milvus/internal/rootcoord/task.go

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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 rootcoord
import (
"context"
"fmt"
"github.com/golang/protobuf/proto"
"github.com/milvus-io/milvus/internal/common"
"github.com/milvus-io/milvus/internal/log"
"github.com/milvus-io/milvus/internal/proto/commonpb"
"github.com/milvus-io/milvus/internal/proto/etcdpb"
"github.com/milvus-io/milvus/internal/proto/internalpb"
"github.com/milvus-io/milvus/internal/proto/milvuspb"
"github.com/milvus-io/milvus/internal/proto/schemapb"
"github.com/milvus-io/milvus/internal/util/tsoutil"
"github.com/milvus-io/milvus/internal/util/typeutil"
"go.uber.org/zap"
)
type reqTask interface {
Ctx() context.Context
Type() commonpb.MsgType
Execute(ctx context.Context) error
Core() *Core
}
type baseReqTask struct {
ctx context.Context
core *Core
}
func (b *baseReqTask) Core() *Core {
return b.core
}
func (b *baseReqTask) Ctx() context.Context {
return b.ctx
}
func executeTask(t reqTask) error {
errChan := make(chan error)
go func() {
err := t.Execute(t.Ctx())
errChan <- err
}()
select {
case <-t.Core().ctx.Done():
return fmt.Errorf("context canceled")
case <-t.Ctx().Done():
return fmt.Errorf("context canceled")
case err := <-errChan:
if t.Core().ctx.Err() != nil || t.Ctx().Err() != nil {
return fmt.Errorf("context canceled")
}
return err
}
}
// CreateCollectionReqTask create collection request task
type CreateCollectionReqTask struct {
baseReqTask
Req *milvuspb.CreateCollectionRequest
}
// Type return msg type
func (t *CreateCollectionReqTask) Type() commonpb.MsgType {
return t.Req.Base.MsgType
}
// Execute task execution
func (t *CreateCollectionReqTask) Execute(ctx context.Context) error {
if t.Type() != commonpb.MsgType_CreateCollection {
return fmt.Errorf("create collection, msg type = %s", commonpb.MsgType_name[int32(t.Type())])
}
var schema schemapb.CollectionSchema
err := proto.Unmarshal(t.Req.Schema, &schema)
if err != nil {
return fmt.Errorf("unmarshal schema error= %w", err)
}
if t.Req.CollectionName != schema.Name {
return fmt.Errorf("collection name = %s, schema.Name=%s", t.Req.CollectionName, schema.Name)
}
if t.Req.ShardsNum <= 0 {
t.Req.ShardsNum = common.DefaultShardsNum
}
log.Debug("CreateCollectionReqTask Execute", zap.Any("CollectionName", t.Req.CollectionName),
zap.Int32("ShardsNum", t.Req.ShardsNum),
zap.String("ConsistencyLevel", t.Req.ConsistencyLevel.String()))
for idx, field := range schema.Fields {
field.FieldID = int64(idx + StartOfUserFieldID)
}
rowIDField := &schemapb.FieldSchema{
FieldID: int64(RowIDField),
Name: RowIDFieldName,
IsPrimaryKey: false,
Description: "row id",
DataType: schemapb.DataType_Int64,
}
timeStampField := &schemapb.FieldSchema{
FieldID: int64(TimeStampField),
Name: TimeStampFieldName,
IsPrimaryKey: false,
Description: "time stamp",
DataType: schemapb.DataType_Int64,
}
schema.Fields = append(schema.Fields, rowIDField, timeStampField)
collID, _, err := t.core.IDAllocator(1)
if err != nil {
return fmt.Errorf("alloc collection id error = %w", err)
}
partID, _, err := t.core.IDAllocator(1)
if err != nil {
return fmt.Errorf("alloc partition id error = %w", err)
}
log.Debug("collection name -> id",
zap.String("collection name", t.Req.CollectionName),
