package zb import ( "context" "errors" "fmt" "sort" "strconv" "strings" "sync" "time" "github.com/thrasher-corp/gocryptotrader/common" "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/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" ) // GetDefaultConfig returns a default exchange config func (z *ZB) GetDefaultConfig(ctx context.Context) (*config.Exchange, error) { z.SetDefaults() exchCfg := new(config.Exchange) exchCfg.Name = z.Name exchCfg.HTTPTimeout = exchange.DefaultHTTPTimeout exchCfg.BaseCurrencies = z.BaseCurrencies err := z.SetupDefaults(exchCfg) if err != nil { return nil, err } if z.Features.Supports.RESTCapabilities.AutoPairUpdates { err = z.UpdateTradablePairs(ctx, true) if err != nil { return nil, err } } return exchCfg, nil } // SetDefaults sets default values for the exchange func (z *ZB) SetDefaults() { z.Name = "ZB" z.Enabled = true z.Verbose = true z.API.CredentialsValidator.RequiresKey = true z.API.CredentialsValidator.RequiresSecret = true requestFmt := ¤cy.PairFormat{Delimiter: currency.UnderscoreDelimiter} configFmt := ¤cy.PairFormat{Delimiter: currency.UnderscoreDelimiter, Uppercase: true} err := z.SetGlobalPairsManager(requestFmt, configFmt, asset.Spot) if err != nil { log.Errorln(log.ExchangeSys, err) } z.Features = exchange.Features{ Supports: exchange.FeaturesSupported{ REST: true, Websocket: true, RESTCapabilities: protocol.Features{ TickerBatching: true, TickerFetching: true, KlineFetching: true, OrderbookFetching: true, AutoPairUpdates: true, AccountInfo: true, GetOrder: true, GetOrders: true, CancelOrder: true, CryptoDeposit: true, CryptoWithdrawal: true, TradeFee: true, CryptoDepositFee: true, CryptoWithdrawalFee: true, MultiChainDeposits: true, }, WebsocketCapabilities: protocol.Features{ TickerFetching: true, TradeFetching: true, OrderbookFetching: true, Subscribe: true, AuthenticatedEndpoints: true, AccountInfo: true, CancelOrder: true, SubmitOrder: true, MessageCorrelation: true, GetOrders: true, GetOrder: true, }, WithdrawPermissions: exchange.AutoWithdrawCrypto | exchange.NoFiatWithdrawals, Kline: kline.ExchangeCapabilitiesSupported{ Intervals: true, }, }, Enabled: exchange.FeaturesEnabled{ AutoPairUpdates: true, Kline: kline.ExchangeCapabilitiesEnabled{ Intervals: kline.DeployExchangeIntervals( kline.OneMin, kline.ThreeMin, kline.FiveMin, kline.FifteenMin, kline.ThirtyMin, kline.OneHour, kline.TwoHour, kline.FourHour, kline.SixHour, kline.TwelveHour, kline.OneDay, kline.ThreeDay, kline.OneWeek, ), ResultLimit: 1000, }, }, } z.Requester, err = request.New(z.Name, common.NewHTTPClientWithTimeout(exchange.DefaultHTTPTimeout), request.WithLimiter(SetRateLimit())) if err != nil { log.Errorln(log.ExchangeSys, err) } z.API.Endpoints = z.NewEndpoints() err = z.API.Endpoints.SetDefaultEndpoints(map[exchange.URL]string{ exchange.RestSpot: zbTradeURL, exchange.RestSpotSupplementary: zbMarketURL, exchange.WebsocketSpot: zbWebsocketAPI, }) if err != nil { log.Errorln(log.ExchangeSys, err) } z.Websocket = stream.New() z.WebsocketResponseMaxLimit = exchange.DefaultWebsocketResponseMaxLimit z.WebsocketResponseCheckTimeout = exchange.DefaultWebsocketResponseCheckTimeout } // Setup sets user configuration func (z *ZB) Setup(exch *config.Exchange) error { err := exch.Validate() if err != nil { return err } if !exch.Enabled { z.SetEnabled(false) return nil } err = z.SetupDefaults(exch) if err != nil { return err } wsRunningURL, err := z.API.Endpoints.GetURL(exchange.WebsocketSpot) if err != nil { return err } err = z.Websocket.Setup(&stream.WebsocketSetup{ ExchangeConfig: exch, DefaultURL: zbWebsocketAPI, RunningURL: wsRunningURL, Connector: z.WsConnect, GenerateSubscriptions: z.GenerateDefaultSubscriptions, ConnectionMonitorDelay: exch.ConnectionMonitorDelay, Subscriber: z.Subscribe, Features: &z.Features.Supports.WebsocketCapabilities, }) if err != nil { return err } return z.Websocket.SetupNewConnection(stream.ConnectionSetup{ URL: z.Websocket.GetWebsocketURL(), RateLimit: zbWebsocketRateLimit, ResponseCheckTimeout: exch.WebsocketResponseCheckTimeout, ResponseMaxLimit: exch.WebsocketResponseMaxLimit, }) } // Start starts the ZB go routine func (z *ZB) Start(ctx context.Context, wg *sync.WaitGroup) error { if wg == nil { return fmt.Errorf("%T %w", wg, common.ErrNilPointer) } wg.Add(1) go func() { z.Run(ctx) wg.Done() }() return nil } // Run implements the ZB wrapper func (z *ZB) Run(ctx context.Context) { if z.Verbose { z.PrintEnabledPairs() } if !z.GetEnabledFeatures().AutoPairUpdates { return } err := z.UpdateTradablePairs(ctx, false) if err != nil { log.Errorf(log.ExchangeSys, "%s failed to update tradable pairs. Err: %s", z.Name, err) } } // FetchTradablePairs returns a list of the exchanges tradable pairs func (z *ZB) FetchTradablePairs(ctx context.Context, a asset.Item) (currency.Pairs, error) { markets, err := z.GetMarkets(ctx) if err != nil { return nil, err } pairs := make([]currency.Pair, len(markets)) var target int for key := range markets { var pair currency.Pair pair, err = currency.NewPairFromString(key) if err != nil { return nil, err } pairs[target] = pair target++ } return pairs, nil } // UpdateTradablePairs updates the exchanges available pairs and stores // them in the exchanges config func (z *ZB) UpdateTradablePairs(ctx context.Context, forceUpdate bool) error { pairs, err := z.FetchTradablePairs(ctx, asset.Spot) if err != nil { return err } return z.UpdatePairs(pairs, asset.Spot, false, forceUpdate) } // UpdateTickers updates the ticker for all currency pairs of a given asset type func (z *ZB) UpdateTickers(ctx context.Context, a asset.Item) error { result, err := z.GetTickers(ctx) if err != nil { return err } enabledPairs, err := z.GetEnabledPairs(a) if err != nil { return err } for x := range enabledPairs { // We can't use either pair format here, so format it to lower- // case and without any delimiter curr := enabledPairs[x].Format(currency.EMPTYFORMAT).String() if _, ok := result[curr]; !ok { continue } err = ticker.ProcessTicker(&ticker.Price{ Pair: enabledPairs[x], High: result[curr].High, Last: result[curr].Last, Ask: result[curr].Sell, Bid: result[curr].Buy, Low: result[curr].Low, Volume: result[curr].Volume, ExchangeName: z.Name, AssetType: a}) if err != nil { return err } } return nil } // UpdateTicker updates and returns the ticker for a currency pair func (z *ZB) UpdateTicker(ctx context.Context, p currency.Pair, a asset.Item) (*ticker.Price, error) { if err := z.UpdateTickers(ctx, a); err != nil { return nil, err } return ticker.GetTicker(z.Name, p, a) } // FetchTicker returns the ticker for a currency pair func (z *ZB) FetchTicker(ctx context.Context, p currency.Pair, assetType asset.Item) (*ticker.Price, error) { tickerNew, err := ticker.GetTicker(z.Name, p, assetType) if err != nil { return z.UpdateTicker(ctx, p, assetType) } return tickerNew, nil } // FetchOrderbook returns orderbook base on the currency pair func (z *ZB) FetchOrderbook(ctx context.Context, p currency.Pair, assetType asset.Item) (*orderbook.Base, error) { ob, err := orderbook.Get(z.Name, p, assetType) if err != nil { return