corvidd/api/cerc/registry/v1/registry.pulsar.go
Prathamesh Musale 0af44b5f17 Setup integration tests and CI (#11)
- Setup integration tests following pattern suggested in cosmos-sdk docs:
  https://docs.cosmos.network/v0.50/build/building-modules/testing#integration-tests
- Add tests for laconic modules query services
- Setup a CI workflow to run the integration tests

Reviewed-on: deep-stack/laconic2d#11
Co-authored-by: Prathamesh Musale <prathamesh.musale0@gmail.com>
Co-committed-by: Prathamesh Musale <prathamesh.musale0@gmail.com>
2024-02-29 11:54:35 +00:00

7668 lines
283 KiB
Go

// Code generated by protoc-gen-go-pulsar. DO NOT EDIT.
package registryv1
import (
v1beta1 "cosmossdk.io/api/cosmos/base/v1beta1"
fmt "fmt"
runtime "github.com/cosmos/cosmos-proto/runtime"
_ "github.com/cosmos/gogoproto/gogoproto"
protoreflect "google.golang.org/protobuf/reflect/protoreflect"
protoiface "google.golang.org/protobuf/runtime/protoiface"
protoimpl "google.golang.org/protobuf/runtime/protoimpl"
durationpb "google.golang.org/protobuf/types/known/durationpb"
timestamppb "google.golang.org/protobuf/types/known/timestamppb"
io "io"
reflect "reflect"
sync "sync"
)
var (
md_Params protoreflect.MessageDescriptor
fd_Params_record_rent protoreflect.FieldDescriptor
fd_Params_record_rent_duration protoreflect.FieldDescriptor
fd_Params_authority_rent protoreflect.FieldDescriptor
fd_Params_authority_rent_duration protoreflect.FieldDescriptor
fd_Params_authority_grace_period protoreflect.FieldDescriptor
fd_Params_authority_auction_enabled protoreflect.FieldDescriptor
fd_Params_authority_auction_commits_duration protoreflect.FieldDescriptor
fd_Params_authority_auction_reveals_duration protoreflect.FieldDescriptor
fd_Params_authority_auction_commit_fee protoreflect.FieldDescriptor
fd_Params_authority_auction_reveal_fee protoreflect.FieldDescriptor
fd_Params_authority_auction_minimum_bid protoreflect.FieldDescriptor
)
func init() {
file_cerc_registry_v1_registry_proto_init()
md_Params = File_cerc_registry_v1_registry_proto.Messages().ByName("Params")
fd_Params_record_rent = md_Params.Fields().ByName("record_rent")
fd_Params_record_rent_duration = md_Params.Fields().ByName("record_rent_duration")
fd_Params_authority_rent = md_Params.Fields().ByName("authority_rent")
fd_Params_authority_rent_duration = md_Params.Fields().ByName("authority_rent_duration")
fd_Params_authority_grace_period = md_Params.Fields().ByName("authority_grace_period")
fd_Params_authority_auction_enabled = md_Params.Fields().ByName("authority_auction_enabled")
fd_Params_authority_auction_commits_duration = md_Params.Fields().ByName("authority_auction_commits_duration")
fd_Params_authority_auction_reveals_duration = md_Params.Fields().ByName("authority_auction_reveals_duration")
fd_Params_authority_auction_commit_fee = md_Params.Fields().ByName("authority_auction_commit_fee")
fd_Params_authority_auction_reveal_fee = md_Params.Fields().ByName("authority_auction_reveal_fee")
fd_Params_authority_auction_minimum_bid = md_Params.Fields().ByName("authority_auction_minimum_bid")
}
var _ protoreflect.Message = (*fastReflection_Params)(nil)
type fastReflection_Params Params
func (x *Params) ProtoReflect() protoreflect.Message {
return (*fastReflection_Params)(x)
}
func (x *Params) slowProtoReflect() protoreflect.Message {
mi := &file_cerc_registry_v1_registry_proto_msgTypes[0]
if protoimpl.UnsafeEnabled && x != nil {
ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x))
if ms.LoadMessageInfo() == nil {
ms.StoreMessageInfo(mi)
}
return ms
}
return mi.MessageOf(x)
}
var _fastReflection_Params_messageType fastReflection_Params_messageType
var _ protoreflect.MessageType = fastReflection_Params_messageType{}
type fastReflection_Params_messageType struct{}
func (x fastReflection_Params_messageType) Zero() protoreflect.Message {
return (*fastReflection_Params)(nil)
}
func (x fastReflection_Params_messageType) New() protoreflect.Message {
return new(fastReflection_Params)
}
func (x fastReflection_Params_messageType) Descriptor() protoreflect.MessageDescriptor {
return md_Params
}
// Descriptor returns message descriptor, which contains only the protobuf
// type information for the message.
func (x *fastReflection_Params) Descriptor() protoreflect.MessageDescriptor {
return md_Params
}
// Type returns the message type, which encapsulates both Go and protobuf
// type information. If the Go type information is not needed,
// it is recommended that the message descriptor be used instead.
func (x *fastReflection_Params) Type() protoreflect.MessageType {
return _fastReflection_Params_messageType
}
// New returns a newly allocated and mutable empty message.
func (x *fastReflection_Params) New() protoreflect.Message {
return new(fastReflection_Params)
}
// Interface unwraps the message reflection interface and
// returns the underlying ProtoMessage interface.
func (x *fastReflection_Params) Interface() protoreflect.ProtoMessage {
return (*Params)(x)
}
// Range iterates over every populated field in an undefined order,
// calling f for each field descriptor and value encountered.
// Range returns immediately if f returns false.
// While iterating, mutating operations may only be performed
// on the current field descriptor.
func (x *fastReflection_Params) Range(f func(protoreflect.FieldDescriptor, protoreflect.Value) bool) {
if x.RecordRent != nil {
value := protoreflect.ValueOfMessage(x.RecordRent.ProtoReflect())
if !f(fd_Params_record_rent, value) {
return
}
}
if x.RecordRentDuration != nil {
value := protoreflect.ValueOfMessage(x.RecordRentDuration.ProtoReflect())
if !f(fd_Params_record_rent_duration, value) {
return
}
}
if x.AuthorityRent != nil {
value := protoreflect.ValueOfMessage(x.AuthorityRent.ProtoReflect())
if !f(fd_Params_authority_rent, value) {
return
}
}
if x.AuthorityRentDuration != nil {
value := protoreflect.ValueOfMessage(x.AuthorityRentDuration.ProtoReflect())
if !f(fd_Params_authority_rent_duration, value) {
return
}
}
if x.AuthorityGracePeriod != nil {
value := protoreflect.ValueOfMessage(x.AuthorityGracePeriod.ProtoReflect())
if !f(fd_Params_authority_grace_period, value) {
return
}
}
if x.AuthorityAuctionEnabled != false {
value := protoreflect.ValueOfBool(x.AuthorityAuctionEnabled)
if !f(fd_Params_authority_auction_enabled, value) {
return
}
}
if x.AuthorityAuctionCommitsDuration != nil {
value := protoreflect.ValueOfMessage(x.AuthorityAuctionCommitsDuration.ProtoReflect())
if !f(fd_Params_authority_auction_commits_duration, value) {
return
}
}
if x.AuthorityAuctionRevealsDuration != nil {
value := protoreflect.ValueOfMessage(x.AuthorityAuctionRevealsDuration.ProtoReflect())
if !f(fd_Params_authority_auction_reveals_duration, value) {
return
}
}
if x.AuthorityAuctionCommitFee != nil {
value := protoreflect.ValueOfMessage(x.AuthorityAuctionCommitFee.ProtoReflect())
if !f(fd_Params_authority_auction_commit_fee, value) {
return
}
}
if x.AuthorityAuctionRevealFee != nil {
value := protoreflect.ValueOfMessage(x.AuthorityAuctionRevealFee.ProtoReflect())
if !f(fd_Params_authority_auction_reveal_fee, value) {
return
}
}
if x.AuthorityAuctionMinimumBid != nil {
value := protoreflect.ValueOfMessage(x.AuthorityAuctionMinimumBid.ProtoReflect())
if !f(fd_Params_authority_auction_minimum_bid, value) {
return
}
}
}
// Has reports whether a field is populated.
//
// Some fields have the property of nullability where it is possible to
// distinguish between the default value of a field and whether the field
// was explicitly populated with the default value. Singular message fields,
// member fields of a oneof, and proto2 scalar fields are nullable. Such
// fields are populated only if explicitly set.
//
// In other cases (aside from the nullable cases above),
// a proto3 scalar field is populated if it contains a non-zero value, and
// a repeated field is populated if it is non-empty.
func (x *fastReflection_Params) Has(fd protoreflect.FieldDescriptor) bool {
switch fd.FullName() {
case "cerc.registry.v1.Params.record_rent":
return x.RecordRent != nil
case "cerc.registry.v1.Params.record_rent_duration":
return x.RecordRentDuration != nil
case "cerc.registry.v1.Params.authority_rent":
return x.AuthorityRent != nil
case "cerc.registry.v1.Params.authority_rent_duration":
return x.AuthorityRentDuration != nil
case "cerc.registry.v1.Params.authority_grace_period":
return x.AuthorityGracePeriod != nil
case "cerc.registry.v1.Params.authority_auction_enabled":
return x.AuthorityAuctionEnabled != false
case "cerc.registry.v1.Params.authority_auction_commits_duration":
return x.AuthorityAuctionCommitsDuration != nil
case "cerc.registry.v1.Params.authority_auction_reveals_duration":
return x.AuthorityAuctionRevealsDuration != nil
case "cerc.registry.v1.Params.authority_auction_commit_fee":
return x.AuthorityAuctionCommitFee != nil
case "cerc.registry.v1.Params.authority_auction_reveal_fee":
return x.AuthorityAuctionRevealFee != nil
case "cerc.registry.v1.Params.authority_auction_minimum_bid":
return x.AuthorityAuctionMinimumBid != nil
default:
if fd.IsExtension() {
panic(fmt.Errorf("proto3 declared messages do not support extensions: cerc.registry.v1.Params"))
}
panic(fmt.Errorf("message cerc.registry.v1.Params does not contain field %s", fd.FullName()))
}
}
// Clear clears the field such that a subsequent Has call reports false.
//
// Clearing an extension field clears both the extension type and value
// associated with the given field number.
//
// Clear is a mutating operation and unsafe for concurrent use.
func (x *fastReflection_Params) Clear(fd protoreflect.FieldDescriptor) {
switch fd.FullName() {
case "cerc.registry.v1.Params.record_rent":
x.RecordRent = nil
case "cerc.registry.v1.Params.record_rent_duration":
x.RecordRentDuration = nil
case "cerc.registry.v1.Params.authority_rent":
x.AuthorityRent = nil
case "cerc.registry.v1.Params.authority_rent_duration":
x.AuthorityRentDuration = nil
case "cerc.registry.v1.Params.authority_grace_period":
x.AuthorityGracePeriod = nil
case "cerc.registry.v1.Params.authority_auction_enabled":
x.AuthorityAuctionEnabled = false
case "cerc.registry.v1.Params.authority_auction_commits_duration":
x.AuthorityAuctionCommitsDuration = nil
case "cerc.registry.v1.Params.authority_auction_reveals_duration":
x.AuthorityAuctionRevealsDuration = nil
case "cerc.registry.v1.Params.authority_auction_commit_fee":
x.AuthorityAuctionCommitFee = nil
case "cerc.registry.v1.Params.authority_auction_reveal_fee":
x.AuthorityAuctionRevealFee = nil
case "cerc.registry.v1.Params.authority_auction_minimum_bid":
x.AuthorityAuctionMinimumBid = nil
default:
if fd.IsExtension() {
panic(fmt.Errorf("proto3 declared messages do not support extensions: cerc.registry.v1.Params"))
}
panic(fmt.Errorf("message cerc.registry.v1.Params does not contain field %s", fd.FullName()))
}
}
// Get retrieves the value for a field.
//
// For unpopulated scalars, it returns the default value, where
// the default value of a bytes scalar is guaranteed to be a copy.
// For unpopulated composite types, it returns an empty, read-only view
// of the value; to obtain a mutable reference, use Mutable.
func (x *fastReflection_Params) Get(descriptor protoreflect.FieldDescriptor) protoreflect.Value {
switch descriptor.FullName() {
case "cerc.registry.v1.Params.record_rent":
value := x.RecordRent
return protoreflect.ValueOfMessage(value.ProtoReflect())
case "cerc.registry.v1.Params.record_rent_duration":
value := x.RecordRentDuration
return protoreflect.ValueOfMessage(value.ProtoReflect())
case "cerc.registry.v1.Params.authority_rent":
value := x.AuthorityRent
return protoreflect.ValueOfMessage(value.ProtoReflect())
case "cerc.registry.v1.Params.authority_rent_duration":
value := x.AuthorityRentDuration
return protoreflect.ValueOfMessage(value.ProtoReflect())
case "cerc.registry.v1.Params.authority_grace_period":
value := x.AuthorityGracePeriod
return protoreflect.ValueOfMessage(value.ProtoReflect())
case "cerc.registry.v1.Params.authority_auction_enabled":
value := x.AuthorityAuctionEnabled
return protoreflect.ValueOfBool(value)
case "cerc.registry.v1.Params.authority_auction_commits_duration":
value := x.AuthorityAuctionCommitsDuration
return protoreflect.ValueOfMessage(value.ProtoReflect())
case "cerc.registry.v1.Params.authority_auction_reveals_duration":
value := x.AuthorityAuctionRevealsDuration
return protoreflect.ValueOfMessage(value.ProtoReflect())
case "cerc.registry.v1.Params.authority_auction_commit_fee":
value := x.AuthorityAuctionCommitFee
return protoreflect.ValueOfMessage(value.ProtoReflect())
case "cerc.registry.v1.Params.authority_auction_reveal_fee":
value := x.AuthorityAuctionRevealFee
return protoreflect.ValueOfMessage(value.ProtoReflect())
case "cerc.registry.v1.Params.authority_auction_minimum_bid":
value := x.AuthorityAuctionMinimumBid
return protoreflect.ValueOfMessage(value.ProtoReflect())
default:
if descriptor.IsExtension() {
panic(fmt.Errorf("proto3 declared messages do not support extensions: cerc.registry.v1.Params"))
}
panic(fmt.Errorf("message cerc.registry.v1.Params does not contain field %s", descriptor.FullName()))
}
}
// Set stores the value for a field.
//
// For a field belonging to a oneof, it implicitly clears any other field
// that may be currently set within the same oneof.
// For extension fields, it implicitly stores the provided ExtensionType.
// When setting a composite type, it is unspecified whether the stored value
// aliases the source's memory in any way. If the composite value is an
// empty, read-only value, then it panics.
//
// Set is a mutating operation and unsafe for concurrent use.
func (x *fastReflection_Params) Set(fd protoreflect.FieldDescriptor, value protoreflect.Value) {
switch fd.FullName() {
case "cerc.registry.v1.Params.record_rent":
x.RecordRent = value.Message().Interface().(*v1beta1.Coin)
case "cerc.registry.v1.Params.record_rent_duration":
x.RecordRentDuration = value.Message().Interface().(*durationpb.Duration)
case "cerc.registry.v1.Params.authority_rent":
x.AuthorityRent = value.Message().Interface().(*v1beta1.Coin)
case "cerc.registry.v1.Params.authority_rent_duration":
x.AuthorityRentDuration = value.Message().Interface().(*durationpb.Duration)
case "cerc.registry.v1.Params.authority_grace_period":
x.AuthorityGracePeriod = value.Message().Interface().(*durationpb.Duration)
case "cerc.registry.v1.Params.authority_auction_enabled":
x.AuthorityAuctionEnabled = value.Bool()
case "cerc.registry.v1.Params.authority_auction_commits_duration":
x.AuthorityAuctionCommitsDuration = value.Message().Interface().(*durationpb.Duration)
case "cerc.registry.v1.Params.authority_auction_reveals_duration":
x.AuthorityAuctionRevealsDuration = value.Message().Interface().(*durationpb.Duration)
case "cerc.registry.v1.Params.authority_auction_commit_fee":
x.AuthorityAuctionCommitFee = value.Message().Interface().(*v1beta1.Coin)
case "cerc.registry.v1.Params.authority_auction_reveal_fee":
x.AuthorityAuctionRevealFee = value.Message().Interface().(*v1beta1.Coin)
case "cerc.registry.v1.Params.authority_auction_minimum_bid":
x.AuthorityAuctionMinimumBid = value.Message().Interface().(*v1beta1.Coin)
default:
if fd.IsExtension() {
panic(fmt.Errorf("proto3 declared messages do not support extensions: cerc.registry.v1.Params"))
}
panic(fmt.Errorf("message cerc.registry.v1.Params does not contain field %s", fd.FullName()))
}
}
// Mutable returns a mutable reference to a composite type.
//
// If the field is unpopulated, it may allocate a composite value.
// For a field belonging to a oneof, it implicitly clears any other field
// that may be currently set within the same oneof.
// For extension fields, it implicitly stores the provided ExtensionType
// if not already stored.
// It panics if the field does not contain a composite type.
//
// Mutable is a mutating operation and unsafe for concurrent use.
func (x *fastReflection_Params) Mutable(fd protoreflect.FieldDescriptor) protoreflect.Value {
switch fd.FullName() {
case "cerc.registry.v1.Params.record_rent":
if x.RecordRent == nil {
x.RecordRent = new(v1beta1.Coin)
}
return protoreflect.ValueOfMessage(x.RecordRent.ProtoReflect())
case "cerc.registry.v1.Params.record_rent_duration":
if x.RecordRentDuration == nil {
x.RecordRentDuration = new(durationpb.Duration)
}
return protoreflect.ValueOfMessage(x.RecordRentDuration.ProtoReflect())
case "cerc.registry.v1.Params.authority_rent":
if x.AuthorityRent == nil {
x.AuthorityRent = new(v1beta1.Coin)
}
return protoreflect.ValueOfMessage(x.AuthorityRent.ProtoReflect())
case "cerc.registry.v1.Params.authority_rent_duration":
if x.AuthorityRentDuration == nil {
x.AuthorityRentDuration = new(durationpb.Duration)
}
return protoreflect.ValueOfMessage(x.AuthorityRentDuration.ProtoReflect())
case "cerc.registry.v1.Params.authority_grace_period":
if x.AuthorityGracePeriod == nil {
x.AuthorityGracePeriod = new(durationpb.Duration)
}
return protoreflect.ValueOfMessage(x.AuthorityGracePeriod.ProtoReflect())
case "cerc.registry.v1.Params.authority_auction_commits_duration":
if x.AuthorityAuctionCommitsDuration == nil {
x.AuthorityAuctionCommitsDuration = new(durationpb.Duration)
}
return protoreflect.ValueOfMessage(x.AuthorityAuctionCommitsDuration.ProtoReflect())
case "cerc.registry.v1.Params.authority_auction_reveals_duration":
if x.AuthorityAuctionRevealsDuration == nil {
x.AuthorityAuctionRevealsDuration = new(durationpb.Duration)
}
return protoreflect.ValueOfMessage(x.AuthorityAuctionRevealsDuration.ProtoReflect())
case "cerc.registry.v1.Params.authority_auction_commit_fee":
if x.AuthorityAuctionCommitFee == nil {
x.AuthorityAuctionCommitFee = new(v1beta1.Coin)
}
return protoreflect.ValueOfMessage(x.AuthorityAuctionCommitFee.ProtoReflect())
case "cerc.registry.v1.Params.authority_auction_reveal_fee":
if x.AuthorityAuctionRevealFee == nil {
x.AuthorityAuctionRevealFee = new(v1beta1.Coin)
}
return protoreflect.ValueOfMessage(x.AuthorityAuctionRevealFee.ProtoReflect())
case "cerc.registry.v1.Params.authority_auction_minimum_bid":
if x.AuthorityAuctionMinimumBid == nil {
x.AuthorityAuctionMinimumBid = new(v1beta1.Coin)
}
return protoreflect.ValueOfMessage(x.AuthorityAuctionMinimumBid.ProtoReflect())
case "cerc.registry.v1.Params.authority_auction_enabled":
panic(fmt.Errorf("field authority_auction_enabled of message cerc.registry.v1.Params is not mutable"))
default:
if fd.IsExtension() {
panic(fmt.Errorf("proto3 declared messages do not support extensions: cerc.registry.v1.Params"))
}
panic(fmt.Errorf("message cerc.registry.v1.Params does not contain field %s", fd.FullName()))
}
}
// NewField returns a new value that is assignable to the field
// for the given descriptor. For scalars, this returns the default value.
// For lists, maps, and messages, this returns a new, empty, mutable value.
func (x *fastReflection_Params) NewField(fd protoreflect.FieldDescriptor) protoreflect.Value {
switch fd.FullName() {
case "cerc.registry.v1.Params.record_rent":
m := new(v1beta1.Coin)
return protoreflect.ValueOfMessage(m.ProtoReflect())
case "cerc.registry.v1.Params.record_rent_duration":
m := new(durationpb.Duration)
return protoreflect.ValueOfMessage(m.ProtoReflect())
case "cerc.registry.v1.Params.authority_rent":
m := new(v1beta1.Coin)
return protoreflect.ValueOfMessage(m.ProtoReflect())
case "cerc.registry.v1.Params.authority_rent_duration":
m := new(durationpb.Duration)
return protoreflect.ValueOfMessage(m.ProtoReflect())
case "cerc.registry.v1.Params.authority_grace_period":
m := new(durationpb.Duration)
return protoreflect.ValueOfMessage(m.ProtoReflect())
case "cerc.registry.v1.Params.authority_auction_enabled":
return protoreflect.ValueOfBool(false)
case "cerc.registry.v1.Params.authority_auction_commits_duration":
m := new(durationpb.Duration)
return protoreflect.ValueOfMessage(m.ProtoReflect())
case "cerc.registry.v1.Params.authority_auction_reveals_duration":
m := new(durationpb.Duration)
return protoreflect.ValueOfMessage(m.ProtoReflect())
case "cerc.registry.v1.Params.authority_auction_commit_fee":
m := new(v1beta1.Coin)
return protoreflect.ValueOfMessage(m.ProtoReflect())
case "cerc.registry.v1.Params.authority_auction_reveal_fee":
m := new(v1beta1.Coin)
return protoreflect.ValueOfMessage(m.ProtoReflect())
case "cerc.registry.v1.Params.authority_auction_minimum_bid":
m := new(v1beta1.Coin)
return protoreflect.ValueOfMessage(m.ProtoReflect())
default:
if fd.IsExtension() {
panic(fmt.Errorf("proto3 declared messages do not support extensions: cerc.registry.v1.Params"))
}
panic(fmt.Errorf("message cerc.registry.v1.Params does not contain field %s", fd.FullName()))
}
}
// WhichOneof reports which field within the oneof is populated,
// returning nil if none are populated.
// It panics if the oneof descriptor does not belong to this message.
func (x *fastReflection_Params) WhichOneof(d protoreflect.OneofDescriptor) protoreflect.FieldDescriptor {
switch d.FullName() {
default:
panic(fmt.Errorf("%s is not a oneof field in cerc.registry.v1.Params", d.FullName()))
}
panic("unreachable")
}
// GetUnknown retrieves the entire list of unknown fields.
// The caller may only mutate the contents of the RawFields
// if the mutated bytes are stored back into the message with SetUnknown.
func (x *fastReflection_Params) GetUnknown() protoreflect.RawFields {
return x.unknownFields
}
// SetUnknown stores an entire list of unknown fields.
// The raw fields must be syntactically valid according to the wire format.
// An implementation may panic if this is not the case.
// Once stored, the caller must not mutate the content of the RawFields.
// An empty RawFields may be passed to clear the fields.
//
// SetUnknown is a mutating operation and unsafe for concurrent use.
func (x *fastReflection_Params) SetUnknown(fields protoreflect.RawFields) {
x.unknownFields = fields
}
// IsValid reports whether the message is valid.
//
// An invalid message is an empty, read-only value.
//
// An invalid message often corresponds to a nil pointer of the concrete
// message type, but the details are implementation dependent.
// Validity is not part of the protobuf data model, and may not
// be preserved in marshaling or other operations.
func (x *fastReflection_Params) IsValid() bool {
return x != nil
}
// ProtoMethods returns optional fastReflectionFeature-path implementations of various operations.
// This method may return nil.
//
// The returned methods type is identical to
// "google.golang.org/protobuf/runtime/protoiface".Methods.
// Consult the protoiface package documentation for details.
func (x *fastReflection_Params) ProtoMethods() *protoiface.Methods {
size := func(input protoiface.SizeInput) protoiface.SizeOutput {
x := input.Message.Interface().(*Params)
if x == nil {
return protoiface.SizeOutput{
NoUnkeyedLiterals: input.NoUnkeyedLiterals,
Size: 0,
}
}
options := runtime.SizeInputToOptions(input)
_ = options
var n int
var l int
_ = l
if x.RecordRent != nil {
l = options.Size(x.RecordRent)
n += 1 + l + runtime.Sov(uint64(l))
}
if x.RecordRentDuration != nil {
l = options.Size(x.RecordRentDuration)
n += 1 + l + runtime.Sov(uint64(l))
}
if x.AuthorityRent != nil {
l = options.Size(x.AuthorityRent)
n += 1 + l + runtime.Sov(uint64(l))
}
if x.AuthorityRentDuration != nil {
l = options.Size(x.AuthorityRentDuration)
n += 1 + l + runtime.Sov(uint64(l))
}
if x.AuthorityGracePeriod != nil {
l = options.Size(x.AuthorityGracePeriod)
n += 1 + l + runtime.Sov(uint64(l))
}
if x.AuthorityAuctionEnabled {
n += 2
}
if x.AuthorityAuctionCommitsDuration != nil {
l = options.Size(x.AuthorityAuctionCommitsDuration)
n += 1 + l + runtime.Sov(uint64(l))
}
if x.AuthorityAuctionRevealsDuration != nil {
l = options.Size(x.AuthorityAuctionRevealsDuration)
n += 1 + l + runtime.Sov(uint64(l))
}
if x.AuthorityAuctionCommitFee != nil {
l = options.Size(x.AuthorityAuctionCommitFee)
n += 1 + l + runtime.Sov(uint64(l))
}
if x.AuthorityAuctionRevealFee != nil {
l = options.Size(x.AuthorityAuctionRevealFee)
n += 1 + l + runtime.Sov(uint64(l))
}
if x.AuthorityAuctionMinimumBid != nil {
l = options.Size(x.AuthorityAuctionMinimumBid)
n += 1 + l + runtime.Sov(uint64(l))
}
if x.unknownFields != nil {
n += len(x.unknownFields)
}
return protoiface.SizeOutput{
NoUnkeyedLiterals: input.NoUnkeyedLiterals,
Size: n,
}
}
marshal := func(input protoiface.MarshalInput) (protoiface.MarshalOutput, error) {
x := input.Message.Interface().(*Params)
if x == nil {
return protoiface.MarshalOutput{
NoUnkeyedLiterals: input.NoUnkeyedLiterals,
Buf: input.Buf,
}, nil
}
options := runtime.MarshalInputToOptions(input)
_ = options
size := options.Size(x)
dAtA := make([]byte, size)
i := len(dAtA)
_ = i
var l int
_ = l
if x.unknownFields != nil {
i -= len(x.unknownFields)
copy(dAtA[i:], x.unknownFields)
}
if x.AuthorityAuctionMinimumBid != nil {
encoded, err := options.Marshal(x.AuthorityAuctionMinimumBid)
if err != nil {
return protoiface.MarshalOutput{
NoUnkeyedLiterals: input.NoUnkeyedLiterals,
Buf: input.Buf,
}, err
}
i -= len(encoded)
copy(dAtA[i:], encoded)
i = runtime.EncodeVarint(dAtA, i, uint64(len(encoded)))
i--
dAtA[i] = 0x5a
}
if x.AuthorityAuctionRevealFee != nil {
encoded, err := options.Marshal(x.AuthorityAuctionRevealFee)
if err != nil {
return protoiface.MarshalOutput{
NoUnkeyedLiterals: input.NoUnkeyedLiterals,
Buf: input.Buf,
}, err
}
i -= len(encoded)
copy(dAtA[i:], encoded)
i = runtime.EncodeVarint(dAtA, i, uint64(len(encoded)))
i--
dAtA[i] = 0x52
}
if x.AuthorityAuctionCommitFee != nil {
encoded, err := options.Marshal(x.AuthorityAuctionCommitFee)
if err != nil {
return protoiface.MarshalOutput{
NoUnkeyedLiterals: input.NoUnkeyedLiterals,
Buf: input.Buf,
}, err
}
i -= len(encoded)
copy(dAtA[i:], encoded)
i = runtime.EncodeVarint(dAtA, i, uint64(len(encoded)))
i--
dAtA[i] = 0x4a
}
if x.AuthorityAuctionRevealsDuration != nil {
encoded, err := options.Marshal(x.AuthorityAuctionRevealsDuration)
if err != nil {
return protoiface.MarshalOutput{
NoUnkeyedLiterals: input.NoUnkeyedLiterals,
Buf: input.Buf,
}, err
}
i -= len(encoded)
copy(dAtA[i:], encoded)
i = runtime.EncodeVarint(dAtA, i, uint64(len(encoded)))
i--
dAtA[i] = 0x42
}
if x.AuthorityAuctionCommitsDuration != nil {
encoded, err := options.Marshal(x.AuthorityAuctionCommitsDuration)
if err != nil {
return protoiface.MarshalOutput{
NoUnkeyedLiterals: input.NoUnkeyedLiterals,
Buf: input.Buf,
}, err
}
i -= len(encoded)
copy(dAtA[i:], encoded)
i = runtime.EncodeVarint(dAtA, i, uint64(len(encoded)))
i--
dAtA[i] = 0x3a
}
if x.AuthorityAuctionEnabled {
i--
if x.AuthorityAuctionEnabled {
dAtA[i] = 1
} else {
dAtA[i] = 0
}
i--
dAtA[i] = 0x30
}
if x.AuthorityGracePeriod != nil {
encoded, err := options.Marshal(x.AuthorityGracePeriod)
if err != nil {
return protoiface.MarshalOutput{
NoUnkeyedLiterals: input.NoUnkeyedLiterals,
Buf: input.Buf,
}, err
}
i -= len(encoded)
copy(dAtA[i:], encoded)
i = runtime.EncodeVarint(dAtA, i, uint64(len(encoded)))
i--
dAtA[i] = 0x2a
}
if x.AuthorityRentDuration != nil {
encoded, err := options.Marshal(x.AuthorityRentDuration)
if err != nil {
return protoiface.MarshalOutput{
NoUnkeyedLiterals: input.NoUnkeyedLiterals,
Buf: input.Buf,
}, err
}
i -= len(encoded)
copy(dAtA[i:], encoded)
i = runtime.EncodeVarint(dAtA, i, uint64(len(encoded)))
i--
dAtA[i] = 0x22
}
if x.AuthorityRent != nil {
encoded, err := options.Marshal(x.AuthorityRent)
if err != nil {
return protoiface.MarshalOutput{
NoUnkeyedLiterals: input.NoUnkeyedLiterals,
Buf: input.Buf,
}, err
}
i -= len(encoded)
copy(dAtA[i:], encoded)
i = runtime.EncodeVarint(dAtA, i, uint64(len(encoded)))
i--
dAtA[i] = 0x1a
}
if x.RecordRentDuration != nil {
encoded, err := options.Marshal(x.RecordRentDuration)
if err != nil {
return protoiface.MarshalOutput{
NoUnkeyedLiterals: input.NoUnkeyedLiterals,
Buf: input.Buf,
}, err
}
i -= len(encoded)
copy(dAtA[i:], encoded)
i = runtime.EncodeVarint(dAtA, i, uint64(len(encoded)))
i--
dAtA[i] = 0x12
}
if x.RecordRent != nil {
encoded, err := options.Marshal(x.RecordRent)
if err != nil {
return protoiface.MarshalOutput{
NoUnkeyedLiterals: input.NoUnkeyedLiterals,
Buf: input.Buf,
}, err
}
i -= len(encoded)
copy(dAtA[i:], encoded)
i = runtime.EncodeVarint(dAtA, i, uint64(len(encoded)))
i--
dAtA[i] = 0xa
}
if input.Buf != nil {
input.Buf = append(input.Buf, dAtA...)
