package mysql import ( "context" "database/sql" "errors" "fmt" "reflect" "strconv" "strings" "time" "github.com/go-sql-driver/mysql" "github.com/samber/lo" "github.com/neilotoole/sq/libsq/core/record" "github.com/neilotoole/sq/libsq/core/options" "golang.org/x/sync/errgroup" "github.com/neilotoole/sq/libsq/core/lg/lga" "github.com/neilotoole/sq/libsq/core/lg/lgm" "github.com/neilotoole/sq/libsq/core/lg" "github.com/neilotoole/sq/libsq/core/errz" "github.com/neilotoole/sq/libsq/core/kind" "github.com/neilotoole/sq/libsq/core/sqlz" "github.com/neilotoole/sq/libsq/core/stringz" "github.com/neilotoole/sq/libsq/driver" "github.com/neilotoole/sq/libsq/source" ) // kindFromDBTypeName determines the Kind from the database // type name. For example, "VARCHAR(64)" -> kind.Text. func kindFromDBTypeName(ctx context.Context, colName, dbTypeName string) kind.Kind { var knd kind.Kind dbTypeName = strings.ToUpper(dbTypeName) // Given variations such as VARCHAR(255), we first trim the parens // parts. Thus VARCHAR(255) becomes VARCHAR. i := strings.IndexRune(dbTypeName, '(') if i > 0 { dbTypeName = dbTypeName[0:i] } switch dbTypeName { default: lg.FromContext(ctx).Warn( "Unknown MySQL column type: using alt type", lga.DBType, dbTypeName, lga.Col, colName, lga.Alt, kind.Unknown, ) knd = kind.Unknown case "": knd = kind.Unknown case "INTEGER", "INT", "TINYINT", "SMALLINT", "MEDIUMINT", "BIGINT", "YEAR", "BIT", "UNSIGNED INTEGER", "UNSIGNED INT", "UNSIGNED TINYINT", "UNSIGNED SMALLINT", "UNSIGNED MEDIUMINT", "UNSIGNED BIGINT": knd = kind.Int case "DECIMAL", "NUMERIC": knd = kind.Decimal case "CHAR", "VARCHAR", "TEXT", "TINYTEXT", "MEDIUMTEXT", "LONGTEXT": knd = kind.Text case "ENUM", "SET": knd = kind.Text case "JSON": knd = kind.Text case "VARBINARY", "BINARY", "BLOB", "MEDIUMBLOB", "LONGBLOB", "TINYBLOB": knd = kind.Bytes case "DATETIME", "TIMESTAMP": knd = kind.Datetime case "DATE": knd = kind.Date case "TIME": //nolint:goconst knd = kind.Time case "FLOAT", "DOUBLE", "DOUBLE PRECISION", "REAL": knd = kind.Float case "BOOL", "BOOLEAN": // In practice these are not returned by the mysql driver. knd = kind.Bool } return knd } func recordMetaFromColumnTypes(ctx context.Context, colTypes []*sql.ColumnType) (record.Meta, error) { sColTypeData := make([]*record.ColumnTypeData, len(colTypes)) ogColNames := make([]string, len(colTypes)) for i, colType := range colTypes { knd := kindFromDBTypeName(ctx, colType.Name(), colType.DatabaseTypeName()) colTypeData := record.NewColumnTypeData(colType, knd) sColTypeData[i] = colTypeData ogColNames[i] = colTypeData.Name } mungedColNames, err := driver.MungeResultColNames(ctx, ogColNames) if err != nil { return nil, err } recMeta := make(record.Meta, len(colTypes)) for i := range sColTypeData { sColTypeData[i].Name = mungedColNames[i] recMeta[i] = record.NewFieldMeta(sColTypeData[i]) } return recMeta, nil } // getNewRecordFunc returns a NewRecordFunc that, after interacting // with the standard driver.NewRecordFromScanRow, munges any skipped fields. // In particular sql.NullTime is unboxed to *time.Time, and TIME fields // are munged from RawBytes to string. func getNewRecordFunc(rowMeta record.Meta) driver.NewRecordFunc { return func(row []any) (record.Record, error) { rec, skipped := driver.NewRecordFromScanRow(rowMeta, row, nil) // We iterate over each element of val, checking for certain // conditions. A more efficient approach might be to (in // the outside func) iterate over the column metadata, and // build a list of val elements to visit. for _, i := range skipped { if nullTime, ok := rec[i].(*sql.NullTime); ok { if nullTime.Valid { // Make a copy of the value t := nullTime.Time rec[i] = &t continue } // Else rec[i] = nil continue } if rowMeta[i].DatabaseTypeName() == "TIME" && rec[i] != nil { // MySQL may return TIME as RawBytes... convert to a string. // https://github.com/go-sql-driver/mysql#timetime-support if rb, ok := rec[i].