vendor/github.com/golang/protobuf/proto/registry.go - voltha-go - Gitiles

 // Copyright 2019 The Go Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style
 // license that can be found in the LICENSE file.

 package proto

 import (
 	"bytes"
 	"compress/gzip"
 	"fmt"
 	"io/ioutil"
 	"reflect"
 	"strings"
 	"sync"

 	"google.golang.org/protobuf/reflect/protodesc"
 	"google.golang.org/protobuf/reflect/protoreflect"
 	"google.golang.org/protobuf/reflect/protoregistry"
 	"google.golang.org/protobuf/runtime/protoimpl"
 )

 // filePath is the path to the proto source file.
 type filePath = string // e.g., "google/protobuf/descriptor.proto"

 // fileDescGZIP is the compressed contents of the encoded FileDescriptorProto.
 type fileDescGZIP = []byte

 var fileCache sync.Map // map[filePath]fileDescGZIP

 // RegisterFile is called from generated code to register the compressed
 // FileDescriptorProto with the file path for a proto source file.
 //
 // Deprecated: Use protoregistry.GlobalFiles.RegisterFile instead.
 func RegisterFile(s filePath, d fileDescGZIP) {
 	// Decompress the descriptor.
 	zr, err := gzip.NewReader(bytes.NewReader(d))
 	if err != nil {
 		panic(fmt.Sprintf("proto: invalid compressed file descriptor: %v", err))
 	}
 	b, err := ioutil.ReadAll(zr)
 	if err != nil {
 		panic(fmt.Sprintf("proto: invalid compressed file descriptor: %v", err))
 	}

 	// Construct a protoreflect.FileDescriptor from the raw descriptor.
 	// Note that DescBuilder.Build automatically registers the constructed
 	// file descriptor with the v2 registry.
 	protoimpl.DescBuilder{RawDescriptor: b}.Build()

 	// Locally cache the raw descriptor form for the file.
 	fileCache.Store(s, d)
 }

 // FileDescriptor returns the compressed FileDescriptorProto given the file path
 // for a proto source file. It returns nil if not found.
 //
 // Deprecated: Use protoregistry.GlobalFiles.FindFileByPath instead.
 func FileDescriptor(s filePath) fileDescGZIP {
 	if v, ok := fileCache.Load(s); ok {
 		return v.(fileDescGZIP)
 	}

 	// Find the descriptor in the v2 registry.
 	var b []byte
 	if fd, _ := protoregistry.GlobalFiles.FindFileByPath(s); fd != nil {
 		b, _ = Marshal(protodesc.ToFileDescriptorProto(fd))
 	}

 	// Locally cache the raw descriptor form for the file.
 	if len(b) > 0 {
 		v, _ := fileCache.LoadOrStore(s, protoimpl.X.CompressGZIP(b))
 		return v.(fileDescGZIP)
 	}
 	return nil
 }

 // enumName is the name of an enum. For historical reasons, the enum name is
 // neither the full Go name nor the full protobuf name of the enum.
 // The name is the dot-separated combination of just the proto package that the
 // enum is declared within followed by the Go type name of the generated enum.
 type enumName = string // e.g., "my.proto.package.GoMessage_GoEnum"

 // enumsByName maps enum values by name to their numeric counterpart.
 type enumsByName = map[string]int32

 // enumsByNumber maps enum values by number to their name counterpart.
 type enumsByNumber = map[int32]string

 var enumCache sync.Map     // map[enumName]enumsByName
 var numFilesCache sync.Map // map[protoreflect.FullName]int

 // RegisterEnum is called from the generated code to register the mapping of
 // enum value names to enum numbers for the enum identified by s.
 //
 // Deprecated: Use protoregistry.GlobalTypes.RegisterEnum instead.
 func RegisterEnum(s enumName, _ enumsByNumber, m enumsByName) {
 	if _, ok := enumCache.Load(s); ok {
 		panic("proto: duplicate enum registered: " + s)
 	}
 	enumCache.Store(s, m)

 	// This does not forward registration to the v2 registry since this API
 	// lacks sufficient information to construct a complete v2 enum descriptor.
 }

