blob: 02cd5c2c43eaf32b318fca6e3a925a7891f009c2 [file] [log] [blame]
// Copyright 2013 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:convert';
import 'dart:ffi';
import 'package:args/command_runner.dart';
import 'package:file/file.dart';
import 'package:file/memory.dart';
import 'package:flutter_plugin_tools/src/common/cmake.dart';
import 'package:flutter_plugin_tools/src/common/core.dart';
import 'package:flutter_plugin_tools/src/common/file_utils.dart';
import 'package:flutter_plugin_tools/src/common/plugin_utils.dart';
import 'package:flutter_plugin_tools/src/native_test_command.dart';
import 'package:path/path.dart' as p;
import 'package:platform/platform.dart';
import 'package:test/test.dart';
import 'mocks.dart';
import 'util.dart';
const String _allAbiFlag =
'-Ptarget-platform=android-arm,android-arm64,android-x64,android-x86';
const String _androidIntegrationTestFilter =
'-Pandroid.testInstrumentationRunnerArguments.'
'notAnnotation=io.flutter.plugins.DartIntegrationTest';
final Map<String, dynamic> _kDeviceListMap = <String, dynamic>{
'runtimes': <Map<String, dynamic>>[
<String, dynamic>{
'bundlePath':
'/Library/Developer/CoreSimulator/Profiles/Runtimes/iOS 13.4.simruntime',
'buildversion': '17L255',
'runtimeRoot':
'/Library/Developer/CoreSimulator/Profiles/Runtimes/iOS 13.4.simruntime/Contents/Resources/RuntimeRoot',
'identifier': 'com.apple.CoreSimulator.SimRuntime.iOS-13-4',
'version': '13.4',
'isAvailable': true,
'name': 'iOS 13.4'
},
],
'devices': <String, dynamic>{
'com.apple.CoreSimulator.SimRuntime.iOS-13-4': <Map<String, dynamic>>[
<String, dynamic>{
'dataPath':
'/Users/xxx/Library/Developer/CoreSimulator/Devices/1E76A0FD-38AC-4537-A989-EA639D7D012A/data',
'logPath':
'/Users/xxx/Library/Logs/CoreSimulator/1E76A0FD-38AC-4537-A989-EA639D7D012A',
'udid': '1E76A0FD-38AC-4537-A989-EA639D7D012A',
'isAvailable': true,
'deviceTypeIdentifier':
'com.apple.CoreSimulator.SimDeviceType.iPhone-8-Plus',
'state': 'Shutdown',
'name': 'iPhone 8 Plus'
}
]
}
};
const String _fakeCmakeCommand = 'path/to/cmake';
const String _archDirX64 = 'x64';
const String _archDirArm64 = 'arm64';
void _createFakeCMakeCache(
RepositoryPackage plugin, Platform platform, String? archDir) {
final CMakeProject project = CMakeProject(getExampleDir(plugin),
platform: platform, buildMode: 'Release', arch: archDir);
final File cache = project.buildDirectory.childFile('CMakeCache.txt');
cache.createSync(recursive: true);
cache.writeAsStringSync('CMAKE_COMMAND:INTERNAL=$_fakeCmakeCommand');
}
// TODO(stuartmorgan): Rework these tests to use a mock Xcode instead of
// doing all the process mocking and validation.
void main() {
const String kDestination = '--ios-destination';
group('test native_test_command on Posix', () {
late FileSystem fileSystem;
late MockPlatform mockPlatform;
late Directory packagesDir;
late CommandRunner<void> runner;
late RecordingProcessRunner processRunner;
setUp(() {
fileSystem = MemoryFileSystem();
// iOS and macOS tests expect macOS, Linux tests expect Linux; nothing
// needs to distinguish between Linux and macOS, so set both to true to
// allow them to share a setup group.
mockPlatform = MockPlatform(isMacOS: true, isLinux: true);
packagesDir = createPackagesDirectory(fileSystem: fileSystem);
processRunner = RecordingProcessRunner();
final NativeTestCommand command = NativeTestCommand(packagesDir,
processRunner: processRunner, platform: mockPlatform);
runner = CommandRunner<void>(
'native_test_command', 'Test for native_test_command');
runner.addCommand(command);
});
// Returns a FakeProcessInfo to provide for "xcrun xcodebuild -list" for a
// project that contains [targets].
FakeProcessInfo getMockXcodebuildListProcess(List<String> targets) {
final Map<String, dynamic> projects = <String, dynamic>{
'project': <String, dynamic>{
'targets': targets,
}
};
return FakeProcessInfo(MockProcess(stdout: jsonEncode(projects)),
<String>['xcodebuild', '-list']);
}
// Returns the ProcessCall to expect for checking the targets present in
// the [package]'s [platform]/Runner.xcodeproj.
ProcessCall getTargetCheckCall(Directory package, String platform) {
return ProcessCall(
'xcrun',
<String>[
'xcodebuild',
'-list',
'-json',
'-project',
package
.childDirectory(platform)
.childDirectory('Runner.xcodeproj')
.path,
],
null);
}
// Returns the ProcessCall to expect for running the tests in the
// workspace [platform]/Runner.xcworkspace, with the given extra flags.
ProcessCall getRunTestCall(
Directory package,
String platform, {
String? destination,
List<String> extraFlags = const <String>[],
}) {
return ProcessCall(
'xcrun',
<String>[
'xcodebuild',
'clean',
'test',
'-workspace',
'$platform/Runner.xcworkspace',
'-scheme',
'Runner',
'-configuration',
'Debug',
if (destination != null) ...<String>['-destination', destination],
...extraFlags,
'GCC_TREAT_WARNINGS_AS_ERRORS=YES',
],
package.path);
}
// Returns the ProcessCall to expect for build the Linux unit tests for the
// given plugin.
ProcessCall getLinuxBuildCall(RepositoryPackage plugin) {
return ProcessCall(
'cmake',
<String>[
'--build',
getExampleDir(plugin)
.childDirectory('build')
.childDirectory('linux')
.childDirectory('x64')
.childDirectory('release')
.path,
'--target',
'unit_tests'
],
null);
}
test('fails if no platforms are provided', () async {
Error? commandError;
final List<String> output = await runCapturingPrint(
runner, <String>['native-test'], errorHandler: (Error e) {
commandError = e;
});
expect(commandError, isA<ToolExit>());
expect(
output,
containsAllInOrder(<Matcher>[
contains('At least one platform flag must be provided.'),
]),
);
});
test('fails if all test types are disabled', () async {
Error? commandError;
final List<String> output = await runCapturingPrint(runner, <String>[
'native-test',
'--macos',
'--no-unit',
'--no-integration',
], errorHandler: (Error e) {
commandError = e;
});
expect(commandError, isA<ToolExit>());
expect(
output,
containsAllInOrder(<Matcher>[
contains('At least one test type must be enabled.'),
]),
);
});
test('reports skips with no tests', () async {
final RepositoryPackage plugin = createFakePlugin('plugin', packagesDir,
platformSupport: <String, PlatformDetails>{
platformMacOS: const PlatformDetails(PlatformSupport.inline),
});
final Directory pluginExampleDirectory = getExampleDir(plugin);
processRunner.mockProcessesForExecutable['xcrun'] = <FakeProcessInfo>[
getMockXcodebuildListProcess(<String>['RunnerTests', 'RunnerUITests']),
// Exit code 66 from testing indicates no tests.
