// Copyright 2019 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 cc import ( "path/filepath" "android/soong/android" "github.com/google/blueprint" "github.com/google/blueprint/proptools" ) // This file contains support for using cc library modules within an sdk. var sharedLibrarySdkMemberType = &librarySdkMemberType{ SdkMemberTypeBase: android.SdkMemberTypeBase{ PropertyName: "native_shared_libs", SupportsSdk: true, HostOsDependent: true, SupportedLinkageNames: []string{"shared"}, }, prebuiltModuleType: "cc_prebuilt_library_shared", } var staticLibrarySdkMemberType = &librarySdkMemberType{ SdkMemberTypeBase: android.SdkMemberTypeBase{ PropertyName: "native_static_libs", SupportsSdk: true, HostOsDependent: true, SupportedLinkageNames: []string{"static"}, }, prebuiltModuleType: "cc_prebuilt_library_static", } var staticAndSharedLibrarySdkMemberType = &librarySdkMemberType{ SdkMemberTypeBase: android.SdkMemberTypeBase{ PropertyName: "native_libs", OverridesPropertyNames: map[string]bool{"native_shared_libs": true, "native_static_libs": true}, SupportsSdk: true, HostOsDependent: true, SupportedLinkageNames: []string{"static", "shared"}, }, prebuiltModuleType: "cc_prebuilt_library", } func init() { // Register sdk member types. android.RegisterSdkMemberType(sharedLibrarySdkMemberType) android.RegisterSdkMemberType(staticLibrarySdkMemberType) android.RegisterSdkMemberType(staticAndSharedLibrarySdkMemberType) } type librarySdkMemberType struct { android.SdkMemberTypeBase prebuiltModuleType string noOutputFiles bool // True if there are no srcs files. } func (mt *librarySdkMemberType) AddDependencies(ctx android.SdkDependencyContext, dependencyTag blueprint.DependencyTag, names []string) { // The base set of targets which does not include native bridge targets. defaultTargets := ctx.MultiTargets() // The lazily created list of native bridge targets. var includeNativeBridgeTargets []android.Target for _, lib := range names { targets := defaultTargets // If native bridge support is required in the sdk snapshot then add native bridge targets to // the basic list of targets that are required. nativeBridgeSupport := ctx.RequiresTrait(lib, nativeBridgeSdkTrait) if nativeBridgeSupport && ctx.Device() { // If not already computed then compute the list of native bridge targets. if includeNativeBridgeTargets == nil { includeNativeBridgeTargets = append([]android.Target{}, defaultTargets...) allAndroidTargets := ctx.Config().Targets[android.Android] for _, possibleNativeBridgeTarget := range allAndroidTargets { if possibleNativeBridgeTarget.NativeBridge == android.NativeBridgeEnabled { includeNativeBridgeTargets = append(includeNativeBridgeTargets, possibleNativeBridgeTarget) } } } // Include the native bridge targets as well. targets = includeNativeBridgeTargets } // memberDependency encapsulates information about the dependencies to add for this member. type memberDependency struct { // The targets to depend upon. targets []android.Target // Additional image variations to depend upon, is either nil for no image variation or // contains a single image variation. imageVariations []blueprint.Variation } // Extract the name and version from the module name. name, version := StubsLibNameAndVersion(lib) if version == "" { version = "latest" } // Compute the set of dependencies to add. var memberDependencies []memberDependency if ctx.Host() { // Host does not support image variations so add a dependency without any. memberDependencies = append(memberDependencies, memberDependency{ targets: targets, }) } else { // Otherwise, this is targeting the device so add a dependency on the core image variation // (image:""). memberDependencies = append(memberDependencies, memberDependency{ imageVariations: []blueprint.Variation{{Mutator: "image", Variation: android.CoreVariation}}, targets: targets, }) // If required add additional dependencies on the image:ramdisk variants. if ctx.RequiresTrait(lib, ramdiskImageRequiredSdkTrait) { memberDependencies = append(memberDependencies, memberDependency{ imageVariations: []blueprint.Variation{{Mutator: "image", Variation: android.RamdiskVariation}}, // Only add a dependency on the first target as that is the only one which will have an // image:ramdisk variant. targets: targets[:1], }) } // If required add additional dependencies on the image:recovery variants. if ctx.RequiresTrait(lib, recoveryImageRequiredSdkTrait) { memberDependencies = append(memberDependencies, memberDependency{ imageVariations: []blueprint.Variation{{Mutator: "image", Variation: android.RecoveryVariation}}, // Only add a dependency on the first target as that is the only one which will have an // image:recovery variant. targets: targets[:1], }) } } // For each dependency in the list add dependencies on the targets with the correct variations. for _, dependency := range memberDependencies { // For each target add a dependency on the target with any additional dependencies. for _, target := range dependency.targets { // Get the variations for the target. variations := target.Variations() // Add any additional dependencies needed. variations = append(variations, dependency.imageVariations...) if mt.SupportedLinkageNames == nil { // No link types are supported so add a dependency directly. ctx.AddFarVariationDependencies(variations, dependencyTag, name) } else { // Otherwise, add a dependency on each supported link type in turn. for _, linkType := range mt.SupportedLinkageNames { libVariations := append(variations, blueprint.Variation{Mutator: "link", Variation: linkType}) // If this is for the device and a shared link type then add a dependency onto the // appropriate version specific variant of the module. if ctx.Device() && linkType == "shared" { libVariations = append(libVariations, blueprint.Variation{Mutator: "version", Variation: version}) } ctx.AddFarVariationDependencies(libVariations, dependencyTag, name) } } } } } } func (mt *librarySdkMemberType) IsInstance(module android.Module) bool { // Check the module to see if it can be used with this module type. if m, ok := module.(*Module); ok { for _, allowableMemberType := range m.sdkMemberTypes { if allowableMemberType == mt { return true } } } return false } func (mt *librarySdkMemberType) AddPrebuiltModule(ctx android.SdkMemberContext, member android.SdkMember) android.BpModule { pbm := ctx.SnapshotBuilder().AddPrebuiltModule(member, mt.prebuiltModuleType) ccModule := member.Variants()[0].(*Module) if ctx.RequiresTrait(nativeBridgeSdkTrait) { pbm.AddProperty("native_bridge_supported", true) } if ctx.RequiresTrait(ramdiskImageRequiredSdkTrait) { pbm.AddProperty("ramdisk_available", true) } if ctx.RequiresTrait(recoveryImageRequiredSdkTrait) { pbm.AddProperty("recovery_available", true) } if proptools.Bool(ccModule.VendorProperties.Vendor_available) { pbm.AddProperty("vendor_available", true) } if proptools.Bool(ccModule.VendorProperties.Odm_available) { pbm.AddProperty("odm_available", true) } if proptools.Bool(ccModule.VendorProperties.Product_available) { pbm.AddProperty("product_available", true) } sdkVersion := ccModule.SdkVersion() if sdkVersion != "" { pbm.AddProperty("sdk_version", sdkVersion) } stl := ccModule.stl.Properties.Stl if stl != nil { pbm.AddProperty("stl", proptools.String(stl)) } if lib, ok := ccModule.linker.(*libraryDecorator); ok { uhs := lib.Properties.Unique_host_soname if uhs != nil { pbm.AddProperty("unique_host_soname", proptools.Bool(uhs)) } } return pbm } func (mt *librarySdkMemberType) CreateVariantPropertiesStruct() android.SdkMemberProperties { return &nativeLibInfoProperties{memberType: mt} } func isGeneratedHeaderDirectory(p android.Path) bool { _, gen := p.