zap.Int64("collection_id", collID),
zap.Int64("default partition id", partID))
vchanNames := make([]string, t.Req.ShardsNum)
chanNames := make([]string, t.Req.ShardsNum)
deltaChanNames := make([]string, t.Req.ShardsNum)
for i := int32(0); i < t.Req.ShardsNum; i++ {
vchanNames[i] = fmt.Sprintf("%s_%dv%d", t.core.chanTimeTick.getDmlChannelName(), collID, i)
chanNames[i] = ToPhysicalChannel(vchanNames[i])
deltaChanNames[i] = t.core.chanTimeTick.getDeltaChannelName()
deltaChanName, err1 := ConvertChannelName(chanNames[i], Params.RootCoordCfg.DmlChannelName, Params.RootCoordCfg.DeltaChannelName)
if err1 != nil || deltaChanName != deltaChanNames[i] {
return fmt.Errorf("dmlChanName %s and deltaChanName %s mis-match", chanNames[i], deltaChanNames[i])
}
}
collInfo := etcdpb.CollectionInfo{
ID: collID,
Schema: &schema,
PartitionIDs: []typeutil.UniqueID{partID},
PartitionNames: []string{Params.RootCoordCfg.DefaultPartitionName},
FieldIndexes: make([]*etcdpb.FieldIndexInfo, 0, 16),
VirtualChannelNames: vchanNames,
PhysicalChannelNames: chanNames,
ShardsNum: t.Req.ShardsNum,
PartitionCreatedTimestamps: []uint64{0},
ConsistencyLevel: t.Req.ConsistencyLevel,
}
idxInfo := make([]*etcdpb.IndexInfo, 0, 16)
// schema is modified (add RowIDField and TimestampField),
// so need Marshal again
schemaBytes, err := proto.Marshal(&schema)
if err != nil {
return fmt.Errorf("marshal schema error = %w", err)
}
ddCollReq := internalpb.CreateCollectionRequest{
Base: t.Req.Base,
DbName: t.Req.DbName,
CollectionName: t.Req.CollectionName,
PartitionName: Params.RootCoordCfg.DefaultPartitionName,
DbID: 0, //TODO,not used
CollectionID: collID,
PartitionID: partID,
Schema: schemaBytes,
VirtualChannelNames: vchanNames,
PhysicalChannelNames: chanNames,
}
reason := fmt.Sprintf("create collection %d", collID)
ts, err := t.core.TSOAllocator(1)
if err != nil {
return fmt.Errorf("tso alloc fail, error = %w", err)
}
// build DdOperation and save it into etcd, when ddmsg send fail,
// system can restore ddmsg from etcd and re-send
ddCollReq.Base.Timestamp = ts
ddOpStr, err := EncodeDdOperation(&ddCollReq, CreateCollectionDDType)
if err != nil {
return fmt.Errorf("encodeDdOperation fail, error = %w", err)
}
// use lambda function here to guarantee all resources to be released
createCollectionFn := func() error {
// lock for ddl operation
t.core.ddlLock.Lock()
defer t.core.ddlLock.Unlock()
t.core.chanTimeTick.addDdlTimeTick(ts, reason)
// clear ddl timetick in all conditions
defer t.core.chanTimeTick.removeDdlTimeTick(ts, reason)
// add dml channel before send dd msg
t.core.chanTimeTick.addDmlChannels(chanNames...)
// also add delta channels
t.core.chanTimeTick.addDeltaChannels(deltaChanNames...)
ids, err := t.core.SendDdCreateCollectionReq(ctx, &ddCollReq, chanNames)
if err != nil {
return fmt.Errorf("send dd create collection req failed, error = %w", err)
}
for _, pchan := range collInfo.PhysicalChannelNames {
collInfo.StartPositions = append(collInfo.StartPositions, &commonpb.KeyDataPair{
Key: pchan,
Data: ids[pchan],
})
}
// update meta table after send dd operation
if err = t.core.MetaTable.AddCollection(&collInfo, ts, idxInfo, ddOpStr); err != nil {
t.core.chanTimeTick.removeDmlChannels(chanNames...)
t.core.chanTimeTick.removeDeltaChannels(deltaChanNames...)
