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// Copyright 2021 Google Inc. All rights reserved.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
package java
import (
"fmt"
"path/filepath"
"strconv"
"strings"
"github.com/google/blueprint/pathtools"
"github.com/google/blueprint/proptools"
"android/soong/android"
"android/soong/dexpreopt"
"android/soong/java/config"
)
// This file contains the definition and the implementation of the base module that most
// source-based Java module structs embed.
// TODO:
// Autogenerated files:
// Renderscript
// Post-jar passes:
// Proguard
// Rmtypedefs
// DroidDoc
// Findbugs
// Properties that are common to most Java modules, i.e. whether it's a host or device module.
type CommonProperties struct {
// list of source files used to compile the Java module. May be .java, .kt, .logtags, .proto,
// or .aidl files.
Srcs []string `android:"path,arch_variant"`
// list Kotlin of source files containing Kotlin code that should be treated as common code in
// a codebase that supports Kotlin multiplatform. See
// https://kotlinlang.org/docs/reference/multiplatform.html. May be only be .kt files.
Common_srcs []string `android:"path,arch_variant"`
// list of source files that should not be used to build the Java module.
// This is most useful in the arch/multilib variants to remove non-common files
Exclude_srcs []string `android:"path,arch_variant"`
// list of directories containing Java resources
Java_resource_dirs []string `android:"arch_variant"`
// list of directories that should be excluded from java_resource_dirs
Exclude_java_resource_dirs []string `android:"arch_variant"`
// list of files to use as Java resources
Java_resources []string `android:"path,arch_variant"`
// list of files that should be excluded from java_resources and java_resource_dirs
Exclude_java_resources []string `android:"path,arch_variant"`
// list of module-specific flags that will be used for javac compiles
Javacflags []string `android:"arch_variant"`
// list of module-specific flags that will be used for kotlinc compiles
Kotlincflags []string `android:"arch_variant"`
// list of java libraries that will be in the classpath
Libs []string `android:"arch_variant"`
// list of java libraries that will be compiled into the resulting jar
Static_libs []string `android:"arch_variant"`
// manifest file to be included in resulting jar
Manifest *string `android:"path"`
// if not blank, run jarjar using the specified rules file
Jarjar_rules *string `android:"path,arch_variant"`
// If not blank, set the java version passed to javac as -source and -target
Java_version *string
// If set to true, allow this module to be dexed and installed on devices. Has no
// effect on host modules, which are always considered installable.
Installable *bool
// If set to true, include sources used to compile the module in to the final jar
Include_srcs *bool
// If not empty, classes are restricted to the specified packages and their sub-packages.
// This restriction is checked after applying jarjar rules and including static libs.
Permitted_packages []string
// List of modules to use as annotation processors
Plugins []string
// List of modules to export to libraries that directly depend on this library as annotation
// processors. Note that if the plugins set generates_api: true this will disable the turbine
// optimization on modules that depend on this module, which will reduce parallelism and cause
// more recompilation.
Exported_plugins []string
// The number of Java source entries each Javac instance can process
Javac_shard_size *int64
// Add host jdk tools.jar to bootclasspath
Use_tools_jar *bool
Openjdk9 struct {
// List of source files that should only be used when passing -source 1.9 or higher
Srcs []string `android:"path"`
// List of javac flags that should only be used when passing -source 1.9 or higher
Javacflags []string
}
// When compiling language level 9+ .java code in packages that are part of
// a system module, patch_module names the module that your sources and
// dependencies should be patched into. The Android runtime currently
// doesn't implement the JEP 261 module system so this option is only
// supported at compile time. It should only be needed to compile tests in
// packages that exist in libcore and which are inconvenient to move
// elsewhere.
Patch_module *string `android:"arch_variant"`
Jacoco struct {
// List of classes to include for instrumentation with jacoco to collect coverage
// information at runtime when building with coverage enabled. If unset defaults to all
// classes.
// Supports '*' as the last character of an entry in the list as a wildcard match.
// If preceded by '.' it matches all classes in the package and subpackages, otherwise
// it matches classes in the package that have the class name as a prefix.
Include_filter []string
// List of classes to exclude from instrumentation with jacoco to collect coverage
// information at runtime when building with coverage enabled. Overrides classes selected
// by the include_filter property.
// Supports '*' as the last character of an entry in the list as a wildcard match.
// If preceded by '.' it matches all classes in the package and subpackages, otherwise
// it matches classes in the package that have the class name as a prefix.
Exclude_filter []string
}
Errorprone struct {
// List of javac flags that should only be used when running errorprone.
Javacflags []string
// List of java_plugin modules that provide extra errorprone checks.
Extra_check_modules []string
// This property can be in 3 states. When set to true, errorprone will
// be run during the regular build. When set to false, errorprone will
// never be run. When unset, errorprone will be run when the RUN_ERROR_PRONE
// environment variable is true. Setting this to false will improve build
// performance more than adding -XepDisableAllChecks in javacflags.
Enabled *bool
}
Proto struct {
// List of extra options that will be passed to the proto generator.
Output_params []string
}
Instrument bool `blueprint:"mutated"`
// List of files to include in the META-INF/services folder of the resulting jar.
Services []string `android:"path,arch_variant"`
// If true, package the kotlin stdlib into the jar. Defaults to true.
Static_kotlin_stdlib *bool `android:"arch_variant"`
// A list of java_library instances that provide additional hiddenapi annotations for the library.
Hiddenapi_additional_annotations []string
}
// Properties that are specific to device modules. Host module factories should not add these when
// constructing a new module.
type DeviceProperties struct {
// If not blank, set to the version of the sdk to compile against.
// Defaults to private.
// Values are of one of the following forms:
// 1) numerical API level, "current", "none", or "core_platform"
// 2) An SDK kind with an API level: "<sdk kind>_<API level>"
// See build/soong/android/sdk_version.go for the complete and up to date list of SDK kinds.
// If the SDK kind is empty, it will be set to public.
Sdk_version *string
// if not blank, set the minimum version of the sdk that the compiled artifacts will run against.
// Defaults to sdk_version if not set. See sdk_version for possible values.
Min_sdk_version *string
// if not blank, set the maximum version of the sdk that the compiled artifacts will run against.
// Defaults to empty string "". See sdk_version for possible values.
Max_sdk_version *string
// if not blank, set the targetSdkVersion in the AndroidManifest.xml.
// Defaults to sdk_version if not set. See sdk_version for possible values.
Target_sdk_version *string
// Whether to compile against the platform APIs instead of an SDK.
// If true, then sdk_version must be empty. The value of this field
// is ignored when module's type isn't android_app, android_test, or android_test_helper_app.
Platform_apis *bool
Aidl struct {
// Top level directories to pass to aidl tool
Include_dirs []string
// Directories rooted at the Android.bp file to pass to aidl tool
Local_include_dirs []string
// directories that should be added as include directories for any aidl sources of modules
// that depend on this module, as well as to aidl for this module.
Export_include_dirs []string
// whether to generate traces (for systrace) for this interface
Generate_traces *bool
// whether to generate Binder#GetTransaction name method.
Generate_get_transaction_name *bool
// whether all interfaces should be annotated with required permissions.
Enforce_permissions *bool
// allowlist for interfaces that (temporarily) do not require annotation for permissions.
Enforce_permissions_exceptions []string `android:"path"`
// list of flags that will be passed to the AIDL compiler
Flags []string
}
// If true, export a copy of the module as a -hostdex module for host testing.
Hostdex *bool
Target struct {
Hostdex struct {
// Additional required dependencies to add to -hostdex modules.
Required []string
}
}
// When targeting 1.9 and above, override the modules to use with --system,
// otherwise provides defaults libraries to add to the bootclasspath.
System_modules *string
IsSDKLibrary bool `blueprint:"mutated"`
// If true, generate the signature file of APK Signing Scheme V4, along side the signed APK file.
// Defaults to false.
V4_signature *bool
// Only for libraries created by a sysprop_library module, SyspropPublicStub is the name of the
// public stubs library.
SyspropPublicStub string `blueprint:"mutated"`
}
// Device properties that can be overridden by overriding module (e.g. override_android_app)
type OverridableDeviceProperties struct {
// set the name of the output. If not set, `name` is used.
// To override a module with this property set, overriding module might need to set this as well.
// Otherwise, both the overridden and the overriding modules will have the same output name, which
// can cause the duplicate output error.
Stem *string
}
// Functionality common to Module and Import
//
// It is embedded in Module so its functionality can be used by methods in Module
// but it is currently only initialized by Import and Library.
type embeddableInModuleAndImport struct {
// Functionality related to this being used as a component of a java_sdk_library.
EmbeddableSdkLibraryComponent
}
func (e *embeddableInModuleAndImport) initModuleAndImport(module android.Module) {
e.initSdkLibraryComponent(module)
}
// Module/Import's DepIsInSameApex(...) delegates to this method.
//
// This cannot implement DepIsInSameApex(...) directly as that leads to ambiguity with
// the one provided by ApexModuleBase.
func (e *embeddableInModuleAndImport) depIsInSameApex(ctx android.BaseModuleContext, dep android.Module) bool {
// dependencies other than the static linkage are all considered crossing APEX boundary
if staticLibTag == ctx.OtherModuleDependencyTag(dep) {
return true
}
return false
}
// OptionalDexJarPath can be either unset, hold a valid path to a dex jar file,
// or an invalid path describing the reason it is invalid.
//
// It is unset if a dex jar isn't applicable, i.e. no build rule has been
// requested to create one.
//
// If a dex jar has been requested to be built then it is set, and it may be
// either a valid android.Path, or invalid with a reason message. The latter
// happens if the source that should produce the dex file isn't able to.