FakeProcessInfo(
MockProcess(exitCode: 66), <String>['xcodebuild', 'clean', 'test']),
];
final List<String> output = await runCapturingPrint(
runner, <String>['native-test', '--macos', '--no-unit']);
expect(
output,
containsAllInOrder(<Matcher>[
contains('No tests found.'),
contains('Skipped 1 package(s)'),
]));
expect(
processRunner.recordedCalls,
orderedEquals(<ProcessCall>[
getTargetCheckCall(pluginExampleDirectory, 'macos'),
getRunTestCall(pluginExampleDirectory, 'macos',
extraFlags: <String>['-only-testing:RunnerUITests']),
]));
});
group('iOS', () {
test('skip if iOS is not supported', () async {
createFakePlugin('plugin', packagesDir,
platformSupport: <String, PlatformDetails>{
platformMacOS: const PlatformDetails(PlatformSupport.inline),
});
final List<String> output = await runCapturingPrint(runner,
<String>['native-test', '--ios', kDestination, 'foo_destination']);
expect(
output,
containsAllInOrder(<Matcher>[
contains('No implementation for iOS.'),
contains('SKIPPING: Nothing to test for target platform(s).'),
]));
expect(processRunner.recordedCalls, orderedEquals(<ProcessCall>[]));
});
test('skip if iOS is implemented in a federated package', () async {
createFakePlugin('plugin', packagesDir,
platformSupport: <String, PlatformDetails>{
platformIOS: const PlatformDetails(PlatformSupport.federated)
});
final List<String> output = await runCapturingPrint(runner,
<String>['native-test', '--ios', kDestination, 'foo_destination']);
expect(
output,
containsAllInOrder(<Matcher>[
contains('No implementation for iOS.'),
contains('SKIPPING: Nothing to test for target platform(s).'),
]));
expect(processRunner.recordedCalls, orderedEquals(<ProcessCall>[]));
});
test('running with correct destination', () async {
final RepositoryPackage plugin = createFakePlugin('plugin', packagesDir,
platformSupport: <String, PlatformDetails>{
platformIOS: const PlatformDetails(PlatformSupport.inline)
});
final Directory pluginExampleDirectory = getExampleDir(plugin);
processRunner.mockProcessesForExecutable['xcrun'] = <FakeProcessInfo>[
getMockXcodebuildListProcess(
<String>['RunnerTests', 'RunnerUITests']),
];
final List<String> output = await runCapturingPrint(runner, <String>[
'native-test',
'--ios',
kDestination,
'foo_destination',
]);
expect(
output,
containsAllInOrder(<Matcher>[
contains('Running for plugin'),
contains('Successfully ran iOS xctest for plugin/example')
]));
expect(
processRunner.recordedCalls,
orderedEquals(<ProcessCall>[
getTargetCheckCall(pluginExampleDirectory, 'ios'),
getRunTestCall(pluginExampleDirectory, 'ios',
destination: 'foo_destination'),
]));
});
test('Not specifying --ios-destination assigns an available simulator',
() async {
final RepositoryPackage plugin = createFakePlugin('plugin', packagesDir,
platformSupport: <String, PlatformDetails>{
platformIOS: const PlatformDetails(PlatformSupport.inline)
});
final Directory pluginExampleDirectory = getExampleDir(plugin);
processRunner.mockProcessesForExecutable['xcrun'] = <FakeProcessInfo>[
FakeProcessInfo(MockProcess(stdout: jsonEncode(_kDeviceListMap)),
<String>['simctl', 'list']),
getMockXcodebuildListProcess(
<String>['RunnerTests', 'RunnerUITests']),
];
await runCapturingPrint(runner, <String>['native-test', '--ios']);
expect(
processRunner.recordedCalls,
orderedEquals(<ProcessCall>[
const ProcessCall(
'xcrun',
<String>[
'simctl',
'list',
'devices',
'runtimes',
'available',
'--json',
],
null),
getTargetCheckCall(pluginExampleDirectory, 'ios'),
getRunTestCall(pluginExampleDirectory, 'ios',
destination: 'id=1E76A0FD-38AC-4537-A989-EA639D7D012A'),
]));
});
});
group('macOS', () {
test('skip if macOS is not supported', () async {
createFakePlugin('plugin', packagesDir);
final List<String> output =
await runCapturingPrint(runner, <String>['native-test', '--macos']);
expect(
output,
containsAllInOrder(<Matcher>[
contains('No implementation for macOS.'),
contains('SKIPPING: Nothing to test for target platform(s).'),
]));
expect(processRunner.recordedCalls, orderedEquals(<ProcessCall>[]));
});
test('skip if macOS is implemented in a federated package', () async {
createFakePlugin('plugin', packagesDir,
platformSupport: <String, PlatformDetails>{
platformMacOS: const PlatformDetails(PlatformSupport.federated),
});
final List<String> output =
await runCapturingPrint(runner, <String>['native-test', '--macos']);
expect(
output,
containsAllInOrder(<Matcher>[
contains('No implementation for macOS.'),
contains('SKIPPING: Nothing to test for target platform(s).'),
]));
expect(processRunner.recordedCalls, orderedEquals(<ProcessCall>[]));
});
test('runs for macOS plugin', () async {
final RepositoryPackage plugin = createFakePlugin('plugin', packagesDir,
platformSupport: <String, PlatformDetails>{
platformMacOS: const PlatformDetails(PlatformSupport.inline),
});
final Directory pluginExampleDirectory = getExampleDir(plugin);
processRunner.mockProcessesForExecutable['xcrun'] = <FakeProcessInfo>[
getMockXcodebuildListProcess(
<String>['RunnerTests', 'RunnerUITests']),
];
final List<String> output = await runCapturingPrint(runner, <String>[
'native-test',
'--macos',
]);
expect(
output,
contains(
contains('Successfully ran macOS xctest for plugin/example')));
expect(
processRunner.recordedCalls,
orderedEquals(<ProcessCall>[
getTargetCheckCall(pluginExampleDirectory, 'macos'),
getRunTestCall(pluginExampleDirectory, 'macos'),
]));
});
});
group('Android', () {
test('runs Java unit tests in Android implementation folder', () async {
final RepositoryPackage plugin = createFakePlugin(
'plugin',
packagesDir,
platformSupport: <String, PlatformDetails>{
platformAndroid: const PlatformDetails(PlatformSupport.inline)
},
extraFiles: <String>[
'example/android/gradlew',
'android/src/test/example_test.java',
],
);
await runCapturingPrint(runner, <String>['native-test', '--android']);
final Directory androidFolder = plugin
.getExamples()
.first
.platformDirectory(FlutterPlatform.android);
expect(
processRunner.recordedCalls,
orderedEquals(<ProcessCall>[
ProcessCall(
androidFolder.childFile('gradlew').path,
const <String>[
'app:testDebugUnitTest',
'plugin:testDebugUnitTest',
],
androidFolder.path,
),
]),
);
});
test('runs Java unit tests in example folder', () async {
final RepositoryPackage plugin = createFakePlugin(
'plugin',
packagesDir,
platformSupport: <String, PlatformDetails>{
platformAndroid: const PlatformDetails(PlatformSupport.inline)
},
extraFiles: <String>[
'example/android/gradlew',
'example/android/app/src/test/example_test.java',
],
);
await runCapturingPrint(runner, <String>['native-test', '--android']);
final Directory androidFolder = plugin
.getExamples()
.first
.platformDirectory(FlutterPlatform.android);
expect(
processRunner.recordedCalls,
orderedEquals(<ProcessCall>[
ProcessCall(
androidFolder.childFile('gradlew').path,
const <String>[
'app:testDebugUnitTest',
'plugin:testDebugUnitTest',
],
androidFolder.path,
),
]),
);
});
test('only runs plugin-level unit tests once', () async {
final RepositoryPackage plugin = createFakePlugin(
'plugin',
packagesDir,
platformSupport: <String, PlatformDetails>{
platformAndroid: const PlatformDetails(PlatformSupport.inline)
},
examples: <String>['example1', 'example2'],
extraFiles: <String>[
'example/example1/android/gradlew',
'example/example1/android/app/src/test/example_test.java',
'example/example2/android/gradlew',
'example/example2/android/app/src/test/example_test.java',
],
);
await runCapturingPrint(runner, <String>['native-test', '--android']);
final List<RepositoryPackage> examples = plugin.getExamples().toList();
final Directory androidFolder1 =
examples[0].platformDirectory(FlutterPlatform.android);
final Directory androidFolder2 =
examples[1].platformDirectory(FlutterPlatform.android);
expect(
processRunner.recordedCalls,
orderedEquals(<ProcessCall>[
ProcessCall(
androidFolder1.childFile('gradlew').path,