// it's ok just to leave create collection message sent, datanode and querynode does't process CreateCollection logic
return fmt.Errorf("meta table add collection failed,error = %w", err)
}
// use addDdlTimeTick and removeDdlTimeTick to mark DDL operation in process
t.core.chanTimeTick.removeDdlTimeTick(ts, reason)
t.core.SendTimeTick(ts, reason)
return nil
}
if err = createCollectionFn(); err != nil {
return err
}
if err = t.core.CallWatchChannels(ctx, collID, vchanNames); err != nil {
return err
}
// Update DDOperation in etcd
return t.core.setDdMsgSendFlag(true)
}
// DropCollectionReqTask drop collection request task
type DropCollectionReqTask struct {
baseReqTask
Req *milvuspb.DropCollectionRequest
}
// Type return msg type
func (t *DropCollectionReqTask) Type() commonpb.MsgType {
return t.Req.Base.MsgType
}
// Execute task execution
func (t *DropCollectionReqTask) Execute(ctx context.Context) error {
if t.Type() != commonpb.MsgType_DropCollection {
return fmt.Errorf("drop collection, msg type = %s", commonpb.MsgType_name[int32(t.Type())])
}
if t.core.MetaTable.IsAlias(t.Req.CollectionName) {
return fmt.Errorf("cannot drop the collection via alias = %s", t.Req.CollectionName)
}
collMeta, err := t.core.MetaTable.GetCollectionByName(t.Req.CollectionName, 0)
if err != nil {
return err
}
ddReq := internalpb.DropCollectionRequest{
Base: t.Req.Base,
DbName: t.Req.DbName,
CollectionName: t.Req.CollectionName,
DbID: 0, //not used
CollectionID: collMeta.ID,
}
reason := fmt.Sprintf("drop collection %d", collMeta.ID)
ts, err := t.core.TSOAllocator(1)
if err != nil {
return fmt.Errorf("TSO alloc fail, error = %w", err)
}
// build DdOperation and save it into etcd, when ddmsg send fail,
// system can restore ddmsg from etcd and re-send
ddReq.Base.Timestamp = ts
ddOpStr, err := EncodeDdOperation(&ddReq, DropCollectionDDType)
if err != nil {
return fmt.Errorf("encodeDdOperation fail, error = %w", err)
}
// drop all indices
if err = t.core.RemoveIndex(ctx, t.Req.CollectionName, ""); err != nil {
return err
}
// get all aliases before meta table updated
aliases := t.core.MetaTable.ListAliases(collMeta.ID)
// use lambda function here to guarantee all resources to be released
dropCollectionFn := func() error {
// lock for ddl operation
t.core.ddlLock.Lock()
defer t.core.ddlLock.Unlock()
t.core.chanTimeTick.addDdlTimeTick(ts, reason)
// clear ddl timetick in all conditions
defer t.core.chanTimeTick.removeDdlTimeTick(ts, reason)
if err = t.core.SendDdDropCollectionReq(ctx, &ddReq, collMeta.PhysicalChannelNames); err != nil {
return err
}
// update meta table after send dd operation
if err = t.core.MetaTable.DeleteCollection(collMeta.ID, ts, ddOpStr); err != nil {
return err
}
// use addDdlTimeTick and removeDdlTimeTick to mark DDL operation in process
t.core.chanTimeTick.removeDdlTimeTick(ts, reason)
t.core.SendTimeTick(ts, reason)
// send tt into deleted channels to tell data_node to clear flowgragh
t.core.chanTimeTick.sendTimeTickToChannel(collMeta.PhysicalChannelNames, ts)
// remove dml channel after send dd msg
t.core.chanTimeTick.removeDmlChannels(collMeta.PhysicalChannelNames...)
// remove delta channels
deltaChanNames := make([]string, len(collMeta.PhysicalChannelNames))
for i, chanName := range collMeta.PhysicalChannelNames {
if deltaChanNames[i], err = ConvertChannelName(chanName, Params.RootCoordCfg.DmlChannelName, Params.RootCoordCfg.DeltaChannelName); err != nil {
return err
}
}
t.core.chanTimeTick.removeDeltaChannels(deltaChanNames...)
return nil
}
if err = dropCollectionFn(); err != nil {
return err
}
//notify query service to release collection
if err = t.core.CallReleaseCollectionService(t.core.ctx, ts, 0, collMeta.ID); err != nil {
log.Error("Failed to CallReleaseCollectionService", zap.Error(err))
return err
}
t.core.ExpireMetaCache(ctx, []string{t.Req.CollectionName}, ts)
t.core.ExpireMetaCache(ctx, aliases, ts)
// Update DDOperation in etcd
return t.core.setDdMsgSendFlag(true)
}
// HasCollectionReqTask has collection request task
type HasCollectionReqTask struct {
baseReqTask
Req *milvuspb.HasCollectionRequest
HasCollection bool
}
// Type return msg type
func (t *HasCollectionReqTask) Type() commonpb.MsgType {
return t.Req.Base.MsgType
}
// Execute task execution
