milvus/internal/datacoord/handler.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 datacoord
import (
"context"
"github.com/milvus-io/milvus/api/commonpb"
"github.com/milvus-io/milvus/internal/log"
"github.com/milvus-io/milvus/internal/proto/datapb"
"github.com/milvus-io/milvus/internal/proto/internalpb"
"github.com/milvus-io/milvus/internal/util/funcutil"
"github.com/milvus-io/milvus/internal/util/typeutil"
"go.uber.org/zap"
)
// Handler handles some channel method for ChannelManager
type Handler interface {
// GetQueryVChanPositions gets the information recovery needed of a channel for QueryCoord
GetQueryVChanPositions(channel *channel, partitionID UniqueID) *datapb.VchannelInfo
// GetDataVChanPositions gets the information recovery needed of a channel for DataNode
GetDataVChanPositions(channel *channel, partitionID UniqueID) *datapb.VchannelInfo
CheckShouldDropChannel(channel string) bool
FinishDropChannel(channel string)
}
// ServerHandler is a helper of Server
type ServerHandler struct {
s *Server
}
// newServerHandler creates a new ServerHandler
func newServerHandler(s *Server) *ServerHandler {
return &ServerHandler{s: s}
}
// GetDataVChanPositions gets vchannel latest postitions with provided dml channel names for DataNode.
func (h *ServerHandler) GetDataVChanPositions(channel *channel, partitionID UniqueID) *datapb.VchannelInfo {
segments := h.s.meta.SelectSegments(func(s *SegmentInfo) bool {
return s.InsertChannel == channel.Name
})
log.Info("GetDataVChanPositions",
zap.Int64("collectionID", channel.CollectionID),
zap.String("channel", channel.Name),
zap.Int("numOfSegments", len(segments)),
)
var (
flushedIDs = make(typeutil.UniqueSet)
unflushedIDs = make(typeutil.UniqueSet)
droppedIDs = make(typeutil.UniqueSet)
seekPosition *internalpb.MsgPosition
)
for _, s := range segments {
if (partitionID > allPartitionID && s.PartitionID != partitionID) ||
(s.GetStartPosition() == nil && s.GetDmlPosition() == nil) {
continue
}
if s.GetIsImporting() {
// Skip bulk load segments.
continue
}
if s.GetState() == commonpb.SegmentState_Dropped {
droppedIDs.Insert(s.GetID())
continue
} else if s.GetState() == commonpb.SegmentState_Flushing || s.GetState() == commonpb.SegmentState_Flushed {
flushedIDs.Insert(s.GetID())
} else {
unflushedIDs.Insert(s.GetID())
}
var segmentPosition *internalpb.MsgPosition
if s.GetDmlPosition() != nil {
segmentPosition = s.GetDmlPosition()
} else {
segmentPosition = s.GetStartPosition()
}
if seekPosition == nil || segmentPosition.Timestamp < seekPosition.Timestamp {
seekPosition = segmentPosition
}
}
// use collection start position when segment position is not found
if seekPosition == nil {
if channel.StartPositions == nil {
collection := h.GetCollection(h.s.ctx, channel.CollectionID)
if collection != nil {
seekPosition = getCollectionStartPosition(channel.Name, collection)
}
} else {
// use passed start positions, skip to ask rootcoord.
seekPosition = toMsgPosition(channel.Name, channel.StartPositions)
}
}
return &datapb.VchannelInfo{
CollectionID: channel.CollectionID,
ChannelName: channel.Name,
SeekPosition: seekPosition,
FlushedSegmentIds: flushedIDs.Collect(),
UnflushedSegmentIds: unflushedIDs.Collect(),
DroppedSegmentIds: droppedIDs.Collect(),
}
}
// GetQueryVChanPositions gets vchannel latest postitions with provided dml channel names for QueryCoord,
// we expect QueryCoord gets the indexed segments to load, so the flushed segments below are actually the indexed segments,
// the unflushed segments are actually the segments without index, even they are flushed.
func (h *ServerHandler) GetQueryVChanPositions(channel *channel, partitionID UniqueID) *datapb.VchannelInfo {
// cannot use GetSegmentsByChannel since dropped segments are needed here
segments := h.s.meta.SelectSegments(func(s *SegmentInfo) bool {
return s.InsertChannel == channel.Name
})
segmentInfos := make(map[int64]*SegmentInfo)
indexedSegments := FilterInIndexedSegments(h.s.meta, h.s.indexCoord, segments...)
indexed := make(typeutil.UniqueSet)
for _, segment := range indexedSegments {
indexed.Insert(segment.GetID())
}
log.Info("GetQueryVChanPositions",
zap.Int64("collectionID", channel.CollectionID),
zap.String("channel", channel.Name),
zap.Int("numOfSegments", len(segments)),
)
var (
indexedIDs = make(typeutil.UniqueSet)
unIndexedIDs = make(typeutil.UniqueSet)
droppedIDs = make(typeutil.UniqueSet)
seekPosition *internalpb.MsgPosition
)
for _, s := range segments {
if (partitionID > allPartitionID && s.PartitionID != partitionID) ||
(s.GetStartPosition() == nil && s.GetDmlPosition() == nil) {
continue
}
if s.GetIsImporting() {
// Skip bulk load segments.
