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go / protobuf / 4fddebafc0c1b39a8bcedf0e8a40064eb4669902 / . / internal / impl / legacy_extension.go
blob: 424ee3f2868d55edfa7136e86668187567024ee9 [file] [log] [blame]
// 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 (
"reflect"
"sync"
pref "github.com/golang/protobuf/v2/reflect/protoreflect"
piface "github.com/golang/protobuf/v2/runtime/protoiface"
)
func makeLegacyExtensionFieldsFunc(t reflect.Type) func(p *messageDataType) pref.KnownFields {
f := makeLegacyExtensionMapFunc(t)
if f == nil {
return nil
}
return func(p *messageDataType) pref.KnownFields {
if p.p.IsNil() {
return emptyExtensionFields{}
}
return legacyExtensionFields{p.mi, f(p)}
}
}
var (
extTypeA = reflect.TypeOf(map[int32]ExtensionFieldV1(nil))
extTypeB = reflect.TypeOf(ExtensionFieldsV1{})
)
func makeLegacyExtensionMapFunc(t reflect.Type) func(*messageDataType) legacyExtensionFieldsIface {
fx1, _ := t.FieldByName("XXX_extensions")
fx2, _ := t.FieldByName("XXX_InternalExtensions")
switch {
case fx1.Type == extTypeA:
fieldOffset := offsetOf(fx1)
return func(p *messageDataType) legacyExtensionFieldsIface {
v := p.p.Apply(fieldOffset).AsValueOf(fx1.Type).Interface()
return Export{}.ExtensionFieldsOf(v)
}
case fx2.Type == extTypeB:
fieldOffset := offsetOf(fx2)
return func(p *messageDataType) legacyExtensionFieldsIface {
v := p.p.Apply(fieldOffset).AsValueOf(fx2.Type).Interface()
return Export{}.ExtensionFieldsOf(v)
}
default:
return nil
}
}
type legacyExtensionFields struct {
mi *MessageType
x legacyExtensionFieldsIface
}
func (p legacyExtensionFields) Len() (n int) {
p.x.Range(func(num pref.FieldNumber, _ ExtensionFieldV1) bool {
if p.Has(pref.FieldNumber(num)) {
n++
}
return true
})
return n
}
func (p legacyExtensionFields) Has(n pref.FieldNumber) bool {
x := p.x.Get(n)
if x.Value == nil {
return false
}
t := extensionTypeFromDesc(x.Desc)
if t.Cardinality() == pref.Repeated {
return t.ValueOf(x.Value).List().Len() > 0
}
return true
}
func (p legacyExtensionFields) Get(n pref.FieldNumber) pref.Value {
x := p.x.Get(n)
if x.Desc == nil {
return pref.Value{}
}
t := extensionTypeFromDesc(x.Desc)
if x.Value == nil {
// NOTE: x.Value is never nil for Lists since they are always populated
// during ExtensionFieldTypes.Register.
