milvus/internal/rootcoord/step.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"
"time"
"github.com/milvus-io/milvus-proto/go-api/v2/commonpb"
"github.com/milvus-io/milvus-proto/go-api/v2/milvuspb"
"github.com/milvus-io/milvus-proto/go-api/v2/msgpb"
"github.com/milvus-io/milvus/internal/distributed/streaming"
"github.com/milvus-io/milvus/internal/metastore/model"
pb "github.com/milvus-io/milvus/internal/proto/etcdpb"
"github.com/milvus-io/milvus/internal/util/proxyutil"
"github.com/milvus-io/milvus/pkg/streaming/util/message"
"github.com/milvus-io/milvus/pkg/util/commonpbutil"
)
type stepPriority int
const (
stepPriorityLow = 0
stepPriorityNormal = 1
stepPriorityImportant = 10
stepPriorityUrgent = 1000
)
type nestedStep interface {
Execute(ctx context.Context) ([]nestedStep, error)
Desc() string
Weight() stepPriority
}
type baseStep struct {
core *Core
}
func (s baseStep) Desc() string {
return ""
}
func (s baseStep) Weight() stepPriority {
return stepPriorityLow
}
type addCollectionMetaStep struct {
baseStep
coll *model.Collection
}
func (s *addCollectionMetaStep) Execute(ctx context.Context) ([]nestedStep, error) {
err := s.core.meta.AddCollection(ctx, s.coll)
return nil, err
}
func (s *addCollectionMetaStep) Desc() string {
return fmt.Sprintf("add collection to meta table, name: %s, id: %d, ts: %d", s.coll.Name, s.coll.CollectionID, s.coll.CreateTime)
}
type deleteCollectionMetaStep struct {
baseStep
collectionID UniqueID
ts Timestamp
}
func (s *deleteCollectionMetaStep) Execute(ctx context.Context) ([]nestedStep, error) {
err := s.core.meta.RemoveCollection(ctx, s.collectionID, s.ts)
return nil, err
}
func (s *deleteCollectionMetaStep) Desc() string {
return fmt.Sprintf("delete collection from meta table, id: %d, ts: %d", s.collectionID, s.ts)
}
func (s *deleteCollectionMetaStep) Weight() stepPriority {
return stepPriorityNormal
}
type deleteDatabaseMetaStep struct {
baseStep
databaseName string
ts Timestamp
}
func (s *deleteDatabaseMetaStep) Execute(ctx context.Context) ([]nestedStep, error) {
err := s.core.meta.DropDatabase(ctx, s.databaseName, s.ts)
return nil, err
}
func (s *deleteDatabaseMetaStep) Desc() string {
return fmt.Sprintf("delete database from meta table, name: %s, ts: %d", s.databaseName, s.ts)
}
type removeDmlChannelsStep struct {
baseStep
pChannels []string
}
func (s *removeDmlChannelsStep) Execute(ctx context.Context) ([]nestedStep, error) {
s.core.chanTimeTick.removeDmlChannels(s.pChannels...)
return nil, nil
}
func (s *removeDmlChannelsStep) Desc() string {
// this shouldn't be called.
return fmt.Sprintf("remove dml channels: %v", s.pChannels)
}
func (s *removeDmlChannelsStep) Weight() stepPriority {
// avoid too frequent tt.
return stepPriorityUrgent
}
type watchChannelsStep struct {
baseStep
info *watchInfo
}
func (s *watchChannelsStep) Execute(ctx context.Context) ([]nestedStep, error) {
err := s.core.broker.WatchChannels(ctx, s.info)
return nil, err
}
func (s *watchChannelsStep) Desc() string {
return fmt.Sprintf("watch channels, ts: %d, collection: %d, partition: %d, vChannels: %v",
s.info.ts, s.info.collectionID, s.info.partitionID, s.info.vChannels)
}
type unwatchChannelsStep struct {
baseStep
collectionID UniqueID
channels collectionChannels
isSkip bool
}
func (s *unwatchChannelsStep) Execute(ctx context.Context) ([]nestedStep, error) {
unwatchByDropMsg := &deleteCollectionDataStep{
baseStep: baseStep{core: s.core},
coll: &model.Collection{CollectionID: s.collectionID, PhysicalChannelNames: s.channels.physicalChannels},
isSkip: s.isSkip,
}
return unwatchByDropMsg.Execute(ctx)
}
func (s *unwatchChannelsStep) Desc() string {
return fmt.Sprintf("unwatch channels, collection: %d, pChannels: %v, vChannels: %v",
s.collectionID, s.channels.physicalChannels, s.channels.virtualChannels)
}
func (s *unwatchChannelsStep) Weight() stepPriority {
return stepPriorityNormal
}
type changeCollectionStateStep struct {
baseStep
collectionID UniqueID
state pb.CollectionState
ts Timestamp
}
func (s *changeCollectionStateStep) Execute(ctx context.Context) ([]nestedStep, error) {
err := s.core.meta.ChangeCollectionState(ctx, s.collectionID, s.state, s.ts)
return nil, err
}
func (s *changeCollectionStateStep) Desc() string {
return fmt.Sprintf("change collection state, collection: %d, ts: %d, state: %s",
s.collectionID, s.ts, s.state.String())
}
type expireCacheStep struct {
baseStep
dbName string
collectionNames []string
collectionID UniqueID
partitionName string
ts Timestamp
opts []proxyutil.ExpireCacheOpt
}
func (s *expireCacheStep) Execute(ctx context.Context) ([]nestedStep, error) {
err := s.core.ExpireMetaCache(ctx, s.dbName, s.collectionNames, s.collectionID, s.partitionName, s.ts, s.opts...)
