// Copyright 2024 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 ( "android/soong/android" "bytes" _ "embed" "fmt" "path/filepath" "slices" "sort" "strings" "text/template" "github.com/google/blueprint" "github.com/google/blueprint/proptools" ) const veryVerbose bool = false //go:embed cmake_main.txt var templateCmakeMainRaw string var templateCmakeMain *template.Template = parseTemplate(templateCmakeMainRaw) //go:embed cmake_module_cc.txt var templateCmakeModuleCcRaw string var templateCmakeModuleCc *template.Template = parseTemplate(templateCmakeModuleCcRaw) //go:embed cmake_module_aidl.txt var templateCmakeModuleAidlRaw string var templateCmakeModuleAidl *template.Template = parseTemplate(templateCmakeModuleAidlRaw) //go:embed cmake_ext_add_aidl_library.txt var cmakeExtAddAidlLibrary string //go:embed cmake_ext_append_flags.txt var cmakeExtAppendFlags string var defaultUnportableFlags []string = []string{ "-Wno-class-memaccess", "-Wno-exit-time-destructors", "-Wno-inconsistent-missing-override", "-Wreorder-init-list", "-Wno-reorder-init-list", "-Wno-restrict", "-Wno-stringop-overread", "-Wno-subobject-linkage", } var ignoredSystemLibs []string = []string{ "libc++", "libc++_static", "prebuilt_libclang_rt.builtins", "prebuilt_libclang_rt.ubsan_minimal", } // Mapping entry between Android's library name and the one used when building outside Android tree. type LibraryMappingProperty struct { // Android library name. Android_name string // Library name used when building outside Android. Mapped_name string // If the make file is already present in Android source tree, specify its location. Package_pregenerated string // If the package is expected to be installed on the build host OS, specify its name. Package_system string } type CmakeSnapshotProperties struct { // Modules to add to the snapshot package. Their dependencies are pulled in automatically. Modules []string // Host prebuilts to bundle with the snapshot. These are tools needed to build outside Android. Prebuilts []string // Global cflags to add when building outside Android. Cflags []string // Flags to skip when building outside Android. Cflags_ignored []string // Mapping between library names used in Android tree and externally. Library_mapping []LibraryMappingProperty // List of cflags that are not portable between compilers that could potentially be used to // build a generated package. If left empty, it's initialized with a default list. Unportable_flags []string // Whether to include source code as part of the snapshot package. Include_sources bool } var cmakeSnapshotSourcesProvider = blueprint.NewProvider[android.Paths]() type CmakeSnapshot struct { android.ModuleBase Properties CmakeSnapshotProperties zipPath android.WritablePath } type cmakeProcessedProperties struct { LibraryMapping map[string]LibraryMappingProperty PregeneratedPackages []string SystemPackages []string } type cmakeSnapshotDependencyTag struct { blueprint.BaseDependencyTag name string } var ( cmakeSnapshotModuleTag = cmakeSnapshotDependencyTag{name: "cmake-snapshot-module"} cmakeSnapshotPrebuiltTag = cmakeSnapshotDependencyTag{name: "cmake-snapshot-prebuilt"} ) func parseTemplate(templateContents string) *template.Template { funcMap := template.FuncMap{ "setList": func(name string, nameSuffix string, itemPrefix string, items []string) string { var list strings.Builder list.WriteString("set(" + name + nameSuffix) templateListBuilder(&list, itemPrefix, items) return list.String() }, "toStrings": func(files android.Paths) []string { strings := make([]string, len(files)) for idx, file := range files { strings[idx] = file.String() } return strings }, "concat5": func(list1 []string, list2 []string, list3 []string, list4 []string, list5 []string) []string { return