 // EnumValueMap returns the mapping from enum value names to enum numbers for
 // the enum of the given name. It returns nil if not found.
 //
 // Deprecated: Use protoregistry.GlobalTypes.FindEnumByName instead.
 func EnumValueMap(s enumName) enumsByName {
 	if v, ok := enumCache.Load(s); ok {
 		return v.(enumsByName)
 	}

 	// Check whether the cache is stale. If the number of files in the current
 	// package differs, then it means that some enums may have been recently
 	// registered upstream that we do not know about.
 	var protoPkg protoreflect.FullName
 	if i := strings.LastIndexByte(s, '.'); i >= 0 {
 		protoPkg = protoreflect.FullName(s[:i])
 	}
 	v, _ := numFilesCache.Load(protoPkg)
 	numFiles, _ := v.(int)
 	if protoregistry.GlobalFiles.NumFilesByPackage(protoPkg) == numFiles {
 		return nil // cache is up-to-date; was not found earlier
 	}

 	// Update the enum cache for all enums declared in the given proto package.
 	numFiles = 0
 	protoregistry.GlobalFiles.RangeFilesByPackage(protoPkg, func(fd protoreflect.FileDescriptor) bool {
 		walkEnums(fd, func(ed protoreflect.EnumDescriptor) {
 			name := protoimpl.X.LegacyEnumName(ed)
 			if _, ok := enumCache.Load(name); !ok {
 				m := make(enumsByName)
 				evs := ed.Values()
 				for i := evs.Len() - 1; i >= 0; i-- {
 					ev := evs.Get(i)
 					m[string(ev.Name())] = int32(ev.Number())
 				}
 				enumCache.LoadOrStore(name, m)
 			}
 		})
 		numFiles++
 		return true
 	})
 	numFilesCache.Store(protoPkg, numFiles)

 	// Check cache again for enum map.
 	if v, ok := enumCache.Load(s); ok {
 		return v.(enumsByName)
 	}
 	return nil
 }

 // walkEnums recursively walks all enums declared in d.
 func walkEnums(d interface {
 	Enums() protoreflect.EnumDescriptors
 	Messages() protoreflect.MessageDescriptors
 }, f func(protoreflect.EnumDescriptor)) {
 	eds := d.Enums()
 	for i := eds.Len() - 1; i >= 0; i-- {
 		f(eds.Get(i))
 	}
 	mds := d.Messages()
 	for i := mds.Len() - 1; i >= 0; i-- {
 		walkEnums(mds.Get(i), f)
 	}
 }

 // messageName is the full name of protobuf message.
 type messageName = string

 var messageTypeCache sync.Map // map[messageName]reflect.Type

 // RegisterType is called from generated code to register the message Go type
 // for a message of the given name.
 //
 // Deprecated: Use protoregistry.GlobalTypes.RegisterMessage instead.
 func RegisterType(m Message, s messageName) {
 	mt := protoimpl.X.LegacyMessageTypeOf(m, protoreflect.FullName(s))
 	if err := protoregistry.GlobalTypes.RegisterMessage(mt); err != nil {
 		panic(err)
 	}
 	messageTypeCache.Store(s, reflect.TypeOf(m))
 }

 // RegisterMapType is called from generated code to register the Go map type
 // for a protobuf message representing a map entry.
 //
 // Deprecated: Do not use.
 func RegisterMapType(m interface{}, s messageName) {
 	t := reflect.TypeOf(m)
 	if t.Kind() != reflect.Map {
 		panic(fmt.Sprintf("invalid map kind: %v", t))
 	}
 	if _, ok := messageTypeCache.Load(s); ok {
 		panic(fmt.Errorf("proto: duplicate proto message registered: %s", s))
 	}
 	messageTypeCache.Store(s, t)
 }

 // MessageType returns the message type for a named message.
 // It returns nil if not found.
 //
 // Deprecated: Use protoregistry.GlobalTypes.FindMessageByName instead.
 func MessageType(s messageName) reflect.Type {
 	if v, ok := messageTypeCache.Load(s); ok {
 		return v.(reflect.Type)
 	}

