package xorm import ( "database/sql" "encoding/json" "errors" "fmt" "reflect" "strconv" "strings" "time" ) // Struct Session keep a pointer to sql.DB and provides all execution of all // kind of database operations. type Session struct { Db *sql.DB Engine *Engine Tx *sql.Tx Statement Statement IsAutoCommit bool IsCommitedOrRollbacked bool TransType string IsAutoClose bool // !nashtsai! storing these beans due to yet committed tx afterInsertBeans map[interface{}]*[]func(interface{}) afterUpdateBeans map[interface{}]*[]func(interface{}) afterDeleteBeans map[interface{}]*[]func(interface{}) // -- beforeClosures []func(interface{}) afterClosures []func(interface{}) } // Method Init reset the session as the init status. func (session *Session) Init() { session.Statement = Statement{Engine: session.Engine} session.Statement.Init() session.IsAutoCommit = true session.IsCommitedOrRollbacked = false session.IsAutoClose = false // !nashtsai! is lazy init better? session.afterInsertBeans = make(map[interface{}]*[]func(interface{}), 0) session.afterUpdateBeans = make(map[interface{}]*[]func(interface{}), 0) session.afterDeleteBeans = make(map[interface{}]*[]func(interface{}), 0) session.beforeClosures = make([]func(interface{}), 0) session.afterClosures = make([]func(interface{}), 0) } // Method Close release the connection from pool func (session *Session) Close() { defer func() { if session.Db != nil { session.Engine.Pool.ReleaseDB(session.Engine, session.Db) session.Db = nil session.Tx = nil session.Init() } }() } // Method Sql provides raw sql input parameter. When you have a complex SQL statement // and cannot use Where, Id, In and etc. Methods to describe, you can use Sql. func (session *Session) Sql(querystring string, args ...interface{}) *Session { session.Statement.Sql(querystring, args...) return session } // Method Where provides custom query condition. func (session *Session) Where(querystring string, args ...interface{}) *Session { session.Statement.Where(querystring, args...) return session } // Method Where provides custom query condition. func (session *Session) And(querystring string, args ...interface{}) *Session { session.Statement.And(querystring, args...) return session } // Method Where provides custom query condition. func (session *Session) Or(querystring string, args ...interface{}) *Session { session.Statement.Or(querystring, args...) return session } // Method Id provides converting id as a query condition func (session *Session) Id(id interface{}) *Session { session.Statement.Id(id) return session } // Apply before Processor, affected bean is passed to closure arg func (session *Session) Before(closures func(interface{})) *Session { if closures != nil { session.beforeClosures = append(session.beforeClosures, closures) } return session } // Apply after Processor, affected bean is passed to closure arg func (session *Session) After(closures func(interface{})) *Session { if closures != nil { session.afterClosures = append(session.afterClosures, closures) } return session } // Method Table can input a string or pointer to struct for special a table to operate. func (session *Session) Table(tableNameOrBean interface{}) *Session { session.Statement.Table(tableNameOrBean) return session } // Method In provides a query string like "id in (1, 2, 3)" func (session *Session) In(column string, args ...interface{}) *Session { session.Statement.In(column, args...) return session } // Method Cols provides some columns to special func (session *Session) Cols(columns ...string) *Session { session.Statement.Cols(columns...) return session } func (session *Session) AllCols() *Session { session.Statement.AllCols() return session } func (session *Session) MustCols(columns ...string) *Session { session.Statement.MustCols(columns...) return session } func (session *Session) NoCascade() *Session { session.Statement.UseCascade = false return session } /* func (session *Session) MustCols(columns ...string) *Session { session.Statement.Must() }*/ // Xorm automatically retrieve condition according struct, but // if struct has bool field, it will ignore them. So use UseBool // to tell system to do not ignore them. // If no paramters, it will use all the bool field of struct, or // it will use paramters's columns func (session *Session) UseBool(columns ...string) *Session { session.Statement.UseBool(columns...) return session } // use for distinct columns. Caution: when you are using cache, // distinct will not be cached because cache system need id, // but distinct will not provide id func (session *Session) Distinct(columns ...string) *Session { session.Statement.Distinct(columns...) return session } // Only not use the paramters as select or update columns func (session *Session) Omit(columns ...string) *Session { session.Statement.Omit(columns...) return session } // Method NoAutoTime means do not automatically give created field and updated field // the current time on the current session temporarily func (session *Session) NoAutoTime() *Session { session.Statement.UseAutoTime = false return session } // Method Limit provide limit and offset query condition func (session *Session) Limit(limit int, start ...int) *Session { session.Statement.Limit(limit, start...) return session } // Method OrderBy provide order by query condition, the input parameter is the content // after order by on a sql statement. func (session *Session) OrderBy(order string) *Session { session.Statement.OrderBy(order) return session } // Method Desc provide desc order by query condition, the input parameters are columns. func (session *Session) Desc(colNames ...string) *Session { if session.Statement.OrderStr != "" { session.Statement.OrderStr += ", " } newColNames := col2NewCols(colNames...) sqlStr := strings.Join(newColNames, session.Engine.Quote(" DESC, ")) session.Statement.OrderStr += session.Engine.Quote(sqlStr) + " DESC" return session } // Method Asc provide asc order by query condition, the input parameters are columns. func (session *Session) Asc(colNames ...string) *Session { if session.Statement.OrderStr != "" { session.Statement.OrderStr += ", " } newColNames := col2NewCols(colNames...) sqlStr := strings.Join(newColNames, session.Engine.Quote(" ASC, ")) session.Statement.OrderStr += session.Engine.Quote(sqlStr) + " ASC" return session } // Method StoreEngine is only avialble mysql dialect currently func (session *Session) StoreEngine(storeEngine string) *Session { session.Statement.StoreEngine = storeEngine return session } // Method StoreEngine is only avialble charset dialect currently func (session *Session) Charset(charset string) *Session { session.Statement.Charset = charset return session } // Method Cascade indicates if loading sub Struct func (session *Session) Cascade(trueOrFalse ...bool) *Session { if len(trueOrFalse) >= 1 { session.Statement.UseCascade = trueOrFalse[0] } return session } // Method NoCache ask this session do not retrieve data from cache system and // get data from database directly. func (session *Session) NoCache() *Session { session.Statement.UseCache = false return session } //The join_operator should be one of INNER, LEFT OUTER, CROSS etc - this will be prepended to JOIN func (session *Session) Join(join_operator, tablename, condition string) *Session { session.Statement.Join(join_operator, tablename, condition) return session } // Generate Group By statement func (session *Session) GroupBy(keys string) *Session { session.Statement.GroupBy(keys) return session } // Generate Having statement func (session *Session) Having(conditions string) *Session { session.Statement.Having(conditions) return session } func (session *Session) newDb() error { if session.Db == nil { db, err := session.Engine.Pool.RetrieveDB(session.Engine) if err != nil { return err } session.Db = db } return nil } // Begin a transaction func (session *Session) Begin() error { err := session.newDb() if err != nil { return err } if session.IsAutoCommit { tx, err := session.Db.Begin() if err != nil { return err } session.IsAutoCommit = false session.IsCommitedOrRollbacked = false session.Tx = tx session.Engine.LogSQL("BEGIN TRANSACTION") } return nil } // When using transaction, you can rollback if any error func (session *Session) Rollback() error { if !session.IsAutoCommit && !session.IsCommitedOrRollbacked { session.Engine.LogSQL(session.Engine.dialect.RollBackStr()) session.IsCommitedOrRollbacked = true return session.Tx.Rollback() } return nil } // When using transaction, Commit will commit all operations. func (session *Session) Commit() error { if !session.IsAutoCommit && !session.IsCommitedOrRollbacked { session.Engine.LogSQL("COMMIT") session.IsCommitedOrRollbacked = true var err error if err = session.Tx.Commit(); err == nil { // handle processors after tx committed closureCallFunc := func(closuresPtr *[]func(interface{}), bean interface{}) { if closuresPtr != nil { for _, closure := range *closuresPtr { closure(bean) } } } for bean, closuresPtr := range session.afterInsertBeans { closureCallFunc(closuresPtr, bean) if processor, ok := interface{}(bean).(AfterInsertProcessor); ok { processor.AfterInsert() } } for bean, closuresPtr := range session.afterUpdateBeans { closureCallFunc(closuresPtr, bean) if processor, ok := interface{}(bean).(AfterUpdateProcessor); ok { processor.AfterUpdate() } } for bean, closuresPtr := range session.afterDeleteBeans { closureCallFunc(closuresPtr, bean) if processor, ok := interface{}(bean).