append(append(append(append(list1, list2...), list3...), list4...), list5...) }, "cflagsList": func(name string, nameSuffix string, flags []string, unportableFlags []string, ignoredFlags []string) string { if len(unportableFlags) == 0 { unportableFlags = defaultUnportableFlags } var filteredPortable []string var filteredUnportable []string for _, flag := range flags { if slices.Contains(ignoredFlags, flag) { continue } else if slices.Contains(unportableFlags, flag) { filteredUnportable = append(filteredUnportable, flag) } else { filteredPortable = append(filteredPortable, flag) } } var list strings.Builder list.WriteString("set(" + name + nameSuffix) templateListBuilder(&list, "", filteredPortable) if len(filteredUnportable) > 0 { list.WriteString("\nappend_cxx_flags_if_supported(" + name + nameSuffix) templateListBuilder(&list, "", filteredUnportable) } return list.String() }, "getSources": func(m *Module) android.Paths { return m.compiler.(CompiledInterface).Srcs() }, "getModuleType": getModuleType, "getCompilerProperties": func(m *Module) BaseCompilerProperties { return m.compiler.baseCompilerProps() }, "getLinkerProperties": func(m *Module) BaseLinkerProperties { return m.linker.baseLinkerProps() }, "getExtraLibs": getExtraLibs, "getIncludeDirs": getIncludeDirs, "mapLibraries": func(libs []string, mapping map[string]LibraryMappingProperty) []string { var mappedLibs []string for _, lib := range libs { mappedLib, exists := mapping[lib] if exists { lib = mappedLib.Mapped_name } else { lib = "android::" + lib } if lib == "" { continue } mappedLibs = append(mappedLibs, lib) } sort.Strings(mappedLibs) mappedLibs = slices.Compact(mappedLibs) return mappedLibs }, } return template.Must(template.New("").Delims("<<", ">>").Funcs(funcMap).Parse(templateContents)) } func sliceWithPrefix(prefix string, slice []string) []string { output := make([]string, len(slice)) for i, elem := range slice { output[i] = prefix + elem } return output } func templateListBuilder(builder *strings.Builder, itemPrefix string, items []string) { if len(items) > 0 { builder.WriteString("\n") for _, item := range items { builder.WriteString(" " + itemPrefix + item + "\n") } } builder.WriteString(")") } func executeTemplate(templ *template.Template, buffer *bytes.Buffer, data any) string { buffer.Reset() if err := templ.Execute(buffer, data); err != nil { panic(err) } output := strings.TrimSpace(buffer.String()) buffer.Reset() return output } func (m *CmakeSnapshot) DepsMutator(ctx android.BottomUpMutatorContext) { variations := []blueprint.Variation{ {"os", "linux_glibc"}, {"arch", "x86_64"}, } ctx.AddVariationDependencies(variations, cmakeSnapshotModuleTag, m.Properties.Modules...) ctx.AddVariationDependencies(variations, cmakeSnapshotPrebuiltTag, m.Properties.Prebuilts...) } func (m *CmakeSnapshot) GenerateAndroidBuildActions(ctx android.ModuleContext) { var templateBuffer bytes.Buffer var pprop cmakeProcessedProperties m.zipPath = android.PathForModuleOut(ctx, ctx.ModuleName()+".zip") // Process Library_mapping for more efficient lookups pprop.LibraryMapping = map[string]LibraryMappingProperty{} for _, elem := range m.Properties.Library_mapping { pprop.LibraryMapping[elem.Android_name] = elem if elem.Package_pregenerated != "" { pprop.PregeneratedPackages = append(pprop.PregeneratedPackages, elem.Package_pregenerated) } sort.Strings(pprop.PregeneratedPackages) pprop.PregeneratedPackages = slices.Compact(pprop.PregeneratedPackages) if elem.Package_system != "" { pprop.SystemPackages = append(pprop.SystemPackages, elem.Package_system) } sort.Strings(pprop.SystemPackages) pprop.SystemPackages = slices.Compact(pprop.SystemPackages) } // Generating CMakeLists.txt rules for all modules in dependency tree moduleDirs := map[string][]string{} sourceFiles := map[string]android.Path{} visitedModules := map[string]bool{} var pregeneratedModules []*Module ctx.WalkDeps(func(dep_a android.Module, parent android.Module) bool { moduleName := ctx.OtherModuleName(dep_a) dep, ok := dep_a.