if t.Kind() == pref.MessageKind || t.Kind() == pref.GroupKind {
return pref.Value{}
}
return t.Default()
}
return t.ValueOf(x.Value)
}
func (p legacyExtensionFields) Set(n pref.FieldNumber, v pref.Value) {
x := p.x.Get(n)
if x.Desc == nil {
panic("no extension descriptor registered")
}
t := extensionTypeFromDesc(x.Desc)
x.Value = t.InterfaceOf(v)
p.x.Set(n, x)
}
func (p legacyExtensionFields) Clear(n pref.FieldNumber) {
x := p.x.Get(n)
if x.Desc == nil {
return
}
t := extensionTypeFromDesc(x.Desc)
if t.Cardinality() == pref.Repeated {
t.ValueOf(x.Value).List().Truncate(0)
return
}
x.Value = nil
p.x.Set(n, x)
}
func (p legacyExtensionFields) Range(f func(pref.FieldNumber, pref.Value) bool) {
p.x.Range(func(n pref.FieldNumber, x ExtensionFieldV1) bool {
if p.Has(n) {
return f(n, p.Get(n))
}
return true
})
}
func (p legacyExtensionFields) NewMessage(n pref.FieldNumber) pref.Message {
x := p.x.Get(n)
if x.Desc == nil {
panic("no extension descriptor registered")
}
xt := extensionTypeFromDesc(x.Desc)
return xt.New().Message()
}
func (p legacyExtensionFields) ExtensionTypes() pref.ExtensionFieldTypes {
return legacyExtensionTypes(p)
}
type legacyExtensionTypes legacyExtensionFields
func (p legacyExtensionTypes) Len() (n int) {
p.x.Range(func(_ pref.FieldNumber, x ExtensionFieldV1) bool {
if x.Desc != nil {
n++
}
return true
})
return n
}
func (p legacyExtensionTypes) Register(t pref.ExtensionType) {
if p.mi.PBType.FullName() != t.ExtendedType().FullName() {
panic("extended type mismatch")
}
if !p.mi.PBType.ExtensionRanges().Has(t.Number()) {
panic("invalid extension field number")
}
x := p.x.Get(t.Number())
if x.Desc != nil {
panic("extension descriptor already registered")
}
x.Desc = extensionDescFromType(t)
if t.Cardinality() == pref.Repeated {
// If the field is repeated, initialize the entry with an empty list
// so that future Get operations can return a mutable and concrete list.
x.Value = t.InterfaceOf(t.New())
}
p.x.Set(t.Number(), x)
}
func (p legacyExtensionTypes) Remove(t pref.ExtensionType) {
if !p.mi.PBType.ExtensionRanges().Has(t.Number()) {
return
}
x := p.x.Get(t.Number())
if t.Cardinality() == pref.Repeated {
// Treat an empty repeated field as unpopulated.
v := reflect.ValueOf(x.Value)
if x.Value == nil || v.IsNil() || v.Elem().Len() == 0 {
x.Value = nil
}
}
if x.Value != nil {
panic("value for extension descriptor still populated")
}
x.Desc = nil
if len(x.Raw) == 0 {
p.x.Clear(t.Number())
} else {
p.x.Set(t.Number(), x)
}
}
func (p legacyExtensionTypes) ByNumber(n pref.FieldNumber) pref.ExtensionType {
x := p.x.Get(n)
if x.Desc != nil {
return extensionTypeFromDesc(x.Desc)
}
return nil
}
func (p legacyExtensionTypes) ByName(s pref.FullName) (t pref.ExtensionType) {
p.x.Range(func(_ pref.FieldNumber, x ExtensionFieldV1) bool {
if x.Desc != nil && x.Desc.Name == string(s) {
t = extensionTypeFromDesc(x.Desc)
return false
}
return true
})
return t
}
func (p legacyExtensionTypes) Range(f func(pref.ExtensionType) bool) {
p.x.Range(func(_ pref.FieldNumber, x ExtensionFieldV1) bool {
if x.Desc != nil {
if !f(extensionTypeFromDesc(x.Desc)) {
return false
}
}
return true
})
}
func extensionDescFromType(typ pref.ExtensionType) *piface.ExtensionDescV1 {
if xt, ok := typ.(interface {
ProtoLegacyExtensionDesc() *piface.ExtensionDescV1
}); ok {
if desc := xt.ProtoLegacyExtensionDesc(); desc != nil {
return desc
}
}
return legacyWrapper.ExtensionDescFromType(typ)
}
func extensionTypeFromDesc(desc *piface.ExtensionDescV1) pref.ExtensionType {
if desc.Type != nil {
return desc.Type
}
return legacyWrapper.ExtensionTypeFromDesc(desc)
}
type legacyExtensionFieldsIface = interface {
Len() int
Has(pref.FieldNumber) bool
Get(pref.FieldNumber) ExtensionFieldV1
Set(pref.FieldNumber, ExtensionFieldV1)
Clear(pref.FieldNumber)
Range(f func(pref.FieldNumber, ExtensionFieldV1) bool)
// HasInit and Locker are used by v1 GetExtension to provide
// an artificial degree of concurrent safety.
HasInit() bool
sync.Locker
}
type ExtensionFieldV1 struct {
// TODO: Unexport these fields when v1 no longer interacts with the
// extension data structures directly.