(AfterDeleteProcessor); ok { processor.AfterDelete() } } cleanUpFunc := func(slices *map[interface{}]*[]func(interface{})) { if len(*slices) > 0 { *slices = make(map[interface{}]*[]func(interface{}), 0) } } cleanUpFunc(&session.afterInsertBeans) cleanUpFunc(&session.afterUpdateBeans) cleanUpFunc(&session.afterDeleteBeans) } return err } return nil } func cleanupProcessorsClosures(slices *[]func(interface{})) { if len(*slices) > 0 { *slices = make([]func(interface{}), 0) } } func (session *Session) scanMapIntoStruct(obj interface{}, objMap map[string][]byte) error { dataStruct := rValue(obj) if dataStruct.Kind() != reflect.Struct { return errors.New("Expected a pointer to a struct") } table := session.Engine.autoMapType(dataStruct) for key, data := range objMap { key = strings.ToLower(key) var col *Column var ok bool if col, ok = table.Columns[key]; !ok { session.Engine.LogWarn(fmt.Sprintf("table %v's has not column %v. %v", table.Name, key, table.ColumnsSeq)) continue } fieldName := col.FieldName fieldPath := strings.Split(fieldName, ".") var fieldValue reflect.Value if len(fieldPath) > 2 { session.Engine.LogError("Unsupported mutliderive", fieldName) continue } else if len(fieldPath) == 2 { parentField := dataStruct.FieldByName(fieldPath[0]) if parentField.IsValid() { fieldValue = parentField.FieldByName(fieldPath[1]) } } else { fieldValue = dataStruct.FieldByName(fieldName) } if !fieldValue.IsValid() || !fieldValue.CanSet() { session.Engine.LogWarn("table %v's column %v is not valid or cannot set", table.Name, key) continue } err := session.bytes2Value(col, &fieldValue, data) if err != nil { return err } } return nil } //Execute sql func (session *Session) innerExec(sqlStr string, args ...interface{}) (sql.Result, error) { rs, err := session.Db.Prepare(sqlStr) if err != nil { return nil, err } defer rs.Close() res, err := rs.Exec(args...) if err != nil { return nil, err } return res, nil } func (session *Session) exec(sqlStr string, args ...interface{}) (sql.Result, error) { for _, filter := range session.Engine.Filters { sqlStr = filter.Do(sqlStr, session) } session.Engine.LogSQL(sqlStr) session.Engine.LogSQL(args) if session.IsAutoCommit { return session.innerExec(sqlStr, args...) } return session.Tx.Exec(sqlStr, args...) } // Exec raw sql func (session *Session) Exec(sqlStr string, args ...interface{}) (sql.Result, error) { err := session.newDb() if err != nil { return nil, err } defer session.Statement.Init() if session.IsAutoClose { defer session.Close() } return session.exec(sqlStr, args...) } // this function create a table according a bean func (session *Session) CreateTable(bean interface{}) error { session.Statement.RefTable = session.Engine.autoMap(bean) err := session.newDb() if err != nil { return err } defer session.Statement.Init() if session.IsAutoClose { defer session.Close() } return session.createOneTable() } // create indexes func (session *Session) CreateIndexes(bean interface{}) error { session.Statement.RefTable = session.Engine.autoMap(bean) err := session.newDb() if err != nil { return err } defer session.Statement.Init() if session.IsAutoClose { defer session.Close() } sqls := session.Statement.genIndexSQL() for _, sqlStr := range sqls { _, err = session.exec(sqlStr) if err != nil { return err } } return nil } // create uniques func (session *Session) CreateUniques(bean interface{}) error { session.Statement.RefTable = session.Engine.autoMap(bean) err := session.newDb() if err != nil { return err } defer session.Statement.Init() if session.IsAutoClose { defer session.Close() } sqls := session.Statement.genUniqueSQL() for _, sqlStr := range sqls { _, err = session.exec(sqlStr) if err != nil { return err } } return nil } func (session *Session) createOneTable() error { sqlStr := session.Statement.genCreateTableSQL() session.Engine.LogDebug("create table sql: [", sqlStr, "]") _, err := session.exec(sqlStr) return err } // to be deleted func (session *Session) createAll() error { err := session.newDb() if err != nil { return err } defer session.Statement.Init() if session.IsAutoClose { defer session.Close() } for _, table := range session.Engine.Tables { session.Statement.RefTable = table err := session.createOneTable() if err != nil { return err } } return nil } // drop indexes func (session *Session) DropIndexes(bean interface{}) error { err := session.newDb() if err != nil { return err } defer session.Statement.Init() if session.IsAutoClose { defer session.Close() } sqls := session.Statement.genDelIndexSQL() for _, sqlStr := range sqls { _, err = session.exec(sqlStr) if err != nil { return err } } return nil } // DropTable drop a table and all indexes of the table func (session *Session) DropTable(bean interface{}) error { err := session.newDb() if err != nil { return err } defer session.Statement.Init() if session.IsAutoClose { defer session.Close() } t := reflect.Indirect(reflect.ValueOf(bean)).Type() defer session.Statement.Init() if t.Kind() == reflect.String { session.Statement.AltTableName = bean.(string) } else if t.Kind() == reflect.Struct { session.Statement.RefTable = session.Engine.autoMap(bean) } else { return errors.New("Unsupported type") } sqlStr := session.Statement.genDropSQL() _, err = session.exec(sqlStr) return err } func (statement *Statement) convertIdSql(sqlStr string) string { if statement.RefTable != nil { col := statement.RefTable.PKColumns()[0] if col != nil { sqls := splitNNoCase(sqlStr, "from", 2) if len(sqls) != 2 { return "" } newsql := fmt.Sprintf("SELECT %v.%v FROM %v", statement.Engine.Quote(statement.TableName()), statement.Engine.Quote(col.Name), sqls[1]) return newsql } } return "" } func (session *Session) cacheGet(bean interface{}, sqlStr string, args ...interface{}) (has bool, err error) { // if has no reftable or number of pks is not equal to 1, then don't use cache currently if session.Statement.RefTable == nil || len(session.Statement.RefTable.PrimaryKeys) != 1 { return false, ErrCacheFailed } for _, filter := range session.Engine.Filters { sqlStr = filter.Do(sqlStr, session) } newsql := session.Statement.convertIdSql(sqlStr) if newsql == "" { return false, ErrCacheFailed } cacher := session.Statement.RefTable.Cacher tableName := session.Statement.TableName() session.Engine.LogDebug("[xorm:cacheGet] find sql:", newsql, args) ids, err := getCacheSql(cacher, tableName, newsql, args) if err != nil { resultsSlice, err := session.query(newsql, args...) if err != nil { return false, err } session.Engine.LogDebug("[xorm:cacheGet] query ids:", resultsSlice) ids = make([]int64, 0) if len(resultsSlice) > 0 { data := resultsSlice[0] var id int64 if v, ok := data[session.Statement.RefTable.PrimaryKeys[0]]; !ok { return false, ErrCacheFailed } else { id, err = strconv.ParseInt(string(v), 10, 64) if err != nil { return false, err } } ids = append(ids, id) } session.Engine.LogDebug("[xorm:cacheGet] cache ids:", newsql, ids) err = putCacheSql(cacher, ids, tableName, newsql, args) if err != nil { return false, err } } else { session.Engine.LogDebug("[xorm:cacheGet] cached sql:", newsql) } if len(ids) > 0 { structValue := reflect.Indirect(reflect.ValueOf(bean)) id := ids[0] session.Engine.LogDebug("[xorm:cacheGet] get bean:", tableName, id) cacheBean := cacher.GetBean(tableName, id) if cacheBean == nil { newSession := session.Engine.NewSession() defer newSession.Close() cacheBean = reflect.New(structValue.Type()).Interface() newSession.Id(id).NoCache() if session.Statement.AltTableName != "" { newSession.Table(session.Statement.AltTableName) } if !session.Statement.UseCascade { newSession.NoCascade() } has, err = newSession.Get(cacheBean) if err != nil || !has { return has, err } session.Engine.LogDebug("[xorm:cacheGet] cache bean:", tableName, id, cacheBean) cacher.PutBean(tableName, id, cacheBean) } else { session.Engine.LogDebug("[xorm:cacheGet] cached bean:", tableName, id, cacheBean) has = true } structValue.Set(reflect.Indirect(reflect.ValueOf(cacheBean))) return has, nil } return false, nil } func (session *Session) cacheFind(t reflect.Type, sqlStr string, rowsSlicePtr interface{}, args ...interface{}) (err error) { if session.Statement.RefTable == nil || len(session.Statement.RefTable.PrimaryKeys) != 1 || indexNoCase(sqlStr, "having") != -1 || indexNoCase(sqlStr, "group by") != -1 { return ErrCacheFailed } for _, filter := range session.Engine.Filters { sqlStr = filter.Do(sqlStr, session) } newsql := session.Statement.convertIdSql(sqlStr) if newsql == "" { return ErrCacheFailed } table := session.Statement.RefTable cacher := table.Cacher ids, err := getCacheSql(cacher, session.Statement.TableName(), newsql, args) if err != nil { //session.Engine.LogError(err) resultsSlice, err := session.query(newsql, args...) if err != nil { return err } // 查询数目太大,采用缓存将不是一个很好的方式。 if len(resultsSlice) > 500 { session.Engine.LogDebug("[xorm:cacheFind] ids length %v > 500, no cache", len(resultsSlice)) return ErrCacheFailed } tableName := session.Statement.TableName() ids = make([]int64, 0) if len(resultsSlice) > 0 { for _, data := range resultsSlice { //fmt.Println(data) var id int64 if v, ok := data[session.Statement.RefTable.PrimaryKeys[0]]; !ok { return errors.New("no id") } else { id, err = strconv.ParseInt(string(v), 10, 64) if err != nil { return err } } ids = append(ids, id) } } session.Engine.LogDebug("[xorm:cacheFind] cache ids:", ids, tableName, newsql, args) err = putCacheSql(cacher, ids, tableName, newsql, args) if err != nil { return err } } else { session.Engine.LogDebug("[xorm:cacheFind] cached sql:", newsql, args) } sliceValue := reflect.Indirect(reflect.ValueOf(rowsSlicePtr)) pkFieldName := session.Statement.RefTable.PKColumns()[0].FieldName ididxes := make(map[int64]int) var ides []interface{} = make([]interface{}, 0) var temps []interface{} = make([]interface{}, len(ids)) tableName := session.Statement.TableName() for idx, id := range ids { bean := cacher.GetBean(tableName, id) if bean == nil { ides = append(ides, id) ididxes[id] = idx } else { session.Engine.LogDebug("[xorm:cacheFind] cached bean:", tableName, id, bean) pkField := reflect.Indirect(reflect.ValueOf(bean)).FieldByName(pkFieldName) var sid int64 switch pkField.Type().Kind() { case reflect.Int32, reflect.Int, reflect.Int64: sid = pkField.Int() case reflect.Uint, reflect.Uint32, reflect.Uint64: sid = int64(pkField.Uint()) default: return ErrCacheFailed } if sid != id { session.Engine.LogError("[xorm:cacheFind] error cache", id, sid, bean) return ErrCacheFailed } temps[idx] = bean } } if len(ides) > 0 { newSession := session.Engine.NewSession() defer newSession.Close() slices := reflect.New(reflect.SliceOf(t)) beans := slices.Interface() //beans := reflect.New(sliceValue.Type()).Interface() //err = newSession.In("(id)", ides...).OrderBy(session.Statement.OrderStr).NoCache().Find(beans) err = newSession.In("(id)", ides...).NoCache().Find(beans) if err != nil { return err } vs := reflect.Indirect(reflect.ValueOf(beans)) for i := 0; i < vs.Len(); i++ { rv := vs.Index(i) if rv.Kind() != reflect.Ptr { rv = rv.Addr() } bean := rv.Interface() id := reflect.Indirect(reflect.ValueOf(bean)).FieldByName(pkFieldName).Int() //bean := vs.Index(i).Addr().Interface() temps[ididxes[id]] = bean //temps[idxes[i]] = bean session.Engine.LogDebug("[xorm:cacheFind] cache bean:", tableName, id, bean) cacher.PutBean(tableName, id, bean) } } for j := 0; j < len(temps); j++ { bean := temps[j] if bean == nil { session.Engine.LogError("[xorm:cacheFind] cache error:", tableName, ides[j], bean) return errors.New("cache error") } if sliceValue.Kind() == reflect.Slice { if t.Kind() == reflect.Ptr { sliceValue.Set(reflect.Append(sliceValue, reflect.ValueOf(bean))) } else { sliceValue.Set(reflect.Append(sliceValue, reflect.Indirect(reflect.ValueOf(bean)))) } } else if sliceValue.Kind() == reflect.Map { var key int64 if table.PrimaryKeys[0] != "" { key = ids[j] } else { key = int64(j) } if t.Kind() == reflect.Ptr { sliceValue.SetMapIndex(reflect.ValueOf(key), reflect.ValueOf(bean)) } else { sliceValue.SetMapIndex(reflect.ValueOf(key), reflect.Indirect(reflect.ValueOf(bean))) } } /*} else { session.Engine.LogDebug("[xorm:cacheFind] cache delete:", tableName, ides[j]) cacher.DelBean(tableName, ids[j]) session.Engine.LogDebug("[xorm:cacheFind] cache clear:", tableName) cacher.ClearIds(tableName) }*/ } return nil } // IterFunc only use by Iterate type IterFunc func(idx int, bean interface{}) error // Return sql.Rows compatible Rows obj, as a forward Iterator object for iterating record by record, bean's non-empty fields // are conditions. func (session *Session) Rows(bean interface{}) (*Rows, error) { return newRows(session, bean) } // Iterate record by record handle records from table, condiBeans's non-empty fields // are conditions. beans could be []Struct, []*Struct, map[int64]Struct // map[int64]*Struct func (session *Session) Iterate(bean interface{}, fun IterFunc) error { rows, err := session.Rows(bean) if err != nil { return err } else { defer rows.Close() //b := reflect.New(iterator.beanType).Interface() i := 0 for rows.Next() { b := reflect.New(rows.beanType).Interface() err = rows.Scan(b) if err != nil { return err } err = fun(i, b) if err != nil { return err } i++ } return err } return nil } // get retrieve one record from database, bean's non-empty fields // will be as conditions func (session *Session) Get(bean interface{}) (bool, error) { err := session.newDb() if err != nil { return false, err } defer session.Statement.Init() if session.IsAutoClose { defer session.Close() } session.Statement.Limit(1) var sqlStr string var args []interface{} session.Statement.RefTable = session.Engine.autoMap(bean) if session.Statement.RawSQL == "" { sqlStr, args = session.Statement.genGetSql(bean) } else { sqlStr = session.Statement.RawSQL args = session.Statement.RawParams } if session.Statement.RefTable.Cacher != nil && session.Statement.UseCache { has, err := session.cacheGet(bean, sqlStr, args...) if err != ErrCacheFailed { return has, err } } var rawRows *sql.Rows session.queryPreprocess(&sqlStr, args...) if session.IsAutoCommit { stmt, err := session.Db.Prepare(sqlStr) if err != nil { return false, err } defer stmt.Close() rawRows, err = stmt.Query(args...) } else { rawRows, err = session.Tx.Query(sqlStr, args...) } if err != nil { return false, err } defer rawRows.Close() if rawRows.Next() { if fields, err := rawRows.Columns(); err == nil { err = session.row2Bean(rawRows, fields, len(fields), bean) } return true, err } else { return false, nil } // resultsSlice, err := session.query(sqlStr, args...) // if err != nil { // return false, err // } // if len(resultsSlice) < 1 { // return false, nil // } // err = session.scanMapIntoStruct(bean, resultsSlice[0]) // if err != nil { // return true, err // } // if len(resultsSlice) == 1 { // return true, nil // } else { // return true, errors.New("More than one record") // } } // Count counts the records. bean's non-empty fields // are conditions. func (session *Session) Count(bean interface{}) (int64, error) { err := session.newDb() if err != nil { return 0, err } defer session.Statement.Init() if session.IsAutoClose { defer session.Close() } var sqlStr string var args []interface{} if session.Statement.RawSQL == "" { sqlStr, args = session.Statement.genCountSql(bean) } else { sqlStr = session.Statement.RawSQL args = session.Statement.RawParams } resultsSlice, err := session.query(sqlStr, args...) if err != nil { return 0, err } var total int64 = 0 if len(resultsSlice) > 0 { results := resultsSlice[0] for _, value := range results { total, err = strconv.ParseInt(string(value), 10, 64) break } } return int64(total), err } // Find retrieve records from table, condiBeans's non-empty fields // are conditions. beans could be []Struct, []*Struct, map[int64]Struct // map[int64]*Struct func (session *Session) Find(rowsSlicePtr interface{}, condiBean ...interface{}) error { err := session.newDb() if err != nil { return err } defer session.Statement.Init() if session.IsAutoClose { defer session.Close() } sliceValue := reflect.Indirect(reflect.ValueOf(rowsSlicePtr)) if sliceValue.Kind() != reflect.Slice && sliceValue.Kind() != reflect.Map { return errors.New("needs a pointer to a slice or a map") } sliceElementType := sliceValue.Type().Elem() var table *Table if session.Statement.RefTable == nil { if sliceElementType.Kind() == reflect.Ptr { if sliceElementType.Elem().Kind() == reflect.Struct { pv := reflect.New(sliceElementType.Elem()) table = session.Engine.autoMapType(pv.Elem()) } else { return errors.New("slice type") } } else if sliceElementType.Kind() == reflect.Struct { pv := reflect.New(sliceElementType) table = session.Engine.autoMapType(pv.Elem()) } else { return errors.New("slice type") } session.Statement.RefTable = table } else { table = session.Statement.RefTable } if len(condiBean) > 0 { colNames, args := buildConditions(session.Engine, table, condiBean[0], true, true, false, true, session.Statement.allUseBool, session.Statement.useAllCols, session.Statement.mustColumnMap) session.Statement.ConditionStr = strings.Join(colNames, " AND ") session.Statement.BeanArgs = args } var sqlStr string var args []interface{} if session.Statement.RawSQL == "" { var columnStr string = session.Statement.ColumnStr if columnStr == "" { columnStr = session.Statement.genColumnStr() } session.Statement.attachInSql() sqlStr = session.Statement.genSelectSql(columnStr) args = append(session.Statement.Params, session.Statement.BeanArgs...) } else { sqlStr = session.Statement.RawSQL args = session.Statement.RawParams } if table.Cacher != nil && session.Statement.UseCache && !session.Statement.IsDistinct { err = session.cacheFind(sliceElementType, sqlStr, rowsSlicePtr, args...) if err != ErrCacheFailed { return err } err = nil // !nashtsai! reset err to nil for ErrCacheFailed session.Engine.LogWarn("Cache Find Failed") } if sliceValue.Kind() != reflect.Map { var rawRows *sql.Rows var stmt *sql.Stmt session.queryPreprocess(&sqlStr, args...) // err = session.queryRows(&stmt, &rawRows, sqlStr, args...) // if err != nil { // return err // } // if stmt != nil { // defer stmt.Close() // } // defer rawRows.Close() if session.IsAutoCommit { stmt, err = session.Db.Prepare(sqlStr) if err != nil { return err } defer stmt.Close() rawRows, err = stmt.Query(args...) } else { rawRows, err = session.Tx.Query(sqlStr, args...) } if err != nil { return err } defer rawRows.Close() fields, err := rawRows.Columns() if err != nil { return err } fieldsCount := len(fields) for rawRows.Next() { var newValue reflect.Value if sliceElementType.Kind() == reflect.Ptr { newValue = reflect.New(sliceElementType.Elem()) } else { newValue = reflect.New(sliceElementType) } err := session.row2Bean(rawRows, fields, fieldsCount, newValue.Interface()) if err != nil { return err } if sliceValue.Kind() == reflect.Slice { if sliceElementType.Kind() == reflect.Ptr { sliceValue.Set(reflect.Append(sliceValue, reflect.ValueOf(newValue.Interface()))) } else { sliceValue.Set(reflect.Append(sliceValue, reflect.Indirect(reflect.ValueOf(newValue.Interface())))) } } } } else { resultsSlice, err := session.query(sqlStr, args...) if err != nil { return err } for i, results := range resultsSlice { var newValue reflect.Value if sliceElementType.Kind() == reflect.Ptr { newValue = reflect.New(sliceElementType.Elem()) } else { newValue = reflect.New(sliceElementType) } err := session.scanMapIntoStruct(newValue.Interface(), results) if err != nil { return err } var key int64 // if there is only one pk, we can put the id as map key. // TODO: should know if the column is ints if len(table.PrimaryKeys) == 1 { x, err := strconv.ParseInt(string(results[table.PrimaryKeys[0]]), 10, 64) if err != nil { return errors.New("pk " + table.PrimaryKeys[0] + " as int64: " + err.Error()) } key = x } else { key = int64(i) } if sliceElementType.Kind() == reflect.Ptr { sliceValue.SetMapIndex(reflect.ValueOf(key), reflect.ValueOf(newValue.Interface())) } else { sliceValue.SetMapIndex(reflect.ValueOf(key), reflect.Indirect(reflect.ValueOf(newValue.Interface()))) } } } return nil } func (session *Session) queryRows(rawStmt **sql.Stmt, rawRows **sql.Rows, sqlStr string, args ...interface{}) error { var err error if session.IsAutoCommit { *rawStmt, err = session.Db.Prepare(sqlStr) if err != nil { return err } *rawRows, err = (*rawStmt).Query(args...) } else { *rawRows, err = session.Tx.Query(sqlStr, args...) } return err } // Test if database is ok func (session *Session) Ping() error { err := session.newDb() if err != nil { return err } defer session.Statement.Init() if session.IsAutoClose { defer session.Close() } return session.Db.Ping() } func (session *Session) isColumnExist(tableName, colName string) (bool, error) { err := session.newDb() if err != nil { return false, err } defer session.Statement.Init() if session.IsAutoClose { defer session.Close() } sqlStr, args := session.Engine.dialect.ColumnCheckSql(tableName, colName) results, err := session.query(sqlStr, args...) return len(results) > 0, err } func (session *Session) isTableExist(tableName string) (bool, error) { err := session.newDb() if err != nil { return false, err } defer session.Statement.Init() if session.IsAutoClose { defer session.Close() } sqlStr, args := session.Engine.dialect.TableCheckSql(tableName) results, err := session.query(sqlStr, args...) return len(results) > 0, err } func (session *Session) isIndexExist(tableName, idxName string, unique bool) (bool, error) { err := session.newDb() if err != nil { return false, err } defer session.Statement.Init() if session.IsAutoClose { defer session.Close() } var idx string if unique { idx = uniqueName(tableName, idxName) } else { idx = indexName(tableName, idxName) } sqlStr, args := session.Engine.dialect.IndexCheckSql(tableName, idx) results, err := session.query(sqlStr, args...) return len(results) > 0, err } // find if index is exist according cols func (session *Session) isIndexExist2(tableName string, cols []string, unique bool) (bool, error) { indexes, err := session.Engine.dialect.GetIndexes(tableName) if err != nil { return false, err } for _, index := range indexes { if sliceEq(index.Cols, cols) { if unique { return index.Type == UniqueType, nil } else { return index.Type == IndexType, nil } } } return false, nil } func (session *Session) addColumn(colName string) error { err := session.newDb() if err != nil { return err } defer session.Statement.Init() if session.IsAutoClose { defer session.Close() } //fmt.Println(session.Statement.RefTable) col := session.Statement.RefTable.Columns[strings.ToLower(colName)] sql, args := session.Statement.genAddColumnStr(col) _, err = session.exec(sql, args...) return err } func (session *Session) addIndex(tableName, idxName string) error { err := session.newDb() if err != nil { return err } defer session.Statement.Init() if session.IsAutoClose { defer session.Close() } //fmt.Println(idxName) cols := session.Statement.RefTable.Indexes[idxName].Cols sqlStr, args := session.Statement.genAddIndexStr(indexName(tableName, idxName), cols) _, err = session.exec(sqlStr, args...) return err } func (session *Session) addUnique(tableName, uqeName string) error { err := session.newDb() if err != nil { return err } defer session.Statement.Init() if session.IsAutoClose { defer session.Close() } //fmt.Println(uqeName, session.Statement.RefTable.Uniques) cols := session.Statement.RefTable.Indexes[uqeName].Cols sqlStr, args := session.Statement.genAddUniqueStr(uniqueName(tableName, uqeName), cols) _, err = session.exec(sqlStr, args...) return err } // To be deleted func (session *Session) dropAll() error { err := session.newDb() if err != nil { return err } defer session.Statement.Init() if session.IsAutoClose { defer session.Close() } for _, table := range session.Engine.Tables { session.Statement.Init() session.Statement.RefTable = table sqlStr := session.Statement.genDropSQL() _, err := session.exec(sqlStr) if err != nil { return err } } return nil } func row2map(rows *sql.Rows, fields []string) (resultsMap map[string][]byte, err error) { result := make(map[string][]byte) var scanResultContainers []interface{} for i := 0; i < len(fields); i++ { var scanResultContainer interface{} scanResultContainers = append(scanResultContainers, &scanResultContainer) } if err := rows.Scan(scanResultContainers...); err != nil { return nil, err } for ii, key := range fields { rawValue := reflect.Indirect(reflect.ValueOf(scanResultContainers[ii])) //if row is null then ignore if rawValue.Interface() == nil { //fmt.Println("ignore ...", key, rawValue) continue } if data, err := value2Bytes(&rawValue); err == nil { result[key] = data } else { return nil, err // !nashtsai! REVIEW, should return err or just error log? } } return result, nil } func (session *Session) getField(dataStruct *reflect.Value, key string, table *Table) *reflect.Value { key = strings.ToLower(key) if _, ok := table.Columns[key]; !ok { session.Engine.LogWarn(fmt.Sprintf("table %v's has not column %v. %v", table.Name, key, table.ColumnsSeq)) return nil } col := table.Columns[key] fieldName := col.FieldName fieldPath := strings.Split(fieldName, ".") var fieldValue reflect.Value if len(fieldPath) > 2 { session.Engine.LogError("Unsupported mutliderive", fieldName) return nil } else if len(fieldPath) == 2 { parentField := dataStruct.FieldByName(fieldPath[0]) if parentField.IsValid() { fieldValue = parentField.FieldByName(fieldPath[1]) } } else { fieldValue = dataStruct.FieldByName(fieldName) } if !fieldValue.IsValid() || !fieldValue.CanSet() { session.Engine.LogWarn("table %v's column %v is not valid or cannot set", table.Name, key) return nil } return &fieldValue } func (session *Session) row2Bean(rows *sql.Rows, fields []string, fieldsCount int, bean interface{}) error { dataStruct := rValue(bean) if dataStruct.Kind() != reflect.Struct { return errors.New("Expected a pointer to a struct") } table := session.Engine.autoMapType(dataStruct) var scanResultContainers []interface{} for i := 0; i < fieldsCount; i++ { var scanResultContainer interface{} scanResultContainers = append(scanResultContainers, &scanResultContainer) } if err := rows.Scan(scanResultContainers...); err != nil { return err } for ii, key := range fields { if fieldValue := session.getField(&dataStruct, key, table); fieldValue != nil { rawValue := reflect.Indirect(reflect.ValueOf(scanResultContainers[ii])) //if row is null then ignore if rawValue.Interface() == nil { //fmt.Println("ignore ...", key, rawValue) continue } if structConvert, ok := fieldValue.Addr().Interface().(Conversion); ok { if data, err := value2Bytes(&rawValue); err == nil { structConvert.FromDB(data) } else { session.Engine.LogError(err) } continue } rawValueType := reflect.TypeOf(rawValue.Interface()) vv := reflect.ValueOf(rawValue.Interface()) fieldType := fieldValue.Type() //fmt.Println("column name:", key, ", fieldType:", fieldType.String()) hasAssigned := false switch fieldType.Kind() { case reflect.Complex64, reflect.Complex128: if rawValueType.Kind() == reflect.String { hasAssigned = true x := reflect.New(fieldType) err := json.Unmarshal([]byte(vv.String()), x.Interface()) if err != nil { session.Engine.LogSQL(err) return err } fieldValue.Set(x.Elem()) } case reflect.Slice, reflect.Array: switch rawValueType.Kind() { case reflect.Slice, reflect.Array: switch rawValueType.Elem().Kind() { case reflect.Uint8: if fieldType.Elem().Kind() == reflect.Uint8 { hasAssigned = true fieldValue.Set(vv) } } } case reflect.String: if rawValueType.Kind() == reflect.String { hasAssigned = true fieldValue.SetString(vv.String()) } case reflect.Bool: if rawValueType.Kind() == reflect.Bool { hasAssigned = true fieldValue.SetBool(vv.Bool()) } case reflect.Int, reflect.Int8, reflect.Int16, reflect.Int32, reflect.Int64: switch rawValueType.Kind() { case reflect.Int, reflect.Int8, reflect.Int16, reflect.Int32, reflect.Int64: hasAssigned = true fieldValue.SetInt(vv.Int()) } case reflect.Float32, reflect.Float64: switch rawValueType.Kind() { case reflect.Float32, reflect.Float64: hasAssigned = true fieldValue.SetFloat(vv.Float()) } case reflect.Uint8, reflect.Uint16, reflect.Uint32, reflect.Uint64, reflect.Uint: switch rawValueType.Kind() { case reflect.Uint8, reflect.Uint16, reflect.Uint32, reflect.Uint64, reflect.Uint: hasAssigned = true fieldValue.SetUint(vv.Uint()) case reflect.Int, reflect.Int8, reflect.Int16, reflect.Int32, reflect.Int64: hasAssigned = true fieldValue.SetUint(uint64(vv.Int())) } case reflect.Struct: if fieldType == reflect.TypeOf(c_TIME_DEFAULT) { if rawValueType == reflect.TypeOf(c_TIME_DEFAULT) { hasAssigned = true fieldValue.Set(vv) } } else if session.Statement.UseCascade { table := session.Engine.autoMapType(*fieldValue) if table != nil { var x int64 if rawValueType.Kind() == reflect.Int64 { x = vv.Int() } if x != 0 { // !nashtsai! TODO for hasOne relationship, it's preferred to use join query for eager fetch // however, also need to consider adding a 'lazy' attribute to xorm tag which allow hasOne // property to be fetched lazily structInter := reflect.New(fieldValue.Type()) newsession := session.Engine.NewSession() defer newsession.Close() has, err := newsession.Id(x).Get(structInter.Interface()) if err != nil { return err } if has { v := structInter.Elem().Interface() fieldValue.Set(reflect.ValueOf(v)) } else { return errors.New("cascade obj is not exist!") } } } else { session.Engine.LogError("unsupported struct type in Scan: ", fieldValue.Type().String()) } } case reflect.Ptr: // !nashtsai! TODO merge duplicated codes above //typeStr := fieldType.String() switch fieldType { // following types case matching ptr's native type, therefore assign ptr directly case reflect.TypeOf(&c_EMPTY_STRING): if rawValueType.Kind() == reflect.String { x := vv.String() hasAssigned = true fieldValue.Set(reflect.ValueOf(&x)) } case reflect.TypeOf(&c_BOOL_DEFAULT): if rawValueType.Kind() == reflect.Bool { x := vv.Bool() hasAssigned = true fieldValue.Set(reflect.ValueOf(&x)) } case reflect.TypeOf(&c_TIME_DEFAULT): if rawValueType == reflect.TypeOf(c_TIME_DEFAULT) { hasAssigned = true var x time.Time = rawValue.Interface().