(*sql.RawBytes); ok { if len(*rb) == 0 { // shouldn't happen zero := "00:00" rec[i] = &zero continue } // Else text := string(*rb) rec[i] = &text } continue } // else, we don't know what to do with this col return nil, errz.Errorf("column %d %s: unknown type db(%T) with kind(%s), val(%v)", i, rowMeta[i].Name(), rec[i], rowMeta[i].Kind(), rec[i]) } return rec, nil } } // getTableMetadata gets the metadata for a single table. It is the // implementation of driver.Database.TableMetadata. func getTableMetadata(ctx context.Context, db sqlz.DB, tblName string) (*source.TableMetadata, error) { query := `SELECT TABLE_SCHEMA, TABLE_NAME, TABLE_TYPE, TABLE_COMMENT, (DATA_LENGTH + INDEX_LENGTH) AS table_size, (SELECT COUNT(*) FROM ` + "`" + tblName + "`" + `) AS row_count FROM information_schema.TABLES WHERE TABLE_SCHEMA = DATABASE() AND TABLE_NAME = ?` var schema string var tblSize sql.NullInt64 tblMeta := &source.TableMetadata{} err := db.QueryRowContext(ctx, query, tblName). Scan(&schema, &tblMeta.Name, &tblMeta.DBTableType, &tblMeta.Comment, &tblSize, &tblMeta.RowCount) if err != nil { return nil, errw(err) } tblMeta.TableType = canonicalTableType(tblMeta.DBTableType) tblMeta.FQName = schema + "." + tblMeta.Name if tblSize.Valid { // For a view (as opposed to table), tblSize is typically nil tblMeta.Size = &tblSize.Int64 } tblMeta.Columns, err = getColumnMetadata(ctx, db, tblMeta.Name) if err != nil { return nil, err } return tblMeta, nil } // getColumnMetadata returns column metadata for tblName. func getColumnMetadata(ctx context.Context, db sqlz.DB, tblName string) ([]*source.ColMetadata, error) { log := lg.FromContext(ctx) const query = `SELECT column_name, data_type, column_type, ordinal_position, column_default, is_nullable, column_key, column_comment, extra FROM information_schema.columns cols WHERE cols.TABLE_SCHEMA = DATABASE() AND cols.TABLE_NAME = ? ORDER BY cols.ordinal_position ASC` rows, err := db.QueryContext(ctx, query, tblName) if err != nil { return nil, errw(err) } defer lg.WarnIfCloseError(log, lgm.CloseDBRows, rows) var cols []*source.ColMetadata for rows.Next() { col := &source.ColMetadata{} var isNullable, colKey, extra string defVal := &sql.NullString{} err = rows.Scan(&col.Name, &col.BaseType, &col.ColumnType, &col.Position, defVal, &isNullable, &colKey, &col.Comment, &extra) if err != nil { return nil, errw(err) } if strings.EqualFold("YES", isNullable) { col.Nullable = true } if strings.Contains(colKey, "PRI") { col.PrimaryKey = true } col.DefaultValue = defVal.String col.Kind = kindFromDBTypeName(ctx, col.Name, col.BaseType) cols = append(cols, col) } return cols, errw(rows.Err()) } // getSourceMetadata is the implementation of driver.Database.SourceMetadata. // // Multiple queries are required to build the SourceMetadata, and this // impl makes use of errgroup to make concurrent queries. In the initial // relatively sequential implementation of this function, the main perf // roadblock was getting the row count for each table/view. For accuracy, // it is necessary to perform "SELECT COUNT(*) FROM tbl" for each table/view. // For other databases (such as sqlite) it was performant to UNION ALL // these SELECTs into one (or a few) queries, e.g.: // // SELECT COUNT(*) FROM actor // UNION ALL // SELECT COUNT(*) FROM address // UNION ALL // [...] // // However, this seemed to perform poorly (at least for MySQL 5.6 which // was the main focus of testing). We do seem to be getting fairly // reasonable results by spinning off a goroutine (via errgroup) for // each SELECT COUNT(*) query. That said, the testing/benchmarking was // far from exhaustive, and this entire thing has a bit of a code smell. func getSourceMetadata(ctx context.Context, src *source.Source, db sqlz.DB, noSchema bool) (*source.Metadata, error) { ctx = options.NewContext(ctx, src.Options) md := &source.Metadata{ Driver: Type, DBDriver: Type, Handle: src.Handle, Location: src.Location, } g, gCtx := errgroup.WithContext(ctx) g.SetLimit(driver.OptTuningErrgroupLimit.Get(src.Options)) g.Go(func() error { return doRetry(gCtx, func() error { return setSourceSummaryMeta(gCtx, db, md) }) }) g.Go(func() error { return doRetry(gCtx, func() error { var err error md.DBProperties, err = getDBProperties(gCtx, db) return err }) }) if noSchema { return md, nil } g.Go(func() error { return doRetry(gCtx, func() error { var err error md.Tables, err = getAllTblMetas(gCtx, db) return err }) }) err := g.Wait() if err != nil { return nil, err } for _, tbl := range md.Tables { if tbl.TableType == sqlz.TableTypeTable { md.TableCount++ } else if tbl.TableType == sqlz.TableTypeView { md.ViewCount++ } } return md, nil } func setSourceSummaryMeta(ctx context.Context, db sqlz.DB, md *source.Metadata) error { const summaryQuery = `SELECT @@GLOBAL.version, @@GLOBAL.version_comment, @@GLOBAL.version_compile_os, @@GLOBAL.version_compile_machine, DATABASE(), CURRENT_USER(), (SELECT SUM( data_length + index_length ) FROM information_schema.TABLES WHERE TABLE_SCHEMA = DATABASE()) AS size` var version, versionComment, versionOS, versionArch, schema string err := db.QueryRowContext(ctx, summaryQuery).Scan(&version, &versionComment, &versionOS, &versionArch, &schema, &md.User, &md.Size) if err != nil { return errw(err) } md.Name = schema md.Schema = schema md.FQName = schema md.DBVersion = version md.DBProduct = fmt.Sprintf("%s %s / %s (%s)", versionComment, version, versionOS, versionArch) return nil } // getDBProperties returns the db settings as observed via "SHOW VARIABLES". func getDBProperties(ctx context.Context, db sqlz.DB) (map[string]any, error) { log := lg.FromContext(ctx) rows, err := db.QueryContext(ctx, "SHOW VARIABLES") if err != nil { return nil, errw(err) } defer lg.WarnIfCloseError(log, lgm.CloseDBRows, rows) m := map[string]any{} for rows.Next() { var name string var val string err = rows.Scan(&name, &val) if err != nil { return nil, errw(err) } // Narrow setting to bool or int if possible. var ( v any = val i int b bool ) if i, err = strconv.Atoi(val); err == nil { v = i } else if b, err = stringz.ParseBool(val); err == nil { v = b } m[name] = v } if err = rows.Err(); err != nil { return nil, errw(err) } return m, nil } // getAllTblMetas returns TableMetadata for each table/view in db. func getAllTblMetas(ctx context.Context, db sqlz.DB) ([]*source.TableMetadata, error) { log := lg.FromContext(ctx) const query = `SELECT t.TABLE_SCHEMA, t.TABLE_NAME, t.TABLE_TYPE, t.TABLE_COMMENT, (DATA_LENGTH + INDEX_LENGTH) AS table_size, c.COLUMN_NAME, c.ORDINAL_POSITION, c.COLUMN_KEY, c.DATA_TYPE, c.COLUMN_TYPE, c.IS_NULLABLE, c.COLUMN_DEFAULT, c.COLUMN_COMMENT, c.EXTRA FROM information_schema.TABLES t LEFT JOIN information_schema.COLUMNS c ON c.TABLE_CATALOG = t.TABLE_CATALOG AND c.TABLE_SCHEMA = t.TABLE_SCHEMA AND c.TABLE_NAME = t.TABLE_NAME WHERE t.TABLE_SCHEMA = DATABASE() ORDER BY c.TABLE_NAME ASC, c.ORDINAL_POSITION ASC` //nolint:lll // Query results look like: // +------------+----------+----------+-------------+----------+-----------+----------------+----------+---------+--------------------+-----------+-----------------+--------------+---------------------------+ // |TABLE_SCHEMA|TABLE_NAME|TABLE_TYPE|TABLE_COMMENT|table_size|COLUMN_NAME|ORDINAL_POSITION|COLUMN_KEY|DATA_TYPE|COLUMN_TYPE |IS_NULLABLE|COLUMN_DEFAULT |COLUMN_COMMENT|EXTRA | // +------------+----------+----------+-------------+----------+-----------+----------------+----------+---------+--------------------+-----------+-----------------+--------------+---------------------------+ // |sakila |actor |BASE TABLE| |32768 |actor_id |1 |PRI |smallint |smallint(5) unsigned|NO |NULL | |auto_increment | // |sakila |actor |BASE TABLE| |32768 |first_name |2 | |varchar |varchar(45) |NO |NULL | | | // |sakila |actor |BASE TABLE| |32768 |last_name |3 |MUL |varchar |varchar(45) |NO |NULL | | | // |sakila |actor |BASE TABLE| |32768 |last_update|4 | |timestamp|timestamp |NO |CURRENT_TIMESTAMP| |on update CURRENT_TIMESTAMP| // |sakila |actor_info|VIEW |VIEW |NULL |actor_id |1 | |smallint |smallint(5) unsigned|NO |0 | | | var ( tblMetas []*source.TableMetadata schema string curTblName, curTblType, curTblComment sql.NullString curTblSize sql.NullInt64 curTblMeta *source.TableMetadata ) rows, err := db.QueryContext(ctx, query) if err != nil { return nil, errw(err) } defer lg.WarnIfCloseError(log, lgm.CloseDBRows, rows) for rows.Next() { select { case <-ctx.Done(): return nil, ctx.Err() default: } var colName, colDefault, colNullable, colKey, colBaseType, colColumnType, colComment, colExtra sql.NullString var colPosition sql.NullInt64 err = rows.Scan(&schema, &curTblName, &curTblType, &curTblComment, &curTblSize, &colName, &colPosition, &colKey, &colBaseType, &colColumnType, &colNullable, &colDefault, &colComment, &colExtra) if err != nil { return nil, errw(err) } if !curTblName.Valid || !colName.Valid { // table may have been dropped during metadata collection log.Debug("Table not found during metadata collection") continue } if curTblMeta == nil || curTblMeta.Name != curTblName.String { // On our first time encountering a new table name, we create a new TableMetadata curTblMeta = &source.TableMetadata{ Name: curTblName.String, FQName: schema + "." + curTblName.String, DBTableType: curTblType.String, TableType: canonicalTableType(curTblType.String), Comment: curTblComment.String, } if curTblSize.Valid { size := curTblSize.Int64 curTblMeta.Size = &size } tblMetas = append(tblMetas, curTblMeta) } col := &source.ColMetadata{ Name: colName.String, Position: colPosition.Int64, BaseType: colBaseType.String, ColumnType: colColumnType.String, DefaultValue: colDefault.String, Comment: colComment.String, } col.Nullable, err = stringz.ParseBool(colNullable.String) if err != nil { return nil, err } col.Kind = kindFromDBTypeName(ctx, col.Name, col.BaseType) if strings.Contains(colKey.String, "PRI") { col.PrimaryKey = true } curTblMeta.Columns = append(curTblMeta.Columns, col) } err = rows.Err() if err != nil { return nil, errw(err) } // tblMetas may contain nil elements if we failed to get the row // count for the table (which can happen if the table is dropped // during the metadata collection process). So we filter out any // nil elements. tblMetas = lo.Reject(tblMetas, func(item *source.TableMetadata, index int) bool { return item == nil }) tblNames := make([]string, 0, len(tblMetas)) for i := range tblMetas { if tblMetas[i] != nil { tblNames = append(tblNames, tblMetas[i].Name) } } // We still need to populate table row counts. var mTblRowCounts map[string]int64 if mTblRowCounts, err = getTableRowCountsBatch(ctx, db, tblNames); err != nil { return nil, err } for i := range tblMetas { tblMetas[i].RowCount = mTblRowCounts[tblMetas[i].Name] } return tblMetas, nil } // getTableRowCountsBatch invokes getTableRowCounts, but batches tblNames // into chunks, because MySQL will error if the query becomes too large. func getTableRowCountsBatch(ctx context.Context, db sqlz.DB, tblNames []string) (map[string]int64, error) { // TODO: What value should batchSize be? const batchSize = 100 var ( all = map[string]int64{} batches = lo.Chunk(tblNames, batchSize) ) for i := range batches { got, err := getTableRowCounts(ctx, db, batches[i]) if err != nil { return nil, err } for k, v := range got { all[k] = v } } return all, nil } // getTableRowCounts returns a map of table name to count of rows // in that table, as returned by "SELECT COUNT(*) FROM tblName". // If a table does not exist, the error is logged, but then // disregarded, as it's possible that a table can be deleted during // the operation. Thus the length of the returned map may be less // than len(tblNames). func getTableRowCounts(ctx context.Context, db sqlz.DB, tblNames []string) (map[string]int64, error) { log := lg.FromContext(ctx) var rows *sql.Rows var err error for { if len(tblNames) == 0 { return map[string]int64{}, nil } var qb strings.Builder for i := 0; i < len(tblNames); i++ { if i > 0 { qb.WriteString("\nUNION\n") } qb.WriteString(fmt.Sprintf("SELECT %s