android/proto.go - platform/build/soong - Git at Google

 // 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 android

 import (
 	"path/filepath"
 	"strings"

 	"android/soong/bazel"

 	"github.com/google/blueprint"
 	"github.com/google/blueprint/proptools"
 )

 const (
 	canonicalPathFromRootDefault = true
 )

 // TODO(ccross): protos are often used to communicate between multiple modules.  If the only
 // way to convert a proto to source is to reference it as a source file, and external modules cannot
 // reference source files in other modules, then every module that owns a proto file will need to
 // export a library for every type of external user (lite vs. full, c vs. c++ vs. java).  It would
 // be better to support a proto module type that exported a proto file along with some include dirs,
 // and then external modules could depend on the proto module but use their own settings to
 // generate the source.

 type ProtoFlags struct {
 	Flags                 []string
 	CanonicalPathFromRoot bool
 	Dir                   ModuleGenPath
 	SubDir                ModuleGenPath
 	OutTypeFlag           string
 	OutParams             []string
 	Deps                  Paths
 }

 type protoDependencyTag struct {
 	blueprint.BaseDependencyTag
 	name string
 }

 var ProtoPluginDepTag = protoDependencyTag{name: "plugin"}

 func ProtoDeps(ctx BottomUpMutatorContext, p *ProtoProperties) {
 	if String(p.Proto.Plugin) != "" && String(p.Proto.Type) != "" {
 		ctx.ModuleErrorf("only one of proto.type and proto.plugin can be specified.")
 	}

 	if plugin := String(p.Proto.Plugin); plugin != "" {
 		ctx.AddFarVariationDependencies(ctx.Config().BuildOSTarget.Variations(),
 			ProtoPluginDepTag, "protoc-gen-"+plugin)
 	}
 }

 func GetProtoFlags(ctx ModuleContext, p *ProtoProperties) ProtoFlags {
 	var flags []string
 	var deps Paths

 	if len(p.Proto.Local_include_dirs) > 0 {
 		localProtoIncludeDirs := PathsForModuleSrc(ctx, p.Proto.Local_include_dirs)
 		flags = append(flags, JoinWithPrefix(localProtoIncludeDirs.Strings(), "-I"))
 	}
 	if len(p.Proto.Include_dirs) > 0 {
 		rootProtoIncludeDirs := PathsForSource(ctx, p.Proto.Include_dirs)
 		flags = append(flags, JoinWithPrefix(rootProtoIncludeDirs.Strings(), "-I"))
 	}

 	ctx.VisitDirectDepsWithTag(ProtoPluginDepTag, func(dep Module) {
 		if hostTool, ok := dep.(HostToolProvider); !ok || !hostTool.HostToolPath().Valid() {
 			ctx.PropertyErrorf("proto.plugin", "module %q is not a host tool provider",
 				ctx.OtherModuleName(dep))
 		} else {
 			plugin := String(p.Proto.Plugin)
 			deps = append(deps, hostTool.HostToolPath().Path())
 			flags = append(flags, "--plugin=protoc-gen-"+plugin+"="+hostTool.HostToolPath().String())
 		}
 	})

 	var protoOutFlag string
 	if plugin := String(p.Proto.Plugin); plugin != "" {
 		protoOutFlag = "--" + plugin + "_out"
 	}

 	return ProtoFlags{
 		Flags:                 flags,
 		Deps:                  deps,
 		OutTypeFlag:           protoOutFlag,
 		CanonicalPathFromRoot: proptools.BoolDefault(p.Proto.Canonical_path_from_root, canonicalPathFromRootDefault),
 		Dir:                   PathForModuleGen(ctx, "proto"),
 		SubDir:                PathForModuleGen(ctx, "proto", ctx.ModuleDir()),
 	}
 }

 type ProtoProperties struct {
 	Proto struct {
 		// Proto generator type.  C++: full or lite.  Java: micro, nano, stream, or lite.
 		Type *string `android:"arch_variant"`