const <String>[
'app:testDebugUnitTest',
'plugin:testDebugUnitTest',
],
androidFolder1.path,
),
ProcessCall(
androidFolder2.childFile('gradlew').path,
const <String>[
'app:testDebugUnitTest',
],
androidFolder2.path,
),
]),
);
});
test('runs Java integration tests', () async {
final RepositoryPackage plugin = createFakePlugin(
'plugin',
packagesDir,
platformSupport: <String, PlatformDetails>{
platformAndroid: const PlatformDetails(PlatformSupport.inline)
},
extraFiles: <String>[
'example/android/gradlew',
'example/android/app/src/androidTest/IntegrationTest.java',
],
);
await runCapturingPrint(
runner, <String>['native-test', '--android', '--no-unit']);
final Directory androidFolder = plugin
.getExamples()
.first
.platformDirectory(FlutterPlatform.android);
expect(
processRunner.recordedCalls,
orderedEquals(<ProcessCall>[
ProcessCall(
androidFolder.childFile('gradlew').path,
const <String>[
'app:connectedAndroidTest',
_androidIntegrationTestFilter,
_allAbiFlag,
],
androidFolder.path,
),
]),
);
});
test(
'ignores Java integration test files using (or defining) DartIntegrationTest',
() async {
const String dartTestDriverRelativePath =
'android/app/src/androidTest/java/io/flutter/plugins/plugin/FlutterActivityTest.java';
final RepositoryPackage plugin = createFakePlugin(
'plugin',
packagesDir,
platformSupport: <String, PlatformDetails>{
platformAndroid: const PlatformDetails(PlatformSupport.inline)
},
extraFiles: <String>[
'example/android/gradlew',
'example/android/app/src/androidTest/java/io/flutter/plugins/DartIntegrationTest.java',
'example/android/app/src/androidTest/java/io/flutter/plugins/DartIntegrationTest.kt',
'example/$dartTestDriverRelativePath',
],
);
final File dartTestDriverFile = childFileWithSubcomponents(
plugin.getExamples().first.directory,
p.posix.split(dartTestDriverRelativePath));
dartTestDriverFile.writeAsStringSync('''
import io.flutter.plugins.DartIntegrationTest;
import org.junit.runner.RunWith;
@DartIntegrationTest
@RunWith(FlutterTestRunner.class)
public class FlutterActivityTest {
}
''');
await runCapturingPrint(
runner, <String>['native-test', '--android', '--no-unit']);
// Nothing should run since those files are all
// integration_test-specific.
expect(
processRunner.recordedCalls,
orderedEquals(<ProcessCall>[]),
);
});
test(
'fails for Java integration tests Using FlutterTestRunner without @DartIntegrationTest',
() async {
const String dartTestDriverRelativePath =
'android/app/src/androidTest/java/io/flutter/plugins/plugin/FlutterActivityTest.java';
final RepositoryPackage plugin = createFakePlugin(
'plugin',
packagesDir,
platformSupport: <String, PlatformDetails>{
platformAndroid: const PlatformDetails(PlatformSupport.inline)
},
extraFiles: <String>[
'example/android/gradlew',
'example/$dartTestDriverRelativePath',
],
);
final File dartTestDriverFile = childFileWithSubcomponents(
plugin.getExamples().first.directory,
p.posix.split(dartTestDriverRelativePath));
dartTestDriverFile.writeAsStringSync('''
import io.flutter.plugins.DartIntegrationTest;
import org.junit.runner.RunWith;
@RunWith(FlutterTestRunner.class)
public class FlutterActivityTest {
}
''');
Error? commandError;
final List<String> output = await runCapturingPrint(
runner, <String>['native-test', '--android', '--no-unit'],
errorHandler: (Error e) {
commandError = e;
});
expect(commandError, isA<ToolExit>());
expect(
output,
contains(
contains(misconfiguredJavaIntegrationTestErrorExplanation)));
expect(
output,
contains(contains(
'example/android/app/src/androidTest/java/io/flutter/plugins/plugin/FlutterActivityTest.java')));
});
test('runs all tests when present', () async {
final RepositoryPackage plugin = createFakePlugin(
'plugin',
packagesDir,
platformSupport: <String, PlatformDetails>{
platformAndroid: const PlatformDetails(PlatformSupport.inline)
},
extraFiles: <String>[
'android/src/test/example_test.java',
'example/android/gradlew',
'example/android/app/src/androidTest/IntegrationTest.java',
],
);
await runCapturingPrint(runner, <String>['native-test', '--android']);
final Directory androidFolder = plugin
.getExamples()
.first
.platformDirectory(FlutterPlatform.android);
expect(
processRunner.recordedCalls,
orderedEquals(<ProcessCall>[
ProcessCall(
androidFolder.childFile('gradlew').path,
const <String>[
'app:testDebugUnitTest',
'plugin:testDebugUnitTest',
],
androidFolder.path,
),
ProcessCall(
androidFolder.childFile('gradlew').path,
const <String>[
'app:connectedAndroidTest',
_androidIntegrationTestFilter,
_allAbiFlag,
],
androidFolder.path,
),
]),
);
});
test('honors --no-unit', () async {
final RepositoryPackage plugin = createFakePlugin(
'plugin',
packagesDir,
platformSupport: <String, PlatformDetails>{
platformAndroid: const PlatformDetails(PlatformSupport.inline)
},
extraFiles: <String>[
'android/src/test/example_test.java',
'example/android/gradlew',
'example/android/app/src/androidTest/IntegrationTest.java',
],
);
await runCapturingPrint(
runner, <String>['native-test', '--android', '--no-unit']);
final Directory androidFolder = plugin
.getExamples()
.first
.platformDirectory(FlutterPlatform.android);
expect(
processRunner.recordedCalls,
orderedEquals(<ProcessCall>[
ProcessCall(
androidFolder.childFile('gradlew').path,
const <String>[
'app:connectedAndroidTest',
_androidIntegrationTestFilter,
_allAbiFlag,
],
androidFolder.path,
),
]),
);
});
test('honors --no-integration', () async {
final RepositoryPackage plugin = createFakePlugin(
'plugin',
packagesDir,
platformSupport: <String, PlatformDetails>{
platformAndroid: const PlatformDetails(PlatformSupport.inline)
},
extraFiles: <String>[
'android/src/test/example_test.java',
'example/android/gradlew',
'example/android/app/src/androidTest/IntegrationTest.java',
],
);
await runCapturingPrint(
runner, <String>['native-test', '--android', '--no-integration']);
final Directory androidFolder = plugin
.getExamples()
.first
.platformDirectory(FlutterPlatform.android);
expect(
processRunner.recordedCalls,
orderedEquals(<ProcessCall>[
ProcessCall(
androidFolder.childFile('gradlew').path,
const <String>[
'app:testDebugUnitTest',
'plugin:testDebugUnitTest',
],
androidFolder.path,
),
]),
);
});
test('runs a config-only build when the app needs to be built', () async {
final RepositoryPackage package = createFakePlugin(
'plugin',
packagesDir,
platformSupport: <String, PlatformDetails>{
platformAndroid: const PlatformDetails(PlatformSupport.inline)
},
extraFiles: <String>[
'example/android/app/src/test/example_test.java',
],
);
final RepositoryPackage example = package.getExamples().first;
final Directory androidFolder =
example.platformDirectory(FlutterPlatform.android);
await runCapturingPrint(runner, <String>['native-test', '--android']);
expect(
processRunner.recordedCalls,
orderedEquals(<ProcessCall>[
ProcessCall(
getFlutterCommand(mockPlatform),
const <String>['build', 'apk', '--config-only'],
example.path,
),
ProcessCall(
androidFolder.childFile('gradlew').path,
const <String>[
'app:testDebugUnitTest',
'plugin:testDebugUnitTest',
],
androidFolder.path,
),
]),
);
});
test('fails when the gradlew generation fails', () async {
createFakePlugin(
'plugin',
packagesDir,
platformSupport: <String, PlatformDetails>{
platformAndroid: const PlatformDetails(PlatformSupport.inline)
},
extraFiles: <String>[
'example/android/app/src/test/example_test.java',
],
);
processRunner
.mockProcessesForExecutable[getFlutterCommand(mockPlatform)] =
<FakeProcessInfo>[FakeProcessInfo(MockProcess(exitCode: 1))];
Error? commandError;
final List<String> output = await runCapturingPrint(
runner, <String>['native-test', '--android'],
errorHandler: (Error e) {
commandError = e;
});
expect(commandError, isA<ToolExit>());
expect(
output,
containsAllInOrder(<Matcher>[
contains('Unable to configure Gradle project'),
]),
);
});
test('logs missing test types', () async {
// No unit tests.
