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rewrite_meta_rawkv.go
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/
rewrite_meta_rawkv.go
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// Copyright 2022-present PingCAP, Inc.
//
// Licensed 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 stream
import (
"context"
"encoding/json"
"fmt"
"github.com/pingcap/errors"
"github.com/pingcap/log"
"github.com/wuhuizuo/tidb6/kv"
"github.com/wuhuizuo/tidb6/meta"
"github.com/wuhuizuo/tidb6/parser/model"
filter "github.com/wuhuizuo/tidb6/util/table-filter"
"go.uber.org/zap"
)
// Default columnFamily and write columnFamily
const (
DefaultCF = "default"
WriteCF = "write"
)
// SchemasReplace specifies schemas information mapping old schemas to new schemas.
type OldID = int64
type NewID = int64
type TableReplace struct {
OldTableInfo *model.TableInfo
NewTableID NewID
PartitionMap map[OldID]NewID
IndexMap map[OldID]NewID
}
type DBReplace struct {
OldDBInfo *model.DBInfo
NewDBID NewID
TableMap map[OldID]*TableReplace
}
type SchemasReplace struct {
DbMap map[OldID]*DBReplace
globalTableIdMap map[OldID]NewID
RewriteTS uint64 // used to rewrite commit ts in meta kv.
TableFilter filter.Filter // used to filter schema/table
genGenGlobalID func(ctx context.Context) (int64, error)
genGenGlobalIDs func(ctx context.Context, n int) ([]int64, error)
insertDeleteRangeForTable func(jobID int64, tableIDs []int64)
insertDeleteRangeForIndex func(jobID int64, elementID *int64, tableID int64, indexIDs []int64)
AfterTableRewritten func(deleted bool, tableInfo *model.TableInfo)
}
// NewTableReplace creates a TableReplace struct.
func NewTableReplace(tableInfo *model.TableInfo, newID NewID) *TableReplace {
return &TableReplace{
OldTableInfo: tableInfo,
NewTableID: newID,
PartitionMap: make(map[OldID]NewID),
IndexMap: make(map[OldID]NewID),
}
}
// NewDBReplace creates a DBReplace struct.
func NewDBReplace(dbInfo *model.DBInfo, newID NewID) *DBReplace {
return &DBReplace{
OldDBInfo: dbInfo,
NewDBID: newID,
TableMap: make(map[OldID]*TableReplace),
}
}
// NewSchemasReplace creates a SchemasReplace struct.
func NewSchemasReplace(
dbMap map[OldID]*DBReplace,
restoreTS uint64,
tableFilter filter.Filter,
genID func(ctx context.Context) (int64, error),
genIDs func(ctx context.Context, n int) ([]int64, error),
insertDeleteRangeForTable func(jobID int64, tableIDs []int64),
insertDeleteRangeForIndex func(jobID int64, elementID *int64, tableID int64, indexIDs []int64),
) *SchemasReplace {
globalTableIdMap := make(map[OldID]NewID)
for _, dr := range dbMap {
for tblID, tr := range dr.TableMap {
globalTableIdMap[tblID] = tr.NewTableID
for oldpID, newpID := range tr.PartitionMap {
globalTableIdMap[oldpID] = newpID
}
}
}
return &SchemasReplace{
DbMap: dbMap,
globalTableIdMap: globalTableIdMap,
RewriteTS: restoreTS,
TableFilter: tableFilter,
genGenGlobalID: genID,
genGenGlobalIDs: genIDs,
insertDeleteRangeForTable: insertDeleteRangeForTable,
insertDeleteRangeForIndex: insertDeleteRangeForIndex,
}
}
func (sr *SchemasReplace) rewriteKeyForDB(key []byte, cf string) ([]byte, bool, error) {
rawMetaKey, err := ParseTxnMetaKeyFrom(key)
if err != nil {
return nil, false, errors.Trace(err)
}
dbID, err := meta.ParseDBKey(rawMetaKey.Field)
if err != nil {
return nil, false, errors.Trace(err)
}
dbReplace, exist := sr.DbMap[dbID]
if !exist {
newID, err := sr.genGenGlobalID(context.Background())
if err != nil {
return nil, false, errors.Trace(err)
}
dbReplace = NewDBReplace(nil, newID)
sr.DbMap[dbID] = dbReplace
}
rawMetaKey.UpdateField(meta.DBkey(dbReplace.NewDBID))
if cf == WriteCF {
rawMetaKey.UpdateTS(sr.RewriteTS)
}
return rawMetaKey.EncodeMetaKey(), true, nil
}
func (sr *SchemasReplace) rewriteDBInfo(value []byte) ([]byte, bool, error) {
oldDBInfo := new(model.DBInfo)
if err := json.Unmarshal(value, oldDBInfo); err != nil {
return nil, false, errors.Trace(err)
}
dbReplace, exist := sr.DbMap[oldDBInfo.ID]
if !exist {
// If the schema has existed, don't need generate a new ID.