 		// Proto plugin to use as the generator.  Must be a cc_binary_host module.
 		Plugin *string `android:"arch_variant"`

 		// list of directories that will be added to the protoc include paths.
 		Include_dirs []string

 		// list of directories relative to the bp file that will
 		// be added to the protoc include paths.
 		Local_include_dirs []string

 		// whether to identify the proto files from the root of the
 		// source tree (the original method in Android, useful for
 		// android-specific protos), or relative from where they were
 		// specified (useful for external/third party protos).
 		//
 		// This defaults to true today, but is expected to default to
 		// false in the future.
 		Canonical_path_from_root *bool
 	} `android:"arch_variant"`
 }

 func ProtoRule(rule *RuleBuilder, protoFile Path, flags ProtoFlags, deps Paths,
 	outDir WritablePath, depFile WritablePath, outputs WritablePaths) {

 	var protoBase string
 	if flags.CanonicalPathFromRoot {
 		protoBase = "."
 	} else {
 		rel := protoFile.Rel()
 		protoBase = strings.TrimSuffix(protoFile.String(), rel)
 	}

 	rule.Command().
 		BuiltTool("aprotoc").
 		FlagWithArg(flags.OutTypeFlag+"=", strings.Join(flags.OutParams, ",")+":"+outDir.String()).
 		FlagWithDepFile("--dependency_out=", depFile).
 		FlagWithArg("-I ", protoBase).
 		Flags(flags.Flags).
 		Input(protoFile).
 		Implicits(deps).
 		ImplicitOutputs(outputs)

 	rule.Command().
 		BuiltTool("dep_fixer").Flag(depFile.String())
 }

 // Bp2buildProtoInfo contains information necessary to pass on to language specific conversion.
 type Bp2buildProtoInfo struct {
 	Type                  *string
 	Proto_libs            bazel.LabelList
 	Transitive_proto_libs bazel.LabelList
 }

 type ProtoAttrs struct {
 	Srcs                bazel.LabelListAttribute
 	Import_prefix       *string
 	Strip_import_prefix *string
 	Deps                bazel.LabelListAttribute
 }

 // For each package in the include_dirs property a proto_library target should
 // be added to the BUILD file in that package and a mapping should be added here
 var includeDirsToProtoDeps = map[string]string{
 	"external/protobuf/src": "//external/protobuf:libprotobuf-proto",
 }

 // Partitions srcs by the pkg it is in
 // srcs has been created using `TransformSubpackagePaths`
 // This function uses existence of Android.bp/BUILD files to create a label that is compatible with the package structure of bp2build workspace
 func partitionSrcsByPackage(currentDir string, srcs bazel.LabelList) map[string]bazel.LabelList {
 	getPackageFromLabel := func(label string) string {
 		// Remove any preceding //
 		label = strings.TrimPrefix(label, "//")
 		split := strings.Split(label, ":")
 		if len(split) == 1 {
 			// e.g. foo.proto
 			return currentDir
 		} else if split[0] == "" {
 			// e.g. :foo.proto
 			return currentDir
 		} else {
 			return split[0]
 		}
 	}

 	pkgToSrcs := map[string]bazel.LabelList{}
 	for _, src := range srcs.Includes {
 		pkg := getPackageFromLabel(src.Label)
 		list := pkgToSrcs[pkg]
 		list.Add(&src)
 		pkgToSrcs[pkg] = list
 	}
 	return pkgToSrcs
 }

 // Bp2buildProtoProperties converts proto properties, creating a proto_library and returning the
 // information necessary for language-specific handling.
 func Bp2buildProtoProperties(ctx Bp2buildMutatorContext, m *ModuleBase, srcs bazel.LabelListAttribute) (Bp2buildProtoInfo, bool) {
 	var info Bp2buildProtoInfo
 	if srcs.IsEmpty() {
 		return info, false
 	}

 	var protoLibraries bazel.LabelList
 	var transitiveProtoLibraries bazel.LabelList
 	var directProtoSrcs bazel.LabelList

