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platform_build_soong/java/base.go
Jihoon Kang 690df2e31b Instrument impl library belonging to apexes 
https://r.android.com/3094444 has removed instrumentation from the
implementation library of the java sdk library. However, given that the
top level java sdk library was not being instrumented before removing
the compilation action, there is no way to get the coverage data for the
java sdk library included in the mainline modules with the
aforementioned change.

As seen in b/340174053, instrumenting all impl libraries by default
may lead to double instrumentation execution time error in some edge
cases (especially with make to soong dependency).

Given the above two conditions, this change allows instrumentation for
the implementation library of the java sdk library that belongs to
apex(es).

Test: lunch husky-trunk_staging-userdebug && EMMA_INSTRUMENT=true EMMA_INSTRUMENT_FRAMEWORK=true m droid dist
Test: DIST_DIR=dist_dir TARGET_BUILD_VARIANT=userdebug PRODUCT=mainline_modules_x86_64 COVERAGE_MODULES="uwb" ./vendor/google/build/build_unbundled_coverage_mainline_module.sh
Bug: 341170242
Change-Id: I175e02f61e139296f5a177e6fc1c3ded760ac028
2024-05-22 04:27:38 +00:00

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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"
"reflect"
"slices"
"strconv"
"strings"
"github.com/google/blueprint"
"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"`
// list of java libraries that should not be used to build this module
Exclude_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, used as prefix to generate repackage rule
Jarjar_prefix *string
// 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
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
}
// If true, then jacocoagent is automatically added as a libs dependency so that
// r8 will not strip instrumentation classes out of dexed libraries.
Instrument bool `blueprint:"mutated"`
// If true, then the module supports statically including the jacocoagent
// into the library.
Supports_static_instrumentation 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
// Additional srcJars tacked in by GeneratedJavaLibraryModule
Generated_srcjars []android.Path `android:"mutated"`
// intermediate aconfig cache file tacked in by GeneratedJavaLibraryModule
Aconfig_Cache_files []android.Path `android:"mutated"`
// If true, then only the headers are built and not the implementation jar.
Headers_only *bool
// A list of files or dependencies to make available to the build sandbox. This is
// useful if source files are symlinks, the targets of the symlinks must be listed here.
// Note that currently not all actions implemented by android_apps are sandboxed, so you
// may only see this being necessary in lint builds.
Compile_data []string `android:"path"`
// Property signifying whether the module compiles stubs or not.
// Should be set to true when srcs of this module are stub files.
// This property does not need to be set to true when the module depends on
// the stubs via libs, but should be set to true when the module depends on
// the stubs via static libs.
Is_stubs_module *bool
}
// 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 an empty string, which compiles the module against the private platform APIs.
// 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 maxSdkVersion properties of permission and uses-permission tags.
// Defaults to empty string "". See sdk_version for possible values.
Replace_max_sdk_version_placeholder *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"`
HiddenAPIPackageProperties
HiddenAPIFlagFileProperties
}
// Properties that can be overridden by overriding module (e.g. override_android_app)
type OverridableProperties 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
// Functionality common to Module and Import.
embeddableInModuleAndImport
properties CommonProperties
protoProperties android.ProtoProperties
deviceProperties DeviceProperties
overridableProperties OverridableProperties
sourceProperties android.SourceProperties
// jar file containing header classes including static library dependencies, suitable for
// inserting into the bootclasspath/classpath of another compile
headerJarFile android.Path
repackagedHeaderJarFile 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
// the source files of this module and all its static dependencies
transitiveSrcFiles *android.DepSet[android.Path]
// 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 unique .java and .kt source files
uniqueSrcFiles android.Paths
// list of srcjars that was passed to javac
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
// jarjar rule for inherited jarjar rules
repackageJarjarRules 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
hideApexVariantFromMake bool
sdkVersion android.SdkSpec
minSdkVersion android.ApiLevel
maxSdkVersion android.ApiLevel
sourceExtensions []string
annoSrcJars android.Paths
// output file name based on Stem property.
// This should be set in every ModuleWithStem's GenerateAndroidBuildActions
// or the module should override Stem().
stem string
// Values that will be set in the JarJarProvider data for jarjar repackaging,
// and merged with our dependencies' rules.
jarjarRenameRules map[string]string
stubsLinkType StubsLinkType
// Paths to the aconfig intermediate cache files that are provided by the
// java_aconfig_library or java_library modules that are statically linked
// to this module. Does not contain cache files from all transitive dependencies.
aconfigCacheFiles android.Paths
}
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, sdkLibTag, 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) checkHeadersOnly(ctx android.ModuleContext) {
if _, ok := ctx.Module().(android.SdkContext); ok {
headersOnly := proptools.Bool(j.properties.Headers_only)
installable := proptools.Bool(j.properties.Installable)
if headersOnly && installable {
ctx.PropertyErrorf("headers_only", "This module has conflicting settings. headers_only is true which, which means this module doesn't generate an implementation jar. However installable is set to true.")