createFakePlugin(
'plugin1',
packagesDir,
platformSupport: <String, PlatformDetails>{
platformAndroid: const PlatformDetails(PlatformSupport.inline)
},
extraFiles: <String>[
'example/android/gradlew',
'example/android/app/src/androidTest/IntegrationTest.java',
],
);
// No integration tests.
createFakePlugin(
'plugin2',
packagesDir,
platformSupport: <String, PlatformDetails>{
platformAndroid: const PlatformDetails(PlatformSupport.inline)
},
extraFiles: <String>[
'android/src/test/example_test.java',
'example/android/gradlew',
],
);
final List<String> output = await runCapturingPrint(
runner, <String>['native-test', '--android'],
errorHandler: (Error e) {
// Having no unit tests is fatal, but that's not the point of this
// test so just ignore the failure.
});
expect(
output,
containsAllInOrder(<Matcher>[
contains('No Android unit tests found for plugin1/example'),
contains('Running integration tests...'),
contains(
'No Android integration tests found for plugin2/example'),
contains('Running unit tests...'),
]));
});
test('fails when a unit test fails', () async {
final RepositoryPackage plugin = createFakePlugin(
'plugin',
packagesDir,
platformSupport: <String, PlatformDetails>{
platformAndroid: const PlatformDetails(PlatformSupport.inline)
},
extraFiles: <String>[
'example/android/gradlew',
'example/android/app/src/test/example_test.java',
],
);
final String gradlewPath = plugin
.getExamples()
.first
.platformDirectory(FlutterPlatform.android)
.childFile('gradlew')
.path;
processRunner.mockProcessesForExecutable[gradlewPath] =
<FakeProcessInfo>[FakeProcessInfo(MockProcess(exitCode: 1))];
Error? commandError;
final List<String> output = await runCapturingPrint(
runner, <String>['native-test', '--android'],
errorHandler: (Error e) {
commandError = e;
});
expect(commandError, isA<ToolExit>());
expect(
output,
containsAllInOrder(<Matcher>[
contains('plugin/example unit tests failed.'),
contains('The following packages had errors:'),
contains('plugin')
]),
);
});
test('fails when an integration test fails', () async {
final RepositoryPackage plugin = createFakePlugin(
'plugin',
packagesDir,
platformSupport: <String, PlatformDetails>{
platformAndroid: const PlatformDetails(PlatformSupport.inline)
},
extraFiles: <String>[
'example/android/gradlew',
'example/android/app/src/test/example_test.java',
'example/android/app/src/androidTest/IntegrationTest.java',
],
);
final String gradlewPath = plugin
.getExamples()
.first
.platformDirectory(FlutterPlatform.android)
.childFile('gradlew')
.path;
processRunner.mockProcessesForExecutable[gradlewPath] =
<FakeProcessInfo>[
FakeProcessInfo(
MockProcess(), <String>['app:testDebugUnitTest']), // unit passes
FakeProcessInfo(MockProcess(exitCode: 1),
<String>['app:connectedAndroidTest']), // integration fails
];
Error? commandError;
final List<String> output = await runCapturingPrint(
runner, <String>['native-test', '--android'],
errorHandler: (Error e) {
commandError = e;
});
expect(commandError, isA<ToolExit>());
expect(
output,
containsAllInOrder(<Matcher>[
contains('plugin/example integration tests failed.'),
contains('The following packages had errors:'),
contains('plugin')
]),
);
});
test('fails if there are no unit tests', () async {
createFakePlugin(
'plugin',
packagesDir,
platformSupport: <String, PlatformDetails>{
platformAndroid: const PlatformDetails(PlatformSupport.inline)
},
extraFiles: <String>[
'example/android/gradlew',
'example/android/app/src/androidTest/IntegrationTest.java',
],
);
Error? commandError;
final List<String> output = await runCapturingPrint(
runner, <String>['native-test', '--android'],
errorHandler: (Error e) {
commandError = e;
});
expect(commandError, isA<ToolExit>());
expect(
output,
containsAllInOrder(<Matcher>[
contains('No Android unit tests found for plugin/example'),
contains(
'No unit tests ran. Plugins are required to have unit tests.'),
contains('The following packages had errors:'),
contains('plugin:\n'
' No unit tests ran (use --exclude if this is intentional).')
]),
);
});
test('skips if Android is not supported', () async {
createFakePlugin(
'plugin',
packagesDir,
);
final List<String> output = await runCapturingPrint(
runner, <String>['native-test', '--android']);
expect(
output,
containsAllInOrder(<Matcher>[
contains('No implementation for Android.'),
contains('SKIPPING: Nothing to test for target platform(s).'),
]),
);
});
test('skips when running no tests in integration-only mode', () async {
createFakePlugin(
'plugin',
packagesDir,
platformSupport: <String, PlatformDetails>{
platformAndroid: const PlatformDetails(PlatformSupport.inline)
},
);
final List<String> output = await runCapturingPrint(
runner, <String>['native-test', '--android', '--no-unit']);
expect(
output,
containsAllInOrder(<Matcher>[
contains('No Android integration tests found for plugin/example'),
contains('SKIPPING: No tests found.'),
]),
);
});
});
group('Linux', () {
test('builds and runs unit tests', () async {
const String testBinaryRelativePath =
'build/linux/x64/release/bar/plugin_test';
final RepositoryPackage plugin =
createFakePlugin('plugin', packagesDir, extraFiles: <String>[
'example/$testBinaryRelativePath'
], platformSupport: <String, PlatformDetails>{
platformLinux: const PlatformDetails(PlatformSupport.inline),
});
_createFakeCMakeCache(plugin, mockPlatform, _archDirX64);
final File testBinary = childFileWithSubcomponents(plugin.directory,
<String>['example', ...testBinaryRelativePath.split('/')]);
final List<String> output = await runCapturingPrint(runner, <String>[
'native-test',
'--linux',
'--no-integration',
]);
expect(
output,
containsAllInOrder(<Matcher>[
contains('Running plugin_test...'),
contains('No issues found!'),
]),
);
expect(
processRunner.recordedCalls,
orderedEquals(<ProcessCall>[
getLinuxBuildCall(plugin),
ProcessCall(testBinary.path, const <String>[], null),
]));
});
test('only runs release unit tests', () async {
const String debugTestBinaryRelativePath =
'build/linux/x64/debug/bar/plugin_test';
const String releaseTestBinaryRelativePath =
'build/linux/x64/release/bar/plugin_test';
final RepositoryPackage plugin =
createFakePlugin('plugin', packagesDir, extraFiles: <String>[
'example/$debugTestBinaryRelativePath',
'example/$releaseTestBinaryRelativePath'
], platformSupport: <String, PlatformDetails>{
platformLinux: const PlatformDetails(PlatformSupport.inline),
});
_createFakeCMakeCache(plugin, mockPlatform, _archDirX64);
final File releaseTestBinary = childFileWithSubcomponents(
plugin.directory,
<String>['example', ...releaseTestBinaryRelativePath.split('/')]);
final List<String> output = await runCapturingPrint(runner, <String>[
'native-test',
'--linux',
'--no-integration',
]);
expect(
output,
containsAllInOrder(<Matcher>[
contains('Running plugin_test...'),
contains('No issues found!'),
]),
);
expect(
processRunner.recordedCalls,
orderedEquals(<ProcessCall>[
getLinuxBuildCall(plugin),
ProcessCall(releaseTestBinary.path, const <String>[], null),
]));
});
test('fails if CMake has not been configured', () async {
createFakePlugin('plugin', packagesDir,
platformSupport: <String, PlatformDetails>{
platformLinux: const PlatformDetails(PlatformSupport.inline),
});
Error? commandError;
final List<String> output = await runCapturingPrint(runner, <String>[
'native-test',
'--linux',
'--no-integration',
], errorHandler: (Error e) {
commandError = e;
});
expect(commandError, isA<ToolExit>());
expect(
output,
containsAllInOrder(<Matcher>[
contains('plugin:\n'
' Examples must be built before testing.')