return nil, err
}
func (s *expireCacheStep) Desc() string {
return fmt.Sprintf("expire cache, collection id: %d, collection names: %s, ts: %d",
s.collectionID, s.collectionNames, s.ts)
}
type deleteCollectionDataStep struct {
baseStep
coll *model.Collection
isSkip bool
}
func (s *deleteCollectionDataStep) Execute(ctx context.Context) ([]nestedStep, error) {
if s.isSkip {
return nil, nil
}
ddlTs, err := s.core.garbageCollector.GcCollectionData(ctx, s.coll)
if err != nil {
return nil, err
}
// wait for ts synced.
children := make([]nestedStep, 0, len(s.coll.PhysicalChannelNames))
for _, channel := range s.coll.PhysicalChannelNames {
children = append(children, &waitForTsSyncedStep{
baseStep: baseStep{core: s.core},
ts: ddlTs,
channel: channel,
})
}
return children, nil
}
func (s *deleteCollectionDataStep) Desc() string {
return fmt.Sprintf("delete collection data, collection: %d", s.coll.CollectionID)
}
func (s *deleteCollectionDataStep) Weight() stepPriority {
return stepPriorityImportant
}
// waitForTsSyncedStep child step of deleteCollectionDataStep.
type waitForTsSyncedStep struct {
baseStep
ts Timestamp
channel string
}
func (s *waitForTsSyncedStep) Execute(ctx context.Context) ([]nestedStep, error) {
syncedTs := s.core.chanTimeTick.getSyncedTimeTick(s.channel)
if syncedTs < s.ts {
// TODO: there may be frequent log here.
// time.Sleep(Params.ProxyCfg.TimeTickInterval)
return nil, fmt.Errorf("ts not synced yet, channel: %s, synced: %d, want: %d", s.channel, syncedTs, s.ts)
}
return nil, nil
}
func (s *waitForTsSyncedStep) Desc() string {
return fmt.Sprintf("wait for ts synced, channel: %s, want: %d", s.channel, s.ts)
}
func (s *waitForTsSyncedStep) Weight() stepPriority {
return stepPriorityNormal
}
type deletePartitionDataStep struct {
baseStep
pchans []string
vchans []string
partition *model.Partition
isSkip bool
}
func (s *deletePartitionDataStep) Execute(ctx context.Context) ([]nestedStep, error) {
if s.isSkip {
return nil, nil
}
_, err := s.core.garbageCollector.GcPartitionData(ctx, s.pchans, s.vchans, s.partition)
return nil, err
}
func (s *deletePartitionDataStep) Desc() string {
return fmt.Sprintf("delete partition data, collection: %d, partition: %d", s.partition.CollectionID, s.partition.PartitionID)
}
func (s *deletePartitionDataStep) Weight() stepPriority {
return stepPriorityImportant
}
type releaseCollectionStep struct {
baseStep
collectionID UniqueID
}
func (s *releaseCollectionStep) Execute(ctx context.Context) ([]nestedStep, error) {
err := s.core.broker.ReleaseCollection(ctx, s.collectionID)
return nil, err
}
func (s *releaseCollectionStep) Desc() string {
return fmt.Sprintf("release collection: %d", s.collectionID)
}
func (s *releaseCollectionStep) Weight() stepPriority {
return stepPriorityUrgent
}
type releasePartitionsStep struct {
baseStep
collectionID UniqueID
partitionIDs []UniqueID
}
func (s *releasePartitionsStep) Execute(ctx context.Context) ([]nestedStep, error) {
err := s.core.broker.ReleasePartitions(ctx, s.collectionID, s.partitionIDs...)