}
}
}
func (j *Module) addHostProperties() {
j.AddProperties(
&j.properties,
&j.overridableProperties,
&j.protoProperties,
&j.usesLibraryProperties,
)
}
func (j *Module) addHostAndDeviceProperties() {
j.addHostProperties()
j.AddProperties(
&j.deviceProperties,
&j.dexer.dexProperties,
&j.dexpreoptProperties,
&j.linter.properties,
)
}
// provideHiddenAPIPropertyInfo populates a HiddenAPIPropertyInfo from hidden API properties and
// makes it available through the hiddenAPIPropertyInfoProvider.
func (j *Module) provideHiddenAPIPropertyInfo(ctx android.ModuleContext) {
hiddenAPIInfo := newHiddenAPIPropertyInfo()
// Populate with flag file paths from the properties.
hiddenAPIInfo.extractFlagFilesFromProperties(ctx, &j.deviceProperties.HiddenAPIFlagFileProperties)
// Populate with package rules from the properties.
hiddenAPIInfo.extractPackageRulesFromProperties(&j.deviceProperties.HiddenAPIPackageProperties)
android.SetProvider(ctx, hiddenAPIPropertyInfoProvider, hiddenAPIInfo)
}
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 ".hjar":
return android.Paths{j.headerJarFile}, 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)
case ".generated_srcjars":
return j.properties.Generated_srcjars, nil
case ".lint":
if j.linter.outputs.xml != nil {
return android.Paths{j.linter.outputs.xml}, 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.properties.Supports_static_instrumentation &&
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, _ := android.ModuleProvider(ctx, android.ApexInfoProvider)
isJacocoAgent := ctx.ModuleName() == "jacocoagent"
isApexVariantSdkLibImplLib := j.SdkLibraryName() != nil &&
strings.HasSuffix(j.Name(), ".impl") &&
len(apexInfo.InApexVariants) > 0
if (j.DirectlyInAnyApex() || isApexVariantSdkLibImplLib) && !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) setInstrument(value bool) {
j.properties.Instrument = value
}
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.ApiLevel {
if j.deviceProperties.Min_sdk_version != nil {
return android.ApiLevelFrom(ctx, *j.deviceProperties.Min_sdk_version)
}
return j.SdkVersion(ctx).ApiLevel
}
func (j *Module) GetDeviceProperties() *DeviceProperties {
return &j.deviceProperties
}
func (j *Module) MaxSdkVersion(ctx android.EarlyModuleContext) android.ApiLevel {
if j.deviceProperties.Max_sdk_version != nil {
return android.ApiLevelFrom(ctx, *j.deviceProperties.Max_sdk_version)
}
// Default is PrivateApiLevel
return android.SdkSpecPrivate.ApiLevel
}
func (j *Module) ReplaceMaxSdkVersionPlaceholder(ctx android.EarlyModuleContext) android.ApiLevel {
if j.deviceProperties.Replace_max_sdk_version_placeholder != nil {
return android.ApiLevelFrom(ctx, *j.deviceProperties.Replace_max_sdk_version_placeholder)
}
// Default is PrivateApiLevel
return android.SdkSpecPrivate.ApiLevel
}
func (j *Module) MinSdkVersionString() string {
return j.minSdkVersion.String()
}
func (j *Module) TargetSdkVersion(ctx android.EarlyModuleContext) android.ApiLevel {
if j.deviceProperties.Target_sdk_version != nil {
return android.ApiLevelFrom(ctx, *j.deviceProperties.Target_sdk_version)
}
return j.SdkVersion(ctx).ApiLevel
}
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...)
j.properties.Static_libs = android.RemoveListFromList(j.properties.Static_libs, j.properties.Exclude_static_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.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 or it's
// explicitly listed in the optional_uses_libs property.
tag := usesLibReqTag
if android.InList(*lib, dexpreopt.OptionalCompatUsesLibs) ||
android.InList(*lib, j.usesLibrary.usesLibraryProperties.Optional_uses_libs) {
tag = usesLibOptTag
}
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")
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, aidlSrcs 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
var includeDirs 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 {
includeDirs = append(includeDirs, aidlIncludeDirs...)
}
if len(j.exportAidlIncludeDirs) > 0 {
includeDirs = append(includeDirs, j.exportAidlIncludeDirs...)
}
if len(aidlIncludes) > 0 {
includeDirs = append(includeDirs, aidlIncludes...)
}
includeDirs = append(includeDirs, android.PathForModuleSrc(ctx))
if src := android.ExistentPathForSource(ctx, ctx.ModuleDir(), "src"); src.Valid() {
includeDirs = append(includeDirs, src.Path())
}
flags = append(flags, android.JoinWithPrefix(includeDirs.Strings(), "-I"))
// add flags for dirs containing AIDL srcs that haven't been specified yet
flags = append(flags, genAidlIncludeFlags(ctx, aidlSrcs, includeDirs))
sdkVersion := (j.SdkVersion(ctx)).Kind
defaultTrace := ((sdkVersion == android.SdkSystemServer) || (sdkVersion == android.SdkCore) || (sdkVersion == android.SdkCorePlatform) || (sdkVersion == android.SdkModule) || (sdkVersion == android.SdkSystem))
if proptools.BoolDefault(j.deviceProperties.Aidl.Generate_traces, defaultTrace) {
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).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().RunningInsideUnitTest() {
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
return flags
}
func (j *Module) collectJavacFlags(
ctx android.ModuleContext, flags javaBuilderFlags, srcFiles android.Paths) javaBuilderFlags {
// javac flags.
javacFlags := j.properties.Javacflags
var needsDebugInfo bool
needsDebugInfo = false
for _, flag := range javacFlags {
if strings.HasPrefix(flag, "-g") {
needsDebugInfo = true
}
}
if ctx.Config().MinimizeJavaDebugInfo() && !ctx.Host() && !needsDebugInfo {
// 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...)
} else if len(j.properties.Openjdk9.Javacflags) > 0 {
// java version defaults higher than openjdk 9, these conditionals should no longer be necessary
ctx.PropertyErrorf("openjdk9.javacflags", "JDK version defaults to higher than 9")
}
if flags.javaVersion.usesJavaModules() {
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()}
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) addGeneratedSrcJars(path android.Path) {
j.properties.Generated_srcjars = append(j.properties.Generated_srcjars, path)
}
func (j *Module) compile(ctx android.ModuleContext, extraSrcJars, extraClasspathJars, extraCombinedJars android.Paths) {
// Auto-propagating jarjar rules
jarjarProviderData := j.collectJarJarRules(ctx)
if jarjarProviderData != nil {
android.SetProvider(ctx, JarJarProvider, *jarjarProviderData)
text := getJarJarRuleText(jarjarProviderData)
if text != "" {
ruleTextFile := android.PathForModuleOut(ctx, "repackaged-jarjar", "repackaging.txt")
android.WriteFileRule(ctx, ruleTextFile, text)
j.repackageJarjarRules = ruleTextFile
}
}
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...)
