package bbgo import ( "context" "errors" "fmt" "sync" "time" "github.com/slack-go/slack" "github.com/prometheus/client_golang/prometheus" log "github.com/sirupsen/logrus" "github.com/spf13/viper" "github.com/c9s/bbgo/pkg/cache" "github.com/c9s/bbgo/pkg/exchange/retry" "github.com/c9s/bbgo/pkg/util/templateutil" exchange2 "github.com/c9s/bbgo/pkg/exchange" "github.com/c9s/bbgo/pkg/fixedpoint" "github.com/c9s/bbgo/pkg/types" "github.com/c9s/bbgo/pkg/util" ) var KLinePreloadLimit int64 = 1000 var ErrEmptyMarketInfo = errors.New("market info should not be empty, 0 markets loaded") // ExchangeSession presents the exchange connection Session // It also maintains and collects the data returned from the stream. type ExchangeSession struct { // --------------------------- // Session config fields // --------------------------- // Exchange Session name Name string `json:"name,omitempty" yaml:"name,omitempty"` ExchangeName types.ExchangeName `json:"exchange" yaml:"exchange"` EnvVarPrefix string `json:"envVarPrefix" yaml:"envVarPrefix"` Key string `json:"key,omitempty" yaml:"key,omitempty"` Secret string `json:"secret,omitempty" yaml:"secret,omitempty"` Passphrase string `json:"passphrase,omitempty" yaml:"passphrase,omitempty"` SubAccount string `json:"subAccount,omitempty" yaml:"subAccount,omitempty"` // Withdrawal is used for enabling withdrawal functions Withdrawal bool `json:"withdrawal,omitempty" yaml:"withdrawal,omitempty"` MakerFeeRate fixedpoint.Value `json:"makerFeeRate" yaml:"makerFeeRate"` TakerFeeRate fixedpoint.Value `json:"takerFeeRate" yaml:"takerFeeRate"` ModifyOrderAmountForFee bool `json:"modifyOrderAmountForFee" yaml:"modifyOrderAmountForFee"` // PublicOnly is used for setting the session to public only (without authentication, no private user data) PublicOnly bool `json:"publicOnly,omitempty" yaml:"publicOnly"` // PrivateChannels is used for filtering the private user data channel, .e.g, orders, trades, balances.. etc // This option is exchange-specific, currently only MAX exchange reads this option PrivateChannels []string `json:"privateChannels,omitempty" yaml:"privateChannels,omitempty"` // PrivateChannelSymbols is used for filtering the private user data channel, .e.g, order symbol subscription. // This option is exchange-specific, currently only Bitget exchange reads this option PrivateChannelSymbols []string `json:"privateChannelSymbols,omitempty" yaml:"privateChannelSymbols,omitempty"` Margin bool `json:"margin,omitempty" yaml:"margin"` IsolatedMargin bool `json:"isolatedMargin,omitempty" yaml:"isolatedMargin,omitempty"` IsolatedMarginSymbol string `json:"isolatedMarginSymbol,omitempty" yaml:"isolatedMarginSymbol,omitempty"` Futures bool `json:"futures,omitempty" yaml:"futures"` IsolatedFutures bool `json:"isolatedFutures,omitempty" yaml:"isolatedFutures,omitempty"` IsolatedFuturesSymbol string `json:"isolatedFuturesSymbol,omitempty" yaml:"isolatedFuturesSymbol,omitempty"` // --------------------------- // Runtime fields // --------------------------- // The exchange account states Account *types.Account `json:"-" yaml:"-"` accountMutex sync.Mutex IsInitialized bool `json:"-" yaml:"-"` // OrderExecutor is the default order executor for the session // // Deprecated: use GeneralOrderExecutor instead OrderExecutor *ExchangeOrderExecutor `json:"orderExecutor,omitempty" yaml:"orderExecutor,omitempty"` // UserDataStream is the connection stream of the exchange UserDataStream types.Stream `json:"-" yaml:"-"` MarketDataStream types.Stream `json:"-" yaml:"-"` // Subscriptions // this is a read-only field when running strategy Subscriptions map[types.Subscription]types.Subscription `json:"-" yaml:"-"` Exchange types.Exchange `json:"-" yaml:"-"` UseHeikinAshi bool `json:"heikinAshi,omitempty" yaml:"heikinAshi,omitempty"` // Trades collects the executed trades from the exchange // map: symbol -> []trade Trades map[string]*types.TradeSlice `json:"-" yaml:"-"` // markets defines market configuration of a symbol markets map[string]types.Market // orderBooks stores the streaming order book orderBooks map[string]*types.StreamOrderBook // startPrices is used for backtest startPrices map[string]fixedpoint.Value lastPrices