]),
);
expect(processRunner.recordedCalls, orderedEquals(<ProcessCall>[]));
});
test('fails if there are no unit tests', () async {
final RepositoryPackage plugin = createFakePlugin('plugin', packagesDir,
platformSupport: <String, PlatformDetails>{
platformLinux: const PlatformDetails(PlatformSupport.inline),
});
_createFakeCMakeCache(plugin, mockPlatform, _archDirX64);
Error? commandError;
final List<String> output = await runCapturingPrint(runner, <String>[
'native-test',
'--linux',
'--no-integration',
], errorHandler: (Error e) {
commandError = e;
});
expect(commandError, isA<ToolExit>());
expect(
output,
containsAllInOrder(<Matcher>[
contains('No test binaries found.'),
]),
);
expect(
processRunner.recordedCalls,
orderedEquals(<ProcessCall>[
getLinuxBuildCall(plugin),
]));
});
test('fails if a unit test fails', () async {
const String testBinaryRelativePath =
'build/linux/x64/release/bar/plugin_test';
final RepositoryPackage plugin =
createFakePlugin('plugin', packagesDir, extraFiles: <String>[
'example/$testBinaryRelativePath'
], platformSupport: <String, PlatformDetails>{
platformLinux: const PlatformDetails(PlatformSupport.inline),
});
_createFakeCMakeCache(plugin, mockPlatform, _archDirX64);
final File testBinary = childFileWithSubcomponents(plugin.directory,
<String>['example', ...testBinaryRelativePath.split('/')]);
processRunner.mockProcessesForExecutable[testBinary.path] =
<FakeProcessInfo>[
FakeProcessInfo(MockProcess(exitCode: 1)),
];
Error? commandError;
final List<String> output = await runCapturingPrint(runner, <String>[
'native-test',
'--linux',
'--no-integration',
], errorHandler: (Error e) {
commandError = e;
});
expect(commandError, isA<ToolExit>());
expect(
output,
containsAllInOrder(<Matcher>[
contains('Running plugin_test...'),
]),
);
expect(
processRunner.recordedCalls,
orderedEquals(<ProcessCall>[
getLinuxBuildCall(plugin),
ProcessCall(testBinary.path, const <String>[], null),
]));
});
});
// Tests behaviors of implementation that is shared between iOS and macOS.
group('iOS/macOS', () {
test('fails if xcrun fails', () async {
createFakePlugin('plugin', packagesDir,
platformSupport: <String, PlatformDetails>{
platformMacOS: const PlatformDetails(PlatformSupport.inline),
});
processRunner.mockProcessesForExecutable['xcrun'] = <FakeProcessInfo>[
FakeProcessInfo(MockProcess(exitCode: 1))
];
Error? commandError;
final List<String> output =
await runCapturingPrint(runner, <String>['native-test', '--macos'],
errorHandler: (Error e) {
commandError = e;
});
expect(commandError, isA<ToolExit>());
expect(
output,
containsAllInOrder(<Matcher>[
contains('The following packages had errors:'),
contains(' plugin'),
]),
);
});
test('honors unit-only', () async {
final RepositoryPackage plugin = createFakePlugin('plugin', packagesDir,
platformSupport: <String, PlatformDetails>{
platformMacOS: const PlatformDetails(PlatformSupport.inline),
});
final Directory pluginExampleDirectory = getExampleDir(plugin);
processRunner.mockProcessesForExecutable['xcrun'] = <FakeProcessInfo>[
getMockXcodebuildListProcess(
<String>['RunnerTests', 'RunnerUITests']),
];
final List<String> output = await runCapturingPrint(runner, <String>[
'native-test',
'--macos',
'--no-integration',
]);
expect(
output,
contains(
contains('Successfully ran macOS xctest for plugin/example')));
// --no-integration should translate to '-only-testing:RunnerTests'.
expect(
processRunner.recordedCalls,
orderedEquals(<ProcessCall>[
getTargetCheckCall(pluginExampleDirectory, 'macos'),
getRunTestCall(pluginExampleDirectory, 'macos',
extraFlags: <String>['-only-testing:RunnerTests']),
]));
});
test('honors integration-only', () async {
final RepositoryPackage plugin1 = createFakePlugin(
'plugin', packagesDir,
platformSupport: <String, PlatformDetails>{
platformMacOS: const PlatformDetails(PlatformSupport.inline),
});
final Directory pluginExampleDirectory = getExampleDir(plugin1);
processRunner.mockProcessesForExecutable['xcrun'] = <FakeProcessInfo>[
getMockXcodebuildListProcess(
<String>['RunnerTests', 'RunnerUITests']),
];
final List<String> output = await runCapturingPrint(runner, <String>[
'native-test',
'--macos',
'--no-unit',
]);
expect(
output,
contains(
contains('Successfully ran macOS xctest for plugin/example')));
// --no-unit should translate to '-only-testing:RunnerUITests'.
expect(
processRunner.recordedCalls,
orderedEquals(<ProcessCall>[
getTargetCheckCall(pluginExampleDirectory, 'macos'),
getRunTestCall(pluginExampleDirectory, 'macos',
extraFlags: <String>['-only-testing:RunnerUITests']),
]));
});
test('skips when the requested target is not present', () async {
final RepositoryPackage plugin1 = createFakePlugin(
'plugin', packagesDir,
platformSupport: <String, PlatformDetails>{
platformMacOS: const PlatformDetails(PlatformSupport.inline),
});
final Directory pluginExampleDirectory = getExampleDir(plugin1);
// Simulate a project with unit tests but no integration tests...
processRunner.mockProcessesForExecutable['xcrun'] = <FakeProcessInfo>[
getMockXcodebuildListProcess(<String>['RunnerTests']),
];
// ... then try to run only integration tests.
