blob: 41f78731587642931e4b97071dbd261d64198cd2 [file] [log] [blame]
import static groovy.io.FileType.FILES
import com.android.builder.model.AndroidProject
import com.android.build.OutputFile
import groovy.json.JsonSlurper
import java.nio.file.Path
import java.nio.file.Paths
import java.util.regex.Matcher
import java.util.regex.Pattern
import org.apache.tools.ant.taskdefs.condition.Os
import org.gradle.api.DefaultTask
import org.gradle.api.GradleException
import org.gradle.api.Project
import org.gradle.api.Plugin
import org.gradle.api.Task
import org.gradle.api.file.CopySpec
import org.gradle.api.file.FileCollection
import org.gradle.api.tasks.Copy
import org.gradle.api.tasks.InputFiles
import org.gradle.api.tasks.OutputDirectory
import org.gradle.api.tasks.TaskAction
import org.gradle.api.tasks.bundling.Jar
import org.gradle.internal.os.OperatingSystem
import org.gradle.util.VersionNumber
buildscript {
repositories {
google()
mavenCentral()
}
dependencies {
classpath 'com.android.tools.build:gradle:4.1.0'
}
}
android {
compileOptions {
sourceCompatibility 1.8
targetCompatibility 1.8
}
}
apply plugin: FlutterPlugin
class FlutterPlugin implements Plugin<Project> {
private static final String DEFAULT_MAVEN_HOST = "https://storage.googleapis.com";
// The platforms that can be passed to the `--Ptarget-platform` flag.
private static final String PLATFORM_ARM32 = "android-arm";
private static final String PLATFORM_ARM64 = "android-arm64";
private static final String PLATFORM_X86 = "android-x86";
private static final String PLATFORM_X86_64 = "android-x64";
// The ABI architectures.
private static final String ARCH_ARM32 = "armeabi-v7a";
private static final String ARCH_ARM64 = "arm64-v8a";
private static final String ARCH_X86 = "x86";
private static final String ARCH_X86_64 = "x86_64";
// Maps platforms to ABI architectures.
private static final Map PLATFORM_ARCH_MAP = [
(PLATFORM_ARM32) : ARCH_ARM32,
(PLATFORM_ARM64) : ARCH_ARM64,
(PLATFORM_X86) : ARCH_X86,
(PLATFORM_X86_64) : ARCH_X86_64,
]
// The version code that gives each ABI a value.
// For each APK variant, use the following versions to override the version of the Universal APK.
// Otherwise, the Play Store will complain that the APK variants have the same version.
private static final Map ABI_VERSION = [
(ARCH_ARM32) : 1,
(ARCH_ARM64) : 2,
(ARCH_X86) : 3,
(ARCH_X86_64) : 4,
]
// When split is enabled, multiple APKs are generated per each ABI.
private static final List DEFAULT_PLATFORMS = [
PLATFORM_ARM32,
PLATFORM_ARM64,
PLATFORM_X86_64,
]
// The name prefix for flutter builds. This is used to identify gradle tasks
// where we expect the flutter tool to provide any error output, and skip the
// standard Gradle error output in the FlutterEventLogger. If you change this,
// be sure to change any instances of this string in symbols in the code below
// to match.
static final String FLUTTER_BUILD_PREFIX = "flutterBuild"
private Project project
private Map baseJar = [:]
private File flutterRoot
private File flutterExecutable
private String localEngine
private String localEngineSrcPath
private Properties localProperties
private String engineVersion
@Override
void apply(Project project) {
this.project = project
def rootProject = project.rootProject
rootProject.tasks.register('generateLockfiles') {
rootProject.subprojects.each { subproject ->
def gradlew = (OperatingSystem.current().isWindows()) ?
"${rootProject.projectDir}/gradlew.bat" : "${rootProject.projectDir}/gradlew"
rootProject.exec {
workingDir rootProject.projectDir
executable gradlew
args ":${subproject.name}:dependencies", "--write-locks"
}
}
}
// Configure the Maven repository.
String hostedRepository = System.env.FLUTTER_STORAGE_BASE_URL ?: DEFAULT_MAVEN_HOST
String repository = useLocalEngine()
? project.property('local-engine-repo')
: "$hostedRepository/download.flutter.io"
rootProject.allprojects {
repositories {
maven {
url repository
}
}
}
project.extensions.create("flutter", FlutterExtension)
this.addFlutterTasks(project)
// By default, assembling APKs generates fat APKs if multiple platforms are passed.
// Configuring split per ABI allows to generate separate APKs for each abi.
// This is a noop when building a bundle.
if (shouldSplitPerAbi()) {
project.android {
splits {
abi {
// Enables building multiple APKs per ABI.
enable true
// Resets the list of ABIs that Gradle should create APKs for to none.
reset()
// Specifies that we do not want to also generate a universal APK that includes all ABIs.
universalApk false
}
}
}
}
if (project.hasProperty('deferred-component-names')) {
String[] componentNames = project.property('deferred-component-names').split(',').collect {":${it}"}
project.android {
dynamicFeatures = componentNames
}
}
getTargetPlatforms().each { targetArch ->
String abiValue = PLATFORM_ARCH_MAP[targetArch]
project.android {
if (shouldSplitPerAbi()) {
splits {
abi {
include abiValue
}
}
}
}
}
String flutterRootPath = resolveProperty("flutter.sdk", System.env.FLUTTER_ROOT)
if (flutterRootPath == null) {
throw new GradleException("Flutter SDK not found. Define location with flutter.sdk in the local.properties file or with a FLUTTER_ROOT environment variable.")