// Or we need a new ID to rewrite the dbID in kv entry.
newID, err := sr.genGenGlobalID(context.Background())
if err != nil {
return nil, false, errors.Trace(err)
}
dbReplace = NewDBReplace(oldDBInfo, newID)
sr.DbMap[oldDBInfo.ID] = dbReplace
} else {
// update the old DBInfo, because we need save schemas at the end of 'restore point'.
dbReplace.OldDBInfo = oldDBInfo
}
log.Debug("rewrite dbinfo", zap.String("dbName", dbReplace.OldDBInfo.Name.O),
zap.Int64("old ID", oldDBInfo.ID), zap.Int64("new ID", dbReplace.NewDBID))
newDBInfo := oldDBInfo.Clone()
newDBInfo.ID = dbReplace.NewDBID
newValue, err := json.Marshal(newDBInfo)
if err != nil {
return nil, false, err
}
return newValue, true, nil
}
func (sr *SchemasReplace) rewriteEntryForDB(e *kv.Entry, cf string) (*kv.Entry, error) {
newValue, needWrite, err := sr.rewriteValue(
e.Value,
cf,
func(value []byte) ([]byte, bool, error) {
return sr.rewriteDBInfo(value)
},
)
if err != nil || !needWrite {
return nil, errors.Trace(err)
}
newKey, needWrite, err := sr.rewriteKeyForDB(e.Key, cf)
if err != nil || !needWrite {
return nil, errors.Trace(err)
}
return &kv.Entry{Key: newKey, Value: newValue}, nil
}
func (sr *SchemasReplace) getDBIDFromTableKey(key []byte) (int64, error) {
rawMetaKey, err := ParseTxnMetaKeyFrom(key)
if err != nil {
return 0, errors.Trace(err)
}
return meta.ParseDBKey(rawMetaKey.Key)
}
func (sr *SchemasReplace) rewriteKeyForTable(
key []byte,
cf string,
parseField func([]byte) (tableID int64, err error),
encodeField func(tableID int64) []byte,
) ([]byte, bool, error) {
var (
err error
newID int64
exist bool
)
rawMetaKey, err := ParseTxnMetaKeyFrom(key)
if err != nil {
return nil, false, errors.Trace(err)
}
dbID, err := meta.ParseDBKey(rawMetaKey.Key)
if err != nil {
return nil, false, errors.Trace(err)
}
tableID, err := parseField(rawMetaKey.Field)
if err != nil {
log.Warn("parse table key failed", zap.ByteString("field", rawMetaKey.Field))
return nil, false, errors.Trace(err)
}
dbReplace, exist := sr.DbMap[dbID]
if !exist {
newID, err = sr.genGenGlobalID(context.Background())
if err != nil {
return nil, false, errors.Trace(err)
}
dbReplace = NewDBReplace(nil, newID)
sr.DbMap[dbID] = dbReplace
}
tableReplace, exist := dbReplace.TableMap[tableID]
if !exist {
newID, exist = sr.globalTableIdMap[tableID]
if !exist {
newID, err = sr.genGenGlobalID(context.Background())
if err != nil {
return nil, false, errors.Trace(err)
}
sr.globalTableIdMap[tableID] = newID
}
tableReplace = NewTableReplace(nil, newID)
dbReplace.TableMap[tableID] = tableReplace
}
rawMetaKey.UpdateKey(meta.DBkey(dbReplace.NewDBID))
rawMetaKey.UpdateField(encodeField(tableReplace.NewTableID))
if cf == WriteCF {
rawMetaKey.UpdateTS(sr.RewriteTS)
}
return rawMetaKey.EncodeMetaKey(), true, nil
}
func (sr *SchemasReplace) rewriteTableInfo(value []byte, dbID int64) ([]byte, bool, error) {
var (
tableInfo model.TableInfo
