vendor/github.com/jhump/protoreflect/grpcreflect/client.go - voltha-openolt-adapter - Gitiles

 package grpcreflect

 import (
 	"bytes"
 	"fmt"
 	"io"
 	"reflect"
 	"runtime"
 	"sync"

 	"github.com/golang/protobuf/proto"
 	dpb "github.com/golang/protobuf/protoc-gen-go/descriptor"
 	"golang.org/x/net/context"
 	"google.golang.org/grpc/codes"
 	rpb "google.golang.org/grpc/reflection/grpc_reflection_v1alpha"
 	"google.golang.org/grpc/status"

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

 // elementNotFoundError is the error returned by reflective operations where the
 // server does not recognize a given file name, symbol name, or extension.
 type elementNotFoundError struct {
 	name    string
 	kind    elementKind
 	symType symbolType // only used when kind == elementKindSymbol
 	tag     int32      // only used when kind == elementKindExtension

 	// only errors with a kind of elementKindFile will have a cause, which means
 	// the named file count not be resolved because of a dependency that could
 	// not be found where cause describes the missing dependency
 	cause *elementNotFoundError
 }

 type elementKind int

 const (
 	elementKindSymbol elementKind = iota
 	elementKindFile
 	elementKindExtension
 )

 type symbolType string

 const (
 	symbolTypeService = "Service"
 	symbolTypeMessage = "Message"
 	symbolTypeEnum    = "Enum"
 	symbolTypeUnknown = "Symbol"
 )

 func symbolNotFound(symbol string, symType symbolType, cause *elementNotFoundError) error {
 	return &elementNotFoundError{name: symbol, symType: symType, kind: elementKindSymbol, cause: cause}
 }

 func extensionNotFound(extendee string, tag int32, cause *elementNotFoundError) error {
 	return &elementNotFoundError{name: extendee, tag: tag, kind: elementKindExtension, cause: cause}
 }

 func fileNotFound(file string, cause *elementNotFoundError) error {
 	return &elementNotFoundError{name: file, kind: elementKindFile, cause: cause}
 }

 func (e *elementNotFoundError) Error() string {
 	first := true
 	var b bytes.Buffer
 	for ; e != nil; e = e.cause {
 		if first {
 			first = false
 		} else {
 			fmt.Fprint(&b, "\ncaused by: ")
 		}
 		switch e.kind {
 		case elementKindSymbol:
 			fmt.Fprintf(&b, "%s not found: %s", e.symType, e.name)
 		case elementKindExtension:
 			fmt.Fprintf(&b, "Extension not found: tag %d for %s", e.tag, e.name)
 		default:
 			fmt.Fprintf(&b, "File not found: %s", e.name)
 		}
 	}
 	return b.String()
 }

 // IsElementNotFoundError determines if the given error indicates that a file
 // name, symbol name, or extension field was could not be found by the server.
 func IsElementNotFoundError(err error) bool {
 	_, ok := err.(*elementNotFoundError)
 	return ok
 }

 // ProtocolError is an error returned when the server sends a response of the
 // wrong type.
 type ProtocolError struct {
 	missingType reflect.Type
 }

 func (p ProtocolError) Error() string {
 	return fmt.Sprintf("Protocol error: response was missing %v", p.missingType)
 }

 type extDesc struct {
 	extendedMessageName string
 	extensionNumber     int32
 }

 // Client is a client connection to a server for performing reflection calls
 // and resolving remote symbols.
 type Client struct {
 	ctx  context.Context
 	stub rpb.ServerReflectionClient

 	connMu sync.Mutex
 	cancel context.CancelFunc
 	stream rpb.ServerReflection_ServerReflectionInfoClient

 	cacheMu          sync.RWMutex
 	protosByName     map[string]*dpb.FileDescriptorProto
 	filesByName      map[string]*desc.FileDescriptor
 	filesBySymbol    map[string]*desc.FileDescriptor
 	filesByExtension map[extDesc]*desc.FileDescriptor
 }

 // NewClient creates a new Client with the given root context and using the
 // given RPC stub for talking to the server.
 func NewClient(ctx context.Context, stub rpb.ServerReflectionClient) *Client {
 	cr := &Client{
 		ctx:              ctx,
 		stub:             stub,
 		protosByName:     map[string]*dpb.FileDescriptorProto{},
 		filesByName:      map[string]*desc.FileDescriptor{},
 		filesBySymbol:    map[string]*desc.FileDescriptor{},
 		filesByExtension: map[extDesc]*desc.FileDescriptor{},
 	}
 	// don't leak a grpc stream
 	runtime.SetFinalizer(cr, (*Client).Reset)
 	return cr
 }

 // FileByFilename asks the server for a file descriptor for the proto file with
 // the given name.
 func (cr *Client) FileByFilename(filename string) (*desc.FileDescriptor, error) {
 	// hit the cache first
 	cr.cacheMu.RLock()
 	if fd, ok := cr.filesByName[filename]; ok {
 		cr.cacheMu.RUnlock()
 		return fd, nil
 	}
 	fdp, ok := cr.protosByName[filename]
 	cr.cacheMu.RUnlock()
 	// not there? see if we've downloaded the proto
 	if ok {
 		return cr.descriptorFromProto(fdp)
 	}

 	req := &rpb.ServerReflectionRequest{
 		MessageRequest: &rpb.ServerReflectionRequest_FileByFilename{
 			FileByFilename: filename,
 		},
 	}
 	fd, err := cr.getAndCacheFileDescriptors(req, filename, "")
 	if isNotFound(err) {
 		// file not found? see if we can look up via alternate name
 		if alternate, ok := internal.StdFileAliases[filename]; ok {
 			req := &rpb.ServerReflectionRequest{
 				MessageRequest: &rpb.ServerReflectionRequest_FileByFilename{
 					FileByFilename: alternate,
 				},
 			}
 			fd, err = cr.getAndCacheFileDescriptors(req, alternate, filename)
 			if isNotFound(err) {
 				err = fileNotFound(filename, nil)
 			}
 		} else {
 			err = fileNotFound(filename, nil)
 		}
 	} else if e, ok := err.(*elementNotFoundError); ok {
 		err = fileNotFound(filename, e)
 	}
 	return fd, err
 }

