// Copyright (C) 2019 The Android Open Source Project // // 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 sdk import ( "fmt" "reflect" "sort" "strings" "android/soong/apex" "android/soong/cc" "github.com/google/blueprint" "github.com/google/blueprint/proptools" "android/soong/android" ) var pctx = android.NewPackageContext("android/soong/sdk") var ( repackageZip = pctx.AndroidStaticRule("SnapshotRepackageZip", blueprint.RuleParams{ Command: `${config.Zip2ZipCmd} -i $in -o $out -x META-INF/**/* "**/*:$destdir"`, CommandDeps: []string{ "${config.Zip2ZipCmd}", }, }, "destdir") zipFiles = pctx.AndroidStaticRule("SnapshotZipFiles", blueprint.RuleParams{ Command: `${config.SoongZipCmd} -C $basedir -l $out.rsp -o $out`, CommandDeps: []string{ "${config.SoongZipCmd}", }, Rspfile: "$out.rsp", RspfileContent: "$in", }, "basedir") mergeZips = pctx.AndroidStaticRule("SnapshotMergeZips", blueprint.RuleParams{ Command: `${config.MergeZipsCmd} $out $in`, CommandDeps: []string{ "${config.MergeZipsCmd}", }, }) ) type generatedContents struct { content strings.Builder indentLevel int } // generatedFile abstracts operations for writing contents into a file and emit a build rule // for the file. type generatedFile struct { generatedContents path android.OutputPath } func newGeneratedFile(ctx android.ModuleContext, path ...string) *generatedFile { return &generatedFile{ path: android.PathForModuleOut(ctx, path...).OutputPath, } } func (gc *generatedContents) Indent() { gc.indentLevel++ } func (gc *generatedContents) Dedent() { gc.indentLevel-- } func (gc *generatedContents) Printfln(format string, args ...interface{}) { // ninja consumes newline characters in rspfile_content. Prevent it by // escaping the backslash in the newline character. The extra backslash // is removed when the rspfile is written to the actual script file fmt.Fprintf(&(gc.content), strings.Repeat(" ", gc.indentLevel)+format+"\\n", args...) } func (gf *generatedFile) build(pctx android.PackageContext, ctx android.BuilderContext, implicits android.Paths) { rb := android.NewRuleBuilder() // convert \\n to \n rb.Command(). Implicits(implicits). Text("echo").Text(proptools.ShellEscape(gf.content.String())). Text("| sed 's/\\\\n/\\n/g' >").Output(gf.path) rb.Command(). Text("chmod a+x").Output(gf.path) rb.Build(pctx, ctx, gf.path.Base(), "Build "+gf.path.Base()) } // Collect all the members. // // Returns a list containing type (extracted from the dependency tag) and the variant. func (s *sdk) collectMembers(ctx android.ModuleContext) []sdkMemberRef { var memberRefs []sdkMemberRef ctx.WalkDeps(func(child android.Module, parent android.Module) bool { tag := ctx.OtherModuleDependencyTag(child) if memberTag, ok := tag.(android.SdkMemberTypeDependencyTag); ok { memberType := memberTag.SdkMemberType() // Make sure that the resolved module is allowed in the member list property. if !memberType.IsInstance(child) { ctx.ModuleErrorf("module %q is not valid in property %s", ctx.OtherModuleName(child), memberType.SdkPropertyName()) } memberRefs = append(memberRefs, sdkMemberRef{memberType, child.(android.SdkAware)}) // If the member type supports transitive sdk members then recurse down into // its dependencies, otherwise exit traversal. return memberType.HasTransitiveSdkMembers() } return false }) return memberRefs } // Organize the members. // // The members are first grouped by type and then grouped by name. The order of // the types is the order they are referenced in android.SdkMemberTypesRegistry. // The names are in the order in which the dependencies were added. // // Returns the members as well as the multilib setting to use. func (s *sdk) organizeMembers(ctx android.ModuleContext, memberRefs []sdkMemberRef) ([]*sdkMember, string) { byType := make(map[android.SdkMemberType][]*sdkMember) byName := make(map[string]*sdkMember) lib32 := false // True if any of the members have 32 bit version. lib64 := false // True if any of the members have 64 bit version. for _, memberRef := range memberRefs { memberType := memberRef.memberType variant := memberRef.variant name := ctx.OtherModuleName(variant) member := byName[name] if member == nil { member = &sdkMember{memberType: memberType, name: name} byName[name] = member byType[memberType] = append(byType[memberType], member) } multilib := variant.Target().Arch.ArchType.Multilib if multilib == "lib32" { lib32 = true } else if multilib == "lib64" { lib64 = true } // Only append new variants to the list. This is needed because a member can be both // exported by the sdk and also be a transitive sdk member. member.variants = appendUniqueVariants(member.variants, variant) } var members []*sdkMember for _, memberListProperty := range s.memberListProperties() { membersOfType := byType[memberListProperty.memberType] members = append(members, membersOfType...) } // Compute the setting of multilib. var multilib string if lib32 && lib64 { multilib = "both" } else if lib32 { multilib = "32" } else if lib64 { multilib = "64" } return members, multilib } func appendUniqueVariants(variants []android.SdkAware, newVariant android.SdkAware) []android.SdkAware { for _, v := range variants { if v == newVariant { return variants } } return append(variants, newVariant) } // SDK directory structure // / // Android.bp : definition of a 'sdk' module is here. This is a hand-made one. // / : below this directory are all auto-generated // Android.bp : definition of 'sdk_snapshot' module is here // aidl/ // frameworks/base/core/..../IFoo.aidl : an exported AIDL file // java/ // .jar : the stub jar for a java library 'module_name' // include/ // bionic/libc/include/stdlib.h : an exported header file // include_gen/ // /com/android/.../IFoo.h : a generated header file // /include/ : arch-specific exported headers // /include_gen/ : arch-specific generated headers // /lib/ // libFoo.so : a stub library // A name that uniquely identifies a prebuilt SDK member for a version of SDK snapshot // This isn't visible to users, so could be changed in future. func versionedSdkMemberName(ctx android.ModuleContext, memberName string, version string) string { return ctx.ModuleName() + "_" + memberName + string(android.SdkVersionSeparator) + version } // buildSnapshot is the main function in this source file. It creates rules to copy // the contents (header files, stub libraries, etc) into the zip file. func (s *sdk) buildSnapshot(ctx android.ModuleContext, sdkVariants []*sdk) android.OutputPath { allMembersByName := make(map[string]struct{}) exportedMembersByName := make(map[string]struct{}) var memberRefs []sdkMemberRef for _, sdkVariant := range sdkVariants { memberRefs = append(memberRefs, sdkVariant.memberRefs...) // Record the names of all the members, both explicitly specified and implicitly // included. for _, memberRef := range sdkVariant.memberRefs { allMembersByName[memberRef.variant.Name()] = struct{}{} } // Merge the exported member sets from all sdk variants. for key, _ := range sdkVariant.getExportedMembers() { exportedMembersByName[key] = struct{}{} } } snapshotDir := android.PathForModuleOut(ctx, "snapshot") bp := newGeneratedFile(ctx, "snapshot", "Android.bp") bpFile := &bpFile{ modules: make(map[string]*bpModule), } builder := &snapshotBuilder{ ctx: ctx, sdk: s, version: "current", snapshotDir: snapshotDir.OutputPath, copies: make(map[string]string), filesToZip: []android.Path{bp.path}, bpFile: bpFile, prebuiltModules: make(map[string]*bpModule), allMembersByName: allMembersByName, exportedMembersByName: exportedMembersByName, } s.builderForTests = builder members, multilib := s.organizeMembers(ctx, memberRefs) for _, member := range members { memberType := member.memberType prebuiltModule := memberType.AddPrebuiltModule(ctx, builder, member) if prebuiltModule == nil { // Fall back to legacy method of building a snapshot memberType.BuildSnapshot(ctx, builder, member) } else { s.createMemberSnapshot(ctx, builder, member, prebuiltModule) } } // Create a transformer that will transform an unversioned module into a versioned module. unversionedToVersionedTransformer := unversionedToVersionedTransformation{builder: builder} // Create a transformer that will transform an unversioned module by replacing any references // to internal members with a unique module name and setting prefer: false. unversionedTransformer := unversionedTransformation{builder: builder} for _, unversioned := range builder.prebuiltOrder { // Prune any empty property sets. unversioned = unversioned.transform(pruneEmptySetTransformer{}) // Copy the unversioned module so it can be modified to make it versioned. versioned := unversioned.deepCopy() // Transform the unversioned module into a versioned one. versioned.transform(unversionedToVersionedTransformer) bpFile.AddModule(versioned) // Transform the unversioned module to make it suitable for use in the snapshot. unversioned.transform(unversionedTransformer) bpFile.AddModule(unversioned) } // Create the snapshot module. snapshotName := ctx.ModuleName() + string(android.SdkVersionSeparator) + builder.version var snapshotModuleType string if s.properties.Module_exports { snapshotModuleType = "module_exports_snapshot" } else { snapshotModuleType = "sdk_snapshot" } snapshotModule := bpFile.newModule(snapshotModuleType) snapshotModule.AddProperty("name", snapshotName) // Make sure that the snapshot has the same visibility as the sdk. visibility := android.EffectiveVisibilityRules(ctx, s) if len(visibility) != 0 { snapshotModule.AddProperty("visibility", visibility) } addHostDeviceSupportedProperties(s.ModuleBase.DeviceSupported(), s.ModuleBase.HostSupported(), snapshotModule) // Compile_multilib defaults to both and must always be set to both on the // device and so only needs to be set when targeted at the host and is neither // unspecified or both. targetPropertySet := snapshotModule.AddPropertySet("target") if s.HostSupported() && multilib != "" && multilib != "both" { hostSet := targetPropertySet.AddPropertySet("host") hostSet.AddProperty("compile_multilib", multilib) } var dynamicMemberPropertiesList []interface{} osTypeToMemberProperties := make(map[android.OsType]*sdk) for _, sdkVariant := range sdkVariants { properties := sdkVariant.dynamicMemberTypeListProperties osTypeToMemberProperties[sdkVariant.Target().Os] = sdkVariant dynamicMemberPropertiesList = append(dynamicMemberPropertiesList, properties) } // Extract the common lists of members into a separate struct. commonDynamicMemberProperties := s.dynamicSdkMemberTypes.createMemberListProperties() extractor := newCommonValueExtractor(commonDynamicMemberProperties) extractor.extractCommonProperties(commonDynamicMemberProperties, dynamicMemberPropertiesList) // Add properties common to all os types. s.addMemberPropertiesToPropertySet(builder, snapshotModule, commonDynamicMemberProperties) // Iterate over the os types in a fixed order. for _, osType := range s.getPossibleOsTypes() { if sdkVariant, ok := osTypeToMemberProperties[osType]; ok { osPropertySet := targetPropertySet.AddPropertySet(sdkVariant.Target().Os.Name) s.addMemberPropertiesToPropertySet(builder, osPropertySet, sdkVariant.dynamicMemberTypeListProperties) } } // Prune any empty property sets. snapshotModule.transform(pruneEmptySetTransformer{}) bpFile.AddModule(snapshotModule) // generate Android.bp bp = newGeneratedFile(ctx, "snapshot", "Android.bp") generateBpContents(&bp.generatedContents, bpFile) bp.build(pctx, ctx, nil) filesToZip := builder.filesToZip // zip them all outputZipFile := android.PathForModuleOut(ctx, ctx.ModuleName()+"-current.zip").OutputPath outputDesc := "Building snapshot for " + ctx.ModuleName() // If there are no zips to merge then generate the output zip directly. // Otherwise, generate an intermediate zip file into which other zips can be // merged. var zipFile android.OutputPath var desc string if len(builder.zipsToMerge) == 0 { zipFile = outputZipFile desc = outputDesc } else { zipFile = android.PathForModuleOut(ctx, ctx.ModuleName()+"-current.unmerged.zip").OutputPath desc = "Building intermediate snapshot for " + ctx.ModuleName() } ctx.Build(pctx, android.BuildParams{ Description: desc, Rule: zipFiles, Inputs: filesToZip, Output: zipFile, Args: map[string]string{ "basedir": builder.snapshotDir.String(), }, }) if len(builder.zipsToMerge) != 0 { ctx.Build(pctx, android.BuildParams{ Description: outputDesc, Rule: mergeZips, Input: zipFile, Inputs: builder.zipsToMerge, Output: outputZipFile, }) } return outputZipFile } func (s *sdk) addMemberPropertiesToPropertySet(builder *snapshotBuilder, propertySet android.BpPropertySet, dynamicMemberTypeListProperties interface{}) { for _, memberListProperty := range s.memberListProperties() { names := memberListProperty.getter(dynamicMemberTypeListProperties) if len(names) > 0 { propertySet.AddProperty(memberListProperty.propertyName(), builder.versionedSdkMemberNames(names, false)) } } } type propertyTag struct { name string } // A BpPropertyTag to add to a property that contains references to other sdk members. // // This will cause the references to be rewritten to a versioned reference in the version // specific instance of a snapshot module. var requiredSdkMemberReferencePropertyTag = propertyTag{"requiredSdkMemberReferencePropertyTag"} var optionalSdkMemberReferencePropertyTag = propertyTag{"optionalSdkMemberReferencePropertyTag"} // A BpPropertyTag that indicates the property should only be present in the versioned // module. // // This will cause the property to be removed from the unversioned instance of a // snapshot module. var sdkVersionedOnlyPropertyTag = propertyTag{"sdkVersionedOnlyPropertyTag"} type unversionedToVersionedTransformation struct { identityTransformation builder *snapshotBuilder } func (t unversionedToVersionedTransformation) transformModule(module *bpModule) *bpModule { // Use a versioned name for the module but remember the original name for the // snapshot. name := module.getValue("name").(string) module.setProperty("name", t.builder.versionedSdkMemberName(name, true)) module.insertAfter("name", "sdk_member_name", name) return module } func (t unversionedToVersionedTransformation) transformProperty(name string, value interface{}, tag android.BpPropertyTag) (interface{}, android.BpPropertyTag) { if tag == requiredSdkMemberReferencePropertyTag || tag == optionalSdkMemberReferencePropertyTag { required := tag == requiredSdkMemberReferencePropertyTag return t.builder.versionedSdkMemberNames(value.([]string), required), tag } else { return value, tag } } type unversionedTransformation struct { identityTransformation builder *snapshotBuilder } func (t unversionedTransformation) transformModule(module *bpModule) *bpModule { // If the module is an internal member then use a unique name for it. name := module.getValue("name").(string) module.setProperty("name", t.builder.unversionedSdkMemberName(name, true)) // Set prefer: false - this is not strictly required as that is the default. module.insertAfter("name", "prefer", false) return module } func (t unversionedTransformation) transformProperty(name string, value interface{}, tag android.BpPropertyTag) (interface{}, android.BpPropertyTag) { if tag == requiredSdkMemberReferencePropertyTag || tag == optionalSdkMemberReferencePropertyTag { required := tag == requiredSdkMemberReferencePropertyTag return t.builder.unversionedSdkMemberNames(value.