// Copyright 2017 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 androidmk import ( mkparser "android/soong/androidmk/parser" "fmt" "sort" "strings" bpparser "github.com/google/blueprint/parser" ) const ( clearVarsPath = "__android_mk_clear_vars" includeIgnoredPath = "__android_mk_include_ignored" ) type bpVariable struct { name string variableType bpparser.Type } type variableAssignmentContext struct { file *bpFile prefix string mkvalue *mkparser.MakeString append bool } var trueValue = &bpparser.Bool{ Value: true, } var rewriteProperties = map[string](func(variableAssignmentContext) error){ // custom functions "LOCAL_32_BIT_ONLY": local32BitOnly, "LOCAL_AIDL_INCLUDES": localAidlIncludes, "LOCAL_ASSET_DIR": localizePathList("asset_dirs"), "LOCAL_C_INCLUDES": localIncludeDirs, "LOCAL_EXPORT_C_INCLUDE_DIRS": exportIncludeDirs, "LOCAL_JARJAR_RULES": localizePath("jarjar_rules"), "LOCAL_LDFLAGS": ldflags, "LOCAL_MODULE_CLASS": prebuiltClass, "LOCAL_MODULE_STEM": stem, "LOCAL_MODULE_HOST_OS": hostOs, "LOCAL_RESOURCE_DIR": localizePathList("resource_dirs"), "LOCAL_SANITIZE": sanitize(""), "LOCAL_SANITIZE_DIAG": sanitize("diag."), "LOCAL_STRIP_MODULE": strip(), "LOCAL_CFLAGS": cflags, "LOCAL_UNINSTALLABLE_MODULE": invert("installable"), "LOCAL_PROGUARD_ENABLED": proguardEnabled, "LOCAL_MODULE_PATH": prebuiltModulePath, "LOCAL_REPLACE_PREBUILT_APK_INSTALLED": prebuiltPreprocessed, // composite functions "LOCAL_MODULE_TAGS": includeVariableIf(bpVariable{"tags", bpparser.ListType}, not(valueDumpEquals("optional"))), // skip functions "LOCAL_ADDITIONAL_DEPENDENCIES": skip, // TODO: check for only .mk files? "LOCAL_CPP_EXTENSION": skip, "LOCAL_MODULE_SUFFIX": skip, // TODO "LOCAL_PATH": skip, // Nothing to do, except maybe avoid the "./" in paths? "LOCAL_PRELINK_MODULE": skip, // Already phased out "LOCAL_BUILT_MODULE_STEM": skip, "LOCAL_USE_AAPT2": skip, // Always enabled in Soong "LOCAL_JAR_EXCLUDE_FILES": skip, // Soong never excludes files from jars "LOCAL_ANNOTATION_PROCESSOR_CLASSES": skip, // Soong gets the processor classes from the plugin "LOCAL_CTS_TEST_PACKAGE": skip, // Obsolete "LOCAL_JACK_ENABLED": skip, // Obselete "LOCAL_JACK_FLAGS": skip, // Obselete } // adds a group of properties all having the same type func addStandardProperties(propertyType bpparser.Type, properties map[string]string) { for key, val := range properties { rewriteProperties[key] = includeVariable(bpVariable{val, propertyType}) } } func init() { addStandardProperties(bpparser.StringType, map[string]string{ "LOCAL_MODULE": "name", "LOCAL_CXX_STL": "stl", "LOCAL_MULTILIB": "compile_multilib", "LOCAL_ARM_MODE_HACK": "instruction_set", "LOCAL_SDK_VERSION": "sdk_version", "LOCAL_MIN_SDK_VERSION": "min_sdk_version", "LOCAL_NDK_STL_VARIANT": "stl", "LOCAL_JAR_MANIFEST": "manifest", "LOCAL_CERTIFICATE": "certificate", "LOCAL_PACKAGE_NAME": "name", "LOCAL_MODULE_RELATIVE_PATH": "relative_install_path", "LOCAL_PROTOC_OPTIMIZE_TYPE": "proto.type", "LOCAL_MODULE_OWNER": "owner", "LOCAL_RENDERSCRIPT_TARGET_API": "renderscript.target_api", "LOCAL_NOTICE_FILE": "notice", "LOCAL_JAVA_LANGUAGE_VERSION": "java_version", "LOCAL_INSTRUMENTATION_FOR": "instrumentation_for", "LOCAL_MANIFEST_FILE": "manifest", "LOCAL_DEX_PREOPT_PROFILE_CLASS_LISTING": "dex_preopt.profile", "LOCAL_TEST_CONFIG": "test_config", "LOCAL_RRO_THEME": "theme", }) addStandardProperties(bpparser.ListType, map[string]string{ "LOCAL_SRC_FILES": "srcs", "LOCAL_SRC_FILES_EXCLUDE": "exclude_srcs", "LOCAL_HEADER_LIBRARIES": "header_libs", "LOCAL_SHARED_LIBRARIES": "shared_libs", "LOCAL_STATIC_LIBRARIES": "static_libs", "LOCAL_WHOLE_STATIC_LIBRARIES": "whole_static_libs", "LOCAL_SYSTEM_SHARED_LIBRARIES": "system_shared_libs", "LOCAL_ASFLAGS": "asflags", "LOCAL_CLANG_ASFLAGS": "clang_asflags", "LOCAL_COMPATIBILITY_SUPPORT_FILES": "data", "LOCAL_CONLYFLAGS": "conlyflags", "LOCAL_CPPFLAGS": "cppflags", "LOCAL_REQUIRED_MODULES": "required", "LOCAL_HOST_REQUIRED_MODULES": "host_required", "LOCAL_TARGET_REQUIRED_MODULES": "target_required", "LOCAL_OVERRIDES_MODULES": "overrides", "LOCAL_LDLIBS": "host_ldlibs", "LOCAL_CLANG_CFLAGS": "clang_cflags", "LOCAL_YACCFLAGS": "yacc.flags", "LOCAL_SANITIZE_RECOVER": "sanitize.recover", "LOCAL_LOGTAGS_FILES": "logtags", "LOCAL_EXPORT_HEADER_LIBRARY_HEADERS": "export_header_lib_headers", "LOCAL_EXPORT_SHARED_LIBRARY_HEADERS": "export_shared_lib_headers", "LOCAL_EXPORT_STATIC_LIBRARY_HEADERS": "export_static_lib_headers", "LOCAL_INIT_RC": "init_rc", "LOCAL_VINTF_FRAGMENTS": "vintf_fragments", "LOCAL_TIDY_FLAGS": "tidy_flags", // TODO: This is comma-separated, not space-separated "LOCAL_TIDY_CHECKS": "tidy_checks", "LOCAL_RENDERSCRIPT_INCLUDES": "renderscript.include_dirs", "LOCAL_RENDERSCRIPT_FLAGS": "renderscript.flags", "LOCAL_JAVA_RESOURCE_DIRS": "java_resource_dirs", "LOCAL_JAVA_RESOURCE_FILES": "java_resources", "LOCAL_JAVACFLAGS": "javacflags", "LOCAL_ERROR_PRONE_FLAGS": "errorprone.javacflags", "LOCAL_DX_FLAGS": "dxflags", "LOCAL_JAVA_LIBRARIES": "libs", "LOCAL_STATIC_JAVA_LIBRARIES": "static_libs", "LOCAL_JNI_SHARED_LIBRARIES": "jni_libs", "LOCAL_AAPT_FLAGS": "aaptflags", "LOCAL_PACKAGE_SPLITS": "package_splits", "LOCAL_COMPATIBILITY_SUITE": "test_suites", "LOCAL_OVERRIDES_PACKAGES": "overrides", "LOCAL_ANNOTATION_PROCESSORS": "plugins", "LOCAL_PROGUARD_FLAGS": "optimize.proguard_flags", "LOCAL_PROGUARD_FLAG_FILES": "optimize.proguard_flags_files", // These will be rewritten to libs/static_libs by bpfix, after their presence is used to convert // java_library_static to android_library. "LOCAL_SHARED_ANDROID_LIBRARIES": "android_libs", "LOCAL_STATIC_ANDROID_LIBRARIES": "android_static_libs", "LOCAL_ADDITIONAL_CERTIFICATES": "additional_certificates", // Jacoco filters: "LOCAL_JACK_COVERAGE_INCLUDE_FILTER": "jacoco.include_filter", "LOCAL_JACK_COVERAGE_EXCLUDE_FILTER": "jacoco.exclude_filter", "LOCAL_FULL_LIBS_MANIFEST_FILES": "additional_manifests", }) addStandardProperties(bpparser.BoolType, map[string]string{ // Bool properties "LOCAL_IS_HOST_MODULE": "host", "LOCAL_CLANG": "clang", "LOCAL_FORCE_STATIC_EXECUTABLE": "static_executable", "LOCAL_NATIVE_COVERAGE": "native_coverage", "LOCAL_NO_CRT": "nocrt", "LOCAL_ALLOW_UNDEFINED_SYMBOLS": "allow_undefined_symbols", "LOCAL_RTTI_FLAG": "rtti", "LOCAL_PACK_MODULE_RELOCATIONS": "pack_relocations", "LOCAL_TIDY": "tidy", "LOCAL_USE_CLANG_LLD": "use_clang_lld", "LOCAL_PROPRIETARY_MODULE": "proprietary", "LOCAL_VENDOR_MODULE": "vendor", "LOCAL_ODM_MODULE": "device_specific", "LOCAL_PRODUCT_MODULE": "product_specific", "LOCAL_SYSTEM_EXT_MODULE": "system_ext_specific", "LOCAL_EXPORT_PACKAGE_RESOURCES": "export_package_resources", "LOCAL_PRIVILEGED_MODULE": "privileged", "LOCAL_AAPT_INCLUDE_ALL_RESOURCES": "aapt_include_all_resources", "LOCAL_DONT_MERGE_MANIFESTS": "dont_merge_manifests", "LOCAL_USE_EMBEDDED_NATIVE_LIBS": "use_embedded_native_libs", "LOCAL_USE_EMBEDDED_DEX": "use_embedded_dex", "LOCAL_DEX_PREOPT": "dex_preopt.enabled", "LOCAL_DEX_PREOPT_APP_IMAGE": "dex_preopt.app_image", "LOCAL_DEX_PREOPT_GENERATE_PROFILE": "dex_preopt.profile_guided", "LOCAL_PRIVATE_PLATFORM_APIS": "platform_apis", "LOCAL_JETIFIER_ENABLED": "jetifier", "LOCAL_IS_UNIT_TEST": "unit_test", "LOCAL_ENFORCE_USES_LIBRARIES": "enforce_uses_libs", }) } type listSplitFunc func(bpparser.Expression) (string, bpparser.Expression, error) func emptyList(value bpparser.Expression) bool { if list, ok := value.