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[flutter_plugin_tools] Build gtest unit tests (#4492)

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stuartmorgan
2021-11-14 21:26:05 -05:00
committed by GitHub
parent d7f8fc267f
commit f4546c0791
5 changed files with 324 additions and 40 deletions
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2
script/tool/CHANGELOG.md
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@ -1,5 +1,7 @@
## NEXT
- `native-test` now builds unit tests before running them on Windows and Linux,
matching the behavior of other platforms.
- Added `--log-timing` to add timing information to package headers in looping
commands.

118
script/tool/lib/src/common/cmake.dart Normal file
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@ -0,0 +1,118 @@
// 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 'package:file/file.dart';
import 'package:flutter_plugin_tools/src/common/core.dart';
import 'package:platform/platform.dart';
import 'process_runner.dart';
const String _cacheCommandKey = 'CMAKE_COMMAND:INTERNAL';
/// A utility class for interacting with CMake projects.
class CMakeProject {
/// Creates an instance that runs commands for [project] with the given
/// [processRunner].
CMakeProject(
this.flutterProject, {
required this.buildMode,
this.processRunner = const ProcessRunner(),
this.platform = const LocalPlatform(),
});
/// The directory of a Flutter project to run Gradle commands in.
final Directory flutterProject;
/// The [ProcessRunner] used to run commands. Overridable for testing.
final ProcessRunner processRunner;
/// The platform that commands are being run on.
final Platform platform;
/// The build mode (e.g., Debug, Release).
///
/// This is a constructor paramater because on Linux many properties depend
/// on the build mode since it uses a single-configuration generator.
final String buildMode;
late final String _cmakeCommand = _determineCmakeCommand();
/// The project's platform directory name.
String get _platformDirName => platform.isWindows ? 'windows' : 'linux';
/// The project's 'example' build directory for this instance's platform.
Directory get buildDirectory {
Directory buildDir =
flutterProject.childDirectory('build').childDirectory(_platformDirName);
if (platform.isLinux) {
buildDir = buildDir
// TODO(stuartmorgan): Support arm64 if that ever becomes a supported
// CI configuration for the repository.
.childDirectory('x64')
// Linux uses a single-config generator, so the base build directory
// includes the configuration.
.childDirectory(buildMode.toLowerCase());
}
return buildDir;
}
File get _cacheFile => buildDirectory.childFile('CMakeCache.txt');
/// Returns the CMake command to run build commands for this project.
///
/// Assumes the project has been built at least once, such that the CMake
/// generation step has run.
String getCmakeCommand() {
return _cmakeCommand;
}
/// Returns the CMake command to run build commands for this project. This is
/// used to initialize _cmakeCommand, and should not be called directly.
///
/// Assumes the project has been built at least once, such that the CMake
/// generation step has run.
String _determineCmakeCommand() {
// On Linux 'cmake' is expected to be in the path, so doesn't need to
// be lookup up and cached.
if (platform.isLinux) {
return 'cmake';
}
final File cacheFile = _cacheFile;
String? command;
for (String line in cacheFile.readAsLinesSync()) {
line = line.trim();
if (line.startsWith(_cacheCommandKey)) {
command = line.substring(line.indexOf('=') + 1).trim();
break;
}
}
if (command == null) {
printError('Unable to find CMake command in ${cacheFile.path}');
throw ToolExit(100);
}
return command;
}
/// Whether or not the project is ready to have CMake commands run on it
/// (i.e., whether the `flutter` tool has generated the necessary files).
bool isConfigured() => _cacheFile.existsSync();
/// Runs a `cmake` command with the given parameters.
Future<int> runBuild(
String target, {
List<String> arguments = const <String>[],
}) {
return processRunner.runAndStream(
getCmakeCommand(),
<String>[
'--build',
buildDirectory.path,
'--target',
target,
if (platform.isWindows) ...<String>['--config', buildMode],
...arguments,
],
);
}
}

3
script/tool/lib/src/common/gradle.dart
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@ -14,9 +14,6 @@ const String _gradleWrapperNonWindows = 'gradlew';
class GradleProject {
/// Creates an instance that runs commands for [project] with the given
/// [processRunner].
