package btse import ( "context" "errors" "fmt" "math" "sort" "strconv" "strings" "time" "github.com/shopspring/decimal" "github.com/thrasher-corp/gocryptotrader/common" "github.com/thrasher-corp/gocryptotrader/common/key" "github.com/thrasher-corp/gocryptotrader/config" "github.com/thrasher-corp/gocryptotrader/currency" exchange "github.com/thrasher-corp/gocryptotrader/exchanges" "github.com/thrasher-corp/gocryptotrader/exchanges/account" "github.com/thrasher-corp/gocryptotrader/exchanges/asset" "github.com/thrasher-corp/gocryptotrader/exchanges/deposit" "github.com/thrasher-corp/gocryptotrader/exchanges/fundingrate" "github.com/thrasher-corp/gocryptotrader/exchanges/futures" "github.com/thrasher-corp/gocryptotrader/exchanges/kline" "github.com/thrasher-corp/gocryptotrader/exchanges/order" "github.com/thrasher-corp/gocryptotrader/exchanges/orderbook" "github.com/thrasher-corp/gocryptotrader/exchanges/protocol" "github.com/thrasher-corp/gocryptotrader/exchanges/request" "github.com/thrasher-corp/gocryptotrader/exchanges/stream" "github.com/thrasher-corp/gocryptotrader/exchanges/ticker" "github.com/thrasher-corp/gocryptotrader/exchanges/trade" "github.com/thrasher-corp/gocryptotrader/log" "github.com/thrasher-corp/gocryptotrader/portfolio/withdraw" ) // SetDefaults sets the basic defaults for BTSE func (b *BTSE) SetDefaults() { b.Name = "BTSE" b.Enabled = true b.Verbose = true b.API.CredentialsValidator.RequiresKey = true b.API.CredentialsValidator.RequiresSecret = true fmt1 := currency.PairStore{ RequestFormat: ¤cy.PairFormat{ Uppercase: true, Delimiter: currency.DashDelimiter, }, ConfigFormat: ¤cy.PairFormat{ Uppercase: true, Delimiter: currency.DashDelimiter, }, } err := b.StoreAssetPairFormat(asset.Spot, fmt1) if err != nil { log.Errorln(log.ExchangeSys, err) } fmt2 := currency.PairStore{ RequestFormat: ¤cy.PairFormat{ Uppercase: true, }, ConfigFormat: ¤cy.PairFormat{ Uppercase: true, Delimiter: currency.DashDelimiter, }, } err = b.StoreAssetPairFormat(asset.Futures, fmt2) if err != nil { log.Errorln(log.ExchangeSys, err) } b.Features = exchange.Features{ Supports: exchange.FeaturesSupported{ REST: true, Websocket: true, RESTCapabilities: protocol.Features{ TickerFetching: true, TickerBatching: true, KlineFetching: true, TradeFetching: true, OrderbookFetching: true, AutoPairUpdates: true, AccountInfo: true, GetOrder: true, GetOrders: true, CancelOrders: true, CancelOrder: true, SubmitOrder: true, TradeFee: true, FiatDepositFee: true, FiatWithdrawalFee: true, CryptoWithdrawalFee: true, FundingRateFetching: true, }, WebsocketCapabilities: protocol.Features{ OrderbookFetching: true, TradeFetching: true, Subscribe: true, Unsubscribe: true, GetOrders: true, GetOrder: true, }, WithdrawPermissions: exchange.NoAPIWithdrawalMethods, Kline: kline.ExchangeCapabilitiesSupported{ DateRanges: true, Intervals: true, }, FuturesCapabilities: exchange.FuturesCapabilities{ FundingRates: true, SupportedFundingRateFrequencies: map[kline.Interval]bool{ kline.OneHour: true, }, FundingRateBatching: map[asset.Item]bool{ asset.Futures: true, }, OpenInterest: exchange.OpenInterestSupport{ Supported: true, SupportsRestBatch: true, SupportedViaTicker: true, }, }, }, Enabled: exchange.FeaturesEnabled{ AutoPairUpdates: true, Kline: kline.ExchangeCapabilitiesEnabled{ Intervals: kline.DeployExchangeIntervals( kline.IntervalCapacity{Interval: kline.OneMin}, kline.IntervalCapacity{Interval: kline.FiveMin}, kline.IntervalCapacity{Interval: kline.FifteenMin}, kline.IntervalCapacity{Interval: kline.ThirtyMin}, kline.IntervalCapacity{Interval: kline.OneHour}, kline.IntervalCapacity{Interval: kline.SixHour}, kline.IntervalCapacity{Interval: kline.OneDay}, ), GlobalResultLimit: 300, }, }, } b.Requester, err = request.New(b.Name, common.NewHTTPClientWithTimeout(exchange.DefaultHTTPTimeout), request.WithLimiter(SetRateLimit())) if err != nil { log.Errorln(log.ExchangeSys, err) } b.API.Endpoints = b.NewEndpoints() err = b.API.Endpoints.SetDefaultEndpoints(map[exchange.URL]string{ exchange.RestSpot: btseAPIURL, exchange.RestFutures: btseAPIURL, exchange.WebsocketSpot: btseWebsocket, }) if err != nil { log.Errorln(log.ExchangeSys, err) } b.Websocket = stream.NewWebsocket() b.WebsocketResponseMaxLimit = exchange.DefaultWebsocketResponseMaxLimit b.WebsocketResponseCheckTimeout = exchange.DefaultWebsocketResponseCheckTimeout b.WebsocketOrderbookBufferLimit = exchange.DefaultWebsocketOrderbookBufferLimit } // Setup takes in the supplied exchange configuration details and sets params func (b *BTSE) Setup(exch *config.Exchange) error { err := exch.Validate() if err != nil { return err } if !exch.Enabled { b.SetEnabled(false) return nil } err = b.SetupDefaults(exch) if err != nil { return err } wsRunningURL, err := b.API.Endpoints.GetURL(exchange.WebsocketSpot) if err != nil { return err } err = b.Websocket.Setup(&stream.WebsocketSetup{ ExchangeConfig: exch, DefaultURL: btseWebsocket, RunningURL: wsRunningURL, Connector: b.WsConnect, Subscriber: b.Subscribe, Unsubscriber: b.Unsubscribe, GenerateSubscriptions: b.GenerateDefaultSubscriptions, Features: &b.Features.Supports.WebsocketCapabilities, }) if err != nil { return err } err = b.seedOrderSizeLimits(context.TODO()) if err != nil { return err } return b.Websocket.SetupNewConnection(stream.ConnectionSetup{ ResponseCheckTimeout: exch.WebsocketResponseCheckTimeout, ResponseMaxLimit: exch.WebsocketResponseMaxLimit, }) } // FetchTradablePairs returns a list of the exchanges tradable pairs func (b *BTSE) FetchTradablePairs(ctx context.Context, a asset.Item) (currency.Pairs, error) { m, err := b.GetMarketSummary(ctx, "", a == asset.Spot) if err != nil { return nil, err } pairs := make(currency.Pairs, 0, len(m)) mPairs := m.MillionPairs() for _, l := range m { if !l.Active || !l.HasLiquidity() || (a == asset.Spot && !l.IsMarketOpenToSpot) { // Skip OTC assets only tradable on web UI continue } if mPairs[l.Symbol] { // BTSE lists M_ symbols for very small pairs, in millions. For those listings, we want to take the M_ listing in preference // to the native listing, since they're often going to appear as locked markets due to size (bid == ask, e.g. 0.0000000003) continue } baseCurr := l.Base var quoteCurr string if a == asset.Futures { s := strings.Split(l.Symbol, l.Base) // e.g. RUNEPFC for RUNE-USD futures pair if len(s) <= 1 { continue } quoteCurr = s[1] } else { s := strings.Split(l.Symbol, currency.DashDelimiter) if len(s) != 2 { continue } baseCurr = s[0] quoteCurr = s[1] } pair, err := currency.NewPairFromStrings(baseCurr, quoteCurr) if err != nil { return nil, err } pairs = append(pairs, pair) } return pairs, nil } // UpdateTradablePairs updates the exchanges available pairs and stores // them in the exchanges config func (b *BTSE) UpdateTradablePairs(ctx context.Context, forceUpdate bool) error { a := b.GetAssetTypes(false) for i := range a { pairs, err := b.FetchTradablePairs(ctx, a[i]) if err != nil { return err } err = b.UpdatePairs(pairs, a[i], false, forceUpdate) if err != nil { return err } } return b.EnsureOnePairEnabled() } // UpdateTickers updates the ticker for all currency pairs of a given asset type func (b *BTSE) UpdateTickers(ctx context.Context, a asset.Item) error { if !b.SupportsAsset(a) { return fmt.Errorf("%w %v", asset.ErrNotSupported, a) } tickers, err := b.GetMarketSummary(ctx, "", a == asset.Spot) if err != nil { return err } var errs error for x := range tickers { pair, err := currency.NewPairFromString(tickers[x].Symbol) if err == nil { err = ticker.ProcessTicker(&ticker.Price{ Pair: pair, Ask: tickers[x].LowestAsk, Bid: tickers[x].HighestBid, Low: tickers[x].Low24Hr, Last: tickers[x].Last, Volume: tickers[x].Volume, High: tickers[x].High24Hr, OpenInterest: tickers[x].OpenInterest, ExchangeName: b.Name, AssetType: a}) } if err != nil { errs = common.AppendError(errs, err) } } return errs } // UpdateTicker updates and returns the ticker for a currency pair func (b *BTSE) UpdateTicker(ctx context.Context, p currency.Pair, a asset.Item) (*ticker.Price, error) { if p.IsEmpty() { return nil, currency.ErrCurrencyPairEmpty } if !b.SupportsAsset(a) { return nil, fmt.Errorf("%w %v", asset.ErrNotSupported, a) } ticks, err := b.GetMarketSummary(ctx, p.String(), a == asset.Spot) if err != nil { return nil, err } if len(ticks) != 1 { return nil, errors.New("market_summary should return 1 tick for a single ticker") } err = ticker.ProcessTicker(&ticker.Price{ Pair: p, Ask: ticks[0].LowestAsk, Bid: ticks[0].HighestBid, Low: ticks[0].Low24Hr, Last: ticks[0].Last, Volume: ticks[0].Volume, High: ticks[0].High24Hr, ExchangeName: b.Name, AssetType: a}) if err != nil { return nil, err } return ticker.GetTicker(b.Name, p, a) } // FetchTicker returns the ticker for a currency pair func (b *BTSE) FetchTicker(ctx context.Context, p currency.Pair, assetType asset.Item) (*ticker.Price, error) { tickerNew, err := ticker.GetTicker(b.Name, p, assetType) if err != nil { return b.UpdateTicker(ctx, p, assetType) } return tickerNew, nil } // FetchOrderbook returns orderbook base on the currency pair func (b *BTSE) FetchOrderbook(ctx context.Context, p currency.Pair, assetType asset.Item) (*orderbook.Base, error) { ob, err := orderbook.Get(b.Name, p, assetType) if err != nil { return b.UpdateOrderbook(ctx, p, assetType) } return ob, nil } // UpdateOrderbook updates and returns the orderbook for a currency pair func (b *BTSE) UpdateOrderbook(ctx context.Context, p currency.Pair, assetType asset.Item) (*orderbook.Base, error) { if p.IsEmpty() { return nil, currency.ErrCurrencyPairEmpty } if err := b.CurrencyPairs.IsAssetEnabled(assetType); err != nil { return nil, err } book := &orderbook.Base{ Exchange: b.Name, Pair: p, Asset: assetType, VerifyOrderbook: b.CanVerifyOrderbook, } fPair, err := b.FormatExchangeCurrency(p, assetType) if err != nil { return book, err } a, err := b.FetchOrderBook(ctx, fPair.String(), 0, 0, 0, assetType == asset.Spot) if err != nil { return book, err } book.Bids = make(orderbook.Items, 0, len(a.BuyQuote)) for x := range a.BuyQuote { if b.orderbookFilter(a.BuyQuote[x].Price, a.BuyQuote[x].Size) { continue } book.Bids = append(book.Bids, orderbook.Item{ Price: a.BuyQuote[x].Price, Amount: a.BuyQuote[x].Size, }) } book.Asks = make(orderbook.Items, 0, len(a.SellQuote)) for x := range a.SellQuote { if b.orderbookFilter(a.SellQuote[x].Price, a.SellQuote[x].Size) { continue } book.Asks = append(book.Asks, orderbook.Item{ Price: a.SellQuote[x].Price, Amount: a.SellQuote[x].Size, }) } book.Asks.SortAsks() book.Pair = p book.Exchange = b.Name book.Asset = assetType err = book.Process() if err != nil { return book, err } return orderbook.Get(b.Name, p, assetType) } // UpdateAccountInfo retrieves balances for all enabled currencies for the // BTSE exchange func (b *BTSE) UpdateAccountInfo(ctx context.Context, assetType asset.Item) (account.Holdings, error) { var a account.Holdings balance, err := b.GetWalletInformation(ctx) if err != nil { return a, err } currencies := make([]account.Balance, len(balance)) for b := range balance { currencies[b] = account.Balance{ Currency: currency.NewCode(balance[b].Currency), Total: balance[b].Total, Hold: balance[b].Total - balance[b].Available, Free: balance[b].Available, } } a.Exchange = b.Name a.Accounts = []account.SubAccount{ { AssetType: assetType, Currencies: currencies, }, } creds, err := b.GetCredentials(ctx) if err != nil { return account.Holdings{}, err } err = account.Process(&a, creds) if err != nil { return account.Holdings{}, err } return a, nil } // FetchAccountInfo retrieves balances for all enabled currencies func (b *BTSE) FetchAccountInfo(ctx context.Context, assetType asset.Item) (account.Holdings, error) { creds, err := b.GetCredentials(ctx) if err != nil { return account.Holdings{}, err } acc, err := account.GetHoldings(b.Name, creds, assetType) if err != nil { return b.UpdateAccountInfo(ctx, assetType) } return acc, nil } // GetAccountFundingHistory returns funding history, deposits and // withdrawals func (b *BTSE) GetAccountFundingHistory(_ context.Context) ([]exchange.FundingHistory, error) { return nil, common.ErrFunctionNotSupported } func (b *BTSE) withinLimits(pair currency.Pair, amount float64) error { val, found := OrderSizeLimits(pair.String()) if !found { return fmt.Errorf("%w for pair %v", order.ErrExchangeLimitNotLoaded, pair) } if math.Mod(amount, val.MinSizeIncrement) < 0 { return fmt.Errorf("%w %v %v %v", order.ErrAmountBelowMin, pair, amount, val.MinSizeIncrement) } if amount < val.MinOrderSize { return fmt.Errorf("%w %v %v %v", order.ErrAmountBelowMin, pair, amount, val.MinOrderSize) } if amount > val.MaxOrderSize { return fmt.Errorf("%w %v %v %v", order.ErrAmountExceedsMax, pair, amount, val.MinSizeIncrement) } return nil } // GetWithdrawalsHistory returns previous withdrawals data func (b *BTSE) GetWithdrawalsHistory(_ context.Context, _ currency.Code, _ asset.Item) ([]exchange.WithdrawalHistory, error) { return nil, common.ErrFunctionNotSupported } // GetRecentTrades returns the most recent trades for a currency and asset func (b *BTSE) GetRecentTrades(ctx context.Context, p currency.Pair, assetType asset.Item) ([]trade.Data, error) { var err error p, err = b.FormatExchangeCurrency(p, assetType) if err != nil { return nil, err } const limit = 500 var tradeData []Trade tradeData, err = b.GetTrades(ctx, p.String(), time.Time{}, time.Time{}, 0, 0, limit, false, assetType == asset.Spot) if err != nil { return nil, err } resp := make([]trade.Data, len(tradeData)) for i := range tradeData { tradeTimestamp := time.UnixMilli(tradeData[i].Time) var side order.Side side, err = order.StringToOrderSide(tradeData[i].Side) if err != nil { return nil, err } resp[i] = trade.Data{ Exchange: b.Name, TID: strconv.FormatInt(tradeData[i].SerialID, 10), CurrencyPair: p, AssetType: assetType, Side: side, Price: tradeData[i].Price, Amount: tradeData[i].Amount, Timestamp: tradeTimestamp, } } err = b.AddTradesToBuffer(resp...) if err != nil { return nil, err } sort.Sort(trade.ByDate(resp)) return resp, nil } // GetHistoricTrades returns historic trade data within the timeframe provided func (b *BTSE) GetHistoricTrades(_ context.Context, _ currency.Pair, _ asset.Item, _, _ time.Time) ([]trade.Data, error) { return nil, common.ErrFunctionNotSupported } // SubmitOrder submits a new order func (b *BTSE) SubmitOrder(ctx context.Context, s *order.Submit) (*order.SubmitResponse, error) { if err := s.Validate(); err != nil { return nil, err } fPair, err := b.FormatExchangeCurrency(s.Pair, s.AssetType) if err != nil { return nil, err } err = b.withinLimits(fPair, s.Amount) if err != nil { return nil, err } r, err := b.CreateOrder(ctx, s.ClientID, 0.0, false, s.Price, s.Side.String(), s.Amount, 0, 0, fPair.String(), goodTillCancel, 0.0, s.TriggerPrice, "", s.Type.String()) if err != nil { return nil, err } var orderID string if len(r) > 0 { orderID = r[0].OrderID } return s.DeriveSubmitResponse(orderID) } // ModifyOrder will allow of changing orderbook placement and limit to // market conversion func (b *BTSE) ModifyOrder(_ context.Context, _ *order.Modify) (*order.ModifyResponse, error) { return nil, common.ErrFunctionNotSupported } // CancelOrder cancels an order by its corresponding ID number func (b *BTSE) CancelOrder(ctx context.Context, o *order.Cancel) error { if err := o.Validate(o.StandardCancel()); err != nil { return err } fPair, err := b.FormatExchangeCurrency(o.Pair, o.AssetType) if err != nil { return err } _, err = b.CancelExistingOrder(ctx, o.OrderID, fPair.String(), o.ClientOrderID) if err != nil { return err } return nil } // CancelBatchOrders cancels an orders by their corresponding ID numbers func (b *BTSE) CancelBatchOrders(_ context.Context, _ []order.Cancel) (*order.CancelBatchResponse, error) { return nil, common.ErrFunctionNotSupported } // CancelAllOrders cancels all orders associated with a currency pair // If product ID is sent, all orders of that specified market will be cancelled // If not specified, all orders of all markets will be cancelled func (b *BTSE) CancelAllOrders(ctx context.Context, orderCancellation *order.Cancel) (order.CancelAllResponse, error) { if err := orderCancellation.Validate(); err != nil { return order.CancelAllResponse{}, err } var resp order.CancelAllResponse fPair, err := b.FormatExchangeCurrency(orderCancellation.Pair, orderCancellation.AssetType) if err != nil { return resp, err } allOrders, err := b.CancelExistingOrder(ctx, "", fPair.String(), "") if err != nil { return resp, err } resp.Status = make(map[string]string) for x := range allOrders { if allOrders[x].Status == orderCancelled { resp.Status[allOrders[x].OrderID] = order.Cancelled.String() } } return resp, nil } func orderIntToType(i int) order.Type { if i == 77 { return order.Market } else if i == 76 { return order.Limit } return order.UnknownType } // GetOrderInfo returns order information based on order ID func (b *BTSE) GetOrderInfo(ctx context.Context, orderID string, _ currency.Pair, _ asset.Item) (*order.Detail, error) { o, err := b.GetOrders(ctx, "", orderID, "") if err != nil { return nil, err } var od order.Detail if len(o) == 0 { return nil, errors.New("no orders found") } format, err := b.GetPairFormat(asset.Spot, false) if err != nil { return nil, err } for i := range o { if o[i].OrderID != orderID { continue } var side = order.Buy if strings.EqualFold(o[i].Side, order.Ask.String()) { side = order.Sell } od.Pair, err = currency.NewPairDelimiter(o[i].Symbol, format.Delimiter) if err != nil { log.Errorf(log.ExchangeSys, "%s GetOrderInfo unable to parse currency pair: %s\n", b.Name, err) } od.Exchange = b.Name od.Amount = o[i].Size od.OrderID = o[i].OrderID od.Date = time.Unix(o[i].Timestamp, 0) od.Side = side od.Type = orderIntToType(o[i].OrderType) od.Price = o[i].Price if od.Status, err = order.StringToOrderStatus(o[i].OrderState); err != nil { log.Errorf(log.ExchangeSys, "%s %v", b.Name, err) } th, err := b.TradeHistory(ctx, "", time.Time{}, time.Time{}, 0, 0, 0, false, "", orderID) if err != nil { return nil, fmt.Errorf("unable to get order fills for orderID %s", orderID) } for i := range th { createdAt, err := parseOrderTime(th[i].TradeID) if err != nil { log.Errorf(log.ExchangeSys, "%s GetOrderInfo unable to parse time: %s\n", b.Name, err) } var orderSide order.Side orderSide, err = order.StringToOrderSide(th[i].Side) if err != nil { return nil, err } od.Trades = append(od.Trades, order.TradeHistory{ Timestamp: createdAt, TID: th[i].TradeID, Price: th[i].Price, Amount: th[i].Size, Exchange: b.Name, Side: orderSide, Fee: th[i].FeeAmount, }) } } return &od, nil } // GetDepositAddress returns a deposit address for a specified currency func (b *BTSE) GetDepositAddress(ctx context.Context, c currency.Code, _, _ string) (*deposit.Address, error) { address, err := b.GetWalletAddress(ctx, c.String()) if err != nil { return nil, err } extractor := func(addr string) (string, string) { if strings.Contains(addr, ":") { split := strings.Split(addr, ":") return split[0], split[1] } return addr, "" } if len(address) == 0 { addressCreate, err := b.CreateWalletAddress(ctx, c.String()) if err != nil { return nil, err } if len(addressCreate) != 0 { addr, tag := extractor(addressCreate[0].Address) return &deposit.Address{ Address: addr, Tag: tag, }, nil } return nil, errors.New("address not found") } addr, tag := extractor(address[0].Address) return &deposit.Address{ Address: addr, Tag: tag, }, nil } // WithdrawCryptocurrencyFunds returns a withdrawal ID when a withdrawal is // submitted func (b *BTSE) WithdrawCryptocurrencyFunds(ctx context.Context, withdrawRequest *withdraw.Request) (*withdraw.ExchangeResponse, error) { if err := withdrawRequest.Validate(); err != nil { return nil, err } amountToString := strconv.FormatFloat(withdrawRequest.Amount, 'f', 8, 64) resp, err := b.WalletWithdrawal(ctx, withdrawRequest.Currency.String(), withdrawRequest.Crypto.Address, withdrawRequest.Crypto.AddressTag, amountToString) if err != nil { return nil, err } return &withdraw.ExchangeResponse{ Name: b.Name, ID: resp.WithdrawID, }, nil } // WithdrawFiatFunds returns a withdrawal ID when a withdrawal is // submitted func (b *BTSE) WithdrawFiatFunds(_ context.Context, _ *withdraw.Request) (*withdraw.ExchangeResponse, error) { return nil, common.ErrFunctionNotSupported } // WithdrawFiatFundsToInternationalBank returns a withdrawal ID when a withdrawal is // submitted func (b *BTSE) WithdrawFiatFundsToInternationalBank(_ context.Context, _ *withdraw.Request) (*withdraw.ExchangeResponse, error) { return nil, common.ErrFunctionNotSupported } // GetActiveOrders retrieves any orders that are active/open func (b *BTSE) GetActiveOrders(ctx context.Context, req *order.MultiOrderRequest) (order.FilteredOrders, error) { err := req.Validate() if err != nil { return nil, err } if len(req.Pairs) == 0 { return nil, errors.New("no pair provided") } var orders []order.Detail for x := range req.Pairs { formattedPair, err := b.FormatExchangeCurrency(req.Pairs[x], asset.Spot) if err != nil { return nil, err } resp, err := b.GetOrders(ctx, formattedPair.String(), "", "") if err != nil { return nil, err } format, err := b.GetPairFormat(asset.Spot, false) if err != nil { return nil, err } for i := range resp { var side = order.Buy if strings.EqualFold(resp[i].Side, order.Ask.String()) { side = order.Sell } status, err := order.StringToOrderStatus(resp[i].OrderState) if err != nil { log.Errorf(log.ExchangeSys, "%s %v", b.Name, err) } p, err := currency.NewPairDelimiter(resp[i].Symbol, format.Delimiter) if