return nil, err
}
func (s *releasePartitionsStep) Desc() string {
return fmt.Sprintf("release partitions, collectionID=%d, partitionIDs=%v", s.collectionID, s.partitionIDs)
}
func (s *releasePartitionsStep) Weight() stepPriority {
return stepPriorityUrgent
}
type syncNewCreatedPartitionStep struct {
baseStep
collectionID UniqueID
partitionID UniqueID
}
func (s *syncNewCreatedPartitionStep) Execute(ctx context.Context) ([]nestedStep, error) {
err := s.core.broker.SyncNewCreatedPartition(ctx, s.collectionID, s.partitionID)
return nil, err
}
func (s *syncNewCreatedPartitionStep) Desc() string {
return fmt.Sprintf("sync new partition, collectionID=%d, partitionID=%d", s.partitionID, s.partitionID)
}
func (s *syncNewCreatedPartitionStep) Weight() stepPriority {
return stepPriorityUrgent
}
type dropIndexStep struct {
baseStep
collID UniqueID
partIDs []UniqueID
}
func (s *dropIndexStep) Execute(ctx context.Context) ([]nestedStep, error) {
err := s.core.broker.DropCollectionIndex(ctx, s.collID, s.partIDs)
return nil, err
}
func (s *dropIndexStep) Desc() string {
return fmt.Sprintf("drop collection index: %d", s.collID)
}
func (s *dropIndexStep) Weight() stepPriority {
return stepPriorityNormal
}
type addPartitionMetaStep struct {
baseStep
partition *model.Partition
}
func (s *addPartitionMetaStep) Execute(ctx context.Context) ([]nestedStep, error) {
err := s.core.meta.AddPartition(ctx, s.partition)
return nil, err
}
func (s *addPartitionMetaStep) Desc() string {
return fmt.Sprintf("add partition to meta table, collection: %d, partition: %d", s.partition.CollectionID, s.partition.PartitionID)
}
type broadcastCreatePartitionMsgStep struct {
baseStep
vchannels []string
partition *model.Partition
}
func (s *broadcastCreatePartitionMsgStep) Execute(ctx context.Context) ([]nestedStep, error) {
req := &msgpb.CreatePartitionRequest{
Base: commonpbutil.NewMsgBase(
commonpbutil.WithMsgType(commonpb.MsgType_CreatePartition),
commonpbutil.WithTimeStamp(0), // ts is given by streamingnode.
),
PartitionName: s.partition.PartitionName,
CollectionID: s.partition.CollectionID,
PartitionID: s.partition.PartitionID,
}
msgs := make([]message.MutableMessage, 0, len(s.vchannels))
for _, vchannel := range s.vchannels {
msg, err := message.NewCreatePartitionMessageBuilderV1().
WithVChannel(vchannel).
WithHeader(&message.CreatePartitionMessageHeader{
CollectionId: s.partition.CollectionID,
PartitionId: s.partition.PartitionID,
}).
WithBody(req).
BuildMutable()
if err != nil {
return nil, err
}
msgs = append(msgs, msg)
}
resp := streaming.WAL().Append(ctx, msgs...)