 	// For filegroups that should be converted to proto_library just collect the
 	// labels of converted proto_library targets.
 	for _, protoSrc := range srcs.Value.Includes {
 		src := protoSrc.OriginalModuleName
 		if fg, ok := ToFileGroupAsLibrary(ctx, src); ok &&
 			fg.ShouldConvertToProtoLibrary(ctx) {
 			protoLibraries.Add(&bazel.Label{
 				Label: fg.GetProtoLibraryLabel(ctx),
 			})
 		} else {
 			directProtoSrcs.Add(&protoSrc)
 		}
 	}

 	name := m.Name() + "_proto"

 	depsFromFilegroup := protoLibraries
 	var canonicalPathFromRoot bool

 	if len(directProtoSrcs.Includes) > 0 {
 		pkgToSrcs := partitionSrcsByPackage(ctx.ModuleDir(), directProtoSrcs)
 		protoIncludeDirs := []string{}
 		for _, pkg := range SortedStringKeys(pkgToSrcs) {
 			srcs := pkgToSrcs[pkg]
 			attrs := ProtoAttrs{
 				Srcs: bazel.MakeLabelListAttribute(srcs),
 			}
 			attrs.Deps.Append(bazel.MakeLabelListAttribute(depsFromFilegroup))

 			for axis, configToProps := range m.GetArchVariantProperties(ctx, &ProtoProperties{}) {
 				for _, rawProps := range configToProps {
 					var props *ProtoProperties
 					var ok bool
 					if props, ok = rawProps.(*ProtoProperties); !ok {
 						ctx.ModuleErrorf("Could not cast ProtoProperties to expected type")
 					}
 					if axis == bazel.NoConfigAxis {
 						info.Type = props.Proto.Type

 						canonicalPathFromRoot = proptools.BoolDefault(props.Proto.Canonical_path_from_root, canonicalPathFromRootDefault)
 						if !canonicalPathFromRoot {
 							// an empty string indicates to strips the package path
 							path := ""
 							attrs.Strip_import_prefix = &path
 						}

 						for _, dir := range props.Proto.Include_dirs {
 							if dep, ok := includeDirsToProtoDeps[dir]; ok {
 								attrs.Deps.Add(bazel.MakeLabelAttribute(dep))
 							} else {
 								protoIncludeDirs = append(protoIncludeDirs, dir)
 							}
 						}
 					} else if props.Proto.Type != info.Type && props.Proto.Type != nil {
 						ctx.ModuleErrorf("Cannot handle arch-variant types for protos at this time.")
 					}
 				}
 			}

 			tags := ApexAvailableTagsWithoutTestApexes(ctx.(TopDownMutatorContext), ctx.Module())

 			moduleDir := ctx.ModuleDir()
 			if !canonicalPathFromRoot {
 				// Since we are creating the proto_library in a subpackage, set the import_prefix relative to the current package
 				if rel, err := filepath.Rel(moduleDir, pkg); err != nil {
 					ctx.ModuleErrorf("Could not get relative path for %v %v", pkg, err)
 				} else if rel != "." {
 					attrs.Import_prefix = &rel
 				}
 			}

 			// TODO - b/246997908: Handle potential orphaned proto_library targets
 			// To create proto_library targets in the same package, we split the .proto files
 			// This means that if a proto_library in a subpackage imports another proto_library from the parent package
 			// (or a different subpackage), it will not find it.
 			// The CcProtoGen action itself runs fine because we construct the correct ProtoInfo,
 			// but the FileDescriptorSet of each proto_library might not be compile-able
 			if pkg != ctx.ModuleDir() {
 				tags.Append(bazel.MakeStringListAttribute([]string{"manual"}))
 			}
 			ctx.CreateBazelTargetModule(
 				bazel.BazelTargetModuleProperties{Rule_class: "proto_library"},
 				CommonAttributes{Name: name, Dir: proptools.StringPtr(pkg), Tags: tags},
 				&attrs,
 			)