([]string), required), tag } else if tag == sdkVersionedOnlyPropertyTag { // The property is not allowed in the unversioned module so remove it. return nil, nil } else { return value, tag } } type pruneEmptySetTransformer struct { identityTransformation } var _ bpTransformer = (*pruneEmptySetTransformer)(nil) func (t pruneEmptySetTransformer) transformPropertySetAfterContents(name string, propertySet *bpPropertySet, tag android.BpPropertyTag) (*bpPropertySet, android.BpPropertyTag) { if len(propertySet.properties) == 0 { return nil, nil } else { return propertySet, tag } } func generateBpContents(contents *generatedContents, bpFile *bpFile) { contents.Printfln("// This is auto-generated. DO NOT EDIT.") for _, bpModule := range bpFile.order { contents.Printfln("") contents.Printfln("%s {", bpModule.moduleType) outputPropertySet(contents, bpModule.bpPropertySet) contents.Printfln("}") } } func outputPropertySet(contents *generatedContents, set *bpPropertySet) { contents.Indent() // Output the properties first, followed by the nested sets. This ensures a // consistent output irrespective of whether property sets are created before // or after the properties. This simplifies the creation of the module. for _, name := range set.order { value := set.getValue(name) switch v := value.(type) { case []string: length := len(v) if length > 1 { contents.Printfln("%s: [", name) contents.Indent() for i := 0; i < length; i = i + 1 { contents.Printfln("%q,", v[i]) } contents.Dedent() contents.Printfln("],") } else if length == 0 { contents.Printfln("%s: [],", name) } else { contents.Printfln("%s: [%q],", name, v[0]) } case bool: contents.Printfln("%s: %t,", name, v) case *bpPropertySet: // Do not write property sets in the properties phase. default: contents.Printfln("%s: %q,", name, value) } } for _, name := range set.order { value := set.getValue(name) // Only write property sets in the sets phase. switch v := value.(type) { case *bpPropertySet: contents.Printfln("%s: {", name) outputPropertySet(contents, v) contents.Printfln("},") } } contents.Dedent() } func (s *sdk) GetAndroidBpContentsForTests() string { contents := &generatedContents{} generateBpContents(contents, s.builderForTests.bpFile) return contents.content.String() } type snapshotBuilder struct { ctx android.ModuleContext sdk *sdk version string snapshotDir android.OutputPath bpFile *bpFile // Map from destination to source of each copy - used to eliminate duplicates and // detect conflicts. copies map[string]string filesToZip android.Paths zipsToMerge android.Paths prebuiltModules map[string]*bpModule prebuiltOrder []*bpModule // The set of all members by name. allMembersByName map[string]struct{} // The set of exported members by name. exportedMembersByName map[string]struct{} } func (s *snapshotBuilder) CopyToSnapshot(src android.Path, dest string) { if existing, ok := s.copies[dest]; ok { if existing != src.String() { s.ctx.ModuleErrorf("conflicting copy, %s copied from both %s and %s", dest, existing, src) return } } else { path := s.snapshotDir.Join(s.ctx, dest) s.ctx.Build(pctx, android.BuildParams{ Rule: android.Cp, Input: src, Output: path, }) s.filesToZip = append(s.filesToZip, path) s.copies[dest] = src.String() } } func (s *snapshotBuilder) UnzipToSnapshot(zipPath android.Path, destDir string) { ctx := s.ctx // Repackage the zip file so that the entries are in the destDir directory. // This will allow the zip file to be merged into the snapshot. tmpZipPath := android.PathForModuleOut(ctx, "tmp", destDir+".zip").OutputPath ctx.Build(pctx, android.BuildParams{ Description: "Repackaging zip file " + destDir + " for snapshot " + ctx.ModuleName(), Rule: repackageZip, Input: zipPath, Output: tmpZipPath, Args: map[string]string{ "destdir": destDir, }, }) // Add the repackaged zip file to the files to merge. s.zipsToMerge = append(s.zipsToMerge, tmpZipPath) } func (s *snapshotBuilder) AddPrebuiltModule(member android.SdkMember, moduleType string) android.BpModule { name := member.Name() if s.prebuiltModules[name] != nil { panic(fmt.Sprintf("Duplicate module detected, module %s has already been added", name)) } m := s.bpFile.newModule(moduleType) m.AddProperty("name", name) variant := member.Variants()[0] if s.isInternalMember(name) { // An internal member is only referenced from the sdk snapshot which is in the // same package so can be marked as private. m.AddProperty("visibility", []string{"//visibility:private"}) } else { // Extract visibility information from a member variant. All variants have the same // visibility so it doesn't matter which one is used. visibility := android.EffectiveVisibilityRules(s.ctx, variant) if len(visibility) != 0 { m.AddProperty("visibility", visibility) } } deviceSupported := false hostSupported := false for _, variant := range member.Variants() { osClass := variant.Target().Os.Class if osClass == android.Host || osClass == android.HostCross { hostSupported = true } else if osClass == android.Device { deviceSupported = true } } addHostDeviceSupportedProperties(deviceSupported, hostSupported, m) // Where available copy apex_available properties from the member. if apexAware, ok := variant.