 // FileContainingSymbol asks the server for a file descriptor for the proto file
 // that declares the given fully-qualified symbol.
 func (cr *Client) FileContainingSymbol(symbol string) (*desc.FileDescriptor, error) {
 	// hit the cache first
 	cr.cacheMu.RLock()
 	fd, ok := cr.filesBySymbol[symbol]
 	cr.cacheMu.RUnlock()
 	if ok {
 		return fd, nil
 	}

 	req := &rpb.ServerReflectionRequest{
 		MessageRequest: &rpb.ServerReflectionRequest_FileContainingSymbol{
 			FileContainingSymbol: symbol,
 		},
 	}
 	fd, err := cr.getAndCacheFileDescriptors(req, "", "")
 	if isNotFound(err) {
 		err = symbolNotFound(symbol, symbolTypeUnknown, nil)
 	} else if e, ok := err.(*elementNotFoundError); ok {
 		err = symbolNotFound(symbol, symbolTypeUnknown, e)
 	}
 	return fd, err
 }

 // FileContainingExtension asks the server for a file descriptor for the proto
 // file that declares an extension with the given number for the given
 // fully-qualified message name.
 func (cr *Client) FileContainingExtension(extendedMessageName string, extensionNumber int32) (*desc.FileDescriptor, error) {
 	// hit the cache first
 	cr.cacheMu.RLock()
 	fd, ok := cr.filesByExtension[extDesc{extendedMessageName, extensionNumber}]
 	cr.cacheMu.RUnlock()
 	if ok {
 		return fd, nil
 	}

 	req := &rpb.ServerReflectionRequest{
 		MessageRequest: &rpb.ServerReflectionRequest_FileContainingExtension{
 			FileContainingExtension: &rpb.ExtensionRequest{
 				ContainingType:  extendedMessageName,
 				ExtensionNumber: extensionNumber,
 			},
 		},
 	}
 	fd, err := cr.getAndCacheFileDescriptors(req, "", "")
 	if isNotFound(err) {
 		err = extensionNotFound(extendedMessageName, extensionNumber, nil)
 	} else if e, ok := err.(*elementNotFoundError); ok {
 		err = extensionNotFound(extendedMessageName, extensionNumber, e)
 	}
 	return fd, err
 }

 func (cr *Client) getAndCacheFileDescriptors(req *rpb.ServerReflectionRequest, expectedName, alias string) (*desc.FileDescriptor, error) {
 	resp, err := cr.send(req)
 	if err != nil {
 		return nil, err
 	}

 	fdResp := resp.GetFileDescriptorResponse()
 	if fdResp == nil {
 		return nil, &ProtocolError{reflect.TypeOf(fdResp).Elem()}
 	}

 	// Response can contain the result file descriptor, but also its transitive
 	// deps. Furthermore, protocol states that subsequent requests do not need
 	// to send transitive deps that have been sent in prior responses. So we
 	// need to cache all file descriptors and then return the first one (which
 	// should be the answer). If we're looking for a file by name, we can be
 	// smarter and make sure to grab one by name instead of just grabbing the
 	// first one.
 	var firstFd *dpb.FileDescriptorProto
 	for _, fdBytes := range fdResp.FileDescriptorProto {
 		fd := &dpb.FileDescriptorProto{}
 		if err = proto.Unmarshal(fdBytes, fd); err != nil {
 			return nil, err
 		}

 		if expectedName != "" && alias != "" && expectedName != alias && fd.GetName() == expectedName {
 			// we found a file was aliased, so we need to update the proto to reflect that
 			fd.Name = proto.String(alias)
 		}

 		cr.cacheMu.Lock()
 		// see if this file was created and cached concurrently
 		if firstFd == nil {
 			if d, ok := cr.filesByName[fd.GetName()]; ok {
 				cr.cacheMu.Unlock()
 				return d, nil
 			}
 		}
 		// store in cache of raw descriptor protos, but don't overwrite existing protos
 		if existingFd, ok := cr.protosByName[fd.GetName()]; ok {
 			fd = existingFd
 		} else {
 			cr.protosByName[fd.GetName()] = fd
 		}
 		cr.cacheMu.Unlock()
 		if firstFd == nil {
 			firstFd = fd
 		}
 	}
 	if firstFd == nil {
 		return nil, &ProtocolError{reflect.TypeOf(firstFd).Elem()}
 	}

 	return cr.descriptorFromProto(firstFd)
 }

 func (cr *Client) descriptorFromProto(fd *dpb.FileDescriptorProto) (*desc.FileDescriptor, error) {
 	deps := make([]*desc.FileDescriptor, len(fd.GetDependency()))
 	for i, depName := range fd.GetDependency() {
 		if dep, err := cr.FileByFilename(depName); err != nil {
 			return nil, err
 		} else {
 			deps[i] = dep
 		}
 	}
 	d, err := desc.CreateFileDescriptor(fd, deps...)
 	if err != nil {
 		return nil, err
 	}
 	d = cr.cacheFile(d)
 	return d, nil
 }

 func (cr *Client) cacheFile(fd *desc.FileDescriptor) *desc.FileDescriptor {
 	cr.cacheMu.Lock()
 	defer cr.cacheMu.Unlock()

 	// cache file descriptor by name, but don't overwrite existing entry
 	// (existing entry could come from concurrent caller)
 	if existingFd, ok := cr.filesByName[fd.GetName()]; ok {
 		return existingFd
 	}
 	cr.filesByName[fd.GetName()] = fd