z.UpdateOrderbook(ctx, p, assetType) } return ob, nil } // UpdateOrderbook updates and returns the orderbook for a currency pair func (z *ZB) UpdateOrderbook(ctx context.Context, p currency.Pair, assetType asset.Item) (*orderbook.Base, error) { book := &orderbook.Base{ Exchange: z.Name, Pair: p, Asset: assetType, VerifyOrderbook: z.CanVerifyOrderbook, } currFormat, err := z.FormatExchangeCurrency(p, assetType) if err != nil { return book, err } orderbookNew, err := z.GetOrderbook(ctx, currFormat.String()) if err != nil { return book, err } book.Bids = make(orderbook.Items, len(orderbookNew.Bids)) for x := range orderbookNew.Bids { book.Bids[x] = orderbook.Item{ Amount: orderbookNew.Bids[x][1], Price: orderbookNew.Bids[x][0], } } book.Asks = make(orderbook.Items, len(orderbookNew.Asks)) for x := range orderbookNew.Asks { book.Asks[x] = orderbook.Item{ Amount: orderbookNew.Asks[x][1], Price: orderbookNew.Asks[x][0], } } err = book.Process() if err != nil { return book, err } return orderbook.Get(z.Name, p, assetType) } // UpdateAccountInfo retrieves balances for all enabled currencies for the // ZB exchange func (z *ZB) UpdateAccountInfo(ctx context.Context, assetType asset.Item) (account.Holdings, error) { var info account.Holdings var coins []AccountsResponseCoin if z.Websocket.CanUseAuthenticatedWebsocketForWrapper() { resp, err := z.wsGetAccountInfoRequest(ctx) if err != nil { return info, err } coins = resp.Data.Coins } else { bal, err := z.GetAccountInformation(ctx) if err != nil { return info, err } coins = bal.Result.Coins } balances := make([]account.Balance, len(coins)) for i := range coins { hold, err := strconv.ParseFloat(coins[i].Freeze, 64) if err != nil { return info, err } avail, err := strconv.ParseFloat(coins[i].Available, 64) if err != nil { return info, err } balances[i] = account.Balance{ Currency: currency.NewCode(coins[i].EnName), Total: hold + avail, Hold: hold, Free: avail, } } info.Exchange = z.Name info.Accounts = append(info.Accounts, account.SubAccount{ AssetType: assetType, Currencies: balances, }) creds, err := z.GetCredentials(ctx) if err != nil { return account.Holdings{}, err } if err := account.Process(&info, creds); err != nil { return account.Holdings{}, err } return info, nil } // FetchAccountInfo retrieves balances for all enabled currencies func (z *ZB) FetchAccountInfo(ctx context.Context, assetType asset.Item) (account.Holdings, error) { creds, err := z.GetCredentials(ctx) if err != nil { return account.Holdings{}, err } acc, err := account.GetHoldings(z.Name, creds, assetType) if err != nil { return z.UpdateAccountInfo(ctx, assetType) } return acc, nil } // GetFundingHistory returns funding history, deposits and // withdrawals func (z *ZB) GetFundingHistory(ctx context.Context) ([]exchange.FundHistory, error) { return nil, common.ErrFunctionNotSupported } // GetWithdrawalsHistory returns previous withdrawals data func (z *ZB) GetWithdrawalsHistory(ctx context.Context, c currency.Code, a asset.Item) (resp []exchange.WithdrawalHistory, err error) { return nil, common.ErrNotYetImplemented } // GetRecentTrades returns the most recent trades for a currency and asset func (z *ZB) GetRecentTrades(ctx context.Context, p currency.Pair, assetType asset.Item) ([]trade.Data, error) { var err error p, err = z.FormatExchangeCurrency(p, assetType) if err != nil { return nil, err } var tradeData TradeHistory tradeData, err = z.GetTrades(ctx, p.String()) if err != nil { return nil, err } resp := make([]trade.Data, len(tradeData)) for i := range tradeData { var side order.Side side, err = order.StringToOrderSide(tradeData[i].Type) if err != nil { return nil, err } resp[i] = trade.Data{ Exchange: z.Name, TID: strconv.FormatInt(tradeData[i].Tid, 10), CurrencyPair: p, AssetType: assetType, Side: side, Price: tradeData[i].Price, Amount: tradeData[i].Amount, Timestamp: time.Unix(tradeData[i].Date, 0), } } err = z.