///
/// If [log] is true, commands run by this instance will long various status
/// messages.
GradleProject(
this.flutterProject, {
this.processRunner = const ProcessRunner(),

69
script/tool/lib/src/native_test_command.dart
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@ -5,6 +5,7 @@
import 'package:file/file.dart';
import 'package:platform/platform.dart';
import 'common/cmake.dart';
import 'common/core.dart';
import 'common/gradle.dart';
import 'common/package_looping_command.dart';
@ -456,8 +457,8 @@ this command.
file.basename.endsWith('_tests.exe');
}
return _runGoogleTestTests(plugin,
buildDirectoryName: 'windows', isTestBinary: isTestBinary);
return _runGoogleTestTests(plugin, 'Windows', 'Debug',
isTestBinary: isTestBinary);
}
Future<_PlatformResult> _testLinux(
@ -471,8 +472,16 @@ this command.
file.basename.endsWith('_tests');
}
return _runGoogleTestTests(plugin,
buildDirectoryName: 'linux', isTestBinary: isTestBinary);
// Since Linux uses a single-config generator, building-examples only
// generates the build files for release, so the tests have to be run in
// release mode as well.
//
// TODO(stuartmorgan): Consider adding a command to `flutter` that would
// generate build files without doing a build, and using that instead of
// relying on running build-examples. See
// https://github.com/flutter/flutter/issues/93407.
return _runGoogleTestTests(plugin, 'Linux', 'Release',
isTestBinary: isTestBinary);
}
/// Finds every file in the [buildDirectoryName] subdirectory of [plugin]'s
@ -482,38 +491,66 @@ this command.
/// The binaries are assumed to be Google Test test binaries, thus returning
/// zero for success and non-zero for failure.
Future<_PlatformResult> _runGoogleTestTests(
RepositoryPackage plugin, {
required String buildDirectoryName,
RepositoryPackage plugin,
String platformName,
String buildMode, {
required bool Function(File) isTestBinary,
}) async {
final List<File> testBinaries = <File>[];
bool hasMissingBuild = false;
bool buildFailed = false;
for (final RepositoryPackage example in plugin.getExamples()) {
final Directory buildDir = example.directory
.childDirectory('build')
.childDirectory(buildDirectoryName);
if (!buildDir.existsSync()) {
final CMakeProject project = CMakeProject(example.directory,
buildMode: buildMode,
processRunner: processRunner,
platform: platform);
if (!project.isConfigured()) {
printError('ERROR: Run "flutter build" on ${example.displayName}, '
'or run this tool\'s "build-examples" command, for the target '
'platform before executing tests.');
hasMissingBuild = true;
continue;
}
testBinaries.addAll(buildDir
// By repository convention, example projects create an aggregate target
// called 'unit_tests' that builds all unit tests (usually just an alias
// for a specific test target).
final int exitCode = await project.runBuild('unit_tests');
if (exitCode != 0) {
printError('${example.displayName} unit tests failed to build.');
buildFailed = true;
}
testBinaries.addAll(project.buildDirectory
.listSync(recursive: true)
.whereType<File>()
.where(isTestBinary)
.where((File file) {
// Only run the release build of the unit tests, to avoid running the
// same tests multiple times. Release is used rather than debug since
// `build-examples` builds release versions.