map[string]fixedpoint.Value lastPriceUpdatedAt time.Time // marketDataStores contains the market data store of each market marketDataStores map[string]*MarketDataStore positions map[string]*types.Position // standard indicators of each market standardIndicatorSets map[string]*StandardIndicatorSet // indicators is the v2 api indicators indicators map[string]*IndicatorSet usedSymbols map[string]struct{} initializedSymbols map[string]struct{} logger log.FieldLogger } func NewExchangeSession(name string, exchange types.Exchange) *ExchangeSession { userDataStream := exchange.NewStream() marketDataStream := exchange.NewStream() marketDataStream.SetPublicOnly() session := &ExchangeSession{ Name: name, Exchange: exchange, UserDataStream: userDataStream, MarketDataStream: marketDataStream, Subscriptions: make(map[types.Subscription]types.Subscription), Account: &types.Account{}, Trades: make(map[string]*types.TradeSlice), orderBooks: make(map[string]*types.StreamOrderBook), markets: make(map[string]types.Market), startPrices: make(map[string]fixedpoint.Value), lastPrices: make(map[string]fixedpoint.Value), positions: make(map[string]*types.Position), marketDataStores: make(map[string]*MarketDataStore), standardIndicatorSets: make(map[string]*StandardIndicatorSet), indicators: make(map[string]*IndicatorSet), usedSymbols: make(map[string]struct{}), initializedSymbols: make(map[string]struct{}), logger: log.WithField("session", name), } session.OrderExecutor = &ExchangeOrderExecutor{ // copy the notification system so that we can route Session: session, } return session } func (session *ExchangeSession) GetAccount() (a *types.Account) { session.accountMutex.Lock() a = session.Account session.accountMutex.Unlock() return a } // UpdateAccount locks the account mutex and update the account object func (session *ExchangeSession) UpdateAccount(ctx context.Context) (*types.Account, error) { account, err := session.Exchange.QueryAccount(ctx) if err != nil { return nil, err } session.setAccount(account) return account, nil } func (session *ExchangeSession) setAccount(a *types.Account) { session.accountMutex.Lock() session.Account = a session.accountMutex.Unlock() } // Init initializes the basic data structure and market information by its exchange. // Note that the subscribed symbols are not loaded in this stage. func (session *ExchangeSession) Init(ctx context.Context, environ *Environment) error { if session.IsInitialized { return ErrSessionAlreadyInitialized } var logger = environ.Logger() logger = logger.WithField("session", session.Name) // override the default logger session.logger = logger // load markets first logger.Infof("querying market info from %s...", session.Name) var disableMarketsCache = false var markets types.MarketMap var err error if util.SetEnvVarBool("DISABLE_MARKETS_CACHE", &disableMarketsCache); disableMarketsCache { markets, err = session.Exchange.QueryMarkets(ctx) if err != nil { return err } } else { markets, err = cache.LoadExchangeMarketsWithCache(ctx, session.Exchange) if err != nil { return err } } if len(markets) == 0 { return ErrEmptyMarketInfo } session.markets = markets if feeRateProvider, ok := session.Exchange.(types.ExchangeDefaultFeeRates); ok { defaultFeeRates := feeRateProvider.DefaultFeeRates() if session.MakerFeeRate.IsZero() { session.MakerFeeRate = defaultFeeRates.MakerFeeRate } if session.TakerFeeRate.IsZero() { session.TakerFeeRate = defaultFeeRates.TakerFeeRate } } if session.ModifyOrderAmountForFee { amountProtectExchange, ok := session.Exchange.(types.ExchangeAmountFeeProtect) if !ok { return fmt.Errorf("exchange %s does not support order amount protection", session.ExchangeName.String()) } fees := types.ExchangeFee{MakerFeeRate: session.MakerFeeRate, TakerFeeRate: session.TakerFeeRate} amountProtectExchange.SetModifyOrderAmountForFee(fees) } if session.UseHeikinAshi { session.MarketDataStream = &types.HeikinAshiStream{ StandardStreamEmitter: session.MarketDataStream.(types.StandardStreamEmitter), } } // query and initialize the balances if !session.PublicOnly { if len(session.PrivateChannels) > 0 { if setter, ok := session.UserDataStream.