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milvus/pkg/mq/msgstream/msg.go
marcelo-cjl 3b599441fd
feat: Add nullable vector support for proxy and querynode (#46305) 
related: #45993 

This commit extends nullable vector support to the proxy layer,
querynode,
and adds comprehensive validation, search reduce, and field data
handling
    for nullable vectors with sparse storage.
    
    Proxy layer changes:
- Update validate_util.go checkAligned() with getExpectedVectorRows()
helper
      to validate nullable vector field alignment using valid data count
- Update checkFloatVectorFieldData/checkSparseFloatVectorFieldData for
      nullable vector validation with proper row count expectations
- Add FieldDataIdxComputer in typeutil/schema.go for logical-to-physical
      index translation during search reduce operations
- Update search_reduce_util.go reduceSearchResultData to use
idxComputers
      for correct field data indexing with nullable vectors
- Update task.go, task_query.go, task_upsert.go for nullable vector
handling
    - Update msg_pack.go with nullable vector field data processing
    
    QueryNode layer changes:
    - Update segments/result.go for nullable vector result handling
- Update segments/search_reduce.go with nullable vector offset
translation
    
    Storage and index changes:
- Update data_codec.go and utils.go for nullable vector serialization
- Update indexcgowrapper/dataset.go and index.go for nullable vector
indexing
    
    Utility changes:
- Add FieldDataIdxComputer struct with Compute() method for efficient
      logical-to-physical index mapping across multiple field data
- Update EstimateEntitySize() and AppendFieldData() with fieldIdxs
parameter
    - Update funcutil.go with nullable vector support functions

<!-- This is an auto-generated comment: release notes by coderabbit.ai
-->
## Summary by CodeRabbit

* **New Features**
* Full support for nullable vector fields (float, binary, float16,
bfloat16, int8, sparse) across ingest, storage, indexing, search and
retrieval; logical↔physical offset mapping preserves row semantics.
  * Client: compaction control and compaction-state APIs.

* **Bug Fixes**
* Improved validation for adding vector fields (nullable + dimension
checks) and corrected search/query behavior for nullable vectors.

* **Chores**
  * Persisted validity maps with indexes and on-disk formats.

* **Tests**
  * Extensive new and updated end-to-end nullable-vector tests.

<sub>✏️ Tip: You can customize this high-level summary in your review
settings.</sub>
<!-- end of auto-generated comment: release notes by coderabbit.ai -->