}
flutterRoot = project.file(flutterRootPath)
if (!flutterRoot.isDirectory()) {
throw new GradleException("flutter.sdk must point to the Flutter SDK directory")
}
engineVersion = useLocalEngine()
? "+" // Match any version since there's only one.
: "1.0.0-" + Paths.get(flutterRoot.absolutePath, "bin", "internal", "engine.version").toFile().text.trim()
String flutterExecutableName = Os.isFamily(Os.FAMILY_WINDOWS) ? "flutter.bat" : "flutter"
flutterExecutable = Paths.get(flutterRoot.absolutePath, "bin", flutterExecutableName).toFile();
String flutterProguardRules = Paths.get(flutterRoot.absolutePath, "packages", "flutter_tools",
"gradle", "flutter_proguard_rules.pro")
project.android.buildTypes {
// Add profile build type.
profile {
initWith debug
if (it.hasProperty("matchingFallbacks")) {
matchingFallbacks = ["debug", "release"]
}
}
// TODO(garyq): Shrinking is only false for multi apk split aot builds, where shrinking is not allowed yet.
// This limitation has been removed experimentally in gradle plugin version 4.2, so we can remove
// this check when we upgrade to 4.2+ gradle. Currently, deferred components apps may see
// increased app size due to this.
if (shouldShrinkResources(project)) {
release {
// Enables code shrinking, obfuscation, and optimization for only
// your project's release build type.
minifyEnabled true
// Enables resource shrinking, which is performed by the
// Android Gradle plugin.
// NOTE: The resource shrinker can't be used for libraries.
shrinkResources isBuiltAsApp(project)
// Fallback to `android/app/proguard-rules.pro`.
// This way, custom Proguard rules can be configured as needed.
proguardFiles project.android.getDefaultProguardFile("proguard-android.txt"), flutterProguardRules, "proguard-rules.pro"
}
}
}
if (useLocalEngine()) {
// This is required to pass the local engine to flutter build aot.
String engineOutPath = project.property('local-engine-out')
File engineOut = project.file(engineOutPath)
if (!engineOut.isDirectory()) {
throw new GradleException('local-engine-out must point to a local engine build')
}
localEngine = engineOut.name
localEngineSrcPath = engineOut.parentFile.parent
}
project.android.buildTypes.all this.&addFlutterDependencies
}
private static Boolean shouldShrinkResources(Project project) {
if (project.hasProperty("shrink")) {
return project.property("shrink").toBoolean()
}
return true
}
/**
* Adds the dependencies required by the Flutter project.
* This includes:
* 1. The embedding
* 2. libflutter.so
*/
void addFlutterDependencies(buildType) {
String flutterBuildMode = buildModeFor(buildType)
if (!supportsBuildMode(flutterBuildMode)) {
return
}
// The embedding is set as an API dependency in a Flutter plugin.
// Therefore, don't make the app project depend on the embedding if there are Flutter
// plugins.
// This prevents duplicated classes when using custom build types. That is, a custom build
// type like profile is used, and the plugin and app projects have API dependencies on the
// embedding.
if (!isFlutterAppProject() || getPluginList().size() == 0) {
addApiDependencies(project, buildType.name,
"io.flutter:flutter_embedding_$flutterBuildMode:$engineVersion")
}
List<String> platforms = getTargetPlatforms().collect()
// Debug mode includes x86 and x64, which are commonly used in emulators.
if (flutterBuildMode == "debug" && !useLocalEngine()) {
platforms.add("android-x86")
platforms.add("android-x64")
}
platforms.each { platform ->
String arch = PLATFORM_ARCH_MAP[platform].replace("-", "_")
// Add the `libflutter.so` dependency.
addApiDependencies(project, buildType.name,
"io.flutter:${arch}_$flutterBuildMode:$engineVersion")
}
}
/**
* Returns the directory where the plugins are built.
*/
private File getPluginBuildDir() {
// Module projects specify this flag to include plugins in the same repo as the module project.
if (project.ext.has("pluginBuildDir")) {
return project.ext.get("pluginBuildDir")
}
return project.buildDir
}
/**
* Configures the Flutter plugin dependencies.
*
* The plugins are added to pubspec.yaml. Then, upon running `flutter pub get`,
* the tool generates a `.flutter-plugins` file, which contains a 1:1 map to each plugin location.
* Finally, the project's `settings.gradle` loads each plugin's android directory as a subproject.
