package xdepthmaker import ( "context" "fmt" "sync" "time" "github.com/pkg/errors" "github.com/sirupsen/logrus" "golang.org/x/time/rate" "github.com/c9s/bbgo/pkg/bbgo" "github.com/c9s/bbgo/pkg/core" "github.com/c9s/bbgo/pkg/fixedpoint" "github.com/c9s/bbgo/pkg/types" "github.com/c9s/bbgo/pkg/util" ) var lastPriceModifier = fixedpoint.NewFromFloat(1.001) var minGap = fixedpoint.NewFromFloat(1.02) var defaultMargin = fixedpoint.NewFromFloat(0.003) var Two = fixedpoint.NewFromInt(2) const priceUpdateTimeout = 30 * time.Second const ID = "xdepthmaker" var log = logrus.WithField("strategy", ID) func init() { bbgo.RegisterStrategy(ID, &Strategy{}) } func notifyTrade(trade types.Trade, _, _ fixedpoint.Value) { bbgo.Notify(trade) } type CrossExchangeMarketMakingStrategy struct { ctx, parent context.Context cancel context.CancelFunc Environ *bbgo.Environment makerSession, hedgeSession *bbgo.ExchangeSession makerMarket, hedgeMarket types.Market // persistence fields Position *types.Position `json:"position,omitempty" persistence:"position"` ProfitStats *types.ProfitStats `json:"profitStats,omitempty" persistence:"profit_stats"` CoveredPosition fixedpoint.Value `json:"coveredPosition,omitempty" persistence:"covered_position"` MakerOrderExecutor, HedgeOrderExecutor *bbgo.GeneralOrderExecutor // orderStore is a shared order store between the maker session and the hedge session orderStore *core.OrderStore // tradeCollector is a shared trade collector between the maker session and the hedge session tradeCollector *core.TradeCollector } func (s *CrossExchangeMarketMakingStrategy) Initialize( ctx context.Context, environ *bbgo.Environment, makerSession, hedgeSession *bbgo.ExchangeSession, symbol, strategyID, instanceID string, ) error { s.parent = ctx s.ctx, s.cancel = context.WithCancel(ctx) s.Environ = environ s.makerSession = makerSession s.hedgeSession = hedgeSession var ok bool s.hedgeMarket, ok = s.hedgeSession.Market(symbol) if !ok { return fmt.Errorf("source session market %s is not defined", symbol) } s.makerMarket, ok = s.makerSession.Market(symbol) if !ok { return fmt.Errorf("maker session market %s is not defined", symbol) } if s.ProfitStats == nil { s.ProfitStats = types.NewProfitStats(s.makerMarket) } if s.Position == nil { s.Position = types.NewPositionFromMarket(s.makerMarket) } // Always update the position fields s.Position.Strategy = strategyID s.Position.StrategyInstanceID = instanceID // if anyone of the fee rate is defined, this assumes that both are defined. // so that zero maker fee could be applied for _, ses := range []*bbgo.ExchangeSession{makerSession, hedgeSession} { if ses.MakerFeeRate.Sign() > 0 || ses.TakerFeeRate.Sign() > 0 { s.Position.SetExchangeFeeRate(ses.ExchangeName, types.ExchangeFee{ MakerFeeRate: ses.MakerFeeRate, TakerFeeRate: ses.TakerFeeRate, }) } } s.MakerOrderExecutor = bbgo.NewGeneralOrderExecutor( makerSession, s.makerMarket.Symbol, strategyID, instanceID, s.Position) s.MakerOrderExecutor.BindEnvironment(environ) s.MakerOrderExecutor.BindProfitStats(s.ProfitStats) s.MakerOrderExecutor.Bind() s.MakerOrderExecutor.TradeCollector().OnPositionUpdate(func(position *types.Position) { // bbgo.Sync(ctx, s) }) s.HedgeOrderExecutor = bbgo.NewGeneralOrderExecutor( hedgeSession, s.hedgeMarket.Symbol, strategyID, instanceID, s.Position) s.HedgeOrderExecutor.BindEnvironment(environ) s.HedgeOrderExecutor.BindProfitStats(s.ProfitStats) s.HedgeOrderExecutor.Bind() s.HedgeOrderExecutor.TradeCollector().OnPositionUpdate(func(position *types.Position) { // bbgo.Sync(ctx, s) }) s.orderStore = core.NewOrderStore(s.Position.Symbol) s.orderStore.BindStream(hedgeSession.UserDataStream) s.orderStore.BindStream(makerSession.UserDataStream) s.tradeCollector = core.NewTradeCollector(symbol, s.Position, s.orderStore) s.tradeCollector.OnTrade(func(trade types.Trade, profit, netProfit fixedpoint.Value) { c := trade.PositionChange() // sync covered position // sell trade -> negative delta -> // 1) long position -> reduce long position // 2) short position -> increase short position // buy trade -> positive delta -> // 1) short position -> reduce short position // 2) short position -> increase short position if trade.Exchange == s.hedgeSession.ExchangeName { s.CoveredPosition.AtomicAdd(c) } s.ProfitStats.AddTrade(trade) if profit.Compare(fixedpoint.Zero) == 0 { s.Environ.RecordPosition(s.Position, trade, nil) } else { log.Infof("%s generated profit: %v", symbol, profit) p := s.Position.NewProfit(trade, profit, netProfit) bbgo.Notify(&p) s.ProfitStats.AddProfit(p) s.Environ.RecordPosition(s.Position, trade, &p) } }) s.tradeCollector.BindStream(s.hedgeSession.UserDataStream) s.tradeCollector.BindStream(s.makerSession.UserDataStream) return nil } type Strategy struct { *CrossExchangeMarketMakingStrategy Environment *bbgo.Environment Symbol string `json:"symbol"` // HedgeExchange session name HedgeExchange string `json:"hedgeExchange"` // MakerExchange session name MakerExchange string `json:"makerExchange"` UpdateInterval types.Duration `json:"updateInterval"` HedgeInterval types.Duration `json:"hedgeInterval"` OrderCancelWaitTime types.Duration `json:"orderCancelWaitTime"` Margin fixedpoint.Value `json:"margin"` BidMargin fixedpoint.Value `json:"bidMargin"` AskMargin fixedpoint.Value `json:"askMargin"` UseDepthPrice bool `json:"useDepthPrice"` DepthQuantity fixedpoint.Value `json:"depthQuantity"` StopHedgeQuoteBalance fixedpoint.Value `json:"stopHedgeQuoteBalance"` StopHedgeBaseBalance fixedpoint.Value `json:"stopHedgeBaseBalance"` // Quantity is used for fixed quantity of the first layer Quantity fixedpoint.Value `json:"quantity"` // QuantityScale helps user to define the quantity by layer scale QuantityScale *bbgo.LayerScale `json:"quantityScale,omitempty"` // MaxExposurePosition defines the unhedged quantity of stop MaxExposurePosition fixedpoint.Value `json:"maxExposurePosition"` NotifyTrade bool `json:"notifyTrade"` // RecoverTrade tries to find the missing trades via the REStful API RecoverTrade bool `json:"recoverTrade"` RecoverTradeScanPeriod types.Duration `json:"recoverTradeScanPeriod"` NumLayers int `json:"numLayers"` // Pips is the pips of the layer prices Pips fixedpoint.Value `json:"pips"` // -------------------------------- // private fields // -------------------------------- // pricingBook is the order book (depth) from the hedging session pricingBook *types.StreamOrderBook hedgeErrorLimiter *rate.Limiter hedgeErrorRateReservation *rate.Reservation askPriceHeartBeat, bidPriceHeartBeat