continue
}
segmentInfos[s.GetID()] = s
if s.GetState() == commonpb.SegmentState_Dropped {
droppedIDs.Insert(s.GetID())
} else if indexed.Contain(s.GetID()) {
indexedIDs.Insert(s.GetID())
} else {
unIndexedIDs.Insert(s.GetID())
}
}
for id := range unIndexedIDs {
// Indexed segments are compacted to a raw segment,
// replace it with the indexed ones
if len(segmentInfos[id].GetCompactionFrom()) > 0 &&
indexed.Contain(segmentInfos[id].GetCompactionFrom()...) {
unIndexedIDs.Remove(id)
indexedIDs.Insert(segmentInfos[id].GetCompactionFrom()...)
droppedIDs.Remove(segmentInfos[id].GetCompactionFrom()...)
}
}
for id := range indexedIDs {
var segmentPosition *internalpb.MsgPosition
segment := segmentInfos[id]
if segment.GetDmlPosition() != nil {
segmentPosition = segment.GetDmlPosition()
} else {
segmentPosition = segment.GetStartPosition()
}
if seekPosition == nil || segmentPosition.Timestamp < seekPosition.Timestamp {
seekPosition = segmentPosition
}
}
for id := range unIndexedIDs {
var segmentPosition *internalpb.MsgPosition
segment := segmentInfos[id]
if segment.GetDmlPosition() != nil {
segmentPosition = segment.GetDmlPosition()
} else {
segmentPosition = segment.GetStartPosition()
}
if seekPosition == nil || segmentPosition.Timestamp < seekPosition.Timestamp {
seekPosition = segmentPosition
}
}
// use collection start position when segment position is not found
if seekPosition == nil {
if channel.StartPositions == nil {
collection := h.GetCollection(h.s.ctx, channel.CollectionID)
if collection != nil {
seekPosition = getCollectionStartPosition(channel.Name, collection)
}
} else {
// use passed start positions, skip to ask rootcoord.
seekPosition = toMsgPosition(channel.Name, channel.StartPositions)
}
}
return &datapb.VchannelInfo{
CollectionID: channel.CollectionID,
ChannelName: channel.Name,
SeekPosition: seekPosition,
FlushedSegmentIds: indexedIDs.Collect(),
UnflushedSegmentIds: unIndexedIDs.Collect(),
DroppedSegmentIds: droppedIDs.Collect(),
}
}
func getCollectionStartPosition(channel string, collectionInfo *collectionInfo) *internalpb.MsgPosition {
return toMsgPosition(channel, collectionInfo.StartPositions)
}
func toMsgPosition(channel string, startPositions []*commonpb.KeyDataPair) *internalpb.MsgPosition {
for _, sp := range startPositions {
if sp.GetKey() != funcutil.ToPhysicalChannel(channel) {
continue
}
return &internalpb.MsgPosition{
ChannelName: channel,
MsgID: sp.GetData(),
}
}
return nil
}
// trimSegmentInfo returns a shallow copy of datapb.SegmentInfo and sets ALL binlog info to nil
func trimSegmentInfo(info *datapb.SegmentInfo) *datapb.SegmentInfo {
return &datapb.SegmentInfo{
ID: info.ID,
CollectionID: info.CollectionID,
PartitionID: info.PartitionID,
InsertChannel: info.InsertChannel,
NumOfRows: info.NumOfRows,
State: info.State,
MaxRowNum: info.MaxRowNum,
LastExpireTime: info.LastExpireTime,
StartPosition: info.StartPosition,
DmlPosition: info.DmlPosition,
}
}
// GetCollection returns collection info with specified collection id
func (h *ServerHandler) GetCollection(ctx context.Context, collectionID UniqueID) *collectionInfo {
coll := h.s.meta.GetCollection(collectionID)
if coll != nil {
return coll
}
err := h.s.loadCollectionFromRootCoord(ctx, collectionID)
if err != nil {
log.Warn("failed to load collection from rootcoord", zap.Int64("collectionID", collectionID), zap.Error(err))
}
return h.s.meta.GetCollection(collectionID)
}
// CheckShouldDropChannel returns whether specified channel is marked to be removed
func (h *ServerHandler) CheckShouldDropChannel(channel string) bool {
/*
segments := h.s.meta.GetSegmentsByChannel(channel)
for _, segment := range segments {
if segment.GetStartPosition() != nil && // filter empty segment
// FIXME: we filter compaction generated segments
// because datanode may not know the segment due to the network lag or
// datacoord crash when handling CompleteCompaction.
// FIXME: cancel this limitation for #12265
// need to change a unified DropAndFlush to solve the root problem
//len(segment.CompactionFrom) == 0 &&
segment.GetState() != commonpb.SegmentState_Dropped {
return false
}
}
return false*/
return h.s.meta.catalog.IsChannelDropped(h.s.ctx, channel)
}
// FinishDropChannel cleans up the remove flag for channels
// this function is a wrapper of server.meta.FinishDropChannel
func (h *ServerHandler) FinishDropChannel(channel string) {
h.s.meta.catalog.DropChannel(h.s.ctx, channel)
}