*/
private void configurePlugins() {
if (!buildPluginAsAar()) {
getPluginList().each this.&configurePluginProject
getPluginDependencies().each this.&configurePluginDependencies
return
}
project.repositories {
maven {
url "${getPluginBuildDir()}/outputs/repo"
}
}
getPluginList().each { pluginName, pluginPath ->
configurePluginAar(pluginName, pluginPath, project)
}
}
private static final Pattern GROUP_PATTERN = ~/group\s+\'(.+)\'/
private static final Pattern PROJECT_NAME_PATTERN = ~/rootProject\.name\s+=\s+\'(.+)\'/
// Adds the plugin AAR dependency to the app project.
private void configurePluginAar(String pluginName, String pluginPath, Project project) {
// Extract the group id from the plugin's build.gradle.
// This is `group '<group-id>'`
File pluginBuildFile = project.file(Paths.get(pluginPath, "android", "build.gradle"));
if (!pluginBuildFile.exists()) {
throw new GradleException("Plugin $pluginName doesn't have the required file $pluginBuildFile.")
}
Matcher groupParts = GROUP_PATTERN.matcher(pluginBuildFile.text)
assert groupParts.count == 1
assert groupParts.hasGroup()
String groupId = groupParts[0][1]
// Extract the artifact name from the plugin's settings.gradle.
// This is `rootProject.name = '<artifact-name>'`
File pluginSettings = project.file(Paths.get(pluginPath, "android", "settings.gradle"));
if (!pluginSettings.exists()) {
throw new GradleException("Plugin $pluginName doesn't have the required file $pluginSettings.")
}
Matcher projectNameParts = PROJECT_NAME_PATTERN.matcher(pluginSettings.text)
assert projectNameParts.count == 1
assert projectNameParts.hasGroup()
String artifactId = "${projectNameParts[0][1]}_release"
assert !groupId.empty
project.dependencies.add("api", "$groupId:$artifactId:+")
}
// Adds the plugin project dependency to the app project .
private void configurePluginProject(String pluginName, String _) {
Project pluginProject = project.rootProject.findProject(":$pluginName")
if (pluginProject == null) {
project.logger.error("Plugin project :$pluginName not found. Please update settings.gradle.")
return
}
// Add plugin dependency to the app project.
project.dependencies {
api pluginProject
}
Closure addEmbeddingDependencyToPlugin = { buildType ->
String flutterBuildMode = buildModeFor(buildType)
// In AGP 3.5, the embedding must be added as an API implementation,
// so java8 features are desugared against the runtime classpath.
// For more, see https://github.com/flutter/flutter/issues/40126
if (!supportsBuildMode(flutterBuildMode)) {
return
}
if (!pluginProject.hasProperty('android')) {
return
}
// Copy build types from the app to the plugin.
// This allows to build apps with plugins and custom build types or flavors.
pluginProject.android.buildTypes {
"${buildType.name}" {}
}
// The embedding is API dependency of the plugin, so the AGP is able to desugar
// default method implementations when the interface is implemented by a plugin.
//
// See https://issuetracker.google.com/139821726, and
// https://github.com/flutter/flutter/issues/72185 for more details.
addApiDependencies(
pluginProject,
buildType.name,
"io.flutter:flutter_embedding_$flutterBuildMode:$engineVersion"
)
}
// Wait until the Android plugin loaded.
pluginProject.afterEvaluate {
project.android.buildTypes.all addEmbeddingDependencyToPlugin
}
}
// Returns `true` if the given path contains an `android/build.gradle` file.
//
// TODO(egarciad): Fix https://github.com/flutter/flutter/issues/39657.
// Android Studio may create empty android directories due to the logic in <app>/android/settings.gradle,
// which imports all plugins regardless of whether they support the android platform.
private Boolean doesSupportAndroidPlatform(String path) {
File editableAndroidProject = new File(path, 'android' + File.separator + 'build.gradle')
return editableAndroidProject.exists()
}
// Add the dependencies on other plugin projects to the plugin project.
// A plugin A can depend on plugin B. As a result, this dependency must be surfaced by
// making the Gradle plugin project A depend on the Gradle plugin project B.
private void configurePluginDependencies(Object dependencyObject) {
assert dependencyObject.name instanceof String
Project pluginProject = project.rootProject.findProject(":${dependencyObject.name}")
if (pluginProject == null ||
!doesSupportAndroidPlatform(pluginProject.projectDir.parentFile.path)) {
return
}
assert dependencyObject.dependencies instanceof List
dependencyObject.dependencies.each { pluginDependencyName ->
assert pluginDependencyName instanceof String
if (pluginDependencyName.empty) {
return
}
Project dependencyProject = project.rootProject.findProject(":$pluginDependencyName")
if (dependencyProject == null ||
!doesSupportAndroidPlatform(dependencyProject.projectDir.parentFile.path)) {
return
}
// Wait for the Android plugin to load and add the dependency to the plugin project.
pluginProject.afterEvaluate {
pluginProject.dependencies {
implementation dependencyProject
}
}
}
}
private Properties getPluginList() {
File pluginsFile = new File(project.projectDir.parentFile.parentFile, '.flutter-plugins')
Properties allPlugins = readPropertiesIfExist(pluginsFile)
Properties androidPlugins = new Properties()
allPlugins.each { name, path ->
if (doesSupportAndroidPlatform(path)) {
androidPlugins.setProperty(name, path)
}
// TODO(amirh): log an error if this plugin was specified to be an Android
// plugin according to the new schema, and was missing a build.gradle file.
