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4fddebafc0
protobuf-go/internal/legacy/extension.go
Joe Tsai 4fddebafc0 all: move v1 types over to the v2 repository 
As a goal, v2 should not depend on v1. As another step towards that end,
we move all the types that used to be in the v1 protoapi package over to v2.

For now, we place MessageV1, ExtensionRangeV1, and ExtensionDescV1
in runtime/protoiface since these are types that generated messages will
probably have to reference forever. An alternative location could be
reflect/protoreflect, but it seems unfortunate to have to dirty the
namespace of that package with these types.

We move ExtensionFieldV1, ExtensionFieldsV1, and ExtensionFieldsOf
to internal/impl, since these are related to the implementation of a
generated message.

Since moving these types from v1 to v2 implies that the v1 protoapi
package is useless, we update all usages of v1 protoapi in the v2
repository to point to the relevant v2 type or functionality.

CL/168538 is the corresponding change to alter v1.
There will be a temporary build failure as it is not possible
to submit CL/168519 and CL/168538 atomically.

Change-Id: Ide4025c1b6af5b7f0696f4b65b988b4d10a50f0b
Reviewed-on: https://go-review.googlesource.com/c/protobuf/+/168519
Reviewed-by: Herbie Ong <herbie@google.com>
2019-03-22 20:01:07 +00:00