err error
newID int64
exist bool
)
if err := json.Unmarshal(value, &tableInfo); err != nil {
return nil, false, errors.Trace(err)
}
// update table ID
dbReplace, exist := sr.DbMap[dbID]
if !exist {
newID, err = sr.genGenGlobalID(context.Background())
if err != nil {
return nil, false, errors.Trace(err)
}
dbReplace = NewDBReplace(nil, newID)
sr.DbMap[dbID] = dbReplace
}
tableReplace, exist := dbReplace.TableMap[tableInfo.ID]
if !exist {
newID, exist = sr.globalTableIdMap[tableInfo.ID]
if !exist {
newID, err = sr.genGenGlobalID(context.TODO())
if err != nil {
return nil, false, errors.Trace(err)
}
sr.globalTableIdMap[tableInfo.ID] = newID
}
tableReplace = NewTableReplace(&tableInfo, newID)
dbReplace.TableMap[tableInfo.ID] = tableReplace
} else {
tableReplace.OldTableInfo = &tableInfo
}
log.Debug("rewrite tableInfo", zap.String("table-name", tableInfo.Name.String()),
zap.Int64("old ID", tableInfo.ID), zap.Int64("new ID", tableReplace.NewTableID))
newTableInfo := tableInfo.Clone()
if tableInfo.Partition != nil {
newTableInfo.Partition = tableInfo.Partition.Clone()
}
newTableInfo.ID = tableReplace.NewTableID
// update partition table ID
partitions := newTableInfo.GetPartitionInfo()
if partitions != nil {
for i, tbl := range partitions.Definitions {
newID, exist = tableReplace.PartitionMap[tbl.ID]
if !exist {
newID, exist = sr.globalTableIdMap[tbl.ID]
if !exist {
newID, err = sr.genGenGlobalID(context.Background())
if err != nil {
return nil, false, errors.Trace(err)
}
sr.globalTableIdMap[tbl.ID] = newID
}
tableReplace.PartitionMap[tbl.ID] = newID
}
log.Debug("update partition",
zap.String("partition-name", tbl.Name.String()),
zap.Int64("old-id", tbl.ID), zap.Int64("new-id", newID))
partitions.Definitions[i].ID = newID
}
}
if sr.AfterTableRewritten != nil {
sr.AfterTableRewritten(false, newTableInfo)
}
// marshal to json
newValue, err := json.Marshal(&newTableInfo)
if err != nil {
return nil, false, errors.Trace(err)
}
return newValue, true, nil
}
func (sr *SchemasReplace) rewriteEntryForTable(e *kv.Entry, cf string) (*kv.Entry, error) {
dbID, err := sr.getDBIDFromTableKey(e.Key)
if err != nil {
return nil, errors.Trace(err)
}
result, err := sr.rewriteValueV2(
e.Value,
cf,
func(value []byte) ([]byte, bool, error) {
return sr.rewriteTableInfo(value, dbID)
},
)
if err != nil || !result.NeedRewrite {
return nil, errors.Trace(err)
}
newTableID := 0
newKey, needWrite, err := sr.rewriteKeyForTable(e.Key, cf, meta.ParseTableKey, func(tableID int64) []byte {
newTableID = int(tableID)
return meta.TableKey(tableID)
})
if err != nil || !needWrite {
return nil, errors.Trace(err)
}
// NOTE: the normal path is in the `SchemaReplace.rewriteTableInfo`
// for now, we rewrite key and value separately hence we cannot
// get a view of (is_delete, table_id, table_info) at the same time :(.
// Maybe we can extract the rewrite part from rewriteTableInfo.