// https://github.com/flutter/flutter/issues/40784
}
return androidPlugins
}
// Gets the plugins dependencies from `.flutter-plugins-dependencies`.
private List getPluginDependencies() {
// Consider a `.flutter-plugins-dependencies` file with the following content:
// {
// "dependencyGraph": [
// {
// "name": "plugin-a",
// "dependencies": ["plugin-b","plugin-c"]
// },
// {
// "name": "plugin-b",
// "dependencies": ["plugin-c"]
// },
// {
// "name": "plugin-c",
// "dependencies": []'
// }
// ]
// }
//
// This means, `plugin-a` depends on `plugin-b` and `plugin-c`.
// `plugin-b` depends on `plugin-c`.
// `plugin-c` doesn't depend on anything.
File pluginsDependencyFile = new File(project.projectDir.parentFile.parentFile, '.flutter-plugins-dependencies')
if (pluginsDependencyFile.exists()) {
def object = new JsonSlurper().parseText(pluginsDependencyFile.text)
assert object instanceof Map
assert object.dependencyGraph instanceof List
return object.dependencyGraph
}
return []
}
private static String toCammelCase(List<String> parts) {
if (parts.empty) {
return ""
}
return "${parts[0]}${parts[1..-1].collect { it.capitalize() }.join('')}"
}
private String resolveProperty(String name, String defaultValue) {
if (localProperties == null) {
localProperties = readPropertiesIfExist(new File(project.projectDir.parentFile, "local.properties"))
}
String result
if (project.hasProperty(name)) {
result = project.property(name)
}
if (result == null) {
result = localProperties.getProperty(name)
}
if (result == null) {
result = defaultValue
}
return result
}
private static Properties readPropertiesIfExist(File propertiesFile) {
Properties result = new Properties()
if (propertiesFile.exists()) {
propertiesFile.withReader('UTF-8') { reader -> result.load(reader) }
}
return result
}
private List<String> getTargetPlatforms() {
if (!project.hasProperty('target-platform')) {
return DEFAULT_PLATFORMS
}
return project.property('target-platform').split(',').collect {
if (!PLATFORM_ARCH_MAP[it]) {
throw new GradleException("Invalid platform: $it.")
}
return it
}
}
private Boolean shouldSplitPerAbi() {
if (project.hasProperty('split-per-abi')) {
return project.property('split-per-abi').toBoolean()
}
return false;
}
private Boolean useLocalEngine() {
return project.hasProperty('local-engine-repo')
}
private Boolean isVerbose() {
if (project.hasProperty('verbose')) {
return project.property('verbose').toBoolean()
}
return false
}
/// Whether to build the debug app in "fast-start" mode.
private Boolean isFastStart() {
if (project.hasProperty("fast-start")) {
return project.property("fast-start").toBoolean()
}
return false
}
private static Boolean isBuiltAsApp(Project project) {
// Projects are built as applications when the they use the `com.android.application`
// plugin.
return project.plugins.hasPlugin("com.android.application");
}
private static Boolean buildPluginAsAar() {
return System.getProperty('build-plugins-as-aars') == 'true'
}
// Returns true if the build mode is supported by the current call to Gradle.
// This only relevant when using a local engine. Because the engine
// is built for a specific mode, the call to Gradle must match that mode.
private Boolean supportsBuildMode(String flutterBuildMode) {
if (!useLocalEngine()) {
return true;
}
assert project.hasProperty('local-engine-build-mode')
// Don't configure dependencies for a build mode that the local engine
// doesn't support.
return project.property('local-engine-build-mode') == flutterBuildMode
}
private void addCompileOnlyDependency(Project project, String variantName, Object dependency, Closure config = null) {
if (project.state.failure) {
return
}
String configuration;
if (project.getConfigurations().findByName("compileOnly")) {
configuration = "${variantName}CompileOnly";
} else {
configuration = "${variantName}Provided";
}
project.dependencies.add(configuration, dependency, config)
}
private static void addApiDependencies(Project project, String variantName, Object dependency, Closure config = null) {
String configuration;
// `compile` dependencies are now `api` dependencies.
if (project.getConfigurations().findByName("api")) {
configuration = "${variantName}Api";
} else {
configuration = "${variantName}Compile";
}
project.dependencies.add(configuration, dependency, config)
}
/**
* Returns a Flutter build mode suitable for the specified Android buildType.
*
* Note: The BuildType DSL type is not public, and is therefore omitted from the signature.
*
* @return "debug", "profile", or "release" (fall-back).
*/
private static String buildModeFor(buildType) {
if (buildType.name == "profile") {
return "profile"
} else if (buildType.debuggable) {
return "debug"
}
return "release"
}
private static String getEngineArtifactDirName(buildType, targetArch) {
if (buildType.name == "profile") {
return "${targetArch}-profile"
} else if (buildType.debuggable) {
return "${targetArch}"
}
return "${targetArch}-release"
}
/**
* Gets the directory that contains the Flutter source code.
