// Copyright 2015 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 // This file contains the module types for compiling Java for Android, and converts the properties // into the flags and filenames necessary to pass to the Module. The final creation of the rules // is handled in builder.go import ( "fmt" "path/filepath" "strings" "android/soong/bazel" "github.com/google/blueprint" "github.com/google/blueprint/proptools" "android/soong/android" "android/soong/cc" "android/soong/dexpreopt" "android/soong/java/config" "android/soong/tradefed" ) func init() { registerJavaBuildComponents(android.InitRegistrationContext) RegisterJavaSdkMemberTypes() } func registerJavaBuildComponents(ctx android.RegistrationContext) { ctx.RegisterModuleType("java_defaults", DefaultsFactory) ctx.RegisterModuleType("java_library", LibraryFactory) ctx.RegisterModuleType("java_library_static", LibraryStaticFactory) ctx.RegisterModuleType("java_library_host", LibraryHostFactory) ctx.RegisterModuleType("java_binary", BinaryFactory) ctx.RegisterModuleType("java_binary_host", BinaryHostFactory) ctx.RegisterModuleType("java_test", TestFactory) ctx.RegisterModuleType("java_test_helper_library", TestHelperLibraryFactory) ctx.RegisterModuleType("java_test_host", TestHostFactory) ctx.RegisterModuleType("java_test_import", JavaTestImportFactory) ctx.RegisterModuleType("java_import", ImportFactory) ctx.RegisterModuleType("java_import_host", ImportFactoryHost) ctx.RegisterModuleType("java_device_for_host", DeviceForHostFactory) ctx.RegisterModuleType("java_host_for_device", HostForDeviceFactory) ctx.RegisterModuleType("dex_import", DexImportFactory) // This mutator registers dependencies on dex2oat for modules that should be // dexpreopted. This is done late when the final variants have been // established, to not get the dependencies split into the wrong variants and // to support the checks in dexpreoptDisabled(). ctx.FinalDepsMutators(func(ctx android.RegisterMutatorsContext) { ctx.BottomUp("dexpreopt_tool_deps", dexpreoptToolDepsMutator).Parallel() }) ctx.RegisterSingletonType("logtags", LogtagsSingleton) ctx.RegisterSingletonType("kythe_java_extract", kytheExtractJavaFactory) } func RegisterJavaSdkMemberTypes() { // Register sdk member types. android.RegisterSdkMemberType(javaHeaderLibsSdkMemberType) android.RegisterSdkMemberType(javaLibsSdkMemberType) android.RegisterSdkMemberType(javaBootLibsSdkMemberType) android.RegisterSdkMemberType(javaSystemserverLibsSdkMemberType) android.RegisterSdkMemberType(javaTestSdkMemberType) } var ( // Supports adding java header libraries to module_exports and sdk. javaHeaderLibsSdkMemberType = &librarySdkMemberType{ android.SdkMemberTypeBase{ PropertyName: "java_header_libs", SupportsSdk: true, }, func(_ android.SdkMemberContext, j *Library) android.Path { headerJars := j.HeaderJars() if len(headerJars) != 1 { panic(fmt.Errorf("there must be only one header jar from %q", j.Name())) } return headerJars[0] }, sdkSnapshotFilePathForJar, copyEverythingToSnapshot, } // Export implementation classes jar as part of the sdk. exportImplementationClassesJar = func(_ android.SdkMemberContext, j *Library) android.Path { implementationJars := j.ImplementationAndResourcesJars() if len(implementationJars) != 1 { panic(fmt.Errorf("there must be only one implementation jar from %q", j.Name())) } return implementationJars[0] } // Supports adding java implementation libraries to module_exports but not sdk. javaLibsSdkMemberType = &librarySdkMemberType{ android.SdkMemberTypeBase{ PropertyName: "java_libs", }, exportImplementationClassesJar, sdkSnapshotFilePathForJar, copyEverythingToSnapshot, } // Supports adding java boot libraries to module_exports and sdk. // // The build has some implicit dependencies (via the boot jars configuration) on a number of // modules, e.g. core-oj, apache-xml, that are part of the java boot class path and which are // provided by mainline modules (e.g. art, conscrypt, runtime-i18n) but which are not otherwise // used outside those mainline modules. // // As they are not needed outside the mainline modules adding them to the sdk/module-exports as // either java_libs, or java_header_libs would end up exporting more information than was strictly // necessary. The java_boot_libs property to allow those modules to be exported as part of the // sdk/module_exports without exposing any unnecessary information. javaBootLibsSdkMemberType = &librarySdkMemberType{ android.SdkMemberTypeBase{ PropertyName: "java_boot_libs", SupportsSdk: true, }, func(ctx android.SdkMemberContext, j *Library) android.Path { // Java boot libs are only provided in the SDK to provide access to their dex implementation // jar for use by dexpreopting and boot jars package check. They do not need to provide an // actual implementation jar but the java_import will need a file that exists so just copy an // empty file. Any attempt to use that file as a jar will cause a build error. return ctx.SnapshotBuilder().EmptyFile() }, func(osPrefix, name string) string { // Create a special name for the implementation jar to try and provide some useful information // to a developer that attempts to compile against this. // TODO(b/175714559): Provide a proper error message in Soong not ninja. return filepath.Join(osPrefix, "java_boot_libs", "snapshot", "jars", "are", "invalid", name+jarFileSuffix) }, onlyCopyJarToSnapshot, } // Supports adding java systemserver libraries to module_exports and sdk. // // The build has some implicit dependencies (via the systemserver jars configuration) on a number // of modules that are part of the java systemserver classpath and which are provided by mainline // modules but which are not otherwise used outside those mainline modules. // // As they are not needed outside the mainline modules adding them to the sdk/module-exports as // either java_libs, or java_header_libs would end up exporting more information than was strictly // necessary. The java_systemserver_libs property to allow those modules to be exported as part of // the sdk/module_exports without exposing any unnecessary information. javaSystemserverLibsSdkMemberType = &librarySdkMemberType{ android.SdkMemberTypeBase{ PropertyName: "java_systemserver_libs", SupportsSdk: true, }, func(ctx android.SdkMemberContext, j *Library) android.Path { // Java systemserver libs are only provided in the SDK to provide access to their dex // implementation jar for use by dexpreopting. They do not need to provide an actual // implementation jar but the java_import will need a file that exists so just copy an empty // file. Any attempt to use that file as a jar will cause a build error. return ctx.SnapshotBuilder().EmptyFile() }, func(osPrefix, name string) string { // Create a special name for the implementation jar to try and provide some useful information // to a developer that attempts to compile against this. // TODO(b/175714559): Provide a proper error message in Soong not ninja. return filepath.Join(osPrefix, "java_systemserver_libs", "snapshot", "jars", "are", "invalid", name+jarFileSuffix) }, onlyCopyJarToSnapshot, } // Supports adding java test libraries to module_exports but not sdk. javaTestSdkMemberType = &testSdkMemberType{ SdkMemberTypeBase: android.SdkMemberTypeBase{ PropertyName: "java_tests", }, } ) // JavaInfo contains information about a java module for use by modules that depend on it. type JavaInfo struct { // HeaderJars is a list of jars that can be passed as the javac classpath in order to link // against this module. If empty, ImplementationJars should be used instead. HeaderJars android.Paths // ImplementationAndResourceJars is a list of jars that contain the implementations of classes // in the module as well as any resources included in the module. ImplementationAndResourcesJars android.Paths // ImplementationJars is a list of jars that contain the implementations of classes in the //module. ImplementationJars android.Paths // ResourceJars is a list of jars that contain the resources included in the module. ResourceJars android.Paths // AidlIncludeDirs is a list of directories that should be passed to the aidl tool when // depending on this module. AidlIncludeDirs android.Paths // SrcJarArgs is a list of arguments to pass to soong_zip to package the sources of this // module. SrcJarArgs []string // SrcJarDeps is a list of paths to depend on when packaging the sources of this module. SrcJarDeps android.Paths // ExportedPlugins is a list of paths that should be used as annotation processors for any // module that depends on this module. ExportedPlugins android.Paths // ExportedPluginClasses is a list of classes that should be run as annotation processors for // any module that depends on this module. ExportedPluginClasses []string // ExportedPluginDisableTurbine is true if this module's annotation processors generate APIs, // requiring disbling turbine for any modules that depend on it. ExportedPluginDisableTurbine bool // JacocoReportClassesFile is the path to a jar containing uninstrumented classes that will be // instrumented by jacoco. JacocoReportClassesFile android.Path } var JavaInfoProvider = blueprint.NewProvider(JavaInfo{}) // SyspropPublicStubInfo contains info about the sysprop public stub library that corresponds to // the sysprop implementation library. type SyspropPublicStubInfo struct { // JavaInfo is the JavaInfoProvider of the sysprop public stub library that corresponds to // the sysprop implementation library. JavaInfo JavaInfo } var SyspropPublicStubInfoProvider = blueprint.NewProvider(SyspropPublicStubInfo{}) // Methods