.thenReturn(<ForwardedPort>[ForwardedPort(hostPort, devicePort)]);
when(portForwarder.unforward(any))
.thenAnswer((_) async => null);
// We cannot add the device to a device manager because that is
// only enabled by the context of each testUsingContext call.
//
// Instead each test will add the device to the device manager
// on its own.
});
tearDown(() {
mockLogReader.dispose();
});
testUsingContext('finds observatory port and forwards', () async {
testDeviceManager.addDevice(device);
final Completer<void> completer = Completer<void>();
final StreamSubscription<String> loggerSubscription = logger.stream.listen((String message) {
if (message == '[stdout] Done.') {
// The "Done." message is output by the AttachCommand when it's done.
completer.complete();
}
});
final Future<void> task = createTestCommandRunner(AttachCommand()).run(<String>['attach']);
await completer.future;
verify(
portForwarder.forward(devicePort, hostPort: anyNamed('hostPort')),
).called(1);
await expectLoggerInterruptEndsTask(task, logger);
await loggerSubscription.cancel();
}, overrides: <Type, Generator>{
FileSystem: () => testFileSystem,
Logger: () => logger,
});
testUsingContext('accepts filesystem parameters', () async {
testDeviceManager.addDevice(device);
const String filesystemScheme = 'foo';
const String filesystemRoot = '/build-output/';
const String projectRoot = '/build-output/project-root';
const String outputDill = '/tmp/output.dill';
final MockHotRunner mockHotRunner = MockHotRunner();
when(mockHotRunner.attach()).thenAnswer((_) async => 0);
final MockHotRunnerFactory mockHotRunnerFactory = MockHotRunnerFactory();
when(
mockHotRunnerFactory.build(
any,
target: anyNamed('target'),
projectRootPath: anyNamed('projectRootPath'),
dillOutputPath: anyNamed('dillOutputPath'),
debuggingOptions: anyNamed('debuggingOptions'),
packagesFilePath: anyNamed('packagesFilePath'),
usesTerminalUI: anyNamed('usesTerminalUI'),
flutterProject: anyNamed('flutterProject'),
ipv6: false,
),
).thenReturn(mockHotRunner);
final AttachCommand command = AttachCommand(
hotRunnerFactory: mockHotRunnerFactory,
);
await createTestCommandRunner(command).run(<String>[
'attach',
'--filesystem-scheme',
filesystemScheme,
'--filesystem-root',
filesystemRoot,
'--project-root',
projectRoot,
'--output-dill',
outputDill,
'-v', // enables verbose logging
]);
// Validate the attach call built a mock runner with the right
// project root and output dill.
final VerificationResult verificationResult = verify(
mockHotRunnerFactory.build(
captureAny,
target: anyNamed('target'),
projectRootPath: projectRoot,
dillOutputPath: outputDill,
debuggingOptions: anyNamed('debuggingOptions'),
packagesFilePath: anyNamed('packagesFilePath'),
usesTerminalUI: anyNamed('usesTerminalUI'),
flutterProject: anyNamed('flutterProject'),
ipv6: false,
),
)..called(1);
final List<FlutterDevice> flutterDevices = verificationResult.captured.first;
expect(flutterDevices, hasLength(1));
// Validate that the attach call built a flutter device with the right
// output dill, filesystem scheme, and filesystem root.
