// Code generated by protoc-gen-go-frostfs. DO NOT EDIT. package object import ( json "encoding/json" fmt "fmt" grpc "git.frostfs.info/TrueCloudLab/frostfs-api-go/v2/refs/grpc" grpc1 "git.frostfs.info/TrueCloudLab/frostfs-api-go/v2/session/grpc" pool "git.frostfs.info/TrueCloudLab/frostfs-api-go/v2/util/pool" proto "git.frostfs.info/TrueCloudLab/frostfs-api-go/v2/util/proto" encoding "git.frostfs.info/TrueCloudLab/frostfs-api-go/v2/util/proto/encoding" easyproto "github.com/VictoriaMetrics/easyproto" jlexer "github.com/mailru/easyjson/jlexer" jwriter "github.com/mailru/easyjson/jwriter" strconv "strconv" ) type GetRequest_Body struct { Address *grpc.Address `json:"address"` Raw bool `json:"raw"` } var ( _ encoding.ProtoMarshaler = (*GetRequest_Body)(nil) _ encoding.ProtoUnmarshaler = (*GetRequest_Body)(nil) _ json.Marshaler = (*GetRequest_Body)(nil) _ json.Unmarshaler = (*GetRequest_Body)(nil) ) // StableSize returns the size of x in protobuf format. // // Structures with the same field values have the same binary size. func (x *GetRequest_Body) StableSize() (size int) { if x == nil { return 0 } size += proto.NestedStructureSize(1, x.Address) size += proto.BoolSize(2, x.Raw) return size } // MarshalProtobuf implements the encoding.ProtoMarshaler interface. func (x *GetRequest_Body) MarshalProtobuf(dst []byte) []byte { m := pool.MarshalerPool.Get() defer pool.MarshalerPool.Put(m) x.EmitProtobuf(m.MessageMarshaler()) dst = m.Marshal(dst) return dst } func (x *GetRequest_Body) EmitProtobuf(mm *easyproto.MessageMarshaler) { if x == nil { return } if x.Address != nil && x.Address.StableSize() != 0 { x.Address.EmitProtobuf(mm.AppendMessage(1)) } if x.Raw { mm.AppendBool(2, x.Raw) } } // UnmarshalProtobuf implements the encoding.ProtoUnmarshaler interface. func (x *GetRequest_Body) UnmarshalProtobuf(src []byte) (err error) { var fc easyproto.FieldContext for len(src) > 0 { src, err = fc.NextField(src) if err != nil { return fmt.Errorf("cannot read next field in %s", "GetRequest_Body") } switch fc.FieldNum { case 1: // Address data, ok := fc.MessageData() if !ok { return fmt.Errorf("cannot unmarshal field %s", "Address") } x.Address = new(grpc.Address) if err := x.Address.UnmarshalProtobuf(data); err != nil { return fmt.Errorf("unmarshal: %w", err) } case 2: // Raw data, ok := fc.Bool() if !ok { return fmt.Errorf("cannot unmarshal field %s", "Raw") } x.Raw = data } } return nil } func (x *GetRequest_Body) GetAddress() *grpc.Address { if x != nil { return x.Address } return nil } func (x *GetRequest_Body) SetAddress(v *grpc.Address) { x.Address = v } func (x *GetRequest_Body) GetRaw() bool { if x != nil { return x.Raw } return false } func (x *GetRequest_Body) SetRaw(v bool) { x.Raw = v } // MarshalJSON implements the json.Marshaler interface. func (x *GetRequest_Body) MarshalJSON() ([]byte, error) { w := jwriter.Writer{} x.MarshalEasyJSON(&w) return w.Buffer.BuildBytes(), w.Error } func (x *GetRequest_Body) MarshalEasyJSON(out *jwriter.Writer) { if x == nil { out.RawString("null") return } out.RawByte('{') { const prefix string = ",\"address\":" out.RawString(prefix[1:]) x.Address.MarshalEasyJSON(out) } { const prefix string = ",\"raw\":" out.RawString(prefix) out.Bool(x.Raw) } out.RawByte('}') } // UnmarshalJSON implements the json.Unmarshaler interface. func (x *GetRequest_Body) UnmarshalJSON(data []byte) error { r := jlexer.Lexer{Data: data} x.UnmarshalEasyJSON(&r) return r.Error() } func (x *GetRequest_Body) UnmarshalEasyJSON(in *jlexer.Lexer) { isTopLevel := in.IsStart() if in.IsNull() { if isTopLevel { in.Consumed() } in.Skip() return } in.Delim('{') for !in.IsDelim('}') { key := in.UnsafeFieldName(false) in.WantColon() if in.IsNull() { in.Skip() in.WantComma() continue } switch key { case "address": { var f *grpc.Address f = new(grpc.Address) f.UnmarshalEasyJSON(in) x.Address = f } case "raw": { var f bool f = in.Bool() x.Raw = f } } in.WantComma() } in.Delim('}') if isTopLevel { in.Consumed() } } type GetRequest struct { Body *GetRequest_Body `json:"body"` MetaHeader *grpc1.RequestMetaHeader `json:"metaHeader"` VerifyHeader *grpc1.RequestVerificationHeader `json:"verifyHeader"` } var ( _ encoding.ProtoMarshaler = (*GetRequest)(nil) _ encoding.ProtoUnmarshaler = (*GetRequest)(nil) _ json.Marshaler = (*GetRequest)(nil) _ json.Unmarshaler = (*GetRequest)(nil) ) // StableSize returns the size of x in protobuf format. // // Structures with the same field values have the same binary size. func (x *GetRequest) StableSize() (size int) { if x == nil { return 0 } size += proto.NestedStructureSize(1, x.Body) size += proto.NestedStructureSize(2, x.MetaHeader) size += proto.NestedStructureSize(3, x.VerifyHeader) return size } // ReadSignedData fills buf with signed data of x. // If buffer length is less than x.SignedDataSize(), new buffer is allocated. // // Returns any error encountered which did not allow writing the data completely. // Otherwise, returns the buffer in which the data is written. // // Structures with the same field values have the same signed data. func (x *GetRequest) SignedDataSize() int { return x.GetBody().StableSize() } // SignedDataSize returns size of the request signed data in bytes. // // Structures with the same field values have the same signed data size. func (x *GetRequest) ReadSignedData(buf []byte) ([]byte, error) { return x.GetBody().MarshalProtobuf(buf), nil } // MarshalProtobuf implements the encoding.ProtoMarshaler interface. func (x *GetRequest) MarshalProtobuf(dst []byte) []byte { m := pool.MarshalerPool.Get() defer pool.MarshalerPool.Put(m) x.EmitProtobuf(m.MessageMarshaler()) dst = m.Marshal(dst) return dst } func (x *GetRequest) EmitProtobuf(mm *easyproto.MessageMarshaler) { if x == nil { return } if x.Body != nil && x.Body.StableSize() != 0 { x.Body.EmitProtobuf(mm.AppendMessage(1)) } if x.MetaHeader != nil && x.MetaHeader.StableSize() != 0 { x.MetaHeader.EmitProtobuf(mm.AppendMessage(2)) } if x.VerifyHeader != nil && x.VerifyHeader.StableSize() != 0 { x.VerifyHeader.EmitProtobuf(mm.AppendMessage(3)) } } // UnmarshalProtobuf implements the encoding.ProtoUnmarshaler interface. func (x *GetRequest) UnmarshalProtobuf(src []byte) (err error) { var fc easyproto.FieldContext for len(src) > 0 { src, err = fc.NextField(src) if err != nil { return fmt.Errorf("cannot read next field in %s", "GetRequest") } switch fc.FieldNum { case 1: // Body data, ok := fc.MessageData() if !ok { return fmt.Errorf("cannot unmarshal field %s", "Body") } x.Body = new(GetRequest_Body) if err := x.Body.UnmarshalProtobuf(data); err != nil { return fmt.Errorf("unmarshal: %w", err) } case 2: // MetaHeader data, ok := fc.MessageData() if !ok { return fmt.Errorf("cannot unmarshal field %s", "MetaHeader") } x.MetaHeader = new(grpc1.RequestMetaHeader) if err := x.MetaHeader.UnmarshalProtobuf(data); err != nil { return fmt.Errorf("unmarshal: %w", err) } case 3: // VerifyHeader data, ok := fc.MessageData() if !ok { return fmt.Errorf("cannot unmarshal field %s", "VerifyHeader") } x.VerifyHeader = new(grpc1.RequestVerificationHeader) if err := x.VerifyHeader.UnmarshalProtobuf(data); err != nil { return fmt.Errorf("unmarshal: %w", err) } } } return nil } func (x *GetRequest) GetBody() *GetRequest_Body { if x != nil { return x.Body } return nil } func (x *GetRequest) SetBody(v *GetRequest_Body) { x.Body = v } func (x *GetRequest) GetMetaHeader() *grpc1.RequestMetaHeader { if x != nil { return x.MetaHeader } return nil } func (x *GetRequest) SetMetaHeader(v *grpc1.RequestMetaHeader) { x.MetaHeader = v } func (x *GetRequest) GetVerifyHeader() *grpc1.RequestVerificationHeader { if x != nil { return x.VerifyHeader } return nil } func (x *GetRequest) SetVerifyHeader(v *grpc1.RequestVerificationHeader) { x.VerifyHeader = v } // MarshalJSON implements the json.Marshaler interface. func (x *GetRequest) MarshalJSON() ([]byte, error) { w := jwriter.Writer{} x.MarshalEasyJSON(&w) return w.Buffer.BuildBytes(), w.Error } func (x *GetRequest) MarshalEasyJSON(out *jwriter.Writer) { if x == nil { out.RawString("null") return } out.RawByte('{') { const prefix string = ",\"body\":" out.RawString(prefix[1:]) x.Body.MarshalEasyJSON(out) } { const prefix string = ",\"metaHeader\":" out.RawString(prefix) x.MetaHeader.MarshalEasyJSON(out) } { const prefix string = ",\"verifyHeader\":" out.RawString(prefix) x.VerifyHeader.MarshalEasyJSON(out) } out.RawByte('}') } // UnmarshalJSON implements the json.Unmarshaler interface. func (x *GetRequest) UnmarshalJSON(data []byte) error { r := jlexer.Lexer{Data: data} x.UnmarshalEasyJSON(&r) return r.Error() } func (x *GetRequest) UnmarshalEasyJSON(in *jlexer.Lexer) { isTopLevel := in.IsStart() if in.IsNull() { if isTopLevel { in.Consumed() } in.Skip() return } in.Delim('{') for !in.IsDelim('}') { key := in.UnsafeFieldName(false) in.WantColon() if in.IsNull() { in.Skip() in.WantComma() continue } switch key { case "body": { var f *GetRequest_Body f = new(GetRequest_Body) f.UnmarshalEasyJSON(in) x.Body = f } case "metaHeader": { var f *grpc1.RequestMetaHeader f = new(grpc1.RequestMetaHeader) f.UnmarshalEasyJSON(in) x.MetaHeader = f } case "verifyHeader": { var f *grpc1.RequestVerificationHeader f = new(grpc1.RequestVerificationHeader) f.UnmarshalEasyJSON(in) x.VerifyHeader = f } } in.WantComma() } in.Delim('}') if isTopLevel { in.Consumed() } } type GetResponse_Body_Init struct { ObjectId *grpc.ObjectID `json:"objectId"` Signature *grpc.Signature `json:"signature"` Header *Header `json:"header"` } var ( _ encoding.ProtoMarshaler = (*GetResponse_Body_Init)(nil) _ encoding.ProtoUnmarshaler = (*GetResponse_Body_Init)(nil) _ json.Marshaler = (*GetResponse_Body_Init)(nil) _ json.Unmarshaler = (*GetResponse_Body_Init)(nil) ) // StableSize returns the size of x in protobuf format. // // Structures with the same field values have the same binary size. func (x *GetResponse_Body_Init) StableSize() (size int) { if x == nil { return 0 } size += proto.NestedStructureSize(1, x.ObjectId) size += proto.NestedStructureSize(2, x.Signature) size += proto.NestedStructureSize(3, x.Header) return size } // MarshalProtobuf implements the encoding.ProtoMarshaler interface. func (x *GetResponse_Body_Init) MarshalProtobuf(dst []byte) []byte { m := pool.MarshalerPool.Get() defer pool.MarshalerPool.Put(m) x.EmitProtobuf(m.MessageMarshaler()) dst = m.Marshal(dst) return dst } func (x *GetResponse_Body_Init) EmitProtobuf(mm *easyproto.MessageMarshaler) { if x == nil { return } if x.ObjectId != nil && x.ObjectId.StableSize() != 0 { x.ObjectId.EmitProtobuf(mm.AppendMessage(1)) } if x.Signature != nil && x.Signature.StableSize() != 0 { x.Signature.EmitProtobuf(mm.AppendMessage(2)) } if x.Header != nil && x.Header.StableSize() != 0 { x.Header.EmitProtobuf(mm.AppendMessage(3)) } } // UnmarshalProtobuf implements the encoding.ProtoUnmarshaler interface. func (x *GetResponse_Body_Init) UnmarshalProtobuf(src []byte) (err error) { var fc easyproto.FieldContext for len(src) > 0 { src, err = fc.NextField(src) if err != nil { return fmt.Errorf("cannot read next field in %s", "GetResponse_Body_Init") } switch fc.FieldNum { case 1: // ObjectId data, ok := fc.MessageData() if !ok { return fmt.Errorf("cannot unmarshal field %s", "ObjectId") } x.ObjectId = new(grpc.ObjectID) if err := x.ObjectId.UnmarshalProtobuf(data); err != nil { return fmt.Errorf("unmarshal: %w", err) } case 2: // Signature data, ok := fc.MessageData() if !ok { return fmt.Errorf("cannot unmarshal field %s", "Signature") } x.Signature = new(grpc.Signature) if err := x.Signature.UnmarshalProtobuf(data); err != nil { return fmt.Errorf("unmarshal: %w", err) } case 3: // Header data, ok := fc.MessageData() if !ok { return fmt.Errorf("cannot unmarshal field %s", "Header") } x.Header = new(Header) if err := x.Header.UnmarshalProtobuf(data); err != nil { return fmt.Errorf("unmarshal: %w", err) } } } return nil } func (x *GetResponse_Body_Init) GetObjectId() *grpc.ObjectID { if x != nil { return x.ObjectId } return nil } func (x *GetResponse_Body_Init) SetObjectId(v *grpc.ObjectID) { x.ObjectId = v } func (x *GetResponse_Body_Init) GetSignature() *grpc.Signature { if x != nil { return x.Signature } return nil } func (x *GetResponse_Body_Init) SetSignature(v *grpc.Signature) { x.Signature = v } func (x *GetResponse_Body_Init) GetHeader() *Header { if x != nil { return x.Header } return nil } func (x *GetResponse_Body_Init) SetHeader(v *Header) { x.Header = v } // MarshalJSON implements the json.Marshaler interface. func (x *GetResponse_Body_Init) MarshalJSON() ([]byte, error) { w := jwriter.Writer{} x.MarshalEasyJSON(&w) return w.Buffer.BuildBytes(), w.Error } func (x *GetResponse_Body_Init) MarshalEasyJSON(out *jwriter.Writer) { if x == nil { out.RawString("null") return } out.RawByte('{') { const prefix string = ",\"objectId\":" out.RawString(prefix[1:]) x.ObjectId.MarshalEasyJSON(out) } { const prefix string = ",\"signature\":" out.RawString(prefix) x.Signature.MarshalEasyJSON(out) } { const prefix string = ",\"header\":" out.RawString(prefix) x.Header.MarshalEasyJSON(out) } out.RawByte('}') } // UnmarshalJSON implements the json.Unmarshaler interface. func (x *GetResponse_Body_Init) UnmarshalJSON(data []byte) error { r := jlexer.Lexer{Data: data} x.UnmarshalEasyJSON(&r) return r.Error() } func (x *GetResponse_Body_Init) UnmarshalEasyJSON(in *jlexer.Lexer) { isTopLevel := in.IsStart() if in.IsNull() { if isTopLevel { in.Consumed() } in.Skip() return } in.Delim('{') for !in.IsDelim('}') { key := in.UnsafeFieldName(false) in.WantColon() if in.IsNull() { in.Skip() in.WantComma() continue } switch key { case "objectId": { var f *grpc.ObjectID f = new(grpc.ObjectID) f.UnmarshalEasyJSON(in) x.ObjectId = f } case "signature": { var f *grpc.Signature f = new(grpc.Signature) f.UnmarshalEasyJSON(in) x.Signature = f } case "header": { var f *Header f = new(Header) f.UnmarshalEasyJSON(in) x.Header = f } } in.WantComma() } in.Delim('}') if isTopLevel { in.Consumed() } } type GetResponse_Body struct { ObjectPart isGetResponse_Body_ObjectPart } var ( _ encoding.ProtoMarshaler = (*GetResponse_Body)(nil) _ encoding.ProtoUnmarshaler = (*GetResponse_Body)(nil) _ json.Marshaler = (*GetResponse_Body)(nil) _ json.Unmarshaler = (*GetResponse_Body)(nil) ) // StableSize returns the size of x in protobuf format. // // Structures with the same field values have the same binary size. func (x *GetResponse_Body) StableSize() (size int) { if x == nil { return 0 } if inner, ok := x.ObjectPart.(*GetResponse_Body_Init_); ok { size += proto.NestedStructureSize(1, inner.Init) } if inner, ok := x.ObjectPart.(*GetResponse_Body_Chunk); ok { size += proto.BytesSize(2, inner.Chunk) } if inner, ok := x.ObjectPart.(*GetResponse_Body_SplitInfo); ok { size += proto.NestedStructureSize(3, inner.SplitInfo) } if inner, ok := x.ObjectPart.(*GetResponse_Body_EcInfo); ok { size += proto.NestedStructureSize(4, inner.EcInfo) } return size } // MarshalProtobuf implements the encoding.ProtoMarshaler interface. func (x *GetResponse_Body) MarshalProtobuf(dst []byte) []byte { m := pool.MarshalerPool.Get() defer pool.MarshalerPool.Put(m) x.EmitProtobuf(m.MessageMarshaler()) dst = m.Marshal(dst) return dst } func (x *GetResponse_Body) EmitProtobuf(mm *easyproto.MessageMarshaler) { if x == nil { return } if inner, ok := x.ObjectPart.(*GetResponse_Body_Init_); ok { if inner.Init != nil && inner.Init.StableSize() != 0 { inner.Init.EmitProtobuf(mm.AppendMessage(1)) } } if inner, ok := x.ObjectPart.(*GetResponse_Body_Chunk); ok { if len(inner.Chunk) != 0 { mm.AppendBytes(2, inner.Chunk) } } if inner, ok := x.ObjectPart.(*GetResponse_Body_SplitInfo); ok { if inner.SplitInfo != nil && inner.SplitInfo.StableSize() != 0 { inner.SplitInfo.EmitProtobuf(mm.AppendMessage(3)) } } if inner, ok := x.ObjectPart.(*GetResponse_Body_EcInfo); ok { if inner.EcInfo != nil && inner.EcInfo.StableSize() != 0 { inner.EcInfo.EmitProtobuf(mm.AppendMessage(4)) } } } // UnmarshalProtobuf implements the encoding.ProtoUnmarshaler interface. func (x *GetResponse_Body) UnmarshalProtobuf(src []byte) (err error) { var fc easyproto.FieldContext for len(src) > 0 { src, err = fc.NextField(src) if err != nil { return fmt.Errorf("cannot read next field in %s", "GetResponse_Body") } switch fc.FieldNum { case 1: // Init data, ok := fc.MessageData() if !ok { return fmt.Errorf("cannot unmarshal field %s", "Init") } oneofField := &GetResponse_Body_Init_{Init: new(GetResponse_Body_Init)} if err := oneofField.Init.UnmarshalProtobuf(data); err != nil { return fmt.Errorf("unmarshal: %w", err) } x.ObjectPart = oneofField case 2: // Chunk data, ok := fc.Bytes() if !ok { return fmt.Errorf("cannot unmarshal field %s", "Chunk") } x.ObjectPart = &GetResponse_Body_Chunk{Chunk: data} case 3: // SplitInfo data, ok := fc.MessageData() if !ok { return fmt.Errorf("cannot unmarshal field %s", "SplitInfo") } oneofField := &GetResponse_Body_SplitInfo{SplitInfo: new(SplitInfo)} if err := oneofField.SplitInfo.UnmarshalProtobuf(data); err != nil { return fmt.Errorf("unmarshal: %w", err) } x.ObjectPart = oneofField case 4: // EcInfo data, ok := fc.MessageData() if !ok { return fmt.Errorf("cannot unmarshal field %s", "EcInfo") } oneofField := &GetResponse_Body_EcInfo{EcInfo: new(ECInfo)} if err := oneofField.EcInfo.UnmarshalProtobuf(data); err != nil { return fmt.Errorf("unmarshal: %w", err) } x.ObjectPart = oneofField } } return nil } func (x *GetResponse_Body) GetObjectPart() isGetResponse_Body_ObjectPart { if x != nil { return x.ObjectPart } return nil } func (x *GetResponse_Body) SetObjectPart(v isGetResponse_Body_ObjectPart) { x.ObjectPart = v } func (x *GetResponse_Body) GetInit() *GetResponse_Body_Init { if xx, ok := x.GetObjectPart().(*GetResponse_Body_Init_); ok { return xx.Init } return nil } func (x *GetResponse_Body) SetInit(v *GetResponse_Body_Init) { x.ObjectPart = &GetResponse_Body_Init_{Init: v} } func (x *GetResponse_Body) GetChunk() *GetResponse_Body_Chunk { if xx, ok := x.GetObjectPart().(*GetResponse_Body_Chunk); ok { return xx } return nil } func (x *GetResponse_Body) SetChunk(v *GetResponse_Body_Chunk) { x.ObjectPart = v } func (x *GetResponse_Body_Chunk) GetChunk() []byte { if x != nil { return x.Chunk } return nil } func (x *GetResponse_Body_Chunk) SetChunk(v []byte) { x.Chunk = v } func (x *GetResponse_Body) GetSplitInfo() *SplitInfo { if xx, ok := x.GetObjectPart().(*GetResponse_Body_SplitInfo); ok { return xx.SplitInfo } return nil } func (x *GetResponse_Body) SetSplitInfo(v *SplitInfo) { x.ObjectPart = &GetResponse_Body_SplitInfo{SplitInfo: v} } func (x *GetResponse_Body) GetEcInfo() *ECInfo { if xx, ok := x.GetObjectPart().(*GetResponse_Body_EcInfo); ok { return xx.EcInfo } return nil } func (x *GetResponse_Body) SetEcInfo(v *ECInfo) { x.ObjectPart = &GetResponse_Body_EcInfo{EcInfo: v} } // MarshalJSON implements the json.Marshaler interface. func (x *GetResponse_Body) MarshalJSON() ([]byte, error) { w := jwriter.Writer{} x.MarshalEasyJSON(&w) return w.Buffer.BuildBytes(), w.Error } func (x *GetResponse_Body) MarshalEasyJSON(out *jwriter.Writer) { if x == nil { out.RawString("null") return } out.RawByte('{') switch xx := x.ObjectPart.(type) { case *GetResponse_Body_Init_: { const prefix string = ",\"init\":" out.RawString(prefix[1:]) xx.Init.MarshalEasyJSON(out) } case *GetResponse_Body_Chunk: { const prefix string = ",\"chunk\":" out.RawString(prefix[1:]) out.Base64Bytes(xx.Chunk) } case *GetResponse_Body_SplitInfo: { const prefix string = ",\"splitInfo\":" out.RawString(prefix[1:]) xx.SplitInfo.MarshalEasyJSON(out) } case *GetResponse_Body_EcInfo: { const prefix string = ",\"ecInfo\":" out.RawString(prefix[1:]) xx.EcInfo.MarshalEasyJSON(out) } default: out.RawString("null") } out.RawByte('}') } // UnmarshalJSON implements the json.Unmarshaler interface. func (x *GetResponse_Body) UnmarshalJSON(data []byte) error { r := jlexer.Lexer{Data: data} x.UnmarshalEasyJSON(&r) return r.Error() } func (x *GetResponse_Body) UnmarshalEasyJSON(in *jlexer.Lexer) { isTopLevel := in.IsStart() if in.IsNull() { if isTopLevel { in.Consumed() } in.Skip() return } in.Delim('{') for !in.IsDelim('}') { key := in.UnsafeFieldName(false) in.WantColon() if in.IsNull() { in.Skip() in.WantComma() continue } switch key { case "init": xx := new(GetResponse_Body_Init_) x.ObjectPart = xx { var f *GetResponse_Body_Init f = new(GetResponse_Body_Init) f.UnmarshalEasyJSON(in) xx.Init = f } case "chunk": xx := new(GetResponse_Body_Chunk) x.ObjectPart = xx { var f []byte f = in.Bytes() xx.Chunk = f } case "splitInfo": xx := new(GetResponse_Body_SplitInfo) x.ObjectPart = xx { var f *SplitInfo f = new(SplitInfo) f.UnmarshalEasyJSON(in) xx.SplitInfo = f } case "ecInfo": xx := new(GetResponse_Body_EcInfo) x.ObjectPart = xx { var f *ECInfo f = new(ECInfo) f.UnmarshalEasyJSON(in) xx.EcInfo = f } } in.WantComma() } in.Delim('}') if isTopLevel { in.Consumed() } } type isGetResponse_Body_ObjectPart interface { isGetResponse_Body_ObjectPart() } type GetResponse_Body_Init_ struct { Init *GetResponse_Body_Init } type GetResponse_Body_Chunk struct { Chunk []byte } type GetResponse_Body_SplitInfo struct { SplitInfo *SplitInfo } type GetResponse_Body_EcInfo struct { EcInfo *ECInfo } func (*GetResponse_Body_Init_) isGetResponse_Body_ObjectPart() {} func (*GetResponse_Body_Chunk) isGetResponse_Body_ObjectPart() {} func (*GetResponse_Body_SplitInfo) isGetResponse_Body_ObjectPart() {} func (*GetResponse_Body_EcInfo) isGetResponse_Body_ObjectPart() {} type GetResponse struct { Body *GetResponse_Body `json:"body"` MetaHeader *grpc1.ResponseMetaHeader `json:"metaHeader"` VerifyHeader *grpc1.ResponseVerificationHeader `json:"verifyHeader"` } var ( _ encoding.ProtoMarshaler = (*GetResponse)(nil) _ encoding.ProtoUnmarshaler = (*GetResponse)(nil) _ json.Marshaler = (*GetResponse)(nil) _ json.Unmarshaler = (*GetResponse)(nil) ) // StableSize returns the size of x in protobuf format. // // Structures with the same field values have the same binary size. func (x *GetResponse) StableSize() (size int) { if x == nil { return 0 } size += proto.NestedStructureSize(1, x.Body) size += proto.NestedStructureSize(2, x.MetaHeader) size += proto.NestedStructureSize(3, x.VerifyHeader) return size } // ReadSignedData fills buf with signed data of x. // If buffer length is less than x.SignedDataSize(), new buffer is allocated. // // Returns any error encountered which did not allow writing the data completely. // Otherwise, returns the buffer in which the data is written. // // Structures with the same field values have the same signed data. func (x *GetResponse) SignedDataSize() int { return x.GetBody().StableSize() } // SignedDataSize returns size of the request signed data in bytes. // // Structures with the same field values have the same signed data size. func (x *GetResponse) ReadSignedData(buf []byte) ([]byte, error) { return x.GetBody().MarshalProtobuf(buf), nil } // MarshalProtobuf implements the encoding.ProtoMarshaler interface. func (x *GetResponse) MarshalProtobuf(dst []byte) []byte { m := pool.MarshalerPool.Get() defer pool.MarshalerPool.Put(m) x.EmitProtobuf(m.MessageMarshaler()) dst = m.Marshal(dst) return dst } func (x *GetResponse) EmitProtobuf(mm *easyproto.MessageMarshaler) { if x == nil { return } if x.Body != nil && x.Body.StableSize() != 0 { x.Body.EmitProtobuf(mm.AppendMessage(1)) } if x.MetaHeader != nil && x.MetaHeader.StableSize() != 0 { x.MetaHeader.EmitProtobuf(mm.AppendMessage(2)) } if x.VerifyHeader != nil && x.VerifyHeader.StableSize() != 0 { x.VerifyHeader.EmitProtobuf(mm.AppendMessage(3)) } } // UnmarshalProtobuf implements the encoding.ProtoUnmarshaler interface. func (x *GetResponse) UnmarshalProtobuf(src []byte) (err error) { var fc easyproto.FieldContext for len(src) > 0 { src, err = fc.NextField(src) if err != nil { return fmt.Errorf("cannot read next field in %s", "GetResponse") } switch fc.FieldNum { case 1: // Body data, ok := fc.MessageData() if !ok { return fmt.Errorf("cannot unmarshal field %s", "Body") } x.Body = new(GetResponse_Body) if err := x.Body.UnmarshalProtobuf(data); err != nil { return fmt.Errorf("unmarshal: %w", err) } case 2: // MetaHeader data, ok := fc.MessageData() if !ok { return fmt.Errorf("cannot unmarshal field %s", "MetaHeader") } x.MetaHeader = new(grpc1.ResponseMetaHeader) if err := x.MetaHeader.UnmarshalProtobuf(data); err != nil { return fmt.Errorf("unmarshal: %w", err) } case 3: // VerifyHeader data, ok := fc.MessageData() if !ok { return fmt.Errorf("cannot unmarshal field %s", "VerifyHeader") } x.VerifyHeader = new(grpc1.ResponseVerificationHeader) if err := x.VerifyHeader.UnmarshalProtobuf(data); err != nil { return fmt.Errorf("unmarshal: %w", err) } } } return nil } func (x *GetResponse) GetBody() *GetResponse_Body { if x != nil { return x.Body } return nil } func (x *GetResponse) SetBody(v *GetResponse_Body) { x.Body = v } func (x *GetResponse) GetMetaHeader() *grpc1.ResponseMetaHeader { if x != nil { return x.MetaHeader } return nil } func (x *GetResponse) SetMetaHeader(v *grpc1.ResponseMetaHeader) { x.MetaHeader = v } func (x *GetResponse) GetVerifyHeader() *grpc1.ResponseVerificationHeader { if x != nil { return x.VerifyHeader } return nil } func (x *GetResponse) SetVerifyHeader(v *grpc1.ResponseVerificationHeader) { x.VerifyHeader = v } // MarshalJSON implements the json.Marshaler interface. func (x *GetResponse) MarshalJSON() ([]byte, error) { w := jwriter.Writer{} x.MarshalEasyJSON(&w) return w.Buffer.BuildBytes(), w.Error } func (x *GetResponse) MarshalEasyJSON(out *jwriter.Writer) { if x == nil { out.RawString("null") return } out.RawByte('{') { const prefix string = ",\"body\":" out.RawString(prefix[1:]) x.Body.MarshalEasyJSON(out) } { const prefix string = ",\"metaHeader\":" out.RawString(prefix) x.MetaHeader.MarshalEasyJSON(out) } { const prefix string = ",\"verifyHeader\":" out.RawString(prefix) x.VerifyHeader.MarshalEasyJSON(out) } out.RawByte('}') } // UnmarshalJSON implements the json.Unmarshaler interface. func (x *GetResponse) UnmarshalJSON(data []byte) error { r := jlexer.Lexer{Data: data} x.UnmarshalEasyJSON(&r) return r.Error() } func (x *GetResponse) UnmarshalEasyJSON(in *jlexer.Lexer) { isTopLevel := in.IsStart() if in.IsNull() { if isTopLevel { in.Consumed() } in.Skip() return } in.Delim('{') for !in.IsDelim('}') { key := in.UnsafeFieldName(false) in.WantColon() if in.IsNull() { in.Skip() in.WantComma() continue } switch key { case "body": { var f *GetResponse_Body f = new(GetResponse_Body) f.UnmarshalEasyJSON(in) x.Body = f } case "metaHeader": { var f *grpc1.ResponseMetaHeader f = new(grpc1.ResponseMetaHeader) f.UnmarshalEasyJSON(in) x.MetaHeader = f } case "verifyHeader": { var f *grpc1.ResponseVerificationHeader f = new(grpc1.ResponseVerificationHeader) f.UnmarshalEasyJSON(in) x.VerifyHeader = f } } in.WantComma() } in.Delim('}') if isTopLevel { in.Consumed() } } type PutRequest_Body_Init struct { ObjectId *grpc.ObjectID `json:"objectId"` Signature *grpc.Signature `json:"signature"` Header *Header `json:"header"` CopiesNumber []uint32 `json:"copiesNumber"` } var ( _ encoding.ProtoMarshaler = (*PutRequest_Body_Init)(nil) _ encoding.ProtoUnmarshaler = (*PutRequest_Body_Init)(nil) _ json.Marshaler = (*PutRequest_Body_Init)(nil) _ json.Unmarshaler = (*PutRequest_Body_Init)(nil) ) // StableSize returns the size of x in protobuf format. // // Structures with the same field values have the same binary size. func (x *PutRequest_Body_Init) StableSize() (size int) { if x == nil { return 0 } var n int size += proto.NestedStructureSize(1, x.ObjectId) size += proto.NestedStructureSize(2, x.Signature) size += proto.NestedStructureSize(3, x.Header) n, _ = proto.RepeatedUInt32Size(4, x.CopiesNumber) size += n return size } // MarshalProtobuf implements the encoding.ProtoMarshaler interface. func (x *PutRequest_Body_Init) MarshalProtobuf(dst []byte) []byte { m := pool.MarshalerPool.Get() defer pool.MarshalerPool.Put(m) x.EmitProtobuf(m.MessageMarshaler()) dst = m.Marshal(dst) return dst } func (x *PutRequest_Body_Init) EmitProtobuf(mm *easyproto.MessageMarshaler) { if x == nil { return } if x.ObjectId != nil && x.ObjectId.StableSize() != 0 { x.ObjectId.EmitProtobuf(mm.AppendMessage(1)) } if x.Signature != nil && x.Signature.StableSize() != 0 { x.Signature.EmitProtobuf(mm.AppendMessage(2)) } if x.Header != nil && x.Header.StableSize() != 0 { x.Header.EmitProtobuf(mm.AppendMessage(3)) } if len(x.CopiesNumber) != 0 { mm.AppendUint32s(4, x.CopiesNumber) } } // UnmarshalProtobuf implements the encoding.ProtoUnmarshaler interface. func (x *PutRequest_Body_Init) UnmarshalProtobuf(src []byte) (err error) { var fc easyproto.FieldContext for len(src) > 0 { src, err = fc.NextField(src) if err != nil { return fmt.Errorf("cannot read next field in %s", "PutRequest_Body_Init") } switch fc.FieldNum { case 1: // ObjectId data, ok := fc.MessageData() if !ok { return fmt.Errorf("cannot unmarshal field %s", "ObjectId") } x.ObjectId = new(grpc.ObjectID) if err := x.ObjectId.UnmarshalProtobuf(data); err != nil { return fmt.Errorf("unmarshal: %w", err) } case 2: // Signature data, ok := fc.MessageData() if !ok { return fmt.Errorf("cannot unmarshal field %s", "Signature") } x.Signature = new(grpc.Signature) if err := x.Signature.UnmarshalProtobuf(data); err != nil { return fmt.Errorf("unmarshal: %w", err) } case 3: // Header data, ok := fc.MessageData() if !ok { return fmt.Errorf("cannot unmarshal field %s", "Header") } x.Header = new(Header) if err := x.Header.UnmarshalProtobuf(data); err != nil { return fmt.Errorf("unmarshal: %w", err) } case 4: // CopiesNumber data, ok := fc.UnpackUint32s(nil) if !ok { return fmt.Errorf("cannot unmarshal field %s", "CopiesNumber") } x.CopiesNumber = data } } return nil } func (x *PutRequest_Body_Init) GetObjectId() *grpc.ObjectID { if x != nil { return x.ObjectId } return nil } func (x *PutRequest_Body_Init) SetObjectId(v *grpc.ObjectID) { x.ObjectId = v } func (x *PutRequest_Body_Init) GetSignature() *grpc.Signature { if x != nil { return x.Signature } return nil } func (x *PutRequest_Body_Init) SetSignature(v *grpc.Signature) { x.Signature = v } func (x *PutRequest_Body_Init) GetHeader() *Header { if x != nil { return x.Header } return nil } func (x *PutRequest_Body_Init) SetHeader(v *Header) { x.Header = v } func (x *PutRequest_Body_Init) GetCopiesNumber() []uint32 { if x != nil { return x.CopiesNumber } return nil } func (x *PutRequest_Body_Init) SetCopiesNumber(v []uint32) { x.CopiesNumber = v } // MarshalJSON implements the json.Marshaler interface. func (x *PutRequest_Body_Init) MarshalJSON() ([]byte, error) { w := jwriter.Writer{} x.MarshalEasyJSON(&w) return w.Buffer.BuildBytes(), w.Error } func (x *PutRequest_Body_Init) MarshalEasyJSON(out *jwriter.Writer) { if x == nil { out.RawString("null") return } out.RawByte('{') { const prefix string = ",\"objectId\":" out.RawString(prefix[1:]) x.ObjectId.MarshalEasyJSON(out) } { const prefix string = ",\"signature\":" out.RawString(prefix) x.Signature.MarshalEasyJSON(out) } { const prefix string = ",\"header\":" out.RawString(prefix) x.Header.MarshalEasyJSON(out) } { const prefix string = ",\"copiesNumber\":" out.RawString(prefix) out.RawByte('[') for i := range x.CopiesNumber { if i != 0 { out.RawByte(',') } out.Uint32(x.CopiesNumber[i]) } out.RawByte(']') } out.RawByte('}') } // UnmarshalJSON implements the json.Unmarshaler interface. func (x *PutRequest_Body_Init) UnmarshalJSON(data []byte) error { r := jlexer.Lexer{Data: data} x.UnmarshalEasyJSON(&r) return r.Error() } func (x *PutRequest_Body_Init) UnmarshalEasyJSON(in *jlexer.Lexer) { isTopLevel := in.IsStart() if in.IsNull() { if isTopLevel { in.Consumed() } in.Skip() return } in.Delim('{') for !in.IsDelim('}') { key := in.UnsafeFieldName(false) in.WantColon() if in.IsNull() { in.Skip() in.WantComma() continue } switch key { case "objectId": { var f *grpc.ObjectID f = new(grpc.ObjectID) f.UnmarshalEasyJSON(in) x.ObjectId = f } case "signature": { var f *grpc.Signature f = new(grpc.Signature) f.UnmarshalEasyJSON(in) x.Signature = f } case "header": { var f *Header f = new(Header) f.UnmarshalEasyJSON(in) x.Header = f } case "copiesNumber": { var f uint32 var list []uint32 in.Delim('[') for !in.IsDelim(']') { f = in.Uint32() list = append(list, f) in.WantComma() } x.CopiesNumber = list in.Delim(']') } } in.WantComma() } in.Delim('}') if isTopLevel { in.Consumed() } } type PutRequest_Body struct { ObjectPart isPutRequest_Body_ObjectPart } var ( _ encoding.ProtoMarshaler = (*PutRequest_Body)(nil) _ encoding.ProtoUnmarshaler = (*PutRequest_Body)(nil) _ json.Marshaler = (*PutRequest_Body)(nil) _ json.Unmarshaler = (*PutRequest_Body)(nil) ) // StableSize returns the size of x in protobuf format. // // Structures with the same field values have the same binary size. func (x *PutRequest_Body) StableSize() (size int) { if x == nil { return 0 } if inner, ok := x.ObjectPart.(*PutRequest_Body_Init_); ok { size += proto.NestedStructureSize(1, inner.Init) } if inner, ok := x.ObjectPart.(*PutRequest_Body_Chunk); ok { size += proto.BytesSize(2, inner.Chunk) } return size } // MarshalProtobuf implements the encoding.ProtoMarshaler interface. func (x *PutRequest_Body) MarshalProtobuf(dst []byte) []byte { m := pool.MarshalerPool.Get() defer pool.MarshalerPool.Put(m) x.EmitProtobuf(m.MessageMarshaler()) dst = m.Marshal(dst) return dst } func (x *PutRequest_Body) EmitProtobuf(mm *easyproto.MessageMarshaler) { if x == nil { return } if inner, ok := x.ObjectPart.(*PutRequest_Body_Init_); ok { if inner.Init != nil && inner.Init.StableSize() != 0 { inner.Init.EmitProtobuf(mm.AppendMessage(1)) } } if inner, ok := x.ObjectPart.(*PutRequest_Body_Chunk); ok { if len(inner.Chunk) != 0 { mm.AppendBytes(2, inner.Chunk) } } } // UnmarshalProtobuf implements the encoding.ProtoUnmarshaler interface. func (x *PutRequest_Body) UnmarshalProtobuf(src []byte) (err error) { var fc easyproto.FieldContext for len(src) > 0 { src, err = fc.NextField(src) if err != nil { return fmt.Errorf("cannot read next field in %s", "PutRequest_Body") } switch fc.FieldNum { case 1: // Init data, ok := fc.MessageData() if !ok { return fmt.Errorf("cannot unmarshal field %s", "Init") } oneofField := &PutRequest_Body_Init_{Init: new(PutRequest_Body_Init)} if err := oneofField.Init.UnmarshalProtobuf(data); err != nil { return fmt.Errorf("unmarshal: %w", err) } x.ObjectPart = oneofField case 2: // Chunk data, ok := fc.Bytes() if !ok { return fmt.Errorf("cannot unmarshal field %s", "Chunk") } x.ObjectPart = &PutRequest_Body_Chunk{Chunk: data} } } return nil } func (x *PutRequest_Body) GetObjectPart() isPutRequest_Body_ObjectPart { if x != nil { return x.ObjectPart } return nil } func (x *PutRequest_Body) SetObjectPart(v isPutRequest_Body_ObjectPart) { x.ObjectPart = v } func (x *PutRequest_Body) GetInit() *PutRequest_Body_Init { if xx, ok := x.GetObjectPart().(*PutRequest_Body_Init_); ok { return xx.Init } return nil } func (x *PutRequest_Body) SetInit(v *PutRequest_Body_Init) { x.ObjectPart = &PutRequest_Body_Init_{Init: v} } func (x *PutRequest_Body) GetChunk() *PutRequest_Body_Chunk { if xx, ok := x.GetObjectPart().(*PutRequest_Body_Chunk); ok { return xx } return nil } func (x *PutRequest_Body) SetChunk(v *PutRequest_Body_Chunk) { x.ObjectPart = v } func (x *PutRequest_Body_Chunk) GetChunk() []byte { if x != nil { return x.Chunk } return nil } func (x *PutRequest_Body_Chunk) SetChunk(v []byte) { x.Chunk = v } // MarshalJSON implements the json.Marshaler interface. func (x *PutRequest_Body) MarshalJSON() ([]byte, error) { w := jwriter.Writer{} x.MarshalEasyJSON(&w) return w.Buffer.BuildBytes(), w.Error } func (x *PutRequest_Body) MarshalEasyJSON(out *jwriter.Writer) { if x == nil { out.RawString("null") return } out.RawByte('{') switch xx := x.ObjectPart.(type) { case *PutRequest_Body_Init_: { const prefix string = ",\"init\":" out.RawString(prefix[1:]) xx.Init.MarshalEasyJSON(out) } case *PutRequest_Body_Chunk: { const prefix string = ",\"chunk\":" out.RawString(prefix[1:]) out.Base64Bytes(xx.Chunk) } default: out.RawString("null") } out.RawByte('}') } // UnmarshalJSON implements the json.Unmarshaler interface. func (x *PutRequest_Body) UnmarshalJSON(data []byte) error { r := jlexer.Lexer{Data: data} x.UnmarshalEasyJSON(&r) return r.Error() } func (x *PutRequest_Body) UnmarshalEasyJSON(in *jlexer.Lexer) { isTopLevel := in.IsStart() if in.IsNull() { if isTopLevel { in.Consumed() } in.Skip() return } in.Delim('{') for !in.IsDelim('}') { key := in.UnsafeFieldName(false) in.WantColon() if in.IsNull() { in.Skip() in.WantComma() continue } switch key { case "init": xx := new(PutRequest_Body_Init_) x.ObjectPart = xx { var f *PutRequest_Body_Init f = new(PutRequest_Body_Init) f.UnmarshalEasyJSON(in) xx.Init = f } case "chunk": xx := new(PutRequest_Body_Chunk) x.ObjectPart = xx { var f []byte f = in.Bytes() xx.Chunk = f } } in.WantComma() } in.Delim('}') if isTopLevel { in.Consumed() } } type isPutRequest_Body_ObjectPart interface { isPutRequest_Body_ObjectPart() } type PutRequest_Body_Init_ struct { Init *PutRequest_Body_Init } type PutRequest_Body_Chunk struct { Chunk []byte } func (*PutRequest_Body_Init_) isPutRequest_Body_ObjectPart() {} func (*PutRequest_Body_Chunk) isPutRequest_Body_ObjectPart() {} type PutRequest struct { Body *PutRequest_Body `json:"body"` MetaHeader *grpc1.RequestMetaHeader `json:"metaHeader"` VerifyHeader *grpc1.RequestVerificationHeader `json:"verifyHeader"` } var ( _ encoding.ProtoMarshaler = (*PutRequest)(nil) _ encoding.ProtoUnmarshaler = (*PutRequest)(nil) _ json.Marshaler = (*PutRequest)(nil) _ json.Unmarshaler = (*PutRequest)(nil) ) // StableSize returns the size of x in protobuf format. // // Structures with the same field values have the same binary size. func (x *PutRequest) StableSize() (size int) { if x == nil { return 0 } size += proto.NestedStructureSize(1, x.Body) size += proto.NestedStructureSize(2, x.MetaHeader) size += proto.NestedStructureSize(3, x.VerifyHeader) return size } // ReadSignedData fills buf with signed data of x. // If buffer length is less than x.SignedDataSize(), new buffer is allocated. // // Returns any error encountered which did not allow writing the data completely. // Otherwise, returns the buffer in which the data is written. // // Structures with the same field values have the same signed data. func (x *PutRequest) SignedDataSize() int { return x.GetBody().StableSize() } // SignedDataSize returns size of the request signed data in bytes. // // Structures with the same field values have the same signed data size. func (x *PutRequest) ReadSignedData(buf []byte) ([]byte, error) { return x.GetBody().MarshalProtobuf(buf), nil } // MarshalProtobuf implements the encoding.ProtoMarshaler interface. func (x *PutRequest) MarshalProtobuf(dst []byte) []byte { m := pool.MarshalerPool.Get() defer pool.MarshalerPool.Put(m) x.EmitProtobuf(m.MessageMarshaler()) dst = m.Marshal(dst) return dst } func (x *PutRequest) EmitProtobuf(mm *easyproto.MessageMarshaler) { if x == nil { return } if x.Body != nil && x.Body.StableSize() != 0 { x.Body.EmitProtobuf(mm.AppendMessage(1)) } if x.MetaHeader != nil && x.MetaHeader.StableSize() != 0 { x.MetaHeader.EmitProtobuf(mm.AppendMessage(2)) } if x.VerifyHeader != nil && x.VerifyHeader.StableSize() != 0 { x.VerifyHeader.EmitProtobuf(mm.AppendMessage(3)) } } // UnmarshalProtobuf implements the encoding.ProtoUnmarshaler interface. func (x *PutRequest) UnmarshalProtobuf(src []byte) (err error) { var fc easyproto.FieldContext for len(src) > 0 { src, err = fc.NextField(src) if err != nil { return fmt.Errorf("cannot read next field in %s", "PutRequest") } switch fc.FieldNum { case 1: // Body data, ok := fc.MessageData() if !ok { return fmt.Errorf("cannot unmarshal field %s", "Body") } x.Body = new(PutRequest_Body) if err := x.Body.UnmarshalProtobuf(data); err != nil { return fmt.Errorf("unmarshal: %w", err) } case 2: // MetaHeader data, ok := fc.MessageData() if !ok { return fmt.Errorf("cannot unmarshal field %s", "MetaHeader") } x.MetaHeader = new(grpc1.RequestMetaHeader) if err := x.MetaHeader.UnmarshalProtobuf(data); err != nil { return fmt.Errorf("unmarshal: %w", err) } case 3: // VerifyHeader data, ok := fc.MessageData() if !ok { return fmt.Errorf("cannot unmarshal field %s", "VerifyHeader") } x.VerifyHeader = new(grpc1.RequestVerificationHeader) if err := x.VerifyHeader.UnmarshalProtobuf(data); err != nil { return fmt.Errorf("unmarshal: %w", err) } } } return nil } func (x *PutRequest) GetBody() *PutRequest_Body { if x != nil { return x.Body } return nil } func (x *PutRequest) SetBody(v *PutRequest_Body) { x.Body = v } func (x *PutRequest) GetMetaHeader() *grpc1.RequestMetaHeader { if x != nil { return x.MetaHeader } return nil } func (x *PutRequest) SetMetaHeader(v *grpc1.RequestMetaHeader) { x.MetaHeader = v } func (x *PutRequest) GetVerifyHeader() *grpc1.RequestVerificationHeader { if x != nil { return x.VerifyHeader } return nil } func (x *PutRequest) SetVerifyHeader(v *grpc1.RequestVerificationHeader) { x.VerifyHeader = v } // MarshalJSON implements the json.Marshaler interface. func (x *PutRequest) MarshalJSON() ([]byte, error) { w := jwriter.Writer{} x.MarshalEasyJSON(&w) return w.Buffer.BuildBytes(), w.Error } func (x *PutRequest) MarshalEasyJSON(out *jwriter.Writer) { if x == nil { out.RawString("null") return } out.RawByte('{') { const prefix string = ",\"body\":" out.RawString(prefix[1:]) x.Body.MarshalEasyJSON(out) } { const prefix string = ",\"metaHeader\":" out.RawString(prefix) x.MetaHeader.MarshalEasyJSON(out) } { const prefix string = ",\"verifyHeader\":" out.RawString(prefix) x.VerifyHeader.MarshalEasyJSON(out) } out.RawByte('}') } // UnmarshalJSON implements the json.Unmarshaler interface. func (x *PutRequest) UnmarshalJSON(data []byte) error { r := jlexer.Lexer{Data: data} x.UnmarshalEasyJSON(&r) return r.Error() } func (x *PutRequest) UnmarshalEasyJSON(in *jlexer.Lexer) { isTopLevel := in.IsStart() if in.IsNull() { if isTopLevel { in.Consumed() } in.Skip() return } in.Delim('{') for !in.IsDelim('}') { key := in.UnsafeFieldName(false) in.WantColon() if in.IsNull() { in.Skip() in.WantComma() continue } switch key { case "body": { var f *PutRequest_Body f = new(PutRequest_Body) f.UnmarshalEasyJSON(in) x.Body = f } case "metaHeader": { var f *grpc1.RequestMetaHeader f = new(grpc1.RequestMetaHeader) f.UnmarshalEasyJSON(in) x.MetaHeader = f } case "verifyHeader": { var f *grpc1.RequestVerificationHeader f = new(grpc1.RequestVerificationHeader) f.UnmarshalEasyJSON(in) x.VerifyHeader = f } } in.WantComma() } in.Delim('}') if isTopLevel { in.Consumed() } } type PutResponse_Body struct { ObjectId *grpc.ObjectID `json:"objectId"` } var ( _ encoding.ProtoMarshaler = (*PutResponse_Body)(nil) _ encoding.ProtoUnmarshaler = (*PutResponse_Body)(nil) _ json.Marshaler = (*PutResponse_Body)(nil) _ json.Unmarshaler = (*PutResponse_Body)(nil) ) // StableSize returns the size of x in protobuf format. // // Structures with the same field values have the same binary size. func (x *PutResponse_Body) StableSize() (size int) { if x == nil { return 0 } size += proto.NestedStructureSize(1, x.ObjectId) return size } // MarshalProtobuf implements the encoding.ProtoMarshaler interface. func (x *PutResponse_Body) MarshalProtobuf(dst []byte) []byte { m := pool.MarshalerPool.Get() defer pool.MarshalerPool.Put(m) x.EmitProtobuf(m.MessageMarshaler()) dst = m.Marshal(dst) return dst } func (x *PutResponse_Body) EmitProtobuf(mm *easyproto.MessageMarshaler) { if x == nil { return } if x.ObjectId != nil && x.ObjectId.StableSize() != 0 { x.ObjectId.EmitProtobuf(mm.AppendMessage(1)) } } // UnmarshalProtobuf implements the encoding.ProtoUnmarshaler interface. func (x *PutResponse_Body) UnmarshalProtobuf(src []byte) (err error) { var fc easyproto.FieldContext for len(src) > 0 { src, err = fc.NextField(src) if err != nil { return fmt.Errorf("cannot read next field in %s", "PutResponse_Body") } switch fc.FieldNum { case 1: // ObjectId data, ok := fc.MessageData() if !ok { return fmt.Errorf("cannot unmarshal field %s", "ObjectId") } x.ObjectId = new(grpc.ObjectID) if err := x.ObjectId.UnmarshalProtobuf(data); err != nil { return fmt.Errorf("unmarshal: %w", err) } } } return nil } func (x *PutResponse_Body) GetObjectId() *grpc.ObjectID { if x != nil { return x.ObjectId } return nil } func (x *PutResponse_Body) SetObjectId(v *grpc.ObjectID) { x.ObjectId = v } // MarshalJSON implements the json.Marshaler interface. func (x *PutResponse_Body) MarshalJSON() ([]byte, error) { w := jwriter.Writer{} x.MarshalEasyJSON(&w) return w.Buffer.BuildBytes(), w.Error } func (x *PutResponse_Body) MarshalEasyJSON(out *jwriter.Writer) { if x == nil { out.RawString("null") return } out.RawByte('{') { const prefix string = ",\"objectId\":" out.RawString(prefix[1:]) x.ObjectId.MarshalEasyJSON(out) } out.RawByte('}') } // UnmarshalJSON implements the json.Unmarshaler interface. func (x *PutResponse_Body) UnmarshalJSON(data []byte) error { r := jlexer.Lexer{Data: data} x.UnmarshalEasyJSON(&r) return r.Error() } func (x *PutResponse_Body) UnmarshalEasyJSON(in *jlexer.Lexer) { isTopLevel := in.IsStart() if in.IsNull() { if isTopLevel { in.Consumed() } in.Skip() return } in.Delim('{') for !in.IsDelim('}') { key := in.UnsafeFieldName(false) in.WantColon() if in.IsNull() { in.Skip() in.WantComma() continue } switch key { case "objectId": { var f *grpc.ObjectID f = new(grpc.ObjectID) f.UnmarshalEasyJSON(in) x.ObjectId = f } } in.WantComma() } in.Delim('}') if isTopLevel { in.Consumed() } } type PutResponse struct { Body *PutResponse_Body `json:"body"` MetaHeader *grpc1.ResponseMetaHeader `json:"metaHeader"` VerifyHeader *grpc1.ResponseVerificationHeader `json:"verifyHeader"` } var ( _ encoding.ProtoMarshaler = (*PutResponse)(nil) _ encoding.ProtoUnmarshaler = (*PutResponse)(nil) _ json.Marshaler = (*PutResponse)(nil) _ json.Unmarshaler = (*PutResponse)(nil) ) // StableSize returns the size of x in protobuf format. // // Structures with the same field values have the same binary size. func (x *PutResponse) StableSize() (size int) { if x == nil { return 0 } size += proto.NestedStructureSize(1, x.Body) size += proto.NestedStructureSize(2, x.MetaHeader) size += proto.NestedStructureSize(3, x.VerifyHeader) return size } // ReadSignedData fills buf with signed data of x. // If buffer length is less than x.SignedDataSize(), new buffer is allocated. // // Returns any error encountered which did not allow writing the data completely. // Otherwise, returns the buffer in which the data is written. // // Structures with the same field values have the same signed data. func (x *PutResponse) SignedDataSize() int { return x.GetBody().StableSize() } // SignedDataSize returns size of the request signed data in bytes. // // Structures with the same field values have the same signed data size. func (x *PutResponse) ReadSignedData(buf []byte) ([]byte, error) { return x.GetBody().MarshalProtobuf(buf), nil } // MarshalProtobuf implements the encoding.ProtoMarshaler interface. func (x *PutResponse) MarshalProtobuf(dst []byte) []byte { m := pool.MarshalerPool.Get() defer pool.MarshalerPool.Put(m) x.EmitProtobuf(m.MessageMarshaler()) dst = m.Marshal(dst) return dst } func (x *PutResponse) EmitProtobuf(mm *easyproto.MessageMarshaler) { if x == nil { return } if x.Body != nil && x.Body.StableSize() != 0 { x.Body.EmitProtobuf(mm.AppendMessage(1)) } if x.MetaHeader != nil && x.MetaHeader.StableSize() != 0 { x.MetaHeader.EmitProtobuf(mm.AppendMessage(2)) } if x.VerifyHeader != nil && x.VerifyHeader.StableSize() != 0 { x.VerifyHeader.EmitProtobuf(mm.AppendMessage(3)) } } // UnmarshalProtobuf implements the encoding.ProtoUnmarshaler interface. func (x *PutResponse) UnmarshalProtobuf(src []byte) (err error) { var fc easyproto.FieldContext for len(src) > 0 { src, err = fc.NextField(src) if err != nil { return fmt.Errorf("cannot read next field in %s", "PutResponse") } switch fc.FieldNum { case 1: // Body data, ok := fc.MessageData() if !ok { return fmt.Errorf("cannot unmarshal field %s", "Body") } x.Body = new(PutResponse_Body) if err := x.Body.UnmarshalProtobuf(data); err != nil { return fmt.Errorf("unmarshal: %w", err) } case 2: // MetaHeader data, ok := fc.MessageData() if !ok { return fmt.Errorf("cannot unmarshal field %s", "MetaHeader") } x.MetaHeader = new(grpc1.ResponseMetaHeader) if err := x.MetaHeader.UnmarshalProtobuf(data); err != nil { return fmt.Errorf("unmarshal: %w", err) } case 3: // VerifyHeader data, ok := fc.MessageData() if !ok { return fmt.Errorf("cannot unmarshal field %s", "VerifyHeader") } x.VerifyHeader = new(grpc1.ResponseVerificationHeader) if err := x.VerifyHeader.UnmarshalProtobuf(data); err != nil { return fmt.Errorf("unmarshal: %w", err) } } } return nil } func (x *PutResponse) GetBody() *PutResponse_Body { if x != nil { return x.Body } return nil } func (x *PutResponse) SetBody(v *PutResponse_Body) { x.Body = v } func (x *PutResponse) GetMetaHeader() *grpc1.ResponseMetaHeader { if x != nil { return x.MetaHeader } return nil } func (x *PutResponse) SetMetaHeader(v *grpc1.ResponseMetaHeader) { x.MetaHeader = v } func (x *PutResponse) GetVerifyHeader() *grpc1.ResponseVerificationHeader { if x != nil { return x.VerifyHeader } return nil } func (x *PutResponse) SetVerifyHeader(v *grpc1.ResponseVerificationHeader) { x.VerifyHeader = v } // MarshalJSON implements the json.Marshaler interface. func (x *PutResponse) MarshalJSON() ([]byte, error) { w := jwriter.Writer{} x.MarshalEasyJSON(&w) return w.Buffer.BuildBytes(), w.Error } func (x *PutResponse) MarshalEasyJSON(out *jwriter.Writer) { if x == nil { out.RawString("null") return } out.RawByte('{') { const prefix string = ",\"body\":" out.RawString(prefix[1:]) x.Body.MarshalEasyJSON(out) } { const prefix string = ",\"metaHeader\":" out.RawString(prefix) x.MetaHeader.MarshalEasyJSON(out) } { const prefix string = ",\"verifyHeader\":" out.RawString(prefix) x.VerifyHeader.MarshalEasyJSON(out) } out.RawByte('}') } // UnmarshalJSON implements the json.Unmarshaler interface. func (x *PutResponse) UnmarshalJSON(data []byte) error { r := jlexer.Lexer{Data: data} x.UnmarshalEasyJSON(&r) return r.Error() } func (x *PutResponse) UnmarshalEasyJSON(in *jlexer.Lexer) { isTopLevel := in.IsStart() if in.IsNull() { if isTopLevel { in.Consumed() } in.Skip() return } in.Delim('{') for !in.IsDelim('}') { key := in.UnsafeFieldName(false) in.WantColon() if in.IsNull() { in.Skip() in.WantComma() continue } switch key { case "body": { var f *PutResponse_Body f = new(PutResponse_Body) f.UnmarshalEasyJSON(in) x.Body = f } case "metaHeader": { var f *grpc1.ResponseMetaHeader f = new(grpc1.ResponseMetaHeader) f.UnmarshalEasyJSON(in) x.MetaHeader = f } case "verifyHeader": { var f *grpc1.ResponseVerificationHeader