 			l := ""
 			if pkg == moduleDir { // same package that the original module lives in
 				l = ":" + name
 			} else {
 				l = "//" + pkg + ":" + name
 			}
 			protoLibraries.Add(&bazel.Label{
 				Label: l,
 			})
 		}
 		protoLibrariesInIncludeDir := createProtoLibraryTargetsForIncludeDirs(ctx, protoIncludeDirs)
 		transitiveProtoLibraries.Append(protoLibrariesInIncludeDir)
 	}

 	info.Proto_libs = protoLibraries
 	info.Transitive_proto_libs = transitiveProtoLibraries

 	return info, true
 }

 var (
 	protoIncludeDirGeneratedSuffix = ".include_dir_bp2build_generated_proto"
 	protoIncludeDirsBp2buildKey    = NewOnceKey("protoIncludeDirsBp2build")
 )

 func getProtoIncludeDirsBp2build(config Config) *map[protoIncludeDirKey]bool {
 	return config.Once(protoIncludeDirsBp2buildKey, func() interface{} {
 		return &map[protoIncludeDirKey]bool{}
 	}).(*map[protoIncludeDirKey]bool)
 }

 // key for dynamically creating proto_library per proto.include_dirs
 type protoIncludeDirKey struct {
 	dir            string
 	subpackgeInDir string
 }

 // createProtoLibraryTargetsForIncludeDirs creates additional proto_library targets for .proto files in includeDirs
 // Since Bazel imposes a constratint that the proto_library must be in the same package as the .proto file, this function
 // might create the targets in a subdirectory of `includeDir`
 // Returns the labels of the proto_library targets
 func createProtoLibraryTargetsForIncludeDirs(ctx Bp2buildMutatorContext, includeDirs []string) bazel.LabelList {
 	var ret bazel.LabelList
 	for _, dir := range includeDirs {
 		if exists, _, _ := ctx.Config().fs.Exists(filepath.Join(dir, "Android.bp")); !exists {
 			ctx.ModuleErrorf("TODO: Add support for proto.include_dir: %v. This directory does not contain an Android.bp file", dir)
 		}
 		dirMap := getProtoIncludeDirsBp2build(ctx.Config())
 		// Find all proto file targets in this dir
 		protoLabelsInDir := BazelLabelForSrcPatternExcludes(ctx, dir, "**/*.proto", []string{})
 		// Partition the labels by package and subpackage(s)
 		protoLabelelsPartitionedByPkg := partitionSrcsByPackage(dir, protoLabelsInDir)
 		for _, pkg := range SortedStringKeys(protoLabelelsPartitionedByPkg) {
 			label := strings.ReplaceAll(dir, "/", ".") + protoIncludeDirGeneratedSuffix
 			ret.Add(&bazel.Label{
 				Label: "//" + pkg + ":" + label,
 			})
 			key := protoIncludeDirKey{dir: dir, subpackgeInDir: pkg}
 			if _, exists := (*dirMap)[key]; exists {
 				// A proto_library has already been created for this package relative to this include dir
 				continue
 			}
 			(*dirMap)[key] = true
 			srcs := protoLabelelsPartitionedByPkg[pkg]
 			rel, err := filepath.Rel(dir, pkg)
 			if err != nil {
 				ctx.ModuleErrorf("Could not create a proto_library in pkg %v due to %v\n", pkg, err)
 			}
 			// Create proto_library
 			attrs := ProtoAttrs{
 				Srcs:                bazel.MakeLabelListAttribute(srcs),
 				Strip_import_prefix: proptools.StringPtr(""),
 			}
 			if rel != "." {
 				attrs.Import_prefix = proptools.StringPtr(rel)
 			}
 			ctx.CreateBazelTargetModule(
 				bazel.BazelTargetModuleProperties{Rule_class: "proto_library"},
 				CommonAttributes{
 					Name: label,
 					Dir:  proptools.StringPtr(pkg),
 					// This proto_library is used to construct a ProtoInfo
 					// But it might not be buildable on its own
 					Tags: bazel.MakeStringListAttribute([]string{"manual"}),
 				},
 				&attrs,
 			)
 		}
 	}
 	return ret
 }
	// 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 android

	import (
	"path/filepath"
	"strings"