err != nil { log.Errorf(log.ExchangeSys, "%s GetActiveOrders unable to parse currency pair: %s\n", b.Name, err) } openOrder := order.Detail{ Pair: p, Exchange: b.Name, Amount: resp[i].Size, ExecutedAmount: resp[i].FilledSize, RemainingAmount: resp[i].Size - resp[i].FilledSize, OrderID: resp[i].OrderID, Date: time.Unix(resp[i].Timestamp, 0), Side: side, Price: resp[i].Price, Status: status, } if resp[i].OrderType == 77 { openOrder.Type = order.Market } else if resp[i].OrderType == 76 { openOrder.Type = order.Limit } fills, err := b.TradeHistory(ctx, "", time.Time{}, time.Time{}, 0, 0, 0, false, "", resp[i].OrderID) if err != nil { log.Errorf(log.ExchangeSys, "%s: Unable to get order fills for orderID %s", b.Name, resp[i].OrderID) continue } for i := range fills { createdAt, err := parseOrderTime(fills[i].Timestamp) if err != nil { log.Errorf(log.ExchangeSys, "%s GetActiveOrders unable to parse time: %s\n", b.Name, err) } var orderSide order.Side orderSide, err = order.StringToOrderSide(fills[i].Side) if err != nil { return nil, err } openOrder.Trades = append(openOrder.Trades, order.TradeHistory{ Timestamp: createdAt, TID: fills[i].TradeID, Price: fills[i].Price, Amount: fills[i].Size, Exchange: b.Name, Side: orderSide, Fee: fills[i].FeeAmount, }) } orders = append(orders, openOrder) } } return req.Filter(b.Name, orders), nil } func matchType(input int, required order.Type) bool { if (required == order.AnyType) || (input == 76 && required == order.Limit) || input == 77 && required == order.Market { return true } return false } // GetOrderHistory retrieves account order information // Can Limit response to specific order status func (b *BTSE) GetOrderHistory(ctx context.Context, getOrdersRequest *order.MultiOrderRequest) (order.FilteredOrders, error) { err := getOrdersRequest.Validate() if err != nil { return nil, err } var resp []order.Detail if len(getOrdersRequest.Pairs) == 0 { var err error getOrdersRequest.Pairs, err = b.GetEnabledPairs(asset.Spot) if err != nil { return nil, err } } orderDeref := *getOrdersRequest for x := range orderDeref.Pairs { fPair, err := b.FormatExchangeCurrency(orderDeref.Pairs[x], asset.Spot) if err != nil { return nil, err } currentOrder, err := b.GetOrders(ctx, fPair.String(), "", "") if err != nil { return nil, err } for y := range currentOrder { if !matchType(currentOrder[y].OrderType, orderDeref.Type) { continue } orderStatus, err := order.StringToOrderStatus(currentOrder[y].OrderState) if err != nil { log.Errorf(log.ExchangeSys, "%s %v", b.Name, err) } var orderSide order.Side orderSide, err = order.StringToOrderSide(currentOrder[y].Side) if err != nil { return nil, err } orderTime := time.UnixMilli(currentOrder[y].Timestamp) tempOrder := order.Detail{ OrderID: currentOrder[y].OrderID, ClientID: currentOrder[y].ClOrderID, Exchange: b.Name, Price: currentOrder[y].Price, AverageExecutedPrice: currentOrder[y].AverageFillPrice, Amount: currentOrder[y].Size, ExecutedAmount: currentOrder[y].FilledSize, RemainingAmount: currentOrder[y].Size - currentOrder[y].FilledSize, Date: orderTime, Side: orderSide, Status: orderStatus, Pair: orderDeref.Pairs[x], } tempOrder.InferCostsAndTimes() resp = append(resp, tempOrder) } } return getOrdersRequest.Filter(b.Name, resp), nil } // GetFeeByType returns an estimate of fee based on type of transaction func (b *BTSE) GetFeeByType(ctx context.Context, feeBuilder *exchange.FeeBuilder) (float64, error) { if feeBuilder == nil { return 0, fmt.Errorf("%T %w", feeBuilder, common.ErrNilPointer) } if !b.AreCredentialsValid(ctx) && // Todo check connection status feeBuilder.FeeType == exchange.CryptocurrencyTradeFee { feeBuilder.FeeType = exchange.OfflineTradeFee } return b.GetFee(ctx, feeBuilder) } // ValidateAPICredentials validates current credentials used for wrapper // functionality func (b *BTSE) ValidateAPICredentials(ctx context.Context, assetType asset.Item) error { _, err := b.UpdateAccountInfo(ctx, assetType) return b.CheckTransientError(err) } // FormatExchangeKlineInterval formats kline interval to exchange requested type func (b *BTSE) FormatExchangeKlineInterval(in kline.Interval) string { return strconv.FormatFloat(in.Duration().Minutes(), 'f', 0, 64) } // GetHistoricCandles returns candles between a time period for a set