(time.Time) fieldValue.Set(reflect.ValueOf(&x)) } case reflect.TypeOf(&c_FLOAT64_DEFAULT): if rawValueType.Kind() == reflect.Float64 { x := vv.Float() hasAssigned = true fieldValue.Set(reflect.ValueOf(&x)) } case reflect.TypeOf(&c_UINT64_DEFAULT): if rawValueType.Kind() == reflect.Int64 { var x uint64 = uint64(vv.Int()) hasAssigned = true fieldValue.Set(reflect.ValueOf(&x)) } case reflect.TypeOf(&c_INT64_DEFAULT): if rawValueType.Kind() == reflect.Int64 { x := vv.Int() hasAssigned = true fieldValue.Set(reflect.ValueOf(&x)) } case reflect.TypeOf(&c_FLOAT32_DEFAULT): if rawValueType.Kind() == reflect.Float64 { var x float32 = float32(vv.Float()) hasAssigned = true fieldValue.Set(reflect.ValueOf(&x)) } case reflect.TypeOf(&c_INT_DEFAULT): if rawValueType.Kind() == reflect.Int64 { var x int = int(vv.Int()) hasAssigned = true fieldValue.Set(reflect.ValueOf(&x)) } case reflect.TypeOf(&c_INT32_DEFAULT): if rawValueType.Kind() == reflect.Int64 { var x int32 = int32(vv.Int()) hasAssigned = true fieldValue.Set(reflect.ValueOf(&x)) } case reflect.TypeOf(&c_INT8_DEFAULT): if rawValueType.Kind() == reflect.Int64 { var x int8 = int8(vv.Int()) hasAssigned = true fieldValue.Set(reflect.ValueOf(&x)) } case reflect.TypeOf(&c_INT16_DEFAULT): if rawValueType.Kind() == reflect.Int64 { var x int16 = int16(vv.Int()) hasAssigned = true fieldValue.Set(reflect.ValueOf(&x)) } case reflect.TypeOf(&c_UINT_DEFAULT): if rawValueType.Kind() == reflect.Int64 { var x uint = uint(vv.Int()) hasAssigned = true fieldValue.Set(reflect.ValueOf(&x)) } case reflect.TypeOf(&c_UINT32_DEFAULT): if rawValueType.Kind() == reflect.Int64 { var x uint32 = uint32(vv.Int()) hasAssigned = true fieldValue.Set(reflect.ValueOf(&x)) } case reflect.TypeOf(&c_UINT8_DEFAULT): if rawValueType.Kind() == reflect.Int64 { var x uint8 = uint8(vv.Int()) hasAssigned = true fieldValue.Set(reflect.ValueOf(&x)) } case reflect.TypeOf(&c_UINT16_DEFAULT): if rawValueType.Kind() == reflect.Int64 { var x uint16 = uint16(vv.Int()) hasAssigned = true fieldValue.Set(reflect.ValueOf(&x)) } case reflect.TypeOf(&c_COMPLEX64_DEFAULT): var x complex64 err := json.Unmarshal([]byte(vv.String()), &x) if err != nil { session.Engine.LogError(err) } else { fieldValue.Set(reflect.ValueOf(&x)) } hasAssigned = true case reflect.TypeOf(&c_COMPLEX128_DEFAULT): var x complex128 err := json.Unmarshal([]byte(vv.String()), &x) if err != nil { session.Engine.LogError(err) } else { fieldValue.Set(reflect.ValueOf(&x)) } hasAssigned = true } // switch fieldType // default: // session.Engine.LogError("unsupported type in Scan: ", reflect.TypeOf(v).String()) } // switch fieldType.Kind() // !nashtsai! for value can't be assigned directly fallback to convert to []byte then back to value if !hasAssigned { data, err := value2Bytes(&rawValue) if err == nil { session.bytes2Value(table.Columns[strings.ToLower(key)], fieldValue, data) } else { session.Engine.LogError(err.Error()) } } } } return nil } func (session *Session) queryPreprocess(sqlStr *string, paramStr ...interface{}) { for _, filter := range session.Engine.Filters { *sqlStr = filter.Do(*sqlStr, session) } session.Engine.LogSQL(*sqlStr) session.Engine.LogSQL(paramStr) } func (session *Session) query(sqlStr string, paramStr ...interface{}) (resultsSlice []map[string][]byte, err error) { session.queryPreprocess(&sqlStr, paramStr...) if session.IsAutoCommit { return query(session.Db, sqlStr, paramStr...) } return txQuery(session.Tx, sqlStr, paramStr...) } func txQuery(tx *sql.Tx, sqlStr string, params ...interface{}) (resultsSlice []map[string][]byte, err error) { rows, err := tx.Query(sqlStr, params...) if err != nil { return nil, err } defer rows.Close() return rows2maps(rows) } func query(db *sql.DB, sqlStr string, params ...interface{}) (resultsSlice []map[string][]byte, err error) { s, err := db.Prepare(sqlStr) if err != nil { return nil, err } defer s.Close() rows, err := s.Query(params...) if err != nil { return nil, err } defer rows.Close() //fmt.Println(rows) return rows2maps(rows) } // Exec a raw sql and return records as []map[string][]byte func (session *Session) Query(sqlStr string, paramStr ...interface{}) (resultsSlice []map[string][]byte, err error) { err = session.newDb() if err != nil { return nil, err } defer session.Statement.Init() if session.IsAutoClose { defer session.Close() } return session.query(sqlStr, paramStr...) } // insert one or more beans func (session *Session) Insert(beans ...interface{}) (int64, error) { var affected int64 = 0 var err error = nil err = session.newDb() if err != nil { return 0, err } defer session.Statement.Init() if session.IsAutoClose { defer session.Close() } for _, bean := range beans { sliceValue := reflect.Indirect(reflect.ValueOf(bean)) if sliceValue.Kind() == reflect.Slice { if session.Engine.SupportInsertMany() { cnt, err := session.innerInsertMulti(bean) if err != nil { return affected, err } affected += cnt } else { size := sliceValue.Len() for i := 0; i < size; i++ { cnt, err := session.innerInsert(sliceValue.Index(i).Interface()) if err != nil { return affected, err } affected += cnt } } } else { cnt, err := session.innerInsert(bean) if err != nil { return affected, err } affected += cnt } } return affected, err } func (session *Session) innerInsertMulti(rowsSlicePtr interface{}) (int64, error) { sliceValue := reflect.Indirect(reflect.ValueOf(rowsSlicePtr)) if sliceValue.Kind() != reflect.Slice { return 0, errors.New("needs a pointer to a slice") } bean := sliceValue.Index(0).Interface() elementValue := rValue(bean) //sliceElementType := elementValue.Type() table := session.Engine.autoMapType(elementValue) session.Statement.RefTable = table size := sliceValue.Len() colNames := make([]string, 0) colMultiPlaces := make([]string, 0) var args = make([]interface{}, 0) cols := make([]*Column, 0) for i := 0; i < size; i++ { elemValue := sliceValue.Index(i).Interface() colPlaces := make([]string, 0) // handle BeforeInsertProcessor // !nashtsai! does user expect it's same slice to passed closure when using Before()/After() when insert multi?? for _, closure := range session.beforeClosures { closure(elemValue) } if processor, ok := interface{}(elemValue).(BeforeInsertProcessor); ok { processor.BeforeInsert() } // -- if i == 0 { for _, col := range table.Columns { fieldValue := reflect.Indirect(reflect.ValueOf(elemValue)).FieldByName(col.FieldName) if col.IsAutoIncrement && fieldValue.Int() == 0 { continue } if col.MapType == ONLYFROMDB { continue } if session.Statement.ColumnStr != "" { if _, ok := session.Statement.columnMap[col.Name]; !ok { continue } } if (col.IsCreated || col.IsUpdated) && session.Statement.UseAutoTime { args = append(args, session.Engine.NowTime(col.SQLType.Name)) } else { arg, err := session.value2Interface(col, fieldValue) if err != nil { return 0, err } args = append(args, arg) } colNames = append(colNames, col.Name) cols = append(cols, col) colPlaces = append(colPlaces, "?") } } else { for _, col := range cols { fieldValue := reflect.Indirect(reflect.ValueOf(elemValue)).FieldByName(col.FieldName) if col.IsAutoIncrement && fieldValue.Int() == 0 { continue } if col.MapType == ONLYFROMDB { continue } if session.Statement.ColumnStr != "" { if _, ok := session.Statement.columnMap[col.Name]; !ok { continue } } if (col.IsCreated || col.IsUpdated) && session.Statement.UseAutoTime { args = append(args, session.Engine.NowTime(col.SQLType.Name)) } else { arg, err := session.value2Interface(col, fieldValue) if err != nil { return 0, err } args = append(args, arg) } colPlaces = append(colPlaces, "?") } } colMultiPlaces = append(colMultiPlaces, strings.Join(colPlaces, ", ")) } cleanupProcessorsClosures(&session.beforeClosures) statement := fmt.Sprintf("INSERT INTO %v%v%v (%v%v%v) VALUES (%v)", session.Engine.QuoteStr(), session.Statement.TableName(), session.Engine.QuoteStr(), session.Engine.QuoteStr(), strings.Join(colNames, session.Engine.QuoteStr()+", "+session.Engine.QuoteStr()), session.Engine.QuoteStr(), strings.Join(colMultiPlaces, "),(")) res, err := session.exec(statement, args...) if err != nil { return 0, err } if table.Cacher != nil && session.Statement.UseCache { session.cacheInsert(session.Statement.TableName()) } lenAfterClosures := len(session.afterClosures) for i := 0; i < size; i++ { elemValue := sliceValue.Index(i).Interface() // handle AfterInsertProcessor if session.IsAutoCommit { // !nashtsai! does user expect it's same slice to passed closure when using Before()/After() when insert multi?? for _, closure := range session.afterClosures { closure(elemValue) } if processor, ok := interface{}(elemValue).(AfterInsertProcessor); ok { processor.AfterInsert() } } else { if lenAfterClosures > 0 { if value, has := session.afterInsertBeans[elemValue]; has && value != nil { *value = append(*value, session.afterClosures...) } else { afterClosures := make([]func(interface{}), lenAfterClosures) copy(afterClosures, session.afterClosures) session.afterInsertBeans[elemValue] = &afterClosures } } else { if _, ok := interface{}(elemValue).(AfterInsertProcessor); ok { session.afterInsertBeans[elemValue] = nil } } } } cleanupProcessorsClosures(&session.afterClosures) return res.RowsAffected() } // Insert multiple records func (session *Session) InsertMulti(rowsSlicePtr interface{}) (int64, error) { err := session.newDb() if err != nil { return 0, err } defer session.Statement.Init() if session.IsAutoClose { defer session.Close() } return session.innerInsertMulti(rowsSlicePtr) } func (session *Session) byte2Time(col *Column, data []byte) (outTime time.Time, outErr error) { sdata := strings.TrimSpace(string(data)) var x time.Time var err error if sdata == "0000-00-00 00:00:00" || sdata == "0001-01-01 00:00:00" { } else if !strings.ContainsAny(sdata, "- :") { // time stamp sd, err := strconv.ParseInt(sdata, 10, 64) if err == nil { x = time.Unix(0, sd) } } else if len(sdata) > 19 { x, err = time.ParseInLocation(time.RFC3339Nano, sdata, session.Engine.TZLocation()) if err != nil { x, err = time.ParseInLocation("2006-01-02 15:04:05.999999999", sdata, session.Engine.TZLocation()) } if err != nil { x, err = time.ParseInLocation("2006-01-02 15:04:05.9999999 Z07:00", sdata, session.Engine.TZLocation()) } } else if len(sdata) == 19 { x, err = time.ParseInLocation("2006-01-02 15:04:05", sdata, session.Engine.TZLocation()) } else if len(sdata) == 10 && sdata[4] == '-' && sdata[7] == '-' { x, err = time.ParseInLocation("2006-01-02", sdata, session.Engine.TZLocation()) } else if col.SQLType.Name == Time { if strings.Contains(sdata, " ") { ssd := strings.Split(sdata, " ") sdata = ssd[1] } sdata = strings.TrimSpace(sdata) //fmt.Println(sdata) if session.Engine.dialect.DBType() == MYSQL && len(sdata) > 8 { sdata = sdata[len(sdata)-8:] } //fmt.Println(sdata) st := fmt.Sprintf("2006-01-02 %v", sdata) x, err = time.ParseInLocation("2006-01-02 15:04:05", st, session.Engine.TZLocation()) } else { outErr = errors.New(fmt.Sprintf("unsupported time format %v", sdata)) return } if err != nil { outErr = errors.New(fmt.Sprintf("unsupported time format %v: %v", sdata, err)) return } outTime = x return } // convert a db data([]byte) to a field value func (session *Session) bytes2Value(col *Column, fieldValue *reflect.Value, data []byte) error { if structConvert, ok := fieldValue.Addr().Interface().