f = new(grpc1.ResponseVerificationHeader) f.UnmarshalEasyJSON(in) x.VerifyHeader = f } } in.WantComma() } in.Delim('}') if isTopLevel { in.Consumed() } } type DeleteRequest_Body struct { Address *grpc.Address `json:"address"` } var ( _ encoding.ProtoMarshaler = (*DeleteRequest_Body)(nil) _ encoding.ProtoUnmarshaler = (*DeleteRequest_Body)(nil) _ json.Marshaler = (*DeleteRequest_Body)(nil) _ json.Unmarshaler = (*DeleteRequest_Body)(nil) ) // StableSize returns the size of x in protobuf format. // // Structures with the same field values have the same binary size. func (x *DeleteRequest_Body) StableSize() (size int) { if x == nil { return 0 } size += proto.NestedStructureSize(1, x.Address) return size } // MarshalProtobuf implements the encoding.ProtoMarshaler interface. func (x *DeleteRequest_Body) MarshalProtobuf(dst []byte) []byte { m := pool.MarshalerPool.Get() defer pool.MarshalerPool.Put(m) x.EmitProtobuf(m.MessageMarshaler()) dst = m.Marshal(dst) return dst } func (x *DeleteRequest_Body) EmitProtobuf(mm *easyproto.MessageMarshaler) { if x == nil { return } if x.Address != nil && x.Address.StableSize() != 0 { x.Address.EmitProtobuf(mm.AppendMessage(1)) } } // UnmarshalProtobuf implements the encoding.ProtoUnmarshaler interface. func (x *DeleteRequest_Body) UnmarshalProtobuf(src []byte) (err error) { var fc easyproto.FieldContext for len(src) > 0 { src, err = fc.NextField(src) if err != nil { return fmt.Errorf("cannot read next field in %s", "DeleteRequest_Body") } switch fc.FieldNum { case 1: // Address data, ok := fc.MessageData() if !ok { return fmt.Errorf("cannot unmarshal field %s", "Address") } x.Address = new(grpc.Address) if err := x.Address.UnmarshalProtobuf(data); err != nil { return fmt.Errorf("unmarshal: %w", err) } } } return nil } func (x *DeleteRequest_Body) GetAddress() *grpc.Address { if x != nil { return x.Address } return nil } func (x *DeleteRequest_Body) SetAddress(v *grpc.Address) { x.Address = v } // MarshalJSON implements the json.Marshaler interface. func (x *DeleteRequest_Body) MarshalJSON() ([]byte, error) { w := jwriter.Writer{} x.MarshalEasyJSON(&w) return w.Buffer.BuildBytes(), w.Error } func (x *DeleteRequest_Body) MarshalEasyJSON(out *jwriter.Writer) { if x == nil { out.RawString("null") return } out.RawByte('{') { const prefix string = ",\"address\":" out.RawString(prefix[1:]) x.Address.MarshalEasyJSON(out) } out.RawByte('}') } // UnmarshalJSON implements the json.Unmarshaler interface. func (x *DeleteRequest_Body) UnmarshalJSON(data []byte) error { r := jlexer.Lexer{Data: data} x.UnmarshalEasyJSON(&r) return r.Error() } func (x *DeleteRequest_Body) UnmarshalEasyJSON(in *jlexer.Lexer) { isTopLevel := in.IsStart() if in.IsNull() { if isTopLevel { in.Consumed() } in.Skip() return } in.Delim('{') for !in.IsDelim('}') { key := in.UnsafeFieldName(false) in.WantColon() if in.IsNull() { in.Skip() in.WantComma() continue } switch key { case "address": { var f *grpc.Address f = new(grpc.Address) f.UnmarshalEasyJSON(in) x.Address = f } } in.WantComma() } in.Delim('}') if isTopLevel { in.Consumed() } } type DeleteRequest struct { Body *DeleteRequest_Body `json:"body"` MetaHeader *grpc1.RequestMetaHeader `json:"metaHeader"` VerifyHeader *grpc1.RequestVerificationHeader `json:"verifyHeader"` } var ( _ encoding.ProtoMarshaler = (*DeleteRequest)(nil) _ encoding.ProtoUnmarshaler = (*DeleteRequest)(nil) _ json.Marshaler = (*DeleteRequest)(nil) _ json.Unmarshaler = (*DeleteRequest)(nil) ) // StableSize returns the size of x in protobuf format. // // Structures with the same field values have the same binary size. func (x *DeleteRequest) StableSize() (size int) { if x == nil { return 0 } size += proto.NestedStructureSize(1, x.Body) size += proto.NestedStructureSize(2, x.MetaHeader) size += proto.NestedStructureSize(3, x.VerifyHeader) return size } // ReadSignedData fills buf with signed data of x. // If buffer length is less than x.SignedDataSize(), new buffer is allocated. // // Returns any error encountered which did not allow writing the data completely. // Otherwise, returns the buffer in which the data is written. // // Structures with the same field values have the same signed data. func (x *DeleteRequest) SignedDataSize() int { return x.GetBody().StableSize() } // SignedDataSize returns size of the request signed data in bytes. // // Structures with the same field values have the same signed data size. func (x *DeleteRequest) ReadSignedData(buf []byte) ([]byte, error) { return x.GetBody().MarshalProtobuf(buf), nil } // MarshalProtobuf implements the encoding.ProtoMarshaler interface. func (x *DeleteRequest) MarshalProtobuf(dst []byte) []byte { m := pool.MarshalerPool.Get() defer pool.MarshalerPool.Put(m) x.EmitProtobuf(m.MessageMarshaler()) dst = m.Marshal(dst) return dst } func (x *DeleteRequest) EmitProtobuf(mm *easyproto.MessageMarshaler) { if x == nil { return } if x.Body != nil && x.Body.StableSize() != 0 { x.Body.EmitProtobuf(mm.AppendMessage(1)) } if x.MetaHeader != nil && x.MetaHeader.StableSize() != 0 { x.MetaHeader.EmitProtobuf(mm.AppendMessage(2)) } if x.VerifyHeader != nil && x.VerifyHeader.StableSize() != 0 { x.VerifyHeader.EmitProtobuf(mm.AppendMessage(3)) } } // UnmarshalProtobuf implements the encoding.ProtoUnmarshaler interface. func (x *DeleteRequest) UnmarshalProtobuf(src []byte) (err error) { var fc easyproto.FieldContext for len(src) > 0 { src, err = fc.NextField(src) if err != nil { return fmt.Errorf("cannot read next field in %s", "DeleteRequest") } switch fc.FieldNum { case 1: // Body data, ok := fc.MessageData() if !ok { return fmt.Errorf("cannot unmarshal field %s", "Body") } x.Body = new(DeleteRequest_Body) if err := x.Body.UnmarshalProtobuf(data); err != nil { return fmt.Errorf("unmarshal: %w", err) } case 2: // MetaHeader data, ok := fc.MessageData() if !ok { return fmt.Errorf("cannot unmarshal field %s", "MetaHeader") } x.MetaHeader = new(grpc1.RequestMetaHeader) if err := x.MetaHeader.UnmarshalProtobuf(data); err != nil { return fmt.Errorf("unmarshal: %w", err) } case 3: // VerifyHeader data, ok := fc.MessageData() if !ok { return fmt.Errorf("cannot unmarshal field %s", "VerifyHeader") } x.VerifyHeader = new(grpc1.RequestVerificationHeader) if err := x.VerifyHeader.UnmarshalProtobuf(data); err != nil { return fmt.Errorf("unmarshal: %w", err) } } } return nil } func (x *DeleteRequest) GetBody() *DeleteRequest_Body { if x != nil { return x.Body } return nil } func (x *DeleteRequest) SetBody(v *DeleteRequest_Body) { x.Body = v } func (x *DeleteRequest) GetMetaHeader() *grpc1.RequestMetaHeader { if x != nil { return x.MetaHeader } return nil } func (x *DeleteRequest) SetMetaHeader(v *grpc1.RequestMetaHeader) { x.MetaHeader = v } func (x *DeleteRequest) GetVerifyHeader() *grpc1.RequestVerificationHeader { if x != nil { return x.VerifyHeader } return nil } func (x *DeleteRequest) SetVerifyHeader(v *grpc1.RequestVerificationHeader) { x.VerifyHeader = v } // MarshalJSON implements the json.Marshaler interface. func (x *DeleteRequest) MarshalJSON() ([]byte, error) { w := jwriter.Writer{} x.MarshalEasyJSON(&w) return w.Buffer.BuildBytes(), w.Error } func (x *DeleteRequest) MarshalEasyJSON(out *jwriter.Writer) { if x == nil { out.RawString("null") return } out.RawByte('{') { const prefix string = ",\"body\":" out.RawString(prefix[1:]) x.Body.MarshalEasyJSON(out) } { const prefix string = ",\"metaHeader\":" out.RawString(prefix) x.MetaHeader.MarshalEasyJSON(out) } { const prefix string = ",\"verifyHeader\":" out.RawString(prefix) x.VerifyHeader.MarshalEasyJSON(out) } out.RawByte('}') } // UnmarshalJSON implements the json.Unmarshaler interface. func (x *DeleteRequest) UnmarshalJSON(data []byte) error { r := jlexer.Lexer{Data: data} x.UnmarshalEasyJSON(&r) return r.Error() } func (x *DeleteRequest) UnmarshalEasyJSON(in *jlexer.Lexer) { isTopLevel := in.IsStart() if in.IsNull() { if isTopLevel { in.Consumed() } in.Skip() return } in.Delim('{') for !in.IsDelim('}') { key := in.UnsafeFieldName(false) in.WantColon() if in.IsNull() { in.Skip() in.WantComma() continue } switch key { case "body": { var f *DeleteRequest_Body f = new(DeleteRequest_Body) f.UnmarshalEasyJSON(in) x.Body = f } case "metaHeader": { var f *grpc1.RequestMetaHeader f = new(grpc1.RequestMetaHeader) f.UnmarshalEasyJSON(in) x.MetaHeader = f } case "verifyHeader": { var f *grpc1.RequestVerificationHeader f = new(grpc1.RequestVerificationHeader) f.UnmarshalEasyJSON(in) x.VerifyHeader = f } } in.WantComma() } in.Delim('}') if isTopLevel { in.Consumed() } } type DeleteResponse_Body struct { Tombstone *grpc.Address `json:"tombstone"` } var ( _ encoding.ProtoMarshaler = (*DeleteResponse_Body)(nil) _ encoding.ProtoUnmarshaler = (*DeleteResponse_Body)(nil) _ json.Marshaler = (*DeleteResponse_Body)(nil) _ json.Unmarshaler = (*DeleteResponse_Body)(nil) ) // StableSize returns the size of x in protobuf format. // // Structures with the same field values have the same binary size. func (x *DeleteResponse_Body) StableSize() (size int) { if x == nil { return 0 } size += proto.NestedStructureSize(1, x.Tombstone) return size } // MarshalProtobuf implements the encoding.ProtoMarshaler interface. func (x *DeleteResponse_Body) MarshalProtobuf(dst []byte) []byte { m := pool.MarshalerPool.Get() defer pool.MarshalerPool.Put(m) x.EmitProtobuf(m.MessageMarshaler()) dst = m.Marshal(dst) return dst } func (x *DeleteResponse_Body) EmitProtobuf(mm *easyproto.MessageMarshaler) { if x == nil { return } if x.Tombstone != nil && x.Tombstone.StableSize() != 0 { x.Tombstone.EmitProtobuf(mm.AppendMessage(1)) } } // UnmarshalProtobuf implements the encoding.ProtoUnmarshaler interface. func (x *DeleteResponse_Body) UnmarshalProtobuf(src []byte) (err error) { var fc easyproto.FieldContext for len(src) > 0 { src, err = fc.NextField(src) if err != nil { return fmt.Errorf("cannot read next field in %s", "DeleteResponse_Body") } switch fc.FieldNum { case 1: // Tombstone data, ok := fc.MessageData() if !ok { return fmt.Errorf("cannot unmarshal field %s", "Tombstone") } x.Tombstone = new(grpc.Address) if err := x.Tombstone.UnmarshalProtobuf(data); err != nil { return fmt.Errorf("unmarshal: %w", err) } } } return nil } func (x *DeleteResponse_Body) GetTombstone() *grpc.Address { if x != nil { return x.Tombstone } return nil } func (x *DeleteResponse_Body) SetTombstone(v *grpc.Address) { x.Tombstone = v } // MarshalJSON implements the json.Marshaler interface. func (x *DeleteResponse_Body) MarshalJSON() ([]byte, error) { w := jwriter.Writer{} x.MarshalEasyJSON(&w) return w.Buffer.BuildBytes(), w.Error } func (x *DeleteResponse_Body) MarshalEasyJSON(out *jwriter.Writer) { if x == nil { out.RawString("null") return } out.RawByte('{') { const prefix string = ",\"tombstone\":" out.RawString(prefix[1:]) x.Tombstone.MarshalEasyJSON(out) } out.RawByte('}') } // UnmarshalJSON implements the json.Unmarshaler interface. func (x *DeleteResponse_Body) UnmarshalJSON(data []byte) error { r := jlexer.Lexer{Data: data} x.UnmarshalEasyJSON(&r) return r.Error() } func (x *DeleteResponse_Body) UnmarshalEasyJSON(in *jlexer.Lexer) { isTopLevel := in.IsStart() if in.IsNull() { if isTopLevel { in.Consumed() } in.Skip() return } in.Delim('{') for !in.IsDelim('}') { key := in.UnsafeFieldName(false) in.WantColon() if in.IsNull() { in.Skip() in.WantComma() continue } switch key { case "tombstone": { var f *grpc.Address f = new(grpc.Address) f.UnmarshalEasyJSON(in) x.Tombstone = f } } in.WantComma() } in.Delim('}') if isTopLevel { in.Consumed() } } type DeleteResponse struct { Body *DeleteResponse_Body `json:"body"` MetaHeader *grpc1.ResponseMetaHeader `json:"metaHeader"` VerifyHeader *grpc1.ResponseVerificationHeader `json:"verifyHeader"` } var ( _ encoding.ProtoMarshaler = (*DeleteResponse)(nil) _ encoding.ProtoUnmarshaler = (*DeleteResponse)(nil) _ json.Marshaler = (*DeleteResponse)(nil) _ json.Unmarshaler = (*DeleteResponse)(nil) ) // StableSize returns the size of x in protobuf format. // // Structures with the same field values have the same binary size. func (x *DeleteResponse) StableSize() (size int) { if x == nil { return 0 } size += proto.NestedStructureSize(1, x.Body) size += proto.NestedStructureSize(2, x.MetaHeader) size += proto.NestedStructureSize(3, x.VerifyHeader) return size } // ReadSignedData fills buf with signed data of x. // If buffer length is less than x.SignedDataSize(), new buffer is allocated. // // Returns any error encountered which did not allow writing the data completely. // Otherwise, returns the buffer in which the data is written. // // Structures with the same field values have the same signed data. func (x *DeleteResponse) SignedDataSize() int { return x.GetBody().StableSize() } // SignedDataSize returns size of the request signed data in bytes. // // Structures with the same field values have the same signed data size. func (x *DeleteResponse) ReadSignedData(buf []byte) ([]byte, error) { return x.GetBody().MarshalProtobuf(buf), nil } // MarshalProtobuf implements the encoding.ProtoMarshaler interface. func (x *DeleteResponse) MarshalProtobuf(dst []byte) []byte { m := pool.MarshalerPool.Get() defer pool.MarshalerPool.Put(m) x.EmitProtobuf(m.MessageMarshaler()) dst = m.Marshal(dst) return dst } func (x *DeleteResponse) EmitProtobuf(mm *easyproto.MessageMarshaler) { if x == nil { return } if x.Body != nil && x.Body.StableSize() != 0 { x.Body.EmitProtobuf(mm.AppendMessage(1)) } if x.MetaHeader != nil && x.MetaHeader.StableSize() != 0 { x.MetaHeader.EmitProtobuf(mm.AppendMessage(2)) } if x.VerifyHeader != nil && x.VerifyHeader.StableSize() != 0 { x.VerifyHeader.EmitProtobuf(mm.AppendMessage(3)) } } // UnmarshalProtobuf implements the encoding.ProtoUnmarshaler interface. func (x *DeleteResponse) UnmarshalProtobuf(src []byte) (err error) { var fc easyproto.FieldContext for len(src) > 0 { src, err = fc.NextField(src) if err != nil { return fmt.Errorf("cannot read next field in %s", "DeleteResponse") } switch fc.FieldNum { case 1: // Body data, ok := fc.MessageData() if !ok { return fmt.Errorf("cannot unmarshal field %s", "Body") } x.Body = new(DeleteResponse_Body) if err := x.Body.UnmarshalProtobuf(data); err != nil { return fmt.Errorf("unmarshal: %w", err) } case 2: // MetaHeader data, ok := fc.MessageData() if !ok { return fmt.Errorf("cannot unmarshal field %s", "MetaHeader") } x.MetaHeader = new(grpc1.ResponseMetaHeader) if err := x.MetaHeader.UnmarshalProtobuf(data); err != nil { return fmt.Errorf("unmarshal: %w", err) } case 3: // VerifyHeader data, ok := fc.MessageData() if !ok { return fmt.Errorf("cannot unmarshal field %s", "VerifyHeader") } x.VerifyHeader = new(grpc1.ResponseVerificationHeader) if err := x.VerifyHeader.UnmarshalProtobuf(data); err != nil { return fmt.Errorf("unmarshal: %w", err) } } } return nil } func (x *DeleteResponse) GetBody() *DeleteResponse_Body { if x != nil { return x.Body } return nil } func (x *DeleteResponse) SetBody(v *DeleteResponse_Body) { x.Body = v } func (x *DeleteResponse) GetMetaHeader() *grpc1.ResponseMetaHeader { if x != nil { return x.MetaHeader } return nil } func (x *DeleteResponse) SetMetaHeader(v *grpc1.ResponseMetaHeader) { x.MetaHeader = v } func (x *DeleteResponse) GetVerifyHeader() *grpc1.ResponseVerificationHeader { if x != nil { return x.VerifyHeader } return nil } func (x *DeleteResponse) SetVerifyHeader(v *grpc1.ResponseVerificationHeader) { x.VerifyHeader = v } // MarshalJSON implements the json.Marshaler interface. func (x *DeleteResponse) MarshalJSON() ([]byte, error) { w := jwriter.Writer{} x.MarshalEasyJSON(&w) return w.Buffer.BuildBytes(), w.Error } func (x *DeleteResponse) MarshalEasyJSON(out *jwriter.Writer) { if x == nil { out.RawString("null") return } out.RawByte('{') { const prefix string = ",\"body\":" out.RawString(prefix[1:]) x.Body.MarshalEasyJSON(out) } { const prefix string = ",\"metaHeader\":" out.RawString(prefix) x.MetaHeader.MarshalEasyJSON(out) } { const prefix string = ",\"verifyHeader\":" out.RawString(prefix) x.VerifyHeader.MarshalEasyJSON(out) } out.RawByte('}') } // UnmarshalJSON implements the json.Unmarshaler interface. func (x *DeleteResponse) UnmarshalJSON(data []byte) error { r := jlexer.Lexer{Data: data} x.UnmarshalEasyJSON(&r) return r.Error() } func (x *DeleteResponse) UnmarshalEasyJSON(in *jlexer.Lexer) { isTopLevel := in.IsStart() if in.IsNull() { if isTopLevel { in.Consumed() } in.Skip() return } in.Delim('{') for !in.IsDelim('}') { key := in.UnsafeFieldName(false) in.WantColon() if in.IsNull() { in.Skip() in.WantComma() continue } switch key { case "body": { var f *DeleteResponse_Body f = new(DeleteResponse_Body) f.UnmarshalEasyJSON(in) x.Body = f } case "metaHeader": { var f *grpc1.ResponseMetaHeader f = new(grpc1.ResponseMetaHeader) f.UnmarshalEasyJSON(in) x.MetaHeader = f } case "verifyHeader": { var f *grpc1.ResponseVerificationHeader f = new(grpc1.ResponseVerificationHeader) f.UnmarshalEasyJSON(in) x.VerifyHeader = f } } in.WantComma() } in.Delim('}') if isTopLevel { in.Consumed() } } type HeadRequest_Body struct { Address *grpc.Address `json:"address"` MainOnly bool `json:"mainOnly"` Raw bool `json:"raw"` } var ( _ encoding.ProtoMarshaler = (*HeadRequest_Body)(nil) _ encoding.ProtoUnmarshaler = (*HeadRequest_Body)(nil) _ json.Marshaler = (*HeadRequest_Body)(nil) _ json.Unmarshaler = (*HeadRequest_Body)(nil) ) // StableSize returns the size of x in protobuf format. // // Structures with the same field values have the same binary size. func (x *HeadRequest_Body) StableSize() (size int) { if x == nil { return 0 } size += proto.NestedStructureSize(1, x.Address) size += proto.BoolSize(2, x.MainOnly) size += proto.BoolSize(3, x.Raw) return size } // MarshalProtobuf implements the encoding.ProtoMarshaler interface. func (x *HeadRequest_Body) MarshalProtobuf(dst []byte) []byte { m := pool.MarshalerPool.Get() defer pool.MarshalerPool.Put(m) x.EmitProtobuf(m.MessageMarshaler()) dst = m.Marshal(dst) return dst } func (x *HeadRequest_Body) EmitProtobuf(mm *easyproto.MessageMarshaler) { if x == nil { return } if x.Address != nil && x.Address.StableSize() != 0 { x.Address.EmitProtobuf(mm.AppendMessage(1)) } if x.MainOnly { mm.AppendBool(2, x.MainOnly) } if x.Raw { mm.AppendBool(3, x.Raw) } } // UnmarshalProtobuf implements the encoding.ProtoUnmarshaler interface. func (x *HeadRequest_Body) UnmarshalProtobuf(src []byte) (err error) { var fc easyproto.FieldContext for len(src) > 0 { src, err = fc.NextField(src) if err != nil { return fmt.Errorf("cannot read next field in %s", "HeadRequest_Body") } switch fc.FieldNum { case 1: // Address data, ok := fc.MessageData() if !ok { return fmt.Errorf("cannot unmarshal field %s", "Address") } x.Address = new(grpc.Address) if err := x.Address.UnmarshalProtobuf(data); err != nil { return fmt.Errorf("unmarshal: %w", err) } case 2: // MainOnly data, ok := fc.Bool() if !ok { return fmt.Errorf("cannot unmarshal field %s", "MainOnly") } x.MainOnly = data case 3: // Raw data, ok := fc.Bool() if !ok { return fmt.Errorf("cannot unmarshal field %s", "Raw") } x.Raw = data } } return nil } func (x *HeadRequest_Body) GetAddress() *grpc.Address { if x != nil { return x.Address } return nil } func (x *HeadRequest_Body) SetAddress(v *grpc.Address) { x.Address = v } func (x *HeadRequest_Body) GetMainOnly() bool { if x != nil { return x.MainOnly } return false } func (x *HeadRequest_Body) SetMainOnly(v bool) { x.MainOnly = v } func (x *HeadRequest_Body) GetRaw() bool { if x != nil { return x.Raw } return false } func (x *HeadRequest_Body) SetRaw(v bool) { x.Raw = v } // MarshalJSON implements the json.Marshaler interface. func (x *HeadRequest_Body) MarshalJSON() ([]byte, error) { w := jwriter.Writer{} x.MarshalEasyJSON(&w) return w.Buffer.BuildBytes(), w.Error } func (x *HeadRequest_Body) MarshalEasyJSON(out *jwriter.Writer) { if x == nil { out.RawString("null") return } out.RawByte('{') { const prefix string = ",\"address\":" out.RawString(prefix[1:]) x.Address.MarshalEasyJSON(out) } { const prefix string = ",\"mainOnly\":" out.RawString(prefix) out.Bool(x.MainOnly) } { const prefix string = ",\"raw\":" out.RawString(prefix) out.Bool(x.Raw) } out.RawByte('}') } // UnmarshalJSON implements the json.Unmarshaler interface. func (x *HeadRequest_Body) UnmarshalJSON(data []byte) error { r := jlexer.Lexer{Data: data} x.UnmarshalEasyJSON(&r) return r.Error() } func (x *HeadRequest_Body) UnmarshalEasyJSON(in *jlexer.Lexer) { isTopLevel := in.IsStart() if in.IsNull() { if isTopLevel { in.Consumed() } in.Skip() return } in.Delim('{') for !in.IsDelim('}') { key := in.UnsafeFieldName(false) in.WantColon() if in.IsNull() { in.Skip() in.WantComma() continue } switch key { case "address": { var f *grpc.Address f = new(grpc.Address) f.UnmarshalEasyJSON(in) x.Address = f } case "mainOnly": { var f bool f = in.Bool() x.MainOnly = f } case "raw": { var f bool f = in.Bool() x.Raw = f } } in.WantComma() } in.Delim('}') if isTopLevel { in.Consumed() } } type HeadRequest struct { Body *HeadRequest_Body `json:"body"` MetaHeader *grpc1.RequestMetaHeader `json:"metaHeader"` VerifyHeader *grpc1.RequestVerificationHeader `json:"verifyHeader"` } var ( _ encoding.ProtoMarshaler = (*HeadRequest)(nil) _ encoding.ProtoUnmarshaler = (*HeadRequest)(nil) _ json.Marshaler = (*HeadRequest)(nil) _ json.Unmarshaler = (*HeadRequest)(nil) ) // StableSize returns the size of x in protobuf format. // // Structures with the same field values have the same binary size. func (x *HeadRequest) StableSize() (size int) { if x == nil { return 0 } size += proto.NestedStructureSize(1, x.Body) size += proto.NestedStructureSize(2, x.MetaHeader) size += proto.NestedStructureSize(3, x.VerifyHeader) return size } // ReadSignedData fills buf with signed data of x. // If buffer length is less than x.SignedDataSize(), new buffer is allocated. // // Returns any error encountered which did not allow writing the data completely. // Otherwise, returns the buffer in which the data is written. // // Structures with the same field values have the same signed data. func (x *HeadRequest) SignedDataSize() int { return x.GetBody().StableSize() } // SignedDataSize returns size of the request signed data in bytes. // // Structures with the same field values have the same signed data size. func (x *HeadRequest) ReadSignedData(buf []byte) ([]byte, error) { return x.GetBody().MarshalProtobuf(buf), nil } // MarshalProtobuf implements the encoding.ProtoMarshaler interface. func (x *HeadRequest) MarshalProtobuf(dst []byte) []byte { m := pool.MarshalerPool.Get() defer pool.MarshalerPool.Put(m) x.EmitProtobuf(m.MessageMarshaler()) dst = m.Marshal(dst) return dst } func (x *HeadRequest) EmitProtobuf(mm *easyproto.MessageMarshaler) { if x == nil { return } if x.Body != nil && x.Body.StableSize() != 0 { x.Body.EmitProtobuf(mm.AppendMessage(1)) } if x.MetaHeader != nil && x.MetaHeader.StableSize() != 0 { x.MetaHeader.EmitProtobuf(mm.AppendMessage(2)) } if x.VerifyHeader != nil && x.VerifyHeader.StableSize() != 0 { x.VerifyHeader.EmitProtobuf(mm.AppendMessage(3)) } } // UnmarshalProtobuf implements the encoding.ProtoUnmarshaler interface. func (x *HeadRequest) UnmarshalProtobuf(src []byte) (err error) { var fc easyproto.FieldContext for len(src) > 0 { src, err = fc.NextField(src) if err != nil { return fmt.Errorf("cannot read next field in %s", "HeadRequest") } switch fc.FieldNum { case 1: // Body data, ok := fc.MessageData() if !ok { return fmt.Errorf("cannot unmarshal field %s", "Body") } x.Body = new(HeadRequest_Body) if err := x.Body.UnmarshalProtobuf(data); err != nil { return fmt.Errorf("unmarshal: %w", err) } case 2: // MetaHeader data, ok := fc.MessageData() if !ok { return fmt.Errorf("cannot unmarshal field %s", "MetaHeader") } x.MetaHeader = new(grpc1.RequestMetaHeader) if err := x.MetaHeader.UnmarshalProtobuf(data); err != nil { return fmt.Errorf("unmarshal: %w", err) } case 3: // VerifyHeader data, ok := fc.MessageData() if !ok { return fmt.Errorf("cannot unmarshal field %s", "VerifyHeader") } x.VerifyHeader = new(grpc1.RequestVerificationHeader) if err := x.VerifyHeader.UnmarshalProtobuf(data); err != nil { return fmt.Errorf("unmarshal: %w", err) } } } return nil } func (x *HeadRequest) GetBody() *HeadRequest_Body { if x != nil { return x.Body } return nil } func (x *HeadRequest) SetBody(v *HeadRequest_Body) { x.Body = v } func (x *HeadRequest) GetMetaHeader() *grpc1.RequestMetaHeader { if x != nil { return x.MetaHeader } return nil } func (x *HeadRequest) SetMetaHeader(v *grpc1.RequestMetaHeader) { x.MetaHeader = v } func (x *HeadRequest) GetVerifyHeader() *grpc1.RequestVerificationHeader { if x != nil { return x.VerifyHeader } return nil } func (x *HeadRequest) SetVerifyHeader(v *grpc1.RequestVerificationHeader) { x.VerifyHeader = v } // MarshalJSON implements the json.Marshaler interface. func (x *HeadRequest) MarshalJSON() ([]byte, error) { w := jwriter.Writer{} x.MarshalEasyJSON(&w) return w.Buffer.BuildBytes(), w.Error } func (x *HeadRequest) MarshalEasyJSON(out *jwriter.Writer) { if x == nil { out.RawString("null") return } out.RawByte('{') { const prefix string = ",\"body\":" out.RawString(prefix[1:]) x.Body.MarshalEasyJSON(out) } { const prefix string = ",\"metaHeader\":" out.RawString(prefix) x.MetaHeader.MarshalEasyJSON(out) } { const prefix string = ",\"verifyHeader\":" out.RawString(prefix) x.VerifyHeader.MarshalEasyJSON(out) } out.RawByte('}') } // UnmarshalJSON