// When an extension is stored in a message using SetExtension
// only desc and value are set. When the message is marshaled
// Raw will be set to the encoded form of the message.
//
// When a message is unmarshaled and contains extensions, each
// extension will have only Raw set. When such an extension is
// accessed using GetExtension (or GetExtensions) desc and value
// will be set.
Desc *piface.ExtensionDescV1 // TODO: switch to protoreflect.ExtensionType
// Value is a concrete value for the extension field. Let the type of
// Desc.ExtensionType be the "API type" and the type of Value be the
// "storage type". The API type and storage type are the same except:
// * for scalars (except []byte), where the API type uses *T,
// while the storage type uses T.
// * for repeated fields, where the API type uses []T,
// while the storage type uses *[]T.
//
// The reason for the divergence is so that the storage type more naturally
// matches what is expected of when retrieving the values through the
// protobuf reflection APIs.
//
// The Value may only be populated if Desc is also populated.
Value interface{} // TODO: switch to protoreflect.Value
// Raw is the raw encoded bytes for the extension field.
// It is possible for Raw to be populated irrespective of whether the
// other fields are populated.
Raw []byte // TODO: switch to protoreflect.RawFields
}
type ExtensionFieldsV1 legacyExtensionSyncMap
type legacyExtensionSyncMap struct {
p *struct {
mu sync.Mutex
m legacyExtensionMap
}
}
func (m legacyExtensionSyncMap) Len() int {
if m.p == nil {
return 0
}
return m.p.m.Len()
}
func (m legacyExtensionSyncMap) Has(n pref.FieldNumber) bool {
if m.p == nil {
return false
}
return m.p.m.Has(n)
}
func (m legacyExtensionSyncMap) Get(n pref.FieldNumber) ExtensionFieldV1 {
if m.p == nil {
return ExtensionFieldV1{}
}
return m.p.m.Get(n)
}
func (m *legacyExtensionSyncMap) Set(n pref.FieldNumber, x ExtensionFieldV1) {
if m.p == nil {
m.p = new(struct {
mu sync.Mutex
m legacyExtensionMap
})
}
m.p.m.Set(n, x)
}
func (m legacyExtensionSyncMap) Clear(n pref.FieldNumber) {
if m.p == nil {
return
}
m.p.m.Clear(n)
}
func (m legacyExtensionSyncMap) Range(f func(pref.FieldNumber, ExtensionFieldV1) bool) {
if m.p == nil {
return
}
m.p.m.Range(f)
}
func (m legacyExtensionSyncMap) HasInit() bool {
return m.p != nil
}
func (m legacyExtensionSyncMap) Lock() {
m.p.mu.Lock()
}
func (m legacyExtensionSyncMap) Unlock() {
m.p.mu.Unlock()
}
type legacyExtensionMap map[int32]ExtensionFieldV1
func (m legacyExtensionMap) Len() int {
return len(m)
}
func (m legacyExtensionMap) Has(n pref.FieldNumber) bool {
_, ok := m[int32(n)]
return ok
}
func (m legacyExtensionMap) Get(n pref.FieldNumber) ExtensionFieldV1 {
return m[int32(n)]
}
func (m *legacyExtensionMap) Set(n pref.FieldNumber, x ExtensionFieldV1) {
if *m == nil {
*m = make(map[int32]ExtensionFieldV1)
}
(*m)[int32(n)] = x
}
func (m *legacyExtensionMap) Clear(n pref.FieldNumber) {
delete(*m, int32(n))
}
func (m legacyExtensionMap) Range(f func(pref.FieldNumber, ExtensionFieldV1) bool) {
for n, x := range m {
if !f(pref.FieldNumber(n), x) {
return
}
}
}
var legacyExtensionLock sync.Mutex
func (m legacyExtensionMap) HasInit() bool {
return m != nil
}
func (m legacyExtensionMap) Lock() {
if !m.HasInit() {
panic("cannot lock an uninitialized map")
}
legacyExtensionLock.Lock()
}
func (m legacyExtensionMap) Unlock() {
legacyExtensionLock.Unlock()
}