* This is the directory containing the `android/` directory.
*/
private File getFlutterSourceDirectory() {
if (project.flutter.source == null) {
throw new GradleException("Must provide Flutter source directory")
}
return project.file(project.flutter.source)
}
/**
* Gets the target file. This is typically `lib/main.dart`.
*/
private String getFlutterTarget() {
String target = project.flutter.target
if (target == null) {
target = 'lib/main.dart'
}
if (project.hasProperty('target')) {
target = project.property('target')
}
return target
}
// In AGP 4.0, the Android linter task depends on the JAR tasks that generate `libapp.so`.
// When building APKs, this causes an issue where building release requires the debug JAR,
// but Gradle won't build debug.
//
// To workaround this issue, only configure the JAR task that is required given the task
// from the command line.
//
// The AGP team said that this issue is fixed in Gradle 7.0, which isn't released at the
// time of adding this code. Once released, this can be removed.
//
// Tested cases:
// * `./gradlew assembleRelease`
// * `./gradlew app:assembleRelease.`
// * `./gradlew assemble{flavorName}Release`
// * `./gradlew app:assemble{flavorName}Release`
// * `./gradlew assemble.`
// * `./gradlew app:assemble.`
// * `./gradlew bundle.`
// * `./gradlew bundleRelease.`
// * `./gradlew app:bundleRelease.`
//
// Related issues:
// https://issuetracker.google.com/issues/158060799
// https://issuetracker.google.com/issues/158753935
private boolean shouldConfigureFlutterTask(Task assembleTask) {
def cliTasksNames = project.gradle.startParameter.taskNames
if (cliTasksNames.size() != 1 || !cliTasksNames.first().contains("assemble")) {
return true
}
def taskName = cliTasksNames.first().split(":").last()
if (taskName == "assemble") {
return true
}
if (taskName == assembleTask.name) {
return true
}
if (taskName.endsWith("Release") && assembleTask.name.endsWith("Release")) {
return true
}
if (taskName.endsWith("Debug") && assembleTask.name.endsWith("Debug")) {
return true
}
if (taskName.endsWith("Profile") && assembleTask.name.endsWith("Profile")) {
return true
}
return false
}
private Task getAssembleTask(variant) {
// `assemble` became `assembleProvider` in AGP 3.3.0.
return variant.hasProperty("assembleProvider") ? variant.assembleProvider.get() : variant.assemble
}
private boolean isFlutterAppProject() {
return project.android.hasProperty("applicationVariants")
}
private void addFlutterTasks(Project project) {
if (project.state.failure) {
return
}
String[] fileSystemRootsValue = null
if (project.hasProperty('filesystem-roots')) {
fileSystemRootsValue = project.property('filesystem-roots').split('\\|')
}
String fileSystemSchemeValue = null
if (project.hasProperty('filesystem-scheme')) {
fileSystemSchemeValue = project.property('filesystem-scheme')
}
Boolean trackWidgetCreationValue = true
if (project.hasProperty('track-widget-creation')) {
trackWidgetCreationValue = project.property('track-widget-creation').toBoolean()
}
String extraFrontEndOptionsValue = null
if (project.hasProperty('extra-front-end-options')) {
extraFrontEndOptionsValue = project.property('extra-front-end-options')
}
String extraGenSnapshotOptionsValue = null
if (project.hasProperty('extra-gen-snapshot-options')) {
extraGenSnapshotOptionsValue = project.property('extra-gen-snapshot-options')
}
String splitDebugInfoValue = null
if (project.hasProperty('split-debug-info')) {
splitDebugInfoValue = project.property('split-debug-info')
}
Boolean dartObfuscationValue = false
if (project.hasProperty('dart-obfuscation')) {
dartObfuscationValue = project.property('dart-obfuscation').toBoolean();
}
Boolean treeShakeIconsOptionsValue = false
if (project.hasProperty('tree-shake-icons')) {
treeShakeIconsOptionsValue = project.property('tree-shake-icons').toBoolean()
}
String dartDefinesValue = null
if (project.hasProperty('dart-defines')) {
dartDefinesValue = project.property('dart-defines')
}
String bundleSkSLPathValue;
if (project.hasProperty('bundle-sksl-path')) {
bundleSkSLPathValue = project.property('bundle-sksl-path')
}
String performanceMeasurementFileValue;
if (project.hasProperty('performance-measurement-file')) {
performanceMeasurementFileValue = project.property('performance-measurement-file')
}
String codeSizeDirectoryValue;
if (project.hasProperty('code-size-directory')) {
codeSizeDirectoryValue = project.property('code-size-directory')
}
Boolean deferredComponentsValue = false
if (project.hasProperty('deferred-components')) {
deferredComponentsValue = project.property('deferred-components').toBoolean()
}
Boolean validateDeferredComponentsValue = true
if (project.hasProperty('validate-deferred-components')) {
validateDeferredComponentsValue = project.property('validate-deferred-components').toBoolean()
}
def targetPlatforms = getTargetPlatforms()
def addFlutterDeps = { variant ->
if (shouldSplitPerAbi()) {
variant.outputs.each { output ->
// Assigns the new version code to versionCodeOverride, which changes the version code
// for only the output APK, not for the variant itself. Skipping this step simply
// causes Gradle to use the value of variant.versionCode for the APK.
