reflect/protorange/range.go - protobuf - Git at Google

 // Copyright 2020 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 protorange provides functionality to traverse a message value.
 package protorange

 import (
 	"bytes"
 	"errors"

 	"google.golang.org/protobuf/internal/genid"
 	"google.golang.org/protobuf/internal/order"
 	"google.golang.org/protobuf/proto"
 	"google.golang.org/protobuf/reflect/protopath"
 	"google.golang.org/protobuf/reflect/protoreflect"
 	"google.golang.org/protobuf/reflect/protoregistry"
 )

 var (
 	// Break breaks traversal of children in the current value.
 	// It has no effect when traversing values that are not composite types
 	// (e.g., messages, lists, and maps).
 	Break = errors.New("break traversal of children in current value")

 	// Terminate terminates the entire range operation.
 	// All necessary Pop operations continue to be called.
 	Terminate = errors.New("terminate range operation")
 )

 // Range performs a depth-first traversal over reachable values in a message.
 //
 // See Options.Range for details.
 func Range(m protoreflect.Message, f func(protopath.Values) error) error {
 	return Options{}.Range(m, f, nil)
 }

 // Options configures traversal of a message value tree.
 type Options struct {
 	// Stable specifies whether to visit message fields and map entries
 	// in a stable ordering. If false, then the ordering is undefined and
 	// may be non-deterministic.
 	//
 	// Message fields are visited in ascending order by field number.
 	// Map entries are visited in ascending order, where
 	// boolean keys are ordered such that false sorts before true,
 	// numeric keys are ordered based on the numeric value, and
 	// string keys are lexicographically ordered by Unicode codepoints.
 	Stable bool

 	// Resolver is used for looking up types when expanding google.protobuf.Any
 	// messages. If nil, this defaults to using protoregistry.GlobalTypes.
 	// To prevent expansion of Any messages, pass an empty protoregistry.Types:
 	//
 	//	Options{Resolver: (*protoregistry.Types)(nil)}
 	//
 	Resolver interface {
 		protoregistry.ExtensionTypeResolver
 		protoregistry.MessageTypeResolver
 	}
 }

 // Range performs a depth-first traversal over reachable values in a message.
 // The first push and the last pop are to push/pop a protopath.Root step.
 // If push or pop return any non-nil error (other than Break or Terminate),
 // it terminates the traversal and is returned by Range.
 //
 // The rules for traversing a message is as follows:
 //
 // • For messages, iterate over every populated known and extension field.
 // Each field is preceded by a push of a protopath.FieldAccess step,
 // followed by recursive application of the rules on the field value,
 // and succeeded by a pop of that step.
 // If the message has unknown fields, then push an protopath.UnknownAccess step
 // followed immediately by pop of that step.
 //
 // • As an exception to the above rule, if the current message is a
 // google.protobuf.Any message, expand the underlying message (if resolvable).
 // The expanded message is preceded by a push of a protopath.AnyExpand step,
 // followed by recursive application of the rules on the underlying message,
 // and succeeded by a pop of that step. Mutations to the expanded message
 // are written back to the Any message when popping back out.
 //
 // • For lists, iterate over every element. Each element is preceded by a push
 // of a protopath.ListIndex step, followed by recursive application of the rules
 // on the list element, and succeeded by a pop of that step.
 //
 // • For maps, iterate over every entry. Each entry is preceded by a push
 // of a protopath.MapIndex step, followed by recursive application of the rules
 // on the map entry value, and succeeded by a pop of that step.
 //
 // Mutations should only be made to the last value, otherwise the effects on
 // traversal will be undefined. If the mutation is made to the last value
 // during to a push, then the effects of the mutation will affect traversal.
 // For example, if the last value is currently a message, and the push function
 // populates a few fields in that message, then the newly modified fields
 // will be traversed.
 //
 // The protopath.Values provided to push functions is only valid until the
 // corresponding pop call and the values provided to a pop call is only valid
 // for the duration of the pop call itself.
 func (o Options) Range(m protoreflect.Message, push, pop func(protopath.Values) error) error {
 	var err error
 	p := new(protopath.Values)
 	if o.Resolver == nil {
 		o.Resolver = protoregistry.GlobalTypes
 	}