---------

Signed-off-by: marcelo-cjl <marcelo.chen@zilliz.com>
2025-12-24 10:13:19 +08:00

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// Licensed to the LF AI & Data foundation under one
// or more contributor license agreements. See the NOTICE file
// distributed with this work for additional information
// regarding copyright ownership. The ASF licenses this file
// to you under the Apache License, Version 2.0 (the
// "License"); you may not use this file except in compliance
// with the License. You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
package msgstream
import (
"context"
"fmt"
"sync"
"github.com/cockroachdb/errors"
"google.golang.org/protobuf/proto"
"github.com/milvus-io/milvus-proto/go-api/v2/commonpb"
"github.com/milvus-io/milvus-proto/go-api/v2/msgpb"
"github.com/milvus-io/milvus-proto/go-api/v2/schemapb"
"github.com/milvus-io/milvus/pkg/v2/util/commonpbutil"
"github.com/milvus-io/milvus/pkg/v2/util/funcutil"
"github.com/milvus-io/milvus/pkg/v2/util/typeutil"
)
// MsgType is an alias of commonpb.MsgType
type MsgType = commonpb.MsgType
// MarshalType is an empty interface
type MarshalType = interface{}
// TsMsg provides methods to get begin timestamp and end timestamp of a message pack
type TsMsg interface {
TraceCtx() context.Context
SetTraceCtx(ctx context.Context)
ID() UniqueID
SetID(id UniqueID)
BeginTs() Timestamp
EndTs() Timestamp
Type() MsgType
VChannel() string
// CollID return msg collection id
// return 0 if not exist
CollID() int64
SourceID() int64
HashKeys() []uint32
Marshal(TsMsg) (MarshalType, error)
Unmarshal(MarshalType) (TsMsg, error)
Position() *MsgPosition
SetPosition(*MsgPosition)
SetTs(ts uint64)
Size() int
}
// BaseMsg is a basic structure that contains begin timestamp, end timestamp and the position of msgstream
type BaseMsg struct {
mu sync.Mutex
Ctx context.Context
BeginTimestamp Timestamp
EndTimestamp Timestamp
HashValues []uint32
MsgPosition *MsgPosition
}
// TraceCtx returns the context of opentracing
func (bm *BaseMsg) TraceCtx() context.Context {
// TODO: There's data race when non-dml msg is sent to different flow graph.
// Wrong open-trancing information is generated, Fix in future.
bm.mu.Lock()
defer bm.mu.Unlock()
// A context.Context interface should never be nil.
if bm.Ctx == nil {
return context.Background()
}
return bm.Ctx
}
// SetTraceCtx is used to set context for opentracing
func (bm *BaseMsg) SetTraceCtx(ctx context.Context) {
bm.mu.Lock()
bm.Ctx = ctx
bm.mu.Unlock()
}
// BeginTs returns the begin timestamp of this message pack
func (bm *BaseMsg) BeginTs() Timestamp {
return bm.BeginTimestamp
}
// EndTs returns the end timestamp of this message pack
func (bm *BaseMsg) EndTs() Timestamp {
return bm.EndTimestamp
}
// HashKeys returns the end timestamp of this message pack
func (bm *BaseMsg) HashKeys() []uint32 {
return bm.HashValues
}
// Position returns the position of this message pack in msgstream
func (bm *BaseMsg) Position() *MsgPosition {
return bm.MsgPosition
}
// SetPosition is used to set position of this message in msgstream
func (bm *BaseMsg) SetPosition(position *MsgPosition) {
bm.MsgPosition = position
}
func (bm *BaseMsg) SetTs(ts uint64) {
bm.BeginTimestamp = ts
bm.EndTimestamp = ts
}
func (it *BaseMsg) VChannel() string {
return ""
}
func (it *BaseMsg) CollID() int64 {
return 0
}
func convertToByteArray(input interface{}) ([]byte, error) {
switch output := input.(type) {
case []byte:
return output, nil
default:
return nil, errors.New("Cannot convert interface{} to []byte")
}
}
/////////////////////////////////////////Insert//////////////////////////////////////////
// InsertMsg is a message pack that contains insert request
type InsertMsg struct {
BaseMsg
*msgpb.InsertRequest
}
