vendor/github.com/jhump/protoreflect/desc/convert.go - voltha-openolt-adapter - Gitiles

 package desc

 import (
 	"errors"
 	"fmt"
 	"strings"

 	dpb "github.com/golang/protobuf/protoc-gen-go/descriptor"

 	"github.com/jhump/protoreflect/desc/internal"
 	intn "github.com/jhump/protoreflect/internal"
 )

 // CreateFileDescriptor instantiates a new file descriptor for the given descriptor proto.
 // The file's direct dependencies must be provided. If the given dependencies do not include
 // all of the file's dependencies or if the contents of the descriptors are internally
 // inconsistent (e.g. contain unresolvable symbols) then an error is returned.
 func CreateFileDescriptor(fd *dpb.FileDescriptorProto, deps ...*FileDescriptor) (*FileDescriptor, error) {
 	return createFileDescriptor(fd, deps, nil)
 }

 func createFileDescriptor(fd *dpb.FileDescriptorProto, deps []*FileDescriptor, r *ImportResolver) (*FileDescriptor, error) {
 	ret := &FileDescriptor{
 		proto:      fd,
 		symbols:    map[string]Descriptor{},
 		fieldIndex: map[string]map[int32]*FieldDescriptor{},
 	}
 	pkg := fd.GetPackage()

 	// populate references to file descriptor dependencies
 	files := map[string]*FileDescriptor{}
 	for _, f := range deps {
 		files[f.proto.GetName()] = f
 	}
 	ret.deps = make([]*FileDescriptor, len(fd.GetDependency()))
 	for i, d := range fd.GetDependency() {
 		resolved := r.ResolveImport(fd.GetName(), d)
 		ret.deps[i] = files[resolved]
 		if ret.deps[i] == nil {
 			if resolved != d {
 				ret.deps[i] = files[d]
 			}
 			if ret.deps[i] == nil {
 				return nil, intn.ErrNoSuchFile(d)
 			}
 		}
 	}
 	ret.publicDeps = make([]*FileDescriptor, len(fd.GetPublicDependency()))
 	for i, pd := range fd.GetPublicDependency() {
 		ret.publicDeps[i] = ret.deps[pd]
 	}
 	ret.weakDeps = make([]*FileDescriptor, len(fd.GetWeakDependency()))
 	for i, wd := range fd.GetWeakDependency() {
 		ret.weakDeps[i] = ret.deps[wd]
 	}
 	ret.isProto3 = fd.GetSyntax() == "proto3"

 	// populate all tables of child descriptors
 	for _, m := range fd.GetMessageType() {
 		md, n := createMessageDescriptor(ret, ret, pkg, m, ret.symbols)
 		ret.symbols[n] = md
 		ret.messages = append(ret.messages, md)
 	}
 	for _, e := range fd.GetEnumType() {
 		ed, n := createEnumDescriptor(ret, ret, pkg, e, ret.symbols)
 		ret.symbols[n] = ed
 		ret.enums = append(ret.enums, ed)
 	}
 	for _, ex := range fd.GetExtension() {
 		exd, n := createFieldDescriptor(ret, ret, pkg, ex)
 		ret.symbols[n] = exd
 		ret.extensions = append(ret.extensions, exd)
 	}
 	for _, s := range fd.GetService() {
 		sd, n := createServiceDescriptor(ret, pkg, s, ret.symbols)
 		ret.symbols[n] = sd
 		ret.services = append(ret.services, sd)
 	}

 	ret.sourceInfo = internal.CreateSourceInfoMap(fd)
 	ret.sourceInfoRecomputeFunc = ret.recomputeSourceInfo

 	// now we can resolve all type references and source code info
 	scopes := []scope{fileScope(ret)}
 	path := make([]int32, 1, 8)
 	path[0] = internal.File_messagesTag
 	for i, md := range ret.messages {
 		if err := md.resolve(append(path, int32(i)), scopes); err != nil {
 			return nil, err
 		}
 	}
 	path[0] = internal.File_enumsTag
 	for i, ed := range ret.enums {
 		ed.resolve(append(path, int32(i)))
 	}
 	path[0] = internal.File_extensionsTag
 	for i, exd := range ret.extensions {
 		if err := exd.resolve(append(path, int32(i)), scopes); err != nil {
 			return nil, err
 		}
 	}
 	path[0] = internal.File_servicesTag
 	for i, sd := range ret.services {
 		if err := sd.resolve(append(path, int32(i)), scopes); err != nil {
 			return nil, err
 		}
 	}

 	return ret, nil
 }

 // CreateFileDescriptors constructs a set of descriptors, one for each of the
 // given descriptor protos. The given set of descriptor protos must include all
 // transitive dependencies for every file.
 func CreateFileDescriptors(fds []*dpb.FileDescriptorProto) (map[string]*FileDescriptor, error) {
 	return createFileDescriptors(fds, nil)
 }