if result.Deleted && sr.AfterTableRewritten != nil {
sr.AfterTableRewritten(true, &model.TableInfo{ID: int64(newTableID)})
}
return &kv.Entry{Key: newKey, Value: result.NewValue}, nil
}
func (sr *SchemasReplace) rewriteEntryForAutoTableIDKey(e *kv.Entry, cf string) (*kv.Entry, error) {
newKey, needWrite, err := sr.rewriteKeyForTable(
e.Key,
cf,
meta.ParseAutoTableIDKey,
meta.AutoTableIDKey,
)
if err != nil || !needWrite {
return nil, errors.Trace(err)
}
return &kv.Entry{Key: newKey, Value: e.Value}, nil
}
func (sr *SchemasReplace) rewriteEntryForSequenceKey(e *kv.Entry, cf string) (*kv.Entry, error) {
newKey, needWrite, err := sr.rewriteKeyForTable(
e.Key,
cf,
meta.ParseSequenceKey,
meta.SequenceKey,
)
if err != nil || !needWrite {
return nil, errors.Trace(err)
}
return &kv.Entry{Key: newKey, Value: e.Value}, nil
}
func (sr *SchemasReplace) rewriteEntryForAutoRandomTableIDKey(e *kv.Entry, cf string) (*kv.Entry, error) {
newKey, needWrite, err := sr.rewriteKeyForTable(
e.Key,
cf,
meta.ParseAutoRandomTableIDKey,
meta.AutoRandomTableIDKey,
)
if err != nil || !needWrite {
return nil, errors.Trace(err)
}
return &kv.Entry{Key: newKey, Value: e.Value}, nil
}
type rewriteResult struct {
Deleted bool
NeedRewrite bool
NewValue []byte
}
// rewriteValueV2 likes rewriteValueV1, but provides a richer return value.
func (sr *SchemasReplace) rewriteValueV2(value []byte, cf string, rewrite func([]byte) ([]byte, bool, error)) (rewriteResult, error) {
switch cf {
case DefaultCF:
newValue, needRewrite, err := rewrite(value)
if err != nil {
return rewriteResult{}, errors.Trace(err)
}
return rewriteResult{
NeedRewrite: needRewrite,
NewValue: newValue,
Deleted: false,
}, nil
case WriteCF:
rawWriteCFValue := new(RawWriteCFValue)
if err := rawWriteCFValue.ParseFrom(value); err != nil {
return rewriteResult{}, errors.Trace(err)
}
if rawWriteCFValue.IsDelete() {
return rewriteResult{
NewValue: value,
NeedRewrite: true,
Deleted: true,
}, nil
}
if rawWriteCFValue.IsRollback() {
return rewriteResult{
NewValue: value,
NeedRewrite: true,
Deleted: false,
}, nil
}
if !rawWriteCFValue.HasShortValue() {
return rewriteResult{
NewValue: value,
NeedRewrite: true,
}, nil
}
shortValue, needWrite, err := rewrite(rawWriteCFValue.GetShortValue())
if err != nil {
log.Info("failed to rewrite short value",
zap.ByteString("write-type", []byte{rawWriteCFValue.GetWriteType()}),
zap.Int("short-value-len", len(rawWriteCFValue.GetShortValue())))
return rewriteResult{}, errors.Trace(err)
}
if !needWrite {
return rewriteResult{
NeedRewrite: false,
}, nil
}
rawWriteCFValue.UpdateShortValue(shortValue)
return rewriteResult{NewValue: rawWriteCFValue.EncodeTo(), NeedRewrite: true}, nil
default:
panic(fmt.Sprintf("not support cf:%s", cf))
}
}
func (sr *SchemasReplace) rewriteValue(
value []byte,
cf string,
cbRewrite func([]byte) ([]byte, bool, error),
) ([]byte, bool, error) {
r, err := sr.rewriteValueV2(value, cf, cbRewrite)
if err != nil {
return nil, false, err
}
return r.NewValue, r.NeedRewrite, nil
}
// RewriteKvEntry uses to rewrite tableID/dbID in entry.key and entry.value
func (sr *SchemasReplace) RewriteKvEntry(e *kv.Entry, cf string) (*kv.Entry, error) {
// skip mDDLJob
if !IsMetaDBKey(e.Key) {
if cf == DefaultCF && IsMetaDDLJobHistoryKey(e.Key) { // mDDLJobHistory
job := &model.Job{}
if err := job.Decode(e.Value); err != nil {
log.Debug("failed to decode the job", zap.String("error", err.Error()), zap.String("job", string(e.Value)))
// The value in write-cf is like "p\XXXX\XXX" need not restore. skip it
// The value in default-cf that can Decode() need restore.