that need to be implemented for a module that is added to apex java_libs property. type ApexDependency interface { HeaderJars() android.Paths ImplementationAndResourcesJars() android.Paths } // Provides build path and install path to DEX jars. type UsesLibraryDependency interface { DexJarBuildPath() OptionalDexJarPath DexJarInstallPath() android.Path ClassLoaderContexts() dexpreopt.ClassLoaderContextMap } // TODO(jungjw): Move this to kythe.go once it's created. type xref interface { XrefJavaFiles() android.Paths } func (j *Module) XrefJavaFiles() android.Paths { return j.kytheFiles } type dependencyTag struct { blueprint.BaseDependencyTag name string // True if the dependency is relinked at runtime. runtimeLinked bool // True if the dependency is a toolchain, for example an annotation processor. toolchain bool } // installDependencyTag is a dependency tag that is annotated to cause the installed files of the // dependency to be installed when the parent module is installed. type installDependencyTag struct { blueprint.BaseDependencyTag android.InstallAlwaysNeededDependencyTag name string } func (d dependencyTag) LicenseAnnotations() []android.LicenseAnnotation { if d.runtimeLinked { return []android.LicenseAnnotation{android.LicenseAnnotationSharedDependency} } else if d.toolchain { return []android.LicenseAnnotation{android.LicenseAnnotationToolchain} } return nil } var _ android.LicenseAnnotationsDependencyTag = dependencyTag{} type usesLibraryDependencyTag struct { dependencyTag // SDK version in which the library appared as a standalone library. sdkVersion int // If the dependency is optional or required. optional bool // Whether this is an implicit dependency inferred by Soong, or an explicit one added via // `uses_libs`/`optional_uses_libs` properties. implicit bool } func makeUsesLibraryDependencyTag(sdkVersion int, optional bool, implicit bool) usesLibraryDependencyTag { return usesLibraryDependencyTag{ dependencyTag: dependencyTag{ name: fmt.Sprintf("uses-library-%d", sdkVersion), runtimeLinked: true, }, sdkVersion: sdkVersion, optional: optional, implicit: implicit, } } func IsJniDepTag(depTag blueprint.DependencyTag) bool { return depTag == jniLibTag } var ( dataNativeBinsTag = dependencyTag{name: "dataNativeBins"} dataDeviceBinsTag = dependencyTag{name: "dataDeviceBins"} staticLibTag = dependencyTag{name: "staticlib"} libTag = dependencyTag{name: "javalib", runtimeLinked: true} java9LibTag = dependencyTag{name: "java9lib", runtimeLinked: true} pluginTag = dependencyTag{name: "plugin", toolchain: true} errorpronePluginTag = dependencyTag{name: "errorprone-plugin", toolchain: true} exportedPluginTag = dependencyTag{name: "exported-plugin", toolchain: true} bootClasspathTag = dependencyTag{name: "bootclasspath", runtimeLinked: true} systemModulesTag = dependencyTag{name: "system modules", runtimeLinked: true} frameworkResTag = dependencyTag{name: "framework-res"} kotlinStdlibTag = dependencyTag{name: "kotlin-stdlib", runtimeLinked: true} kotlinAnnotationsTag = dependencyTag{name: "kotlin-annotations", runtimeLinked: true} kotlinPluginTag = dependencyTag{name: "kotlin-plugin", toolchain: true} proguardRaiseTag = dependencyTag{name: "proguard-raise"} certificateTag = dependencyTag{name: "certificate"} instrumentationForTag = dependencyTag{name: "instrumentation_for"} extraLintCheckTag = dependencyTag{name: "extra-lint-check", toolchain: true} jniLibTag = dependencyTag{name: "jnilib", runtimeLinked: true} syspropPublicStubDepTag = dependencyTag{name: "sysprop public stub"} jniInstallTag = installDependencyTag{name: "jni install"} binaryInstallTag = installDependencyTag{name: "binary install"} ) func IsLibDepTag(depTag blueprint.DependencyTag) bool { return depTag == libTag } func IsStaticLibDepTag(depTag blueprint.DependencyTag) bool { return depTag == staticLibTag } type sdkDep struct { useModule, useFiles, invalidVersion bool // The modules that will be added to the bootclasspath when targeting 1.8 or lower bootclasspath []string // The default system modules to use. Will be an empty string if no system // modules are to be used. systemModules string // The modules that will be added to the classpath regardless of the Java language level targeted classpath []string // The modules that will be added ot the classpath when targeting 1.9 or higher // (normally these will be on the bootclasspath when targeting 1.8 or lower) java9Classpath []string frameworkResModule string jars android.Paths aidl android.OptionalPath noStandardLibs, noFrameworksLibs bool } func (s sdkDep) hasStandardLibs() bool { return !s.noStandardLibs } func (s sdkDep) hasFrameworkLibs() bool { return !s.noStandardLibs && !s.noFrameworksLibs } type jniLib struct { name string path android.Path target android.Target coverageFile android.OptionalPath unstrippedFile android.Path } func sdkDeps(ctx android.BottomUpMutatorContext, sdkContext android.SdkContext, d dexer) { sdkDep := decodeSdkDep(ctx, sdkContext) if sdkDep.useModule { ctx.AddVariationDependencies(nil, bootClasspathTag, sdkDep.bootclasspath...) ctx.AddVariationDependencies(nil, java9LibTag, sdkDep.java9Classpath...) ctx.AddVariationDependencies(nil, libTag, sdkDep.classpath...) if d.effectiveOptimizeEnabled() && sdkDep.hasStandardLibs() { ctx.AddVariationDependencies(nil, proguardRaiseTag, config.LegacyCorePlatformBootclasspathLibraries...) } if d.effectiveOptimizeEnabled() && sdkDep.hasFrameworkLibs() { ctx.AddVariationDependencies(nil, proguardRaiseTag, config.FrameworkLibraries...) } } if sdkDep.systemModules != "" { ctx.AddVariationDependencies(nil, systemModulesTag, sdkDep.systemModules) } } type deps struct { // bootClasspath is the list of jars that form the boot classpath (generally the java.* and // android.* classes) for tools that still use it. javac targeting 1.9 or higher uses // systemModules and java9Classpath instead. bootClasspath classpath // classpath is the list of jars that form the classpath for javac and kotlinc rules. It // contains header jars for all static and non-static dependencies. classpath classpath // dexClasspath is the list of jars that form the classpath for d8 and r8 rules. It contains // header jars for all non-static dependencies. Static dependencies have already been // combined into the program jar. dexClasspath classpath // java9Classpath is the list of jars that will be added to the classpath when targeting // 1.9 or higher. It generally contains the android.* classes, while the java.* classes // are provided by systemModules. java9Classpath classpath processorPath classpath errorProneProcessorPath classpath processorClasses []string staticJars android.Paths staticHeaderJars android.Paths staticResourceJars android.Paths aidlIncludeDirs android.Paths srcs android.Paths srcJars android.Paths systemModules *systemModules aidlPreprocess android.OptionalPath kotlinStdlib android.Paths kotlinAnnotations android.Paths kotlinPlugins android.Paths disableTurbine bool } func checkProducesJars(ctx android.ModuleContext, dep android.SourceFileProducer) { for _, f := range dep.Srcs() { if f.Ext() != ".jar" { ctx.ModuleErrorf("genrule %q must generate files ending with .jar to be used as a libs or static_libs dependency", ctx.OtherModuleName(dep.(blueprint.Module))) } } } func getJavaVersion(ctx android.ModuleContext, javaVersion string, sdkContext android.SdkContext) javaVersion { if javaVersion != "" { return normalizeJavaVersion(ctx, javaVersion) } else if ctx.Device() { return defaultJavaLanguageVersion(ctx, sdkContext.SdkVersion(ctx)) } else { return JAVA_VERSION_11 } } type javaVersion int const ( JAVA_VERSION_UNSUPPORTED = 0 JAVA_VERSION_6 = 6 JAVA_VERSION_7 = 7 JAVA_VERSION_8 = 8 JAVA_VERSION_9 = 9 JAVA_VERSION_11 = 11 ) func (v javaVersion) String() string { switch v { case JAVA_VERSION_6: return "1.6" case JAVA_VERSION_7: return "1.7" case JAVA_VERSION_8: return "1.8" case JAVA_VERSION_9: return "1.9" case JAVA_VERSION_11: return "11" default: return "unsupported" } } // Returns true if javac targeting this version uses system modules instead of a bootclasspath. func (v javaVersion) usesJavaModules() bool { return v >= 9 } func normalizeJavaVersion(ctx android.BaseModuleContext, javaVersion string) javaVersion { switch javaVersion { case "1.6", "6": return JAVA_VERSION_6 case "1.7", "7": return JAVA_VERSION_7 case "1.8", "8": return JAVA_VERSION_8 case "1.9", "9": return JAVA_VERSION_9 case "11": return JAVA_VERSION_11 case "10": ctx.PropertyErrorf("java_version", "Java language levels 10 is not supported") return JAVA_VERSION_UNSUPPORTED default: ctx.PropertyErrorf("java_version", "Unrecognized Java language level") return JAVA_VERSION_UNSUPPORTED } } // // Java libraries (.jar file) // type Library struct { Module InstallMixin func(ctx android.ModuleContext, installPath android.Path) (extraInstallDeps android.Paths) } var _ android.ApexModule = (*Library)(nil) // Provides access to the list of permitted packages from apex boot jars. type PermittedPackagesForUpdatableBootJars interface { PermittedPackagesForUpdatableBootJars() []string } var _ PermittedPackagesForUpdatableBootJars = (*Library)(nil) func (j *Library) PermittedPackagesForUpdatableBootJars() []string { return j.properties.Permitted_packages } func shouldUncompressDex(ctx android.ModuleContext, dexpreopter *dexpreopter) bool { // Store uncompressed (and aligned) any dex files from jars in APEXes. if apexInfo := ctx.Provider(android.ApexInfoProvider).