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matterbridge/vendor/google.golang.org/protobuf/internal/impl/legacy_enum.go

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// Copyright 2018 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 impl
import (
"fmt"
"reflect"
"strings"
"sync"
"google.golang.org/protobuf/internal/filedesc"
"google.golang.org/protobuf/internal/strs"
"google.golang.org/protobuf/reflect/protoreflect"
)
// legacyEnumName returns the name of enums used in legacy code.
// It is neither the protobuf full name nor the qualified Go name,
// but rather an odd hybrid of both.
func legacyEnumName(ed protoreflect.EnumDescriptor) string {
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var protoPkg string
enumName := string(ed.FullName())
if fd := ed.ParentFile(); fd != nil {
protoPkg = string(fd.Package())
enumName = strings.TrimPrefix(enumName, protoPkg+".")
}
if protoPkg == "" {
return strs.GoCamelCase(enumName)
}
return protoPkg + "." + strs.GoCamelCase(enumName)
}
// legacyWrapEnum wraps v as a protoreflect.Enum,
// where v must be a int32 kind and not implement the v2 API already.
func legacyWrapEnum(v reflect.Value) protoreflect.Enum {
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et := legacyLoadEnumType(v.Type())
return et.New(protoreflect.EnumNumber(v.Int()))
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}
var legacyEnumTypeCache sync.Map // map[reflect.Type]protoreflect.EnumType
// legacyLoadEnumType dynamically loads a protoreflect.EnumType for t,
// where t must be an int32 kind and not implement the v2 API already.
func legacyLoadEnumType(t reflect.Type) protoreflect.EnumType {
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// Fast-path: check if a EnumType is cached for this concrete type.
if et, ok := legacyEnumTypeCache.Load(t); ok {
return et.(protoreflect.EnumType)
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}
// Slow-path: derive enum descriptor and initialize EnumType.
var et protoreflect.EnumType
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ed := LegacyLoadEnumDesc(t)
et = &legacyEnumType{
desc: ed,
goType: t,
}
if et, ok := legacyEnumTypeCache.LoadOrStore(t, et); ok {
return et.(protoreflect.EnumType)
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}
return et
}
type legacyEnumType struct {
desc protoreflect.EnumDescriptor
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goType reflect.Type
m sync.Map // map[protoreflect.EnumNumber]proto.Enum
}
func (t *legacyEnumType) New(n protoreflect.EnumNumber) protoreflect.Enum {
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if e, ok := t.m.Load(n); ok {
return e.(protoreflect.Enum)
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}
e := &legacyEnumWrapper{num: n, pbTyp: t, goTyp: t.goType}
t.m.Store(n, e)
return e
}
func (t *legacyEnumType) Descriptor() protoreflect.EnumDescriptor {
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return t.desc
}
type legacyEnumWrapper struct {
num protoreflect.EnumNumber
pbTyp protoreflect.EnumType
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goTyp reflect.Type
}
func (e *legacyEnumWrapper) Descriptor() protoreflect.EnumDescriptor {
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return e.pbTyp.Descriptor()
}
func (e *legacyEnumWrapper) Type() protoreflect.EnumType {
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return e.pbTyp
}
func (e *legacyEnumWrapper) Number() protoreflect.EnumNumber {
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return e.num
}
func (e *legacyEnumWrapper) ProtoReflect() protoreflect.Enum {
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return e
}
func (e *legacyEnumWrapper) protoUnwrap() interface{} {
v := reflect.New(e.goTyp).Elem()
v.SetInt(int64(e.num))
return v.Interface()
}
var (
_ protoreflect.Enum = (*legacyEnumWrapper)(nil)
_ unwrapper = (*legacyEnumWrapper)(nil)
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)
var legacyEnumDescCache sync.Map // map[reflect.Type]protoreflect.EnumDescriptor
// LegacyLoadEnumDesc returns an EnumDescriptor derived from the Go type,
// which must be an int32 kind and not implement the v2 API already.