(*bpparser.List); ok { return len(list.Values) == 0 } return false } func splitBpList(val bpparser.Expression, keyFunc listSplitFunc) (lists map[string]bpparser.Expression, err error) { lists = make(map[string]bpparser.Expression) switch val := val.(type) { case *bpparser.Operator: listsA, err := splitBpList(val.Args[0], keyFunc) if err != nil { return nil, err } listsB, err := splitBpList(val.Args[1], keyFunc) if err != nil { return nil, err } for k, v := range listsA { if !emptyList(v) { lists[k] = v } } for k, vB := range listsB { if emptyList(vB) { continue } if vA, ok := lists[k]; ok { expression := val.Copy().(*bpparser.Operator) expression.Args = [2]bpparser.Expression{vA, vB} lists[k] = expression } else { lists[k] = vB } } case *bpparser.Variable: key, value, err := keyFunc(val) if err != nil { return nil, err } if value.Type() == bpparser.ListType { lists[key] = value } else { lists[key] = &bpparser.List{ Values: []bpparser.Expression{value}, } } case *bpparser.List: for _, v := range val.Values { key, value, err := keyFunc(v) if err != nil { return nil, err } l := lists[key] if l == nil { l = &bpparser.List{} } l.(*bpparser.List).Values = append(l.(*bpparser.List).Values, value) lists[key] = l } default: panic(fmt.Errorf("unexpected type %t", val)) } return lists, nil } // classifyLocalOrGlobalPath tells whether a file path should be interpreted relative to the current module (local) // or relative to the root of the source checkout (global) func classifyLocalOrGlobalPath(value bpparser.Expression) (string, bpparser.Expression, error) { switch v := value.(type) { case *bpparser.Variable: if v.Name == "LOCAL_PATH" { return "local", &bpparser.String{ Value: ".", }, nil } else { // TODO: Should we split variables? return "global", value, nil } case *bpparser.Operator: if v.Type() != bpparser.StringType { return "", nil, fmt.Errorf("classifyLocalOrGlobalPath expected a string, got %s", v.Type()) } if v.Operator != '+' { return "global", value, nil } firstOperand := v.Args[0] secondOperand := v.Args[1] if firstOperand.Type() != bpparser.StringType { return "global", value, nil } if _, ok := firstOperand.(*bpparser.Operator); ok { return "global", value, nil } if variable, ok := firstOperand.(*bpparser.Variable); !ok || variable.Name != "LOCAL_PATH" { return "global", value, nil } local := secondOperand if s, ok := secondOperand.(*bpparser.String); ok { if strings.HasPrefix(s.Value, "/") { s.Value = s.Value[1:] } } return "local", local, nil case *bpparser.String: return "global", value, nil default: return "", nil, fmt.Errorf("classifyLocalOrGlobalPath expected a string, got %s", v.Type()) } } // splitAndAssign splits a Make list into components and then // creates the corresponding variable assignments. func splitAndAssign(ctx variableAssignmentContext, splitFunc listSplitFunc, namesByClassification map[string]string) error { val, err := makeVariableToBlueprint(ctx.file, ctx.mkvalue, bpparser.ListType) if err != nil { return err } lists, err := splitBpList(val, splitFunc) if err != nil { return err } var classifications []string for classification := range namesByClassification { classifications = append(classifications, classification) } sort.Strings(classifications) for _, nameClassification := range classifications { name := namesByClassification[nameClassification] if component, ok := lists[nameClassification]; ok && !emptyList(component) { err = setVariable(ctx.file, ctx.append, ctx.prefix, name, component, true) if err != nil { return err } } } return nil } func localIncludeDirs(ctx variableAssignmentContext) error { return splitAndAssign(ctx, classifyLocalOrGlobalPath, map[string]string{"global": "include_dirs", "local": "local_include_dirs"}) } func