package binance import ( "context" "fmt" "strconv" "time" "github.com/adshao/go-binance" "github.com/sirupsen/logrus" "github.com/c9s/bbgo/pkg/types" "github.com/c9s/bbgo/pkg/util" ) var log = logrus.WithFields(logrus.Fields{ "exchange": "binance", }) func init() { _ = types.Exchange(&Exchange{}) } type Exchange struct { Client *binance.Client } func New(key, secret string) *Exchange { var client = binance.NewClient(key, secret) return &Exchange{ Client: client, } } func (e *Exchange) Name() types.ExchangeName { return types.ExchangeBinance } func (e *Exchange) QueryAveragePrice(ctx context.Context, symbol string) (float64, error) { resp, err := e.Client.NewAveragePriceService().Symbol(symbol).Do(ctx) if err != nil { return 0, err } return util.MustParseFloat(resp.Price), nil } func (e *Exchange) NewStream() types.Stream { return NewStream(e.Client) } func (e *Exchange) QueryWithdrawHistory(ctx context.Context, asset string, since, until time.Time) (allWithdraws []types.Withdraw, err error) { startTime := since txIDs := map[string]struct{}{} for startTime.Before(until) { // startTime ~ endTime must be in 90 days endTime := startTime.AddDate(0, 0, 60) if endTime.After(until) { endTime = until } withdraws, err := e.Client.NewListWithdrawsService(). Asset(asset). StartTime(startTime.UnixNano() / int64(time.Millisecond)). EndTime(endTime.UnixNano() / int64(time.Millisecond)). Do(ctx) if err != nil { return allWithdraws, err } for _, d := range withdraws { if _, ok := txIDs[d.TxID]; ok { continue } status := "" switch d.Status { case 0: status = "email_sent" case 1: status = "cancelled" case 2: status = "awaiting_approval" case 3: status = "rejected" case 4: status = "processing" case 5: status = "failure" case 6: status = "completed" default: status = fmt.Sprintf("unsupported code: %d", d.Status) } txIDs[d.TxID] = struct{}{} allWithdraws = append(allWithdraws, types.Withdraw{ ApplyTime: time.Unix(0, d.ApplyTime*int64(time.Millisecond)), Asset: d.Asset, Amount: d.Amount, Address: d.Address, AddressTag: d.AddressTag, TransactionID: d.TxID, TransactionFee: d.TransactionFee, WithdrawOrderID: d.WithdrawOrderID, Network: d.Network, Status: status, }) } startTime = endTime } return allWithdraws, nil } func (e *Exchange) QueryDepositHistory(ctx context.Context, asset string, since, until time.Time) (allDeposits []types.Deposit, err error) { startTime := since txIDs := map[string]struct{}{} for startTime.Before(until) { // startTime ~ endTime must be in 90 days endTime := startTime.AddDate(0, 0, 60) if endTime.After(until) { endTime = until } deposits, err := e.Client.NewListDepositsService(). Asset(asset). StartTime(startTime.UnixNano() / int64(time.Millisecond)). EndTime(endTime.UnixNano() / int64(time.Millisecond)). Do(ctx) if err != nil { return nil, err } for _, d := range deposits { if _, ok := txIDs[d.TxID]; ok { continue } // 0(0:pending,6: credited but cannot withdraw, 1:success) status := types.DepositStatus(fmt.Sprintf("code: %d", d.Status)) switch d.Status { case 0: status = types.DepositPending case 6: // https://www.binance.com/en/support/faq/115003736451 status = types.DepositCredited case 1: status = types.DepositSuccess } txIDs[d.TxID] = struct{}{} allDeposits = append(allDeposits, types.Deposit{ Time: time.Unix(0, d.InsertTime*int64(time.Millisecond)), Asset: d.Asset, Amount: d.Amount, Address: d.Address, AddressTag: d.AddressTag, TransactionID: d.TxID, Status: status, }) } startTime = endTime } return allDeposits, nil } func (e *Exchange) QueryAccountBalances(ctx context.Context) (types.BalanceMap, error) { account, err := e.QueryAccount(ctx) if err != nil { return nil, err } return account.Balances, nil } // PlatformFeeCurrency func (e *Exchange) PlatformFeeCurrency() string { return "BNB" } func (e *Exchange) QueryAccount(ctx context.Context) (*types.Account, error) { account, err := e.Client.NewGetAccountService().Do(ctx) if err != nil { return nil, err } var balances = map[string]types.Balance{} for _, b := range account.Balances { balances[b.Asset] = types.Balance{ Currency: b.Asset, Available: util.MustParseFloat(b.Free), Locked: util.MustParseFloat(b.Locked), } } return &types.Account{ MakerCommission: account.MakerCommission, TakerCommission: account.TakerCommission, Balances: balances, }, nil } func (e *Exchange) SubmitOrder(ctx context.Context, order *types.SubmitOrder) error { /* limit order example order, err := Client.NewCreateOrderService(). Symbol(Symbol). Side(side). Type(binance.OrderTypeLimit). TimeInForce(binance.TimeInForceTypeGTC). Quantity(volumeString). Price(priceString). Do(ctx) */ orderType, err := toLocalOrderType(order.Type) if err != nil { return err } req := e.Client.NewCreateOrderService(). Symbol(order.Symbol). Side(binance.SideType(order.Side)). Type(orderType). Quantity(order.QuantityString) if