// interface implementation validation
var _ TsMsg = &InsertMsg{}
// ID returns the ID of this message pack
func (it *InsertMsg) ID() UniqueID {
return it.Base.MsgID
}
// SetID set the ID of this message pack
func (it *InsertMsg) SetID(id UniqueID) {
it.Base.MsgID = id
}
// Type returns the type of this message pack
func (it *InsertMsg) Type() MsgType {
return it.Base.MsgType
}
// SourceID indicates which component generated this message
func (it *InsertMsg) SourceID() int64 {
return it.Base.SourceID
}
func (it *InsertMsg) VChannel() string {
return it.ShardName
}
func (it *InsertMsg) CollID() int64 {
return it.GetCollectionID()
}
// Marshal is used to serialize a message pack to byte array
func (it *InsertMsg) Marshal(input TsMsg) (MarshalType, error) {
insertMsg := input.(*InsertMsg)
insertRequest := insertMsg.InsertRequest
mb, err := proto.Marshal(insertRequest)
if err != nil {
return nil, err
}
return mb, nil
}
// Unmarshal is used to deserialize a message pack from byte array
func (it *InsertMsg) Unmarshal(input MarshalType) (TsMsg, error) {
insertRequest := &msgpb.InsertRequest{}
in, err := convertToByteArray(input)
if err != nil {
return nil, err
}
err = proto.Unmarshal(in, insertRequest)
if err != nil {
return nil, err
}
insertMsg := &InsertMsg{InsertRequest: insertRequest}
for _, timestamp := range insertMsg.Timestamps {
insertMsg.BeginTimestamp = timestamp
insertMsg.EndTimestamp = timestamp
break
}
for _, timestamp := range insertMsg.Timestamps {
if timestamp > insertMsg.EndTimestamp {
insertMsg.EndTimestamp = timestamp
}
if timestamp < insertMsg.BeginTimestamp {
insertMsg.BeginTimestamp = timestamp
}
}
return insertMsg, nil
}
func (it *InsertMsg) IsRowBased() bool {
return it.GetVersion() == msgpb.InsertDataVersion_RowBased
}
func (it *InsertMsg) IsColumnBased() bool {
return it.GetVersion() == msgpb.InsertDataVersion_ColumnBased
}
func (it *InsertMsg) NRows() uint64 {
if it.IsRowBased() {
return uint64(len(it.RowData))
}
return it.InsertRequest.GetNumRows()
}
func (it *InsertMsg) CheckAligned() error {
numRowsOfFieldDataMismatch := func(fieldName string, fieldNumRows, passedNumRows uint64) error {
return fmt.Errorf("the num_rows(%d) of %sth field is not equal to passed NumRows(%d)", fieldNumRows, fieldName, passedNumRows)
}
rowNums := it.NRows()
if it.IsColumnBased() {
for _, field := range it.FieldsData {
fieldNumRows, err := funcutil.GetNumRowOfFieldData(field)
if err != nil {
return err
}
if fieldNumRows != rowNums {
return numRowsOfFieldDataMismatch(field.FieldName, fieldNumRows, rowNums)
}
}
}
if len(it.GetRowIDs()) != len(it.GetTimestamps()) {
return fmt.Errorf("the num_rows(%d) of rowIDs is not equal to the num_rows(%d) of timestamps", len(it.GetRowIDs()), len(it.GetTimestamps()))
}
if uint64(len(it.GetRowIDs())) != it.NRows() {
return fmt.Errorf("the num_rows(%d) of rowIDs is not equal to passed NumRows(%d)", len(it.GetRowIDs()), it.NRows())
}
return nil
}
func (it *InsertMsg) rowBasedIndexRequest(index int) *msgpb.InsertRequest {
return &msgpb.InsertRequest{
Base: commonpbutil.NewMsgBase(
commonpbutil.WithMsgType(commonpb.MsgType_Insert),
commonpbutil.WithMsgID(it.Base.MsgID),
commonpbutil.WithTimeStamp(it.Timestamps[index]),
commonpbutil.WithSourceID(it.Base.SourceID),
),
DbID: it.DbID,
CollectionID: it.CollectionID,
PartitionID: it.PartitionID,
CollectionName: it.CollectionName,
PartitionName: it.PartitionName,
SegmentID: it.SegmentID,
ShardName: it.ShardName,
Timestamps: []uint64{it.Timestamps[index]},
RowIDs: []int64{it.RowIDs[index]},
RowData: []*commonpb.Blob{it.RowData[index]},
Version: msgpb.InsertDataVersion_RowBased,
}
}
func (it *InsertMsg) columnBasedIndexRequest(index int) *msgpb.InsertRequest {
srcFieldsData := it.GetFieldsData()