exportIncludeDirs(ctx variableAssignmentContext) error { // Add any paths that could not be converted to local relative paths to export_include_dirs // anyways, they will cause an error if they don't exist and can be fixed manually. return splitAndAssign(ctx, classifyLocalOrGlobalPath, map[string]string{"global": "export_include_dirs", "local": "export_include_dirs"}) } func local32BitOnly(ctx variableAssignmentContext) error { val, err := makeVariableToBlueprint(ctx.file, ctx.mkvalue, bpparser.BoolType) if err != nil { return err } boolValue, ok := val.(*bpparser.Bool) if !ok { return fmt.Errorf("value should evaluate to boolean literal") } if boolValue.Value { thirtyTwo := &bpparser.String{ Value: "32", } return setVariable(ctx.file, false, ctx.prefix, "compile_multilib", thirtyTwo, true) } return nil } func localAidlIncludes(ctx variableAssignmentContext) error { return splitAndAssign(ctx, classifyLocalOrGlobalPath, map[string]string{"global": "aidl.include_dirs", "local": "aidl.local_include_dirs"}) } func localizePathList(attribute string) func(ctx variableAssignmentContext) error { return func(ctx variableAssignmentContext) error { paths, err := localizePaths(ctx) if err == nil { err = setVariable(ctx.file, ctx.append, ctx.prefix, attribute, paths, true) } return err } } func localizePath(attribute string) func(ctx variableAssignmentContext) error { return func(ctx variableAssignmentContext) error { paths, err := localizePaths(ctx) if err == nil { pathList, ok := paths.(*bpparser.List) if !ok { panic("Expected list") } switch len(pathList.Values) { case 0: err = setVariable(ctx.file, ctx.append, ctx.prefix, attribute, &bpparser.List{}, true) case 1: err = setVariable(ctx.file, ctx.append, ctx.prefix, attribute, pathList.Values[0], true) default: err = fmt.Errorf("Expected single value for %s", attribute) } } return err } } // Convert the "full" paths (that is, from the top of the source tree) to the relative one // (from the directory containing the blueprint file) and set given attribute to it. // This is needed for some of makefile variables (e.g., LOCAL_RESOURCE_DIR). // At the moment only the paths of the `$(LOCAL_PATH)/foo/bar` format can be converted // (to `foo/bar` in this case) as we cannot convert a literal path without // knowing makefiles's location in the source tree. We just issue a warning in the latter case. func localizePaths(ctx variableAssignmentContext) (bpparser.Expression, error) { bpvalue, err := makeVariableToBlueprint(ctx.file, ctx.mkvalue, bpparser.ListType) var result bpparser.Expression if err != nil { return result, err } classifiedPaths, err := splitBpList(bpvalue, classifyLocalOrGlobalPath) if err != nil { return result, err } for pathClass, path := range classifiedPaths { switch pathClass { case "local": result = path default: err = fmt.Errorf("Only $(LOCAL_PATH)/.. values are allowed") } } return result, err } func stem(ctx variableAssignmentContext) error { val, err := makeVariableToBlueprint(ctx.file, ctx.mkvalue, bpparser.StringType) if err != nil { return err } varName := "stem" if exp, ok := val.(*bpparser.Operator); ok && exp.Operator == '+' { if variable, ok := exp.Args[0].(*bpparser.Variable); ok && variable.Name == "LOCAL_MODULE" { varName = "suffix" val = exp.Args[1] } } return setVariable(ctx.file, ctx.append, ctx.prefix, varName, val, true) } func hostOs(ctx variableAssignmentContext) error { val, err := makeVariableToBlueprint(ctx.file, ctx.mkvalue, bpparser.ListType) if err != nil { return err } inList := func(s string) bool { for _, v := range val.(*bpparser.List).Values { if v.