// Copyright 2020 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 bp2build import ( "android/soong/android" "android/soong/bazel" "fmt" "reflect" "strings" "github.com/google/blueprint" "github.com/google/blueprint/proptools" ) type BazelAttributes struct { Attrs map[string]string } type BazelTarget struct { name string content string ruleClass string bzlLoadLocation string } // IsLoadedFromStarlark determines if the BazelTarget's rule class is loaded from a .bzl file, // as opposed to a native rule built into Bazel. func (t BazelTarget) IsLoadedFromStarlark() bool { return t.bzlLoadLocation != "" } // BazelTargets is a typedef for a slice of BazelTarget objects. type BazelTargets []BazelTarget // String returns the string representation of BazelTargets, without load // statements (use LoadStatements for that), since the targets are usually not // adjacent to the load statements at the top of the BUILD file. func (targets BazelTargets) String() string { var res string for i, target := range targets { res += target.content if i != len(targets)-1 { res += "\n\n" } } return res } // LoadStatements return the string representation of the sorted and deduplicated // Starlark rule load statements needed by a group of BazelTargets. func (targets BazelTargets) LoadStatements() string { bzlToLoadedSymbols := map[string][]string{} for _, target := range targets { if target.IsLoadedFromStarlark() { bzlToLoadedSymbols[target.bzlLoadLocation] = append(bzlToLoadedSymbols[target.bzlLoadLocation], target.ruleClass) } } var loadStatements []string for bzl, ruleClasses := range bzlToLoadedSymbols { loadStatement := "load(\"" loadStatement += bzl loadStatement += "\", " ruleClasses = android.SortedUniqueStrings(ruleClasses) for i, ruleClass := range ruleClasses { loadStatement += "\"" + ruleClass + "\"" if i != len(ruleClasses)-1 { loadStatement += ", " } } loadStatement += ")" loadStatements = append(loadStatements, loadStatement) } return strings.Join(android.SortedUniqueStrings(loadStatements), "\n") } type bpToBuildContext interface { ModuleName(module blueprint.Module) string ModuleDir(module blueprint.Module) string ModuleSubDir(module blueprint.Module) string ModuleType(module blueprint.Module) string VisitAllModules(visit func(blueprint.Module)) VisitDirectDeps(module blueprint.Module, visit func(blueprint.Module)) } type CodegenContext struct { config android.Config context android.Context mode CodegenMode additionalDeps []string } func (c *CodegenContext) Mode() CodegenMode { return c.mode } // CodegenMode is an enum to differentiate code-generation modes. type CodegenMode int const ( // Bp2Build: generate BUILD files with targets buildable by Bazel directly. // // This mode is used for the Soong->Bazel build definition conversion. Bp2Build CodegenMode = iota // QueryView: generate BUILD files with targets representing fully mutated // Soong modules, representing the fully configured Soong module graph with // variants and dependency endges. // // This mode is used for discovering and introspecting the existing Soong // module graph. QueryView ) func (mode CodegenMode) String() string { switch mode { case Bp2Build: return "Bp2Build" case QueryView: return "QueryView" default: return fmt.Sprintf("%d", mode) } } // AddNinjaFileDeps adds dependencies on the specified files to be added to the ninja manifest. The // primary builder will be rerun whenever the specified files are modified. Allows us to fulfill the // PathContext interface in order to add dependencies on hand-crafted BUILD files. Note: must also // call AdditionalNinjaDeps and add them manually to the ninja file. func (ctx *CodegenContext) AddNinjaFileDeps(deps ...string) { ctx.additionalDeps = append(ctx.additionalDeps, deps...) } // AdditionalNinjaDeps returns additional ninja deps added by CodegenContext func (ctx *CodegenContext) AdditionalNinjaDeps() []string { return ctx.additionalDeps } func (ctx *CodegenContext) Config() android.Config { return ctx.config } func (ctx *CodegenContext) Context() android.Context { return ctx.context } // NewCodegenContext creates a wrapper context that conforms to PathContext for // writing BUILD files in the output directory. func NewCodegenContext(config