(Conversion); ok { return structConvert.FromDB(data) } var v interface{} key := col.Name fieldType := fieldValue.Type() //fmt.Println("column name:", key, ", fieldType:", fieldType.String()) switch fieldType.Kind() { case reflect.Complex64, reflect.Complex128: x := reflect.New(fieldType) err := json.Unmarshal(data, x.Interface()) if err != nil { session.Engine.LogError(err) return err } fieldValue.Set(x.Elem()) case reflect.Slice, reflect.Array, reflect.Map: v = data t := fieldType.Elem() k := t.Kind() if col.SQLType.IsText() { x := reflect.New(fieldType) err := json.Unmarshal(data, x.Interface()) if err != nil { session.Engine.LogError(err) return err } fieldValue.Set(x.Elem()) } else if col.SQLType.IsBlob() { if k == reflect.Uint8 { fieldValue.Set(reflect.ValueOf(v)) } else { x := reflect.New(fieldType) err := json.Unmarshal(data, x.Interface()) if err != nil { session.Engine.LogError(err) return err } fieldValue.Set(x.Elem()) } } else { return ErrUnSupportedType } case reflect.String: fieldValue.SetString(string(data)) case reflect.Bool: d := string(data) v, err := strconv.ParseBool(d) if err != nil { return fmt.Errorf("arg %v as bool: %s", key, err.Error()) } fieldValue.Set(reflect.ValueOf(v)) case reflect.Int, reflect.Int8, reflect.Int16, reflect.Int32, reflect.Int64: sdata := string(data) var x int64 var err error // for mysql, when use bit, it returned \x01 if col.SQLType.Name == Bit && session.Engine.dialect.DBType() == MYSQL { if len(data) == 1 { x = int64(data[0]) } else { x = 0 } //fmt.Println("######", x, data) } else if strings.HasPrefix(sdata, "0x") { x, err = strconv.ParseInt(sdata, 16, 64) } else if strings.HasPrefix(sdata, "0") { x, err = strconv.ParseInt(sdata, 8, 64) } else if strings.ToLower(sdata) == "true" { x = 1 } else if strings.ToLower(sdata) == "false" { x = 0 } else { x, err = strconv.ParseInt(sdata, 10, 64) } if err != nil { return fmt.Errorf("arg %v as int: %s", key, err.Error()) } fieldValue.SetInt(x) case reflect.Float32, reflect.Float64: x, err := strconv.ParseFloat(string(data), 64) if err != nil { return fmt.Errorf("arg %v as float64: %s", key, err.Error()) } fieldValue.SetFloat(x) case reflect.Uint8, reflect.Uint16, reflect.Uint32, reflect.Uint64, reflect.Uint: x, err := strconv.ParseUint(string(data), 10, 64) if err != nil { return fmt.Errorf("arg %v as int: %s", key, err.Error()) } fieldValue.SetUint(x) //Currently only support Time type case reflect.Struct: if fieldType == reflect.TypeOf(c_TIME_DEFAULT) { x, err := session.byte2Time(col, data) if err != nil { return err } v = x fieldValue.Set(reflect.ValueOf(v)) } else if session.Statement.UseCascade { table := session.Engine.autoMapType(*fieldValue) if table != nil { x, err := strconv.ParseInt(string(data), 10, 64) if err != nil { return fmt.Errorf("arg %v as int: %s", key, err.Error()) } if x != 0 { // !nashtsai! TODO for hasOne relationship, it's preferred to use join query for eager fetch // however, also need to consider adding a 'lazy' attribute to xorm tag which allow hasOne // property to be fetched lazily structInter := reflect.New(fieldValue.Type()) newsession := session.Engine.NewSession() defer newsession.Close() has, err := newsession.Id(x).Get(structInter.Interface()) if err != nil { return err } if has { v = structInter.Elem().Interface() fieldValue.Set(reflect.ValueOf(v)) } else { return errors.New("cascade obj is not exist!") } } } else { return fmt.Errorf("unsupported struct type in Scan: %s", fieldValue.Type().String()) } } case reflect.Ptr: // !nashtsai! TODO merge duplicated codes above //typeStr := fieldType.String() switch fieldType { // case "*string": case reflect.TypeOf(&c_EMPTY_STRING): x := string(data) fieldValue.Set(reflect.ValueOf(&x)) // case "*bool": case reflect.TypeOf(&c_BOOL_DEFAULT): d := string(data) v, err := strconv.ParseBool(d) if err != nil { return fmt.Errorf("arg %v as bool: %s", key, err.Error()) } fieldValue.Set(reflect.ValueOf(&v)) // case "*complex64": case reflect.TypeOf(&c_COMPLEX64_DEFAULT): var x complex64 err := json.Unmarshal(data, &x) if err != nil { session.Engine.LogError(err) return err } fieldValue.Set(reflect.ValueOf(&x)) // case "*complex128": case reflect.TypeOf(&c_COMPLEX128_DEFAULT): var x complex128 err := json.Unmarshal(data, &x) if err != nil { session.Engine.LogError(err) return err } fieldValue.Set(reflect.ValueOf(&x)) // case "*float64": case reflect.TypeOf(&c_FLOAT64_DEFAULT): x, err := strconv.ParseFloat(string(data), 64) if err != nil { return fmt.Errorf("arg %v as float64: %s", key, err.Error()) } fieldValue.Set(reflect.ValueOf(&x)) // case "*float32": case reflect.TypeOf(&c_FLOAT32_DEFAULT): var x float32 x1, err := strconv.ParseFloat(string(data), 32) if err != nil { return fmt.Errorf("arg %v as float32: %s", key, err.Error()) } x = float32(x1) fieldValue.Set(reflect.ValueOf(&x)) // case "*time.Time": case reflect.TypeOf(&c_TIME_DEFAULT): x, err := session.byte2Time(col, data) if err != nil { return err } v = x fieldValue.Set(reflect.ValueOf(&x)) // case "*uint64": case reflect.TypeOf(&c_UINT64_DEFAULT): var x uint64 x, err := strconv.ParseUint(string(data), 10, 64) if err != nil { return fmt.Errorf("arg %v as int: %s", key, err.Error()) } fieldValue.Set(reflect.ValueOf(&x)) // case "*uint": case reflect.TypeOf(&c_UINT_DEFAULT): var x uint x1, err := strconv.ParseUint(string(data), 10, 64) if err != nil { return fmt.Errorf("arg %v as int: %s", key, err.Error()) } x = uint(x1) fieldValue.Set(reflect.ValueOf(&x)) // case "*uint32": case reflect.TypeOf(&c_UINT32_DEFAULT): var x uint32 x1, err := strconv.ParseUint(string(data), 10, 64) if err != nil { return fmt.Errorf("arg %v as int: %s", key, err.Error()) } x = uint32(x1) fieldValue.Set(reflect.ValueOf(&x)) // case "*uint8": case reflect.TypeOf(&c_UINT8_DEFAULT): var x uint8 x1, err := strconv.ParseUint(string(data), 10, 64) if err != nil { return fmt.Errorf("arg %v as int: %s", key, err.Error()) } x = uint8(x1) fieldValue.Set(reflect.ValueOf(&x)) // case "*uint16": case reflect.TypeOf(&c_UINT16_DEFAULT): var x uint16 x1, err := strconv.ParseUint(string(data), 10, 64) if err != nil { return fmt.Errorf("arg %v as int: %s", key, err.Error()) } x = uint16(x1) fieldValue.Set(reflect.ValueOf(&x)) // case "*int64": case reflect.TypeOf(&c_INT64_DEFAULT): sdata := string(data) var x int64 var err error // for mysql, when use bit, it returned \x01 if col.SQLType.Name == Bit && strings.Contains(session.Engine.DriverName, "mysql") { if len(data) == 1 { x = int64(data[0]) } else { x = 0 } //fmt.Println("######", x, data) } else if strings.HasPrefix(sdata, "0x") { x, err = strconv.ParseInt(sdata, 16, 64) } else if strings.HasPrefix(sdata, "0") { x, err = strconv.ParseInt(sdata, 8, 64) } else { x, err = strconv.ParseInt(sdata, 10, 64) } if err != nil { return fmt.Errorf("arg %v as int: %s", key, err.Error()) } fieldValue.Set(reflect.ValueOf(&x)) // case "*int": case reflect.TypeOf(&c_INT_DEFAULT): sdata := string(data) var x int var x1 int64 var err error // for mysql, when use bit, it returned \x01 if col.SQLType.Name == Bit && strings.Contains(session.Engine.DriverName, "mysql") { if len(data) == 1 { x = int(data[0]) } else { x = 0 } //fmt.Println("######", x, data) } else if strings.HasPrefix(sdata, "0x") { x1, err = strconv.ParseInt(sdata, 16, 64) x = int(x1) } else if strings.HasPrefix(sdata, "0") { x1, err = strconv.ParseInt(sdata, 8, 64) x = int(x1) } else { x1, err = strconv.ParseInt(sdata, 10, 64) x = int(x1) } if err != nil { return fmt.Errorf("arg %v as int: %s", key, err.Error()) } fieldValue.Set(reflect.ValueOf(&x)) // case "*int32": case reflect.TypeOf(&c_INT32_DEFAULT): sdata := string(data) var x int32 var x1 int64 var err error // for mysql, when use bit, it returned \x01 if col.SQLType.Name == Bit && strings.Contains(session.Engine.DriverName, "mysql") { if len(data) == 1 { x = int32(data[0]) } else { x = 0 } //fmt.Println("######", x, data) } else if strings.HasPrefix(sdata, "0x") { x1, err = strconv.ParseInt(sdata, 16, 64) x = int32(x1) } else if strings.HasPrefix(sdata, "0") { x1, err = strconv.ParseInt(sdata, 8, 64) x = int32(x1) } else { x1, err = strconv.ParseInt(sdata, 10, 64) x = int32(x1) } if err != nil { return fmt.Errorf("arg %v as int: %s", key, err.Error()) } fieldValue.Set(reflect.ValueOf(&x)) // case "*int8": case reflect.TypeOf(&c_INT8_DEFAULT): sdata := string(data) var x int8 var x1 int64 var err error // for mysql, when use bit, it returned \x01 if col.SQLType.Name == Bit && strings.Contains(session.Engine.DriverName, "mysql") { if len(data) == 1 { x = int8(data[0]) } else { x = 0 } //fmt.Println("######", x, data) } else if strings.HasPrefix(sdata, "0x") { x1, err = strconv.ParseInt(sdata, 16, 64) x = int8(x1) } else if strings.HasPrefix(sdata, "0") { x1, err = strconv.ParseInt(sdata, 8, 64) x = int8(x1) } else { x1, err = strconv.ParseInt(sdata, 10, 64) x = int8(x1) } if err != nil { return fmt.Errorf("arg %v as int: %s", key, err.Error()) } fieldValue.Set(reflect.ValueOf(&x)) // case "*int16": case reflect.TypeOf(&c_INT16_DEFAULT): sdata := string(data) var x int16 var x1 int64 var err error // for mysql, when use bit, it returned \x01 if col.SQLType.Name == Bit && strings.Contains(session.Engine.DriverName, "mysql") { if len(data) == 1 { x = int16(data[0]) } else { x = 0 } //fmt.Println("######", x, data) } else if strings.HasPrefix(sdata, "0x") { x1, err = strconv.ParseInt(sdata, 16, 64) x = int16(x1) } else if strings.HasPrefix(sdata, "0") { x1, err = strconv.ParseInt(sdata, 8, 64) x = int16(x1) } else { x1, err = strconv.ParseInt(sdata, 10, 64) x = int16(x1) } if err != nil { return fmt.Errorf("arg %v as int: %s", key, err.Error()) } fieldValue.Set(reflect.ValueOf(&x)) default: return fmt.Errorf("unsupported type in Scan: %s", reflect.TypeOf(v).String()) } default: return fmt.Errorf("unsupported type in Scan: %s", reflect.TypeOf(v).String()) } return nil } // convert a field value of a struct to interface for put into db func (session *Session) value2Interface(col *Column, fieldValue reflect.Value) (interface{}, error) { if fieldValue.CanAddr() { if fieldConvert, ok := fieldValue.Addr().Interface().