func (t *HasCollectionReqTask) Execute(ctx context.Context) error {
if t.Type() != commonpb.MsgType_HasCollection {
return fmt.Errorf("has collection, msg type = %s", commonpb.MsgType_name[int32(t.Type())])
}
_, err := t.core.MetaTable.GetCollectionByName(t.Req.CollectionName, t.Req.TimeStamp)
if err == nil {
t.HasCollection = true
} else {
t.HasCollection = false
}
return nil
}
// DescribeCollectionReqTask describe collection request task
type DescribeCollectionReqTask struct {
baseReqTask
Req *milvuspb.DescribeCollectionRequest
Rsp *milvuspb.DescribeCollectionResponse
}
// Type return msg type
func (t *DescribeCollectionReqTask) Type() commonpb.MsgType {
return t.Req.Base.MsgType
}
// Execute task execution
func (t *DescribeCollectionReqTask) Execute(ctx context.Context) error {
if t.Type() != commonpb.MsgType_DescribeCollection {
return fmt.Errorf("describe collection, msg type = %s", commonpb.MsgType_name[int32(t.Type())])
}
var collInfo *etcdpb.CollectionInfo
var err error
if t.Req.CollectionName != "" {
collInfo, err = t.core.MetaTable.GetCollectionByName(t.Req.CollectionName, t.Req.TimeStamp)
if err != nil {
return err
}
} else {
collInfo, err = t.core.MetaTable.GetCollectionByID(t.Req.CollectionID, t.Req.TimeStamp)
if err != nil {
return err
}
}
t.Rsp.Schema = proto.Clone(collInfo.Schema).(*schemapb.CollectionSchema)
t.Rsp.CollectionID = collInfo.ID
t.Rsp.VirtualChannelNames = collInfo.VirtualChannelNames
t.Rsp.PhysicalChannelNames = collInfo.PhysicalChannelNames
if collInfo.ShardsNum == 0 {
collInfo.ShardsNum = int32(len(collInfo.VirtualChannelNames))
}
t.Rsp.ShardsNum = collInfo.ShardsNum
t.Rsp.ConsistencyLevel = collInfo.ConsistencyLevel
t.Rsp.CreatedTimestamp = collInfo.CreateTime
createdPhysicalTime, _ := tsoutil.ParseHybridTs(collInfo.CreateTime)
t.Rsp.CreatedUtcTimestamp = uint64(createdPhysicalTime)
t.Rsp.Aliases = t.core.MetaTable.ListAliases(collInfo.ID)
t.Rsp.StartPositions = collInfo.GetStartPositions()
return nil
}
// ShowCollectionReqTask show collection request task
type ShowCollectionReqTask struct {
baseReqTask
Req *milvuspb.ShowCollectionsRequest
Rsp *milvuspb.ShowCollectionsResponse
}
// Type return msg type
func (t *ShowCollectionReqTask) Type() commonpb.MsgType {
return t.Req.Base.MsgType
}
// Execute task execution
func (t *ShowCollectionReqTask) Execute(ctx context.Context) error {
if t.Type() != commonpb.MsgType_ShowCollections {
return fmt.Errorf("show collection, msg type = %s", commonpb.MsgType_name[int32(t.Type())])
}
coll, err := t.core.MetaTable.ListCollections(t.Req.TimeStamp)
if err != nil {
return err
}
for name, meta := range coll {
t.Rsp.CollectionNames = append(t.Rsp.CollectionNames, name)
t.Rsp.CollectionIds = append(t.Rsp.CollectionIds, meta.ID)
t.Rsp.CreatedTimestamps = append(t.Rsp.CreatedTimestamps, meta.CreateTime)
physical, _ := tsoutil.ParseHybridTs(meta.CreateTime)
t.Rsp.CreatedUtcTimestamps = append(t.Rsp.CreatedUtcTimestamps, uint64(physical))
}
return nil
}
// CreatePartitionReqTask create partition request task
type CreatePartitionReqTask struct {
baseReqTask
Req *milvuspb.CreatePartitionRequest
}
// Type return msg type
func (t *CreatePartitionReqTask) Type() commonpb.MsgType {
return t.Req.Base.MsgType
}
// Execute task execution
func (t *CreatePartitionReqTask) Execute(ctx context.Context) error {
if t.Type() != commonpb.MsgType_CreatePartition {
return fmt.Errorf("create partition, msg type = %s", commonpb.MsgType_name[int32(t.Type())])
}
collMeta, err := t.core.MetaTable.GetCollectionByName(t.Req.CollectionName, 0)
if err != nil {
return err
}
partID, _, err := t.core.IDAllocator(1)
if err != nil {
return err
}
ddReq := internalpb.CreatePartitionRequest{
Base: t.Req.Base,
DbName: t.Req.DbName,
CollectionName: t.Req.CollectionName,
PartitionName: t.Req.PartitionName,
DbID: 0, // todo, not used
CollectionID: collMeta.ID,
PartitionID: partID,
}
reason := fmt.Sprintf("create partition %s", t.Req.PartitionName)
ts, err := t.core.TSOAllocator(1)
if err != nil {
return fmt.Errorf("TSO alloc fail, error = %w", err)
}
// build DdOperation and save it into etcd, when ddmsg send fail,
// system can restore ddmsg from etcd and re-send
ddReq.Base.Timestamp = ts
ddOpStr, err := EncodeDdOperation(&ddReq, CreatePartitionDDType)