(android.WritablePath) return gen } type includeDirsProperty struct { // Accessor to retrieve the paths pathsGetter func(libInfo *nativeLibInfoProperties) android.Paths // The name of the property in the prebuilt library, "" means there is no property. propertyName string // The directory within the snapshot directory into which items should be copied. snapshotDir string // True if the items on the path should be copied. copy bool // True if the paths represent directories, files if they represent files. dirs bool } var includeDirProperties = []includeDirsProperty{ { // ExportedIncludeDirs lists directories that contains some header files to be // copied into a directory in the snapshot. The snapshot directories must be added to // the export_include_dirs property in the prebuilt module in the snapshot. pathsGetter: func(libInfo *nativeLibInfoProperties) android.Paths { return libInfo.ExportedIncludeDirs }, propertyName: "export_include_dirs", snapshotDir: nativeIncludeDir, copy: true, dirs: true, }, { // ExportedSystemIncludeDirs lists directories that contains some system header files to // be copied into a directory in the snapshot. The snapshot directories must be added to // the export_system_include_dirs property in the prebuilt module in the snapshot. pathsGetter: func(libInfo *nativeLibInfoProperties) android.Paths { return libInfo.ExportedSystemIncludeDirs }, propertyName: "export_system_include_dirs", snapshotDir: nativeIncludeDir, copy: true, dirs: true, }, { // ExportedGeneratedIncludeDirs lists directories that contains some header files // that are explicitly listed in the ExportedGeneratedHeaders property. So, the contents // of these directories do not need to be copied, but these directories do need adding to // the export_include_dirs property in the prebuilt module in the snapshot. pathsGetter: func(libInfo *nativeLibInfoProperties) android.Paths { return libInfo.ExportedGeneratedIncludeDirs }, propertyName: "export_include_dirs", snapshotDir: nativeGeneratedIncludeDir, copy: false, dirs: true, }, { // ExportedGeneratedHeaders lists header files that are in one of the directories // specified in ExportedGeneratedIncludeDirs must be copied into the snapshot. // As they are in a directory in ExportedGeneratedIncludeDirs they do not need adding to a // property in the prebuilt module in the snapshot. pathsGetter: func(libInfo *nativeLibInfoProperties) android.Paths { return libInfo.ExportedGeneratedHeaders }, propertyName: "", snapshotDir: nativeGeneratedIncludeDir, copy: true, dirs: false, }, } // Add properties that may, or may not, be arch specific. func addPossiblyArchSpecificProperties(sdkModuleContext android.ModuleContext, builder android.SnapshotBuilder, libInfo *nativeLibInfoProperties, outputProperties android.BpPropertySet) { outputProperties.AddProperty("sanitize", &libInfo.Sanitize) // Copy the generated library to the snapshot and add a reference to it in the .bp module. if libInfo.outputFile != nil { nativeLibraryPath := nativeLibraryPathFor(libInfo) builder.CopyToSnapshot(libInfo.outputFile, nativeLibraryPath) outputProperties.AddProperty("srcs", []string{nativeLibraryPath}) } if len(libInfo.SharedLibs) > 0 { outputProperties.AddPropertyWithTag("shared_libs", libInfo.SharedLibs, builder.SdkMemberReferencePropertyTag(false)) } // SystemSharedLibs needs to be propagated if it's a list, even if it's empty, // so check for non-nil instead of nonzero length. if libInfo.SystemSharedLibs != nil { outputProperties.AddPropertyWithTag("system_shared_libs", libInfo.SystemSharedLibs, builder.SdkMemberReferencePropertyTag(false)) } // Map from property name to the include dirs to add to the prebuilt module in the snapshot. includeDirs := make(map[string][]string) // Iterate over each include directory property, copying files and collating property // values where necessary. for _, propertyInfo := range includeDirProperties { // Calculate the base directory in the snapshot into which the files will be copied. // lib.archSubDir is "" for common properties. targetDir := filepath.Join(libInfo.OsPrefix(), libInfo.archSubDir, propertyInfo.snapshotDir) propertyName := propertyInfo.propertyName // Iterate over each path in one of the include directory properties. for _, path := range propertyInfo.pathsGetter(libInfo) { inputPath := path.String() // Map the input path to a snapshot relative path. The mapping is independent of the module // that references them so that if multiple modules within the same snapshot export