(android.ApexInfo); !apexInfo.IsForPlatform() { return true } // Store uncompressed (and do not strip) dex files from boot class path jars. if inList(ctx.ModuleName(), ctx.Config().BootJars()) { return true } // Store uncompressed dex files that are preopted on /system. if !dexpreopter.dexpreoptDisabled(ctx) && (ctx.Host() || !dexpreopter.odexOnSystemOther(ctx, dexpreopter.installPath)) { return true } if ctx.Config().UncompressPrivAppDex() && inList(ctx.ModuleName(), ctx.Config().ModulesLoadedByPrivilegedModules()) { return true } return false } // Sets `dexer.dexProperties.Uncompress_dex` to the proper value. func setUncompressDex(ctx android.ModuleContext, dexpreopter *dexpreopter, dexer *dexer) { if dexer.dexProperties.Uncompress_dex == nil { // If the value was not force-set by the user, use reasonable default based on the module. dexer.dexProperties.Uncompress_dex = proptools.BoolPtr(shouldUncompressDex(ctx, dexpreopter)) } } func (j *Library) GenerateAndroidBuildActions(ctx android.ModuleContext) { j.sdkVersion = j.SdkVersion(ctx) j.minSdkVersion = j.MinSdkVersion(ctx) j.maxSdkVersion = j.MaxSdkVersion(ctx) apexInfo := ctx.Provider(android.ApexInfoProvider).(android.ApexInfo) if !apexInfo.IsForPlatform() { j.hideApexVariantFromMake = true } j.checkSdkVersions(ctx) j.dexpreopter.installPath = j.dexpreopter.getInstallPath( ctx, android.PathForModuleInstall(ctx, "framework", j.Stem()+".jar")) j.dexpreopter.isSDKLibrary = j.deviceProperties.IsSDKLibrary setUncompressDex(ctx, &j.dexpreopter, &j.dexer) j.dexpreopter.uncompressedDex = *j.dexProperties.Uncompress_dex j.classLoaderContexts = j.usesLibrary.classLoaderContextForUsesLibDeps(ctx) j.compile(ctx, nil) // Collect the module directory for IDE info in java/jdeps.go. j.modulePaths = append(j.modulePaths, ctx.ModuleDir()) exclusivelyForApex := !apexInfo.IsForPlatform() if (Bool(j.properties.Installable) || ctx.Host()) && !exclusivelyForApex { var extraInstallDeps android.Paths if j.InstallMixin != nil { extraInstallDeps = j.InstallMixin(ctx, j.outputFile) } hostDexNeeded := Bool(j.deviceProperties.Hostdex) && !ctx.Host() if hostDexNeeded { j.hostdexInstallFile = ctx.InstallFile( android.PathForHostDexInstall(ctx, "framework"), j.Stem()+"-hostdex.jar", j.outputFile) } var installDir android.InstallPath if ctx.InstallInTestcases() { var archDir string if !ctx.Host() { archDir = ctx.DeviceConfig().DeviceArch() } installDir = android.PathForModuleInstall(ctx, ctx.ModuleName(), archDir) } else { installDir = android.PathForModuleInstall(ctx, "framework") } j.installFile = ctx.InstallFile(installDir, j.Stem()+".jar", j.outputFile, extraInstallDeps...) } } func (j *Library) DepsMutator(ctx android.BottomUpMutatorContext) { j.deps(ctx) j.usesLibrary.deps(ctx, false) } const ( aidlIncludeDir = "aidl" javaDir = "java" jarFileSuffix = ".jar" testConfigSuffix = "-AndroidTest.xml" ) // path to the jar file of a java library. Relative to / func sdkSnapshotFilePathForJar(osPrefix, name string) string { return sdkSnapshotFilePathForMember(osPrefix, name, jarFileSuffix) } func sdkSnapshotFilePathForMember(osPrefix, name string, suffix string) string { return filepath.Join(javaDir, osPrefix, name+suffix) } type librarySdkMemberType struct { android.SdkMemberTypeBase // Function to retrieve the appropriate output jar (implementation or header) from // the library. jarToExportGetter func(ctx android.SdkMemberContext, j *Library) android.Path // Function to compute the snapshot relative path to which the named library's // jar should be copied. snapshotPathGetter func(osPrefix, name string) string // True if only the jar should be copied to the snapshot, false if the jar plus any additional // files like aidl files should also be copied. onlyCopyJarToSnapshot bool } const ( onlyCopyJarToSnapshot = true copyEverythingToSnapshot = false ) func (mt *librarySdkMemberType) AddDependencies(ctx android.SdkDependencyContext, dependencyTag blueprint.DependencyTag, names []string) { ctx.AddVariationDependencies(nil, dependencyTag, names...) } func (mt *librarySdkMemberType) IsInstance(module android.Module) bool { _, ok := module.(*Library) return ok } func (mt *librarySdkMemberType) AddPrebuiltModule(ctx android.SdkMemberContext, member android.SdkMember) android.BpModule { return ctx.SnapshotBuilder().AddPrebuiltModule(member, "java_import") } func (mt *librarySdkMemberType) CreateVariantPropertiesStruct() android.SdkMemberProperties { return &librarySdkMemberProperties{} } type librarySdkMemberProperties struct { android.SdkMemberPropertiesBase JarToExport android.Path `android:"arch_variant"` AidlIncludeDirs android.Paths // The list of permitted packages that need to be passed to the prebuilts as they are used to // create the updatable-bcp-packages.txt file. PermittedPackages []string } func (p *librarySdkMemberProperties) PopulateFromVariant(ctx android.SdkMemberContext, variant android.Module) { j := variant.(*Library) p.JarToExport = ctx.MemberType().(*librarySdkMemberType).jarToExportGetter(ctx, j) p.AidlIncludeDirs = j.AidlIncludeDirs() p.PermittedPackages = j.PermittedPackagesForUpdatableBootJars() } func (p *librarySdkMemberProperties) AddToPropertySet(ctx android.SdkMemberContext, propertySet android.BpPropertySet) { builder := ctx.SnapshotBuilder() memberType := ctx.MemberType().(*librarySdkMemberType) exportedJar := p.JarToExport if exportedJar != nil { // Delegate the creation of the snapshot relative path to the member type. snapshotRelativeJavaLibPath := memberType.snapshotPathGetter(p.OsPrefix(), ctx.Name()) // Copy the exported jar to the snapshot. builder.CopyToSnapshot(exportedJar, snapshotRelativeJavaLibPath) propertySet.AddProperty("jars", []string{snapshotRelativeJavaLibPath}) } if len(p.PermittedPackages) > 0 { propertySet.AddProperty("permitted_packages", p.PermittedPackages) } // Do not copy anything else to the snapshot. if memberType.onlyCopyJarToSnapshot { return } aidlIncludeDirs := p.AidlIncludeDirs if len(aidlIncludeDirs) != 0 { sdkModuleContext := ctx.SdkModuleContext() for _, dir := range aidlIncludeDirs { // TODO(jiyong): copy parcelable declarations only aidlFiles, _ := sdkModuleContext.GlobWithDeps(dir.String()+"/**/*.aidl", nil) for _, file := range aidlFiles { builder.CopyToSnapshot(android.PathForSource(sdkModuleContext, file), filepath.Join(aidlIncludeDir, file)) } } // TODO(b/151933053) - add aidl include dirs property } } // java_library builds and links sources into a `.jar` file for the device, and possibly for the host as well. // // By default, a java_library has a single variant that produces a `.jar` file containing `.class` files that were // compiled against the device bootclasspath. This jar is not suitable for installing on a device, but can be used // as a `static_libs` dependency of another module. // // Specifying `installable: true` will product a `.jar` file containing `classes.dex` files, suitable for installing on // a device. // // Specifying `host_supported: true` will produce two variants, one compiled against the device bootclasspath and one // compiled against the host bootclasspath. func LibraryFactory() android.Module { module := &Library{} module.addHostAndDeviceProperties() module.initModuleAndImport(module) android.InitApexModule(module) android.InitSdkAwareModule(module) android.InitBazelModule(module) InitJavaModule(module, android.HostAndDeviceSupported) return module } // java_library_static is an obsolete alias for java_library. func LibraryStaticFactory() android.Module { return LibraryFactory() } // java_library_host builds and links sources into a `.jar` file for the host. // // A java_library_host has a single variant that produces a `.jar` file containing `.class` files that were // compiled against the host bootclasspath. func LibraryHostFactory() android.Module { module := &Library{} module.addHostProperties() module.Module.properties.Installable = proptools.BoolPtr(true) android.InitApexModule(module) android.InitSdkAwareModule(module) android.InitBazelModule(module) InitJavaModule(module, android.HostSupported) return module } // // Java Tests // // Test option struct. type TestOptions struct { // a list of extra test configuration files that should be installed with the module. Extra_test_configs []string `android:"path,arch_variant"` // If the test is a hostside(no device required) unittest that shall be run during presubmit check. Unit_test *bool } type testProperties struct { // list of compatibility suites (for example "cts", "vts") that the module should be // installed into. Test_suites []string `android:"arch_variant"` // the name of the test configuration (for example "AndroidTest.xml") that should be // installed with the module. Test_config *string `android:"path,arch_variant"` // the name of the test configuration template (for example "AndroidTestTemplate.xml") that // should be installed with the module. Test_config_template *string `android:"path,arch_variant"` // list of files or filegroup modules that provide data that should be installed alongside // the test Data []string `android:"path"` // Flag to indicate whether or not to create test config automatically. If AndroidTest.xml // doesn't exist next to the Android.bp, this attribute doesn't need to be set to true // explicitly. Auto_gen_config *bool // Add parameterized mainline modules to auto generated test config. The options will be // handled by TradeFed to do downloading and installing the specified modules on the device. Test_mainline_modules []string // Test options. Test_options TestOptions // Names of modules containing JNI libraries that should be installed alongside the test. Jni_libs []string // Install the test into a folder named for the module in all test suites. Per_testcase_directory *bool } type hostTestProperties struct { // list of native binary modules that should be installed alongside the test Data_native_bins []string `android:"arch_variant"` // list of device binary modules that should be installed alongside the test // This property only adds the first variant of the dependency Data_device_bins_first []string `android:"arch_variant"` // list of device binary modules that should be installed alongside the test // This property adds 64bit AND 32bit variants of the dependency Data_device_bins_both []string `android:"arch_variant"` // list of device binary modules that should be installed alongside the test // This property only adds 64bit variants of the dependency Data_device_bins_64 []string `android:"arch_variant"` // list of device binary modules that should be installed alongside the test // This property adds 32bit variants of the dependency if available, or else // defaults to the 64bit variant Data_device_bins_prefer32 []string `android:"arch_variant"` // list of device binary modules that should be installed alongside the test // This property only adds 32bit variants of the dependency Data_device_bins_32 []string `android:"arch_variant"` } type testHelperLibraryProperties struct { // list of compatibility suites (for example "cts", "vts") that the module should be // installed into. Test_suites []string `android:"arch_variant"` // Install the test into a folder named for the module in all test suites. Per_testcase_directory *bool } type prebuiltTestProperties struct { // list of compatibility suites (for example "cts", "vts") that the module should be // installed into. Test_suites []string `android:"arch_variant"` // the name of the test configuration (for example "AndroidTest.xml") that should be // installed with the module. Test_config *string `android:"path,arch_variant"` } type Test struct { Library testProperties testProperties testConfig android.Path extraTestConfigs android.Paths data android.Paths } type TestHost struct { Test testHostProperties hostTestProperties } type TestHelperLibrary struct { Library testHelperLibraryProperties testHelperLibraryProperties } type JavaTestImport struct { Import prebuiltTestProperties prebuiltTestProperties testConfig android.Path dexJarFile android.Path } func (j *Test) InstallInTestcases() bool { // Host java tests install into $(HOST_OUT_JAVA_LIBRARIES), and then are copied into // testcases by base_rules.mk. return !j.Host() } func (j *TestHelperLibrary) InstallInTestcases() bool { return true } func (j *JavaTestImport) InstallInTestcases() bool { return true } func (j *TestHost) addDataDeviceBinsDeps(ctx android.BottomUpMutatorContext) { if len(j.testHostProperties.Data_device_bins_first) > 0 { deviceVariations := ctx.Config().AndroidFirstDeviceTarget.Variations() ctx.AddFarVariationDependencies(deviceVariations, dataDeviceBinsTag, j.testHostProperties.Data_device_bins_first...) } var maybeAndroid32Target *android.Target var maybeAndroid64Target *android.Target android32TargetList := android.FirstTarget(ctx.Config().Targets[android.Android], "lib32") android64TargetList := android.FirstTarget(ctx.Config().Targets[android.Android], "lib64") if len(android32TargetList) > 0 { maybeAndroid32Target = &android32TargetList[0] } if len(android64TargetList) > 0 { maybeAndroid64Target = &android64TargetList[0] } if len(j.testHostProperties.Data_device_bins_both) > 0 { if maybeAndroid32Target == nil && maybeAndroid64Target == nil { ctx.PropertyErrorf("data_device_bins_both", "no device targets available. Targets: %q", ctx.Config().Targets) return } if maybeAndroid32Target != nil { ctx.AddFarVariationDependencies( maybeAndroid32Target.Variations(), dataDeviceBinsTag, j.testHostProperties.Data_device_bins_both..., ) } if maybeAndroid64Target != nil { ctx.AddFarVariationDependencies( maybeAndroid64Target.Variations(), dataDeviceBinsTag, j.testHostProperties.Data_device_bins_both..., ) } } if len(j.testHostProperties.Data_device_bins_prefer32) > 0 { if maybeAndroid32Target != nil { ctx.AddFarVariationDependencies( maybeAndroid32Target.Variations(), dataDeviceBinsTag, j.testHostProperties.Data_device_bins_prefer32..., ) } else { if maybeAndroid64Target == nil { ctx.PropertyErrorf("data_device_bins_prefer32", "no device targets available. Targets: %q", ctx.Config().Targets) return } ctx.AddFarVariationDependencies( maybeAndroid64Target.Variations(), dataDeviceBinsTag, j.testHostProperties.Data_device_bins_prefer32..., ) } } if len(j.testHostProperties.Data_device_bins_32) > 0 { if maybeAndroid32Target == nil { ctx.PropertyErrorf("data_device_bins_32", "cannot find 32bit device target. Targets: %q", ctx.Config().Targets) return } deviceVariations := maybeAndroid32Target.Variations() ctx.AddFarVariationDependencies(deviceVariations, dataDeviceBinsTag, j.testHostProperties.Data_device_bins_32...) } if len(j.testHostProperties.Data_device_bins_64) > 0 { if maybeAndroid64Target == nil { ctx.PropertyErrorf("data_device_bins_64", "cannot find 64bit device target. Targets: %q", ctx.Config().Targets) return } deviceVariations := maybeAndroid64Target.Variations() ctx.AddFarVariationDependencies(deviceVariations, dataDeviceBinsTag, j.testHostProperties.Data_device_bins_64...) } } func (j *TestHost) DepsMutator(ctx android.BottomUpMutatorContext) { if len(j.testHostProperties.Data_native_bins) > 0 { for _, target := range ctx.MultiTargets() { ctx.AddVariationDependencies(target.Variations(), dataNativeBinsTag, j.testHostProperties.Data_native_bins...) } } if len(j.testProperties.Jni_libs) > 0 { for _, target := range ctx.MultiTargets() { sharedLibVariations := append(target.Variations(), blueprint.Variation{Mutator: "link", Variation: "shared"}) ctx.AddFarVariationDependencies(sharedLibVariations, jniLibTag, j.testProperties.Jni_libs...) } } j.addDataDeviceBinsDeps(ctx) j.deps(ctx) } func (j *TestHost) AddExtraResource(p android.Path) { j.extraResources = append(j.extraResources, p) } func (j *TestHost) dataDeviceBins() []string { ret := make([]string, 0, len(j.testHostProperties.Data_device_bins_first)+ len(j.testHostProperties.Data_device_bins_both)+ len(j.testHostProperties.Data_device_bins_prefer32)+ len(j.testHostProperties.Data_device_bins_32)+ len(j.testHostProperties.Data_device_bins_64), ) ret = append(ret, j.testHostProperties.Data_device_bins_first...) ret = append(ret, j.testHostProperties.Data_device_bins_both...) ret = append(ret, j.testHostProperties.Data_device_bins_prefer32...) ret = append(ret, j.testHostProperties.Data_device_bins_32...) ret = append(ret, j.testHostProperties.Data_device_bins_64...) return ret } func (j *TestHost) GenerateAndroidBuildActions(ctx android.ModuleContext) { var configs []tradefed.Config dataDeviceBins := j.dataDeviceBins() if len(dataDeviceBins) > 0 { // add Tradefed configuration to push device bins to device for testing remoteDir := filepath.Join("/data/local/tests/unrestricted/", j.Name()) options := []tradefed.Option{{Name: "cleanup", Value: "true"}} for _, bin := range dataDeviceBins { fullPath := filepath.Join(remoteDir, bin) options = append(options, tradefed.Option{Name: "push-file", Key: bin, Value: fullPath}) } configs = append(configs, tradefed.Object{ Type: "target_preparer", Class: "com.android.tradefed.targetprep.PushFilePreparer", Options: options, }) } j.Test.generateAndroidBuildActionsWithConfig(ctx, configs) } func (j *Test) GenerateAndroidBuildActions(ctx android.ModuleContext) { j.generateAndroidBuildActionsWithConfig(ctx, nil) } func (j *Test) generateAndroidBuildActionsWithConfig(ctx android.ModuleContext, configs []tradefed.Config) { if j.testProperties.Test_options.Unit_test == nil && ctx.Host() { // TODO(b/): Clean temporary heuristic to avoid unexpected onboarding. defaultUnitTest := !inList("tradefed", j.properties.Libs) && !inList("cts", j.testProperties.Test_suites) j.testProperties.Test_options.Unit_test = proptools.BoolPtr(defaultUnitTest) } j.testConfig = tradefed.AutoGenJavaTestConfig(ctx, j.testProperties.Test_config, j.testProperties.Test_config_template, j.testProperties.Test_suites, configs, j.testProperties.Auto_gen_config, j.testProperties.Test_options.Unit_test) j.data = android.PathsForModuleSrc(ctx, j.testProperties.Data) j.extraTestConfigs = android.PathsForModuleSrc(ctx, j.testProperties.Test_options.Extra_test_configs) ctx.VisitDirectDepsWithTag(dataNativeBinsTag, func(dep android.Module) { j.data = append(j.data, android.OutputFileForModule(ctx, dep, "")) }) ctx.VisitDirectDepsWithTag(dataDeviceBinsTag, func(dep android.Module) { j.data = append(j.data, android.OutputFileForModule(ctx, dep, "")) }) ctx.VisitDirectDepsWithTag(jniLibTag, func(dep android.Module) { sharedLibInfo := ctx.OtherModuleProvider(dep, cc.SharedLibraryInfoProvider).