(interface{ ApexAvailable() []string }); ok { apexAvailable := apexAware.ApexAvailable() // Add in any white listed apex available settings. apexAvailable = append(apexAvailable, apex.WhitelistedApexAvailable(member.Name())...) if len(apexAvailable) > 0 { // Remove duplicates and sort. apexAvailable = android.FirstUniqueStrings(apexAvailable) sort.Strings(apexAvailable) m.AddProperty("apex_available", apexAvailable) } } // Disable installation in the versioned module of those modules that are ever installable. if installable, ok := variant.(interface{ EverInstallable() bool }); ok { if installable.EverInstallable() { m.AddPropertyWithTag("installable", false, sdkVersionedOnlyPropertyTag) } } s.prebuiltModules[name] = m s.prebuiltOrder = append(s.prebuiltOrder, m) return m } func addHostDeviceSupportedProperties(deviceSupported bool, hostSupported bool, bpModule *bpModule) { if !deviceSupported { bpModule.AddProperty("device_supported", false) } if hostSupported { bpModule.AddProperty("host_supported", true) } } func (s *snapshotBuilder) SdkMemberReferencePropertyTag(required bool) android.BpPropertyTag { if required { return requiredSdkMemberReferencePropertyTag } else { return optionalSdkMemberReferencePropertyTag } } func (s *snapshotBuilder) OptionalSdkMemberReferencePropertyTag() android.BpPropertyTag { return optionalSdkMemberReferencePropertyTag } // Get a versioned name appropriate for the SDK snapshot version being taken. func (s *snapshotBuilder) versionedSdkMemberName(unversionedName string, required bool) string { if _, ok := s.allMembersByName[unversionedName]; !ok { if required { s.ctx.ModuleErrorf("Required member reference %s is not a member of the sdk", unversionedName) } return unversionedName } return versionedSdkMemberName(s.ctx, unversionedName, s.version) } func (s *snapshotBuilder) versionedSdkMemberNames(members []string, required bool) []string { var references []string = nil for _, m := range members { references = append(references, s.versionedSdkMemberName(m, required)) } return references } // Get an internal name unique to the sdk. func (s *snapshotBuilder) unversionedSdkMemberName(unversionedName string, required bool) string { if _, ok := s.allMembersByName[unversionedName]; !ok { if required { s.ctx.ModuleErrorf("Required member reference %s is not a member of the sdk", unversionedName) } return unversionedName } if s.isInternalMember(unversionedName) { return s.ctx.ModuleName() + "_" + unversionedName } else { return unversionedName } } func (s *snapshotBuilder) unversionedSdkMemberNames(members []string, required bool) []string { var references []string = nil for _, m := range members { references = append(references, s.unversionedSdkMemberName(m, required)) } return references } func (s *snapshotBuilder) isInternalMember(memberName string) bool { _, ok := s.exportedMembersByName[memberName] return !ok } type sdkMemberRef struct { memberType android.SdkMemberType variant android.SdkAware } var _ android.SdkMember = (*sdkMember)(nil) type sdkMember struct { memberType android.SdkMemberType name string variants []android.SdkAware } func (m *sdkMember) Name() string { return m.name } func (m *sdkMember) Variants() []android.SdkAware { return m.variants } type baseInfo struct { Properties android.SdkMemberProperties } type osTypeSpecificInfo struct { baseInfo osType android.OsType // The list of arch type specific info for this os type. // // Nil if there is one variant whose arch type is common archInfos []*archTypeSpecificInfo } type variantPropertiesFactoryFunc func() android.SdkMemberProperties // Create a new osTypeSpecificInfo for the specified os type and its properties // structures populated with information from the variants. func newOsTypeSpecificInfo(osType android.OsType, variantPropertiesFactory variantPropertiesFactoryFunc, osTypeVariants []android.SdkAware) *osTypeSpecificInfo { osInfo := &osTypeSpecificInfo{ osType: osType, } osSpecificVariantPropertiesFactory := func() android.SdkMemberProperties { properties := variantPropertiesFactory() properties.Base().Os = osType return properties } // Create a structure into which properties common across the architectures in // this os type will be stored. osInfo.Properties = osSpecificVariantPropertiesFactory() // Group the variants by arch type. var variantsByArchName = make(map[string][]android.SdkAware) var archTypes []android.ArchType for _, variant := range osTypeVariants { archType := variant.Target().Arch.ArchType archTypeName := archType.Name if _, ok := variantsByArchName[archTypeName]; !ok { archTypes = append(archTypes, archType) } variantsByArchName[archTypeName] = append(variantsByArchName[archTypeName], variant) } if