(*bpparser.String).Value == s { return true } } return false } falseValue := &bpparser.Bool{ Value: false, } if inList("windows") { err = setVariable(ctx.file, ctx.append, "target.windows", "enabled", trueValue, true) } if !inList("linux") && err == nil { err = setVariable(ctx.file, ctx.append, "target.linux_glibc", "enabled", falseValue, true) } if !inList("darwin") && err == nil { err = setVariable(ctx.file, ctx.append, "target.darwin", "enabled", falseValue, true) } return err } func sanitize(sub string) func(ctx variableAssignmentContext) error { return func(ctx variableAssignmentContext) error { val, err := makeVariableToBlueprint(ctx.file, ctx.mkvalue, bpparser.ListType) if err != nil { return err } if _, ok := val.(*bpparser.List); !ok { return fmt.Errorf("unsupported sanitize expression") } misc := &bpparser.List{} for _, v := range val.(*bpparser.List).Values { switch v := v.(type) { case *bpparser.Variable, *bpparser.Operator: ctx.file.errorf(ctx.mkvalue, "unsupported sanitize expression") case *bpparser.String: switch v.Value { case "never", "address", "fuzzer", "thread", "undefined", "cfi": bpTrue := &bpparser.Bool{ Value: true, } err = setVariable(ctx.file, false, ctx.prefix, "sanitize."+sub+v.Value, bpTrue, true) if err != nil { return err } default: misc.Values = append(misc.Values, v) } default: return fmt.Errorf("sanitize expected a string, got %s", v.Type()) } } if len(misc.Values) > 0 { err = setVariable(ctx.file, false, ctx.prefix, "sanitize."+sub+"misc_undefined", misc, true) if err != nil { return err } } return err } } func strip() func(ctx variableAssignmentContext) error { return func(ctx variableAssignmentContext) error { val, err := makeVariableToBlueprint(ctx.file, ctx.mkvalue, bpparser.StringType) if err != nil { return err } if _, ok := val.(*bpparser.String); !ok { return fmt.Errorf("unsupported strip expression") } bpTrue := &bpparser.Bool{ Value: true, } v := val.(*bpparser.String).Value sub := (map[string]string{"false": "none", "true": "all", "keep_symbols": "keep_symbols"})[v] if sub == "" { return fmt.Errorf("unexpected strip option: %s", v) } return setVariable(ctx.file, false, ctx.prefix, "strip."+sub, bpTrue, true) } } func prebuiltClass(ctx variableAssignmentContext) error { class := ctx.mkvalue.Value(ctx.file.scope) if _, ok := prebuiltTypes[class]; ok { ctx.file.scope.Set("BUILD_PREBUILT", class) } else { // reset to default ctx.file.scope.Set("BUILD_PREBUILT", "prebuilt") } return nil } func makeBlueprintStringAssignment(file *bpFile, prefix string, suffix string, value string) error { val, err := makeVariableToBlueprint(file, mkparser.SimpleMakeString(value, mkparser.NoPos), bpparser.StringType) if err == nil { err = setVariable(file, false, prefix, suffix, val, true) } return err } // If variable is a literal variable name, return the name, otherwise return "" func varLiteralName(variable mkparser.Variable) string { if len(variable.Name.Variables) == 0 { return variable.Name.Strings[0] } return "" } func prebuiltModulePath(ctx variableAssignmentContext) error { // Cannot handle appending if ctx.append { return fmt.Errorf("Cannot handle appending to LOCAL_MODULE_PATH") } // Analyze value in order to set the correct values for the 'device_specific', // 'product_specific', 'system_ext_specific' 'vendor'/'soc_specific', // 'system_ext_specific' attribute. Two cases are allowed: // $(VAR)/ // $(PRODUCT_OUT)/$(TARGET_COPY_OUT_VENDOR)/ // The last case is equivalent to $(TARGET_OUT_VENDOR)/ // Map the variable name if present to `local_module_path_var` // Map literal-path to local_module_path_fixed varname := "" fixed := "" val := ctx.mkvalue if len(val.Variables) == 1 && varLiteralName(val.Variables[0]) != "" && len(val.Strings) == 2 && val.Strings[0] == "" { fixed = val.Strings[1] varname = val.Variables[0].Name.Strings[0] } else if len(val.Variables) == 2 && varLiteralName(val.Variables[0]) == "PRODUCT_OUT" && varLiteralName(val.Variables[1]) == "TARGET_COPY_OUT_VENDOR" && len(val.Strings) == 3 && val.Strings[0] == "" && val.Strings[1] == "/" { fixed = val.Strings[2] varname = "TARGET_OUT_VENDOR" } else { return fmt.Errorf("LOCAL_MODULE_PATH value should start with $()/ or $(PRODUCT_OUT)/$(TARGET_COPY_VENDOR)/") } err := makeBlueprintStringAssignment(ctx.file, "local_module_path", "var", varname) if err == nil && fixed != "" { err = makeBlueprintStringAssignment(ctx.file, "local_module_path", "fixed", fixed) } return err } func ldflags(ctx variableAssignmentContext) error { val, err := makeVariableToBlueprint(ctx.file, ctx.mkvalue, bpparser.ListType) if err != nil { return err } lists, err := splitBpList(val, func(value bpparser.Expression) (string, bpparser.Expression, error) { // Anything other than "-Wl,--version_script," + LOCAL_PATH + "" matches ldflags exp1, ok := value.(*bpparser.Operator) if !ok { return "ldflags", value, nil } exp2, ok := exp1.Args[0].(*bpparser.Operator) if !ok { return "ldflags", value, nil } if s, ok := exp2.Args[0].(*bpparser.String); !ok || s.Value != "-Wl,--version-script," { return "ldflags", value, nil } if v, ok := exp2.Args[1].(*bpparser.Variable); !ok || v.Name != "LOCAL_PATH" { ctx.file.errorf(ctx.mkvalue, "Unrecognized version-script") return "ldflags", value, nil } s, ok := exp1.Args[1].(*bpparser.String) if !ok { ctx.file.errorf(ctx.mkvalue, "Unrecognized version-script") return "ldflags", value, nil } s.Value = strings.TrimPrefix(s.Value, "/") return "version", s, nil }) if err != nil { return err } if ldflags, ok := lists["ldflags"]; ok && !emptyList(ldflags) { err = setVariable(ctx.file, ctx.append, ctx.prefix, "ldflags", ldflags, true) if err != nil { return err } } if version_script, ok := lists["version"]; ok && !emptyList(version_script) { if len(version_script.(*bpparser.List).Values) > 1 { ctx.file.errorf(ctx.mkvalue, "multiple version scripts found?") } err = setVariable(ctx.file, false, ctx.prefix, "version_script", version_script.(*bpparser.List).Values[0], true) if err != nil { return err } } return nil } func prebuiltPreprocessed(ctx variableAssignmentContext) error { ctx.mkvalue = ctx.mkvalue.Clone() return setVariable(ctx.file, false, ctx.prefix, "preprocessed", trueValue, true) } func cflags(ctx variableAssignmentContext) error { // The Soong replacement for CFLAGS doesn't need the same extra escaped quotes that were present in Make ctx.mkvalue = ctx.mkvalue.Clone() ctx.mkvalue.ReplaceLiteral(`\"`, `"`) return includeVariableNow(bpVariable{"cflags", bpparser.ListType}, ctx) } func proguardEnabled(ctx variableAssignmentContext) error { val, err := makeVariableToBlueprint(ctx.file, ctx.mkvalue, bpparser.ListType) if err != nil { return err } list, ok := val.(*bpparser.List) if !ok { return fmt.Errorf("unsupported proguard expression") } set := func(prop string, value bool) { bpValue := &bpparser.Bool{ Value: value, } setVariable(ctx.file, false, ctx.prefix, prop, bpValue, true) } enable := false for _, v := range list.Values { s, ok := v.(*bpparser.String) if !ok { return fmt.Errorf("unsupported proguard expression") } switch s.Value { case "disabled": set("optimize.enabled", false) case "obfuscation": enable = true set("optimize.obfuscate", true) case "optimization": enable = true set("optimize.optimize", true) case "full": enable = true case "custom": set("optimize.no_aapt_flags", true) enable = true default: return fmt.Errorf("unsupported proguard value %q", s) } } if enable { // This is only necessary for libraries which default to false, but we can't // tell the difference between a library and an app here. set("optimize.enabled", true) } return nil } func invert(name string) func(ctx variableAssignmentContext) error { return func(ctx variableAssignmentContext) error { val, err := makeVariableToBlueprint(ctx.file, ctx.mkvalue, bpparser.BoolType) if err != nil { return err } val.