//
// This is exported for testing purposes.
func LegacyLoadEnumDesc(t reflect.Type) protoreflect.EnumDescriptor {
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// Fast-path: check if an EnumDescriptor is cached for this concrete type.
if ed, ok := legacyEnumDescCache.Load(t); ok {
return ed.(protoreflect.EnumDescriptor)
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}
// Slow-path: initialize EnumDescriptor from the raw descriptor.
ev := reflect.Zero(t).Interface()
if _, ok := ev.(protoreflect.Enum); ok {
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panic(fmt.Sprintf("%v already implements proto.Enum", t))
}
edV1, ok := ev.(enumV1)
if !ok {
return aberrantLoadEnumDesc(t)
}
b, idxs := edV1.EnumDescriptor()
var ed protoreflect.EnumDescriptor
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if len(idxs) == 1 {
ed = legacyLoadFileDesc(b).Enums().Get(idxs[0])
} else {
md := legacyLoadFileDesc(b).Messages().Get(idxs[0])
for _, i := range idxs[1 : len(idxs)-1] {
md = md.Messages().Get(i)
}
ed = md.Enums().Get(idxs[len(idxs)-1])
}
if ed, ok := legacyEnumDescCache.LoadOrStore(t, ed); ok {
return ed.(protoreflect.EnumDescriptor)
}
return ed
}
var aberrantEnumDescCache sync.Map // map[reflect.Type]protoreflect.EnumDescriptor
// aberrantLoadEnumDesc returns an EnumDescriptor derived from the Go type,
// which must not implement protoreflect.Enum or enumV1.
//
// If the type does not implement enumV1, then there is no reliable
// way to derive the original protobuf type information.
// We are unable to use the global enum registry since it is
// unfortunately keyed by the protobuf full name, which we also do not know.
// Thus, this produces some bogus enum descriptor based on the Go type name.
func aberrantLoadEnumDesc(t reflect.Type) protoreflect.EnumDescriptor {
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// Fast-path: check if an EnumDescriptor is cached for this concrete type.
if ed, ok := aberrantEnumDescCache.Load(t); ok {
return ed.(protoreflect.EnumDescriptor)
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}
// Slow-path: construct a bogus, but unique EnumDescriptor.
ed := &filedesc.Enum{L2: new(filedesc.EnumL2)}
ed.L0.FullName = AberrantDeriveFullName(t) // e.g., github_com.user.repo.MyEnum
ed.L0.ParentFile = filedesc.SurrogateProto3
ed.L2.Values.List = append(ed.L2.Values.List, filedesc.EnumValue{})
// TODO: Use the presence of a UnmarshalJSON method to determine proto2?
vd := &ed.L2.Values.List[0]
vd.L0.FullName = ed.L0.FullName + "_UNKNOWN" // e.g., github_com.user.repo.MyEnum_UNKNOWN
vd.L0.ParentFile = ed.L0.ParentFile
vd.L0.Parent = ed
// TODO: We could use the String method to obtain some enum value names by
// starting at 0 and print the enum until it produces invalid identifiers.
// An exhaustive query is clearly impractical, but can be best-effort.
if ed, ok := aberrantEnumDescCache.LoadOrStore(t, ed); ok {
return ed.(protoreflect.EnumDescriptor)
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}
return ed
}
// AberrantDeriveFullName derives a fully qualified protobuf name for the given Go type
// The provided name is not guaranteed to be stable nor universally unique.
// It should be sufficiently unique within a program.
//
// This is exported for testing purposes.
func AberrantDeriveFullName(t reflect.Type) protoreflect.FullName {
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sanitize := func(r rune) rune {
switch {
case r == '/':
return '.'
case 'a' <= r && r <= 'z', 'A' <= r && r <= 'Z', '0' <= r && r <= '9':
return r
default:
return '_'
}
}
prefix := strings.Map(sanitize, t.PkgPath())
suffix := strings.Map(sanitize, t.Name())
if suffix == "" {
suffix = fmt.Sprintf("UnknownX%X", reflect.ValueOf(t).Pointer())
}
ss := append(strings.Split(prefix, "."), suffix)
for i, s := range ss {
if s == "" || ('0' <= s[0] && s[0] <= '9') {
ss[i] = "x" + s
}
}
return protoreflect.FullName(strings.Join(ss, "."))
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}