fieldsData := make([]*schemapb.FieldData, len(srcFieldsData))
idxComputer := typeutil.NewFieldDataIdxComputer(srcFieldsData)
vectorIdx := idxComputer.Compute(int64(index))
typeutil.AppendFieldData(fieldsData, srcFieldsData, int64(index), vectorIdx...)
return &msgpb.InsertRequest{
Base: commonpbutil.NewMsgBase(
commonpbutil.WithMsgType(commonpb.MsgType_Insert),
commonpbutil.WithMsgID(it.Base.MsgID),
commonpbutil.WithTimeStamp(it.Timestamps[index]),
commonpbutil.WithSourceID(it.Base.SourceID),
),
DbID: it.DbID,
CollectionID: it.CollectionID,
PartitionID: it.PartitionID,
CollectionName: it.CollectionName,
PartitionName: it.PartitionName,
SegmentID: it.SegmentID,
ShardName: it.ShardName,
Timestamps: []uint64{it.Timestamps[index]},
RowIDs: []int64{it.RowIDs[index]},
FieldsData: fieldsData,
NumRows: 1,
Version: msgpb.InsertDataVersion_ColumnBased,
}
}
func (it *InsertMsg) IndexRequest(index int) *msgpb.InsertRequest {
if it.IsRowBased() {
return it.rowBasedIndexRequest(index)
}
return it.columnBasedIndexRequest(index)
}
func (it *InsertMsg) IndexMsg(index int) *InsertMsg {
return &InsertMsg{
BaseMsg: BaseMsg{
Ctx: it.TraceCtx(),
BeginTimestamp: it.BeginTimestamp,
EndTimestamp: it.EndTimestamp,
HashValues: it.HashValues,
MsgPosition: it.MsgPosition,
},
InsertRequest: it.IndexRequest(index),
}
}
func (it *InsertMsg) Size() int {
return proto.Size(it.InsertRequest)
}
/////////////////////////////////////////Delete//////////////////////////////////////////
// DeleteMsg is a message pack that contains delete request
type DeleteMsg struct {
BaseMsg
*msgpb.DeleteRequest
}
// interface implementation validation
var _ TsMsg = &DeleteMsg{}
// ID returns the ID of this message pack
func (dt *DeleteMsg) ID() UniqueID {
return dt.Base.MsgID
}
// SetID set the ID of this message pack
func (dt *DeleteMsg) SetID(id UniqueID) {
dt.Base.MsgID = id
}
// Type returns the type of this message pack
func (dt *DeleteMsg) Type() MsgType {
return dt.Base.MsgType
}
// SourceID indicates which component generated this message
func (dt *DeleteMsg) SourceID() int64 {
return dt.Base.SourceID
}
func (it *DeleteMsg) VChannel() string {
return it.ShardName
}
func (it *DeleteMsg) CollID() int64 {
return it.GetCollectionID()
}
// Marshal is used to serializing a message pack to byte array
func (dt *DeleteMsg) Marshal(input TsMsg) (MarshalType, error) {
deleteMsg := input.(*DeleteMsg)
deleteRequest := deleteMsg.DeleteRequest
mb, err := proto.Marshal(deleteRequest)
if err != nil {
return nil, err
}
return mb, nil
}
// Unmarshal is used to deserializing a message pack from byte array
func (dt *DeleteMsg) Unmarshal(input MarshalType) (TsMsg, error) {
deleteRequest := &msgpb.DeleteRequest{}
in, err := convertToByteArray(input)
if err != nil {
return nil, err
}
err = proto.Unmarshal(in, deleteRequest)
if err != nil {
return nil, err
}
// Compatible with primary keys that only support int64 type
if deleteRequest.PrimaryKeys == nil {
deleteRequest.PrimaryKeys = &schemapb.IDs{
IdField: &schemapb.IDs_IntId{
IntId: &schemapb.LongArray{
Data: deleteRequest.Int64PrimaryKeys,
},
},
}
deleteRequest.NumRows = int64(len(deleteRequest.Int64PrimaryKeys))
}
deleteMsg := &DeleteMsg{DeleteRequest: deleteRequest}
for _, timestamp := range deleteMsg.Timestamps {
deleteMsg.BeginTimestamp = timestamp
deleteMsg.EndTimestamp = timestamp
break
}
for _, timestamp := range deleteMsg.Timestamps {
if timestamp > deleteMsg.EndTimestamp {
deleteMsg.EndTimestamp = timestamp
}
if timestamp < deleteMsg.BeginTimestamp {
deleteMsg.BeginTimestamp = timestamp
}
}
return deleteMsg, nil
}
func (dt *DeleteMsg) CheckAligned() error {
numRows := dt.GetNumRows()
if numRows != int64(len(dt.GetTimestamps())) {
return fmt.Errorf("the num_rows(%d) of pks is not equal to the num_rows(%d) of timestamps", numRows, len(dt.GetTimestamps()))