} else if len(j.properties.Openjdk9.Javacflags) > 0 {
// java version defaults higher than openjdk 9, these conditionals should no longer be necessary
ctx.PropertyErrorf("openjdk9.srcs", "JDK version defaults to higher than 9")
}
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")
}
aidlSrcs := srcFiles.FilterByExt(".aidl")
flags.aidlFlags, flags.aidlDeps = j.aidlFlags(ctx, deps.aidlPreprocess, deps.aidlIncludeDirs, aidlSrcs)
nonGeneratedSrcJars := srcFiles.FilterByExt(".srcjar")
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...)
srcJars = append(srcJars, extraSrcJars...)
srcJars = append(srcJars, j.properties.Generated_srcjars...)
srcFiles = srcFiles.FilterOutByExt(".srcjar")
if j.properties.Jarjar_rules != nil {
j.expandJarjarRules = android.PathForModuleSrc(ctx, *j.properties.Jarjar_rules)
}
jarName := j.Stem() + ".jar"
var uniqueJavaFiles android.Paths
set := make(map[string]bool)
for _, v := range srcFiles.FilterByExt(".java") {
if _, found := set[v.String()]; !found {
set[v.String()] = true
uniqueJavaFiles = append(uniqueJavaFiles, v)
}
}
var uniqueKtFiles android.Paths
for _, v := range srcFiles.FilterByExt(".kt") {
if _, found := set[v.String()]; !found {
set[v.String()] = true
uniqueKtFiles = append(uniqueKtFiles, v)
}
}
var uniqueSrcFiles android.Paths
uniqueSrcFiles = append(uniqueSrcFiles, uniqueJavaFiles...)
uniqueSrcFiles = append(uniqueSrcFiles, uniqueKtFiles...)
j.uniqueSrcFiles = uniqueSrcFiles
android.SetProvider(ctx, blueprint.SrcsFileProviderKey, blueprint.SrcsFileProviderData{SrcPaths: uniqueSrcFiles.Strings()})
// 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 and .kt files for AIDEGen
j.expandIDEInfoCompiledSrcs = append(j.expandIDEInfoCompiledSrcs, uniqueSrcFiles.Strings()...)
var kotlinJars android.Paths
var kotlinHeaderJars android.Paths
// Prepend extraClasspathJars to classpath so that the resource processor R.jar comes before
// any dependencies so that it can override any non-final R classes from dependencies with the
// final R classes from the app.
flags.classpath = append(android.CopyOf(extraClasspathJars), flags.classpath...)
j.aconfigCacheFiles = append(deps.aconfigProtoFiles, j.properties.Aconfig_Cache_files...)
// If compiling headers then compile them and skip the rest
if proptools.Bool(j.properties.Headers_only) {
if srcFiles.HasExt(".kt") {
ctx.ModuleErrorf("Compiling headers_only with .kt not supported")
}
if ctx.Config().IsEnvFalse("TURBINE_ENABLED") || disableTurbine {
ctx.ModuleErrorf("headers_only is enabled but Turbine is disabled.")
}
_, j.headerJarFile, _ =
j.compileJavaHeader(ctx, uniqueJavaFiles, srcJars, deps, flags, jarName,
extraCombinedJars)
if ctx.Failed() {
return
}
android.SetProvider(ctx, JavaInfoProvider, JavaInfo{
HeaderJars: android.PathsIfNonNil(j.headerJarFile),
TransitiveLibsHeaderJars: j.transitiveLibsHeaderJars,
TransitiveStaticLibsHeaderJars: j.transitiveStaticLibsHeaderJars,
AidlIncludeDirs: j.exportAidlIncludeDirs,
ExportedPlugins: j.exportedPluginJars,
ExportedPluginClasses: j.exportedPluginClasses,
ExportedPluginDisableTurbine: j.exportedDisableTurbine,
StubsLinkType: j.stubsLinkType,
AconfigIntermediateCacheOutputPaths: deps.aconfigProtoFiles,
})
j.outputFile = j.headerJarFile
return
}
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"
}
// Collect common .kt files for AIDEGen
j.expandIDEInfoCompiledSrcs = append(j.expandIDEInfoCompiledSrcs, kotlinCommonSrcFiles.Strings()...)
flags.classpath = append(flags.classpath, deps.kotlinStdlib...)
flags.classpath = append(flags.classpath, 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, uniqueSrcFiles, 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, uniqueSrcFiles, kotlinCommonSrcFiles, srcJars, flags)
if ctx.Failed() {
return
}
kotlinJarPath := j.repackageFlagsIfNecessary(ctx, kotlinJar.OutputPath, jarName, "kotlinc")
// Make javac rule depend on the kotlinc rule
flags.classpath = append(classpath{kotlinHeaderJar}, flags.classpath...)
kotlinJars = append(kotlinJars, kotlinJarPath)
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...)
kotlinJars = append(kotlinJars, deps.kotlinAnnotations...)
kotlinHeaderJars = append(kotlinHeaderJars, deps.kotlinStdlib...)
kotlinHeaderJars = append(kotlinHeaderJars, deps.kotlinAnnotations...)
} else {
flags.dexClasspath = append(flags.dexClasspath, deps.kotlinStdlib...)
flags.dexClasspath = append(flags.dexClasspath, deps.kotlinAnnotations...)
}
}
jars := slices.Clone(kotlinJars)
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.
