package service import ( "context" "strconv" "strings" "time" "github.com/jmoiron/sqlx" "github.com/pkg/errors" log "github.com/sirupsen/logrus" "github.com/c9s/bbgo/pkg/exchange/batch" "github.com/c9s/bbgo/pkg/types" ) type OrderService struct { DB *sqlx.DB } func (s *OrderService) Sync(ctx context.Context, exchange types.Exchange, symbol string, startTime time.Time) error { isMargin := false isFutures := false isIsolated := false if marginExchange, ok := exchange.(types.MarginExchange); ok { marginSettings := marginExchange.GetMarginSettings() isMargin = marginSettings.IsMargin isIsolated = marginSettings.IsIsolatedMargin if marginSettings.IsIsolatedMargin { symbol = marginSettings.IsolatedMarginSymbol } } if futuresExchange, ok := exchange.(types.FuturesExchange); ok { futuresSettings := futuresExchange.GetFuturesSettings() isFutures = futuresSettings.IsFutures isIsolated = futuresSettings.IsIsolatedFutures if futuresSettings.IsIsolatedFutures { symbol = futuresSettings.IsolatedFuturesSymbol } } records, err := s.QueryLast(exchange.Name(), symbol, isMargin, isFutures, isIsolated, 50) if err != nil { return err } orderKeys := make(map[uint64]struct{}) var lastID uint64 = 0 if len(records) > 0 { for _, record := range records { orderKeys[record.OrderID] = struct{}{} } lastID = records[0].OrderID startTime = records[0].CreationTime.Time() } b := &batch.ClosedOrderBatchQuery{Exchange: exchange} ordersC, errC := b.Query(ctx, symbol, startTime, time.Now(), lastID) for order := range ordersC { select { case <-ctx.Done(): return ctx.Err() case err := <-errC: if err != nil { return err } default: } if _, exists := orderKeys[order.OrderID]; exists { continue } // skip canceled and not filled orders if order.Status == types.OrderStatusCanceled && order.ExecutedQuantity == 0.0 { continue } if err := s.Insert(order); err != nil { return err } } return <-errC } // QueryLast queries the last order from the database func (s *OrderService) QueryLast(ex types.ExchangeName, symbol string, isMargin, isFutures, isIsolated bool, limit int) ([]types.Order, error) { log.Infof("querying last order exchange = %s AND symbol = %s AND is_margin = %v AND is_futures = %v AND is_isolated = %v", ex, symbol, isMargin, isFutures, isIsolated) sql := `SELECT * FROM orders WHERE exchange = :exchange AND symbol = :symbol AND is_margin = :is_margin AND is_futures = :is_futures AND is_isolated = :is_isolated ORDER BY gid DESC LIMIT :limit` rows, err := s.DB.NamedQuery(sql, map[string]interface{}{ "exchange": ex, "symbol": symbol, "is_margin": isMargin, "is_futures": isFutures, "is_isolated": isIsolated, "limit": limit, }) if err != nil { return nil, errors.Wrap(err, "query last order error") } defer rows.Close() return s.scanRows(rows) } type AggOrder struct { types.Order AveragePrice *float64 `json:"averagePrice" db:"average_price"` } type QueryOrdersOptions struct { Exchange types.ExchangeName Symbol string LastGID int64 Ordering string } func (s *OrderService) Query(options QueryOrdersOptions) ([]AggOrder, error) { sql := genOrderSQL(options) rows, err := s.DB.NamedQuery(sql, map[string]interface{}{ "exchange": options.Exchange, "symbol": options.Symbol, "gid": options.LastGID, }) if err != nil { return nil, err } defer rows.Close() return s.scanAggRows(rows) } func genOrderSQL(options QueryOrdersOptions) string { // ascending ordering := "ASC" switch v := strings.ToUpper(options.Ordering); v { case "DESC", "ASC": ordering = options.Ordering } var where []string if options.LastGID > 0 { switch ordering { case "ASC": where = append(where, "gid > :gid") case "DESC": where = append(where, "gid < :gid") } } if len(options.Exchange) > 0 { where = append(where, "exchange = :exchange") } if len(options.Symbol) > 0 { where = append(where, "symbol = :symbol") } sql := `SELECT orders.*, IFNULL(SUM(t.price * t.quantity)/SUM(t.quantity), orders.price) AS average_price FROM orders` + ` LEFT JOIN trades AS t ON (t.order_id = orders.order_id)` if len(where) > 0 { sql += ` WHERE ` + strings.Join(where, " AND ") } sql += ` GROUP BY orders.gid ` sql += ` ORDER BY orders.gid ` + ordering sql += ` LIMIT ` + strconv.Itoa(500) log.Info(sql) return sql } func (s *OrderService) scanAggRows(rows *sqlx.Rows) (orders []AggOrder, err error) { for rows.Next() { var order AggOrder if err := rows.StructScan(&order); err != nil { return nil, err } orders = append(orders, order) } return orders, rows.Err() } func (s *OrderService) scanRows(rows *sqlx.Rows) (orders []types.Order, err error) { for rows.Next() { var order types.Order if err := rows.StructScan(&order); err != nil { return nil, err } orders = append(orders, order) } return orders, rows.Err() } func (s *OrderService) Insert(order types.Order) (err error) { if s.DB.DriverName() == "mysql" { _, err = s.DB.NamedExec(` INSERT INTO orders (exchange, order_id, client_order_id, order_type, status, symbol, price, stop_price, quantity, executed_quantity, side, is_working, time_in_force, created_at, updated_at, is_margin, is_futures, is_isolated) VALUES (:exchange, :order_id, :client_order_id, :order_type, :status, :symbol, :price, :stop_price, :quantity, :executed_quantity, :side, :is_working, :time_in_force, :created_at, :updated_at, :is_margin, :is_futures, :is_isolated) ON DUPLICATE KEY UPDATE status=:status, executed_quantity=:executed_quantity, is_working=:is_working, updated_at=:updated_at`, order) return err } _, err = s.DB.NamedExec(` INSERT INTO orders (exchange, order_id, client_order_id, order_type, status, symbol, price, stop_price, quantity, executed_quantity, side, is_working, time_in_force, created_at, updated_at, is_margin, is_futures, is_isolated) VALUES (:exchange, :order_id, :client_order_id, :order_type, :status, :symbol, :price, :stop_price, :quantity, :executed_quantity, :side, :is_working, :time_in_force, :created_at, :updated_at, :is_margin, :is_futures, :is_isolated) `, order) return err }