blob: 4a05830d1f613cec09b3bcf851697feb5bfd4337 [file] [log] [blame]
package desc
import (
"fmt"
"reflect"
"sync"
"github.com/golang/protobuf/proto"
dpb "github.com/golang/protobuf/protoc-gen-go/descriptor"
"github.com/jhump/protoreflect/internal"
)
var (
cacheMu sync.RWMutex
filesCache = map[string]*FileDescriptor{}
messagesCache = map[string]*MessageDescriptor{}
enumCache = map[reflect.Type]*EnumDescriptor{}
)
// LoadFileDescriptor creates a file descriptor using the bytes returned by
// proto.FileDescriptor. Descriptors are cached so that they do not need to be
// re-processed if the same file is fetched again later.
func LoadFileDescriptor(file string) (*FileDescriptor, error) {
return loadFileDescriptor(file, nil)
}
func loadFileDescriptor(file string, r *ImportResolver) (*FileDescriptor, error) {
f := getFileFromCache(file)
if f != nil {
return f, nil
}
cacheMu.Lock()
defer cacheMu.Unlock()
return loadFileDescriptorLocked(file, r)
}
func loadFileDescriptorLocked(file string, r *ImportResolver) (*FileDescriptor, error) {
f := filesCache[file]
if f != nil {
return f, nil
}
fd, err := internal.LoadFileDescriptor(file)
if err != nil {
return nil, err
}
f, err = toFileDescriptorLocked(fd, r)
if err != nil {
return nil, err
}
putCacheLocked(file, f)
return f, nil
}
func toFileDescriptorLocked(fd *dpb.FileDescriptorProto, r *ImportResolver) (*FileDescriptor, error) {
deps := make([]*FileDescriptor, len(fd.GetDependency()))
for i, dep := range fd.GetDependency() {
resolvedDep := r.ResolveImport(fd.GetName(), dep)
var err error
deps[i], err = loadFileDescriptorLocked(resolvedDep, r)
if _, ok := err.(internal.ErrNoSuchFile); ok && resolvedDep != dep {
// try original path
deps[i], err = loadFileDescriptorLocked(dep, r)
}
if err != nil {
return nil, err
}
}
return CreateFileDescriptor(fd, deps...)
}
func getFileFromCache(file string) *FileDescriptor {
cacheMu.RLock()
defer cacheMu.RUnlock()
return filesCache[file]
}
func putCacheLocked(filename string, fd *FileDescriptor) {
filesCache[filename] = fd
putMessageCacheLocked(fd.messages)
}
func putMessageCacheLocked(mds []*MessageDescriptor) {
for _, md := range mds {
messagesCache[md.fqn] = md
putMessageCacheLocked(md.nested)
}
}
// interface implemented by generated messages, which all have a Descriptor() method in
// addition to the methods of proto.Message
type protoMessage interface {
proto.Message
Descriptor() ([]byte, []int)
}
// LoadMessageDescriptor loads descriptor using the encoded descriptor proto returned by
// Message.Descriptor() for the given message type. If the given type is not recognized,
// then a nil descriptor is returned.
func LoadMessageDescriptor(message string) (*MessageDescriptor, error) {
return loadMessageDescriptor(message, nil)
}
func loadMessageDescriptor(message string, r *ImportResolver) (*MessageDescriptor, error) {
m := getMessageFromCache(message)
if m != nil {
return m, nil
}
pt := proto.MessageType(message)
if pt == nil {
return nil, nil
}
msg, err := messageFromType(pt)
if err != nil {
return nil, err
}
cacheMu.Lock()
defer cacheMu.Unlock()
return loadMessageDescriptorForTypeLocked(message, msg, r)
}
// LoadMessageDescriptorForType loads descriptor using the encoded descriptor proto returned
// by message.Descriptor() for the given message type. If the given type is not recognized,
// then a nil descriptor is returned.
func LoadMessageDescriptorForType(messageType reflect.Type) (*MessageDescriptor, error) {
return loadMessageDescriptorForType(messageType, nil)
}
func loadMessageDescriptorForType(messageType reflect.Type, r *ImportResolver) (*MessageDescriptor, error) {
m, err := messageFromType(messageType)
if err != nil {
return nil, err
}
return loadMessageDescriptorForMessage(m, r)
}
// LoadMessageDescriptorForMessage loads descriptor using the encoded descriptor proto
// returned by message.Descriptor(). If the given type is not recognized, then a nil
// descriptor is returned.