 	pushStep(p, protopath.Root(m.Descriptor()), protoreflect.ValueOfMessage(m))
 	if push != nil {
 		err = amendError(err, push(*p))
 	}
 	if err == nil {
 		err = o.rangeMessage(p, m, push, pop)
 	}
 	if pop != nil {
 		err = amendError(err, pop(*p))
 	}
 	popStep(p)

 	if err == Break || err == Terminate {
 		err = nil
 	}
 	return err
 }

 func (o Options) rangeMessage(p *protopath.Values, m protoreflect.Message, push, pop func(protopath.Values) error) (err error) {
 	if ok, err := o.rangeAnyMessage(p, m, push, pop); ok {
 		return err
 	}

 	fieldOrder := order.AnyFieldOrder
 	if o.Stable {
 		fieldOrder = order.NumberFieldOrder
 	}
 	order.RangeFields(m, fieldOrder, func(fd protoreflect.FieldDescriptor, v protoreflect.Value) bool {
 		pushStep(p, protopath.FieldAccess(fd), v)
 		if push != nil {
 			err = amendError(err, push(*p))
 		}
 		if err == nil {
 			switch {
 			case fd.IsMap():
 				err = o.rangeMap(p, fd, v.Map(), push, pop)
 			case fd.IsList():
 				err = o.rangeList(p, fd, v.List(), push, pop)
 			case fd.Message() != nil:
 				err = o.rangeMessage(p, v.Message(), push, pop)
 			}
 		}
 		if pop != nil {
 			err = amendError(err, pop(*p))
 		}
 		popStep(p)
 		return err == nil
 	})

 	if b := m.GetUnknown(); len(b) > 0 && err == nil {
 		pushStep(p, protopath.UnknownAccess(), protoreflect.ValueOfBytes(b))
 		if push != nil {
 			err = amendError(err, push(*p))
 		}
 		if pop != nil {
 			err = amendError(err, pop(*p))
 		}
 		popStep(p)
 	}

 	if err == Break {
 		err = nil
 	}
 	return err
 }

 func (o Options) rangeAnyMessage(p *protopath.Values, m protoreflect.Message, push, pop func(protopath.Values) error) (ok bool, err error) {
 	md := m.Descriptor()
 	if md.FullName() != "google.protobuf.Any" {
 		return false, nil
 	}

 	fds := md.Fields()
 	url := m.Get(fds.ByNumber(genid.Any_TypeUrl_field_number)).String()
 	val := m.Get(fds.ByNumber(genid.Any_Value_field_number)).Bytes()
 	mt, errFind := o.Resolver.FindMessageByURL(url)
 	if errFind != nil {
 		return false, nil
 	}

 	// Unmarshal the raw encoded message value into a structured message value.
 	m2 := mt.New()
 	errUnmarshal := proto.UnmarshalOptions{
 		Merge:        true,
 		AllowPartial: true,
 		Resolver:     o.Resolver,
 	}.Unmarshal(val, m2.Interface())
 	if errUnmarshal != nil {
 		// If the the underlying message cannot be unmarshaled,
 		// then just treat this as an normal message type.
 		return false, nil
 	}

 	// Marshal Any before ranging to detect possible mutations.
 	b1, errMarshal := proto.MarshalOptions{
 		AllowPartial:  true,
 		Deterministic: true,
 	}.Marshal(m2.Interface())
 	if errMarshal != nil {
 		return true, errMarshal
 	}

 	pushStep(p, protopath.AnyExpand(m2.Descriptor()), protoreflect.ValueOfMessage(m2))
 	if push != nil {
 		err = amendError(err, push(*p))
 	}
 	if err == nil {
 		err = o.rangeMessage(p, m2, push, pop)
 	}
 	if pop != nil {
 		err = amendError(err, pop(*p))
 	}
 	popStep(p)

 	// Marshal Any after ranging to detect possible mutations.
 	b2, errMarshal := proto.MarshalOptions{
 		AllowPartial:  true,
 		Deterministic: true,
 	}.Marshal(m2.Interface())
 	if errMarshal != nil {
 		return true, errMarshal
 	}