final FlutterDevice flutterDevice = flutterDevices.first;
expect(flutterDevice.dillOutputPath, outputDill);
expect(flutterDevice.fileSystemScheme, filesystemScheme);
expect(flutterDevice.fileSystemRoots, const <String>[filesystemRoot]);
}, overrides: <Type, Generator>{
FileSystem: () => testFileSystem,
});
testUsingContext('exits when ipv6 is specified and debug-port is not', () async {
testDeviceManager.addDevice(device);
final AttachCommand command = AttachCommand();
await expectLater(
createTestCommandRunner(command).run(<String>['attach', '--ipv6']),
throwsToolExit(
message: 'When the --debug-port or --debug-uri is unknown, this command determines '
'the value of --ipv6 on its own.',
),
);
}, overrides: <Type, Generator>{
FileSystem: () => testFileSystem,
},);
testUsingContext('exits when observatory-port is specified and debug-port is not', () async {
testDeviceManager.addDevice(device);
final AttachCommand command = AttachCommand();
await expectLater(
createTestCommandRunner(command).run(<String>['attach', '--observatory-port', '100']),
throwsToolExit(
message: 'When the --debug-port or --debug-uri is unknown, this command does not use '
'the value of --observatory-port.',
),
);
}, overrides: <Type, Generator>{
FileSystem: () => testFileSystem,
},);
});
testUsingContext('selects specified target', () async {
const int devicePort = 499;
const int hostPort = 42;
final MockDeviceLogReader mockLogReader = MockDeviceLogReader();
final MockPortForwarder portForwarder = MockPortForwarder();
final MockAndroidDevice device = MockAndroidDevice();
final MockHotRunner mockHotRunner = MockHotRunner();
final MockHotRunnerFactory mockHotRunnerFactory = MockHotRunnerFactory();
when(device.portForwarder)
.thenReturn(portForwarder);
when(portForwarder.forward(devicePort, hostPort: anyNamed('hostPort')))
.thenAnswer((_) async => hostPort);
when(portForwarder.forwardedPorts)
.thenReturn(<ForwardedPort>[ForwardedPort(hostPort, devicePort)]);
when(portForwarder.unforward(any))
.thenAnswer((_) async => null);
when(mockHotRunner.attach())
.thenAnswer((_) async => 0);
when(mockHotRunnerFactory.build(
any,
target: anyNamed('target'),
debuggingOptions: anyNamed('debuggingOptions'),
packagesFilePath: anyNamed('packagesFilePath'),
usesTerminalUI: anyNamed('usesTerminalUI'),
flutterProject: anyNamed('flutterProject'),
ipv6: false,
)).thenReturn(mockHotRunner);
testDeviceManager.addDevice(device);
when(device.getLogReader())
.thenAnswer((_) {
// Now that the reader is used, start writing messages to it.
Timer.run(() {
mockLogReader.addLine('Foo');
mockLogReader.addLine(
'Observatory listening on http://127.0.0.1:$devicePort');
});
return mockLogReader;
});
final File foo = fs.file('lib/foo.dart')
..createSync();
// Delete the main.dart file to be sure that attach works without it.
fs.file('lib/main.dart').deleteSync();
final AttachCommand command = AttachCommand(hotRunnerFactory: mockHotRunnerFactory);
await createTestCommandRunner(command).run(<String>['attach', '-t', foo.path, '-v']);
verify(mockHotRunnerFactory.build(
any,
target: foo.path,
debuggingOptions: anyNamed('debuggingOptions'),
packagesFilePath: anyNamed('packagesFilePath'),
usesTerminalUI: anyNamed('usesTerminalUI'),
flutterProject: anyNamed('flutterProject'),
ipv6: false,
)).called(1);
}, overrides: <Type, Generator>{
FileSystem: () => testFileSystem,
});
group('forwarding to given port', () {
const int devicePort = 499;
const int hostPort = 42;
MockPortForwarder portForwarder;
MockAndroidDevice device;
setUp(() {
portForwarder = MockPortForwarder();
device = MockAndroidDevice();
when(device.portForwarder)
.thenReturn(portForwarder);
when(portForwarder.forward(devicePort))
.thenAnswer((_) async => hostPort);
when(portForwarder.forwardedPorts)
.thenReturn(<ForwardedPort>[ForwardedPort(hostPort, devicePort)]);
when(portForwarder.unforward(any))
.thenAnswer((_) async => null);
});
testUsingContext('succeeds in ipv4 mode', () async {
testDeviceManager.addDevice(device);
final Completer<void> completer = Completer<void>();
final StreamSubscription<String> loggerSubscription = logger.stream.listen((String message) {
if (message == '[verbose] Connecting to service protocol: http://127.0.0.1:42/') {
// Wait until resident_runner.dart tries to connect.