(Conversion); ok { data, err := fieldConvert.ToDB() if err != nil { return 0, err } else { return string(data), nil } } } fieldType := fieldValue.Type() k := fieldType.Kind() if k == reflect.Ptr { if fieldValue.IsNil() { return nil, nil } else if !fieldValue.IsValid() { session.Engine.LogWarn("the field[", col.FieldName, "] is invalid") return nil, nil } else { // !nashtsai! deference pointer type to instance type fieldValue = fieldValue.Elem() fieldType = fieldValue.Type() k = fieldType.Kind() } } switch k { case reflect.Bool: if fieldValue.Bool() { return 1, nil } else { return 0, nil } case reflect.String: return fieldValue.String(), nil case reflect.Struct: if fieldType == reflect.TypeOf(c_TIME_DEFAULT) { t := fieldValue.Interface().(time.Time) if session.Engine.dialect.DBType() == MSSQL { if t.IsZero() { return nil, nil } } switch fieldValue.Interface().(type) { case time.Time: tf := session.Engine.FormatTime(col.SQLType.Name, fieldValue.Interface().(time.Time)) return tf, nil default: return fieldValue.Interface(), nil } } if fieldTable, ok := session.Engine.Tables[fieldValue.Type()]; ok { if len(fieldTable.PrimaryKeys) == 1 { pkField := reflect.Indirect(fieldValue).FieldByName(fieldTable.PKColumns()[0].FieldName) return pkField.Interface(), nil } else { return 0, fmt.Errorf("no primary key for col %v", col.Name) } } else { return 0, fmt.Errorf("Unsupported type %v\n", fieldValue.Type()) } case reflect.Complex64, reflect.Complex128: bytes, err := json.Marshal(fieldValue.Interface()) if err != nil { session.Engine.LogSQL(err) return 0, err } return string(bytes), nil case reflect.Array, reflect.Slice, reflect.Map: if !fieldValue.IsValid() { return fieldValue.Interface(), nil } if col.SQLType.IsText() { bytes, err := json.Marshal(fieldValue.Interface()) if err != nil { session.Engine.LogSQL(err) return 0, err } return string(bytes), nil } else if col.SQLType.IsBlob() { var bytes []byte var err error if (k == reflect.Array || k == reflect.Slice) && (fieldValue.Type().Elem().Kind() == reflect.Uint8) { bytes = fieldValue.Bytes() } else { bytes, err = json.Marshal(fieldValue.Interface()) if err != nil { session.Engine.LogSQL(err) return 0, err } } return bytes, nil } else { return nil, ErrUnSupportedType } default: return fieldValue.Interface(), nil } } func (session *Session) innerInsert(bean interface{}) (int64, error) { table := session.Engine.autoMap(bean) session.Statement.RefTable = table // handle BeforeInsertProcessor for _, closure := range session.beforeClosures { closure(bean) } cleanupProcessorsClosures(&session.beforeClosures) // cleanup after used if processor, ok := interface{}(bean).(BeforeInsertProcessor); ok { processor.BeforeInsert() } // -- colNames, args, err := table.genCols(session, bean, false, false) if err != nil { return 0, err } colPlaces := strings.Repeat("?, ", len(colNames)) //fmt.Println(colNames, args) colPlaces = colPlaces[0 : len(colPlaces)-2] sqlStr := fmt.Sprintf("INSERT INTO %v%v%v (%v%v%v) VALUES (%v)", session.Engine.QuoteStr(), session.Statement.TableName(), session.Engine.QuoteStr(), session.Engine.QuoteStr(), strings.Join(colNames, session.Engine.Quote(", ")), session.Engine.QuoteStr(), colPlaces) handleAfterInsertProcessorFunc := func(bean interface{}) { if session.IsAutoCommit { for _, closure := range session.afterClosures { closure(bean) } if processor, ok := interface{}(bean).(AfterInsertProcessor); ok { processor.AfterInsert() } } else { lenAfterClosures := len(session.afterClosures) if lenAfterClosures > 0 { if value, has := session.afterInsertBeans[bean]; has && value != nil { *value = append(*value, session.afterClosures...) } else { afterClosures := make([]func(interface{}), lenAfterClosures) copy(afterClosures, session.afterClosures) session.afterInsertBeans[bean] = &afterClosures } } else { if _, ok := interface{}(bean).(AfterInsertProcessor); ok { session.afterInsertBeans[bean] = nil } } } cleanupProcessorsClosures(&session.afterClosures) // cleanup after used } // for postgres, many of them didn't implement lastInsertId, so we should // implemented it ourself. if session.Engine.DriverName != POSTGRES || table.AutoIncrement == "" { res, err := session.exec(sqlStr, args...) if err != nil { return 0, err } else { handleAfterInsertProcessorFunc(bean) } if table.Cacher != nil && session.Statement.UseCache { session.cacheInsert(session.Statement.TableName()) } if table.Version != "" && session.Statement.checkVersion { verValue := table.VersionColumn().ValueOf(bean) if verValue.IsValid() && verValue.CanSet() { verValue.SetInt(1) } } if table.AutoIncrement == "" { return res.RowsAffected() } var id int64 = 0 id, err = res.LastInsertId() if err != nil || id <= 0 { return res.RowsAffected() } aiValue := table.AutoIncrColumn().ValueOf(bean) if !aiValue.IsValid() /*|| aiValue.Int() != 0*/ || !aiValue.CanSet() { return res.RowsAffected() } var v interface{} = id switch aiValue.Type().Kind() { case reflect.Int32: v = int32(id) case reflect.Int: v = int(id) case reflect.Uint32: v = uint32(id) case reflect.Uint64: v = uint64(id) case reflect.Uint: v = uint(id) } aiValue.Set(reflect.ValueOf(v)) return res.RowsAffected() } else { //assert table.AutoIncrement != "" sqlStr = sqlStr + " RETURNING " + session.Engine.Quote(table.AutoIncrement) res, err := session.query(sqlStr, args...) if err != nil { return 0, err } else { handleAfterInsertProcessorFunc(bean) } if table.Cacher != nil && session.Statement.UseCache { session.cacheInsert(session.Statement.TableName()) } if table.Version != "" && session.Statement.checkVersion { verValue := table.VersionColumn().ValueOf(bean) if verValue.IsValid() && verValue.CanSet() { verValue.SetInt(1) } } if len(res) < 1 { return 0, errors.New("insert no error but not returned id") } idByte := res[0][table.AutoIncrement] id, err := strconv.ParseInt(string(idByte), 10, 64) if err != nil { return 1, err } aiValue := table.AutoIncrColumn().ValueOf(bean) if !aiValue.IsValid() /*|| aiValue. != 0*/ || !aiValue.CanSet() { return 1, nil } var v interface{} = id switch aiValue.Type().Kind() { case reflect.Int32: v = int32(id) case reflect.Int: v = int(id) case reflect.Uint32: v = uint32(id) case reflect.Uint64: v = uint64(id) case reflect.Uint: v = uint(id) } aiValue.Set(reflect.ValueOf(v)) return 1, nil } } // Method InsertOne insert only one struct into database as a record. // The in parameter bean must a struct or a point to struct. The return // parameter is inserted and error func (session *Session) InsertOne(bean interface{}) (int64, error) { err := session.newDb() if err != nil { return 0, err } defer session.Statement.Init() if session.IsAutoClose { defer session.Close() } return session.innerInsert(bean) } func (statement *Statement) convertUpdateSql(sqlStr string) (string, string) { if statement.RefTable == nil || len(statement.RefTable.PrimaryKeys) != 1 { return "", "" } sqls := splitNNoCase(sqlStr, "where", 2) if len(sqls) != 2 { if len(sqls) == 1 { return sqls[0], fmt.Sprintf("SELECT %v FROM %v", statement.Engine.Quote(statement.RefTable.PrimaryKeys[0]), statement.Engine.Quote(statement.RefTable.Name)) } return "", "" } var whereStr = sqls[1] //TODO: for postgres only, if any other database? var paraStr string if statement.Engine.dialect.DBType() == POSTGRES { paraStr = "$" } else if statement.Engine.dialect.DBType() == MSSQL { paraStr = ":" } if paraStr != "" { if strings.Contains(sqls[1], paraStr) { dollers := strings.Split(sqls[1], paraStr) whereStr = dollers[0] for i, c := range dollers[1:] { ccs := strings.SplitN(c, " ", 2) whereStr += fmt.Sprintf(paraStr+"%v %v", i+1, ccs[1]) } } } return sqls[0], fmt.Sprintf("SELECT %v FROM %v WHERE %v", statement.Engine.Quote(statement.RefTable.PrimaryKeys[0]), statement.Engine.Quote(statement.TableName()), whereStr) } func (session *Session) cacheInsert(tables ...string) error { if session.Statement.RefTable == nil || len(session.Statement.RefTable.PrimaryKeys) != 1 { return ErrCacheFailed } table := session.Statement.RefTable cacher := table.Cacher for _, t := range tables { session.Engine.LogDebug("cache clear:", t) cacher.ClearIds(t) } return nil } func (session *Session) cacheUpdate(sqlStr string, args ...interface{}) error { if session.Statement.RefTable == nil || len(session.Statement.RefTable.PrimaryKeys) != 1 { return ErrCacheFailed } oldhead, newsql := session.Statement.convertUpdateSql(sqlStr) if newsql == "" { return ErrCacheFailed } for _, filter := range session.Engine.Filters { newsql = filter.Do(newsql, session) } session.Engine.LogDebug("[xorm:cacheUpdate] new sql", oldhead, newsql) var nStart int if len(args) > 0 { if strings.Index(sqlStr, "?") > -1 { nStart = strings.Count(oldhead, "?") } else { // only for pq, TODO: if any other databse? nStart = strings.Count(oldhead, "$") } } table := session.Statement.RefTable cacher := table.Cacher tableName := session.Statement.TableName() session.Engine.LogDebug("[xorm:cacheUpdate] get cache sql", newsql, args[nStart:]) ids, err := getCacheSql(cacher, tableName, newsql, args[nStart:]) if err != nil { resultsSlice, err := session.query(newsql, args[nStart:]...) if err != nil { return err } session.Engine.LogDebug("[xorm:cacheUpdate] find updated id", resultsSlice) ids = make([]int64, 0) if len(resultsSlice) > 0 { for _, data := range resultsSlice { var id int64 if v, ok := data[session.Statement.RefTable.PrimaryKeys[0]]; !ok { return errors.New("no id") } else { id, err = strconv.ParseInt(string(v), 10, 64) if err != nil { return err } } ids = append(ids, id) } } } /*else { session.Engine.LogDebug("[xorm:cacheUpdate] del cached sql:", tableName, newsql, args) cacher.DelIds(tableName, genSqlKey(newsql, args)) }*/ for _, id := range ids { if bean := cacher.GetBean(tableName, id); bean != nil { sqls := splitNNoCase(sqlStr, "where", 2) if len(sqls) == 0 || len(sqls) > 2 { return ErrCacheFailed } sqls = splitNNoCase(sqls[0], "set", 2) if len(sqls) != 2 { return ErrCacheFailed } kvs := strings.Split(strings.TrimSpace(sqls[1]), ",") for idx, kv := range kvs { sps := strings.SplitN(kv, "=", 2) sps2 := strings.Split(sps[0], ".") colName := sps2[len(sps2)-1] if strings.Contains(colName, "`") { colName = strings.TrimSpace(strings.Replace(colName, "`", "", -1)) } else if strings.Contains(colName, session.Engine.QuoteStr()) { colName = strings.TrimSpace(strings.Replace(colName, session.Engine.QuoteStr(), "", -1)) } else { session.Engine.LogDebug("[xorm:cacheUpdate] cannot find column", tableName, colName) return ErrCacheFailed } if col, ok := table.Columns[strings.ToLower(colName)]; ok { fieldValue := col.ValueOf(bean) session.Engine.LogDebug("[xorm:cacheUpdate] set bean field", bean, colName, fieldValue.Interface()) if col.IsVersion && session.Statement.checkVersion { fieldValue.SetInt(fieldValue.Int() + 1) } else { fieldValue.Set(reflect.ValueOf(args[idx])) } } else { session.Engine.LogError("[xorm:cacheUpdate] ERROR: column %v is not table %v's", colName, table.Name) } } session.Engine.LogDebug("[xorm:cacheUpdate] update cache", tableName, id, bean) cacher.PutBean(tableName, id, bean) } } session.Engine.LogDebug("[xorm:cacheUpdate] clear cached table sql:", tableName) cacher.ClearIds(tableName) return nil } // Update records, bean's non-empty fields are updated contents, // condiBean' non-empty filds are conditions // CAUTION: // 1.bool will defaultly be updated content nor conditions // You should call UseBool if you have bool to use. // 2.float32 & float64 may be not inexact as conditions func (session *Session) Update(bean interface{}, condiBean ...interface{}) (int64, error) { err := session.newDb() if err != nil { return 0, err } defer session.Statement.Init() if session.IsAutoClose { defer session.Close() } t := rType(bean) var colNames []string var args []interface{} var table *Table // handle before update processors for _, closure := range session.beforeClosures { closure(bean) } cleanupProcessorsClosures(&session.beforeClosures) // cleanup after used if processor, ok := interface{}(bean).(BeforeUpdateProcessor); ok { processor.BeforeUpdate() } // -- if t.Kind() == reflect.Struct { table = session.Engine.autoMap(bean) session.Statement.RefTable = table if session.Statement.ColumnStr == "" { colNames, args = buildConditions(session.Engine, table, bean, false, false, false, false, session.Statement.allUseBool, session.Statement.useAllCols, session.Statement.mustColumnMap) } else { colNames, args, err = table.genCols(session, bean, true, true) if err != nil { return 0, err } } } else if t.Kind() == reflect.Map { if session.Statement.RefTable == nil { return 0, ErrTableNotFound } table = session.Statement.RefTable colNames = make([]string, 0) args = make([]interface{}, 0) bValue := reflect.Indirect(reflect.ValueOf(bean)) for _, v := range bValue.MapKeys() { colNames = append(colNames, session.Engine.Quote(v.String())+" = ?") args = append(args, bValue.MapIndex(v).Interface()) } } else { return 0, ErrParamsType } if session.Statement.UseAutoTime && table.Updated != "" { colNames = append(colNames, session.Engine.Quote(table.Updated)+" = ?") args = append(args, session.Engine.NowTime(table.Columns[table.Updated].SQLType.Name)) } var condiColNames []string var condiArgs []interface{} if len(condiBean) > 0 { condiColNames, condiArgs = buildConditions(session.Engine, session.Statement.RefTable, condiBean[0], true, true, false, true, session.Statement.allUseBool, session.Statement.useAllCols, session.Statement.mustColumnMap) } var condition = "" session.Statement.processIdParam() st := session.Statement defer session.Statement.Init() if st.WhereStr != "" { condition = fmt.Sprintf("%v", st.WhereStr) } if condition == "" { if len(condiColNames) > 0 { condition = fmt.Sprintf("%v", strings.Join(condiColNames, " AND ")) } } else { if len(condiColNames) > 0 { condition = fmt.Sprintf("(%v) AND (%v)", condition, strings.Join(condiColNames, " AND ")) } } var sqlStr, inSql string var inArgs []interface{} doIncVer := false var verValue reflect.Value if table.Version != "" && session.Statement.checkVersion { if condition != "" { condition = fmt.Sprintf("WHERE (%v) AND %v = ?", condition, session.Engine.Quote(table.Version)) } else { condition = fmt.Sprintf("WHERE %v = ?", session.Engine.Quote(table.Version)) } inSql, inArgs = session.Statement.genInSql() if len(inSql) > 0 { if condition != "" { condition += " AND " + inSql } else { condition = "WHERE " + inSql } } sqlStr = fmt.Sprintf("UPDATE %v SET %v, %v %v", session.Engine.Quote(session.Statement.TableName()), strings.Join(colNames, ", "), session.Engine.Quote(table.Version)+" = "+session.Engine.Quote(table.Version)+" + 1", condition) verValue = table.VersionColumn().ValueOf(bean) //if err != nil { // return 0, err //} condiArgs = append(condiArgs, verValue.Interface()) doIncVer = true } else { if condition != "" { condition = "WHERE " + condition } inSql, inArgs = session.Statement.genInSql() if len(inSql) > 0 { if condition != "" { condition += " AND " + inSql } else { condition = "WHERE " + inSql } } sqlStr = fmt.Sprintf("UPDATE %v SET %v %v", session.Engine.Quote(session.Statement.TableName()), strings.Join(colNames, ", "), condition) } args = append(args, st.Params...) args = append(args, inArgs...) args = append(args, condiArgs...) res, err := session.exec(sqlStr, args...) if err != nil { return 0, err } else if doIncVer { verValue.SetInt(verValue.Int() + 1) } if table.Cacher != nil && session.Statement.UseCache { //session.cacheUpdate(sqlStr, args...) table.Cacher.ClearIds(session.Statement.TableName()) table.Cacher.ClearBeans(session.Statement.TableName()) } // handle after update processors if session.IsAutoCommit { for _, closure := range session.afterClosures { closure(bean) } if processor, ok := interface{}(bean).(AfterUpdateProcessor); ok { session.Engine.LogDebug(session.Statement.TableName(), " has after update processor") processor.AfterUpdate() } } else { lenAfterClosures := len(session.afterClosures) if lenAfterClosures > 0 { if value, has := session.afterUpdateBeans[bean]; has && value != nil { *value = append(*value, session.afterClosures...) } else { afterClosures := make([]func(interface{}), lenAfterClosures) copy(afterClosures, session.afterClosures) session.afterUpdateBeans[bean] = &afterClosures } } else { if _, ok := interface{}(bean).(AfterInsertProcessor); ok { session.afterUpdateBeans[bean] = nil } } } cleanupProcessorsClosures(&session.afterClosures) // cleanup after used // -- return res.RowsAffected() } func (session *Session) cacheDelete(sqlStr string, args ...interface{}) error { if session.Statement.RefTable == nil || len(session.Statement.RefTable.PrimaryKeys) != 1 { return ErrCacheFailed } for _, filter := range session.Engine.Filters { sqlStr = filter.Do(sqlStr, session) } newsql := session.Statement.convertIdSql(sqlStr) if newsql == "" { return ErrCacheFailed } cacher := session.Statement.RefTable.Cacher tableName := session.Statement.TableName() ids, err := getCacheSql(cacher, tableName, newsql, args) if err != nil { resultsSlice, err := session.query(newsql, args...) if err != nil { return err } ids = make([]int64, 0) if len(resultsSlice) > 0 { for _, data := range resultsSlice { var id int64 if v, ok := data[session.Statement.RefTable.PrimaryKeys[0]]; !ok { return errors.New("no id") } else { id, err = strconv.ParseInt(string(v), 10, 64) if err != nil { return err } } ids = append(ids, id) } } } /*else { session.Engine.LogDebug("delete cache sql %v", newsql) cacher.DelIds(tableName, genSqlKey(newsql, args)) }*/ for _, id := range ids { session.Engine.LogDebug("[xorm:cacheDelete] delete cache obj", tableName, id) cacher.DelBean(tableName, id) } session.Engine.LogDebug("[xorm:cacheDelete] clear cache table", tableName) cacher.ClearIds(tableName) return nil } // Delete records, bean's non-empty fields are conditions func (session *Session) Delete(bean interface{}) (int64, error) { err := session.newDb() if err != nil { return 0, err } defer session.Statement.Init() if session.IsAutoClose { defer session.Close() } // handle before delete processors for _, closure := range session.beforeClosures { closure(bean) } cleanupProcessorsClosures(&session.beforeClosures) if processor, ok := interface{}(bean).(BeforeDeleteProcessor); ok { processor.BeforeDelete() } // -- table := session.Engine.autoMap(bean) session.Statement.RefTable = table colNames, args := buildConditions(session.Engine, table, bean, true, true, false, true, session.Statement.allUseBool, session.Statement.useAllCols, session.Statement.mustColumnMap) var condition = "" session.Statement.processIdParam() if session.Statement.WhereStr != "" { condition = session.Statement.WhereStr if len(colNames) > 0 { condition += " AND " + strings.Join(colNames, " AND ") } } else { condition = strings.Join(colNames, " AND ") } inSql, inArgs := session.Statement.genInSql() if len(inSql) > 0 { if len(condition) > 0 { condition += " AND " } condition += inSql args = append(args, inArgs...) } if len(condition) == 0 { return 0, ErrNeedDeletedCond } sqlStr := fmt.Sprintf("DELETE FROM %v WHERE %v", session.Engine.Quote(session.Statement.TableName()), condition) args = append(session.Statement.Params, args...) if table.Cacher != nil && session.Statement.UseCache { session.cacheDelete(sqlStr, args...) } res, err := session.exec(sqlStr, args...) if err != nil { return 0, err } // handle after delete processors if session.IsAutoCommit { for _, closure := range session.afterClosures { closure(bean) } if processor, ok := interface{}(bean).(AfterDeleteProcessor); ok { processor.AfterDelete() } } else { lenAfterClosures := len(session.afterClosures) if lenAfterClosures > 0 { if value, has := session.afterDeleteBeans[bean]; has && value != nil { *value = append(*value, session.afterClosures...) } else { afterClosures := make([]func(interface{}), lenAfterClosures) copy(afterClosures, session.afterClosures) session.afterDeleteBeans[bean] = &afterClosures } } else { if _, ok := interface{}(bean).(AfterInsertProcessor); ok { session.afterDeleteBeans[bean] = nil } } } cleanupProcessorsClosures(&session.afterClosures) // -- return res.RowsAffected() }