len(order.PriceString) > 0 { req.Price(order.PriceString) } if len(order.TimeInForce) > 0 { req.TimeInForce(order.TimeInForce) } retOrder, err := req.Do(ctx) log.Infof("order created: %+v", retOrder) return err } func toLocalOrderType(orderType types.OrderType) (binance.OrderType, error) { switch orderType { case types.OrderTypeLimit: return binance.OrderTypeLimit, nil case types.OrderTypeMarket: return binance.OrderTypeMarket, nil } return "", fmt.Errorf("order type %s not supported", orderType) } func (e *Exchange) QueryKLines(ctx context.Context, symbol, interval string, options types.KLineQueryOptions) ([]types.KLine, error) { var limit = 500 if options.Limit > 0 { // default limit == 500 limit = options.Limit } log.Infof("querying kline %s %s %v", symbol, interval, options) // avoid rate limit time.Sleep(100 * time.Millisecond) req := e.Client.NewKlinesService(). Symbol(symbol). Interval(interval). Limit(limit) if options.StartTime != nil { req.StartTime(options.StartTime.UnixNano() / int64(time.Millisecond)) } if options.EndTime != nil { req.EndTime(options.EndTime.UnixNano() / int64(time.Millisecond)) } resp, err := req.Do(ctx) if err != nil { return nil, err } var kLines []types.KLine for _, k := range resp { kLines = append(kLines, types.KLine{ Symbol: symbol, Interval: interval, StartTime: time.Unix(0, k.OpenTime*int64(time.Millisecond)), EndTime: time.Unix(0, k.CloseTime*int64(time.Millisecond)), Open: util.MustParseFloat(k.Open), Close: util.MustParseFloat(k.Close), High: util.MustParseFloat(k.High), Low: util.MustParseFloat(k.Low), Volume: util.MustParseFloat(k.Volume), QuoteVolume: util.MustParseFloat(k.QuoteAssetVolume), LastTradeID: 0, NumberOfTrades: k.TradeNum, Closed: true, }) } return kLines, nil } func (e *Exchange) QueryTrades(ctx context.Context, symbol string, options *types.TradeQueryOptions) (trades []types.Trade, err error) { req := e.Client.NewListTradesService(). Limit(1000). Symbol(symbol) if options.Limit > 0 { req.Limit(int(options.Limit)) } if options.StartTime != nil { req.StartTime(options.StartTime.UnixNano() / int64(time.Millisecond)) } if options.EndTime != nil { req.EndTime(options.EndTime.UnixNano() / int64(time.Millisecond)) } if options.LastTradeID > 0 { req.FromID(options.LastTradeID) } remoteTrades, err := req.Do(ctx) if err != nil { return nil, err } for _, t := range remoteTrades { localTrade, err := convertRemoteTrade(*t) if err != nil { log.WithError(err).Errorf("can not convert binance trade: %+v", t) continue } log.Infof("trade: %d %s % 4s price: % 13s volume: % 11s %6s % 5s %s", t.ID, t.Symbol, localTrade.Side, t.Price, t.Quantity, BuyerOrSellerLabel(t), MakerOrTakerLabel(t), localTrade.Time) trades = append(trades, *localTrade) } return trades, nil } func convertRemoteTrade(t binance.TradeV3) (*types.Trade, error) { // skip trade ID that is the same. however this should not happen var side string if t.IsBuyer { side = "BUY" } else { side = "SELL" } // trade time mts := time.Unix(0, t.Time*int64(time.Millisecond)) price, err := strconv.ParseFloat(t.Price, 64) if err != nil { return nil, err } quantity, err := strconv.ParseFloat(t.Quantity, 64) if err != nil { return nil, err } quoteQuantity, err := strconv.ParseFloat(t.QuoteQuantity, 64) if err != nil { return nil, err } fee, err := strconv.ParseFloat(t.Commission, 64) if err != nil { return nil, err } return &types.Trade{ ID: t.ID, Price: price, Symbol: t.Symbol, Exchange: "binance", Quantity: quantity, Side: side, IsBuyer: t.IsBuyer, IsMaker: t.IsMaker, Fee: fee, FeeCurrency: t.CommissionAsset, QuoteQuantity: quoteQuantity, Time: mts, }, nil } func (e *Exchange) BatchQueryKLines(ctx context.Context, symbol, interval string, startTime, endTime time.Time) ([]types.KLine, error) { var allKLines []types.KLine for startTime.Before(endTime) { klines, err := e.QueryKLines(ctx, symbol, interval, types.KLineQueryOptions{ StartTime: &startTime, Limit: 1000, }) if err != nil { return nil, err } for _, kline := range klines { if kline.EndTime.After(endTime) { return allKLines, nil } allKLines = append(allKLines, kline) startTime = kline.EndTime } // avoid rate limit time.Sleep(100 * time.Millisecond) } return allKLines, nil } func (e *Exchange) BatchQueryKLineWindows(ctx context.Context, symbol string, intervals []string, startTime, endTime time.Time) (map[string]types.KLineWindow, error) { batch := &types.ExchangeBatchProcessor{Exchange: e} klineWindows := map[string]types.KLineWindow{} for _, interval := range intervals { klines, err := batch.BatchQueryKLines(ctx, symbol, interval, startTime, endTime) if err != nil { return klineWindows, err } klineWindows[interval] = klines } return klineWindows, nil }