 func createFileDescriptors(fds []*dpb.FileDescriptorProto, r *ImportResolver) (map[string]*FileDescriptor, error) {
 	if len(fds) == 0 {
 		return nil, nil
 	}
 	files := map[string]*dpb.FileDescriptorProto{}
 	resolved := map[string]*FileDescriptor{}
 	var name string
 	for _, fd := range fds {
 		name = fd.GetName()
 		files[name] = fd
 	}
 	for _, fd := range fds {
 		_, err := createFromSet(fd.GetName(), r, nil, files, resolved)
 		if err != nil {
 			return nil, err
 		}
 	}
 	return resolved, nil
 }

 // ToFileDescriptorSet creates a FileDescriptorSet proto that contains all of the given
 // file descriptors and their transitive dependencies. The files are topologically sorted
 // so that a file will always appear after its dependencies.
 func ToFileDescriptorSet(fds ...*FileDescriptor) *dpb.FileDescriptorSet {
 	var fdps []*dpb.FileDescriptorProto
 	addAllFiles(fds, &fdps, map[string]struct{}{})
 	return &dpb.FileDescriptorSet{File: fdps}
 }

 func addAllFiles(src []*FileDescriptor, results *[]*dpb.FileDescriptorProto, seen map[string]struct{}) {
 	for _, fd := range src {
 		if _, ok := seen[fd.GetName()]; ok {
 			continue
 		}
 		seen[fd.GetName()] = struct{}{}
 		addAllFiles(fd.GetDependencies(), results, seen)
 		*results = append(*results, fd.AsFileDescriptorProto())
 	}
 }

 // CreateFileDescriptorFromSet creates a descriptor from the given file descriptor set. The
 // set's *last* file will be the returned descriptor. The set's remaining files must comprise
 // the full set of transitive dependencies of that last file. This is the same format and
 // order used by protoc when emitting a FileDescriptorSet file with an invocation like so:
 //    protoc --descriptor_set_out=./test.protoset --include_imports -I. test.proto
 func CreateFileDescriptorFromSet(fds *dpb.FileDescriptorSet) (*FileDescriptor, error) {
 	return createFileDescriptorFromSet(fds, nil)
 }

 func createFileDescriptorFromSet(fds *dpb.FileDescriptorSet, r *ImportResolver) (*FileDescriptor, error) {
 	result, err := createFileDescriptorsFromSet(fds, r)
 	if err != nil {
 		return nil, err
 	}
 	files := fds.GetFile()
 	lastFilename := files[len(files)-1].GetName()
 	return result[lastFilename], nil
 }

 // CreateFileDescriptorsFromSet creates file descriptors from the given file descriptor set.
 // The returned map includes all files in the set, keyed b name. The set must include the
 // full set of transitive dependencies for all files therein or else a link error will occur
 // and be returned instead of the slice of descriptors. This is the same format used by
 // protoc when a FileDescriptorSet file with an invocation like so:
 //    protoc --descriptor_set_out=./test.protoset --include_imports -I. test.proto
 func CreateFileDescriptorsFromSet(fds *dpb.FileDescriptorSet) (map[string]*FileDescriptor, error) {
 	return createFileDescriptorsFromSet(fds, nil)
 }

 func createFileDescriptorsFromSet(fds *dpb.FileDescriptorSet, r *ImportResolver) (map[string]*FileDescriptor, error) {
 	files := fds.GetFile()
 	if len(files) == 0 {
 		return nil, errors.New("file descriptor set is empty")
 	}
 	return createFileDescriptors(files, r)
 }

 // createFromSet creates a descriptor for the given filename. It recursively
 // creates descriptors for the given file's dependencies.
 func createFromSet(filename string, r *ImportResolver, seen []string, files map[string]*dpb.FileDescriptorProto, resolved map[string]*FileDescriptor) (*FileDescriptor, error) {
 	for _, s := range seen {
 		if filename == s {
 			return nil, fmt.Errorf("cycle in imports: %s", strings.Join(append(seen, filename), " -> "))
 		}
 	}
 	seen = append(seen, filename)

 	if d, ok := resolved[filename]; ok {
 		return d, nil
 	}
 	fdp := files[filename]
 	if fdp == nil {
 		return nil, intn.ErrNoSuchFile(filename)
 	}
 	deps := make([]*FileDescriptor, len(fdp.GetDependency()))
 	for i, depName := range fdp.GetDependency() {
 		resolvedDep := r.ResolveImport(filename, depName)
 		dep, err := createFromSet(resolvedDep, r, seen, files, resolved)
 		if _, ok := err.(intn.ErrNoSuchFile); ok && resolvedDep != depName {
 			dep, err = createFromSet(depName, r, seen, files, resolved)
 		}
 		if err != nil {
 			return nil, err
 		}
 		deps[i] = dep
 	}
 	d, err := createFileDescriptor(fdp, deps, r)
 	if err != nil {
 		return nil, err
 	}
 	resolved[filename] = d
 	return d, nil
 }
	package desc

	import (
	"errors"
	"fmt"
	"strings"

	dpb "github.com/golang/protobuf/protoc-gen-go/descriptor"