 	// Mutations detected, write the new sequence of bytes to the Any message.
 	if !bytes.Equal(b1, b2) {
 		m.Set(fds.ByNumber(genid.Any_Value_field_number), protoreflect.ValueOfBytes(b2))
 	}

 	if err == Break {
 		err = nil
 	}
 	return true, err
 }

 func (o Options) rangeList(p *protopath.Values, fd protoreflect.FieldDescriptor, ls protoreflect.List, push, pop func(protopath.Values) error) (err error) {
 	for i := 0; i < ls.Len() && err == nil; i++ {
 		v := ls.Get(i)
 		pushStep(p, protopath.ListIndex(i), v)
 		if push != nil {
 			err = amendError(err, push(*p))
 		}
 		if err == nil && fd.Message() != nil {
 			err = o.rangeMessage(p, v.Message(), push, pop)
 		}
 		if pop != nil {
 			err = amendError(err, pop(*p))
 		}
 		popStep(p)
 	}

 	if err == Break {
 		err = nil
 	}
 	return err
 }

 func (o Options) rangeMap(p *protopath.Values, fd protoreflect.FieldDescriptor, ms protoreflect.Map, push, pop func(protopath.Values) error) (err error) {
 	keyOrder := order.AnyKeyOrder
 	if o.Stable {
 		keyOrder = order.GenericKeyOrder
 	}
 	order.RangeEntries(ms, keyOrder, func(k protoreflect.MapKey, v protoreflect.Value) bool {
 		pushStep(p, protopath.MapIndex(k), v)
 		if push != nil {
 			err = amendError(err, push(*p))
 		}
 		if err == nil && fd.MapValue().Message() != nil {
 			err = o.rangeMessage(p, v.Message(), push, pop)
 		}
 		if pop != nil {
 			err = amendError(err, pop(*p))
 		}
 		popStep(p)
 		return err == nil
 	})

 	if err == Break {
 		err = nil
 	}
 	return err
 }

 func pushStep(p *protopath.Values, s protopath.Step, v protoreflect.Value) {
 	p.Path = append(p.Path, s)
 	p.Values = append(p.Values, v)
 }

 func popStep(p *protopath.Values) {
 	p.Path = p.Path[:len(p.Path)-1]
 	p.Values = p.Values[:len(p.Values)-1]
 }

 // amendError amends the previous error with the current error if it is
 // considered more serious. The precedence order for errors is:
 //	nil < Break < Terminate < previous non-nil < current non-nil
 func amendError(prev, curr error) error {
 	switch {
 	case curr == nil:
 		return prev
 	case curr == Break && prev != nil:
 		return prev
 	case curr == Terminate && prev != nil && prev != Break:
 		return prev
 	default:
 		return curr
 	}
 }
	// Copyright 2020 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 protorange provides functionality to traverse a message value.
	package protorange

	import (
	"bytes"
	"errors"

	"google.golang.org/protobuf/internal/genid"
	"google.golang.org/protobuf/internal/order"
	"google.golang.org/protobuf/proto"
	"google.golang.org/protobuf/reflect/protopath"
	"google.golang.org/protobuf/reflect/protoreflect"
	"google.golang.org/protobuf/reflect/protoregistry"
	)

	var (
	// Break breaks traversal of children in the current value.
	// It has no effect when traversing values that are not composite types
	// (e.g., messages, lists, and maps).
	Break = errors.New("break traversal of children in current value")

	// Terminate terminates the entire range operation.
	// All necessary Pop operations continue to be called.
	Terminate = errors.New("terminate range operation")
	)

	// Range performs a depth-first traversal over reachable values in a message.
	//
	// See Options.Range for details.
	func Range(m protoreflect.Message, f func(protopath.Values) error) error {
	return Options{}.Range(m, f, nil)
	}

	// Options configures traversal of a message value tree.
	type Options struct {
	// Stable specifies whether to visit message fields and map entries
	// in a stable ordering. If false, then the ordering is undefined and
	// may be non-deterministic.
	//
	// Message fields are visited in ascending order by field number.
	// Map entries are visited in ascending order, where
	// boolean keys are ordered such that false sorts before true,
	// numeric keys are ordered based on the numeric value, and
	// string keys are lexicographically ordered by Unicode codepoints.
	Stable bool

	// Resolver is used for looking up types when expanding google.protobuf.Any
	// messages. If nil, this defaults to using protoregistry.GlobalTypes.
	// To prevent expansion of Any messages, pass an empty protoregistry.Types:
	//
	// Options{Resolver: (*protoregistry.Types)(nil)}
	//
	Resolver interface {
	protoregistry.ExtensionTypeResolver
	protoregistry.MessageTypeResolver
	}
	}

