// Go MySQL Driver - A MySQL-Driver for Go's database/sql package // // Copyright 2017 The Go-MySQL-Driver Authors. All rights reserved. // // This Source Code Form is subject to the terms of the Mozilla Public // License, v. 2.0. If a copy of the MPL was not distributed with this file, // You can obtain one at http://mozilla.org/MPL/2.0/. // +build go1.8 package mysql import ( "context" "database/sql" "database/sql/driver" "fmt" "math" "reflect" "testing" "time" ) // static interface implementation checks of mysqlConn var ( _ driver.ConnBeginTx = &mysqlConn{} _ driver.ConnPrepareContext = &mysqlConn{} _ driver.ExecerContext = &mysqlConn{} _ driver.Pinger = &mysqlConn{} _ driver.QueryerContext = &mysqlConn{} ) // static interface implementation checks of mysqlStmt var ( _ driver.StmtExecContext = &mysqlStmt{} _ driver.StmtQueryContext = &mysqlStmt{} ) // Ensure that all the driver interfaces are implemented var ( // _ driver.RowsColumnTypeLength = &binaryRows{} // _ driver.RowsColumnTypeLength = &textRows{} _ driver.RowsColumnTypeDatabaseTypeName = &binaryRows{} _ driver.RowsColumnTypeDatabaseTypeName = &textRows{} _ driver.RowsColumnTypeNullable = &binaryRows{} _ driver.RowsColumnTypeNullable = &textRows{} _ driver.RowsColumnTypePrecisionScale = &binaryRows{} _ driver.RowsColumnTypePrecisionScale = &textRows{} _ driver.RowsColumnTypeScanType = &binaryRows{} _ driver.RowsColumnTypeScanType = &textRows{} _ driver.RowsNextResultSet = &binaryRows{} _ driver.RowsNextResultSet = &textRows{} ) func TestMultiResultSet(t *testing.T) { type result struct { values [][]int columns []string } // checkRows is a helper test function to validate rows containing 3 result // sets with specific values and columns. The basic query would look like this: // // SELECT 1 AS col1, 2 AS col2 UNION SELECT 3, 4; // SELECT 0 UNION SELECT 1; // SELECT 1 AS col1, 2 AS col2, 3 AS col3 UNION SELECT 4, 5, 6; // // to distinguish test cases the first string argument is put in front of // every error or fatal message. checkRows := func(desc string, rows *sql.Rows, dbt *DBTest) { expected := []result{ { values: [][]int{{1, 2}, {3, 4}}, columns: []string{"col1", "col2"}, }, { values: [][]int{{1, 2, 3}, {4, 5, 6}}, columns: []string{"col1", "col2", "col3"}, }, } var res1 result for rows.Next() { var res [2]int if err := rows.Scan(&res[0], &res[1]); err != nil { dbt.Fatal(err) } res1.values = append(res1.values, res[:]) } cols, err := rows.Columns() if err != nil { dbt.Fatal(desc, err) } res1.columns = cols if !reflect.DeepEqual(expected[0], res1) { dbt.Error(desc, "want =", expected[0], "got =", res1) } if !rows.NextResultSet() { dbt.Fatal(desc, "expected next result set") } // ignoring one result set if !rows.NextResultSet() { dbt.Fatal(desc, "expected next result set") } var res2 result cols, err = rows.Columns() if err != nil { dbt.Fatal(desc, err) } res2.columns = cols for rows.Next() { var res [3]int if err := rows.Scan(&res[0], &res[1], &res[2]); err != nil { dbt.Fatal(desc, err) } res2.values = append(res2.values, res[:]) } if !reflect.DeepEqual(expected[1], res2) { dbt.Error(desc, "want =", expected[1], "got =", res2) } if rows.NextResultSet() { dbt.Error(desc, "unexpected next result set") } if err := rows.Err(); err != nil { dbt.Error(desc, err) } } runTestsWithMultiStatement(t, dsn, func(dbt *DBTest) { rows := dbt.mustQuery(`DO 1; SELECT 1 AS col1, 2 AS col2 UNION SELECT 3, 4; DO 1; SELECT 0 UNION SELECT 1; SELECT 1 AS col1, 2 AS col2, 3 AS col3 UNION SELECT 4, 5, 6;`) defer rows.Close() checkRows("query: ", rows, dbt) }) runTestsWithMultiStatement(t, dsn, func(dbt *DBTest) { queries := []string{ ` DROP PROCEDURE IF EXISTS test_mrss; CREATE PROCEDURE test_mrss() BEGIN DO 1; SELECT 1 AS col1, 2 AS col2 UNION SELECT 3, 4; DO 1; SELECT 0 UNION SELECT 1; SELECT 1 AS col1, 2 AS col2, 3 AS col3 UNION SELECT 4, 5, 6; END `, ` DROP PROCEDURE IF EXISTS test_mrss; CREATE PROCEDURE test_mrss() BEGIN SELECT 1 AS col1, 2 AS col2 UNION SELECT 3, 4; SELECT 0 UNION SELECT 1; SELECT 1 AS col1, 2 AS col2, 3 AS col3 UNION SELECT 4, 5, 6; END `, } defer dbt.mustExec("DROP PROCEDURE IF EXISTS test_mrss") for i, query := range queries { dbt.mustExec(query) stmt, err := dbt.db.Prepare("CALL test_mrss()") if err != nil { dbt.Fatalf("%v (i=%d)", err, i) } defer stmt.Close() for j := 0; j < 2; j++ { rows, err := stmt.Query() if err != nil { dbt.Fatalf("%v (i=%d) (j=%d)", err, i, j) } checkRows(fmt.Sprintf("prepared stmt query (i=%d) (j=%d): ", i, j), rows, dbt) } } }) } func TestMultiResultSetNoSelect(t *testing.T) { runTestsWithMultiStatement(t, dsn, func(dbt *DBTest) { rows := dbt.mustQuery("DO 1; DO 2;") defer rows.Close() if rows.Next() { dbt.Error("unexpected row") } if rows.NextResultSet() { dbt.Error("unexpected next result set") } if err := rows.Err(); err != nil { dbt.Error("expected nil; got ", err) } }) } // tests if rows are set in a proper state if some results were ignored before // calling rows.NextResultSet. func TestSkipResults(t *testing.T) { runTests(t, dsn, func(dbt *DBTest) { rows := dbt.mustQuery("SELECT 1, 2") defer rows.Close() if !rows.Next() { dbt.Error("expected row") } if rows.NextResultSet() { dbt.Error("unexpected next result set") } if err := rows.Err(); err != nil { dbt.Error("expected nil; got ", err) } }) } func TestPingContext(t *testing.T) { runTests(t, dsn, func(dbt *DBTest) { ctx, cancel := context.WithCancel(context.Background()) cancel() if err := dbt.db.PingContext(ctx); err != context.Canceled { dbt.Errorf("expected context.Canceled, got %v", err) } }) } func TestContextCancelExec(t *testing.T) { runTests(t, dsn, func(dbt *DBTest) { dbt.mustExec("CREATE TABLE test (v INTEGER)") ctx, cancel := context.WithCancel(context.Background()) // Delay execution for just a bit until db.ExecContext has begun. defer time.AfterFunc(100*time.Millisecond, cancel).Stop() // This query will be canceled. startTime := time.Now() if _, err := dbt.db.ExecContext(ctx, "INSERT INTO test VALUES (SLEEP(1))"); err != context.Canceled { dbt.Errorf("expected context.Canceled, got %v", err) } if d := time.Since(startTime); d > 500*time.Millisecond { dbt.Errorf("too long execution time: %s", d) } // Wait for the INSERT query has done. time.Sleep(time.Second) // Check how many times the query is executed. var v int if err := dbt.db.QueryRow("SELECT COUNT(*) FROM test").Scan(&v); err != nil { dbt.Fatalf("%s", err.Error()) } if v != 1 { // TODO: need to kill the query, and v should be 0. dbt.Errorf("expected val to be 1, got %d", v) } // Context is already canceled, so error should come before execution. if _, err := dbt.db.ExecContext(ctx, "INSERT INTO test VALUES (1)"); err == nil { dbt.Error("expected error") } else if err.Error() != "context canceled" { dbt.Fatalf("unexpected error: %s", err) } // The second insert query will fail, so the table has no changes. if err := dbt.db.QueryRow("SELECT COUNT(*) FROM test").Scan(&v); err != nil { dbt.Fatalf("%s", err.Error()) } if v != 1 { dbt.Errorf("expected val to be 1, got %d", v) } }) } func TestContextCancelQuery(t *testing.T) { runTests(t, dsn, func(dbt *DBTest) { dbt.mustExec("CREATE TABLE test (v INTEGER)") ctx, cancel := context.WithCancel(context.Background()) // Delay execution for just a bit until db.ExecContext has begun. defer time.AfterFunc(100*time.Millisecond, cancel).Stop() // This query will be canceled. startTime := time.Now() if _, err := dbt.db.QueryContext(ctx, "INSERT INTO test VALUES (SLEEP(1))"); err != context.Canceled { dbt.Errorf("expected context.Canceled, got %v", err) } if d := time.Since(startTime); d > 500*time.Millisecond { dbt.Errorf("too long execution time: %s", d) } // Wait for the INSERT query has done. time.Sleep(time.Second) // Check how many times the query is executed. var v int if err := dbt.db.QueryRow("SELECT COUNT(*) FROM test").Scan(&v); err != nil { dbt.Fatalf("%s", err.Error()) } if v != 1 { // TODO: need to kill the query, and v should be 0. dbt.Errorf("expected val to be 1, got %d", v) } // Context is already canceled, so error should come before execution. if _, err := dbt.db.QueryContext(ctx, "INSERT INTO test VALUES (1)"); err != context.Canceled { dbt.Errorf("expected context.Canceled, got %v", err) } // The second insert query will fail, so the table has no changes. if err := dbt.db.QueryRow("SELECT COUNT(*) FROM test").Scan(&v); err != nil { dbt.Fatalf("%s", err.Error()) } if v != 1 { dbt.Errorf("expected val to be 1, got %d", v) } }) } func TestContextCancelQueryRow(t *testing.T) { runTests(t, dsn, func(dbt *DBTest) { dbt.mustExec("CREATE TABLE test (v INTEGER)") dbt.mustExec("INSERT INTO test VALUES (1), (2), (3)") ctx, cancel := context.WithCancel(context.Background()) rows, err := dbt.db.QueryContext(ctx, "SELECT v FROM test") if err != nil { dbt.Fatalf("%s", err.Error()) } // the first row will be succeed. var v int if !rows.Next() { dbt.Fatalf("unexpected end") } if err := rows.Scan(&v); err != nil { dbt.Fatalf("%s", err.Error()) } cancel() // make sure the driver recieve cancel request. time.Sleep(100 * time.Millisecond) if rows.Next() { dbt.Errorf("expected end, but not") } if err := rows.Err(); err != context.Canceled { dbt.Errorf("expected context.Canceled, got %v", err) } }) } func TestContextCancelPrepare(t *testing.T) { runTests(t, dsn, func(dbt *DBTest) { ctx, cancel := context.WithCancel(context.Background()) cancel() if _, err := dbt.db.PrepareContext(ctx, "SELECT 1"); err != context.Canceled { dbt.Errorf("expected context.Canceled, got %v", err) } }) } func TestContextCancelStmtExec(t *testing.T) { runTests(t, dsn, func(dbt *DBTest) { dbt.mustExec("CREATE TABLE test (v INTEGER)") ctx, cancel := context.WithCancel(context.Background()) stmt, err := dbt.db.PrepareContext(ctx, "INSERT INTO test VALUES (SLEEP(1))") if err != nil { dbt.Fatalf("unexpected error: %v", err) } // Delay execution for just a bit until db.ExecContext has begun. defer time.AfterFunc(100*time.Millisecond, cancel).Stop() // This query will be canceled. startTime := time.Now() if _, err := stmt.ExecContext(ctx); err != context.Canceled { dbt.Errorf("expected context.Canceled, got %v", err) } if d := time.Since(startTime); d > 500*time.Millisecond { dbt.Errorf("too long execution time: %s", d) } // Wait for the INSERT query has done. time.Sleep(time.Second) // Check how many times the query is executed. var v int if err := dbt.db.QueryRow("SELECT COUNT(*) FROM test").Scan(&v); err != nil { dbt.Fatalf("%s", err.Error()) } if v != 1 { // TODO: need to kill the query, and v should be 0. dbt.Errorf("expected val to be 1, got %d", v) } }) } func TestContextCancelStmtQuery(t *testing.T) { runTests(t, dsn, func(dbt *DBTest) { dbt.mustExec("CREATE TABLE test (v INTEGER)") ctx, cancel := context.WithCancel(context.Background()) stmt, err := dbt.db.PrepareContext(ctx, "INSERT INTO test VALUES (SLEEP(1))") if err != nil { dbt.Fatalf("unexpected error: %v", err) } // Delay execution for just a bit until db.ExecContext has begun. defer time.AfterFunc(100*time.Millisecond, cancel).Stop() // This query will be canceled. startTime := time.Now() if _, err := stmt.QueryContext(ctx); err != context.Canceled { dbt.Errorf("expected context.Canceled, got %v", err) } if d := time.Since(startTime); d > 500*time.Millisecond { dbt.Errorf("too long execution time: %s", d) } // Wait for the INSERT query has done. time.Sleep(time.Second) // Check how many times the query is executed. var v int if err := dbt.db.QueryRow("SELECT COUNT(*) FROM test").Scan(&v); err != nil { dbt.Fatalf("%s", err.Error()) } if v != 1 { // TODO: need to kill the query, and v should be 0. dbt.Errorf("expected val to be 1, got %d", v) } }) } func TestContextCancelBegin(t *testing.T) { runTests(t, dsn, func(dbt *DBTest) { dbt.mustExec("CREATE TABLE test (v INTEGER)") ctx, cancel := context.WithCancel(context.Background()) tx, err := dbt.db.BeginTx(ctx, nil) if err != nil { dbt.Fatal(err) } // Delay execution for just a bit until db.ExecContext has begun. defer time.AfterFunc(100*time.Millisecond, cancel).Stop() // This query will be canceled. startTime := time.Now() if _, err := tx.ExecContext(ctx, "INSERT INTO test VALUES (SLEEP(1))"); err != context.Canceled { dbt.Errorf("expected context.Canceled, got %v", err) } if d := time.Since(startTime); d > 500*time.Millisecond { dbt.Errorf("too long execution time: %s", d) } // Transaction is canceled, so expect an error. switch err := tx.Commit(); err { case sql.ErrTxDone: // because the transaction has already been rollbacked. // the database/sql package watches ctx // and rollbacks when ctx is canceled. case context.Canceled: // the database/sql package rollbacks on another goroutine, // so the transaction may not be rollbacked depending on goroutine scheduling. default: dbt.Errorf("expected sql.ErrTxDone or context.Canceled, got %v", err) } // Context is canceled, so cannot begin a transaction. if _, err := dbt.db.BeginTx(ctx, nil); err != context.Canceled { dbt.Errorf("expected context.Canceled, got %v", err) } }) } func TestContextBeginIsolationLevel(t *testing.T) { runTests(t, dsn, func(dbt *DBTest) { dbt.mustExec("CREATE TABLE test (v INTEGER)") ctx, cancel := context.WithCancel(context.Background()) defer cancel() tx1, err := dbt.db.BeginTx(ctx, &sql.TxOptions{ Isolation: sql.LevelRepeatableRead, }) if err != nil { dbt.Fatal(err) } tx2, err := dbt.db.BeginTx(ctx, &sql.TxOptions{ Isolation: sql.LevelReadCommitted, }) if err != nil { dbt.Fatal(err) } _, err = tx1.ExecContext(ctx, "INSERT INTO test VALUES (1)") if err != nil { dbt.Fatal(err) } var v int row := tx2.QueryRowContext(ctx, "SELECT COUNT(*) FROM test") if err := row.Scan(&v); err != nil { dbt.Fatal(err) } // Because writer transaction wasn't commited yet, it should be available if v != 0 { dbt.Errorf("expected val to be 0, got %d", v) } err = tx1.Commit() if err != nil { dbt.Fatal(err) } row = tx2.QueryRowContext(ctx, "SELECT COUNT(*) FROM test") if err := row.Scan(&v); err != nil { dbt.Fatal(err) } // Data written by writer transaction is already commited, it should be selectable if v != 1 { dbt.Errorf("expected val to be 1, got %d", v) } tx2.Commit() }) } func TestContextBeginReadOnly(t *testing.T) { runTests(t, dsn, func(dbt *DBTest) { dbt.mustExec("CREATE TABLE test (v INTEGER)") ctx, cancel := context.WithCancel(context.Background()) defer cancel() tx, err := dbt.db.BeginTx(ctx, &sql.TxOptions{ ReadOnly: true, }) if _, ok := err.(*MySQLError); ok { dbt.Skip("It seems that your MySQL does not support READ ONLY transactions") return } else if err != nil { dbt.Fatal(err) } // INSERT queries fail in a READ ONLY transaction. _, err = tx.ExecContext(ctx, "INSERT INTO test VALUES (1)") if _, ok := err.(*MySQLError); !ok { dbt.Errorf("expected MySQLError, got %v", err) } // SELECT queries can be executed. var v int row := tx.QueryRowContext(ctx, "SELECT COUNT(*) FROM test") if err := row.Scan(&v); err != nil { dbt.Fatal(err) } if v != 0 { dbt.Errorf("expected val to be 0, got %d", v) } if err := tx.Commit(); err != nil { dbt.Fatal(err) } }) } func TestRowsColumnTypes(t *testing.T) { niNULL := sql.NullInt64{Int64: 0, Valid: false} ni0 := sql.NullInt64{Int64: 0, Valid: true} ni1 := sql.NullInt64{Int64: 1, Valid: true} ni42 := sql.NullInt64{Int64: 42, Valid: true} nfNULL := sql.NullFloat64{Float64: 0.0, Valid: false} nf0 := sql.NullFloat64{Float64: 0.0, Valid: true} nf1337 := sql.NullFloat64{Float64: 13.37, Valid: true} nt0 := NullTime{Time: time.Date(2006, 01, 02, 15, 04, 05, 0, time.UTC), Valid: true} nt1 := NullTime{Time: time.Date(2006, 01, 02, 15, 04, 05, 100000000, time.UTC), Valid: true} nt2 := NullTime{Time: time.Date(2006, 01, 02, 15, 04, 05, 110000000, time.UTC), Valid: true} nt6 := NullTime{Time: time.Date(2006, 01, 02, 15, 04, 05, 111111000, time.UTC), Valid: true} nd1 := NullTime{Time: time.Date(2006, 01, 02, 0, 0, 0, 0, time.UTC), Valid: true} nd2 := NullTime{Time: time.Date(2006, 03, 04, 0, 0, 0, 0, time.UTC), Valid: true} ndNULL := NullTime{Time: time.Time{}, Valid: false} rbNULL := sql.RawBytes(nil) rb0 := sql.RawBytes("0") rb42 := sql.RawBytes("42") rbTest := sql.RawBytes("Test") rb0pad4 := sql.RawBytes("0\x00\x00\x00") // BINARY right-pads values with 0x00 rbx0 := sql.RawBytes("\x00") rbx42 := sql.RawBytes("\x42") var columns = []struct { name string fieldType string // type used when creating table schema databaseTypeName string // actual type used by MySQL scanType reflect.Type nullable bool precision int64 // 0 if not ok scale int64 valuesIn [3]string valuesOut [3]interface{} }{ {"bit8null", "BIT(8)", "BIT", scanTypeRawBytes, true, 0, 0, [3]string{"0x0", "NULL", "0x42"}, [3]interface{}{rbx0, rbNULL, rbx42}}, {"boolnull", "BOOL", "TINYINT", scanTypeNullInt, true, 