} else {
input.Buf = dAtA
}
return protoiface.MarshalOutput{
NoUnkeyedLiterals: input.NoUnkeyedLiterals,
Buf: input.Buf,
}, nil
}
unmarshal := func(input protoiface.UnmarshalInput) (protoiface.UnmarshalOutput, error) {
x := input.Message.Interface().(*Params)
if x == nil {
return protoiface.UnmarshalOutput{
NoUnkeyedLiterals: input.NoUnkeyedLiterals,
Flags: input.Flags,
}, nil
}
options := runtime.UnmarshalInputToOptions(input)
_ = options
dAtA := input.Buf
l := len(dAtA)
iNdEx := 0
for iNdEx < l {
preIndex := iNdEx
var wire uint64
for shift := uint(0); ; shift += 7 {
if shift >= 64 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrIntOverflow
}
if iNdEx >= l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
b := dAtA[iNdEx]
iNdEx++
wire |= uint64(b&0x7F) << shift
if b < 0x80 {
break
}
}
fieldNum := int32(wire >> 3)
wireType := int(wire & 0x7)
if wireType == 4 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, fmt.Errorf("proto: Params: wiretype end group for non-group")
}
if fieldNum <= 0 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, fmt.Errorf("proto: Params: illegal tag %d (wire type %d)", fieldNum, wire)
}
switch fieldNum {
case 1:
if wireType != 2 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, fmt.Errorf("proto: wrong wireType = %d for field RecordRent", wireType)
}
var msglen int
for shift := uint(0); ; shift += 7 {
if shift >= 64 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrIntOverflow
}
if iNdEx >= l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
b := dAtA[iNdEx]
iNdEx++
msglen |= int(b&0x7F) << shift
if b < 0x80 {
break
}
}
if msglen < 0 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength
}
postIndex := iNdEx + msglen
if postIndex < 0 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength
}
if postIndex > l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
if x.RecordRent == nil {
x.RecordRent = &v1beta1.Coin{}
}
if err := options.Unmarshal(dAtA[iNdEx:postIndex], x.RecordRent); err != nil {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, err
}
iNdEx = postIndex
case 2:
if wireType != 2 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, fmt.Errorf("proto: wrong wireType = %d for field RecordRentDuration", wireType)
}
var msglen int
for shift := uint(0); ; shift += 7 {
if shift >= 64 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrIntOverflow
}
if iNdEx >= l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
b := dAtA[iNdEx]
iNdEx++
msglen |= int(b&0x7F) << shift
if b < 0x80 {
break
}
}
if msglen < 0 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength
}
postIndex := iNdEx + msglen
if postIndex < 0 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength
}
if postIndex > l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
if x.RecordRentDuration == nil {
x.RecordRentDuration = &durationpb.Duration{}
}
if err := options.Unmarshal(dAtA[iNdEx:postIndex], x.RecordRentDuration); err != nil {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, err
}
iNdEx = postIndex
case 3:
if wireType != 2 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, fmt.Errorf("proto: wrong wireType = %d for field AuthorityRent", wireType)
}
var msglen int
for shift := uint(0); ; shift += 7 {
if shift >= 64 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrIntOverflow
}
if iNdEx >= l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
b := dAtA[iNdEx]
iNdEx++
msglen |= int(b&0x7F) << shift
if b < 0x80 {
break
}
}
if msglen < 0 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength
}
postIndex := iNdEx + msglen
if postIndex < 0 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength
}
if postIndex > l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
if x.AuthorityRent == nil {
x.AuthorityRent = &v1beta1.Coin{}
}
if err := options.Unmarshal(dAtA[iNdEx:postIndex], x.AuthorityRent); err != nil {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, err
}
iNdEx = postIndex
case 4:
if wireType != 2 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, fmt.Errorf("proto: wrong wireType = %d for field AuthorityRentDuration", wireType)
}
var msglen int
for shift := uint(0); ; shift += 7 {
if shift >= 64 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrIntOverflow
}
if iNdEx >= l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
b := dAtA[iNdEx]
iNdEx++
msglen |= int(b&0x7F) << shift
if b < 0x80 {
break
}
}
if msglen < 0 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength
}
postIndex := iNdEx + msglen
if postIndex < 0 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength
}
if postIndex > l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
if x.AuthorityRentDuration == nil {
x.AuthorityRentDuration = &durationpb.Duration{}
}
if err := options.Unmarshal(dAtA[iNdEx:postIndex], x.AuthorityRentDuration); err != nil {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, err
}
iNdEx = postIndex
case 5:
if wireType != 2 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, fmt.Errorf("proto: wrong wireType = %d for field AuthorityGracePeriod", wireType)
}
var msglen int
for shift := uint(0); ; shift += 7 {
if shift >= 64 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrIntOverflow
}
if iNdEx >= l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
b := dAtA[iNdEx]
iNdEx++
msglen |= int(b&0x7F) << shift
if b < 0x80 {
break
}
}
if msglen < 0 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength
}
postIndex := iNdEx + msglen
if postIndex < 0 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength
}
if postIndex > l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
if x.AuthorityGracePeriod == nil {
x.AuthorityGracePeriod = &durationpb.Duration{}
}
if err := options.Unmarshal(dAtA[iNdEx:postIndex], x.AuthorityGracePeriod); err != nil {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, err
}
iNdEx = postIndex
case 6:
if wireType != 0 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, fmt.Errorf("proto: wrong wireType = %d for field AuthorityAuctionEnabled", wireType)
}
var v int
for shift := uint(0); ; shift += 7 {
if shift >= 64 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrIntOverflow
}
if iNdEx >= l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
b := dAtA[iNdEx]
iNdEx++
v |= int(b&0x7F) << shift
if b < 0x80 {
break
}
}
x.AuthorityAuctionEnabled = bool(v != 0)
case 7:
if wireType != 2 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, fmt.Errorf("proto: wrong wireType = %d for field AuthorityAuctionCommitsDuration", wireType)
}
var msglen int
for shift := uint(0); ; shift += 7 {
if shift >= 64 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrIntOverflow
}
if iNdEx >= l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
b := dAtA[iNdEx]
iNdEx++
msglen |= int(b&0x7F) << shift
if b < 0x80 {
break
}
}
if msglen < 0 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength
}
postIndex := iNdEx + msglen
if postIndex < 0 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength
}
if postIndex > l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
if x.AuthorityAuctionCommitsDuration == nil {
x.AuthorityAuctionCommitsDuration = &durationpb.Duration{}
}
if err := options.Unmarshal(dAtA[iNdEx:postIndex], x.AuthorityAuctionCommitsDuration); err != nil {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, err
}
iNdEx = postIndex
case 8:
if wireType != 2 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, fmt.Errorf("proto: wrong wireType = %d for field AuthorityAuctionRevealsDuration", wireType)
}
var msglen int
for shift := uint(0); ; shift += 7 {
if shift >= 64 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrIntOverflow
}
if iNdEx >= l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
b := dAtA[iNdEx]
iNdEx++
msglen |= int(b&0x7F) << shift
if b < 0x80 {
break
}
}
if msglen < 0 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength
}
postIndex := iNdEx + msglen
if postIndex < 0 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength
}
if postIndex > l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
if x.AuthorityAuctionRevealsDuration == nil {
x.AuthorityAuctionRevealsDuration = &durationpb.Duration{}
}
if err := options.Unmarshal(dAtA[iNdEx:postIndex], x.AuthorityAuctionRevealsDuration); err != nil {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, err
}
iNdEx = postIndex
case 9:
if wireType != 2 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, fmt.Errorf("proto: wrong wireType = %d for field AuthorityAuctionCommitFee", wireType)
}
var msglen int
for shift := uint(0); ; shift += 7 {
if shift >= 64 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrIntOverflow
}
if iNdEx >= l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
b := dAtA[iNdEx]
iNdEx++
msglen |= int(b&0x7F) << shift
if b < 0x80 {
break
}
}
if msglen < 0 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength
}
postIndex := iNdEx + msglen
if postIndex < 0 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength
}
if postIndex > l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
if x.AuthorityAuctionCommitFee == nil {
x.AuthorityAuctionCommitFee = &v1beta1.Coin{}
}
if err := options.Unmarshal(dAtA[iNdEx:postIndex], x.AuthorityAuctionCommitFee); err != nil {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, err
}
iNdEx = postIndex
case 10:
if wireType != 2 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, fmt.Errorf("proto: wrong wireType = %d for field AuthorityAuctionRevealFee", wireType)
}
var msglen int
for shift := uint(0); ; shift += 7 {
if shift >= 64 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrIntOverflow
}
if iNdEx >= l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
b := dAtA[iNdEx]
iNdEx++
msglen |= int(b&0x7F) << shift
if b < 0x80 {
break
}
}
if msglen < 0 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength
}
postIndex := iNdEx + msglen
if postIndex < 0 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength
}
if postIndex > l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
if x.AuthorityAuctionRevealFee == nil {
x.AuthorityAuctionRevealFee = &v1beta1.Coin{}
}
if err := options.Unmarshal(dAtA[iNdEx:postIndex], x.AuthorityAuctionRevealFee); err != nil {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, err
}
iNdEx = postIndex
case 11:
if wireType != 2 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, fmt.Errorf("proto: wrong wireType = %d for field AuthorityAuctionMinimumBid", wireType)
}
var msglen int
for shift := uint(0); ; shift += 7 {
if shift >= 64 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrIntOverflow
}
if iNdEx >= l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
b := dAtA[iNdEx]
iNdEx++
msglen |= int(b&0x7F) << shift
if b < 0x80 {
break
}
}
if msglen < 0 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength
}
postIndex := iNdEx + msglen
if postIndex < 0 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength
}
if postIndex > l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
if x.AuthorityAuctionMinimumBid == nil {
x.AuthorityAuctionMinimumBid = &v1beta1.Coin{}
}
if err := options.Unmarshal(dAtA[iNdEx:postIndex], x.AuthorityAuctionMinimumBid); err != nil {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, err
}
iNdEx = postIndex
default:
iNdEx = preIndex
skippy, err := runtime.Skip(dAtA[iNdEx:])
if err != nil {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, err
}
if (skippy < 0) || (iNdEx+skippy) < 0 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength
}
if (iNdEx + skippy) > l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
if !options.DiscardUnknown {
x.unknownFields = append(x.unknownFields, dAtA[iNdEx:iNdEx+skippy]...)
}
iNdEx += skippy
}
}
if iNdEx > l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, nil
}
return &protoiface.Methods{
NoUnkeyedLiterals: struct{}{},
Flags: protoiface.SupportMarshalDeterministic | protoiface.SupportUnmarshalDiscardUnknown,
Size: size,
Marshal: marshal,
Unmarshal: unmarshal,
Merge: nil,
CheckInitialized: nil,
}
}
var _ protoreflect.List = (*_Record_6_list)(nil)
type _Record_6_list struct {
list *[]string
}
func (x *_Record_6_list) Len() int {
if x.list == nil {
return 0
}
return len(*x.list)
}
func (x *_Record_6_list) Get(i int) protoreflect.Value {
return protoreflect.ValueOfString((*x.list)[i])
}
func (x *_Record_6_list) Set(i int, value protoreflect.Value) {
valueUnwrapped := value.String()
concreteValue := valueUnwrapped
(*x.list)[i] = concreteValue
}
func (x *_Record_6_list) Append(value protoreflect.Value) {
valueUnwrapped := value.String()
concreteValue := valueUnwrapped
*x.list = append(*x.list, concreteValue)
}
func (x *_Record_6_list) AppendMutable() protoreflect.Value {
panic(fmt.Errorf("AppendMutable can not be called on message Record at list field Owners as it is not of Message kind"))
}
func (x *_Record_6_list) Truncate(n int) {
*x.list = (*x.list)[:n]
}
func (x *_Record_6_list) NewElement() protoreflect.Value {
v := ""
return protoreflect.ValueOfString(v)
}
func (x *_Record_6_list) IsValid() bool {
return x.list != nil
}
var _ protoreflect.List = (*_Record_8_list)(nil)
type _Record_8_list struct {
list *[]string
}
func (x *_Record_8_list) Len() int {
if x.list == nil {
return 0
}
return len(*x.list)
}
func (x *_Record_8_list) Get(i int) protoreflect.Value {
return protoreflect.ValueOfString((*x.list)[i])
}
func (x *_Record_8_list) Set(i int, value protoreflect.Value) {
valueUnwrapped := value.String()
concreteValue := valueUnwrapped
(*x.list)[i] = concreteValue
}
func (x *_Record_8_list) Append(value protoreflect.Value) {
valueUnwrapped := value.String()
concreteValue := valueUnwrapped
*x.list = append(*x.list, concreteValue)
}
func (x *_Record_8_list) AppendMutable() protoreflect.Value {
panic(fmt.Errorf("AppendMutable can not be called on message Record at list field Names as it is not of Message kind"))
}
func (x *_Record_8_list) Truncate(n int) {
*x.list = (*x.list)[:n]
}
func (x *_Record_8_list) NewElement() protoreflect.Value {
v := ""
return protoreflect.ValueOfString(v)
}
func (x *_Record_8_list) IsValid() bool {
return x.list != nil
}
var (
md_Record protoreflect.MessageDescriptor
fd_Record_id protoreflect.FieldDescriptor
fd_Record_bond_id protoreflect.FieldDescriptor
fd_Record_create_time protoreflect.FieldDescriptor
fd_Record_expiry_time protoreflect.FieldDescriptor
fd_Record_deleted protoreflect.FieldDescriptor
fd_Record_owners protoreflect.FieldDescriptor
fd_Record_attributes protoreflect.FieldDescriptor
fd_Record_names protoreflect.FieldDescriptor
fd_Record_type protoreflect.FieldDescriptor
)
func init() {
file_cerc_registry_v1_registry_proto_init()
md_Record = File_cerc_registry_v1_registry_proto.Messages().ByName("Record")
fd_Record_id = md_Record.Fields().ByName("id")
fd_Record_bond_id = md_Record.Fields().ByName("bond_id")
fd_Record_create_time = md_Record.Fields().ByName("create_time")
fd_Record_expiry_time = md_Record.Fields().ByName("expiry_time")
fd_Record_deleted = md_Record.Fields().ByName("deleted")
fd_Record_owners = md_Record.Fields().ByName("owners")
fd_Record_attributes = md_Record.Fields().ByName("attributes")
fd_Record_names = md_Record.Fields().ByName("names")
fd_Record_type = md_Record.Fields().ByName("type")
}
var _ protoreflect.Message = (*fastReflection_Record)(nil)
type fastReflection_Record Record
func (x *Record) ProtoReflect() protoreflect.Message {
return (*fastReflection_Record)(x)
}
func (x *Record) slowProtoReflect() protoreflect.Message {
mi := &file_cerc_registry_v1_registry_proto_msgTypes[1]
if protoimpl.UnsafeEnabled && x != nil {
ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x))
if ms.LoadMessageInfo() == nil {
ms.StoreMessageInfo(mi)
}
return ms
}
return mi.MessageOf(x)
}
var _fastReflection_Record_messageType fastReflection_Record_messageType
var _ protoreflect.MessageType = fastReflection_Record_messageType{}
type fastReflection_Record_messageType struct{}
func (x fastReflection_Record_messageType) Zero() protoreflect.Message {
return (*fastReflection_Record)(nil)
}
func (x fastReflection_Record_messageType) New() protoreflect.Message {
return new(fastReflection_Record)
}
func (x fastReflection_Record_messageType) Descriptor() protoreflect.MessageDescriptor {
return md_Record
}
// Descriptor returns message descriptor, which contains only the protobuf
// type information for the message.
func (x *fastReflection_Record) Descriptor() protoreflect.MessageDescriptor {
return md_Record
}
// Type returns the message type, which encapsulates both Go and protobuf
// type information. If the Go type information is not needed,
// it is recommended that the message descriptor be used instead.
func (x *fastReflection_Record) Type() protoreflect.MessageType {
return _fastReflection_Record_messageType
}
// New returns a newly allocated and mutable empty message.
func (x *fastReflection_Record) New() protoreflect.Message {
return new(fastReflection_Record)
}
// Interface unwraps the message reflection interface and
// returns the underlying ProtoMessage interface.
func (x *fastReflection_Record) Interface() protoreflect.ProtoMessage {
return (*Record)(x)
}
// Range iterates over every populated field in an undefined order,
// calling f for each field descriptor and value encountered.
// Range returns immediately if f returns false.
// While iterating, mutating operations may only be performed
// on the current field descriptor.
func (x *fastReflection_Record) Range(f func(protoreflect.FieldDescriptor, protoreflect.Value) bool) {
if x.Id != "" {
value := protoreflect.ValueOfString(x.Id)
if !f(fd_Record_id, value) {
return
}
}
if x.BondId != "" {
value := protoreflect.ValueOfString(x.BondId)
if !f(fd_Record_bond_id, value) {
return
}
}
if x.CreateTime != "" {
value := protoreflect.ValueOfString(x.CreateTime)
if !f(fd_Record_create_time, value) {
return
}
}
if x.ExpiryTime != "" {
value := protoreflect.ValueOfString(x.ExpiryTime)
if !f(fd_Record_expiry_time, value) {
return
}
}
if x.Deleted != false {
value := protoreflect.ValueOfBool(x.Deleted)
if !f(fd_Record_deleted, value) {
return
}
}
if len(x.Owners) != 0 {
value := protoreflect.ValueOfList(&_Record_6_list{list: &x.Owners})
if !f(fd_Record_owners, value) {
return
}
}
if len(x.Attributes) != 0 {
value := protoreflect.ValueOfBytes(x.Attributes)
if !f(fd_Record_attributes, value) {
return
}
}
if len(x.Names) != 0 {
value := protoreflect.ValueOfList(&_Record_8_list{list: &x.Names})
if !f(fd_Record_names, value) {
return
}
}
if x.Type_ != "" {
value := protoreflect.ValueOfString(x.Type_)
if !f(fd_Record_type, value) {
return
}
}
}
// Has reports whether a field is populated.
//
// Some fields have the property of nullability where it is possible to
// distinguish between the default value of a field and whether the field
// was explicitly populated with the default value. Singular message fields,
// member fields of a oneof, and proto2 scalar fields are nullable. Such
// fields are populated only if explicitly set.
//
// In other cases (aside from the nullable cases above),
// a proto3 scalar field is populated if it contains a non-zero value, and
// a repeated field is populated if it is non-empty.
func (x *fastReflection_Record) Has(fd protoreflect.FieldDescriptor) bool {
switch fd.FullName() {
case "cerc.registry.v1.Record.id":
return x.Id != ""
case "cerc.registry.v1.Record.bond_id":
return x.BondId != ""
case "cerc.registry.v1.Record.create_time":
return x.CreateTime != ""
case "cerc.registry.v1.Record.expiry_time":
return x.ExpiryTime != ""
case "cerc.registry.v1.Record.deleted":
return x.Deleted != false
case "cerc.registry.v1.Record.owners":
return len(x.Owners) != 0
case "cerc.registry.v1.Record.attributes":
return len(x.Attributes) != 0
case "cerc.registry.v1.Record.names":
return len(x.Names) != 0
case "cerc.registry.v1.Record.type":
return x.Type_ != ""
default:
if fd.IsExtension() {
panic(fmt.Errorf("proto3 declared messages do not support extensions: cerc.registry.v1.Record"))
}
panic(fmt.Errorf("message cerc.registry.v1.Record does not contain field %s", fd.FullName()))
}
}
// Clear clears the field such that a subsequent Has call reports false.
//
// Clearing an extension field clears both the extension type and value
// associated with the given field number.
//
// Clear is a mutating operation and unsafe for concurrent use.
func (x *fastReflection_Record) Clear(fd protoreflect.FieldDescriptor) {
switch fd.FullName() {
case "cerc.registry.v1.Record.id":
x.Id = ""
case "cerc.registry.v1.Record.bond_id":
x.BondId = ""
case "cerc.registry.v1.Record.create_time":
x.CreateTime = ""
case "cerc.registry.v1.Record.expiry_time":
x.ExpiryTime = ""
case "cerc.registry.v1.Record.deleted":
x.Deleted = false
case "cerc.registry.v1.Record.owners":
x.Owners = nil
case "cerc.registry.v1.Record.attributes":
x.Attributes = nil
case "cerc.registry.v1.Record.names":
x.Names = nil
case "cerc.registry.v1.Record.type":
x.Type_ = ""
default:
if fd.IsExtension() {
panic(fmt.Errorf("proto3 declared messages do not support extensions: cerc.registry.v1.Record"))
}
panic(fmt.Errorf("message cerc.registry.v1.Record does not contain field %s", fd.FullName()))
}
}
// Get retrieves the value for a field.
//
// For unpopulated scalars, it returns the default value, where
// the default value of a bytes scalar is guaranteed to be a copy.
// For unpopulated composite types, it returns an empty, read-only view
// of the value; to obtain a mutable reference, use Mutable.
func (x *fastReflection_Record) Get(descriptor protoreflect.FieldDescriptor) protoreflect.Value {
switch descriptor.FullName() {
case "cerc.registry.v1.Record.id":
value := x.Id
return protoreflect.ValueOfString(value)
case "cerc.registry.v1.Record.bond_id":
value := x.BondId
return protoreflect.ValueOfString(value)
case "cerc.registry.v1.Record.create_time":
value := x.CreateTime
return protoreflect.ValueOfString(value)
case "cerc.registry.v1.Record.expiry_time":
value := x.ExpiryTime
return protoreflect.ValueOfString(value)
case "cerc.registry.v1.Record.deleted":
value := x.Deleted
return protoreflect.ValueOfBool(value)
case "cerc.registry.v1.Record.owners":
if len(x.Owners) == 0 {
return protoreflect.ValueOfList(&_Record_6_list{})
}
listValue := &_Record_6_list{list: &x.Owners}
return protoreflect.ValueOfList(listValue)
case "cerc.registry.v1.Record.attributes":
value := x.Attributes
return protoreflect.ValueOfBytes(value)
case "cerc.registry.v1.Record.names":
if len(x.Names) == 0 {
return protoreflect.ValueOfList(&_Record_8_list{})
}
listValue := &_Record_8_list{list: &x.Names}
return protoreflect.ValueOfList(listValue)
case "cerc.registry.v1.Record.type":
value := x.Type_
return protoreflect.ValueOfString(value)
default:
if descriptor.IsExtension() {
panic(fmt.Errorf("proto3 declared messages do not support extensions: cerc.registry.v1.Record"))
}
panic(fmt.Errorf("message cerc.registry.v1.Record does not contain field %s", descriptor.FullName()))
}
}
// Set stores the value for a field.
//
// For a field belonging to a oneof, it implicitly clears any other field
// that may be currently set within the same oneof.
// For extension fields, it implicitly stores the provided ExtensionType.
// When setting a composite type, it is unspecified whether the stored value
// aliases the source's memory in any way. If the composite value is an
// empty, read-only value, then it panics.
//
// Set is a mutating operation and unsafe for concurrent use.
func (x *fastReflection_Record) Set(fd protoreflect.FieldDescriptor, value protoreflect.Value) {
switch fd.FullName() {
case "cerc.registry.v1.Record.id":
x.Id = value.Interface().(string)
case "cerc.registry.v1.Record.bond_id":
x.BondId = value.Interface().(string)
case "cerc.registry.v1.Record.create_time":
x.CreateTime = value.Interface().(string)
case "cerc.registry.v1.Record.expiry_time":
x.ExpiryTime = value.Interface().(string)
case "cerc.registry.v1.Record.deleted":
x.Deleted = value.Bool()
case "cerc.registry.v1.Record.owners":
lv := value.List()
clv := lv.(*_Record_6_list)
x.Owners = *clv.list
case "cerc.registry.v1.Record.attributes":
x.Attributes = value.Bytes()
case "cerc.registry.v1.Record.names":
lv := value.List()
clv := lv.(*_Record_8_list)
x.Names = *clv.list
case "cerc.registry.v1.Record.type":
x.Type_ = value.Interface().(string)
default:
if fd.IsExtension() {
panic(fmt.Errorf("proto3 declared messages do not support extensions: cerc.registry.v1.Record"))
}
panic(fmt.Errorf("message cerc.registry.v1.Record does not contain field %s", fd.FullName()))
}
}
// Mutable returns a mutable reference to a composite type.
//
// If the field is unpopulated, it may allocate a composite value.
// For a field belonging to a oneof, it implicitly clears any other field
// that may be currently set within the same oneof.
// For extension fields, it implicitly stores the provided ExtensionType
// if not already stored.
// It panics if the field does not contain a composite type.
//
// Mutable is a mutating operation and unsafe for concurrent use.
func (x *fastReflection_Record) Mutable(fd protoreflect.FieldDescriptor) protoreflect.Value {
switch fd.FullName() {
case "cerc.registry.v1.Record.owners":
if x.Owners == nil {
x.Owners = []string{}
}
value := &_Record_6_list{list: &x.Owners}
return protoreflect.ValueOfList(value)
case "cerc.registry.v1.Record.names":
if x.Names == nil {
x.Names = []string{}
}
value := &_Record_8_list{list: &x.Names}
return protoreflect.ValueOfList(value)
case "cerc.registry.v1.Record.id":
panic(fmt.Errorf("field id of message cerc.registry.v1.Record is not mutable"))
case "cerc.registry.v1.Record.bond_id":
panic(fmt.Errorf("field bond_id of message cerc.registry.v1.Record is not mutable"))
case "cerc.registry.v1.Record.create_time":
panic(fmt.Errorf("field create_time of message cerc.registry.v1.Record is not mutable"))
case "cerc.registry.v1.Record.expiry_time":
panic(fmt.Errorf("field expiry_time of message cerc.registry.v1.Record is not mutable"))
case "cerc.registry.v1.Record.deleted":
panic(fmt.Errorf("field deleted of message cerc.registry.v1.Record is not mutable"))
case "cerc.registry.v1.Record.attributes":
panic(fmt.Errorf("field attributes of message cerc.registry.v1.Record is not mutable"))
case "cerc.registry.v1.Record.type":
panic(fmt.Errorf("field type of message cerc.registry.v1.Record is not mutable"))
default:
if fd.IsExtension() {
panic(fmt.Errorf("proto3 declared messages do not support extensions: cerc.registry.v1.Record"))
}
panic(fmt.Errorf("message cerc.registry.v1.Record does not contain field %s", fd.FullName()))
}
}
// NewField returns a new value that is assignable to the field
// for the given descriptor. For scalars, this returns the default value.
// For lists, maps, and messages, this returns a new, empty, mutable value.
func (x *fastReflection_Record) NewField(fd protoreflect.FieldDescriptor) protoreflect.Value {
switch fd.FullName() {
case "cerc.registry.v1.Record.id":
return protoreflect.ValueOfString("")
case "cerc.registry.v1.Record.bond_id":
return protoreflect.ValueOfString("")
case "cerc.registry.v1.Record.create_time":
return protoreflect.ValueOfString("")
case "cerc.registry.v1.Record.expiry_time":
return protoreflect.ValueOfString("")
case "cerc.registry.v1.Record.deleted":
return protoreflect.ValueOfBool(false)
case "cerc.registry.v1.Record.owners":
list := []string{}
return protoreflect.ValueOfList(&_Record_6_list{list: &list})
case "cerc.registry.v1.Record.attributes":
return protoreflect.ValueOfBytes(nil)
case "cerc.registry.v1.Record.names":
list := []string{}
return protoreflect.ValueOfList(&_Record_8_list{list: &list})
case "cerc.registry.v1.Record.type":
return protoreflect.ValueOfString("")
default:
if fd.IsExtension() {
panic(fmt.Errorf("proto3 declared messages do not support extensions: cerc.registry.v1.Record"))
}
panic(fmt.Errorf("message cerc.registry.v1.Record does not contain field %s", fd.FullName()))
}
}
// WhichOneof reports which field within the oneof is populated,
// returning nil if none are populated.
// It panics if the oneof descriptor does not belong to this message.
func (x *fastReflection_Record) WhichOneof(d protoreflect.OneofDescriptor) protoreflect.FieldDescriptor {
switch d.FullName() {
default:
panic(fmt.Errorf("%s is not a oneof field in cerc.registry.v1.Record", d.FullName()))
}
panic("unreachable")
}
// GetUnknown retrieves the entire list of unknown fields.
// The caller may only mutate the contents of the RawFields
// if the mutated bytes are stored back into the message with SetUnknown.
func (x *fastReflection_Record) GetUnknown() protoreflect.RawFields {
return x.unknownFields
}
// SetUnknown stores an entire list of unknown fields.
// The raw fields must be syntactically valid according to the wire format.
// An implementation may panic if this is not the case.
// Once stored, the caller must not mutate the content of the RawFields.
// An empty RawFields may be passed to clear the fields.
//
// SetUnknown is a mutating operation and unsafe for concurrent use.
func (x *fastReflection_Record) SetUnknown(fields protoreflect.RawFields) {
x.unknownFields = fields
}
// IsValid reports whether the message is valid.