}
numPks := int64(typeutil.GetSizeOfIDs(dt.PrimaryKeys))
if numRows != numPks {
return fmt.Errorf("the num_rows(%d) of pks is not equal to passed NumRows(%d)", numPks, numRows)
}
return nil
}
func (dt *DeleteMsg) Size() int {
return proto.Size(dt.DeleteRequest)
}
// ///////////////////////////////////////Upsert//////////////////////////////////////////
type UpsertMsg struct {
InsertMsg *InsertMsg
DeleteMsg *DeleteMsg
}
/////////////////////////////////////////TimeTick//////////////////////////////////////////
// TimeTickMsg is a message pack that contains time tick only
type TimeTickMsg struct {
BaseMsg
*msgpb.TimeTickMsg
}
// interface implementation validation
var _ TsMsg = &TimeTickMsg{}
// ID returns the ID of this message pack
func (tst *TimeTickMsg) ID() UniqueID {
return tst.Base.MsgID
}
// SetID set the ID of this message pack
func (tst *TimeTickMsg) SetID(id UniqueID) {
tst.Base.MsgID = id
}
// Type returns the type of this message pack
func (tst *TimeTickMsg) Type() MsgType {
return tst.Base.MsgType
}
// SourceID indicates which component generated this message
func (tst *TimeTickMsg) SourceID() int64 {
return tst.Base.SourceID
}
// Marshal is used to serializing a message pack to byte array
func (tst *TimeTickMsg) Marshal(input TsMsg) (MarshalType, error) {
timeTickTask := input.(*TimeTickMsg)
timeTick := timeTickTask.TimeTickMsg
mb, err := proto.Marshal(timeTick)
if err != nil {
return nil, err
}
return mb, nil
}
// Unmarshal is used to deserializing a message pack from byte array
func (tst *TimeTickMsg) Unmarshal(input MarshalType) (TsMsg, error) {
timeTickMsg := &msgpb.TimeTickMsg{}
in, err := convertToByteArray(input)
if err != nil {
return nil, err
}
err = proto.Unmarshal(in, timeTickMsg)
if err != nil {
return nil, err
}
timeTick := &TimeTickMsg{TimeTickMsg: timeTickMsg}
timeTick.BeginTimestamp = timeTick.Base.Timestamp
timeTick.EndTimestamp = timeTick.Base.Timestamp
return timeTick, nil
}
func (tst *TimeTickMsg) Size() int {
return proto.Size(tst.TimeTickMsg)
}
/////////////////////////////////////////CreateCollection//////////////////////////////////////////
// CreateCollectionMsg is a message pack that contains create collection request
type CreateCollectionMsg struct {
BaseMsg
*msgpb.CreateCollectionRequest
}
// interface implementation validation
var _ TsMsg = &CreateCollectionMsg{}
// ID returns the ID of this message pack
func (cc *CreateCollectionMsg) ID() UniqueID {
return cc.Base.MsgID
}
// SetID set the ID of this message pack
func (cc *CreateCollectionMsg) SetID(id UniqueID) {
cc.Base.MsgID = id
}
// Type returns the type of this message pack
func (cc *CreateCollectionMsg) Type() MsgType {
return cc.Base.MsgType
}
// SourceID indicates which component generated this message
func (cc *CreateCollectionMsg) SourceID() int64 {
return cc.Base.SourceID
}
func (it *CreateCollectionMsg) CollID() int64 {
return it.GetCollectionID()
}
// Marshal is used to serializing a message pack to byte array
func (cc *CreateCollectionMsg) Marshal(input TsMsg) (MarshalType, error) {
createCollectionMsg := input.(*CreateCollectionMsg)
createCollectionRequest := createCollectionMsg.CreateCollectionRequest
mb, err := proto.Marshal(createCollectionRequest)
if err != nil {
return nil, err
}
return mb, nil
}
// Unmarshal is used to deserializing a message pack from byte array
func (cc *CreateCollectionMsg) Unmarshal(input MarshalType) (TsMsg, error) {
createCollectionRequest := &msgpb.CreateCollectionRequest{}
in, err := convertToByteArray(input)
if err != nil {
return nil, err
}
err = proto.Unmarshal(in, createCollectionRequest)
if err != nil {
return nil, err
}
createCollectionMsg := &CreateCollectionMsg{CreateCollectionRequest: createCollectionRequest}