 	// also cache by symbols and extensions
 	for _, m := range fd.GetMessageTypes() {
 		cr.cacheMessageLocked(fd, m)
 	}
 	for _, e := range fd.GetEnumTypes() {
 		cr.filesBySymbol[e.GetFullyQualifiedName()] = fd
 		for _, v := range e.GetValues() {
 			cr.filesBySymbol[v.GetFullyQualifiedName()] = fd
 		}
 	}
 	for _, e := range fd.GetExtensions() {
 		cr.filesBySymbol[e.GetFullyQualifiedName()] = fd
 		cr.filesByExtension[extDesc{e.GetOwner().GetFullyQualifiedName(), e.GetNumber()}] = fd
 	}
 	for _, s := range fd.GetServices() {
 		cr.filesBySymbol[s.GetFullyQualifiedName()] = fd
 		for _, m := range s.GetMethods() {
 			cr.filesBySymbol[m.GetFullyQualifiedName()] = fd
 		}
 	}

 	return fd
 }

 func (cr *Client) cacheMessageLocked(fd *desc.FileDescriptor, md *desc.MessageDescriptor) {
 	cr.filesBySymbol[md.GetFullyQualifiedName()] = fd
 	for _, f := range md.GetFields() {
 		cr.filesBySymbol[f.GetFullyQualifiedName()] = fd
 	}
 	for _, o := range md.GetOneOfs() {
 		cr.filesBySymbol[o.GetFullyQualifiedName()] = fd
 	}
 	for _, e := range md.GetNestedEnumTypes() {
 		cr.filesBySymbol[e.GetFullyQualifiedName()] = fd
 		for _, v := range e.GetValues() {
 			cr.filesBySymbol[v.GetFullyQualifiedName()] = fd
 		}
 	}
 	for _, e := range md.GetNestedExtensions() {
 		cr.filesBySymbol[e.GetFullyQualifiedName()] = fd
 		cr.filesByExtension[extDesc{e.GetOwner().GetFullyQualifiedName(), e.GetNumber()}] = fd
 	}
 	for _, m := range md.GetNestedMessageTypes() {
 		cr.cacheMessageLocked(fd, m) // recurse
 	}
 }

 // AllExtensionNumbersForType asks the server for all known extension numbers
 // for the given fully-qualified message name.
 func (cr *Client) AllExtensionNumbersForType(extendedMessageName string) ([]int32, error) {
 	req := &rpb.ServerReflectionRequest{
 		MessageRequest: &rpb.ServerReflectionRequest_AllExtensionNumbersOfType{
 			AllExtensionNumbersOfType: extendedMessageName,
 		},
 	}
 	resp, err := cr.send(req)
 	if err != nil {
 		if isNotFound(err) {
 			return nil, symbolNotFound(extendedMessageName, symbolTypeMessage, nil)
 		}
 		return nil, err
 	}

 	extResp := resp.GetAllExtensionNumbersResponse()
 	if extResp == nil {
 		return nil, &ProtocolError{reflect.TypeOf(extResp).Elem()}
 	}
 	return extResp.ExtensionNumber, nil
 }

 // ListServices asks the server for the fully-qualified names of all exposed
 // services.
 func (cr *Client) ListServices() ([]string, error) {
 	req := &rpb.ServerReflectionRequest{
 		MessageRequest: &rpb.ServerReflectionRequest_ListServices{
 			// proto doesn't indicate any purpose for this value and server impl
 			// doesn't actually use it...
 			ListServices: "*",
 		},
 	}
 	resp, err := cr.send(req)
 	if err != nil {
 		return nil, err
 	}

 	listResp := resp.GetListServicesResponse()
 	if listResp == nil {
 		return nil, &ProtocolError{reflect.TypeOf(listResp).Elem()}
 	}
 	serviceNames := make([]string, len(listResp.Service))
 	for i, s := range listResp.Service {
 		serviceNames[i] = s.Name
 	}
 	return serviceNames, nil
 }

 func (cr *Client) send(req *rpb.ServerReflectionRequest) (*rpb.ServerReflectionResponse, error) {
 	// we allow one immediate retry, in case we have a stale stream
 	// (e.g. closed by server)
 	resp, err := cr.doSend(true, req)
 	if err != nil {
 		return nil, err
 	}

 	// convert error response messages into errors
 	errResp := resp.GetErrorResponse()
 	if errResp != nil {
 		return nil, status.Errorf(codes.Code(errResp.ErrorCode), "%s", errResp.ErrorMessage)
 	}

 	return resp, nil
 }

 func isNotFound(err error) bool {
 	if err == nil {
 		return false
 	}
 	s, ok := status.FromError(err)
 	return ok && s.Code() == codes.NotFound
 }

 func (cr *Client) doSend(retry bool, req *rpb.ServerReflectionRequest) (*rpb.ServerReflectionResponse, error) {
 	// TODO: Streams are thread-safe, so we shouldn't need to lock. But without locking, we'll need more machinery
 	// (goroutines and channels) to ensure that responses are correctly correlated with their requests and thus
 	// delivered in correct oder.
 	cr.connMu.Lock()
 	defer cr.connMu.Unlock()
 	return cr.doSendLocked(retry, req)
 }

 func (cr *Client) doSendLocked(retry bool, req *rpb.ServerReflectionRequest) (*rpb.ServerReflectionResponse, error) {
 	if err := cr.initStreamLocked(); err != nil {
 		return nil, err
 	}

 	if err := cr.stream.Send(req); err != nil {
 		if err == io.EOF {
 			// if send returns EOF, must call Recv to get real underlying error
 			_, err = cr.stream.Recv()
 		}
 		cr.resetLocked()
 		if retry {
 			return cr.doSendLocked(false, req)
 		}
 		return nil, err
 	}

 	if resp, err := cr.stream.Recv(); err != nil {
 		cr.resetLocked()
 		if retry {
 			return cr.doSendLocked(false, req)
 		}
 		return nil, err
 	} else {
 		return resp, nil
 	}
 }

 func (cr *Client) initStreamLocked() error {
 	if cr.stream != nil {
 		return nil
 	}
 	var newCtx context.Context
 	newCtx, cr.cancel = context.WithCancel(cr.ctx)
 	var err error
 	cr.stream, err = cr.stub.ServerReflectionInfo(newCtx)
 	return err
 }