// There's nothing to connect _to_, so that's as far as we care to go.
completer.complete();
}
});
final Future<void> task = createTestCommandRunner(AttachCommand())
.run(<String>['attach', '--debug-port', '$devicePort']);
await completer.future;
verify(portForwarder.forward(devicePort)).called(1);
await expectLoggerInterruptEndsTask(task, logger);
await loggerSubscription.cancel();
}, overrides: <Type, Generator>{
FileSystem: () => testFileSystem,
Logger: () => logger,
});
testUsingContext('succeeds in ipv6 mode', () async {
testDeviceManager.addDevice(device);
final Completer<void> completer = Completer<void>();
final StreamSubscription<String> loggerSubscription = logger.stream.listen((String message) {
if (message == '[verbose] Connecting to service protocol: http://[::1]:42/') {
// Wait until resident_runner.dart tries to connect.
// There's nothing to connect _to_, so that's as far as we care to go.
completer.complete();
}
});
final Future<void> task = createTestCommandRunner(AttachCommand())
.run(<String>['attach', '--debug-port', '$devicePort', '--ipv6']);
await completer.future;
verify(portForwarder.forward(devicePort)).called(1);
await expectLoggerInterruptEndsTask(task, logger);
await loggerSubscription.cancel();
}, overrides: <Type, Generator>{
FileSystem: () => testFileSystem,
Logger: () => logger,
});
testUsingContext('skips in ipv4 mode with a provided observatory port', () async {
testDeviceManager.addDevice(device);
final Completer<void> completer = Completer<void>();
final StreamSubscription<String> loggerSubscription = logger.stream.listen((String message) {
if (message == '[verbose] Connecting to service protocol: http://127.0.0.1:42/') {
// Wait until resident_runner.dart tries to connect.
// There's nothing to connect _to_, so that's as far as we care to go.
completer.complete();
}
});
final Future<void> task = createTestCommandRunner(AttachCommand()).run(
<String>[
'attach',
'--debug-port',
'$devicePort',
'--observatory-port',
'$hostPort',
],
);
await completer.future;
verifyNever(portForwarder.forward(devicePort));
await expectLoggerInterruptEndsTask(task, logger);
await loggerSubscription.cancel();
}, overrides: <Type, Generator>{
FileSystem: () => testFileSystem,
Logger: () => logger,
});
testUsingContext('skips in ipv6 mode with a provided observatory port', () async {
testDeviceManager.addDevice(device);
final Completer<void> completer = Completer<void>();
final StreamSubscription<String> loggerSubscription = logger.stream.listen((String message) {
if (message == '[verbose] Connecting to service protocol: http://[::1]:42/') {
// Wait until resident_runner.dart tries to connect.
// There's nothing to connect _to_, so that's as far as we care to go.