 	// Derive the message type from the v2 registry.
 	var t reflect.Type
 	if mt, _ := protoregistry.GlobalTypes.FindMessageByName(protoreflect.FullName(s)); mt != nil {
 		t = messageGoType(mt)
 	}

 	// If we could not get a concrete type, it is possible that it is a
 	// pseudo-message for a map entry.
 	if t == nil {
 		d, _ := protoregistry.GlobalFiles.FindDescriptorByName(protoreflect.FullName(s))
 		if md, _ := d.(protoreflect.MessageDescriptor); md != nil && md.IsMapEntry() {
 			kt := goTypeForField(md.Fields().ByNumber(1))
 			vt := goTypeForField(md.Fields().ByNumber(2))
 			t = reflect.MapOf(kt, vt)
 		}
 	}

 	// Locally cache the message type for the given name.
 	if t != nil {
 		v, _ := messageTypeCache.LoadOrStore(s, t)
 		return v.(reflect.Type)
 	}
 	return nil
 }

 func goTypeForField(fd protoreflect.FieldDescriptor) reflect.Type {
 	switch k := fd.Kind(); k {
 	case protoreflect.EnumKind:
 		if et, _ := protoregistry.GlobalTypes.FindEnumByName(fd.Enum().FullName()); et != nil {
 			return enumGoType(et)
 		}
 		return reflect.TypeOf(protoreflect.EnumNumber(0))
 	case protoreflect.MessageKind, protoreflect.GroupKind:
 		if mt, _ := protoregistry.GlobalTypes.FindMessageByName(fd.Message().FullName()); mt != nil {
 			return messageGoType(mt)
 		}
 		return reflect.TypeOf((*protoreflect.Message)(nil)).Elem()
 	default:
 		return reflect.TypeOf(fd.Default().Interface())
 	}
 }

 func enumGoType(et protoreflect.EnumType) reflect.Type {
 	return reflect.TypeOf(et.New(0))
 }

 func messageGoType(mt protoreflect.MessageType) reflect.Type {
 	return reflect.TypeOf(MessageV1(mt.Zero().Interface()))
 }

 // MessageName returns the full protobuf name for the given message type.
 //
 // Deprecated: Use protoreflect.MessageDescriptor.FullName instead.
 func MessageName(m Message) messageName {
 	if m == nil {
 		return ""
 	}
 	if m, ok := m.(interface{ XXX_MessageName() messageName }); ok {
 		return m.XXX_MessageName()
 	}
 	return messageName(protoimpl.X.MessageDescriptorOf(m).FullName())
 }

 // RegisterExtension is called from the generated code to register
 // the extension descriptor.
 //
 // Deprecated: Use protoregistry.GlobalTypes.RegisterExtension instead.
 func RegisterExtension(d *ExtensionDesc) {
 	if err := protoregistry.GlobalTypes.RegisterExtension(d); err != nil {
 		panic(err)
 	}
 }

 type extensionsByNumber = map[int32]*ExtensionDesc

 var extensionCache sync.Map // map[messageName]extensionsByNumber

 // RegisteredExtensions returns a map of the registered extensions for the
 // provided protobuf message, indexed by the extension field number.
 //
 // Deprecated: Use protoregistry.GlobalTypes.RangeExtensionsByMessage instead.
 func RegisteredExtensions(m Message) extensionsByNumber {
 	// Check whether the cache is stale. If the number of extensions for
 	// the given message differs, then it means that some extensions were
 	// recently registered upstream that we do not know about.
 	s := MessageName(m)
 	v, _ := extensionCache.Load(s)
 	xs, _ := v.(extensionsByNumber)
 	if protoregistry.GlobalTypes.NumExtensionsByMessage(protoreflect.FullName(s)) == len(xs) {
 		return xs // cache is up-to-date
 	}

 	// Cache is stale, re-compute the extensions map.
 	xs = make(extensionsByNumber)
 	protoregistry.GlobalTypes.RangeExtensionsByMessage(protoreflect.FullName(s), func(xt protoreflect.ExtensionType) bool {
 		if xd, ok := xt.(*ExtensionDesc); ok {
 			xs[int32(xt.TypeDescriptor().Number())] = xd
 		} else {
 			// TODO: This implies that the protoreflect.ExtensionType is a
 			// custom type not generated by protoc-gen-go. We could try and
 			// convert the type to an ExtensionDesc.
 		}
 		return true
 	})
 	extensionCache.Store(s, xs)
 	return xs
 }
	// Copyright 2019 The Go Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style
	// license that can be found in the LICENSE file.