 // Reset ensures that any active stream with the server is closed, releasing any
 // resources.
 func (cr *Client) Reset() {
 	cr.connMu.Lock()
 	defer cr.connMu.Unlock()
 	cr.resetLocked()
 }

 func (cr *Client) resetLocked() {
 	if cr.stream != nil {
 		cr.stream.CloseSend()
 		for {
 			// drain the stream, this covers io.EOF too
 			if _, err := cr.stream.Recv(); err != nil {
 				break
 			}
 		}
 		cr.stream = nil
 	}
 	if cr.cancel != nil {
 		cr.cancel()
 		cr.cancel = nil
 	}
 }

 // ResolveService asks the server to resolve the given fully-qualified service
 // name into a service descriptor.
 func (cr *Client) ResolveService(serviceName string) (*desc.ServiceDescriptor, error) {
 	file, err := cr.FileContainingSymbol(serviceName)
 	if err != nil {
 		return nil, setSymbolType(err, serviceName, symbolTypeService)
 	}
 	d := file.FindSymbol(serviceName)
 	if d == nil {
 		return nil, symbolNotFound(serviceName, symbolTypeService, nil)
 	}
 	if s, ok := d.(*desc.ServiceDescriptor); ok {
 		return s, nil
 	} else {
 		return nil, symbolNotFound(serviceName, symbolTypeService, nil)
 	}
 }

 // ResolveMessage asks the server to resolve the given fully-qualified message
 // name into a message descriptor.
 func (cr *Client) ResolveMessage(messageName string) (*desc.MessageDescriptor, error) {
 	file, err := cr.FileContainingSymbol(messageName)
 	if err != nil {
 		return nil, setSymbolType(err, messageName, symbolTypeMessage)
 	}
 	d := file.FindSymbol(messageName)
 	if d == nil {
 		return nil, symbolNotFound(messageName, symbolTypeMessage, nil)
 	}
 	if s, ok := d.(*desc.MessageDescriptor); ok {
 		return s, nil
 	} else {
 		return nil, symbolNotFound(messageName, symbolTypeMessage, nil)
 	}
 }

 // ResolveEnum asks the server to resolve the given fully-qualified enum name
 // into an enum descriptor.
 func (cr *Client) ResolveEnum(enumName string) (*desc.EnumDescriptor, error) {
 	file, err := cr.FileContainingSymbol(enumName)
 	if err != nil {
 		return nil, setSymbolType(err, enumName, symbolTypeEnum)
 	}
 	d := file.FindSymbol(enumName)
 	if d == nil {
 		return nil, symbolNotFound(enumName, symbolTypeEnum, nil)
 	}
 	if s, ok := d.(*desc.EnumDescriptor); ok {
 		return s, nil
 	} else {
 		return nil, symbolNotFound(enumName, symbolTypeEnum, nil)
 	}
 }

 func setSymbolType(err error, name string, symType symbolType) error {
 	if e, ok := err.(*elementNotFoundError); ok {
 		if e.kind == elementKindSymbol && e.name == name && e.symType == symbolTypeUnknown {
 			e.symType = symType
 		}
 	}
 	return err
 }

 // ResolveEnumValues asks the server to resolve the given fully-qualified enum
 // name into a map of names to numbers that represents the enum's values.
 func (cr *Client) ResolveEnumValues(enumName string) (map[string]int32, error) {
 	enumDesc, err := cr.ResolveEnum(enumName)
 	if err != nil {
 		return nil, err
 	}
 	vals := map[string]int32{}
 	for _, valDesc := range enumDesc.GetValues() {
 		vals[valDesc.GetName()] = valDesc.GetNumber()
 	}
 	return vals, nil
 }

 // ResolveExtension asks the server to resolve the given extension number and
 // fully-qualified message name into a field descriptor.
 func (cr *Client) ResolveExtension(extendedType string, extensionNumber int32) (*desc.FieldDescriptor, error) {
 	file, err := cr.FileContainingExtension(extendedType, extensionNumber)
 	if err != nil {
 		return nil, err
 	}
 	d := findExtension(extendedType, extensionNumber, fileDescriptorExtensions{file})
 	if d == nil {
 		return nil, extensionNotFound(extendedType, extensionNumber, nil)
 	} else {
 		return d, nil
 	}
 }

 func findExtension(extendedType string, extensionNumber int32, scope extensionScope) *desc.FieldDescriptor {
 	// search extensions in this scope
 	for _, ext := range scope.extensions() {
 		if ext.GetNumber() == extensionNumber && ext.GetOwner().GetFullyQualifiedName() == extendedType {
 			return ext
 		}
 	}

 	// if not found, search nested scopes
 	for _, nested := range scope.nestedScopes() {
 		ext := findExtension(extendedType, extensionNumber, nested)
 		if ext != nil {
 			return ext
 		}
 	}

 	return nil
 }

 type extensionScope interface {
 	extensions() []*desc.FieldDescriptor
 	nestedScopes() []extensionScope
 }

 // fileDescriptorExtensions implements extensionHolder interface on top of
 // FileDescriptorProto
 type fileDescriptorExtensions struct {
 	proto *desc.FileDescriptor
 }

 func (fde fileDescriptorExtensions) extensions() []*desc.FieldDescriptor {
 	return fde.proto.GetExtensions()
 }

 func (fde fileDescriptorExtensions) nestedScopes() []extensionScope {
 	scopes := make([]extensionScope, len(fde.proto.GetMessageTypes()))
 	for i, m := range fde.proto.GetMessageTypes() {
 		scopes[i] = msgDescriptorExtensions{m}
 	}
 	return scopes
 }