	"android/soong/bazel"

	"github.com/google/blueprint"
	"github.com/google/blueprint/proptools"
	)

	const (
	canonicalPathFromRootDefault = true
	)

	// TODO(ccross): protos are often used to communicate between multiple modules. If the only
	// way to convert a proto to source is to reference it as a source file, and external modules cannot
	// reference source files in other modules, then every module that owns a proto file will need to
	// export a library for every type of external user (lite vs. full, c vs. c++ vs. java). It would
	// be better to support a proto module type that exported a proto file along with some include dirs,
	// and then external modules could depend on the proto module but use their own settings to
	// generate the source.

	type ProtoFlags struct {
	Flags []string
	CanonicalPathFromRoot bool
	Dir ModuleGenPath
	SubDir ModuleGenPath
	OutTypeFlag string
	OutParams []string
	Deps Paths
	}

	type protoDependencyTag struct {
	blueprint.BaseDependencyTag
	name string
	}

	var ProtoPluginDepTag = protoDependencyTag{name: "plugin"}

	func ProtoDeps(ctx BottomUpMutatorContext, p *ProtoProperties) {
	if String(p.Proto.Plugin) != "" && String(p.Proto.Type) != "" {
	ctx.ModuleErrorf("only one of proto.type and proto.plugin can be specified.")
	}

	if plugin := String(p.Proto.Plugin); plugin != "" {
	ctx.AddFarVariationDependencies(ctx.Config().BuildOSTarget.Variations(),
	ProtoPluginDepTag, "protoc-gen-"+plugin)
	}
	}

	func GetProtoFlags(ctx ModuleContext, p *ProtoProperties) ProtoFlags {
	var flags []string
	var deps Paths

	if len(p.Proto.Local_include_dirs) > 0 {
	localProtoIncludeDirs := PathsForModuleSrc(ctx, p.Proto.Local_include_dirs)
	flags = append(flags, JoinWithPrefix(localProtoIncludeDirs.Strings(), "-I"))
	}
	if len(p.Proto.Include_dirs) > 0 {
	rootProtoIncludeDirs := PathsForSource(ctx, p.Proto.Include_dirs)
	flags = append(flags, JoinWithPrefix(rootProtoIncludeDirs.Strings(), "-I"))
	}

	ctx.VisitDirectDepsWithTag(ProtoPluginDepTag, func(dep Module) {
	if hostTool, ok := dep.(HostToolProvider); !ok \|\| !hostTool.HostToolPath().Valid() {
	ctx.PropertyErrorf("proto.plugin", "module %q is not a host tool provider",
	ctx.OtherModuleName(dep))
	} else {
	plugin := String(p.Proto.Plugin)
	deps = append(deps, hostTool.HostToolPath().Path())
	flags = append(flags, "--plugin=protoc-gen-"+plugin+"="+hostTool.HostToolPath().String())
	}
	})

	var protoOutFlag string
	if plugin := String(p.Proto.Plugin); plugin != "" {
	protoOutFlag = "--" + plugin + "_out"
	}

	return ProtoFlags{
	Flags: flags,
	Deps: deps,
	OutTypeFlag: protoOutFlag,
	CanonicalPathFromRoot: proptools.BoolDefault(p.Proto.Canonical_path_from_root, canonicalPathFromRootDefault),
	Dir: PathForModuleGen(ctx, "proto"),
	SubDir: PathForModuleGen(ctx, "proto", ctx.ModuleDir()),
	}
	}

	type ProtoProperties struct {
	Proto struct {
	// Proto generator type. C++: full or lite. Java: micro, nano, stream, or lite.
	Type *string `android:"arch_variant"`