(cc.SharedLibraryInfo) if sharedLibInfo.SharedLibrary != nil { // Copy to an intermediate output directory to append "lib[64]" to the path, // so that it's compatible with the default rpath values. var relPath string if sharedLibInfo.Target.Arch.ArchType.Multilib == "lib64" { relPath = filepath.Join("lib64", sharedLibInfo.SharedLibrary.Base()) } else { relPath = filepath.Join("lib", sharedLibInfo.SharedLibrary.Base()) } relocatedLib := android.PathForModuleOut(ctx, "relocated").Join(ctx, relPath) ctx.Build(pctx, android.BuildParams{ Rule: android.Cp, Input: sharedLibInfo.SharedLibrary, Output: relocatedLib, }) j.data = append(j.data, relocatedLib) } else { ctx.PropertyErrorf("jni_libs", "%q of type %q is not supported", dep.Name(), ctx.OtherModuleType(dep)) } }) j.Library.GenerateAndroidBuildActions(ctx) } func (j *TestHelperLibrary) GenerateAndroidBuildActions(ctx android.ModuleContext) { j.Library.GenerateAndroidBuildActions(ctx) } func (j *JavaTestImport) GenerateAndroidBuildActions(ctx android.ModuleContext) { j.testConfig = tradefed.AutoGenJavaTestConfig(ctx, j.prebuiltTestProperties.Test_config, nil, j.prebuiltTestProperties.Test_suites, nil, nil, nil) j.Import.GenerateAndroidBuildActions(ctx) } type testSdkMemberType struct { android.SdkMemberTypeBase } func (mt *testSdkMemberType) AddDependencies(ctx android.SdkDependencyContext, dependencyTag blueprint.DependencyTag, names []string) { ctx.AddVariationDependencies(nil, dependencyTag, names...) } func (mt *testSdkMemberType) IsInstance(module android.Module) bool { _, ok := module.(*Test) return ok } func (mt *testSdkMemberType) AddPrebuiltModule(ctx android.SdkMemberContext, member android.SdkMember) android.BpModule { return ctx.SnapshotBuilder().AddPrebuiltModule(member, "java_test_import") } func (mt *testSdkMemberType) CreateVariantPropertiesStruct() android.SdkMemberProperties { return &testSdkMemberProperties{} } type testSdkMemberProperties struct { android.SdkMemberPropertiesBase JarToExport android.Path TestConfig android.Path } func (p *testSdkMemberProperties) PopulateFromVariant(ctx android.SdkMemberContext, variant android.Module) { test := variant.(*Test) implementationJars := test.ImplementationJars() if len(implementationJars) != 1 { panic(fmt.Errorf("there must be only one implementation jar from %q", test.Name())) } p.JarToExport = implementationJars[0] p.TestConfig = test.testConfig } func (p *testSdkMemberProperties) AddToPropertySet(ctx android.SdkMemberContext, propertySet android.BpPropertySet) { builder := ctx.SnapshotBuilder() exportedJar := p.JarToExport if exportedJar != nil { snapshotRelativeJavaLibPath := sdkSnapshotFilePathForJar(p.OsPrefix(), ctx.Name()) builder.CopyToSnapshot(exportedJar, snapshotRelativeJavaLibPath) propertySet.AddProperty("jars", []string{snapshotRelativeJavaLibPath}) } testConfig := p.TestConfig if testConfig != nil { snapshotRelativeTestConfigPath := sdkSnapshotFilePathForMember(p.OsPrefix(), ctx.Name(), testConfigSuffix) builder.CopyToSnapshot(testConfig, snapshotRelativeTestConfigPath) propertySet.AddProperty("test_config", snapshotRelativeTestConfigPath) } } // java_test builds a and links sources into a `.jar` file for the device, and possibly for the host as well, and // creates an `AndroidTest.xml` file to allow running the test with `atest` or a `TEST_MAPPING` file. // // By default, a java_test has a single variant that produces a `.jar` file containing `classes.dex` files that were // compiled against the device bootclasspath. // // Specifying `host_supported: true` will produce two variants, one compiled against the device bootclasspath and one // compiled against the host bootclasspath. func TestFactory() android.Module { module := &Test{} module.addHostAndDeviceProperties() module.AddProperties(&module.testProperties) module.Module.properties.Installable = proptools.BoolPtr(true) module.Module.dexpreopter.isTest = true module.Module.linter.test = true android.InitSdkAwareModule(module) InitJavaModule(module, android.HostAndDeviceSupported) return module } // java_test_helper_library creates a java library and makes sure that it is added to the appropriate test suite. func TestHelperLibraryFactory() android.Module { module := &TestHelperLibrary{} module.addHostAndDeviceProperties() module.AddProperties(&module.testHelperLibraryProperties) module.Module.properties.Installable = proptools.BoolPtr(true) module.Module.dexpreopter.isTest = true module.Module.linter.test = true InitJavaModule(module, android.HostAndDeviceSupported) return module } // java_test_import imports one or more `.jar` files into the build graph as if they were built by a java_test module // and makes sure that it is added to the appropriate test suite. // // By default, a java_test_import has a single variant that expects a `.jar` file containing `.class` files that were // compiled against an Android classpath. // // Specifying `host_supported: true` will produce two variants, one for use as a dependency of device modules and one // for host modules. func JavaTestImportFactory() android.Module { module := &JavaTestImport{} module.AddProperties( &module.Import.properties, &module.prebuiltTestProperties) module.Import.properties.Installable = proptools.BoolPtr(true) android.InitPrebuiltModule(module, &module.properties.Jars) android.InitApexModule(module) android.InitSdkAwareModule(module) InitJavaModule(module, android.HostAndDeviceSupported) return module } // java_test_host builds a and links sources into a `.jar` file for the host, and creates an `AndroidTest.xml` file to // allow running the test with `atest` or a `TEST_MAPPING` file. // // A java_test_host has a single variant that produces a `.jar` file containing `.class` files that were // compiled against the host bootclasspath. func TestHostFactory() android.Module { module := &TestHost{} module.addHostProperties() module.AddProperties(&module.testProperties) module.AddProperties(&module.testHostProperties) InitTestHost( module, proptools.BoolPtr(true), nil, nil) InitJavaModuleMultiTargets(module, android.HostSupported) return module } func InitTestHost(th *TestHost, installable *bool, testSuites []string, autoGenConfig *bool) { th.properties.Installable = installable th.testProperties.Auto_gen_config = autoGenConfig th.testProperties.Test_suites = testSuites } // // Java Binaries (.jar file plus wrapper script) // type binaryProperties struct { // installable script to execute the resulting jar Wrapper *string `android:"path,arch_variant"` // Name of the class containing main to be inserted into the manifest as Main-Class. Main_class *string // Names of modules containing JNI libraries that should be installed alongside the host // variant of the binary. Jni_libs []string `android:"arch_variant"` } type Binary struct { Library binaryProperties binaryProperties isWrapperVariant bool wrapperFile android.Path binaryFile android.InstallPath } func (j *Binary) HostToolPath() android.OptionalPath { return android.OptionalPathForPath(j.binaryFile) } func (j *Binary) GenerateAndroidBuildActions(ctx android.ModuleContext) { if ctx.Arch().ArchType == android.Common { // Compile the jar if j.binaryProperties.Main_class != nil { if j.properties.Manifest != nil { ctx.PropertyErrorf("main_class", "main_class cannot be used when manifest is set") } manifestFile := android.PathForModuleOut(ctx, "manifest.txt") GenerateMainClassManifest(ctx, manifestFile, String(j.binaryProperties.Main_class)) j.overrideManifest = android.OptionalPathForPath(manifestFile) } j.Library.GenerateAndroidBuildActions(ctx) } else { // Handle the binary wrapper j.isWrapperVariant = true if j.binaryProperties.Wrapper != nil { j.wrapperFile = android.PathForModuleSrc(ctx, *j.binaryProperties.Wrapper) } else { if ctx.Windows() { ctx.PropertyErrorf("wrapper", "wrapper is required for Windows") } j.wrapperFile = android.PathForSource(ctx, "build/soong/scripts/jar-wrapper.sh") } ext := "" if ctx.Windows() { ext = ".bat" } // The host installation rules make the installed wrapper depend on all the dependencies // of the wrapper variant, which will include the common variant's jar file and any JNI // libraries. This is verified by TestBinary. j.binaryFile = ctx.InstallExecutable(android.PathForModuleInstall(ctx, "bin"), ctx.ModuleName()+ext, j.wrapperFile) } } func (j *Binary) DepsMutator(ctx android.BottomUpMutatorContext) { if ctx.Arch().ArchType == android.Common || ctx.BazelConversionMode() { j.deps(ctx) } if ctx.Arch().ArchType != android.Common || ctx.BazelConversionMode() { // These dependencies ensure the host installation rules will install the jar file and // the jni libraries when the wrapper is installed. ctx.AddVariationDependencies(nil, jniInstallTag, j.binaryProperties.Jni_libs...) ctx.AddVariationDependencies( []blueprint.Variation{{Mutator: "arch", Variation: android.CommonArch.String()}}, binaryInstallTag, ctx.ModuleName()) } } // java_binary builds a `.jar` file and a shell script that executes it for the device, and possibly for the host // as well. // // By default, a java_binary has a single variant that produces a `.jar` file containing `classes.dex` files that were // compiled against the device bootclasspath. // // Specifying `host_supported: true` will produce two variants, one compiled against the device bootclasspath and one // compiled against the host bootclasspath. func BinaryFactory() android.Module { module := &Binary{} module.addHostAndDeviceProperties() module.AddProperties(&module.binaryProperties) module.Module.properties.Installable = proptools.BoolPtr(true) android.InitAndroidArchModule(module, android.HostAndDeviceSupported, android.MultilibCommonFirst) android.InitDefaultableModule(module) android.InitBazelModule(module) return module } // java_binary_host builds a `.jar` file and a shell script that executes it for the host. // // A java_binary_host has a single variant that produces a `.jar` file containing `.class` files that were // compiled against the host bootclasspath. func BinaryHostFactory() android.Module { module := &Binary{} module.addHostProperties() module.AddProperties(&module.binaryProperties) module.Module.properties.Installable = proptools.BoolPtr(true) android.InitAndroidArchModule(module, android.HostSupported, android.MultilibCommonFirst) android.InitDefaultableModule(module) android.InitBazelModule(module) return