//
// An invalid message is an empty, read-only value.
//
// An invalid message often corresponds to a nil pointer of the concrete
// message type, but the details are implementation dependent.
// Validity is not part of the protobuf data model, and may not
// be preserved in marshaling or other operations.
func (x *fastReflection_Record) IsValid() bool {
return x != nil
}
// ProtoMethods returns optional fastReflectionFeature-path implementations of various operations.
// This method may return nil.
//
// The returned methods type is identical to
// "google.golang.org/protobuf/runtime/protoiface".Methods.
// Consult the protoiface package documentation for details.
func (x *fastReflection_Record) ProtoMethods() *protoiface.Methods {
size := func(input protoiface.SizeInput) protoiface.SizeOutput {
x := input.Message.Interface().(*Record)
if x == nil {
return protoiface.SizeOutput{
NoUnkeyedLiterals: input.NoUnkeyedLiterals,
Size: 0,
}
}
options := runtime.SizeInputToOptions(input)
_ = options
var n int
var l int
_ = l
l = len(x.Id)
if l > 0 {
n += 1 + l + runtime.Sov(uint64(l))
}
l = len(x.BondId)
if l > 0 {
n += 1 + l + runtime.Sov(uint64(l))
}
l = len(x.CreateTime)
if l > 0 {
n += 1 + l + runtime.Sov(uint64(l))
}
l = len(x.ExpiryTime)
if l > 0 {
n += 1 + l + runtime.Sov(uint64(l))
}
if x.Deleted {
n += 2
}
if len(x.Owners) > 0 {
for _, s := range x.Owners {
l = len(s)
n += 1 + l + runtime.Sov(uint64(l))
}
}
l = len(x.Attributes)
if l > 0 {
n += 1 + l + runtime.Sov(uint64(l))
}
if len(x.Names) > 0 {
for _, s := range x.Names {
l = len(s)
n += 1 + l + runtime.Sov(uint64(l))
}
}
l = len(x.Type_)
if l > 0 {
n += 1 + l + runtime.Sov(uint64(l))
}
if x.unknownFields != nil {
n += len(x.unknownFields)
}
return protoiface.SizeOutput{
NoUnkeyedLiterals: input.NoUnkeyedLiterals,
Size: n,
}
}
marshal := func(input protoiface.MarshalInput) (protoiface.MarshalOutput, error) {
x := input.Message.Interface().(*Record)
if x == nil {
return protoiface.MarshalOutput{
NoUnkeyedLiterals: input.NoUnkeyedLiterals,
Buf: input.Buf,
}, nil
}
options := runtime.MarshalInputToOptions(input)
_ = options
size := options.Size(x)
dAtA := make([]byte, size)
i := len(dAtA)
_ = i
var l int
_ = l
if x.unknownFields != nil {
i -= len(x.unknownFields)
copy(dAtA[i:], x.unknownFields)
}
if len(x.Type_) > 0 {
i -= len(x.Type_)
copy(dAtA[i:], x.Type_)
i = runtime.EncodeVarint(dAtA, i, uint64(len(x.Type_)))
i--
dAtA[i] = 0x4a
}
if len(x.Names) > 0 {
for iNdEx := len(x.Names) - 1; iNdEx >= 0; iNdEx-- {
i -= len(x.Names[iNdEx])
copy(dAtA[i:], x.Names[iNdEx])
i = runtime.EncodeVarint(dAtA, i, uint64(len(x.Names[iNdEx])))
i--
dAtA[i] = 0x42
}
}
if len(x.Attributes) > 0 {
i -= len(x.Attributes)
copy(dAtA[i:], x.Attributes)
i = runtime.EncodeVarint(dAtA, i, uint64(len(x.Attributes)))
i--
dAtA[i] = 0x3a
}
if len(x.Owners) > 0 {
for iNdEx := len(x.Owners) - 1; iNdEx >= 0; iNdEx-- {
i -= len(x.Owners[iNdEx])
copy(dAtA[i:], x.Owners[iNdEx])
i = runtime.EncodeVarint(dAtA, i, uint64(len(x.Owners[iNdEx])))
i--
dAtA[i] = 0x32
}
}
if x.Deleted {
i--
if x.Deleted {
dAtA[i] = 1
} else {
dAtA[i] = 0
}
i--
dAtA[i] = 0x28
}
if len(x.ExpiryTime) > 0 {
i -= len(x.ExpiryTime)
copy(dAtA[i:], x.ExpiryTime)
i = runtime.EncodeVarint(dAtA, i, uint64(len(x.ExpiryTime)))
i--
dAtA[i] = 0x22
}
if len(x.CreateTime) > 0 {
i -= len(x.CreateTime)
copy(dAtA[i:], x.CreateTime)
i = runtime.EncodeVarint(dAtA, i, uint64(len(x.CreateTime)))
i--
dAtA[i] = 0x1a
}
if len(x.BondId) > 0 {
i -= len(x.BondId)
copy(dAtA[i:], x.BondId)
i = runtime.EncodeVarint(dAtA, i, uint64(len(x.BondId)))
i--
dAtA[i] = 0x12
}
if len(x.Id) > 0 {
i -= len(x.Id)
copy(dAtA[i:], x.Id)
i = runtime.EncodeVarint(dAtA, i, uint64(len(x.Id)))
i--
dAtA[i] = 0xa
}
if input.Buf != nil {
input.Buf = append(input.Buf, dAtA...)
} else {
input.Buf = dAtA
}
return protoiface.MarshalOutput{
NoUnkeyedLiterals: input.NoUnkeyedLiterals,
Buf: input.Buf,
}, nil
}
unmarshal := func(input protoiface.UnmarshalInput) (protoiface.UnmarshalOutput, error) {
x := input.Message.Interface().(*Record)
if x == nil {
return protoiface.UnmarshalOutput{
NoUnkeyedLiterals: input.NoUnkeyedLiterals,
Flags: input.Flags,
}, nil
}
options := runtime.UnmarshalInputToOptions(input)
_ = options
dAtA := input.Buf
l := len(dAtA)
iNdEx := 0
for iNdEx < l {
preIndex := iNdEx
var wire uint64
for shift := uint(0); ; shift += 7 {
if shift >= 64 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrIntOverflow
}
if iNdEx >= l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
b := dAtA[iNdEx]
iNdEx++
wire |= uint64(b&0x7F) << shift
if b < 0x80 {
break
}
}
fieldNum := int32(wire >> 3)
wireType := int(wire & 0x7)
if wireType == 4 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, fmt.Errorf("proto: Record: wiretype end group for non-group")
}
if fieldNum <= 0 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, fmt.Errorf("proto: Record: illegal tag %d (wire type %d)", fieldNum, wire)
}
switch fieldNum {
case 1:
if wireType != 2 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, fmt.Errorf("proto: wrong wireType = %d for field Id", wireType)
}
var stringLen uint64
for shift := uint(0); ; shift += 7 {
if shift >= 64 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrIntOverflow
}
if iNdEx >= l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
b := dAtA[iNdEx]
iNdEx++
stringLen |= uint64(b&0x7F) << shift
if b < 0x80 {
break
}
}
intStringLen := int(stringLen)
if intStringLen < 0 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength
}
postIndex := iNdEx + intStringLen
if postIndex < 0 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength
}
if postIndex > l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
x.Id = string(dAtA[iNdEx:postIndex])
iNdEx = postIndex
case 2:
if wireType != 2 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, fmt.Errorf("proto: wrong wireType = %d for field BondId", wireType)
}
var stringLen uint64
for shift := uint(0); ; shift += 7 {
if shift >= 64 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrIntOverflow
}
if iNdEx >= l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
b := dAtA[iNdEx]
iNdEx++
stringLen |= uint64(b&0x7F) << shift
if b < 0x80 {
break
}
}
intStringLen := int(stringLen)
if intStringLen < 0 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength
}
postIndex := iNdEx + intStringLen
if postIndex < 0 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength
}
if postIndex > l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
x.BondId = string(dAtA[iNdEx:postIndex])
iNdEx = postIndex
case 3:
if wireType != 2 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, fmt.Errorf("proto: wrong wireType = %d for field CreateTime", wireType)
}
var stringLen uint64
for shift := uint(0); ; shift += 7 {
if shift >= 64 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrIntOverflow
}
if iNdEx >= l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
b := dAtA[iNdEx]
iNdEx++
stringLen |= uint64(b&0x7F) << shift
if b < 0x80 {
break
}
}
intStringLen := int(stringLen)
if intStringLen < 0 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength
}
postIndex := iNdEx + intStringLen
if postIndex < 0 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength
}
if postIndex > l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
x.CreateTime = string(dAtA[iNdEx:postIndex])
iNdEx = postIndex
case 4:
if wireType != 2 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, fmt.Errorf("proto: wrong wireType = %d for field ExpiryTime", wireType)
}
var stringLen uint64
for shift := uint(0); ; shift += 7 {
if shift >= 64 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrIntOverflow
}
if iNdEx >= l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
b := dAtA[iNdEx]
iNdEx++
stringLen |= uint64(b&0x7F) << shift
if b < 0x80 {
break
}
}
intStringLen := int(stringLen)
if intStringLen < 0 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength
}
postIndex := iNdEx + intStringLen
if postIndex < 0 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength
}
if postIndex > l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
x.ExpiryTime = string(dAtA[iNdEx:postIndex])
iNdEx = postIndex
case 5:
if wireType != 0 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, fmt.Errorf("proto: wrong wireType = %d for field Deleted", wireType)
}
var v int
for shift := uint(0); ; shift += 7 {
if shift >= 64 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrIntOverflow
}
if iNdEx >= l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
b := dAtA[iNdEx]
iNdEx++
v |= int(b&0x7F) << shift
if b < 0x80 {
break
}
}
x.Deleted = bool(v != 0)
case 6:
if wireType != 2 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, fmt.Errorf("proto: wrong wireType = %d for field Owners", wireType)
}
var stringLen uint64
for shift := uint(0); ; shift += 7 {
if shift >= 64 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrIntOverflow
}
if iNdEx >= l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
b := dAtA[iNdEx]
iNdEx++
stringLen |= uint64(b&0x7F) << shift
if b < 0x80 {
break
}
}
intStringLen := int(stringLen)
if intStringLen < 0 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength
}
postIndex := iNdEx + intStringLen
if postIndex < 0 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength
}
if postIndex > l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
x.Owners = append(x.Owners, string(dAtA[iNdEx:postIndex]))
iNdEx = postIndex
case 7:
if wireType != 2 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, fmt.Errorf("proto: wrong wireType = %d for field Attributes", wireType)
}
var byteLen int
for shift := uint(0); ; shift += 7 {
if shift >= 64 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrIntOverflow
}
if iNdEx >= l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
b := dAtA[iNdEx]
iNdEx++
byteLen |= int(b&0x7F) << shift
if b < 0x80 {
break
}
}
if byteLen < 0 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength
}
postIndex := iNdEx + byteLen
if postIndex < 0 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength
}
if postIndex > l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
x.Attributes = append(x.Attributes[:0], dAtA[iNdEx:postIndex]...)
if x.Attributes == nil {
x.Attributes = []byte{}
}
iNdEx = postIndex
case 8:
if wireType != 2 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, fmt.Errorf("proto: wrong wireType = %d for field Names", wireType)
}
var stringLen uint64
for shift := uint(0); ; shift += 7 {
if shift >= 64 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrIntOverflow
}
if iNdEx >= l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
b := dAtA[iNdEx]
iNdEx++
stringLen |= uint64(b&0x7F) << shift
if b < 0x80 {
break
}
}
intStringLen := int(stringLen)
if intStringLen < 0 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength
}
postIndex := iNdEx + intStringLen
if postIndex < 0 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength
}
if postIndex > l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
x.Names = append(x.Names, string(dAtA[iNdEx:postIndex]))
iNdEx = postIndex
case 9:
if wireType != 2 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, fmt.Errorf("proto: wrong wireType = %d for field Type_", wireType)
}
var stringLen uint64
for shift := uint(0); ; shift += 7 {
if shift >= 64 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrIntOverflow
}
if iNdEx >= l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
b := dAtA[iNdEx]
iNdEx++
stringLen |= uint64(b&0x7F) << shift
if b < 0x80 {
break
}
}
intStringLen := int(stringLen)
if intStringLen < 0 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength
}
postIndex := iNdEx + intStringLen
if postIndex < 0 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength
}
if postIndex > l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
x.Type_ = string(dAtA[iNdEx:postIndex])
iNdEx = postIndex
default:
iNdEx = preIndex
skippy, err := runtime.Skip(dAtA[iNdEx:])
if err != nil {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, err
}
if (skippy < 0) || (iNdEx+skippy) < 0 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength
}
if (iNdEx + skippy) > l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
if !options.DiscardUnknown {
x.unknownFields = append(x.unknownFields, dAtA[iNdEx:iNdEx+skippy]...)
}
iNdEx += skippy
}
}
if iNdEx > l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, nil
}
return &protoiface.Methods{
NoUnkeyedLiterals: struct{}{},
Flags: protoiface.SupportMarshalDeterministic | protoiface.SupportUnmarshalDiscardUnknown,
Size: size,
Marshal: marshal,
Unmarshal: unmarshal,
Merge: nil,
CheckInitialized: nil,
}
}
var (
md_AuthorityEntry protoreflect.MessageDescriptor
fd_AuthorityEntry_name protoreflect.FieldDescriptor
fd_AuthorityEntry_entry protoreflect.FieldDescriptor
)
func init() {
file_cerc_registry_v1_registry_proto_init()
md_AuthorityEntry = File_cerc_registry_v1_registry_proto.Messages().ByName("AuthorityEntry")
fd_AuthorityEntry_name = md_AuthorityEntry.Fields().ByName("name")
fd_AuthorityEntry_entry = md_AuthorityEntry.Fields().ByName("entry")
}
var _ protoreflect.Message = (*fastReflection_AuthorityEntry)(nil)
type fastReflection_AuthorityEntry AuthorityEntry
func (x *AuthorityEntry) ProtoReflect() protoreflect.Message {
return (*fastReflection_AuthorityEntry)(x)
}
func (x *AuthorityEntry) slowProtoReflect() protoreflect.Message {
mi := &file_cerc_registry_v1_registry_proto_msgTypes[2]
if protoimpl.UnsafeEnabled && x != nil {
ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x))
if ms.LoadMessageInfo() == nil {
ms.StoreMessageInfo(mi)
}
return ms
}
return mi.MessageOf(x)
}
var _fastReflection_AuthorityEntry_messageType fastReflection_AuthorityEntry_messageType
var _ protoreflect.MessageType = fastReflection_AuthorityEntry_messageType{}
type fastReflection_AuthorityEntry_messageType struct{}
func (x fastReflection_AuthorityEntry_messageType) Zero() protoreflect.Message {
return (*fastReflection_AuthorityEntry)(nil)
}
func (x fastReflection_AuthorityEntry_messageType) New() protoreflect.Message {
return new(fastReflection_AuthorityEntry)
}
func (x fastReflection_AuthorityEntry_messageType) Descriptor() protoreflect.MessageDescriptor {
return md_AuthorityEntry
}
// Descriptor returns message descriptor, which contains only the protobuf
// type information for the message.
func (x *fastReflection_AuthorityEntry) Descriptor() protoreflect.MessageDescriptor {
return md_AuthorityEntry
}
// Type returns the message type, which encapsulates both Go and protobuf
// type information. If the Go type information is not needed,
// it is recommended that the message descriptor be used instead.
func (x *fastReflection_AuthorityEntry) Type() protoreflect.MessageType {
return _fastReflection_AuthorityEntry_messageType
}
// New returns a newly allocated and mutable empty message.
func (x *fastReflection_AuthorityEntry) New() protoreflect.Message {
return new(fastReflection_AuthorityEntry)
}
// Interface unwraps the message reflection interface and
// returns the underlying ProtoMessage interface.
func (x *fastReflection_AuthorityEntry) Interface() protoreflect.ProtoMessage {
return (*AuthorityEntry)(x)
}
// Range iterates over every populated field in an undefined order,
// calling f for each field descriptor and value encountered.
// Range returns immediately if f returns false.
// While iterating, mutating operations may only be performed
// on the current field descriptor.
func (x *fastReflection_AuthorityEntry) Range(f func(protoreflect.FieldDescriptor, protoreflect.Value) bool) {
if x.Name != "" {
value := protoreflect.ValueOfString(x.Name)
if !f(fd_AuthorityEntry_name, value) {
return
}
}
if x.Entry != nil {
value := protoreflect.ValueOfMessage(x.Entry.ProtoReflect())
if !f(fd_AuthorityEntry_entry, value) {
return
}
}
}
// Has reports whether a field is populated.
//
// Some fields have the property of nullability where it is possible to
// distinguish between the default value of a field and whether the field
// was explicitly populated with the default value. Singular message fields,
// member fields of a oneof, and proto2 scalar fields are nullable. Such
// fields are populated only if explicitly set.
//
// In other cases (aside from the nullable cases above),
// a proto3 scalar field is populated if it contains a non-zero value, and
// a repeated field is populated if it is non-empty.
func (x *fastReflection_AuthorityEntry) Has(fd protoreflect.FieldDescriptor) bool {
switch fd.FullName() {
case "cerc.registry.v1.AuthorityEntry.name":
return x.Name != ""
case "cerc.registry.v1.AuthorityEntry.entry":
return x.Entry != nil
default:
if fd.IsExtension() {
panic(fmt.Errorf("proto3 declared messages do not support extensions: cerc.registry.v1.AuthorityEntry"))
}
panic(fmt.Errorf("message cerc.registry.v1.AuthorityEntry does not contain field %s", fd.FullName()))
}
}
// Clear clears the field such that a subsequent Has call reports false.
//
// Clearing an extension field clears both the extension type and value
// associated with the given field number.
//
// Clear is a mutating operation and unsafe for concurrent use.
func (x *fastReflection_AuthorityEntry) Clear(fd protoreflect.FieldDescriptor) {
switch fd.FullName() {
case "cerc.registry.v1.AuthorityEntry.name":
x.Name = ""
case "cerc.registry.v1.AuthorityEntry.entry":
x.Entry = nil
default:
if fd.IsExtension() {
panic(fmt.Errorf("proto3 declared messages do not support extensions: cerc.registry.v1.AuthorityEntry"))
}
panic(fmt.Errorf("message cerc.registry.v1.AuthorityEntry does not contain field %s", fd.FullName()))
}
}
// Get retrieves the value for a field.
//
// For unpopulated scalars, it returns the default value, where
// the default value of a bytes scalar is guaranteed to be a copy.
// For unpopulated composite types, it returns an empty, read-only view
// of the value; to obtain a mutable reference, use Mutable.
func (x *fastReflection_AuthorityEntry) Get(descriptor protoreflect.FieldDescriptor) protoreflect.Value {
switch descriptor.FullName() {
case "cerc.registry.v1.AuthorityEntry.name":
value := x.Name
return protoreflect.ValueOfString(value)
case "cerc.registry.v1.AuthorityEntry.entry":
value := x.Entry
return protoreflect.ValueOfMessage(value.ProtoReflect())
default:
if descriptor.IsExtension() {
panic(fmt.Errorf("proto3 declared messages do not support extensions: cerc.registry.v1.AuthorityEntry"))
}
panic(fmt.Errorf("message cerc.registry.v1.AuthorityEntry does not contain field %s", descriptor.FullName()))
}
}
// Set stores the value for a field.
//
// For a field belonging to a oneof, it implicitly clears any other field
// that may be currently set within the same oneof.
// For extension fields, it implicitly stores the provided ExtensionType.
// When setting a composite type, it is unspecified whether the stored value
// aliases the source's memory in any way. If the composite value is an
// empty, read-only value, then it panics.
//
// Set is a mutating operation and unsafe for concurrent use.
func (x *fastReflection_AuthorityEntry) Set(fd protoreflect.FieldDescriptor, value protoreflect.Value) {
switch fd.FullName() {
case "cerc.registry.v1.AuthorityEntry.name":
x.Name = value.Interface().(string)
case "cerc.registry.v1.AuthorityEntry.entry":
x.Entry = value.Message().Interface().(*NameAuthority)
default:
if fd.IsExtension() {
panic(fmt.Errorf("proto3 declared messages do not support extensions: cerc.registry.v1.AuthorityEntry"))
}
panic(fmt.Errorf("message cerc.registry.v1.AuthorityEntry does not contain field %s", fd.FullName()))
}
}
// Mutable returns a mutable reference to a composite type.
//
// If the field is unpopulated, it may allocate a composite value.
// For a field belonging to a oneof, it implicitly clears any other field
// that may be currently set within the same oneof.
// For extension fields, it implicitly stores the provided ExtensionType
// if not already stored.
// It panics if the field does not contain a composite type.
//
// Mutable is a mutating operation and unsafe for concurrent use.
func (x *fastReflection_AuthorityEntry) Mutable(fd protoreflect.FieldDescriptor) protoreflect.Value {
switch fd.FullName() {
case "cerc.registry.v1.AuthorityEntry.entry":
if x.Entry == nil {
x.Entry = new(NameAuthority)
}
return protoreflect.ValueOfMessage(x.Entry.ProtoReflect())
case "cerc.registry.v1.AuthorityEntry.name":
panic(fmt.Errorf("field name of message cerc.registry.v1.AuthorityEntry is not mutable"))
default:
if fd.IsExtension() {
panic(fmt.Errorf("proto3 declared messages do not support extensions: cerc.registry.v1.AuthorityEntry"))
}
panic(fmt.Errorf("message cerc.registry.v1.AuthorityEntry does not contain field %s", fd.FullName()))
}
}
// NewField returns a new value that is assignable to the field
// for the given descriptor. For scalars, this returns the default value.
// For lists, maps, and messages, this returns a new, empty, mutable value.
func (x *fastReflection_AuthorityEntry) NewField(fd protoreflect.FieldDescriptor) protoreflect.Value {
switch fd.FullName() {
case "cerc.registry.v1.AuthorityEntry.name":
return protoreflect.ValueOfString("")
case "cerc.registry.v1.AuthorityEntry.entry":
m := new(NameAuthority)
return protoreflect.ValueOfMessage(m.ProtoReflect())
default:
if fd.IsExtension() {
panic(fmt.Errorf("proto3 declared messages do not support extensions: cerc.registry.v1.AuthorityEntry"))
}
panic(fmt.Errorf("message cerc.registry.v1.AuthorityEntry does not contain field %s", fd.FullName()))
}
}
// WhichOneof reports which field within the oneof is populated,
// returning nil if none are populated.
// It panics if the oneof descriptor does not belong to this message.
func (x *fastReflection_AuthorityEntry) WhichOneof(d protoreflect.OneofDescriptor) protoreflect.FieldDescriptor {
switch d.FullName() {
default:
panic(fmt.Errorf("%s is not a oneof field in cerc.registry.v1.AuthorityEntry", d.FullName()))
}
panic("unreachable")
}
// GetUnknown retrieves the entire list of unknown fields.
// The caller may only mutate the contents of the RawFields
// if the mutated bytes are stored back into the message with SetUnknown.
func (x *fastReflection_AuthorityEntry) GetUnknown() protoreflect.RawFields {
return x.unknownFields
}
// SetUnknown stores an entire list of unknown fields.
// The raw fields must be syntactically valid according to the wire format.
// An implementation may panic if this is not the case.
// Once stored, the caller must not mutate the content of the RawFields.
// An empty RawFields may be passed to clear the fields.
//
// SetUnknown is a mutating operation and unsafe for concurrent use.
func (x *fastReflection_AuthorityEntry) SetUnknown(fields protoreflect.RawFields) {
x.unknownFields = fields
}
// IsValid reports whether the message is valid.
//
// An invalid message is an empty, read-only value.
//
// An invalid message often corresponds to a nil pointer of the concrete
// message type, but the details are implementation dependent.
// Validity is not part of the protobuf data model, and may not
// be preserved in marshaling or other operations.
func (x *fastReflection_AuthorityEntry) IsValid() bool {
return x != nil
}
// ProtoMethods returns optional fastReflectionFeature-path implementations of various operations.
// This method may return nil.
//
// The returned methods type is identical to
// "google.golang.org/protobuf/runtime/protoiface".Methods.
// Consult the protoiface package documentation for details.
func (x *fastReflection_AuthorityEntry) ProtoMethods() *protoiface.Methods {
size := func(input protoiface.SizeInput) protoiface.SizeOutput {
x := input.Message.Interface().(*AuthorityEntry)
if x == nil {
return protoiface.SizeOutput{
NoUnkeyedLiterals: input.NoUnkeyedLiterals,
Size: 0,
}
}
options := runtime.SizeInputToOptions(input)
_ = options
var n int
var l int
_ = l
l = len(x.Name)
if l > 0 {
n += 1 + l + runtime.Sov(uint64(l))
}
if x.Entry != nil {
l = options.Size(x.Entry)
n += 1 + l + runtime.Sov(uint64(l))
}
if x.unknownFields != nil {
n += len(x.unknownFields)
}
return protoiface.SizeOutput{
NoUnkeyedLiterals: input.NoUnkeyedLiterals,
Size: n,
}
}
marshal := func(input protoiface.MarshalInput) (protoiface.MarshalOutput, error) {
x := input.Message.Interface().(*AuthorityEntry)
if x == nil {
return protoiface.MarshalOutput{
NoUnkeyedLiterals: input.NoUnkeyedLiterals,
Buf: input.Buf,
}, nil
}
options := runtime.MarshalInputToOptions(input)
_ = options
size := options.Size(x)
dAtA := make([]byte, size)
i := len(dAtA)
_ = i
var l int
_ = l
if x.unknownFields != nil {
i -= len(x.unknownFields)
copy(dAtA[i:], x.unknownFields)
}
if x.Entry != nil {
encoded, err := options.Marshal(x.Entry)
if err != nil {
return protoiface.MarshalOutput{
NoUnkeyedLiterals: input.NoUnkeyedLiterals,
Buf: input.Buf,
}, err
}
i -= len(encoded)
copy(dAtA[i:], encoded)
i = runtime.EncodeVarint(dAtA, i, uint64(len(encoded)))
i--
dAtA[i] = 0x12
}
if len(x.Name) > 0 {
i -= len(x.Name)
copy(dAtA[i:], x.Name)
i = runtime.EncodeVarint(dAtA, i, uint64(len(x.Name)))
i--
dAtA[i] = 0xa
}
if input.Buf != nil {
input.Buf = append(input.Buf, dAtA...)
} else {
input.Buf = dAtA
}
return protoiface.MarshalOutput{
NoUnkeyedLiterals: input.NoUnkeyedLiterals,
Buf: input.Buf,
}, nil
}
unmarshal := func(input protoiface.UnmarshalInput) (protoiface.UnmarshalOutput, error) {
x := input.Message.Interface().(*AuthorityEntry)
if x == nil {
return protoiface.UnmarshalOutput{
NoUnkeyedLiterals: input.NoUnkeyedLiterals,
Flags: input.Flags,
}, nil
}
options := runtime.UnmarshalInputToOptions(input)
_ = options
dAtA := input.Buf
l := len(dAtA)
iNdEx := 0
for iNdEx < l {
preIndex := iNdEx
var wire uint64
for shift := uint(0); ; shift += 7 {
if shift >= 64 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrIntOverflow
}
if iNdEx >= l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
b := dAtA[iNdEx]
iNdEx++
wire |= uint64(b&0x7F) << shift
if b < 0x80 {
break
}
}
fieldNum := int32(wire >> 3)
wireType := int(wire & 0x7)
if wireType == 4 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, fmt.Errorf("proto: AuthorityEntry: wiretype end group for non-group")
}
if fieldNum <= 0 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, fmt.Errorf("proto: AuthorityEntry: illegal tag %d (wire type %d)", fieldNum, wire)
}
switch fieldNum {
case 1:
if wireType != 2 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, fmt.Errorf("proto: wrong wireType = %d for field Name", wireType)
}
var stringLen uint64
for shift := uint(0); ; shift += 7 {
if shift >= 64 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrIntOverflow
}
if iNdEx >= l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
b := dAtA[iNdEx]
iNdEx++
stringLen |= uint64(b&0x7F) << shift
if b < 0x80 {
break
}
}
intStringLen := int(stringLen)
if intStringLen < 0 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength
}
postIndex := iNdEx + intStringLen
if postIndex < 0 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength
}
if postIndex > l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
x.Name = string(dAtA[iNdEx:postIndex])
iNdEx = postIndex
case 2:
if wireType != 2 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, fmt.Errorf("proto: wrong wireType = %d for field Entry", wireType)
}
var msglen int
for shift := uint(0); ; shift += 7 {
if shift >= 64 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrIntOverflow
}
if iNdEx >= l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
b := dAtA[iNdEx]
iNdEx++
msglen |= int(b&0x7F) << shift
if b < 0x80 {
break
}
}
if msglen < 0 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength
}
postIndex := iNdEx + msglen
if postIndex < 0 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength
}
if postIndex > l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
if x.Entry == nil {
x.Entry = &NameAuthority{}
}
if err := options.Unmarshal(dAtA[iNdEx:postIndex], x.Entry); err != nil {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, err
}
iNdEx = postIndex
default:
iNdEx = preIndex
skippy, err := runtime.Skip(dAtA[iNdEx:])
if err != nil {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, err
}
if (skippy < 0) || (iNdEx+skippy) < 0 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength
}
if (iNdEx + skippy) > l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
if !options.DiscardUnknown {
x.unknownFields = append(x.unknownFields, dAtA[iNdEx:iNdEx+skippy]...)