 // msgDescriptorExtensions implements extensionHolder interface on top of
 // DescriptorProto
 type msgDescriptorExtensions struct {
 	proto *desc.MessageDescriptor
 }

 func (mde msgDescriptorExtensions) extensions() []*desc.FieldDescriptor {
 	return mde.proto.GetNestedExtensions()
 }

 func (mde msgDescriptorExtensions) nestedScopes() []extensionScope {
 	scopes := make([]extensionScope, len(mde.proto.GetNestedMessageTypes()))
 	for i, m := range mde.proto.GetNestedMessageTypes() {
 		scopes[i] = msgDescriptorExtensions{m}
 	}
 	return scopes
 }
	package grpcreflect

	import (
	"bytes"
	"fmt"
	"io"
	"reflect"
	"runtime"
	"sync"

	"github.com/golang/protobuf/proto"
	dpb "github.com/golang/protobuf/protoc-gen-go/descriptor"
	"golang.org/x/net/context"
	"google.golang.org/grpc/codes"
	rpb "google.golang.org/grpc/reflection/grpc_reflection_v1alpha"
	"google.golang.org/grpc/status"

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

	// elementNotFoundError is the error returned by reflective operations where the
	// server does not recognize a given file name, symbol name, or extension.
	type elementNotFoundError struct {
	name string
	kind elementKind
	symType symbolType // only used when kind == elementKindSymbol
	tag int32 // only used when kind == elementKindExtension

	// only errors with a kind of elementKindFile will have a cause, which means
	// the named file count not be resolved because of a dependency that could
	// not be found where cause describes the missing dependency
	cause *elementNotFoundError
	}

	type elementKind int

	const (
	elementKindSymbol elementKind = iota
	elementKindFile
	elementKindExtension
	)

	type symbolType string

	const (
	symbolTypeService = "Service"
	symbolTypeMessage = "Message"
	symbolTypeEnum = "Enum"
	symbolTypeUnknown = "Symbol"
	)

	func symbolNotFound(symbol string, symType symbolType, cause *elementNotFoundError) error {
	return &elementNotFoundError{name: symbol, symType: symType, kind: elementKindSymbol, cause: cause}
	}

	func extensionNotFound(extendee string, tag int32, cause *elementNotFoundError) error {
	return &elementNotFoundError{name: extendee, tag: tag, kind: elementKindExtension, cause: cause}
	}

	func fileNotFound(file string, cause *elementNotFoundError) error {
	return &elementNotFoundError{name: file, kind: elementKindFile, cause: cause}
	}

	func (e *elementNotFoundError) Error() string {
	first := true
	var b bytes.Buffer
	for ; e != nil; e = e.cause {
	if first {
	first = false
	} else {
	fmt.Fprint(&b, "\ncaused by: ")
	}
	switch e.kind {
	case elementKindSymbol:
	fmt.Fprintf(&b, "%s not found: %s", e.symType, e.name)
	case elementKindExtension:
	fmt.Fprintf(&b, "Extension not found: tag %d for %s", e.tag, e.name)
	default:
	fmt.Fprintf(&b, "File not found: %s", e.name)
	}
	}
	return b.String()
	}

	// IsElementNotFoundError determines if the given error indicates that a file
	// name, symbol name, or extension field was could not be found by the server.
	func IsElementNotFoundError(err error) bool {
	_, ok := err.(*elementNotFoundError)
	return ok
	}

	// ProtocolError is an error returned when the server sends a response of the
	// wrong type.
	type ProtocolError struct {
	missingType reflect.Type
	}

	func (p ProtocolError) Error() string {
	return fmt.Sprintf("Protocol error: response was missing %v", p.missingType)
	}

	type extDesc struct {
	extendedMessageName string
	extensionNumber int32
	}

	// Client is a client connection to a server for performing reflection calls
	// and resolving remote symbols.
	type Client struct {
	ctx context.Context
	stub rpb.ServerReflectionClient

	connMu sync.Mutex
	cancel context.CancelFunc
	stream rpb.ServerReflection_ServerReflectionInfoClient

	cacheMu sync.RWMutex
	protosByName map[string]*dpb.FileDescriptorProto
	filesByName map[string]*desc.FileDescriptor
	filesBySymbol map[string]*desc.FileDescriptor
	filesByExtension map[extDesc]*desc.FileDescriptor
	}

	// NewClient creates a new Client with the given root context and using the
	// given RPC stub for talking to the server.
	func NewClient(ctx context.Context, stub rpb.ServerReflectionClient) *Client {
	cr := &Client{
	ctx: ctx,
	stub: stub,
	protosByName: map[string]*dpb.FileDescriptorProto{},
	filesByName: map[string]*desc.FileDescriptor{},
	filesBySymbol: map[string]*desc.FileDescriptor{},
	filesByExtension: map[extDesc]*desc.FileDescriptor{},
	}
	// don't leak a grpc stream
	runtime.SetFinalizer(cr, (*Client).Reset)
	return cr
	}

	// FileByFilename asks the server for a file descriptor for the proto file with
	// the given name.
	func (cr Client) FileByFilename(filename string) (desc.FileDescriptor, error) {
	// hit the cache first
	cr.cacheMu.RLock()
	if fd, ok := cr.filesByName[filename]; ok {
	cr.cacheMu.RUnlock()
	return fd, nil
	}
	fdp, ok := cr.protosByName[filename]
	cr.cacheMu.RUnlock()
	// not there? see if we've downloaded the proto
	if ok {
	return cr.descriptorFromProto(fdp)
	}

	req := &rpb.ServerReflectionRequest{
	MessageRequest: &rpb.ServerReflectionRequest_FileByFilename{
	FileByFilename: filename,
	},
	}
	fd, err := cr.getAndCacheFileDescriptors(req, filename, "")
	if isNotFound(err) {
	// file not found? see if we can look up via alternate name
	if alternate, ok := internal.StdFileAliases[filename]; ok {
	req := &rpb.ServerReflectionRequest{
	MessageRequest: &rpb.ServerReflectionRequest_FileByFilename{
	FileByFilename: alternate,
	},
	}
	fd, err = cr.getAndCacheFileDescriptors(req, alternate, filename)
	if isNotFound(err) {
	err = fileNotFound(filename, nil)
	}
	} else {
	err = fileNotFound(filename, nil)
	}
	} else if e, ok := err.(*elementNotFoundError); ok {
	err = fileNotFound(filename, e)
	}
	return fd, err
	}