module } // // Java prebuilts // type ImportProperties struct { Jars []string `android:"path,arch_variant"` // The version of the SDK that the source prebuilt file was built against. Defaults to the // current version if not specified. Sdk_version *string // The minimum version of the SDK that this module supports. Defaults to sdk_version if not // specified. Min_sdk_version *string Installable *bool // If not empty, classes are restricted to the specified packages and their sub-packages. Permitted_packages []string // List of shared java libs that this module has dependencies to Libs []string // List of files to remove from the jar file(s) Exclude_files []string // List of directories to remove from the jar file(s) Exclude_dirs []string // if set to true, run Jetifier against .jar file. Defaults to false. Jetifier *bool // set the name of the output Stem *string Aidl struct { // 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 } } type Import struct { android.ModuleBase android.DefaultableModuleBase android.ApexModuleBase android.BazelModuleBase prebuilt android.Prebuilt android.SdkBase // Functionality common to Module and Import. embeddableInModuleAndImport hiddenAPI dexer dexpreopter properties ImportProperties // output file containing classes.dex and resources dexJarFile OptionalDexJarPath dexJarInstallFile android.Path combinedClasspathFile android.Path classLoaderContexts dexpreopt.ClassLoaderContextMap exportAidlIncludeDirs android.Paths hideApexVariantFromMake bool sdkVersion android.SdkSpec minSdkVersion android.SdkSpec } var _ PermittedPackagesForUpdatableBootJars = (*Import)(nil) func (j *Import) PermittedPackagesForUpdatableBootJars() []string { return j.properties.Permitted_packages } func (j *Import) SdkVersion(ctx android.EarlyModuleContext) android.SdkSpec { return android.SdkSpecFrom(ctx, String(j.properties.Sdk_version)) } func (j *Import) SystemModules() string { return "none" } func (j *Import) MinSdkVersion(ctx android.EarlyModuleContext) android.SdkSpec { if j.properties.Min_sdk_version != nil { return android.SdkSpecFrom(ctx, *j.properties.Min_sdk_version) } return j.SdkVersion(ctx) } func (j *Import) TargetSdkVersion(ctx android.EarlyModuleContext) android.SdkSpec { return j.SdkVersion(ctx) } func (j *Import) Prebuilt() *android.Prebuilt { return &j.prebuilt } func (j *Import) PrebuiltSrcs() []string { return j.properties.Jars } func (j *Import) Name() string { return j.prebuilt.Name(j.ModuleBase.Name()) } func (j *Import) Stem() string { return proptools.StringDefault(j.properties.Stem, j.ModuleBase.Name()) } func (a *Import) JacocoReportClassesFile() android.Path { return nil } func (j *Import) LintDepSets() LintDepSets { return LintDepSets{} } func (j *Import) getStrictUpdatabilityLinting() bool { return false } func (j *Import) setStrictUpdatabilityLinting(bool) { } func (j *Import) DepsMutator(ctx android.BottomUpMutatorContext) { ctx.AddVariationDependencies(nil, libTag, j.properties.Libs...) if ctx.Device() && Bool(j.dexProperties.Compile_dex) { sdkDeps(ctx, android.SdkContext(j), j.dexer) } } func (j *Import) GenerateAndroidBuildActions(ctx android.ModuleContext) { j.sdkVersion = j.SdkVersion(ctx) j.minSdkVersion = j.MinSdkVersion(ctx) if !ctx.Provider(android.ApexInfoProvider).(android.ApexInfo).IsForPlatform() { j.hideApexVariantFromMake = true } if ctx.Windows() { j.HideFromMake() } jars := android.PathsForModuleSrc(ctx, j.properties.Jars) jarName := j.Stem() + ".jar" outputFile := android.PathForModuleOut(ctx, "combined", jarName) TransformJarsToJar(ctx, outputFile, "for prebuilts", jars, android.OptionalPath{}, false, j.properties.Exclude_files, j.properties.Exclude_dirs) if Bool(j.properties.Jetifier) { inputFile := outputFile outputFile = android.PathForModuleOut(ctx, "jetifier", jarName) TransformJetifier(ctx, outputFile, inputFile) } j.combinedClasspathFile = outputFile j.classLoaderContexts = make(dexpreopt.ClassLoaderContextMap) var flags javaBuilderFlags ctx.VisitDirectDeps(func(module android.Module) { tag := ctx.OtherModuleDependencyTag(module) if ctx.OtherModuleHasProvider(module, JavaInfoProvider) { dep := ctx.OtherModuleProvider(module, JavaInfoProvider).(JavaInfo) switch tag { case libTag: flags.classpath = append(flags.classpath, dep.HeaderJars...) flags.dexClasspath = append(flags.dexClasspath, dep.HeaderJars...) case staticLibTag: flags.classpath = append(flags.classpath, dep.HeaderJars...) case bootClasspathTag: flags.bootClasspath = append(flags.bootClasspath, dep.HeaderJars...) } } else if dep, ok := module.(SdkLibraryDependency); ok { switch tag { case libTag: flags.classpath = append(flags.classpath, dep.SdkHeaderJars(ctx, j.SdkVersion(ctx))...) } } addCLCFromDep(ctx, module, j.classLoaderContexts) }) if Bool(j.properties.Installable) { var installDir android.InstallPath if ctx.InstallInTestcases() { var archDir string if !ctx.Host() { archDir = ctx.DeviceConfig().DeviceArch() } installDir = android.PathForModuleInstall(ctx, ctx.ModuleName(), archDir) } else { installDir = android.PathForModuleInstall(ctx, "framework") } ctx.InstallFile(installDir, jarName, outputFile) } j.exportAidlIncludeDirs = android.PathsForModuleSrc(ctx, j.properties.Aidl.Export_include_dirs) if ctx.Device() { // If this is a variant created for a prebuilt_apex then use the dex implementation jar // obtained from the associated deapexer module. ai := ctx.Provider(android.ApexInfoProvider).(android.ApexInfo) if ai.ForPrebuiltApex { // Get the path of the dex implementation jar from the `deapexer` module. di := android.FindDeapexerProviderForModule(ctx) if di == nil { return // An error has been reported by FindDeapexerProviderForModule. } if dexOutputPath := di.PrebuiltExportPath(apexRootRelativePathToJavaLib(j.BaseModuleName())); dexOutputPath != nil { dexJarFile := makeDexJarPathFromPath(dexOutputPath) j.dexJarFile = dexJarFile installPath := android.PathForModuleInPartitionInstall(ctx, "apex", ai.ApexVariationName, apexRootRelativePathToJavaLib(j.BaseModuleName())) j.dexJarInstallFile = installPath j.dexpreopter.installPath = j.dexpreopter.getInstallPath(ctx, installPath) setUncompressDex(ctx, &j.dexpreopter, &j.dexer) j.dexpreopter.uncompressedDex = *j.dexProperties.Uncompress_dex j.dexpreopt(ctx, dexOutputPath) // Initialize the hiddenapi structure. j.initHiddenAPI(ctx, dexJarFile, outputFile, j.dexProperties.Uncompress_dex) } else { // This should never happen as a variant for a prebuilt_apex is only created if the // prebuilt_apex has been configured to export the java library dex file. ctx.ModuleErrorf("internal error: no dex implementation jar available from prebuilt APEX %s", di.ApexModuleName()) } } else if Bool(j.dexProperties.Compile_dex) { 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. flags.classpath = append(flags.classpath, sdkDep.jars...) } // Dex compilation j.dexpreopter.installPath = j.dexpreopter.getInstallPath( ctx, android.PathForModuleInstall(ctx, "framework", jarName)) setUncompressDex(ctx, &j.dexpreopter, &j.dexer) j.dexpreopter.uncompressedDex = *j.dexProperties.Uncompress_dex var dexOutputFile android.OutputPath dexOutputFile = j.dexer.compileDex(ctx, flags, j.MinSdkVersion(ctx), outputFile, jarName) if ctx.Failed() { return } // Initialize the hiddenapi structure. j.initHiddenAPI(ctx, makeDexJarPathFromPath(dexOutputFile), outputFile, j.dexProperties.Uncompress_dex) // Encode hidden API flags in dex file. dexOutputFile = j.hiddenAPIEncodeDex(ctx, dexOutputFile) j.dexJarFile = makeDexJarPathFromPath(dexOutputFile) j.dexJarInstallFile = android.PathForModuleInstall(ctx, "framework", jarName) } } ctx.SetProvider(JavaInfoProvider, JavaInfo{ HeaderJars: android.PathsIfNonNil(j.combinedClasspathFile), ImplementationAndResourcesJars: android.PathsIfNonNil(j.combinedClasspathFile), ImplementationJars: android.PathsIfNonNil(j.combinedClasspathFile), AidlIncludeDirs: j.exportAidlIncludeDirs, }) } func (j *Import) OutputFiles(tag string) (android.Paths, error) { switch tag { case "", ".jar": return android.Paths{j.combinedClasspathFile}, nil default: return nil, fmt.Errorf("unsupported module reference tag %q", tag) } } var _ android.OutputFileProducer = (*Import)(nil) func (j *Import) HeaderJars() android.Paths { if j.combinedClasspathFile == nil { return nil } return android.Paths{j.combinedClasspathFile} } func (j *Import) ImplementationAndResourcesJars() android.Paths { if j.combinedClasspathFile == nil { return nil } return android.Paths{j.combinedClasspathFile} } func (j *Import) DexJarBuildPath() OptionalDexJarPath { return j.dexJarFile } func (j *Import) DexJarInstallPath() android.Path { return j.dexJarInstallFile } func (j *Import) ClassLoaderContexts() dexpreopt.ClassLoaderContextMap { return j.classLoaderContexts } var _ android.ApexModule = (*Import)(nil) // Implements android.ApexModule func (j *Import) DepIsInSameApex(ctx android.BaseModuleContext, dep android.Module) bool { return j.depIsInSameApex(ctx, dep) } // Implements android.ApexModule func (j *Import) ShouldSupportSdkVersion(ctx android.BaseModuleContext, sdkVersion android.ApiLevel) error { sdkSpec := j.MinSdkVersion(ctx) if !sdkSpec.Specified() { return fmt.Errorf("min_sdk_version is not specified") } if sdkSpec.Kind == android.SdkCore { return nil } if sdkSpec.ApiLevel.GreaterThan(sdkVersion) { return fmt.Errorf("newer SDK(%v)", sdkSpec.ApiLevel) } return nil } // requiredFilesFromPrebuiltApexForImport returns information about the files that a java_import or // java_sdk_library_import with the specified base module name requires to be exported from a // prebuilt_apex/apex_set. func requiredFilesFromPrebuiltApexForImport(name string) []string { // Add the dex implementation jar to the set of exported files. return []string{ apexRootRelativePathToJavaLib(name), } } // apexRootRelativePathToJavaLib returns the path, relative to the root of the apex's contents, for // the java library with the specified name. func apexRootRelativePathToJavaLib(name string) string { return filepath.Join("javalib", name+".jar") } var _ android.RequiredFilesFromPrebuiltApex = (*Import)(nil) func (j *Import) RequiredFilesFromPrebuiltApex(_ android.BaseModuleContext) []string { name := j.BaseModuleName() return requiredFilesFromPrebuiltApexForImport(name) } // Add compile time check for interface implementation var _ android.IDEInfo = (*Import)(nil) var _ android.IDECustomizedModuleName = (*Import)(nil) // Collect information for opening IDE project files in java/jdeps.go. func (j *Import) IDEInfo(dpInfo *android.IdeInfo) { dpInfo.Jars = append(dpInfo.Jars, j.PrebuiltSrcs()...) } func (j *Import) IDECustomizedModuleName() string { // TODO(b/113562217): Extract the base module name from the Import name, often the Import name // has a prefix "prebuilt_". Remove the prefix explicitly if needed until we find a better // solution to get the Import name. return android.RemoveOptionalPrebuiltPrefix(j.Name()) } var _ android.PrebuiltInterface = (*Import)(nil) func (j *Import) IsInstallable() bool { return Bool(j.properties.Installable) } var _ DexpreopterInterface = (*Import)(nil) // java_import imports one or more `.jar` files into the build graph as if they were built by a java_library module. // // By default, a java_import has a single variant that expects a `.jar` file containing `.class` files that were // compiled against an Android classpath. // // Specifying `host_supported: true` will produce two variants, one for use as a dependency of device modules and one // for host modules. func ImportFactory() android.Module { module := &Import{} module.AddProperties( &module.properties, &module.dexer.dexProperties, ) module.initModuleAndImport(module) module.dexProperties.Optimize.EnabledByDefault = false android.InitPrebuiltModule(module, &module.properties.Jars) android.InitApexModule(module) android.InitSdkAwareModule(module) android.InitBazelModule(module) InitJavaModule(module, android.HostAndDeviceSupported) return module } // java_import imports one or more `.jar` files into the build graph as if they were built by a java_library_host // module. // // A java_import_host has a single variant that expects a `.jar` file containing `.class` files that were // compiled against a host bootclasspath. func ImportFactoryHost() android.Module { module := &Import{} module.AddProperties(&module.properties) android.InitPrebuiltModule(module, &module.properties.Jars) android.InitApexModule(module) android.InitBazelModule(module) InitJavaModule(module, android.HostSupported) return module } // dex_import module type DexImportProperties struct { Jars []string `android:"path"` // set the name of the output Stem *string } type DexImport struct { android.ModuleBase android.DefaultableModuleBase android.ApexModuleBase prebuilt android.Prebuilt properties DexImportProperties dexJarFile OptionalDexJarPath dexpreopter hideApexVariantFromMake bool } func (j *DexImport) Prebuilt() *android.Prebuilt { return &j.prebuilt } func (j *DexImport) PrebuiltSrcs() []string { return j.properties.Jars } func (j *DexImport) Name() string { return j.prebuilt.Name(j.ModuleBase.Name()) } func (j *DexImport) Stem() string { return proptools.StringDefault(j.properties.Stem, j.ModuleBase.Name()) } func (a *DexImport) JacocoReportClassesFile() android.Path { return nil } func (a *DexImport) LintDepSets() LintDepSets { return LintDepSets{} } func (j *DexImport) IsInstallable() bool { return true } func (j *DexImport) getStrictUpdatabilityLinting() bool { return false } func (j *DexImport) setStrictUpdatabilityLinting(bool) { } func (j *DexImport) GenerateAndroidBuildActions(ctx android.ModuleContext) { if len(j.properties.Jars) != 1 { ctx.PropertyErrorf("jars", "exactly one jar must be provided") } apexInfo := ctx.Provider(android.ApexInfoProvider).(android.ApexInfo) if !apexInfo.IsForPlatform() { j.hideApexVariantFromMake = true } j.dexpreopter.installPath = j.dexpreopter.getInstallPath( ctx, android.PathForModuleInstall(ctx, "framework", j.Stem()+".jar")) j.dexpreopter.uncompressedDex = shouldUncompressDex(ctx, &j.dexpreopter) inputJar := ctx.ExpandSource(j.properties.Jars[0], "jars") dexOutputFile := android.PathForModuleOut(ctx, ctx.ModuleName()+".jar") if j.dexpreopter.uncompressedDex { rule := android.NewRuleBuilder(pctx, ctx) temporary := android.PathForModuleOut(ctx, ctx.ModuleName()+".jar.unaligned") rule.Temporary(temporary) // use zip2zip to uncompress classes*.dex files rule.Command(). BuiltTool("zip2zip"). FlagWithInput("-i ", inputJar). FlagWithOutput("-o ", temporary). FlagWithArg("-0 ", "'classes*.dex'") // use zipalign to align uncompressed classes*.dex files rule.Command(). BuiltTool("zipalign"). Flag("-f"). Text("4"). Input(temporary). Output(dexOutputFile) rule.DeleteTemporaryFiles() rule.Build("uncompress_dex", "uncompress dex") } else { ctx.Build(pctx, android.BuildParams{ Rule: android.Cp, Input: inputJar, Output: dexOutputFile, }) } j.dexJarFile = makeDexJarPathFromPath(dexOutputFile) j.dexpreopt(ctx, dexOutputFile) if apexInfo.IsForPlatform() { ctx.InstallFile(android.PathForModuleInstall(ctx, "framework"), j.Stem()+".jar", dexOutputFile) } } func (j *DexImport) DexJarBuildPath() OptionalDexJarPath { return j.dexJarFile } var _ android.ApexModule = (*DexImport)(nil) // Implements android.ApexModule func (j *DexImport) ShouldSupportSdkVersion(ctx android.BaseModuleContext, sdkVersion android.ApiLevel) error { // we don't check prebuilt modules for sdk_version return nil } // dex_import imports a `.jar` file containing classes.dex files. // // A dex_import module cannot be used as a dependency of a java_* or android_* module, it can only be installed // to the device. func DexImportFactory() android.Module { module := &DexImport{} module.AddProperties(&module.properties) android.InitPrebuiltModule(module, &module.properties.Jars) android.InitApexModule(module) InitJavaModule(module, android.DeviceSupported) return module } // // Defaults // type Defaults struct { android.ModuleBase android.DefaultsModuleBase android.ApexModuleBase } // java_defaults provides a set of properties that can be inherited by other java or android modules. // // A module can use the properties from a java_defaults module using `defaults: ["defaults_module_name"]`. Each // property in the defaults module that exists in the depending module will be prepended to the depending module's // value for that property. // // Example: // // java_defaults { // name: "example_defaults", // srcs: ["common/**/*.java"], // javacflags: ["-Xlint:all"], // aaptflags: ["--auto-add-overlay"], // } // // java_library { // name: "example", // defaults: ["example_defaults"], // srcs: ["example/**/*.java"], // } // // is functionally identical to: // // java_library { // name: "example", // srcs: [ // "common/**/*.java", // "example/**/*.java", // ], // javacflags: ["-Xlint:all"], // } func DefaultsFactory() android.Module { module := &Defaults{} module.AddProperties( &CommonProperties{}, &DeviceProperties{}, &OverridableDeviceProperties{}, &DexProperties{}, &DexpreoptProperties{}, &android.ProtoProperties{}, &aaptProperties{}, &androidLibraryProperties{}, &appProperties{}, &appTestProperties{}, &overridableAppProperties{}, &testProperties{}, &ImportProperties{}, &AARImportProperties{}, &sdkLibraryProperties{}, &commonToSdkLibraryAndImportProperties{}, &DexImportProperties{}, &android.ApexProperties{}, &RuntimeResourceOverlayProperties{}, &LintProperties{}, &appTestHelperAppProperties{}, ) android.InitDefaultsModule(module) return module } func kytheExtractJavaFactory() android.Singleton { return &kytheExtractJavaSingleton{} } type kytheExtractJavaSingleton struct { } func (ks *kytheExtractJavaSingleton) GenerateBuildActions(ctx android.SingletonContext) { var xrefTargets android.Paths ctx.VisitAllModules(func(module android.Module) { if javaModule, ok := module.(xref); ok { xrefTargets = append(xrefTargets, javaModule.XrefJavaFiles()...) } }) // TODO(asmundak): perhaps emit a rule to output a warning if there were no xrefTargets if len(xrefTargets) > 0 { ctx.Phony("xref_java", xrefTargets...) } } var Bool = proptools.Bool var BoolDefault = proptools.BoolDefault var String = proptools.String var inList = android.InList // Add class loader context (CLC) of a given dependency to the current CLC. func addCLCFromDep(ctx android.ModuleContext, depModule android.Module, clcMap dexpreopt.ClassLoaderContextMap) { dep, ok := depModule.(UsesLibraryDependency) if !ok { return } depName := android.RemoveOptionalPrebuiltPrefix(ctx.OtherModuleName(depModule)) var sdkLib *string if lib, ok := depModule.(SdkLibraryDependency); ok && lib.sharedLibrary() { // A shared SDK library. This should be added as a top-level CLC element. sdkLib = &depName } else if ulib, ok := depModule.(ProvidesUsesLib); ok { // A non-SDK library disguised as an SDK library by the means of `provides_uses_lib` // property. This should be handled in the same way as a shared SDK library. sdkLib = ulib.ProvidesUsesLib() } depTag := ctx.OtherModuleDependencyTag(depModule) if depTag == libTag { // Ok, propagate through non-static library dependencies. } else if tag, ok := depTag.