// Copyright 2015 The Xorm Authors. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. package xorm import ( "database/sql" "errors" "fmt" "regexp" "strings" "github.com/xormplus/core" ) var ( sqlite3ReservedWords = map[string]bool{ "ABORT": true, "ACTION": true, "ADD": true, "AFTER": true, "ALL": true, "ALTER": true, "ANALYZE": true, "AND": true, "AS": true, "ASC": true, "ATTACH": true, "AUTOINCREMENT": true, "BEFORE": true, "BEGIN": true, "BETWEEN": true, "BY": true, "CASCADE": true, "CASE": true, "CAST": true, "CHECK": true, "COLLATE": true, "COLUMN": true, "COMMIT": true, "CONFLICT": true, "CONSTRAINT": true, "CREATE": true, "CROSS": true, "CURRENT_DATE": true, "CURRENT_TIME": true, "CURRENT_TIMESTAMP": true, "DATABASE": true, "DEFAULT": true, "DEFERRABLE": true, "DEFERRED": true, "DELETE": true, "DESC": true, "DETACH": true, "DISTINCT": true, "DROP": true, "EACH": true, "ELSE": true, "END": true, "ESCAPE": true, "EXCEPT": true, "EXCLUSIVE": true, "EXISTS": true, "EXPLAIN": true, "FAIL": true, "FOR": true, "FOREIGN": true, "FROM": true, "FULL": true, "GLOB": true, "GROUP": true, "HAVING": true, "IF": true, "IGNORE": true, "IMMEDIATE": true, "IN": true, "INDEX": true, "INDEXED": true, "INITIALLY": true, "INNER": true, "INSERT": true, "INSTEAD": true, "INTERSECT": true, "INTO": true, "IS": true, "ISNULL": true, "JOIN": true, "KEY": true, "LEFT": true, "LIKE": true, "LIMIT": true, "MATCH": true, "NATURAL": true, "NO": true, "NOT": true, "NOTNULL": true, "NULL": true, "OF": true, "OFFSET": true, "ON": true, "OR": true, "ORDER": true, "OUTER": true, "PLAN": true, "PRAGMA": true, "PRIMARY": true, "QUERY": true, "RAISE": true, "RECURSIVE": true, "REFERENCES": true, "REGEXP": true, "REINDEX": true, "RELEASE": true, "RENAME": true, "REPLACE": true, "RESTRICT": true, "RIGHT": true, "ROLLBACK": true, "ROW": true, "SAVEPOINT": true, "SELECT": true, "SET": true, "TABLE": true, "TEMP": true, "TEMPORARY": true, "THEN": true, "TO": true, "TRANSACTI": true, "TRIGGER": true, "UNION": true, "UNIQUE": true, "UPDATE": true, "USING": true, "VACUUM": true, "VALUES": true, "VIEW": true, "VIRTUAL": true, "WHEN": true, "WHERE": true, "WITH": true, "WITHOUT": true, } ) type sqlite3 struct { core.Base } func (db *sqlite3) Init(d *core.DB, uri *core.Uri, drivername, dataSourceName string) error { return db.Base.Init(d, db, uri, drivername, dataSourceName) } func (db *sqlite3) SqlType(c *core.Column) string { switch t := c.SQLType.Name; t { case core.Bool: if c.Default == "true" { c.Default = "1" } else if c.Default == "false" { c.Default = "0" } return core.Integer case core.Date, core.DateTime, core.TimeStamp, core.Time: return core.DateTime case core.TimeStampz: return core.Text case core.Char, core.Varchar, core.NVarchar, core.TinyText, core.Text, core.MediumText, core.LongText, core.Json: return core.Text case core.Bit, core.TinyInt, core.SmallInt, core.MediumInt, core.Int, core.Integer, core.BigInt: return core.Integer case core.Float, core.Double, core.Real: return core.Real case core.Decimal, core.Numeric: return core.Numeric case core.TinyBlob, core.Blob, core.MediumBlob, core.LongBlob, core.Bytea, core.Binary, core.VarBinary: return core.Blob case core.Serial, core.BigSerial: c.IsPrimaryKey = true c.IsAutoIncrement = true c.Nullable = false return core.Integer default: return t } } func (db *sqlite3) FormatBytes(bs []byte) string { return fmt.Sprintf("X'%x'", bs) } func (db *sqlite3) SupportInsertMany() bool { return true } func (db *sqlite3) IsReserved(name string) bool { _, ok := sqlite3ReservedWords[name] return ok } func (db *sqlite3) Quote(name string) string { return "`" + name + "`" } func (db *sqlite3) AutoIncrStr() string { return "AUTOINCREMENT" } func (db *sqlite3) SupportEngine() bool { return false } func (db *sqlite3) SupportCharset() bool { return false } func (db *sqlite3) IndexOnTable() bool { return false } func (db *sqlite3) IndexCheckSql(tableName, idxName string) (string, []interface{}) { args := []interface{}{idxName} return "SELECT name FROM sqlite_master WHERE type='index' and name = ?", args } func (db *sqlite3) TableCheckSql(tableName string) (string, []interface{}) { args := []interface{}{tableName} return "SELECT name FROM sqlite_master WHERE type='table' and name = ?", args } func (db *sqlite3) CreateIndexSql(tableName string, index *core.Index) string { quote := db.Quote var unique string var idxName string if index.Type == core.UniqueType { unique = " UNIQUE" } idxName = index.XName(tableName) return fmt.Sprintf("CREATE%s INDEX %v ON %v (%v)", unique, quote(idxName), quote(tableName), quote(strings.Join(index.Cols, quote(",")))) } func (db *sqlite3) DropIndexSql(tableName string, index *core.Index) string { //var unique string quote := db.Quote idxName := index.Name if !strings.HasPrefix(idxName, "UQE_") && !strings.HasPrefix(idxName, "IDX_") { if index.Type == core.UniqueType { idxName = fmt.Sprintf("UQE_%v_%v", tableName, index.Name) } else { idxName = fmt.Sprintf("IDX_%v_%v", tableName, index.Name) } } return fmt.Sprintf("DROP INDEX %v", quote(idxName)) } func (db *sqlite3) ForUpdateSql(query string) string { return query } /*func (db *sqlite3) ColumnCheckSql(tableName, colName string) (string, []interface{}) { args := []interface{}{tableName} sql := "SELECT name FROM sqlite_master WHERE type='table' and name = ? and ((sql like '%`" + colName + "`%') or (sql like '%[" + colName + "]%'))" return sql, args }*/ func (db *sqlite3) IsColumnExist(tableName, colName string) (bool, error) { args := []interface{}{tableName} query := "SELECT name FROM sqlite_master WHERE type='table' and name = ? and ((sql like '%`" + colName + "`%') or (sql like '%[" + colName + "]%'))" db.LogSQL(query, args) rows, err := db.DB().Query(query, args...) if err != nil { return false, err } defer rows.Close() if rows.Next() { return true, nil } return false, nil } func (db *sqlite3) GetColumns(tableName string) ([]string, map[string]*core.Column, error) { args := []interface{}{tableName} s := "SELECT sql FROM sqlite_master WHERE type='table' and name = ?" db.LogSQL(s, args) rows, err := db.DB().Query(s, args...) if err != nil { return nil, nil, err } defer rows.Close() var name string for rows.Next() { err = rows.Scan(&name) if err != nil { return nil, nil, err } break } if name == "" { return nil, nil, errors.New("no table named " + tableName) } nStart := strings.Index(name, "(") nEnd := strings.LastIndex(name, ")") reg := regexp.MustCompile(`[^\(,\)]*(\([^\(]*\))?