	// Proto plugin to use as the generator. Must be a cc_binary_host module.
	Plugin *string `android:"arch_variant"`

	// list of directories that will be added to the protoc include paths.
	Include_dirs []string

	// list of directories relative to the bp file that will
	// be added to the protoc include paths.
	Local_include_dirs []string

	// whether to identify the proto files from the root of the
	// source tree (the original method in Android, useful for
	// android-specific protos), or relative from where they were
	// specified (useful for external/third party protos).
	//
	// This defaults to true today, but is expected to default to
	// false in the future.
	Canonical_path_from_root *bool
	} `android:"arch_variant"`
	}

	func ProtoRule(rule *RuleBuilder, protoFile Path, flags ProtoFlags, deps Paths,
	outDir WritablePath, depFile WritablePath, outputs WritablePaths) {

	var protoBase string
	if flags.CanonicalPathFromRoot {
	protoBase = "."
	} else {
	rel := protoFile.Rel()
	protoBase = strings.TrimSuffix(protoFile.String(), rel)
	}

	rule.Command().
	BuiltTool("aprotoc").
	FlagWithArg(flags.OutTypeFlag+"=", strings.Join(flags.OutParams, ",")+":"+outDir.String()).
	FlagWithDepFile("--dependency_out=", depFile).
	FlagWithArg("-I ", protoBase).
	Flags(flags.Flags).
	Input(protoFile).
	Implicits(deps).
	ImplicitOutputs(outputs)

	rule.Command().
	BuiltTool("dep_fixer").Flag(depFile.String())
	}

	// Bp2buildProtoInfo contains information necessary to pass on to language specific conversion.
	type Bp2buildProtoInfo struct {
	Type *string
	Proto_libs bazel.LabelList
	Transitive_proto_libs bazel.LabelList
	}

	type ProtoAttrs struct {
	Srcs bazel.LabelListAttribute
	Import_prefix *string
	Strip_import_prefix *string
	Deps bazel.LabelListAttribute
	}

	// For each package in the include_dirs property a proto_library target should
	// be added to the BUILD file in that package and a mapping should be added here
	var includeDirsToProtoDeps = map[string]string{
	"external/protobuf/src": "//external/protobuf:libprotobuf-proto",
	}

	// Partitions srcs by the pkg it is in
	// srcs has been created using `TransformSubpackagePaths`
	// This function uses existence of Android.bp/BUILD files to create a label that is compatible with the package structure of bp2build workspace
	func partitionSrcsByPackage(currentDir string, srcs bazel.LabelList) map[string]bazel.LabelList {
	getPackageFromLabel := func(label string) string {
	// Remove any preceding //
	label = strings.TrimPrefix(label, "//")
	split := strings.Split(label, ":")
	if len(split) == 1 {
	// e.g. foo.proto
	return currentDir
	} else if split[0] == "" {
	// e.g. :foo.proto
	return currentDir
	} else {
	return split[0]
	}
	}

	pkgToSrcs := map[string]bazel.LabelList{}
	for _, src := range srcs.Includes {
	pkg := getPackageFromLabel(src.Label)
	list := pkgToSrcs[pkg]
	list.Add(&src)
	pkgToSrcs[pkg] = list
	}
	return pkgToSrcs
	}

	// Bp2buildProtoProperties converts proto properties, creating a proto_library and returning the
	// information necessary for language-specific handling.
	func Bp2buildProtoProperties(ctx Bp2buildMutatorContext, m *ModuleBase, srcs bazel.LabelListAttribute) (Bp2buildProtoInfo, bool) {
	var info Bp2buildProtoInfo
	if srcs.IsEmpty() {
	return info, false
	}

	var protoLibraries bazel.LabelList
	var transitiveProtoLibraries bazel.LabelList
	var directProtoSrcs bazel.LabelList