	// Range performs a depth-first traversal over reachable values in a message.
	// The first push and the last pop are to push/pop a protopath.Root step.
	// If push or pop return any non-nil error (other than Break or Terminate),
	// it terminates the traversal and is returned by Range.
	//
	// The rules for traversing a message is as follows:
	//
	// • For messages, iterate over every populated known and extension field.
	// Each field is preceded by a push of a protopath.FieldAccess step,
	// followed by recursive application of the rules on the field value,
	// and succeeded by a pop of that step.
	// If the message has unknown fields, then push an protopath.UnknownAccess step
	// followed immediately by pop of that step.
	//
	// • As an exception to the above rule, if the current message is a
	// google.protobuf.Any message, expand the underlying message (if resolvable).
	// The expanded message is preceded by a push of a protopath.AnyExpand step,
	// followed by recursive application of the rules on the underlying message,
	// and succeeded by a pop of that step. Mutations to the expanded message
	// are written back to the Any message when popping back out.
	//
	// • For lists, iterate over every element. Each element is preceded by a push
	// of a protopath.ListIndex step, followed by recursive application of the rules
	// on the list element, and succeeded by a pop of that step.
	//
	// • For maps, iterate over every entry. Each entry is preceded by a push
	// of a protopath.MapIndex step, followed by recursive application of the rules
	// on the map entry value, and succeeded by a pop of that step.
	//
	// Mutations should only be made to the last value, otherwise the effects on
	// traversal will be undefined. If the mutation is made to the last value
	// during to a push, then the effects of the mutation will affect traversal.
	// For example, if the last value is currently a message, and the push function
	// populates a few fields in that message, then the newly modified fields
	// will be traversed.
	//
	// The protopath.Values provided to push functions is only valid until the
	// corresponding pop call and the values provided to a pop call is only valid
	// for the duration of the pop call itself.
	func (o Options) Range(m protoreflect.Message, push, pop func(protopath.Values) error) error {
	var err error
	p := new(protopath.Values)
	if o.Resolver == nil {
	o.Resolver = protoregistry.GlobalTypes
	}

	pushStep(p, protopath.Root(m.Descriptor()), protoreflect.ValueOfMessage(m))
	if push != nil {
	err = amendError(err, push(*p))
	}
	if err == nil {
	err = o.rangeMessage(p, m, push, pop)
	}
	if pop != nil {
	err = amendError(err, pop(*p))
	}
	popStep(p)

	if err == Break \|\| err == Terminate {
	err = nil
	}
	return err
	}

	func (o Options) rangeMessage(p *protopath.Values, m protoreflect.Message, push, pop func(protopath.Values) error) (err error) {
	if ok, err := o.rangeAnyMessage(p, m, push, pop); ok {
	return err
	}

	fieldOrder := order.AnyFieldOrder
	if o.Stable {
	fieldOrder = order.NumberFieldOrder
	}
	order.RangeFields(m, fieldOrder, func(fd protoreflect.FieldDescriptor, v protoreflect.Value) bool {
	pushStep(p, protopath.FieldAccess(fd), v)
	if push != nil {
	err = amendError(err, push(*p))
	}
	if err == nil {
	switch {
	case fd.IsMap():
	err = o.rangeMap(p, fd, v.Map(), push, pop)
	case fd.IsList():
	err = o.rangeList(p, fd, v.List(), push, pop)
	case fd.Message() != nil:
	err = o.rangeMessage(p, v.Message(), push, pop)
	}
	}
	if pop != nil {
	err = amendError(err, pop(*p))
	}
	popStep(p)
	return err == nil
	})

	if b := m.GetUnknown(); len(b) > 0 && err == nil {
	pushStep(p, protopath.UnknownAccess(), protoreflect.ValueOfBytes(b))
	if push != nil {
	err = amendError(err, push(*p))
	}
	if pop != nil {
	err = amendError(err, pop(*p))
	}
	popStep(p)
	}

	if err == Break {
	err = nil
	}
	return err
	}

	func (o Options) rangeAnyMessage(p *protopath.Values, m protoreflect.Message, push, pop func(protopath.Values) error) (ok bool, err error) {
	md := m.Descriptor()
	if md.FullName() != "google.protobuf.Any" {
	return false, nil
	}

	fds := md.Fields()
	url := m.Get(fds.ByNumber(genid.Any_TypeUrl_field_number)).String()
	val := m.Get(fds.ByNumber(genid.Any_Value_field_number)).Bytes()
	mt, errFind := o.Resolver.FindMessageByURL(url)
	if errFind != nil {
	return false, nil
	}