android.Config, context android.Context, mode CodegenMode) *CodegenContext { return &CodegenContext{ context: context, config: config, mode: mode, } } // props is an unsorted map. This function ensures that // the generated attributes are sorted to ensure determinism. func propsToAttributes(props map[string]string) string { var attributes string for _, propName := range android.SortedStringKeys(props) { if shouldGenerateAttribute(propName) { attributes += fmt.Sprintf(" %s = %s,\n", propName, props[propName]) } } return attributes } func GenerateBazelTargets(ctx *CodegenContext, generateFilegroups bool) (map[string]BazelTargets, CodegenMetrics) { buildFileToTargets := make(map[string]BazelTargets) buildFileToAppend := make(map[string]bool) // Simple metrics tracking for bp2build metrics := CodegenMetrics{ RuleClassCount: make(map[string]int), } dirs := make(map[string]bool) bpCtx := ctx.Context() bpCtx.VisitAllModules(func(m blueprint.Module) { dir := bpCtx.ModuleDir(m) dirs[dir] = true var t BazelTarget switch ctx.Mode() { case Bp2Build: if b, ok := m.(android.Bazelable); ok && b.HasHandcraftedLabel() { metrics.handCraftedTargetCount += 1 metrics.TotalModuleCount += 1 pathToBuildFile := getBazelPackagePath(b) // We are using the entire contents of handcrafted build file, so if multiple targets within // a package have handcrafted targets, we only want to include the contents one time. if _, exists := buildFileToAppend[pathToBuildFile]; exists { return } var err error t, err = getHandcraftedBuildContent(ctx, b, pathToBuildFile) if err != nil { panic(fmt.Errorf("Error converting %s: %s", bpCtx.ModuleName(m), err)) } // TODO(b/181575318): currently we append the whole BUILD file, let's change that to do // something more targeted based on the rule type and target buildFileToAppend[pathToBuildFile] = true } else if btm, ok := m.(android.BazelTargetModule); ok { t = generateBazelTarget(bpCtx, m, btm) metrics.RuleClassCount[t.ruleClass] += 1 } else { metrics.TotalModuleCount += 1 return } case QueryView: // Blocklist certain module types from being generated. if canonicalizeModuleType(bpCtx.ModuleType(m)) == "package" { // package module name contain slashes, and thus cannot // be mapped cleanly to a bazel label. return } t = generateSoongModuleTarget(bpCtx, m) default: panic(fmt.Errorf("Unknown code-generation mode: %s", ctx.Mode())) } buildFileToTargets[dir] = append(buildFileToTargets[dir], t) }) if generateFilegroups { // Add a filegroup target that exposes all sources in the subtree of this package // NOTE: This also means we generate a BUILD file for every Android.bp file (as long as it has at least one module) for dir, _ := range dirs { buildFileToTargets[dir] = append(buildFileToTargets[dir], BazelTarget{ name: "bp2build_all_srcs", content: `filegroup(name = "bp2build_all_srcs", srcs = glob(["**/*"]))`, ruleClass: "filegroup", }) } } return buildFileToTargets, metrics } func getBazelPackagePath(b android.Bazelable) string { label := b.HandcraftedLabel() pathToBuildFile := strings.TrimPrefix(label, "//") pathToBuildFile = strings.Split(pathToBuildFile, ":")[0] return pathToBuildFile } func getHandcraftedBuildContent(ctx *CodegenContext, b android.Bazelable, pathToBuildFile string) (BazelTarget, error) { p := android.ExistentPathForSource(ctx, pathToBuildFile, HandcraftedBuildFileName) if !p.Valid() { return BazelTarget{}, fmt.Errorf("Could not find file %q for handcrafted target.", pathToBuildFile) } c, err := b.GetBazelBuildFileContents(ctx.Config(), pathToBuildFile, HandcraftedBuildFileName) if err != nil { return BazelTarget{}, err } // TODO(b/181575318): once this is more targeted, we need to include name, rule class, etc return BazelTarget{ content: c, }, nil } func generateBazelTarget(ctx bpToBuildContext, m blueprint.Module, btm android.BazelTargetModule) BazelTarget { ruleClass := btm.RuleClass() bzlLoadLocation := btm.BzlLoadLocation() // extract the bazel attributes from the module. props := getBuildProperties(ctx, m) delete(props.Attrs, "bp2build_available") // Return the Bazel target with rule class and attributes, ready to be // code-generated. attributes := propsToAttributes(props.Attrs) targetName := targetNameForBp2Build(ctx, m) return BazelTarget{ name: targetName, ruleClass: ruleClass, bzlLoadLocation: bzlLoadLocation, content: fmt.Sprintf( bazelTarget, ruleClass, targetName, attributes, ), } } // Convert a module and its deps and props into a Bazel macro/rule // representation in the BUILD file. func generateSoongModuleTarget(ctx bpToBuildContext, m blueprint.Module) BazelTarget { props := getBuildProperties(ctx, m) // TODO(b/163018919): DirectDeps can have duplicate (module, variant) // items, if the modules are added using different DependencyTag. Figure // out the implications of that. depLabels := map[string]bool{} if aModule, ok := m.