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 (z *ZB) GetHistoricTrades(_ context.Context, _ currency.Pair, _ asset.Item, _, _ time.Time) ([]trade.Data, error) { return nil, common.ErrFunctionNotSupported } // SubmitOrder submits a new order func (z *ZB) SubmitOrder(ctx context.Context, o *order.Submit) (*order.SubmitResponse, error) { err := o.Validate() if err != nil { return nil, err } if z.Websocket.CanUseAuthenticatedWebsocketForWrapper() { var isBuyOrder int64 if o.Side == order.Buy { isBuyOrder = 1 } else { isBuyOrder = 0 } var response *WsSubmitOrderResponse response, err = z.wsSubmitOrder(ctx, o.Pair, o.Amount, o.Price, isBuyOrder) if err != nil { return nil, err } return o.DeriveSubmitResponse(strconv.FormatInt(response.Data.EntrustID, 10)) } var orderType = SpotNewOrderRequestParamsTypeSell if o.Side == order.Buy { orderType = SpotNewOrderRequestParamsTypeBuy } fPair, err := z.FormatExchangeCurrency(o.Pair, o.AssetType) if err != nil { return nil, err } var params = SpotNewOrderRequestParams{ Amount: o.Amount, Price: o.Price, Symbol: fPair.Lower().String(), Type: orderType, } var response int64 response, err = z.SpotNewOrder(ctx, params) if err != nil { return nil, err } return o.DeriveSubmitResponse(strconv.FormatInt(response, 10)) } // ModifyOrder will allow of changing orderbook placement and limit to // market conversion func (z *ZB) ModifyOrder(_ context.Context, _ *order.Modify) (*order.ModifyResponse, error) { return nil, common.ErrFunctionNotSupported } // CancelOrder cancels an order by its corresponding ID number func (z *ZB) CancelOrder(ctx context.Context, o *order.Cancel) error { if err := o.Validate(o.StandardCancel()); err != nil { return err } orderIDInt, err := strconv.ParseInt(o.OrderID, 10, 64) if err != nil { return err } if z.Websocket.CanUseAuthenticatedWebsocketForWrapper() { var response *WsCancelOrderResponse response, err = z.wsCancelOrder(ctx, o.Pair, orderIDInt) if err != nil { return err } if !response.Success { return fmt.Errorf("%v - Could not cancel order %v", z.Name, o.OrderID) } return nil } fpair, err := z.FormatExchangeCurrency(o.Pair, o.AssetType) if err != nil { return err } return z.CancelExistingOrder(ctx, orderIDInt, fpair.String()) } // CancelBatchOrders cancels an orders by their corresponding ID numbers func (z *ZB) CancelBatchOrders(ctx context.Context, o []order.Cancel) (order.CancelBatchResponse, error) { return order.CancelBatchResponse{}, common.ErrNotYetImplemented } // CancelAllOrders cancels all orders associated with a currency pair func (z *ZB) CancelAllOrders(ctx context.Context, _ *order.Cancel) (order.CancelAllResponse, error) { cancelAllOrdersResponse := order.CancelAllResponse{ Status: make(map[string]string), } var allOpenOrders []Order enabledPairs, err := z.GetEnabledPairs(asset.Spot) if err != nil { return cancelAllOrdersResponse, err } for x := range enabledPairs { fPair, err := z.FormatExchangeCurrency(enabledPairs[x], asset.Spot) if err != nil { return cancelAllOrdersResponse, err } for y := int64(1); ; y++ { openOrders, err := z.GetUnfinishedOrdersIgnoreTradeType(ctx, fPair.String(), y, 10) if err != nil { if strings.Contains(err.Error(), "3001") { break } return cancelAllOrdersResponse, err } if