return nil, nil
}
return nil, sr.tryToGCJob(job)
}
return nil, nil
}
rawKey, err := ParseTxnMetaKeyFrom(e.Key)
if err != nil {
return nil, errors.Trace(err)
}
if meta.IsDBkey(rawKey.Field) {
return sr.rewriteEntryForDB(e, cf)
} else if meta.IsDBkey(rawKey.Key) {
if meta.IsTableKey(rawKey.Field) {
return sr.rewriteEntryForTable(e, cf)
} else if meta.IsAutoTableIDKey(rawKey.Field) {
return sr.rewriteEntryForAutoTableIDKey(e, cf)
} else if meta.IsSequenceKey(rawKey.Field) {
return sr.rewriteEntryForSequenceKey(e, cf)
} else if meta.IsAutoRandomTableIDKey(rawKey.Field) {
return sr.rewriteEntryForAutoRandomTableIDKey(e, cf)
} else {
return nil, nil
}
} else {
return nil, nil
}
}
func (sr *SchemasReplace) tryToGCJob(job *model.Job) error {
if !job.IsCancelled() {
switch job.Type {
case model.ActionAddIndex, model.ActionAddPrimaryKey:
if job.State == model.JobStateRollbackDone {
return sr.deleteRange(job)
}
return nil
case model.ActionDropSchema, model.ActionDropTable, model.ActionTruncateTable, model.ActionDropIndex, model.ActionDropPrimaryKey,
model.ActionDropTablePartition, model.ActionTruncateTablePartition, model.ActionDropColumn, model.ActionDropColumns, model.ActionModifyColumn, model.ActionDropIndexes:
return sr.deleteRange(job)
case model.ActionMultiSchemaChange:
for _, sub := range job.MultiSchemaInfo.SubJobs {
proxyJob := sub.ToProxyJob(job)
if err := sr.tryToGCJob(&proxyJob); err != nil {
return err
}
}
}
}
return nil
}
func (sr *SchemasReplace) deleteRange(job *model.Job) error {
dbReplace, exist := sr.DbMap[job.SchemaID]
if !exist {
// skip this mddljob, the same below
log.Debug("try to drop a non-existent range, missing oldDBID", zap.Int64("oldDBID", job.SchemaID))
return nil
}
// allocate a new fake job id to avoid row conflicts in table `gc_delete_range`
newJobID, err := sr.genGenGlobalID(context.Background())
if err != nil {
return errors.Trace(err)
}
switch job.Type {
case model.ActionDropSchema:
var tableIDs []int64
if err := job.DecodeArgs(&tableIDs); err != nil {
return errors.Trace(err)
}
// Note: tableIDs contains partition ids, cannot directly use dbReplace.TableMap
/* TODO: use global ID replace map
*
* for i := 0; i < len(tableIDs); i++ {
* tableReplace, exist := dbReplace.TableMap[tableIDs[i]]
* if !exist {
* return errors.Errorf("DropSchema: try to drop a non-existent table, missing oldTableID")
* }
* tableIDs[i] = tableReplace.NewTableID
* }
*/
argsSet := make(map[int64]struct{}, len(tableIDs))
for _, tableID := range tableIDs {
argsSet[tableID] = struct{}{}
}
newTableIDs := make([]int64, 0, len(tableIDs))
for tableID, tableReplace := range dbReplace.TableMap {
if _, exist := argsSet[tableID]; !exist {
log.Debug("DropSchema: record a table, but it doesn't exist in job args", zap.Int64("oldTableID", tableID))
continue
}
newTableIDs = append(newTableIDs, tableReplace.NewTableID)
for partitionID, newPartitionID := range tableReplace.PartitionMap {
if _, exist := argsSet[partitionID]; !exist {
log.Debug("DropSchema: record a partition, but it doesn't exist in job args", zap.Int64("oldPartitionID", partitionID))
continue
}
newTableIDs = append(newTableIDs, newPartitionID)
}
}
if len(newTableIDs) != len(tableIDs) {
log.Debug("DropSchema: try to drop a non-existent table/partition, whose oldID doesn't exist in tableReplace")
// only drop newTableIDs' ranges
}
if len(newTableIDs) > 0 {
sr.insertDeleteRangeForTable(newJobID, newTableIDs)
}
return nil
// Truncate will generates new id for table or partition, so ts can be large enough
case model.ActionDropTable, model.ActionTruncateTable:
tableReplace, exist := dbReplace.TableMap[job.TableID]
if !exist {
log.Debug("DropTable/TruncateTable: try to drop a non-existent table, missing oldTableID", zap.Int64("oldTableID", job.TableID))
return nil
}
// The startKey here is for compatibility with previous versions, old version did not endKey so don't have to deal with.