	// Unmarshal the raw encoded message value into a structured message value.
	m2 := mt.New()
	errUnmarshal := proto.UnmarshalOptions{
	Merge: true,
	AllowPartial: true,
	Resolver: o.Resolver,
	}.Unmarshal(val, m2.Interface())
	if errUnmarshal != nil {
	// If the the underlying message cannot be unmarshaled,
	// then just treat this as an normal message type.
	return false, nil
	}

	// Marshal Any before ranging to detect possible mutations.
	b1, errMarshal := proto.MarshalOptions{
	AllowPartial: true,
	Deterministic: true,
	}.Marshal(m2.Interface())
	if errMarshal != nil {
	return true, errMarshal
	}

	pushStep(p, protopath.AnyExpand(m2.Descriptor()), protoreflect.ValueOfMessage(m2))
	if push != nil {
	err = amendError(err, push(*p))
	}
	if err == nil {
	err = o.rangeMessage(p, m2, push, pop)
	}
	if pop != nil {
	err = amendError(err, pop(*p))
	}
	popStep(p)

	// Marshal Any after ranging to detect possible mutations.
	b2, errMarshal := proto.MarshalOptions{
	AllowPartial: true,
	Deterministic: true,
	}.Marshal(m2.Interface())
	if errMarshal != nil {
	return true, errMarshal
	}

	// Mutations detected, write the new sequence of bytes to the Any message.
	if !bytes.Equal(b1, b2) {
	m.Set(fds.ByNumber(genid.Any_Value_field_number), protoreflect.ValueOfBytes(b2))
	}

	if err == Break {
	err = nil
	}
	return true, err
	}

	func (o Options) rangeList(p *protopath.Values, fd protoreflect.FieldDescriptor, ls protoreflect.List, push, pop func(protopath.Values) error) (err error) {
	for i := 0; i < ls.Len() && err == nil; i++ {
	v := ls.Get(i)
	pushStep(p, protopath.ListIndex(i), v)
	if push != nil {
	err = amendError(err, push(*p))
	}
	if err == nil && fd.Message() != nil {
	err = o.rangeMessage(p, v.Message(), push, pop)
	}
	if pop != nil {
	err = amendError(err, pop(*p))
	}
	popStep(p)
	}

	if err == Break {
	err = nil
	}
	return err
	}

	func (o Options) rangeMap(p *protopath.Values, fd protoreflect.FieldDescriptor, ms protoreflect.Map, push, pop func(protopath.Values) error) (err error) {
	keyOrder := order.AnyKeyOrder
	if o.Stable {
	keyOrder = order.GenericKeyOrder
	}
	order.RangeEntries(ms, keyOrder, func(k protoreflect.MapKey, v protoreflect.Value) bool {
	pushStep(p, protopath.MapIndex(k), v)
	if push != nil {
	err = amendError(err, push(*p))
	}
	if err == nil && fd.MapValue().Message() != nil {
	err = o.rangeMessage(p, v.Message(), push, pop)
	}
	if pop != nil {
	err = amendError(err, pop(*p))
	}
	popStep(p)
	return err == nil
	})

	if err == Break {
	err = nil
	}
	return err
	}

	func pushStep(p *protopath.Values, s protopath.Step, v protoreflect.Value) {
	p.Path = append(p.Path, s)
	p.Values = append(p.Values, v)
	}

	func popStep(p *protopath.Values) {
	p.Path = p.Path[:len(p.Path)-1]
	p.Values = p.Values[:len(p.Values)-1]
	}

	// amendError amends the previous error with the current error if it is
	// considered more serious. The precedence order for errors is:
	// nil < Break < Terminate < previous non-nil < current non-nil
	func amendError(prev, curr error) error {
	switch {
	case curr == nil:
	return prev
	case curr == Break && prev != nil:
	return prev
	case curr == Terminate && prev != nil && prev != Break:
	return prev
	default:
	return curr
	}
	}