}
iNdEx += skippy
}
}
if iNdEx > l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, nil
}
return &protoiface.Methods{
NoUnkeyedLiterals: struct{}{},
Flags: protoiface.SupportMarshalDeterministic | protoiface.SupportUnmarshalDiscardUnknown,
Size: size,
Marshal: marshal,
Unmarshal: unmarshal,
Merge: nil,
CheckInitialized: nil,
}
}
var (
md_NameAuthority protoreflect.MessageDescriptor
fd_NameAuthority_owner_public_key protoreflect.FieldDescriptor
fd_NameAuthority_owner_address protoreflect.FieldDescriptor
fd_NameAuthority_height protoreflect.FieldDescriptor
fd_NameAuthority_status protoreflect.FieldDescriptor
fd_NameAuthority_auction_id protoreflect.FieldDescriptor
fd_NameAuthority_bond_id protoreflect.FieldDescriptor
fd_NameAuthority_expiry_time protoreflect.FieldDescriptor
)
func init() {
file_cerc_registry_v1_registry_proto_init()
md_NameAuthority = File_cerc_registry_v1_registry_proto.Messages().ByName("NameAuthority")
fd_NameAuthority_owner_public_key = md_NameAuthority.Fields().ByName("owner_public_key")
fd_NameAuthority_owner_address = md_NameAuthority.Fields().ByName("owner_address")
fd_NameAuthority_height = md_NameAuthority.Fields().ByName("height")
fd_NameAuthority_status = md_NameAuthority.Fields().ByName("status")
fd_NameAuthority_auction_id = md_NameAuthority.Fields().ByName("auction_id")
fd_NameAuthority_bond_id = md_NameAuthority.Fields().ByName("bond_id")
fd_NameAuthority_expiry_time = md_NameAuthority.Fields().ByName("expiry_time")
}
var _ protoreflect.Message = (*fastReflection_NameAuthority)(nil)
type fastReflection_NameAuthority NameAuthority
func (x *NameAuthority) ProtoReflect() protoreflect.Message {
return (*fastReflection_NameAuthority)(x)
}
func (x *NameAuthority) slowProtoReflect() protoreflect.Message {
mi := &file_cerc_registry_v1_registry_proto_msgTypes[3]
if protoimpl.UnsafeEnabled && x != nil {
ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x))
if ms.LoadMessageInfo() == nil {
ms.StoreMessageInfo(mi)
}
return ms
}
return mi.MessageOf(x)
}
var _fastReflection_NameAuthority_messageType fastReflection_NameAuthority_messageType
var _ protoreflect.MessageType = fastReflection_NameAuthority_messageType{}
type fastReflection_NameAuthority_messageType struct{}
func (x fastReflection_NameAuthority_messageType) Zero() protoreflect.Message {
return (*fastReflection_NameAuthority)(nil)
}
func (x fastReflection_NameAuthority_messageType) New() protoreflect.Message {
return new(fastReflection_NameAuthority)
}
func (x fastReflection_NameAuthority_messageType) Descriptor() protoreflect.MessageDescriptor {
return md_NameAuthority
}
// Descriptor returns message descriptor, which contains only the protobuf
// type information for the message.
func (x *fastReflection_NameAuthority) Descriptor() protoreflect.MessageDescriptor {
return md_NameAuthority
}
// Type returns the message type, which encapsulates both Go and protobuf
// type information. If the Go type information is not needed,
// it is recommended that the message descriptor be used instead.
func (x *fastReflection_NameAuthority) Type() protoreflect.MessageType {
return _fastReflection_NameAuthority_messageType
}
// New returns a newly allocated and mutable empty message.
func (x *fastReflection_NameAuthority) New() protoreflect.Message {
return new(fastReflection_NameAuthority)
}
// Interface unwraps the message reflection interface and
// returns the underlying ProtoMessage interface.
func (x *fastReflection_NameAuthority) Interface() protoreflect.ProtoMessage {
return (*NameAuthority)(x)
}
// Range iterates over every populated field in an undefined order,
// calling f for each field descriptor and value encountered.
// Range returns immediately if f returns false.
// While iterating, mutating operations may only be performed
// on the current field descriptor.
func (x *fastReflection_NameAuthority) Range(f func(protoreflect.FieldDescriptor, protoreflect.Value) bool) {
if x.OwnerPublicKey != "" {
value := protoreflect.ValueOfString(x.OwnerPublicKey)
if !f(fd_NameAuthority_owner_public_key, value) {
return
}
}
if x.OwnerAddress != "" {
value := protoreflect.ValueOfString(x.OwnerAddress)
if !f(fd_NameAuthority_owner_address, value) {
return
}
}
if x.Height != uint64(0) {
value := protoreflect.ValueOfUint64(x.Height)
if !f(fd_NameAuthority_height, value) {
return
}
}
if x.Status != "" {
value := protoreflect.ValueOfString(x.Status)
if !f(fd_NameAuthority_status, value) {
return
}
}
if x.AuctionId != "" {
value := protoreflect.ValueOfString(x.AuctionId)
if !f(fd_NameAuthority_auction_id, value) {
return
}
}
if x.BondId != "" {
value := protoreflect.ValueOfString(x.BondId)
if !f(fd_NameAuthority_bond_id, value) {
return
}
}
if x.ExpiryTime != nil {
value := protoreflect.ValueOfMessage(x.ExpiryTime.ProtoReflect())
if !f(fd_NameAuthority_expiry_time, value) {
return
}
}
}
// Has reports whether a field is populated.
//
// Some fields have the property of nullability where it is possible to
// distinguish between the default value of a field and whether the field
// was explicitly populated with the default value. Singular message fields,
// member fields of a oneof, and proto2 scalar fields are nullable. Such
// fields are populated only if explicitly set.
//
// In other cases (aside from the nullable cases above),
// a proto3 scalar field is populated if it contains a non-zero value, and
// a repeated field is populated if it is non-empty.
func (x *fastReflection_NameAuthority) Has(fd protoreflect.FieldDescriptor) bool {
switch fd.FullName() {
case "cerc.registry.v1.NameAuthority.owner_public_key":
return x.OwnerPublicKey != ""
case "cerc.registry.v1.NameAuthority.owner_address":
return x.OwnerAddress != ""
case "cerc.registry.v1.NameAuthority.height":
return x.Height != uint64(0)
case "cerc.registry.v1.NameAuthority.status":
return x.Status != ""
case "cerc.registry.v1.NameAuthority.auction_id":
return x.AuctionId != ""
case "cerc.registry.v1.NameAuthority.bond_id":
return x.BondId != ""
case "cerc.registry.v1.NameAuthority.expiry_time":
return x.ExpiryTime != nil
default:
if fd.IsExtension() {
panic(fmt.Errorf("proto3 declared messages do not support extensions: cerc.registry.v1.NameAuthority"))
}
panic(fmt.Errorf("message cerc.registry.v1.NameAuthority does not contain field %s", fd.FullName()))
}
}
// Clear clears the field such that a subsequent Has call reports false.
//
// Clearing an extension field clears both the extension type and value
// associated with the given field number.
//
// Clear is a mutating operation and unsafe for concurrent use.
func (x *fastReflection_NameAuthority) Clear(fd protoreflect.FieldDescriptor) {
switch fd.FullName() {
case "cerc.registry.v1.NameAuthority.owner_public_key":
x.OwnerPublicKey = ""
case "cerc.registry.v1.NameAuthority.owner_address":
x.OwnerAddress = ""
case "cerc.registry.v1.NameAuthority.height":
x.Height = uint64(0)
case "cerc.registry.v1.NameAuthority.status":
x.Status = ""
case "cerc.registry.v1.NameAuthority.auction_id":
x.AuctionId = ""
case "cerc.registry.v1.NameAuthority.bond_id":
x.BondId = ""
case "cerc.registry.v1.NameAuthority.expiry_time":
x.ExpiryTime = nil
default:
if fd.IsExtension() {
panic(fmt.Errorf("proto3 declared messages do not support extensions: cerc.registry.v1.NameAuthority"))
}
panic(fmt.Errorf("message cerc.registry.v1.NameAuthority does not contain field %s", fd.FullName()))
}
}
// Get retrieves the value for a field.
//
// For unpopulated scalars, it returns the default value, where
// the default value of a bytes scalar is guaranteed to be a copy.
// For unpopulated composite types, it returns an empty, read-only view
// of the value; to obtain a mutable reference, use Mutable.
func (x *fastReflection_NameAuthority) Get(descriptor protoreflect.FieldDescriptor) protoreflect.Value {
switch descriptor.FullName() {
case "cerc.registry.v1.NameAuthority.owner_public_key":
value := x.OwnerPublicKey
return protoreflect.ValueOfString(value)
case "cerc.registry.v1.NameAuthority.owner_address":
value := x.OwnerAddress
return protoreflect.ValueOfString(value)
case "cerc.registry.v1.NameAuthority.height":
value := x.Height
return protoreflect.ValueOfUint64(value)
case "cerc.registry.v1.NameAuthority.status":
value := x.Status
return protoreflect.ValueOfString(value)
case "cerc.registry.v1.NameAuthority.auction_id":
value := x.AuctionId
return protoreflect.ValueOfString(value)
case "cerc.registry.v1.NameAuthority.bond_id":
value := x.BondId
return protoreflect.ValueOfString(value)
case "cerc.registry.v1.NameAuthority.expiry_time":
value := x.ExpiryTime
return protoreflect.ValueOfMessage(value.ProtoReflect())
default:
if descriptor.IsExtension() {
panic(fmt.Errorf("proto3 declared messages do not support extensions: cerc.registry.v1.NameAuthority"))
}
panic(fmt.Errorf("message cerc.registry.v1.NameAuthority does not contain field %s", descriptor.FullName()))
}
}
// Set stores the value for a field.
//
// For a field belonging to a oneof, it implicitly clears any other field
// that may be currently set within the same oneof.
// For extension fields, it implicitly stores the provided ExtensionType.
// When setting a composite type, it is unspecified whether the stored value
// aliases the source's memory in any way. If the composite value is an
// empty, read-only value, then it panics.
//
// Set is a mutating operation and unsafe for concurrent use.
func (x *fastReflection_NameAuthority) Set(fd protoreflect.FieldDescriptor, value protoreflect.Value) {
switch fd.FullName() {
case "cerc.registry.v1.NameAuthority.owner_public_key":
x.OwnerPublicKey = value.Interface().(string)
case "cerc.registry.v1.NameAuthority.owner_address":
x.OwnerAddress = value.Interface().(string)
case "cerc.registry.v1.NameAuthority.height":
x.Height = value.Uint()
case "cerc.registry.v1.NameAuthority.status":
x.Status = value.Interface().(string)
case "cerc.registry.v1.NameAuthority.auction_id":
x.AuctionId = value.Interface().(string)
case "cerc.registry.v1.NameAuthority.bond_id":
x.BondId = value.Interface().(string)
case "cerc.registry.v1.NameAuthority.expiry_time":
x.ExpiryTime = value.Message().Interface().(*timestamppb.Timestamp)
default:
if fd.IsExtension() {
panic(fmt.Errorf("proto3 declared messages do not support extensions: cerc.registry.v1.NameAuthority"))
}
panic(fmt.Errorf("message cerc.registry.v1.NameAuthority does not contain field %s", fd.FullName()))
}
}
// Mutable returns a mutable reference to a composite type.
//
// If the field is unpopulated, it may allocate a composite value.
// For a field belonging to a oneof, it implicitly clears any other field
// that may be currently set within the same oneof.
// For extension fields, it implicitly stores the provided ExtensionType
// if not already stored.
// It panics if the field does not contain a composite type.
//
// Mutable is a mutating operation and unsafe for concurrent use.
func (x *fastReflection_NameAuthority) Mutable(fd protoreflect.FieldDescriptor) protoreflect.Value {
switch fd.FullName() {
case "cerc.registry.v1.NameAuthority.expiry_time":
if x.ExpiryTime == nil {
x.ExpiryTime = new(timestamppb.Timestamp)
}
return protoreflect.ValueOfMessage(x.ExpiryTime.ProtoReflect())
case "cerc.registry.v1.NameAuthority.owner_public_key":
panic(fmt.Errorf("field owner_public_key of message cerc.registry.v1.NameAuthority is not mutable"))
case "cerc.registry.v1.NameAuthority.owner_address":
panic(fmt.Errorf("field owner_address of message cerc.registry.v1.NameAuthority is not mutable"))
case "cerc.registry.v1.NameAuthority.height":
panic(fmt.Errorf("field height of message cerc.registry.v1.NameAuthority is not mutable"))
case "cerc.registry.v1.NameAuthority.status":
panic(fmt.Errorf("field status of message cerc.registry.v1.NameAuthority is not mutable"))
case "cerc.registry.v1.NameAuthority.auction_id":
panic(fmt.Errorf("field auction_id of message cerc.registry.v1.NameAuthority is not mutable"))
case "cerc.registry.v1.NameAuthority.bond_id":
panic(fmt.Errorf("field bond_id of message cerc.registry.v1.NameAuthority is not mutable"))
default:
if fd.IsExtension() {
panic(fmt.Errorf("proto3 declared messages do not support extensions: cerc.registry.v1.NameAuthority"))
}
panic(fmt.Errorf("message cerc.registry.v1.NameAuthority does not contain field %s", fd.FullName()))
}
}
// NewField returns a new value that is assignable to the field
// for the given descriptor. For scalars, this returns the default value.
// For lists, maps, and messages, this returns a new, empty, mutable value.
func (x *fastReflection_NameAuthority) NewField(fd protoreflect.FieldDescriptor) protoreflect.Value {
switch fd.FullName() {
case "cerc.registry.v1.NameAuthority.owner_public_key":
return protoreflect.ValueOfString("")
case "cerc.registry.v1.NameAuthority.owner_address":
return protoreflect.ValueOfString("")
case "cerc.registry.v1.NameAuthority.height":
return protoreflect.ValueOfUint64(uint64(0))
case "cerc.registry.v1.NameAuthority.status":
return protoreflect.ValueOfString("")
case "cerc.registry.v1.NameAuthority.auction_id":
return protoreflect.ValueOfString("")
case "cerc.registry.v1.NameAuthority.bond_id":
return protoreflect.ValueOfString("")
case "cerc.registry.v1.NameAuthority.expiry_time":
m := new(timestamppb.Timestamp)
return protoreflect.ValueOfMessage(m.ProtoReflect())
default:
if fd.IsExtension() {
panic(fmt.Errorf("proto3 declared messages do not support extensions: cerc.registry.v1.NameAuthority"))
}
panic(fmt.Errorf("message cerc.registry.v1.NameAuthority does not contain field %s", fd.FullName()))
}
}
// WhichOneof reports which field within the oneof is populated,
// returning nil if none are populated.
// It panics if the oneof descriptor does not belong to this message.
func (x *fastReflection_NameAuthority) WhichOneof(d protoreflect.OneofDescriptor) protoreflect.FieldDescriptor {
switch d.FullName() {
default:
panic(fmt.Errorf("%s is not a oneof field in cerc.registry.v1.NameAuthority", d.FullName()))
}
panic("unreachable")
}
// GetUnknown retrieves the entire list of unknown fields.
// The caller may only mutate the contents of the RawFields
// if the mutated bytes are stored back into the message with SetUnknown.
func (x *fastReflection_NameAuthority) GetUnknown() protoreflect.RawFields {
return x.unknownFields
}
// SetUnknown stores an entire list of unknown fields.
// The raw fields must be syntactically valid according to the wire format.
// An implementation may panic if this is not the case.
// Once stored, the caller must not mutate the content of the RawFields.
// An empty RawFields may be passed to clear the fields.
//
// SetUnknown is a mutating operation and unsafe for concurrent use.
func (x *fastReflection_NameAuthority) SetUnknown(fields protoreflect.RawFields) {
x.unknownFields = fields
}
// IsValid reports whether the message is valid.
//
// An invalid message is an empty, read-only value.
//
// An invalid message often corresponds to a nil pointer of the concrete
// message type, but the details are implementation dependent.
// Validity is not part of the protobuf data model, and may not
// be preserved in marshaling or other operations.
func (x *fastReflection_NameAuthority) IsValid() bool {
return x != nil
}
// ProtoMethods returns optional fastReflectionFeature-path implementations of various operations.
// This method may return nil.
//
// The returned methods type is identical to
// "google.golang.org/protobuf/runtime/protoiface".Methods.
// Consult the protoiface package documentation for details.
func (x *fastReflection_NameAuthority) ProtoMethods() *protoiface.Methods {
size := func(input protoiface.SizeInput) protoiface.SizeOutput {
x := input.Message.Interface().(*NameAuthority)
if x == nil {
return protoiface.SizeOutput{
NoUnkeyedLiterals: input.NoUnkeyedLiterals,
Size: 0,
}
}
options := runtime.SizeInputToOptions(input)
_ = options
var n int
var l int
_ = l
l = len(x.OwnerPublicKey)
if l > 0 {
n += 1 + l + runtime.Sov(uint64(l))
}
l = len(x.OwnerAddress)
if l > 0 {
n += 1 + l + runtime.Sov(uint64(l))
}
if x.Height != 0 {
n += 1 + runtime.Sov(uint64(x.Height))
}
l = len(x.Status)
if l > 0 {
n += 1 + l + runtime.Sov(uint64(l))
}
l = len(x.AuctionId)
if l > 0 {
n += 1 + l + runtime.Sov(uint64(l))
}
l = len(x.BondId)
if l > 0 {
n += 1 + l + runtime.Sov(uint64(l))
}
if x.ExpiryTime != nil {
l = options.Size(x.ExpiryTime)
n += 1 + l + runtime.Sov(uint64(l))
}
if x.unknownFields != nil {
n += len(x.unknownFields)
}
return protoiface.SizeOutput{
NoUnkeyedLiterals: input.NoUnkeyedLiterals,
Size: n,
}
}
marshal := func(input protoiface.MarshalInput) (protoiface.MarshalOutput, error) {
x := input.Message.Interface().(*NameAuthority)
if x == nil {
return protoiface.MarshalOutput{
NoUnkeyedLiterals: input.NoUnkeyedLiterals,
Buf: input.Buf,
}, nil
}
options := runtime.MarshalInputToOptions(input)
_ = options
size := options.Size(x)
dAtA := make([]byte, size)
i := len(dAtA)
_ = i
var l int
_ = l
if x.unknownFields != nil {
i -= len(x.unknownFields)
copy(dAtA[i:], x.unknownFields)
}
if x.ExpiryTime != nil {
encoded, err := options.Marshal(x.ExpiryTime)
if err != nil {
return protoiface.MarshalOutput{
NoUnkeyedLiterals: input.NoUnkeyedLiterals,
Buf: input.Buf,
}, err
}
i -= len(encoded)
copy(dAtA[i:], encoded)
i = runtime.EncodeVarint(dAtA, i, uint64(len(encoded)))
i--
dAtA[i] = 0x3a
}
if len(x.BondId) > 0 {
i -= len(x.BondId)
copy(dAtA[i:], x.BondId)
i = runtime.EncodeVarint(dAtA, i, uint64(len(x.BondId)))
i--
dAtA[i] = 0x32
}
if len(x.AuctionId) > 0 {
i -= len(x.AuctionId)
copy(dAtA[i:], x.AuctionId)
i = runtime.EncodeVarint(dAtA, i, uint64(len(x.AuctionId)))
i--
dAtA[i] = 0x2a
}
if len(x.Status) > 0 {
i -= len(x.Status)
copy(dAtA[i:], x.Status)
i = runtime.EncodeVarint(dAtA, i, uint64(len(x.Status)))
i--
dAtA[i] = 0x22
}
if x.Height != 0 {
i = runtime.EncodeVarint(dAtA, i, uint64(x.Height))
i--
dAtA[i] = 0x18
}
if len(x.OwnerAddress) > 0 {
i -= len(x.OwnerAddress)
copy(dAtA[i:], x.OwnerAddress)
i = runtime.EncodeVarint(dAtA, i, uint64(len(x.OwnerAddress)))
i--
dAtA[i] = 0x12
}
if len(x.OwnerPublicKey) > 0 {
i -= len(x.OwnerPublicKey)
copy(dAtA[i:], x.OwnerPublicKey)
i = runtime.EncodeVarint(dAtA, i, uint64(len(x.OwnerPublicKey)))
i--
dAtA[i] = 0xa
}
if input.Buf != nil {
input.Buf = append(input.Buf, dAtA...)
} else {
input.Buf = dAtA
}
return protoiface.MarshalOutput{
NoUnkeyedLiterals: input.NoUnkeyedLiterals,
Buf: input.Buf,
}, nil
}
unmarshal := func(input protoiface.UnmarshalInput) (protoiface.UnmarshalOutput, error) {
x := input.Message.Interface().(*NameAuthority)
if x == nil {
return protoiface.UnmarshalOutput{
NoUnkeyedLiterals: input.NoUnkeyedLiterals,
Flags: input.Flags,
}, nil
}
options := runtime.UnmarshalInputToOptions(input)
_ = options
dAtA := input.Buf
l := len(dAtA)
iNdEx := 0
for iNdEx < l {
preIndex := iNdEx
var wire uint64
for shift := uint(0); ; shift += 7 {
if shift >= 64 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrIntOverflow
}
if iNdEx >= l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
b := dAtA[iNdEx]
iNdEx++
wire |= uint64(b&0x7F) << shift
if b < 0x80 {
break
}
}
fieldNum := int32(wire >> 3)
wireType := int(wire & 0x7)
if wireType == 4 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, fmt.Errorf("proto: NameAuthority: wiretype end group for non-group")
}
if fieldNum <= 0 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, fmt.Errorf("proto: NameAuthority: illegal tag %d (wire type %d)", fieldNum, wire)
}
switch fieldNum {
case 1:
if wireType != 2 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, fmt.Errorf("proto: wrong wireType = %d for field OwnerPublicKey", wireType)
}
var stringLen uint64
for shift := uint(0); ; shift += 7 {
if shift >= 64 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrIntOverflow
}
if iNdEx >= l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
b := dAtA[iNdEx]
iNdEx++
stringLen |= uint64(b&0x7F) << shift
if b < 0x80 {
break
}
}
intStringLen := int(stringLen)
if intStringLen < 0 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength
}
postIndex := iNdEx + intStringLen
if postIndex < 0 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength
}
if postIndex > l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
x.OwnerPublicKey = string(dAtA[iNdEx:postIndex])
iNdEx = postIndex
case 2:
if wireType != 2 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, fmt.Errorf("proto: wrong wireType = %d for field OwnerAddress", wireType)
}
var stringLen uint64
for shift := uint(0); ; shift += 7 {
if shift >= 64 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrIntOverflow
}
if iNdEx >= l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
b := dAtA[iNdEx]
iNdEx++
stringLen |= uint64(b&0x7F) << shift
if b < 0x80 {
break
}
}
intStringLen := int(stringLen)
if intStringLen < 0 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength
}
postIndex := iNdEx + intStringLen
if postIndex < 0 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength
}
if postIndex > l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
x.OwnerAddress = string(dAtA[iNdEx:postIndex])
iNdEx = postIndex
case 3:
if wireType != 0 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, fmt.Errorf("proto: wrong wireType = %d for field Height", wireType)
}
x.Height = 0
for shift := uint(0); ; shift += 7 {
if shift >= 64 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrIntOverflow
}
if iNdEx >= l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
b := dAtA[iNdEx]
iNdEx++
x.Height |= uint64(b&0x7F) << shift
if b < 0x80 {
break
}
}
case 4:
if wireType != 2 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, fmt.Errorf("proto: wrong wireType = %d for field Status", wireType)
}
var stringLen uint64
for shift := uint(0); ; shift += 7 {
if shift >= 64 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrIntOverflow
}
if iNdEx >= l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
b := dAtA[iNdEx]
iNdEx++
stringLen |= uint64(b&0x7F) << shift
if b < 0x80 {
break
}
}
intStringLen := int(stringLen)
if intStringLen < 0 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength
}
postIndex := iNdEx + intStringLen
if postIndex < 0 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength
}
if postIndex > l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
x.Status = string(dAtA[iNdEx:postIndex])
iNdEx = postIndex
case 5:
if wireType != 2 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, fmt.Errorf("proto: wrong wireType = %d for field AuctionId", wireType)
}
var stringLen uint64
for shift := uint(0); ; shift += 7 {
if shift >= 64 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrIntOverflow
}
if iNdEx >= l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
b := dAtA[iNdEx]
iNdEx++
stringLen |= uint64(b&0x7F) << shift
if b < 0x80 {
break
}
}
intStringLen := int(stringLen)
if intStringLen < 0 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength
}
postIndex := iNdEx + intStringLen
if postIndex < 0 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength
}
if postIndex > l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
x.AuctionId = string(dAtA[iNdEx:postIndex])
iNdEx = postIndex
case 6:
if wireType != 2 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, fmt.Errorf("proto: wrong wireType = %d for field BondId", wireType)
}
var stringLen uint64
for shift := uint(0); ; shift += 7 {
if shift >= 64 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrIntOverflow
}
if iNdEx >= l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
b := dAtA[iNdEx]
iNdEx++
stringLen |= uint64(b&0x7F) << shift
if b < 0x80 {
break
}
}
intStringLen := int(stringLen)
if intStringLen < 0 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength
}
postIndex := iNdEx + intStringLen
if postIndex < 0 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength
}
if postIndex > l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
x.BondId = string(dAtA[iNdEx:postIndex])
iNdEx = postIndex
case 7:
if wireType != 2 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, fmt.Errorf("proto: wrong wireType = %d for field ExpiryTime", wireType)
}
var msglen int
for shift := uint(0); ; shift += 7 {
if shift >= 64 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrIntOverflow
}
if iNdEx >= l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
b := dAtA[iNdEx]
iNdEx++
msglen |= int(b&0x7F) << shift
if b < 0x80 {
break
}
}
if msglen < 0 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength
}
postIndex := iNdEx + msglen
if postIndex < 0 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength
}
if postIndex > l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
if x.ExpiryTime == nil {
x.ExpiryTime = &timestamppb.Timestamp{}
}
if err := options.Unmarshal(dAtA[iNdEx:postIndex], x.ExpiryTime); err != nil {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, err
}
iNdEx = postIndex
default:
iNdEx = preIndex
skippy, err := runtime.Skip(dAtA[iNdEx:])
if err != nil {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, err
}
if (skippy < 0) || (iNdEx+skippy) < 0 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength
}
if (iNdEx + skippy) > l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
if !options.DiscardUnknown {
x.unknownFields = append(x.unknownFields, dAtA[iNdEx:iNdEx+skippy]...)
}
iNdEx += skippy
}
}
if iNdEx > l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, nil
}
return &protoiface.Methods{
NoUnkeyedLiterals: struct{}{},
Flags: protoiface.SupportMarshalDeterministic | protoiface.SupportUnmarshalDiscardUnknown,
Size: size,
Marshal: marshal,
Unmarshal: unmarshal,
Merge: nil,
CheckInitialized: nil,
}
}
var (
md_NameEntry protoreflect.MessageDescriptor
fd_NameEntry_name protoreflect.FieldDescriptor
fd_NameEntry_entry protoreflect.FieldDescriptor
)
func init() {
file_cerc_registry_v1_registry_proto_init()
md_NameEntry = File_cerc_registry_v1_registry_proto.Messages().ByName("NameEntry")
fd_NameEntry_name = md_NameEntry.Fields().ByName("name")
fd_NameEntry_entry = md_NameEntry.Fields().ByName("entry")
}
var _ protoreflect.Message = (*fastReflection_NameEntry)(nil)
type fastReflection_NameEntry NameEntry
func (x *NameEntry) ProtoReflect() protoreflect.Message {
return (*fastReflection_NameEntry)(x)
}
func (x *NameEntry) slowProtoReflect() protoreflect.Message {
mi := &file_cerc_registry_v1_registry_proto_msgTypes[4]
if protoimpl.UnsafeEnabled && x != nil {
ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x))
if ms.LoadMessageInfo() == nil {
ms.StoreMessageInfo(mi)
}
return ms
}
return mi.MessageOf(x)
}
var _fastReflection_NameEntry_messageType fastReflection_NameEntry_messageType
var _ protoreflect.MessageType = fastReflection_NameEntry_messageType{}
type fastReflection_NameEntry_messageType struct{}
func (x fastReflection_NameEntry_messageType) Zero() protoreflect.Message {
return (*fastReflection_NameEntry)(nil)
}
func (x fastReflection_NameEntry_messageType) New() protoreflect.Message {
return new(fastReflection_NameEntry)
}
func (x fastReflection_NameEntry_messageType) Descriptor() protoreflect.MessageDescriptor {
return md_NameEntry
}
// Descriptor returns message descriptor, which contains only the protobuf
// type information for the message.
func (x *fastReflection_NameEntry) Descriptor() protoreflect.MessageDescriptor {
return md_NameEntry
}
// Type returns the message type, which encapsulates both Go and protobuf
// type information. If the Go type information is not needed,
// it is recommended that the message descriptor be used instead.
func (x *fastReflection_NameEntry) Type() protoreflect.MessageType {
return _fastReflection_NameEntry_messageType
}
// New returns a newly allocated and mutable empty message.
func (x *fastReflection_NameEntry) New() protoreflect.Message {
return new(fastReflection_NameEntry)
}
// Interface unwraps the message reflection interface and
// returns the underlying ProtoMessage interface.
func (x *fastReflection_NameEntry) Interface() protoreflect.ProtoMessage {
return (*NameEntry)(x)
}
// Range iterates over every populated field in an undefined order,
// calling f for each field descriptor and value encountered.
// Range returns immediately if f returns false.
// While iterating, mutating operations may only be performed
// on the current field descriptor.
func (x *fastReflection_NameEntry) Range(f func(protoreflect.FieldDescriptor, protoreflect.Value) bool) {
if x.Name != "" {
value := protoreflect.ValueOfString(x.Name)
if !f(fd_NameEntry_name, value) {
return
}
}
if x.Entry != nil {
value := protoreflect.ValueOfMessage(x.Entry.ProtoReflect())
if !f(fd_NameEntry_entry, value) {
return
}
}
}
// Has reports whether a field is populated.
//
// Some fields have the property of nullability where it is possible to
// distinguish between the default value of a field and whether the field
// was explicitly populated with the default value. Singular message fields,
// member fields of a oneof, and proto2 scalar fields are nullable. Such
// fields are populated only if explicitly set.
//
// In other cases (aside from the nullable cases above),
// a proto3 scalar field is populated if it contains a non-zero value, and
// a repeated field is populated if it is non-empty.
func (x *fastReflection_NameEntry) Has(fd protoreflect.FieldDescriptor) bool {
switch fd.FullName() {
case "cerc.registry.v1.NameEntry.name":
return x.Name != ""
case "cerc.registry.v1.NameEntry.entry":
return x.Entry != nil
default:
if fd.IsExtension() {
panic(fmt.Errorf("proto3 declared messages do not support extensions: cerc.registry.v1.NameEntry"))
}
panic(fmt.Errorf("message cerc.registry.v1.NameEntry does not contain field %s", fd.FullName()))
}
}
// Clear clears the field such that a subsequent Has call reports false.
//
// Clearing an extension field clears both the extension type and value
// associated with the given field number.
//
// Clear is a mutating operation and unsafe for concurrent use.
func (x *fastReflection_NameEntry) Clear(fd protoreflect.FieldDescriptor) {
switch fd.FullName() {
case "cerc.registry.v1.NameEntry.name":
x.Name = ""
case "cerc.registry.v1.NameEntry.entry":
x.Entry = nil
default:
if fd.IsExtension() {
panic(fmt.Errorf("proto3 declared messages do not support extensions: cerc.registry.v1.NameEntry"))
}
panic(fmt.Errorf("message cerc.registry.v1.NameEntry does not contain field %s", fd.FullName()))
}
}
// Get retrieves the value for a field.