(*bpparser.Bool).Value = !val.(*bpparser.Bool).Value return setVariable(ctx.file, ctx.append, ctx.prefix, name, val, true) } } // given a conditional, returns a function that will insert a variable assignment or not, based on the conditional func includeVariableIf(bpVar bpVariable, conditional func(ctx variableAssignmentContext) bool) func(ctx variableAssignmentContext) error { return func(ctx variableAssignmentContext) error { var err error if conditional(ctx) { err = includeVariableNow(bpVar, ctx) } return err } } // given a variable, returns a function that will always insert a variable assignment func includeVariable(bpVar bpVariable) func(ctx variableAssignmentContext) error { return includeVariableIf(bpVar, always) } func includeVariableNow(bpVar bpVariable, ctx variableAssignmentContext) error { var val bpparser.Expression var err error val, err = makeVariableToBlueprint(ctx.file, ctx.mkvalue, bpVar.variableType) if err == nil { err = setVariable(ctx.file, ctx.append, ctx.prefix, bpVar.name, val, true) } return err } // given a function that returns a bool, returns a function that returns the opposite func not(conditional func(ctx variableAssignmentContext) bool) func(ctx variableAssignmentContext) bool { return func(ctx variableAssignmentContext) bool { return !conditional(ctx) } } // returns a function that tells whether mkvalue.Dump equals the given query string func valueDumpEquals(textToMatch string) func(ctx variableAssignmentContext) bool { return func(ctx variableAssignmentContext) bool { return (ctx.mkvalue.Dump() == textToMatch) } } func always(ctx variableAssignmentContext) bool { return true } func skip(ctx variableAssignmentContext) error { return nil } // Shorter suffixes of other suffixes must be at the end of the list var propertyPrefixes = []struct{ mk, bp string }{ {"arm", "arch.arm"}, {"arm64", "arch.arm64"}, {"x86", "arch.x86"}, {"x86_64", "arch.x86_64"}, {"32", "multilib.lib32"}, // 64 must be after x86_64 {"64", "multilib.lib64"}, {"darwin", "target.darwin"}, {"linux", "target.linux_glibc"}, {"windows", "target.windows"}, } var conditionalTranslations = map[string]map[bool]string{ "($(HOST_OS),darwin)": { true: "target.darwin", false: "target.not_darwin"}, "($(HOST_OS), darwin)": { true: "target.darwin", false: "target.not_darwin"}, "($(HOST_OS),windows)": { true: "target.windows", false: "target.not_windows"}, "($(HOST_OS), windows)": { true: "target.windows", false: "target.not_windows"}, "($(HOST_OS),linux)": { true: "target.linux_glibc", false: "target.not_linux_glibc"}, "($(HOST_OS), linux)": { true: "target.linux_glibc", false: "target.not_linux_glibc"}, "($(BUILD_OS),darwin)": { true: "target.darwin", false: "target.not_darwin"}, "($(BUILD_OS), darwin)": { true: "target.darwin", false: "target.not_darwin"}, "($(BUILD_OS),linux)": { true: "target.linux_glibc", false: "target.not_linux_glibc"}, "($(BUILD_OS), linux)": { true: "target.linux_glibc", false: "target.not_linux_glibc"}, "(,$(TARGET_BUILD_APPS))": { false: "product_variables.unbundled_build"}, "($(TARGET_BUILD_APPS),)": { false: "product_variables.unbundled_build"}, "($(TARGET_BUILD_PDK),true)": { true: "product_variables.pdk"}, "($(TARGET_BUILD_PDK), true)": { true: "product_variables.pdk"}, } func mydir(args []string) []string { return []string{"."