	"github.com/jhump/protoreflect/desc/internal"
	intn "github.com/jhump/protoreflect/internal"
	)

	// CreateFileDescriptor instantiates a new file descriptor for the given descriptor proto.
	// The file's direct dependencies must be provided. If the given dependencies do not include
	// all of the file's dependencies or if the contents of the descriptors are internally
	// inconsistent (e.g. contain unresolvable symbols) then an error is returned.
	func CreateFileDescriptor(fd dpb.FileDescriptorProto, deps ...FileDescriptor) (*FileDescriptor, error) {
	return createFileDescriptor(fd, deps, nil)
	}

	func createFileDescriptor(fd dpb.FileDescriptorProto, deps []FileDescriptor, r ImportResolver) (FileDescriptor, error) {
	ret := &FileDescriptor{
	proto: fd,
	symbols: map[string]Descriptor{},
	fieldIndex: map[string]map[int32]*FieldDescriptor{},
	}
	pkg := fd.GetPackage()

	// populate references to file descriptor dependencies
	files := map[string]*FileDescriptor{}
	for _, f := range deps {
	files[f.proto.GetName()] = f
	}
	ret.deps = make([]*FileDescriptor, len(fd.GetDependency()))
	for i, d := range fd.GetDependency() {
	resolved := r.ResolveImport(fd.GetName(), d)
	ret.deps[i] = files[resolved]
	if ret.deps[i] == nil {
	if resolved != d {
	ret.deps[i] = files[d]
	}
	if ret.deps[i] == nil {
	return nil, intn.ErrNoSuchFile(d)
	}
	}
	}
	ret.publicDeps = make([]*FileDescriptor, len(fd.GetPublicDependency()))
	for i, pd := range fd.GetPublicDependency() {
	ret.publicDeps[i] = ret.deps[pd]
	}
	ret.weakDeps = make([]*FileDescriptor, len(fd.GetWeakDependency()))
	for i, wd := range fd.GetWeakDependency() {
	ret.weakDeps[i] = ret.deps[wd]
	}
	ret.isProto3 = fd.GetSyntax() == "proto3"

	// populate all tables of child descriptors
	for _, m := range fd.GetMessageType() {
	md, n := createMessageDescriptor(ret, ret, pkg, m, ret.symbols)
	ret.symbols[n] = md
	ret.messages = append(ret.messages, md)
	}
	for _, e := range fd.GetEnumType() {
	ed, n := createEnumDescriptor(ret, ret, pkg, e, ret.symbols)
	ret.symbols[n] = ed
	ret.enums = append(ret.enums, ed)
	}
	for _, ex := range fd.GetExtension() {
	exd, n := createFieldDescriptor(ret, ret, pkg, ex)
	ret.symbols[n] = exd
	ret.extensions = append(ret.extensions, exd)
	}
	for _, s := range fd.GetService() {
	sd, n := createServiceDescriptor(ret, pkg, s, ret.symbols)
	ret.symbols[n] = sd
	ret.services = append(ret.services, sd)
	}

	ret.sourceInfo = internal.CreateSourceInfoMap(fd)
	ret.sourceInfoRecomputeFunc = ret.recomputeSourceInfo

	// now we can resolve all type references and source code info
	scopes := []scope{fileScope(ret)}
	path := make([]int32, 1, 8)
	path[0] = internal.File_messagesTag
	for i, md := range ret.messages {
	if err := md.resolve(append(path, int32(i)), scopes); err != nil {
	return nil, err
	}
	}
	path[0] = internal.File_enumsTag
	for i, ed := range ret.enums {
	ed.resolve(append(path, int32(i)))
	}
	path[0] = internal.File_extensionsTag
	for i, exd := range ret.extensions {
	if err := exd.resolve(append(path, int32(i)), scopes); err != nil {
	return nil, err
	}
	}
	path[0] = internal.File_servicesTag
	for i, sd := range ret.services {
	if err := sd.resolve(append(path, int32(i)), scopes); err != nil {
	return nil, err
	}
	}

	return ret, nil
	}

	// CreateFileDescriptors constructs a set of descriptors, one for each of the
	// given descriptor protos. The given set of descriptor protos must include all
	// transitive dependencies for every file.
	func CreateFileDescriptors(fds []dpb.FileDescriptorProto) (map[string]FileDescriptor, error) {
	return createFileDescriptors(fds, nil)
	}

	func createFileDescriptors(fds []dpb.FileDescriptorProto, r ImportResolver) (map[string]*FileDescriptor, error) {
	if len(fds) == 0 {
	return nil, nil
	}
	files := map[string]*dpb.FileDescriptorProto{}
	resolved := map[string]*FileDescriptor{}
	var name string
	for _, fd := range fds {
	name = fd.GetName()
	files[name] = fd
	}
	for _, fd := range fds {
	_, err := createFromSet(fd.GetName(), r, nil, files, resolved)
	if err != nil {
	return nil, err
	}
	}
	return resolved, nil
	}