(types.PrivateChannelSetter); ok { setter.SetPrivateChannels(session.PrivateChannels) } } if len(session.PrivateChannelSymbols) > 0 { if setter, ok := session.UserDataStream.(types.PrivateChannelSymbolSetter); ok { setter.SetPrivateChannelSymbols(session.PrivateChannelSymbols) } } disableStartupBalanceQuery := environ.environmentConfig != nil && environ.environmentConfig.DisableStartupBalanceQuery if disableStartupBalanceQuery { session.accountMutex.Lock() session.Account = types.NewAccount() session.accountMutex.Unlock() } else { logger.Infof("querying account balances...") account, err := retry.QueryAccountUntilSuccessful(ctx, session.Exchange) if err != nil { return err } session.setAccount(account) session.metricsBalancesUpdater(account.Balances()) logger.Infof("account %s balances:\n%s", session.Name, account.Balances().String()) } // forward trade updates and order updates to the order executor session.UserDataStream.OnTradeUpdate(session.OrderExecutor.EmitTradeUpdate) session.UserDataStream.OnOrderUpdate(session.OrderExecutor.EmitOrderUpdate) session.UserDataStream.OnBalanceSnapshot(func(balances types.BalanceMap) { session.accountMutex.Lock() session.Account.UpdateBalances(balances) session.accountMutex.Unlock() }) session.UserDataStream.OnBalanceUpdate(func(balances types.BalanceMap) { session.accountMutex.Lock() session.Account.UpdateBalances(balances) session.accountMutex.Unlock() }) session.bindConnectionStatusNotification(session.UserDataStream, "user data") // if metrics mode is enabled, we bind the callbacks to update metrics if viper.GetBool("metrics") { session.bindUserDataStreamMetrics(session.UserDataStream) } } if environ.loggingConfig != nil { if environ.loggingConfig.Balance { session.UserDataStream.OnBalanceSnapshot(func(balances types.BalanceMap) { logger.Info(balances.String()) }) session.UserDataStream.OnBalanceUpdate(func(balances types.BalanceMap) { logger.Info(balances.String()) }) } if environ.loggingConfig.Trade { session.UserDataStream.OnTradeUpdate(func(trade types.Trade) { logger.Info(trade.String()) }) } if environ.loggingConfig.FilledOrderOnly { session.UserDataStream.OnOrderUpdate(func(order types.Order) { if order.Status == types.OrderStatusFilled { logger.Info(order.String()) } }) } else if environ.loggingConfig.Order { session.UserDataStream.OnOrderUpdate(func(order types.Order) { logger.Info(order.String()) }) } } else { // if logging config is nil, then apply default logging setup // add trade logger session.UserDataStream.OnTradeUpdate(func(trade types.Trade) { logger.Info(trade.String()) }) } if viper.GetBool("debug-kline") { session.MarketDataStream.OnKLine(func(kline types.KLine) { logger.WithField("marketData", "kline").Infof("kline: %+v", kline) }) session.MarketDataStream.OnKLineClosed(func(kline types.KLine) { logger.WithField("marketData", "kline").Infof("kline closed: %+v", kline) }) } // update last prices if session.UseHeikinAshi { session.MarketDataStream.OnKLineClosed(func(kline types.KLine) { if _, ok := session.startPrices[kline.Symbol]; !ok { session.startPrices[kline.Symbol] = kline.Open } session.lastPrices[kline.Symbol] = session.MarketDataStream.(*types.HeikinAshiStream).LastOrigin[kline.Symbol][kline.Interval].Close }) } else { session.MarketDataStream.OnKLineClosed(func(kline types.KLine) { if _, ok := session.startPrices[kline.Symbol]; !ok { session.startPrices[kline.Symbol] = kline.Open } session.lastPrices[kline.Symbol] = kline.Close }) } session.MarketDataStream.OnMarketTrade(func(trade types.Trade) { session.lastPrices[trade.Symbol] = trade.Price }) session.IsInitialized = true return nil } func (session *ExchangeSession) InitSymbols(ctx context.Context, environ *Environment) error { if err := session.initUsedSymbols(ctx, environ); err != nil { return err } return nil } // initUsedSymbols uses usedSymbols to initialize the related data structure func (session *ExchangeSession) initUsedSymbols(ctx context.Context, environ *Environment) error { for symbol := range session.usedSymbols { if err := session.initSymbol(ctx, environ, symbol); err != nil { return err } } return nil } // initSymbol loads trades for the symbol, bind stream callbacks, init positions, market data store. // please note, initSymbol