package gorm import ( "crypto/sha1" "fmt" "reflect" "regexp" "strconv" "strings" "time" "unicode/utf8" ) type mysql struct { commonDialect } func init() { RegisterDialect("mysql", &mysql{}) } func (mysql) GetName() string { return "mysql" } func (mysql) Quote(key string) string { return fmt.Sprintf("`%s`", key) } // Get Data Type for MySQL Dialect func (s *mysql) DataTypeOf(field *StructField) string { var dataValue, sqlType, size, additionalType = ParseFieldStructForDialect(field, s) // MySQL allows only one auto increment column per table, and it must // be a KEY column. if _, ok := field.TagSettings["AUTO_INCREMENT"]; ok { if _, ok = field.TagSettings["INDEX"]; !ok && !field.IsPrimaryKey { delete(field.TagSettings, "AUTO_INCREMENT") } } if sqlType == "" { switch dataValue.Kind() { case reflect.Bool: sqlType = "boolean" case reflect.Int8: if _, ok := field.TagSettings["AUTO_INCREMENT"]; ok || field.IsPrimaryKey { field.TagSettings["AUTO_INCREMENT"] = "AUTO_INCREMENT" sqlType = "tinyint AUTO_INCREMENT" } else { sqlType = "tinyint" } case reflect.Int, reflect.Int16, reflect.Int32: if _, ok := field.TagSettings["AUTO_INCREMENT"]; ok || field.IsPrimaryKey { field.TagSettings["AUTO_INCREMENT"] = "AUTO_INCREMENT" sqlType = "int AUTO_INCREMENT" } else { sqlType = "int" } case reflect.Uint8: if _, ok := field.TagSettings["AUTO_INCREMENT"]; ok || field.IsPrimaryKey { field.TagSettings["AUTO_INCREMENT"] = "AUTO_INCREMENT" sqlType = "tinyint unsigned AUTO_INCREMENT" } else { sqlType = "tinyint unsigned" } case reflect.Uint, reflect.Uint16, reflect.Uint32, reflect.Uintptr: if _, ok := field.TagSettings["AUTO_INCREMENT"]; ok || field.IsPrimaryKey { field.TagSettings["AUTO_INCREMENT"] = "AUTO_INCREMENT" sqlType = "int unsigned AUTO_INCREMENT" } else { sqlType = "int unsigned" } case reflect.Int64: if _, ok := field.TagSettings["AUTO_INCREMENT"]; ok || field.IsPrimaryKey { field.TagSettings["AUTO_INCREMENT"] = "AUTO_INCREMENT" sqlType = "bigint AUTO_INCREMENT" } else { sqlType = "bigint" } case reflect.Uint64: if _, ok := field.TagSettings["AUTO_INCREMENT"]; ok || field.IsPrimaryKey { field.TagSettings["AUTO_INCREMENT"] = "AUTO_INCREMENT" sqlType = "bigint unsigned AUTO_INCREMENT" } else { sqlType = "bigint unsigned" } case reflect.Float32, reflect.Float64: sqlType = "double" case reflect.String: if size > 0 && size < 65532 { sqlType = fmt.Sprintf("varchar(%d)", size) } else { sqlType = "longtext" } case reflect.Struct: if _, ok := dataValue.Interface().(time.Time); ok { if _, ok := field.TagSettings["NOT NULL"]; ok { sqlType = "timestamp" } else { sqlType = "timestamp NULL" } } default: if IsByteArrayOrSlice(dataValue) { if size > 0 && size < 65532 { sqlType = fmt.Sprintf("varbinary(%d)", size) } else { sqlType = "longblob" } } } } if sqlType == "" { panic(fmt.Sprintf("invalid sql type %s (%s) for mysql", dataValue.Type().Name(), dataValue.Kind().String())) } if strings.TrimSpace(additionalType) == "" { return sqlType } return fmt.Sprintf("%v %v", sqlType, additionalType) } func (s mysql) RemoveIndex(tableName string, indexName string) error { _, err := s.db.Exec(fmt.Sprintf("DROP INDEX %v ON %v", indexName, s.Quote(tableName))) return err } func (s mysql) LimitAndOffsetSQL(limit, offset interface{}) (sql string) { if limit != nil { if parsedLimit, err := strconv.ParseInt(fmt.Sprint(limit), 0, 0); err == nil && parsedLimit >= 0 { sql += fmt.Sprintf(" LIMIT %d", parsedLimit) if offset != nil { if parsedOffset, err := strconv.ParseInt(fmt.Sprint(offset), 0, 0); err == nil && parsedOffset >= 0 { sql += fmt.Sprintf(" OFFSET %d", parsedOffset) } } } } return } func (s mysql) HasForeignKey(tableName string, foreignKeyName string) bool { var count int currentDatabase, tableName := currentDatabaseAndTable(&s, tableName) s.db.QueryRow("SELECT count(*) FROM INFORMATION_SCHEMA.TABLE_CONSTRAINTS WHERE CONSTRAINT_SCHEMA=? AND TABLE_NAME=? AND CONSTRAINT_NAME=? AND CONSTRAINT_TYPE='FOREIGN KEY'", currentDatabase, tableName, foreignKeyName).Scan(&count) return count > 0 } func (s mysql) CurrentDatabase() (name string) { s.db.QueryRow("SELECT DATABASE()").Scan(&name) return } func (mysql) SelectFromDummyTable() string { return "FROM DUAL" } func (s mysql) BuildKeyName(kind, tableName string, fields ...string) string { keyName := s.commonDialect.BuildKeyName(kind, tableName, fields...) if utf8.RuneCountInString(keyName) <= 64 { return keyName } h := sha1.New() h.Write([]byte(keyName)) bs := h.Sum(nil) // sha1 is 40 characters, keep first 24 characters of destination destRunes := []rune(regexp.MustCompile("[^a-zA-Z0-9]+").ReplaceAllString(fields[0], "_")) if len(destRunes) > 24 { destRunes = destRunes[:24] } return fmt.Sprintf("%s%x", string(destRunes), bs) }