	package proto

	import (
	"bytes"
	"compress/gzip"
	"fmt"
	"io/ioutil"
	"reflect"
	"strings"
	"sync"

	"google.golang.org/protobuf/reflect/protodesc"
	"google.golang.org/protobuf/reflect/protoreflect"
	"google.golang.org/protobuf/reflect/protoregistry"
	"google.golang.org/protobuf/runtime/protoimpl"
	)

	// filePath is the path to the proto source file.
	type filePath = string // e.g., "google/protobuf/descriptor.proto"

	// fileDescGZIP is the compressed contents of the encoded FileDescriptorProto.
	type fileDescGZIP = []byte

	var fileCache sync.Map // map[filePath]fileDescGZIP

	// RegisterFile is called from generated code to register the compressed
	// FileDescriptorProto with the file path for a proto source file.
	//
	// Deprecated: Use protoregistry.GlobalFiles.RegisterFile instead.
	func RegisterFile(s filePath, d fileDescGZIP) {
	// Decompress the descriptor.
	zr, err := gzip.NewReader(bytes.NewReader(d))
	if err != nil {
	panic(fmt.Sprintf("proto: invalid compressed file descriptor: %v", err))
	}
	b, err := ioutil.ReadAll(zr)
	if err != nil {
	panic(fmt.Sprintf("proto: invalid compressed file descriptor: %v", err))
	}

	// Construct a protoreflect.FileDescriptor from the raw descriptor.
	// Note that DescBuilder.Build automatically registers the constructed
	// file descriptor with the v2 registry.
	protoimpl.DescBuilder{RawDescriptor: b}.Build()

	// Locally cache the raw descriptor form for the file.
	fileCache.Store(s, d)
	}

	// FileDescriptor returns the compressed FileDescriptorProto given the file path
	// for a proto source file. It returns nil if not found.
	//
	// Deprecated: Use protoregistry.GlobalFiles.FindFileByPath instead.
	func FileDescriptor(s filePath) fileDescGZIP {
	if v, ok := fileCache.Load(s); ok {
	return v.(fileDescGZIP)
	}

	// Find the descriptor in the v2 registry.
	var b []byte
	if fd, _ := protoregistry.GlobalFiles.FindFileByPath(s); fd != nil {
	b, _ = Marshal(protodesc.ToFileDescriptorProto(fd))
	}

	// Locally cache the raw descriptor form for the file.
	if len(b) > 0 {
	v, _ := fileCache.LoadOrStore(s, protoimpl.X.CompressGZIP(b))
	return v.(fileDescGZIP)
	}
	return nil
	}

	// enumName is the name of an enum. For historical reasons, the enum name is
	// neither the full Go name nor the full protobuf name of the enum.
	// The name is the dot-separated combination of just the proto package that the
	// enum is declared within followed by the Go type name of the generated enum.
	type enumName = string // e.g., "my.proto.package.GoMessage_GoEnum"

	// enumsByName maps enum values by name to their numeric counterpart.
	type enumsByName = map[string]int32

	// enumsByNumber maps enum values by number to their name counterpart.
	type enumsByNumber = map[int32]string

	var enumCache sync.Map // map[enumName]enumsByName
	var numFilesCache sync.Map // map[protoreflect.FullName]int

	// RegisterEnum is called from the generated code to register the mapping of
	// enum value names to enum numbers for the enum identified by s.
	//
	// Deprecated: Use protoregistry.GlobalTypes.RegisterEnum instead.
	func RegisterEnum(s enumName, _ enumsByNumber, m enumsByName) {
	if _, ok := enumCache.Load(s); ok {
	panic("proto: duplicate enum registered: " + s)
	}
	enumCache.Store(s, m)

	// This does not forward registration to the v2 registry since this API
	// lacks sufficient information to construct a complete v2 enum descriptor.
	}