createCollectionMsg.BeginTimestamp = createCollectionMsg.Base.Timestamp
createCollectionMsg.EndTimestamp = createCollectionMsg.Base.Timestamp
return createCollectionMsg, nil
}
func (cc *CreateCollectionMsg) Size() int {
return proto.Size(cc.CreateCollectionRequest)
}
/////////////////////////////////////////DropCollection//////////////////////////////////////////
// DropCollectionMsg is a message pack that contains drop collection request
type DropCollectionMsg struct {
BaseMsg
*msgpb.DropCollectionRequest
}
// interface implementation validation
var _ TsMsg = &DropCollectionMsg{}
// ID returns the ID of this message pack
func (dc *DropCollectionMsg) ID() UniqueID {
return dc.Base.MsgID
}
// SetID set the ID of this message pack
func (dc *DropCollectionMsg) SetID(id UniqueID) {
dc.Base.MsgID = id
}
// Type returns the type of this message pack
func (dc *DropCollectionMsg) Type() MsgType {
return dc.Base.MsgType
}
// SourceID indicates which component generated this message
func (dc *DropCollectionMsg) SourceID() int64 {
return dc.Base.SourceID
}
func (it *DropCollectionMsg) CollID() int64 {
return it.GetCollectionID()
}
// Marshal is used to serializing a message pack to byte array
func (dc *DropCollectionMsg) Marshal(input TsMsg) (MarshalType, error) {
dropCollectionMsg := input.(*DropCollectionMsg)
dropCollectionRequest := dropCollectionMsg.DropCollectionRequest
mb, err := proto.Marshal(dropCollectionRequest)
if err != nil {
return nil, err
}
return mb, nil
}
// Unmarshal is used to deserializing a message pack from byte array
func (dc *DropCollectionMsg) Unmarshal(input MarshalType) (TsMsg, error) {
dropCollectionRequest := &msgpb.DropCollectionRequest{}
in, err := convertToByteArray(input)
if err != nil {
return nil, err
}
err = proto.Unmarshal(in, dropCollectionRequest)
if err != nil {
return nil, err
}
dropCollectionMsg := &DropCollectionMsg{DropCollectionRequest: dropCollectionRequest}
dropCollectionMsg.BeginTimestamp = dropCollectionMsg.Base.Timestamp
dropCollectionMsg.EndTimestamp = dropCollectionMsg.Base.Timestamp
return dropCollectionMsg, nil
}
func (dc *DropCollectionMsg) Size() int {
return proto.Size(dc.DropCollectionRequest)
}
/////////////////////////////////////////CreatePartition//////////////////////////////////////////
// CreatePartitionMsg is a message pack that contains create partition request
type CreatePartitionMsg struct {
BaseMsg
*msgpb.CreatePartitionRequest
}
// interface implementation validation
var _ TsMsg = &CreatePartitionMsg{}
// ID returns the ID of this message pack
func (cp *CreatePartitionMsg) ID() UniqueID {
return cp.Base.MsgID
}
// SetID set the ID of this message pack
func (cp *CreatePartitionMsg) SetID(id UniqueID) {
cp.Base.MsgID = id
}
// Type returns the type of this message pack
func (cp *CreatePartitionMsg) Type() MsgType {
return cp.Base.MsgType
}
// SourceID indicates which component generated this message
func (cp *CreatePartitionMsg) SourceID() int64 {
return cp.Base.SourceID
}
func (it *CreatePartitionMsg) CollID() int64 {
return it.GetCollectionID()
}
// Marshal is used to serializing a message pack to byte array
func (cp *CreatePartitionMsg) Marshal(input TsMsg) (MarshalType, error) {
createPartitionMsg := input.(*CreatePartitionMsg)
createPartitionRequest := createPartitionMsg.CreatePartitionRequest
mb, err := proto.Marshal(createPartitionRequest)
if err != nil {
return nil, err
}
return mb, nil
}
// Unmarshal is used to deserializing a message pack from byte array
func (cp *CreatePartitionMsg) Unmarshal(input MarshalType) (TsMsg, error) {
createPartitionRequest := &msgpb.CreatePartitionRequest{}
in, err := convertToByteArray(input)
if err != nil {
return nil, err
}
err = proto.Unmarshal(in, createPartitionRequest)