commonVariants, ok := variantsByArchName["common"]; ok { if len(osTypeVariants) != 1 { panic("Expected to only have 1 variant when arch type is common but found " + string(len(osTypeVariants))) } // A common arch type only has one variant and its properties should be treated // as common to the os type. osInfo.Properties.PopulateFromVariant(commonVariants[0]) } else { // Create an arch specific info for each supported architecture type. for _, archType := range archTypes { archTypeName := archType.Name archVariants := variantsByArchName[archTypeName] archInfo := newArchSpecificInfo(archType, osSpecificVariantPropertiesFactory, archVariants) osInfo.archInfos = append(osInfo.archInfos, archInfo) } } return osInfo } // Optimize the properties by extracting common properties from arch type specific // properties into os type specific properties. func (osInfo *osTypeSpecificInfo) optimizeProperties(commonValueExtractor *commonValueExtractor) { // Nothing to do if there is only a single common architecture. if len(osInfo.archInfos) == 0 { return } var archPropertiesList []android.SdkMemberProperties for _, archInfo := range osInfo.archInfos { // Optimize the arch properties first. archInfo.optimizeProperties(commonValueExtractor) archPropertiesList = append(archPropertiesList, archInfo.Properties) } commonValueExtractor.extractCommonProperties(osInfo.Properties, archPropertiesList) // Choose setting for compile_multilib that is appropriate for the arch variants supplied. var multilib string archVariantCount := len(osInfo.archInfos) if archVariantCount == 2 { multilib = "both" } else if archVariantCount == 1 { if strings.HasSuffix(osInfo.archInfos[0].archType.Name, "64") { multilib = "64" } else { multilib = "32" } } osInfo.Properties.Base().Compile_multilib = multilib } // Add the properties for an os to a property set. // // Maps the properties related to the os variants through to an appropriate // module structure that will produce equivalent set of variants when it is // processed in a build. func (osInfo *osTypeSpecificInfo) addToPropertySet( builder *snapshotBuilder, bpModule android.BpModule, targetPropertySet android.BpPropertySet) { var osPropertySet android.BpPropertySet var archPropertySet android.BpPropertySet var archOsPrefix string if osInfo.Properties.Base().Os_count == 1 { // There is only one os type present in the variants so don't bother // with adding target specific properties. // Create a structure that looks like: // module_type { // name: "...", // ... // // ... // // // arch: { // // } // osPropertySet = bpModule archPropertySet = osPropertySet.AddPropertySet("arch") // Arch specific properties need to be added to an arch specific section // within arch. archOsPrefix = "" } else { // Create a structure that looks like: // module_type { // name: "...", // ... // // ... // target: { // // ... // // } // osType := osInfo.osType osPropertySet = targetPropertySet.AddPropertySet(osType.Name) archPropertySet = targetPropertySet // Arch specific properties need to be added to an os and arch specific // section prefixed with _. archOsPrefix = osType.Name + "_" } // Add the os specific but arch independent properties to the module. osInfo.Properties.AddToPropertySet(builder.ctx, builder, osPropertySet) // Add arch (and possibly os) specific sections for each set of arch (and possibly // os) specific properties. // // The archInfos list will be empty if the os contains variants for the common // architecture. for _, archInfo := range osInfo.archInfos { archInfo.addToPropertySet(builder, archPropertySet, archOsPrefix) } } type archTypeSpecificInfo struct { baseInfo archType android.ArchType linkInfos []*linkTypeSpecificInfo } // Create a new archTypeSpecificInfo for the specified arch type and its properties // structures populated with information from the variants. func newArchSpecificInfo(archType android.ArchType, variantPropertiesFactory variantPropertiesFactoryFunc, archVariants []android.SdkAware) *archTypeSpecificInfo { // Create an arch specific info into which the variant properties can be copied. archInfo := &archTypeSpecificInfo{archType: archType} // Create the properties into which the arch type specific properties will be // added. archInfo.Properties = variantPropertiesFactory() if len(archVariants) == 1 { archInfo.Properties.PopulateFromVariant(archVariants[0]) } else { // There is more than one variant for this arch type which must be differentiated // by link type. for _, linkVariant := range archVariants { linkType := getLinkType(linkVariant) if linkType == "" { panic(fmt.Errorf("expected one arch specific variant as it is not identified by link type but found %d", len(archVariants))) } else { linkInfo := newLinkSpecificInfo(linkType, variantPropertiesFactory, linkVariant) archInfo.linkInfos = append(archInfo.linkInfos, linkInfo) } } } return archInfo } // Get the link type of the variant // // If the variant is not differentiated by link type then it returns "", // otherwise it returns one of "static" or "shared". func getLinkType(variant android.Module) string { linkType := "" if linkable, ok := variant.