//
// For unpopulated scalars, it returns the default value, where
// the default value of a bytes scalar is guaranteed to be a copy.
// For unpopulated composite types, it returns an empty, read-only view
// of the value; to obtain a mutable reference, use Mutable.
func (x *fastReflection_NameEntry) Get(descriptor protoreflect.FieldDescriptor) protoreflect.Value {
switch descriptor.FullName() {
case "cerc.registry.v1.NameEntry.name":
value := x.Name
return protoreflect.ValueOfString(value)
case "cerc.registry.v1.NameEntry.entry":
value := x.Entry
return protoreflect.ValueOfMessage(value.ProtoReflect())
default:
if descriptor.IsExtension() {
panic(fmt.Errorf("proto3 declared messages do not support extensions: cerc.registry.v1.NameEntry"))
}
panic(fmt.Errorf("message cerc.registry.v1.NameEntry does not contain field %s", descriptor.FullName()))
}
}
// Set stores the value for a field.
//
// For a field belonging to a oneof, it implicitly clears any other field
// that may be currently set within the same oneof.
// For extension fields, it implicitly stores the provided ExtensionType.
// When setting a composite type, it is unspecified whether the stored value
// aliases the source's memory in any way. If the composite value is an
// empty, read-only value, then it panics.
//
// Set is a mutating operation and unsafe for concurrent use.
func (x *fastReflection_NameEntry) Set(fd protoreflect.FieldDescriptor, value protoreflect.Value) {
switch fd.FullName() {
case "cerc.registry.v1.NameEntry.name":
x.Name = value.Interface().(string)
case "cerc.registry.v1.NameEntry.entry":
x.Entry = value.Message().Interface().(*NameRecord)
default:
if fd.IsExtension() {
panic(fmt.Errorf("proto3 declared messages do not support extensions: cerc.registry.v1.NameEntry"))
}
panic(fmt.Errorf("message cerc.registry.v1.NameEntry does not contain field %s", fd.FullName()))
}
}
// Mutable returns a mutable reference to a composite type.
//
// If the field is unpopulated, it may allocate a composite value.
// For a field belonging to a oneof, it implicitly clears any other field
// that may be currently set within the same oneof.
// For extension fields, it implicitly stores the provided ExtensionType
// if not already stored.
// It panics if the field does not contain a composite type.
//
// Mutable is a mutating operation and unsafe for concurrent use.
func (x *fastReflection_NameEntry) Mutable(fd protoreflect.FieldDescriptor) protoreflect.Value {
switch fd.FullName() {
case "cerc.registry.v1.NameEntry.entry":
if x.Entry == nil {
x.Entry = new(NameRecord)
}
return protoreflect.ValueOfMessage(x.Entry.ProtoReflect())
case "cerc.registry.v1.NameEntry.name":
panic(fmt.Errorf("field name of message cerc.registry.v1.NameEntry is not mutable"))
default:
if fd.IsExtension() {
panic(fmt.Errorf("proto3 declared messages do not support extensions: cerc.registry.v1.NameEntry"))
}
panic(fmt.Errorf("message cerc.registry.v1.NameEntry does not contain field %s", fd.FullName()))
}
}
// NewField returns a new value that is assignable to the field
// for the given descriptor. For scalars, this returns the default value.
// For lists, maps, and messages, this returns a new, empty, mutable value.
func (x *fastReflection_NameEntry) NewField(fd protoreflect.FieldDescriptor) protoreflect.Value {
switch fd.FullName() {
case "cerc.registry.v1.NameEntry.name":
return protoreflect.ValueOfString("")
case "cerc.registry.v1.NameEntry.entry":
m := new(NameRecord)
return protoreflect.ValueOfMessage(m.ProtoReflect())
default:
if fd.IsExtension() {
panic(fmt.Errorf("proto3 declared messages do not support extensions: cerc.registry.v1.NameEntry"))
}
panic(fmt.Errorf("message cerc.registry.v1.NameEntry does not contain field %s", fd.FullName()))
}
}
// WhichOneof reports which field within the oneof is populated,
// returning nil if none are populated.
// It panics if the oneof descriptor does not belong to this message.
func (x *fastReflection_NameEntry) WhichOneof(d protoreflect.OneofDescriptor) protoreflect.FieldDescriptor {
switch d.FullName() {
default:
panic(fmt.Errorf("%s is not a oneof field in cerc.registry.v1.NameEntry", d.FullName()))
}
panic("unreachable")
}
// GetUnknown retrieves the entire list of unknown fields.
// The caller may only mutate the contents of the RawFields
// if the mutated bytes are stored back into the message with SetUnknown.
func (x *fastReflection_NameEntry) GetUnknown() protoreflect.RawFields {
return x.unknownFields
}
// SetUnknown stores an entire list of unknown fields.
// The raw fields must be syntactically valid according to the wire format.
// An implementation may panic if this is not the case.
// Once stored, the caller must not mutate the content of the RawFields.
// An empty RawFields may be passed to clear the fields.
//
// SetUnknown is a mutating operation and unsafe for concurrent use.
func (x *fastReflection_NameEntry) SetUnknown(fields protoreflect.RawFields) {
x.unknownFields = fields
}
// IsValid reports whether the message is valid.
//
// An invalid message is an empty, read-only value.
//
// An invalid message often corresponds to a nil pointer of the concrete
// message type, but the details are implementation dependent.
// Validity is not part of the protobuf data model, and may not
// be preserved in marshaling or other operations.
func (x *fastReflection_NameEntry) IsValid() bool {
return x != nil
}
// ProtoMethods returns optional fastReflectionFeature-path implementations of various operations.
// This method may return nil.
//
// The returned methods type is identical to
// "google.golang.org/protobuf/runtime/protoiface".Methods.
// Consult the protoiface package documentation for details.
func (x *fastReflection_NameEntry) ProtoMethods() *protoiface.Methods {
size := func(input protoiface.SizeInput) protoiface.SizeOutput {
x := input.Message.Interface().(*NameEntry)
if x == nil {
return protoiface.SizeOutput{
NoUnkeyedLiterals: input.NoUnkeyedLiterals,
Size: 0,
}
}
options := runtime.SizeInputToOptions(input)
_ = options
var n int
var l int
_ = l
l = len(x.Name)
if l > 0 {
n += 1 + l + runtime.Sov(uint64(l))
}
if x.Entry != nil {
l = options.Size(x.Entry)
n += 1 + l + runtime.Sov(uint64(l))
}
if x.unknownFields != nil {
n += len(x.unknownFields)
}
return protoiface.SizeOutput{
NoUnkeyedLiterals: input.NoUnkeyedLiterals,
Size: n,
}
}
marshal := func(input protoiface.MarshalInput) (protoiface.MarshalOutput, error) {
x := input.Message.Interface().(*NameEntry)
if x == nil {
return protoiface.MarshalOutput{
NoUnkeyedLiterals: input.NoUnkeyedLiterals,
Buf: input.Buf,
}, nil
}
options := runtime.MarshalInputToOptions(input)
_ = options
size := options.Size(x)
dAtA := make([]byte, size)
i := len(dAtA)
_ = i
var l int
_ = l
if x.unknownFields != nil {
i -= len(x.unknownFields)
copy(dAtA[i:], x.unknownFields)
}
if x.Entry != nil {
encoded, err := options.Marshal(x.Entry)
if err != nil {
return protoiface.MarshalOutput{
NoUnkeyedLiterals: input.NoUnkeyedLiterals,
Buf: input.Buf,
}, err
}
i -= len(encoded)
copy(dAtA[i:], encoded)
i = runtime.EncodeVarint(dAtA, i, uint64(len(encoded)))
i--
dAtA[i] = 0x12
}
if len(x.Name) > 0 {
i -= len(x.Name)
copy(dAtA[i:], x.Name)
i = runtime.EncodeVarint(dAtA, i, uint64(len(x.Name)))
i--
dAtA[i] = 0xa
}
if input.Buf != nil {
input.Buf = append(input.Buf, dAtA...)
} else {
input.Buf = dAtA
}
return protoiface.MarshalOutput{
NoUnkeyedLiterals: input.NoUnkeyedLiterals,
Buf: input.Buf,
}, nil
}
unmarshal := func(input protoiface.UnmarshalInput) (protoiface.UnmarshalOutput, error) {
x := input.Message.Interface().(*NameEntry)
if x == nil {
return protoiface.UnmarshalOutput{
NoUnkeyedLiterals: input.NoUnkeyedLiterals,
Flags: input.Flags,
}, nil
}
options := runtime.UnmarshalInputToOptions(input)
_ = options
dAtA := input.Buf
l := len(dAtA)
iNdEx := 0
for iNdEx < l {
preIndex := iNdEx
var wire uint64
for shift := uint(0); ; shift += 7 {
if shift >= 64 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrIntOverflow
}
if iNdEx >= l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
b := dAtA[iNdEx]
iNdEx++
wire |= uint64(b&0x7F) << shift
if b < 0x80 {
break
}
}
fieldNum := int32(wire >> 3)
wireType := int(wire & 0x7)
if wireType == 4 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, fmt.Errorf("proto: NameEntry: wiretype end group for non-group")
}
if fieldNum <= 0 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, fmt.Errorf("proto: NameEntry: illegal tag %d (wire type %d)", fieldNum, wire)
}
switch fieldNum {
case 1:
if wireType != 2 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, fmt.Errorf("proto: wrong wireType = %d for field Name", wireType)
}
var stringLen uint64
for shift := uint(0); ; shift += 7 {
if shift >= 64 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrIntOverflow
}
if iNdEx >= l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
b := dAtA[iNdEx]
iNdEx++
stringLen |= uint64(b&0x7F) << shift
if b < 0x80 {
break
}
}
intStringLen := int(stringLen)
if intStringLen < 0 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength
}
postIndex := iNdEx + intStringLen
if postIndex < 0 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength
}
if postIndex > l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
x.Name = string(dAtA[iNdEx:postIndex])
iNdEx = postIndex
case 2:
if wireType != 2 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, fmt.Errorf("proto: wrong wireType = %d for field Entry", wireType)
}
var msglen int
for shift := uint(0); ; shift += 7 {
if shift >= 64 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrIntOverflow
}
if iNdEx >= l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
b := dAtA[iNdEx]
iNdEx++
msglen |= int(b&0x7F) << shift
if b < 0x80 {
break
}
}
if msglen < 0 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength
}
postIndex := iNdEx + msglen
if postIndex < 0 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength
}
if postIndex > l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
if x.Entry == nil {
x.Entry = &NameRecord{}
}
if err := options.Unmarshal(dAtA[iNdEx:postIndex], x.Entry); err != nil {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, err
}
iNdEx = postIndex
default:
iNdEx = preIndex
skippy, err := runtime.Skip(dAtA[iNdEx:])
if err != nil {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, err
}
if (skippy < 0) || (iNdEx+skippy) < 0 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength
}
if (iNdEx + skippy) > l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
if !options.DiscardUnknown {
x.unknownFields = append(x.unknownFields, dAtA[iNdEx:iNdEx+skippy]...)
}
iNdEx += skippy
}
}
if iNdEx > l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, nil
}
return &protoiface.Methods{
NoUnkeyedLiterals: struct{}{},
Flags: protoiface.SupportMarshalDeterministic | protoiface.SupportUnmarshalDiscardUnknown,
Size: size,
Marshal: marshal,
Unmarshal: unmarshal,
Merge: nil,
CheckInitialized: nil,
}
}
var _ protoreflect.List = (*_NameRecord_2_list)(nil)
type _NameRecord_2_list struct {
list *[]*NameRecordEntry
}
func (x *_NameRecord_2_list) Len() int {
if x.list == nil {
return 0
}
return len(*x.list)
}
func (x *_NameRecord_2_list) Get(i int) protoreflect.Value {
return protoreflect.ValueOfMessage((*x.list)[i].ProtoReflect())
}
func (x *_NameRecord_2_list) Set(i int, value protoreflect.Value) {
valueUnwrapped := value.Message()
concreteValue := valueUnwrapped.Interface().(*NameRecordEntry)
(*x.list)[i] = concreteValue
}
func (x *_NameRecord_2_list) Append(value protoreflect.Value) {
valueUnwrapped := value.Message()
concreteValue := valueUnwrapped.Interface().(*NameRecordEntry)
*x.list = append(*x.list, concreteValue)
}
func (x *_NameRecord_2_list) AppendMutable() protoreflect.Value {
v := new(NameRecordEntry)
*x.list = append(*x.list, v)
return protoreflect.ValueOfMessage(v.ProtoReflect())
}
func (x *_NameRecord_2_list) Truncate(n int) {
for i := n; i < len(*x.list); i++ {
(*x.list)[i] = nil
}
*x.list = (*x.list)[:n]
}
func (x *_NameRecord_2_list) NewElement() protoreflect.Value {
v := new(NameRecordEntry)
return protoreflect.ValueOfMessage(v.ProtoReflect())
}
func (x *_NameRecord_2_list) IsValid() bool {
return x.list != nil
}
var (
md_NameRecord protoreflect.MessageDescriptor
fd_NameRecord_latest protoreflect.FieldDescriptor
fd_NameRecord_history protoreflect.FieldDescriptor
)
func init() {
file_cerc_registry_v1_registry_proto_init()
md_NameRecord = File_cerc_registry_v1_registry_proto.Messages().ByName("NameRecord")
fd_NameRecord_latest = md_NameRecord.Fields().ByName("latest")
fd_NameRecord_history = md_NameRecord.Fields().ByName("history")
}
var _ protoreflect.Message = (*fastReflection_NameRecord)(nil)
type fastReflection_NameRecord NameRecord
func (x *NameRecord) ProtoReflect() protoreflect.Message {
return (*fastReflection_NameRecord)(x)
}
func (x *NameRecord) slowProtoReflect() protoreflect.Message {
mi := &file_cerc_registry_v1_registry_proto_msgTypes[5]
if protoimpl.UnsafeEnabled && x != nil {
ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x))
if ms.LoadMessageInfo() == nil {
ms.StoreMessageInfo(mi)
}
return ms
}
return mi.MessageOf(x)
}
var _fastReflection_NameRecord_messageType fastReflection_NameRecord_messageType
var _ protoreflect.MessageType = fastReflection_NameRecord_messageType{}
type fastReflection_NameRecord_messageType struct{}
func (x fastReflection_NameRecord_messageType) Zero() protoreflect.Message {
return (*fastReflection_NameRecord)(nil)
}
func (x fastReflection_NameRecord_messageType) New() protoreflect.Message {
return new(fastReflection_NameRecord)
}
func (x fastReflection_NameRecord_messageType) Descriptor() protoreflect.MessageDescriptor {
return md_NameRecord
}
// Descriptor returns message descriptor, which contains only the protobuf
// type information for the message.
func (x *fastReflection_NameRecord) Descriptor() protoreflect.MessageDescriptor {
return md_NameRecord
}
// Type returns the message type, which encapsulates both Go and protobuf
// type information. If the Go type information is not needed,
// it is recommended that the message descriptor be used instead.
func (x *fastReflection_NameRecord) Type() protoreflect.MessageType {
return _fastReflection_NameRecord_messageType
}
// New returns a newly allocated and mutable empty message.
func (x *fastReflection_NameRecord) New() protoreflect.Message {
return new(fastReflection_NameRecord)
}
// Interface unwraps the message reflection interface and
// returns the underlying ProtoMessage interface.
func (x *fastReflection_NameRecord) Interface() protoreflect.ProtoMessage {
return (*NameRecord)(x)
}
// Range iterates over every populated field in an undefined order,
// calling f for each field descriptor and value encountered.
// Range returns immediately if f returns false.
// While iterating, mutating operations may only be performed
// on the current field descriptor.
func (x *fastReflection_NameRecord) Range(f func(protoreflect.FieldDescriptor, protoreflect.Value) bool) {
if x.Latest != nil {
value := protoreflect.ValueOfMessage(x.Latest.ProtoReflect())
if !f(fd_NameRecord_latest, value) {
return
}
}
if len(x.History) != 0 {
value := protoreflect.ValueOfList(&_NameRecord_2_list{list: &x.History})
if !f(fd_NameRecord_history, value) {
return
}
}
}
// Has reports whether a field is populated.
//
// Some fields have the property of nullability where it is possible to
// distinguish between the default value of a field and whether the field
// was explicitly populated with the default value. Singular message fields,
// member fields of a oneof, and proto2 scalar fields are nullable. Such
// fields are populated only if explicitly set.
//
// In other cases (aside from the nullable cases above),
// a proto3 scalar field is populated if it contains a non-zero value, and
// a repeated field is populated if it is non-empty.
func (x *fastReflection_NameRecord) Has(fd protoreflect.FieldDescriptor) bool {
switch fd.FullName() {
case "cerc.registry.v1.NameRecord.latest":
return x.Latest != nil
case "cerc.registry.v1.NameRecord.history":
return len(x.History) != 0
default:
if fd.IsExtension() {
panic(fmt.Errorf("proto3 declared messages do not support extensions: cerc.registry.v1.NameRecord"))
}
panic(fmt.Errorf("message cerc.registry.v1.NameRecord does not contain field %s", fd.FullName()))
}
}
// Clear clears the field such that a subsequent Has call reports false.
//
// Clearing an extension field clears both the extension type and value
// associated with the given field number.
//
// Clear is a mutating operation and unsafe for concurrent use.
func (x *fastReflection_NameRecord) Clear(fd protoreflect.FieldDescriptor) {
switch fd.FullName() {
case "cerc.registry.v1.NameRecord.latest":
x.Latest = nil
case "cerc.registry.v1.NameRecord.history":
x.History = nil
default:
if fd.IsExtension() {
panic(fmt.Errorf("proto3 declared messages do not support extensions: cerc.registry.v1.NameRecord"))
}
panic(fmt.Errorf("message cerc.registry.v1.NameRecord does not contain field %s", fd.FullName()))
}
}
// Get retrieves the value for a field.
//
// For unpopulated scalars, it returns the default value, where
// the default value of a bytes scalar is guaranteed to be a copy.
// For unpopulated composite types, it returns an empty, read-only view
// of the value; to obtain a mutable reference, use Mutable.
func (x *fastReflection_NameRecord) Get(descriptor protoreflect.FieldDescriptor) protoreflect.Value {
switch descriptor.FullName() {
case "cerc.registry.v1.NameRecord.latest":
value := x.Latest
return protoreflect.ValueOfMessage(value.ProtoReflect())
case "cerc.registry.v1.NameRecord.history":
if len(x.History) == 0 {
return protoreflect.ValueOfList(&_NameRecord_2_list{})
}
listValue := &_NameRecord_2_list{list: &x.History}
return protoreflect.ValueOfList(listValue)
default:
if descriptor.IsExtension() {
panic(fmt.Errorf("proto3 declared messages do not support extensions: cerc.registry.v1.NameRecord"))
}
panic(fmt.Errorf("message cerc.registry.v1.NameRecord does not contain field %s", descriptor.FullName()))
}
}
// Set stores the value for a field.
//
// For a field belonging to a oneof, it implicitly clears any other field
// that may be currently set within the same oneof.
// For extension fields, it implicitly stores the provided ExtensionType.
// When setting a composite type, it is unspecified whether the stored value
// aliases the source's memory in any way. If the composite value is an
// empty, read-only value, then it panics.
//
// Set is a mutating operation and unsafe for concurrent use.
func (x *fastReflection_NameRecord) Set(fd protoreflect.FieldDescriptor, value protoreflect.Value) {
switch fd.FullName() {
case "cerc.registry.v1.NameRecord.latest":
x.Latest = value.Message().Interface().(*NameRecordEntry)
case "cerc.registry.v1.NameRecord.history":
lv := value.List()
clv := lv.(*_NameRecord_2_list)
x.History = *clv.list
default:
if fd.IsExtension() {
panic(fmt.Errorf("proto3 declared messages do not support extensions: cerc.registry.v1.NameRecord"))
}
panic(fmt.Errorf("message cerc.registry.v1.NameRecord does not contain field %s", fd.FullName()))
}
}
// Mutable returns a mutable reference to a composite type.
//
// If the field is unpopulated, it may allocate a composite value.
// For a field belonging to a oneof, it implicitly clears any other field
// that may be currently set within the same oneof.
// For extension fields, it implicitly stores the provided ExtensionType
// if not already stored.
// It panics if the field does not contain a composite type.
//
// Mutable is a mutating operation and unsafe for concurrent use.
func (x *fastReflection_NameRecord) Mutable(fd protoreflect.FieldDescriptor) protoreflect.Value {
switch fd.FullName() {
case "cerc.registry.v1.NameRecord.latest":
if x.Latest == nil {
x.Latest = new(NameRecordEntry)
}
return protoreflect.ValueOfMessage(x.Latest.ProtoReflect())
case "cerc.registry.v1.NameRecord.history":
if x.History == nil {
x.History = []*NameRecordEntry{}
}
value := &_NameRecord_2_list{list: &x.History}
return protoreflect.ValueOfList(value)
default:
if fd.IsExtension() {
panic(fmt.Errorf("proto3 declared messages do not support extensions: cerc.registry.v1.NameRecord"))
}
panic(fmt.Errorf("message cerc.registry.v1.NameRecord does not contain field %s", fd.FullName()))
}
}
// NewField returns a new value that is assignable to the field
// for the given descriptor. For scalars, this returns the default value.
// For lists, maps, and messages, this returns a new, empty, mutable value.
func (x *fastReflection_NameRecord) NewField(fd protoreflect.FieldDescriptor) protoreflect.Value {
switch fd.FullName() {
case "cerc.registry.v1.NameRecord.latest":
m := new(NameRecordEntry)
return protoreflect.ValueOfMessage(m.ProtoReflect())
case "cerc.registry.v1.NameRecord.history":
list := []*NameRecordEntry{}
return protoreflect.ValueOfList(&_NameRecord_2_list{list: &list})
default:
if fd.IsExtension() {
panic(fmt.Errorf("proto3 declared messages do not support extensions: cerc.registry.v1.NameRecord"))
}
panic(fmt.Errorf("message cerc.registry.v1.NameRecord does not contain field %s", fd.FullName()))
}
}
// WhichOneof reports which field within the oneof is populated,
// returning nil if none are populated.
// It panics if the oneof descriptor does not belong to this message.
func (x *fastReflection_NameRecord) WhichOneof(d protoreflect.OneofDescriptor) protoreflect.FieldDescriptor {
switch d.FullName() {
default:
panic(fmt.Errorf("%s is not a oneof field in cerc.registry.v1.NameRecord", d.FullName()))
}
panic("unreachable")
}
// GetUnknown retrieves the entire list of unknown fields.
// The caller may only mutate the contents of the RawFields
// if the mutated bytes are stored back into the message with SetUnknown.
func (x *fastReflection_NameRecord) GetUnknown() protoreflect.RawFields {
return x.unknownFields
}
// SetUnknown stores an entire list of unknown fields.
// The raw fields must be syntactically valid according to the wire format.
// An implementation may panic if this is not the case.
// Once stored, the caller must not mutate the content of the RawFields.
// An empty RawFields may be passed to clear the fields.
//
// SetUnknown is a mutating operation and unsafe for concurrent use.
func (x *fastReflection_NameRecord) SetUnknown(fields protoreflect.RawFields) {
x.unknownFields = fields
}
// IsValid reports whether the message is valid.
//
// An invalid message is an empty, read-only value.
//
// An invalid message often corresponds to a nil pointer of the concrete
// message type, but the details are implementation dependent.
// Validity is not part of the protobuf data model, and may not
// be preserved in marshaling or other operations.
func (x *fastReflection_NameRecord) IsValid() bool {
return x != nil
}
// ProtoMethods returns optional fastReflectionFeature-path implementations of various operations.
// This method may return nil.
//
// The returned methods type is identical to
// "google.golang.org/protobuf/runtime/protoiface".Methods.
// Consult the protoiface package documentation for details.
func (x *fastReflection_NameRecord) ProtoMethods() *protoiface.Methods {
size := func(input protoiface.SizeInput) protoiface.SizeOutput {
x := input.Message.Interface().(*NameRecord)
if x == nil {
return protoiface.SizeOutput{
NoUnkeyedLiterals: input.NoUnkeyedLiterals,
Size: 0,
}
}
options := runtime.SizeInputToOptions(input)
_ = options
var n int
var l int
_ = l
if x.Latest != nil {
l = options.Size(x.Latest)
n += 1 + l + runtime.Sov(uint64(l))
}
if len(x.History) > 0 {
for _, e := range x.History {
l = options.Size(e)
n += 1 + l + runtime.Sov(uint64(l))
}
}
if x.unknownFields != nil {
n += len(x.unknownFields)
}
return protoiface.SizeOutput{
NoUnkeyedLiterals: input.NoUnkeyedLiterals,
Size: n,
}
}
marshal := func(input protoiface.MarshalInput) (protoiface.MarshalOutput, error) {
x := input.Message.Interface().(*NameRecord)
if x == nil {
return protoiface.MarshalOutput{
NoUnkeyedLiterals: input.NoUnkeyedLiterals,
Buf: input.Buf,
}, nil
}
options := runtime.MarshalInputToOptions(input)
_ = options
size := options.Size(x)
dAtA := make([]byte, size)
i := len(dAtA)
_ = i
var l int
_ = l
if x.unknownFields != nil {
i -= len(x.unknownFields)
copy(dAtA[i:], x.unknownFields)
}
if len(x.History) > 0 {
for iNdEx := len(x.History) - 1; iNdEx >= 0; iNdEx-- {
encoded, err := options.Marshal(x.History[iNdEx])
if err != nil {
return protoiface.MarshalOutput{
NoUnkeyedLiterals: input.NoUnkeyedLiterals,
Buf: input.Buf,
}, err
}
i -= len(encoded)
copy(dAtA[i:], encoded)
i = runtime.EncodeVarint(dAtA, i, uint64(len(encoded)))
i--
dAtA[i] = 0x12
}
}
if x.Latest != nil {
encoded, err := options.Marshal(x.Latest)
if err != nil {
return protoiface.MarshalOutput{
NoUnkeyedLiterals: input.NoUnkeyedLiterals,
Buf: input.Buf,
}, err
}
i -= len(encoded)
copy(dAtA[i:], encoded)
i = runtime.EncodeVarint(dAtA, i, uint64(len(encoded)))
i--
dAtA[i] = 0xa
}
if input.Buf != nil {
input.Buf = append(input.Buf, dAtA...)
} else {
input.Buf = dAtA
}
return protoiface.MarshalOutput{
NoUnkeyedLiterals: input.NoUnkeyedLiterals,
Buf: input.Buf,
}, nil
}
unmarshal := func(input protoiface.UnmarshalInput) (protoiface.UnmarshalOutput, error) {
x := input.Message.Interface().(*NameRecord)
if x == nil {
return protoiface.UnmarshalOutput{
NoUnkeyedLiterals: input.NoUnkeyedLiterals,
Flags: input.Flags,
}, nil
}
options := runtime.UnmarshalInputToOptions(input)
_ = options
dAtA := input.Buf
l := len(dAtA)
iNdEx := 0
for iNdEx < l {
preIndex := iNdEx
var wire uint64
for shift := uint(0); ; shift += 7 {
if shift >= 64 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrIntOverflow
}
if iNdEx >= l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
b := dAtA[iNdEx]
iNdEx++
wire |= uint64(b&0x7F) << shift
if b < 0x80 {
break
}
}
fieldNum := int32(wire >> 3)
wireType := int(wire & 0x7)
if wireType == 4 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, fmt.Errorf("proto: NameRecord: wiretype end group for non-group")
}
if fieldNum <= 0 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, fmt.Errorf("proto: NameRecord: illegal tag %d (wire type %d)", fieldNum, wire)
}
switch fieldNum {
case 1:
if wireType != 2 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, fmt.Errorf("proto: wrong wireType = %d for field Latest", wireType)
}
var msglen int
for shift := uint(0); ; shift += 7 {
if shift >= 64 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrIntOverflow
}
if iNdEx >= l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
b := dAtA[iNdEx]
iNdEx++
msglen |= int(b&0x7F) << shift
if b < 0x80 {
break
}
}
if msglen < 0 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength
}
postIndex := iNdEx + msglen
if postIndex < 0 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength
}
if postIndex > l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
if x.Latest == nil {
x.Latest = &NameRecordEntry{}
}
if err := options.Unmarshal(dAtA[iNdEx:postIndex], x.Latest); err != nil {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, err
}
iNdEx = postIndex
case 2:
if wireType != 2 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, fmt.Errorf("proto: wrong wireType = %d for field History", wireType)
}
var msglen int
for shift := uint(0); ; shift += 7 {
if shift >= 64 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrIntOverflow
}
if iNdEx >= l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
b := dAtA[iNdEx]
iNdEx++
msglen |= int(b&0x7F) << shift
if b < 0x80 {
break
}
}
if msglen < 0 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength
}
postIndex := iNdEx + msglen
if postIndex < 0 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength
}
if postIndex > l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
x.History = append(x.History, &NameRecordEntry{})
if err := options.Unmarshal(dAtA[iNdEx:postIndex], x.History[len(x.History)-1]); err != nil {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, err
}
iNdEx = postIndex
default:
iNdEx = preIndex
skippy, err := runtime.Skip(dAtA[iNdEx:])
if err != nil {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, err
}
if (skippy < 0) || (iNdEx+skippy) < 0 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength
}
if (iNdEx + skippy) > l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
if !options.DiscardUnknown {
x.unknownFields = append(x.unknownFields, dAtA[iNdEx:iNdEx+skippy]...)