if err := resp.IsAnyError(); err != nil {
return nil, err
}
return nil, nil
}
func (s *broadcastCreatePartitionMsgStep) Desc() string {
return fmt.Sprintf("broadcast create partition message to mq, collection: %d, partition: %d", s.partition.CollectionID, s.partition.PartitionID)
}
type changePartitionStateStep struct {
baseStep
collectionID UniqueID
partitionID UniqueID
state pb.PartitionState
ts Timestamp
}
func (s *changePartitionStateStep) Execute(ctx context.Context) ([]nestedStep, error) {
err := s.core.meta.ChangePartitionState(ctx, s.collectionID, s.partitionID, s.state, s.ts)
return nil, err
}
func (s *changePartitionStateStep) Desc() string {
return fmt.Sprintf("change partition step, collection: %d, partition: %d, state: %s, ts: %d",
s.collectionID, s.partitionID, s.state.String(), s.ts)
}
type removePartitionMetaStep struct {
baseStep
dbID UniqueID
collectionID UniqueID
partitionID UniqueID
ts Timestamp
}
func (s *removePartitionMetaStep) Execute(ctx context.Context) ([]nestedStep, error) {
err := s.core.meta.RemovePartition(ctx, s.dbID, s.collectionID, s.partitionID, s.ts)
return nil, err
}
func (s *removePartitionMetaStep) Desc() string {
return fmt.Sprintf("remove partition meta, collection: %d, partition: %d, ts: %d", s.collectionID, s.partitionID, s.ts)
}
func (s *removePartitionMetaStep) Weight() stepPriority {
return stepPriorityNormal
}
type nullStep struct{}
func (s *nullStep) Execute(ctx context.Context) ([]nestedStep, error) {
return nil, nil
}
func (s *nullStep) Desc() string {
return ""
}
func (s *nullStep) Weight() stepPriority {
return stepPriorityLow
}
type AlterCollectionStep struct {
baseStep
oldColl *model.Collection
newColl *model.Collection
ts Timestamp
}
func (a *AlterCollectionStep) Execute(ctx context.Context) ([]nestedStep, error) {
err := a.core.meta.AlterCollection(ctx, a.oldColl, a.newColl, a.ts)
return nil, err
}
func (a *AlterCollectionStep) Desc() string {
return fmt.Sprintf("alter collection, collectionID: %d, ts: %d", a.oldColl.CollectionID, a.ts)
}
type BroadcastAlteredCollectionStep struct {
baseStep
req *milvuspb.AlterCollectionRequest
core *Core
}
func (b *BroadcastAlteredCollectionStep) Execute(ctx context.Context) ([]nestedStep, error) {
// TODO: support online schema change mechanism
// It only broadcast collection properties to DataCoord service
err := b.core.broker.BroadcastAlteredCollection(ctx, b.req)
return nil, err
}
func (b *BroadcastAlteredCollectionStep) Desc() string {
return fmt.Sprintf("broadcast altered collection, collectionID: %d", b.req.CollectionID)
}
type AlterDatabaseStep struct {
baseStep
oldDB *model.Database
newDB *model.Database
ts Timestamp
}
func (a *AlterDatabaseStep) Execute(ctx context.Context) ([]nestedStep, error) {
err := a.core.meta.AlterDatabase(ctx, a.oldDB, a.newDB, a.ts)
return nil, err
}
func (a *AlterDatabaseStep) Desc() string {
return fmt.Sprintf("alter database, databaseID: %d, databaseName: %s, ts: %d", a.oldDB.ID, a.oldDB.Name, a.ts)
}
var (
confirmGCInterval = time.Minute * 20
allPartition UniqueID = -1
)
type confirmGCStep struct {
baseStep
collectionID UniqueID
partitionID UniqueID
lastScheduledTime time.Time
}
func newConfirmGCStep(core *Core, collectionID, partitionID UniqueID) *confirmGCStep {
return &confirmGCStep{
baseStep: baseStep{core: core},
collectionID: collectionID,
partitionID: partitionID,
lastScheduledTime: time.Now(),
}
}
func (b *confirmGCStep) Execute(ctx context.Context) ([]nestedStep, error) {
if time.Since(b.lastScheduledTime) < confirmGCInterval {
return nil, fmt.Errorf("wait for reschedule to confirm GC, collection: %d, partition: %d, last scheduled time: %s, now: %s",
b.collectionID, b.partitionID, b.lastScheduledTime.String(), time.Now().String())
}
finished := b.core.broker.GcConfirm(ctx, b.collectionID, b.partitionID)
if finished {
return nil, nil
}
b.lastScheduledTime = time.Now()
return nil, fmt.Errorf("GC is not finished, collection: %d, partition: %d, last scheduled time: %s, now: %s",
b.collectionID, b.partitionID, b.lastScheduledTime.String(), time.Now().String())
}
func (b *confirmGCStep) Desc() string {
return fmt.Sprintf("wait for GC finished, collection: %d, partition: %d, last scheduled time: %s, now: %s",
b.collectionID, b.partitionID, b.lastScheduledTime.String(), time.Now().String())
}
func (b *confirmGCStep) Weight() stepPriority {
return stepPriorityLow
}
type simpleStep struct {
desc string
weight stepPriority
executeFunc func(ctx context.Context) ([]nestedStep, error)
}
func NewSimpleStep(desc string, executeFunc func(ctx context.Context) ([]nestedStep, error)) nestedStep {
return &simpleStep{
desc: desc,
weight: stepPriorityNormal,
executeFunc: executeFunc,
}
}
func (s *simpleStep) Execute(ctx context.Context) ([]nestedStep, error) {
return s.executeFunc(ctx)
}
func (s *simpleStep) Desc() string {
return s.desc
}
func (s *simpleStep) Weight() stepPriority {
return s.weight
}