(cc.LinkableInterface); ok { if linkable.Shared() && linkable.Static() { panic(fmt.Errorf("expected variant %q to be either static or shared but was both", variant.String())) } else if linkable.Shared() { linkType = "shared" } else if linkable.Static() { linkType = "static" } else { panic(fmt.Errorf("expected variant %q to be either static or shared but was neither", variant.String())) } } return linkType } // Optimize the properties by extracting common properties from link type specific // properties into arch type specific properties. func (archInfo *archTypeSpecificInfo) optimizeProperties(commonValueExtractor *commonValueExtractor) { if len(archInfo.linkInfos) == 0 { return } var propertiesList []android.SdkMemberProperties for _, linkInfo := range archInfo.linkInfos { propertiesList = append(propertiesList, linkInfo.Properties) } commonValueExtractor.extractCommonProperties(archInfo.Properties, propertiesList) } // Add the properties for an arch type to a property set. func (archInfo *archTypeSpecificInfo) addToPropertySet(builder *snapshotBuilder, archPropertySet android.BpPropertySet, archOsPrefix string) { archTypeName := archInfo.archType.Name archTypePropertySet := archPropertySet.AddPropertySet(archOsPrefix + archTypeName) archInfo.Properties.AddToPropertySet(builder.ctx, builder, archTypePropertySet) for _, linkInfo := range archInfo.linkInfos { linkPropertySet := archTypePropertySet.AddPropertySet(linkInfo.linkType) linkInfo.Properties.AddToPropertySet(builder.ctx, builder, linkPropertySet) } } type linkTypeSpecificInfo struct { baseInfo linkType string } // Create a new linkTypeSpecificInfo for the specified link type and its properties // structures populated with information from the variant. func newLinkSpecificInfo(linkType string, variantPropertiesFactory variantPropertiesFactoryFunc, linkVariant android.SdkAware) *linkTypeSpecificInfo { linkInfo := &linkTypeSpecificInfo{ baseInfo: baseInfo{ // Create the properties into which the link type specific properties will be // added. Properties: variantPropertiesFactory(), }, linkType: linkType, } linkInfo.Properties.PopulateFromVariant(linkVariant) return linkInfo } func (s *sdk) createMemberSnapshot(sdkModuleContext android.ModuleContext, builder *snapshotBuilder, member *sdkMember, bpModule android.BpModule) { memberType := member.memberType // Group the variants by os type. variantsByOsType := make(map[android.OsType][]android.SdkAware) variants := member.Variants() for _, variant := range variants { osType := variant.Target().Os variantsByOsType[osType] = append(variantsByOsType[osType], variant) } osCount := len(variantsByOsType) variantPropertiesFactory := func() android.SdkMemberProperties { properties := memberType.CreateVariantPropertiesStruct() base := properties.Base() base.Os_count = osCount return properties } osTypeToInfo := make(map[android.OsType]*osTypeSpecificInfo) // The set of properties that are common across all architectures and os types. commonProperties := variantPropertiesFactory() commonProperties.Base().Os = android.CommonOS // Create common value extractor that can be used to optimize the properties. commonValueExtractor := newCommonValueExtractor(commonProperties) // The list of property structures which are os type specific but common across // architectures within that os type. var osSpecificPropertiesList []android.SdkMemberProperties for osType, osTypeVariants := range variantsByOsType { osInfo := newOsTypeSpecificInfo(osType, variantPropertiesFactory, osTypeVariants) osTypeToInfo[osType] = osInfo // Add the os specific properties to a list of os type specific yet architecture // independent properties structs. osSpecificPropertiesList = append(osSpecificPropertiesList, osInfo.Properties) // Optimize the properties across all the variants for a specific os type. osInfo.optimizeProperties(commonValueExtractor) } // Extract properties which are common across all architectures and os types. commonValueExtractor.extractCommonProperties(commonProperties, osSpecificPropertiesList) // Add the common properties to the module. commonProperties.AddToPropertySet(sdkModuleContext, builder, bpModule) // Create a target property set into which target specific properties can be // added. targetPropertySet := bpModule.AddPropertySet("target") // Iterate over the os types in a fixed order. for _, osType := range s.getPossibleOsTypes() { osInfo := osTypeToInfo[osType] if osInfo == nil { continue } osInfo.addToPropertySet(builder, bpModule, targetPropertySet) } } // Compute the list of possible os types that this sdk could support. func (s *sdk) getPossibleOsTypes() []android.OsType { var osTypes []android.OsType for _, osType := range android.OsTypeList { if s.DeviceSupported() { if osType.Class == android.Device && osType != android.Fuchsia { osTypes = append(osTypes, osType) } } if s.HostSupported() { if osType.Class == android.Host || osType.Class == android.HostCross { osTypes = append(osTypes, osType) } } } sort.SliceStable(osTypes, func(i, j int) bool { return osTypes[i].Name < osTypes[j].Name }) return osTypes } // Given a struct value, access a field within that struct (or one of its embedded // structs). type fieldAccessorFunc func(structValue reflect.Value) reflect.Value // Supports extracting common values from a number of instances of a properties // structure into a separate common set of properties. type commonValueExtractor struct { // The getters for every field from which common values can be extracted. fieldGetters []fieldAccessorFunc } // Create a new common value extractor for the structure type for the supplied // properties struct. // // The returned extractor can be used on any properties structure of the same type // as the supplied set of properties. func newCommonValueExtractor(propertiesStruct interface{}) *commonValueExtractor { structType := getStructValue(reflect.ValueOf(propertiesStruct)).Type() extractor := &commonValueExtractor{} extractor.gatherFields(structType, nil) return extractor } // Gather the fields from the supplied structure type from which common values will // be extracted. // // This is recursive function. If it encounters an embedded field (no field name) // that is a struct then it will recurse into that struct passing in the accessor // for the field. That will then be used in the accessors for the fields in the // embedded struct. func (e *commonValueExtractor) gatherFields(structType reflect.Type, containingStructAccessor fieldAccessorFunc) { for f := 0; f < structType.NumField(); f++ { field := structType.Field(f) if field.PkgPath != "" { // Ignore unexported fields. continue } // Ignore fields whose value should be kept. if proptools.HasTag(field, "sdk", "keep") { continue } // Save a copy of the field index for use in the function. fieldIndex := f fieldGetter := func(value reflect.Value) reflect.Value { if containingStructAccessor != nil { // This is an embedded structure so first access the field for the embedded // structure. value = containingStructAccessor(value) } // Skip through interface and pointer values to find the structure. value = getStructValue(value) // Return the field. return value.Field(fieldIndex) } if field.Type.Kind() == reflect.Struct && field.Anonymous { // Gather fields from the embedded structure. e.gatherFields(field.Type, fieldGetter) } else { e.fieldGetters = append(e.fieldGetters, fieldGetter) } } } func getStructValue(value reflect.Value) reflect.Value { foundStruct: for { kind := value.Kind() switch kind { case reflect.Interface, reflect.Ptr: value = value.Elem() case reflect.Struct: break foundStruct default: panic(fmt.Errorf("expecting struct, interface or pointer, found %v of kind %s", value, kind)) } } return value } // Extract common properties from a slice of property structures of the same type. // // All the property structures must be of the same type. // commonProperties - must be a pointer to the structure into which common properties will be added. // inputPropertiesSlice - must be a slice of input properties structures. // // Iterates over each exported field (capitalized name) and checks to see whether they // have the same value (using DeepEquals) across all the input properties. If it does not then no // change is made. Otherwise, the common value is stored in the field in the commonProperties // and the field in each of the input properties structure is set to its default value. func (e *commonValueExtractor) extractCommonProperties(commonProperties interface{}, inputPropertiesSlice interface{}) { commonPropertiesValue := reflect.ValueOf(commonProperties) commonStructValue := commonPropertiesValue.Elem() propertiesStructType := commonStructValue.Type() // Create an empty structure from which default values for the field can be copied. emptyStructValue := reflect.New(propertiesStructType).Elem() for _, fieldGetter := range e.fieldGetters { // Check to see if all the structures have the same value for the field. The commonValue // is nil on entry to the loop and if it is nil on exit then there is no common value, // otherwise it points to the common value. var commonValue *reflect.Value sliceValue := reflect.ValueOf(inputPropertiesSlice) for i := 0; i < sliceValue.Len(); i++ { itemValue := sliceValue.Index(i) fieldValue := fieldGetter(itemValue) if commonValue == nil { // Use the first value as the commonProperties value. commonValue = &fieldValue } else { // If the value does not match the current common value then there is // no value in common so break out. if !reflect.DeepEqual(fieldValue.Interface(), commonValue.Interface()) { commonValue = nil break } } } // If the fields all have a common value then store it in the common struct field // and set the input struct's field to the empty value. if commonValue != nil { emptyValue := fieldGetter(emptyStructValue) fieldGetter(commonStructValue).Set(*commonValue) for i := 0; i < sliceValue.Len(); i++ { itemValue := sliceValue.Index(i) fieldValue := fieldGetter(itemValue) fieldValue.Set(emptyValue) } } } }