}
iNdEx += skippy
}
}
if iNdEx > l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, nil
}
return &protoiface.Methods{
NoUnkeyedLiterals: struct{}{},
Flags: protoiface.SupportMarshalDeterministic | protoiface.SupportUnmarshalDiscardUnknown,
Size: size,
Marshal: marshal,
Unmarshal: unmarshal,
Merge: nil,
CheckInitialized: nil,
}
}
var (
md_NameRecordEntry protoreflect.MessageDescriptor
fd_NameRecordEntry_id protoreflect.FieldDescriptor
fd_NameRecordEntry_height protoreflect.FieldDescriptor
)
func init() {
file_cerc_registry_v1_registry_proto_init()
md_NameRecordEntry = File_cerc_registry_v1_registry_proto.Messages().ByName("NameRecordEntry")
fd_NameRecordEntry_id = md_NameRecordEntry.Fields().ByName("id")
fd_NameRecordEntry_height = md_NameRecordEntry.Fields().ByName("height")
}
var _ protoreflect.Message = (*fastReflection_NameRecordEntry)(nil)
type fastReflection_NameRecordEntry NameRecordEntry
func (x *NameRecordEntry) ProtoReflect() protoreflect.Message {
return (*fastReflection_NameRecordEntry)(x)
}
func (x *NameRecordEntry) slowProtoReflect() protoreflect.Message {
mi := &file_cerc_registry_v1_registry_proto_msgTypes[6]
if protoimpl.UnsafeEnabled && x != nil {
ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x))
if ms.LoadMessageInfo() == nil {
ms.StoreMessageInfo(mi)
}
return ms
}
return mi.MessageOf(x)
}
var _fastReflection_NameRecordEntry_messageType fastReflection_NameRecordEntry_messageType
var _ protoreflect.MessageType = fastReflection_NameRecordEntry_messageType{}
type fastReflection_NameRecordEntry_messageType struct{}
func (x fastReflection_NameRecordEntry_messageType) Zero() protoreflect.Message {
return (*fastReflection_NameRecordEntry)(nil)
}
func (x fastReflection_NameRecordEntry_messageType) New() protoreflect.Message {
return new(fastReflection_NameRecordEntry)
}
func (x fastReflection_NameRecordEntry_messageType) Descriptor() protoreflect.MessageDescriptor {
return md_NameRecordEntry
}
// Descriptor returns message descriptor, which contains only the protobuf
// type information for the message.
func (x *fastReflection_NameRecordEntry) Descriptor() protoreflect.MessageDescriptor {
return md_NameRecordEntry
}
// Type returns the message type, which encapsulates both Go and protobuf
// type information. If the Go type information is not needed,
// it is recommended that the message descriptor be used instead.
func (x *fastReflection_NameRecordEntry) Type() protoreflect.MessageType {
return _fastReflection_NameRecordEntry_messageType
}
// New returns a newly allocated and mutable empty message.
func (x *fastReflection_NameRecordEntry) New() protoreflect.Message {
return new(fastReflection_NameRecordEntry)
}
// Interface unwraps the message reflection interface and
// returns the underlying ProtoMessage interface.
func (x *fastReflection_NameRecordEntry) Interface() protoreflect.ProtoMessage {
return (*NameRecordEntry)(x)
}
// Range iterates over every populated field in an undefined order,
// calling f for each field descriptor and value encountered.
// Range returns immediately if f returns false.
// While iterating, mutating operations may only be performed
// on the current field descriptor.
func (x *fastReflection_NameRecordEntry) Range(f func(protoreflect.FieldDescriptor, protoreflect.Value) bool) {
if x.Id != "" {
value := protoreflect.ValueOfString(x.Id)
if !f(fd_NameRecordEntry_id, value) {
return
}
}
if x.Height != uint64(0) {
value := protoreflect.ValueOfUint64(x.Height)
if !f(fd_NameRecordEntry_height, value) {
return
}
}
}
// Has reports whether a field is populated.
//
// Some fields have the property of nullability where it is possible to
// distinguish between the default value of a field and whether the field
// was explicitly populated with the default value. Singular message fields,
// member fields of a oneof, and proto2 scalar fields are nullable. Such
// fields are populated only if explicitly set.
//
// In other cases (aside from the nullable cases above),
// a proto3 scalar field is populated if it contains a non-zero value, and
// a repeated field is populated if it is non-empty.
func (x *fastReflection_NameRecordEntry) Has(fd protoreflect.FieldDescriptor) bool {
switch fd.FullName() {
case "cerc.registry.v1.NameRecordEntry.id":
return x.Id != ""
case "cerc.registry.v1.NameRecordEntry.height":
return x.Height != uint64(0)
default:
if fd.IsExtension() {
panic(fmt.Errorf("proto3 declared messages do not support extensions: cerc.registry.v1.NameRecordEntry"))
}
panic(fmt.Errorf("message cerc.registry.v1.NameRecordEntry does not contain field %s", fd.FullName()))
}
}
// Clear clears the field such that a subsequent Has call reports false.
//
// Clearing an extension field clears both the extension type and value
// associated with the given field number.
//
// Clear is a mutating operation and unsafe for concurrent use.
func (x *fastReflection_NameRecordEntry) Clear(fd protoreflect.FieldDescriptor) {
switch fd.FullName() {
case "cerc.registry.v1.NameRecordEntry.id":
x.Id = ""
case "cerc.registry.v1.NameRecordEntry.height":
x.Height = uint64(0)
default:
if fd.IsExtension() {
panic(fmt.Errorf("proto3 declared messages do not support extensions: cerc.registry.v1.NameRecordEntry"))
}
panic(fmt.Errorf("message cerc.registry.v1.NameRecordEntry does not contain field %s", fd.FullName()))
}
}
// Get retrieves the value for a field.
//
// For unpopulated scalars, it returns the default value, where
// the default value of a bytes scalar is guaranteed to be a copy.
// For unpopulated composite types, it returns an empty, read-only view
// of the value; to obtain a mutable reference, use Mutable.
func (x *fastReflection_NameRecordEntry) Get(descriptor protoreflect.FieldDescriptor) protoreflect.Value {
switch descriptor.FullName() {
case "cerc.registry.v1.NameRecordEntry.id":
value := x.Id
return protoreflect.ValueOfString(value)
case "cerc.registry.v1.NameRecordEntry.height":
value := x.Height
return protoreflect.ValueOfUint64(value)
default:
if descriptor.IsExtension() {
panic(fmt.Errorf("proto3 declared messages do not support extensions: cerc.registry.v1.NameRecordEntry"))
}
panic(fmt.Errorf("message cerc.registry.v1.NameRecordEntry does not contain field %s", descriptor.FullName()))
}
}
// Set stores the value for a field.
//
// For a field belonging to a oneof, it implicitly clears any other field
// that may be currently set within the same oneof.
// For extension fields, it implicitly stores the provided ExtensionType.
// When setting a composite type, it is unspecified whether the stored value
// aliases the source's memory in any way. If the composite value is an
// empty, read-only value, then it panics.
//
// Set is a mutating operation and unsafe for concurrent use.
func (x *fastReflection_NameRecordEntry) Set(fd protoreflect.FieldDescriptor, value protoreflect.Value) {
switch fd.FullName() {
case "cerc.registry.v1.NameRecordEntry.id":
x.Id = value.Interface().(string)
case "cerc.registry.v1.NameRecordEntry.height":
x.Height = value.Uint()
default:
if fd.IsExtension() {
panic(fmt.Errorf("proto3 declared messages do not support extensions: cerc.registry.v1.NameRecordEntry"))
}
panic(fmt.Errorf("message cerc.registry.v1.NameRecordEntry does not contain field %s", fd.FullName()))
}
}
// Mutable returns a mutable reference to a composite type.
//
// If the field is unpopulated, it may allocate a composite value.
// For a field belonging to a oneof, it implicitly clears any other field
// that may be currently set within the same oneof.
// For extension fields, it implicitly stores the provided ExtensionType
// if not already stored.
// It panics if the field does not contain a composite type.
//
// Mutable is a mutating operation and unsafe for concurrent use.
func (x *fastReflection_NameRecordEntry) Mutable(fd protoreflect.FieldDescriptor) protoreflect.Value {
switch fd.FullName() {
case "cerc.registry.v1.NameRecordEntry.id":
panic(fmt.Errorf("field id of message cerc.registry.v1.NameRecordEntry is not mutable"))
case "cerc.registry.v1.NameRecordEntry.height":
panic(fmt.Errorf("field height of message cerc.registry.v1.NameRecordEntry is not mutable"))
default:
if fd.IsExtension() {
panic(fmt.Errorf("proto3 declared messages do not support extensions: cerc.registry.v1.NameRecordEntry"))
}
panic(fmt.Errorf("message cerc.registry.v1.NameRecordEntry does not contain field %s", fd.FullName()))
}
}
// NewField returns a new value that is assignable to the field
// for the given descriptor. For scalars, this returns the default value.
// For lists, maps, and messages, this returns a new, empty, mutable value.
func (x *fastReflection_NameRecordEntry) NewField(fd protoreflect.FieldDescriptor) protoreflect.Value {
switch fd.FullName() {
case "cerc.registry.v1.NameRecordEntry.id":
return protoreflect.ValueOfString("")
case "cerc.registry.v1.NameRecordEntry.height":
return protoreflect.ValueOfUint64(uint64(0))
default:
if fd.IsExtension() {
panic(fmt.Errorf("proto3 declared messages do not support extensions: cerc.registry.v1.NameRecordEntry"))
}
panic(fmt.Errorf("message cerc.registry.v1.NameRecordEntry does not contain field %s", fd.FullName()))
}
}
// WhichOneof reports which field within the oneof is populated,
// returning nil if none are populated.
// It panics if the oneof descriptor does not belong to this message.
func (x *fastReflection_NameRecordEntry) WhichOneof(d protoreflect.OneofDescriptor) protoreflect.FieldDescriptor {
switch d.FullName() {
default:
panic(fmt.Errorf("%s is not a oneof field in cerc.registry.v1.NameRecordEntry", d.FullName()))
}
panic("unreachable")
}
// GetUnknown retrieves the entire list of unknown fields.
// The caller may only mutate the contents of the RawFields
// if the mutated bytes are stored back into the message with SetUnknown.
func (x *fastReflection_NameRecordEntry) GetUnknown() protoreflect.RawFields {
return x.unknownFields
}
// SetUnknown stores an entire list of unknown fields.
// The raw fields must be syntactically valid according to the wire format.
// An implementation may panic if this is not the case.
// Once stored, the caller must not mutate the content of the RawFields.
// An empty RawFields may be passed to clear the fields.
//
// SetUnknown is a mutating operation and unsafe for concurrent use.
func (x *fastReflection_NameRecordEntry) SetUnknown(fields protoreflect.RawFields) {
x.unknownFields = fields
}
// IsValid reports whether the message is valid.
//
// An invalid message is an empty, read-only value.
//
// An invalid message often corresponds to a nil pointer of the concrete
// message type, but the details are implementation dependent.
// Validity is not part of the protobuf data model, and may not
// be preserved in marshaling or other operations.
func (x *fastReflection_NameRecordEntry) IsValid() bool {
return x != nil
}
// ProtoMethods returns optional fastReflectionFeature-path implementations of various operations.
// This method may return nil.
//
// The returned methods type is identical to
// "google.golang.org/protobuf/runtime/protoiface".Methods.
// Consult the protoiface package documentation for details.
func (x *fastReflection_NameRecordEntry) ProtoMethods() *protoiface.Methods {
size := func(input protoiface.SizeInput) protoiface.SizeOutput {
x := input.Message.Interface().(*NameRecordEntry)
if x == nil {
return protoiface.SizeOutput{
NoUnkeyedLiterals: input.NoUnkeyedLiterals,
Size: 0,
}
}
options := runtime.SizeInputToOptions(input)
_ = options
var n int
var l int
_ = l
l = len(x.Id)
if l > 0 {
n += 1 + l + runtime.Sov(uint64(l))
}
if x.Height != 0 {
n += 1 + runtime.Sov(uint64(x.Height))
}
if x.unknownFields != nil {
n += len(x.unknownFields)
}
return protoiface.SizeOutput{
NoUnkeyedLiterals: input.NoUnkeyedLiterals,
Size: n,
}
}
marshal := func(input protoiface.MarshalInput) (protoiface.MarshalOutput, error) {
x := input.Message.Interface().(*NameRecordEntry)
if x == nil {
return protoiface.MarshalOutput{
NoUnkeyedLiterals: input.NoUnkeyedLiterals,
Buf: input.Buf,
}, nil
}
options := runtime.MarshalInputToOptions(input)
_ = options
size := options.Size(x)
dAtA := make([]byte, size)
i := len(dAtA)
_ = i
var l int
_ = l
if x.unknownFields != nil {
i -= len(x.unknownFields)
copy(dAtA[i:], x.unknownFields)
}
if x.Height != 0 {
i = runtime.EncodeVarint(dAtA, i, uint64(x.Height))
i--
dAtA[i] = 0x10
}
if len(x.Id) > 0 {
i -= len(x.Id)
copy(dAtA[i:], x.Id)
i = runtime.EncodeVarint(dAtA, i, uint64(len(x.Id)))
i--
dAtA[i] = 0xa
}
if input.Buf != nil {
input.Buf = append(input.Buf, dAtA...)
} else {
input.Buf = dAtA
}
return protoiface.MarshalOutput{
NoUnkeyedLiterals: input.NoUnkeyedLiterals,
Buf: input.Buf,
}, nil
}
unmarshal := func(input protoiface.UnmarshalInput) (protoiface.UnmarshalOutput, error) {
x := input.Message.Interface().(*NameRecordEntry)
if x == nil {
return protoiface.UnmarshalOutput{
NoUnkeyedLiterals: input.NoUnkeyedLiterals,
Flags: input.Flags,
}, nil
}
options := runtime.UnmarshalInputToOptions(input)
_ = options
dAtA := input.Buf
l := len(dAtA)
iNdEx := 0
for iNdEx < l {
preIndex := iNdEx
var wire uint64
for shift := uint(0); ; shift += 7 {
if shift >= 64 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrIntOverflow
}
if iNdEx >= l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
b := dAtA[iNdEx]
iNdEx++
wire |= uint64(b&0x7F) << shift
if b < 0x80 {
break
}
}
fieldNum := int32(wire >> 3)
wireType := int(wire & 0x7)
if wireType == 4 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, fmt.Errorf("proto: NameRecordEntry: wiretype end group for non-group")
}
if fieldNum <= 0 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, fmt.Errorf("proto: NameRecordEntry: illegal tag %d (wire type %d)", fieldNum, wire)
}
switch fieldNum {
case 1:
if wireType != 2 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, fmt.Errorf("proto: wrong wireType = %d for field Id", wireType)
}
var stringLen uint64
for shift := uint(0); ; shift += 7 {
if shift >= 64 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrIntOverflow
}
if iNdEx >= l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
b := dAtA[iNdEx]
iNdEx++
stringLen |= uint64(b&0x7F) << shift
if b < 0x80 {
break
}
}
intStringLen := int(stringLen)
if intStringLen < 0 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength
}
postIndex := iNdEx + intStringLen
if postIndex < 0 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength
}
if postIndex > l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
x.Id = string(dAtA[iNdEx:postIndex])
iNdEx = postIndex
case 2:
if wireType != 0 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, fmt.Errorf("proto: wrong wireType = %d for field Height", wireType)
}
x.Height = 0
for shift := uint(0); ; shift += 7 {
if shift >= 64 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrIntOverflow
}
if iNdEx >= l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
b := dAtA[iNdEx]
iNdEx++
x.Height |= uint64(b&0x7F) << shift
if b < 0x80 {
break
}
}
default:
iNdEx = preIndex
skippy, err := runtime.Skip(dAtA[iNdEx:])
if err != nil {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, err
}
if (skippy < 0) || (iNdEx+skippy) < 0 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength
}
if (iNdEx + skippy) > l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
if !options.DiscardUnknown {
x.unknownFields = append(x.unknownFields, dAtA[iNdEx:iNdEx+skippy]...)
}
iNdEx += skippy
}
}
if iNdEx > l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, nil
}
return &protoiface.Methods{
NoUnkeyedLiterals: struct{}{},
Flags: protoiface.SupportMarshalDeterministic | protoiface.SupportUnmarshalDiscardUnknown,
Size: size,
Marshal: marshal,
Unmarshal: unmarshal,
Merge: nil,
CheckInitialized: nil,
}
}
var (
md_Signature protoreflect.MessageDescriptor
fd_Signature_sig protoreflect.FieldDescriptor
fd_Signature_pub_key protoreflect.FieldDescriptor
)
func init() {
file_cerc_registry_v1_registry_proto_init()
md_Signature = File_cerc_registry_v1_registry_proto.Messages().ByName("Signature")
fd_Signature_sig = md_Signature.Fields().ByName("sig")
fd_Signature_pub_key = md_Signature.Fields().ByName("pub_key")
}
var _ protoreflect.Message = (*fastReflection_Signature)(nil)
type fastReflection_Signature Signature
func (x *Signature) ProtoReflect() protoreflect.Message {
return (*fastReflection_Signature)(x)
}
func (x *Signature) slowProtoReflect() protoreflect.Message {
mi := &file_cerc_registry_v1_registry_proto_msgTypes[7]
if protoimpl.UnsafeEnabled && x != nil {
ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x))
if ms.LoadMessageInfo() == nil {
ms.StoreMessageInfo(mi)
}
return ms
}
return mi.MessageOf(x)
}
var _fastReflection_Signature_messageType fastReflection_Signature_messageType
var _ protoreflect.MessageType = fastReflection_Signature_messageType{}
type fastReflection_Signature_messageType struct{}
func (x fastReflection_Signature_messageType) Zero() protoreflect.Message {
return (*fastReflection_Signature)(nil)
}
func (x fastReflection_Signature_messageType) New() protoreflect.Message {
return new(fastReflection_Signature)
}
func (x fastReflection_Signature_messageType) Descriptor() protoreflect.MessageDescriptor {
return md_Signature
}
// Descriptor returns message descriptor, which contains only the protobuf
// type information for the message.
func (x *fastReflection_Signature) Descriptor() protoreflect.MessageDescriptor {
return md_Signature
}
// Type returns the message type, which encapsulates both Go and protobuf
// type information. If the Go type information is not needed,
// it is recommended that the message descriptor be used instead.
func (x *fastReflection_Signature) Type() protoreflect.MessageType {
return _fastReflection_Signature_messageType
}
// New returns a newly allocated and mutable empty message.
func (x *fastReflection_Signature) New() protoreflect.Message {
return new(fastReflection_Signature)
}
// Interface unwraps the message reflection interface and
// returns the underlying ProtoMessage interface.
func (x *fastReflection_Signature) Interface() protoreflect.ProtoMessage {
return (*Signature)(x)
}
// Range iterates over every populated field in an undefined order,
// calling f for each field descriptor and value encountered.
// Range returns immediately if f returns false.
// While iterating, mutating operations may only be performed
// on the current field descriptor.
func (x *fastReflection_Signature) Range(f func(protoreflect.FieldDescriptor, protoreflect.Value) bool) {
if x.Sig != "" {
value := protoreflect.ValueOfString(x.Sig)
if !f(fd_Signature_sig, value) {
return
}
}
if x.PubKey != "" {
value := protoreflect.ValueOfString(x.PubKey)
if !f(fd_Signature_pub_key, value) {
return
}
}
}
// Has reports whether a field is populated.
//
// Some fields have the property of nullability where it is possible to
// distinguish between the default value of a field and whether the field
// was explicitly populated with the default value. Singular message fields,
// member fields of a oneof, and proto2 scalar fields are nullable. Such
// fields are populated only if explicitly set.
//
// In other cases (aside from the nullable cases above),
// a proto3 scalar field is populated if it contains a non-zero value, and
// a repeated field is populated if it is non-empty.
func (x *fastReflection_Signature) Has(fd protoreflect.FieldDescriptor) bool {
switch fd.FullName() {
case "cerc.registry.v1.Signature.sig":
return x.Sig != ""
case "cerc.registry.v1.Signature.pub_key":
return x.PubKey != ""
default:
if fd.IsExtension() {
panic(fmt.Errorf("proto3 declared messages do not support extensions: cerc.registry.v1.Signature"))
}
panic(fmt.Errorf("message cerc.registry.v1.Signature does not contain field %s", fd.FullName()))
}
}
// Clear clears the field such that a subsequent Has call reports false.
//
// Clearing an extension field clears both the extension type and value
// associated with the given field number.
//
// Clear is a mutating operation and unsafe for concurrent use.
func (x *fastReflection_Signature) Clear(fd protoreflect.FieldDescriptor) {
switch fd.FullName() {
case "cerc.registry.v1.Signature.sig":
x.Sig = ""
case "cerc.registry.v1.Signature.pub_key":
x.PubKey = ""
default:
if fd.IsExtension() {
panic(fmt.Errorf("proto3 declared messages do not support extensions: cerc.registry.v1.Signature"))
}
panic(fmt.Errorf("message cerc.registry.v1.Signature does not contain field %s", fd.FullName()))
}
}
// Get retrieves the value for a field.
//
// For unpopulated scalars, it returns the default value, where
// the default value of a bytes scalar is guaranteed to be a copy.
// For unpopulated composite types, it returns an empty, read-only view
// of the value; to obtain a mutable reference, use Mutable.
func (x *fastReflection_Signature) Get(descriptor protoreflect.FieldDescriptor) protoreflect.Value {
switch descriptor.FullName() {
case "cerc.registry.v1.Signature.sig":
value := x.Sig
return protoreflect.ValueOfString(value)
case "cerc.registry.v1.Signature.pub_key":
value := x.PubKey
return protoreflect.ValueOfString(value)
default:
if descriptor.IsExtension() {
panic(fmt.Errorf("proto3 declared messages do not support extensions: cerc.registry.v1.Signature"))
}
panic(fmt.Errorf("message cerc.registry.v1.Signature does not contain field %s", descriptor.FullName()))
}
}
// Set stores the value for a field.
//
// For a field belonging to a oneof, it implicitly clears any other field
// that may be currently set within the same oneof.
// For extension fields, it implicitly stores the provided ExtensionType.
// When setting a composite type, it is unspecified whether the stored value
// aliases the source's memory in any way. If the composite value is an
// empty, read-only value, then it panics.
//
// Set is a mutating operation and unsafe for concurrent use.
func (x *fastReflection_Signature) Set(fd protoreflect.FieldDescriptor, value protoreflect.Value) {
switch fd.FullName() {
case "cerc.registry.v1.Signature.sig":
x.Sig = value.Interface().(string)
case "cerc.registry.v1.Signature.pub_key":
x.PubKey = value.Interface().(string)
default:
if fd.IsExtension() {
panic(fmt.Errorf("proto3 declared messages do not support extensions: cerc.registry.v1.Signature"))
}
panic(fmt.Errorf("message cerc.registry.v1.Signature does not contain field %s", fd.FullName()))
}
}
// Mutable returns a mutable reference to a composite type.
//
// If the field is unpopulated, it may allocate a composite value.
// For a field belonging to a oneof, it implicitly clears any other field
// that may be currently set within the same oneof.
// For extension fields, it implicitly stores the provided ExtensionType
// if not already stored.
// It panics if the field does not contain a composite type.
//
// Mutable is a mutating operation and unsafe for concurrent use.
func (x *fastReflection_Signature) Mutable(fd protoreflect.FieldDescriptor) protoreflect.Value {
switch fd.FullName() {
case "cerc.registry.v1.Signature.sig":
panic(fmt.Errorf("field sig of message cerc.registry.v1.Signature is not mutable"))
case "cerc.registry.v1.Signature.pub_key":
panic(fmt.Errorf("field pub_key of message cerc.registry.v1.Signature is not mutable"))
default:
if fd.IsExtension() {
panic(fmt.Errorf("proto3 declared messages do not support extensions: cerc.registry.v1.Signature"))
}
panic(fmt.Errorf("message cerc.registry.v1.Signature does not contain field %s", fd.FullName()))
}
}
// NewField returns a new value that is assignable to the field
// for the given descriptor. For scalars, this returns the default value.
// For lists, maps, and messages, this returns a new, empty, mutable value.
func (x *fastReflection_Signature) NewField(fd protoreflect.FieldDescriptor) protoreflect.Value {
switch fd.FullName() {
case "cerc.registry.v1.Signature.sig":
return protoreflect.ValueOfString("")
case "cerc.registry.v1.Signature.pub_key":
return protoreflect.ValueOfString("")
default:
if fd.IsExtension() {
panic(fmt.Errorf("proto3 declared messages do not support extensions: cerc.registry.v1.Signature"))
}
panic(fmt.Errorf("message cerc.registry.v1.Signature does not contain field %s", fd.FullName()))
}
}
// WhichOneof reports which field within the oneof is populated,
// returning nil if none are populated.
// It panics if the oneof descriptor does not belong to this message.
func (x *fastReflection_Signature) WhichOneof(d protoreflect.OneofDescriptor) protoreflect.FieldDescriptor {
switch d.FullName() {
default:
panic(fmt.Errorf("%s is not a oneof field in cerc.registry.v1.Signature", d.FullName()))
}
panic("unreachable")
}
// GetUnknown retrieves the entire list of unknown fields.
// The caller may only mutate the contents of the RawFields
// if the mutated bytes are stored back into the message with SetUnknown.
func (x *fastReflection_Signature) GetUnknown() protoreflect.RawFields {
return x.unknownFields
}
// SetUnknown stores an entire list of unknown fields.
// The raw fields must be syntactically valid according to the wire format.
// An implementation may panic if this is not the case.
// Once stored, the caller must not mutate the content of the RawFields.
// An empty RawFields may be passed to clear the fields.
//
// SetUnknown is a mutating operation and unsafe for concurrent use.
func (x *fastReflection_Signature) SetUnknown(fields protoreflect.RawFields) {
x.unknownFields = fields
}
// IsValid reports whether the message is valid.
//
// An invalid message is an empty, read-only value.
//
// An invalid message often corresponds to a nil pointer of the concrete
// message type, but the details are implementation dependent.
// Validity is not part of the protobuf data model, and may not
// be preserved in marshaling or other operations.
func (x *fastReflection_Signature) IsValid() bool {
return x != nil
}
// ProtoMethods returns optional fastReflectionFeature-path implementations of various operations.
// This method may return nil.
//
// The returned methods type is identical to
// "google.golang.org/protobuf/runtime/protoiface".Methods.
// Consult the protoiface package documentation for details.
func (x *fastReflection_Signature) ProtoMethods() *protoiface.Methods {
size := func(input protoiface.SizeInput) protoiface.SizeOutput {
x := input.Message.Interface().(*Signature)
if x == nil {
return protoiface.SizeOutput{
NoUnkeyedLiterals: input.NoUnkeyedLiterals,
Size: 0,
}
}
options := runtime.SizeInputToOptions(input)
_ = options
var n int
var l int
_ = l
l = len(x.Sig)
if l > 0 {
n += 1 + l + runtime.Sov(uint64(l))
}
l = len(x.PubKey)
if l > 0 {
n += 1 + l + runtime.Sov(uint64(l))
}
if x.unknownFields != nil {
n += len(x.unknownFields)
}
return protoiface.SizeOutput{
NoUnkeyedLiterals: input.NoUnkeyedLiterals,
Size: n,
}
}
marshal := func(input protoiface.MarshalInput) (protoiface.MarshalOutput, error) {
x := input.Message.Interface().(*Signature)
if x == nil {
return protoiface.MarshalOutput{
NoUnkeyedLiterals: input.NoUnkeyedLiterals,
Buf: input.Buf,
}, nil
}
options := runtime.MarshalInputToOptions(input)
_ = options
size := options.Size(x)
dAtA := make([]byte, size)
i := len(dAtA)
_ = i
var l int
_ = l
if x.unknownFields != nil {
i -= len(x.unknownFields)
copy(dAtA[i:], x.unknownFields)
}
if len(x.PubKey) > 0 {
i -= len(x.PubKey)
copy(dAtA[i:], x.PubKey)
i = runtime.EncodeVarint(dAtA, i, uint64(len(x.PubKey)))
i--
dAtA[i] = 0x12
}
if len(x.Sig) > 0 {
i -= len(x.Sig)
copy(dAtA[i:], x.Sig)
i = runtime.EncodeVarint(dAtA, i, uint64(len(x.Sig)))
i--
dAtA[i] = 0xa
}
if input.Buf != nil {
input.Buf = append(input.Buf, dAtA...)
} else {
input.Buf = dAtA
}
return protoiface.MarshalOutput{
NoUnkeyedLiterals: input.NoUnkeyedLiterals,
Buf: input.Buf,
}, nil
}
unmarshal := func(input protoiface.UnmarshalInput) (protoiface.UnmarshalOutput, error) {
x := input.Message.Interface().(*Signature)
if x == nil {
return protoiface.UnmarshalOutput{
NoUnkeyedLiterals: input.NoUnkeyedLiterals,
Flags: input.Flags,
}, nil
}
options := runtime.UnmarshalInputToOptions(input)
_ = options
dAtA := input.Buf
l := len(dAtA)
iNdEx := 0
for iNdEx < l {
preIndex := iNdEx
var wire uint64
for shift := uint(0); ; shift += 7 {
if shift >= 64 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrIntOverflow
}
if iNdEx >= l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
b := dAtA[iNdEx]
iNdEx++
wire |= uint64(b&0x7F) << shift
if b < 0x80 {
break
}
}
fieldNum := int32(wire >> 3)
wireType := int(wire & 0x7)
if wireType == 4 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, fmt.Errorf("proto: Signature: wiretype end group for non-group")
}
if fieldNum <= 0 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, fmt.Errorf("proto: Signature: illegal tag %d (wire type %d)", fieldNum, wire)
}
switch fieldNum {
case 1:
if wireType != 2 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, fmt.Errorf("proto: wrong wireType = %d for field Sig", wireType)
}
var stringLen uint64
for shift := uint(0); ; shift += 7 {
if shift >= 64 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrIntOverflow
}
if iNdEx >= l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
b := dAtA[iNdEx]
iNdEx++
stringLen |= uint64(b&0x7F) << shift
if b < 0x80 {
break
}
}
intStringLen := int(stringLen)
if intStringLen < 0 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength
}
postIndex := iNdEx + intStringLen
if postIndex < 0 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength
}
if postIndex > l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
x.Sig = string(dAtA[iNdEx:postIndex])
iNdEx = postIndex
case 2:
if wireType != 2 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, fmt.Errorf("proto: wrong wireType = %d for field PubKey", wireType)
}
var stringLen uint64
for shift := uint(0); ; shift += 7 {
if shift >= 64 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrIntOverflow
}
if iNdEx >= l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
b := dAtA[iNdEx]
iNdEx++
stringLen |= uint64(b&0x7F) << shift
if b < 0x80 {
break
}
}
intStringLen := int(stringLen)
if intStringLen < 0 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength
}
postIndex := iNdEx + intStringLen
if postIndex < 0 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength
}
if postIndex > l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
x.PubKey = string(dAtA[iNdEx:postIndex])
iNdEx = postIndex
default:
iNdEx = preIndex
skippy, err := runtime.Skip(dAtA[iNdEx:])
if err != nil {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, err
}
if (skippy < 0) || (iNdEx+skippy) < 0 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength
}
if (iNdEx + skippy) > l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
if !options.DiscardUnknown {
x.unknownFields = append(x.unknownFields, dAtA[iNdEx:iNdEx+skippy]...)