(android.Module); ok { ctx.VisitDirectDeps(aModule, func(depModule blueprint.Module) { depLabels[qualifiedTargetLabel(ctx, depModule)] = true }) } attributes := propsToAttributes(props.Attrs) depLabelList := "[\n" for depLabel, _ := range depLabels { depLabelList += fmt.Sprintf(" %q,\n", depLabel) } depLabelList += " ]" targetName := targetNameWithVariant(ctx, m) return BazelTarget{ name: targetName, content: fmt.Sprintf( soongModuleTarget, targetName, ctx.ModuleName(m), canonicalizeModuleType(ctx.ModuleType(m)), ctx.ModuleSubDir(m), depLabelList, attributes), } } func getBuildProperties(ctx bpToBuildContext, m blueprint.Module) BazelAttributes { var allProps map[string]string // TODO: this omits properties for blueprint modules (blueprint_go_binary, // bootstrap_go_binary, bootstrap_go_package), which will have to be handled separately. if aModule, ok := m.(android.Module); ok { allProps = ExtractModuleProperties(aModule) } return BazelAttributes{ Attrs: allProps, } } // Generically extract module properties and types into a map, keyed by the module property name. func ExtractModuleProperties(aModule android.Module) map[string]string { ret := map[string]string{} // Iterate over this android.Module's property structs. for _, properties := range aModule.GetProperties() { propertiesValue := reflect.ValueOf(properties) // Check that propertiesValue is a pointer to the Properties struct, like // *cc.BaseLinkerProperties or *java.CompilerProperties. // // propertiesValue can also be type-asserted to the structs to // manipulate internal props, if needed. if isStructPtr(propertiesValue.Type()) { structValue := propertiesValue.Elem() for k, v := range extractStructProperties(structValue, 0) { ret[k] = v } } else { panic(fmt.Errorf( "properties must be a pointer to a struct, got %T", propertiesValue.Interface())) } } return ret } func isStructPtr(t reflect.Type) bool { return t.Kind() == reflect.Ptr && t.Elem().Kind() == reflect.Struct } // prettyPrint a property value into the equivalent Starlark representation // recursively. func prettyPrint(propertyValue reflect.Value, indent int) (string, error) { if isZero(propertyValue) { // A property value being set or unset actually matters -- Soong does set default // values for unset properties, like system_shared_libs = ["libc", "libm", "libdl"] at // https://cs.android.com/android/platform/superproject/+/master:build/soong/cc/linker.go;l=281-287;drc=f70926eef0b9b57faf04c17a1062ce50d209e480 // // In Bazel-parlance, we would use "attr.(default = )" to set the default value of unset attributes. In the cases // where the bp2build converter didn't set the default value within the // mutator when creating the BazelTargetModule, this would be a zero // value. For those cases, we return an empty string so we don't // unnecessarily generate empty values. return "", nil } var ret string switch propertyValue.Kind() { case reflect.String: ret = fmt.Sprintf("\"%v\"", escapeString(propertyValue.String())) case reflect.Bool: ret = strings.Title(fmt.Sprintf("%v", propertyValue.Interface())) case reflect.Int, reflect.Uint, reflect.Int64: ret = fmt.Sprintf("%v", propertyValue.Interface()) case reflect.Ptr: return prettyPrint(propertyValue.Elem(), indent) case reflect.Slice: if propertyValue.Len() == 0 { return "", nil } if propertyValue.Len() == 1 { // Single-line list for list with only 1 element ret += "[" indexedValue, err := prettyPrint(propertyValue.Index(0), indent) if err != nil { return "", err } ret += indexedValue ret += "]" } else { // otherwise, use a multiline list. ret += "[\n" for i := 0; i < propertyValue.Len(); i++ { indexedValue, err := prettyPrint(propertyValue.Index(i), indent+1) if err != nil { return "", err } if indexedValue != "" { ret += makeIndent(indent + 1) ret += indexedValue ret += ",\n" } } ret += makeIndent(indent) ret += "]" } case reflect.Struct: // Special cases where the bp2build sends additional information to the codegenerator // by wrapping the attributes in a custom struct type. if attr, ok := propertyValue.Interface().