types.PriceHeartBeat lastPrice fixedpoint.Value stopC chan struct{} } func (s *Strategy) ID() string { return ID } func (s *Strategy) InstanceID() string { return fmt.Sprintf("%s:%s", ID, s.Symbol) } func (s *Strategy) CrossSubscribe(sessions map[string]*bbgo.ExchangeSession) { makerSession, hedgeSession, err := selectSessions2(sessions, s.MakerExchange, s.HedgeExchange) if err != nil { panic(err) } hedgeSession.Subscribe(types.BookChannel, s.Symbol, types.SubscribeOptions{ Depth: types.DepthLevelMedium, Speed: types.SpeedHigh, }) hedgeSession.Subscribe(types.KLineChannel, s.Symbol, types.SubscribeOptions{Interval: "1m"}) makerSession.Subscribe(types.KLineChannel, s.Symbol, types.SubscribeOptions{Interval: "1m"}) } func (s *Strategy) Validate() error { if s.MakerExchange == "" { return errors.New("maker exchange is not configured") } if s.HedgeExchange == "" { return errors.New("maker exchange is not configured") } if s.Quantity.IsZero() || s.QuantityScale == nil { return errors.New("quantity or quantityScale can not be empty") } if len(s.Symbol) == 0 { return errors.New("symbol is required") } return nil } func (s *Strategy) Defaults() error { if s.UpdateInterval == 0 { s.UpdateInterval = types.Duration(time.Second) } if s.HedgeInterval == 0 { s.HedgeInterval = types.Duration(3 * time.Second) } if s.NumLayers == 0 { s.NumLayers = 1 } if s.Margin.IsZero() { s.Margin = defaultMargin } if s.BidMargin.IsZero() { if !s.Margin.IsZero() { s.BidMargin = s.Margin } else { s.BidMargin = defaultMargin } } if s.AskMargin.IsZero() { if !s.Margin.IsZero() { s.AskMargin = s.Margin } else { s.AskMargin = defaultMargin } } s.hedgeErrorLimiter = rate.NewLimiter(rate.Every(1*time.Minute), 1) return nil } func (s *Strategy) Initialize() error { return nil } func (s *Strategy) CrossRun( ctx context.Context, _ bbgo.OrderExecutionRouter, sessions map[string]*bbgo.ExchangeSession, ) error { makerSession, hedgeSession, err := selectSessions2(sessions, s.MakerExchange, s.HedgeExchange) if err != nil { return err } s.CrossExchangeMarketMakingStrategy = &CrossExchangeMarketMakingStrategy{} if err := s.CrossExchangeMarketMakingStrategy.Initialize(ctx, s.Environment, makerSession, hedgeSession, s.Symbol, ID, s.InstanceID()); err != nil { return err } s.pricingBook = types.NewStreamBook(s.Symbol) s.pricingBook.BindStream(s.hedgeSession.MarketDataStream) if s.NotifyTrade { s.tradeCollector.OnTrade(notifyTrade) } s.tradeCollector.OnPositionUpdate(func(position *types.Position) { bbgo.Notify(position) }) s.stopC = make(chan struct{}) if s.RecoverTrade { s.tradeCollector.OnRecover(func(trade types.Trade) { bbgo.Notify("Recovered trade", trade) }) go s.runTradeRecover(ctx) } go func() { posTicker := time.NewTicker(util.MillisecondsJitter(s.HedgeInterval.Duration(), 200)) defer posTicker.Stop() for { select { case <-s.stopC: log.Warnf("%s maker goroutine stopped, due to the stop signal", s.Symbol) return case <-ctx.Done(): log.Warnf("%s maker goroutine stopped, due to the cancelled context", s.Symbol) return case sig, ok := <-s.pricingBook.C: // when any book change event happened if !ok { return } switch sig.Type { case types.BookSignalSnapshot: case types.BookSignalUpdate: } case <-posTicker.C: // For positive position and positive