// Only run the `buildMode` build of the unit tests, to avoid running
// the same tests multiple times.
final List<String> components = path.split(file.path);
return components.contains('release') || components.contains('Release');
return components.contains(buildMode) ||
components.contains(buildMode.toLowerCase());
}));
}
if (hasMissingBuild) {
return _PlatformResult(RunState.failed,
error: 'Examples must be built before testing.');
}
if (buildFailed) {
return _PlatformResult(RunState.failed,
error: 'Failed to build $platformName unit tests.');
}
if (testBinaries.isEmpty) {
final String binaryExtension = platform.isWindows ? '.exe' : '';
printError(
'No test binaries found. At least one *_test(s)$binaryExtension '
'binary should be built by the example(s)');
return _PlatformResult(RunState.failed,
error: 'No $buildDirectoryName unit tests found');
error: 'No $platformName unit tests found');
}
bool passing = true;

172
script/tool/test/native_test_command_test.dart
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@ -8,10 +8,12 @@ import 'dart:io' as io;
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:platform/platform.dart';
import 'package:test/test.dart';
import 'mocks.dart';
@ -53,6 +55,16 @@ final Map<String, dynamic> _kDeviceListMap = <String, dynamic>{
}
};
const String _fakeCmakeCommand = 'path/to/cmake';
void _createFakeCMakeCache(Directory pluginDir, Platform platform) {
final CMakeProject project = CMakeProject(pluginDir.childDirectory('example'),
platform: platform, buildMode: 'Release');
final File cache = project.buildDirectory.childFile('CMakeCache.txt');
cache.createSync(recursive: true);
cache.writeAsStringSync('CMAKE_COMMAND:INTERNAL=$_fakeCmakeCommand');
}
// TODO(stuartmorgan): Rework these tests to use a mock Xcode instead of
// doing all the process mocking and validation.
void main() {
@ -67,7 +79,10 @@ void main() {
setUp(() {
fileSystem = MemoryFileSystem();
mockPlatform = MockPlatform(isMacOS: true);
// iOS and macOS tests expect macOS, Linux tests expect Linux; nothing
// needs to distinguish between Linux and macOS, so set both to true to
// allow them to share a setup group.
mockPlatform = MockPlatform(isMacOS: true, isLinux: true);
packagesDir = createPackagesDirectory(fileSystem: fileSystem);
processRunner = RecordingProcessRunner();
final NativeTestCommand command = NativeTestCommand(packagesDir,
@ -133,6 +148,26 @@ void main() {
package.path);
}
// Returns the ProcessCall to expect for build the Linux unit tests for the
// given plugin.
ProcessCall _getLinuxBuildCall(Directory pluginDir) {
return ProcessCall(
'cmake',
<String>[
'--build',
pluginDir
.childDirectory('example')
.childDirectory('build')
.childDirectory('linux')
.childDirectory('x64')
.childDirectory('release')
.path,
'--target',
'unit_tests'
],
null);
}
test('fails if no platforms are provided', () async {
Error? commandError;
final List<String> output = await runCapturingPrint(
@ -844,15 +879,16 @@ void main() {
});
group('Linux', () {
test('runs unit tests', () async {
test('builds and runs unit tests', () async {
const String testBinaryRelativePath =
'build/linux/foo/release/bar/plugin_test';
'build/linux/x64/release/bar/plugin_test';
final Directory pluginDirectory =
createFakePlugin('plugin', packagesDir, extraFiles: <String>[
'example/$testBinaryRelativePath'
], platformSupport: <String, PlatformDetails>{
kPlatformLinux: const PlatformDetails(PlatformSupport.inline),
});
_createFakeCMakeCache(pluginDirectory, mockPlatform);
final File testBinary = childFileWithSubcomponents(pluginDirectory,
<String>['example', ...testBinaryRelativePath.split('/')]);
@ -874,15 +910,16 @@ void main() {
expect(
processRunner.recordedCalls,
orderedEquals(<ProcessCall>[
_getLinuxBuildCall(pluginDirectory),
ProcessCall(testBinary.path, const <String>[], null),
]));
});
test('only runs release unit tests', () async {
const String debugTestBinaryRelativePath =
'build/linux/foo/debug/bar/plugin_test';
'build/linux/x64/debug/bar/plugin_test';
const String releaseTestBinaryRelativePath =
'build/linux/foo/release/bar/plugin_test';
'build/linux/x64/release/bar/plugin_test';
final Directory pluginDirectory =
createFakePlugin('plugin', packagesDir, extraFiles: <String>[
'example/$debugTestBinaryRelativePath',
@ -890,6 +927,7 @@ void main() {
], platformSupport: <String, PlatformDetails>{
kPlatformLinux: const PlatformDetails(PlatformSupport.inline),
});
_createFakeCMakeCache(pluginDirectory, mockPlatform);
final File releaseTestBinary = childFileWithSubcomponents(
pluginDirectory,
@ -909,15 +947,15 @@ void main() {
]),
);
// Only the release version should be run.