(*Module) if !ok { return false // not a cc module } if visited := visitedModules[moduleName]; visited { return false // visit only once } visitedModules[moduleName] = true if mapping, ok := pprop.LibraryMapping[moduleName]; ok { if mapping.Package_pregenerated != "" { pregeneratedModules = append(pregeneratedModules, dep) } return false // mapped to system or pregenerated (we'll handle these later) } if ctx.OtherModuleDependencyTag(dep) == cmakeSnapshotPrebuiltTag { return false // we'll handle cmakeSnapshotPrebuiltTag later } if slices.Contains(ignoredSystemLibs, moduleName) { return false // system libs built in-tree for Android } if dep.compiler == nil { return false // unsupported module type (e.g. prebuilt) } isAidlModule := dep.compiler.baseCompilerProps().AidlInterface.Lang != "" if !proptools.Bool(dep.Properties.Cmake_snapshot_supported) { ctx.OtherModulePropertyErrorf(dep, "cmake_snapshot_supported", "CMake snapshots not supported, despite being a dependency for %s", ctx.OtherModuleName(parent)) return false } if veryVerbose { fmt.Println("WalkDeps: " + ctx.OtherModuleName(parent) + " -> " + moduleName) } // Generate CMakeLists.txt fragment for this module templateToUse := templateCmakeModuleCc if isAidlModule { templateToUse = templateCmakeModuleAidl } moduleFragment := executeTemplate(templateToUse, &templateBuffer, struct { Ctx *android.ModuleContext M *Module Snapshot *CmakeSnapshot Pprop *cmakeProcessedProperties }{ &ctx, dep, m, &pprop, }) moduleDir := ctx.OtherModuleDir(dep) moduleDirs[moduleDir] = append(moduleDirs[moduleDir], moduleFragment) if m.Properties.Include_sources { files, _ := android.OtherModuleProvider(ctx, dep, cmakeSnapshotSourcesProvider) for _, file := range files { sourceFiles[file.String()] = file } } // if it's AIDL module, no need to dive into their dependencies return !isAidlModule }) // Enumerate sources for pregenerated modules if m.Properties.Include_sources { for _, dep := range pregeneratedModules { if !proptools.Bool(dep.Properties.Cmake_snapshot_supported) { ctx.OtherModulePropertyErrorf(dep, "cmake_snapshot_supported", "Pregenerated CMake snapshots not supported, despite being requested for %s", ctx.ModuleName()) continue } files, _ := android.OtherModuleProvider(ctx, dep, cmakeSnapshotSourcesProvider) for _, file := range files { sourceFiles[file.String()] = file } } } // Merging CMakeLists.txt contents for every module directory var makefilesList android.Paths for moduleDir, fragments := range moduleDirs { moduleCmakePath := android.PathForModuleGen(ctx, moduleDir, "CMakeLists.txt") makefilesList = append(makefilesList, moduleCmakePath) sort.Strings(fragments) android.WriteFileRule(ctx, moduleCmakePath, strings.Join(fragments, "\n\n\n")) } // Generating top-level CMakeLists.txt mainCmakePath := android.PathForModuleGen(ctx, "CMakeLists.txt") makefilesList = append(makefilesList, mainCmakePath) mainContents := executeTemplate(templateCmakeMain, &templateBuffer, struct { Ctx *android.ModuleContext M *CmakeSnapshot ModuleDirs map[string][]string Pprop *cmakeProcessedProperties }{ &ctx, m, moduleDirs, &pprop, }) android.WriteFileRule(ctx, mainCmakePath, mainContents) // Generating CMake extensions extPath := android.PathForModuleGen(ctx, "cmake", "AppendCxxFlagsIfSupported.cmake") makefilesList = append(makefilesList, extPath) android.WriteFileRuleVerbatim(ctx, extPath, cmakeExtAppendFlags) extPath = android.PathForModuleGen(ctx, "cmake", "AddAidlLibrary.cmake") makefilesList = append(makefilesList, extPath) android.WriteFileRuleVerbatim(ctx, extPath, cmakeExtAddAidlLibrary) // Generating the final zip file zipRule := android.NewRuleBuilder(pctx, ctx) zipCmd := zipRule.Command(). BuiltTool("soong_zip"). FlagWithOutput("-o ", m.zipPath) // Packaging all sources into the zip file if m.Properties.Include_sources { var sourcesList android.Paths for _, file := range sourceFiles { sourcesList = append(sourcesList, file) } sourcesRspFile := android.PathForModuleObj(ctx, ctx.ModuleName()+"_sources.rsp") zipCmd.FlagWithRspFileInputList("-r ", sourcesRspFile, sourcesList) } // Packaging all make files into the zip file makefilesRspFile := android.PathForModuleObj(ctx, ctx.ModuleName()+"_makefiles.rsp") zipCmd. FlagWithArg("-C ", android.PathForModuleGen(ctx).OutputPath.String()). FlagWithRspFileInputList("-r ", makefilesRspFile, makefilesList) // Packaging all prebuilts into the zip file if len(m.Properties.Prebuilts) > 0 { var prebuiltsList android.Paths ctx.VisitDirectDepsWithTag(cmakeSnapshotPrebuiltTag, func(dep android.Module) { for _, file := range dep.FilesToInstall() { prebuiltsList = append(prebuiltsList, file) } }) prebuiltsRspFile := android.PathForModuleObj(ctx, ctx.ModuleName()+"_prebuilts.rsp") zipCmd. FlagWithArg("-C ", android.PathForArbitraryOutput(ctx).String()). FlagWithArg("-P ", "prebuilts"). FlagWithRspFileInputList("-r ", prebuiltsRspFile, prebuiltsList) } // Finish generating the final zip file zipRule.Build(m.zipPath.String(), "archiving "+ctx.ModuleName()) } func (m *CmakeSnapshot) OutputFiles(tag string) (android.Paths, error) { switch tag { case "": return android.Paths{m.zipPath}, nil default: return nil, fmt.Errorf("unsupported module reference tag %q", tag) } } func (m *CmakeSnapshot) AndroidMkEntries() []android.AndroidMkEntries { return []android.AndroidMkEntries{{ Class: "DATA", OutputFile: android.OptionalPathForPath(m.zipPath), ExtraEntries: []android.AndroidMkExtraEntriesFunc{ func(ctx android.AndroidMkExtraEntriesContext, entries *android.AndroidMkEntries) { entries.SetBool("LOCAL_UNINSTALLABLE_MODULE", true) }, }, }} } func getModuleType(m *Module) string { switch m.linker.(type) { case *binaryDecorator: return "executable" case *libraryDecorator: return "library" case *testBinary: return "executable" } panic(fmt.Sprintf("Unexpected module type: %T", m.compiler)) } func getExtraLibs(m *Module) []string { switch decorator := m.linker.(type) { case *testBinary: if decorator.testDecorator.gtest() { return []string{"libgtest"} } } return nil } func getIncludeDirs(ctx android.ModuleContext, m *Module) []string { moduleDir := ctx.OtherModuleDir(m) + string(filepath.Separator) switch decorator := m.compiler.(type) { case *libraryDecorator: return sliceWithPrefix(moduleDir, decorator.flagExporter.Properties.Export_include_dirs) } return nil } func cmakeSnapshotLoadHook(ctx android.LoadHookContext) { props := struct { Target struct { Darwin struct { Enabled *bool } Windows struct { Enabled *bool } } }{} props.Target.Darwin.Enabled = proptools.BoolPtr(false) props.Target.Windows.Enabled = proptools.BoolPtr(false) ctx.AppendProperties(&props) } // cmake_snapshot allows defining source packages for release outside of Android build tree. // As a result of cmake_snapshot module build, a zip file is generated with CMake build definitions // for selected source modules, their dependencies and optionally also the source code itself. func CmakeSnapshotFactory() android.Module { module := &CmakeSnapshot{} module.AddProperties(&module.Properties) android.AddLoadHook(module, cmakeSnapshotLoadHook) android.InitAndroidArchModule(module, android.HostSupported, android.MultilibFirst) return module } func init() { android.InitRegistrationContext.RegisterModuleType("cc_cmake_snapshot", CmakeSnapshotFactory) }