0, 0, [3]string{"NULL", "true", "0"}, [3]interface{}{niNULL, ni1, ni0}}, {"bool", "BOOL NOT NULL", "TINYINT", scanTypeInt8, false, 0, 0, [3]string{"1", "0", "FALSE"}, [3]interface{}{int8(1), int8(0), int8(0)}}, {"intnull", "INTEGER", "INT", scanTypeNullInt, true, 0, 0, [3]string{"0", "NULL", "42"}, [3]interface{}{ni0, niNULL, ni42}}, {"smallint", "SMALLINT NOT NULL", "SMALLINT", scanTypeInt16, false, 0, 0, [3]string{"0", "-32768", "32767"}, [3]interface{}{int16(0), int16(-32768), int16(32767)}}, {"smallintnull", "SMALLINT", "SMALLINT", scanTypeNullInt, true, 0, 0, [3]string{"0", "NULL", "42"}, [3]interface{}{ni0, niNULL, ni42}}, {"int3null", "INT(3)", "INT", scanTypeNullInt, true, 0, 0, [3]string{"0", "NULL", "42"}, [3]interface{}{ni0, niNULL, ni42}}, {"int7", "INT(7) NOT NULL", "INT", scanTypeInt32, false, 0, 0, [3]string{"0", "-1337", "42"}, [3]interface{}{int32(0), int32(-1337), int32(42)}}, {"mediumintnull", "MEDIUMINT", "MEDIUMINT", scanTypeNullInt, true, 0, 0, [3]string{"0", "42", "NULL"}, [3]interface{}{ni0, ni42, niNULL}}, {"bigint", "BIGINT NOT NULL", "BIGINT", scanTypeInt64, false, 0, 0, [3]string{"0", "65535", "-42"}, [3]interface{}{int64(0), int64(65535), int64(-42)}}, {"bigintnull", "BIGINT", "BIGINT", scanTypeNullInt, true, 0, 0, [3]string{"NULL", "1", "42"}, [3]interface{}{niNULL, ni1, ni42}}, {"tinyuint", "TINYINT UNSIGNED NOT NULL", "TINYINT", scanTypeUint8, false, 0, 0, [3]string{"0", "255", "42"}, [3]interface{}{uint8(0), uint8(255), uint8(42)}}, {"smalluint", "SMALLINT UNSIGNED NOT NULL", "SMALLINT", scanTypeUint16, false, 0, 0, [3]string{"0", "65535", "42"}, [3]interface{}{uint16(0), uint16(65535), uint16(42)}}, {"biguint", "BIGINT UNSIGNED NOT NULL", "BIGINT", scanTypeUint64, false, 0, 0, [3]string{"0", "65535", "42"}, [3]interface{}{uint64(0), uint64(65535), uint64(42)}}, {"uint13", "INT(13) UNSIGNED NOT NULL", "INT", scanTypeUint32, false, 0, 0, [3]string{"0", "1337", "42"}, [3]interface{}{uint32(0), uint32(1337), uint32(42)}}, {"float", "FLOAT NOT NULL", "FLOAT", scanTypeFloat32, false, math.MaxInt64, math.MaxInt64, [3]string{"0", "42", "13.37"}, [3]interface{}{float32(0), float32(42), float32(13.37)}}, {"floatnull", "FLOAT", "FLOAT", scanTypeNullFloat, true, math.MaxInt64, math.MaxInt64, [3]string{"0", "NULL", "13.37"}, [3]interface{}{nf0, nfNULL, nf1337}}, {"float74null", "FLOAT(7,4)", "FLOAT", scanTypeNullFloat, true, math.MaxInt64, 4, [3]string{"0", "NULL", "13.37"}, [3]interface{}{nf0, nfNULL, nf1337}}, {"double", "DOUBLE NOT NULL", "DOUBLE", scanTypeFloat64, false, math.MaxInt64, math.MaxInt64, [3]string{"0", "42", "13.37"}, [3]interface{}{float64(0), float64(42), float64(13.37)}}, {"doublenull", "DOUBLE", "DOUBLE", scanTypeNullFloat, true, math.MaxInt64, math.MaxInt64, [3]string{"0", "NULL", "13.37"}, [3]interface{}{nf0, nfNULL, nf1337}}, {"decimal1", "DECIMAL(10,6) NOT NULL", "DECIMAL", scanTypeRawBytes, false, 10, 6, [3]string{"0", "13.37", "1234.123456"}, [3]interface{}{sql.RawBytes("0.000000"), sql.RawBytes("13.370000"), sql.RawBytes("1234.123456")}}, {"decimal1null", "DECIMAL(10,6)", "DECIMAL", scanTypeRawBytes, true, 10, 6, [3]string{"0", "NULL", "1234.123456"}, [3]interface{}{sql.RawBytes("0.000000"), rbNULL, sql.RawBytes("1234.123456")}}, {"decimal2", "DECIMAL(8,4) NOT NULL", "DECIMAL", scanTypeRawBytes, false, 8, 