final List<String> output = await runCapturingPrint(runner, <String>[
'native-test',
'--macos',
'--no-unit',
]);
expect(
output,
containsAllInOrder(<Matcher>[
contains(
'No "RunnerUITests" target in plugin/example; skipping.'),
]));
expect(
processRunner.recordedCalls,
orderedEquals(<ProcessCall>[
getTargetCheckCall(pluginExampleDirectory, 'macos'),
]));
});
test('fails if there are no unit tests', () async {
final RepositoryPackage plugin1 = createFakePlugin(
'plugin', packagesDir,
platformSupport: <String, PlatformDetails>{
platformMacOS: const PlatformDetails(PlatformSupport.inline),
});
final Directory pluginExampleDirectory = getExampleDir(plugin1);
processRunner.mockProcessesForExecutable['xcrun'] = <FakeProcessInfo>[
getMockXcodebuildListProcess(<String>['RunnerUITests']),
];
Error? commandError;
final List<String> output =
await runCapturingPrint(runner, <String>['native-test', '--macos'],
errorHandler: (Error e) {
commandError = e;
});
expect(commandError, isA<ToolExit>());
expect(
output,
containsAllInOrder(<Matcher>[
contains('No "RunnerTests" target in plugin/example; skipping.'),
contains(
'No unit tests ran. Plugins are required to have unit tests.'),
contains('The following packages had errors:'),
contains('plugin:\n'
' No unit tests ran (use --exclude if this is intentional).'),
]));
expect(
processRunner.recordedCalls,
orderedEquals(<ProcessCall>[
getTargetCheckCall(pluginExampleDirectory, 'macos'),
]));
});
test('fails if unable to check for requested target', () async {
final RepositoryPackage plugin1 = createFakePlugin(
'plugin', packagesDir,
platformSupport: <String, PlatformDetails>{
platformMacOS: const PlatformDetails(PlatformSupport.inline),
});
final Directory pluginExampleDirectory = getExampleDir(plugin1);
processRunner.mockProcessesForExecutable['xcrun'] = <FakeProcessInfo>[
FakeProcessInfo(
MockProcess(exitCode: 1), <String>['xcodebuild', '-list']),
];
Error? commandError;
final List<String> output = await runCapturingPrint(runner, <String>[
'native-test',
'--macos',
'--no-integration',
], errorHandler: (Error e) {
commandError = e;
});
expect(commandError, isA<ToolExit>());
expect(
output,
containsAllInOrder(<Matcher>[
contains('Unable to check targets for plugin/example.'),
]),
);
expect(
processRunner.recordedCalls,
orderedEquals(<ProcessCall>[
getTargetCheckCall(pluginExampleDirectory, 'macos'),
]));
});
});
group('multiplatform', () {
test('runs all platfroms when supported', () async {
final RepositoryPackage plugin = createFakePlugin(
'plugin',
packagesDir,
extraFiles: <String>[
'example/android/gradlew',
'android/src/test/example_test.java',
],
platformSupport: <String, PlatformDetails>{
platformAndroid: const PlatformDetails(PlatformSupport.inline),
platformIOS: const PlatformDetails(PlatformSupport.inline),
platformMacOS: const PlatformDetails(PlatformSupport.inline),
},
);
final Directory pluginExampleDirectory = getExampleDir(plugin);
final Directory androidFolder =
pluginExampleDirectory.childDirectory('android');
processRunner.mockProcessesForExecutable['xcrun'] = <FakeProcessInfo>[
getMockXcodebuildListProcess(
<String>['RunnerTests', 'RunnerUITests']), // iOS list
FakeProcessInfo(MockProcess(),
<String>['xcodebuild', 'clean', 'test']), // iOS run
getMockXcodebuildListProcess(
<String>['RunnerTests', 'RunnerUITests']), // macOS list
FakeProcessInfo(MockProcess(),
<String>['xcodebuild', 'clean', 'test']), // macOS run
];
final List<String> output = await runCapturingPrint(runner, <String>[
'native-test',
'--android',
'--ios',
'--macos',
kDestination,
'foo_destination',
]);
expect(
output,
containsAll(<Matcher>[
contains('Running Android tests for plugin/example'),
contains('Successfully ran iOS xctest for plugin/example'),
contains('Successfully ran macOS xctest for plugin/example'),
]));
expect(
processRunner.recordedCalls,
orderedEquals(<ProcessCall>[
ProcessCall(
androidFolder.childFile('gradlew').path,
const <String>[
'app:testDebugUnitTest',
'plugin:testDebugUnitTest',
],
androidFolder.path),
getTargetCheckCall(pluginExampleDirectory, 'ios'),
getRunTestCall(pluginExampleDirectory, 'ios',
destination: 'foo_destination'),
getTargetCheckCall(pluginExampleDirectory, 'macos'),
getRunTestCall(pluginExampleDirectory, 'macos'),
]));
});
test('runs only macOS for a macOS plugin', () async {
final RepositoryPackage plugin = createFakePlugin('plugin', packagesDir,
platformSupport: <String, PlatformDetails>{
platformMacOS: const PlatformDetails(PlatformSupport.inline),
});
final Directory pluginExampleDirectory = getExampleDir(plugin);
processRunner.mockProcessesForExecutable['xcrun'] = <FakeProcessInfo>[
getMockXcodebuildListProcess(
<String>['RunnerTests', 'RunnerUITests']),
];
final List<String> output = await runCapturingPrint(runner, <String>[
'native-test',
'--ios',
'--macos',
kDestination,
'foo_destination',
]);
expect(
output,
containsAllInOrder(<Matcher>[
contains('No implementation for iOS.'),
contains('Successfully ran macOS xctest for plugin/example'),
]));
expect(
processRunner.recordedCalls,
orderedEquals(<ProcessCall>[
getTargetCheckCall(pluginExampleDirectory, 'macos'),
getRunTestCall(pluginExampleDirectory, 'macos'),
]));
});
test('runs only iOS for a iOS plugin', () async {
final RepositoryPackage plugin = createFakePlugin('plugin', packagesDir,
platformSupport: <String, PlatformDetails>{
platformIOS: const PlatformDetails(PlatformSupport.inline)
});
final Directory pluginExampleDirectory = getExampleDir(plugin);
processRunner.mockProcessesForExecutable['xcrun'] = <FakeProcessInfo>[
getMockXcodebuildListProcess(
<String>['RunnerTests', 'RunnerUITests']),
];
final List<String> output = await runCapturingPrint(runner, <String>[
'native-test',
'--ios',
'--macos',
kDestination,
'foo_destination',
]);
expect(
output,
containsAllInOrder(<Matcher>[
contains('No implementation for macOS.'),
contains('Successfully ran iOS xctest for plugin/example')
]));
expect(
processRunner.recordedCalls,
orderedEquals(<ProcessCall>[
getTargetCheckCall(pluginExampleDirectory, 'ios'),
getRunTestCall(pluginExampleDirectory, 'ios',
destination: 'foo_destination'),
]));
});
test('skips when nothing is supported', () async {
createFakePlugin('plugin', packagesDir);
final List<String> output = await runCapturingPrint(runner, <String>[
'native-test',
'--android',
'--ios',
'--macos',
'--windows',
kDestination,
'foo_destination',
]);
expect(
output,
containsAllInOrder(<Matcher>[
contains('No implementation for Android.'),
contains('No implementation for iOS.'),
contains('No implementation for macOS.'),
contains('SKIPPING: Nothing to test for target platform(s).'),
]));
expect(processRunner.recordedCalls, orderedEquals(<ProcessCall>[]));
});
test('skips Dart-only plugins', () async {
createFakePlugin(
'plugin',
packagesDir,
platformSupport: <String, PlatformDetails>{
platformMacOS: const PlatformDetails(PlatformSupport.inline,
hasDartCode: true, hasNativeCode: false),
platformWindows: const PlatformDetails(PlatformSupport.inline,
hasDartCode: true, hasNativeCode: false),
},
);
final List<String> output = await runCapturingPrint(runner, <String>[
'native-test',
'--macos',
'--windows',
kDestination,
'foo_destination',
]);
expect(
output,
containsAllInOrder(<Matcher>[
contains('No native code for macOS.'),
contains('No native code for Windows.'),
contains('SKIPPING: Nothing to test for target platform(s).'),
]));
expect(processRunner.recordedCalls, orderedEquals(<ProcessCall>[]));
});
test('failing one platform does not stop the tests', () async {
final RepositoryPackage plugin = createFakePlugin(
'plugin',
packagesDir,
platformSupport: <String, PlatformDetails>{
platformAndroid: const PlatformDetails(PlatformSupport.inline),
platformIOS: const PlatformDetails(PlatformSupport.inline),
},
extraFiles: <String>[
'example/android/gradlew',
'example/android/app/src/test/example_test.java',
],
);
processRunner.mockProcessesForExecutable['xcrun'] = <FakeProcessInfo>[
getMockXcodebuildListProcess(
<String>['RunnerTests', 'RunnerUITests']),
];
// Simulate failing Android, but not iOS.