covered position: // uncover position = +5 - +3 (covered position) = 2 // // For positive position and negative covered position: // uncover position = +5 - (-3) (covered position) = 8 // // meaning we bought 5 on MAX and sent buy order with 3 on binance // // For negative position: // uncover position = -5 - -3 (covered position) = -2 s.tradeCollector.Process() position := s.Position.GetBase() uncoverPosition := position.Sub(s.CoveredPosition) absPos := uncoverPosition.Abs() if absPos.Compare(s.hedgeMarket.MinQuantity) > 0 { log.Infof("%s base position %v coveredPosition: %v uncoverPosition: %v", s.Symbol, position, s.CoveredPosition, uncoverPosition, ) s.Hedge(ctx, uncoverPosition.Neg()) } } } }() bbgo.OnShutdown(ctx, func(ctx context.Context, wg *sync.WaitGroup) { defer wg.Done() close(s.stopC) // wait for the quoter to stop time.Sleep(s.UpdateInterval.Duration()) shutdownCtx, cancelShutdown := context.WithTimeout(context.TODO(), time.Minute) defer cancelShutdown() if err := s.MakerOrderExecutor.GracefulCancel(shutdownCtx); err != nil { log.WithError(err).Errorf("graceful cancel %s order error", s.Symbol) } if err := s.HedgeOrderExecutor.GracefulCancel(shutdownCtx); err != nil { log.WithError(err).Errorf("graceful cancel %s order error", s.Symbol) } bbgo.Notify("%s: %s position", ID, s.Symbol, s.Position) }) return nil } func (s *Strategy) Hedge(ctx context.Context, pos fixedpoint.Value) { side := types.SideTypeBuy if pos.IsZero() { return } quantity := pos.Abs() if pos.Sign() < 0 { side = types.SideTypeSell } lastPrice := s.lastPrice sourceBook := s.pricingBook.CopyDepth(1) switch side { case types.SideTypeBuy: if bestAsk, ok := sourceBook.BestAsk(); ok { lastPrice = bestAsk.Price } case types.SideTypeSell: if bestBid, ok := sourceBook.BestBid(); ok { lastPrice = bestBid.Price } } notional := quantity.Mul(lastPrice) if notional.Compare(s.hedgeMarket.MinNotional) <= 0 { log.Warnf("%s %v less than min notional, skipping hedge", s.Symbol, notional) return } // adjust quantity according to the balances account := s.hedgeSession.GetAccount() switch side { case types.SideTypeBuy: // check quote quantity if quote, ok := account.Balance(s.hedgeMarket.QuoteCurrency); ok { if quote.Available.Compare(notional) < 0 { // adjust price to higher 0.1%, so that we can ensure that the order can be executed quantity = bbgo.AdjustQuantityByMaxAmount(quantity, lastPrice.Mul(lastPriceModifier), quote.Available) quantity = s.hedgeMarket.TruncateQuantity(quantity) } } case types.SideTypeSell: // check quote quantity if base, ok := account.Balance(s.hedgeMarket.BaseCurrency); ok { if base.Available.Compare(quantity) < 0 { quantity = base.Available } } } // truncate quantity for the supported precision quantity = s.hedgeMarket.TruncateQuantity(quantity) if notional.Compare(s.hedgeMarket.MinNotional.Mul(minGap)) <= 0 { log.Warnf("the adjusted amount %v is less than minimal notional %v, skipping hedge", notional, s.hedgeMarket.MinNotional) return } if quantity.Compare(s.hedgeMarket.MinQuantity.Mul(minGap)) <= 0 { log.Warnf("the adjusted quantity %v is less than minimal quantity %v, skipping hedge", quantity, s.hedgeMarket.MinQuantity) return } if s.hedgeErrorRateReservation != nil { if !s.hedgeErrorRateReservation.OK() { return } bbgo.Notify("Hit hedge error rate limit, waiting...") time.Sleep(s.hedgeErrorRateReservation.Delay()) s.hedgeErrorRateReservation = nil } log.Infof("submitting %s hedge order %s %v", s.Symbol, side.String(), quantity) bbgo.Notify("Submitting %s hedge order %s %v", s.Symbol, side.String(), quantity) createdOrders, err := s.HedgeOrderExecutor.SubmitOrders(ctx, types.SubmitOrder{ Market: s.hedgeMarket, Symbol: s.Symbol, Type: types.OrderTypeMarket, Side: side, Quantity: quantity, }) if err != nil { s.hedgeErrorRateReservation = s.hedgeErrorLimiter.Reserve() log.WithError(err).Errorf("market order submit error: %s", err.Error()) return } s.orderStore.Add(createdOrders...) // if the hedge is on sell side, then we should add positive position switch side { case types.SideTypeSell: s.CoveredPosition.AtomicAdd(quantity) case types.SideTypeBuy: s.CoveredPosition.AtomicAdd(quantity.Neg()) } } func (s *Strategy) runTradeRecover(ctx context.Context) { tradeScanInterval := s.RecoverTradeScanPeriod.Duration() if tradeScanInterval == 0 { tradeScanInterval = 30 * time.Minute } tradeScanOverlapBufferPeriod := 5 * time.Minute tradeScanTicker := time.NewTicker(tradeScanInterval) defer tradeScanTicker.Stop() for { select { case <-ctx.Done(): return case <-tradeScanTicker.C: log.Infof("scanning trades from %s ago...", tradeScanInterval) if s.RecoverTrade { startTime := time.Now().Add(-tradeScanInterval).Add(-tradeScanOverlapBufferPeriod) if err := s.tradeCollector.Recover(ctx, s.hedgeSession.Exchange.(types.ExchangeTradeHistoryService), s.Symbol, startTime); err != nil { log.WithError(err).Errorf("query trades error") } if err := s.tradeCollector.Recover(ctx, s.makerSession.Exchange.(types.ExchangeTradeHistoryService), s.Symbol, startTime); err != nil { log.WithError(err).Errorf("query trades error") } } } } } func (s *Strategy) updateQuote(ctx context.Context, orderExecutionRouter bbgo.OrderExecutionRouter) { if err := s.MakerOrderExecutor.GracefulCancel(ctx); err != nil { log.Warnf("there are some %s orders not canceled, skipping placing maker orders", s.Symbol) s.MakerOrderExecutor.ActiveMakerOrders().Print() return } numOfMakerOrders := s.MakerOrderExecutor.ActiveMakerOrders().NumOfOrders() if numOfMakerOrders > 0 { log.Warnf("maker orders are not all canceled") return } bestBid, bestAsk, hasPrice := s.pricingBook.BestBidAndAsk() if !hasPrice { return } // use mid-price for the last price s.lastPrice = bestBid.Price.Add(bestAsk.Price).Div(Two) bookLastUpdateTime := s.pricingBook.LastUpdateTime() if _, err := s.bidPriceHeartBeat.Update(bestBid, priceUpdateTimeout); err != nil { log.WithError(err).Errorf("quote update error, %s price not updating, order book last update: %s ago", s.Symbol, time.Since(bookLastUpdateTime)) return } if _, err := s.askPriceHeartBeat.Update(bestAsk, priceUpdateTimeout); err != nil { log.WithError(err).Errorf("quote update error, %s price not updating, order book last update: %s ago", s.Symbol, time.Since(bookLastUpdateTime)) return } sourceBook := s.pricingBook.CopyDepth(10) if valid, err := sourceBook.IsValid(); !valid { log.WithError(err).Errorf("%s invalid copied order book, skip quoting: %v", s.Symbol, err) return } var disableMakerBid = false var disableMakerAsk = false // check maker's