bbgo_origin/pkg/exchange/binance/exchange.go

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package binance
import (
"context"
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"fmt"
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"time"
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"github.com/adshao/go-binance"
"github.com/google/uuid"
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"github.com/sirupsen/logrus"
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"github.com/c9s/bbgo/pkg/types"
"github.com/c9s/bbgo/pkg/util"
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)
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var log = logrus.WithFields(logrus.Fields{
"exchange": "binance",
})
func init() {
_ = types.Exchange(&Exchange{})
}
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type Exchange struct {
Client *binance.Client
}
func New(key, secret string) *Exchange {
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var client = binance.NewClient(key, secret)
return &Exchange{
Client: client,
}
}
func (e *Exchange) Name() types.ExchangeName {
return types.ExchangeBinance
}
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func (e *Exchange) QueryMarkets(ctx context.Context) (types.MarketMap, error) {
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log.Info("querying market info...")
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exchangeInfo, err := e.Client.NewExchangeInfoService().Do(ctx)
if err != nil {
return nil, err
}
markets := types.MarketMap{}
for _, symbol := range exchangeInfo.Symbols {
market := types.Market{
Symbol: symbol.Symbol,
PricePrecision: symbol.QuotePrecision,
VolumePrecision: symbol.BaseAssetPrecision,
QuoteCurrency: symbol.QuoteAsset,
BaseCurrency: symbol.BaseAsset,
}
if f := symbol.MinNotionalFilter(); f != nil {
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market.MinNotional = util.MustParseFloat(f.MinNotional)
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market.MinAmount = util.MustParseFloat(f.MinNotional)
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}
// The LOT_SIZE filter defines the quantity (aka "lots" in auction terms) rules for a symbol.
// There are 3 parts:
// minQty defines the minimum quantity/icebergQty allowed.
// maxQty defines the maximum quantity/icebergQty allowed.
// stepSize defines the intervals that a quantity/icebergQty can be increased/decreased by.
if f := symbol.LotSizeFilter(); f != nil {
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market.MinLot = util.MustParseFloat(f.MinQuantity)
market.MinQuantity = util.MustParseFloat(f.MinQuantity)
market.MaxQuantity = util.MustParseFloat(f.MaxQuantity)
// market.StepSize = util.MustParseFloat(f.StepSize)
}
if f := symbol.PriceFilter(); f != nil {
market.MaxPrice = util.MustParseFloat(f.MaxPrice)
market.MinPrice = util.MustParseFloat(f.MinPrice)
market.TickSize = util.MustParseFloat(f.TickSize)
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}
markets[symbol.Symbol] = market
}
return markets, nil
}
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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
}
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return util.MustParseFloat(resp.Price), nil
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}
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func (e *Exchange) NewStream() types.Stream {
return NewStream(e.Client)
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}
func (e *Exchange) QueryWithdrawHistory(ctx context.Context, asset string, since, until time.Time) (allWithdraws []types.Withdraw, err error) {
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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
}
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req := e.Client.NewListWithdrawsService()
if len(asset) > 0 {
req.Asset(asset)
}
withdraws, err := req.
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StartTime(startTime.UnixNano() / int64(time.Millisecond)).
EndTime(endTime.UnixNano() / int64(time.Millisecond)).
Do(ctx)
if err != nil {
return allWithdraws, err
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}
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)
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}
txIDs[d.TxID] = struct{}{}
allWithdraws = append(allWithdraws, types.Withdraw{
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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,
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WithdrawOrderID: d.WithdrawOrderID,
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Network: d.Network,
Status: status,
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})
}
startTime = endTime
}
return allWithdraws, nil
}
func (e *Exchange) QueryDepositHistory(ctx context.Context, asset string, since, until time.Time) (allDeposits []types.Deposit, err error) {
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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
}
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req := e.Client.NewListDepositsService()
if len(asset) > 0 {
req.Asset(asset)
}
deposits, err := req.