// For more, see https://developer.android.com/studio/build/configure-apk-splits
def abiVersionCode = ABI_VERSION.get(output.getFilter(OutputFile.ABI))
if (abiVersionCode != null) {
output.versionCodeOverride =
abiVersionCode * 1000 + variant.versionCode
}
}
}
String variantBuildMode = buildModeFor(variant.buildType)
String taskName = toCammelCase(["compile", FLUTTER_BUILD_PREFIX, variant.name])
FlutterTask compileTask = project.tasks.create(name: taskName, type: FlutterTask) {
flutterRoot this.flutterRoot
flutterExecutable this.flutterExecutable
buildMode variantBuildMode
localEngine this.localEngine
localEngineSrcPath this.localEngineSrcPath
targetPath getFlutterTarget()
verbose isVerbose()
fastStart isFastStart()
fileSystemRoots fileSystemRootsValue
fileSystemScheme fileSystemSchemeValue
trackWidgetCreation trackWidgetCreationValue
targetPlatformValues = targetPlatforms
sourceDir getFlutterSourceDirectory()
intermediateDir project.file("${project.buildDir}/${AndroidProject.FD_INTERMEDIATES}/flutter/${variant.name}/")
extraFrontEndOptions extraFrontEndOptionsValue
extraGenSnapshotOptions extraGenSnapshotOptionsValue
splitDebugInfo splitDebugInfoValue
treeShakeIcons treeShakeIconsOptionsValue
dartObfuscation dartObfuscationValue
dartDefines dartDefinesValue
bundleSkSLPath bundleSkSLPathValue
performanceMeasurementFile performanceMeasurementFileValue
codeSizeDirectory codeSizeDirectoryValue
deferredComponents deferredComponentsValue
validateDeferredComponents validateDeferredComponentsValue
doLast {
project.exec {
if (Os.isFamily(Os.FAMILY_WINDOWS)) {
commandLine('cmd', '/c', "attrib -r ${assetsDirectory}/* /s")
} else {
commandLine('chmod', '-R', 'u+w', assetsDirectory)
}
}
}
}
File libJar = project.file("${project.buildDir}/${AndroidProject.FD_INTERMEDIATES}/flutter/${variant.name}/libs.jar")
Task packFlutterAppAotTask = project.tasks.create(name: "packLibs${FLUTTER_BUILD_PREFIX}${variant.name.capitalize()}", type: Jar) {
destinationDir libJar.parentFile
archiveName libJar.name
dependsOn compileTask
targetPlatforms.each { targetPlatform ->
String abi = PLATFORM_ARCH_MAP[targetPlatform]
from("${compileTask.intermediateDir}/${abi}") {
include "*.so"
// Move `app.so` to `lib/<abi>/libapp.so`
rename { String filename ->
return "lib/${abi}/lib${filename}"
}
}
}
}
addApiDependencies(project, variant.name, project.files {
packFlutterAppAotTask
})
// We build an AAR when this property is defined.
boolean isBuildingAar = project.hasProperty('is-plugin')
// In add to app scenarios, a Gradle project contains a `:flutter` and `:app` project.
// We know that `:flutter` is used as a subproject when these tasks exists and we aren't building an AAR.
Task packageAssets = project.tasks.findByPath(":flutter:package${variant.name.capitalize()}Assets")
Task cleanPackageAssets = project.tasks.findByPath(":flutter:cleanPackage${variant.name.capitalize()}Assets")
boolean isUsedAsSubproject = packageAssets && cleanPackageAssets && !isBuildingAar
Task copyFlutterAssetsTask = project.tasks.create(
name: "copyFlutterAssets${variant.name.capitalize()}",
type: Copy,
) {
dependsOn compileTask
with compileTask.assets
if (isUsedAsSubproject) {
dependsOn packageAssets
dependsOn cleanPackageAssets
into packageAssets.outputDir
return
}
// `variant.mergeAssets` will be removed at the end of 2019.
def mergeAssets = variant.hasProperty("mergeAssetsProvider") ?
variant.mergeAssetsProvider.get() : variant.mergeAssets
dependsOn mergeAssets
dependsOn "clean${mergeAssets.name.capitalize()}"
mergeAssets.mustRunAfter("clean${mergeAssets.name.capitalize()}")
into mergeAssets.outputDir
}
if (!isUsedAsSubproject) {
def variantOutput = variant.outputs.first()
def processResources = variantOutput.hasProperty("processResourcesProvider") ?
variantOutput.processResourcesProvider.get() : variantOutput.processResources
processResources.dependsOn(copyFlutterAssetsTask)
}
return copyFlutterAssetsTask
} // end def addFlutterDeps
if (isFlutterAppProject()) {
project.android.applicationVariants.all { variant ->
Task assembleTask = getAssembleTask(variant)
if (!shouldConfigureFlutterTask(assembleTask)) {
return
}
Task copyFlutterAssetsTask = addFlutterDeps(variant)
def variantOutput = variant.outputs.first()
def processResources = variantOutput.hasProperty("processResourcesProvider") ?
variantOutput.processResourcesProvider.get() : variantOutput.processResources
processResources.dependsOn(copyFlutterAssetsTask)
// Copy the output APKs into a known location, so `flutter run` or `flutter build apk`
// can discover them. By default, this is `<app-dir>/build/app/outputs/flutter-apk/<filename>.apk`.