}
extraJars := append(slices.Clone(kotlinHeaderJars), extraCombinedJars...)
headerJarFileWithoutDepsOrJarjar, j.headerJarFile, j.repackagedHeaderJarFile =
j.compileJavaHeader(ctx, uniqueJavaFiles, srcJars, deps, flags, jarName, extraJars)
if ctx.Failed() {
return
}
}
if len(uniqueJavaFiles) > 0 || len(srcJars) > 0 {
hasErrorproneableFiles := false
for _, ext := range j.sourceExtensions {
if ext != ".proto" && ext != ".aidl" {
// Skip running errorprone on pure proto or pure aidl modules. Some modules take a long time to
// compile, and it's not useful to have warnings on these generated sources.
hasErrorproneableFiles = true
break
}
}
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 hasErrorproneableFiles && 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)
errorproneAnnoSrcJar := android.PathForModuleOut(ctx, "errorprone", "anno.srcjar")
transformJavaToClasses(ctx, errorprone, -1, uniqueJavaFiles, srcJars, errorproneAnnoSrcJar, 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(uniqueJavaFiles) > 0 {
shardSrcs = android.ShardPaths(uniqueJavaFiles, shardSize)
for idx, shardSrc := range shardSrcs {
classes := j.compileJavaClasses(ctx, jarName, idx, shardSrc,
nil, flags, extraJarDeps)
classes = j.repackageFlagsIfNecessary(ctx, classes, jarName, "javac-"+strconv.Itoa(idx))
jars = append(jars, classes)
}
}
// Assume approximately 5 sources per srcjar.
// For framework-minus-apex in AOSP at the time this was written, there are 266 srcjars, with a mean
// of 5.8 sources per srcjar, but a median of 1, a standard deviation of 10, and a max of 48 source files.
if len(srcJars) > 0 {
startIdx := len(shardSrcs)
shardSrcJarsList := android.ShardPaths(srcJars, shardSize/5)
for idx, shardSrcJars := range shardSrcJarsList {
classes := j.compileJavaClasses(ctx, jarName, startIdx+idx,
nil, shardSrcJars, flags, extraJarDeps)
classes = j.repackageFlagsIfNecessary(ctx, classes, jarName, "javac-"+strconv.Itoa(startIdx+idx))
jars = append(jars, classes)
}
}
} else {
classes := j.compileJavaClasses(ctx, jarName, -1, uniqueJavaFiles, srcJars, flags, extraJarDeps)
classes = j.repackageFlagsIfNecessary(ctx, classes, jarName, "javac")
jars = append(jars, classes)
}
if ctx.Failed() {
return
}
}
jars = append(jars, extraCombinedJars...)
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.
// moduleStubLinkType determines if the module is the TopLevelStubLibrary generated
// from sdk_library. The TopLevelStubLibrary contains only one static lib,
// either with .from-source or .from-text suffix.
// outputFile should be agnostic to the build configuration,
// thus "combine" the single static lib in order to prevent the static lib from being exposed
// to the copy rules.
stub, _ := moduleStubLinkType(ctx.ModuleName())
// 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 && !stub {
// The path contains an embedded OutputPath so reuse that.
outputFile = moduleOutPath.OutputPath
} else if outputPath, ok := jars[0].(android.OutputPath); ok && !stub {
// 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 {
// If this module couldn't generate a header jar (for example due to api generating annotation processors)
// then use the implementation jar. Run it through zip2zip first to remove any files in META-INF/services
// so that javac on modules that depend on this module don't pick up annotation processors (which may be
// missing their implementations) from META-INF/services/javax.annotation.processing.Processor.
headerJarFile := android.PathForModuleOut(ctx, "javac-header", jarName)
convertImplementationJarToHeaderJar(ctx, j.implementationJarFile, headerJarFile)
j.headerJarFile = headerJarFile
}
// 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
compileDex := j.dexProperties.Compile_dex
apexInfo, _ := android.ModuleProvider(ctx, android.ApexInfoProvider)
if j.DirectlyInAnyApex() && !apexInfo.IsForPlatform() {
if compileDex == nil {
compileDex = proptools.BoolPtr(true)
}
if j.deviceProperties.Hostdex == nil {
j.deviceProperties.Hostdex = proptools.BoolPtr(true)
}
}
if ctx.Device() && (Bool(j.properties.Installable) || Bool(compileDex)) {
if j.hasCode(ctx) {
if j.shouldInstrumentStatic(ctx) {
j.dexer.extraProguardFlagsFiles = append(j.dexer.extraProguardFlagsFiles,
android.PathForSource(ctx, "build/make/core/proguard.jacoco.flags"))
}
// Dex compilation
var dexOutputFile android.OutputPath
params := &compileDexParams{
flags: flags,
sdkVersion: j.SdkVersion(ctx),
minSdkVersion: j.MinSdkVersion(ctx),
classesJar: implementationAndResourcesJar,
jarName: jarName,
}
dexOutputFile = j.dexer.compileDex(ctx, params)
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, nil)
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
libName := android.RemoveOptionalPrebuiltPrefix(ctx.ModuleName())
if j.SdkLibraryName() != nil && strings.HasSuffix(ctx.ModuleName(), ".impl") {
libName = strings.TrimSuffix(libName, ".impl")
}
j.dexpreopt(ctx, libName, 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(apiLevel android.ApiLevel) android.ApiLevel {
if !apiLevel.IsPreview() {
return apiLevel
} else {
return ctx.Config().DefaultAppTargetSdk(ctx)
}
}
j.linter.name = ctx.ModuleName()
j.linter.srcs = append(srcFiles, nonGeneratedSrcJars...)