expect(
processRunner.recordedCalls,
orderedEquals(<ProcessCall>[
_getLinuxBuildCall(pluginDirectory),
ProcessCall(releaseTestBinary.path, const <String>[], null),
]));
});
test('fails if there are no unit tests', () async {
test('fails if CMake has not been configured', () async {
createFakePlugin('plugin', packagesDir,
platformSupport: <String, PlatformDetails>{
kPlatformLinux: const PlatformDetails(PlatformSupport.inline),
@ -936,22 +974,56 @@ void main() {
expect(
output,
containsAllInOrder(<Matcher>[
contains('No test binaries found.'),
contains('plugin:\n'
' Examples must be built before testing.')
]),
);
expect(processRunner.recordedCalls, orderedEquals(<ProcessCall>[]));
});
test('fails if there are no unit tests', () async {
final Directory pluginDirectory = createFakePlugin(
'plugin', packagesDir,
platformSupport: <String, PlatformDetails>{
kPlatformLinux: const PlatformDetails(PlatformSupport.inline),
});
_createFakeCMakeCache(pluginDirectory, mockPlatform);
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(pluginDirectory),
]));
});
test('fails if a unit test fails', () async {
const String testBinaryRelativePath =
'build/linux/foo/release/bar/plugin_test';
'build/linux/x64/release/bar/plugin_test';
final Directory pluginDirectory =
createFakePlugin('plugin', packagesDir, extraFiles: <String>[
'example/$testBinaryRelativePath'
], platformSupport: <String, PlatformDetails>{
kPlatformLinux: const PlatformDetails(PlatformSupport.inline),
});
_createFakeCMakeCache(pluginDirectory, mockPlatform);
final File testBinary = childFileWithSubcomponents(pluginDirectory,
<String>['example', ...testBinaryRelativePath.split('/')]);
@ -979,6 +1051,7 @@ void main() {
expect(
processRunner.recordedCalls,
orderedEquals(<ProcessCall>[
_getLinuxBuildCall(pluginDirectory),
ProcessCall(testBinary.path, const <String>[], null),
]));
});
@ -1524,16 +1597,37 @@ void main() {
runner.addCommand(command);
});
// Returns the ProcessCall to expect for build the Windows unit tests for
// the given plugin.