}
iNdEx += skippy
}
}
if iNdEx > l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, nil
}
return &protoiface.Methods{
NoUnkeyedLiterals: struct{}{},
Flags: protoiface.SupportMarshalDeterministic | protoiface.SupportUnmarshalDiscardUnknown,
Size: size,
Marshal: marshal,
Unmarshal: unmarshal,
Merge: nil,
CheckInitialized: nil,
}
}
var _ protoreflect.List = (*_ExpiryQueue_2_list)(nil)
type _ExpiryQueue_2_list struct {
list *[]string
}
func (x *_ExpiryQueue_2_list) Len() int {
if x.list == nil {
return 0
}
return len(*x.list)
}
func (x *_ExpiryQueue_2_list) Get(i int) protoreflect.Value {
return protoreflect.ValueOfString((*x.list)[i])
}
func (x *_ExpiryQueue_2_list) Set(i int, value protoreflect.Value) {
valueUnwrapped := value.String()
concreteValue := valueUnwrapped
(*x.list)[i] = concreteValue
}
func (x *_ExpiryQueue_2_list) Append(value protoreflect.Value) {
valueUnwrapped := value.String()
concreteValue := valueUnwrapped
*x.list = append(*x.list, concreteValue)
}
func (x *_ExpiryQueue_2_list) AppendMutable() protoreflect.Value {
panic(fmt.Errorf("AppendMutable can not be called on message ExpiryQueue at list field Value as it is not of Message kind"))
}
func (x *_ExpiryQueue_2_list) Truncate(n int) {
*x.list = (*x.list)[:n]
}
func (x *_ExpiryQueue_2_list) NewElement() protoreflect.Value {
v := ""
return protoreflect.ValueOfString(v)
}
func (x *_ExpiryQueue_2_list) IsValid() bool {
return x.list != nil
}
var (
md_ExpiryQueue protoreflect.MessageDescriptor
fd_ExpiryQueue_id protoreflect.FieldDescriptor
fd_ExpiryQueue_value protoreflect.FieldDescriptor
)
func init() {
file_cerc_registry_v1_registry_proto_init()
md_ExpiryQueue = File_cerc_registry_v1_registry_proto.Messages().ByName("ExpiryQueue")
fd_ExpiryQueue_id = md_ExpiryQueue.Fields().ByName("id")
fd_ExpiryQueue_value = md_ExpiryQueue.Fields().ByName("value")
}
var _ protoreflect.Message = (*fastReflection_ExpiryQueue)(nil)
type fastReflection_ExpiryQueue ExpiryQueue
func (x *ExpiryQueue) ProtoReflect() protoreflect.Message {
return (*fastReflection_ExpiryQueue)(x)
}
func (x *ExpiryQueue) slowProtoReflect() protoreflect.Message {
mi := &file_cerc_registry_v1_registry_proto_msgTypes[8]
if protoimpl.UnsafeEnabled && x != nil {
ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x))
if ms.LoadMessageInfo() == nil {
ms.StoreMessageInfo(mi)
}
return ms
}
return mi.MessageOf(x)
}
var _fastReflection_ExpiryQueue_messageType fastReflection_ExpiryQueue_messageType
var _ protoreflect.MessageType = fastReflection_ExpiryQueue_messageType{}
type fastReflection_ExpiryQueue_messageType struct{}
func (x fastReflection_ExpiryQueue_messageType) Zero() protoreflect.Message {
return (*fastReflection_ExpiryQueue)(nil)
}
func (x fastReflection_ExpiryQueue_messageType) New() protoreflect.Message {
return new(fastReflection_ExpiryQueue)
}
func (x fastReflection_ExpiryQueue_messageType) Descriptor() protoreflect.MessageDescriptor {
return md_ExpiryQueue
}
// Descriptor returns message descriptor, which contains only the protobuf
// type information for the message.
func (x *fastReflection_ExpiryQueue) Descriptor() protoreflect.MessageDescriptor {
return md_ExpiryQueue
}
// Type returns the message type, which encapsulates both Go and protobuf
// type information. If the Go type information is not needed,
// it is recommended that the message descriptor be used instead.
func (x *fastReflection_ExpiryQueue) Type() protoreflect.MessageType {
return _fastReflection_ExpiryQueue_messageType
}
// New returns a newly allocated and mutable empty message.
func (x *fastReflection_ExpiryQueue) New() protoreflect.Message {
return new(fastReflection_ExpiryQueue)
}
// Interface unwraps the message reflection interface and
// returns the underlying ProtoMessage interface.
func (x *fastReflection_ExpiryQueue) Interface() protoreflect.ProtoMessage {
return (*ExpiryQueue)(x)
}
// Range iterates over every populated field in an undefined order,
// calling f for each field descriptor and value encountered.
// Range returns immediately if f returns false.
// While iterating, mutating operations may only be performed
// on the current field descriptor.
func (x *fastReflection_ExpiryQueue) Range(f func(protoreflect.FieldDescriptor, protoreflect.Value) bool) {
if x.Id != "" {
value := protoreflect.ValueOfString(x.Id)
if !f(fd_ExpiryQueue_id, value) {
return
}
}
if len(x.Value) != 0 {
value := protoreflect.ValueOfList(&_ExpiryQueue_2_list{list: &x.Value})
if !f(fd_ExpiryQueue_value, value) {
return
}
}
}
// Has reports whether a field is populated.
//
// Some fields have the property of nullability where it is possible to
// distinguish between the default value of a field and whether the field
// was explicitly populated with the default value. Singular message fields,
// member fields of a oneof, and proto2 scalar fields are nullable. Such
// fields are populated only if explicitly set.
//
// In other cases (aside from the nullable cases above),
// a proto3 scalar field is populated if it contains a non-zero value, and
// a repeated field is populated if it is non-empty.
func (x *fastReflection_ExpiryQueue) Has(fd protoreflect.FieldDescriptor) bool {
switch fd.FullName() {
case "cerc.registry.v1.ExpiryQueue.id":
return x.Id != ""
case "cerc.registry.v1.ExpiryQueue.value":
return len(x.Value) != 0
default:
if fd.IsExtension() {
panic(fmt.Errorf("proto3 declared messages do not support extensions: cerc.registry.v1.ExpiryQueue"))
}
panic(fmt.Errorf("message cerc.registry.v1.ExpiryQueue does not contain field %s", fd.FullName()))
}
}
// Clear clears the field such that a subsequent Has call reports false.
//
// Clearing an extension field clears both the extension type and value
// associated with the given field number.
//
// Clear is a mutating operation and unsafe for concurrent use.
func (x *fastReflection_ExpiryQueue) Clear(fd protoreflect.FieldDescriptor) {
switch fd.FullName() {
case "cerc.registry.v1.ExpiryQueue.id":
x.Id = ""
case "cerc.registry.v1.ExpiryQueue.value":
x.Value = nil
default:
if fd.IsExtension() {
panic(fmt.Errorf("proto3 declared messages do not support extensions: cerc.registry.v1.ExpiryQueue"))
}
panic(fmt.Errorf("message cerc.registry.v1.ExpiryQueue does not contain field %s", fd.FullName()))
}
}
// Get retrieves the value for a field.
//
// For unpopulated scalars, it returns the default value, where
// the default value of a bytes scalar is guaranteed to be a copy.
// For unpopulated composite types, it returns an empty, read-only view
// of the value; to obtain a mutable reference, use Mutable.
func (x *fastReflection_ExpiryQueue) Get(descriptor protoreflect.FieldDescriptor) protoreflect.Value {
switch descriptor.FullName() {
case "cerc.registry.v1.ExpiryQueue.id":
value := x.Id
return protoreflect.ValueOfString(value)
case "cerc.registry.v1.ExpiryQueue.value":
if len(x.Value) == 0 {
return protoreflect.ValueOfList(&_ExpiryQueue_2_list{})
}
listValue := &_ExpiryQueue_2_list{list: &x.Value}
return protoreflect.ValueOfList(listValue)
default:
if descriptor.IsExtension() {
panic(fmt.Errorf("proto3 declared messages do not support extensions: cerc.registry.v1.ExpiryQueue"))
}
panic(fmt.Errorf("message cerc.registry.v1.ExpiryQueue does not contain field %s", descriptor.FullName()))
}
}
// Set stores the value for a field.
//
// For a field belonging to a oneof, it implicitly clears any other field
// that may be currently set within the same oneof.
// For extension fields, it implicitly stores the provided ExtensionType.
// When setting a composite type, it is unspecified whether the stored value
// aliases the source's memory in any way. If the composite value is an
// empty, read-only value, then it panics.
//
// Set is a mutating operation and unsafe for concurrent use.
func (x *fastReflection_ExpiryQueue) Set(fd protoreflect.FieldDescriptor, value protoreflect.Value) {
switch fd.FullName() {
case "cerc.registry.v1.ExpiryQueue.id":
x.Id = value.Interface().(string)
case "cerc.registry.v1.ExpiryQueue.value":
lv := value.List()
clv := lv.(*_ExpiryQueue_2_list)
x.Value = *clv.list
default:
if fd.IsExtension() {
panic(fmt.Errorf("proto3 declared messages do not support extensions: cerc.registry.v1.ExpiryQueue"))
}
panic(fmt.Errorf("message cerc.registry.v1.ExpiryQueue does not contain field %s", fd.FullName()))
}
}
// Mutable returns a mutable reference to a composite type.
//
// If the field is unpopulated, it may allocate a composite value.
// For a field belonging to a oneof, it implicitly clears any other field
// that may be currently set within the same oneof.
// For extension fields, it implicitly stores the provided ExtensionType
// if not already stored.
// It panics if the field does not contain a composite type.
//
// Mutable is a mutating operation and unsafe for concurrent use.
func (x *fastReflection_ExpiryQueue) Mutable(fd protoreflect.FieldDescriptor) protoreflect.Value {
switch fd.FullName() {
case "cerc.registry.v1.ExpiryQueue.value":
if x.Value == nil {
x.Value = []string{}
}
value := &_ExpiryQueue_2_list{list: &x.Value}
return protoreflect.ValueOfList(value)
case "cerc.registry.v1.ExpiryQueue.id":
panic(fmt.Errorf("field id of message cerc.registry.v1.ExpiryQueue is not mutable"))
default:
if fd.IsExtension() {
panic(fmt.Errorf("proto3 declared messages do not support extensions: cerc.registry.v1.ExpiryQueue"))
}
panic(fmt.Errorf("message cerc.registry.v1.ExpiryQueue does not contain field %s", fd.FullName()))
}
}
// NewField returns a new value that is assignable to the field
// for the given descriptor. For scalars, this returns the default value.
// For lists, maps, and messages, this returns a new, empty, mutable value.
func (x *fastReflection_ExpiryQueue) NewField(fd protoreflect.FieldDescriptor) protoreflect.Value {
switch fd.FullName() {
case "cerc.registry.v1.ExpiryQueue.id":
return protoreflect.ValueOfString("")
case "cerc.registry.v1.ExpiryQueue.value":
list := []string{}
return protoreflect.ValueOfList(&_ExpiryQueue_2_list{list: &list})
default:
if fd.IsExtension() {
panic(fmt.Errorf("proto3 declared messages do not support extensions: cerc.registry.v1.ExpiryQueue"))
}
panic(fmt.Errorf("message cerc.registry.v1.ExpiryQueue does not contain field %s", fd.FullName()))
}
}
// WhichOneof reports which field within the oneof is populated,
// returning nil if none are populated.
// It panics if the oneof descriptor does not belong to this message.
func (x *fastReflection_ExpiryQueue) WhichOneof(d protoreflect.OneofDescriptor) protoreflect.FieldDescriptor {
switch d.FullName() {
default:
panic(fmt.Errorf("%s is not a oneof field in cerc.registry.v1.ExpiryQueue", d.FullName()))
}
panic("unreachable")
}
// GetUnknown retrieves the entire list of unknown fields.
// The caller may only mutate the contents of the RawFields
// if the mutated bytes are stored back into the message with SetUnknown.
func (x *fastReflection_ExpiryQueue) GetUnknown() protoreflect.RawFields {
return x.unknownFields
}
// SetUnknown stores an entire list of unknown fields.
// The raw fields must be syntactically valid according to the wire format.
// An implementation may panic if this is not the case.
// Once stored, the caller must not mutate the content of the RawFields.
// An empty RawFields may be passed to clear the fields.
//
// SetUnknown is a mutating operation and unsafe for concurrent use.
func (x *fastReflection_ExpiryQueue) SetUnknown(fields protoreflect.RawFields) {
x.unknownFields = fields
}
// IsValid reports whether the message is valid.
//
// An invalid message is an empty, read-only value.
//
// An invalid message often corresponds to a nil pointer of the concrete
// message type, but the details are implementation dependent.
// Validity is not part of the protobuf data model, and may not
// be preserved in marshaling or other operations.
func (x *fastReflection_ExpiryQueue) IsValid() bool {
return x != nil
}
// ProtoMethods returns optional fastReflectionFeature-path implementations of various operations.
// This method may return nil.
//
// The returned methods type is identical to
// "google.golang.org/protobuf/runtime/protoiface".Methods.
// Consult the protoiface package documentation for details.
func (x *fastReflection_ExpiryQueue) ProtoMethods() *protoiface.Methods {
size := func(input protoiface.SizeInput) protoiface.SizeOutput {
x := input.Message.Interface().(*ExpiryQueue)
if x == nil {
return protoiface.SizeOutput{
NoUnkeyedLiterals: input.NoUnkeyedLiterals,
Size: 0,
}
}
options := runtime.SizeInputToOptions(input)
_ = options
var n int
var l int
_ = l
l = len(x.Id)
if l > 0 {
n += 1 + l + runtime.Sov(uint64(l))
}
if len(x.Value) > 0 {
for _, s := range x.Value {
l = len(s)
n += 1 + l + runtime.Sov(uint64(l))
}
}
if x.unknownFields != nil {
n += len(x.unknownFields)
}
return protoiface.SizeOutput{
NoUnkeyedLiterals: input.NoUnkeyedLiterals,
Size: n,
}
}
marshal := func(input protoiface.MarshalInput) (protoiface.MarshalOutput, error) {
x := input.Message.Interface().(*ExpiryQueue)
if x == nil {
return protoiface.MarshalOutput{
NoUnkeyedLiterals: input.NoUnkeyedLiterals,
Buf: input.Buf,
}, nil
}
options := runtime.MarshalInputToOptions(input)
_ = options
size := options.Size(x)
dAtA := make([]byte, size)
i := len(dAtA)
_ = i
var l int
_ = l
if x.unknownFields != nil {
i -= len(x.unknownFields)
copy(dAtA[i:], x.unknownFields)
}
if len(x.Value) > 0 {
for iNdEx := len(x.Value) - 1; iNdEx >= 0; iNdEx-- {
i -= len(x.Value[iNdEx])
copy(dAtA[i:], x.Value[iNdEx])
i = runtime.EncodeVarint(dAtA, i, uint64(len(x.Value[iNdEx])))
i--
dAtA[i] = 0x12
}
}
if len(x.Id) > 0 {
i -= len(x.Id)
copy(dAtA[i:], x.Id)
i = runtime.EncodeVarint(dAtA, i, uint64(len(x.Id)))
i--
dAtA[i] = 0xa
}
if input.Buf != nil {
input.Buf = append(input.Buf, dAtA...)
} else {
input.Buf = dAtA
}
return protoiface.MarshalOutput{
NoUnkeyedLiterals: input.NoUnkeyedLiterals,
Buf: input.Buf,
}, nil
}
unmarshal := func(input protoiface.UnmarshalInput) (protoiface.UnmarshalOutput, error) {
x := input.Message.Interface().(*ExpiryQueue)
if x == nil {
return protoiface.UnmarshalOutput{
NoUnkeyedLiterals: input.NoUnkeyedLiterals,
Flags: input.Flags,
}, nil
}
options := runtime.UnmarshalInputToOptions(input)
_ = options
dAtA := input.Buf
l := len(dAtA)
iNdEx := 0
for iNdEx < l {
preIndex := iNdEx
var wire uint64
for shift := uint(0); ; shift += 7 {
if shift >= 64 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrIntOverflow
}
if iNdEx >= l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
b := dAtA[iNdEx]
iNdEx++
wire |= uint64(b&0x7F) << shift
if b < 0x80 {
break
}
}
fieldNum := int32(wire >> 3)
wireType := int(wire & 0x7)
if wireType == 4 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, fmt.Errorf("proto: ExpiryQueue: wiretype end group for non-group")
}
if fieldNum <= 0 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, fmt.Errorf("proto: ExpiryQueue: illegal tag %d (wire type %d)", fieldNum, wire)
}
switch fieldNum {
case 1:
if wireType != 2 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, fmt.Errorf("proto: wrong wireType = %d for field Id", wireType)
}
var stringLen uint64
for shift := uint(0); ; shift += 7 {
if shift >= 64 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrIntOverflow
}
if iNdEx >= l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
b := dAtA[iNdEx]
iNdEx++
stringLen |= uint64(b&0x7F) << shift
if b < 0x80 {
break
}
}
intStringLen := int(stringLen)
if intStringLen < 0 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength
}
postIndex := iNdEx + intStringLen
if postIndex < 0 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength
}
if postIndex > l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
x.Id = string(dAtA[iNdEx:postIndex])
iNdEx = postIndex
case 2:
if wireType != 2 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, fmt.Errorf("proto: wrong wireType = %d for field Value", wireType)
}
var stringLen uint64
for shift := uint(0); ; shift += 7 {
if shift >= 64 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrIntOverflow
}
if iNdEx >= l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
b := dAtA[iNdEx]
iNdEx++
stringLen |= uint64(b&0x7F) << shift
if b < 0x80 {
break
}
}
intStringLen := int(stringLen)
if intStringLen < 0 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength
}
postIndex := iNdEx + intStringLen
if postIndex < 0 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength
}
if postIndex > l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
x.Value = append(x.Value, string(dAtA[iNdEx:postIndex]))
iNdEx = postIndex
default:
iNdEx = preIndex
skippy, err := runtime.Skip(dAtA[iNdEx:])
if err != nil {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, err
}
if (skippy < 0) || (iNdEx+skippy) < 0 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength
}
if (iNdEx + skippy) > l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
if !options.DiscardUnknown {
x.unknownFields = append(x.unknownFields, dAtA[iNdEx:iNdEx+skippy]...)
}
iNdEx += skippy
}
}
if iNdEx > l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, nil
}
return &protoiface.Methods{
NoUnkeyedLiterals: struct{}{},
Flags: protoiface.SupportMarshalDeterministic | protoiface.SupportUnmarshalDiscardUnknown,
Size: size,
Marshal: marshal,
Unmarshal: unmarshal,
Merge: nil,
CheckInitialized: nil,
}
}
var _ protoreflect.List = (*_RecordsList_1_list)(nil)
type _RecordsList_1_list struct {
list *[]string
}
func (x *_RecordsList_1_list) Len() int {
if x.list == nil {
return 0
}
return len(*x.list)
}
func (x *_RecordsList_1_list) Get(i int) protoreflect.Value {
return protoreflect.ValueOfString((*x.list)[i])
}
func (x *_RecordsList_1_list) Set(i int, value protoreflect.Value) {
valueUnwrapped := value.String()
concreteValue := valueUnwrapped
(*x.list)[i] = concreteValue
}
func (x *_RecordsList_1_list) Append(value protoreflect.Value) {
valueUnwrapped := value.String()
concreteValue := valueUnwrapped
*x.list = append(*x.list, concreteValue)
}
func (x *_RecordsList_1_list) AppendMutable() protoreflect.Value {
panic(fmt.Errorf("AppendMutable can not be called on message RecordsList at list field Value as it is not of Message kind"))
}
func (x *_RecordsList_1_list) Truncate(n int) {
*x.list = (*x.list)[:n]
}
func (x *_RecordsList_1_list) NewElement() protoreflect.Value {
v := ""
return protoreflect.ValueOfString(v)
}
func (x *_RecordsList_1_list) IsValid() bool {
return x.list != nil
}
var (
md_RecordsList protoreflect.MessageDescriptor
fd_RecordsList_value protoreflect.FieldDescriptor
)
func init() {
file_cerc_registry_v1_registry_proto_init()
md_RecordsList = File_cerc_registry_v1_registry_proto.Messages().ByName("RecordsList")
fd_RecordsList_value = md_RecordsList.Fields().ByName("value")
}
var _ protoreflect.Message = (*fastReflection_RecordsList)(nil)
type fastReflection_RecordsList RecordsList
func (x *RecordsList) ProtoReflect() protoreflect.Message {
return (*fastReflection_RecordsList)(x)
}
func (x *RecordsList) slowProtoReflect() protoreflect.Message {
mi := &file_cerc_registry_v1_registry_proto_msgTypes[9]
if protoimpl.UnsafeEnabled && x != nil {
ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x))
if ms.LoadMessageInfo() == nil {
ms.StoreMessageInfo(mi)
}
return ms
}
return mi.MessageOf(x)
}
var _fastReflection_RecordsList_messageType fastReflection_RecordsList_messageType
var _ protoreflect.MessageType = fastReflection_RecordsList_messageType{}
type fastReflection_RecordsList_messageType struct{}
func (x fastReflection_RecordsList_messageType) Zero() protoreflect.Message {
return (*fastReflection_RecordsList)(nil)
}
func (x fastReflection_RecordsList_messageType) New() protoreflect.Message {
return new(fastReflection_RecordsList)
}
func (x fastReflection_RecordsList_messageType) Descriptor() protoreflect.MessageDescriptor {
return md_RecordsList
}
// Descriptor returns message descriptor, which contains only the protobuf
// type information for the message.
func (x *fastReflection_RecordsList) Descriptor() protoreflect.MessageDescriptor {
return md_RecordsList
}
// Type returns the message type, which encapsulates both Go and protobuf
// type information. If the Go type information is not needed,
// it is recommended that the message descriptor be used instead.
func (x *fastReflection_RecordsList) Type() protoreflect.MessageType {
return _fastReflection_RecordsList_messageType
}
// New returns a newly allocated and mutable empty message.
func (x *fastReflection_RecordsList) New() protoreflect.Message {
return new(fastReflection_RecordsList)
}
// Interface unwraps the message reflection interface and
// returns the underlying ProtoMessage interface.
func (x *fastReflection_RecordsList) Interface() protoreflect.ProtoMessage {
return (*RecordsList)(x)
}
// Range iterates over every populated field in an undefined order,
// calling f for each field descriptor and value encountered.
// Range returns immediately if f returns false.
// While iterating, mutating operations may only be performed
// on the current field descriptor.
func (x *fastReflection_RecordsList) Range(f func(protoreflect.FieldDescriptor, protoreflect.Value) bool) {
if len(x.Value) != 0 {
value := protoreflect.ValueOfList(&_RecordsList_1_list{list: &x.Value})
if !f(fd_RecordsList_value, value) {
return
}
}
}
// Has reports whether a field is populated.
//
// Some fields have the property of nullability where it is possible to
// distinguish between the default value of a field and whether the field
// was explicitly populated with the default value. Singular message fields,
// member fields of a oneof, and proto2 scalar fields are nullable. Such
// fields are populated only if explicitly set.
//
// In other cases (aside from the nullable cases above),
// a proto3 scalar field is populated if it contains a non-zero value, and
// a repeated field is populated if it is non-empty.
func (x *fastReflection_RecordsList) Has(fd protoreflect.FieldDescriptor) bool {
switch fd.FullName() {
case "cerc.registry.v1.RecordsList.value":
return len(x.Value) != 0
default:
if fd.IsExtension() {
panic(fmt.Errorf("proto3 declared messages do not support extensions: cerc.registry.v1.RecordsList"))
}
panic(fmt.Errorf("message cerc.registry.v1.RecordsList does not contain field %s", fd.FullName()))
}
}
// Clear clears the field such that a subsequent Has call reports false.
//
// Clearing an extension field clears both the extension type and value
// associated with the given field number.
//
// Clear is a mutating operation and unsafe for concurrent use.
func (x *fastReflection_RecordsList) Clear(fd protoreflect.FieldDescriptor) {
switch fd.FullName() {
case "cerc.registry.v1.RecordsList.value":
x.Value = nil
default:
if fd.IsExtension() {
panic(fmt.Errorf("proto3 declared messages do not support extensions: cerc.registry.v1.RecordsList"))
}
panic(fmt.Errorf("message cerc.registry.v1.RecordsList does not contain field %s", fd.FullName()))
}
}
// Get retrieves the value for a field.
//
// For unpopulated scalars, it returns the default value, where
// the default value of a bytes scalar is guaranteed to be a copy.
// For unpopulated composite types, it returns an empty, read-only view
// of the value; to obtain a mutable reference, use Mutable.
func (x *fastReflection_RecordsList) Get(descriptor protoreflect.FieldDescriptor) protoreflect.Value {
switch descriptor.FullName() {
case "cerc.registry.v1.RecordsList.value":
if len(x.Value) == 0 {
return protoreflect.ValueOfList(&_RecordsList_1_list{})
}
listValue := &_RecordsList_1_list{list: &x.Value}
return protoreflect.ValueOfList(listValue)
default:
if descriptor.IsExtension() {
panic(fmt.Errorf("proto3 declared messages do not support extensions: cerc.registry.v1.RecordsList"))
}
panic(fmt.Errorf("message cerc.registry.v1.RecordsList does not contain field %s", descriptor.FullName()))
}
}
// Set stores the value for a field.
//
// For a field belonging to a oneof, it implicitly clears any other field
// that may be currently set within the same oneof.
// For extension fields, it implicitly stores the provided ExtensionType.
// When setting a composite type, it is unspecified whether the stored value
// aliases the source's memory in any way. If the composite value is an
// empty, read-only value, then it panics.
//
// Set is a mutating operation and unsafe for concurrent use.
func (x *fastReflection_RecordsList) Set(fd protoreflect.FieldDescriptor, value protoreflect.Value) {
switch fd.FullName() {
case "cerc.registry.v1.RecordsList.value":
lv := value.List()
clv := lv.(*_RecordsList_1_list)
x.Value = *clv.list
default:
if fd.IsExtension() {
panic(fmt.Errorf("proto3 declared messages do not support extensions: cerc.registry.v1.RecordsList"))
}
panic(fmt.Errorf("message cerc.registry.v1.RecordsList does not contain field %s", fd.FullName()))
}
}
// Mutable returns a mutable reference to a composite type.
//
// If the field is unpopulated, it may allocate a composite value.
// For a field belonging to a oneof, it implicitly clears any other field
// that may be currently set within the same oneof.
// For extension fields, it implicitly stores the provided ExtensionType
// if not already stored.
// It panics if the field does not contain a composite type.
//
// Mutable is a mutating operation and unsafe for concurrent use.
func (x *fastReflection_RecordsList) Mutable(fd protoreflect.FieldDescriptor) protoreflect.Value {
switch fd.FullName() {
case "cerc.registry.v1.RecordsList.value":
if x.Value == nil {
x.Value = []string{}
}
value := &_RecordsList_1_list{list: &x.Value}
return protoreflect.ValueOfList(value)
default:
if fd.IsExtension() {
panic(fmt.Errorf("proto3 declared messages do not support extensions: cerc.registry.v1.RecordsList"))
}
panic(fmt.Errorf("message cerc.registry.v1.RecordsList does not contain field %s", fd.FullName()))
}
}
// NewField returns a new value that is assignable to the field
// for the given descriptor. For scalars, this returns the default value.
// For lists, maps, and messages, this returns a new, empty, mutable value.
func (x *fastReflection_RecordsList) NewField(fd protoreflect.FieldDescriptor) protoreflect.Value {
switch fd.FullName() {
case "cerc.registry.v1.RecordsList.value":
list := []string{}
return protoreflect.ValueOfList(&_RecordsList_1_list{list: &list})
default:
if fd.IsExtension() {
panic(fmt.Errorf("proto3 declared messages do not support extensions: cerc.registry.v1.RecordsList"))
}
panic(fmt.Errorf("message cerc.registry.v1.RecordsList does not contain field %s", fd.FullName()))
}
}
// WhichOneof reports which field within the oneof is populated,
// returning nil if none are populated.
// It panics if the oneof descriptor does not belong to this message.
func (x *fastReflection_RecordsList) WhichOneof(d protoreflect.OneofDescriptor) protoreflect.FieldDescriptor {
switch d.FullName() {
default:
panic(fmt.Errorf("%s is not a oneof field in cerc.registry.v1.RecordsList", d.FullName()))
}
panic("unreachable")
}
// GetUnknown retrieves the entire list of unknown fields.
// The caller may only mutate the contents of the RawFields
// if the mutated bytes are stored back into the message with SetUnknown.
func (x *fastReflection_RecordsList) GetUnknown() protoreflect.RawFields {
return x.unknownFields
}
// SetUnknown stores an entire list of unknown fields.
// The raw fields must be syntactically valid according to the wire format.
// An implementation may panic if this is not the case.
// Once stored, the caller must not mutate the content of the RawFields.
// An empty RawFields may be passed to clear the fields.
//
// SetUnknown is a mutating operation and unsafe for concurrent use.
func (x *fastReflection_RecordsList) SetUnknown(fields protoreflect.RawFields) {
x.unknownFields = fields
}
// IsValid reports whether the message is valid.
//
// An invalid message is an empty, read-only value.
//
// An invalid message often corresponds to a nil pointer of the concrete
// message type, but the details are implementation dependent.
// Validity is not part of the protobuf data model, and may not
// be preserved in marshaling or other operations.
func (x *fastReflection_RecordsList) IsValid() bool {
return x != nil
}
// ProtoMethods returns optional fastReflectionFeature-path implementations of various operations.
// This method may return nil.
//
// The returned methods type is identical to
// "google.golang.org/protobuf/runtime/protoiface".Methods.