completer.complete();
}
});
final Future<void> task = createTestCommandRunner(AttachCommand()).run(
<String>[
'attach',
'--debug-port',
'$devicePort',
'--observatory-port',
'$hostPort',
'--ipv6',
],
);
await completer.future;
verifyNever(portForwarder.forward(devicePort));
await expectLoggerInterruptEndsTask(task, logger);
await loggerSubscription.cancel();
}, overrides: <Type, Generator>{
FileSystem: () => testFileSystem,
Logger: () => logger,
});
});
testUsingContext('exits when no device connected', () async {
final AttachCommand command = AttachCommand();
await expectLater(
createTestCommandRunner(command).run(<String>['attach']),
throwsA(isInstanceOf<ToolExit>()),
);
expect(testLogger.statusText, contains('No connected devices'));
}, overrides: <Type, Generator>{
FileSystem: () => testFileSystem,
});
testUsingContext('exits when multiple devices connected', () async {
Device aDeviceWithId(String id) {
final MockAndroidDevice device = MockAndroidDevice();
when(device.name).thenReturn('d$id');
when(device.id).thenReturn(id);
when(device.isLocalEmulator).thenAnswer((_) async => false);
when(device.sdkNameAndVersion).thenAnswer((_) async => 'Android 46');
return device;
}
final AttachCommand command = AttachCommand();
testDeviceManager.addDevice(aDeviceWithId('xx1'));
testDeviceManager.addDevice(aDeviceWithId('yy2'));
await expectLater(
createTestCommandRunner(command).run(<String>['attach']),
throwsA(isInstanceOf<ToolExit>()),
);
expect(testLogger.statusText, contains('More than one device'));
expect(testLogger.statusText, contains('xx1'));
expect(testLogger.statusText, contains('yy2'));
}, overrides: <Type, Generator>{
FileSystem: () => testFileSystem,
});
});
group('mDNS Discovery', () {
final int year3000 = DateTime(3000).millisecondsSinceEpoch;
MDnsClient getMockClient(
List<PtrResourceRecord> ptrRecords,
Map<String, List<SrvResourceRecord>> srvResponse,
) {
final MDnsClient client = MockMDnsClient();
when(client.lookup<PtrResourceRecord>(
ResourceRecordQuery.serverPointer(MDnsObservatoryDiscovery.dartObservatoryName),
)).thenAnswer((_) => Stream<PtrResourceRecord>.fromIterable(ptrRecords));
for (final MapEntry<String, List<SrvResourceRecord>> entry in srvResponse.entries) {
when(client.lookup<SrvResourceRecord>(
ResourceRecordQuery.service(entry.key),
)).thenAnswer((_) => Stream<SrvResourceRecord>.fromIterable(entry.value));
}
return client;
}
testUsingContext('No ports available', () async {
final MDnsClient client = getMockClient(<PtrResourceRecord>[], <String, List<SrvResourceRecord>>{});
final MDnsObservatoryDiscovery portDiscovery = MDnsObservatoryDiscovery(mdnsClient: client);
final int port = (await portDiscovery.query())?.port;
expect(port, isNull);
});
testUsingContext('One port available, no appId', () async {
final MDnsClient client = getMockClient(
<PtrResourceRecord>[
PtrResourceRecord('foo', year3000, domainName: 'bar'),
],
<String, List<SrvResourceRecord>>{
'bar': <SrvResourceRecord>[
SrvResourceRecord('bar', year3000, port: 123, weight: 1, priority: 1, target: 'appId'),
],
},
);
final MDnsObservatoryDiscovery portDiscovery = MDnsObservatoryDiscovery(mdnsClient: client);
final int port = (await portDiscovery.query())?.port;
expect(port, 123);
});
testUsingContext('Multiple ports available, without appId', () async {
final MDnsClient client = getMockClient(
<PtrResourceRecord>[
PtrResourceRecord('foo', year3000, domainName: 'bar'),
PtrResourceRecord('baz', year3000, domainName: 'fiz'),
],
<String, List<SrvResourceRecord>>{
'bar': <SrvResourceRecord>[
SrvResourceRecord('bar', year3000, port: 123, weight: 1, priority: 1, target: 'appId'),
],
'fiz': <SrvResourceRecord>[
SrvResourceRecord('fiz', year3000, port: 321, weight: 1, priority: 1, target: 'local'),
],
},
);
final MDnsObservatoryDiscovery portDiscovery = MDnsObservatoryDiscovery(mdnsClient: client);