4, [3]string{"0", "13.37", "1234.123456"}, [3]interface{}{sql.RawBytes("0.0000"), sql.RawBytes("13.3700"), sql.RawBytes("1234.1235")}}, {"decimal2null", "DECIMAL(8,4)", "DECIMAL", scanTypeRawBytes, true, 8, 4, [3]string{"0", "NULL", "1234.123456"}, [3]interface{}{sql.RawBytes("0.0000"), rbNULL, sql.RawBytes("1234.1235")}}, {"decimal3", "DECIMAL(5,0) NOT NULL", "DECIMAL", scanTypeRawBytes, false, 5, 0, [3]string{"0", "13.37", "-12345.123456"}, [3]interface{}{rb0, sql.RawBytes("13"), sql.RawBytes("-12345")}}, {"decimal3null", "DECIMAL(5,0)", "DECIMAL", scanTypeRawBytes, true, 5, 0, [3]string{"0", "NULL", "-12345.123456"}, [3]interface{}{rb0, rbNULL, sql.RawBytes("-12345")}}, {"char25null", "CHAR(25)", "CHAR", scanTypeRawBytes, true, 0, 0, [3]string{"0", "NULL", "'Test'"}, [3]interface{}{rb0, rbNULL, rbTest}}, {"varchar42", "VARCHAR(42) NOT NULL", "VARCHAR", scanTypeRawBytes, false, 0, 0, [3]string{"0", "'Test'", "42"}, [3]interface{}{rb0, rbTest, rb42}}, {"binary4null", "BINARY(4)", "BINARY", scanTypeRawBytes, true, 0, 0, [3]string{"0", "NULL", "'Test'"}, [3]interface{}{rb0pad4, rbNULL, rbTest}}, {"varbinary42", "VARBINARY(42) NOT NULL", "VARBINARY", scanTypeRawBytes, false, 0, 0, [3]string{"0", "'Test'", "42"}, [3]interface{}{rb0, rbTest, rb42}}, {"tinyblobnull", "TINYBLOB", "BLOB", scanTypeRawBytes, true, 0, 0, [3]string{"0", "NULL", "'Test'"}, [3]interface{}{rb0, rbNULL, rbTest}}, {"tinytextnull", "TINYTEXT", "TEXT", scanTypeRawBytes, true, 0, 0, [3]string{"0", "NULL", "'Test'"}, [3]interface{}{rb0, rbNULL, rbTest}}, {"blobnull", "BLOB", "BLOB", scanTypeRawBytes, true, 0, 0, [3]string{"0", "NULL", "'Test'"}, [3]interface{}{rb0, rbNULL, rbTest}}, {"textnull", "TEXT", "TEXT", scanTypeRawBytes, true, 0, 0, [3]string{"0", "NULL", "'Test'"}, [3]interface{}{rb0, rbNULL, rbTest}}, {"mediumblob", "MEDIUMBLOB NOT NULL", "BLOB", scanTypeRawBytes, false, 0, 0, [3]string{"0", "'Test'", "42"}, [3]interface{}{rb0, rbTest, rb42}}, {"mediumtext", "MEDIUMTEXT NOT NULL", "TEXT", scanTypeRawBytes, false, 0, 0, [3]string{"0", "'Test'", "42"}, [3]interface{}{rb0, rbTest, rb42}}, {"longblob", "LONGBLOB NOT NULL", "BLOB", scanTypeRawBytes, false, 0, 0, [3]string{"0", "'Test'", "42"}, [3]interface{}{rb0, rbTest, rb42}}, {"longtext", "LONGTEXT NOT NULL", "TEXT", scanTypeRawBytes, false, 0, 0, [3]string{"0", "'Test'", "42"}, [3]interface{}{rb0, rbTest, rb42}}, {"datetime", "DATETIME", "DATETIME", scanTypeNullTime, true, 0, 0, [3]string{"'2006-01-02 15:04:05'", "'2006-01-02 15:04:05.1'", "'2006-01-02 15:04:05.111111'"}, [3]interface{}{nt0, nt0, nt0}}, {"datetime2", "DATETIME(2)", "DATETIME", scanTypeNullTime, true, 2, 2, [3]string{"'2006-01-02 15:04:05'", "'2006-01-02 15:04:05.1'", "'2006-01-02 15:04:05.111111'"}, [3]interface{}{nt0, nt1, nt2}}, {"datetime6", "DATETIME(6)", "DATETIME", scanTypeNullTime, true, 6, 6, [3]string{"'2006-01-02 15:04:05'", "'2006-01-02 15:04:05.1'", "'2006-01-02 15:04:05.111111'"}, [3]interface{}{nt0, nt1, nt6}}, {"date", "DATE", "DATE", scanTypeNullTime, true, 0, 0, [3]string{"'2006-01-02'", "NULL", "'2006-03-04'"}, [3]interface{}{nd1, ndNULL, nd2}}, {"year", "YEAR NOT NULL", "YEAR", scanTypeUint16, false, 0, 0, [3]string{"2006", "2000", "1994"}, [3]interface{}{uint16(2006), uint16(2000), uint16(1994)}}, } schema := "" values1 := "" values2 := "" values3 := "" for _, column := range columns { schema += fmt.Sprintf("`%s` %s, ", column.name, column.fieldType) values1 += column.valuesIn[0] + ", " values2 += column.valuesIn[1] + ", " values3 += column.valuesIn[2] + ", " } schema = schema[:len(schema)-2] values1 = values1[:len(values1)-2] values2 = values2[:len(values2)-2] values3 = values3[:len(values3)-2] dsns := []string{ dsn + "&parseTime=true", dsn + "&parseTime=false", } for _, testdsn := range dsns { runTests(t, testdsn, func(dbt *DBTest) { dbt.mustExec("CREATE TABLE test (" + schema + ")") dbt.mustExec("INSERT INTO test VALUES (" + values1 + "), (" + values2 + "), (" + values3 + ")") rows, err := dbt.db.Query("SELECT * FROM test") if err != nil { t.Fatalf("Query: %v", err) } tt, err := rows.ColumnTypes() if err != nil { t.Fatalf("ColumnTypes: %v", err) } if len(tt) != len(columns) { t.Fatalf("unexpected number of columns: expected %d, got %d", len(columns), len(tt)) } types := make([]reflect.Type, len(tt)) for i, tp := range tt { column := columns[i] // Name name := tp.Name() if name != column.name { t.Errorf("column name mismatch %s != %s", name, column.name) continue } // DatabaseTypeName databaseTypeName := tp.DatabaseTypeName() if databaseTypeName != column.databaseTypeName { t.Errorf("databasetypename name mismatch for column %q: %s != %s", name, databaseTypeName, column.databaseTypeName) continue } // ScanType scanType := tp.ScanType() if scanType != column.scanType { if scanType == nil { t.Errorf("scantype is null for column %q", name) } else { t.Errorf("scantype mismatch for column %q: %s != %s", name, scanType.Name(), column.scanType.Name()) } continue } types[i] = scanType // Nullable nullable, ok := tp.Nullable() if !ok { t.Errorf("nullable not ok %q", name) continue } if nullable != column.nullable { t.Errorf("nullable mismatch for column %q: %t != %t", name, nullable, column.nullable) } // Length // length, ok := tp.Length() // if length != column.length { // if !ok { // t.Errorf("length not ok for column %q", name) // } else { // t.Errorf("length mismatch for column %q: %d != %d", name, length, column.length) // } // continue // } // Precision and Scale precision, scale, ok := tp.DecimalSize() if precision != column.precision { if !ok { t.Errorf("precision not ok for column %q", name) } else { t.Errorf("precision mismatch for column %q: %d != %d", name, precision, column.precision) } continue } if scale != column.scale { if !ok { t.Errorf("scale not ok for column %q", name) } else { t.Errorf("scale mismatch for column %q: %d != %d", name, scale, column.scale) } continue } } values := make([]interface{}, len(tt)) for i := range values { values[i] = reflect.New(types[i]).Interface() } i := 0 for rows.Next() { err = rows.Scan(values...) if err != nil { t.Fatalf("failed to scan values in %v", err) } for j := range values { value := reflect.ValueOf(values[j]).Elem().Interface() if !reflect.DeepEqual(value, columns[j].valuesOut[i]) { if columns[j].scanType == scanTypeRawBytes { t.Errorf("row %d, column %d: %v != %v", i, j, string(value.(sql.RawBytes)), string(columns[j].valuesOut[i].(sql.RawBytes))) } else { t.Errorf("row %d, column %d: %v != %v", i, j, value, columns[j].valuesOut[i]) } } } i++ } if i != 3 { t.Errorf("expected 3 rows, got %d", i) } if err := rows.Close(); err != nil { t.Errorf("error closing rows: %s", err) } }) } }