var startKey kv.Key // unused
var physicalTableIDs []int64
var ruleIDs []string // unused
if err := job.DecodeArgs(&startKey, &physicalTableIDs, &ruleIDs); err != nil {
return errors.Trace(err)
}
if len(physicalTableIDs) > 0 {
// delete partition id instead of table id
for i := 0; i < len(physicalTableIDs); i++ {
newPid, exist := tableReplace.PartitionMap[physicalTableIDs[i]]
if !exist {
log.Debug("DropTable/TruncateTable: try to drop a non-existent table, missing oldPartitionID", zap.Int64("oldPartitionID", physicalTableIDs[i]))
continue
}
physicalTableIDs[i] = newPid
}
if len(physicalTableIDs) > 0 {
sr.insertDeleteRangeForTable(newJobID, physicalTableIDs)
}
return nil
}
sr.insertDeleteRangeForTable(newJobID, []int64{tableReplace.NewTableID})
return nil
case model.ActionDropTablePartition, model.ActionTruncateTablePartition:
tableReplace, exist := dbReplace.TableMap[job.TableID]
if !exist {
log.Debug("DropTablePartition/TruncateTablePartition: try to drop a non-existent table, missing oldTableID", zap.Int64("oldTableID", job.TableID))
return nil
}
var physicalTableIDs []int64
if err := job.DecodeArgs(&physicalTableIDs); err != nil {
return errors.Trace(err)
}
for i := 0; i < len(physicalTableIDs); i++ {
newPid, exist := tableReplace.PartitionMap[physicalTableIDs[i]]
if !exist {
log.Debug("DropTablePartition/TruncateTablePartition: try to drop a non-existent table, missing oldPartitionID", zap.Int64("oldPartitionID", physicalTableIDs[i]))
continue
}
physicalTableIDs[i] = newPid
}
if len(physicalTableIDs) > 0 {
sr.insertDeleteRangeForTable(newJobID, physicalTableIDs)
}
return nil
// ActionAddIndex, ActionAddPrimaryKey needs do it, because it needs to be rolled back when it's canceled.
case model.ActionAddIndex, model.ActionAddPrimaryKey:
// iff job.State = model.JobStateRollbackDone
tableReplace, exist := dbReplace.TableMap[job.TableID]
if !exist {
log.Debug("AddIndex/AddPrimaryKey roll-back: try to drop a non-existent table, missing oldTableID", zap.Int64("oldTableID", job.TableID))
return nil
}
var indexID int64
var ifExists bool
var partitionIDs []int64
if err := job.DecodeArgs(&indexID, &ifExists, &partitionIDs); err != nil {
return errors.Trace(err)
}
var elementID int64 = 1
indexIDs := []int64{indexID}
if len(partitionIDs) > 0 {
for _, oldPid := range partitionIDs {
newPid, exist := tableReplace.PartitionMap[oldPid]
if !exist {
log.Debug("AddIndex/AddPrimaryKey roll-back: try to drop a non-existent table, missing oldPartitionID", zap.Int64("oldPartitionID", oldPid))
continue
}
sr.insertDeleteRangeForIndex(newJobID, &elementID, newPid, indexIDs)
}
} else {
sr.insertDeleteRangeForIndex(newJobID, &elementID, tableReplace.NewTableID, indexIDs)
}
return nil
case model.ActionDropIndex, model.ActionDropPrimaryKey:
tableReplace, exist := dbReplace.TableMap[job.TableID]
if !exist {
log.Debug("DropIndex/DropPrimaryKey: try to drop a non-existent table, missing oldTableID", zap.Int64("oldTableID", job.TableID))
return nil
}
var indexName interface{}
var ifExists bool
var indexID int64
var partitionIDs []int64
if err := job.DecodeArgs(&indexName, &ifExists, &indexID, &partitionIDs); err != nil {
return errors.Trace(err)
}
var elementID int64 = 1
indexIDs := []int64{indexID}
if len(partitionIDs) > 0 {
for _, oldPid := range partitionIDs {
newPid, exist := tableReplace.PartitionMap[oldPid]
if !exist {
log.Debug("DropIndex/DropPrimaryKey: try to drop a non-existent table, missing oldPartitionID", zap.Int64("oldPartitionID", oldPid))
continue
}
// len(indexIDs) = 1
sr.insertDeleteRangeForIndex(newJobID, &elementID, newPid, indexIDs)
}
} else {
sr.insertDeleteRangeForIndex(newJobID, &elementID, tableReplace.NewTableID, indexIDs)
}
return nil
case model.ActionDropIndexes: // // Deprecated, we use ActionMultiSchemaChange instead.