if err != nil {
return fmt.Errorf("encodeDdOperation fail, error = %w", err)
}
// use lambda function here to guarantee all resources to be released
createPartitionFn := func() error {
// lock for ddl operation
t.core.ddlLock.Lock()
defer t.core.ddlLock.Unlock()
t.core.chanTimeTick.addDdlTimeTick(ts, reason)
// clear ddl timetick in all conditions
defer t.core.chanTimeTick.removeDdlTimeTick(ts, reason)
if err = t.core.SendDdCreatePartitionReq(ctx, &ddReq, collMeta.PhysicalChannelNames); err != nil {
return err
}
// update meta table after send dd operation
if err = t.core.MetaTable.AddPartition(collMeta.ID, t.Req.PartitionName, partID, ts, ddOpStr); err != nil {
return err
}
// use addDdlTimeTick and removeDdlTimeTick to mark DDL operation in process
t.core.chanTimeTick.removeDdlTimeTick(ts, reason)
t.core.SendTimeTick(ts, reason)
return nil
}
if err = createPartitionFn(); err != nil {
return err
}
t.core.ExpireMetaCache(ctx, []string{t.Req.CollectionName}, ts)
// Update DDOperation in etcd
return t.core.setDdMsgSendFlag(true)
}
// DropPartitionReqTask drop partition request task
type DropPartitionReqTask struct {
baseReqTask
Req *milvuspb.DropPartitionRequest
}
// Type return msg type
func (t *DropPartitionReqTask) Type() commonpb.MsgType {
return t.Req.Base.MsgType
}
// Execute task execution
func (t *DropPartitionReqTask) Execute(ctx context.Context) error {
if t.Type() != commonpb.MsgType_DropPartition {
return fmt.Errorf("drop partition, msg type = %s", commonpb.MsgType_name[int32(t.Type())])
}
collInfo, err := t.core.MetaTable.GetCollectionByName(t.Req.CollectionName, 0)
if err != nil {
return err
}
partID, err := t.core.MetaTable.GetPartitionByName(collInfo.ID, t.Req.PartitionName, 0)
if err != nil {
return err
}
ddReq := internalpb.DropPartitionRequest{
Base: t.Req.Base,
DbName: t.Req.DbName,
CollectionName: t.Req.CollectionName,
PartitionName: t.Req.PartitionName,
DbID: 0, //todo,not used
CollectionID: collInfo.ID,
PartitionID: partID,
}
reason := fmt.Sprintf("drop partition %s", t.Req.PartitionName)
ts, err := t.core.TSOAllocator(1)
if err != nil {
return fmt.Errorf("TSO alloc fail, error = %w", err)
}
// build DdOperation and save it into etcd, when ddmsg send fail,
// system can restore ddmsg from etcd and re-send
ddReq.Base.Timestamp = ts
ddOpStr, err := EncodeDdOperation(&ddReq, DropPartitionDDType)
if err != nil {
return fmt.Errorf("encodeDdOperation fail, error = %w", err)
}
// use lambda function here to guarantee all resources to be released
dropPartitionFn := func() error {
// lock for ddl operation
t.core.ddlLock.Lock()
defer t.core.ddlLock.Unlock()
t.core.chanTimeTick.addDdlTimeTick(ts, reason)
// clear ddl timetick in all conditions
defer t.core.chanTimeTick.removeDdlTimeTick(ts, reason)
if err = t.core.SendDdDropPartitionReq(ctx, &ddReq, collInfo.PhysicalChannelNames); err != nil {
return err
}
// update meta table after send dd operation
if _, err = t.core.MetaTable.DeletePartition(collInfo.ID, t.Req.PartitionName, ts, ddOpStr); err != nil {
return err
}
// use addDdlTimeTick and removeDdlTimeTick to mark DDL operation in process
t.core.chanTimeTick.removeDdlTimeTick(ts, reason)
t.core.SendTimeTick(ts, reason)
return nil
}
if err = dropPartitionFn(); err != nil {
return err
}
t.core.ExpireMetaCache(ctx, []string{t.Req.CollectionName}, ts)
//notify query service to release partition
// TODO::xige-16, reOpen when queryCoord support release partitions after load collection
//if err = t.core.CallReleasePartitionService(t.core.ctx, ts, 0, collInfo.ID, []typeutil.UniqueID{partID}); err != nil {
// log.Error("Failed to CallReleaseCollectionService", zap.Error(err))
// return err
//}
// Update DDOperation in etcd
return t.core.setDdMsgSendFlag(true)
}
// HasPartitionReqTask has partition request task
type HasPartitionReqTask struct {
baseReqTask
Req *milvuspb.HasPartitionRequest
HasPartition bool
}
// Type return msg type
func (t *HasPartitionReqTask) Type() commonpb.MsgType {
return t.Req.Base.MsgType
}
// Execute task execution
func (t *HasPartitionReqTask) Execute(ctx context.Context) error {
if t.Type() != commonpb.MsgType_HasPartition {
return fmt.Errorf("has partition, msg type = %s", commonpb.MsgType_name[int32(t.Type())])
