package service import ( "context" "strconv" "strings" "time" sq "github.com/Masterminds/squirrel" "github.com/jmoiron/sqlx" "github.com/pkg/errors" log "github.com/sirupsen/logrus" exchange2 "git.qtrade.icu/lychiyu/qbtrade/pkg/exchange" "git.qtrade.icu/lychiyu/qbtrade/pkg/exchange/batch" "git.qtrade.icu/lychiyu/qbtrade/pkg/types" ) var ErrTradeNotFound = errors.New("trade not found") type QueryTradesOptions struct { Exchange types.ExchangeName Sessions []string Symbol string LastGID int64 // inclusive Since *time.Time // exclusive Until *time.Time // ASC or DESC Ordering string Limit uint64 } type TradingVolume struct { Year int `db:"year" json:"year"` Month int `db:"month" json:"month,omitempty"` Day int `db:"day" json:"day,omitempty"` Time time.Time `json:"time,omitempty"` Exchange string `db:"exchange" json:"exchange,omitempty"` Symbol string `db:"symbol" json:"symbol,omitempty"` QuoteVolume float64 `db:"quote_volume" json:"quoteVolume"` } type TradingVolumeQueryOptions struct { GroupByPeriod string SegmentBy string } type TradeService struct { DB *sqlx.DB } func NewTradeService(db *sqlx.DB) *TradeService { return &TradeService{db} } func (s *TradeService) Sync(ctx context.Context, exchange types.Exchange, symbol string, startTime time.Time) error { isMargin, isFutures, isIsolated, isolatedSymbol := exchange2.GetSessionAttributes(exchange) // override symbol if isolatedSymbol is not empty if isIsolated && len(isolatedSymbol) > 0 { symbol = isolatedSymbol } api, ok := exchange.(types.ExchangeTradeHistoryService) if !ok { return nil } lastTradeID := uint64(1) tasks := []SyncTask{ { Type: types.Trade{}, Select: SelectLastTrades(exchange.Name(), symbol, isMargin, isFutures, isIsolated, 100), OnLoad: func(objs interface{}) { // update last trade ID trades := objs.([]types.Trade) if len(trades) > 0 { end := len(trades) - 1 last := trades[end] lastTradeID = last.ID } }, BatchQuery: func(ctx context.Context, startTime, endTime time.Time) (interface{}, chan error) { query := &batch.TradeBatchQuery{ ExchangeTradeHistoryService: api, } return query.Query(ctx, symbol, &types.TradeQueryOptions{ StartTime: &startTime, EndTime: &endTime, LastTradeID: lastTradeID, }) }, Time: func(obj interface{}) time.Time { return obj.(types.Trade).Time.Time() }, ID: func(obj interface{}) string { trade := obj.(types.Trade) return strconv.FormatUint(trade.ID, 10) + trade.Side.String() }, LogInsert: true, }, } for _, sel := range tasks { if err := sel.execute(ctx, s.DB, startTime); err != nil { return err } } return nil } func (s *TradeService) QueryTradingVolume(startTime time.Time, options TradingVolumeQueryOptions) ([]TradingVolume, error) { args := map[string]interface{}{ // "symbol": symbol, // "exchange": ex, // "is_margin": isMargin, // "is_isolated": isIsolated, "start_time": startTime, } sql := "" driverName := s.DB.DriverName() if driverName == "mysql" { sql = generateMysqlTradingVolumeQuerySQL(options) } else { sql = generateSqliteTradingVolumeSQL(options) } log.Info(sql) rows, err := s.DB.NamedQuery(sql, args) if err != nil { return nil, errors.Wrap(err, "query last trade error") } if rows.Err() != nil { return nil, rows.Err() } defer rows.Close() var records []TradingVolume for rows.Next() { var record TradingVolume err = rows.StructScan(&record) if err != nil { return records, err } record.Time = time.Date(record.Year, time.Month(record.Month), record.Day, 0, 0, 0, 0, time.Local) records = append(records, record) } return records, rows.Err() } func