var indexIDs []int64
var partitionIDs []int64
if err := job.DecodeArgs(&[]model.CIStr{}, &[]bool{}, &indexIDs, &partitionIDs); err != nil {
return errors.Trace(err)
}
// Remove data in TiKV.
if len(indexIDs) == 0 {
return nil
}
tableReplace, exist := dbReplace.TableMap[job.TableID]
if !exist {
log.Debug("DropIndexes: try to drop a non-existent table, missing oldTableID", zap.Int64("oldTableID", job.TableID))
return nil
}
var elementID int64 = 1
if len(partitionIDs) > 0 {
for _, oldPid := range partitionIDs {
newPid, exist := tableReplace.PartitionMap[oldPid]
if !exist {
log.Debug("DropIndexes: try to drop a non-existent table, missing oldPartitionID", zap.Int64("oldPartitionID", oldPid))
continue
}
sr.insertDeleteRangeForIndex(newJobID, &elementID, newPid, indexIDs)
}
} else {
sr.insertDeleteRangeForIndex(newJobID, &elementID, tableReplace.NewTableID, indexIDs)
}
return nil
case model.ActionDropColumn:
var colName model.CIStr
var ifExists bool
var indexIDs []int64
var partitionIDs []int64
if err := job.DecodeArgs(&colName, &ifExists, &indexIDs, &partitionIDs); err != nil {
return errors.Trace(err)
}
if len(indexIDs) > 0 {
tableReplace, exist := dbReplace.TableMap[job.TableID]
if !exist {
log.Debug("DropColumn: try to drop a non-existent table, missing oldTableID", zap.Int64("oldTableID", job.TableID))
return nil
}
var elementID int64 = 1
if len(partitionIDs) > 0 {
for _, oldPid := range partitionIDs {
newPid, exist := tableReplace.PartitionMap[oldPid]
if !exist {
log.Debug("DropColumn: try to drop a non-existent table, missing oldPartitionID", zap.Int64("oldPartitionID", oldPid))
continue
}
sr.insertDeleteRangeForIndex(newJobID, &elementID, newPid, indexIDs)
}
} else {
sr.insertDeleteRangeForIndex(newJobID, &elementID, tableReplace.NewTableID, indexIDs)
}
}
return nil
case model.ActionDropColumns: // Deprecated, we use ActionMultiSchemaChange instead.
var colNames []model.CIStr
var ifExists []bool
var indexIDs []int64
var partitionIDs []int64
if err := job.DecodeArgs(&colNames, &ifExists, &indexIDs, &partitionIDs); err != nil {
return errors.Trace(err)
}
if len(indexIDs) > 0 {
tableReplace, exist := dbReplace.TableMap[job.TableID]
if !exist {
log.Debug("DropColumns: try to drop a non-existent table, missing oldTableID", zap.Int64("oldTableID", job.TableID))
return nil
}
var elementID int64 = 1
if len(partitionIDs) > 0 {
for _, oldPid := range partitionIDs {
newPid, exist := tableReplace.PartitionMap[oldPid]
if !exist {
log.Debug("DropColumns: try to drop a non-existent table, missing oldPartitionID", zap.Int64("oldPartitionID", oldPid))
continue
}
sr.insertDeleteRangeForIndex(newJobID, &elementID, newPid, indexIDs)
}
} else {
sr.insertDeleteRangeForIndex(newJobID, &elementID, tableReplace.NewTableID, indexIDs)
}
}
case model.ActionModifyColumn:
var indexIDs []int64
var partitionIDs []int64
if err := job.DecodeArgs(&indexIDs, &partitionIDs); err != nil {
return errors.Trace(err)
}
if len(indexIDs) == 0 {
return nil
}
tableReplace, exist := dbReplace.TableMap[job.TableID]
if !exist {
log.Debug("DropColumn: try to drop a non-existent table, missing oldTableID", zap.Int64("oldTableID", job.TableID))
return nil
}
var elementID int64 = 1
if len(partitionIDs) > 0 {
for _, oldPid := range partitionIDs {
newPid, exist := tableReplace.PartitionMap[oldPid]
if !exist {
log.Debug("DropColumn: try to drop a non-existent table, missing oldPartitionID", zap.Int64("oldPartitionID", oldPid))
continue
}
sr.insertDeleteRangeForIndex(newJobID, &elementID, newPid, indexIDs)
}
} else {
sr.insertDeleteRangeForIndex(newJobID, &elementID, tableReplace.NewTableID, indexIDs)
}
}
return nil
}