//
// E.g. it is invalid with a reason message if there is a prebuilt APEX that
// could produce the dex jar through a deapexer module, but the APEX isn't
// installable so doing so wouldn't be safe.
type OptionalDexJarPath struct {
isSet bool
path android.OptionalPath
}
// IsSet returns true if a path has been set, either invalid or valid.
func (o OptionalDexJarPath) IsSet() bool {
return o.isSet
}
// Valid returns true if there is a path that is valid.
func (o OptionalDexJarPath) Valid() bool {
return o.isSet && o.path.Valid()
}
// Path returns the valid path, or panics if it's either not set or is invalid.
func (o OptionalDexJarPath) Path() android.Path {
if !o.isSet {
panic("path isn't set")
}
return o.path.Path()
}
// PathOrNil returns the path if it's set and valid, or else nil.
func (o OptionalDexJarPath) PathOrNil() android.Path {
if o.Valid() {
return o.Path()
}
return nil
}
// InvalidReason returns the reason for an invalid path, which is never "". It
// returns "" for an unset or valid path.
func (o OptionalDexJarPath) InvalidReason() string {
if !o.isSet {
return ""
}
return o.path.InvalidReason()
}
func (o OptionalDexJarPath) String() string {
if !o.isSet {
return "<unset>"
}
return o.path.String()
}
// makeUnsetDexJarPath returns an unset OptionalDexJarPath.
func makeUnsetDexJarPath() OptionalDexJarPath {
return OptionalDexJarPath{isSet: false}
}
// makeDexJarPathFromOptionalPath returns an OptionalDexJarPath that is set with
// the given OptionalPath, which may be valid or invalid.
func makeDexJarPathFromOptionalPath(path android.OptionalPath) OptionalDexJarPath {
return OptionalDexJarPath{isSet: true, path: path}
}
// makeDexJarPathFromPath returns an OptionalDexJarPath that is set with the
// valid given path. It returns an unset OptionalDexJarPath if the given path is
// nil.
func makeDexJarPathFromPath(path android.Path) OptionalDexJarPath {
if path == nil {
return makeUnsetDexJarPath()
}
return makeDexJarPathFromOptionalPath(android.OptionalPathForPath(path))
}
// Module contains the properties and members used by all java module types
type Module struct {
android.ModuleBase
android.DefaultableModuleBase
android.ApexModuleBase
android.SdkBase
android.BazelModuleBase
// Functionality common to Module and Import.
embeddableInModuleAndImport
properties CommonProperties
protoProperties android.ProtoProperties
deviceProperties DeviceProperties
overridableDeviceProperties OverridableDeviceProperties
// jar file containing header classes including static library dependencies, suitable for
// inserting into the bootclasspath/classpath of another compile
headerJarFile android.Path
// jar file containing implementation classes including static library dependencies but no
// resources
implementationJarFile android.Path
// jar file containing only resources including from static library dependencies
resourceJar android.Path
// args and dependencies to package source files into a srcjar
srcJarArgs []string
srcJarDeps android.Paths
// jar file containing implementation classes and resources including static library
// dependencies
implementationAndResourcesJar android.Path
// output file containing classes.dex and resources
dexJarFile OptionalDexJarPath
// output file containing uninstrumented classes that will be instrumented by jacoco
jacocoReportClassesFile android.Path
// output file of the module, which may be a classes jar or a dex jar
outputFile android.Path
extraOutputFiles android.Paths
exportAidlIncludeDirs android.Paths
ignoredAidlPermissionList android.Paths
logtagsSrcs android.Paths
// installed file for binary dependency
installFile android.Path
// installed file for hostdex copy
hostdexInstallFile android.InstallPath
// list of .java files and srcjars that was passed to javac
compiledJavaSrcs android.Paths
compiledSrcJars android.Paths
// manifest file to use instead of properties.Manifest
overrideManifest android.OptionalPath
// list of plugins that this java module is exporting
exportedPluginJars android.Paths
// list of plugins that this java module is exporting
exportedPluginClasses []string
// if true, the exported plugins generate API and require disabling turbine.
exportedDisableTurbine bool
// list of source files, collected from srcFiles with unique java and all kt files,
// will be used by android.IDEInfo struct
expandIDEInfoCompiledSrcs []string
// expanded Jarjar_rules
expandJarjarRules android.Path
// Extra files generated by the module type to be added as java resources.
extraResources android.Paths
hiddenAPI
dexer
dexpreopter
usesLibrary
linter
// list of the xref extraction files
kytheFiles android.Paths
// Collect the module directory for IDE info in java/jdeps.go.
modulePaths []string
hideApexVariantFromMake bool
sdkVersion android.SdkSpec
minSdkVersion android.SdkSpec
maxSdkVersion android.SdkSpec
sourceExtensions []string
}
func (j *Module) CheckStableSdkVersion(ctx android.BaseModuleContext) error {
sdkVersion := j.SdkVersion(ctx)
if sdkVersion.Stable() {
return nil
}
if sdkVersion.Kind == android.SdkCorePlatform {
if useLegacyCorePlatformApi(ctx, j.BaseModuleName()) {
return fmt.Errorf("non stable SDK %v - uses legacy core platform", sdkVersion)
} else {
// Treat stable core platform as stable.
return nil
}
} else {
return fmt.Errorf("non stable SDK %v", sdkVersion)
}
}
// checkSdkVersions enforces restrictions around SDK dependencies.
func (j *Module) checkSdkVersions(ctx android.ModuleContext) {
if j.RequiresStableAPIs(ctx) {
if sc, ok := ctx.Module().(android.SdkContext); ok {
if !sc.SdkVersion(ctx).Specified() {
ctx.PropertyErrorf("sdk_version",
"sdk_version must have a value when the module is located at vendor or product(only if PRODUCT_ENFORCE_PRODUCT_PARTITION_INTERFACE is set).")
}
}
}
// Make sure this module doesn't statically link to modules with lower-ranked SDK link type.
// See rank() for details.
ctx.VisitDirectDeps(func(module android.Module) {
tag := ctx.OtherModuleDependencyTag(module)
switch module.(type) {
// TODO(satayev): cover other types as well, e.g. imports
case *Library, *AndroidLibrary:
switch tag {
case bootClasspathTag, libTag, staticLibTag, java9LibTag:
j.checkSdkLinkType(ctx, module.(moduleWithSdkDep), tag.(dependencyTag))
}
}
})
}
func (j *Module) checkPlatformAPI(ctx android.ModuleContext) {
if sc, ok := ctx.Module().(android.SdkContext); ok {
usePlatformAPI := proptools.Bool(j.deviceProperties.Platform_apis)
sdkVersionSpecified := sc.SdkVersion(ctx).Specified()
if usePlatformAPI && sdkVersionSpecified {
ctx.PropertyErrorf("platform_apis", "This module has conflicting settings. sdk_version is not empty, which means this module cannot use platform APIs. However platform_apis is set to true.")
} else if !usePlatformAPI && !sdkVersionSpecified {
ctx.PropertyErrorf("platform_apis", "This module has conflicting settings. sdk_version is empty, which means that this module is build against platform APIs. However platform_apis is not set to true")
}
}
}
func (j *Module) addHostProperties() {
j.AddProperties(
&j.properties,
&j.protoProperties,
&j.usesLibraryProperties,
)
}
func (j *Module) addHostAndDeviceProperties() {
j.addHostProperties()
j.AddProperties(
&j.deviceProperties,
&j.overridableDeviceProperties,
&j.dexer.dexProperties,
&j.dexpreoptProperties,
&j.linter.properties,
)
}
func (j *Module) OutputFiles(tag string) (android.Paths, error) {
switch tag {
case "":
return append(android.Paths{j.outputFile}, j.extraOutputFiles...), nil
case android.DefaultDistTag:
return android.Paths{j.outputFile}, nil
case ".jar":
return android.Paths{j.implementationAndResourcesJar}, nil
case ".proguard_map":
if j.dexer.proguardDictionary.Valid() {
return android.Paths{j.dexer.proguardDictionary.Path()}, nil
}
return nil, fmt.Errorf("%q was requested, but no output file was found.", tag)
default:
return nil, fmt.Errorf("unsupported module reference tag %q", tag)
}
}
var _ android.OutputFileProducer = (*Module)(nil)
func InitJavaModule(module android.DefaultableModule, hod android.HostOrDeviceSupported) {
initJavaModule(module, hod, false)
}
func InitJavaModuleMultiTargets(module android.DefaultableModule, hod android.HostOrDeviceSupported) {
initJavaModule(module, hod, true)
}
func initJavaModule(module android.DefaultableModule, hod android.HostOrDeviceSupported, multiTargets bool) {
multilib := android.MultilibCommon
if multiTargets {
android.InitAndroidMultiTargetsArchModule(module, hod, multilib)
} else {
android.InitAndroidArchModule(module, hod, multilib)
}
android.InitDefaultableModule(module)
}
func (j *Module) shouldInstrument(ctx android.BaseModuleContext) bool {
return j.properties.Instrument &&
ctx.Config().IsEnvTrue("EMMA_INSTRUMENT") &&
ctx.DeviceConfig().JavaCoverageEnabledForPath(ctx.ModuleDir())
}
func (j *Module) shouldInstrumentStatic(ctx android.BaseModuleContext) bool {
return j.shouldInstrument(ctx) &&
(ctx.Config().IsEnvTrue("EMMA_INSTRUMENT_STATIC") ||
ctx.Config().UnbundledBuild())
}
func (j *Module) shouldInstrumentInApex(ctx android.BaseModuleContext) bool {
// Force enable the instrumentation for java code that is built for APEXes ...
// except for the jacocoagent itself (because instrumenting jacocoagent using jacocoagent
// doesn't make sense) or framework libraries (e.g. libraries found in the InstrumentFrameworkModules list) unless EMMA_INSTRUMENT_FRAMEWORK is true.
apexInfo := ctx.Provider(android.ApexInfoProvider).(android.ApexInfo)
isJacocoAgent := ctx.ModuleName() == "jacocoagent"
if j.DirectlyInAnyApex() && !isJacocoAgent && !apexInfo.IsForPlatform() {
if !inList(ctx.ModuleName(), config.InstrumentFrameworkModules) {
return true
} else if ctx.Config().IsEnvTrue("EMMA_INSTRUMENT_FRAMEWORK") {
return true
}
}
return false
}
func (j *Module) SdkVersion(ctx android.EarlyModuleContext) android.SdkSpec {
return android.SdkSpecFrom(ctx, String(j.deviceProperties.Sdk_version))
}
func (j *Module) SystemModules() string {
return proptools.String(j.deviceProperties.System_modules)
}
func (j *Module) MinSdkVersion(ctx android.EarlyModuleContext) android.SdkSpec {
if j.deviceProperties.Min_sdk_version != nil {
return android.SdkSpecFrom(ctx, *j.deviceProperties.Min_sdk_version)
}
return j.SdkVersion(ctx)
}
func (j *Module) MaxSdkVersion(ctx android.EarlyModuleContext) android.SdkSpec {
maxSdkVersion := proptools.StringDefault(j.deviceProperties.Max_sdk_version, "")
// SdkSpecFrom returns SdkSpecPrivate for this, which may be confusing.
// TODO(b/208456999): ideally MaxSdkVersion should be an ApiLevel and not SdkSpec.
return android.SdkSpecFrom(ctx, maxSdkVersion)
}
func (j *Module) MinSdkVersionString() string {
return j.minSdkVersion.Raw
}
func (j *Module) TargetSdkVersion(ctx android.EarlyModuleContext) android.SdkSpec {
if j.deviceProperties.Target_sdk_version != nil {
return android.SdkSpecFrom(ctx, *j.deviceProperties.Target_sdk_version)
}
return j.SdkVersion(ctx)
}
func (j *Module) AvailableFor(what string) bool {
if what == android.AvailableToPlatform && Bool(j.deviceProperties.Hostdex) {
// Exception: for hostdex: true libraries, the platform variant is created
// even if it's not marked as available to platform. In that case, the platform
// variant is used only for the hostdex and not installed to the device.
return true
}
return j.ApexModuleBase.AvailableFor(what)
}
func (j *Module) deps(ctx android.BottomUpMutatorContext) {
if ctx.Device() {
j.linter.deps(ctx)
sdkDeps(ctx, android.SdkContext(j), j.dexer)
if j.deviceProperties.SyspropPublicStub != "" {
// This is a sysprop implementation library that has a corresponding sysprop public
// stubs library, and a dependency on it so that dependencies on the implementation can
// be forwarded to the public stubs library when necessary.
ctx.AddVariationDependencies(nil, syspropPublicStubDepTag, j.deviceProperties.SyspropPublicStub)
}
}
libDeps := ctx.AddVariationDependencies(nil, libTag, j.properties.Libs...)
ctx.AddVariationDependencies(nil, staticLibTag, j.properties.Static_libs...)
// Add dependency on libraries that provide additional hidden api annotations.
ctx.AddVariationDependencies(nil, hiddenApiAnnotationsTag, j.properties.Hiddenapi_additional_annotations...)
if ctx.DeviceConfig().VndkVersion() != "" && ctx.Config().EnforceInterPartitionJavaSdkLibrary() {
// Require java_sdk_library at inter-partition java dependency to ensure stable
// interface between partitions. If inter-partition java_library dependency is detected,
// raise build error because java_library doesn't have a stable interface.
//
// Inputs:
// PRODUCT_ENFORCE_INTER_PARTITION_JAVA_SDK_LIBRARY
// if true, enable enforcement
// PRODUCT_INTER_PARTITION_JAVA_LIBRARY_ALLOWLIST
// exception list of java_library names to allow inter-partition dependency
for idx := range j.properties.Libs {
if libDeps[idx] == nil {
continue
}
if javaDep, ok := libDeps[idx].(javaSdkLibraryEnforceContext); ok {
// java_sdk_library is always allowed at inter-partition dependency.
// So, skip check.
if _, ok := javaDep.(*SdkLibrary); ok {
continue
}
j.checkPartitionsForJavaDependency(ctx, "libs", javaDep)
}
}
}
// For library dependencies that are component libraries (like stubs), add the implementation
// as a dependency (dexpreopt needs to be against the implementation library, not stubs).
for _, dep := range libDeps {
if dep != nil {
if component, ok := dep.(SdkLibraryComponentDependency); ok {
if lib := component.OptionalSdkLibraryImplementation(); lib != nil {
// Add library as optional if it's one of the optional compatibility libs.
optional := android.InList(*lib, dexpreopt.OptionalCompatUsesLibs)
tag := makeUsesLibraryDependencyTag(dexpreopt.AnySdkVersion, optional, true)
ctx.AddVariationDependencies(nil, tag, *lib)
}
}
}
}
ctx.AddFarVariationDependencies(ctx.Config().BuildOSCommonTarget.Variations(), pluginTag, j.properties.Plugins...)
ctx.AddFarVariationDependencies(ctx.Config().BuildOSCommonTarget.Variations(), errorpronePluginTag, j.properties.Errorprone.Extra_check_modules...)
ctx.AddFarVariationDependencies(ctx.Config().BuildOSCommonTarget.Variations(), exportedPluginTag, j.properties.Exported_plugins...)
android.ProtoDeps(ctx, &j.protoProperties)
if j.hasSrcExt(".proto") {
protoDeps(ctx, &j.protoProperties)
}
if j.hasSrcExt(".kt") {
// TODO(ccross): move this to a mutator pass that can tell if generated sources contain
// Kotlin files
ctx.AddVariationDependencies(nil, kotlinStdlibTag,
"kotlin-stdlib", "kotlin-stdlib-jdk7", "kotlin-stdlib-jdk8")
if len(j.properties.Plugins) > 0 {
ctx.AddVariationDependencies(nil, kotlinAnnotationsTag, "kotlin-annotations")
}
}
// Framework libraries need special handling in static coverage builds: they should not have
// static dependency on jacoco, otherwise there would be multiple conflicting definitions of
// the same jacoco classes coming from different bootclasspath jars.
if inList(ctx.ModuleName(), config.InstrumentFrameworkModules) {
if ctx.Config().IsEnvTrue("EMMA_INSTRUMENT_FRAMEWORK") {
j.properties.Instrument = true
}
} else if j.shouldInstrumentStatic(ctx) {
ctx.AddVariationDependencies(nil, staticLibTag, "jacocoagent")
}
if j.useCompose() {
ctx.AddVariationDependencies(ctx.Config().BuildOSCommonTarget.Variations(), kotlinPluginTag,
"androidx.compose.compiler_compiler-hosted")
}
}
func hasSrcExt(srcs []string, ext string) bool {
for _, src := range srcs {
if filepath.Ext(src) == ext {
return true
}
}
return false
}
func (j *Module) hasSrcExt(ext string) bool {
return hasSrcExt(j.properties.Srcs, ext)
}
func (j *Module) individualAidlFlags(ctx android.ModuleContext, aidlFile android.Path) string {
var flags string
if Bool(j.deviceProperties.Aidl.Enforce_permissions) {
if !android.InList(aidlFile.String(), j.ignoredAidlPermissionList.Strings()) {
flags = "-Wmissing-permission-annotation -Werror"
}
}
return flags
}
func (j *Module) aidlFlags(ctx android.ModuleContext, aidlPreprocess android.OptionalPath,
aidlIncludeDirs android.Paths) (string, android.Paths) {
aidlIncludes := android.PathsForModuleSrc(ctx, j.deviceProperties.Aidl.Local_include_dirs)
aidlIncludes = append(aidlIncludes,
android.PathsForModuleSrc(ctx, j.deviceProperties.Aidl.Export_include_dirs)...)
aidlIncludes = append(aidlIncludes,
android.PathsForSource(ctx, j.deviceProperties.Aidl.Include_dirs)...)
var flags []string
var deps android.Paths
flags = append(flags, j.deviceProperties.Aidl.Flags...)
if aidlPreprocess.Valid() {
flags = append(flags, "-p"+aidlPreprocess.String())
deps = append(deps, aidlPreprocess.Path())
} else if len(aidlIncludeDirs) > 0 {
flags = append(flags, android.JoinWithPrefix(aidlIncludeDirs.Strings(), "-I"))
}
if len(j.exportAidlIncludeDirs) > 0 {
flags = append(flags, android.JoinWithPrefix(j.exportAidlIncludeDirs.Strings(), "-I"))
}
if len(aidlIncludes) > 0 {
flags = append(flags, android.JoinWithPrefix(aidlIncludes.Strings(), "-I"))
}
flags = append(flags, "-I"+android.PathForModuleSrc(ctx).String())
if src := android.ExistentPathForSource(ctx, ctx.ModuleDir(), "src"); src.Valid() {
flags = append(flags, "-I"+src.String())
}
if Bool(j.deviceProperties.Aidl.Generate_traces) {
flags = append(flags, "-t")
}
if Bool(j.deviceProperties.Aidl.Generate_get_transaction_name) {
flags = append(flags, "--transaction_names")
}
if Bool(j.deviceProperties.Aidl.Enforce_permissions) {
exceptions := j.deviceProperties.Aidl.Enforce_permissions_exceptions
j.ignoredAidlPermissionList = android.PathsForModuleSrcExcludes(ctx, exceptions, nil)
}
aidlMinSdkVersion := j.MinSdkVersion(ctx).ApiLevel.String()
flags = append(flags, "--min_sdk_version="+aidlMinSdkVersion)
return strings.Join(flags, " "), deps
}
func (j *Module) collectBuilderFlags(ctx android.ModuleContext, deps deps) javaBuilderFlags {
var flags javaBuilderFlags
// javaVersion flag.
flags.javaVersion = getJavaVersion(ctx, String(j.properties.Java_version), android.SdkContext(j))
epEnabled := j.properties.Errorprone.Enabled
if (ctx.Config().RunErrorProne() && epEnabled == nil) || Bool(epEnabled) {
if config.ErrorProneClasspath == nil && ctx.Config().TestProductVariables == nil {
ctx.ModuleErrorf("cannot build with Error Prone, missing external/error_prone?")