generateSqliteTradingVolumeSQL(options TradingVolumeQueryOptions) string { timeRangeColumn := "traded_at" sel, groupBys, orderBys := generateSqlite3TimeRangeClauses(timeRangeColumn, options.GroupByPeriod) switch options.SegmentBy { case "symbol": sel = append(sel, "symbol") groupBys = append([]string{"symbol"}, groupBys...) orderBys = append(orderBys, "symbol") case "exchange": sel = append(sel, "exchange") groupBys = append([]string{"exchange"}, groupBys...) orderBys = append(orderBys, "exchange") } sel = append(sel, "SUM(quantity * price) AS quote_volume") where := []string{timeRangeColumn + " > :start_time"} sql := `SELECT ` + strings.Join(sel, ", ") + ` FROM trades` + ` WHERE ` + strings.Join(where, " AND ") + ` GROUP BY ` + strings.Join(groupBys, ", ") + ` ORDER BY ` + strings.Join(orderBys, ", ") return sql } func generateSqlite3TimeRangeClauses(timeRangeColumn, period string) (selectors []string, groupBys []string, orderBys []string) { switch period { case "month": selectors = append(selectors, "strftime('%Y',"+timeRangeColumn+") AS year", "strftime('%m',"+timeRangeColumn+") AS month") groupBys = append([]string{"month", "year"}, groupBys...) orderBys = append(orderBys, "year ASC", "month ASC") case "year": selectors = append(selectors, "strftime('%Y',"+timeRangeColumn+") AS year") groupBys = append([]string{"year"}, groupBys...) orderBys = append(orderBys, "year ASC") case "day": fallthrough default: selectors = append(selectors, "strftime('%Y',"+timeRangeColumn+") AS year", "strftime('%m',"+timeRangeColumn+") AS month", "strftime('%d',"+timeRangeColumn+") AS day") groupBys = append([]string{"day", "month", "year"}, groupBys...) orderBys = append(orderBys, "year ASC", "month ASC", "day ASC") } return } func generateMysqlTimeRangeClauses(timeRangeColumn, period string) (selectors []string, groupBys []string, orderBys []string) { switch period { case "month": selectors = append(selectors, "YEAR("+timeRangeColumn+") AS year", "MONTH("+timeRangeColumn+") AS month") groupBys = append([]string{"MONTH(" + timeRangeColumn + ")", "YEAR(" + timeRangeColumn + ")"}, groupBys...) orderBys = append(orderBys, "year ASC", "month ASC") case "year": selectors = append(selectors, "YEAR("+timeRangeColumn+") AS year") groupBys = append([]string{"YEAR(" + timeRangeColumn + ")"}, groupBys...) orderBys = append(orderBys, "year ASC") case "day": fallthrough default: selectors = append(selectors, "YEAR("+timeRangeColumn+") AS year", "MONTH("+timeRangeColumn+") AS month", "DAY("+timeRangeColumn+") AS day") groupBys = append([]string{"DAY(" + timeRangeColumn + ")", "MONTH(" + timeRangeColumn + ")", "YEAR(" + timeRangeColumn + ")"}, groupBys...) orderBys = append(orderBys, "year ASC", "month ASC", "day ASC") } return } func generateMysqlTradingVolumeQuerySQL(options TradingVolumeQueryOptions) string { timeRangeColumn := "traded_at" sel, groupBys, orderBys := generateMysqlTimeRangeClauses(timeRangeColumn, options.GroupByPeriod) switch options.SegmentBy { case "symbol": sel = append(sel, "symbol") groupBys = append([]string{"symbol"}, groupBys...) orderBys = append(orderBys, "symbol") case "exchange": sel = append(sel, "exchange") groupBys = append([]string{"exchange"}, groupBys...) orderBys = append(orderBys, "exchange") } sel = append(sel, "SUM(quantity * price) AS quote_volume") where := []string{timeRangeColumn + " > :start_time"} sql := `SELECT ` + strings.Join(sel, ", ") + ` FROM trades` + ` WHERE ` + strings.Join(where, " AND ") + ` GROUP BY ` + strings.Join(groupBys, ", ") + ` ORDER BY ` + strings.Join(orderBys, ", ") return sql } func (s *TradeService) QueryForTradingFeeCurrency(ex types.ExchangeName, symbol string, feeCurrency string) ([]types.Trade, error) { sql := "SELECT * FROM trades WHERE exchange = :exchange AND (symbol = :symbol OR fee_currency = :fee_currency) ORDER BY traded_at ASC" rows, err := s.DB.NamedQuery(sql, map[string]interface{}{ "exchange": ex, "symbol": symbol, "fee_currency": feeCurrency, }) if err != nil { return nil, err } defer rows.Close() return s.scanRows(rows) } func (s *TradeService) Query(options QueryTradesOptions) ([]types.Trade, error) { sel := sq.Select("*"). From("trades") if options.LastGID != 0 { sel = sel.Where(sq.Gt{"gid": options.LastGID}) } if options.Since != nil { sel = sel.Where(sq.GtOrEq{"traded_at": options.Since}) } if options.Until != nil { sel = sel.Where(sq.Lt{"traded_at": options.Until}) } if options.Symbol != "" { sel = sel.Where(sq.Eq{"symbol": options.Symbol}) } if options.Exchange != "" { sel = sel.Where(sq.Eq{"exchange": options.Exchange}) } if len(options.Sessions) > 0 { // FIXME: right now we only have the exchange field in the db, we might need to add the session field too. sel = sel.Where(sq.Eq{"exchange": options.Sessions}) } if options.Ordering != "" { sel = sel.OrderBy("traded_at " + options.Ordering) } else { sel = sel.OrderBy("traded_at ASC") } if options.Limit > 0 { sel = sel.Limit(options.Limit) } sql, args, err := sel.ToSql() if err != nil { return nil, err } log.Debug(sql) log.Debug(args) rows, err := s.DB.Queryx(sql, args...) if err != nil { return nil, err } defer rows.Close() return s.scanRows(rows) } func (s *TradeService) Load(ctx context.Context, id int64) (*types.Trade, error) { var trade types.Trade rows, err := s.DB.NamedQuery("SELECT * FROM trades WHERE id = :id", map[string]interface{}{ "id": id, }) if err != nil { return nil, err } defer rows.Close() if rows.Next() { err = rows.StructScan(&trade) return &trade, err } return nil, errors.Wrapf(ErrTradeNotFound, "trade id:%d not found", id) } func queryTradesSQL(options QueryTradesOptions) string { ordering := "ASC" switch v := strings.ToUpper(options.Ordering); v { case "DESC", "ASC": ordering = v } 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.Symbol) > 0 { where = append(where, `symbol = :symbol`) } if len(options.Exchange) > 0 { where = append(where, `exchange = :exchange`) } sql := `SELECT * FROM trades` if len(where) > 0 { sql += ` WHERE ` + strings.Join(where, " AND ") } sql += ` ORDER BY gid ` + ordering if options.Limit > 0 { sql += ` LIMIT ` + strconv.FormatUint(options.Limit, 10) } return sql } func (s *TradeService) scanRows(rows *sqlx.Rows) (trades []types.Trade, err error) { for rows.Next() { var trade types.Trade if err := rows.StructScan(&trade); err != nil { return trades, err } trades = append(trades, trade) } return trades, rows.Err() } func (s *TradeService) Insert(trade types.Trade) error { sql := dbCache.InsertSqlOf(trade) _, err := s.DB.NamedExec(sql, trade) return err } func (s *TradeService) DeleteAll() error { _, err := s.DB.Exec(`DELETE FROM trades`) return err } func SelectLastTrades(ex types.ExchangeName, symbol string, isMargin, isFutures, isIsolated bool, limit uint64) sq.SelectBuilder { return sq.Select("*"). From("trades"). Where(sq.And{ sq.Eq{"symbol": symbol}, sq.Eq{"exchange": ex}, sq.Eq{"is_margin": isMargin}, sq.Eq{"is_futures": isFutures}, sq.Eq{"is_isolated": isIsolated}, }). OrderBy("traded_at DESC"). Limit(limit) }