final String gradlewPath = plugin
.getExamples()
.first
.platformDirectory(FlutterPlatform.android)
.childFile('gradlew')
.path;
processRunner.mockProcessesForExecutable[gradlewPath] =
<FakeProcessInfo>[FakeProcessInfo(MockProcess(exitCode: 1))];
Error? commandError;
final List<String> output = await runCapturingPrint(runner, <String>[
'native-test',
'--android',
'--ios',
'--ios-destination',
'foo_destination',
], errorHandler: (Error e) {
commandError = e;
});
expect(commandError, isA<ToolExit>());
expect(
output,
containsAllInOrder(<Matcher>[
contains('Running tests for Android...'),
contains('plugin/example unit tests failed.'),
contains('Running tests for iOS...'),
contains('Successfully ran iOS xctest for plugin/example'),
contains('The following packages had errors:'),
contains('plugin:\n'
' Android')
]),
);
});
test('failing multiple platforms reports multiple failures', () async {
final RepositoryPackage plugin = createFakePlugin(
'plugin',
packagesDir,
platformSupport: <String, PlatformDetails>{
platformAndroid: const PlatformDetails(PlatformSupport.inline),
platformIOS: const PlatformDetails(PlatformSupport.inline),
},
extraFiles: <String>[
'example/android/gradlew',
'example/android/app/src/test/example_test.java',
],
);
// Simulate failing Android.
final String gradlewPath = plugin
.getExamples()
.first
.platformDirectory(FlutterPlatform.android)
.childFile('gradlew')
.path;
processRunner.mockProcessesForExecutable[gradlewPath] =
<FakeProcessInfo>[FakeProcessInfo(MockProcess(exitCode: 1))];
// Simulate failing iOS.
processRunner.mockProcessesForExecutable['xcrun'] = <FakeProcessInfo>[
FakeProcessInfo(MockProcess(exitCode: 1))
];
Error? commandError;
final List<String> output = await runCapturingPrint(runner, <String>[
'native-test',
'--android',
'--ios',
'--ios-destination',
'foo_destination',
], errorHandler: (Error e) {
commandError = e;
});
expect(commandError, isA<ToolExit>());
expect(
output,
containsAllInOrder(<Matcher>[
contains('Running tests for Android...'),
contains('Running tests for iOS...'),
contains('The following packages had errors:'),
contains('plugin:\n'
' Android\n'
' iOS')
]),
);
});
});
});
group('test native_test_command on Windows', () {
late FileSystem fileSystem;
late MockPlatform mockPlatform;
late Directory packagesDir;
late CommandRunner<void> runner;
late RecordingProcessRunner processRunner;
setUp(() {
fileSystem = MemoryFileSystem(style: FileSystemStyle.windows);
mockPlatform = MockPlatform(isWindows: true);
packagesDir = createPackagesDirectory(fileSystem: fileSystem);
processRunner = RecordingProcessRunner();
});
// Returns the ProcessCall to expect for build the Windows unit tests for
// the given plugin.
ProcessCall getWindowsBuildCall(RepositoryPackage plugin, String? arch) {
Directory projectDir = getExampleDir(plugin)
.childDirectory('build')
.childDirectory('windows');
if (arch != null) {
projectDir = projectDir.childDirectory(arch);
}
return ProcessCall(
_fakeCmakeCommand,
<String>[
'--build',
projectDir.path,
'--target',
'unit_tests',
'--config',
'Debug'
],
null);
}
group('Windows x64', () {
setUp(() {
final NativeTestCommand command = NativeTestCommand(packagesDir,
processRunner: processRunner,
platform: mockPlatform,
abi: Abi.windowsX64);
runner = CommandRunner<void>(
'native_test_command', 'Test for native_test_command');
runner.addCommand(command);
});
test('runs unit tests', () async {
const String x64TestBinaryRelativePath =
'build/windows/x64/Debug/bar/plugin_test.exe';
const String arm64TestBinaryRelativePath =
'build/windows/arm64/Debug/bar/plugin_test.exe';
final RepositoryPackage plugin =
createFakePlugin('plugin', packagesDir, extraFiles: <String>[
'example/$x64TestBinaryRelativePath',
'example/$arm64TestBinaryRelativePath',
], platformSupport: <String, PlatformDetails>{
platformWindows: const PlatformDetails(PlatformSupport.inline),
});
_createFakeCMakeCache(plugin, mockPlatform, _archDirX64);
final File testBinary = childFileWithSubcomponents(plugin.directory,
<String>['example', ...x64TestBinaryRelativePath.split('/')]);
final List<String> output = await runCapturingPrint(runner, <String>[
'native-test',
'--windows',
'--no-integration',
]);
expect(
output,
containsAllInOrder(<Matcher>[
contains('Running plugin_test.exe...'),
contains('No issues found!'),
]),
);
expect(
processRunner.recordedCalls,
orderedEquals(<ProcessCall>[
getWindowsBuildCall(plugin, _archDirX64),
ProcessCall(testBinary.path, const <String>[], null),
]));
});
test('runs unit tests with legacy build output', () async {
const String testBinaryRelativePath =
'build/windows/Debug/bar/plugin_test.exe';
final RepositoryPackage plugin =
createFakePlugin('plugin', packagesDir, extraFiles: <String>[
'example/$testBinaryRelativePath'
], platformSupport: <String, PlatformDetails>{
platformWindows: const PlatformDetails(PlatformSupport.inline),
});
_createFakeCMakeCache(plugin, mockPlatform, null);
final File testBinary = childFileWithSubcomponents(plugin.directory,
<String>['example', ...testBinaryRelativePath.split('/')]);
final List<String> output = await runCapturingPrint(runner, <String>[
'native-test',
'--windows',
'--no-integration',
]);
expect(
output,
containsAllInOrder(<Matcher>[
contains('Running plugin_test.exe...'),
contains('No issues found!'),
]),
);
expect(
processRunner.recordedCalls,
orderedEquals(<ProcessCall>[
getWindowsBuildCall(plugin, null),
ProcessCall(testBinary.path, const <String>[], null),
]));
});
test('only runs debug unit tests', () async {
const String debugTestBinaryRelativePath =
'build/windows/x64/Debug/bar/plugin_test.exe';
const String releaseTestBinaryRelativePath =
'build/windows/x64/Release/bar/plugin_test.exe';
final RepositoryPackage plugin =
createFakePlugin('plugin', packagesDir, extraFiles: <String>[
'example/$debugTestBinaryRelativePath',
'example/$releaseTestBinaryRelativePath'
], platformSupport: <String, PlatformDetails>{
platformWindows: const PlatformDetails(PlatformSupport.inline),
});
_createFakeCMakeCache(plugin, mockPlatform, _archDirX64);
final File debugTestBinary = childFileWithSubcomponents(
plugin.directory,
<String>['example', ...debugTestBinaryRelativePath.split('/')]);
final List<String> output = await runCapturingPrint(runner, <String>[
'native-test',
'--windows',
'--no-integration',
]);
expect(
output,
containsAllInOrder(<Matcher>[
contains('Running plugin_test.exe...'),
contains('No issues found!'),
]),
);
expect(
processRunner.recordedCalls,
orderedEquals(<ProcessCall>[
getWindowsBuildCall(plugin, _archDirX64),
ProcessCall(debugTestBinary.path, const <String>[], null),
]));
});
test('only runs debug unit tests with legacy build output', () async {
const String debugTestBinaryRelativePath =
'build/windows/Debug/bar/plugin_test.exe';
const String releaseTestBinaryRelativePath =
'build/windows/Release/bar/plugin_test.exe';
final RepositoryPackage plugin =
createFakePlugin('plugin', packagesDir, extraFiles: <String>[
'example/$debugTestBinaryRelativePath',
'example/$releaseTestBinaryRelativePath'
], platformSupport: <String, PlatformDetails>{
platformWindows: const PlatformDetails(PlatformSupport.inline),
});
_createFakeCMakeCache(plugin, mockPlatform, null);
final File debugTestBinary = childFileWithSubcomponents(
plugin.directory,
<String>['example', ...debugTestBinaryRelativePath.split('/')]);
final List<String> output = await runCapturingPrint(runner, <String>[
'native-test',
'--windows',
'--no-integration',
]);
expect(
output,
containsAllInOrder(<Matcher>[
contains('Running plugin_test.exe...'),
contains('No issues found!'),
]),
);
expect(
processRunner.recordedCalls,
orderedEquals(<ProcessCall>[
getWindowsBuildCall(plugin, null),
ProcessCall(debugTestBinary.path, const <String>[], null),
]));
});
test('fails if CMake has not been configured', () async {
createFakePlugin('plugin', packagesDir,
platformSupport: <String, PlatformDetails>{
platformWindows: const PlatformDetails(PlatformSupport.inline),
});
Error? commandError;
final List<String> output = await runCapturingPrint(runner, <String>[
'native-test',
'--windows',
'--no-integration',
], errorHandler: (Error e) {
commandError = e;
});
expect(commandError, isA<ToolExit>());
expect(
output,
containsAllInOrder(<Matcher>[
contains('plugin:\n'
' Examples must be built before testing.')