}
errorProneFlags := []string{
"-Xplugin:ErrorProne",
"${config.ErrorProneChecks}",
}
errorProneFlags = append(errorProneFlags, j.properties.Errorprone.Javacflags...)
flags.errorProneExtraJavacFlags = "${config.ErrorProneHeapFlags} ${config.ErrorProneFlags} " +
"'" + strings.Join(errorProneFlags, " ") + "'"
flags.errorProneProcessorPath = classpath(android.PathsForSource(ctx, config.ErrorProneClasspath))
}
// classpath
flags.bootClasspath = append(flags.bootClasspath, deps.bootClasspath...)
flags.classpath = append(flags.classpath, deps.classpath...)
flags.dexClasspath = append(flags.dexClasspath, deps.dexClasspath...)
flags.java9Classpath = append(flags.java9Classpath, deps.java9Classpath...)
flags.processorPath = append(flags.processorPath, deps.processorPath...)
flags.errorProneProcessorPath = append(flags.errorProneProcessorPath, deps.errorProneProcessorPath...)
flags.processors = append(flags.processors, deps.processorClasses...)
flags.processors = android.FirstUniqueStrings(flags.processors)
if len(flags.bootClasspath) == 0 && ctx.Host() && !flags.javaVersion.usesJavaModules() &&
decodeSdkDep(ctx, android.SdkContext(j)).hasStandardLibs() {
// Give host-side tools a version of OpenJDK's standard libraries
// close to what they're targeting. As of Dec 2017, AOSP is only
// bundling OpenJDK 8 and 9, so nothing < 8 is available.
//
// When building with OpenJDK 8, the following should have no
// effect since those jars would be available by default.
//
// When building with OpenJDK 9 but targeting a version < 1.8,
// putting them on the bootclasspath means that:
// a) code can't (accidentally) refer to OpenJDK 9 specific APIs
// b) references to existing APIs are not reinterpreted in an
// OpenJDK 9-specific way, eg. calls to subclasses of
// java.nio.Buffer as in http://b/70862583
java8Home := ctx.Config().Getenv("ANDROID_JAVA8_HOME")
flags.bootClasspath = append(flags.bootClasspath,
android.PathForSource(ctx, java8Home, "jre/lib/jce.jar"),
android.PathForSource(ctx, java8Home, "jre/lib/rt.jar"))
if Bool(j.properties.Use_tools_jar) {
flags.bootClasspath = append(flags.bootClasspath,
android.PathForSource(ctx, java8Home, "lib/tools.jar"))
}
}
// systemModules
flags.systemModules = deps.systemModules
// aidl flags.
flags.aidlFlags, flags.aidlDeps = j.aidlFlags(ctx, deps.aidlPreprocess, deps.aidlIncludeDirs)
return flags
}
func (j *Module) collectJavacFlags(
ctx android.ModuleContext, flags javaBuilderFlags, srcFiles android.Paths) javaBuilderFlags {
// javac flags.
javacFlags := j.properties.Javacflags
if ctx.Config().MinimizeJavaDebugInfo() && !ctx.Host() {
// For non-host binaries, override the -g flag passed globally to remove
// local variable debug info to reduce disk and memory usage.
javacFlags = append(javacFlags, "-g:source,lines")
}
javacFlags = append(javacFlags, "-Xlint:-dep-ann")
if flags.javaVersion.usesJavaModules() {
javacFlags = append(javacFlags, j.properties.Openjdk9.Javacflags...)
if j.properties.Patch_module != nil {
// Manually specify build directory in case it is not under the repo root.
// (javac doesn't seem to expand into symbolic links when searching for patch-module targets, so
// just adding a symlink under the root doesn't help.)
patchPaths := []string{".", ctx.Config().SoongOutDir()}
// b/150878007
//
// Workaround to support *Bazel-executed* JDK9 javac in Bazel's
// execution root for --patch-module. If this javac command line is
// invoked within Bazel's execution root working directory, the top
// level directories (e.g. libcore/, tools/, frameworks/) are all
// symlinks. JDK9 javac does not traverse into symlinks, which causes
// --patch-module to fail source file lookups when invoked in the
// execution root.
//
// Short of patching javac or enumerating *all* directories as possible
// input dirs, manually add the top level dir of the source files to be
// compiled.
topLevelDirs := map[string]bool{}
for _, srcFilePath := range srcFiles {
srcFileParts := strings.Split(srcFilePath.String(), "/")
// Ignore source files that are already in the top level directory
// as well as generated files in the out directory. The out
// directory may be an absolute path, which means srcFileParts[0] is the
// empty string, so check that as well. Note that "out" in Bazel's execution
// root is *not* a symlink, which doesn't cause problems for --patch-modules
// anyway, so it's fine to not apply this workaround for generated
// source files.
if len(srcFileParts) > 1 &&
srcFileParts[0] != "" &&
srcFileParts[0] != "out" {
topLevelDirs[srcFileParts[0]] = true
}
}
patchPaths = append(patchPaths, android.SortedStringKeys(topLevelDirs)...)
classPath := flags.classpath.FormJavaClassPath("")
if classPath != "" {
patchPaths = append(patchPaths, classPath)
}
javacFlags = append(
javacFlags,
"--patch-module="+String(j.properties.Patch_module)+"="+strings.Join(patchPaths, ":"))
}
}
if len(javacFlags) > 0 {
// optimization.
ctx.Variable(pctx, "javacFlags", strings.Join(javacFlags, " "))
flags.javacFlags = "$javacFlags"
}
return flags
}
func (j *Module) AddJSONData(d *map[string]interface{}) {
(&j.ModuleBase).AddJSONData(d)
(*d)["Java"] = map[string]interface{}{
"SourceExtensions": j.sourceExtensions,
}
}
func (j *Module) compile(ctx android.ModuleContext, aaptSrcJar android.Path) {
j.exportAidlIncludeDirs = android.PathsForModuleSrc(ctx, j.deviceProperties.Aidl.Export_include_dirs)
deps := j.collectDeps(ctx)
flags := j.collectBuilderFlags(ctx, deps)
if flags.javaVersion.usesJavaModules() {
j.properties.Srcs = append(j.properties.Srcs, j.properties.Openjdk9.Srcs...)
}
srcFiles := android.PathsForModuleSrcExcludes(ctx, j.properties.Srcs, j.properties.Exclude_srcs)
j.sourceExtensions = []string{}
for _, ext := range []string{".kt", ".proto", ".aidl", ".java", ".logtags"} {
if hasSrcExt(srcFiles.Strings(), ext) {
j.sourceExtensions = append(j.sourceExtensions, ext)
}
}
if hasSrcExt(srcFiles.Strings(), ".proto") {
flags = protoFlags(ctx, &j.properties, &j.protoProperties, flags)
}
kotlinCommonSrcFiles := android.PathsForModuleSrcExcludes(ctx, j.properties.Common_srcs, nil)
if len(kotlinCommonSrcFiles.FilterOutByExt(".kt")) > 0 {
ctx.PropertyErrorf("common_srcs", "common_srcs must be .kt files")
}
srcFiles = j.genSources(ctx, srcFiles, flags)
// Collect javac flags only after computing the full set of srcFiles to
// ensure that the --patch-module lookup paths are complete.
flags = j.collectJavacFlags(ctx, flags, srcFiles)
srcJars := srcFiles.FilterByExt(".srcjar")
srcJars = append(srcJars, deps.srcJars...)
if aaptSrcJar != nil {
srcJars = append(srcJars, aaptSrcJar)
}
srcFiles = srcFiles.FilterOutByExt(".srcjar")
if j.properties.Jarjar_rules != nil {
j.expandJarjarRules = android.PathForModuleSrc(ctx, *j.properties.Jarjar_rules)
}
jarName := ctx.ModuleName() + ".jar"
javaSrcFiles := srcFiles.FilterByExt(".java")
var uniqueSrcFiles android.Paths
set := make(map[string]bool)
for _, v := range javaSrcFiles {
if _, found := set[v.String()]; !found {
set[v.String()] = true
uniqueSrcFiles = append(uniqueSrcFiles, v)
}
}
// We don't currently run annotation processors in turbine, which means we can't use turbine
// generated header jars when an annotation processor that generates API is enabled. One
// exception (handled further below) is when kotlin sources are enabled, in which case turbine
// is used to run all of the annotation processors.
disableTurbine := deps.disableTurbine
// Collect .java files for AIDEGen
j.expandIDEInfoCompiledSrcs = append(j.expandIDEInfoCompiledSrcs, uniqueSrcFiles.Strings()...)
var kotlinJars android.Paths
var kotlinHeaderJars android.Paths
if srcFiles.HasExt(".kt") {
// When using kotlin sources turbine is used to generate annotation processor sources,
// including for annotation processors that generate API, so we can use turbine for
// java sources too.
disableTurbine = false
// user defined kotlin flags.
kotlincFlags := j.properties.Kotlincflags
CheckKotlincFlags(ctx, kotlincFlags)
// Workaround for KT-46512
kotlincFlags = append(kotlincFlags, "-Xsam-conversions=class")
// If there are kotlin files, compile them first but pass all the kotlin and java files
// kotlinc will use the java files to resolve types referenced by the kotlin files, but
// won't emit any classes for them.
kotlincFlags = append(kotlincFlags, "-no-stdlib")
if ctx.Device() {
kotlincFlags = append(kotlincFlags, "-no-jdk")
}
for _, plugin := range deps.kotlinPlugins {
kotlincFlags = append(kotlincFlags, "-Xplugin="+plugin.String())
}
flags.kotlincDeps = append(flags.kotlincDeps, deps.kotlinPlugins...)
if len(kotlincFlags) > 0 {
// optimization.
ctx.Variable(pctx, "kotlincFlags", strings.Join(kotlincFlags, " "))
flags.kotlincFlags += "$kotlincFlags"
}
var kotlinSrcFiles android.Paths
kotlinSrcFiles = append(kotlinSrcFiles, uniqueSrcFiles...)
kotlinSrcFiles = append(kotlinSrcFiles, srcFiles.FilterByExt(".kt")...)