`) colCreates := reg.FindAllString(name[nStart+1:nEnd], -1) cols := make(map[string]*core.Column) colSeq := make([]string, 0) for _, colStr := range colCreates { reg = regexp.MustCompile(`,\s`) colStr = reg.ReplaceAllString(colStr, ",") if strings.HasPrefix(strings.TrimSpace(colStr), "PRIMARY KEY") { parts := strings.Split(strings.TrimSpace(colStr), "(") if len(parts) == 2 { pkCols := strings.Split(strings.TrimRight(strings.TrimSpace(parts[1]), ")"), ",") for _, pk := range pkCols { if col, ok := cols[strings.Trim(strings.TrimSpace(pk), "`")]; ok { col.IsPrimaryKey = true } } } continue } fields := strings.Fields(strings.TrimSpace(colStr)) col := new(core.Column) col.Indexes = make(map[string]int) col.Nullable = true col.DefaultIsEmpty = true for idx, field := range fields { if idx == 0 { col.Name = strings.Trim(strings.Trim(field, "`[] "), `"`) continue } else if idx == 1 { col.SQLType = core.SQLType{Name: field, DefaultLength: 0, DefaultLength2: 0} } switch field { case "PRIMARY": col.IsPrimaryKey = true case "AUTOINCREMENT": col.IsAutoIncrement = true case "NULL": if fields[idx-1] == "NOT" { col.Nullable = false } else { col.Nullable = true } case "DEFAULT": col.Default = fields[idx+1] col.DefaultIsEmpty = false } } if !col.SQLType.IsNumeric() && !col.DefaultIsEmpty { col.Default = "'" + col.Default + "'" } cols[col.Name] = col colSeq = append(colSeq, col.Name) } return colSeq, cols, nil } func (db *sqlite3) GetTables() ([]*core.Table, error) { args := []interface{}{} s := "SELECT name FROM sqlite_master WHERE type='table'" db.LogSQL(s, args) rows, err := db.DB().Query(s, args...) if err != nil { return nil, err } defer rows.Close() tables := make([]*core.Table, 0) for rows.Next() { table := core.NewEmptyTable() err = rows.Scan(&table.Name) if err != nil { return nil, err } if table.Name == "sqlite_sequence" { continue } tables = append(tables, table) } return tables, nil } func (db *sqlite3) GetIndexes(tableName string) (map[string]*core.Index, error) { args := []interface{}{tableName} s := "SELECT sql FROM sqlite_master WHERE type='index' and tbl_name = ?" db.LogSQL(s, args) rows, err := db.DB().Query(s, args...) if err != nil { return nil, err } defer rows.Close() indexes := make(map[string]*core.Index, 0) for rows.Next() { var tmpSQL sql.NullString err = rows.Scan(&tmpSQL) if err != nil { return nil, err } if !tmpSQL.Valid { continue } sql := tmpSQL.String index := new(core.Index) nNStart := strings.Index(sql, "INDEX") nNEnd := strings.Index(sql, "ON") if nNStart == -1 || nNEnd == -1 { continue } indexName := strings.Trim(sql[nNStart+6:nNEnd], "` []") var isRegular bool if strings.HasPrefix(indexName, "IDX_"+tableName) || strings.HasPrefix(indexName, "UQE_"+tableName) { index.Name = indexName[5+len(tableName):] isRegular = true } else { index.Name = indexName } if strings.HasPrefix(sql, "CREATE UNIQUE INDEX") { index.Type = core.UniqueType } else { index.Type = core.IndexType } nStart := strings.Index(sql, "(") nEnd := strings.Index(sql, ")") colIndexes := strings.Split(sql[nStart+1:nEnd], ",") index.Cols = make([]string, 0) for _, col := range colIndexes { index.Cols = append(index.Cols, strings.Trim(col, "` []")) } index.IsRegular = isRegular indexes[index.Name] = index } return indexes, nil } func (db *sqlite3) Filters() []core.Filter { return []core.Filter{&core.IdFilter{}} } type sqlite3Driver struct { } func (p *sqlite3Driver) Parse(driverName, dataSourceName string) (*core.Uri, error) { if strings.Contains(dataSourceName, "?") { dataSourceName = dataSourceName[:strings.Index(dataSourceName, "?")] } return &core.Uri{DbType: core.SQLITE, DbName: dataSourceName}, nil }