	// EnumValueMap returns the mapping from enum value names to enum numbers for
	// the enum of the given name. It returns nil if not found.
	//
	// Deprecated: Use protoregistry.GlobalTypes.FindEnumByName instead.
	func EnumValueMap(s enumName) enumsByName {
	if v, ok := enumCache.Load(s); ok {
	return v.(enumsByName)
	}

	// Check whether the cache is stale. If the number of files in the current
	// package differs, then it means that some enums may have been recently
	// registered upstream that we do not know about.
	var protoPkg protoreflect.FullName
	if i := strings.LastIndexByte(s, '.'); i >= 0 {
	protoPkg = protoreflect.FullName(s[:i])
	}
	v, _ := numFilesCache.Load(protoPkg)
	numFiles, _ := v.(int)
	if protoregistry.GlobalFiles.NumFilesByPackage(protoPkg) == numFiles {
	return nil // cache is up-to-date; was not found earlier
	}

	// Update the enum cache for all enums declared in the given proto package.
	numFiles = 0
	protoregistry.GlobalFiles.RangeFilesByPackage(protoPkg, func(fd protoreflect.FileDescriptor) bool {
	walkEnums(fd, func(ed protoreflect.EnumDescriptor) {
	name := protoimpl.X.LegacyEnumName(ed)
	if _, ok := enumCache.Load(name); !ok {
	m := make(enumsByName)
	evs := ed.Values()
	for i := evs.Len() - 1; i >= 0; i-- {
	ev := evs.Get(i)
	m[string(ev.Name())] = int32(ev.Number())
	}
	enumCache.LoadOrStore(name, m)
	}
	})
	numFiles++
	return true
	})
	numFilesCache.Store(protoPkg, numFiles)

	// Check cache again for enum map.
	if v, ok := enumCache.Load(s); ok {
	return v.(enumsByName)
	}
	return nil
	}

	// walkEnums recursively walks all enums declared in d.
	func walkEnums(d interface {
	Enums() protoreflect.EnumDescriptors
	Messages() protoreflect.MessageDescriptors
	}, f func(protoreflect.EnumDescriptor)) {
	eds := d.Enums()
	for i := eds.Len() - 1; i >= 0; i-- {
	f(eds.Get(i))
	}
	mds := d.Messages()
	for i := mds.Len() - 1; i >= 0; i-- {
	walkEnums(mds.Get(i), f)
	}
	}

	// messageName is the full name of protobuf message.
	type messageName = string

	var messageTypeCache sync.Map // map[messageName]reflect.Type

	// RegisterType is called from generated code to register the message Go type
	// for a message of the given name.
	//
	// Deprecated: Use protoregistry.GlobalTypes.RegisterMessage instead.
	func RegisterType(m Message, s messageName) {
	mt := protoimpl.X.LegacyMessageTypeOf(m, protoreflect.FullName(s))
	if err := protoregistry.GlobalTypes.RegisterMessage(mt); err != nil {
	panic(err)
	}
	messageTypeCache.Store(s, reflect.TypeOf(m))
	}

	// RegisterMapType is called from generated code to register the Go map type
	// for a protobuf message representing a map entry.
	//
	// Deprecated: Do not use.
	func RegisterMapType(m interface{}, s messageName) {
	t := reflect.TypeOf(m)
	if t.Kind() != reflect.Map {
	panic(fmt.Sprintf("invalid map kind: %v", t))
	}
	if _, ok := messageTypeCache.Load(s); ok {
	panic(fmt.Errorf("proto: duplicate proto message registered: %s", s))
	}
	messageTypeCache.Store(s, t)
	}

	// MessageType returns the message type for a named message.
	// It returns nil if not found.
	//
	// Deprecated: Use protoregistry.GlobalTypes.FindMessageByName instead.
	func MessageType(s messageName) reflect.Type {
	if v, ok := messageTypeCache.Load(s); ok {
	return v.(reflect.Type)
	}

	// Derive the message type from the v2 registry.
	var t reflect.Type
	if mt, _ := protoregistry.GlobalTypes.FindMessageByName(protoreflect.FullName(s)); mt != nil {
	t = messageGoType(mt)
	}