// Collect .kt files for AIDEGen
j.expandIDEInfoCompiledSrcs = append(j.expandIDEInfoCompiledSrcs, srcFiles.FilterByExt(".kt").Strings()...)
j.expandIDEInfoCompiledSrcs = append(j.expandIDEInfoCompiledSrcs, kotlinCommonSrcFiles.Strings()...)
flags.classpath = append(flags.classpath, deps.kotlinStdlib...)
flags.classpath = append(flags.classpath, deps.kotlinAnnotations...)
flags.dexClasspath = append(flags.dexClasspath, deps.kotlinAnnotations...)
flags.kotlincClasspath = append(flags.kotlincClasspath, flags.bootClasspath...)
flags.kotlincClasspath = append(flags.kotlincClasspath, flags.classpath...)
if len(flags.processorPath) > 0 {
// Use kapt for annotation processing
kaptSrcJar := android.PathForModuleOut(ctx, "kapt", "kapt-sources.jar")
kaptResJar := android.PathForModuleOut(ctx, "kapt", "kapt-res.jar")
kotlinKapt(ctx, kaptSrcJar, kaptResJar, kotlinSrcFiles, kotlinCommonSrcFiles, srcJars, flags)
srcJars = append(srcJars, kaptSrcJar)
kotlinJars = append(kotlinJars, kaptResJar)
// Disable annotation processing in javac, it's already been handled by kapt
flags.processorPath = nil
flags.processors = nil
}
kotlinJar := android.PathForModuleOut(ctx, "kotlin", jarName)
kotlinHeaderJar := android.PathForModuleOut(ctx, "kotlin_headers", jarName)
kotlinCompile(ctx, kotlinJar, kotlinHeaderJar, kotlinSrcFiles, kotlinCommonSrcFiles, srcJars, flags)
if ctx.Failed() {
return
}
// Make javac rule depend on the kotlinc rule
flags.classpath = append(classpath{kotlinHeaderJar}, flags.classpath...)
kotlinJars = append(kotlinJars, kotlinJar)
kotlinHeaderJars = append(kotlinHeaderJars, kotlinHeaderJar)
// Jar kotlin classes into the final jar after javac
if BoolDefault(j.properties.Static_kotlin_stdlib, true) {
kotlinJars = append(kotlinJars, deps.kotlinStdlib...)
kotlinHeaderJars = append(kotlinHeaderJars, deps.kotlinStdlib...)
} else {
flags.dexClasspath = append(flags.dexClasspath, deps.kotlinStdlib...)
}
}
jars := append(android.Paths(nil), kotlinJars...)
// Store the list of .java files that was passed to javac
j.compiledJavaSrcs = uniqueSrcFiles
j.compiledSrcJars = srcJars
enableSharding := false
var headerJarFileWithoutDepsOrJarjar android.Path
if ctx.Device() && !ctx.Config().IsEnvFalse("TURBINE_ENABLED") && !disableTurbine {
if j.properties.Javac_shard_size != nil && *(j.properties.Javac_shard_size) > 0 {
enableSharding = true
// Formerly, there was a check here that prevented annotation processors
// from being used when sharding was enabled, as some annotation processors
// do not function correctly in sharded environments. It was removed to
// allow for the use of annotation processors that do function correctly
// with sharding enabled. See: b/77284273.
}
headerJarFileWithoutDepsOrJarjar, j.headerJarFile =
j.compileJavaHeader(ctx, uniqueSrcFiles, srcJars, deps, flags, jarName, kotlinHeaderJars)
if ctx.Failed() {
return
}
}
if len(uniqueSrcFiles) > 0 || len(srcJars) > 0 {
var extraJarDeps android.Paths
if Bool(j.properties.Errorprone.Enabled) {
// If error-prone is enabled, enable errorprone flags on the regular
// build.
flags = enableErrorproneFlags(flags)
} else if ctx.Config().RunErrorProne() && j.properties.Errorprone.Enabled == nil {
// Otherwise, if the RUN_ERROR_PRONE environment variable is set, create
// a new jar file just for compiling with the errorprone compiler to.
// This is because we don't want to cause the java files to get completely
// rebuilt every time the state of the RUN_ERROR_PRONE variable changes.
// We also don't want to run this if errorprone is enabled by default for
// this module, or else we could have duplicated errorprone messages.
errorproneFlags := enableErrorproneFlags(flags)
errorprone := android.PathForModuleOut(ctx, "errorprone", jarName)
transformJavaToClasses(ctx, errorprone, -1, uniqueSrcFiles, srcJars, errorproneFlags, nil,
"errorprone", "errorprone")
extraJarDeps = append(extraJarDeps, errorprone)
}
if enableSharding {
if headerJarFileWithoutDepsOrJarjar != nil {
flags.classpath = append(classpath{headerJarFileWithoutDepsOrJarjar}, flags.classpath...)
}
shardSize := int(*(j.properties.Javac_shard_size))
var shardSrcs []android.Paths
if len(uniqueSrcFiles) > 0 {
shardSrcs = android.ShardPaths(uniqueSrcFiles, shardSize)
for idx, shardSrc := range shardSrcs {
classes := j.compileJavaClasses(ctx, jarName, idx, shardSrc,
nil, flags, extraJarDeps)
jars = append(jars, classes)
}
}
if len(srcJars) > 0 {
classes := j.compileJavaClasses(ctx, jarName, len(shardSrcs),
nil, srcJars, flags, extraJarDeps)
jars = append(jars, classes)
}
} else {
classes := j.compileJavaClasses(ctx, jarName, -1, uniqueSrcFiles, srcJars, flags, extraJarDeps)
jars = append(jars, classes)
}
if ctx.Failed() {
return
}
}
j.srcJarArgs, j.srcJarDeps = resourcePathsToJarArgs(srcFiles), srcFiles
var includeSrcJar android.WritablePath
if Bool(j.properties.Include_srcs) {
includeSrcJar = android.PathForModuleOut(ctx, ctx.ModuleName()+".srcjar")
TransformResourcesToJar(ctx, includeSrcJar, j.srcJarArgs, j.srcJarDeps)
}
dirArgs, dirDeps := ResourceDirsToJarArgs(ctx, j.properties.Java_resource_dirs,
j.properties.Exclude_java_resource_dirs, j.properties.Exclude_java_resources)
fileArgs, fileDeps := ResourceFilesToJarArgs(ctx, j.properties.Java_resources, j.properties.Exclude_java_resources)
extraArgs, extraDeps := resourcePathsToJarArgs(j.extraResources), j.extraResources
var resArgs []string
var resDeps android.Paths
resArgs = append(resArgs, dirArgs...)
resDeps = append(resDeps, dirDeps...)
resArgs = append(resArgs, fileArgs...)
resDeps = append(resDeps, fileDeps...)
resArgs = append(resArgs, extraArgs...)
resDeps = append(resDeps, extraDeps...)
if len(resArgs) > 0 {
resourceJar := android.PathForModuleOut(ctx, "res", jarName)
TransformResourcesToJar(ctx, resourceJar, resArgs, resDeps)
j.resourceJar = resourceJar
if ctx.Failed() {
return
}
}
var resourceJars android.Paths
if j.resourceJar != nil {
resourceJars = append(resourceJars, j.resourceJar)
}
if Bool(j.properties.Include_srcs) {
resourceJars = append(resourceJars, includeSrcJar)
}
resourceJars = append(resourceJars, deps.staticResourceJars...)
if len(resourceJars) > 1 {
combinedJar := android.PathForModuleOut(ctx, "res-combined", jarName)
TransformJarsToJar(ctx, combinedJar, "for resources", resourceJars, android.OptionalPath{},
false, nil, nil)
j.resourceJar = combinedJar
} else if len(resourceJars) == 1 {
j.resourceJar = resourceJars[0]
}
if len(deps.staticJars) > 0 {
jars = append(jars, deps.staticJars...)
}
manifest := j.overrideManifest
if !manifest.Valid() && j.properties.Manifest != nil {
manifest = android.OptionalPathForPath(android.PathForModuleSrc(ctx, *j.properties.Manifest))
}
services := android.PathsForModuleSrc(ctx, j.properties.Services)
if len(services) > 0 {
servicesJar := android.PathForModuleOut(ctx, "services", jarName)
var zipargs []string
for _, file := range services {
serviceFile := file.String()
zipargs = append(zipargs, "-C", filepath.Dir(serviceFile), "-f", serviceFile)
}
rule := zip
args := map[string]string{
"jarArgs": "-P META-INF/services/ " + strings.Join(proptools.NinjaAndShellEscapeList(zipargs), " "),
}
if ctx.Config().UseRBE() && ctx.Config().IsEnvTrue("RBE_ZIP") {
rule = zipRE
args["implicits"] = strings.Join(services.Strings(), ",")
}
ctx.Build(pctx, android.BuildParams{
Rule: rule,
Output: servicesJar,
Implicits: services,
Args: args,
})
jars = append(jars, servicesJar)
}
// Combine the classes built from sources, any manifests, and any static libraries into
// classes.jar. If there is only one input jar this step will be skipped.
var outputFile android.OutputPath
if len(jars) == 1 && !manifest.Valid() {
// Optimization: skip the combine step as there is nothing to do
// TODO(ccross): this leaves any module-info.class files, but those should only come from
// prebuilt dependencies until we support modules in the platform build, so there shouldn't be
// any if len(jars) == 1.