// Consult the protoiface package documentation for details.
func (x *fastReflection_RecordsList) ProtoMethods() *protoiface.Methods {
size := func(input protoiface.SizeInput) protoiface.SizeOutput {
x := input.Message.Interface().(*RecordsList)
if x == nil {
return protoiface.SizeOutput{
NoUnkeyedLiterals: input.NoUnkeyedLiterals,
Size: 0,
}
}
options := runtime.SizeInputToOptions(input)
_ = options
var n int
var l int
_ = l
if len(x.Value) > 0 {
for _, s := range x.Value {
l = len(s)
n += 1 + l + runtime.Sov(uint64(l))
}
}
if x.unknownFields != nil {
n += len(x.unknownFields)
}
return protoiface.SizeOutput{
NoUnkeyedLiterals: input.NoUnkeyedLiterals,
Size: n,
}
}
marshal := func(input protoiface.MarshalInput) (protoiface.MarshalOutput, error) {
x := input.Message.Interface().(*RecordsList)
if x == nil {
return protoiface.MarshalOutput{
NoUnkeyedLiterals: input.NoUnkeyedLiterals,
Buf: input.Buf,
}, nil
}
options := runtime.MarshalInputToOptions(input)
_ = options
size := options.Size(x)
dAtA := make([]byte, size)
i := len(dAtA)
_ = i
var l int
_ = l
if x.unknownFields != nil {
i -= len(x.unknownFields)
copy(dAtA[i:], x.unknownFields)
}
if len(x.Value) > 0 {
for iNdEx := len(x.Value) - 1; iNdEx >= 0; iNdEx-- {
i -= len(x.Value[iNdEx])
copy(dAtA[i:], x.Value[iNdEx])
i = runtime.EncodeVarint(dAtA, i, uint64(len(x.Value[iNdEx])))
i--
dAtA[i] = 0xa
}
}
if input.Buf != nil {
input.Buf = append(input.Buf, dAtA...)
} else {
input.Buf = dAtA
}
return protoiface.MarshalOutput{
NoUnkeyedLiterals: input.NoUnkeyedLiterals,
Buf: input.Buf,
}, nil
}
unmarshal := func(input protoiface.UnmarshalInput) (protoiface.UnmarshalOutput, error) {
x := input.Message.Interface().(*RecordsList)
if x == nil {
return protoiface.UnmarshalOutput{
NoUnkeyedLiterals: input.NoUnkeyedLiterals,
Flags: input.Flags,
}, nil
}
options := runtime.UnmarshalInputToOptions(input)
_ = options
dAtA := input.Buf
l := len(dAtA)
iNdEx := 0
for iNdEx < l {
preIndex := iNdEx
var wire uint64
for shift := uint(0); ; shift += 7 {
if shift >= 64 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrIntOverflow
}
if iNdEx >= l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
b := dAtA[iNdEx]
iNdEx++
wire |= uint64(b&0x7F) << shift
if b < 0x80 {
break
}
}
fieldNum := int32(wire >> 3)
wireType := int(wire & 0x7)
if wireType == 4 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, fmt.Errorf("proto: RecordsList: wiretype end group for non-group")
}
if fieldNum <= 0 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, fmt.Errorf("proto: RecordsList: illegal tag %d (wire type %d)", fieldNum, wire)
}
switch fieldNum {
case 1:
if wireType != 2 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, fmt.Errorf("proto: wrong wireType = %d for field Value", wireType)
}
var stringLen uint64
for shift := uint(0); ; shift += 7 {
if shift >= 64 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrIntOverflow
}
if iNdEx >= l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
b := dAtA[iNdEx]
iNdEx++
stringLen |= uint64(b&0x7F) << shift
if b < 0x80 {
break
}
}
intStringLen := int(stringLen)
if intStringLen < 0 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength
}
postIndex := iNdEx + intStringLen
if postIndex < 0 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength
}
if postIndex > l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
x.Value = append(x.Value, string(dAtA[iNdEx:postIndex]))
iNdEx = postIndex
default:
iNdEx = preIndex
skippy, err := runtime.Skip(dAtA[iNdEx:])
if err != nil {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, err
}
if (skippy < 0) || (iNdEx+skippy) < 0 {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength
}
if (iNdEx + skippy) > l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
if !options.DiscardUnknown {
x.unknownFields = append(x.unknownFields, dAtA[iNdEx:iNdEx+skippy]...)
}
iNdEx += skippy
}
}
if iNdEx > l {
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF
}
return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, nil
}
return &protoiface.Methods{
NoUnkeyedLiterals: struct{}{},
Flags: protoiface.SupportMarshalDeterministic | protoiface.SupportUnmarshalDiscardUnknown,
Size: size,
Marshal: marshal,
Unmarshal: unmarshal,
Merge: nil,
CheckInitialized: nil,
}
}
// Code generated by protoc-gen-go. DO NOT EDIT.
// versions:
// protoc-gen-go v1.27.0
// protoc (unknown)
// source: cerc/registry/v1/registry.proto
const (
// Verify that this generated code is sufficiently up-to-date.
_ = protoimpl.EnforceVersion(20 - protoimpl.MinVersion)
// Verify that runtime/protoimpl is sufficiently up-to-date.
_ = protoimpl.EnforceVersion(protoimpl.MaxVersion - 20)
)
// Params defines the registry module parameters
type Params struct {
state protoimpl.MessageState
sizeCache protoimpl.SizeCache
unknownFields protoimpl.UnknownFields
RecordRent *v1beta1.Coin `protobuf:"bytes,1,opt,name=record_rent,json=recordRent,proto3" json:"record_rent,omitempty"`
RecordRentDuration *durationpb.Duration `protobuf:"bytes,2,opt,name=record_rent_duration,json=recordRentDuration,proto3" json:"record_rent_duration,omitempty"`
AuthorityRent *v1beta1.Coin `protobuf:"bytes,3,opt,name=authority_rent,json=authorityRent,proto3" json:"authority_rent,omitempty"`
AuthorityRentDuration *durationpb.Duration `protobuf:"bytes,4,opt,name=authority_rent_duration,json=authorityRentDuration,proto3" json:"authority_rent_duration,omitempty"`
AuthorityGracePeriod *durationpb.Duration `protobuf:"bytes,5,opt,name=authority_grace_period,json=authorityGracePeriod,proto3" json:"authority_grace_period,omitempty"`
AuthorityAuctionEnabled bool `protobuf:"varint,6,opt,name=authority_auction_enabled,json=authorityAuctionEnabled,proto3" json:"authority_auction_enabled,omitempty"`
AuthorityAuctionCommitsDuration *durationpb.Duration `protobuf:"bytes,7,opt,name=authority_auction_commits_duration,json=authorityAuctionCommitsDuration,proto3" json:"authority_auction_commits_duration,omitempty"`
AuthorityAuctionRevealsDuration *durationpb.Duration `protobuf:"bytes,8,opt,name=authority_auction_reveals_duration,json=authorityAuctionRevealsDuration,proto3" json:"authority_auction_reveals_duration,omitempty"`
AuthorityAuctionCommitFee *v1beta1.Coin `protobuf:"bytes,9,opt,name=authority_auction_commit_fee,json=authorityAuctionCommitFee,proto3" json:"authority_auction_commit_fee,omitempty"`
AuthorityAuctionRevealFee *v1beta1.Coin `protobuf:"bytes,10,opt,name=authority_auction_reveal_fee,json=authorityAuctionRevealFee,proto3" json:"authority_auction_reveal_fee,omitempty"`
AuthorityAuctionMinimumBid *v1beta1.Coin `protobuf:"bytes,11,opt,name=authority_auction_minimum_bid,json=authorityAuctionMinimumBid,proto3" json:"authority_auction_minimum_bid,omitempty"`
}
func (x *Params) Reset() {
*x = Params{}
if protoimpl.UnsafeEnabled {
mi := &file_cerc_registry_v1_registry_proto_msgTypes[0]
ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x))
ms.StoreMessageInfo(mi)
}
}
func (x *Params) String() string {
return protoimpl.X.MessageStringOf(x)
}
func (*Params) ProtoMessage() {}
// Deprecated: Use Params.ProtoReflect.Descriptor instead.
func (*Params) Descriptor() ([]byte, []int) {
return file_cerc_registry_v1_registry_proto_rawDescGZIP(), []int{0}
}
func (x *Params) GetRecordRent() *v1beta1.Coin {
if x != nil {
return x.RecordRent
}
return nil
}
func (x *Params) GetRecordRentDuration() *durationpb.Duration {
if x != nil {
return x.RecordRentDuration
}
return nil
}
func (x *Params) GetAuthorityRent() *v1beta1.Coin {
if x != nil {
return x.AuthorityRent
}
return nil
}
func (x *Params) GetAuthorityRentDuration() *durationpb.Duration {
if x != nil {
return x.AuthorityRentDuration
}
return nil
}
func (x *Params) GetAuthorityGracePeriod() *durationpb.Duration {
if x != nil {
return x.AuthorityGracePeriod
}
return nil
}
func (x *Params) GetAuthorityAuctionEnabled() bool {
if x != nil {
return x.AuthorityAuctionEnabled
}
return false
}
func (x *Params) GetAuthorityAuctionCommitsDuration() *durationpb.Duration {
if x != nil {
return x.AuthorityAuctionCommitsDuration
}
return nil
}
func (x *Params) GetAuthorityAuctionRevealsDuration() *durationpb.Duration {
if x != nil {
return x.AuthorityAuctionRevealsDuration
}
return nil
}
func (x *Params) GetAuthorityAuctionCommitFee() *v1beta1.Coin {
if x != nil {
return x.AuthorityAuctionCommitFee
}
return nil
}
func (x *Params) GetAuthorityAuctionRevealFee() *v1beta1.Coin {
if x != nil {
return x.AuthorityAuctionRevealFee
}
return nil
}
func (x *Params) GetAuthorityAuctionMinimumBid() *v1beta1.Coin {
if x != nil {
return x.AuthorityAuctionMinimumBid
}
return nil
}
// Record defines a registry record
type Record struct {
state protoimpl.MessageState
sizeCache protoimpl.SizeCache
unknownFields protoimpl.UnknownFields
Id string `protobuf:"bytes,1,opt,name=id,proto3" json:"id,omitempty"`
BondId string `protobuf:"bytes,2,opt,name=bond_id,json=bondId,proto3" json:"bond_id,omitempty"`
CreateTime string `protobuf:"bytes,3,opt,name=create_time,json=createTime,proto3" json:"create_time,omitempty"`
ExpiryTime string `protobuf:"bytes,4,opt,name=expiry_time,json=expiryTime,proto3" json:"expiry_time,omitempty"`
Deleted bool `protobuf:"varint,5,opt,name=deleted,proto3" json:"deleted,omitempty"`
Owners []string `protobuf:"bytes,6,rep,name=owners,proto3" json:"owners,omitempty"`
Attributes []byte `protobuf:"bytes,7,opt,name=attributes,proto3" json:"attributes,omitempty"`
Names []string `protobuf:"bytes,8,rep,name=names,proto3" json:"names,omitempty"`
Type_ string `protobuf:"bytes,9,opt,name=type,proto3" json:"type,omitempty"`
}
func (x *Record) Reset() {
*x = Record{}
if protoimpl.UnsafeEnabled {
mi := &file_cerc_registry_v1_registry_proto_msgTypes[1]
ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x))
ms.StoreMessageInfo(mi)
}
}
func (x *Record) String() string {
return protoimpl.X.MessageStringOf(x)
}
func (*Record) ProtoMessage() {}
// Deprecated: Use Record.ProtoReflect.Descriptor instead.
func (*Record) Descriptor() ([]byte, []int) {
return file_cerc_registry_v1_registry_proto_rawDescGZIP(), []int{1}
}
func (x *Record) GetId() string {
if x != nil {
return x.Id
}
return ""
}
func (x *Record) GetBondId() string {
if x != nil {
return x.BondId
}
return ""
}
func (x *Record) GetCreateTime() string {
if x != nil {
return x.CreateTime
}
return ""
}
func (x *Record) GetExpiryTime() string {
if x != nil {
return x.ExpiryTime
}
return ""
}
func (x *Record) GetDeleted() bool {
if x != nil {
return x.Deleted
}
return false
}
func (x *Record) GetOwners() []string {
if x != nil {
return x.Owners
}
return nil
}
func (x *Record) GetAttributes() []byte {
if x != nil {
return x.Attributes
}
return nil
}
func (x *Record) GetNames() []string {
if x != nil {
return x.Names
}
return nil
}
func (x *Record) GetType_() string {
if x != nil {
return x.Type_
}
return ""
}
// AuthorityEntry defines a registry authority
type AuthorityEntry struct {
state protoimpl.MessageState
sizeCache protoimpl.SizeCache
unknownFields protoimpl.UnknownFields
Name string `protobuf:"bytes,1,opt,name=name,proto3" json:"name,omitempty"`
Entry *NameAuthority `protobuf:"bytes,2,opt,name=entry,proto3" json:"entry,omitempty"`
}
func (x *AuthorityEntry) Reset() {
*x = AuthorityEntry{}
if protoimpl.UnsafeEnabled {
mi := &file_cerc_registry_v1_registry_proto_msgTypes[2]
ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x))
ms.StoreMessageInfo(mi)
}
}
func (x *AuthorityEntry) String() string {
return protoimpl.X.MessageStringOf(x)
}
func (*AuthorityEntry) ProtoMessage() {}
// Deprecated: Use AuthorityEntry.ProtoReflect.Descriptor instead.
func (*AuthorityEntry) Descriptor() ([]byte, []int) {
return file_cerc_registry_v1_registry_proto_rawDescGZIP(), []int{2}
}
func (x *AuthorityEntry) GetName() string {
if x != nil {
return x.Name
}
return ""
}
func (x *AuthorityEntry) GetEntry() *NameAuthority {
if x != nil {
return x.Entry
}
return nil
}
// NameAuthority
type NameAuthority struct {
state protoimpl.MessageState
sizeCache protoimpl.SizeCache
unknownFields protoimpl.UnknownFields
// Owner public key.
OwnerPublicKey string `protobuf:"bytes,1,opt,name=owner_public_key,json=ownerPublicKey,proto3" json:"owner_public_key,omitempty"`
// Owner address.
OwnerAddress string `protobuf:"bytes,2,opt,name=owner_address,json=ownerAddress,proto3" json:"owner_address,omitempty"`
// height at which name/authority was created.
Height uint64 `protobuf:"varint,3,opt,name=height,proto3" json:"height,omitempty"`
Status string `protobuf:"bytes,4,opt,name=status,proto3" json:"status,omitempty"`
AuctionId string `protobuf:"bytes,5,opt,name=auction_id,json=auctionId,proto3" json:"auction_id,omitempty"`
BondId string `protobuf:"bytes,6,opt,name=bond_id,json=bondId,proto3" json:"bond_id,omitempty"`
ExpiryTime *timestamppb.Timestamp `protobuf:"bytes,7,opt,name=expiry_time,json=expiryTime,proto3" json:"expiry_time,omitempty"`
}
func (x *NameAuthority) Reset() {
*x = NameAuthority{}
if protoimpl.UnsafeEnabled {
mi := &file_cerc_registry_v1_registry_proto_msgTypes[3]
ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x))
ms.StoreMessageInfo(mi)
}
}
func (x *NameAuthority) String() string {
return protoimpl.X.MessageStringOf(x)
}
func (*NameAuthority) ProtoMessage() {}
// Deprecated: Use NameAuthority.ProtoReflect.Descriptor instead.
func (*NameAuthority) Descriptor() ([]byte, []int) {
return file_cerc_registry_v1_registry_proto_rawDescGZIP(), []int{3}
}
func (x *NameAuthority) GetOwnerPublicKey() string {
if x != nil {
return x.OwnerPublicKey
}
return ""
}
func (x *NameAuthority) GetOwnerAddress() string {
if x != nil {
return x.OwnerAddress
}
return ""
}
func (x *NameAuthority) GetHeight() uint64 {
if x != nil {
return x.Height
}
return 0
}
func (x *NameAuthority) GetStatus() string {
if x != nil {
return x.Status
}
return ""
}
func (x *NameAuthority) GetAuctionId() string {
if x != nil {
return x.AuctionId
}
return ""
}
func (x *NameAuthority) GetBondId() string {
if x != nil {
return x.BondId
}
return ""
}
func (x *NameAuthority) GetExpiryTime() *timestamppb.Timestamp {
if x != nil {
return x.ExpiryTime
}
return nil
}
// NameEntry
type NameEntry struct {
state protoimpl.MessageState
sizeCache protoimpl.SizeCache
unknownFields protoimpl.UnknownFields
Name string `protobuf:"bytes,1,opt,name=name,proto3" json:"name,omitempty"`
Entry *NameRecord `protobuf:"bytes,2,opt,name=entry,proto3" json:"entry,omitempty"`
}
func (x *NameEntry) Reset() {
*x = NameEntry{}
if protoimpl.UnsafeEnabled {
mi := &file_cerc_registry_v1_registry_proto_msgTypes[4]
ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x))
ms.StoreMessageInfo(mi)
}
}
func (x *NameEntry) String() string {
return protoimpl.X.MessageStringOf(x)
}
func (*NameEntry) ProtoMessage() {}
// Deprecated: Use NameEntry.ProtoReflect.Descriptor instead.
func (*NameEntry) Descriptor() ([]byte, []int) {
return file_cerc_registry_v1_registry_proto_rawDescGZIP(), []int{4}
}
func (x *NameEntry) GetName() string {
if x != nil {
return x.Name
}
return ""
}
func (x *NameEntry) GetEntry() *NameRecord {
if x != nil {
return x.Entry
}
return nil
}
// NameRecord defines a versioned name record
type NameRecord struct {
state protoimpl.MessageState
sizeCache protoimpl.SizeCache
unknownFields protoimpl.UnknownFields
Latest *NameRecordEntry `protobuf:"bytes,1,opt,name=latest,proto3" json:"latest,omitempty"`
History []*NameRecordEntry `protobuf:"bytes,2,rep,name=history,proto3" json:"history,omitempty"`
}
func (x *NameRecord) Reset() {
*x = NameRecord{}
if protoimpl.UnsafeEnabled {
mi := &file_cerc_registry_v1_registry_proto_msgTypes[5]
ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x))
ms.StoreMessageInfo(mi)
}
}
func (x *NameRecord) String() string {
return protoimpl.X.MessageStringOf(x)
}
func (*NameRecord) ProtoMessage() {}
// Deprecated: Use NameRecord.ProtoReflect.Descriptor instead.
func (*NameRecord) Descriptor() ([]byte, []int) {
return file_cerc_registry_v1_registry_proto_rawDescGZIP(), []int{5}
}
func (x *NameRecord) GetLatest() *NameRecordEntry {
if x != nil {
return x.Latest
}
return nil
}
func (x *NameRecord) GetHistory() []*NameRecordEntry {
if x != nil {
return x.History
}
return nil
}
// NameRecordEntry
type NameRecordEntry struct {
state protoimpl.MessageState
sizeCache protoimpl.SizeCache
unknownFields protoimpl.UnknownFields
Id string `protobuf:"bytes,1,opt,name=id,proto3" json:"id,omitempty"`
Height uint64 `protobuf:"varint,2,opt,name=height,proto3" json:"height,omitempty"`
}
func (x *NameRecordEntry) Reset() {
*x = NameRecordEntry{}
if protoimpl.UnsafeEnabled {
mi := &file_cerc_registry_v1_registry_proto_msgTypes[6]
ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x))
ms.StoreMessageInfo(mi)
}
}
func (x *NameRecordEntry) String() string {
return protoimpl.X.MessageStringOf(x)
}
func (*NameRecordEntry) ProtoMessage() {}
// Deprecated: Use NameRecordEntry.ProtoReflect.Descriptor instead.
func (*NameRecordEntry) Descriptor() ([]byte, []int) {
return file_cerc_registry_v1_registry_proto_rawDescGZIP(), []int{6}
}
func (x *NameRecordEntry) GetId() string {
if x != nil {
return x.Id
}
return ""
}
func (x *NameRecordEntry) GetHeight() uint64 {
if x != nil {
return x.Height
}
return 0
}
// Signature
type Signature struct {
state protoimpl.MessageState
sizeCache protoimpl.SizeCache
unknownFields protoimpl.UnknownFields
Sig string `protobuf:"bytes,1,opt,name=sig,proto3" json:"sig,omitempty"`
PubKey string `protobuf:"bytes,2,opt,name=pub_key,json=pubKey,proto3" json:"pub_key,omitempty"`
}
func (x *Signature) Reset() {
*x = Signature{}
if protoimpl.UnsafeEnabled {
mi := &file_cerc_registry_v1_registry_proto_msgTypes[7]
ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x))
ms.StoreMessageInfo(mi)
}
}
func (x *Signature) String() string {
return protoimpl.X.MessageStringOf(x)
}
func (*Signature) ProtoMessage() {}
// Deprecated: Use Signature.ProtoReflect.Descriptor instead.
func (*Signature) Descriptor() ([]byte, []int) {
return file_cerc_registry_v1_registry_proto_rawDescGZIP(), []int{7}
}
func (x *Signature) GetSig() string {
if x != nil {
return x.Sig
}
return ""
}
func (x *Signature) GetPubKey() string {
if x != nil {
return x.PubKey
}
return ""
}
// ExpiryQueue: record / authority expiry queue type
// id: expiry time
// value: array of ids (record cids / authority names)
type ExpiryQueue struct {
state protoimpl.MessageState
sizeCache protoimpl.SizeCache
unknownFields protoimpl.UnknownFields
Id string `protobuf:"bytes,1,opt,name=id,proto3" json:"id,omitempty"`
Value []string `protobuf:"bytes,2,rep,name=value,proto3" json:"value,omitempty"`
}
func (x *ExpiryQueue) Reset() {
*x = ExpiryQueue{}
if protoimpl.UnsafeEnabled {
mi := &file_cerc_registry_v1_registry_proto_msgTypes[8]
ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x))
ms.StoreMessageInfo(mi)
}
}
func (x *ExpiryQueue) String() string {
return protoimpl.X.MessageStringOf(x)
}
func (*ExpiryQueue) ProtoMessage() {}
// Deprecated: Use ExpiryQueue.ProtoReflect.Descriptor instead.
func (*ExpiryQueue) Descriptor() ([]byte, []int) {
return file_cerc_registry_v1_registry_proto_rawDescGZIP(), []int{8}
}
func (x *ExpiryQueue) GetId() string {
if x != nil {
return x.Id
}
return ""
}
func (x *ExpiryQueue) GetValue() []string {
if x != nil {
return x.Value
}
return nil
}
// List of record ids
// Value type to be used in AttributesMap
type RecordsList struct {
state protoimpl.MessageState
sizeCache protoimpl.SizeCache
unknownFields protoimpl.UnknownFields
Value []string `protobuf:"bytes,1,rep,name=value,proto3" json:"value,omitempty"`
}
func (x *RecordsList) Reset() {
*x = RecordsList{}
if protoimpl.UnsafeEnabled {
mi := &file_cerc_registry_v1_registry_proto_msgTypes[9]
ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x))
ms.StoreMessageInfo(mi)
}
}
func (x *RecordsList) String() string {
return protoimpl.X.MessageStringOf(x)
}
func (*RecordsList) ProtoMessage() {}
// Deprecated: Use RecordsList.ProtoReflect.Descriptor instead.
func (*RecordsList) Descriptor() ([]byte, []int) {
return file_cerc_registry_v1_registry_proto_rawDescGZIP(), []int{9}
}
func (x *RecordsList) GetValue() []string {
if x != nil {
return x.Value
}
return nil
}
var File_cerc_registry_v1_registry_proto protoreflect.FileDescriptor
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}
var (
file_cerc_registry_v1_registry_proto_rawDescOnce sync.Once
file_cerc_registry_v1_registry_proto_rawDescData = file_cerc_registry_v1_registry_proto_rawDesc
)
func file_cerc_registry_v1_registry_proto_rawDescGZIP() []byte {
file_cerc_registry_v1_registry_proto_rawDescOnce.Do(func() {
file_cerc_registry_v1_registry_proto_rawDescData = protoimpl.X.CompressGZIP(file_cerc_registry_v1_registry_proto_rawDescData)
})
return file_cerc_registry_v1_registry_proto_rawDescData
}
var file_cerc_registry_v1_registry_proto_msgTypes = make([]protoimpl.MessageInfo, 10)
var file_cerc_registry_v1_registry_proto_goTypes = []interface{}{
(*Params)(nil), // 0: cerc.registry.v1.Params
(*Record)(nil), // 1: cerc.registry.v1.Record
(*AuthorityEntry)(nil), // 2: cerc.registry.v1.AuthorityEntry
(*NameAuthority)(nil), // 3: cerc.registry.v1.NameAuthority
(*NameEntry)(nil), // 4: cerc.registry.v1.NameEntry
(*NameRecord)(nil), // 5: cerc.registry.v1.NameRecord
(*NameRecordEntry)(nil), // 6: cerc.registry.v1.NameRecordEntry
(*Signature)(nil), // 7: cerc.registry.v1.Signature
(*ExpiryQueue)(nil), // 8: cerc.registry.v1.ExpiryQueue
(*RecordsList)(nil), // 9: cerc.registry.v1.RecordsList
(*v1beta1.Coin)(nil), // 10: cosmos.base.v1beta1.Coin
(*durationpb.Duration)(nil), // 11: google.protobuf.Duration
(*timestamppb.Timestamp)(nil), // 12: google.protobuf.Timestamp
}
var file_cerc_registry_v1_registry_proto_depIdxs = []int32{
10, // 0: cerc.registry.v1.Params.record_rent:type_name -> cosmos.base.v1beta1.Coin
11, // 1: cerc.registry.v1.Params.record_rent_duration:type_name -> google.protobuf.Duration
10, // 2: cerc.registry.v1.Params.authority_rent:type_name -> cosmos.base.v1beta1.Coin
11, // 3: cerc.registry.v1.Params.authority_rent_duration:type_name -> google.protobuf.Duration
11, // 4: cerc.registry.v1.Params.authority_grace_period:type_name -> google.protobuf.Duration
11, // 5: cerc.registry.v1.Params.authority_auction_commits_duration:type_name -> google.protobuf.Duration
11, // 6: cerc.registry.v1.Params.authority_auction_reveals_duration:type_name -> google.protobuf.Duration
10, // 7: cerc.registry.v1.Params.authority_auction_commit_fee:type_name -> cosmos.base.v1beta1.Coin
10, // 8: cerc.registry.v1.Params.authority_auction_reveal_fee:type_name -> cosmos.base.v1beta1.Coin
10, // 9: cerc.registry.v1.Params.authority_auction_minimum_bid:type_name -> cosmos.base.v1beta1.Coin
3, // 10: cerc.registry.v1.AuthorityEntry.entry:type_name -> cerc.registry.v1.NameAuthority
12, // 11: cerc.registry.v1.NameAuthority.expiry_time:type_name -> google.protobuf.Timestamp
5, // 12: cerc.registry.v1.NameEntry.entry:type_name -> cerc.registry.v1.NameRecord
6, // 13: cerc.registry.v1.NameRecord.latest:type_name -> cerc.registry.v1.NameRecordEntry
6, // 14: cerc.registry.v1.NameRecord.history:type_name -> cerc.registry.v1.NameRecordEntry
15, // [15:15] is the sub-list for method output_type
15, // [15:15] is the sub-list for method input_type
15, // [15:15] is the sub-list for extension type_name
15, // [15:15] is the sub-list for extension extendee
0, // [0:15] is the sub-list for field type_name
}
func init() { file_cerc_registry_v1_registry_proto_init() }
func file_cerc_registry_v1_registry_proto_init() {
if File_cerc_registry_v1_registry_proto != nil {
return
}
if !protoimpl.UnsafeEnabled {
file_cerc_registry_v1_registry_proto_msgTypes[0].Exporter = func(v interface{}, i int) interface{} {
switch v := v.(*Params); i {
case 0:
return &v.state
case 1:
return &v.sizeCache
case 2:
return &v.unknownFields
default:
return nil
}
}
file_cerc_registry_v1_registry_proto_msgTypes[1].Exporter = func(v interface{}, i int) interface{} {
switch v := v.(*Record); i {
case 0:
return &v.state
case 1:
return &v.sizeCache
case 2:
return &v.unknownFields
default:
return nil
}
}
file_cerc_registry_v1_registry_proto_msgTypes[2].Exporter = func(v interface{}, i int) interface{} {
switch v := v.(*AuthorityEntry); i {
case 0:
return &v.state
case 1:
return &v.sizeCache
case 2:
return &v.unknownFields
default:
return nil
}
}
file_cerc_registry_v1_registry_proto_msgTypes[3].Exporter = func(v interface{}, i int) interface{} {
switch v := v.(*NameAuthority); i {
case 0:
return &v.state
case 1:
return &v.sizeCache
case 2:
return &v.unknownFields
default:
return nil
}
}
file_cerc_registry_v1_registry_proto_msgTypes[4].Exporter = func(v interface{}, i int) interface{} {
switch v := v.(*NameEntry); i {
case 0:
return &v.state
case 1:
return &v.sizeCache
case 2:
return &v.unknownFields
default:
return nil
}
}
file_cerc_registry_v1_registry_proto_msgTypes[5].Exporter = func(v interface{}, i int) interface{} {
switch v := v.(*NameRecord); i {
case 0:
return &v.state
case 1:
return &v.sizeCache
case 2:
return &v.unknownFields
default:
return nil
}
}
file_cerc_registry_v1_registry_proto_msgTypes[6].Exporter = func(v interface{}, i int) interface{} {
switch v := v.(*NameRecordEntry); i {
case 0:
return &v.state
case 1:
return &v.sizeCache
case 2:
return &v.unknownFields
default:
return nil
}
}
file_cerc_registry_v1_registry_proto_msgTypes[7].Exporter = func(v interface{}, i int) interface{} {
switch v := v.(*Signature); i {
case 0:
return &v.state
case 1:
return &v.sizeCache
case 2:
return &v.unknownFields
default:
return nil
}
}
file_cerc_registry_v1_registry_proto_msgTypes[8].Exporter = func(v interface{}, i int) interface{} {
switch v := v.(*ExpiryQueue); i {
case 0:
return &v.state
case 1:
return &v.sizeCache
case 2:
return &v.unknownFields
default:
return nil
}
}
file_cerc_registry_v1_registry_proto_msgTypes[9].Exporter = func(v interface{}, i int) interface{} {
switch v := v.(*RecordsList); i {
case 0:
return &v.state
case 1:
return &v.sizeCache
case 2:
return &v.unknownFields
default:
return nil
}
}
}
type x struct{}
out := protoimpl.TypeBuilder{
File: protoimpl.DescBuilder{
GoPackagePath: reflect.TypeOf(x{}).PkgPath(),
RawDescriptor: file_cerc_registry_v1_registry_proto_rawDesc,
NumEnums: 0,
NumMessages: 10,
NumExtensions: 0,
NumServices: 0,
},
GoTypes: file_cerc_registry_v1_registry_proto_goTypes,
DependencyIndexes: file_cerc_registry_v1_registry_proto_depIdxs,
MessageInfos: file_cerc_registry_v1_registry_proto_msgTypes,
}.Build()
File_cerc_registry_v1_registry_proto = out.File
file_cerc_registry_v1_registry_proto_rawDesc = nil
file_cerc_registry_v1_registry_proto_goTypes = nil
file_cerc_registry_v1_registry_proto_depIdxs = nil
}