if err != nil {
return nil, err
}
createPartitionMsg := &CreatePartitionMsg{CreatePartitionRequest: createPartitionRequest}
createPartitionMsg.BeginTimestamp = createPartitionMsg.Base.Timestamp
createPartitionMsg.EndTimestamp = createPartitionMsg.Base.Timestamp
return createPartitionMsg, nil
}
func (cp *CreatePartitionMsg) Size() int {
return proto.Size(cp.CreatePartitionRequest)
}
/////////////////////////////////////////DropPartition//////////////////////////////////////////
// DropPartitionMsg is a message pack that contains drop partition request
type DropPartitionMsg struct {
BaseMsg
*msgpb.DropPartitionRequest
}
// interface implementation validation
var _ TsMsg = &DropPartitionMsg{}
// ID returns the ID of this message pack
func (dp *DropPartitionMsg) ID() UniqueID {
return dp.Base.MsgID
}
// SetID set the ID of this message pack
func (dp *DropPartitionMsg) SetID(id UniqueID) {
dp.Base.MsgID = id
}
// Type returns the type of this message pack
func (dp *DropPartitionMsg) Type() MsgType {
return dp.Base.MsgType
}
// SourceID indicates which component generated this message
func (dp *DropPartitionMsg) SourceID() int64 {
return dp.Base.SourceID
}
func (it *DropPartitionMsg) CollID() int64 {
return it.GetCollectionID()
}
// Marshal is used to serializing a message pack to byte array
func (dp *DropPartitionMsg) Marshal(input TsMsg) (MarshalType, error) {
dropPartitionMsg := input.(*DropPartitionMsg)
dropPartitionRequest := dropPartitionMsg.DropPartitionRequest
mb, err := proto.Marshal(dropPartitionRequest)
if err != nil {
return nil, err
}
return mb, nil
}
// Unmarshal is used to deserializing a message pack from byte array
func (dp *DropPartitionMsg) Unmarshal(input MarshalType) (TsMsg, error) {
dropPartitionRequest := &msgpb.DropPartitionRequest{}
in, err := convertToByteArray(input)
if err != nil {
return nil, err
}
err = proto.Unmarshal(in, dropPartitionRequest)
if err != nil {
return nil, err
}
dropPartitionMsg := &DropPartitionMsg{DropPartitionRequest: dropPartitionRequest}
dropPartitionMsg.BeginTimestamp = dropPartitionMsg.Base.Timestamp
dropPartitionMsg.EndTimestamp = dropPartitionMsg.Base.Timestamp
return dropPartitionMsg, nil
}
func (dp *DropPartitionMsg) Size() int {
return proto.Size(dp.DropPartitionRequest)
}
/////////////////////////////////////////DataNodeTtMsg//////////////////////////////////////////
// DataNodeTtMsg is a message pack that contains datanode time tick
type DataNodeTtMsg struct {
BaseMsg
*msgpb.DataNodeTtMsg
}
// interface implementation validation
var _ TsMsg = &DataNodeTtMsg{}
// ID returns the ID of this message pack
func (m *DataNodeTtMsg) ID() UniqueID {
return m.Base.MsgID
}
// SetID set the ID of this message pack
func (m *DataNodeTtMsg) SetID(id UniqueID) {
m.Base.MsgID = id
}
// Type returns the type of this message pack
func (m *DataNodeTtMsg) Type() MsgType {
return m.Base.MsgType
}
// SourceID indicates which component generated this message
func (m *DataNodeTtMsg) SourceID() int64 {
return m.Base.SourceID
}
// Marshal is used to serializing a message pack to byte array
func (m *DataNodeTtMsg) Marshal(input TsMsg) (MarshalType, error) {
msg := input.(*DataNodeTtMsg)
t, err := proto.Marshal(msg.DataNodeTtMsg)
if err != nil {
return nil, err
}
return t, nil
}
// Unmarshal is used to deserializing a message pack from byte array
func (m *DataNodeTtMsg) Unmarshal(input MarshalType) (TsMsg, error) {
msg := &msgpb.DataNodeTtMsg{}
in, err := convertToByteArray(input)
if err != nil {
return nil, err
}
err = proto.Unmarshal(in, msg)
if err != nil {
return nil, err
}
return &DataNodeTtMsg{
DataNodeTtMsg: msg,
}, nil
}
func (m *DataNodeTtMsg) Size() int {
return proto.Size(m.DataNodeTtMsg)
}
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