//
// The filename consists of `app<-abi>?<-flavor-name>?-<build-mode>.apk`.
// Where:
// * `abi` can be `armeabi-v7a|arm64-v8a|x86|x86_64` only if the flag `split-per-abi` is set.
// * `flavor-name` is the flavor used to build the app in lower case if the assemble task is called.
// * `build-mode` can be `release|debug|profile`.
variant.outputs.all { output ->
assembleTask.doLast {
// `packageApplication` became `packageApplicationProvider` in AGP 3.3.0.
def outputDirectory = variant.hasProperty("packageApplicationProvider")
? variant.packageApplicationProvider.get().outputDirectory
: variant.packageApplication.outputDirectory
// `outputDirectory` is a `DirectoryProperty` in AGP 4.1.
String outputDirectoryStr = outputDirectory.metaClass.respondsTo(outputDirectory, "get")
? outputDirectory.get()
: outputDirectory
String filename = "app"
String abi = output.getFilter(OutputFile.ABI)
if (abi != null && !abi.isEmpty()) {
filename += "-${abi}"
}
if (variant.flavorName != null && !variant.flavorName.isEmpty()) {
filename += "-${variant.flavorName.toLowerCase()}"
}
filename += "-${buildModeFor(variant.buildType)}"
project.copy {
from new File("$outputDirectoryStr/${output.outputFileName}")
into new File("${project.buildDir}/outputs/flutter-apk");
rename {
return "${filename}.apk"
}
}
}
}
}
configurePlugins()
return
}
// Flutter host module project (Add-to-app).
String hostAppProjectName = project.rootProject.hasProperty('flutter.hostAppProjectName') ? project.rootProject.property('flutter.hostAppProjectName') : "app"
Project appProject = project.rootProject.findProject(":${hostAppProjectName}")
assert appProject != null : "Project :${hostAppProjectName} doesn't exist. To custom the host app project name, set `org.gradle.project.flutter.hostAppProjectName=<project-name>` in gradle.properties."
// Wait for the host app project configuration.
appProject.afterEvaluate {
assert appProject.android != null
project.android.libraryVariants.all { libraryVariant ->
Task copyFlutterAssetsTask
appProject.android.applicationVariants.all { appProjectVariant ->
Task appAssembleTask = getAssembleTask(appProjectVariant)
if (!shouldConfigureFlutterTask(appAssembleTask)) {
return
}
// Find a compatible application variant in the host app.
//
// For example, consider a host app that defines the following variants:
// | ----------------- | ----------------------------- |
// | Build Variant | Flutter Equivalent Variant |
// | ----------------- | ----------------------------- |
// | freeRelease | release |
// | freeDebug | debug |
// | freeDevelop | debug |
// | profile | profile |
// | ----------------- | ----------------------------- |
//
// This mapping is based on the following rules:
// 1. If the host app build variant name is `profile` then the equivalent
// Flutter variant is `profile`.
// 2. If the host app build variant is debuggable
// (e.g. `buildType.debuggable = true`), then the equivalent Flutter
// variant is `debug`.
// 3. Otherwise, the equivalent Flutter variant is `release`.
String variantBuildMode = buildModeFor(libraryVariant.buildType)
if (buildModeFor(appProjectVariant.buildType) != variantBuildMode) {
return
}
if (copyFlutterAssetsTask == null) {
copyFlutterAssetsTask = addFlutterDeps(libraryVariant)
}
Task mergeAssets = project
.tasks
.findByPath(":${hostAppProjectName}:merge${appProjectVariant.name.capitalize()}Assets")
assert mergeAssets
mergeAssets.dependsOn(copyFlutterAssetsTask)
}
}
}
configurePlugins()
}
}
class FlutterExtension {
String source
String target
}
abstract class BaseFlutterTask extends DefaultTask {
@Internal
File flutterRoot
@Internal
File flutterExecutable
@Input
String buildMode
@Optional @Input
String localEngine
@Optional @Input
String localEngineSrcPath
@Optional @Input
Boolean fastStart
@Input
String targetPath
@Optional @Internal
Boolean verbose
@Optional @Input
String[] fileSystemRoots
@Optional @Input
String fileSystemScheme
@Input
Boolean trackWidgetCreation
@Optional @Input
List<String> targetPlatformValues
@Internal
File sourceDir
@Internal
File intermediateDir
@Optional @Input
String extraFrontEndOptions
@Optional @Input
String extraGenSnapshotOptions
@Optional @Input
String splitDebugInfo
@Optional @Input
Boolean treeShakeIcons
@Optional @Input
Boolean dartObfuscation
@Optional @Input
String dartDefines
@Optional @Input
String bundleSkSLPath
@Optional @Input
String codeSizeDirectory;
@Optional @Input
String performanceMeasurementFile;
@Optional @Input
Boolean deferredComponents
@Optional @Input
Boolean validateDeferredComponents
@OutputFiles
FileCollection getDependenciesFiles() {
FileCollection depfiles = project.files()
// Includes all sources used in the flutter compilation.