	// FileContainingSymbol asks the server for a file descriptor for the proto file
	// that declares the given fully-qualified symbol.
	func (cr Client) FileContainingSymbol(symbol string) (desc.FileDescriptor, error) {
	// hit the cache first
	cr.cacheMu.RLock()
	fd, ok := cr.filesBySymbol[symbol]
	cr.cacheMu.RUnlock()
	if ok {
	return fd, nil
	}

	req := &rpb.ServerReflectionRequest{
	MessageRequest: &rpb.ServerReflectionRequest_FileContainingSymbol{
	FileContainingSymbol: symbol,
	},
	}
	fd, err := cr.getAndCacheFileDescriptors(req, "", "")
	if isNotFound(err) {
	err = symbolNotFound(symbol, symbolTypeUnknown, nil)
	} else if e, ok := err.(*elementNotFoundError); ok {
	err = symbolNotFound(symbol, symbolTypeUnknown, e)
	}
	return fd, err
	}

	// FileContainingExtension asks the server for a file descriptor for the proto
	// file that declares an extension with the given number for the given
	// fully-qualified message name.
	func (cr Client) FileContainingExtension(extendedMessageName string, extensionNumber int32) (desc.FileDescriptor, error) {
	// hit the cache first
	cr.cacheMu.RLock()
	fd, ok := cr.filesByExtension[extDesc{extendedMessageName, extensionNumber}]
	cr.cacheMu.RUnlock()
	if ok {
	return fd, nil
	}

	req := &rpb.ServerReflectionRequest{
	MessageRequest: &rpb.ServerReflectionRequest_FileContainingExtension{
	FileContainingExtension: &rpb.ExtensionRequest{
	ContainingType: extendedMessageName,
	ExtensionNumber: extensionNumber,
	},
	},
	}
	fd, err := cr.getAndCacheFileDescriptors(req, "", "")
	if isNotFound(err) {
	err = extensionNotFound(extendedMessageName, extensionNumber, nil)
	} else if e, ok := err.(*elementNotFoundError); ok {
	err = extensionNotFound(extendedMessageName, extensionNumber, e)
	}
	return fd, err
	}

	func (cr Client) getAndCacheFileDescriptors(req rpb.ServerReflectionRequest, expectedName, alias string) (*desc.FileDescriptor, error) {
	resp, err := cr.send(req)
	if err != nil {
	return nil, err
	}

	fdResp := resp.GetFileDescriptorResponse()
	if fdResp == nil {
	return nil, &ProtocolError{reflect.TypeOf(fdResp).Elem()}
	}

	// Response can contain the result file descriptor, but also its transitive
	// deps. Furthermore, protocol states that subsequent requests do not need
	// to send transitive deps that have been sent in prior responses. So we
	// need to cache all file descriptors and then return the first one (which
	// should be the answer). If we're looking for a file by name, we can be
	// smarter and make sure to grab one by name instead of just grabbing the
	// first one.
	var firstFd *dpb.FileDescriptorProto
	for _, fdBytes := range fdResp.FileDescriptorProto {
	fd := &dpb.FileDescriptorProto{}
	if err = proto.Unmarshal(fdBytes, fd); err != nil {
	return nil, err
	}

	if expectedName != "" && alias != "" && expectedName != alias && fd.GetName() == expectedName {
	// we found a file was aliased, so we need to update the proto to reflect that
	fd.Name = proto.String(alias)
	}

	cr.cacheMu.Lock()
	// see if this file was created and cached concurrently
	if firstFd == nil {
	if d, ok := cr.filesByName[fd.GetName()]; ok {
	cr.cacheMu.Unlock()
	return d, nil
	}
	}
	// store in cache of raw descriptor protos, but don't overwrite existing protos
	if existingFd, ok := cr.protosByName[fd.GetName()]; ok {
	fd = existingFd
	} else {
	cr.protosByName[fd.GetName()] = fd
	}
	cr.cacheMu.Unlock()
	if firstFd == nil {
	firstFd = fd
	}
	}
	if firstFd == nil {
	return nil, &ProtocolError{reflect.TypeOf(firstFd).Elem()}
	}

	return cr.descriptorFromProto(firstFd)
	}

	func (cr Client) descriptorFromProto(fd dpb.FileDescriptorProto) (*desc.FileDescriptor, error) {
	deps := make([]*desc.FileDescriptor, len(fd.GetDependency()))
	for i, depName := range fd.GetDependency() {
	if dep, err := cr.FileByFilename(depName); err != nil {
	return nil, err
	} else {
	deps[i] = dep
	}
	}
	d, err := desc.CreateFileDescriptor(fd, deps...)
	if err != nil {
	return nil, err
	}
	d = cr.cacheFile(d)
	return d, nil
	}

	func (cr Client) cacheFile(fd desc.FileDescriptor) *desc.FileDescriptor {
	cr.cacheMu.Lock()
	defer cr.cacheMu.Unlock()

	// cache file descriptor by name, but don't overwrite existing entry
	// (existing entry could come from concurrent caller)
	if existingFd, ok := cr.filesByName[fd.GetName()]; ok {
	return existingFd
	}
	cr.filesByName[fd.GetName()] = fd