implements the json.Unmarshaler interface. func (x *HeadRequest) UnmarshalJSON(data []byte) error { r := jlexer.Lexer{Data: data} x.UnmarshalEasyJSON(&r) return r.Error() } func (x *HeadRequest) UnmarshalEasyJSON(in *jlexer.Lexer) { isTopLevel := in.IsStart() if in.IsNull() { if isTopLevel { in.Consumed() } in.Skip() return } in.Delim('{') for !in.IsDelim('}') { key := in.UnsafeFieldName(false) in.WantColon() if in.IsNull() { in.Skip() in.WantComma() continue } switch key { case "body": { var f *HeadRequest_Body f = new(HeadRequest_Body) f.UnmarshalEasyJSON(in) x.Body = f } case "metaHeader": { var f *grpc1.RequestMetaHeader f = new(grpc1.RequestMetaHeader) f.UnmarshalEasyJSON(in) x.MetaHeader = f } case "verifyHeader": { var f *grpc1.RequestVerificationHeader f = new(grpc1.RequestVerificationHeader) f.UnmarshalEasyJSON(in) x.VerifyHeader = f } } in.WantComma() } in.Delim('}') if isTopLevel { in.Consumed() } } type HeaderWithSignature struct { Header *Header `json:"header"` Signature *grpc.Signature `json:"signature"` } var ( _ encoding.ProtoMarshaler = (*HeaderWithSignature)(nil) _ encoding.ProtoUnmarshaler = (*HeaderWithSignature)(nil) _ json.Marshaler = (*HeaderWithSignature)(nil) _ json.Unmarshaler = (*HeaderWithSignature)(nil) ) // StableSize returns the size of x in protobuf format. // // Structures with the same field values have the same binary size. func (x *HeaderWithSignature) StableSize() (size int) { if x == nil { return 0 } size += proto.NestedStructureSize(1, x.Header) size += proto.NestedStructureSize(2, x.Signature) return size } // MarshalProtobuf implements the encoding.ProtoMarshaler interface. func (x *HeaderWithSignature) MarshalProtobuf(dst []byte) []byte { m := pool.MarshalerPool.Get() defer pool.MarshalerPool.Put(m) x.EmitProtobuf(m.MessageMarshaler()) dst = m.Marshal(dst) return dst } func (x *HeaderWithSignature) EmitProtobuf(mm *easyproto.MessageMarshaler) { if x == nil { return } if x.Header != nil && x.Header.StableSize() != 0 { x.Header.EmitProtobuf(mm.AppendMessage(1)) } if x.Signature != nil && x.Signature.StableSize() != 0 { x.Signature.EmitProtobuf(mm.AppendMessage(2)) } } // UnmarshalProtobuf implements the encoding.ProtoUnmarshaler interface. func (x *HeaderWithSignature) UnmarshalProtobuf(src []byte) (err error) { var fc easyproto.FieldContext for len(src) > 0 { src, err = fc.NextField(src) if err != nil { return fmt.Errorf("cannot read next field in %s", "HeaderWithSignature") } switch fc.FieldNum { case 1: // Header data, ok := fc.MessageData() if !ok { return fmt.Errorf("cannot unmarshal field %s", "Header") } x.Header = new(Header) if err := x.Header.UnmarshalProtobuf(data); err != nil { return fmt.Errorf("unmarshal: %w", err) } case 2: // Signature data, ok := fc.MessageData() if !ok { return fmt.Errorf("cannot unmarshal field %s", "Signature") } x.Signature = new(grpc.Signature) if err := x.Signature.UnmarshalProtobuf(data); err != nil { return fmt.Errorf("unmarshal: %w", err) } } } return nil } func (x *HeaderWithSignature) GetHeader() *Header { if x != nil { return x.Header } return nil } func (x *HeaderWithSignature) SetHeader(v *Header) { x.Header = v } func (x *HeaderWithSignature) GetSignature() *grpc.Signature { if x != nil { return x.Signature } return nil } func (x *HeaderWithSignature) SetSignature(v *grpc.Signature) { x.Signature = v } // MarshalJSON implements the json.Marshaler interface. func (x *HeaderWithSignature) MarshalJSON() ([]byte, error) { w := jwriter.Writer{} x.MarshalEasyJSON(&w) return w.Buffer.BuildBytes(), w.Error } func (x *HeaderWithSignature) MarshalEasyJSON(out *jwriter.Writer) { if x == nil { out.RawString("null") return } out.RawByte('{') { const prefix string = ",\"header\":" out.RawString(prefix[1:]) x.Header.MarshalEasyJSON(out) } { const prefix string = ",\"signature\":" out.RawString(prefix) x.Signature.MarshalEasyJSON(out) } out.RawByte('}') } // UnmarshalJSON implements the json.Unmarshaler interface. func (x *HeaderWithSignature) UnmarshalJSON(data []byte) error { r := jlexer.Lexer{Data: data} x.UnmarshalEasyJSON(&r) return r.Error() } func (x *HeaderWithSignature) UnmarshalEasyJSON(in *jlexer.Lexer) { isTopLevel := in.IsStart() if in.IsNull() { if isTopLevel { in.Consumed() } in.Skip() return } in.Delim('{') for !in.IsDelim('}') { key := in.UnsafeFieldName(false) in.WantColon() if in.IsNull() { in.Skip() in.WantComma() continue } switch key { case "header": { var f *Header f = new(Header) f.UnmarshalEasyJSON(in) x.Header = f } case "signature": { var f *grpc.Signature f = new(grpc.Signature) f.UnmarshalEasyJSON(in) x.Signature = f } } in.WantComma() } in.Delim('}') if isTopLevel { in.Consumed() } } type HeadResponse_Body struct { Head isHeadResponse_Body_Head } var ( _ encoding.ProtoMarshaler = (*HeadResponse_Body)(nil) _ encoding.ProtoUnmarshaler = (*HeadResponse_Body)(nil) _ json.Marshaler = (*HeadResponse_Body)(nil) _ json.Unmarshaler = (*HeadResponse_Body)(nil) ) // StableSize returns the size of x in protobuf format. // // Structures with the same field values have the same binary size. func (x *HeadResponse_Body) StableSize() (size int) { if x == nil { return 0 } if inner, ok := x.Head.(*HeadResponse_Body_Header); ok { size += proto.NestedStructureSize(1, inner.Header) } if inner, ok := x.Head.(*HeadResponse_Body_ShortHeader); ok { size += proto.NestedStructureSize(2, inner.ShortHeader) } if inner, ok := x.Head.(*HeadResponse_Body_SplitInfo); ok { size += proto.NestedStructureSize(3, inner.SplitInfo) } if inner, ok := x.Head.(*HeadResponse_Body_EcInfo); ok { size += proto.NestedStructureSize(4, inner.EcInfo) } return size } // MarshalProtobuf implements the encoding.ProtoMarshaler interface. func (x *HeadResponse_Body) MarshalProtobuf(dst []byte) []byte { m := pool.MarshalerPool.Get() defer pool.MarshalerPool.Put(m) x.EmitProtobuf(m.MessageMarshaler()) dst = m.Marshal(dst) return dst } func (x *HeadResponse_Body) EmitProtobuf(mm *easyproto.MessageMarshaler) { if x == nil { return } if inner, ok := x.Head.(*HeadResponse_Body_Header); ok { if inner.Header != nil && inner.Header.StableSize() != 0 { inner.Header.EmitProtobuf(mm.AppendMessage(1)) } } if inner, ok := x.Head.(*HeadResponse_Body_ShortHeader); ok { if inner.ShortHeader != nil && inner.ShortHeader.StableSize() != 0 { inner.ShortHeader.EmitProtobuf(mm.AppendMessage(2)) } } if inner, ok := x.Head.(*HeadResponse_Body_SplitInfo); ok { if inner.SplitInfo != nil && inner.SplitInfo.StableSize() != 0 { inner.SplitInfo.EmitProtobuf(mm.AppendMessage(3)) } } if inner, ok := x.Head.(*HeadResponse_Body_EcInfo); ok { if inner.EcInfo != nil && inner.EcInfo.StableSize() != 0 { inner.EcInfo.EmitProtobuf(mm.AppendMessage(4)) } } } // UnmarshalProtobuf implements the encoding.ProtoUnmarshaler interface. func (x *HeadResponse_Body) UnmarshalProtobuf(src []byte) (err error) { var fc easyproto.FieldContext for len(src) > 0 { src, err = fc.NextField(src) if err != nil { return fmt.Errorf("cannot read next field in %s", "HeadResponse_Body") } switch fc.FieldNum { case 1: // Header data, ok := fc.MessageData() if !ok { return fmt.Errorf("cannot unmarshal field %s", "Header") } oneofField := &HeadResponse_Body_Header{Header: new(HeaderWithSignature)} if err := oneofField.Header.UnmarshalProtobuf(data); err != nil { return fmt.Errorf("unmarshal: %w", err) } x.Head = oneofField case 2: // ShortHeader data, ok := fc.MessageData() if !ok { return fmt.Errorf("cannot unmarshal field %s", "ShortHeader") } oneofField := &HeadResponse_Body_ShortHeader{ShortHeader: new(ShortHeader)} if err := oneofField.ShortHeader.UnmarshalProtobuf(data); err != nil { return fmt.Errorf("unmarshal: %w", err) } x.Head = oneofField case 3: // SplitInfo data, ok := fc.MessageData() if !ok { return fmt.Errorf("cannot unmarshal field %s", "SplitInfo") } oneofField := &HeadResponse_Body_SplitInfo{SplitInfo: new(SplitInfo)} if err := oneofField.SplitInfo.UnmarshalProtobuf(data); err != nil { return fmt.Errorf("unmarshal: %w", err) } x.Head = oneofField case 4: // EcInfo data, ok := fc.MessageData() if !ok { return fmt.Errorf("cannot unmarshal field %s", "EcInfo") } oneofField := &HeadResponse_Body_EcInfo{EcInfo: new(ECInfo)} if err := oneofField.EcInfo.UnmarshalProtobuf(data); err != nil { return fmt.Errorf("unmarshal: %w", err) } x.Head = oneofField } } return nil } func (x *HeadResponse_Body) GetHead() isHeadResponse_Body_Head { if x != nil { return x.Head } return nil } func (x *HeadResponse_Body) SetHead(v isHeadResponse_Body_Head) { x.Head = v } func (x *HeadResponse_Body) GetHeader() *HeaderWithSignature { if xx, ok := x.GetHead().(*HeadResponse_Body_Header); ok { return xx.Header } return nil } func (x *HeadResponse_Body) SetHeader(v *HeaderWithSignature) { x.Head = &HeadResponse_Body_Header{Header: v} } func (x *HeadResponse_Body) GetShortHeader() *ShortHeader { if xx, ok := x.GetHead().(*HeadResponse_Body_ShortHeader); ok { return xx.ShortHeader } return nil } func (x *HeadResponse_Body) SetShortHeader(v *ShortHeader) { x.Head = &HeadResponse_Body_ShortHeader{ShortHeader: v} } func (x *HeadResponse_Body) GetSplitInfo() *SplitInfo { if xx, ok := x.GetHead().(*HeadResponse_Body_SplitInfo); ok { return xx.SplitInfo } return nil } func (x *HeadResponse_Body) SetSplitInfo(v *SplitInfo) { x.Head = &HeadResponse_Body_SplitInfo{SplitInfo: v} } func (x *HeadResponse_Body) GetEcInfo() *ECInfo { if xx, ok := x.GetHead().(*HeadResponse_Body_EcInfo); ok { return xx.EcInfo } return nil } func (x *HeadResponse_Body) SetEcInfo(v *ECInfo) { x.Head = &HeadResponse_Body_EcInfo{EcInfo: v} } // MarshalJSON implements the json.Marshaler interface. func (x *HeadResponse_Body) MarshalJSON() ([]byte, error) { w := jwriter.Writer{} x.MarshalEasyJSON(&w) return w.Buffer.BuildBytes(), w.Error } func (x *HeadResponse_Body) MarshalEasyJSON(out *jwriter.Writer) { if x == nil { out.RawString("null") return } out.RawByte('{') switch xx := x.Head.(type) { case *HeadResponse_Body_Header: { const prefix string = ",\"header\":" out.RawString(prefix[1:]) xx.Header.MarshalEasyJSON(out) } case *HeadResponse_Body_ShortHeader: { const prefix string = ",\"shortHeader\":" out.RawString(prefix[1:]) xx.ShortHeader.MarshalEasyJSON(out) } case *HeadResponse_Body_SplitInfo: { const prefix string = ",\"splitInfo\":" out.RawString(prefix[1:]) xx.SplitInfo.MarshalEasyJSON(out) } case *HeadResponse_Body_EcInfo: { const prefix string = ",\"ecInfo\":" out.RawString(prefix[1:]) xx.EcInfo.MarshalEasyJSON(out) } default: out.RawString("null") } out.RawByte('}') } // UnmarshalJSON implements the json.Unmarshaler interface. func (x *HeadResponse_Body) UnmarshalJSON(data []byte) error { r := jlexer.Lexer{Data: data} x.UnmarshalEasyJSON(&r) return r.Error() } func (x *HeadResponse_Body) UnmarshalEasyJSON(in *jlexer.Lexer) { isTopLevel := in.IsStart() if in.IsNull() { if isTopLevel { in.Consumed() } in.Skip() return } in.Delim('{') for !in.IsDelim('}') { key := in.UnsafeFieldName(false) in.WantColon() if in.IsNull() { in.Skip() in.WantComma() continue } switch key { case "header": xx := new(HeadResponse_Body_Header) x.Head = xx { var f *HeaderWithSignature f = new(HeaderWithSignature) f.UnmarshalEasyJSON(in) xx.Header = f } case "shortHeader": xx := new(HeadResponse_Body_ShortHeader) x.Head = xx { var f *ShortHeader f = new(ShortHeader) f.UnmarshalEasyJSON(in) xx.ShortHeader = f } case "splitInfo": xx := new(HeadResponse_Body_SplitInfo) x.Head = xx { var f *SplitInfo f = new(SplitInfo) f.UnmarshalEasyJSON(in) xx.SplitInfo = f } case "ecInfo": xx := new(HeadResponse_Body_EcInfo) x.Head = xx { var f *ECInfo f = new(ECInfo) f.UnmarshalEasyJSON(in) xx.EcInfo = f } } in.WantComma() } in.Delim('}') if isTopLevel { in.Consumed() } } type isHeadResponse_Body_Head interface { isHeadResponse_Body_Head() } type HeadResponse_Body_Header struct { Header *HeaderWithSignature } type HeadResponse_Body_ShortHeader struct { ShortHeader *ShortHeader } type HeadResponse_Body_SplitInfo struct { SplitInfo *SplitInfo } type HeadResponse_Body_EcInfo struct { EcInfo *ECInfo } func (*HeadResponse_Body_Header) isHeadResponse_Body_Head() {} func (*HeadResponse_Body_ShortHeader) isHeadResponse_Body_Head() {} func (*HeadResponse_Body_SplitInfo) isHeadResponse_Body_Head() {} func (*HeadResponse_Body_EcInfo) isHeadResponse_Body_Head() {} type HeadResponse struct { Body *HeadResponse_Body `json:"body"` MetaHeader *grpc1.ResponseMetaHeader `json:"metaHeader"` VerifyHeader *grpc1.ResponseVerificationHeader `json:"verifyHeader"` } var ( _ encoding.ProtoMarshaler = (*HeadResponse)(nil) _ encoding.ProtoUnmarshaler = (*HeadResponse)(nil) _ json.Marshaler = (*HeadResponse)(nil) _ json.Unmarshaler = (*HeadResponse)(nil) ) // StableSize returns the size of x in protobuf format. // // Structures with the same field values have the same binary size. func (x *HeadResponse) StableSize() (size int) { if x == nil { return 0 } size += proto.NestedStructureSize(1, x.Body) size += proto.NestedStructureSize(2, x.MetaHeader) size += proto.NestedStructureSize(3, x.VerifyHeader) return size } // ReadSignedData fills buf with signed data of x. // If buffer length is less than x.SignedDataSize(), new buffer is allocated. // // Returns any error encountered which did not allow writing the data completely. // Otherwise, returns the buffer in which the data is written. // // Structures with the same field values have the same signed data. func (x *HeadResponse) SignedDataSize() int { return x.GetBody().StableSize() } // SignedDataSize returns size of the request signed data in bytes. // // Structures with the same field values have the same signed data size. func (x *HeadResponse) ReadSignedData(buf []byte) ([]byte, error) { return x.GetBody().MarshalProtobuf(buf), nil } // MarshalProtobuf implements the encoding.ProtoMarshaler interface. func (x *HeadResponse) MarshalProtobuf(dst []byte) []byte { m := pool.MarshalerPool.Get() defer pool.MarshalerPool.Put(m) x.EmitProtobuf(m.MessageMarshaler()) dst = m.Marshal(dst) return dst } func (x *HeadResponse) EmitProtobuf(mm *easyproto.MessageMarshaler) { if x == nil { return } if x.Body != nil && x.Body.StableSize() != 0 { x.Body.EmitProtobuf(mm.AppendMessage(1)) } if x.MetaHeader != nil && x.MetaHeader.StableSize() != 0 { x.MetaHeader.EmitProtobuf(mm.AppendMessage(2)) } if x.VerifyHeader != nil && x.VerifyHeader.StableSize() != 0 { x.VerifyHeader.EmitProtobuf(mm.AppendMessage(3)) } } // UnmarshalProtobuf implements the encoding.ProtoUnmarshaler interface. func (x *HeadResponse) UnmarshalProtobuf(src []byte) (err error) { var fc easyproto.FieldContext for len(src) > 0 { src, err = fc.NextField(src) if err != nil { return fmt.Errorf("cannot read next field in %s", "HeadResponse") } switch fc.FieldNum { case 1: // Body data, ok := fc.MessageData() if !ok { return fmt.Errorf("cannot unmarshal field %s", "Body") } x.Body = new(HeadResponse_Body) if err := x.Body.UnmarshalProtobuf(data); err != nil { return fmt.Errorf("unmarshal: %w", err) } case 2: // MetaHeader data, ok := fc.MessageData() if !ok { return fmt.Errorf("cannot unmarshal field %s", "MetaHeader") } x.MetaHeader = new(grpc1.ResponseMetaHeader) if err := x.MetaHeader.UnmarshalProtobuf(data); err != nil { return fmt.Errorf("unmarshal: %w", err) } case 3: // VerifyHeader data, ok := fc.MessageData() if !ok { return fmt.Errorf("cannot unmarshal field %s", "VerifyHeader") } x.VerifyHeader = new(grpc1.ResponseVerificationHeader) if err := x.VerifyHeader.UnmarshalProtobuf(data); err != nil { return fmt.Errorf("unmarshal: %w", err) } } } return nil } func (x *HeadResponse) GetBody() *HeadResponse_Body { if x != nil { return x.Body } return nil } func (x *HeadResponse) SetBody(v *HeadResponse_Body) { x.Body = v } func (x *HeadResponse) GetMetaHeader() *grpc1.ResponseMetaHeader { if x != nil { return x.MetaHeader } return nil } func (x *HeadResponse) SetMetaHeader(v *grpc1.ResponseMetaHeader) { x.MetaHeader = v } func (x *HeadResponse) GetVerifyHeader() *grpc1.ResponseVerificationHeader { if x != nil { return x.VerifyHeader } return nil } func (x *HeadResponse) SetVerifyHeader(v *grpc1.ResponseVerificationHeader) { x.VerifyHeader = v } // MarshalJSON implements the json.Marshaler interface. func (x *HeadResponse) MarshalJSON() ([]byte, error) { w := jwriter.Writer{} x.MarshalEasyJSON(&w) return w.Buffer.BuildBytes(), w.Error } func (x *HeadResponse) MarshalEasyJSON(out *jwriter.Writer) { if x == nil { out.RawString("null") return } out.RawByte('{') { const prefix string = ",\"body\":" out.RawString(prefix[1:]) x.Body.MarshalEasyJSON(out) } { const prefix string = ",\"metaHeader\":" out.RawString(prefix) x.MetaHeader.MarshalEasyJSON(out) } { const prefix string = ",\"verifyHeader\":" out.RawString(prefix) x.VerifyHeader.MarshalEasyJSON(out) } out.RawByte('}') } // UnmarshalJSON implements the json.Unmarshaler interface. func (x *HeadResponse) UnmarshalJSON(data []byte) error { r := jlexer.Lexer{Data: data} x.UnmarshalEasyJSON(&r) return r.Error() } func (x *HeadResponse) UnmarshalEasyJSON(in *jlexer.Lexer) { isTopLevel := in.IsStart() if in.IsNull() { if isTopLevel { in.Consumed() } in.Skip() return } in.Delim('{') for !in.IsDelim('}') { key := in.UnsafeFieldName(false) in.WantColon() if in.IsNull() { in.Skip() in.WantComma() continue } switch key { case "body": { var f *HeadResponse_Body f = new(HeadResponse_Body) f.UnmarshalEasyJSON(in) x.Body = f } case "metaHeader": { var f *grpc1.ResponseMetaHeader f = new(grpc1.ResponseMetaHeader) f.UnmarshalEasyJSON(in) x.MetaHeader = f } case "verifyHeader": { var f *grpc1.ResponseVerificationHeader f = new(grpc1.ResponseVerificationHeader) f.UnmarshalEasyJSON(in) x.VerifyHeader = f } } in.WantComma() } in.Delim('}') if isTopLevel { in.Consumed() } } type SearchRequest_Body_Filter struct { MatchType MatchType `json:"matchType"` Key string `json:"key"` Value string `json:"value"` } var ( _ encoding.ProtoMarshaler = (*SearchRequest_Body_Filter)(nil) _ encoding.ProtoUnmarshaler = (*SearchRequest_Body_Filter)(nil) _ json.Marshaler = (*SearchRequest_Body_Filter)(nil) _ json.Unmarshaler = (*SearchRequest_Body_Filter)(nil) ) // StableSize returns the size of x in protobuf format. // // Structures with the same field values have the same binary size. func (x *SearchRequest_Body_Filter) StableSize() (size int) { if x == nil { return 0 } size += proto.EnumSize(1, int32(x.MatchType)) size += proto.StringSize(2, x.Key) size += proto.StringSize(3, x.Value) return size } // MarshalProtobuf implements the encoding.ProtoMarshaler interface. func (x *SearchRequest_Body_Filter) MarshalProtobuf(dst []byte) []byte { m := pool.MarshalerPool.Get() defer pool.MarshalerPool.Put(m) x.EmitProtobuf(m.MessageMarshaler()) dst = m.Marshal(dst) return dst } func (x *SearchRequest_Body_Filter) EmitProtobuf(mm *easyproto.MessageMarshaler) { if x == nil { return } if int32(x.MatchType) != 0 { mm.AppendInt32(1, int32(x.MatchType)) } if len(x.Key) != 0 { mm.AppendString(2, x.Key) } if len(x.Value) != 0 { mm.AppendString(3, x.Value) } } // UnmarshalProtobuf implements the encoding.ProtoUnmarshaler interface. func (x *SearchRequest_Body_Filter) UnmarshalProtobuf(src []byte) (err error) { var fc easyproto.FieldContext for len(src) > 0 { src, err = fc.NextField(src) if err != nil { return fmt.Errorf("cannot read next field in %s", "SearchRequest_Body_Filter") } switch fc.FieldNum { case 1: // MatchType data, ok := fc.Int32() if !ok { return fmt.Errorf("cannot unmarshal field %s", "MatchType") } x.MatchType = MatchType(data) case 2: // Key data, ok := fc.String() if !ok { return fmt.Errorf("cannot unmarshal field %s", "Key") } x.Key = data case 3: // Value data, ok := fc.String() if !ok { return fmt.Errorf("cannot unmarshal field %s", "Value") } x.Value = data } } return nil } func (x *SearchRequest_Body_Filter) GetMatchType() MatchType { if x != nil { return x.MatchType } return 0 } func (x *SearchRequest_Body_Filter) SetMatchType(v MatchType) { x.MatchType = v } func (x *SearchRequest_Body_Filter) GetKey() string { if x != nil { return x.Key } return "" } func (x *SearchRequest_Body_Filter) SetKey(v string) { x.Key = v } func (x *SearchRequest_Body_Filter) GetValue() string { if x != nil { return x.Value } return "" } func (x *SearchRequest_Body_Filter) SetValue(v string) { x.Value = v } // MarshalJSON implements the json.Marshaler interface. func (x *SearchRequest_Body_Filter) MarshalJSON() ([]byte, error) { w := jwriter.Writer{} x.MarshalEasyJSON(&w) return w.Buffer.BuildBytes(), w.Error } func (x *SearchRequest_Body_Filter) MarshalEasyJSON(out *jwriter.Writer) { if x == nil { out.RawString("null") return } out.RawByte('{') { const prefix string = ",\"matchType\":" out.RawString(prefix[1:]) out.Int32(int32(x.MatchType)) } { const prefix string = ",\"key\":" out.RawString(prefix) out.String(x.Key) } { const prefix string = ",\"value\":" out.RawString(prefix) out.String(x.Value) } out.RawByte('}') } // UnmarshalJSON implements the json.Unmarshaler interface. func (x *SearchRequest_Body_Filter) UnmarshalJSON(data []byte) error { r := jlexer.Lexer{Data: data} x.UnmarshalEasyJSON(&r) return r.Error() } func (x *SearchRequest_Body_Filter) UnmarshalEasyJSON(in *jlexer.Lexer) { isTopLevel := in.IsStart() if in.IsNull() { if isTopLevel { in.Consumed() } in.Skip() return } in.Delim('{') for !in.IsDelim('}') { key := in.UnsafeFieldName(false) in.WantColon() if in.IsNull() { in.Skip() in.WantComma() continue } switch key { case "matchType": { var f MatchType var parsedValue MatchType switch v := in.Interface().(type) { case string: if vv, ok := MatchType_value[v]; ok { parsedValue = MatchType(vv) break } vv, err := strconv.ParseInt(v, 10, 32) if err != nil { in.AddError(err) return } parsedValue = MatchType(vv) case float64: parsedValue = MatchType(v) } f = parsedValue x.MatchType = f } case "key": { var f string f = in.String() x.Key = f } case "value": { var f string f = in.String() x.Value = f } } in.WantComma() } in.Delim('}') if isTopLevel { in.Consumed() } } type SearchRequest_Body struct { ContainerId *grpc.ContainerID `json:"containerId"` Version uint32 `json:"version"` Filters []*SearchRequest_Body_Filter `json:"filters"` } var ( _ encoding.ProtoMarshaler = (*SearchRequest_Body)(nil) _ encoding.ProtoUnmarshaler = (*SearchRequest_Body)(nil) _ json.Marshaler = (*SearchRequest_Body)(nil) _ json.Unmarshaler = (*SearchRequest_Body)(nil) ) // StableSize returns the size of x in protobuf format. // // Structures with the same field values have the same binary size. func (x *SearchRequest_Body) StableSize() (size int) { if x == nil { return 0 } size += proto.NestedStructureSize(1, x.ContainerId) size += proto.UInt32Size(2, x.Version) for i := range x.Filters { size += proto.NestedStructureSize(3, x.Filters[i]) } return size } // MarshalProtobuf implements the encoding.ProtoMarshaler interface. func (x *SearchRequest_Body) MarshalProtobuf(dst []byte) []byte { m := pool.MarshalerPool.Get() defer pool.MarshalerPool.Put(m) x.EmitProtobuf(m.MessageMarshaler()) dst = m.Marshal(dst) return dst } func (x *SearchRequest_Body) EmitProtobuf(mm *easyproto.MessageMarshaler) { if x == nil { return } if x.ContainerId != nil && x.ContainerId.StableSize() != 0 { x.ContainerId.EmitProtobuf(mm.AppendMessage(1)) } if x.Version != 0 { mm.AppendUint32(2, x.Version) } for i := range x.Filters { if x.Filters[i] != nil && x.Filters[i].StableSize() != 0 { x.Filters[i].EmitProtobuf(mm.AppendMessage(3)) } } } // UnmarshalProtobuf implements the encoding.ProtoUnmarshaler interface. func (x *SearchRequest_Body) UnmarshalProtobuf(src []byte) (err error) { var fc easyproto.FieldContext for len(src) > 0 { src, err = fc.NextField(src) if err != nil { return fmt.Errorf("cannot read next field in %s", "SearchRequest_Body") } switch fc.FieldNum { case 1: // ContainerId data, ok := fc.MessageData() if !ok { return fmt.Errorf("cannot unmarshal field %s", "ContainerId") } x.ContainerId = new(grpc.ContainerID) if err := x.ContainerId.UnmarshalProtobuf(data); err != nil { return fmt.Errorf("unmarshal: %w", err) } case 2: // Version data, ok := fc.Uint32() if !ok { return fmt.Errorf("cannot unmarshal field %s", "Version") } x.Version = data case 3: // Filters data, ok := fc.MessageData() if !ok { return fmt.Errorf("cannot unmarshal field %s", "Filters") } x.Filters = append(x.Filters, new(SearchRequest_Body_Filter)) ff := x.Filters[len(x.Filters)-1] if err := ff.UnmarshalProtobuf(data); err != nil { return fmt.Errorf("unmarshal: %w", err) } } } return nil } func (x *SearchRequest_Body) GetContainerId() *grpc.ContainerID { if x != nil { return x.ContainerId } return nil } func (x *SearchRequest_Body) SetContainerId(v *grpc.ContainerID) { x.ContainerId = v } func (x *SearchRequest_Body) GetVersion() uint32 { if x != nil { return x.Version } return 0 } func (x *SearchRequest_Body) SetVersion(v uint32) { x.Version = v } func (x *SearchRequest_Body) GetFilters() []*SearchRequest_Body_Filter { if x != nil { return x.Filters } return nil } func (x *SearchRequest_Body) SetFilters(v []*SearchRequest_Body_Filter) { x.Filters = v } // MarshalJSON implements the json.Marshaler interface. func (x *SearchRequest_Body) MarshalJSON() ([]byte, error) { w := jwriter.Writer{} x.MarshalEasyJSON(&w) return w.Buffer.BuildBytes(), w.Error } func (x *SearchRequest_Body) MarshalEasyJSON(out *jwriter.Writer) { if x == nil { out.RawString("null") return } out.RawByte('{') { const prefix string = ",\"containerId\":" out.RawString(prefix[1:]) x.ContainerId.MarshalEasyJSON(out) } { const prefix string = ",\"version\":" out.RawString(prefix) out.Uint32(x.Version) } { const prefix string = ",\"filters\":" out.RawString(prefix) out.RawByte('[') for i := range x.Filters { if i != 0 { out.RawByte(',') } x.Filters[i].MarshalEasyJSON(out) } out.RawByte(']') } out.RawByte('}') } // UnmarshalJSON implements the json.Unmarshaler interface. func (x *SearchRequest_Body) UnmarshalJSON(data []byte) error { r := jlexer.Lexer{Data: data} x.UnmarshalEasyJSON(&r) return r.Error() } func (x *SearchRequest_Body) UnmarshalEasyJSON(in *jlexer.Lexer) { isTopLevel := in.IsStart() if in.IsNull() { if isTopLevel { in.Consumed() } in.Skip() return } in.Delim('{') for !in.IsDelim('}') { key := in.UnsafeFieldName(false) in.WantColon() if in.IsNull() { in.Skip() in.WantComma() continue } switch key { case "containerId": { var f *grpc.ContainerID f = new(grpc.ContainerID) f.UnmarshalEasyJSON(in) x.ContainerId = f } case "version": { var f uint32 f = in.Uint32() x.Version = f } case "filters": { var f *SearchRequest_Body_Filter var list []*SearchRequest_Body_Filter in.Delim('[') for !in.IsDelim(']') { f = new(SearchRequest_Body_Filter) f.UnmarshalEasyJSON(in) list = append(list, f) in.WantComma() } x.Filters = list in.Delim(']') } } in.WantComma() } in.Delim('}') if isTopLevel { in.Consumed() } } type SearchRequest struct { Body *SearchRequest_Body `json:"body"` MetaHeader *grpc1.RequestMetaHeader `json:"metaHeader"` VerifyHeader *grpc1.RequestVerificationHeader `json:"verifyHeader"` } var ( _ encoding.ProtoMarshaler = (*SearchRequest)(nil) _ encoding.ProtoUnmarshaler = (*SearchRequest)(nil) _ json.Marshaler = (*SearchRequest)(nil) _ json.Unmarshaler = (*SearchRequest)(nil) ) // StableSize returns the size of x in protobuf format. // // Structures with the same field values have the same binary size. func (x *SearchRequest) StableSize() (size int) { if x == nil { return 0 } size += proto.NestedStructureSize(1, x.Body) size += proto.NestedStructureSize(2, x.MetaHeader) size += proto.NestedStructureSize(3, x.VerifyHeader) return size } // ReadSignedData fills buf with signed data of x. // If buffer length is less than x.SignedDataSize(), new buffer is allocated. // // Returns any error encountered which did not allow writing the data completely. // Otherwise, returns the buffer in which the data is written. // // Structures with the same field values have the same signed data. func (x *SearchRequest) SignedDataSize() int { return x.GetBody().StableSize() } // SignedDataSize returns size of the request signed data in bytes. // // Structures with the same field values have the same signed data size. func (x *SearchRequest) ReadSignedData(buf []byte) ([]byte, error) { return x.GetBody().MarshalProtobuf(buf), nil } // MarshalProtobuf implements the encoding.ProtoMarshaler interface. func (x *SearchRequest) MarshalProtobuf(dst []byte) []byte { m := pool.MarshalerPool.Get() defer pool.MarshalerPool.Put(m) x.EmitProtobuf(m.MessageMarshaler()) dst = m.Marshal(dst) return dst } func (x *SearchRequest) EmitProtobuf(mm *easyproto.MessageMarshaler) { if x == nil { return } if x.Body != nil && x.Body.StableSize() != 0 { x.Body.EmitProtobuf(mm.AppendMessage(1)) } if x.MetaHeader != nil && x.MetaHeader.StableSize() != 0 { x.MetaHeader.EmitProtobuf(mm.AppendMessage(2)) } if x.VerifyHeader != nil && x.VerifyHeader.StableSize() != 0 { x.VerifyHeader.EmitProtobuf(mm.AppendMessage(3)) } } // UnmarshalProtobuf implements the encoding.ProtoUnmarshaler interface. func (x *SearchRequest) UnmarshalProtobuf(src []byte) (err error) { var fc easyproto.FieldContext for len(src) > 0 { src, err = fc.NextField(src) if err != nil { return fmt.Errorf("cannot read next field in %s", "SearchRequest") } switch fc.FieldNum { case 1: // Body data, ok := fc.MessageData() if !ok { return fmt.Errorf("cannot unmarshal field %s", "Body") } x.Body = new(SearchRequest_Body) if err := x.Body.UnmarshalProtobuf(data); err != nil { return fmt.Errorf("unmarshal: %w", err) } case 2: // MetaHeader data, ok := fc.MessageData() if !ok { return fmt.Errorf("cannot unmarshal field %s", "MetaHeader") } x.MetaHeader = new(grpc1.RequestMetaHeader) if err := x.MetaHeader.UnmarshalProtobuf(data); err != nil { return fmt.Errorf("unmarshal: %w", err) } case 3: // VerifyHeader data, ok := fc.MessageData() if !ok { return fmt.Errorf("cannot unmarshal field %s", "VerifyHeader") } x.VerifyHeader = new(grpc1.RequestVerificationHeader) if err := x.VerifyHeader.UnmarshalProtobuf(data); err != nil { return fmt.Errorf("unmarshal: %w", err) } } } return nil } func (x *SearchRequest) GetBody() *SearchRequest_Body { if x != nil { return x.Body } return nil } func (x *SearchRequest) SetBody(v *SearchRequest_Body) { x.Body = v } func (x *SearchRequest) GetMetaHeader() *grpc1.RequestMetaHeader { if x != nil { return x.MetaHeader } return nil } func (x *SearchRequest) SetMetaHeader(v *grpc1.RequestMetaHeader) { x.MetaHeader = v } func (x *SearchRequest) GetVerifyHeader() *grpc1.RequestVerificationHeader { if x != nil { return x.VerifyHeader } return nil } func (x *SearchRequest) SetVerifyHeader(v *grpc1.RequestVerificationHeader) { x.VerifyHeader = v } // MarshalJSON implements the json.Marshaler interface. func (x *SearchRequest) MarshalJSON() ([]byte, error) { w := jwriter.Writer{} x.MarshalEasyJSON(&w) return w.Buffer.BuildBytes(), w.Error } func (x *SearchRequest) MarshalEasyJSON(out *jwriter.Writer) { if x == nil { out.RawString("null") return } out.RawByte('{') { const prefix string = ",\"body\":" out.RawString(prefix[1:]) x.Body.MarshalEasyJSON(out) } { const prefix string = ",\"metaHeader\":" out.RawString(prefix) x.MetaHeader.MarshalEasyJSON(out) } { const prefix string = ",\"verifyHeader\":" out.RawString(prefix) x.VerifyHeader.MarshalEasyJSON(out) } out.RawByte('}') } // UnmarshalJSON implements the json.Unmarshaler interface. func (x *SearchRequest) UnmarshalJSON(data []byte) error { r := jlexer.Lexer{Data: data} x.UnmarshalEasyJSON(&r) return r.Error() } func (x *SearchRequest) UnmarshalEasyJSON(in *jlexer.Lexer) { isTopLevel := in.IsStart() if in.IsNull() { if isTopLevel { in.Consumed() } in.Skip() return } in.Delim('{') for !in.IsDelim('}') { key := in.UnsafeFieldName(false) in.WantColon() if in.IsNull() { in.Skip() in.WantComma() continue } switch key { case "body": { var f *SearchRequest_Body f = new(SearchRequest_Body) f.UnmarshalEasyJSON(in) x.Body = f } case "metaHeader": { var f *grpc1.RequestMetaHeader f = new(grpc1.RequestMetaHeader) f.UnmarshalEasyJSON(in) x.MetaHeader = f } case "verifyHeader": { var f *grpc1.RequestVerificationHeader f = new(grpc1.RequestVerificationHeader) f.UnmarshalEasyJSON(in) x.VerifyHeader = f } } in.WantComma() } in.Delim('}') if isTopLevel { in.Consumed() } } type SearchResponse_Body struct { IdList []*grpc.ObjectID `json:"idList"` } var ( _ encoding.ProtoMarshaler = (*SearchResponse_Body)(nil) _ encoding.ProtoUnmarshaler = (*SearchResponse_Body)(nil) _ json.Marshaler = (*SearchResponse_Body)(nil) _ json.Unmarshaler = (*SearchResponse_Body)(nil) ) // StableSize returns the size of x in protobuf format. // // Structures with the same field values have the same binary size. func (x *SearchResponse_Body) StableSize() (size int) { if x == nil { return 0 } for i := range x.IdList { size += proto.NestedStructureSize(1, x.IdList[i]) } return size } // MarshalProtobuf implements the encoding.ProtoMarshaler interface. func (x *SearchResponse_Body) MarshalProtobuf(dst []byte) []byte { m := pool.MarshalerPool.Get() defer pool.MarshalerPool.Put(m) x.EmitProtobuf(m.MessageMarshaler()) dst = m.Marshal(dst) return dst } func (x *SearchResponse_Body) EmitProtobuf(mm *easyproto.MessageMarshaler) { if x == nil { return } for i := range x.IdList { if x.IdList[i] != nil && x.IdList[i].StableSize() != 0 { x.IdList[i].EmitProtobuf(mm.AppendMessage(1)) } } } // UnmarshalProtobuf implements the encoding.ProtoUnmarshaler interface. func (x *SearchResponse_Body) UnmarshalProtobuf(src []byte) (err error) { var fc easyproto.FieldContext for len(src) > 0 { src, err = fc.NextField(src) if err != nil { return fmt.Errorf("cannot read next field in %s", "SearchResponse_Body") } switch fc.FieldNum { case 1: // IdList data, ok := fc.MessageData() if !ok { return fmt.Errorf("cannot unmarshal field %s", "IdList") } x.IdList = append(x.IdList, new(grpc.ObjectID)) ff := x.IdList[len(x.IdList)-1] if err := ff.UnmarshalProtobuf(data); err != nil { return fmt.Errorf("unmarshal: %w", err) } } } return nil } func (x *SearchResponse_Body) GetIdList() []*grpc.ObjectID { if x != nil { return x.IdList } return nil } func (x *SearchResponse_Body) SetIdList(v []*grpc.ObjectID) { x.IdList = v } // MarshalJSON implements the json.Marshaler interface. func (x *SearchResponse_Body) MarshalJSON() ([]byte, error) { w := jwriter.Writer{} x.MarshalEasyJSON(&w) return w.Buffer.BuildBytes(), w.Error } func (x *SearchResponse_Body) MarshalEasyJSON(out *jwriter.Writer) { if x == nil { out.RawString("null") return } out.RawByte('{') { const prefix string = ",\"idList\":" out.RawString(prefix[1:]) out.RawByte('[') for i := range x.IdList { if i != 0 { out.RawByte(',') } x.IdList[i].MarshalEasyJSON(out) } out.RawByte(']') } out.RawByte('}') } // UnmarshalJSON implements the json.Unmarshaler interface. func (x *SearchResponse_Body) UnmarshalJSON(data []byte) error { r := jlexer.Lexer{Data: data} x.UnmarshalEasyJSON(&r) return r.Error() } func (x *SearchResponse_Body) UnmarshalEasyJSON(in *jlexer.Lexer) { isTopLevel := in.IsStart() if in.IsNull() { if isTopLevel { in.Consumed() } in.Skip() return } in.Delim('{') for !in.IsDelim('}') { key := in.UnsafeFieldName(false) in.WantColon() if in.IsNull() { in.Skip() in.WantComma() continue } switch key { case "idList": { var f *grpc.ObjectID var list []*grpc.ObjectID in.Delim('[') for !in.IsDelim(']') { f = new(grpc.ObjectID) f.UnmarshalEasyJSON(in) list = append(list, f) in.WantComma() } x.IdList = list in.Delim(']') } } in.WantComma() } in.Delim('}') if isTopLevel { in.Consumed() } } type SearchResponse struct { Body *SearchResponse_Body `json:"body"` MetaHeader *grpc1.ResponseMetaHeader `json:"metaHeader"` VerifyHeader *grpc1.ResponseVerificationHeader `json:"verifyHeader"` } var ( _ encoding.ProtoMarshaler = (*SearchResponse)(nil) _ encoding.ProtoUnmarshaler = (*SearchResponse)(nil) _ json.Marshaler = (*SearchResponse)(nil) _ json.Unmarshaler = (*SearchResponse)(nil) ) // StableSize returns the size of x in protobuf format. // // Structures with the same field values have the same binary size. func (x *SearchResponse) StableSize() (size int) { if x == nil { return 0 } size += proto.NestedStructureSize(1, x.Body) size += proto.NestedStructureSize(2, x.MetaHeader) size += proto.NestedStructureSize(3, x.VerifyHeader) return size } // ReadSignedData fills buf with signed data of x. // If buffer length is less than x.SignedDataSize(), new buffer is allocated. // // Returns any error encountered which did not allow writing the data completely. // Otherwise, returns the buffer in which the data is written. // // Structures with the same field values have the same signed data. func (x *SearchResponse) SignedDataSize() int { return x.GetBody().StableSize() } // SignedDataSize returns size of the request signed data in bytes. // // Structures with the same field values have the same signed data size. func (x *SearchResponse) ReadSignedData(buf []byte) ([]byte, error) { return x.GetBody().MarshalProtobuf(buf), nil } // MarshalProtobuf implements the encoding.ProtoMarshaler interface. func (x *SearchResponse) MarshalProtobuf(dst []byte) []byte { m := pool.MarshalerPool.Get() defer pool.MarshalerPool.Put(m) x.EmitProtobuf(m.MessageMarshaler()) dst = m.Marshal(dst) return dst } func (x *SearchResponse) EmitProtobuf(mm *easyproto.MessageMarshaler) { if x == nil { return } if x.Body != nil && x.Body.StableSize() != 0 { x.Body.EmitProtobuf(mm.AppendMessage(1)) } if x.MetaHeader != nil && x.MetaHeader.StableSize() != 0 { x.MetaHeader.EmitProtobuf(mm.AppendMessage(2)) } if x.VerifyHeader != nil && x.VerifyHeader.StableSize() != 0 { x.VerifyHeader.EmitProtobuf(mm.AppendMessage(3)) } } // UnmarshalProtobuf implements the encoding.ProtoUnmarshaler interface. func (x *SearchResponse) UnmarshalProtobuf(src []byte) (err error) { var fc easyproto.FieldContext for len(src) > 0 { src, err = fc.NextField(src) if err != nil { return fmt.Errorf("cannot read next field in %s", "SearchResponse") } switch fc.FieldNum { case 1: // Body data, ok := fc.MessageData() if !ok { return fmt.Errorf("cannot unmarshal field %s", "Body") } x.Body = new(SearchResponse_Body) if err := x.Body.UnmarshalProtobuf(data); err != nil { return fmt.Errorf("unmarshal: %w", err) } case 2: // MetaHeader data, ok := fc.MessageData() if !ok { return fmt.Errorf("cannot unmarshal field %s", "MetaHeader") } x.MetaHeader = new(grpc1.ResponseMetaHeader) if err := x.MetaHeader.UnmarshalProtobuf(data); err != nil { return fmt.Errorf("unmarshal: %w", err) } case 3: // VerifyHeader data, ok := fc.MessageData() if !ok { return fmt.Errorf("cannot unmarshal field %s", "VerifyHeader") } x.VerifyHeader = new(grpc1.ResponseVerificationHeader) if err := x.VerifyHeader.UnmarshalProtobuf(data); err != nil { return fmt.Errorf("unmarshal: %w", err) } } } return nil } func (x *SearchResponse) GetBody() *SearchResponse_Body { if x != nil { return x.Body } return nil } func (x *SearchResponse) SetBody(v *SearchResponse_Body) { x.Body = v } func (x *SearchResponse) GetMetaHeader() *grpc1.ResponseMetaHeader { if x != nil { return x.MetaHeader } return nil } func (x *SearchResponse) SetMetaHeader(v *grpc1.ResponseMetaHeader) { x.MetaHeader = v } func (x *SearchResponse) GetVerifyHeader() *grpc1.ResponseVerificationHeader { if x != nil { return x.VerifyHeader } return nil } func (x *SearchResponse) SetVerifyHeader(v *grpc1.ResponseVerificationHeader) { x.VerifyHeader = v } // MarshalJSON implements the json.Marshaler interface. func (x *SearchResponse) MarshalJSON() ([]byte, error) { w := jwriter.Writer{} x.MarshalEasyJSON(&w) return w.Buffer.BuildBytes(), w.Error } func (x *SearchResponse) MarshalEasyJSON(out *jwriter.Writer) { if x == nil { out.RawString("null") return } out.RawByte('{') { const prefix string = ",\"body\":" out.RawString(prefix[1:]) x.Body.MarshalEasyJSON(out) } { const prefix string = ",\"metaHeader\":" out.RawString(prefix) x.MetaHeader.MarshalEasyJSON(out) } { const prefix string = ",\"verifyHeader\":" out.RawString(prefix) x.VerifyHeader.MarshalEasyJSON(out) } out.RawByte('}') } // UnmarshalJSON implements the json.Unmarshaler interface. func (x *SearchResponse) UnmarshalJSON(data []byte) error { r := jlexer.Lexer{Data: data} x.UnmarshalEasyJSON(&r) return r.Error() } func (x *SearchResponse) UnmarshalEasyJSON(in *jlexer.Lexer) { isTopLevel := in.IsStart() if in.IsNull() { if isTopLevel { in.Consumed() } in.Skip() return } in.Delim('{') for !in.IsDelim('}') { key := in.UnsafeFieldName(false) in.WantColon() if in.IsNull() { in.Skip() in.WantComma() continue } switch key { case "body": { var f *SearchResponse_Body f = new(SearchResponse_Body) f.UnmarshalEasyJSON(in) x.Body = f } case "metaHeader": { var f *grpc1.ResponseMetaHeader f = new(grpc1.ResponseMetaHeader) f.UnmarshalEasyJSON(in) x.MetaHeader = f } case "verifyHeader": { var f *grpc1.ResponseVerificationHeader f = new(grpc1.ResponseVerificationHeader) f.UnmarshalEasyJSON(in) x.VerifyHeader = f } } in.WantComma() } in.Delim('}') if isTopLevel { in.Consumed() } } type Range struct { Offset uint64 `json:"offset"` Length uint64 `json:"length"` } var ( _ encoding.ProtoMarshaler = (*Range)(nil) _ encoding.ProtoUnmarshaler = (*Range)(nil) _ json.Marshaler = (*Range)(nil) _ json.Unmarshaler = (*Range)(nil) ) // StableSize returns the size of x in protobuf format. // // Structures with the same field values have the same binary size. func (x *Range) StableSize() (size int) { if x == nil { return 0 } size += proto.UInt64Size(1, x.Offset) size += proto.UInt64Size(2, x.Length) return size } // MarshalProtobuf implements the encoding.ProtoMarshaler interface. func (x *Range) MarshalProtobuf(dst []byte) []byte { m := pool.MarshalerPool.Get() defer pool.MarshalerPool.Put(m) x.EmitProtobuf(m.MessageMarshaler()) dst = m.Marshal(dst) return dst } func (x *Range) EmitProtobuf(mm *easyproto.MessageMarshaler) { if x == nil { return } if x.Offset != 0 { mm.AppendUint64(1, x.Offset) } if x.Length != 0 { mm.AppendUint64(2, x.Length) } } // UnmarshalProtobuf implements the encoding.ProtoUnmarshaler interface. func (x *Range) UnmarshalProtobuf(src []byte) (err error) { var fc easyproto.FieldContext for len(src) > 0 { src, err = fc.NextField(src) if err != nil { return fmt.Errorf("cannot read next field in %s", "Range") } switch fc.FieldNum { case 1: // Offset data, ok := fc.Uint64() if !ok { return fmt.Errorf("cannot unmarshal field %s", "Offset") } x.Offset = data case 2: // Length data, ok := fc.Uint64() if !ok { return fmt.Errorf("cannot unmarshal field %s", "Length") } x.Length = data } } return nil } func (x *Range) GetOffset() uint64 { if x != nil { return x.Offset } return 0 } func (x *Range) SetOffset(v uint64) { x.Offset = v } func (x *Range) GetLength() uint64 { if x != nil { return x.Length } return 0 } func (x *Range) SetLength(v uint64) { x.Length = v } // MarshalJSON implements the json.Marshaler interface. func (x *Range) MarshalJSON() ([]byte, error) { w := jwriter.Writer{} x.MarshalEasyJSON(&w) return w.Buffer.BuildBytes(), w.Error } func (x *Range) MarshalEasyJSON(out *jwriter.Writer) { if x == nil { out.RawString("null") return } out.RawByte('{') { const prefix string = ",\"offset\":" out.RawString(prefix[1:]) out.Uint64(x.Offset) } { const prefix string = ",\"length\":" out.RawString(prefix) out.Uint64(x.Length) } out.RawByte('}') } // UnmarshalJSON implements the json.Unmarshaler interface. func (x *Range) UnmarshalJSON(data []byte) error { r := jlexer.Lexer{Data: data} x.UnmarshalEasyJSON(&r) return r.Error() } func (x *Range) UnmarshalEasyJSON(in *jlexer.Lexer) { isTopLevel := in.IsStart() if in.IsNull() { if isTopLevel { in.Consumed() } in.Skip() return } in.Delim('{') for !in.IsDelim('}') { key := in.UnsafeFieldName(false) in.WantColon() if in.IsNull() { in.Skip() in.WantComma() continue } switch key { case "offset": { var f uint64 f = in.Uint64() x.Offset = f } case "length": { var f uint64 f = in.Uint64() x.Length = f } } in.WantComma() } in.Delim('}') if isTopLevel { in.Consumed() } } type GetRangeRequest_Body struct { Address *grpc.Address `json:"address"` Range *Range `json:"range"` Raw bool `json:"raw"` } var ( _ encoding.ProtoMarshaler = (*GetRangeRequest_Body)(nil) _ encoding.ProtoUnmarshaler = (*GetRangeRequest_Body)(nil) _ json.Marshaler = (*GetRangeRequest_Body)(nil) _ json.Unmarshaler = (*GetRangeRequest_Body)(nil) ) // StableSize returns the size of x in protobuf format. // // Structures with the same field values have the same binary size. func (x *GetRangeRequest_Body) StableSize() (size int) { if x == nil { return 0 } size += proto.NestedStructureSize(1, x.Address) size += proto.NestedStructureSize(2, x.Range) size += proto.BoolSize(3, x.Raw) return size } // MarshalProtobuf implements the encoding.ProtoMarshaler interface. func (x *GetRangeRequest_Body) MarshalProtobuf(dst []byte) []byte { m := pool.MarshalerPool.Get() defer pool.MarshalerPool.Put(m) x.EmitProtobuf(m.MessageMarshaler()) dst = m.Marshal(dst) return dst } func (x *GetRangeRequest_Body) EmitProtobuf(mm *easyproto.MessageMarshaler) { if x == nil { return } if x.Address != nil && x.Address.StableSize() != 0 { x.Address.EmitProtobuf(mm.AppendMessage(1)) } if x.Range != nil && x.Range.StableSize() != 0 { x.Range.EmitProtobuf(mm.AppendMessage(2)) } if x.Raw { mm.AppendBool(3, x.Raw) } } // UnmarshalProtobuf implements the encoding.ProtoUnmarshaler interface. func (x *GetRangeRequest_Body) UnmarshalProtobuf(src []byte) (err error) { var fc easyproto.FieldContext for len(src) > 0 { src, err = fc.NextField(src) if err != nil { return fmt.Errorf("cannot read next field in %s", "GetRangeRequest_Body") } switch fc.FieldNum { case 1: // Address data, ok := fc.MessageData() if !ok { return fmt.Errorf("cannot unmarshal field %s", "Address") } x.Address = new(grpc.Address) if err := x.Address.UnmarshalProtobuf(data); err != nil { return fmt.Errorf("unmarshal: %w", err) } case 2: // Range data, ok := fc.MessageData() if !ok { return fmt.Errorf("cannot unmarshal field %s", "Range") } x.Range = new(Range) if err := x.Range.UnmarshalProtobuf(data); err != nil { return fmt.Errorf("unmarshal: %w", err) } case 3: // Raw data, ok := fc.Bool() if !ok { return fmt.Errorf("cannot unmarshal field %s", "Raw") } x.Raw = data } } return nil } func (x *GetRangeRequest_Body) GetAddress() *grpc.Address { if x != nil { return x.Address } return nil } func (x *GetRangeRequest_Body) SetAddress(v *grpc.Address) { x.Address = v } func (x *GetRangeRequest_Body) GetRange() *Range { if x != nil { return x.Range } return nil } func (x *GetRangeRequest_Body) SetRange(v *Range) { x.Range = v } func (x *GetRangeRequest_Body) GetRaw() bool { if x != nil { return x.Raw } return false } func (x *GetRangeRequest_Body) SetRaw(v bool) { x.Raw = v } // MarshalJSON implements the json.Marshaler interface. func (x *GetRangeRequest_Body) MarshalJSON() ([]byte, error) { w := jwriter.Writer{} x.MarshalEasyJSON(&w) return w.Buffer.BuildBytes(), w.Error } func (x *GetRangeRequest_Body) MarshalEasyJSON(out *jwriter.Writer) { if x == nil { out.RawString("null") return } out.RawByte('{') { const prefix string = ",\"address\":" out.RawString(prefix[1:]) x.Address.MarshalEasyJSON(out) } { const prefix string = ",\"range\":" out.RawString(prefix) x.Range.MarshalEasyJSON(out) } { const prefix string = ",\"raw\":" out.RawString(prefix) out.Bool(x.Raw) } out.RawByte('}') } // UnmarshalJSON implements the json.Unmarshaler interface. func (x *GetRangeRequest_Body) UnmarshalJSON(data []byte) error { r := jlexer.Lexer{Data: data} x.UnmarshalEasyJSON(&r) return r.Error() } func (x *GetRangeRequest_Body) UnmarshalEasyJSON(in *jlexer.Lexer) { isTopLevel := in.IsStart() if in.IsNull() { if isTopLevel { in.Consumed() } in.Skip() return } in.Delim('{') for !in.IsDelim('}') { key := in.UnsafeFieldName(false) in.WantColon() if in.IsNull() { in.Skip() in.WantComma() continue } switch key { case "address": { var f *grpc.Address f = new(grpc.Address) f.UnmarshalEasyJSON(in) x.Address = f } case "range": { var f *Range f = new(Range) f.UnmarshalEasyJSON(in) x.Range = f } case "raw": { var f bool f = in.Bool() x.Raw = f } } in.WantComma() } in.Delim('}') if isTopLevel { in.Consumed() } } type GetRangeRequest struct { Body *GetRangeRequest_Body `json:"body"` MetaHeader *grpc1.RequestMetaHeader `json:"metaHeader"` VerifyHeader *grpc1.RequestVerificationHeader `json:"verifyHeader"` } var ( _ encoding.ProtoMarshaler = (*GetRangeRequest)(nil) _ encoding.ProtoUnmarshaler = (*GetRangeRequest)(nil) _ json.Marshaler = (*GetRangeRequest)(nil) _ json.Unmarshaler = (*GetRangeRequest)(nil) ) // StableSize returns the size of x in protobuf format. // // Structures with the same field values have the same binary size. func (x *GetRangeRequest) StableSize() (size int) { if x == nil { return 0 } size += proto.NestedStructureSize(1, x.Body) size += proto.NestedStructureSize(2, x.MetaHeader) size += proto.NestedStructureSize(3, x.VerifyHeader) return size } // ReadSignedData fills buf with signed data of x. // If buffer length is less than x.SignedDataSize(), new buffer is allocated. // // Returns any error encountered which did not allow writing the data completely. // Otherwise, returns the buffer in which the data is written. // // Structures with the same field values have the same signed data. func (x *GetRangeRequest) SignedDataSize() int { return x.GetBody().StableSize() } // SignedDataSize returns size of the request signed data in bytes. // // Structures with the same field values have the same signed data size. func (x *GetRangeRequest) ReadSignedData(buf []byte) ([]byte, error) { return x.GetBody().MarshalProtobuf(buf), nil } // MarshalProtobuf implements the encoding.ProtoMarshaler interface. func (x *GetRangeRequest) MarshalProtobuf(dst []byte) []byte { m := pool.MarshalerPool.Get() defer pool.MarshalerPool.Put(m) x.EmitProtobuf(m.MessageMarshaler()) dst = m.Marshal(dst) return dst } func (x *GetRangeRequest) EmitProtobuf(mm *easyproto.MessageMarshaler) { if x == nil { return } if x.Body != nil && x.Body.StableSize() != 0 { x.Body.EmitProtobuf(mm.AppendMessage(1)) } if x.MetaHeader != nil && x.MetaHeader.StableSize() != 0 { x.MetaHeader.EmitProtobuf(mm.AppendMessage(2)) } if x.VerifyHeader != nil && x.VerifyHeader.StableSize() != 0 { x.VerifyHeader.EmitProtobuf(mm.AppendMessage(3)) } } // UnmarshalProtobuf implements the encoding.ProtoUnmarshaler interface. func (x *GetRangeRequest) UnmarshalProtobuf(src []byte) (err error) { var fc easyproto.FieldContext for len(src) > 0 { src, err = fc.NextField(src) if err != nil { return fmt.Errorf("cannot read next field in %s", "GetRangeRequest") } switch fc.FieldNum { case 1: // Body data, ok := fc.MessageData() if !ok { return fmt.Errorf("cannot unmarshal field %s", "Body") } x.Body = new(GetRangeRequest_Body) if err := x.Body.UnmarshalProtobuf(data); err != nil { return fmt.Errorf("unmarshal: %w", err) } case 2: // MetaHeader data, ok := fc.MessageData() if !ok { return fmt.Errorf("cannot unmarshal field %s", "MetaHeader") } x.MetaHeader = new(grpc1.RequestMetaHeader) if err := x.MetaHeader.UnmarshalProtobuf(data); err != nil { return fmt.Errorf("unmarshal: %w", err) } case 3: // VerifyHeader data, ok := fc.MessageData() if !ok { return fmt.Errorf("cannot unmarshal field %s", "VerifyHeader") } x.VerifyHeader = new(grpc1.RequestVerificationHeader) if err := x.VerifyHeader.UnmarshalProtobuf(data); err != nil { return fmt.Errorf("unmarshal: %w", err) } } } return nil } func (x *GetRangeRequest) GetBody() *GetRangeRequest_Body { if x != nil { return x.Body } return nil } func (x *GetRangeRequest) SetBody(v *GetRangeRequest_Body) { x.Body = v } func (x *GetRangeRequest) GetMetaHeader() *grpc1.RequestMetaHeader { if x != nil { return x.MetaHeader } return nil } func (x *GetRangeRequest) SetMetaHeader(v *grpc1.RequestMetaHeader) { x.MetaHeader = v } func (x *GetRangeRequest) GetVerifyHeader() *grpc1.RequestVerificationHeader { if x != nil { return x.VerifyHeader } return nil } func (x *GetRangeRequest) SetVerifyHeader(v *grpc1.RequestVerificationHeader) { x.VerifyHeader = v } // MarshalJSON implements the json.Marshaler interface. func (x *GetRangeRequest) MarshalJSON() ([]byte, error) { w := jwriter.Writer{} x.MarshalEasyJSON(&w) return w.Buffer.BuildBytes(), w.Error } func (x *GetRangeRequest) MarshalEasyJSON(out *jwriter.Writer) { if x == nil { out.RawString("null") return } out.RawByte('{') { const prefix string = ",\"body\":" out.RawString(prefix[1:]) x.Body.MarshalEasyJSON(out) } { const prefix string = ",\"metaHeader\":" out.RawString(prefix) x.MetaHeader.MarshalEasyJSON(out) } { const prefix string = ",\"verifyHeader\":" out.RawString(prefix) x.VerifyHeader.MarshalEasyJSON(out) } out.RawByte('}') } // UnmarshalJSON implements the json.Unmarshaler interface. func (x *GetRangeRequest) UnmarshalJSON(data []byte) error { r := jlexer.Lexer{Data: data} x.UnmarshalEasyJSON(&r) return r.Error() } func (x *GetRangeRequest) UnmarshalEasyJSON(in *jlexer.Lexer) { isTopLevel := in.IsStart() if in.IsNull() { if isTopLevel { in.Consumed() } in.Skip() return } in.Delim('{') for !in.IsDelim('}') { key := in.UnsafeFieldName(false) in.WantColon() if in.IsNull() { in.Skip() in.WantComma() continue } switch key { case "body": { var f *GetRangeRequest_Body f = new(GetRangeRequest_Body) f.UnmarshalEasyJSON(in) x.Body = f } case "metaHeader": { var f *grpc1.RequestMetaHeader f = new(grpc1.RequestMetaHeader) f.UnmarshalEasyJSON(in) x.MetaHeader = f } case "verifyHeader": { var f *grpc1.RequestVerificationHeader f = new(grpc1.RequestVerificationHeader) f.UnmarshalEasyJSON(in) x.VerifyHeader = f } } in.WantComma() } in.Delim('}') if isTopLevel { in.Consumed() } } type GetRangeResponse_Body struct { RangePart isGetRangeResponse_Body_RangePart } var ( _ encoding.ProtoMarshaler = (*GetRangeResponse_Body)(nil) _ encoding.ProtoUnmarshaler = (*GetRangeResponse_Body)(nil) _ json.Marshaler = (*GetRangeResponse_Body)(nil) _ json.Unmarshaler = (*GetRangeResponse_Body)(nil) ) // StableSize returns the size of x in protobuf format. // // Structures with the same field values have the same binary size. func (x *GetRangeResponse_Body) StableSize() (size int) { if x == nil { return 0 } if inner, ok := x.RangePart.