depfiles += project.files("${intermediateDir}/flutter_build.d")
return depfiles
}
void buildBundle() {
if (!sourceDir.isDirectory()) {
throw new GradleException("Invalid Flutter source directory: ${sourceDir}")
}
intermediateDir.mkdirs()
// Compute the rule name for flutter assemble. To speed up builds that contain
// multiple ABIs, the target name is used to communicate which ones are required
// rather than the TargetPlatform. This allows multiple builds to share the same
// cache.
String[] ruleNames;
if (buildMode == "debug") {
ruleNames = ["debug_android_application"]
} else if (deferredComponents) {
ruleNames = targetPlatformValues.collect { "android_aot_deferred_components_bundle_${buildMode}_$it" }
} else {
ruleNames = targetPlatformValues.collect { "android_aot_bundle_${buildMode}_$it" }
}
project.exec {
logging.captureStandardError LogLevel.ERROR
executable flutterExecutable.absolutePath
workingDir sourceDir
if (localEngine != null) {
args "--local-engine", localEngine
args "--local-engine-src-path", localEngineSrcPath
}
if (verbose) {
args "--verbose"
} else {
args "--quiet"
}
args "assemble"
args "--no-version-check"
args "--depfile", "${intermediateDir}/flutter_build.d"
args "--output", "${intermediateDir}"
if (performanceMeasurementFile != null) {
args "--performance-measurement-file=${performanceMeasurementFile}"
}
if (!fastStart || buildMode != "debug") {
args "-dTargetFile=${targetPath}"
} else {
args "-dTargetFile=${Paths.get(flutterRoot.absolutePath, "examples", "splash", "lib", "main.dart")}"
}
args "-dTargetPlatform=android"
args "-dBuildMode=${buildMode}"
if (trackWidgetCreation != null) {
args "-dTrackWidgetCreation=${trackWidgetCreation}"
}
if (splitDebugInfo != null) {
args "-dSplitDebugInfo=${splitDebugInfo}"
}
if (treeShakeIcons == true) {
args "-dTreeShakeIcons=true"
}
if (dartObfuscation == true) {
args "-dDartObfuscation=true"
}
if (dartDefines != null) {
args "--DartDefines=${dartDefines}"
}
if (bundleSkSLPath != null) {
args "-dBundleSkSLPath=${bundleSkSLPath}"
}
if (codeSizeDirectory != null) {
args "-dCodeSizeDirectory=${codeSizeDirectory}"
}
if (extraGenSnapshotOptions != null) {
args "--ExtraGenSnapshotOptions=${extraGenSnapshotOptions}"
}
if (extraFrontEndOptions != null) {
args "--ExtraFrontEndOptions=${extraFrontEndOptions}"
}
args ruleNames
}
}
}
class FlutterTask extends BaseFlutterTask {
@OutputDirectory
File getOutputDirectory() {
return intermediateDir
}
@Internal
String getAssetsDirectory() {
return "${outputDirectory}/flutter_assets"
}
@Internal
CopySpec getAssets() {
return project.copySpec {
from "${intermediateDir}"
include "flutter_assets/**" // the working dir and its files
}
}
@Internal
CopySpec getSnapshots() {
return project.copySpec {
from "${intermediateDir}"
if (buildMode == 'release' || buildMode == 'profile') {
targetPlatformValues.each {
include "${PLATFORM_ARCH_MAP[targetArch]}/app.so"
}
}
}
}
FileCollection readDependencies(File dependenciesFile, Boolean inputs) {
if (dependenciesFile.exists()) {
// Dependencies file has Makefile syntax:
// <target> <files>: <source> <files> <separated> <by> <non-escaped space>
String depText = dependenciesFile.text
// So we split list of files by non-escaped(by backslash) space,
def matcher = depText.split(': ')[inputs ? 1 : 0] =~ /(\\ |[^\s])+/
// then we replace all escaped spaces with regular spaces
def depList = matcher.collect{it[0].replaceAll("\\\\ ", " ")}
return project.files(depList)
}
return project.files();
}
@InputFiles
FileCollection getSourceFiles() {
FileCollection sources = project.files()
for (File depfile in getDependenciesFiles()) {
sources += readDependencies(depfile, true)
}
return sources + project.files('pubspec.yaml')
}
@OutputFiles
FileCollection getOutputFiles() {
FileCollection sources = project.files()
for (File depfile in getDependenciesFiles()) {
sources += readDependencies(depfile, false)
}
return sources
}
@TaskAction
void build() {
buildBundle()
}
}