len(openOrders) == 0 { break } allOpenOrders = append(allOpenOrders, openOrders...) if len(openOrders) != 10 { break } } } for i := range allOpenOrders { p, err := currency.NewPairFromString(allOpenOrders[i].Currency) if err != nil { cancelAllOrdersResponse.Status[strconv.FormatInt(allOpenOrders[i].ID, 10)] = err.Error() continue } err = z.CancelOrder(ctx, &order.Cancel{ OrderID: strconv.FormatInt(allOpenOrders[i].ID, 10), Pair: p, AssetType: asset.Spot, }) if err != nil { cancelAllOrdersResponse.Status[strconv.FormatInt(allOpenOrders[i].ID, 10)] = err.Error() } } return cancelAllOrdersResponse, nil } // GetOrderInfo returns order information based on order ID func (z *ZB) GetOrderInfo(ctx context.Context, orderID string, pair currency.Pair, assetType asset.Item) (order.Detail, error) { var orderDetail order.Detail return orderDetail, common.ErrNotYetImplemented } // GetDepositAddress returns a deposit address for a specified currency func (z *ZB) GetDepositAddress(ctx context.Context, cryptocurrency currency.Code, _, chain string) (*deposit.Address, error) { if chain != "" { addresses, err := z.GetMultiChainDepositAddress(ctx, cryptocurrency) if err != nil { return nil, err } for x := range addresses { if strings.EqualFold(addresses[x].Blockchain, chain) { return &deposit.Address{ Address: addresses[x].Address, Tag: addresses[x].Memo, }, nil } } return nil, fmt.Errorf("%s does not support chain %s", cryptocurrency.String(), chain) } address, err := z.GetCryptoAddress(ctx, cryptocurrency) if err != nil { return nil, err } return &deposit.Address{ Address: address.Message.Data.Address, Tag: address.Message.Data.Tag, }, nil } // WithdrawCryptocurrencyFunds returns a withdrawal ID when a withdrawal is // submitted func (z *ZB) WithdrawCryptocurrencyFunds(ctx context.Context, withdrawRequest *withdraw.Request) (*withdraw.ExchangeResponse, error) { if err := withdrawRequest.Validate(); err != nil { return nil, err } v, err := z.Withdraw(ctx, withdrawRequest.Currency.Lower().String(), withdrawRequest.Crypto.Address, withdrawRequest.TradePassword, withdrawRequest.Amount, withdrawRequest.Crypto.FeeAmount, false) if err != nil { return nil, err } return &withdraw.ExchangeResponse{ ID: v, }, nil } // WithdrawFiatFunds returns a withdrawal ID when a // withdrawal is submitted func (z *ZB) WithdrawFiatFunds(_ context.Context, _ *withdraw.Request) (*withdraw.ExchangeResponse, error) { return nil, common.ErrFunctionNotSupported } // WithdrawFiatFundsToInternationalBank returns a withdrawal ID when a // withdrawal is submitted func (z *ZB) WithdrawFiatFundsToInternationalBank(_ context.Context, _ *withdraw.Request) (*withdraw.ExchangeResponse, error) { return nil, common.ErrFunctionNotSupported } // GetFeeByType returns an estimate of fee based on type of transaction func (z *ZB) GetFeeByType(ctx context.Context, feeBuilder *exchange.FeeBuilder) (float64, error) { if feeBuilder == nil { return 0, fmt.Errorf("%T %w", feeBuilder, common.ErrNilPointer) } if (!z.AreCredentialsValid(ctx) || z.SkipAuthCheck) && // Todo check connection status feeBuilder.FeeType == exchange.CryptocurrencyTradeFee { feeBuilder.FeeType = exchange.OfflineTradeFee } return z.GetFee(feeBuilder) } // GetActiveOrders retrieves any orders that are active/open // This function is not concurrency safe due to orderSide/orderType maps func (z *ZB) GetActiveOrders(ctx context.Context, req *order.GetOrdersRequest) (order.FilteredOrders, error) { err := req.Validate() if err != nil { return nil, err } var allOrders []Order for x := range req.Pairs { for i := int64(1); ; i++ { var fPair currency.Pair fPair, err = z.FormatExchangeCurrency(req.Pairs[x], asset.Spot) if err != nil { return nil, err } var resp []Order resp, err = z.GetUnfinishedOrdersIgnoreTradeType(ctx, fPair.String(), i, 10) if err != nil { if strings.Contains(err.Error(), "3001") { break } return nil, err } if len(resp) == 0 { break } allOrders = append(allOrders, resp...) if len(resp) != 10 { break } } } format, err := z.GetPairFormat(asset.Spot, false) if err != nil { return nil, err } orders := make([]order.Detail, len(allOrders)) for i := range allOrders { var symbol currency.Pair symbol, err = currency.NewPairDelimiter(allOrders[i].Currency, format.Delimiter) if err != nil { return nil, err } orderDate := time.Unix(int64(allOrders[i].TradeDate), 0) orderSide := orderSideMap[allOrders[i].Type] orders[i] = order.Detail{ OrderID: strconv.FormatInt(allOrders[i].ID, 10), Amount: allOrders[i].TotalAmount, Exchange: z.Name, Date: orderDate, Price: allOrders[i].Price, Side: orderSide, Pair: symbol, } } return req.Filter(z.Name, orders), nil } // GetOrderHistory retrieves account order information // Can Limit response to specific order status // This function is not concurrency safe due to orderSide/orderType maps func (z *ZB) GetOrderHistory(ctx context.Context, req *order.GetOrdersRequest) (order.FilteredOrders, error) { err := req.Validate() if err != nil { return nil, err } if req.Side == order.AnySide { return nil, errors.New("specific order side is required") } var allOrders []Order if z.Websocket.CanUseAuthenticatedWebsocketForWrapper() { for x := range req.Pairs { for y := int64(1); ; y++ { var resp *WsGetOrdersIgnoreTradeTypeResponse resp, err = z.wsGetOrdersIgnoreTradeType(ctx, req.Pairs[x], y, 10) if err != nil { return nil, err } allOrders = append(allOrders, resp.Data...) if len(resp.Data) != 10 { break } } } } else { var side int64 if req.Side == order.Buy { side = 1 } for x := range req.Pairs { for y := int64(1); ; y++ { var fPair currency.Pair fPair, err = z.FormatExchangeCurrency(req.Pairs[x], asset.Spot) if err != nil { return nil, err } var resp []Order resp, err = z.GetOrders(ctx, fPair.String(), y, side) if err != nil { return nil, err } if len(resp) == 0 { break } allOrders = append(allOrders, resp...) if len(resp) != 10 { break } } } } format, err := z.GetPairFormat(asset.Spot, false) if err != nil { return nil, err } orders := make([]order.Detail, len(allOrders)) for i := range allOrders { var pair currency.Pair pair, err = currency.NewPairDelimiter(allOrders[i].Currency, format.Delimiter) if err != nil { return nil, err } orderDate := time.Unix(int64(allOrders[i].TradeDate), 0) orderSide := orderSideMap[allOrders[i].Type] detail := order.Detail{ OrderID: strconv.FormatInt(allOrders[i].ID, 10), Amount: allOrders[i].TotalAmount, ExecutedAmount: allOrders[i].TradeAmount, RemainingAmount: allOrders[i].TotalAmount - allOrders[i].TradeAmount, Exchange: z.Name, Date: orderDate, Price: allOrders[i].Price, AverageExecutedPrice: allOrders[i].TradePrice, Side: orderSide, Pair: pair, } detail.InferCostsAndTimes() orders[i] = detail } return req.Filter(z.Name, orders), nil } // ValidateCredentials validates current credentials used for wrapper // functionality func (z *ZB) ValidateCredentials(ctx context.Context, assetType asset.Item) error { _, err := z.UpdateAccountInfo(ctx, assetType) return z.CheckTransientError(err) } // FormatExchangeKlineInterval returns Interval to exchange formatted string func (z *ZB) FormatExchangeKlineInterval(in kline.Interval) string { switch in { case kline.OneMin, kline.ThreeMin, kline.FiveMin, kline.FifteenMin, kline.ThirtyMin: return in.Short() + "in" case kline.OneHour, kline.TwoHour, kline.FourHour, kline.SixHour, kline.TwelveHour: return in.Short()[:len(in.Short())-1] + "hour" case kline.OneDay: return "1day" case kline.ThreeDay: return "3day" case kline.OneWeek: return "1week" } return "" } // GetHistoricCandles returns candles between a time period for a set time interval func (z *ZB) GetHistoricCandles(ctx context.Context, pair currency.Pair, a asset.Item, interval kline.Interval, start, end time.Time) (*kline.Item, error) { req, err := z.GetKlineRequest(pair, a, interval, start, end) if err != nil { return nil, err } candles, err := z.GetSpotKline(ctx, KlinesRequestParams{ Type: z.FormatExchangeKlineInterval(req.ExchangeInterval), Symbol: req.RequestFormatted.String(), Since: start.UnixMilli(), Size: int64(z.Features.Enabled.Kline.ResultLimit), }) if err != nil { return nil, err } timeSeries := make([]kline.Candle, 0, len(candles.Data)) for x := range candles.Data { if candles.Data[x].KlineTime.Before(start) || candles.Data[x].KlineTime.After(end) { continue } timeSeries = append(timeSeries, kline.Candle{ Time: candles.Data[x].KlineTime, Open: candles.Data[x].Open, High: candles.Data[x].High, Low: candles.Data[x].Low, Close: candles.Data[x].Close, Volume: candles.Data[x].Volume, }) } return req.ProcessResponse(timeSeries) } // GetHistoricCandlesExtended returns candles between a time period for a set time interval func (z *ZB) GetHistoricCandlesExtended(ctx context.Context, pair currency.Pair, a asset.Item, interval kline.Interval, start, end time.Time) (*kline.Item, error) { req, err := z.GetKlineExtendedRequest(pair, a, interval, start, end) if err != nil { return nil, err } count := kline.TotalCandlesPerInterval(req.Start, req.End, req.ExchangeInterval) if count > 1000 { return nil, fmt.Errorf("candles count: %d max lookback: %d, %w", count, 1000, kline.ErrRequestExceedsMaxLookback) } timeSeries := make([]kline.Candle, 0, req.Size()) for i := range req.RangeHolder.Ranges { var candles KLineResponse candles, err = z.GetSpotKline(ctx, KlinesRequestParams{ Type: z.FormatExchangeKlineInterval(req.ExchangeInterval), Symbol: req.RequestFormatted.String(), Since: req.RangeHolder.Ranges[i].Start.Time.UnixMilli(), Size: int64(req.RangeHolder.Limit), }) if err != nil { return nil, err } for x := range candles.Data { if candles.Data[x].KlineTime.Before(req.Start) || candles.Data[x].KlineTime.After(req.End) { continue } timeSeries = append(timeSeries, kline.Candle{ Time: candles.Data[x].KlineTime, Open: candles.Data[x].Open, High: candles.Data[x].High, Low: candles.Data[x].Low, Close: candles.Data[x].Close, Volume: candles.Data[x].Volume, }) } } return req.ProcessResponse(timeSeries) } // GetAvailableTransferChains returns the available transfer blockchains for the specific // cryptocurrency func (z *ZB) GetAvailableTransferChains(ctx context.Context, cryptocurrency currency.Code) ([]string, error) { chains, err := z.GetMultiChainDepositAddress(ctx, cryptocurrency) if err != nil { // returned on valid currencies like BTC, despite having a deposit // address created it will advise the user to create one via their // app or website. In this case, we'll just return nil transfer // chains and no error message if strings.Contains(err.Error(), "APP") { return nil, nil } return nil, err } availableChains := make([]string, len(chains)) for x := range chains { availableChains[x] = chains[x].Blockchain } return availableChains, nil }