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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))
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switch d.Status {
case 0:
status = types.DepositPending
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case 6:
// https://www.binance.com/en/support/faq/115003736451
status = types.DepositCredited
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case 1:
status = types.DepositSuccess
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}
txIDs[d.TxID] = struct{}{}
allDeposits = append(allDeposits, types.Deposit{
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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
}
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func (e *Exchange) QueryAccountBalances(ctx context.Context) (types.BalanceMap, error) {
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account, err := e.QueryAccount(ctx)
if err != nil {
return nil, err
}
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return account.Balances(), nil
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}
// PlatformFeeCurrency
func (e *Exchange) PlatformFeeCurrency() string {
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return "BNB"
}
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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{}
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for _, b := range account.Balances {
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balances[b.Asset] = types.Balance{
Currency: b.Asset,
Available: util.MustParseFloat(b.Free),
Locked: util.MustParseFloat(b.Locked),
}
}
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a := &types.Account{
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MakerCommission: account.MakerCommission,
TakerCommission: account.TakerCommission,
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}
a.UpdateBalances(balances)
return a, nil
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}
func (e *Exchange) QueryOpenOrders(ctx context.Context, symbol string) (orders []types.Order, err error) {
remoteOrders, err := e.Client.NewListOpenOrdersService().Symbol(symbol).Do(ctx)
if err != nil {
return orders, err
}
for _, binanceOrder := range remoteOrders {
order , err := toGlobalOrder(binanceOrder)
if err != nil {
return orders, err
}
orders = append(orders, *order)
}
return orders, err
}
func (e *Exchange) SubmitOrders(ctx context.Context, orders ...types.SubmitOrder) error {
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/*
limit order example
order, err := Client.NewCreateOrderService().
Symbol(Symbol).
Side(side).
Type(binance.OrderTypeLimit).
TimeInForce(binance.TimeInForceTypeGTC).
Quantity(volumeString).
Price(priceString).
Do(ctx)
*/
for _, order := range orders {
orderType, err := toLocalOrderType(order.Type)
if err != nil {
return err
}
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clientOrderID := uuid.New().String()
if len(order.ClientOrderID) > 0 {
clientOrderID = order.ClientOrderID
}
req := e.Client.NewCreateOrderService().
Symbol(order.Symbol).
Side(binance.SideType(order.Side)).
NewClientOrderID(clientOrderID).
Type(orderType)
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req.Quantity(order.QuantityString)
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if len(order.PriceString) > 0 {
req.Price(order.PriceString)
}
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if len(order.TimeInForce) > 0 {
// TODO: check the TimeInForce value
req.TimeInForce(binance.TimeInForceType(order.TimeInForce))
}
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retOrder, err := req.Do(ctx)
if err != nil {
return err
}
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log.Infof("order created: %+v", retOrder)
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}
return nil
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}
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func (e *Exchange) QueryKLines(ctx context.Context, symbol, interval string, options types.KLineQueryOptions) ([]types.KLine, error) {
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var limit = 500
if options.Limit > 0 {
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// default limit == 500
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limit = options.Limit
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}
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log.Infof("querying kline %s %s %v", symbol, interval, options)
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// avoid rate limit
time.Sleep(100 * time.Millisecond)
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req := e.Client.NewKlinesService().
Symbol(symbol).
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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)
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if err != nil {
return nil, err
}
var kLines []types.KLine
for _, k := range resp {
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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,
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})
}
return kLines, nil
}
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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 {
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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 := toGlobalTrade(*t)
if err != nil {
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log.WithError(err).Errorf("can not convert binance trade: %+v", t)
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continue
}
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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)
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trades = append(trades, *localTrade)
}
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return trades, nil
}
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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) {
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return allKLines, nil
}
allKLines = append(allKLines, kline)
startTime = kline.EndTime
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}
// avoid rate limit
time.Sleep(100 * time.Millisecond)
}
return allKLines, nil
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}
func (e *Exchange) BatchQueryKLineWindows(ctx context.Context, symbol string, intervals []string, startTime, endTime time.Time) (map[string]types.KLineWindow, error) {
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batch := &types.ExchangeBatchProcessor{Exchange: e}
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klineWindows := map[string]types.KLineWindow{}
for _, interval := range intervals {
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klines, err := batch.BatchQueryKLines(ctx, symbol, interval, startTime, endTime)
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if err != nil {
return klineWindows, err
}
klineWindows[interval] = klines
}
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return klineWindows, nil
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}