}
coll, err := t.core.MetaTable.GetCollectionByName(t.Req.CollectionName, 0)
if err != nil {
return err
}
t.HasPartition = t.core.MetaTable.HasPartition(coll.ID, t.Req.PartitionName, 0)
return nil
}
// ShowPartitionReqTask show partition request task
type ShowPartitionReqTask struct {
baseReqTask
Req *milvuspb.ShowPartitionsRequest
Rsp *milvuspb.ShowPartitionsResponse
}
// Type return msg type
func (t *ShowPartitionReqTask) Type() commonpb.MsgType {
return t.Req.Base.MsgType
}
// Execute task execution
func (t *ShowPartitionReqTask) Execute(ctx context.Context) error {
if t.Type() != commonpb.MsgType_ShowPartitions {
return fmt.Errorf("show partition, msg type = %s", commonpb.MsgType_name[int32(t.Type())])
}
var coll *etcdpb.CollectionInfo
var err error
if t.Req.CollectionName == "" {
coll, err = t.core.MetaTable.GetCollectionByID(t.Req.CollectionID, 0)
} else {
coll, err = t.core.MetaTable.GetCollectionByName(t.Req.CollectionName, 0)
}
if err != nil {
return err
}
t.Rsp.PartitionIDs = coll.PartitionIDs
t.Rsp.PartitionNames = coll.PartitionNames
t.Rsp.CreatedTimestamps = coll.PartitionCreatedTimestamps
t.Rsp.CreatedUtcTimestamps = make([]uint64, 0, len(coll.PartitionCreatedTimestamps))
for _, ts := range coll.PartitionCreatedTimestamps {
physical, _ := tsoutil.ParseHybridTs(ts)
t.Rsp.CreatedUtcTimestamps = append(t.Rsp.CreatedUtcTimestamps, uint64(physical))
}
return nil
}
// DescribeSegmentReqTask describe segment request task
type DescribeSegmentReqTask struct {
baseReqTask
Req *milvuspb.DescribeSegmentRequest
Rsp *milvuspb.DescribeSegmentResponse //TODO,return repeated segment id in the future
}
// Type return msg type
func (t *DescribeSegmentReqTask) Type() commonpb.MsgType {
return t.Req.Base.MsgType
}
// Execute task execution
func (t *DescribeSegmentReqTask) Execute(ctx context.Context) error {
if t.Type() != commonpb.MsgType_DescribeSegment {
return fmt.Errorf("describe segment, msg type = %s", commonpb.MsgType_name[int32(t.Type())])
}
coll, err := t.core.MetaTable.GetCollectionByID(t.Req.CollectionID, 0)
if err != nil {
return err
}
exist := false
segIDs, err := t.core.CallGetFlushedSegmentsService(ctx, t.Req.CollectionID, -1)
if err != nil {
log.Debug("Get flushed segment from data coord failed", zap.String("collection_name", coll.Schema.Name), zap.Error(err))
exist = true
} else {
for _, id := range segIDs {
if id == t.Req.SegmentID {
exist = true
break
}
}
}
if !exist {
return fmt.Errorf("segment id %d not belong to collection id %d", t.Req.SegmentID, t.Req.CollectionID)
}
//TODO, get filed_id and index_name from request
segIdxInfo, err := t.core.MetaTable.GetSegmentIndexInfoByID(t.Req.SegmentID, -1, "")
log.Debug("RootCoord DescribeSegmentReqTask, MetaTable.GetSegmentIndexInfoByID", zap.Any("SegmentID", t.Req.SegmentID),
zap.Any("segIdxInfo", segIdxInfo), zap.Error(err))
if err != nil {
return err
}
t.Rsp.IndexID = segIdxInfo.IndexID
t.Rsp.BuildID = segIdxInfo.BuildID
t.Rsp.EnableIndex = segIdxInfo.EnableIndex
t.Rsp.FieldID = segIdxInfo.FieldID
return nil
}
// ShowSegmentReqTask show segment request task
type ShowSegmentReqTask struct {
baseReqTask
Req *milvuspb.ShowSegmentsRequest
Rsp *milvuspb.ShowSegmentsResponse
}
// Type return msg type
func (t *ShowSegmentReqTask) Type() commonpb.MsgType {
return t.Req.Base.MsgType
}
// Execute task execution
func (t *ShowSegmentReqTask) Execute(ctx context.Context) error {
if t.Type() != commonpb.MsgType_ShowSegments {
return fmt.Errorf("show segments, msg type = %s", commonpb.MsgType_name[int32(t.Type())])
}
coll, err := t.core.MetaTable.GetCollectionByID(t.Req.CollectionID, 0)
if err != nil {
return err
}
exist := false
for _, partID := range coll.PartitionIDs {
if partID == t.Req.PartitionID {
exist = true
break
}
}
if !exist {
return fmt.Errorf("partition id = %d not belong to collection id = %d", t.Req.PartitionID, t.Req.CollectionID)
}
segIDs, err := t.core.CallGetFlushedSegmentsService(ctx, t.Req.CollectionID, t.Req.PartitionID)
if err != nil {
log.Debug("Get flushed segments from data coord failed", zap.String("collection name", coll.Schema.Name), zap.Int64("partition id", t.Req.PartitionID), zap.Error(err))
return err
}
t.Rsp.SegmentIDs = append(t.Rsp.SegmentIDs, segIDs...)