the same // header files they end up in the same place in the snapshot and so do not get duplicated. targetRelativePath := inputPath if isGeneratedHeaderDirectory(path) { // Remove everything up to the .intermediates/ from the generated output directory to // leave a module relative path. base := android.PathForIntermediates(sdkModuleContext, "") targetRelativePath = android.Rel(sdkModuleContext, base.String(), inputPath) } snapshotRelativePath := filepath.Join(targetDir, targetRelativePath) // Copy the files/directories when necessary. if propertyInfo.copy { if propertyInfo.dirs { // When copying a directory glob and copy all the headers within it. // TODO(jiyong) copy headers having other suffixes headers, _ := sdkModuleContext.GlobWithDeps(inputPath+"/**/*.h", nil) for _, file := range headers { src := android.PathForSource(sdkModuleContext, file) // The destination path in the snapshot is constructed from the snapshot relative path // of the input directory and the input directory relative path of the header file. inputRelativePath := android.Rel(sdkModuleContext, inputPath, file) dest := filepath.Join(snapshotRelativePath, inputRelativePath) builder.CopyToSnapshot(src, dest) } } else { // Otherwise, just copy the file to its snapshot relative path. builder.CopyToSnapshot(path, snapshotRelativePath) } } // Only directories are added to a property. if propertyInfo.dirs { includeDirs[propertyName] = append(includeDirs[propertyName], snapshotRelativePath) } } } // Add the collated include dir properties to the output. for _, property := range android.SortedKeys(includeDirs) { outputProperties.AddProperty(property, includeDirs[property]) } if len(libInfo.StubsVersions) > 0 { stubsSet := outputProperties.AddPropertySet("stubs") stubsSet.AddProperty("versions", libInfo.StubsVersions) } } const ( nativeIncludeDir = "include" nativeGeneratedIncludeDir = "include_gen" nativeStubDir = "lib" ) // path to the native library. Relative to / func nativeLibraryPathFor(lib *nativeLibInfoProperties) string { return filepath.Join(lib.OsPrefix(), lib.archSubDir, nativeStubDir, lib.outputFile.Base()) } // nativeLibInfoProperties represents properties of a native lib // // The exported (capitalized) fields will be examined and may be changed during common value extraction. // The unexported fields will be left untouched. type nativeLibInfoProperties struct { android.SdkMemberPropertiesBase memberType *librarySdkMemberType // archSubDir is the subdirectory within the OS directory in the sdk snapshot into which arch // specific files will be copied. // // It is not exported since any value other than "" is always going to be arch specific. // This is "" for non-arch specific common properties. archSubDir string // The list of possibly common exported include dirs. // // This field is exported as its contents may not be arch specific. ExportedIncludeDirs android.Paths `android:"arch_variant"` // The list of arch specific exported generated include dirs. // // This field is exported as its contents may not be arch specific, e.g. protos. ExportedGeneratedIncludeDirs android.Paths `android:"arch_variant"` // The list of arch specific exported generated header files. // // This field is exported as its contents may not be arch specific, e.g. protos. ExportedGeneratedHeaders android.Paths `android:"arch_variant"` // The list of possibly common exported system include dirs. // // This field is exported as its contents may not be arch specific. ExportedSystemIncludeDirs android.Paths `android:"arch_variant"` // The list of possibly common exported flags. // // This field is exported as its contents may not be arch specific. ExportedFlags []string `android:"arch_variant"` // The set of shared libraries // // This field is exported as its contents may not be arch specific. SharedLibs []string `android:"arch_variant"` // The set of system shared libraries. Note nil and [] are semantically // distinct - see BaseLinkerProperties.System_shared_libs. // // This field is exported as its contents may not be arch specific. SystemSharedLibs []string `android:"arch_variant"` // The specific stubs version for the lib variant, or empty string if stubs // are not in use. // // Marked 'ignored-on-host' as the AllStubsVersions() from which this is // initialized is not set on host and the stubs.versions property which this // is written to does not vary by arch so cannot be android specific. StubsVersions []string `sdk:"ignored-on-host"` // Value of SanitizeProperties.Sanitize. Several - but not all - of these // affect the expanded variants. All are propagated to avoid entangling the // sanitizer logic with the snapshot generation. Sanitize SanitizeUserProps `android:"arch_variant"` // outputFile is not exported as it is always arch specific. outputFile android.Path } func (p *nativeLibInfoProperties) PopulateFromVariant(ctx android.SdkMemberContext, variant android.Module) { addOutputFile := true ccModule := variant.(*Module) if s := ccModule.sanitize; s != nil { // We currently do not capture sanitizer flags for libs with sanitizers // enabled, because they may vary among variants that cannot be represented // in the input blueprint files. In particular, sanitizerDepsMutator enables // various sanitizers on dependencies, but in many cases only on static // ones, and we cannot specify sanitizer flags at the link type level (i.e. // in StaticOrSharedProperties). if s.isUnsanitizedVariant() { // This still captures explicitly disabled sanitizers, which may be // necessary to avoid cyclic dependencies. p.Sanitize = s.Properties.Sanitize } else { // Do not add the output file to the snapshot if we don't represent it // properly. addOutputFile = false } } exportedInfo, _ := android.OtherModuleProvider(ctx.SdkModuleContext(), variant, FlagExporterInfoProvider) // Separate out the generated include dirs (which are arch specific) from the // include dirs (which may not be). exportedIncludeDirs, exportedGeneratedIncludeDirs := android.FilterPathListPredicate( exportedInfo.IncludeDirs, isGeneratedHeaderDirectory) target := ccModule.Target() p.archSubDir = target.Arch.ArchType.String() if target.NativeBridge == android.NativeBridgeEnabled { p.archSubDir += "_native_bridge" } // Make sure that the include directories are unique. p.ExportedIncludeDirs = android.FirstUniquePaths(exportedIncludeDirs) p.ExportedGeneratedIncludeDirs = android.FirstUniquePaths(exportedGeneratedIncludeDirs) // Take a copy before filtering out duplicates to avoid changing the slice owned by the // ccModule. dirs := append(android.Paths(nil), exportedInfo.SystemIncludeDirs...) p.ExportedSystemIncludeDirs = android.FirstUniquePaths(dirs) p.ExportedFlags = exportedInfo.Flags if ccModule.linker != nil { specifiedDeps := specifiedDeps{} specifiedDeps = ccModule.linker.linkerSpecifiedDeps(specifiedDeps) if lib := ccModule.library; lib != nil { if !lib.hasStubsVariants() { // Propagate dynamic dependencies for implementation libs, but not stubs. p.SharedLibs = specifiedDeps.sharedLibs } else { // TODO(b/169373910): 1. Only output the specific version (from // ccModule.StubsVersion()) if the module is versioned. 2. Ensure that all // the versioned stub libs are retained in the prebuilt tree; currently only // the stub corresponding to ccModule.StubsVersion() is. p.StubsVersions = lib.allStubsVersions() } } p.SystemSharedLibs = specifiedDeps.systemSharedLibs } p.ExportedGeneratedHeaders = exportedInfo.GeneratedHeaders if !p.memberType.noOutputFiles && addOutputFile { p.outputFile = getRequiredMemberOutputFile(ctx, ccModule) } } func getRequiredMemberOutputFile(ctx android.SdkMemberContext, ccModule *Module) android.Path { var path android.Path outputFile := ccModule.OutputFile() if outputFile.Valid() { path = outputFile.Path() } else { ctx.SdkModuleContext().ModuleErrorf("member variant %s does not have a valid output file", ccModule) } return path } func (p *nativeLibInfoProperties) AddToPropertySet(ctx android.SdkMemberContext, propertySet android.BpPropertySet) { addPossiblyArchSpecificProperties(ctx.SdkModuleContext(), ctx.SnapshotBuilder(), p, propertySet) }