expect(() => portDiscovery.query(), throwsToolExit());
});
testUsingContext('Multiple ports available, with appId', () async {
final MDnsClient client = getMockClient(
<PtrResourceRecord>[
PtrResourceRecord('foo', year3000, domainName: 'bar'),
PtrResourceRecord('baz', year3000, domainName: 'fiz'),
],
<String, List<SrvResourceRecord>>{
'bar': <SrvResourceRecord>[
SrvResourceRecord('bar', year3000, port: 123, weight: 1, priority: 1, target: 'appId'),
],
'fiz': <SrvResourceRecord>[
SrvResourceRecord('fiz', year3000, port: 321, weight: 1, priority: 1, target: 'local'),
],
},
);
final MDnsObservatoryDiscovery portDiscovery = MDnsObservatoryDiscovery(mdnsClient: client);
final int port = (await portDiscovery.query(applicationId: 'fiz'))?.port;
expect(port, 321);
});
testUsingContext('Multiple ports available per process, with appId', () async {
final MDnsClient client = getMockClient(
<PtrResourceRecord>[
PtrResourceRecord('foo', year3000, domainName: 'bar'),
PtrResourceRecord('baz', year3000, domainName: 'fiz'),
],
<String, List<SrvResourceRecord>>{
'bar': <SrvResourceRecord>[
SrvResourceRecord('bar', year3000, port: 1234, weight: 1, priority: 1, target: 'appId'),
SrvResourceRecord('bar', year3000, port: 123, weight: 1, priority: 1, target: 'appId'),
],
'fiz': <SrvResourceRecord>[
SrvResourceRecord('fiz', year3000, port: 4321, weight: 1, priority: 1, target: 'local'),
SrvResourceRecord('fiz', year3000, port: 321, weight: 1, priority: 1, target: 'local'),
],
},
);
final MDnsObservatoryDiscovery portDiscovery = MDnsObservatoryDiscovery(mdnsClient: client);
final int port = (await portDiscovery.query(applicationId: 'bar'))?.port;
expect(port, 1234);
});
testUsingContext('Query returns null', () async {
final MDnsClient client = getMockClient(
<PtrResourceRecord>[],
<String, List<SrvResourceRecord>>{},
);
final MDnsObservatoryDiscovery portDiscovery = MDnsObservatoryDiscovery(mdnsClient: client);
final int port = (await portDiscovery.query(applicationId: 'bar'))?.port;
expect(port, isNull);
});
});
}
class MockMDnsClient extends Mock implements MDnsClient {}
class MockPortForwarder extends Mock implements DevicePortForwarder {}
class MockHotRunner extends Mock implements HotRunner {}
class MockHotRunnerFactory extends Mock implements HotRunnerFactory {}
class StreamLogger extends Logger {
@override
bool get isVerbose => true;
@override
void printError(
String message, {
StackTrace stackTrace,
bool emphasis,
TerminalColor color,
int indent,
int hangingIndent,
bool wrap,
}) {
_log('[stderr] $message');
}
@override
void printStatus(
String message, {
bool emphasis,
TerminalColor color,
bool newline,
int indent,
int hangingIndent,
bool wrap,
}) {
_log('[stdout] $message');
}
@override
void printTrace(String message) {
_log('[verbose] $message');
}
@override
Status startProgress(
String message, {
@required Duration timeout,
String progressId,
bool multilineOutput = false,
int progressIndicatorPadding = kDefaultStatusPadding,
}) {
_log('[progress] $message');
return SilentStatus(timeout: timeout)..start();
}
bool _interrupt = false;
void interrupt() {
_interrupt = true;
}
final StreamController<String> _controller = StreamController<String>.broadcast();
void _log(String message) {
_controller.add(message);
if (_interrupt) {
_interrupt = false;
throw const LoggerInterrupted();
}
}
Stream<String> get stream => _controller.stream;
}
class LoggerInterrupted implements Exception {
const LoggerInterrupted();
}
Future<void> expectLoggerInterruptEndsTask(Future<void> task, StreamLogger logger) async {
logger.interrupt(); // an exception during the task should cause it to fail...
try {
await task;
expect(false, isTrue); // (shouldn't reach here)
} on ToolExit catch (error) {
expect(error.exitCode, 2); // ...with exit code 2.
}
}