package bp2build import ( "encoding/json" "fmt" "os" "path/filepath" "reflect" "strings" "android/soong/android" "android/soong/android/soongconfig" "android/soong/starlark_import" "github.com/google/blueprint/proptools" "go.starlark.net/starlark" ) type createProductConfigFilesResult struct { injectionFiles []BazelFile bp2buildFiles []BazelFile bp2buildTargets map[string]BazelTargets } type bazelLabel struct { repo string pkg string target string } func (l *bazelLabel) String() string { return fmt.Sprintf("@%s//%s:%s", l.repo, l.pkg, l.target) } func createProductConfigFiles( ctx *CodegenContext, metrics CodegenMetrics) (createProductConfigFilesResult, error) { cfg := &ctx.config targetProduct := "unknown" if cfg.HasDeviceProduct() { targetProduct = cfg.DeviceProduct() } targetBuildVariant := "user" if cfg.Eng() { targetBuildVariant = "eng" } else if cfg.Debuggable() { targetBuildVariant = "userdebug" } var res createProductConfigFilesResult productVariablesFileName := cfg.ProductVariablesFileName if !strings.HasPrefix(productVariablesFileName, "/") { productVariablesFileName = filepath.Join(ctx.topDir, productVariablesFileName) } productVariablesBytes, err := os.ReadFile(productVariablesFileName) if err != nil { return res, err } productVariables := android.ProductVariables{} err = json.Unmarshal(productVariablesBytes, &productVariables) if err != nil { return res, err } currentProductFolder := fmt.Sprintf("build/bazel/products/%s", targetProduct) if len(productVariables.PartitionVarsForBazelMigrationOnlyDoNotUse.ProductDirectory) > 0 { currentProductFolder = fmt.Sprintf("%s%s", productVariables.PartitionVarsForBazelMigrationOnlyDoNotUse.ProductDirectory, targetProduct) } productReplacer := strings.NewReplacer( "{PRODUCT}", targetProduct, "{VARIANT}", targetBuildVariant, "{PRODUCT_FOLDER}", currentProductFolder) productsForTestingMap, err := starlark_import.GetStarlarkValue[map[string]map[string]starlark.Value]("products_for_testing") if err != nil { return res, err } productsForTesting := android.SortedKeys(productsForTestingMap) for i := range productsForTesting { productsForTesting[i] = fmt.Sprintf(" \"@//build/bazel/tests/products:%s\",", productsForTesting[i]) } productLabelsToVariables := make(map[bazelLabel]*android.ProductVariables) productLabelsToVariables[bazelLabel{ repo: "", pkg: currentProductFolder, target: targetProduct, }] = &productVariables for product, productVariablesStarlark := range productsForTestingMap { productVariables, err := starlarkMapToProductVariables(productVariablesStarlark) if err != nil { return res, err } productLabelsToVariables[bazelLabel{ repo: "", pkg: "build/bazel/tests/products", target: product, }] = &productVariables } res.bp2buildTargets = make(map[string]BazelTargets) res.bp2buildTargets[currentProductFolder] = append(res.bp2buildTargets[currentProductFolder], BazelTarget{ name: productReplacer.Replace("{PRODUCT}"), packageName: currentProductFolder, content: productReplacer.Replace(`android_product( name = "{PRODUCT}", soong_variables = _soong_variables, )`), ruleClass: "android_product", loads: []BazelLoad{ { file: ":soong.variables.bzl", symbols: []BazelLoadSymbol{{ symbol: "variables", alias: "_soong_variables", }}, }, { file: "//build/bazel/product_config:android_product.bzl", symbols: []BazelLoadSymbol{{symbol: "android_product"}}, }, }, }) createTargets(productLabelsToVariables, res.bp2buildTargets) platformMappingContent, err := platformMappingContent( productLabelsToVariables, ctx.Config().Bp2buildSoongConfigDefinitions, metrics.convertedModulePathMap) if err != nil { return res, err } res.injectionFiles = []BazelFile{ newFile( "product_config_platforms", "BUILD.bazel", productReplacer.Replace(` package(default_visibility = [ "@//build/bazel/product_config:__subpackages__", "@soong_injection//product_config_platforms:__subpackages__", ]) load("@//{PRODUCT_FOLDER}:soong.variables.bzl", _soong_variables = "variables") load("@//build/bazel/product_config:android_product.bzl", "android_product") # Bazel will qualify its outputs by the platform name. When switching between products, this # means that soong-built files that depend on bazel-built files will suddenly get different # dependency files, because the path changes, and they will be rebuilt. In order to avoid this # extra rebuilding, make mixed builds always use a single platform so that the bazel artifacts # are always under the same path. android_product( name = "mixed_builds_product", soong_variables = _soong_variables, extra_constraints = ["@//build/bazel/platforms:mixed_builds"], ) `)), newFile( "product_config_platforms", "product_labels.bzl", productReplacer.Replace(` # This file keeps a list of all the products in the android source tree, because they're # discovered as part of a preprocessing step before bazel runs. # TODO: When we start generating the platforms for more than just the # currently lunched product, they should all be listed here product_labels = [ "@soong_injection//product_config_platforms:mixed_builds_product", "@//{PRODUCT_FOLDER}:{PRODUCT}", `)+strings.Join(productsForTesting, "\n")+"\n]\n"), newFile( "product_config_platforms", "common.bazelrc", productReplacer.Replace(` build --platform_mappings=platform_mappings build --platforms @//{PRODUCT_FOLDER}:{PRODUCT}_linux_x86_64 build --//build/bazel/product_config:target_build_variant={VARIANT} build:android --platforms=@//{PRODUCT_FOLDER}:{PRODUCT} build:linux_x86 --platforms=@//{PRODUCT_FOLDER}:{PRODUCT}_linux_x86 build:linux_x86_64 --platforms=@//{PRODUCT_FOLDER}:{PRODUCT}_linux_x86_64 build:linux_bionic_x86_64 --platforms=@//{PRODUCT_FOLDER}:{PRODUCT}_linux_bionic_x86_64 build:linux_musl_x86 --platforms=@//{PRODUCT_FOLDER}:{PRODUCT}_linux_musl_x86 build:linux_musl_x86_64 --platforms=@//{PRODUCT_FOLDER}:{PRODUCT}_linux_musl_x86_64 `)), newFile( "product_config_platforms", "linux.bazelrc", productReplacer.Replace(` build --host_platform @//{PRODUCT_FOLDER}:{PRODUCT}_linux_x86_64 `)), newFile( "product_config_platforms", "darwin.bazelrc", productReplacer.Replace(` build --host_platform @//{PRODUCT_FOLDER}:{PRODUCT}_darwin_x86_64 `)), } res.bp2buildFiles = []BazelFile{ newFile( "", "platform_mappings", platformMappingContent), newFile( currentProductFolder, "soong.variables.bzl", `variables = json.decode("""`+strings.ReplaceAll(string(productVariablesBytes), "\\", "\\\\")+`""")`), } return res, nil } func platformMappingContent( productLabelToVariables map[bazelLabel]*android.ProductVariables, soongConfigDefinitions soongconfig.Bp2BuildSoongConfigDefinitions, convertedModulePathMap map[string]string) (string, error) { var result strings.Builder mergedConvertedModulePathMap := make(map[string]string) for k, v := range convertedModulePathMap { mergedConvertedModulePathMap[k] = v } additionalModuleNamesToPackages, err := starlark_import.GetStarlarkValue[map[string]string]("additional_module_names_to_packages") if err != nil { return "", err } for k, v := range additionalModuleNamesToPackages { mergedConvertedModulePathMap[k] = v } result.WriteString("platforms:\n") for productLabel, productVariables := range productLabelToVariables { platformMappingSingleProduct(productLabel, productVariables, soongConfigDefinitions, mergedConvertedModulePathMap, &result) } return result.String(), nil } var bazelPlatformSuffixes = []string{ "", "_darwin_arm64", "_darwin_x86_64", "_linux_bionic_arm64", "_linux_bionic_x86_64", "_linux_musl_x86", "_linux_musl_x86_64", "_linux_x86", "_linux_x86_64", "_windows_x86", "_windows_x86_64", } func platformMappingSingleProduct( label bazelLabel, productVariables *android.ProductVariables, soongConfigDefinitions soongconfig.Bp2BuildSoongConfigDefinitions, convertedModulePathMap map[string]string, result *strings.Builder) { platform_sdk_version := -1 if productVariables.Platform_sdk_version != nil { platform_sdk_version = *productVariables.Platform_sdk_version } defaultAppCertificateFilegroup := "//build/bazel/utils:empty_filegroup" if proptools.String(productVariables.DefaultAppCertificate) != "" { defaultAppCertificateFilegroup = "@//" + filepath.Dir(proptools.String(productVariables.DefaultAppCertificate)) + ":generated_android_certificate_directory" } // TODO: b/301598690 - commas can't be escaped in a string-list passed in a platform mapping, // so commas are switched for ":" here, and must be back-substituted into commas // wherever the AAPTCharacteristics product config variable is used. AAPTConfig := []string{} for _, conf := range productVariables.AAPTConfig { AAPTConfig = append(AAPTConfig, strings.Replace(conf, ",", ":", -1)) } for _, suffix := range bazelPlatformSuffixes { result.WriteString(" ") result.WriteString(label.String()) result.WriteString(suffix) result.WriteString("\n") result.WriteString(fmt.Sprintf(" --//build/bazel/product_config:aapt_characteristics=%s\n", proptools.String(productVariables.AAPTCharacteristics))) result.WriteString(fmt.Sprintf(" --//build/bazel/product_config:aapt_config=%s\n", strings.Join(AAPTConfig, ","))) result.WriteString(fmt.Sprintf(" --//build/bazel/product_config:aapt_preferred_config=%s\n", proptools.String(productVariables.AAPTPreferredConfig))) result.WriteString(fmt.Sprintf(" --//build/bazel/product_config:always_use_prebuilt_sdks=%t\n", proptools.Bool(productVariables.Always_use_prebuilt_sdks))) result.WriteString(fmt.Sprintf(" --//build/bazel/product_config:arc=%t\n", proptools.Bool(productVariables.Arc))) result.WriteString(fmt.Sprintf(" --//build/bazel/product_config:apex_global_min_sdk_version_override=%s\n", proptools.String(productVariables.ApexGlobalMinSdkVersionOverride))) result.WriteString(fmt.Sprintf(" --//build/bazel/product_config:binder32bit=%t\n", proptools.Bool(productVariables.Binder32bit))) result.WriteString(fmt.Sprintf(" --//build/bazel/product_config:build_from_text_stub=%t\n", proptools.Bool(productVariables.Build_from_text_stub))) result.WriteString(fmt.Sprintf(" --//build/bazel/product_config:build_broken_incorrect_partition_images=%t\n", productVariables.BuildBrokenIncorrectPartitionImages)) result.WriteString(fmt.Sprintf(" --//build/bazel/product_config:build_id=%s\n", proptools.String(productVariables.BuildId))) result.WriteString(fmt.Sprintf(" --//build/bazel/product_config:build_version_tags=%s\n", strings.Join(productVariables.BuildVersionTags, ","))) result.WriteString(fmt.Sprintf(" --//build/bazel/product_config:cfi_exclude_paths=%s\n", strings.Join(productVariables.CFIExcludePaths, ","))) result.WriteString(fmt.Sprintf(" --//build/bazel/product_config:cfi_include_paths=%s\n", strings.Join(productVariables.CFIIncludePaths, ","))) result.WriteString(fmt.Sprintf(" --//build/bazel/product_config:compressed_apex=%t\n", proptools.Bool(productVariables.CompressedApex))) result.WriteString(fmt.Sprintf(" --//build/bazel/product_config:default_app_certificate=%s\n", proptools.String(productVariables.DefaultAppCertificate))) result.WriteString(fmt.Sprintf(" --//build/bazel/product_config:default_app_certificate_filegroup=%s\n", defaultAppCertificateFilegroup)) result.WriteString(fmt.Sprintf(" --//build/bazel/product_config:device_abi=%s\n", strings.Join(productVariables.DeviceAbi, ","))) result.WriteString(fmt.Sprintf(" --//build/bazel/product_config:device_max_page_size_supported=%s\n", proptools.String(productVariables.DeviceMaxPageSizeSupported))) result.WriteString(fmt.Sprintf(" --//build/bazel/product_config:device_name=%s\n", proptools.String(productVariables.DeviceName))) result.WriteString(fmt.Sprintf(" --//build/bazel/product_config:device_page_size_agnostic=%t\n", proptools.Bool(productVariables.DevicePageSizeAgnostic))) result.WriteString(fmt.Sprintf(" --//build/bazel/product_config:device_product=%s\n", proptools.String(productVariables.DeviceProduct))) result.WriteString(fmt.Sprintf(" --//build/bazel/product_config:device_platform=%s\n", label.String())) result.WriteString(fmt.Sprintf(" --//build/bazel/product_config:enable_cfi=%t\n", proptools.BoolDefault(productVariables.EnableCFI, true))) result.WriteString(fmt.Sprintf(" --//build/bazel/product_config:enforce_vintf_manifest=%t\n", proptools.Bool(productVariables.Enforce_vintf_manifest))) result.WriteString(fmt.Sprintf(" --//build/bazel/product_config:malloc_not_svelte=%t\n", proptools.Bool(productVariables.Malloc_not_svelte))) result.WriteString(fmt.Sprintf(" --//build/bazel/product_config:malloc_pattern_fill_contents=%t\n", proptools.Bool(productVariables.Malloc_pattern_fill_contents))) result.WriteString(fmt.Sprintf(" --//build/bazel/product_config:malloc_zero_contents=%t\n", proptools.Bool(productVariables.Malloc_zero_contents))) result.WriteString(fmt.Sprintf(" --//build/bazel/product_config:memtag_heap_exclude_paths=%s\n", strings.Join(productVariables.MemtagHeapExcludePaths, ","))) result.WriteString(fmt.Sprintf(" --//build/bazel/product_config:memtag_heap_async_include_paths=%s\n", strings.Join(productVariables.MemtagHeapAsyncIncludePaths, ","))) result.WriteString(fmt.Sprintf(" --//build/bazel/product_config:memtag_heap_sync_include_paths=%s\n", strings.Join(productVariables.MemtagHeapSyncIncludePaths, ","))) result.WriteString(fmt.Sprintf(" --//build/bazel/product_config:manifest_package_name_overrides=%s\n", strings.Join(productVariables.ManifestPackageNameOverrides, ","))) result.WriteString(fmt.Sprintf(" --//build/bazel/product_config:native_coverage=%t\n", proptools.Bool(productVariables.Native_coverage))) result.WriteString(fmt.Sprintf(" --//build/bazel/product_config:platform_sdk_final=%t\n", proptools.Bool(productVariables.Platform_sdk_final))) result.WriteString(fmt.Sprintf(" --//build/bazel/product_config:platform_version_name=%s\n", proptools.String(productVariables.Platform_version_name))) result.WriteString(fmt.Sprintf(" --//build/bazel/product_config:product_brand=%s\n", productVariables.ProductBrand)) result.WriteString(fmt.Sprintf(" --//build/bazel/product_config:product_manufacturer=%s\n", productVariables.ProductManufacturer)) result.WriteString(fmt.Sprintf(" --//build/bazel/product_config:release_aconfig_flag_default_permission=%s\n", productVariables.ReleaseAconfigFlagDefaultPermission)) // Empty string can't be used as label_flag on the bazel side if len(productVariables.ReleaseAconfigValueSets) > 0 { result.WriteString(fmt.Sprintf(" --//build/bazel/product_config:release_aconfig_value_sets=%s\n", productVariables.ReleaseAconfigValueSets)) } result.WriteString(fmt.Sprintf(" --//build/bazel/product_config:release_version=%s\n", productVariables.ReleaseVersion)) result.WriteString(fmt.Sprintf(" --//build/bazel/product_config:platform_sdk_version=%d\n", platform_sdk_version)) result.WriteString(fmt.Sprintf(" --//build/bazel/product_config:safestack=%t\n", proptools.Bool(productVariables.Safestack))) result.WriteString(fmt.Sprintf(" --//build/bazel/product_config:treble_linker_namespaces=%t\n", proptools.Bool(productVariables.Treble_linker_namespaces))) result.WriteString(fmt.Sprintf(" --//build/bazel/product_config:tidy_checks=%s\n", proptools.String(productVariables.TidyChecks))) result.WriteString(fmt.Sprintf(" --//build/bazel/product_config:uml=%t\n", proptools.Bool(productVariables.Uml))) result.WriteString(fmt.Sprintf(" --//build/bazel/product_config:unbundled_build=%t\n", proptools.Bool(productVariables.Unbundled_build))) result.WriteString(fmt.Sprintf(" --//build/bazel/product_config:unbundled_build_apps=%s\n", strings.Join(productVariables.Unbundled_build_apps, ","))) for _, override := range productVariables.CertificateOverrides { parts := strings.SplitN(override, ":", 2) if apexPath, ok := convertedModulePathMap[parts[0]]; ok { if overrideCertPath, ok := convertedModulePathMap[parts[1]]; ok { result.WriteString(fmt.Sprintf(" --%s:%s_certificate_override=%s:%s\n", apexPath, parts[0], overrideCertPath, parts[1])) } } } for namespace, namespaceContents := range productVariables.VendorVars { for variable, value := range namespaceContents { key := namespace + "__" + variable _, hasBool := soongConfigDefinitions.BoolVars[key] _, hasString := soongConfigDefinitions.StringVars[key] _, hasValue := soongConfigDefinitions.ValueVars[key] if !hasBool && !hasString && !hasValue { // Not all soong config variables are defined in Android.bp files. For example, // prebuilt_bootclasspath_fragment uses soong config variables in a nonstandard // way, that causes them to be present in the soong.variables file but not // defined in an Android.bp file. There's also nothing stopping you from setting // a variable in make that doesn't exist in soong. We only generate build // settings for the ones that exist in soong, so skip all others. continue } if hasBool && hasString || hasBool && hasValue || hasString && hasValue { panic(fmt.Sprintf("Soong config variable %s:%s appears to be of multiple types. bool? %t, string? %t, value? %t", namespace, variable, hasBool, hasString, hasValue)) } if hasBool { // Logic copied from soongConfig.Bool() value = strings.ToLower(value) if value == "1" || value == "y" || value == "yes" || value == "on" || value == "true" { value = "true" } else { value = "false" } } result.WriteString(fmt.Sprintf(" --//build/bazel/product_config/soong_config_variables:%s=%s\n", strings.ToLower(key), value)) } } } } func starlarkMapToProductVariables(in map[string]starlark.Value) (android.ProductVariables, error) { result := android.ProductVariables{} productVarsReflect := reflect.ValueOf(&result).Elem() for i := 0; i < productVarsReflect.NumField(); i++ { field := productVarsReflect.Field(i) fieldType := productVarsReflect.Type().Field(i) name := fieldType.Name if name == "BootJars" || name == "ApexBootJars" || name == "VendorSnapshotModules" || name == "RecoverySnapshotModules" { // These variables have more complicated types, and we don't need them right now continue } if _, ok := in[name]; ok { if name == "VendorVars" { vendorVars, err := starlark_import.Unmarshal[map[string]map[string]string](in[name]) if err != nil { return result, err } field.Set(reflect.ValueOf(vendorVars)) continue } switch field.Type().Kind() { case reflect.Bool: val, err := starlark_import.Unmarshal[bool](in[name]) if err != nil { return result, err } field.SetBool(val) case reflect.String: val, err := starlark_import.Unmarshal[string](in[name]) if err != nil { return result, err } field.SetString(val) case reflect.Slice: if field.Type().Elem().Kind() != reflect.String { return result, fmt.Errorf("slices of types other than strings are unimplemented") } val, err := starlark_import.UnmarshalReflect(in[name], field.Type()) if err != nil { return result, err } field.Set(val) case reflect.Pointer: switch field.Type().Elem().Kind() { case reflect.Bool: val, err := starlark_import.UnmarshalNoneable[bool](in[name]) if err != nil { return result, err } field.Set(reflect.ValueOf(val)) case reflect.String: val, err := starlark_import.UnmarshalNoneable[string](in[name]) if err != nil { return result, err } field.Set(reflect.ValueOf(val)) case reflect.Int: val, err := starlark_import.UnmarshalNoneable[int](in[name]) if err != nil { return result, err } field.Set(reflect.ValueOf(val)) default: return result, fmt.Errorf("pointers of types other than strings/bools are unimplemented: %s", field.Type().Elem().Kind().String()) } default: return result, fmt.Errorf("unimplemented type: %s", field.Type().String()) } } } result.Native_coverage = proptools.BoolPtr( proptools.Bool(result.GcovCoverage) || proptools.Bool(result.ClangCoverage)) return result, nil } func createTargets(productLabelsToVariables map[bazelLabel]*android.ProductVariables, res map[string]BazelTargets) { createGeneratedAndroidCertificateDirectories(productLabelsToVariables, res) for label, variables := range productLabelsToVariables { createSystemPartition(label, &variables.PartitionVarsForBazelMigrationOnlyDoNotUse, res) } } func createGeneratedAndroidCertificateDirectories(productLabelsToVariables map[bazelLabel]*android.ProductVariables, targets map[string]BazelTargets) { var allDefaultAppCertificateDirs []string for _, productVariables := range productLabelsToVariables { if proptools.String(productVariables.DefaultAppCertificate) != "" { d := filepath.Dir(proptools.String(productVariables.DefaultAppCertificate)) if !android.InList(d, allDefaultAppCertificateDirs) { allDefaultAppCertificateDirs = append(allDefaultAppCertificateDirs, d) } } } for _, dir := range allDefaultAppCertificateDirs { content := `filegroup( name = "generated_android_certificate_directory", srcs = glob([ "*.pk8", "*.pem", "*.avbpubkey", ]), visibility = ["//visibility:public"], )` targets[dir] = append(targets[dir], BazelTarget{ name: "generated_android_certificate_directory", packageName: dir, content: content, ruleClass: "filegroup", }) } } func createSystemPartition(platformLabel bazelLabel, variables *android.PartitionVariables, targets map[string]BazelTargets) { if !variables.PartitionQualifiedVariables["system"].BuildingImage { return } imageProps := generateImagePropDictionary(variables, "system") imageProps["skip_fsck"] = "true" var properties strings.Builder for _, prop := range android.SortedKeys(imageProps) { properties.WriteString(prop) properties.WriteRune('=') properties.WriteString(imageProps[prop]) properties.WriteRune('\n') } targets[platformLabel.pkg] = append(targets[platformLabel.pkg], BazelTarget{ name: "system_image", packageName: platformLabel.pkg, content: fmt.Sprintf(`partition( name = "system_image", base_staging_dir = "//build/bazel/bazel_sandwich:system_staging_dir", base_staging_dir_file_list = "//build/bazel/bazel_sandwich:system_staging_dir_file_list", root_dir = "//build/bazel/bazel_sandwich:root_staging_dir", image_properties = """ %s """, type = "system", )`, properties.String()), ruleClass: "partition", loads: []BazelLoad{{ file: "//build/bazel/rules/partitions:partition.bzl", symbols: []BazelLoadSymbol{{ symbol: "partition", }}, }}, }, BazelTarget{ name: "system_image_test", packageName: platformLabel.pkg, content: `partition_diff_test( name = "system_image_test", partition1 = "//build/bazel/bazel_sandwich:make_system_image", partition2 = ":system_image", )`, ruleClass: "partition_diff_test", loads: []BazelLoad{{ file: "//build/bazel/rules/partitions/diff:partition_diff.bzl", symbols: []BazelLoadSymbol{{ symbol: "partition_diff_test", }}, }}, }, BazelTarget{ name: "run_system_image_test", packageName: platformLabel.pkg, content: `run_test_in_build( name = "run_system_image_test", test = ":system_image_test", )`, ruleClass: "run_test_in_build", loads: []BazelLoad{{ file: "//build/bazel/bazel_sandwich:run_test_in_build.bzl", symbols: []BazelLoadSymbol{{ symbol: "run_test_in_build", }}, }}, }) } var allPartitionTypes = []string{ "system", "vendor", "cache", "userdata", "product", "system_ext", "oem", "odm", "vendor_dlkm", "odm_dlkm", "system_dlkm", } // An equivalent of make's generate-image-prop-dictionary function