return nil
}
// CreateIndexReqTask create index request task
type CreateIndexReqTask struct {
baseReqTask
Req *milvuspb.CreateIndexRequest
}
// Type return msg type
func (t *CreateIndexReqTask) Type() commonpb.MsgType {
return t.Req.Base.MsgType
}
// Execute task execution
func (t *CreateIndexReqTask) Execute(ctx context.Context) error {
if t.Type() != commonpb.MsgType_CreateIndex {
return fmt.Errorf("create index, msg type = %s", commonpb.MsgType_name[int32(t.Type())])
}
indexName := Params.RootCoordCfg.DefaultIndexName //TODO, get name from request
indexID, _, err := t.core.IDAllocator(1)
log.Debug("RootCoord CreateIndexReqTask", zap.Any("indexID", indexID), zap.Error(err))
if err != nil {
return err
}
idxInfo := &etcdpb.IndexInfo{
IndexName: indexName,
IndexID: indexID,
IndexParams: t.Req.ExtraParams,
}
collMeta, err := t.core.MetaTable.GetCollectionByName(t.Req.CollectionName, 0)
if err != nil {
return err
}
segID2PartID, err := t.core.getSegments(ctx, collMeta.ID)
flushedSegs := make([]typeutil.UniqueID, 0, len(segID2PartID))
for k := range segID2PartID {
flushedSegs = append(flushedSegs, k)
}
if err != nil {
log.Debug("Get flushed segments from data coord failed", zap.String("collection_name", collMeta.Schema.Name), zap.Error(err))
return err
}
segIDs, field, err := t.core.MetaTable.GetNotIndexedSegments(t.Req.CollectionName, t.Req.FieldName, idxInfo, flushedSegs)
if err != nil {
log.Debug("RootCoord CreateIndexReqTask metaTable.GetNotIndexedSegments", zap.Error(err))
return err
}
if field.DataType != schemapb.DataType_FloatVector && field.DataType != schemapb.DataType_BinaryVector {
return fmt.Errorf("field name = %s, data type = %s", t.Req.FieldName, schemapb.DataType_name[int32(field.DataType)])
}
for _, segID := range segIDs {
info := etcdpb.SegmentIndexInfo{
CollectionID: collMeta.ID,
PartitionID: segID2PartID[segID],
SegmentID: segID,
FieldID: field.FieldID,
IndexID: idxInfo.IndexID,
EnableIndex: false,
}
info.BuildID, err = t.core.BuildIndex(ctx, segID, &field, idxInfo, false)
if err != nil {
return err
}
if info.BuildID != 0 {
info.EnableIndex = true
}
if err := t.core.MetaTable.AddIndex(&info); err != nil {
log.Debug("Add index into meta table failed", zap.Int64("collection_id", collMeta.ID), zap.Int64("index_id", info.IndexID), zap.Int64("build_id", info.BuildID), zap.Error(err))
}
}
return nil
}
// DescribeIndexReqTask describe index request task
type DescribeIndexReqTask struct {
baseReqTask
Req *milvuspb.DescribeIndexRequest
Rsp *milvuspb.DescribeIndexResponse
}
// Type return msg type
func (t *DescribeIndexReqTask) Type() commonpb.MsgType {
return t.Req.Base.MsgType
}
// Execute task execution
func (t *DescribeIndexReqTask) Execute(ctx context.Context) error {
if t.Type() != commonpb.MsgType_DescribeIndex {
return fmt.Errorf("describe index, msg type = %s", commonpb.MsgType_name[int32(t.Type())])
}
coll, idx, err := t.core.MetaTable.GetIndexByName(t.Req.CollectionName, t.Req.IndexName)
if err != nil {
return err
}
for _, i := range idx {
f, err := GetFieldSchemaByIndexID(&coll, typeutil.UniqueID(i.IndexID))
if err != nil {
log.Warn("Get field schema by index id failed", zap.String("collection name", t.Req.CollectionName), zap.String("index name", t.Req.IndexName), zap.Error(err))