(bazel.Attribute); ok { return prettyPrintAttribute(attr, indent) } else if label, ok := propertyValue.Interface().(bazel.Label); ok { return fmt.Sprintf("%q", label.Label), nil } ret = "{\n" // Sort and print the struct props by the key. structProps := extractStructProperties(propertyValue, indent) for _, k := range android.SortedStringKeys(structProps) { ret += makeIndent(indent + 1) ret += fmt.Sprintf("%q: %s,\n", k, structProps[k]) } ret += makeIndent(indent) ret += "}" case reflect.Interface: // TODO(b/164227191): implement pretty print for interfaces. // Interfaces are used for for arch, multilib and target properties. return "", nil default: return "", fmt.Errorf( "unexpected kind for property struct field: %s", propertyValue.Kind()) } return ret, nil } // Converts a reflected property struct value into a map of property names and property values, // which each property value correctly pretty-printed and indented at the right nest level, // since property structs can be nested. In Starlark, nested structs are represented as nested // dicts: https://docs.bazel.build/skylark/lib/dict.html func extractStructProperties(structValue reflect.Value, indent int) map[string]string { if structValue.Kind() != reflect.Struct { panic(fmt.Errorf("Expected a reflect.Struct type, but got %s", structValue.Kind())) } ret := map[string]string{} structType := structValue.Type() for i := 0; i < structValue.NumField(); i++ { field := structType.Field(i) if shouldSkipStructField(field) { continue } fieldValue := structValue.Field(i) if isZero(fieldValue) { // Ignore zero-valued fields continue } propertyName := proptools.PropertyNameForField(field.Name) prettyPrintedValue, err := prettyPrint(fieldValue, indent+1) if err != nil { panic( fmt.Errorf( "Error while parsing property: %q. %s", propertyName, err)) } if prettyPrintedValue != "" { ret[propertyName] = prettyPrintedValue } } return ret } func isZero(value reflect.Value) bool { switch value.Kind() { case reflect.Func, reflect.Map, reflect.Slice: return value.IsNil() case reflect.Array: valueIsZero := true for i := 0; i < value.Len(); i++ { valueIsZero = valueIsZero && isZero(value.Index(i)) } return valueIsZero case reflect.Struct: valueIsZero := true for i := 0; i < value.NumField(); i++ { valueIsZero = valueIsZero && isZero(value.Field(i)) } return valueIsZero case reflect.Ptr: if !value.IsNil() { return isZero(reflect.Indirect(value)) } else { return true } default: zeroValue := reflect.Zero(value.Type()) result := value.Interface() == zeroValue.Interface() return result } } func escapeString(s string) string { s = strings.ReplaceAll(s, "\\", "\\\\") // b/184026959: Reverse the application of some common control sequences. // These must be generated literally in the BUILD file. s = strings.ReplaceAll(s, "\t", "\\t") s = strings.ReplaceAll(s, "\n", "\\n") s = strings.ReplaceAll(s, "\r", "\\r") return strings.ReplaceAll(s, "\"", "\\\"") } func makeIndent(indent int) string { if indent < 0 { panic(fmt.Errorf("indent column cannot be less than 0, but got %d", indent)) } return strings.Repeat(" ", indent) } func targetNameForBp2Build(c bpToBuildContext, logicModule blueprint.Module) string { return strings.Replace(c.ModuleName(logicModule), bazel.BazelTargetModuleNamePrefix, "", 1) } func targetNameWithVariant(c bpToBuildContext, logicModule blueprint.Module) string { name := "" if c.ModuleSubDir(logicModule) != "" { // TODO(b/162720883): Figure out a way to drop the "--" variant suffixes. name = c.ModuleName(logicModule) + "--" + c.ModuleSubDir(logicModule) } else { name = c.ModuleName(logicModule) } return strings.Replace(name, "//", "", 1) } func qualifiedTargetLabel(c bpToBuildContext, logicModule blueprint.Module) string { return fmt.Sprintf("//%s:%s", c.ModuleDir(logicModule), targetNameWithVariant(c, logicModule)) }