	// also cache by symbols and extensions
	for _, m := range fd.GetMessageTypes() {
	cr.cacheMessageLocked(fd, m)
	}
	for _, e := range fd.GetEnumTypes() {
	cr.filesBySymbol[e.GetFullyQualifiedName()] = fd
	for _, v := range e.GetValues() {
	cr.filesBySymbol[v.GetFullyQualifiedName()] = fd
	}
	}
	for _, e := range fd.GetExtensions() {
	cr.filesBySymbol[e.GetFullyQualifiedName()] = fd
	cr.filesByExtension[extDesc{e.GetOwner().GetFullyQualifiedName(), e.GetNumber()}] = fd
	}
	for _, s := range fd.GetServices() {
	cr.filesBySymbol[s.GetFullyQualifiedName()] = fd
	for _, m := range s.GetMethods() {
	cr.filesBySymbol[m.GetFullyQualifiedName()] = fd
	}
	}

	return fd
	}

	func (cr Client) cacheMessageLocked(fd desc.FileDescriptor, md *desc.MessageDescriptor) {
	cr.filesBySymbol[md.GetFullyQualifiedName()] = fd
	for _, f := range md.GetFields() {
	cr.filesBySymbol[f.GetFullyQualifiedName()] = fd
	}
	for _, o := range md.GetOneOfs() {
	cr.filesBySymbol[o.GetFullyQualifiedName()] = fd
	}
	for _, e := range md.GetNestedEnumTypes() {
	cr.filesBySymbol[e.GetFullyQualifiedName()] = fd
	for _, v := range e.GetValues() {
	cr.filesBySymbol[v.GetFullyQualifiedName()] = fd
	}
	}
	for _, e := range md.GetNestedExtensions() {
	cr.filesBySymbol[e.GetFullyQualifiedName()] = fd
	cr.filesByExtension[extDesc{e.GetOwner().GetFullyQualifiedName(), e.GetNumber()}] = fd
	}
	for _, m := range md.GetNestedMessageTypes() {
	cr.cacheMessageLocked(fd, m) // recurse
	}
	}

	// AllExtensionNumbersForType asks the server for all known extension numbers
	// for the given fully-qualified message name.
	func (cr *Client) AllExtensionNumbersForType(extendedMessageName string) ([]int32, error) {
	req := &rpb.ServerReflectionRequest{
	MessageRequest: &rpb.ServerReflectionRequest_AllExtensionNumbersOfType{
	AllExtensionNumbersOfType: extendedMessageName,
	},
	}
	resp, err := cr.send(req)
	if err != nil {
	if isNotFound(err) {
	return nil, symbolNotFound(extendedMessageName, symbolTypeMessage, nil)
	}
	return nil, err
	}

	extResp := resp.GetAllExtensionNumbersResponse()
	if extResp == nil {
	return nil, &ProtocolError{reflect.TypeOf(extResp).Elem()}
	}
	return extResp.ExtensionNumber, nil
	}

	// ListServices asks the server for the fully-qualified names of all exposed
	// services.
	func (cr *Client) ListServices() ([]string, error) {
	req := &rpb.ServerReflectionRequest{
	MessageRequest: &rpb.ServerReflectionRequest_ListServices{
	// proto doesn't indicate any purpose for this value and server impl
	// doesn't actually use it...
	ListServices: "*",
	},
	}
	resp, err := cr.send(req)
	if err != nil {
	return nil, err
	}

	listResp := resp.GetListServicesResponse()
	if listResp == nil {
	return nil, &ProtocolError{reflect.TypeOf(listResp).Elem()}
	}
	serviceNames := make([]string, len(listResp.Service))
	for i, s := range listResp.Service {
	serviceNames[i] = s.Name
	}
	return serviceNames, nil
	}

	func (cr Client) send(req rpb.ServerReflectionRequest) (*rpb.ServerReflectionResponse, error) {
	// we allow one immediate retry, in case we have a stale stream
	// (e.g. closed by server)
	resp, err := cr.doSend(true, req)
	if err != nil {
	return nil, err
	}

	// convert error response messages into errors
	errResp := resp.GetErrorResponse()
	if errResp != nil {
	return nil, status.Errorf(codes.Code(errResp.ErrorCode), "%s", errResp.ErrorMessage)
	}

	return resp, nil
	}

	func isNotFound(err error) bool {
	if err == nil {
	return false
	}
	s, ok := status.FromError(err)
	return ok && s.Code() == codes.NotFound
	}

	func (cr Client) doSend(retry bool, req rpb.ServerReflectionRequest) (*rpb.ServerReflectionResponse, error) {
	// TODO: Streams are thread-safe, so we shouldn't need to lock. But without locking, we'll need more machinery
	// (goroutines and channels) to ensure that responses are correctly correlated with their requests and thus
	// delivered in correct oder.
	cr.connMu.Lock()
	defer cr.connMu.Unlock()
	return cr.doSendLocked(retry, req)
	}

	func (cr Client) doSendLocked(retry bool, req rpb.ServerReflectionRequest) (*rpb.ServerReflectionResponse, error) {
	if err := cr.initStreamLocked(); err != nil {
	return nil, err
	}

	if err := cr.stream.Send(req); err != nil {
	if err == io.EOF {
	// if send returns EOF, must call Recv to get real underlying error
	_, err = cr.stream.Recv()
	}
	cr.resetLocked()
	if retry {
	return cr.doSendLocked(false, req)
	}
	return nil, err
	}

	if resp, err := cr.stream.Recv(); err != nil {
	cr.resetLocked()
	if retry {
	return cr.doSendLocked(false, req)
	}
	return nil, err
	} else {
	return resp, nil
	}
	}

	func (cr *Client) initStreamLocked() error {
	if cr.stream != nil {
	return nil
	}
	var newCtx context.Context
	newCtx, cr.cancel = context.WithCancel(cr.ctx)
	var err error
	cr.stream, err = cr.stub.ServerReflectionInfo(newCtx)
	return err
	}

