package gorm import ( "database/sql" "errors" "fmt" "reflect" "time" ) // NowFunc returns current time, this function is exported in order to be able // to give the flexiblity to the developer to costumize it accoring to their // needs // // e.g: return time.Now().UTC() // var NowFunc = func() time.Time { return time.Now() } type DB struct { Value interface{} Error error RowsAffected int64 callback *callback db sqlCommon parent *DB search *search logMode int logger logger dialect Dialect tagIdentifier string singularTable bool source string values map[string]interface{} } func Open(dialect string, drivesources ...string) (DB, error) { var db DB var err error var driver = dialect var source string if len(drivesources) == 0 { err = errors.New("invalid database source") } else { if len(drivesources) == 1 { source = drivesources[0] } else if len(drivesources) >= 2 { driver = drivesources[0] source = drivesources[1] } db = DB{dialect: NewDialect(dialect), tagIdentifier: "sql", logger: defaultLogger, callback: DefaultCallback, source: source, values: map[string]interface{}{}} db.db, err = sql.Open(driver, source) db.parent = &db } return db, err } func (s *DB) Close() error { return s.parent.db.(*sql.DB).Close() } func (s *DB) DB() *sql.DB { return s.db.(*sql.DB) } // Return the underlying sql.DB or sql.Tx instance. // Use of this method is discouraged. It's mainly intended to allow // coexistence with legacy non-GORM code. func (s *DB) CommonDB() sqlCommon { return s.db } func (s *DB) Callback() *callback { s.parent.callback = s.parent.callback.clone() return s.parent.callback } func (s *DB) SetTagIdentifier(str string) { s.parent.tagIdentifier = str } func (s *DB) SetLogger(l logger) { s.parent.logger = l } func (s *DB) LogMode(b bool) *DB { if b { s.logMode = 2 } else { s.logMode = 1 } return s } func (s *DB) SingularTable(b bool) { s.parent.singularTable = b } func (s *DB) Where(query interface{}, args ...interface{}) *DB { return s.clone().search.where(query, args...).db } func (s *DB) Or(query interface{}, args ...interface{}) *DB { return s.clone().search.or(query, args...).db } func (s *DB) Not(query interface{}, args ...interface{}) *DB { return s.clone().search.not(query, args...).db } func (s *DB) Limit(value interface{}) *DB { return s.clone().search.limit(value).db } func (s *DB) Offset(value interface{}) *DB { return s.clone().search.offset(value).db return s.clone().search.offset(value).db } func (s *DB) Order(value string, reorder ...bool) *DB { return s.clone().search.order(value, reorder...).db } func (s *DB) Select(value interface{}) *DB { return s.clone().search.selects(value).db } func (s *DB) Group(query string) *DB { return s.clone().search.group(query).db } func (s *DB) Having(query string, values ...interface{}) *DB { return s.clone().search.having(query, values...).db } func (s *DB) Joins(query string) *DB { return s.clone().search.joins(query).db } func (s *DB) Includes(value interface{}) *DB { return s.clone().search.includes(value).db } func (s *DB) Scopes(funcs ...func(*DB) *DB) *DB { c := s for _, f := range funcs { c = f(c) } return c } func (s *DB) Unscoped() *DB { return s.clone().search.unscoped().db } func (s *DB) Attrs(attrs ...interface{}) *DB { return s.clone().search.attrs(attrs...).db } func (s *DB) Assign(attrs ...interface{}) *DB { return s.clone().search.assign(attrs...).db } func (s *DB) First(out interface{}, where ...interface{}) *DB { return s.clone().Limit(1).NewScope(out).InstanceSet("gorm:order_by_primary_key", "ASC"). inlineCondition(where...).callCallbacks(s.parent.callback.queries).db } func (s *DB) Last(out interface{}, where ...interface{}) *DB { return s.clone().Limit(1).NewScope(out).InstanceSet("gorm:order_by_primary_key", "DESC"). inlineCondition(where...).callCallbacks(s.parent.callback.queries).db } func (s *DB) Find(out interface{}, where ...interface{}) *DB { return s.clone().NewScope(out).inlineCondition(where...).callCallbacks(s.parent.callback.queries).db } func (s *DB) Row() *sql.Row { return s.NewScope(s.Value).row() } func (s *DB) Rows() (*sql.Rows, error) { return s.NewScope(s.Value).rows() } func (s *DB) Scan(dest interface{}) *DB { scope := s.clone().NewScope(s.Value).InstanceSet("gorm:query_destination", dest) Query(scope) return scope.db } func (s *DB) FirstOrInit(out interface{}, where ...interface{}) *DB { c := s.clone() r := c.First(out, where...) if r.Error != nil { if !r.RecordNotFound() { return r } c.NewScope(out).inlineCondition(where...).initialize() } else { c.NewScope(out).updatedAttrsWithValues(convertInterfaceToMap(s.search.AssignAttrs), false) } return c } func (s *DB) FirstOrCreate(out interface{}, where ...interface{}) *DB { c := s.clone() r := c.First(out, where...) if r.Error != nil { if !r.RecordNotFound() { return r } c.NewScope(out).inlineCondition(where...).initialize().callCallbacks(s.parent.callback.creates) } else if len(c.search.AssignAttrs) > 0 { c.NewScope(out).InstanceSet("gorm:update_interface", s.search.AssignAttrs).callCallbacks(s.parent.callback.updates) } return c } func (s *DB) Update(attrs ...interface{}) *DB { return s.Updates(toSearchableMap(attrs...), true) } func (s *DB) Updates(values interface{}, ignoreProtectedAttrs ...bool) *DB { return s.clone().NewScope(s.Value). Set("gorm:ignore_protected_attrs", len(ignoreProtectedAttrs) > 0). InstanceSet("gorm:update_interface", values). callCallbacks(s.parent.callback.updates).db } func (s *DB) UpdateColumn(attrs ...interface{}) *DB { return s.UpdateColumns(toSearchableMap(attrs...)) } func (s *DB) UpdateColumns(values interface{}) *DB { return s.clone().NewScope(s.Value). Set("gorm:update_column", true). InstanceSet("gorm:update_interface", values). callCallbacks(s.parent.callback.updates).db } func (s *DB) Save(value interface{}) *DB { scope := s.clone().NewScope(value) if scope.PrimaryKeyZero() { return scope.callCallbacks(s.parent.callback.creates).db } else { return scope.callCallbacks(s.parent.callback.updates).db } } func (s *DB) Create(value interface{}) *DB { scope := s.clone().NewScope(value) return scope.callCallbacks(s.parent.callback.creates).db } func (s *DB) Delete(value interface{}, where ...interface{}) *DB { return s.clone().NewScope(value).inlineCondition(where...).callCallbacks(s.parent.callback.deletes).db } func (s *DB) Raw(sql string, values ...interface{}) *DB { return s.clone().search.raw(true).where(sql, values...).db } func (s *DB) Exec(sql string, values ...interface{}) *DB { scope := s.clone().NewScope(nil) scope.Raw(scope.buildWhereCondition(map[string]interface{}{"query": sql, "args": values})) return scope.Exec().db } func (s *DB) Model(value interface{}) *DB { c := s.clone() c.Value = value return c } func (s *DB) Related(value interface{}, foreignKeys ...string) *DB { return s.clone().NewScope(s.Value).related(value, foreignKeys...).db } func (s *DB) Pluck(column string, value interface{}) *DB { return s.NewScope(s.Value).pluck(column, value).db } func (s *DB) Count(value interface{}) *DB { return s.NewScope(s.Value).count(value).db } func (s *DB) Table(name string) *DB { return s.clone().search.table(name).db } func (s *DB) Debug() *DB { return s.clone().LogMode(true) } func (s *DB) Begin() *DB { c := s.clone() if db, ok := c.db.(sqlDb); ok { tx, err := db.Begin() c.db = interface{}(tx).(sqlCommon) c.err(err) } else { c.err(CantStartTransaction) } return c } func (s *DB) Commit() *DB { if db, ok := s.db.(sqlTx); ok { s.err(db.Commit()) } else { s.err(NoValidTransaction) } return s } func (s *DB) Rollback() *DB { if db, ok := s.db.(sqlTx); ok { s.err(db.Rollback()) } else { s.err(NoValidTransaction) } return s } func (s *DB) NewRecord(value interface{}) bool { return s.clone().NewScope(value).PrimaryKeyZero() } func (s *DB) RecordNotFound() bool { return s.Error == RecordNotFound } // Migrations func (s *DB) CreateTable(value interface{}) *DB { return s.clone().NewScope(value).createTable().db } func (s *DB) DropTable(value interface{}) *DB { return s.clone().NewScope(value).dropTable().db } func (s *DB) DropTableIfExists(value interface{}) *DB { return s.clone().NewScope(value).dropTableIfExists().db } func (s *DB) HasTable(value interface{}) bool { scope := s.clone().NewScope(value) tableName := scope.TableName() return scope.Dialect().HasTable(scope, tableName) } func (s *DB) AutoMigrate(values ...interface{}) *DB { db := s.clone() for _, value := range values { db = db.NewScope(value).autoMigrate().db } return db } func (s *DB) ModifyColumn(column string, typ string) *DB { s.clone().NewScope(s.Value).modifyColumn(column, typ) return s } func (s *DB) DropColumn(column string) *DB { s.clone().NewScope(s.Value).dropColumn(column) return s } func (s *DB) AddIndex(indexName string, column ...string) *DB { s.clone().NewScope(s.Value).addIndex(false, indexName, column...) return s } func (s *DB) AddUniqueIndex(indexName string, column ...string) *DB { s.clone().NewScope(s.Value).addIndex(true, indexName, column...) return s } func (s *DB) RemoveIndex(indexName string) *DB { s.clone().NewScope(s.Value).removeIndex(indexName) return s } func (s *DB) Association(column string) *Association { scope := s.clone().NewScope(s.Value) primaryKey := scope.PrimaryKeyValue() if reflect.DeepEqual(reflect.ValueOf(primaryKey), reflect.Zero(reflect.ValueOf(primaryKey).Type())) { scope.Err(errors.New("primary key can't be nil")) } var field *Field var ok bool if field, ok = scope.FieldByName(SnakeToUpperCamel(column)); ok { if field.Relationship == nil || field.Relationship.ForeignKey == "" { scope.Err(fmt.Errorf("invalid association %v for %v", column, scope.IndirectValue().Type())) } } else { scope.Err(fmt.Errorf("%v doesn't have column %v", scope.IndirectValue().Type(), column)) } return &Association{Scope: scope, Column: column, Error: s.Error, PrimaryKey: primaryKey, Field: field} } // Set set value by name func (s *DB) Set(name string, value interface{}) *DB { return s.clone().InstantSet(name, value) } func (s *DB) InstantSet(name string, value interface{}) *DB { s.values[name] = value return s } // Get get value by name func (s *DB) Get(name string) (value interface{}, ok bool) { value, ok = s.values[name] return }