balance quota // we load the balances from the account while we're generating the orders, // the balance may have a chance to be deducted by other strategies or manual orders submitted by the user makerBalances := s.makerSession.GetAccount().Balances() makerQuota := &bbgo.QuotaTransaction{} if b, ok := makerBalances[s.makerMarket.BaseCurrency]; ok { if b.Available.Compare(s.makerMarket.MinQuantity) > 0 { makerQuota.BaseAsset.Add(b.Available) } else { disableMakerAsk = true } } if b, ok := makerBalances[s.makerMarket.QuoteCurrency]; ok { if b.Available.Compare(s.makerMarket.MinNotional) > 0 { makerQuota.QuoteAsset.Add(b.Available) } else { disableMakerBid = true } } hedgeBalances := s.hedgeSession.GetAccount().Balances() hedgeQuota := &bbgo.QuotaTransaction{} if b, ok := hedgeBalances[s.hedgeMarket.BaseCurrency]; ok { // to make bid orders, we need enough base asset in the foreign exchange, // if the base asset balance is not enough for selling if s.StopHedgeBaseBalance.Sign() > 0 { minAvailable := s.StopHedgeBaseBalance.Add(s.hedgeMarket.MinQuantity) if b.Available.Compare(minAvailable) > 0 { hedgeQuota.BaseAsset.Add(b.Available.Sub(minAvailable)) } else { log.Warnf("%s maker bid disabled: insufficient base balance %s", s.Symbol, b.String()) disableMakerBid = true } } else if b.Available.Compare(s.hedgeMarket.MinQuantity) > 0 { hedgeQuota.BaseAsset.Add(b.Available) } else { log.Warnf("%s maker bid disabled: insufficient base balance %s", s.Symbol, b.String()) disableMakerBid = true } } if b, ok := hedgeBalances[s.hedgeMarket.QuoteCurrency]; ok { // to make ask orders, we need enough quote asset in the foreign exchange, // if the quote asset balance is not enough for buying if s.StopHedgeQuoteBalance.Sign() > 0 { minAvailable := s.StopHedgeQuoteBalance.Add(s.hedgeMarket.MinNotional) if b.Available.Compare(minAvailable) > 0 { hedgeQuota.QuoteAsset.Add(b.Available.Sub(minAvailable)) } else { log.Warnf("%s maker ask disabled: insufficient quote balance %s", s.Symbol, b.String()) disableMakerAsk = true } } else if b.Available.Compare(s.hedgeMarket.MinNotional) > 0 { hedgeQuota.QuoteAsset.Add(b.Available) } else { log.Warnf("%s maker ask disabled: insufficient quote balance %s", s.Symbol, b.String()) disableMakerAsk = true } } // if max exposure position is configured, we should not: // 1. place bid orders when we already bought too much // 2. place ask orders when we already sold too much if s.MaxExposurePosition.Sign() > 0 { pos := s.Position.GetBase() if pos.Compare(s.MaxExposurePosition.Neg()) > 0 { // stop sell if we over-sell disableMakerAsk = true } else if pos.Compare(s.MaxExposurePosition) > 0 { // stop buy if we over buy disableMakerBid = true } } if disableMakerAsk && disableMakerBid { log.Warnf("%s bid/ask maker is disabled due to insufficient balances", s.Symbol) return } bestBidPrice := bestBid.Price bestAskPrice := bestAsk.Price log.Infof("%s book ticker: best ask / best bid = %v / %v", s.Symbol, bestAskPrice, bestBidPrice) var submitOrders []types.SubmitOrder var accumulativeBidQuantity, accumulativeAskQuantity fixedpoint.Value var bidQuantity = s.Quantity var askQuantity = s.Quantity var bidMargin = s.BidMargin var askMargin = s.AskMargin var pips = s.Pips bidPrice := bestBidPrice askPrice := bestAskPrice for i := 0; i < s.NumLayers; i++ { // for maker bid orders if !disableMakerBid { if s.QuantityScale != nil { qf, err := s.QuantityScale.Scale(i + 1) if err != nil { log.WithError(err).Errorf("quantityScale error") return } log.Infof("%s scaling bid #%d quantity to %f", s.Symbol, i+1, qf) // override the default bid quantity bidQuantity = fixedpoint.NewFromFloat(qf) } accumulativeBidQuantity = accumulativeBidQuantity.Add(bidQuantity) if s.UseDepthPrice { if s.DepthQuantity.Sign() > 0 { bidPrice = aggregatePrice(sourceBook.SideBook(types.SideTypeBuy), s.DepthQuantity) } else { bidPrice = aggregatePrice(sourceBook.SideBook(types.SideTypeBuy), accumulativeBidQuantity) } } bidPrice = bidPrice.Mul(fixedpoint.One.Sub(bidMargin)) if i > 0 && pips.Sign() > 0 { bidPrice = bidPrice.Sub(pips.Mul(fixedpoint.NewFromInt(int64(i)). Mul(s.makerMarket.TickSize))) } if makerQuota.QuoteAsset.Lock(bidQuantity.Mul(bidPrice)) && hedgeQuota.BaseAsset.Lock(bidQuantity) { // if we bought, then we need to sell the base from the hedge session submitOrders = append(submitOrders, types.SubmitOrder{ Symbol: s.Symbol, Type: types.OrderTypeLimit, Side: types.SideTypeBuy, Price: bidPrice, Quantity: bidQuantity, TimeInForce: types.TimeInForceGTC, }) makerQuota.Commit() hedgeQuota.Commit() } else { makerQuota.Rollback() hedgeQuota.Rollback() } } // for maker ask orders if !disableMakerAsk { if s.QuantityScale != nil { qf, err := s.QuantityScale.Scale(i + 1) if err != nil { log.WithError(err).Errorf("quantityScale error") return } log.Infof("%s scaling ask #%d quantity to %f", s.Symbol, i+1, qf) // override the default bid quantity askQuantity = fixedpoint.NewFromFloat(qf) } accumulativeAskQuantity = accumulativeAskQuantity.Add(askQuantity) if s.UseDepthPrice { if s.DepthQuantity.Sign() > 0 { askPrice = aggregatePrice(sourceBook.SideBook(types.SideTypeSell), s.DepthQuantity) } else { askPrice = aggregatePrice(sourceBook.SideBook(types.SideTypeSell), accumulativeAskQuantity) } } askPrice = askPrice.Mul(fixedpoint.One.Add(askMargin)) if i > 0 && pips.Sign() > 0 { askPrice = askPrice.Add(pips.Mul(fixedpoint.NewFromInt(int64(i)).Mul(s.makerMarket.TickSize))) } if makerQuota.BaseAsset.Lock(askQuantity) && hedgeQuota.QuoteAsset.Lock(askQuantity.Mul(askPrice)) { // if we bought, then we need to sell the base from the hedge session submitOrders = append(submitOrders, types.SubmitOrder{ Symbol: s.Symbol, Market: s.makerMarket, Type: types.OrderTypeLimit, Side: types.SideTypeSell, Price: askPrice, Quantity: askQuantity, TimeInForce: types.TimeInForceGTC, }) makerQuota.Commit() hedgeQuota.Commit() } else { makerQuota.Rollback() hedgeQuota.Rollback() } } } if len(submitOrders) == 0 { log.Warnf("no orders are generated") return } createdOrders, err := s.MakerOrderExecutor.SubmitOrders(ctx, submitOrders...) if err != nil { log.WithError(err).Errorf("order error: %s", err.Error()) return } s.orderStore.Add(createdOrders...) } func selectSessions2( sessions map[string]*bbgo.ExchangeSession, n1, n2 string, ) (s1, s2 *bbgo.ExchangeSession, err error) { for _, n := range []string{n1, n2} { if _, ok := sessions[n]; !ok { return nil, nil, fmt.Errorf("session %s is not defined", n) } } s1 = sessions[n1] s2 = sessions[n2] return s1, s2, nil }