(usesLibraryDependencyTag); ok && tag.sdkVersion == dexpreopt.AnySdkVersion && tag.implicit { // Ok, propagate through non-compatibility implicit // dependencies. } else if depTag == staticLibTag { // Propagate through static library dependencies, unless it is a component // library (such as stubs). Component libraries have a dependency on their SDK library, // which should not be pulled just because of a static component library. if sdkLib != nil { return } } else { // Don't propagate for other dependency tags. return } // If this is an SDK (or SDK-like) library, then it should be added as a node in the CLC tree, // and its CLC should be added as subtree of that node. Otherwise the library is not a // and should not be added to CLC, but the transitive dependencies // from its CLC should be added to the current CLC. if sdkLib != nil { clcMap.AddContext(ctx, dexpreopt.AnySdkVersion, *sdkLib, false, true, dep.DexJarBuildPath().PathOrNil(), dep.DexJarInstallPath(), dep.ClassLoaderContexts()) } else { clcMap.AddContextMap(dep.ClassLoaderContexts(), depName) } } type javaCommonAttributes struct { Srcs bazel.LabelListAttribute Plugins bazel.LabelListAttribute Javacopts bazel.StringListAttribute } type javaDependencyLabels struct { // Dependencies which DO NOT contribute to the API visible to upstream dependencies. Deps bazel.LabelListAttribute // Dependencies which DO contribute to the API visible to upstream dependencies. StaticDeps bazel.LabelListAttribute } // convertLibraryAttrsBp2Build converts a few shared attributes from java_* modules // and also separates dependencies into dynamic dependencies and static dependencies. // Each corresponding Bazel target type, can have a different method for handling // dynamic vs. static dependencies, and so these are returned to the calling function. type eventLogTagsAttributes struct { Srcs bazel.LabelListAttribute } func (m *Library) convertLibraryAttrsBp2Build(ctx android.TopDownMutatorContext) (*javaCommonAttributes, *javaDependencyLabels) { var srcs bazel.LabelListAttribute archVariantProps := m.GetArchVariantProperties(ctx, &CommonProperties{}) for axis, configToProps := range archVariantProps { for config, _props := range configToProps { if archProps, ok := _props.(*CommonProperties); ok { archSrcs := android.BazelLabelForModuleSrcExcludes(ctx, archProps.Srcs, archProps.Exclude_srcs) srcs.SetSelectValue(axis, config, archSrcs) } } } javaSrcPartition := "java" protoSrcPartition := "proto" logtagSrcPartition := "logtag" srcPartitions := bazel.PartitionLabelListAttribute(ctx, &srcs, bazel.LabelPartitions{ javaSrcPartition: bazel.LabelPartition{Extensions: []string{".java"}, Keep_remainder: true}, logtagSrcPartition: bazel.LabelPartition{Extensions: []string{".logtags", ".logtag"}}, protoSrcPartition: android.ProtoSrcLabelPartition, }) javaSrcs := srcPartitions[javaSrcPartition] var logtagsSrcs bazel.LabelList if !srcPartitions[logtagSrcPartition].IsEmpty() { logtagsLibName := m.Name() + "_logtags" logtagsSrcs = bazel.MakeLabelList([]bazel.Label{{Label: ":" + logtagsLibName}}) ctx.CreateBazelTargetModule( bazel.BazelTargetModuleProperties{ Rule_class: "event_log_tags", Bzl_load_location: "//build/make/tools:event_log_tags.bzl", }, android.CommonAttributes{Name: logtagsLibName}, &eventLogTagsAttributes{ Srcs: srcPartitions[logtagSrcPartition], }, ) } javaSrcs.Append(bazel.MakeLabelListAttribute(logtagsSrcs)) var javacopts []string if m.properties.Javacflags != nil { javacopts = append(javacopts, m.properties.Javacflags...) } epEnabled := m.properties.Errorprone.Enabled //TODO(b/227504307) add configuration that depends on RUN_ERROR_PRONE environment variable if Bool(epEnabled) { javacopts = append(javacopts, m.properties.Errorprone.Javacflags...) } commonAttrs := &javaCommonAttributes{ Srcs: javaSrcs, Plugins: bazel.MakeLabelListAttribute( android.BazelLabelForModuleDeps(ctx, m.properties.Plugins), ), Javacopts: bazel.MakeStringListAttribute(javacopts), } depLabels := &javaDependencyLabels{} var deps bazel.LabelList if m.properties.Libs != nil { deps.Append(android.BazelLabelForModuleDeps(ctx, m.properties.Libs)) } var staticDeps bazel.LabelList if m.properties.Static_libs != nil { staticDeps.Append(android.BazelLabelForModuleDeps(ctx, m.properties.Static_libs)) } protoDepLabel := bp2buildProto(ctx, &m.Module, srcPartitions[protoSrcPartition]) // Soong does not differentiate between a java_library and the Bazel equivalent of // a java_proto_library + proto_library pair. Instead, in Soong proto sources are // listed directly in the srcs of a java_library, and the classes produced // by protoc are included directly in the resulting JAR. Thus upstream dependencies // that depend on a java_library with proto sources can link directly to the protobuf API, // and so this should be a static dependency. staticDeps.Add(protoDepLabel) depLabels.Deps = bazel.MakeLabelListAttribute(deps) depLabels.StaticDeps = bazel.MakeLabelListAttribute(staticDeps) return commonAttrs, depLabels } type javaLibraryAttributes struct { *javaCommonAttributes Deps bazel.LabelListAttribute Exports bazel.LabelListAttribute } func javaLibraryBp2Build(ctx android.TopDownMutatorContext, m *Library) { commonAttrs, depLabels := m.convertLibraryAttrsBp2Build(ctx) deps := depLabels.Deps if !commonAttrs.Srcs.IsEmpty() { deps.Append(depLabels.StaticDeps) // we should only append these if there are sources to use them sdkVersion := m.SdkVersion(ctx) if sdkVersion.Kind == android.SdkPublic && sdkVersion.ApiLevel == android.FutureApiLevel { // TODO(b/220869005) remove forced dependency on current public android.jar deps.Add(bazel.MakeLabelAttribute("//prebuilts/sdk:public_current_android_sdk_java_import")) } } else if !depLabels.Deps.IsEmpty() { ctx.ModuleErrorf("Module has direct dependencies but no sources. Bazel will not allow this.") } attrs := &javaLibraryAttributes{ javaCommonAttributes: commonAttrs, Deps: deps, Exports: depLabels.StaticDeps, } props := bazel.BazelTargetModuleProperties{ Rule_class: "java_library", Bzl_load_location: "//build/bazel/rules/java:library.bzl", } ctx.CreateBazelTargetModule(props, android.CommonAttributes{Name: m.Name()}, attrs) } type javaBinaryHostAttributes struct { *javaCommonAttributes Deps bazel.LabelListAttribute Runtime_deps bazel.LabelListAttribute Main_class string Jvm_flags bazel.StringListAttribute } // JavaBinaryHostBp2Build is for java_binary_host bp2build. func javaBinaryHostBp2Build(ctx android.TopDownMutatorContext, m *Binary) { commonAttrs, depLabels := m.convertLibraryAttrsBp2Build(ctx) deps := depLabels.Deps deps.Append(depLabels.StaticDeps) if m.binaryProperties.Jni_libs != nil { deps.Append(bazel.MakeLabelListAttribute(android.BazelLabelForModuleDeps(ctx, m.binaryProperties.Jni_libs))) } var runtimeDeps bazel.LabelListAttribute if commonAttrs.Srcs.IsEmpty() { // if there are no sources, then the dependencies can only be used at runtime runtimeDeps = deps deps = bazel.LabelListAttribute{} } mainClass := "" if m.binaryProperties.Main_class != nil { mainClass = *m.binaryProperties.Main_class } if m.properties.Manifest != nil { mainClassInManifest, err := android.GetMainClassInManifest(ctx.Config(), android.PathForModuleSrc(ctx, *m.properties.Manifest).String()) if err != nil { return } mainClass = mainClassInManifest } attrs := &javaBinaryHostAttributes{ javaCommonAttributes: commonAttrs, Deps: deps, Runtime_deps: runtimeDeps, Main_class: mainClass, } // Attribute jvm_flags if m.binaryProperties.Jni_libs != nil { jniLibPackages := map[string]bool{} for _, jniLibLabel := range android.BazelLabelForModuleDeps(ctx, m.binaryProperties.Jni_libs).Includes { jniLibPackage := jniLibLabel.Label indexOfColon := strings.Index(jniLibLabel.Label, ":") if indexOfColon > 0 { // JNI lib from other package jniLibPackage = jniLibLabel.Label[2:indexOfColon] } else if indexOfColon == 0 { // JNI lib in the same package of java_binary packageOfCurrentModule := m.GetBazelLabel(ctx, m) jniLibPackage = packageOfCurrentModule[2:strings.Index(packageOfCurrentModule, ":")] } if _, inMap := jniLibPackages[jniLibPackage]; !inMap { jniLibPackages[jniLibPackage] = true } } jniLibPaths := []string{} for jniLibPackage, _ := range jniLibPackages { // See cs/f:.*/third_party/bazel/.*java_stub_template.txt for the use of RUNPATH jniLibPaths = append(jniLibPaths, "$${RUNPATH}"+jniLibPackage) } attrs.Jvm_flags = bazel.MakeStringListAttribute([]string{"-Djava.library.path=" + strings.Join(jniLibPaths, ":")}) } props := bazel.BazelTargetModuleProperties{ Rule_class: "java_binary", } // Create the BazelTargetModule. ctx.CreateBazelTargetModule(props, android.CommonAttributes{Name: m.Name()}, attrs) } type bazelJavaImportAttributes struct { Jars bazel.LabelListAttribute } // java_import bp2Build converter. func (i *Import) ConvertWithBp2build(ctx android.TopDownMutatorContext) { var jars bazel.LabelListAttribute archVariantProps := i.GetArchVariantProperties(ctx, &ImportProperties{}) for axis, configToProps := range archVariantProps { for config, _props := range configToProps { if archProps, ok := _props.(*ImportProperties); ok { archJars := android.BazelLabelForModuleSrcExcludes(ctx, archProps.Jars, []string(nil)) jars.SetSelectValue(axis, config, archJars) } } } attrs := &bazelJavaImportAttributes{ Jars: jars, } props := bazel.BazelTargetModuleProperties{Rule_class: "java_import"} ctx.CreateBazelTargetModule(props, android.CommonAttributes{Name: android.RemoveOptionalPrebuiltPrefix(i.Name())}, attrs) }