	// For filegroups that should be converted to proto_library just collect the
	// labels of converted proto_library targets.
	for _, protoSrc := range srcs.Value.Includes {
	src := protoSrc.OriginalModuleName
	if fg, ok := ToFileGroupAsLibrary(ctx, src); ok &&
	fg.ShouldConvertToProtoLibrary(ctx) {
	protoLibraries.Add(&bazel.Label{
	Label: fg.GetProtoLibraryLabel(ctx),
	})
	} else {
	directProtoSrcs.Add(&protoSrc)
	}
	}

	name := m.Name() + "_proto"

	depsFromFilegroup := protoLibraries
	var canonicalPathFromRoot bool

	if len(directProtoSrcs.Includes) > 0 {
	pkgToSrcs := partitionSrcsByPackage(ctx.ModuleDir(), directProtoSrcs)
	protoIncludeDirs := []string{}
	for _, pkg := range SortedStringKeys(pkgToSrcs) {
	srcs := pkgToSrcs[pkg]
	attrs := ProtoAttrs{
	Srcs: bazel.MakeLabelListAttribute(srcs),
	}
	attrs.Deps.Append(bazel.MakeLabelListAttribute(depsFromFilegroup))

	for axis, configToProps := range m.GetArchVariantProperties(ctx, &ProtoProperties{}) {
	for _, rawProps := range configToProps {
	var props *ProtoProperties
	var ok bool
	if props, ok = rawProps.(*ProtoProperties); !ok {
	ctx.ModuleErrorf("Could not cast ProtoProperties to expected type")
	}
	if axis == bazel.NoConfigAxis {
	info.Type = props.Proto.Type

	canonicalPathFromRoot = proptools.BoolDefault(props.Proto.Canonical_path_from_root, canonicalPathFromRootDefault)
	if !canonicalPathFromRoot {
	// an empty string indicates to strips the package path
	path := ""
	attrs.Strip_import_prefix = &path
	}

	for _, dir := range props.Proto.Include_dirs {
	if dep, ok := includeDirsToProtoDeps[dir]; ok {
	attrs.Deps.Add(bazel.MakeLabelAttribute(dep))
	} else {
	protoIncludeDirs = append(protoIncludeDirs, dir)
	}
	}
	} else if props.Proto.Type != info.Type && props.Proto.Type != nil {
	ctx.ModuleErrorf("Cannot handle arch-variant types for protos at this time.")
	}
	}
	}

	tags := ApexAvailableTagsWithoutTestApexes(ctx.(TopDownMutatorContext), ctx.Module())

	moduleDir := ctx.ModuleDir()
	if !canonicalPathFromRoot {
	// Since we are creating the proto_library in a subpackage, set the import_prefix relative to the current package
	if rel, err := filepath.Rel(moduleDir, pkg); err != nil {
	ctx.ModuleErrorf("Could not get relative path for %v %v", pkg, err)
	} else if rel != "." {
	attrs.Import_prefix = &rel
	}
	}

	// TODO - b/246997908: Handle potential orphaned proto_library targets
	// To create proto_library targets in the same package, we split the .proto files
	// This means that if a proto_library in a subpackage imports another proto_library from the parent package
	// (or a different subpackage), it will not find it.
	// The CcProtoGen action itself runs fine because we construct the correct ProtoInfo,
	// but the FileDescriptorSet of each proto_library might not be compile-able
	if pkg != ctx.ModuleDir() {
	tags.Append(bazel.MakeStringListAttribute([]string{"manual"}))
	}
	ctx.CreateBazelTargetModule(
	bazel.BazelTargetModuleProperties{Rule_class: "proto_library"},
	CommonAttributes{Name: name, Dir: proptools.StringPtr(pkg), Tags: tags},
	&attrs,
	)

