package drivers import ( "database/sql" "fmt" "strconv" "strings" "github.com/go-sql-driver/mysql" "github.com/pkg/errors" "github.com/vattle/sqlboiler/bdb" ) // MySQLDriver holds the database connection string and a handle // to the database connection. type MySQLDriver struct { connStr string dbConn *sql.DB } // NewMySQLDriver takes the database connection details as parameters and // returns a pointer to a MySQLDriver object. Note that it is required to // call MySQLDriver.Open() and MySQLDriver.Close() to open and close // the database connection once an object has been obtained. func NewMySQLDriver(user, pass, dbname, host string, port int, sslmode string) *MySQLDriver { driver := MySQLDriver{ connStr: MySQLBuildQueryString(user, pass, dbname, host, port, sslmode), } return &driver } // MySQLBuildQueryString builds a query string for MySQL. func MySQLBuildQueryString(user, pass, dbname, host string, port int, sslmode string) string { var config mysql.Config config.User = user if len(pass) != 0 { config.Passwd = pass } config.DBName = dbname config.Net = "tcp" config.Addr = host if port == 0 { port = 3306 } config.Addr += ":" + strconv.Itoa(port) config.TLSConfig = sslmode // MySQL is a bad, and by default reads date/datetime into a []byte // instead of a time.Time. Tell it to stop being a bad. config.ParseTime = true return config.FormatDSN() } // Open opens the database connection using the connection string func (m *MySQLDriver) Open() error { var err error m.dbConn, err = sql.Open("mysql", m.connStr) if err != nil { return err } return nil } // Close closes the database connection func (m *MySQLDriver) Close() { m.dbConn.Close() } // UseLastInsertID returns false for postgres func (m *MySQLDriver) UseLastInsertID() bool { return true } // TableNames connects to the postgres database and // retrieves all table names from the information_schema where the // table schema is public. func (m *MySQLDriver) TableNames(schema string, whitelist, blacklist []string) ([]string, error) { var names []string query := fmt.Sprintf(`select table_name from information_schema.tables where table_schema = ? and table_type = 'BASE TABLE'`) args := []interface{}{schema} if len(whitelist) > 0 { query += fmt.Sprintf(" and table_name in (%s);", strings.Repeat(",?", len(whitelist))[1:]) for _, w := range whitelist { args = append(args, w) } } else if len(blacklist) > 0 { query += fmt.Sprintf(" and table_name not in (%s);", strings.Repeat(",?", len(blacklist))[1:]) for _, b := range blacklist { args = append(args, b) } } rows, err := m.dbConn.Query(query, args...) if err != nil { return nil, err } defer rows.Close() for rows.Next() { var name string if err := rows.Scan(&name); err != nil { return nil, err } names = append(names, name) } return names, nil } // Columns takes a table name and attempts to retrieve the table information // from the database information_schema.columns. It retrieves the column names // and column types and returns those as a []Column after TranslateColumnType() // converts the SQL types to Go types, for example: "varchar" to "string" func (m *MySQLDriver) Columns(schema, tableName string) ([]bdb.Column, error) { var columns []bdb.Column rows, err := m.dbConn.Query(` select column_name, data_type, if(extra = 'auto_increment','auto_increment', column_default), is_nullable, exists ( select c.column_name from information_schema.table_constraints tc inner join information_schema.key_column_usage kcu on tc.constraint_name = kcu.constraint_name and tc.table_name = kcu.table_name and tc.table_schema = kcu.table_schema where c.column_name = kcu.column_name and tc.table_name = c.table_name and (tc.constraint_type = 'PRIMARY KEY' or tc.constraint_type = 'UNIQUE') ) as is_unique from information_schema.columns as c where table_name = ? and table_schema = ?; `, tableName, schema) if err != nil { return nil, err } defer rows.Close() for rows.Next() { var colName, colType, colDefault, nullable string var unique bool var defaultPtr *string if err := rows.Scan(&colName, &colType, &defaultPtr, &nullable, &unique); err != nil { return nil, errors.Wrapf(err, "unable to scan for table %s", tableName) } if defaultPtr != nil && *defaultPtr != "NULL" { colDefault = *defaultPtr } column := bdb.Column{ Name: colName, DBType: colType, Default: colDefault, Nullable: nullable == "YES", Unique: unique, } columns = append(columns, column) } return columns, nil } // PrimaryKeyInfo looks up the primary key for a table. func (m *MySQLDriver) PrimaryKeyInfo(schema, tableName string) (*bdb.PrimaryKey, error) { pkey := &bdb.PrimaryKey{} var err error query := ` select tc.constraint_name from information_schema.table_constraints as tc where tc.table_name = ? and tc.constraint_type = 'PRIMARY KEY' and tc.table_schema = ?;` row := m.dbConn.QueryRow(query, tableName, schema) if err = row.Scan(&pkey.Name); err != nil { if err == sql.ErrNoRows { return nil, nil } return nil, err } queryColumns := ` select kcu.column_name from information_schema.key_column_usage as kcu where table_name = ? and constraint_name = ? and table_schema = ?;` var rows *sql.Rows if rows, err = m.dbConn.Query(queryColumns, tableName, pkey.Name, schema); err != nil { return nil, err } defer rows.Close() var columns []string for rows.Next() { var column string err = rows.Scan(&column) if err != nil { return nil, err } columns = append(columns, column) } if err = rows.Err(); err != nil { return nil, err } pkey.Columns = columns return pkey, nil } // ForeignKeyInfo retrieves the foreign keys for a given table name. func (m *MySQLDriver) ForeignKeyInfo(schema, tableName string) ([]bdb.ForeignKey, error) { var fkeys []bdb.ForeignKey query := ` select constraint_name, table_name, column_name, referenced_table_name, referenced_column_name from information_schema.key_column_usage where table_schema = ? and referenced_table_schema = ? and table_name = ? ` var rows *sql.Rows var err error if rows, err = m.dbConn.Query(query, schema, schema, tableName); err != nil { return nil, err } for rows.Next() { var fkey bdb.ForeignKey var sourceTable string fkey.Table = tableName err = rows.Scan(&fkey.Name, &sourceTable, &fkey.Column, &fkey.ForeignTable, &fkey.ForeignColumn) if err != nil { return nil, err } fkeys = append(fkeys, fkey) } if err = rows.Err(); err != nil { return nil, err } return fkeys, nil } // TranslateColumnType converts postgres database types to Go types, for example // "varchar" to "string" and "bigint" to "int64". It returns this parsed data // as a Column object. func (m *MySQLDriver) TranslateColumnType(c bdb.Column) bdb.Column { if c.Nullable { switch c.DBType { case "tinyint": c.Type = "null.Int8" case "smallint": c.Type = "null.Int16" case "mediumint": c.Type = "null.Int32" case "int", "integer": c.Type = "null.Int" case "bigint": c.Type = "null.Int64" case "float": c.Type = "null.Float32" case "double", "double precision", "real": c.Type = "null.Float64" case "boolean", "bool": c.Type = "null.Bool" case "date", "datetime", "timestamp", "time": c.Type = "null.Time" case "binary", "varbinary", "tinyblob", "blob", "mediumblob", "longblob": c.Type = "null.Bytes" case "json": c.Type = "types.JSON" default: c.Type = "null.String" } } else { switch c.DBType { case "tinyint": c.Type = "int8" case "smallint": c.Type = "int16" case "mediumint": c.Type = "int32" case "int", "integer": c.Type = "int" case "bigint": c.Type = "int64" case "float": c.Type = "float32" case "double", "double precision", "real": c.Type = "float64" case "boolean", "bool": c.Type = "bool" case "date", "datetime", "timestamp", "time": c.Type = "time.Time" case "binary", "varbinary", "tinyblob", "blob", "mediumblob", "longblob": c.Type = "[]byte" case "json": c.Type = "types.JSON" default: c.Type = "string" } } return c } // RightQuote is the quoting character for the right side of the identifier func (m *MySQLDriver) RightQuote() byte { return '`' } // LeftQuote is the quoting character for the left side of the identifier func (m *MySQLDriver) LeftQuote() byte { return '`' } // IndexPlaceholders returns false to indicate MySQL doesnt support indexed placeholders func (m *MySQLDriver) IndexPlaceholders() bool { return false }