	// Reset ensures that any active stream with the server is closed, releasing any
	// resources.
	func (cr *Client) Reset() {
	cr.connMu.Lock()
	defer cr.connMu.Unlock()
	cr.resetLocked()
	}

	func (cr *Client) resetLocked() {
	if cr.stream != nil {
	cr.stream.CloseSend()
	for {
	// drain the stream, this covers io.EOF too
	if _, err := cr.stream.Recv(); err != nil {
	break
	}
	}
	cr.stream = nil
	}
	if cr.cancel != nil {
	cr.cancel()
	cr.cancel = nil
	}
	}

	// ResolveService asks the server to resolve the given fully-qualified service
	// name into a service descriptor.
	func (cr Client) ResolveService(serviceName string) (desc.ServiceDescriptor, error) {
	file, err := cr.FileContainingSymbol(serviceName)
	if err != nil {
	return nil, setSymbolType(err, serviceName, symbolTypeService)
	}
	d := file.FindSymbol(serviceName)
	if d == nil {
	return nil, symbolNotFound(serviceName, symbolTypeService, nil)
	}
	if s, ok := d.(*desc.ServiceDescriptor); ok {
	return s, nil
	} else {
	return nil, symbolNotFound(serviceName, symbolTypeService, nil)
	}
	}

	// ResolveMessage asks the server to resolve the given fully-qualified message
	// name into a message descriptor.
	func (cr Client) ResolveMessage(messageName string) (desc.MessageDescriptor, error) {
	file, err := cr.FileContainingSymbol(messageName)
	if err != nil {
	return nil, setSymbolType(err, messageName, symbolTypeMessage)
	}
	d := file.FindSymbol(messageName)
	if d == nil {
	return nil, symbolNotFound(messageName, symbolTypeMessage, nil)
	}
	if s, ok := d.(*desc.MessageDescriptor); ok {
	return s, nil
	} else {
	return nil, symbolNotFound(messageName, symbolTypeMessage, nil)
	}
	}

	// ResolveEnum asks the server to resolve the given fully-qualified enum name
	// into an enum descriptor.
	func (cr Client) ResolveEnum(enumName string) (desc.EnumDescriptor, error) {
	file, err := cr.FileContainingSymbol(enumName)
	if err != nil {
	return nil, setSymbolType(err, enumName, symbolTypeEnum)
	}
	d := file.FindSymbol(enumName)
	if d == nil {
	return nil, symbolNotFound(enumName, symbolTypeEnum, nil)
	}
	if s, ok := d.(*desc.EnumDescriptor); ok {
	return s, nil
	} else {
	return nil, symbolNotFound(enumName, symbolTypeEnum, nil)
	}
	}

	func setSymbolType(err error, name string, symType symbolType) error {
	if e, ok := err.(*elementNotFoundError); ok {
	if e.kind == elementKindSymbol && e.name == name && e.symType == symbolTypeUnknown {
	e.symType = symType
	}
	}
	return err
	}

	// ResolveEnumValues asks the server to resolve the given fully-qualified enum
	// name into a map of names to numbers that represents the enum's values.
	func (cr *Client) ResolveEnumValues(enumName string) (map[string]int32, error) {
	enumDesc, err := cr.ResolveEnum(enumName)
	if err != nil {
	return nil, err
	}
	vals := map[string]int32{}
	for _, valDesc := range enumDesc.GetValues() {
	vals[valDesc.GetName()] = valDesc.GetNumber()
	}
	return vals, nil
	}

	// ResolveExtension asks the server to resolve the given extension number and
	// fully-qualified message name into a field descriptor.
	func (cr Client) ResolveExtension(extendedType string, extensionNumber int32) (desc.FieldDescriptor, error) {
	file, err := cr.FileContainingExtension(extendedType, extensionNumber)
	if err != nil {
	return nil, err
	}
	d := findExtension(extendedType, extensionNumber, fileDescriptorExtensions{file})
	if d == nil {
	return nil, extensionNotFound(extendedType, extensionNumber, nil)
	} else {
	return d, nil
	}
	}

	func findExtension(extendedType string, extensionNumber int32, scope extensionScope) *desc.FieldDescriptor {
	// search extensions in this scope
	for _, ext := range scope.extensions() {
	if ext.GetNumber() == extensionNumber && ext.GetOwner().GetFullyQualifiedName() == extendedType {
	return ext
	}
	}

	// if not found, search nested scopes
	for _, nested := range scope.nestedScopes() {
	ext := findExtension(extendedType, extensionNumber, nested)
	if ext != nil {
	return ext
	}
	}

	return nil
	}

	type extensionScope interface {
	extensions() []*desc.FieldDescriptor
	nestedScopes() []extensionScope
	}

	// fileDescriptorExtensions implements extensionHolder interface on top of
	// FileDescriptorProto
	type fileDescriptorExtensions struct {
	proto *desc.FileDescriptor
	}

	func (fde fileDescriptorExtensions) extensions() []*desc.FieldDescriptor {
	return fde.proto.GetExtensions()
	}

	func (fde fileDescriptorExtensions) nestedScopes() []extensionScope {
	scopes := make([]extensionScope, len(fde.proto.GetMessageTypes()))
	for i, m := range fde.proto.GetMessageTypes() {
	scopes[i] = msgDescriptorExtensions{m}
	}
	return scopes
	}

	// msgDescriptorExtensions implements extensionHolder interface on top of
	// DescriptorProto
	type msgDescriptorExtensions struct {
	proto *desc.MessageDescriptor
	}

	func (mde msgDescriptorExtensions) extensions() []*desc.FieldDescriptor {
	return mde.proto.GetNestedExtensions()
	}

	func (mde msgDescriptorExtensions) nestedScopes() []extensionScope {
	scopes := make([]extensionScope, len(mde.proto.GetNestedMessageTypes()))
	for i, m := range mde.proto.GetNestedMessageTypes() {
	scopes[i] = msgDescriptorExtensions{m}
	}
	return scopes
	}