j.linter.srcJars, _ = android.FilterPathList(srcJars, nonGeneratedSrcJars)
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).ApiLevel)
j.linter.compileSdkKind = j.SdkVersion(ctx).Kind
j.linter.javaLanguageLevel = flags.javaVersion.String()
j.linter.kotlinLanguageLevel = "1.3"
j.linter.compile_data = android.PathsForModuleSrc(ctx, j.properties.Compile_data)
if !apexInfo.IsForPlatform() && ctx.Config().UnbundledBuildApps() {
j.linter.buildModuleReportZip = true
}
j.linter.lint(ctx)
}
j.collectTransitiveSrcFiles(ctx, srcFiles)
ctx.CheckbuildFile(outputFile)
android.SetProvider(ctx, JavaInfoProvider, JavaInfo{
HeaderJars: android.PathsIfNonNil(j.headerJarFile),
RepackagedHeaderJars: android.PathsIfNonNil(j.repackagedHeaderJarFile),
TransitiveLibsHeaderJars: j.transitiveLibsHeaderJars,
TransitiveStaticLibsHeaderJars: j.transitiveStaticLibsHeaderJars,
ImplementationAndResourcesJars: android.PathsIfNonNil(j.implementationAndResourcesJar),
ImplementationJars: android.PathsIfNonNil(j.implementationJarFile),
ResourceJars: android.PathsIfNonNil(j.resourceJar),
AidlIncludeDirs: j.exportAidlIncludeDirs,
SrcJarArgs: j.srcJarArgs,
SrcJarDeps: j.srcJarDeps,
TransitiveSrcFiles: j.transitiveSrcFiles,
ExportedPlugins: j.exportedPluginJars,
ExportedPluginClasses: j.exportedPluginClasses,
ExportedPluginDisableTurbine: j.exportedDisableTurbine,
JacocoReportClassesFile: j.jacocoReportClassesFile,
StubsLinkType: j.stubsLinkType,
AconfigIntermediateCacheOutputPaths: j.aconfigCacheFiles,
})
// 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)
}
func collectDepProguardSpecInfo(ctx android.ModuleContext) (transitiveProguardFlags, transitiveUnconditionalExportedFlags []*android.DepSet[android.Path]) {
ctx.VisitDirectDeps(func(m android.Module) {
depProguardInfo, _ := android.OtherModuleProvider(ctx, m, ProguardSpecInfoProvider)
depTag := ctx.OtherModuleDependencyTag(m)
if depProguardInfo.UnconditionallyExportedProguardFlags != nil {
transitiveUnconditionalExportedFlags = append(transitiveUnconditionalExportedFlags, depProguardInfo.UnconditionallyExportedProguardFlags)
transitiveProguardFlags = append(transitiveProguardFlags, depProguardInfo.UnconditionallyExportedProguardFlags)
}
if depTag == staticLibTag && depProguardInfo.ProguardFlagsFiles != nil {
transitiveProguardFlags = append(transitiveProguardFlags, depProguardInfo.ProguardFlagsFiles)
}
})
return transitiveProguardFlags, transitiveUnconditionalExportedFlags
}
func (j *Module) collectProguardSpecInfo(ctx android.ModuleContext) ProguardSpecInfo {
transitiveProguardFlags, transitiveUnconditionalExportedFlags := collectDepProguardSpecInfo(ctx)
directUnconditionalExportedFlags := android.Paths{}
proguardFlagsForThisModule := android.PathsForModuleSrc(ctx, j.dexProperties.Optimize.Proguard_flags_files)
exportUnconditionally := proptools.Bool(j.dexProperties.Optimize.Export_proguard_flags_files)
if exportUnconditionally {
// if we explicitly export, then our unconditional exports are the same as our transitive flags
transitiveUnconditionalExportedFlags = transitiveProguardFlags
directUnconditionalExportedFlags = proguardFlagsForThisModule
}
return ProguardSpecInfo{
Export_proguard_flags_files: exportUnconditionally,
ProguardFlagsFiles: android.NewDepSet[android.Path](
android.POSTORDER,
proguardFlagsForThisModule,
transitiveProguardFlags,
),
UnconditionallyExportedProguardFlags: android.NewDepSet[android.Path](
android.POSTORDER,
directUnconditionalExportedFlags,
transitiveUnconditionalExportedFlags,
),
}
}
// 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")
annoSrcJar := android.PathForModuleOut(ctx, "javac", "anno.srcjar")
if idx >= 0 {
kzipName = strings.TrimSuffix(jarName, filepath.Ext(jarName)) + strconv.Itoa(idx) + ".kzip"
annoSrcJar = android.PathForModuleOut(ctx, "javac", "anno-"+strconv.Itoa(idx)+".srcjar")
jarName += strconv.Itoa(idx)
}
classes := android.PathForModuleOut(ctx, "javac", jarName).OutputPath
TransformJavaToClasses(ctx, classes, idx, srcFiles, srcJars, annoSrcJar, 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)
}
if len(flags.processorPath) > 0 {
j.annoSrcJars = append(j.annoSrcJars, annoSrcJar)
}
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, jarjarAndDepsRepackagedHeaderJar 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, 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, nil
}
}
if j.repackageJarjarRules != nil {
repackagedJarjarFile := android.PathForModuleOut(ctx, "repackaged-turbine-jarjar", jarName)
TransformJarJar(ctx, repackagedJarjarFile, jarjarAndDepsHeaderJar, j.repackageJarjarRules)
jarjarAndDepsRepackagedHeaderJar = repackagedJarjarFile
if ctx.Failed() {
return nil, nil, nil
}
} else {
jarjarAndDepsRepackagedHeaderJar = jarjarAndDepsHeaderJar
}
return headerJar, jarjarAndDepsHeaderJar, jarjarAndDepsRepackagedHeaderJar
}
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
}
type providesTransitiveHeaderJars struct {
// set of header jars for all transitive libs deps
transitiveLibsHeaderJars *android.DepSet[android.Path]
// set of header jars for all transitive static libs deps
transitiveStaticLibsHeaderJars *android.DepSet[android.Path]
}
func (j *providesTransitiveHeaderJars) TransitiveLibsHeaderJars() *android.DepSet[android.Path] {
return j.transitiveLibsHeaderJars
}
func (j *providesTransitiveHeaderJars) TransitiveStaticLibsHeaderJars() *android.DepSet[android.Path] {
return j.transitiveStaticLibsHeaderJars
}
func (j *providesTransitiveHeaderJars) collectTransitiveHeaderJars(ctx android.ModuleContext) {
directLibs := android.Paths{}
directStaticLibs := android.Paths{}
transitiveLibs := []*android.DepSet[android.Path]{}
transitiveStaticLibs := []*android.DepSet[android.Path]{}
ctx.VisitDirectDeps(func(module android.Module) {
// don't add deps of the prebuilt version of the same library
if ctx.ModuleName() == android.RemoveOptionalPrebuiltPrefix(module.Name()) {
return
}
dep, _ := android.OtherModuleProvider(ctx, module, JavaInfoProvider)
tag := ctx.OtherModuleDependencyTag(module)
_, isUsesLibDep := tag.(usesLibraryDependencyTag)
if tag == libTag || tag == r8LibraryJarTag || isUsesLibDep {
directLibs = append(directLibs, dep.HeaderJars...)