continue
}
desc := &milvuspb.IndexDescription{
IndexName: i.IndexName,
Params: i.IndexParams,
IndexID: i.IndexID,
FieldName: f.Name,
}
t.Rsp.IndexDescriptions = append(t.Rsp.IndexDescriptions, desc)
}
return nil
}
// DropIndexReqTask drop index request task
type DropIndexReqTask struct {
baseReqTask
Req *milvuspb.DropIndexRequest
}
// Type return msg type
func (t *DropIndexReqTask) Type() commonpb.MsgType {
return t.Req.Base.MsgType
}
// Execute task execution
func (t *DropIndexReqTask) Execute(ctx context.Context) error {
if t.Type() != commonpb.MsgType_DropIndex {
return fmt.Errorf("drop index, msg type = %s", commonpb.MsgType_name[int32(t.Type())])
}
if err := t.core.RemoveIndex(ctx, t.Req.CollectionName, t.Req.IndexName); err != nil {
return err
}
_, _, err := t.core.MetaTable.DropIndex(t.Req.CollectionName, t.Req.FieldName, t.Req.IndexName)
return err
}
// CreateAliasReqTask create alias request task
type CreateAliasReqTask struct {
baseReqTask
Req *milvuspb.CreateAliasRequest
}
// Type return msg type
func (t *CreateAliasReqTask) Type() commonpb.MsgType {
return t.Req.Base.MsgType
}
// Execute task execution
func (t *CreateAliasReqTask) Execute(ctx context.Context) error {
if t.Type() != commonpb.MsgType_CreateAlias {
return fmt.Errorf("create alias, msg type = %s", commonpb.MsgType_name[int32(t.Type())])
}
ts, err := t.core.TSOAllocator(1)
if err != nil {
return fmt.Errorf("TSO alloc fail, error = %w", err)
}
err = t.core.MetaTable.AddAlias(t.Req.Alias, t.Req.CollectionName, ts)
if err != nil {
return fmt.Errorf("meta table add alias failed, error = %w", err)
}
return nil
}
// DropAliasReqTask drop alias request task
type DropAliasReqTask struct {
baseReqTask
Req *milvuspb.DropAliasRequest
}
// Type return msg type
func (t *DropAliasReqTask) Type() commonpb.MsgType {
return t.Req.Base.MsgType
}
// Execute task execution
func (t *DropAliasReqTask) Execute(ctx context.Context) error {
if t.Type() != commonpb.MsgType_DropAlias {
return fmt.Errorf("create alias, msg type = %s", commonpb.MsgType_name[int32(t.Type())])
}
ts, err := t.core.TSOAllocator(1)
if err != nil {
return fmt.Errorf("TSO alloc fail, error = %w", err)
}
err = t.core.MetaTable.DropAlias(t.Req.Alias, ts)
if err != nil {
return fmt.Errorf("meta table drop alias failed, error = %w", err)
}
t.core.ExpireMetaCache(ctx, []string{t.Req.Alias}, ts)
return nil
}
// AlterAliasReqTask alter alias request task
type AlterAliasReqTask struct {
baseReqTask
Req *milvuspb.AlterAliasRequest
}
// Type return msg type
func (t *AlterAliasReqTask) Type() commonpb.MsgType {
return t.Req.Base.MsgType
}
// Execute task execution
func (t *AlterAliasReqTask) Execute(ctx context.Context) error {
if t.Type() != commonpb.MsgType_AlterAlias {
return fmt.Errorf("alter alias, msg type = %s", commonpb.MsgType_name[int32(t.Type())])
}
ts, err := t.core.TSOAllocator(1)
if err != nil {
return fmt.Errorf("TSO alloc fail, error = %w", err)
}
err = t.core.MetaTable.AlterAlias(t.Req.Alias, t.Req.CollectionName, ts)
if err != nil {
return fmt.Errorf("meta table alter alias failed, error = %w", err)
}
t.core.ExpireMetaCache(ctx, []string{t.Req.Alias}, ts)
return nil
}