ProcessCall _getWindowsBuildCall(Directory pluginDir) {
return ProcessCall(
_fakeCmakeCommand,
<String>[
'--build',
pluginDir
.childDirectory('example')
.childDirectory('build')
.childDirectory('windows')
.path,
'--target',
'unit_tests',
'--config',
'Debug'
],
null);
}
group('Windows', () {
test('runs unit tests', () async {
const String testBinaryRelativePath =
'build/windows/foo/Release/bar/plugin_test.exe';
'build/windows/Debug/bar/plugin_test.exe';
final Directory pluginDirectory =
createFakePlugin('plugin', packagesDir, extraFiles: <String>[
'example/$testBinaryRelativePath'
], platformSupport: <String, PlatformDetails>{
kPlatformWindows: const PlatformDetails(PlatformSupport.inline),
});
_createFakeCMakeCache(pluginDirectory, mockPlatform);
final File testBinary = childFileWithSubcomponents(pluginDirectory,
<String>['example', ...testBinaryRelativePath.split('/')]);
@ -1555,15 +1649,16 @@ void main() {
expect(
processRunner.recordedCalls,
orderedEquals(<ProcessCall>[
_getWindowsBuildCall(pluginDirectory),
ProcessCall(testBinary.path, const <String>[], null),
]));
});
test('only runs release unit tests', () async {
test('only runs debug unit tests', () async {
const String debugTestBinaryRelativePath =
'build/windows/foo/Debug/bar/plugin_test.exe';
'build/windows/Debug/bar/plugin_test.exe';
const String releaseTestBinaryRelativePath =
'build/windows/foo/Release/bar/plugin_test.exe';
'build/windows/Release/bar/plugin_test.exe';
final Directory pluginDirectory =
createFakePlugin('plugin', packagesDir, extraFiles: <String>[
'example/$debugTestBinaryRelativePath',
@ -1571,10 +1666,10 @@ void main() {
], platformSupport: <String, PlatformDetails>{
kPlatformWindows: const PlatformDetails(PlatformSupport.inline),
});
_createFakeCMakeCache(pluginDirectory, mockPlatform);
final File releaseTestBinary = childFileWithSubcomponents(
pluginDirectory,
<String>['example', ...releaseTestBinaryRelativePath.split('/')]);
final File debugTestBinary = childFileWithSubcomponents(pluginDirectory,
<String>['example', ...debugTestBinaryRelativePath.split('/')]);
final List<String> output = await runCapturingPrint(runner, <String>[
'native-test',
@ -1590,15 +1685,15 @@ void main() {
]),
);
// Only the release version should be run.
expect(
processRunner.recordedCalls,
orderedEquals(<ProcessCall>[
ProcessCall(releaseTestBinary.path, const <String>[], null),
_getWindowsBuildCall(pluginDirectory),
ProcessCall(debugTestBinary.path, const <String>[], null),
]));
});
test('fails if there are no unit tests', () async {
test('fails if CMake has not been configured', () async {
createFakePlugin('plugin', packagesDir,
platformSupport: <String, PlatformDetails>{
kPlatformWindows: const PlatformDetails(PlatformSupport.inline),
@ -1617,22 +1712,56 @@ void main() {
expect(
output,
containsAllInOrder(<Matcher>[
contains('No test binaries found.'),
contains('plugin:\n'
' Examples must be built before testing.')
]),
);
expect(processRunner.recordedCalls, orderedEquals(<ProcessCall>[]));
});
test('fails if there are no unit tests', () async {
final Directory pluginDirectory = createFakePlugin(
'plugin', packagesDir,
platformSupport: <String, PlatformDetails>{
kPlatformWindows: const PlatformDetails(PlatformSupport.inline),
});
_createFakeCMakeCache(pluginDirectory, mockPlatform);
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(pluginDirectory),
]));
});
test('fails if a unit test fails', () async {
const String testBinaryRelativePath =
'build/windows/foo/Release/bar/plugin_test.exe';
'build/windows/Debug/bar/plugin_test.exe';
final Directory pluginDirectory =
createFakePlugin('plugin', packagesDir, extraFiles: <String>[
'example/$testBinaryRelativePath'
], platformSupport: <String, PlatformDetails>{
kPlatformWindows: const PlatformDetails(PlatformSupport.inline),
});
_createFakeCMakeCache(pluginDirectory, mockPlatform);
final File testBinary = childFileWithSubcomponents(pluginDirectory,
<String>['example', ...testBinaryRelativePath.split('/')]);
@ -1660,6 +1789,7 @@ void main() {
expect(
processRunner.recordedCalls,
orderedEquals(<ProcessCall>[
_getWindowsBuildCall(pluginDirectory),
ProcessCall(testBinary.path, const <String>[], null),
]));
});