} else if tag == staticLibTag {
directStaticLibs = append(directStaticLibs, dep.HeaderJars...)
} else {
// Don't propagate transitive libs for other kinds of dependencies.
return
}
if dep.TransitiveLibsHeaderJars != nil {
transitiveLibs = append(transitiveLibs, dep.TransitiveLibsHeaderJars)
}
if dep.TransitiveStaticLibsHeaderJars != nil {
transitiveStaticLibs = append(transitiveStaticLibs, dep.TransitiveStaticLibsHeaderJars)
}
})
j.transitiveLibsHeaderJars = android.NewDepSet(android.POSTORDER, directLibs, transitiveLibs)
j.transitiveStaticLibsHeaderJars = android.NewDepSet(android.POSTORDER, directStaticLibs, transitiveStaticLibs)
}
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(ctx android.ModuleErrorfContext) 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.Static_libs = append(dpInfo.Static_libs, j.properties.Static_libs...)
dpInfo.Libs = append(dpInfo.Libs, j.properties.Libs...)
dpInfo.SrcJars = append(dpInfo.SrcJars, j.annoSrcJars.Strings()...)
}
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 {
sdkVersionSpec := j.SdkVersion(ctx)
minSdkVersion := j.MinSdkVersion(ctx)
if !minSdkVersion.Specified() {
return fmt.Errorf("min_sdk_version is not specified")
}
// If the module is compiling against core (via sdk_version), skip comparison check.
if sdkVersionSpec.Kind == android.SdkCore {
return nil
}
if minSdkVersion.GreaterThan(sdkVersion) {
return fmt.Errorf("newer SDK(%v)", minSdkVersion)
}
return nil
}
func (j *Module) Stem() string {
if j.stem == "" {
panic("Stem() called before stem property was set")
}
return j.stem
}
func (j *Module) JacocoReportClassesFile() android.Path {
return j.jacocoReportClassesFile
}
func (j *Module) collectTransitiveSrcFiles(ctx android.ModuleContext, mine android.Paths) {
var fromDeps []*android.DepSet[android.Path]
ctx.VisitDirectDeps(func(module android.Module) {
tag := ctx.OtherModuleDependencyTag(module)
if tag == staticLibTag {
depInfo, _ := android.OtherModuleProvider(ctx, module, JavaInfoProvider)
if depInfo.TransitiveSrcFiles != nil {
fromDeps = append(fromDeps, depInfo.TransitiveSrcFiles)
}
}
})
j.transitiveSrcFiles = android.NewDepSet(android.POSTORDER, mine, fromDeps)
}
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 android.SdkCore.DefaultJavaLibraryName(),
"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.SdkPublic.DefaultJavaLibraryName():
return javaSdk, true
case android.SdkSystem.DefaultJavaLibraryName():
return javaSystem, true
case android.SdkModule.DefaultJavaLibraryName():
return javaModule, true
case android.SdkSystemServer.DefaultJavaLibraryName():
return javaSystemServer, true
case android.SdkTest.DefaultJavaLibraryName():
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())
j.collectTransitiveHeaderJars(ctx)
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 sdkLibTag, 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 dep, ok := android.OtherModuleProvider(ctx, module, JavaInfoProvider); ok {
if sdkLinkType != javaPlatform {
if syspropDep, ok := android.OtherModuleProvider(ctx, module, SyspropPublicStubInfoProvider); ok {
// 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.
dep = syspropDep.JavaInfo
}
}
switch tag {
case bootClasspathTag:
deps.bootClasspath = append(deps.bootClasspath, dep.HeaderJars...)
case sdkLibTag, libTag, instrumentationForTag:
if _, ok := module.(*Plugin); ok {
ctx.ModuleErrorf("a java_plugin (%s) cannot be used as a libs dependency", otherName)
}
deps.classpath = append(deps.classpath, dep.HeaderJars...)
deps.dexClasspath = append(deps.dexClasspath, dep.HeaderJars...)
if len(dep.RepackagedHeaderJars) == 1 && !slices.Contains(dep.HeaderJars, dep.RepackagedHeaderJars[0]) {
deps.classpath = append(deps.classpath, dep.RepackagedHeaderJars...)
deps.dexClasspath = append(deps.dexClasspath, dep.RepackagedHeaderJars...)
}
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:
if _, ok := module.(*Plugin); ok {
ctx.ModuleErrorf("a java_plugin (%s) cannot be used as a static_libs dependency", otherName)
}
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
deps.aconfigProtoFiles = append(deps.aconfigProtoFiles, dep.AconfigIntermediateCacheOutputPaths...)