time interval func (b *BTSE) GetHistoricCandles(ctx context.Context, pair currency.Pair, a asset.Item, interval kline.Interval, start, end time.Time) (*kline.Item, error) { switch a { case asset.Spot, asset.Futures: default: return nil, fmt.Errorf("%w %v", asset.ErrNotSupported, a) } req, err := b.GetKlineRequest(pair, a, interval, start, end, false) if err != nil { return nil, err } intervalInt, err := strconv.Atoi(b.FormatExchangeKlineInterval(req.ExchangeInterval)) if err != nil { return nil, err } candles, err := b.GetOHLCV(ctx, req.RequestFormatted.String(), req.Start, req.End.Add(-req.ExchangeInterval.Duration()), // End time is inclusive, so we need to subtract the interval. intervalInt, a) if err != nil { return nil, err } timeSeries := make([]kline.Candle, len(candles)) for x := range candles { timeSeries[x] = kline.Candle{ Time: time.Unix(int64(candles[x][0]), 0), Open: candles[x][1], High: candles[x][2], Low: candles[x][3], Close: candles[x][4], Volume: candles[x][5], } } return req.ProcessResponse(timeSeries) } // GetHistoricCandlesExtended returns candles between a time period for a set time interval func (b *BTSE) GetHistoricCandlesExtended(ctx context.Context, pair currency.Pair, a asset.Item, interval kline.Interval, start, end time.Time) (*kline.Item, error) { switch a { case asset.Spot, asset.Futures: default: return nil, fmt.Errorf("%w %v", asset.ErrNotSupported, a) } req, err := b.GetKlineExtendedRequest(pair, a, interval, start, end) if err != nil { return nil, err } intervalInt, err := strconv.Atoi(b.FormatExchangeKlineInterval(req.ExchangeInterval)) if err != nil { return nil, err } timeSeries := make([]kline.Candle, req.Size()) for i := range req.RangeHolder.Ranges { var candles OHLCV candles, err = b.GetOHLCV(ctx, req.RequestFormatted.String(), req.RangeHolder.Ranges[i].Start.Time, req.RangeHolder.Ranges[i].End.Time, intervalInt, a) if err != nil { return nil, err } for x := range candles { timeSeries[x] = kline.Candle{ Time: time.Unix(int64(candles[x][0]), 0), Open: candles[x][1], High: candles[x][2], Low: candles[x][3], Close: candles[x][4], Volume: candles[x][5], } } } return req.ProcessResponse(timeSeries) } func (b *BTSE) seedOrderSizeLimits(ctx context.Context) error { pairs, err := b.GetMarketSummary(ctx, "", true) if err != nil { return err } for x := range pairs { tempValues := OrderSizeLimit{ MinOrderSize: pairs[x].MinOrderSize, MaxOrderSize: pairs[x].MaxOrderSize, MinSizeIncrement: pairs[x].MinSizeIncrement, } orderSizeLimitMap.Store(pairs[x].Symbol, tempValues) } pairs, err = b.GetMarketSummary(ctx, "", false) if err != nil { return err } for x := range pairs { tempValues := OrderSizeLimit{ MinOrderSize: pairs[x].MinOrderSize, MaxOrderSize: pairs[x].MaxOrderSize, MinSizeIncrement: pairs[x].MinSizeIncrement, } orderSizeLimitMap.Store(pairs[x].Symbol, tempValues) } return nil } // OrderSizeLimits looks up currency pair in orderSizeLimitMap and returns OrderSizeLimit func OrderSizeLimits(pair string) (limits OrderSizeLimit, found bool) { resp, ok := orderSizeLimitMap.Load(pair) if !ok { return } val, ok := resp.(OrderSizeLimit) return val, ok } // GetServerTime returns the current exchange server time. func (b *BTSE) GetServerTime(ctx context.Context, _ asset.Item) (time.Time, error) { st, err := b.GetCurrentServerTime(ctx) if err != nil { return time.Time{}, err } return st.ISO, nil } // GetFuturesContractDetails returns details about futures contracts func (b *BTSE) GetFuturesContractDetails(ctx context.Context, item asset.Item) ([]futures.Contract, error) { if !item.IsFutures() { return nil, futures.ErrNotFuturesAsset } if item != asset.Futures { return nil, fmt.Errorf("%w %v", asset.ErrNotSupported, item) } marketSummary, err := b.GetMarketSummary(ctx, "", false) if err != nil { return nil, err } resp := make([]futures.Contract, 0, len(marketSummary)) for i := range marketSummary { var cp currency.Pair cp, err = currency.NewPairFromStrings(marketSummary[i].Base, marketSummary[i].Symbol[len(marketSummary[i].Base):]) if err != nil { return nil, err } settlementCurrencies := make(currency.Currencies, len(marketSummary[i].AvailableSettlement)) var s, e time.Time var ct futures.ContractType if marketSummary[i].OpenTime > 0 { s = time.UnixMilli(marketSummary[i].OpenTime) } if marketSummary[i].CloseTime > 0 { e = time.UnixMilli(marketSummary[i].CloseTime) } if marketSummary[i].TimeBasedContract { if e.Sub(s) > kline.OneMonth.Duration() { ct = futures.Quarterly } else { ct = futures.Monthly } } else { ct = futures.Perpetual } var contractSettlementType futures.ContractSettlementType for j := range marketSummary[i].AvailableSettlement { settlementCurrencies[j] = currency.NewCode(marketSummary[i].AvailableSettlement[j]) if contractSettlementType == futures.LinearOrInverse { continue } containsUSD := strings.Contains(marketSummary[i].AvailableSettlement[j], "USD") if !containsUSD { contractSettlementType = futures.LinearOrInverse continue } if containsUSD { contractSettlementType = futures.Linear } } c := futures.Contract{ Exchange: b.Name, Name: cp, Underlying: currency.NewPair(currency.NewCode(marketSummary[i].Base), currency.NewCode(marketSummary[i].Quote)), Asset: item, SettlementCurrencies: settlementCurrencies, StartDate: s, EndDate: e, SettlementType: contractSettlementType, IsActive: marketSummary[i].Active, Type: ct, } if marketSummary[i].FundingRate > 0 { c.LatestRate = fundingrate.Rate{ Rate: decimal.NewFromFloat(marketSummary[i].FundingRate), Time: time.Now().Truncate(time.Hour), } } resp = append(resp, c) } return resp, nil } // GetLatestFundingRates returns the latest funding rates data func (b *BTSE) GetLatestFundingRates(ctx context.Context, r *fundingrate.LatestRateRequest) ([]fundingrate.LatestRateResponse, error) { if r == nil { return nil, fmt.Errorf("%w LatestRateRequest", common.ErrNilPointer) } if r.Asset != asset.Futures { return nil, fmt.Errorf("%w %v", asset.ErrNotSupported, r.Asset) } if r.IncludePredictedRate { return nil, fmt.Errorf("%w IncludePredictedRate", common.ErrFunctionNotSupported) } format, err := b.GetPairFormat(r.Asset, true) if err != nil { return nil, err } fPair := format.Format(r.Pair) rates, err := b.GetMarketSummary(ctx, fPair, false) if err != nil { return nil, err } resp := make([]fundingrate.LatestRateResponse, 0, len(rates)) for i := range rates { var cp currency.Pair var isEnabled bool cp, isEnabled, err = b.MatchSymbolCheckEnabled(rates[i].Symbol, r.Asset, true) if err != nil && !errors.Is(err, currency.ErrPairNotFound) { return nil, err } if !isEnabled { continue } var isPerp bool isPerp, err = b.IsPerpetualFutureCurrency(r.Asset, cp) if err != nil { return nil, err } if !isPerp { continue } tt := time.Now().Truncate(time.Hour) resp = append(resp, fundingrate.LatestRateResponse{ Exchange: b.Name, Asset: r.Asset, Pair: cp, LatestRate: fundingrate.Rate{ Time: time.Now().Truncate(time.Hour), Rate: decimal.NewFromFloat(rates[i].FundingRate), }, TimeOfNextRate: tt.Add(time.Hour), TimeChecked: time.Now(), }) } return resp, nil } // IsPerpetualFutureCurrency ensures a given asset and currency is a perpetual future func (b *BTSE) IsPerpetualFutureCurrency(a asset.Item, p currency.Pair) (bool, error) { return a == asset.Futures && p.Quote.Equal(currency.PFC), nil } // UpdateOrderExecutionLimits updates order execution limits func (b *BTSE) UpdateOrderExecutionLimits(_ context.Context, _ asset.Item) error { return common.ErrNotYetImplemented } // GetOpenInterest returns the open interest rate for a given asset pair func (b *BTSE) GetOpenInterest(ctx context.Context, k ...key.PairAsset) ([]futures.OpenInterest, error) { for i := range k { if k[i].Asset != asset.Futures { // avoid API calls or returning errors after a successful retrieval return nil, fmt.Errorf("%w %v %v", asset.ErrNotSupported, k[i].Asset, k[i].Pair()) } } tickers, err := b.GetMarketSummary(ctx, "", false) if err != nil { return nil, err } resp := make([]futures.OpenInterest, 0, len(tickers)) for i := range tickers { var symbol currency.Pair var enabled bool symbol, enabled, err = b.MatchSymbolCheckEnabled(tickers[i].Symbol, asset.Futures, false) if err != nil && !errors.Is(err, currency.ErrPairNotFound) { return nil, err } if !enabled { continue } var appendData bool for j := range k { if k[j].Pair().Equal(symbol) { appendData = true break } } if len(k) > 0 && !appendData { continue } resp = append(resp, futures.OpenInterest{ Key: key.ExchangePairAsset{ Exchange: b.Name, Base: symbol.Base.Item, Quote: symbol.Quote.Item, Asset: asset.Futures, }, OpenInterest: tickers[i].OpenInterest, }) } return resp, nil }