// Transform the single path to the jar into an OutputPath as that is required by the following
// code.
if moduleOutPath, ok := jars[0].(android.ModuleOutPath); ok {
// The path contains an embedded OutputPath so reuse that.
outputFile = moduleOutPath.OutputPath
} else if outputPath, ok := jars[0].(android.OutputPath); ok {
// The path is an OutputPath so reuse it directly.
outputFile = outputPath
} else {
// The file is not in the out directory so create an OutputPath into which it can be copied
// and which the following code can use to refer to it.
combinedJar := android.PathForModuleOut(ctx, "combined", jarName)
ctx.Build(pctx, android.BuildParams{
Rule: android.Cp,
Input: jars[0],
Output: combinedJar,
})
outputFile = combinedJar.OutputPath
}
} else {
combinedJar := android.PathForModuleOut(ctx, "combined", jarName)
TransformJarsToJar(ctx, combinedJar, "for javac", jars, manifest,
false, nil, nil)
outputFile = combinedJar.OutputPath
}
// jarjar implementation jar if necessary
if j.expandJarjarRules != nil {
// Transform classes.jar into classes-jarjar.jar
jarjarFile := android.PathForModuleOut(ctx, "jarjar", jarName).OutputPath
TransformJarJar(ctx, jarjarFile, outputFile, j.expandJarjarRules)
outputFile = jarjarFile
// jarjar resource jar if necessary
if j.resourceJar != nil {
resourceJarJarFile := android.PathForModuleOut(ctx, "res-jarjar", jarName)
TransformJarJar(ctx, resourceJarJarFile, j.resourceJar, j.expandJarjarRules)
j.resourceJar = resourceJarJarFile
}
if ctx.Failed() {
return
}
}
// Check package restrictions if necessary.
if len(j.properties.Permitted_packages) > 0 {
// Time stamp file created by the package check rule.
pkgckFile := android.PathForModuleOut(ctx, "package-check.stamp")
// Create a rule to copy the output jar to another path and add a validate dependency that
// will check that the jar only contains the permitted packages. The new location will become
// the output file of this module.
inputFile := outputFile
outputFile = android.PathForModuleOut(ctx, "package-check", jarName).OutputPath
ctx.Build(pctx, android.BuildParams{
Rule: android.Cp,
Input: inputFile,
Output: outputFile,
// Make sure that any dependency on the output file will cause ninja to run the package check
// rule.
Validation: pkgckFile,
})
// Check packages and create a timestamp file when complete.
CheckJarPackages(ctx, pkgckFile, outputFile, j.properties.Permitted_packages)
if ctx.Failed() {
return
}
}
j.implementationJarFile = outputFile
if j.headerJarFile == nil {
j.headerJarFile = j.implementationJarFile
}
if j.shouldInstrumentInApex(ctx) {
j.properties.Instrument = true
}
// enforce syntax check to jacoco filters for any build (http://b/183622051)
specs := j.jacocoModuleToZipCommand(ctx)
if ctx.Failed() {
return
}
if j.shouldInstrument(ctx) {
outputFile = j.instrument(ctx, flags, outputFile, jarName, specs)
}
// merge implementation jar with resources if necessary
implementationAndResourcesJar := outputFile
if j.resourceJar != nil {
jars := android.Paths{j.resourceJar, implementationAndResourcesJar}
combinedJar := android.PathForModuleOut(ctx, "withres", jarName).OutputPath
TransformJarsToJar(ctx, combinedJar, "for resources", jars, manifest,
false, nil, nil)
implementationAndResourcesJar = combinedJar
}
j.implementationAndResourcesJar = implementationAndResourcesJar
// Enable dex compilation for the APEX variants, unless it is disabled explicitly
apexInfo := ctx.Provider(android.ApexInfoProvider).(android.ApexInfo)
if j.DirectlyInAnyApex() && !apexInfo.IsForPlatform() {
if j.dexProperties.Compile_dex == nil {
j.dexProperties.Compile_dex = proptools.BoolPtr(true)
}
if j.deviceProperties.Hostdex == nil {
j.deviceProperties.Hostdex = proptools.BoolPtr(true)
}
}
if ctx.Device() && (Bool(j.properties.Installable) || Bool(j.dexProperties.Compile_dex)) {
if j.hasCode(ctx) {
if j.shouldInstrumentStatic(ctx) {
j.dexer.extraProguardFlagFiles = append(j.dexer.extraProguardFlagFiles,
android.PathForSource(ctx, "build/make/core/proguard.jacoco.flags"))
}
// Dex compilation
var dexOutputFile android.OutputPath
dexOutputFile = j.dexer.compileDex(ctx, flags, j.MinSdkVersion(ctx), implementationAndResourcesJar, jarName)
if ctx.Failed() {
return
}
// merge dex jar with resources if necessary
if j.resourceJar != nil {
jars := android.Paths{dexOutputFile, j.resourceJar}
combinedJar := android.PathForModuleOut(ctx, "dex-withres", jarName).OutputPath
TransformJarsToJar(ctx, combinedJar, "for dex resources", jars, android.OptionalPath{},
false, nil, nil)
if *j.dexProperties.Uncompress_dex {
combinedAlignedJar := android.PathForModuleOut(ctx, "dex-withres-aligned", jarName).OutputPath
TransformZipAlign(ctx, combinedAlignedJar, combinedJar)
dexOutputFile = combinedAlignedJar
} else {
dexOutputFile = combinedJar
}
}
// Initialize the hiddenapi structure.
j.initHiddenAPI(ctx, makeDexJarPathFromPath(dexOutputFile), j.implementationJarFile, j.dexProperties.Uncompress_dex)
// Encode hidden API flags in dex file, if needed.
dexOutputFile = j.hiddenAPIEncodeDex(ctx, dexOutputFile)
j.dexJarFile = makeDexJarPathFromPath(dexOutputFile)
// Dexpreopting
j.dexpreopt(ctx, dexOutputFile)
outputFile = dexOutputFile
} else {
// There is no code to compile into a dex jar, make sure the resources are propagated
// to the APK if this is an app.
outputFile = implementationAndResourcesJar
j.dexJarFile = makeDexJarPathFromPath(j.resourceJar)
}
if ctx.Failed() {
return
}
} else {
outputFile = implementationAndResourcesJar
}
if ctx.Device() {
lintSDKVersion := func(sdkSpec android.SdkSpec) int {
if v := sdkSpec.ApiLevel; !v.IsPreview() {
return v.FinalInt()
} else {
// When running metalava, we pass --version-codename. When that value
// is not REL, metalava will add 1 to the --current-version argument.
// On old branches, PLATFORM_SDK_VERSION is the latest version (for that
// branch) and the codename is REL, except potentially on the most
// recent non-master branch. On that branch, it goes through two other
// phases before it gets to the phase previously described:
// - PLATFORM_SDK_VERSION has not been updated yet, and the codename
// is not rel. This happens for most of the internal branch's life
// while the branch has been cut but is still under active development.
// - PLATFORM_SDK_VERSION has been set, but the codename is still not
// REL. This happens briefly during the release process. During this
// state the code to add --current-version is commented out, and then
// that commenting out is reverted after the codename is set to REL.
// On the master branch, the PLATFORM_SDK_VERSION always represents a
// prior version and the codename is always non-REL.
//
// We need to add one here to match metalava adding 1. Technically
// this means that in the state described in the second bullet point
// above, this number is 1 higher than it should be.
return ctx.Config().PlatformSdkVersion().FinalInt() + 1
}
}
j.linter.name = ctx.ModuleName()
j.linter.srcs = srcFiles
j.linter.srcJars = srcJars
j.linter.classpath = append(append(android.Paths(nil), flags.bootClasspath...), flags.classpath...)
j.linter.classes = j.implementationJarFile
j.linter.minSdkVersion = lintSDKVersion(j.MinSdkVersion(ctx))
j.linter.targetSdkVersion = lintSDKVersion(j.TargetSdkVersion(ctx))
j.linter.compileSdkVersion = lintSDKVersion(j.SdkVersion(ctx))
j.linter.compileSdkKind = j.SdkVersion(ctx).Kind
j.linter.javaLanguageLevel = flags.javaVersion.String()
j.linter.kotlinLanguageLevel = "1.3"
if !apexInfo.IsForPlatform() && ctx.Config().UnbundledBuildApps() {
j.linter.buildModuleReportZip = true
}
j.linter.lint(ctx)
}
ctx.CheckbuildFile(outputFile)
ctx.SetProvider(JavaInfoProvider, JavaInfo{
HeaderJars: android.PathsIfNonNil(j.headerJarFile),
ImplementationAndResourcesJars: android.PathsIfNonNil(j.implementationAndResourcesJar),
ImplementationJars: android.PathsIfNonNil(j.implementationJarFile),
ResourceJars: android.PathsIfNonNil(j.resourceJar),
AidlIncludeDirs: j.exportAidlIncludeDirs,
SrcJarArgs: j.srcJarArgs,
SrcJarDeps: j.srcJarDeps,
ExportedPlugins: j.exportedPluginJars,
ExportedPluginClasses: j.exportedPluginClasses,
ExportedPluginDisableTurbine: j.exportedDisableTurbine,
JacocoReportClassesFile: j.jacocoReportClassesFile,
})
// Save the output file with no relative path so that it doesn't end up in a subdirectory when used as a resource
j.outputFile = outputFile.WithoutRel()
}
func (j *Module) useCompose() bool {
return android.InList("androidx.compose.runtime_runtime", j.properties.Static_libs)
}
// Returns a copy of the supplied flags, but with all the errorprone-related
// fields copied to the regular build's fields.
func enableErrorproneFlags(flags javaBuilderFlags) javaBuilderFlags {
flags.processorPath = append(flags.errorProneProcessorPath, flags.processorPath...)