]),
);
expect(processRunner.recordedCalls, orderedEquals(<ProcessCall>[]));
});
test('fails if there are no unit tests', () async {
final RepositoryPackage plugin = createFakePlugin('plugin', packagesDir,
platformSupport: <String, PlatformDetails>{
platformWindows: const PlatformDetails(PlatformSupport.inline),
});
_createFakeCMakeCache(plugin, mockPlatform, _archDirX64);
Error? commandError;
final List<String> output = await runCapturingPrint(runner, <String>[
'native-test',
'--windows',
'--no-integration',
], errorHandler: (Error e) {
commandError = e;
});
expect(commandError, isA<ToolExit>());
expect(
output,
containsAllInOrder(<Matcher>[
contains('No test binaries found.'),
]),
);
expect(
processRunner.recordedCalls,
orderedEquals(<ProcessCall>[
getWindowsBuildCall(plugin, _archDirX64),
]));
});
test('fails if a unit test fails', () async {
const String testBinaryRelativePath =
'build/windows/x64/Debug/bar/plugin_test.exe';
final RepositoryPackage plugin =
createFakePlugin('plugin', packagesDir, extraFiles: <String>[
'example/$testBinaryRelativePath'
], platformSupport: <String, PlatformDetails>{
platformWindows: const PlatformDetails(PlatformSupport.inline),
});
_createFakeCMakeCache(plugin, mockPlatform, _archDirX64);
final File testBinary = childFileWithSubcomponents(plugin.directory,
<String>['example', ...testBinaryRelativePath.split('/')]);
processRunner.mockProcessesForExecutable[testBinary.path] =
<FakeProcessInfo>[
FakeProcessInfo(MockProcess(exitCode: 1)),
];
Error? commandError;
final List<String> output = await runCapturingPrint(runner, <String>[
'native-test',
'--windows',
'--no-integration',
], errorHandler: (Error e) {
commandError = e;
});
expect(commandError, isA<ToolExit>());
expect(
output,
containsAllInOrder(<Matcher>[
contains('Running plugin_test.exe...'),
]),
);
expect(
processRunner.recordedCalls,
orderedEquals(<ProcessCall>[
getWindowsBuildCall(plugin, _archDirX64),
ProcessCall(testBinary.path, const <String>[], null),
]));
});
});
group('Windows arm64', () {
setUp(() {
final NativeTestCommand command = NativeTestCommand(packagesDir,
processRunner: processRunner,
platform: mockPlatform,
abi: Abi.windowsArm64);
runner = CommandRunner<void>(
'native_test_command', 'Test for native_test_command');
runner.addCommand(command);
});
test('runs unit tests', () async {
const String x64TestBinaryRelativePath =
'build/windows/x64/Debug/bar/plugin_test.exe';
const String arm64TestBinaryRelativePath =
'build/windows/arm64/Debug/bar/plugin_test.exe';
final RepositoryPackage plugin =
createFakePlugin('plugin', packagesDir, extraFiles: <String>[
'example/$x64TestBinaryRelativePath',
'example/$arm64TestBinaryRelativePath',
], platformSupport: <String, PlatformDetails>{
platformWindows: const PlatformDetails(PlatformSupport.inline),
});
_createFakeCMakeCache(plugin, mockPlatform, _archDirArm64);
final File testBinary = childFileWithSubcomponents(plugin.directory,
<String>['example', ...arm64TestBinaryRelativePath.split('/')]);
final List<String> output = await runCapturingPrint(runner, <String>[
'native-test',
'--windows',
'--no-integration',
]);
expect(
output,
containsAllInOrder(<Matcher>[
contains('Running plugin_test.exe...'),
contains('No issues found!'),
]),
);
expect(
processRunner.recordedCalls,
orderedEquals(<ProcessCall>[
getWindowsBuildCall(plugin, _archDirArm64),
ProcessCall(testBinary.path, const <String>[], null),
]));
});
test('falls back to x64 unit tests if arm64 is not built', () async {
const String x64TestBinaryRelativePath =
'build/windows/x64/Debug/bar/plugin_test.exe';
final RepositoryPackage plugin =
createFakePlugin('plugin', packagesDir, extraFiles: <String>[
'example/$x64TestBinaryRelativePath',
], platformSupport: <String, PlatformDetails>{
platformWindows: const PlatformDetails(PlatformSupport.inline),
});
_createFakeCMakeCache(plugin, mockPlatform, _archDirX64);
final File testBinary = childFileWithSubcomponents(plugin.directory,
<String>['example', ...x64TestBinaryRelativePath.split('/')]);
final List<String> output = await runCapturingPrint(runner, <String>[
'native-test',
'--windows',
'--no-integration',
]);
expect(
output,
containsAllInOrder(<Matcher>[
contains('Running plugin_test.exe...'),
contains('No issues found!'),
]),
);
expect(
processRunner.recordedCalls,
orderedEquals(<ProcessCall>[
getWindowsBuildCall(plugin, _archDirX64),
ProcessCall(testBinary.path, const <String>[], null),
]));
});
test('only runs debug unit tests', () async {
const String debugTestBinaryRelativePath =
'build/windows/arm64/Debug/bar/plugin_test.exe';
const String releaseTestBinaryRelativePath =
'build/windows/arm64/Release/bar/plugin_test.exe';
final RepositoryPackage plugin =
createFakePlugin('plugin', packagesDir, extraFiles: <String>[
'example/$debugTestBinaryRelativePath',
'example/$releaseTestBinaryRelativePath'
], platformSupport: <String, PlatformDetails>{
platformWindows: const PlatformDetails(PlatformSupport.inline),
});
_createFakeCMakeCache(plugin, mockPlatform, _archDirArm64);
final File debugTestBinary = childFileWithSubcomponents(
plugin.directory,
<String>['example', ...debugTestBinaryRelativePath.split('/')]);
final List<String> output = await runCapturingPrint(runner, <String>[
'native-test',
'--windows',
'--no-integration',
]);
expect(
output,
containsAllInOrder(<Matcher>[
contains('Running plugin_test.exe...'),
contains('No issues found!'),
]),
);
expect(
processRunner.recordedCalls,
orderedEquals(<ProcessCall>[
getWindowsBuildCall(plugin, _archDirArm64),
ProcessCall(debugTestBinary.path, const <String>[], null),
]));
});
});
});
}