(*GetRangeResponse_Body_Chunk); ok { size += proto.BytesSize(1, inner.Chunk) } if inner, ok := x.RangePart.(*GetRangeResponse_Body_SplitInfo); ok { size += proto.NestedStructureSize(2, inner.SplitInfo) } if inner, ok := x.RangePart.(*GetRangeResponse_Body_EcInfo); ok { size += proto.NestedStructureSize(3, inner.EcInfo) } return size } // MarshalProtobuf implements the encoding.ProtoMarshaler interface. func (x *GetRangeResponse_Body) MarshalProtobuf(dst []byte) []byte { m := pool.MarshalerPool.Get() defer pool.MarshalerPool.Put(m) x.EmitProtobuf(m.MessageMarshaler()) dst = m.Marshal(dst) return dst } func (x *GetRangeResponse_Body) EmitProtobuf(mm *easyproto.MessageMarshaler) { if x == nil { return } if inner, ok := x.RangePart.(*GetRangeResponse_Body_Chunk); ok { if len(inner.Chunk) != 0 { mm.AppendBytes(1, inner.Chunk) } } if inner, ok := x.RangePart.(*GetRangeResponse_Body_SplitInfo); ok { if inner.SplitInfo != nil && inner.SplitInfo.StableSize() != 0 { inner.SplitInfo.EmitProtobuf(mm.AppendMessage(2)) } } if inner, ok := x.RangePart.(*GetRangeResponse_Body_EcInfo); ok { if inner.EcInfo != nil && inner.EcInfo.StableSize() != 0 { inner.EcInfo.EmitProtobuf(mm.AppendMessage(3)) } } } // UnmarshalProtobuf implements the encoding.ProtoUnmarshaler interface. func (x *GetRangeResponse_Body) UnmarshalProtobuf(src []byte) (err error) { var fc easyproto.FieldContext for len(src) > 0 { src, err = fc.NextField(src) if err != nil { return fmt.Errorf("cannot read next field in %s", "GetRangeResponse_Body") } switch fc.FieldNum { case 1: // Chunk data, ok := fc.Bytes() if !ok { return fmt.Errorf("cannot unmarshal field %s", "Chunk") } x.RangePart = &GetRangeResponse_Body_Chunk{Chunk: data} case 2: // SplitInfo data, ok := fc.MessageData() if !ok { return fmt.Errorf("cannot unmarshal field %s", "SplitInfo") } oneofField := &GetRangeResponse_Body_SplitInfo{SplitInfo: new(SplitInfo)} if err := oneofField.SplitInfo.UnmarshalProtobuf(data); err != nil { return fmt.Errorf("unmarshal: %w", err) } x.RangePart = oneofField case 3: // EcInfo data, ok := fc.MessageData() if !ok { return fmt.Errorf("cannot unmarshal field %s", "EcInfo") } oneofField := &GetRangeResponse_Body_EcInfo{EcInfo: new(ECInfo)} if err := oneofField.EcInfo.UnmarshalProtobuf(data); err != nil { return fmt.Errorf("unmarshal: %w", err) } x.RangePart = oneofField } } return nil } func (x *GetRangeResponse_Body) GetRangePart() isGetRangeResponse_Body_RangePart { if x != nil { return x.RangePart } return nil } func (x *GetRangeResponse_Body) SetRangePart(v isGetRangeResponse_Body_RangePart) { x.RangePart = v } func (x *GetRangeResponse_Body) GetChunk() *GetRangeResponse_Body_Chunk { if xx, ok := x.GetRangePart().(*GetRangeResponse_Body_Chunk); ok { return xx } return nil } func (x *GetRangeResponse_Body) SetChunk(v *GetRangeResponse_Body_Chunk) { x.RangePart = v } func (x *GetRangeResponse_Body_Chunk) GetChunk() []byte { if x != nil { return x.Chunk } return nil } func (x *GetRangeResponse_Body_Chunk) SetChunk(v []byte) { x.Chunk = v } func (x *GetRangeResponse_Body) GetSplitInfo() *SplitInfo { if xx, ok := x.GetRangePart().(*GetRangeResponse_Body_SplitInfo); ok { return xx.SplitInfo } return nil } func (x *GetRangeResponse_Body) SetSplitInfo(v *SplitInfo) { x.RangePart = &GetRangeResponse_Body_SplitInfo{SplitInfo: v} } func (x *GetRangeResponse_Body) GetEcInfo() *ECInfo { if xx, ok := x.GetRangePart().(*GetRangeResponse_Body_EcInfo); ok { return xx.EcInfo } return nil } func (x *GetRangeResponse_Body) SetEcInfo(v *ECInfo) { x.RangePart = &GetRangeResponse_Body_EcInfo{EcInfo: v} } // MarshalJSON implements the json.Marshaler interface. func (x *GetRangeResponse_Body) MarshalJSON() ([]byte, error) { w := jwriter.Writer{} x.MarshalEasyJSON(&w) return w.Buffer.BuildBytes(), w.Error } func (x *GetRangeResponse_Body) MarshalEasyJSON(out *jwriter.Writer) { if x == nil { out.RawString("null") return } out.RawByte('{') switch xx := x.RangePart.(type) { case *GetRangeResponse_Body_Chunk: { const prefix string = ",\"chunk\":" out.RawString(prefix[1:]) out.Base64Bytes(xx.Chunk) } case *GetRangeResponse_Body_SplitInfo: { const prefix string = ",\"splitInfo\":" out.RawString(prefix[1:]) xx.SplitInfo.MarshalEasyJSON(out) } case *GetRangeResponse_Body_EcInfo: { const prefix string = ",\"ecInfo\":" out.RawString(prefix[1:]) xx.EcInfo.MarshalEasyJSON(out) } default: out.RawString("null") } out.RawByte('}') } // UnmarshalJSON implements the json.Unmarshaler interface. func (x *GetRangeResponse_Body) UnmarshalJSON(data []byte) error { r := jlexer.Lexer{Data: data} x.UnmarshalEasyJSON(&r) return r.Error() } func (x *GetRangeResponse_Body) UnmarshalEasyJSON(in *jlexer.Lexer) { isTopLevel := in.IsStart() if in.IsNull() { if isTopLevel { in.Consumed() } in.Skip() return } in.Delim('{') for !in.IsDelim('}') { key := in.UnsafeFieldName(false) in.WantColon() if in.IsNull() { in.Skip() in.WantComma() continue } switch key { case "chunk": xx := new(GetRangeResponse_Body_Chunk) x.RangePart = xx { var f []byte f = in.Bytes() xx.Chunk = f } case "splitInfo": xx := new(GetRangeResponse_Body_SplitInfo) x.RangePart = xx { var f *SplitInfo f = new(SplitInfo) f.UnmarshalEasyJSON(in) xx.SplitInfo = f } case "ecInfo": xx := new(GetRangeResponse_Body_EcInfo) x.RangePart = xx { var f *ECInfo f = new(ECInfo) f.UnmarshalEasyJSON(in) xx.EcInfo = f } } in.WantComma() } in.Delim('}') if isTopLevel { in.Consumed() } } type isGetRangeResponse_Body_RangePart interface { isGetRangeResponse_Body_RangePart() } type GetRangeResponse_Body_Chunk struct { Chunk []byte } type GetRangeResponse_Body_SplitInfo struct { SplitInfo *SplitInfo } type GetRangeResponse_Body_EcInfo struct { EcInfo *ECInfo } func (*GetRangeResponse_Body_Chunk) isGetRangeResponse_Body_RangePart() {} func (*GetRangeResponse_Body_SplitInfo) isGetRangeResponse_Body_RangePart() {} func (*GetRangeResponse_Body_EcInfo) isGetRangeResponse_Body_RangePart() {} type GetRangeResponse struct { Body *GetRangeResponse_Body `json:"body"` MetaHeader *grpc1.ResponseMetaHeader `json:"metaHeader"` VerifyHeader *grpc1.ResponseVerificationHeader `json:"verifyHeader"` } var ( _ encoding.ProtoMarshaler = (*GetRangeResponse)(nil) _ encoding.ProtoUnmarshaler = (*GetRangeResponse)(nil) _ json.Marshaler = (*GetRangeResponse)(nil) _ json.Unmarshaler = (*GetRangeResponse)(nil) ) // StableSize returns the size of x in protobuf format. // // Structures with the same field values have the same binary size. func (x *GetRangeResponse) StableSize() (size int) { if x == nil { return 0 } size += proto.NestedStructureSize(1, x.Body) size += proto.NestedStructureSize(2, x.MetaHeader) size += proto.NestedStructureSize(3, x.VerifyHeader) return size } // ReadSignedData fills buf with signed data of x. // If buffer length is less than x.SignedDataSize(), new buffer is allocated. // // Returns any error encountered which did not allow writing the data completely. // Otherwise, returns the buffer in which the data is written. // // Structures with the same field values have the same signed data. func (x *GetRangeResponse) SignedDataSize() int { return x.GetBody().StableSize() } // SignedDataSize returns size of the request signed data in bytes. // // Structures with the same field values have the same signed data size. func (x *GetRangeResponse) ReadSignedData(buf []byte) ([]byte, error) { return x.GetBody().MarshalProtobuf(buf), nil } // MarshalProtobuf implements the encoding.ProtoMarshaler interface. func (x *GetRangeResponse) MarshalProtobuf(dst []byte) []byte { m := pool.MarshalerPool.Get() defer pool.MarshalerPool.Put(m) x.EmitProtobuf(m.MessageMarshaler()) dst = m.Marshal(dst) return dst } func (x *GetRangeResponse) EmitProtobuf(mm *easyproto.MessageMarshaler) { if x == nil { return } if x.Body != nil && x.Body.StableSize() != 0 { x.Body.EmitProtobuf(mm.AppendMessage(1)) } if x.MetaHeader != nil && x.MetaHeader.StableSize() != 0 { x.MetaHeader.EmitProtobuf(mm.AppendMessage(2)) } if x.VerifyHeader != nil && x.VerifyHeader.StableSize() != 0 { x.VerifyHeader.EmitProtobuf(mm.AppendMessage(3)) } } // UnmarshalProtobuf implements the encoding.ProtoUnmarshaler interface. func (x *GetRangeResponse) UnmarshalProtobuf(src []byte) (err error) { var fc easyproto.FieldContext for len(src) > 0 { src, err = fc.NextField(src) if err != nil { return fmt.Errorf("cannot read next field in %s", "GetRangeResponse") } switch fc.FieldNum { case 1: // Body data, ok := fc.MessageData() if !ok { return fmt.Errorf("cannot unmarshal field %s", "Body") } x.Body = new(GetRangeResponse_Body) if err := x.Body.UnmarshalProtobuf(data); err != nil { return fmt.Errorf("unmarshal: %w", err) } case 2: // MetaHeader data, ok := fc.MessageData() if !ok { return fmt.Errorf("cannot unmarshal field %s", "MetaHeader") } x.MetaHeader = new(grpc1.ResponseMetaHeader) if err := x.MetaHeader.UnmarshalProtobuf(data); err != nil { return fmt.Errorf("unmarshal: %w", err) } case 3: // VerifyHeader data, ok := fc.MessageData() if !ok { return fmt.Errorf("cannot unmarshal field %s", "VerifyHeader") } x.VerifyHeader = new(grpc1.ResponseVerificationHeader) if err := x.VerifyHeader.UnmarshalProtobuf(data); err != nil { return fmt.Errorf("unmarshal: %w", err) } } } return nil } func (x *GetRangeResponse) GetBody() *GetRangeResponse_Body { if x != nil { return x.Body } return nil } func (x *GetRangeResponse) SetBody(v *GetRangeResponse_Body) { x.Body = v } func (x *GetRangeResponse) GetMetaHeader() *grpc1.ResponseMetaHeader { if x != nil { return x.MetaHeader } return nil } func (x *GetRangeResponse) SetMetaHeader(v *grpc1.ResponseMetaHeader) { x.MetaHeader = v } func (x *GetRangeResponse) GetVerifyHeader() *grpc1.ResponseVerificationHeader { if x != nil { return x.VerifyHeader } return nil } func (x *GetRangeResponse) SetVerifyHeader(v *grpc1.ResponseVerificationHeader) { x.VerifyHeader = v } // MarshalJSON implements the json.Marshaler interface. func (x *GetRangeResponse) MarshalJSON() ([]byte, error) { w := jwriter.Writer{} x.MarshalEasyJSON(&w) return w.Buffer.BuildBytes(), w.Error } func (x *GetRangeResponse) MarshalEasyJSON(out *jwriter.Writer) { if x == nil { out.RawString("null") return } out.RawByte('{') { const prefix string = ",\"body\":" out.RawString(prefix[1:]) x.Body.MarshalEasyJSON(out) } { const prefix string = ",\"metaHeader\":" out.RawString(prefix) x.MetaHeader.MarshalEasyJSON(out) } { const prefix string = ",\"verifyHeader\":" out.RawString(prefix) x.VerifyHeader.MarshalEasyJSON(out) } out.RawByte('}') } // UnmarshalJSON implements the json.Unmarshaler interface. func (x *GetRangeResponse) UnmarshalJSON(data []byte) error { r := jlexer.Lexer{Data: data} x.UnmarshalEasyJSON(&r) return r.Error() } func (x *GetRangeResponse) UnmarshalEasyJSON(in *jlexer.Lexer) { isTopLevel := in.IsStart() if in.IsNull() { if isTopLevel { in.Consumed() } in.Skip() return } in.Delim('{') for !in.IsDelim('}') { key := in.UnsafeFieldName(false) in.WantColon() if in.IsNull() { in.Skip() in.WantComma() continue } switch key { case "body": { var f *GetRangeResponse_Body f = new(GetRangeResponse_Body) f.UnmarshalEasyJSON(in) x.Body = f } case "metaHeader": { var f *grpc1.ResponseMetaHeader f = new(grpc1.ResponseMetaHeader) f.UnmarshalEasyJSON(in) x.MetaHeader = f } case "verifyHeader": { var f *grpc1.ResponseVerificationHeader f = new(grpc1.ResponseVerificationHeader) f.UnmarshalEasyJSON(in) x.VerifyHeader = f } } in.WantComma() } in.Delim('}') if isTopLevel { in.Consumed() } } type GetRangeHashRequest_Body struct { Address *grpc.Address `json:"address"` Ranges []*Range `json:"ranges"` Salt []byte `json:"salt"` Type grpc.ChecksumType `json:"type"` } var ( _ encoding.ProtoMarshaler = (*GetRangeHashRequest_Body)(nil) _ encoding.ProtoUnmarshaler = (*GetRangeHashRequest_Body)(nil) _ json.Marshaler = (*GetRangeHashRequest_Body)(nil) _ json.Unmarshaler = (*GetRangeHashRequest_Body)(nil) ) // StableSize returns the size of x in protobuf format. // // Structures with the same field values have the same binary size. func (x *GetRangeHashRequest_Body) StableSize() (size int) { if x == nil { return 0 } size += proto.NestedStructureSize(1, x.Address) for i := range x.Ranges { size += proto.NestedStructureSize(2, x.Ranges[i]) } size += proto.BytesSize(3, x.Salt) size += proto.EnumSize(4, int32(x.Type)) return size } // MarshalProtobuf implements the encoding.ProtoMarshaler interface. func (x *GetRangeHashRequest_Body) MarshalProtobuf(dst []byte) []byte { m := pool.MarshalerPool.Get() defer pool.MarshalerPool.Put(m) x.EmitProtobuf(m.MessageMarshaler()) dst = m.Marshal(dst) return dst } func (x *GetRangeHashRequest_Body) EmitProtobuf(mm *easyproto.MessageMarshaler) { if x == nil { return } if x.Address != nil && x.Address.StableSize() != 0 { x.Address.EmitProtobuf(mm.AppendMessage(1)) } for i := range x.Ranges { if x.Ranges[i] != nil && x.Ranges[i].StableSize() != 0 { x.Ranges[i].EmitProtobuf(mm.AppendMessage(2)) } } if len(x.Salt) != 0 { mm.AppendBytes(3, x.Salt) } if int32(x.Type) != 0 { mm.AppendInt32(4, int32(x.Type)) } } // UnmarshalProtobuf implements the encoding.ProtoUnmarshaler interface. func (x *GetRangeHashRequest_Body) UnmarshalProtobuf(src []byte) (err error) { var fc easyproto.FieldContext for len(src) > 0 { src, err = fc.NextField(src) if err != nil { return fmt.Errorf("cannot read next field in %s", "GetRangeHashRequest_Body") } switch fc.FieldNum { case 1: // Address data, ok := fc.MessageData() if !ok { return fmt.Errorf("cannot unmarshal field %s", "Address") } x.Address = new(grpc.Address) if err := x.Address.UnmarshalProtobuf(data); err != nil { return fmt.Errorf("unmarshal: %w", err) } case 2: // Ranges data, ok := fc.MessageData() if !ok { return fmt.Errorf("cannot unmarshal field %s", "Ranges") } x.Ranges = append(x.Ranges, new(Range)) ff := x.Ranges[len(x.Ranges)-1] if err := ff.UnmarshalProtobuf(data); err != nil { return fmt.Errorf("unmarshal: %w", err) } case 3: // Salt data, ok := fc.Bytes() if !ok { return fmt.Errorf("cannot unmarshal field %s", "Salt") } x.Salt = data case 4: // Type data, ok := fc.Int32() if !ok { return fmt.Errorf("cannot unmarshal field %s", "Type") } x.Type = grpc.ChecksumType(data) } } return nil } func (x *GetRangeHashRequest_Body) GetAddress() *grpc.Address { if x != nil { return x.Address } return nil } func (x *GetRangeHashRequest_Body) SetAddress(v *grpc.Address) { x.Address = v } func (x *GetRangeHashRequest_Body) GetRanges() []*Range { if x != nil { return x.Ranges } return nil } func (x *GetRangeHashRequest_Body) SetRanges(v []*Range) { x.Ranges = v } func (x *GetRangeHashRequest_Body) GetSalt() []byte { if x != nil { return x.Salt } return nil } func (x *GetRangeHashRequest_Body) SetSalt(v []byte) { x.Salt = v } func (x *GetRangeHashRequest_Body) GetType() grpc.ChecksumType { if x != nil { return x.Type } return 0 } func (x *GetRangeHashRequest_Body) SetType(v grpc.ChecksumType) { x.Type = v } // MarshalJSON implements the json.Marshaler interface. func (x *GetRangeHashRequest_Body) MarshalJSON() ([]byte, error) { w := jwriter.Writer{} x.MarshalEasyJSON(&w) return w.Buffer.BuildBytes(), w.Error } func (x *GetRangeHashRequest_Body) MarshalEasyJSON(out *jwriter.Writer) { if x == nil { out.RawString("null") return } out.RawByte('{') { const prefix string = ",\"address\":" out.RawString(prefix[1:]) x.Address.MarshalEasyJSON(out) } { const prefix string = ",\"ranges\":" out.RawString(prefix) out.RawByte('[') for i := range x.Ranges { if i != 0 { out.RawByte(',') } x.Ranges[i].MarshalEasyJSON(out) } out.RawByte(']') } { const prefix string = ",\"salt\":" out.RawString(prefix) out.Base64Bytes(x.Salt) } { const prefix string = ",\"type\":" out.RawString(prefix) out.Int32(int32(x.Type)) } out.RawByte('}') } // UnmarshalJSON implements the json.Unmarshaler interface. func (x *GetRangeHashRequest_Body) UnmarshalJSON(data []byte) error { r := jlexer.Lexer{Data: data} x.UnmarshalEasyJSON(&r) return r.Error() } func (x *GetRangeHashRequest_Body) UnmarshalEasyJSON(in *jlexer.Lexer) { isTopLevel := in.IsStart() if in.IsNull() { if isTopLevel { in.Consumed() } in.Skip() return } in.Delim('{') for !in.IsDelim('}') { key := in.UnsafeFieldName(false) in.WantColon() if in.IsNull() { in.Skip() in.WantComma() continue } switch key { case "address": { var f *grpc.Address f = new(grpc.Address) f.UnmarshalEasyJSON(in) x.Address = f } case "ranges": { var f *Range var list []*Range in.Delim('[') for !in.IsDelim(']') { f = new(Range) f.UnmarshalEasyJSON(in) list = append(list, f) in.WantComma() } x.Ranges = list in.Delim(']') } case "salt": { var f []byte f = in.Bytes() x.Salt = f } case "type": { var f grpc.ChecksumType var parsedValue grpc.ChecksumType switch v := in.Interface().(type) { case string: if vv, ok := grpc.ChecksumType_value[v]; ok { parsedValue = grpc.ChecksumType(vv) break } vv, err := strconv.ParseInt(v, 10, 32) if err != nil { in.AddError(err) return } parsedValue = grpc.ChecksumType(vv) case float64: parsedValue = grpc.ChecksumType(v) } f = parsedValue x.Type = f } } in.WantComma() } in.Delim('}') if isTopLevel { in.Consumed() } } type GetRangeHashRequest struct { Body *GetRangeHashRequest_Body `json:"body"` MetaHeader *grpc1.RequestMetaHeader `json:"metaHeader"` VerifyHeader *grpc1.RequestVerificationHeader `json:"verifyHeader"` } var ( _ encoding.ProtoMarshaler = (*GetRangeHashRequest)(nil) _ encoding.ProtoUnmarshaler = (*GetRangeHashRequest)(nil) _ json.Marshaler = (*GetRangeHashRequest)(nil) _ json.Unmarshaler = (*GetRangeHashRequest)(nil) ) // StableSize returns the size of x in protobuf format. // // Structures with the same field values have the same binary size. func (x *GetRangeHashRequest) StableSize() (size int) { if x == nil { return 0 } size += proto.NestedStructureSize(1, x.Body) size += proto.NestedStructureSize(2, x.MetaHeader) size += proto.NestedStructureSize(3, x.VerifyHeader) return size } // ReadSignedData fills buf with signed data of x. // If buffer length is less than x.SignedDataSize(), new buffer is allocated. // // Returns any error encountered which did not allow writing the data completely. // Otherwise, returns the buffer in which the data is written. // // Structures with the same field values have the same signed data. func (x *GetRangeHashRequest) SignedDataSize() int { return x.GetBody().StableSize() } // SignedDataSize returns size of the request signed data in bytes. // // Structures with the same field values have the same signed data size. func (x *GetRangeHashRequest) ReadSignedData(buf []byte) ([]byte, error) { return x.GetBody().MarshalProtobuf(buf), nil } // MarshalProtobuf implements the encoding.ProtoMarshaler interface. func (x *GetRangeHashRequest) MarshalProtobuf(dst []byte) []byte { m := pool.MarshalerPool.Get() defer pool.MarshalerPool.Put(m) x.EmitProtobuf(m.MessageMarshaler()) dst = m.Marshal(dst) return dst } func (x *GetRangeHashRequest) EmitProtobuf(mm *easyproto.MessageMarshaler) { if x == nil { return } if x.Body != nil && x.Body.StableSize() != 0 { x.Body.EmitProtobuf(mm.AppendMessage(1)) } if x.MetaHeader != nil && x.MetaHeader.StableSize() != 0 { x.MetaHeader.EmitProtobuf(mm.AppendMessage(2)) } if x.VerifyHeader != nil && x.VerifyHeader.StableSize() != 0 { x.VerifyHeader.EmitProtobuf(mm.AppendMessage(3)) } } // UnmarshalProtobuf implements the encoding.ProtoUnmarshaler interface. func (x *GetRangeHashRequest) UnmarshalProtobuf(src []byte) (err error) { var fc easyproto.FieldContext for len(src) > 0 { src, err = fc.NextField(src) if err != nil { return fmt.Errorf("cannot read next field in %s", "GetRangeHashRequest") } switch fc.FieldNum { case 1: // Body data, ok := fc.MessageData() if !ok { return fmt.Errorf("cannot unmarshal field %s", "Body") } x.Body = new(GetRangeHashRequest_Body) if err := x.Body.UnmarshalProtobuf(data); err != nil { return fmt.Errorf("unmarshal: %w", err) } case 2: // MetaHeader data, ok := fc.MessageData() if !ok { return fmt.Errorf("cannot unmarshal field %s", "MetaHeader") } x.MetaHeader = new(grpc1.RequestMetaHeader) if err := x.MetaHeader.UnmarshalProtobuf(data); err != nil { return fmt.Errorf("unmarshal: %w", err) } case 3: // VerifyHeader data, ok := fc.MessageData() if !ok { return fmt.Errorf("cannot unmarshal field %s", "VerifyHeader") } x.VerifyHeader = new(grpc1.RequestVerificationHeader) if err := x.VerifyHeader.UnmarshalProtobuf(data); err != nil { return fmt.Errorf("unmarshal: %w", err) } } } return nil } func (x *GetRangeHashRequest) GetBody() *GetRangeHashRequest_Body { if x != nil { return x.Body } return nil } func (x *GetRangeHashRequest) SetBody(v *GetRangeHashRequest_Body) { x.Body = v } func (x *GetRangeHashRequest) GetMetaHeader() *grpc1.RequestMetaHeader { if x != nil { return x.MetaHeader } return nil } func (x *GetRangeHashRequest) SetMetaHeader(v *grpc1.RequestMetaHeader) { x.MetaHeader = v } func (x *GetRangeHashRequest) GetVerifyHeader() *grpc1.RequestVerificationHeader { if x != nil { return x.VerifyHeader } return nil } func (x *GetRangeHashRequest) SetVerifyHeader(v *grpc1.RequestVerificationHeader) { x.VerifyHeader = v } // MarshalJSON implements the json.Marshaler interface. func (x *GetRangeHashRequest) MarshalJSON() ([]byte, error) { w := jwriter.Writer{} x.MarshalEasyJSON(&w) return w.Buffer.BuildBytes(), w.Error } func (x *GetRangeHashRequest) MarshalEasyJSON(out *jwriter.Writer) { if x == nil { out.RawString("null") return } out.RawByte('{') { const prefix string = ",\"body\":" out.RawString(prefix[1:]) x.Body.MarshalEasyJSON(out) } { const prefix string = ",\"metaHeader\":" out.RawString(prefix) x.MetaHeader.MarshalEasyJSON(out) } { const prefix string = ",\"verifyHeader\":" out.RawString(prefix) x.VerifyHeader.MarshalEasyJSON(out) } out.RawByte('}') } // UnmarshalJSON implements the json.Unmarshaler interface. func (x *GetRangeHashRequest) UnmarshalJSON(data []byte) error { r := jlexer.Lexer{Data: data} x.UnmarshalEasyJSON(&r) return