AS tn, COUNT(*) AS rc FROM %s", stringz.SingleQuote(tblNames[i]), stringz.BacktickQuote(tblNames[i]))) } query := qb.String() rows, err = db.QueryContext(ctx, query) if err == nil { // The query is good, continue below. break } err = errw(err) if errz.IsErrNotExist(err) { // Sometimes a table can get deleted during the operation. If so, // we just remove that table from the list, and try again. // We could also do this entire thing in a transaction, but where's // the fun in that... schema, tblName, ok := extractTblNameFromNotExistErr(err) if ok && tblName != "" { log.Warn("Table doesn't exist, will try again without that table", lga.Schema, schema, lga.Table, tblName) tblNames = lo.Without(tblNames, tblName) continue } } return nil, err } defer lg.WarnIfCloseError(log, lgm.CloseDBRows, rows) var ( m = make(map[string]int64, len(tblNames)) count int64 tblName string ) for rows.Next() { if err = rows.Scan(&tblName, &count); err != nil { return nil, errw(err) } m[tblName] = count } if err = rows.Err(); err != nil { return nil, errw(err) } return m, nil } // extractTblNameFromNotExistErr is a filthy hack to extract schema // and table from err 1146 (table doesn't exist). func extractTblNameFromNotExistErr(err error) (schema, table string, ok bool) { if err == nil { return "", "", false } var e *mysql.MySQLError if !errors.As(err, &e) { return "", "", false } if e.Number != errNumTableNotExist { return "", "", false } s := strings.TrimSuffix(strings.TrimPrefix(e.Message, "Table '"), "' doesn't exist") if s == "" { return "", "", false } if schema, table, ok = strings.Cut(s, "."); ok { return schema, table, ok } return "", "", false } // newInsertMungeFunc is lifted from driver.DefaultInsertMungeFunc. func newInsertMungeFunc(destTbl string, destMeta record.Meta) driver.InsertMungeFunc { return func(rec record.Record) error { if len(rec) != len(destMeta) { return errz.Errorf("insert record has %d vals but dest table %s has %d cols (%s)", len(rec), destTbl, len(destMeta), strings.Join(destMeta.Names(), ",")) } for i := range rec { nullable, _ := destMeta[i].Nullable() if rec[i] == nil && !nullable { mungeSetZeroValue(i, rec, destMeta) continue } if destMeta[i].Kind() == kind.Text { // text doesn't need our help continue } // The dest col kind is something other than text, let's inspect // the actual value and check its type. switch val := rec[i].(type) { default: continue case string: if val == "" { if nullable { rec[i] = nil } else { mungeSetZeroValue(i, rec, destMeta) } } // else we let the DB figure it out case *string: if *val == "" { if nullable { rec[i] = nil } else { mungeSetZeroValue(i, rec, destMeta) } } // string is non-empty if destMeta[i].Kind() == kind.Datetime { // special handling for datetime mungeSetDatetimeFromString(*val, i, rec) } // else we let the DB figure it out } } return nil } } // datetimeLayouts are layouts attempted with time.Parse to // try to give mysql a time.Time instead of string. var datetimeLayouts = []string{time.RFC3339Nano, time.RFC3339} // mungeSetDatetimeFromString attempts to parse s into time.Time and // sets rec[i] to that value. If unable to parse, rec is unchanged, // and it's up to mysql to deal with the text. func mungeSetDatetimeFromString(s string, i int, rec []any) { var t time.Time var err error for _, layout := range datetimeLayouts { t, err = time.Parse(layout, s) if err == nil { rec[i] = t return } } } // mungeSetZeroValue is invoked when rec[i] is nil, but // destMeta[i] is not nullable. func mungeSetZeroValue(i int, rec []any, destMeta record.Meta) { // REVISIT: do we need to do special handling for kind.Datetime // and kind.Time (e.g. "00:00" for time)? z := reflect.Zero(destMeta[i].ScanType()).Interface() rec[i] = z } // canonicalTableType returns the canonical name for "BASE TABLE" // and "VIEW". func canonicalTableType(dbType string) string { switch dbType { default: return "" case "BASE TABLE": return sqlz.TableTypeTable case "VIEW": return sqlz.TableTypeView } }