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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 legacy
import (
"fmt"
"reflect"
"sync"
ptag "github.com/golang/protobuf/v2/internal/encoding/tag"
pimpl "github.com/golang/protobuf/v2/internal/impl"
ptype "github.com/golang/protobuf/v2/internal/prototype"
pfmt "github.com/golang/protobuf/v2/internal/typefmt"
pvalue "github.com/golang/protobuf/v2/internal/value"
pref "github.com/golang/protobuf/v2/reflect/protoreflect"
piface "github.com/golang/protobuf/v2/runtime/protoiface"
)
// extensionDescKey is a comparable version of protoiface.ExtensionDescV1
// suitable for use as a key in a map.
type extensionDescKey struct {
typeV2 pref.ExtensionType
extendedType reflect.Type
extensionType reflect.Type
field int32
name string
tag string
filename string
}
func extensionDescKeyOf(d *piface.ExtensionDescV1) extensionDescKey {
return extensionDescKey{
d.Type,
reflect.TypeOf(d.ExtendedType),
reflect.TypeOf(d.ExtensionType),
d.Field, d.Name, d.Tag, d.Filename,
}
}
var (
extensionTypeCache sync.Map // map[extensionDescKey]protoreflect.ExtensionType
extensionDescCache sync.Map // map[protoreflect.ExtensionType]*protoiface.ExtensionDescV1
)
// extensionDescFromType converts a v2 protoreflect.ExtensionType to a
// protoiface.ExtensionDescV1. The returned ExtensionDesc must not be mutated.
func extensionDescFromType(t pref.ExtensionType) *piface.ExtensionDescV1 {
// Fast-path: check whether an extension desc is already nested within.
if t, ok := t.(interface {
ProtoLegacyExtensionDesc() *piface.ExtensionDescV1
}); ok {
if d := t.ProtoLegacyExtensionDesc(); d != nil {
return d
}
}
// Fast-path: check the cache for whether this ExtensionType has already
// been converted to a legacy descriptor.
if d, ok := extensionDescCache.Load(t); ok {
return d.(*piface.ExtensionDescV1)
}
// Determine the parent type if possible.
var parent piface.MessageV1
if mt, ok := t.ExtendedType().(pref.MessageType); ok {
// Create a new parent message and unwrap it if possible.
mv := mt.New().Interface()
t := reflect.TypeOf(mv)
if mv, ok := mv.(pvalue.Unwrapper); ok {
t = reflect.TypeOf(mv.ProtoUnwrap())
}
// Check whether the message implements the legacy v1 Message interface.
mz := reflect.Zero(t).Interface()
if mz, ok := mz.(piface.MessageV1); ok {
parent = mz
}
}
// Determine the v1 extension type, which is unfortunately not the same as
// the v2 ExtensionType.GoType.
extType := t.GoType()
switch extType.Kind() {
case reflect.Bool, reflect.Int32, reflect.Int64, reflect.Uint32, reflect.Uint64, reflect.Float32, reflect.Float64, reflect.String:
extType = reflect.PtrTo(extType) // T -> *T for singular scalar fields
case reflect.Ptr:
if extType.Elem().Kind() == reflect.Slice {
extType = extType.Elem() // *[]T -> []T for repeated fields
}
}
// Reconstruct the legacy enum full name, which is an odd mixture of the
// proto package name with the Go type name.
var enumName string
if t.Kind() == pref.EnumKind {
// Derive Go type name.
// For legacy enums, unwrap the wrapper to get the underlying Go type.
et := t.EnumType().(pref.EnumType)
var ev interface{} = et.New(0)
if u, ok := ev.(pvalue.Unwrapper); ok {
ev = u.ProtoUnwrap()
}
enumName = reflect.TypeOf(ev).Name()
// Derive the proto package name.
// For legacy enums, obtain the proto package from the raw descriptor.
var protoPkg string
if fd := parentFileDescriptor(et); fd != nil {
protoPkg = string(fd.Package())
}
if ed, ok := ev.(enumV1); ok && protoPkg == "" {
b, _ := ed.EnumDescriptor()
protoPkg = loadFileDesc(b).GetPackage()
}
if protoPkg != "" {
enumName = protoPkg + "." + enumName
}
}
// Derive the proto file that the extension was declared within.
var filename string
if fd := parentFileDescriptor(t); fd != nil {
filename = fd.Path()
}
// Construct and return a ExtensionDescV1.
d := &piface.ExtensionDescV1{
Type: t,
ExtendedType: parent,
ExtensionType: reflect.Zero(extType).Interface(),
Field: int32(t.Number()),
Name: string(t.FullName()),
Tag: ptag.Marshal(t, enumName),
Filename: filename,
}
if d, ok := extensionDescCache.LoadOrStore(t, d); ok {
return d.(*piface.ExtensionDescV1)
}
return d
}
// extensionTypeFromDesc converts a protoiface.ExtensionDescV1 to a
// v2 protoreflect.ExtensionType. The returned descriptor type takes ownership
// of the input extension desc. The input must not be mutated so long as the
// returned type is still in use.
func extensionTypeFromDesc(d *piface.ExtensionDescV1) pref.ExtensionType {
// Fast-path: check whether an extension type is already nested within.
if d.Type != nil {
return d.Type
}
// Fast-path: check the cache for whether this ExtensionType has already
// been converted from a legacy descriptor.
dk := extensionDescKeyOf(d)
if t, ok := extensionTypeCache.Load(dk); ok {
return t.(pref.ExtensionType)
}
// Derive basic field information from the struct tag.
t := reflect.TypeOf(d.ExtensionType)
isOptional := t.Kind() == reflect.Ptr && t.Elem().Kind() != reflect.Struct
isRepeated := t.Kind() == reflect.Slice && t.Elem().Kind() != reflect.Uint8
if isOptional || isRepeated {
t = t.Elem()
}
f := ptag.Unmarshal(d.Tag, t)
// Construct a v2 ExtensionType.
conv := pvalue.NewLegacyConverter(t, f.Kind, Export{})
xd, err := ptype.NewExtension(&ptype.StandaloneExtension{
FullName: pref.FullName(d.Name),
Number: pref.FieldNumber(d.Field),
Cardinality: f.Cardinality,
Kind: f.Kind,
Default: f.Default,
Options: f.Options,
EnumType: conv.EnumType,
MessageType: conv.MessageType,
ExtendedType: pimpl.Export{}.MessageTypeOf(d.ExtendedType),
})
if err != nil {
panic(err)
}
var zv interface{}
switch xd.Kind() {
case pref.EnumKind, pref.MessageKind, pref.GroupKind:
zv = reflect.Zero(t).Interface()
}
xt := pimpl.Export{}.ExtensionTypeOf(xd, zv)
// Cache the conversion for both directions.
extensionDescCache.LoadOrStore(xt, d)
if xt, ok := extensionTypeCache.LoadOrStore(dk, xt); ok {
return xt.(pref.ExtensionType)
}
return xt
}
// extensionTypeOf returns a protoreflect.ExtensionType where the GoType
// is the underlying v1 Go type instead of the wrapper types used to present
// v1 Go types as if they satisfied the v2 API.
//
// This function is only valid if xd.Kind is an enum or message.
func extensionTypeOf(xd pref.ExtensionDescriptor, t reflect.Type) pref.ExtensionType {
// Step 1: Create an ExtensionType where GoType is the wrapper type.
conv := pvalue.NewLegacyConverter(t, xd.Kind(), Export{})
xt := ptype.GoExtension(xd, conv.EnumType, conv.MessageType)
// Step 2: Wrap ExtensionType such that GoType presents the legacy Go type.
xt2 := &extensionType{ExtensionType: xt}
if xd.Cardinality() != pref.Repeated {
xt2.typ = t
xt2.new = func() pref.Value {
return xt.New()
}
xt2.valueOf = func(v interface{}) pref.Value {
if reflect.TypeOf(v) != xt2.typ {
panic(fmt.Sprintf("invalid type: got %T, want %v", v, xt2.typ))
}
if xd.Kind() == pref.EnumKind {
return xt.ValueOf(Export{}.EnumOf(v))
} else {
return xt.ValueOf(Export{}.MessageOf(v).Interface())
}
}
xt2.interfaceOf = func(v pref.Value) interface{} {
return xt.InterfaceOf(v).(pvalue.Unwrapper).ProtoUnwrap()
}
} else {
xt2.typ = reflect.PtrTo(reflect.SliceOf(t))
xt2.new = func() pref.Value {
v := reflect.New(xt2.typ.Elem()).Interface()
return pref.ValueOf(pvalue.ListOf(v, conv))
}
xt2.valueOf = func(v interface{}) pref.Value {
if reflect.TypeOf(v) != xt2.typ {
panic(fmt.Sprintf("invalid type: got %T, want %v", v, xt2.typ))
}
return pref.ValueOf(pvalue.ListOf(v, conv))
}
xt2.interfaceOf = func(pv pref.Value) interface{} {
v := pv.List().(pvalue.Unwrapper).ProtoUnwrap()
if reflect.TypeOf(v) != xt2.typ {
panic(fmt.Sprintf("invalid type: got %T, want %v", v, xt2.typ))
}
return v
}
}
return xt2
}
type extensionType struct {
pref.ExtensionType
typ reflect.Type
new func() pref.Value
valueOf func(interface{}) pref.Value
interfaceOf func(pref.Value) interface{}
}
func (x *extensionType) GoType() reflect.Type { return x.typ }
func (x *extensionType) New() pref.Value { return x.new() }
func (x *extensionType) ValueOf(v interface{}) pref.Value { return x.valueOf(v) }
func (x *extensionType) InterfaceOf(v pref.Value) interface{} { return x.interfaceOf(v) }
func (x *extensionType) Format(s fmt.State, r rune) { pfmt.FormatDesc(s, r, x) }
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