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.
android.SetProvider(ctx, SyspropPublicStubInfoProvider, SyspropPublicStubInfo{
JavaInfo: dep,
})
}
} else if dep, ok := module.(android.SourceFileProducer); ok {
switch tag {
case sdkLibTag, 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 if dep, ok := android.OtherModuleProvider(ctx, module, android.CodegenInfoProvider); ok {
switch tag {
case staticLibTag:
deps.aconfigProtoFiles = append(deps.aconfigProtoFiles, dep.IntermediateCacheOutputPaths...)
}
} 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)
addMissingOptionalUsesLibsFromDep(ctx, module, &j.usesLibrary)
})
return deps
}
// Provider for jarjar renaming rules.
//
// Modules can set their jarjar renaming rules with addJarJarRenameRule, and those renamings will be
// passed to all rdeps. The typical way that these renamings will NOT be inherited is when a module
// links against stubs -- these are not passed through stubs. The classes will remain unrenamed on
// classes until a module with jarjar_prefix is reached, and all as yet unrenamed classes will then
// be renamed from that module.
// TODO: Add another property to suppress the forwarding of
type DependencyUse int
const (
RenameUseInvalid DependencyUse = iota
RenameUseInclude
RenameUseExclude
)
type RenameUseElement struct {
DepName string
RenameUse DependencyUse
Why string // token for determining where in the logic the decision was made.
}
type JarJarProviderData struct {
// Mapping of class names: original --> renamed. If the value is "", the class will be
// renamed by the next rdep that has the jarjar_prefix attribute (or this module if it has
// attribute). Rdeps of that module will inherit the renaming.
Rename map[string]string
RenameUse []RenameUseElement
}
func (this JarJarProviderData) GetDebugString() string {
result := ""
for _, k := range android.SortedKeys(this.Rename) {
v := this.Rename[k]
if strings.Contains(k, "android.companion.virtual.flags.FakeFeatureFlagsImpl") {
result += k + "--&gt;" + v + ";"
}
}
return result
}
var JarJarProvider = blueprint.NewProvider[JarJarProviderData]()
var overridableJarJarPrefix = "com.android.internal.hidden_from_bootclasspath"
func init() {
android.SetJarJarPrefixHandler(mergeJarJarPrefixes)
}
// BaseJarJarProviderData contains information that will propagate across dependencies regardless of
// whether they are java modules or not.
type BaseJarJarProviderData struct {
JarJarProviderData JarJarProviderData
}
func (this BaseJarJarProviderData) GetDebugString() string {
return this.JarJarProviderData.GetDebugString()
}
var BaseJarJarProvider = blueprint.NewProvider[BaseJarJarProviderData]()
// mergeJarJarPrefixes is called immediately before module.GenerateAndroidBuildActions is called.
// Since there won't be a JarJarProvider, we create the BaseJarJarProvider if any of our deps have
// either JarJarProvider or BaseJarJarProvider.
func mergeJarJarPrefixes(ctx android.ModuleContext) {
mod := ctx.Module()
// Explicitly avoid propagating into some module types.
switch reflect.TypeOf(mod).String() {
case "*java.Droidstubs":
return
}
jarJarData := collectDirectDepsProviders(ctx)
if jarJarData != nil {
providerData := BaseJarJarProviderData{
JarJarProviderData: *jarJarData,
}
android.SetProvider(ctx, BaseJarJarProvider, providerData)
}
}
// Add a jarjar renaming rule to this module, to be inherited to all dependent modules.
func (module *Module) addJarJarRenameRule(original string, renamed string) {
if module.jarjarRenameRules == nil {
module.jarjarRenameRules = make(map[string]string)
}
module.jarjarRenameRules[original] = renamed
}
func collectDirectDepsProviders(ctx android.ModuleContext) (result *JarJarProviderData) {
// Gather repackage information from deps
// If the dep jas a JarJarProvider, it is used. Otherwise, any BaseJarJarProvider is used.
module := ctx.Module()
moduleName := module.Name()
ctx.VisitDirectDepsIgnoreBlueprint(func(m android.Module) {
tag := ctx.OtherModuleDependencyTag(m)
// This logic mirrors that in (*Module).collectDeps above. There are several places
// where we explicitly return RenameUseExclude, even though it is the default, to
// indicate that it has been verified to be the case.
//
// Note well: there are probably cases that are getting to the unconditional return
// and are therefore wrong.
shouldIncludeRenames := func() (DependencyUse, string) {
if moduleName == m.Name() {
return RenameUseInclude, "name" // If we have the same module name, include the renames.
}
if sc, ok := module.(android.SdkContext); ok {
if ctx.Device() {
sdkDep := decodeSdkDep(ctx, sc)
if !sdkDep.invalidVersion && sdkDep.useFiles {
return RenameUseExclude, "useFiles"
}
}
}
if IsJniDepTag(tag) || tag == certificateTag || tag == proguardRaiseTag {
return RenameUseExclude, "tags"
}
if _, ok := m.(SdkLibraryDependency); ok {
switch tag {
case sdkLibTag, libTag:
return RenameUseExclude, "sdklibdep" // matches collectDeps()
}
return RenameUseInvalid, "sdklibdep" // dep is not used in collectDeps()
} else if ji, ok := android.OtherModuleProvider(ctx, m, JavaInfoProvider); ok {
switch ji.StubsLinkType {
case Stubs:
return RenameUseExclude, "info"
case Implementation:
return RenameUseInclude, "info"
default:
//fmt.Printf("LJ: %v -> %v StubsLinkType unknown\n", module, m)
// Fall through to the heuristic logic.
}
switch reflect.TypeOf(m).String() {
case "*java.GeneratedJavaLibraryModule":
// Probably a java_aconfig_library module.