r.Error() } func (x *GetRangeHashRequest) UnmarshalEasyJSON(in *jlexer.Lexer) { isTopLevel := in.IsStart() if in.IsNull() { if isTopLevel { in.Consumed() } in.Skip() return } in.Delim('{') for !in.IsDelim('}') { key := in.UnsafeFieldName(false) in.WantColon() if in.IsNull() { in.Skip() in.WantComma() continue } switch key { case "body": { var f *GetRangeHashRequest_Body f = new(GetRangeHashRequest_Body) f.UnmarshalEasyJSON(in) x.Body = f } case "metaHeader": { var f *grpc1.RequestMetaHeader f = new(grpc1.RequestMetaHeader) f.UnmarshalEasyJSON(in) x.MetaHeader = f } case "verifyHeader": { var f *grpc1.RequestVerificationHeader f = new(grpc1.RequestVerificationHeader) f.UnmarshalEasyJSON(in) x.VerifyHeader = f } } in.WantComma() } in.Delim('}') if isTopLevel { in.Consumed() } } type GetRangeHashResponse_Body struct { Type grpc.ChecksumType `json:"type"` HashList [][]byte `json:"hashList"` } var ( _ encoding.ProtoMarshaler = (*GetRangeHashResponse_Body)(nil) _ encoding.ProtoUnmarshaler = (*GetRangeHashResponse_Body)(nil) _ json.Marshaler = (*GetRangeHashResponse_Body)(nil) _ json.Unmarshaler = (*GetRangeHashResponse_Body)(nil) ) // StableSize returns the size of x in protobuf format. // // Structures with the same field values have the same binary size. func (x *GetRangeHashResponse_Body) StableSize() (size int) { if x == nil { return 0 } size += proto.EnumSize(1, int32(x.Type)) size += proto.RepeatedBytesSize(2, x.HashList) return size } // MarshalProtobuf implements the encoding.ProtoMarshaler interface. func (x *GetRangeHashResponse_Body) MarshalProtobuf(dst []byte) []byte { m := pool.MarshalerPool.Get() defer pool.MarshalerPool.Put(m) x.EmitProtobuf(m.MessageMarshaler()) dst = m.Marshal(dst) return dst } func (x *GetRangeHashResponse_Body) EmitProtobuf(mm *easyproto.MessageMarshaler) { if x == nil { return } if int32(x.Type) != 0 { mm.AppendInt32(1, int32(x.Type)) } for j := range x.HashList { mm.AppendBytes(2, x.HashList[j]) } } // UnmarshalProtobuf implements the encoding.ProtoUnmarshaler interface. func (x *GetRangeHashResponse_Body) UnmarshalProtobuf(src []byte) (err error) { var fc easyproto.FieldContext for len(src) > 0 { src, err = fc.NextField(src) if err != nil { return fmt.Errorf("cannot read next field in %s", "GetRangeHashResponse_Body") } switch fc.FieldNum { case 1: // Type data, ok := fc.Int32() if !ok { return fmt.Errorf("cannot unmarshal field %s", "Type") } x.Type = grpc.ChecksumType(data) case 2: // HashList data, ok := fc.Bytes() if !ok { return fmt.Errorf("cannot unmarshal field %s", "HashList") } x.HashList = append(x.HashList, data) } } return nil } func (x *GetRangeHashResponse_Body) GetType() grpc.ChecksumType { if x != nil { return x.Type } return 0 } func (x *GetRangeHashResponse_Body) SetType(v grpc.ChecksumType) { x.Type = v } func (x *GetRangeHashResponse_Body) GetHashList() [][]byte { if x != nil { return x.HashList } return nil } func (x *GetRangeHashResponse_Body) SetHashList(v [][]byte) { x.HashList = v } // MarshalJSON implements the json.Marshaler interface. func (x *GetRangeHashResponse_Body) MarshalJSON() ([]byte, error) { w := jwriter.Writer{} x.MarshalEasyJSON(&w) return w.Buffer.BuildBytes(), w.Error } func (x *GetRangeHashResponse_Body) MarshalEasyJSON(out *jwriter.Writer) { if x == nil { out.RawString("null") return } out.RawByte('{') { const prefix string = ",\"type\":" out.RawString(prefix[1:]) out.Int32(int32(x.Type)) } { const prefix string = ",\"hashList\":" out.RawString(prefix) out.RawByte('[') for i := range x.HashList { if i != 0 { out.RawByte(',') } out.Base64Bytes(x.HashList[i]) } out.RawByte(']') } out.RawByte('}') } // UnmarshalJSON implements the json.Unmarshaler interface. func (x *GetRangeHashResponse_Body) UnmarshalJSON(data []byte) error { r := jlexer.Lexer{Data: data} x.UnmarshalEasyJSON(&r) return r.Error() } func (x *GetRangeHashResponse_Body) UnmarshalEasyJSON(in *jlexer.Lexer) { isTopLevel := in.IsStart() if in.IsNull() { if isTopLevel { in.Consumed() } in.Skip() return } in.Delim('{') for !in.IsDelim('}') { key := in.UnsafeFieldName(false) in.WantColon() if in.IsNull() { in.Skip() in.WantComma() continue } switch key { case "type": { var f grpc.ChecksumType var parsedValue grpc.ChecksumType switch v := in.Interface().(type) { case string: if vv, ok := grpc.ChecksumType_value[v]; ok { parsedValue = grpc.ChecksumType(vv) break } vv, err := strconv.ParseInt(v, 10, 32) if err != nil { in.AddError(err) return } parsedValue = grpc.ChecksumType(vv) case float64: parsedValue = grpc.ChecksumType(v) } f = parsedValue x.Type = f } case "hashList": { var f []byte var list [][]byte in.Delim('[') for !in.IsDelim(']') { f = in.Bytes() list = append(list, f) in.WantComma() } x.HashList = list in.Delim(']') } } in.WantComma() } in.Delim('}') if isTopLevel { in.Consumed() } } type GetRangeHashResponse struct { Body *GetRangeHashResponse_Body `json:"body"` MetaHeader *grpc1.ResponseMetaHeader `json:"metaHeader"` VerifyHeader *grpc1.ResponseVerificationHeader `json:"verifyHeader"` } var ( _ encoding.ProtoMarshaler = (*GetRangeHashResponse)(nil) _ encoding.ProtoUnmarshaler = (*GetRangeHashResponse)(nil) _ json.Marshaler = (*GetRangeHashResponse)(nil) _ json.Unmarshaler = (*GetRangeHashResponse)(nil) ) // StableSize returns the size of x in protobuf format. // // Structures with the same field values have the same binary size. func (x *GetRangeHashResponse) StableSize() (size int) { if x == nil { return 0 } size += proto.NestedStructureSize(1, x.Body) size += proto.NestedStructureSize(2, x.MetaHeader) size += proto.NestedStructureSize(3, x.VerifyHeader) return size } // ReadSignedData fills buf with signed data of x. // If buffer length is less than x.SignedDataSize(), new buffer is allocated. // // Returns any error encountered which did not allow writing the data completely. // Otherwise, returns the buffer in which the data is written. // // Structures with the same field values have the same signed data. func (x *GetRangeHashResponse) SignedDataSize() int { return x.GetBody().StableSize() } // SignedDataSize returns size of the request signed data in bytes. // // Structures with the same field values have the same signed data size. func (x *GetRangeHashResponse) ReadSignedData(buf []byte) ([]byte, error) { return x.GetBody().MarshalProtobuf(buf), nil } // MarshalProtobuf implements the encoding.ProtoMarshaler interface. func (x *GetRangeHashResponse) MarshalProtobuf(dst []byte) []byte { m := pool.MarshalerPool.Get() defer pool.MarshalerPool.Put(m) x.EmitProtobuf(m.MessageMarshaler()) dst = m.Marshal(dst) return dst } func (x *GetRangeHashResponse) EmitProtobuf(mm *easyproto.MessageMarshaler) { if x == nil { return } if x.Body != nil && x.Body.StableSize() != 0 { x.Body.EmitProtobuf(mm.AppendMessage(1)) } if x.MetaHeader != nil && x.MetaHeader.StableSize() != 0 { x.MetaHeader.EmitProtobuf(mm.AppendMessage(2)) } if x.VerifyHeader != nil && x.VerifyHeader.StableSize() != 0 { x.VerifyHeader.EmitProtobuf(mm.AppendMessage(3)) } } // UnmarshalProtobuf implements the encoding.ProtoUnmarshaler interface. func (x *GetRangeHashResponse) UnmarshalProtobuf(src []byte) (err error) { var fc easyproto.FieldContext for len(src) > 0 { src, err = fc.NextField(src) if err != nil { return fmt.Errorf("cannot read next field in %s", "GetRangeHashResponse") } switch fc.FieldNum { case 1: // Body data, ok := fc.MessageData() if !ok { return fmt.Errorf("cannot unmarshal field %s", "Body") } x.Body = new(GetRangeHashResponse_Body) if err := x.Body.UnmarshalProtobuf(data); err != nil { return fmt.Errorf("unmarshal: %w", err) } case 2: // MetaHeader data, ok := fc.MessageData() if !ok { return fmt.Errorf("cannot unmarshal field %s", "MetaHeader") } x.MetaHeader = new(grpc1.ResponseMetaHeader) if err := x.MetaHeader.UnmarshalProtobuf(data); err != nil { return fmt.Errorf("unmarshal: %w", err) } case 3: // VerifyHeader data, ok := fc.MessageData() if !ok { return fmt.Errorf("cannot unmarshal field %s", "VerifyHeader") } x.VerifyHeader = new(grpc1.ResponseVerificationHeader) if err := x.VerifyHeader.UnmarshalProtobuf(data); err != nil { return fmt.Errorf("unmarshal: %w", err) } } } return nil } func (x *GetRangeHashResponse) GetBody() *GetRangeHashResponse_Body { if x != nil { return x.Body } return nil } func (x *GetRangeHashResponse) SetBody(v *GetRangeHashResponse_Body) { x.Body = v } func (x *GetRangeHashResponse) GetMetaHeader() *grpc1.ResponseMetaHeader { if x != nil { return x.MetaHeader } return nil } func (x *GetRangeHashResponse) SetMetaHeader(v *grpc1.ResponseMetaHeader) { x.MetaHeader = v } func (x *GetRangeHashResponse) GetVerifyHeader() *grpc1.ResponseVerificationHeader { if x != nil { return x.VerifyHeader } return nil } func (x *GetRangeHashResponse) SetVerifyHeader(v *grpc1.ResponseVerificationHeader) { x.VerifyHeader = v } // MarshalJSON implements the json.Marshaler interface. func (x *GetRangeHashResponse) MarshalJSON() ([]byte, error) { w := jwriter.Writer{} x.MarshalEasyJSON(&w) return w.Buffer.BuildBytes(), w.Error } func (x *GetRangeHashResponse) MarshalEasyJSON(out *jwriter.Writer) { if x == nil { out.RawString("null") return } out.RawByte('{') { const prefix string = ",\"body\":" out.RawString(prefix[1:]) x.Body.MarshalEasyJSON(out) } { const prefix string = ",\"metaHeader\":" out.RawString(prefix) x.MetaHeader.MarshalEasyJSON(out) } { const prefix string = ",\"verifyHeader\":" out.RawString(prefix) x.VerifyHeader.MarshalEasyJSON(out) } out.RawByte('}') } // UnmarshalJSON implements the json.Unmarshaler interface. func (x *GetRangeHashResponse) UnmarshalJSON(data []byte) error { r := jlexer.Lexer{Data: data} x.UnmarshalEasyJSON(&r) return r.Error() } func (x *GetRangeHashResponse) UnmarshalEasyJSON(in *jlexer.Lexer) { isTopLevel := in.IsStart() if in.IsNull() { if isTopLevel { in.Consumed() } in.Skip() return } in.Delim('{') for !in.IsDelim('}') { key := in.UnsafeFieldName(false) in.WantColon() if in.IsNull() { in.Skip() in.WantComma() continue } switch key { case "body": { var f *GetRangeHashResponse_Body f = new(GetRangeHashResponse_Body) f.UnmarshalEasyJSON(in) x.Body = f } case "metaHeader": { var f *grpc1.ResponseMetaHeader f = new(grpc1.ResponseMetaHeader) f.UnmarshalEasyJSON(in) x.MetaHeader = f } case "verifyHeader": { var f *grpc1.ResponseVerificationHeader f = new(grpc1.ResponseVerificationHeader) f.UnmarshalEasyJSON(in) x.VerifyHeader = f } } in.WantComma() } in.Delim('}') if isTopLevel { in.Consumed() } } type PutSingleRequest_Body struct { Object *Object `json:"object"` CopiesNumber []uint32 `json:"copiesNumber"` } var ( _ encoding.ProtoMarshaler = (*PutSingleRequest_Body)(nil) _ encoding.ProtoUnmarshaler = (*PutSingleRequest_Body)(nil) _ json.Marshaler = (*PutSingleRequest_Body)(nil) _ json.Unmarshaler = (*PutSingleRequest_Body)(nil) ) // StableSize returns the size of x in protobuf format. // // Structures with the same field values have the same binary size. func (x *PutSingleRequest_Body) StableSize() (size int) { if x == nil { return 0 } var n int size += proto.NestedStructureSize(1, x.Object) n, _ = proto.RepeatedUInt32Size(2, x.CopiesNumber) size += n return size } // MarshalProtobuf implements the encoding.ProtoMarshaler interface. func (x *PutSingleRequest_Body) MarshalProtobuf(dst []byte) []byte { m := pool.MarshalerPool.Get() defer pool.MarshalerPool.Put(m) x.EmitProtobuf(m.MessageMarshaler()) dst = m.Marshal(dst) return dst } func (x *PutSingleRequest_Body) EmitProtobuf(mm *easyproto.MessageMarshaler) { if x == nil { return } if x.Object != nil && x.Object.StableSize() != 0 { x.Object.EmitProtobuf(mm.AppendMessage(1)) } if len(x.CopiesNumber) != 0 { mm.AppendUint32s(2, x.CopiesNumber) } } // UnmarshalProtobuf implements the encoding.ProtoUnmarshaler interface. func (x *PutSingleRequest_Body) UnmarshalProtobuf(src []byte) (err error) { var fc easyproto.FieldContext for len(src) > 0 { src, err = fc.NextField(src) if err != nil { return fmt.Errorf("cannot read next field in %s", "PutSingleRequest_Body") } switch fc.FieldNum { case 1: // Object data, ok := fc.MessageData() if !ok { return fmt.Errorf("cannot unmarshal field %s", "Object") } x.Object = new(Object) if err := x.Object.UnmarshalProtobuf(data); err != nil { return fmt.Errorf("unmarshal: %w", err) } case 2: // CopiesNumber data, ok := fc.UnpackUint32s(nil) if !ok { return fmt.Errorf("cannot unmarshal field %s", "CopiesNumber") } x.CopiesNumber = data } } return nil } func (x *PutSingleRequest_Body) GetObject() *Object { if x != nil { return x.Object } return nil } func (x *PutSingleRequest_Body) SetObject(v *Object) { x.Object = v } func (x *PutSingleRequest_Body) GetCopiesNumber() []uint32 { if x != nil { return x.CopiesNumber } return nil } func (x *PutSingleRequest_Body) SetCopiesNumber(v []uint32) { x.CopiesNumber = v } // MarshalJSON implements the json.Marshaler interface. func (x *PutSingleRequest_Body) MarshalJSON() ([]byte, error) { w := jwriter.Writer{} x.MarshalEasyJSON(&w) return w.Buffer.BuildBytes(), w.Error } func (x *PutSingleRequest_Body) MarshalEasyJSON(out *jwriter.Writer) { if x == nil { out.RawString("null") return } out.RawByte('{') { const prefix string = ",\"object\":" out.RawString(prefix[1:]) x.Object.MarshalEasyJSON(out) } { const prefix string = ",\"copiesNumber\":" out.RawString(prefix) out.RawByte('[') for i := range x.CopiesNumber { if i != 0 { out.RawByte(',') } out.Uint32(x.CopiesNumber[i]) } out.RawByte(']') } out.RawByte('}') } // UnmarshalJSON implements the json.Unmarshaler interface. func (x *PutSingleRequest_Body) UnmarshalJSON(data []byte) error { r := jlexer.Lexer{Data: data} x.UnmarshalEasyJSON(&r) return r.Error() } func (x *PutSingleRequest_Body) UnmarshalEasyJSON(in *jlexer.Lexer) { isTopLevel := in.IsStart() if in.IsNull() { if isTopLevel { in.Consumed() } in.Skip() return } in.Delim('{') for !in.IsDelim('}') { key := in.UnsafeFieldName(false) in.WantColon() if in.IsNull() { in.Skip() in.WantComma() continue } switch key { case "object": { var f *Object f = new(Object) f.UnmarshalEasyJSON(in) x.Object = f } case "copiesNumber": { var f uint32 var list []uint32 in.Delim('[') for !in.IsDelim(']') { f = in.Uint32() list = append(list, f) in.WantComma() } x.CopiesNumber = list in.Delim(']') } } in.WantComma() } in.Delim('}') if isTopLevel { in.Consumed() } } type PutSingleRequest struct { Body *PutSingleRequest_Body `json:"body"` MetaHeader *grpc1.RequestMetaHeader `json:"metaHeader"` VerifyHeader *grpc1.RequestVerificationHeader `json:"verifyHeader"` } var ( _ encoding.ProtoMarshaler = (*PutSingleRequest)(nil) _ encoding.ProtoUnmarshaler = (*PutSingleRequest)(nil) _ json.Marshaler = (*PutSingleRequest)(nil) _ json.Unmarshaler = (*PutSingleRequest)(nil) ) // StableSize returns the size of x in protobuf format. // // Structures with the same field values have the same binary size. func (x *PutSingleRequest) StableSize() (size int) { if x == nil { return 0 } size += proto.NestedStructureSize(1, x.Body) size += proto.NestedStructureSize(2, x.MetaHeader) size += proto.NestedStructureSize(3, x.VerifyHeader) return size } // ReadSignedData fills buf with signed data of x. // If buffer length is less than x.SignedDataSize(), new buffer is allocated. // // Returns any error encountered which did not allow writing the data completely. // Otherwise, returns the buffer in which the data is written. // // Structures with the same field values have the same signed data. func (x *PutSingleRequest) SignedDataSize() int { return x.GetBody().StableSize() } // SignedDataSize returns size of the request signed data in bytes. // // Structures with the same field values have the same signed data size. func (x *PutSingleRequest) ReadSignedData(buf []byte) ([]byte, error) { return x.GetBody().MarshalProtobuf(buf), nil } // MarshalProtobuf implements the encoding.ProtoMarshaler interface. func (x *PutSingleRequest) MarshalProtobuf(dst []byte) []byte { m := pool.MarshalerPool.Get() defer pool.MarshalerPool.Put(m) x.EmitProtobuf(m.MessageMarshaler()) dst = m.Marshal(dst) return dst } func (x *PutSingleRequest) EmitProtobuf(mm *easyproto.MessageMarshaler) { if x == nil { return } if x.Body != nil && x.Body.StableSize() != 0 { x.Body.EmitProtobuf(mm.AppendMessage(1)) } if x.MetaHeader != nil && x.MetaHeader.StableSize() != 0 { x.MetaHeader.EmitProtobuf(mm.AppendMessage(2)) } if x.VerifyHeader != nil && x.VerifyHeader.StableSize() != 0 { x.VerifyHeader.EmitProtobuf(mm.AppendMessage(3)) } } // UnmarshalProtobuf implements the encoding.ProtoUnmarshaler interface. func (x *PutSingleRequest) UnmarshalProtobuf(src []byte) (err error) { var fc easyproto.FieldContext for len(src) > 0 { src, err = fc.NextField(src) if err != nil { return fmt.Errorf("cannot read next field in %s", "PutSingleRequest") } switch fc.FieldNum { case 1: // Body data, ok := fc.MessageData() if !ok { return fmt.Errorf("cannot unmarshal field %s", "Body") } x.Body = new(PutSingleRequest_Body) if err := x.Body.UnmarshalProtobuf(data); err != nil { return fmt.Errorf("unmarshal: %w", err) } case 2: // MetaHeader data, ok := fc.MessageData() if !ok { return fmt.Errorf("cannot unmarshal field %s", "MetaHeader") } x.MetaHeader = new(grpc1.RequestMetaHeader) if err := x.MetaHeader.UnmarshalProtobuf(data); err != nil { return fmt.Errorf("unmarshal: %w", err) } case 3: // VerifyHeader data, ok := fc.MessageData() if !ok { return fmt.Errorf("cannot unmarshal field %s", "VerifyHeader") } x.VerifyHeader = new(grpc1.RequestVerificationHeader) if err := x.VerifyHeader.UnmarshalProtobuf(data); err != nil { return fmt.Errorf("unmarshal: %w", err) } } } return nil } func (x *PutSingleRequest) GetBody() *PutSingleRequest_Body { if x != nil { return x.Body } return nil } func (x *PutSingleRequest) SetBody(v *PutSingleRequest_Body) { x.Body = v } func (x *PutSingleRequest) GetMetaHeader() *grpc1.RequestMetaHeader { if x != nil { return x.MetaHeader } return nil } func (x *PutSingleRequest) SetMetaHeader(v *grpc1.RequestMetaHeader) { x.MetaHeader = v } func (x *PutSingleRequest) GetVerifyHeader() *grpc1.RequestVerificationHeader { if x != nil { return x.VerifyHeader } return nil } func (x *PutSingleRequest) SetVerifyHeader(v *grpc1.RequestVerificationHeader) { x.VerifyHeader = v } // MarshalJSON implements the json.Marshaler interface. func (x *PutSingleRequest) MarshalJSON() ([]byte, error) { w := jwriter.Writer{} x.MarshalEasyJSON(&w) return w.Buffer.BuildBytes(), w.Error } func (x *PutSingleRequest) MarshalEasyJSON(out *jwriter.Writer) { if x == nil { out.RawString("null") return } out.RawByte('{') { const prefix string = ",\"body\":" out.RawString(prefix[1:]) x.Body.MarshalEasyJSON(out) } { const prefix string = ",\"metaHeader\":" out.RawString(prefix) x.MetaHeader.MarshalEasyJSON(out) } { const prefix string = ",\"verifyHeader\":" out.RawString(prefix) x.VerifyHeader.MarshalEasyJSON(out) } out.RawByte('}') } // UnmarshalJSON implements the json.Unmarshaler interface. func (x *PutSingleRequest) UnmarshalJSON(data []byte) error { r := jlexer.Lexer{Data: data} x.UnmarshalEasyJSON(&r) return r.Error() } func (x *PutSingleRequest) UnmarshalEasyJSON(in *jlexer.Lexer) { isTopLevel := in.IsStart() if in.IsNull() { if isTopLevel { in.Consumed() } in.Skip() return } in.Delim('{') for !in.IsDelim('}') { key := in.UnsafeFieldName(false) in.WantColon() if in.IsNull() { in.Skip() in.WantComma() continue } switch key { case "body": { var f *PutSingleRequest_Body f = new(PutSingleRequest_Body) f.UnmarshalEasyJSON(in) x.Body = f } case "metaHeader": { var f *grpc1.RequestMetaHeader f = new(grpc1.RequestMetaHeader) f.UnmarshalEasyJSON(in) x.MetaHeader = f } case "verifyHeader": { var f *grpc1.RequestVerificationHeader f = new(grpc1.RequestVerificationHeader) f.UnmarshalEasyJSON(in) x.VerifyHeader = f } } in.WantComma() } in.Delim('}') if isTopLevel { in.Consumed() } } type PutSingleResponse_Body struct { } var ( _ encoding.ProtoMarshaler = (*PutSingleResponse_Body)(nil) _ encoding.ProtoUnmarshaler = (*PutSingleResponse_Body)(nil) _ json.Marshaler = (*PutSingleResponse_Body)(nil) _ json.Unmarshaler = (*PutSingleResponse_Body)(nil) ) // StableSize returns the size of x in protobuf format. // // Structures with the same field values have the same binary size. func (x *PutSingleResponse_Body) StableSize() (size int) { if x == nil { return 0 } return size } // MarshalProtobuf implements the encoding.ProtoMarshaler interface. func (x *PutSingleResponse_Body) MarshalProtobuf(dst []byte) []byte { m := pool.MarshalerPool.Get() defer pool.MarshalerPool.Put(m) x.EmitProtobuf(m.MessageMarshaler()) dst = m.Marshal(dst) return dst } func (x *PutSingleResponse_Body) EmitProtobuf(mm *easyproto.MessageMarshaler) { } // UnmarshalProtobuf implements the encoding.ProtoUnmarshaler interface. func (x *PutSingleResponse_Body) UnmarshalProtobuf(src []byte) (err error) { var fc easyproto.FieldContext for len(src) > 0 { src, err = fc.NextField(src) if err != nil { return fmt.Errorf("cannot read next field in %s", "PutSingleResponse_Body") } switch fc.FieldNum { } } return nil } // MarshalJSON implements the json.Marshaler interface. func (x *PutSingleResponse_Body) MarshalJSON() ([]byte, error) { w := jwriter.Writer{} x.MarshalEasyJSON(&w) return w.Buffer.BuildBytes(), w.Error } func (x *PutSingleResponse_Body) MarshalEasyJSON(out *jwriter.Writer) { if x == nil { out.RawString("null") return } out.RawByte('{') out.RawByte('}') } // UnmarshalJSON implements the json.Unmarshaler interface. func (x *PutSingleResponse_Body) UnmarshalJSON(data []byte) error { r := jlexer.Lexer{Data: data} x.UnmarshalEasyJSON(&r) return r.Error() } func (x *PutSingleResponse_Body) UnmarshalEasyJSON(in *jlexer.Lexer) { isTopLevel := in.IsStart() if in.IsNull() { if isTopLevel { in.Consumed() } in.Skip() return } in.Delim('{') for !in.IsDelim('}') { key := in.UnsafeFieldName(false) in.WantColon() if in.IsNull() { in.Skip() in.WantComma() continue } switch key { } in.WantComma() } in.Delim('}') if isTopLevel { in.Consumed() } } type PutSingleResponse struct { Body *PutSingleResponse_Body `json:"body"` MetaHeader *grpc1.ResponseMetaHeader `json:"metaHeader"` VerifyHeader *grpc1.ResponseVerificationHeader `json:"verifyHeader"` } var ( _ encoding.ProtoMarshaler = (*PutSingleResponse)(nil) _ encoding.ProtoUnmarshaler = (*PutSingleResponse)(nil) _ json.Marshaler = (*PutSingleResponse)(nil) _ json.Unmarshaler = (*PutSingleResponse)(nil) ) // StableSize returns the size of x in protobuf format. // // Structures with the same field values have the same binary size. func (x *PutSingleResponse) StableSize() (size int) { if x == nil { return 0 } size += proto.NestedStructureSize(1, x.Body) size += proto.NestedStructureSize(2, x.MetaHeader) size += proto.NestedStructureSize(3, x.VerifyHeader) return size } // ReadSignedData fills buf with signed data of x. // If buffer length is less than x.SignedDataSize(), new buffer is allocated. // // Returns any error encountered which did not allow writing the data completely. // Otherwise, returns the buffer in which the data is written. // // Structures with the same field values have the same signed data. func (x *PutSingleResponse) SignedDataSize() int { return x.GetBody().StableSize() } // SignedDataSize returns size of the request signed data in bytes. // // Structures with the same field values have the same signed data size. func (x *PutSingleResponse) ReadSignedData(buf []byte) ([]byte, error) { return x.GetBody().MarshalProtobuf(buf), nil } // MarshalProtobuf implements the encoding.ProtoMarshaler interface. func (x *PutSingleResponse) MarshalProtobuf(dst []byte) []byte { m := pool.MarshalerPool.Get() defer pool.MarshalerPool.Put(m) x.EmitProtobuf(m.MessageMarshaler()) dst = m.Marshal(dst) return dst } func (x *PutSingleResponse) EmitProtobuf(mm *easyproto.MessageMarshaler) { if x == nil { return } if x.Body != nil && x.Body.StableSize() != 0 { x.Body.EmitProtobuf(mm.AppendMessage(1)) } if x.MetaHeader != nil && x.MetaHeader.StableSize() != 0 { x.MetaHeader.EmitProtobuf(mm.AppendMessage(2)) } if x.VerifyHeader != nil && x.VerifyHeader.StableSize() != 0 { x.VerifyHeader.EmitProtobuf(mm.AppendMessage(3)) } } // UnmarshalProtobuf implements the encoding.ProtoUnmarshaler interface. func (x *PutSingleResponse) UnmarshalProtobuf(src []byte) (err error) { var fc easyproto.FieldContext for len(src) > 0 { src, err = fc.NextField(src) if err != nil { return fmt.Errorf("cannot read next field in %s", "PutSingleResponse") } switch fc.FieldNum { case 1: // Body data, ok := fc.MessageData() if !ok { return fmt.Errorf("cannot unmarshal field %s", "Body") } x.Body = new(PutSingleResponse_Body) if err := x.Body.UnmarshalProtobuf(data); err != nil { return fmt.Errorf("unmarshal: %w", err) } case 2: // MetaHeader data, ok := fc.MessageData() if !ok { return fmt.Errorf("cannot unmarshal field %s", "MetaHeader") } x.MetaHeader = new(grpc1.ResponseMetaHeader) if err := x.MetaHeader.UnmarshalProtobuf(data); err != nil { return fmt.Errorf("unmarshal: %w", err) } case 3: // VerifyHeader data, ok := fc.MessageData() if !ok { return fmt.Errorf("cannot unmarshal field %s", "VerifyHeader") } x.VerifyHeader = new(grpc1.ResponseVerificationHeader) if err := x.VerifyHeader.UnmarshalProtobuf(data); err != nil { return fmt.Errorf("unmarshal: %w", err) } } } return nil } func (x *PutSingleResponse) GetBody() *PutSingleResponse_Body { if x != nil { return x.Body } return nil } func (x *PutSingleResponse) SetBody(v *PutSingleResponse_Body) { x.Body = v } func (x *PutSingleResponse) GetMetaHeader() *grpc1.ResponseMetaHeader { if x != nil { return x.MetaHeader } return nil } func (x *PutSingleResponse) SetMetaHeader(v *grpc1.ResponseMetaHeader) { x.MetaHeader = v } func (x *PutSingleResponse) GetVerifyHeader() *grpc1.ResponseVerificationHeader { if x != nil { return x.VerifyHeader } return nil } func (x *PutSingleResponse) SetVerifyHeader(v *grpc1.ResponseVerificationHeader) { x.VerifyHeader = v } // MarshalJSON implements the json.Marshaler interface. func (x *PutSingleResponse) MarshalJSON() ([]byte, error) { w := jwriter.Writer{} x.MarshalEasyJSON(&w) return w.Buffer.BuildBytes(), w.Error } func (x *PutSingleResponse) MarshalEasyJSON(out *jwriter.Writer) { if x == nil { out.RawString("null") return } out.RawByte('{') { const prefix string = ",\"body\":" out.RawString(prefix[1:]) x.Body.MarshalEasyJSON(out) } { const prefix string = ",\"metaHeader\":" out.RawString(prefix) x.MetaHeader.MarshalEasyJSON(out) } { const prefix string = ",\"verifyHeader\":" out.RawString(prefix) x.VerifyHeader.MarshalEasyJSON(out) } out.RawByte('}') } // UnmarshalJSON implements the json.Unmarshaler interface. func (x *PutSingleResponse) UnmarshalJSON(data []byte) error { r := jlexer.Lexer{Data: data} x.UnmarshalEasyJSON(&r) return r.Error() } func (x *PutSingleResponse) UnmarshalEasyJSON(in *jlexer.Lexer) { isTopLevel := in.IsStart() if in.IsNull() { if isTopLevel { in.Consumed() } in.Skip() return } in.Delim('{') for !in.IsDelim('}') { key := in.UnsafeFieldName(false) in.WantColon() if in.IsNull() { in.Skip() in.WantComma() continue } switch key { case "body": { var f *PutSingleResponse_Body f = new(PutSingleResponse_Body) f.UnmarshalEasyJSON(in) x.Body = f } case "metaHeader": { var f *grpc1.ResponseMetaHeader f = new(grpc1.ResponseMetaHeader) f.UnmarshalEasyJSON(in) x.MetaHeader = f } case "verifyHeader": { var f *grpc1.ResponseVerificationHeader f = new(grpc1.ResponseVerificationHeader) f.UnmarshalEasyJSON(in) x.VerifyHeader = f } } in.WantComma() } in.Delim('}') if isTopLevel { in.Consumed() } } type PatchRequest_Body_Patch struct { SourceRange *Range `json:"sourceRange"` Chunk []byte `json:"chunk"` } var ( _ encoding.ProtoMarshaler = (*PatchRequest_Body_Patch)(nil) _ encoding.ProtoUnmarshaler = (*PatchRequest_Body_Patch)(nil) _ json.Marshaler = (*PatchRequest_Body_Patch)(nil) _ json.Unmarshaler = (*PatchRequest_Body_Patch)(nil) ) // StableSize returns the size of x in protobuf format. // // Structures with the same field values have the same binary size. func (x *PatchRequest_Body_Patch) StableSize() (size int) { if x == nil { return 0 } size += proto.NestedStructureSize(1, x.SourceRange) size += proto.BytesSize(2, x.Chunk) return size } // MarshalProtobuf implements the encoding.ProtoMarshaler interface. func (x *PatchRequest_Body_Patch) MarshalProtobuf(dst []byte) []byte { m := pool.MarshalerPool.Get() defer pool.MarshalerPool.Put(m) x.EmitProtobuf(m.MessageMarshaler()) dst = m.Marshal(dst) return dst } func (x *PatchRequest_Body_Patch) EmitProtobuf(mm *easyproto.MessageMarshaler) { if x == nil { return } if x.SourceRange != nil && x.SourceRange.StableSize() != 0 { x.SourceRange.EmitProtobuf(mm.AppendMessage(1)) } if len(x.Chunk) != 0 { mm.AppendBytes(2, x.Chunk) } } // UnmarshalProtobuf implements the encoding.ProtoUnmarshaler interface. func (x *PatchRequest_Body_Patch) UnmarshalProtobuf(src []byte) (err error) { var fc easyproto.FieldContext for len(src) > 0 { src, err = fc.NextField(src) if err != nil { return fmt.Errorf("cannot read next field in %s", "PatchRequest_Body_Patch") } switch fc.FieldNum { case 1: // SourceRange data, ok := fc.MessageData() if !ok { return fmt.Errorf("cannot unmarshal field %s", "SourceRange") } x.SourceRange = new(Range) if err := x.SourceRange.UnmarshalProtobuf(data); err != nil { return fmt.Errorf("unmarshal: %w", err) } case 2: // Chunk data, ok := fc.Bytes() if !ok { return fmt.Errorf("cannot unmarshal field %s", "Chunk") } x.Chunk = data } } return nil } func (x *PatchRequest_Body_Patch) GetSourceRange() *Range { if x != nil { return x.SourceRange } return nil } func (x *PatchRequest_Body_Patch) SetSourceRange(v *Range) { x.SourceRange = v } func (x *PatchRequest_Body_Patch) GetChunk() []byte { if x != nil { return x.Chunk } return nil } func (x *PatchRequest_Body_Patch) SetChunk(v []byte) { x.Chunk = v } // MarshalJSON implements the json.Marshaler interface. func (x *PatchRequest_Body_Patch) MarshalJSON() ([]byte, error) { w := jwriter.Writer{} x.MarshalEasyJSON(&w) return w.Buffer.BuildBytes(), w.Error } func (x *PatchRequest_Body_Patch) MarshalEasyJSON(out *jwriter.Writer) { if x == nil { out.RawString("null") return } out.RawByte('{') { const prefix string = ",\"sourceRange\":" out.RawString(prefix[1:]) x.SourceRange.MarshalEasyJSON(out) } { const prefix string = ",\"chunk\":" out.RawString(prefix) out.Base64Bytes(x.Chunk) } out.RawByte('}') } // UnmarshalJSON implements the json.Unmarshaler interface. func (x *PatchRequest_Body_Patch) UnmarshalJSON(data []byte) error { r := jlexer.Lexer{Data: data} x.UnmarshalEasyJSON(&r) return r.Error() } func (x *PatchRequest_Body_Patch) UnmarshalEasyJSON(in *jlexer.Lexer) { isTopLevel := in.IsStart() if in.IsNull() { if isTopLevel { in.Consumed() } in.Skip() return } in.Delim('{') for !in.IsDelim('}') { key := in.UnsafeFieldName(false) in.WantColon() if in.IsNull() { in.Skip() in.WantComma() continue } switch key { case "sourceRange": { var f *Range f = new(Range) f.UnmarshalEasyJSON(in) x.SourceRange = f } case "chunk": { var f []byte f = in.Bytes() x.Chunk = f } } in.WantComma() } in.Delim('}') if isTopLevel { in.Consumed() } } type PatchRequest_Body struct { Address *grpc.Address `json:"address"` NewAttributes []*Header_Attribute `json:"newAttributes"` ReplaceAttributes bool `json:"replaceAttributes"` Patch *PatchRequest_Body_Patch `json:"patch"` } var ( _ encoding.ProtoMarshaler = (*PatchRequest_Body)(nil) _ encoding.ProtoUnmarshaler = (*PatchRequest_Body)(nil) _ json.Marshaler = (*PatchRequest_Body)(nil) _ json.Unmarshaler = (*PatchRequest_Body)(nil) ) // StableSize returns the size of x in protobuf format. // // Structures with the same field values have the same binary size. func (x *PatchRequest_Body) StableSize() (size int) { if x == nil { return 0 } size += proto.NestedStructureSize(1, x.Address) for i := range x.NewAttributes { size += proto.NestedStructureSize(2, x.NewAttributes[i]) } size += proto.BoolSize(3, x.ReplaceAttributes) size += proto.NestedStructureSize(4, x.Patch) return size } // MarshalProtobuf implements the encoding.ProtoMarshaler interface. func (x *PatchRequest_Body) MarshalProtobuf(dst []byte) []byte { m := pool.MarshalerPool.Get() defer pool.MarshalerPool.Put(m) x.EmitProtobuf(m.MessageMarshaler()) dst = m.Marshal(dst) return dst } func (x *PatchRequest_Body) EmitProtobuf(mm *easyproto.MessageMarshaler) { if x == nil { return } if x.Address != nil && x.Address.StableSize() != 0 { x.Address.EmitProtobuf(mm.AppendMessage(1)) } for i := range x.NewAttributes { if x.NewAttributes[i] != nil && x.NewAttributes[i].StableSize() != 0 { x.NewAttributes[i].EmitProtobuf(mm.AppendMessage(2)) } } if x.ReplaceAttributes { mm.AppendBool(3, x.ReplaceAttributes) } if x.Patch != nil && x.Patch.StableSize() != 0 { x.Patch.EmitProtobuf(mm.AppendMessage(4)) } } // UnmarshalProtobuf implements the encoding.ProtoUnmarshaler interface. func (x *PatchRequest_Body) UnmarshalProtobuf(src []byte) (err error) { var fc easyproto.FieldContext for len(src) > 0 { src, err = fc.NextField(src) if err != nil { return fmt.Errorf("cannot read next field in %s", "PatchRequest_Body") } switch fc.FieldNum { case 1: // Address data, ok := fc.MessageData() if !ok { return fmt.Errorf("cannot unmarshal field %s", "Address") } x.Address = new(grpc.Address) if err := x.Address.UnmarshalProtobuf(data); err != nil { return fmt.Errorf("unmarshal: %w", err) } case 2: // NewAttributes data, ok := fc.MessageData() if !ok { return fmt.Errorf("cannot unmarshal field %s", "NewAttributes") } x.NewAttributes = append(x.NewAttributes, new(Header_Attribute)) ff := x.NewAttributes[len(x.NewAttributes)-1] if err := ff.UnmarshalProtobuf(data); err != nil { return fmt.Errorf("unmarshal: %w", err) } case 3: // ReplaceAttributes data, ok := fc.Bool() if !ok { return fmt.Errorf("cannot unmarshal field %s", "ReplaceAttributes") } x.ReplaceAttributes = data case 4: // Patch data, ok := fc.MessageData() if !ok { return fmt.Errorf("cannot unmarshal field %s", "Patch") } x.Patch = new(PatchRequest_Body_Patch) if err := x.Patch.UnmarshalProtobuf(data); err != nil { return fmt.Errorf("unmarshal: %w", err) } } } return nil } func (x *PatchRequest_Body) GetAddress() *grpc.Address { if x != nil { return x.Address } return nil } func (x *PatchRequest_Body) SetAddress(v *grpc.Address) { x.Address = v } func (x *PatchRequest_Body) GetNewAttributes() []*Header_Attribute { if x != nil { return x.NewAttributes } return nil } func (x *PatchRequest_Body) SetNewAttributes(v []*Header_Attribute) { x.NewAttributes = v } func (x *PatchRequest_Body) GetReplaceAttributes() bool { if x != nil { return x.ReplaceAttributes } return false } func (x *PatchRequest_Body) SetReplaceAttributes(v bool) { x.ReplaceAttributes = v } func (x *PatchRequest_Body) GetPatch() *PatchRequest_Body_Patch { if x != nil { return x.Patch } return nil } func (x *PatchRequest_Body) SetPatch(v *PatchRequest_Body_Patch) { x.Patch = v } // MarshalJSON implements the json.Marshaler interface. func (x *PatchRequest_Body) MarshalJSON() ([]byte, error) { w := jwriter.Writer{} x.MarshalEasyJSON(&w) return w.Buffer.BuildBytes(), w.Error } func (x *PatchRequest_Body) MarshalEasyJSON(out *jwriter.Writer) { if x == nil { out.RawString("null") return } out.RawByte('{') { const prefix string = ",\"address\":" out.RawString(prefix[1:]) x.Address.MarshalEasyJSON(out) } { const prefix string = ",\"newAttributes\":" out.RawString(prefix) out.RawByte('[') for i := range x.NewAttributes { if i != 0 { out.RawByte(',') } x.NewAttributes[i].MarshalEasyJSON(out) } out.RawByte(']') } { const prefix string = ",\"replaceAttributes\":" out.RawString(prefix) out.Bool(x.ReplaceAttributes) } { const prefix string = ",\"patch\":" out.RawString(prefix) x.Patch.MarshalEasyJSON(out) } out.RawByte('}') } // UnmarshalJSON implements the json.Unmarshaler interface. func (x *PatchRequest_Body) UnmarshalJSON(data []byte) error { r := jlexer.Lexer{Data: data} x.UnmarshalEasyJSON(&r) return r.Error() } func (x *PatchRequest_Body) UnmarshalEasyJSON(in *jlexer.Lexer) { isTopLevel := in.IsStart() if in.IsNull() { if isTopLevel { in.Consumed() } in.Skip() return } in.Delim('{') for !in.IsDelim('}') { key := in.UnsafeFieldName(false) in.WantColon() if in.IsNull() { in.Skip() in.WantComma() continue } switch key { case "address": { var f *grpc.Address f = new(grpc.Address) f.UnmarshalEasyJSON(in) x.Address = f } case "newAttributes": { var f *Header_Attribute var list []*Header_Attribute in.Delim('[') for !in.IsDelim(']') { f = new(Header_Attribute) f.UnmarshalEasyJSON(in) list = append(list, f) in.WantComma() } x.NewAttributes = list in.Delim(']') } case "replaceAttributes": { var f bool f = in.Bool() x.ReplaceAttributes = f } case "patch": { var f *PatchRequest_Body_Patch f = new(PatchRequest_Body_Patch) f.UnmarshalEasyJSON(in) x.Patch = f } } in.WantComma() } in.Delim('}') if isTopLevel { in.Consumed() } } type PatchRequest struct { Body *PatchRequest_Body `json:"body"` MetaHeader *grpc1.RequestMetaHeader `json:"metaHeader"` VerifyHeader *grpc1.RequestVerificationHeader `json:"verifyHeader"` } var ( _ encoding.ProtoMarshaler = (*PatchRequest)(nil) _ encoding.ProtoUnmarshaler = (*PatchRequest)(nil) _ json.Marshaler = (*PatchRequest)(nil) _ json.Unmarshaler = (*PatchRequest)(nil) ) // StableSize returns the size of x in protobuf format. // // Structures with the same field values have the same binary size. func (x *PatchRequest) StableSize() (size int) { if x == nil { return 0 } size += proto.NestedStructureSize(1, x.Body) size += proto.NestedStructureSize(2, x.MetaHeader) size += proto.NestedStructureSize(3, x.VerifyHeader) return size } // ReadSignedData fills buf with signed data of x. // If buffer length is less than x.SignedDataSize(), new buffer is allocated. // // Returns any error encountered which did not allow writing the data completely. // Otherwise, returns the buffer in which the data is written. // // Structures with the same field values have the same signed data. func (x *PatchRequest) SignedDataSize() int { return x.GetBody().StableSize() } // SignedDataSize returns size of the request signed data in bytes. // // Structures with the same field values have the same signed data size. func (x *PatchRequest) ReadSignedData(buf []byte) ([]byte, error) { return x.GetBody().MarshalProtobuf(buf), nil } // MarshalProtobuf implements the encoding.ProtoMarshaler interface. func (x *PatchRequest) MarshalProtobuf(dst []byte) []byte { m := pool.MarshalerPool.Get() defer pool.MarshalerPool.Put(m) x.EmitProtobuf(m.MessageMarshaler()) dst = m.Marshal(dst) return dst } func (x *PatchRequest) EmitProtobuf(mm *easyproto.MessageMarshaler) { if x == nil { return } if x.Body != nil && x.Body.StableSize() != 0 { x.Body.EmitProtobuf(mm.AppendMessage(1)) } if x.MetaHeader != nil && x.MetaHeader.StableSize() != 0 { x.MetaHeader.EmitProtobuf(mm.AppendMessage(2)) } if x.VerifyHeader != nil && x.VerifyHeader.StableSize() != 0 { x.VerifyHeader.EmitProtobuf(mm.AppendMessage(3)) } } // UnmarshalProtobuf implements the encoding.ProtoUnmarshaler interface. func (x *PatchRequest) UnmarshalProtobuf(src []byte) (err error) { var fc easyproto.FieldContext for len(src) > 0 { src, err = fc.NextField(src) if err != nil { return fmt.Errorf("cannot read next field in %s", "PatchRequest") } switch fc.FieldNum { case 1: // Body data, ok := fc.MessageData() if !ok { return fmt.Errorf("cannot unmarshal field %s", "Body") } x.Body = new(PatchRequest_Body) if err := x.Body.UnmarshalProtobuf(data); err != nil { return fmt.Errorf("unmarshal: %w", err) } case 2: // MetaHeader data, ok := fc.MessageData() if !ok { return fmt.Errorf("cannot unmarshal field %s", "MetaHeader") } x.MetaHeader = new(grpc1.RequestMetaHeader) if err := x.MetaHeader.UnmarshalProtobuf(data); err != nil { return fmt.Errorf("unmarshal: %w", err) } case 3: // VerifyHeader data, ok := fc.MessageData() if !ok { return fmt.Errorf("cannot unmarshal field %s", "VerifyHeader") } x.VerifyHeader = new(grpc1.RequestVerificationHeader) if err := x.VerifyHeader.UnmarshalProtobuf(data); err != nil { return fmt.Errorf("unmarshal: %w", err) } } } return nil } func (x *PatchRequest) GetBody() *PatchRequest_Body { if x != nil { return x.Body } return nil } func (x *PatchRequest) SetBody(v *PatchRequest_Body) { x.Body = v } func (x *PatchRequest) GetMetaHeader() *grpc1.RequestMetaHeader { if x != nil { return x.MetaHeader } return nil } func (x *PatchRequest) SetMetaHeader(v *grpc1.RequestMetaHeader) { x.MetaHeader = v } func (x *PatchRequest) GetVerifyHeader() *grpc1.RequestVerificationHeader { if x != nil { return x.VerifyHeader } return nil } func (x *PatchRequest) SetVerifyHeader(v *grpc1.RequestVerificationHeader) { x.VerifyHeader = v } // MarshalJSON implements the json.Marshaler interface. func (x *PatchRequest) MarshalJSON() ([]byte, error) { w := jwriter.Writer{} x.MarshalEasyJSON(&w) return w.Buffer.BuildBytes(), w.Error } func (x *PatchRequest) MarshalEasyJSON(out *jwriter.Writer) { if x == nil { out.RawString("null") return } out.RawByte('{') { const prefix string = ",\"body\":" out.RawString(prefix[1:]) x.Body.MarshalEasyJSON(out) } { const prefix string = ",\"metaHeader\":" out.RawString(prefix) x.MetaHeader.MarshalEasyJSON(out) } { const prefix string = ",\"verifyHeader\":" out.RawString(prefix) x.VerifyHeader.MarshalEasyJSON(out) } out.RawByte('}') } // UnmarshalJSON implements the json.Unmarshaler interface. func (x *PatchRequest) UnmarshalJSON(data []byte) error { r := jlexer.Lexer{Data: data} x.UnmarshalEasyJSON(&r) return r.Error() } func (x *PatchRequest) UnmarshalEasyJSON(in *jlexer.Lexer) { isTopLevel := in.IsStart() if in.IsNull() { if isTopLevel { in.Consumed() } in.Skip() return } in.Delim('{') for !in.IsDelim('}') { key := in.UnsafeFieldName(false) in.WantColon() if in.IsNull() { in.Skip() in.WantComma() continue } switch key { case "body": { var f *PatchRequest_Body f = new(PatchRequest_Body) f.UnmarshalEasyJSON(in) x.Body = f } case "metaHeader": { var f *grpc1.RequestMetaHeader f = new(grpc1.RequestMetaHeader) f.UnmarshalEasyJSON(in) x.MetaHeader = f } case "verifyHeader": { var f *grpc1.RequestVerificationHeader f = new(grpc1.RequestVerificationHeader) f.UnmarshalEasyJSON(in) x.VerifyHeader = f } } in.WantComma() } in.Delim('}') if isTopLevel { in.Consumed() } } type PatchResponse_Body struct { ObjectId *grpc.ObjectID `json:"objectId"` } var ( _ encoding.ProtoMarshaler = (*PatchResponse_Body)(nil) _ encoding.ProtoUnmarshaler = (*PatchResponse_Body)(nil) _ json.Marshaler = (*PatchResponse_Body)(nil) _ json.Unmarshaler = (*PatchResponse_Body)(nil) ) // StableSize returns the size of x in protobuf format. // // Structures with the same field values have the same binary size. func (x *PatchResponse_Body) StableSize() (size int) { if x == nil { return 0 } size += proto.NestedStructureSize(1, x.ObjectId) return size } // MarshalProtobuf implements the encoding.ProtoMarshaler interface. func (x *PatchResponse_Body) MarshalProtobuf(dst []byte) []byte { m := pool.MarshalerPool.Get() defer pool.MarshalerPool.Put(m) x.EmitProtobuf(m.MessageMarshaler()) dst = m.Marshal(dst) return dst } func (x *PatchResponse_Body) EmitProtobuf(mm *easyproto.MessageMarshaler) { if x == nil { return } if x.ObjectId != nil && x.ObjectId.StableSize() != 0 { x.ObjectId.EmitProtobuf(mm.AppendMessage(1)) } } // UnmarshalProtobuf implements the encoding.ProtoUnmarshaler interface. func (x *PatchResponse_Body) UnmarshalProtobuf(src []byte) (err error) { var fc easyproto.FieldContext for len(src) > 0 { src, err = fc.NextField(src) if err != nil { return fmt.Errorf("cannot read next field in %s", "PatchResponse_Body") } switch fc.FieldNum { case 1: // ObjectId data, ok := fc.MessageData() if !ok { return fmt.Errorf("cannot unmarshal field %s", "ObjectId") } x.ObjectId = new(grpc.ObjectID) if err := x.ObjectId.UnmarshalProtobuf(data); err != nil { return fmt.Errorf("unmarshal: %w", err) } } } return nil } func (x *PatchResponse_Body) GetObjectId() *grpc.ObjectID { if x != nil { return x.ObjectId } return nil } func (x *PatchResponse_Body) SetObjectId(v *grpc.ObjectID) { x.ObjectId = v } // MarshalJSON implements the json.Marshaler interface. func (x *PatchResponse_Body) MarshalJSON() ([]byte, error) { w := jwriter.Writer{} x.MarshalEasyJSON(&w) return w.Buffer.BuildBytes(), w.Error } func (x *PatchResponse_Body) MarshalEasyJSON(out *jwriter.Writer) { if x == nil { out.RawString("null") return } out.RawByte('{') { const prefix string = ",\"objectId\":" out.RawString(prefix[1:]) x.ObjectId.MarshalEasyJSON(out) } out.RawByte('}') } // UnmarshalJSON implements the json.Unmarshaler interface. func (x *PatchResponse_Body) UnmarshalJSON(data []byte) error { r := jlexer.Lexer{Data: data} x.UnmarshalEasyJSON(&r) return r.Error() } func (x *PatchResponse_Body) UnmarshalEasyJSON(in *jlexer.Lexer) { isTopLevel := in.IsStart() if in.IsNull() { if isTopLevel { in.Consumed() } in.Skip() return } in.Delim('{') for !in.IsDelim('}') { key := in.UnsafeFieldName(false) in.WantColon() if in.IsNull() { in.Skip() in.WantComma() continue } switch key { case "objectId": { var f *grpc.ObjectID f = new(grpc.ObjectID) f.UnmarshalEasyJSON(in) x.ObjectId = f } } in.WantComma() } in.Delim('}') if isTopLevel { in.Consumed() } } type PatchResponse struct { Body *PatchResponse_Body `json:"body"` MetaHeader *grpc1.ResponseMetaHeader `json:"metaHeader"` VerifyHeader *grpc1.ResponseVerificationHeader `json:"verifyHeader"` } var ( _ encoding.ProtoMarshaler = (*PatchResponse)(nil) _ encoding.ProtoUnmarshaler = (*PatchResponse)(nil) _ json.Marshaler = (*PatchResponse)(nil) _ json.Unmarshaler = (*PatchResponse)(nil) ) // StableSize returns the size of x in protobuf format. // // Structures with the same field values have the same binary size. func (x *PatchResponse) StableSize() (size int) { if x == nil { return 0 } size += proto.NestedStructureSize(1, x.Body) size += proto.NestedStructureSize(2, x.MetaHeader) size += proto.NestedStructureSize(3, x.VerifyHeader) return size } // ReadSignedData fills buf with signed data of x. // If buffer length is less than x.SignedDataSize(), new buffer is allocated. // // Returns any error encountered which did not allow writing the data completely. // Otherwise, returns the buffer in which the data is written. // // Structures with the same field values have the same signed data. func (x *PatchResponse) SignedDataSize() int { return x.GetBody().StableSize() } // SignedDataSize returns size of the request signed data in bytes. // // Structures with the same field values have the same signed data size. func (x *PatchResponse) ReadSignedData(buf []byte) ([]byte, error) { return x.GetBody().MarshalProtobuf(buf), nil } // MarshalProtobuf implements the encoding.ProtoMarshaler interface. func (x *PatchResponse) MarshalProtobuf(dst []byte) []byte { m := pool.MarshalerPool.Get() defer pool.MarshalerPool.Put(m) x.EmitProtobuf(m.MessageMarshaler()) dst = m.Marshal(dst) return dst } func (x *PatchResponse) EmitProtobuf(mm *easyproto.MessageMarshaler) { if x == nil { return } if x.Body != nil && x.Body.StableSize() != 0 { x.Body.EmitProtobuf(mm.AppendMessage(1)) } if x.MetaHeader != nil && x.MetaHeader.StableSize() != 0 { x.MetaHeader.EmitProtobuf(mm.AppendMessage(2)) } if x.VerifyHeader != nil && x.VerifyHeader.StableSize() != 0 { x.VerifyHeader.EmitProtobuf(mm.AppendMessage(3)) } } // UnmarshalProtobuf implements the encoding.ProtoUnmarshaler interface. func (x *PatchResponse) UnmarshalProtobuf(src []byte) (err error) { var fc easyproto.FieldContext for len(src) > 0 { src, err = fc.NextField(src) if err != nil { return fmt.Errorf("cannot read next field in %s", "PatchResponse") } switch fc.FieldNum { case 1: // Body data, ok := fc.MessageData() if !ok { return fmt.Errorf("cannot unmarshal field %s", "Body") } x.Body = new(PatchResponse_Body) if err := x.Body.UnmarshalProtobuf(data); err != nil { return fmt.Errorf("unmarshal: %w", err) } case 2: // MetaHeader data, ok := fc.MessageData() if !ok { return fmt.Errorf("cannot unmarshal field %s", "MetaHeader") } x.MetaHeader = new(grpc1.ResponseMetaHeader) if err := x.MetaHeader.UnmarshalProtobuf(data); err != nil { return fmt.Errorf("unmarshal: %w", err) } case 3: // VerifyHeader data, ok := fc.MessageData() if !ok { return fmt.Errorf("cannot unmarshal field %s", "VerifyHeader") } x.VerifyHeader = new(grpc1.ResponseVerificationHeader) if err := x.VerifyHeader.UnmarshalProtobuf(data); err != nil { return fmt.Errorf("unmarshal: %w", err) } } } return nil } func (x *PatchResponse) GetBody() *PatchResponse_Body { if x != nil { return x.Body } return nil } func (x *PatchResponse) SetBody(v *PatchResponse_Body) { x.Body = v } func (x *PatchResponse) GetMetaHeader() *grpc1.ResponseMetaHeader { if x != nil { return x.MetaHeader } return nil } func (x *PatchResponse) SetMetaHeader(v *grpc1.ResponseMetaHeader) { x.MetaHeader = v } func (x *PatchResponse) GetVerifyHeader() *grpc1.ResponseVerificationHeader { if x != nil { return x.VerifyHeader } return nil } func (x *PatchResponse) SetVerifyHeader(v *grpc1.ResponseVerificationHeader) { x.VerifyHeader = v } // MarshalJSON implements the json.Marshaler interface. func (x *PatchResponse) MarshalJSON() ([]byte, error) { w := jwriter.Writer{} x.MarshalEasyJSON(&w) return w.Buffer.BuildBytes(), w.Error } func (x *PatchResponse) MarshalEasyJSON(out *jwriter.Writer) { if x == nil { out.RawString("null") return } out.RawByte('{') { const prefix string = ",\"body\":" out.RawString(prefix[1:]) x.Body.MarshalEasyJSON(out) } { const prefix string = ",\"metaHeader\":" out.RawString(prefix) x.MetaHeader.MarshalEasyJSON(out) } { const prefix string = ",\"verifyHeader\":" out.RawString(prefix) x.VerifyHeader.MarshalEasyJSON(out) } out.RawByte('}') } // UnmarshalJSON implements the json.Unmarshaler interface. func (x *PatchResponse) UnmarshalJSON(data []byte) error { r := jlexer.Lexer{Data: data} x.UnmarshalEasyJSON(&r) return r.Error() } func (x *PatchResponse) UnmarshalEasyJSON(in *jlexer.Lexer) { isTopLevel := in.IsStart() if in.IsNull() { if isTopLevel { in.Consumed() } in.Skip() return } in.Delim('{') for !in.IsDelim('}') { key := in.UnsafeFieldName(false) in.WantColon() if in.IsNull() { in.Skip() in.WantComma() continue } switch key { case "body": { var f *PatchResponse_Body f = new(PatchResponse_Body) f.UnmarshalEasyJSON(in) x.Body = f } case "metaHeader": { var f *grpc1.ResponseMetaHeader f = new(grpc1.ResponseMetaHeader) f.UnmarshalEasyJSON(in) x.MetaHeader = f } case "verifyHeader": { var f *grpc1.ResponseVerificationHeader f = new(grpc1.ResponseVerificationHeader) f.UnmarshalEasyJSON(in) x.VerifyHeader = f } } in.WantComma() } in.Delim('}') if isTopLevel { in.Consumed() } }