func LoadMessageDescriptorForMessage(message proto.Message) (*MessageDescriptor, error) {
return loadMessageDescriptorForMessage(message, nil)
}
func loadMessageDescriptorForMessage(message proto.Message, r *ImportResolver) (*MessageDescriptor, error) {
// efficiently handle dynamic messages
type descriptorable interface {
GetMessageDescriptor() *MessageDescriptor
}
if d, ok := message.(descriptorable); ok {
return d.GetMessageDescriptor(), nil
}
name := proto.MessageName(message)
if name == "" {
return nil, nil
}
m := getMessageFromCache(name)
if m != nil {
return m, nil
}
cacheMu.Lock()
defer cacheMu.Unlock()
return loadMessageDescriptorForTypeLocked(name, message.(protoMessage), nil)
}
func messageFromType(mt reflect.Type) (protoMessage, error) {
if mt.Kind() != reflect.Ptr {
mt = reflect.PtrTo(mt)
}
m, ok := reflect.Zero(mt).Interface().(protoMessage)
if !ok {
return nil, fmt.Errorf("failed to create message from type: %v", mt)
}
return m, nil
}
func loadMessageDescriptorForTypeLocked(name string, message protoMessage, r *ImportResolver) (*MessageDescriptor, error) {
m := messagesCache[name]
if m != nil {
return m, nil
}
fdb, _ := message.Descriptor()
fd, err := internal.DecodeFileDescriptor(name, fdb)
if err != nil {
return nil, err
}
f, err := toFileDescriptorLocked(fd, r)
if err != nil {
return nil, err
}
putCacheLocked(fd.GetName(), f)
return f.FindSymbol(name).(*MessageDescriptor), nil
}
func getMessageFromCache(message string) *MessageDescriptor {
cacheMu.RLock()
defer cacheMu.RUnlock()
return messagesCache[message]
}
// interface implemented by all generated enums
type protoEnum interface {
EnumDescriptor() ([]byte, []int)
}
// NB: There is no LoadEnumDescriptor that takes a fully-qualified enum name because
// it is not useful since protoc-gen-go does not expose the name anywhere in generated
// code or register it in a way that is it accessible for reflection code. This also
// means we have to cache enum descriptors differently -- we can only cache them as
// they are requested, as opposed to caching all enum types whenever a file descriptor
// is cached. This is because we need to know the generated type of the enums, and we
// don't know that at the time of caching file descriptors.
// LoadEnumDescriptorForType loads descriptor using the encoded descriptor proto returned
// by enum.EnumDescriptor() for the given enum type.
func LoadEnumDescriptorForType(enumType reflect.Type) (*EnumDescriptor, error) {
return loadEnumDescriptorForType(enumType, nil)
}
func loadEnumDescriptorForType(enumType reflect.Type, r *ImportResolver) (*EnumDescriptor, error) {
// we cache descriptors using non-pointer type
if enumType.Kind() == reflect.Ptr {
enumType = enumType.Elem()
}
e := getEnumFromCache(enumType)
if e != nil {
return e, nil
}
enum, err := enumFromType(enumType)
if err != nil {
return nil, err
}
cacheMu.Lock()
defer cacheMu.Unlock()
return loadEnumDescriptorForTypeLocked(enumType, enum, r)
}
// LoadEnumDescriptorForEnum loads descriptor using the encoded descriptor proto
// returned by enum.EnumDescriptor().
func LoadEnumDescriptorForEnum(enum protoEnum) (*EnumDescriptor, error) {
return loadEnumDescriptorForEnum(enum, nil)
}
func loadEnumDescriptorForEnum(enum protoEnum, r *ImportResolver) (*EnumDescriptor, error) {
et := reflect.TypeOf(enum)
// we cache descriptors using non-pointer type
if et.Kind() == reflect.Ptr {
et = et.Elem()
enum = reflect.Zero(et).Interface().(protoEnum)
}
e := getEnumFromCache(et)
if e != nil {
return e, nil
}
cacheMu.Lock()
defer cacheMu.Unlock()
return loadEnumDescriptorForTypeLocked(et, enum, r)
}
func enumFromType(et reflect.Type) (protoEnum, error) {
if et.Kind() != reflect.Int32 {
et = reflect.PtrTo(et)
}
e, ok := reflect.Zero(et).Interface().(protoEnum)
if !ok {
return nil, fmt.Errorf("failed to create enum from type: %v", et)
}
return e, nil
}
func loadEnumDescriptorForTypeLocked(et reflect.Type, enum protoEnum, r *ImportResolver) (*EnumDescriptor, error) {
e := enumCache[et]
if e != nil {
return e, nil
}
fdb, path := enum.EnumDescriptor()
name := fmt.Sprintf("%v", et)
fd, err := internal.DecodeFileDescriptor(name, fdb)
if err != nil {
return nil, err
}
// see if we already have cached "rich" descriptor
f, ok := filesCache[fd.GetName()]
if !ok {
f, err = toFileDescriptorLocked(fd, r)
if err != nil {
return nil, err
}
putCacheLocked(fd.GetName(), f)
}
ed := findEnum(f, path)
enumCache[et] = ed
return ed, nil
}
func getEnumFromCache(et reflect.Type) *EnumDescriptor {
cacheMu.RLock()
defer cacheMu.RUnlock()
return enumCache[et]
}
func findEnum(fd *FileDescriptor, path []int) *EnumDescriptor {
if len(path) == 1 {
return fd.GetEnumTypes()[path[0]]
}
md := fd.GetMessageTypes()[path[0]]
for _, i := range path[1 : len(path)-1] {
md = md.GetNestedMessageTypes()[i]
}
return md.GetNestedEnumTypes()[path[len(path)-1]]
}
// LoadFieldDescriptorForExtension loads the field descriptor that corresponds to the given
// extension description.
func LoadFieldDescriptorForExtension(ext *proto.ExtensionDesc) (*FieldDescriptor, error) {
return loadFieldDescriptorForExtension(ext, nil)
}
func loadFieldDescriptorForExtension(ext *proto.ExtensionDesc, r *ImportResolver) (*FieldDescriptor, error) {
file, err := loadFileDescriptor(ext.Filename, r)
if err != nil {
return nil, err
}
field, ok := file.FindSymbol(ext.Name).(*FieldDescriptor)
// make sure descriptor agrees with attributes of the ExtensionDesc
if !ok || !field.IsExtension() || field.GetOwner().GetFullyQualifiedName() != proto.MessageName(ext.ExtendedType) ||
field.GetNumber() != ext.Field {
return nil, fmt.Errorf("file descriptor contained unexpected object with name %s", ext.Name)
}
return field, nil
}