	// ToFileDescriptorSet creates a FileDescriptorSet proto that contains all of the given
	// file descriptors and their transitive dependencies. The files are topologically sorted
	// so that a file will always appear after its dependencies.
	func ToFileDescriptorSet(fds ...FileDescriptor) dpb.FileDescriptorSet {
	var fdps []*dpb.FileDescriptorProto
	addAllFiles(fds, &fdps, map[string]struct{}{})
	return &dpb.FileDescriptorSet{File: fdps}
	}

	func addAllFiles(src []FileDescriptor, results []*dpb.FileDescriptorProto, seen map[string]struct{}) {
	for _, fd := range src {
	if _, ok := seen[fd.GetName()]; ok {
	continue
	}
	seen[fd.GetName()] = struct{}{}
	addAllFiles(fd.GetDependencies(), results, seen)
	results = append(results, fd.AsFileDescriptorProto())
	}
	}

	// CreateFileDescriptorFromSet creates a descriptor from the given file descriptor set. The
	// set's last file will be the returned descriptor. The set's remaining files must comprise
	// the full set of transitive dependencies of that last file. This is the same format and
	// order used by protoc when emitting a FileDescriptorSet file with an invocation like so:
	// protoc --descriptor_set_out=./test.protoset --include_imports -I. test.proto
	func CreateFileDescriptorFromSet(fds dpb.FileDescriptorSet) (FileDescriptor, error) {
	return createFileDescriptorFromSet(fds, nil)
	}

	func createFileDescriptorFromSet(fds dpb.FileDescriptorSet, r ImportResolver) (*FileDescriptor, error) {
	result, err := createFileDescriptorsFromSet(fds, r)
	if err != nil {
	return nil, err
	}
	files := fds.GetFile()
	lastFilename := files[len(files)-1].GetName()
	return result[lastFilename], nil
	}

	// CreateFileDescriptorsFromSet creates file descriptors from the given file descriptor set.
	// The returned map includes all files in the set, keyed b name. The set must include the
	// full set of transitive dependencies for all files therein or else a link error will occur
	// and be returned instead of the slice of descriptors. This is the same format used by
	// protoc when a FileDescriptorSet file with an invocation like so:
	// protoc --descriptor_set_out=./test.protoset --include_imports -I. test.proto
	func CreateFileDescriptorsFromSet(fds dpb.FileDescriptorSet) (map[string]FileDescriptor, error) {
	return createFileDescriptorsFromSet(fds, nil)
	}

	func createFileDescriptorsFromSet(fds dpb.FileDescriptorSet, r ImportResolver) (map[string]*FileDescriptor, error) {
	files := fds.GetFile()
	if len(files) == 0 {
	return nil, errors.New("file descriptor set is empty")
	}
	return createFileDescriptors(files, r)
	}

	// createFromSet creates a descriptor for the given filename. It recursively
	// creates descriptors for the given file's dependencies.
	func createFromSet(filename string, r ImportResolver, seen []string, files map[string]dpb.FileDescriptorProto, resolved map[string]FileDescriptor) (FileDescriptor, error) {
	for _, s := range seen {
	if filename == s {
	return nil, fmt.Errorf("cycle in imports: %s", strings.Join(append(seen, filename), " -> "))
	}
	}
	seen = append(seen, filename)

	if d, ok := resolved[filename]; ok {
	return d, nil
	}
	fdp := files[filename]
	if fdp == nil {
	return nil, intn.ErrNoSuchFile(filename)
	}
	deps := make([]*FileDescriptor, len(fdp.GetDependency()))
	for i, depName := range fdp.GetDependency() {
	resolvedDep := r.ResolveImport(filename, depName)
	dep, err := createFromSet(resolvedDep, r, seen, files, resolved)
	if _, ok := err.(intn.ErrNoSuchFile); ok && resolvedDep != depName {
	dep, err = createFromSet(depName, r, seen, files, resolved)
	}
	if err != nil {
	return nil, err
	}
	deps[i] = dep
	}
	d, err := createFileDescriptor(fdp, deps, r)
	if err != nil {
	return nil, err
	}
	resolved[filename] = d
	return d, nil
	}