	l := ""
	if pkg == moduleDir { // same package that the original module lives in
	l = ":" + name
	} else {
	l = "//" + pkg + ":" + name
	}
	protoLibraries.Add(&bazel.Label{
	Label: l,
	})
	}
	protoLibrariesInIncludeDir := createProtoLibraryTargetsForIncludeDirs(ctx, protoIncludeDirs)
	transitiveProtoLibraries.Append(protoLibrariesInIncludeDir)
	}

	info.Proto_libs = protoLibraries
	info.Transitive_proto_libs = transitiveProtoLibraries

	return info, true
	}

	var (
	protoIncludeDirGeneratedSuffix = ".include_dir_bp2build_generated_proto"
	protoIncludeDirsBp2buildKey = NewOnceKey("protoIncludeDirsBp2build")
	)

	func getProtoIncludeDirsBp2build(config Config) *map[protoIncludeDirKey]bool {
	return config.Once(protoIncludeDirsBp2buildKey, func() interface{} {
	return &map[protoIncludeDirKey]bool{}
	}).(*map[protoIncludeDirKey]bool)
	}

	// key for dynamically creating proto_library per proto.include_dirs
	type protoIncludeDirKey struct {
	dir string
	subpackgeInDir string
	}

	// createProtoLibraryTargetsForIncludeDirs creates additional proto_library targets for .proto files in includeDirs
	// Since Bazel imposes a constratint that the proto_library must be in the same package as the .proto file, this function
	// might create the targets in a subdirectory of `includeDir`
	// Returns the labels of the proto_library targets
	func createProtoLibraryTargetsForIncludeDirs(ctx Bp2buildMutatorContext, includeDirs []string) bazel.LabelList {
	var ret bazel.LabelList
	for _, dir := range includeDirs {
	if exists, _, _ := ctx.Config().fs.Exists(filepath.Join(dir, "Android.bp")); !exists {
	ctx.ModuleErrorf("TODO: Add support for proto.include_dir: %v. This directory does not contain an Android.bp file", dir)
	}
	dirMap := getProtoIncludeDirsBp2build(ctx.Config())
	// Find all proto file targets in this dir
	protoLabelsInDir := BazelLabelForSrcPatternExcludes(ctx, dir, "*/.proto", []string{})
	// Partition the labels by package and subpackage(s)
	protoLabelelsPartitionedByPkg := partitionSrcsByPackage(dir, protoLabelsInDir)
	for _, pkg := range SortedStringKeys(protoLabelelsPartitionedByPkg) {
	label := strings.ReplaceAll(dir, "/", ".") + protoIncludeDirGeneratedSuffix
	ret.Add(&bazel.Label{
	Label: "//" + pkg + ":" + label,
	})
	key := protoIncludeDirKey{dir: dir, subpackgeInDir: pkg}
	if _, exists := (*dirMap)[key]; exists {
	// A proto_library has already been created for this package relative to this include dir
	continue
	}
	(*dirMap)[key] = true
	srcs := protoLabelelsPartitionedByPkg[pkg]
	rel, err := filepath.Rel(dir, pkg)
	if err != nil {
	ctx.ModuleErrorf("Could not create a proto_library in pkg %v due to %v\n", pkg, err)
	}
	// Create proto_library
	attrs := ProtoAttrs{
	Srcs: bazel.MakeLabelListAttribute(srcs),
	Strip_import_prefix: proptools.StringPtr(""),
	}
	if rel != "." {
	attrs.Import_prefix = proptools.StringPtr(rel)
	}
	ctx.CreateBazelTargetModule(
	bazel.BazelTargetModuleProperties{Rule_class: "proto_library"},
	CommonAttributes{
	Name: label,
	Dir: proptools.StringPtr(pkg),
	// This proto_library is used to construct a ProtoInfo
	// But it might not be buildable on its own
	Tags: bazel.MakeStringListAttribute([]string{"manual"}),
	},
	&attrs,
	)
	}
	}
	return ret
	}