func (td *tableDeleter) deleteAllRowsScan( ctx context.Context, resume roachpb.Span, limit int64, ) (roachpb.Span, error) { if resume.Key == nil { tablePrefix := sqlbase.MakeIndexKeyPrefix( td.rd.helper.tableDesc, td.rd.helper.tableDesc.PrimaryIndex.ID) resume = roachpb.Span{Key: roachpb.Key(tablePrefix), EndKey: roachpb.Key(tablePrefix).PrefixEnd()} } valNeededForCol := make([]bool, len(td.rd.helper.tableDesc.Columns)) for _, idx := range td.rd.fetchColIDtoRowIndex { valNeededForCol[idx] = true } var rf sqlbase.RowFetcher err := rf.Init( td.rd.helper.tableDesc, td.rd.fetchColIDtoRowIndex, &td.rd.helper.tableDesc.PrimaryIndex, false, false, td.rd.fetchCols, valNeededForCol) if err != nil { return resume, err } if err := rf.StartScan(td.txn, roachpb.Spans{resume}, true /* limit batches */, 0); err != nil { return resume, err } for i := int64(0); i < limit; i++ { row, err := rf.NextRow() if err != nil { return resume, err } if row == nil { // Done deleting all rows. resume = roachpb.Span{} break } _, err = td.row(ctx, row) if err != nil { return resume, err } } if resume.Key != nil { // Update the resume start key for the next iteration. resume.Key = rf.Key() } return resume, td.finalize(ctx) }
// truncateAndBackfillColumnsChunk returns the next-key, done and an error. // next-key and done are invalid if error != nil. next-key is invalid if done // is true. func (sc *SchemaChanger) truncateAndBackfillColumnsChunk( added []sqlbase.ColumnDescriptor, dropped []sqlbase.ColumnDescriptor, defaultExprs []parser.TypedExpr, sp roachpb.Span, updateValues parser.DTuple, nonNullViolationColumnName string, chunkSize int64, mutationIdx int, lastCheckpoint *time.Time, ) (roachpb.Key, bool, error) { done := false var nextKey roachpb.Key err := sc.db.Txn(context.TODO(), func(txn *client.Txn) error { if sc.testingKnobs.RunBeforeBackfillChunk != nil { if err := sc.testingKnobs.RunBeforeBackfillChunk(sp); err != nil { return err } } if sc.testingKnobs.RunAfterBackfillChunk != nil { defer sc.testingKnobs.RunAfterBackfillChunk() } tableDesc, err := sqlbase.GetTableDescFromID(txn, sc.tableID) if err != nil { return err } // Short circuit the backfill if the table has been deleted. if done = tableDesc.Dropped(); done { return nil } updateCols := append(added, dropped...) fkTables := tablesNeededForFKs(*tableDesc, CheckUpdates) for k := range fkTables { table, err := sqlbase.GetTableDescFromID(txn, k) if err != nil { return err } fkTables[k] = tableLookup{table: table} } // TODO(dan): Tighten up the bound on the requestedCols parameter to // makeRowUpdater. requestedCols := make([]sqlbase.ColumnDescriptor, 0, len(tableDesc.Columns)+len(added)) requestedCols = append(requestedCols, tableDesc.Columns...) requestedCols = append(requestedCols, added...) ru, err := makeRowUpdater( txn, tableDesc, fkTables, updateCols, requestedCols, rowUpdaterOnlyColumns, ) if err != nil { return err } // TODO(dan): This check is an unfortunate bleeding of the internals of // rowUpdater. Extract the sql row to k/v mapping logic out into something // usable here. if !ru.isColumnOnlyUpdate() { panic("only column data should be modified, but the rowUpdater is configured otherwise") } // Run a scan across the table using the primary key. Running // the scan and applying the changes in many transactions is // fine because the schema change is in the correct state to // handle intermediate OLTP commands which delete and add // values during the scan. var rf sqlbase.RowFetcher colIDtoRowIndex := colIDtoRowIndexFromCols(tableDesc.Columns) valNeededForCol := make([]bool, len(tableDesc.Columns)) for i := range valNeededForCol { _, valNeededForCol[i] = ru.fetchColIDtoRowIndex[tableDesc.Columns[i].ID] } if err := rf.Init( tableDesc, colIDtoRowIndex, &tableDesc.PrimaryIndex, false, false, tableDesc.Columns, valNeededForCol, ); err != nil { return err } if err := rf.StartScan( txn, roachpb.Spans{sp}, true /* limit batches */, chunkSize, ); err != nil { return err } oldValues := make(parser.DTuple, len(ru.fetchCols)) writeBatch := txn.NewBatch() rowLength := 0 var lastRowSeen parser.DTuple i := int64(0) for ; i < chunkSize; i++ { row, err := rf.NextRow() if err != nil { return err } if row == nil { break } lastRowSeen = row if nonNullViolationColumnName != "" { return sqlbase.NewNonNullViolationError(nonNullViolationColumnName) } copy(oldValues, row) // Update oldValues with NULL values where values weren't found; // only update when necessary. if rowLength != len(row) { rowLength = len(row) for j := rowLength; j < len(oldValues); j++ { oldValues[j] = parser.DNull } } if _, err := ru.updateRow(txn.Context, writeBatch, oldValues, updateValues); err != nil { return err } } if err := txn.Run(writeBatch); err != nil { return convertBackfillError(tableDesc, writeBatch) } if done = i < chunkSize; done { return nil } curIndexKey, _, err := sqlbase.EncodeIndexKey( tableDesc, &tableDesc.PrimaryIndex, colIDtoRowIndex, lastRowSeen, sqlbase.MakeIndexKeyPrefix(tableDesc, tableDesc.PrimaryIndex.ID)) if err != nil { return err } resume := roachpb.Span{Key: roachpb.Key(curIndexKey).PrefixEnd(), EndKey: sp.EndKey} if err := sc.maybeWriteResumeSpan(txn, tableDesc, resume, mutationIdx, lastCheckpoint); err != nil { return err } nextKey = resume.Key return nil }) return nextKey, done, err }