if len(flags.errorProneExtraJavacFlags) > 0 {
if len(flags.javacFlags) > 0 {
flags.javacFlags += " " + flags.errorProneExtraJavacFlags
} else {
flags.javacFlags = flags.errorProneExtraJavacFlags
}
}
return flags
}
func (j *Module) compileJavaClasses(ctx android.ModuleContext, jarName string, idx int,
srcFiles, srcJars android.Paths, flags javaBuilderFlags, extraJarDeps android.Paths) android.WritablePath {
kzipName := pathtools.ReplaceExtension(jarName, "kzip")
if idx >= 0 {
kzipName = strings.TrimSuffix(jarName, filepath.Ext(jarName)) + strconv.Itoa(idx) + ".kzip"
jarName += strconv.Itoa(idx)
}
classes := android.PathForModuleOut(ctx, "javac", jarName).OutputPath
TransformJavaToClasses(ctx, classes, idx, srcFiles, srcJars, flags, extraJarDeps)
if ctx.Config().EmitXrefRules() {
extractionFile := android.PathForModuleOut(ctx, kzipName)
emitXrefRule(ctx, extractionFile, idx, srcFiles, srcJars, flags, extraJarDeps)
j.kytheFiles = append(j.kytheFiles, extractionFile)
}
return classes
}
// Check for invalid kotlinc flags. Only use this for flags explicitly passed by the user,
// since some of these flags may be used internally.
func CheckKotlincFlags(ctx android.ModuleContext, flags []string) {
for _, flag := range flags {
flag = strings.TrimSpace(flag)
if !strings.HasPrefix(flag, "-") {
ctx.PropertyErrorf("kotlincflags", "Flag `%s` must start with `-`", flag)
} else if strings.HasPrefix(flag, "-Xintellij-plugin-root") {
ctx.PropertyErrorf("kotlincflags",
"Bad flag: `%s`, only use internal compiler for consistency.", flag)
} else if inList(flag, config.KotlincIllegalFlags) {
ctx.PropertyErrorf("kotlincflags", "Flag `%s` already used by build system", flag)
} else if flag == "-include-runtime" {
ctx.PropertyErrorf("kotlincflags", "Bad flag: `%s`, do not include runtime.", flag)
} else {
args := strings.Split(flag, " ")
if args[0] == "-kotlin-home" {
ctx.PropertyErrorf("kotlincflags",
"Bad flag: `%s`, kotlin home already set to default (path to kotlinc in the repo).", flag)
}
}
}
}
func (j *Module) compileJavaHeader(ctx android.ModuleContext, srcFiles, srcJars android.Paths,
deps deps, flags javaBuilderFlags, jarName string,
extraJars android.Paths) (headerJar, jarjarAndDepsHeaderJar android.Path) {
var jars android.Paths
if len(srcFiles) > 0 || len(srcJars) > 0 {
// Compile java sources into turbine.jar.
turbineJar := android.PathForModuleOut(ctx, "turbine", jarName)
TransformJavaToHeaderClasses(ctx, turbineJar, srcFiles, srcJars, flags)
if ctx.Failed() {
return nil, nil
}
jars = append(jars, turbineJar)
headerJar = turbineJar
}
jars = append(jars, extraJars...)
// Combine any static header libraries into classes-header.jar. If there is only
// one input jar this step will be skipped.
jars = append(jars, deps.staticHeaderJars...)
// we cannot skip the combine step for now if there is only one jar
// since we have to strip META-INF/TRANSITIVE dir from turbine.jar
combinedJar := android.PathForModuleOut(ctx, "turbine-combined", jarName)
TransformJarsToJar(ctx, combinedJar, "for turbine", jars, android.OptionalPath{},
false, nil, []string{"META-INF/TRANSITIVE"})
jarjarAndDepsHeaderJar = combinedJar
if j.expandJarjarRules != nil {
// Transform classes.jar into classes-jarjar.jar
jarjarFile := android.PathForModuleOut(ctx, "turbine-jarjar", jarName)
TransformJarJar(ctx, jarjarFile, jarjarAndDepsHeaderJar, j.expandJarjarRules)
jarjarAndDepsHeaderJar = jarjarFile
if ctx.Failed() {
return nil, nil
}
}
return headerJar, jarjarAndDepsHeaderJar
}
func (j *Module) instrument(ctx android.ModuleContext, flags javaBuilderFlags,
classesJar android.Path, jarName string, specs string) android.OutputPath {
jacocoReportClassesFile := android.PathForModuleOut(ctx, "jacoco-report-classes", jarName)
instrumentedJar := android.PathForModuleOut(ctx, "jacoco", jarName).OutputPath
jacocoInstrumentJar(ctx, instrumentedJar, jacocoReportClassesFile, classesJar, specs)
j.jacocoReportClassesFile = jacocoReportClassesFile
return instrumentedJar
}
func (j *Module) HeaderJars() android.Paths {
if j.headerJarFile == nil {
return nil
}
return android.Paths{j.headerJarFile}
}
func (j *Module) ImplementationJars() android.Paths {
if j.implementationJarFile == nil {
return nil
}
return android.Paths{j.implementationJarFile}
}
func (j *Module) DexJarBuildPath() OptionalDexJarPath {
return j.dexJarFile
}
func (j *Module) DexJarInstallPath() android.Path {
return j.installFile
}
func (j *Module) ImplementationAndResourcesJars() android.Paths {
if j.implementationAndResourcesJar == nil {
return nil
}
return android.Paths{j.implementationAndResourcesJar}
}
func (j *Module) AidlIncludeDirs() android.Paths {
// exportAidlIncludeDirs is type android.Paths already
return j.exportAidlIncludeDirs
}
func (j *Module) ClassLoaderContexts() dexpreopt.ClassLoaderContextMap {
return j.classLoaderContexts
}
// Collect information for opening IDE project files in java/jdeps.go.
func (j *Module) IDEInfo(dpInfo *android.IdeInfo) {
dpInfo.Deps = append(dpInfo.Deps, j.CompilerDeps()...)
dpInfo.Srcs = append(dpInfo.Srcs, j.expandIDEInfoCompiledSrcs...)
dpInfo.SrcJars = append(dpInfo.SrcJars, j.compiledSrcJars.Strings()...)
dpInfo.Aidl_include_dirs = append(dpInfo.Aidl_include_dirs, j.deviceProperties.Aidl.Include_dirs...)
if j.expandJarjarRules != nil {
dpInfo.Jarjar_rules = append(dpInfo.Jarjar_rules, j.expandJarjarRules.String())
}
dpInfo.Paths = append(dpInfo.Paths, j.modulePaths...)
dpInfo.Static_libs = append(dpInfo.Static_libs, j.properties.Static_libs...)
dpInfo.Libs = append(dpInfo.Libs, j.properties.Libs...)
}
func (j *Module) CompilerDeps() []string {
jdeps := []string{}
jdeps = append(jdeps, j.properties.Libs...)
jdeps = append(jdeps, j.properties.Static_libs...)
return jdeps
}
func (j *Module) hasCode(ctx android.ModuleContext) bool {
srcFiles := android.PathsForModuleSrcExcludes(ctx, j.properties.Srcs, j.properties.Exclude_srcs)
return len(srcFiles) > 0 || len(ctx.GetDirectDepsWithTag(staticLibTag)) > 0
}
// Implements android.ApexModule
func (j *Module) DepIsInSameApex(ctx android.BaseModuleContext, dep android.Module) bool {
return j.depIsInSameApex(ctx, dep)
}
// Implements android.ApexModule
func (j *Module) ShouldSupportSdkVersion(ctx android.BaseModuleContext, sdkVersion android.ApiLevel) error {
sdkSpec := j.MinSdkVersion(ctx)
if !sdkSpec.Specified() {
return fmt.Errorf("min_sdk_version is not specified")
}
if sdkSpec.Kind == android.SdkCore {
return nil
}
if sdkSpec.ApiLevel.GreaterThan(sdkVersion) {
return fmt.Errorf("newer SDK(%v)", sdkSpec.ApiLevel)
}
return nil
}
func (j *Module) Stem() string {
return proptools.StringDefault(j.overridableDeviceProperties.Stem, j.Name())
}
func (j *Module) JacocoReportClassesFile() android.Path {
return j.jacocoReportClassesFile
}
func (j *Module) IsInstallable() bool {
return Bool(j.properties.Installable)
}
type sdkLinkType int
const (
// TODO(jiyong) rename these for better readability. Make the allowed
// and disallowed link types explicit
// order is important here. See rank()
javaCore sdkLinkType = iota
javaSdk
javaSystem
javaModule
javaSystemServer
javaPlatform
)
func (lt sdkLinkType) String() string {
switch lt {
case javaCore:
return "core Java API"
case javaSdk:
return "Android API"
case javaSystem:
return "system API"
case javaModule:
return "module API"
case javaSystemServer:
return "system server API"
case javaPlatform:
return "private API"
default:
panic(fmt.Errorf("unrecognized linktype: %d", lt))
}
}
// rank determines the total order among sdkLinkType. An SDK link type of rank A can link to
// another SDK link type of rank B only when B <= A. For example, a module linking to Android SDK
// can't statically depend on modules that use Platform API.
func (lt sdkLinkType) rank() int {
return int(lt)
}
type moduleWithSdkDep interface {
android.Module
getSdkLinkType(ctx android.BaseModuleContext, name string) (ret sdkLinkType, stubs bool)
}
func (m *Module) getSdkLinkType(ctx android.BaseModuleContext, name string) (ret sdkLinkType, stubs bool) {
switch name {
case "core.current.stubs", "legacy.core.platform.api.stubs", "stable.core.platform.api.stubs",
"stub-annotations", "private-stub-annotations-jar",
"core-lambda-stubs", "core-generated-annotation-stubs":
return javaCore, true
case "android_stubs_current":
return javaSdk, true
case "android_system_stubs_current":
return javaSystem, true
case "android_module_lib_stubs_current":
return javaModule, true
case "android_system_server_stubs_current":
return javaSystemServer, true
case "android_test_stubs_current":
return javaSystem, true
}
if stub, linkType := moduleStubLinkType(name); stub {
return linkType, true
}
ver := m.SdkVersion(ctx)
switch ver.Kind {
case android.SdkCore:
return javaCore, false
case android.SdkSystem:
return javaSystem, false
case android.SdkPublic:
return javaSdk, false
case android.SdkModule:
return javaModule, false
case android.SdkSystemServer:
return javaSystemServer, false
case android.SdkPrivate, android.SdkNone, android.SdkCorePlatform, android.SdkTest:
return javaPlatform, false
}
if !ver.Valid() {
panic(fmt.Errorf("sdk_version is invalid. got %q", ver.Raw))
}
return javaSdk, false
}
// checkSdkLinkType make sures the given dependency doesn't have a lower SDK link type rank than
// this module's. See the comment on rank() for details and an example.