func generateImagePropDictionary(variables *android.PartitionVariables, partitionType string) map[string]string { partitionQualifiedVariables, ok := variables.PartitionQualifiedVariables[partitionType] if !ok { panic("Unknown partitionType: " + partitionType) } ret := map[string]string{} if partitionType == "system" { if len(variables.PartitionQualifiedVariables["system_other"].BoardPartitionSize) > 0 { ret["system_other_size"] = variables.PartitionQualifiedVariables["system_other"].BoardPartitionSize } if len(partitionQualifiedVariables.ProductHeadroom) > 0 { ret["system_headroom"] = partitionQualifiedVariables.ProductHeadroom } addCommonRoFlagsToImageProps(variables, partitionType, ret) } // TODO: other partition-specific logic if variables.TargetUserimagesUseExt2 { ret["fs_type"] = "ext2" } else if variables.TargetUserimagesUseExt3 { ret["fs_type"] = "ext3" } else if variables.TargetUserimagesUseExt4 { ret["fs_type"] = "ext4" } if !variables.TargetUserimagesSparseExtDisabled { ret["extfs_sparse_flag"] = "-s" } if !variables.TargetUserimagesSparseErofsDisabled { ret["erofs_sparse_flag"] = "-s" } if !variables.TargetUserimagesSparseSquashfsDisabled { ret["squashfs_sparse_flag"] = "-s" } if !variables.TargetUserimagesSparseF2fsDisabled { ret["f2fs_sparse_flag"] = "-S" } erofsCompressor := variables.BoardErofsCompressor if len(erofsCompressor) == 0 && hasErofsPartition(variables) { if len(variables.BoardErofsUseLegacyCompression) > 0 { erofsCompressor = "lz4" } else { erofsCompressor = "lz4hc,9" } } if len(erofsCompressor) > 0 { ret["erofs_default_compressor"] = erofsCompressor } if len(variables.BoardErofsCompressorHints) > 0 { ret["erofs_default_compress_hints"] = variables.BoardErofsCompressorHints } if len(variables.BoardErofsCompressorHints) > 0 { ret["erofs_default_compress_hints"] = variables.BoardErofsCompressorHints } if len(variables.BoardErofsPclusterSize) > 0 { ret["erofs_pcluster_size"] = variables.BoardErofsPclusterSize } if len(variables.BoardErofsShareDupBlocks) > 0 { ret["erofs_share_dup_blocks"] = variables.BoardErofsShareDupBlocks } if len(variables.BoardErofsUseLegacyCompression) > 0 { ret["erofs_use_legacy_compression"] = variables.BoardErofsUseLegacyCompression } if len(variables.BoardExt4ShareDupBlocks) > 0 { ret["ext4_share_dup_blocks"] = variables.BoardExt4ShareDupBlocks } if len(variables.BoardFlashLogicalBlockSize) > 0 { ret["flash_logical_block_size"] = variables.BoardFlashLogicalBlockSize } if len(variables.BoardFlashEraseBlockSize) > 0 { ret["flash_erase_block_size"] = variables.BoardFlashEraseBlockSize } if len(variables.BoardExt4ShareDupBlocks) > 0 { ret["ext4_share_dup_blocks"] = variables.BoardExt4ShareDupBlocks } if len(variables.BoardExt4ShareDupBlocks) > 0 { ret["ext4_share_dup_blocks"] = variables.BoardExt4ShareDupBlocks } for _, partitionType := range allPartitionTypes { if qualifiedVariables, ok := variables.PartitionQualifiedVariables[partitionType]; ok && len(qualifiedVariables.ProductVerityPartition) > 0 { ret[partitionType+"_verity_block_device"] = qualifiedVariables.ProductVerityPartition } } // TODO: Vboot // TODO: AVB if variables.BoardUsesRecoveryAsBoot { ret["recovery_as_boot"] = "true" } if variables.BoardBuildGkiBootImageWithoutRamdisk { ret["gki_boot_image_without_ramdisk"] = "true" } if variables.ProductUseDynamicPartitionSize { ret["use_dynamic_partition_size"] = "true" } if variables.CopyImagesForTargetFilesZip { ret["use_fixed_timestamp"] = "true" } return ret } // Soong equivalent of make's add-common-ro-flags-to-image-props func addCommonRoFlagsToImageProps(variables *android.PartitionVariables, partitionType string, ret map[string]string) { partitionQualifiedVariables, ok := variables.PartitionQualifiedVariables[partitionType] if !ok { panic("Unknown partitionType: " + partitionType) } if