	// If we could not get a concrete type, it is possible that it is a
	// pseudo-message for a map entry.
	if t == nil {
	d, _ := protoregistry.GlobalFiles.FindDescriptorByName(protoreflect.FullName(s))
	if md, _ := d.(protoreflect.MessageDescriptor); md != nil && md.IsMapEntry() {
	kt := goTypeForField(md.Fields().ByNumber(1))
	vt := goTypeForField(md.Fields().ByNumber(2))
	t = reflect.MapOf(kt, vt)
	}
	}

	// Locally cache the message type for the given name.
	if t != nil {
	v, _ := messageTypeCache.LoadOrStore(s, t)
	return v.(reflect.Type)
	}
	return nil
	}

	func goTypeForField(fd protoreflect.FieldDescriptor) reflect.Type {
	switch k := fd.Kind(); k {
	case protoreflect.EnumKind:
	if et, _ := protoregistry.GlobalTypes.FindEnumByName(fd.Enum().FullName()); et != nil {
	return enumGoType(et)
	}
	return reflect.TypeOf(protoreflect.EnumNumber(0))
	case protoreflect.MessageKind, protoreflect.GroupKind:
	if mt, _ := protoregistry.GlobalTypes.FindMessageByName(fd.Message().FullName()); mt != nil {
	return messageGoType(mt)
	}
	return reflect.TypeOf((*protoreflect.Message)(nil)).Elem()
	default:
	return reflect.TypeOf(fd.Default().Interface())
	}
	}

	func enumGoType(et protoreflect.EnumType) reflect.Type {
	return reflect.TypeOf(et.New(0))
	}

	func messageGoType(mt protoreflect.MessageType) reflect.Type {
	return reflect.TypeOf(MessageV1(mt.Zero().Interface()))
	}

	// MessageName returns the full protobuf name for the given message type.
	//
	// Deprecated: Use protoreflect.MessageDescriptor.FullName instead.
	func MessageName(m Message) messageName {
	if m == nil {
	return ""
	}
	if m, ok := m.(interface{ XXX_MessageName() messageName }); ok {
	return m.XXX_MessageName()
	}
	return messageName(protoimpl.X.MessageDescriptorOf(m).FullName())
	}

	// RegisterExtension is called from the generated code to register
	// the extension descriptor.
	//
	// Deprecated: Use protoregistry.GlobalTypes.RegisterExtension instead.
	func RegisterExtension(d *ExtensionDesc) {
	if err := protoregistry.GlobalTypes.RegisterExtension(d); err != nil {
	panic(err)
	}
	}

	type extensionsByNumber = map[int32]*ExtensionDesc

	var extensionCache sync.Map // map[messageName]extensionsByNumber

	// RegisteredExtensions returns a map of the registered extensions for the
	// provided protobuf message, indexed by the extension field number.
	//
	// Deprecated: Use protoregistry.GlobalTypes.RangeExtensionsByMessage instead.
	func RegisteredExtensions(m Message) extensionsByNumber {
	// Check whether the cache is stale. If the number of extensions for
	// the given message differs, then it means that some extensions were
	// recently registered upstream that we do not know about.
	s := MessageName(m)
	v, _ := extensionCache.Load(s)
	xs, _ := v.(extensionsByNumber)
	if protoregistry.GlobalTypes.NumExtensionsByMessage(protoreflect.FullName(s)) == len(xs) {
	return xs // cache is up-to-date
	}

	// Cache is stale, re-compute the extensions map.
	xs = make(extensionsByNumber)
	protoregistry.GlobalTypes.RangeExtensionsByMessage(protoreflect.FullName(s), func(xt protoreflect.ExtensionType) bool {
	if xd, ok := xt.(*ExtensionDesc); ok {
	xs[int32(xt.TypeDescriptor().Number())] = xd
	} else {
	// TODO: This implies that the protoreflect.ExtensionType is a
	// custom type not generated by protoc-gen-go. We could try and
	// convert the type to an ExtensionDesc.
	}
	return true
	})
	extensionCache.Store(s, xs)
	return xs
	}