// TODO: make this check better.
return RenameUseInclude, "reflect"
}
switch tag {
case bootClasspathTag:
return RenameUseExclude, "tagswitch"
case sdkLibTag, libTag, instrumentationForTag:
return RenameUseInclude, "tagswitch"
case java9LibTag:
return RenameUseExclude, "tagswitch"
case staticLibTag:
return RenameUseInclude, "tagswitch"
case pluginTag:
return RenameUseInclude, "tagswitch"
case errorpronePluginTag:
return RenameUseInclude, "tagswitch"
case exportedPluginTag:
return RenameUseInclude, "tagswitch"
case kotlinStdlibTag, kotlinAnnotationsTag:
return RenameUseExclude, "tagswitch"
case kotlinPluginTag:
return RenameUseInclude, "tagswitch"
default:
return RenameUseExclude, "tagswitch"
}
} else if _, ok := m.(android.SourceFileProducer); ok {
switch tag {
case sdkLibTag, libTag, staticLibTag:
return RenameUseInclude, "srcfile"
default:
return RenameUseExclude, "srcfile"
}
} else if _, ok := android.OtherModuleProvider(ctx, m, android.CodegenInfoProvider); ok {
return RenameUseInclude, "aconfig_declarations_group"
} else {
switch tag {
case bootClasspathTag:
return RenameUseExclude, "else"
case systemModulesTag:
return RenameUseInclude, "else"
}
}
// If we got here, choose the safer option, which may lead to a build failure, rather
// than runtime failures on the device.
return RenameUseExclude, "end"
}
if result == nil {
result = &JarJarProviderData{
Rename: make(map[string]string),
RenameUse: make([]RenameUseElement, 0),
}
}
how, why := shouldIncludeRenames()
result.RenameUse = append(result.RenameUse, RenameUseElement{DepName: m.Name(), RenameUse: how, Why: why})
if how != RenameUseInclude {
// Nothing to merge.
return
}
merge := func(theirs *JarJarProviderData) {
for orig, renamed := range theirs.Rename {
if preexisting, exists := (*result).Rename[orig]; !exists || preexisting == "" {
result.Rename[orig] = renamed
} else if preexisting != "" && renamed != "" && preexisting != renamed {
if strings.HasPrefix(preexisting, overridableJarJarPrefix) {
result.Rename[orig] = renamed
} else if !strings.HasPrefix(renamed, overridableJarJarPrefix) {
ctx.ModuleErrorf("1. Conflicting jarjar rules inherited for class: %s (%s and %s)", orig, renamed, preexisting, ctx.ModuleName(), m.Name())
continue
}
}
}
}
if theirs, ok := android.OtherModuleProvider(ctx, m, JarJarProvider); ok {
merge(&theirs)
} else if theirs, ok := android.OtherModuleProvider(ctx, m, BaseJarJarProvider); ok {
// TODO: if every java.Module should have a JarJarProvider, and we find only the
// BaseJarJarProvider, then there is a bug. Consider seeing if m can be cast
// to java.Module.
merge(&theirs.JarJarProviderData)
}
})
return
}
func (this Module) GetDebugString() string {
return "sdk_version=" + proptools.String(this.deviceProperties.Sdk_version)
}
// Merge the jarjar rules we inherit from our dependencies, any that have been added directly to
// us, and if it's been set, apply the jarjar_prefix property to rename them.
func (module *Module) collectJarJarRules(ctx android.ModuleContext) *JarJarProviderData {
// Gather repackage information from deps
result := collectDirectDepsProviders(ctx)
// Update that with entries we've stored for ourself
for orig, renamed := range module.jarjarRenameRules {
if result == nil {
result = &JarJarProviderData{
Rename: make(map[string]string),
}
}
if renamed != "" {
if preexisting, exists := (*result).Rename[orig]; exists && preexisting != renamed {
ctx.ModuleErrorf("Conflicting jarjar rules inherited for class: %s (%s and %s)", orig, renamed, preexisting)
continue
}
}
(*result).Rename[orig] = renamed
}
// If there are no renamings, then jarjar_prefix does nothing, so skip the extra work.
if result == nil {
return nil
}
// If they've given us a jarjar_prefix property, then we will use that to rename any classes
// that have not yet been renamed.
prefix := proptools.String(module.properties.Jarjar_prefix)
if prefix != "" {
if prefix[0] == '.' {
ctx.PropertyErrorf("jarjar_prefix", "jarjar_prefix can not start with '.'")
return nil
}
if prefix[len(prefix)-1] == '.' {
ctx.PropertyErrorf("jarjar_prefix", "jarjar_prefix can not end with '.'")
return nil
}
var updated map[string]string
for orig, renamed := range (*result).Rename {
if renamed == "" {
if updated == nil {
updated = make(map[string]string)
}
updated[orig] = prefix + "." + orig
}
}
for orig, renamed := range updated {
(*result).Rename[orig] = renamed
}
}
return result
}
// Get the jarjar rule text for a given provider for the fully resolved rules. Classes that map
// to "" won't be in this list because they shouldn't be renamed yet.
func getJarJarRuleText(provider *JarJarProviderData) string {
result := ""
for _, orig := range android.SortedKeys(provider.Rename) {
renamed := provider.Rename[orig]
if renamed != "" {
result += "rule " + orig + " " + renamed + "\n"
}
}
return result
}
// Repackage the flags if the jarjar rule txt for the flags is generated
func (j *Module) repackageFlagsIfNecessary(ctx android.ModuleContext, infile android.WritablePath, jarName, info string) android.WritablePath {
if j.repackageJarjarRules == nil {
return infile
}
repackagedJarjarFile := android.PathForModuleOut(ctx, "repackaged-jarjar", info+jarName)
TransformJarJar(ctx, repackagedJarjarFile, infile, j.repackageJarjarRules)
return repackagedJarjarFile
}
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)
type ModuleWithUsesLibrary interface {
UsesLibrary() *usesLibrary
}
func (j *Module) UsesLibrary() *usesLibrary {
return &j.usesLibrary
}
var _ ModuleWithUsesLibrary = (*Module)(nil)
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