func (j *Module) checkSdkLinkType(
ctx android.ModuleContext, dep moduleWithSdkDep, tag dependencyTag) {
if ctx.Host() {
return
}
myLinkType, stubs := j.getSdkLinkType(ctx, ctx.ModuleName())
if stubs {
return
}
depLinkType, _ := dep.getSdkLinkType(ctx, ctx.OtherModuleName(dep))
if myLinkType.rank() < depLinkType.rank() {
ctx.ModuleErrorf("compiles against %v, but dependency %q is compiling against %v. "+
"In order to fix this, consider adjusting sdk_version: OR platform_apis: "+
"property of the source or target module so that target module is built "+
"with the same or smaller API set when compared to the source.",
myLinkType, ctx.OtherModuleName(dep), depLinkType)
}
}
func (j *Module) collectDeps(ctx android.ModuleContext) deps {
var deps deps
if ctx.Device() {
sdkDep := decodeSdkDep(ctx, android.SdkContext(j))
if sdkDep.invalidVersion {
ctx.AddMissingDependencies(sdkDep.bootclasspath)
ctx.AddMissingDependencies(sdkDep.java9Classpath)
} else if sdkDep.useFiles {
// sdkDep.jar is actually equivalent to turbine header.jar.
deps.classpath = append(deps.classpath, sdkDep.jars...)
deps.dexClasspath = append(deps.dexClasspath, sdkDep.jars...)
deps.aidlPreprocess = sdkDep.aidl
} else {
deps.aidlPreprocess = sdkDep.aidl
}
}
sdkLinkType, _ := j.getSdkLinkType(ctx, ctx.ModuleName())
ctx.VisitDirectDeps(func(module android.Module) {
otherName := ctx.OtherModuleName(module)
tag := ctx.OtherModuleDependencyTag(module)
if IsJniDepTag(tag) {
// Handled by AndroidApp.collectAppDeps
return
}
if tag == certificateTag {
// Handled by AndroidApp.collectAppDeps
return
}
if dep, ok := module.(SdkLibraryDependency); ok {
switch tag {
case libTag:
depHeaderJars := dep.SdkHeaderJars(ctx, j.SdkVersion(ctx))
deps.classpath = append(deps.classpath, depHeaderJars...)
deps.dexClasspath = append(deps.dexClasspath, depHeaderJars...)
case staticLibTag:
ctx.ModuleErrorf("dependency on java_sdk_library %q can only be in libs", otherName)
}
} else if ctx.OtherModuleHasProvider(module, JavaInfoProvider) {
dep := ctx.OtherModuleProvider(module, JavaInfoProvider).(JavaInfo)
if sdkLinkType != javaPlatform &&
ctx.OtherModuleHasProvider(module, SyspropPublicStubInfoProvider) {
// dep is a sysprop implementation library, but this module is not linking against
// the platform, so it gets the sysprop public stubs library instead. Replace
// dep with the JavaInfo from the SyspropPublicStubInfoProvider.
syspropDep := ctx.OtherModuleProvider(module, SyspropPublicStubInfoProvider).(SyspropPublicStubInfo)
dep = syspropDep.JavaInfo
}
switch tag {
case bootClasspathTag:
deps.bootClasspath = append(deps.bootClasspath, dep.HeaderJars...)
case libTag, instrumentationForTag:
deps.classpath = append(deps.classpath, dep.HeaderJars...)
deps.dexClasspath = append(deps.dexClasspath, dep.HeaderJars...)
deps.aidlIncludeDirs = append(deps.aidlIncludeDirs, dep.AidlIncludeDirs...)
addPlugins(&deps, dep.ExportedPlugins, dep.ExportedPluginClasses...)
deps.disableTurbine = deps.disableTurbine || dep.ExportedPluginDisableTurbine
case java9LibTag:
deps.java9Classpath = append(deps.java9Classpath, dep.HeaderJars...)
case staticLibTag:
deps.classpath = append(deps.classpath, dep.HeaderJars...)
deps.staticJars = append(deps.staticJars, dep.ImplementationJars...)
deps.staticHeaderJars = append(deps.staticHeaderJars, dep.HeaderJars...)
deps.staticResourceJars = append(deps.staticResourceJars, dep.ResourceJars...)
deps.aidlIncludeDirs = append(deps.aidlIncludeDirs, dep.AidlIncludeDirs...)
addPlugins(&deps, dep.ExportedPlugins, dep.ExportedPluginClasses...)
// Turbine doesn't run annotation processors, so any module that uses an
// annotation processor that generates API is incompatible with the turbine
// optimization.
deps.disableTurbine = deps.disableTurbine || dep.ExportedPluginDisableTurbine
case pluginTag:
if plugin, ok := module.(*Plugin); ok {
if plugin.pluginProperties.Processor_class != nil {
addPlugins(&deps, dep.ImplementationAndResourcesJars, *plugin.pluginProperties.Processor_class)
} else {
addPlugins(&deps, dep.ImplementationAndResourcesJars)
}
// Turbine doesn't run annotation processors, so any module that uses an
// annotation processor that generates API is incompatible with the turbine
// optimization.
deps.disableTurbine = deps.disableTurbine || Bool(plugin.pluginProperties.Generates_api)
} else {
ctx.PropertyErrorf("plugins", "%q is not a java_plugin module", otherName)
}
case errorpronePluginTag:
if _, ok := module.(*Plugin); ok {
deps.errorProneProcessorPath = append(deps.errorProneProcessorPath, dep.ImplementationAndResourcesJars...)
} else {
ctx.PropertyErrorf("plugins", "%q is not a java_plugin module", otherName)
}
case exportedPluginTag:
if plugin, ok := module.(*Plugin); ok {
j.exportedPluginJars = append(j.exportedPluginJars, dep.ImplementationAndResourcesJars...)
if plugin.pluginProperties.Processor_class != nil {
j.exportedPluginClasses = append(j.exportedPluginClasses, *plugin.pluginProperties.Processor_class)
}
// Turbine doesn't run annotation processors, so any module that uses an
// annotation processor that generates API is incompatible with the turbine
// optimization.
j.exportedDisableTurbine = Bool(plugin.pluginProperties.Generates_api)
} else {
ctx.PropertyErrorf("exported_plugins", "%q is not a java_plugin module", otherName)
}
case kotlinStdlibTag:
deps.kotlinStdlib = append(deps.kotlinStdlib, dep.HeaderJars...)
case kotlinAnnotationsTag:
deps.kotlinAnnotations = dep.HeaderJars
case kotlinPluginTag:
deps.kotlinPlugins = append(deps.kotlinPlugins, dep.ImplementationAndResourcesJars...)
case syspropPublicStubDepTag:
// This is a sysprop implementation library, forward the JavaInfoProvider from
// the corresponding sysprop public stub library as SyspropPublicStubInfoProvider.
ctx.SetProvider(SyspropPublicStubInfoProvider, SyspropPublicStubInfo{
JavaInfo: dep,
})
}
} else if dep, ok := module.(android.SourceFileProducer); ok {
switch tag {
case libTag:
checkProducesJars(ctx, dep)
deps.classpath = append(deps.classpath, dep.Srcs()...)
deps.dexClasspath = append(deps.classpath, dep.Srcs()...)
case staticLibTag:
checkProducesJars(ctx, dep)
deps.classpath = append(deps.classpath, dep.Srcs()...)
deps.staticJars = append(deps.staticJars, dep.Srcs()...)
deps.staticHeaderJars = append(deps.staticHeaderJars, dep.Srcs()...)
}
} else {
switch tag {
case bootClasspathTag:
// If a system modules dependency has been added to the bootclasspath
// then add its libs to the bootclasspath.
sm := module.(SystemModulesProvider)
deps.bootClasspath = append(deps.bootClasspath, sm.HeaderJars()...)
case systemModulesTag:
if deps.systemModules != nil {
panic("Found two system module dependencies")
}
sm := module.(SystemModulesProvider)
outputDir, outputDeps := sm.OutputDirAndDeps()
deps.systemModules = &systemModules{outputDir, outputDeps}
case instrumentationForTag:
ctx.PropertyErrorf("instrumentation_for", "dependency %q of type %q does not provide JavaInfo so is unsuitable for use with this property", ctx.OtherModuleName(module), ctx.OtherModuleType(module))
}
}
addCLCFromDep(ctx, module, j.classLoaderContexts)
})
return deps
}
func addPlugins(deps *deps, pluginJars android.Paths, pluginClasses ...string) {
deps.processorPath = append(deps.processorPath, pluginJars...)
deps.processorClasses = append(deps.processorClasses, pluginClasses...)
}
// TODO(b/132357300) Generalize SdkLibrarComponentDependency to non-SDK libraries and merge with
// this interface.
type ProvidesUsesLib interface {
ProvidesUsesLib() *string
}
func (j *Module) ProvidesUsesLib() *string {
return j.usesLibraryProperties.Provides_uses_lib
}
type ModuleWithStem interface {
Stem() string
}
var _ ModuleWithStem = (*Module)(nil)
func (j *Module) ConvertWithBp2build(ctx android.TopDownMutatorContext) {
switch ctx.ModuleType() {
case "java_library", "java_library_host", "java_library_static":
if lib, ok := ctx.Module().(*Library); ok {
javaLibraryBp2Build(ctx, lib)
}
case "java_binary_host":
if binary, ok := ctx.Module().(*Binary); ok {
javaBinaryHostBp2Build(ctx, binary)
}
}
}