len(partitionQualifiedVariables.BoardErofsCompressor) > 0 { ret[partitionType+"_erofs_compressor"] = partitionQualifiedVariables.BoardErofsCompressor } if len(partitionQualifiedVariables.BoardErofsCompressHints) > 0 { ret[partitionType+"_erofs_compress_hints"] = partitionQualifiedVariables.BoardErofsCompressHints } if len(partitionQualifiedVariables.BoardErofsPclusterSize) > 0 { ret[partitionType+"_erofs_pcluster_size"] = partitionQualifiedVariables.BoardErofsPclusterSize } if len(partitionQualifiedVariables.BoardExtfsRsvPct) > 0 { ret[partitionType+"_extfs_rsv_pct"] = partitionQualifiedVariables.BoardExtfsRsvPct } if len(partitionQualifiedVariables.BoardF2fsSloadCompressFlags) > 0 { ret[partitionType+"_f2fs_sldc_flags"] = partitionQualifiedVariables.BoardF2fsSloadCompressFlags } if len(partitionQualifiedVariables.BoardFileSystemCompress) > 0 { ret[partitionType+"_f2fs_compress"] = partitionQualifiedVariables.BoardFileSystemCompress } if len(partitionQualifiedVariables.BoardFileSystemType) > 0 { ret[partitionType+"_fs_type"] = partitionQualifiedVariables.BoardFileSystemType } if len(partitionQualifiedVariables.BoardJournalSize) > 0 { ret[partitionType+"_journal_size"] = partitionQualifiedVariables.BoardJournalSize } if len(partitionQualifiedVariables.BoardPartitionReservedSize) > 0 { ret[partitionType+"_reserved_size"] = partitionQualifiedVariables.BoardPartitionReservedSize } if len(partitionQualifiedVariables.BoardPartitionSize) > 0 { ret[partitionType+"_size"] = partitionQualifiedVariables.BoardPartitionSize } if len(partitionQualifiedVariables.BoardSquashfsBlockSize) > 0 { ret[partitionType+"_squashfs_block_size"] = partitionQualifiedVariables.BoardSquashfsBlockSize } if len(partitionQualifiedVariables.BoardSquashfsCompressor) > 0 { ret[partitionType+"_squashfs_compressor"] = partitionQualifiedVariables.BoardSquashfsCompressor } if len(partitionQualifiedVariables.BoardSquashfsCompressorOpt) > 0 { ret[partitionType+"_squashfs_compressor_opt"] = partitionQualifiedVariables.BoardSquashfsCompressorOpt } if len(partitionQualifiedVariables.BoardSquashfsDisable4kAlign) > 0 { ret[partitionType+"_squashfs_disable_4k_align"] = partitionQualifiedVariables.BoardSquashfsDisable4kAlign } if len(partitionQualifiedVariables.BoardPartitionSize) == 0 && len(partitionQualifiedVariables.BoardPartitionReservedSize) == 0 && len(partitionQualifiedVariables.ProductHeadroom) == 0 { ret[partitionType+"_disable_sparse"] = "true" } addCommonFlagsToImageProps(variables, partitionType, ret) } func hasErofsPartition(variables *android.PartitionVariables) bool { return variables.PartitionQualifiedVariables["product"].BoardFileSystemType == "erofs" || variables.PartitionQualifiedVariables["system_ext"].BoardFileSystemType == "erofs" || variables.PartitionQualifiedVariables["odm"].BoardFileSystemType == "erofs" || variables.PartitionQualifiedVariables["vendor"].BoardFileSystemType == "erofs" || variables.PartitionQualifiedVariables["system"].BoardFileSystemType == "erofs" || variables.PartitionQualifiedVariables["vendor_dlkm"].BoardFileSystemType == "erofs" || variables.PartitionQualifiedVariables["odm_dlkm"].BoardFileSystemType == "erofs" || variables.PartitionQualifiedVariables["system_dlkm"].BoardFileSystemType == "erofs" } // Soong equivalent of make's add-common-flags-to-image-props func addCommonFlagsToImageProps(variables *android.PartitionVariables, partitionType string, ret map[string]string) { // The selinux_fc will be handled separately partitionQualifiedVariables, ok := variables.PartitionQualifiedVariables[partitionType] if !ok { panic("Unknown partitionType: " + partitionType) } ret["building_"+partitionType+"_image"] = boolToMakeString(partitionQualifiedVariables.BuildingImage) } func boolToMakeString(b bool) string { if b { return "true" } return "" }