} } func allFilesUnder(wildcard string) func(args []string) []string { return func(args []string) []string { dirs := []string{""} if len(args) > 0 { dirs = strings.Fields(args[0]) } paths := make([]string, len(dirs)) for i := range paths { paths[i] = fmt.Sprintf("%s/**/"+wildcard, dirs[i]) } return paths } } func allSubdirJavaFiles(args []string) []string { return []string{"**/*.java"} } func includeIgnored(args []string) []string { return []string{includeIgnoredPath} } var moduleTypes = map[string]string{ "BUILD_SHARED_LIBRARY": "cc_library_shared", "BUILD_STATIC_LIBRARY": "cc_library_static", "BUILD_HOST_SHARED_LIBRARY": "cc_library_host_shared", "BUILD_HOST_STATIC_LIBRARY": "cc_library_host_static", "BUILD_HEADER_LIBRARY": "cc_library_headers", "BUILD_EXECUTABLE": "cc_binary", "BUILD_HOST_EXECUTABLE": "cc_binary_host", "BUILD_NATIVE_TEST": "cc_test", "BUILD_HOST_NATIVE_TEST": "cc_test_host", "BUILD_NATIVE_BENCHMARK": "cc_benchmark", "BUILD_HOST_NATIVE_BENCHMARK": "cc_benchmark_host", "BUILD_JAVA_LIBRARY": "java_library_installable", // will be rewritten to java_library by bpfix "BUILD_STATIC_JAVA_LIBRARY": "java_library", "BUILD_HOST_JAVA_LIBRARY": "java_library_host", "BUILD_HOST_DALVIK_JAVA_LIBRARY": "java_library_host_dalvik", "BUILD_PACKAGE": "android_app", "BUILD_RRO_PACKAGE": "runtime_resource_overlay", "BUILD_CTS_EXECUTABLE": "cc_binary", // will be further massaged by bpfix depending on the output path "BUILD_CTS_SUPPORT_PACKAGE": "cts_support_package", // will be rewritten to android_test by bpfix "BUILD_CTS_PACKAGE": "cts_package", // will be rewritten to android_test by bpfix "BUILD_CTS_TARGET_JAVA_LIBRARY": "cts_target_java_library", // will be rewritten to java_library by bpfix "BUILD_CTS_HOST_JAVA_LIBRARY": "cts_host_java_library", // will be rewritten to java_library_host by bpfix } var prebuiltTypes = map[string]string{ "SHARED_LIBRARIES": "cc_prebuilt_library_shared", "STATIC_LIBRARIES": "cc_prebuilt_library_static", "EXECUTABLES": "cc_prebuilt_binary", "JAVA_LIBRARIES": "java_import", "APPS": "android_app_import", "ETC": "prebuilt_etc", } var soongModuleTypes = map[string]bool{} var includePathToModule = map[string]string{ // The content will be populated dynamically in androidScope below } func mapIncludePath(path string) (string, bool) { if path == clearVarsPath || path == includeIgnoredPath { return path, true } module, ok := includePathToModule[path] return module, ok } func androidScope() mkparser.Scope { globalScope := mkparser.NewScope(nil) globalScope.Set("CLEAR_VARS", clearVarsPath) globalScope.SetFunc("my-dir", mydir) globalScope.SetFunc("all-java-files-under", allFilesUnder("*.java")) globalScope.SetFunc("all-proto-files-under", allFilesUnder("*.proto")) globalScope.SetFunc("all-aidl-files-under", allFilesUnder("*.aidl")) globalScope.SetFunc("all-Iaidl-files-under", allFilesUnder("I*.aidl")) globalScope.SetFunc("all-logtags-files-under", allFilesUnder("*.logtags")) globalScope.SetFunc("all-subdir-java-files", allSubdirJavaFiles) globalScope.SetFunc("all-makefiles-under", includeIgnored) globalScope.SetFunc("first-makefiles-under", includeIgnored) globalScope.SetFunc("all-named-subdir-makefiles", includeIgnored) globalScope.SetFunc("all-subdir-makefiles", includeIgnored) // The scope maps each known variable to a path, and then includePathToModule maps a path // to a module. We don't care what the actual path value is so long as the value in scope // is mapped, so we might as well use variable name as key, too. for varName, moduleName := range moduleTypes { path := varName globalScope.Set(varName, path) includePathToModule[path] = moduleName } for varName, moduleName := range prebuiltTypes { includePathToModule[varName] = moduleName } return globalScope }