can not be called for the same symbol for twice func (session *ExchangeSession) initSymbol(ctx context.Context, environ *Environment, symbol string) error { if _, ok := session.initializedSymbols[symbol]; ok { // return fmt.Errorf("symbol %s is already initialized", symbol) return nil } market, ok := session.markets[symbol] if !ok { return fmt.Errorf("market %s is not defined", symbol) } session.logger.Infof("environment config: %+v", environ.environmentConfig) disableMarketDataStore := environ.environmentConfig != nil && environ.environmentConfig.DisableMarketDataStore disableSessionTradeBuffer := environ.environmentConfig != nil && environ.environmentConfig.DisableSessionTradeBuffer maxSessionTradeBufferSize := 0 if environ.environmentConfig != nil && environ.environmentConfig.MaxSessionTradeBufferSize > 0 { maxSessionTradeBufferSize = environ.environmentConfig.MaxSessionTradeBufferSize } session.Trades[symbol] = &types.TradeSlice{Trades: nil} if !disableSessionTradeBuffer { session.UserDataStream.OnTradeUpdate(func(trade types.Trade) { if trade.Symbol != symbol { return } session.Trades[symbol].Append(trade) if maxSessionTradeBufferSize > 0 { session.Trades[symbol].Truncate(maxSessionTradeBufferSize) } }) } // session wide position position := &types.Position{ Symbol: symbol, BaseCurrency: market.BaseCurrency, QuoteCurrency: market.QuoteCurrency, } position.BindStream(session.UserDataStream) session.positions[symbol] = position marketDataStore := NewMarketDataStore(symbol) if !disableMarketDataStore { if _, ok := session.marketDataStores[symbol]; !ok { marketDataStore.BindStream(session.MarketDataStream) } } session.marketDataStores[symbol] = marketDataStore if _, ok := session.standardIndicatorSets[symbol]; !ok { standardIndicatorSet := NewStandardIndicatorSet(symbol, session.MarketDataStream, marketDataStore) session.standardIndicatorSets[symbol] = standardIndicatorSet } // used kline intervals by the given symbol var klineSubscriptions = map[types.Interval]struct{}{} minInterval := types.Interval1m // Aggregate the intervals that we are using in the subscriptions. for _, sub := range session.Subscriptions { switch sub.Channel { case types.BookChannel: book := types.NewStreamBook(sub.Symbol, session.ExchangeName) book.BindStream(session.MarketDataStream) session.orderBooks[sub.Symbol] = book case types.KLineChannel: if sub.Options.Interval == "" { continue } if minInterval.Seconds() > sub.Options.Interval.Seconds() { minInterval = sub.Options.Interval } if sub.Symbol == symbol { klineSubscriptions[sub.Options.Interval] = struct{}{} } } } if !(environ.environmentConfig != nil && environ.environmentConfig.DisableDefaultKLineSubscription) { // subscribe the 1m kline by default so we can make sure the connection persists. klineSubscriptions[minInterval] = struct{}{} } if !(environ.environmentConfig != nil && environ.environmentConfig.DisableHistoryKLinePreload) { for interval := range klineSubscriptions { // avoid querying the last unclosed kline endTime := environ.startTime var i int64 for i = 0; i < KLinePreloadLimit; i += 1000 { var duration time.Duration = time.Duration(-i * int64(interval.Duration())) e := endTime.Add(duration) kLines, err := session.Exchange.QueryKLines(ctx, symbol, interval, types.KLineQueryOptions{ EndTime: &e, Limit: 1000, // indicators need at least 100 }) if err != nil { return err } if len(kLines) == 0 { log.Warnf("no kline data for %s %s (end time <= %s)", symbol, interval, e) continue } // update last prices by the given kline lastKLine := kLines[len(kLines)-1] if interval == minInterval { session.lastPrices[symbol] = lastKLine.Close } for _, k := range kLines { // let market data store trigger the update, so that the indicator could be updated too. marketDataStore.AddKLine(k) } } } log.Infof("%s last price: %v", symbol, session.lastPrices[symbol]) } session.initializedSymbols[symbol] = struct{}{} return nil } // Indicators returns the IndicatorSet struct that maintains the kLines stream cache and price stream cache // It also provides helper methods func (session *ExchangeSession) Indicators(symbol string) *IndicatorSet { set, ok := session.indicators[symbol] if ok { return set } store, _ := session.MarketDataStore(symbol) set = NewIndicatorSet(symbol, session.MarketDataStream, store) session.indicators[symbol] = set return set } func (session *ExchangeSession) StandardIndicatorSet(symbol string) *StandardIndicatorSet { log.Warnf("StandardIndicatorSet() is deprecated in v1.49.0 and which will be removed in the next version, please use Indicators() instead") set, ok := session.standardIndicatorSets[symbol] if ok { return set } store, _ := session.MarketDataStore(symbol) set = NewStandardIndicatorSet(symbol, session.MarketDataStream, store) session.standardIndicatorSets[symbol] = set return set } func (session *ExchangeSession) Position(symbol string) (pos *types.Position, ok bool) { pos, ok = session.positions[symbol] if ok { return pos, ok } market, ok := session.markets[symbol] if !ok { return nil, false } pos = &types.Position{ Symbol: symbol, BaseCurrency: market.BaseCurrency, QuoteCurrency: market.QuoteCurrency, } ok = true session.positions[symbol] = pos return pos, ok } func (session *ExchangeSession) Positions() map[string]*types.Position { return session.positions } // MarketDataStore returns the market data store of a symbol func (session *ExchangeSession) MarketDataStore(symbol string) (s *MarketDataStore, ok bool) { s, ok = session.marketDataStores[symbol] if ok { return s, true } s = NewMarketDataStore(symbol) s.BindStream(session.MarketDataStream) session.marketDataStores[symbol] = s return s, true } // KLine updates will be received in the order listend in intervals array func (session *ExchangeSession) SerialMarketDataStore( ctx context.Context, symbol string, intervals []types.Interval, useAggTrade ...bool, ) (store *SerialMarketDataStore, ok bool) { st, ok := session.MarketDataStore(symbol) if !ok { return nil, false } minInterval := types.Interval1m for _, i := range intervals { if minInterval.Seconds() > i.Seconds() { minInterval = i } } store = NewSerialMarketDataStore(symbol, minInterval, useAggTrade...) klines, ok := st.KLinesOfInterval(minInterval) if !ok { log.Errorf("SerialMarketDataStore: cannot get %s history", minInterval) return nil, false } for _, interval := range intervals { store.Subscribe(interval) } for _, kline := range *klines { store.AddKLine(kline) } store.BindStream(ctx, session.MarketDataStream) return store, true } // OrderBook returns the personal orderbook of a symbol func (session *ExchangeSession) OrderBook(symbol string) (s *types.StreamOrderBook, ok bool) { s, ok = session.orderBooks[symbol] return s, ok } func (session *ExchangeSession) StartPrice(symbol string) (price fixedpoint.Value, ok bool) { price, ok = session.startPrices[symbol] return price, ok } func (session *ExchangeSession) LastPrice(symbol string) (price fixedpoint.Value, ok bool) { price, ok = session.lastPrices[symbol] return price, ok } func (session *ExchangeSession) AllLastPrices() map[string]fixedpoint.Value { return session.lastPrices } func (session *ExchangeSession) LastPrices() map[string]fixedpoint.Value { return session.lastPrices } func (session *ExchangeSession) Market(symbol string) (market types.Market, ok bool) { market, ok = session.markets[symbol] return market, ok } func (session *ExchangeSession) Markets() types.MarketMap { return session.markets } func (session *ExchangeSession) SetMarkets(markets types.MarketMap) { session.markets = markets } // Subscribe save the subscription info, later it will be assigned to the stream func (session *ExchangeSession) Subscribe( channel types.Channel, symbol string, options types.SubscribeOptions, ) *ExchangeSession { if channel == types.KLineChannel && len(options.Interval) == 0 { panic("subscription interval for kline can not be empty") } sub := types.Subscription{ Channel: channel, Symbol: symbol, Options: options, } // add to the loaded symbol table session.usedSymbols[symbol] = struct{}{} session.Subscriptions[sub] = sub return session } func (session *ExchangeSession) FormatOrder(order types.SubmitOrder) (types.SubmitOrder, error) { market, ok := session.Market(order.Symbol) if !ok { return order, fmt.Errorf("market is not defined: %s", order.Symbol) } order.Market = market return order, nil } func (session *ExchangeSession) UpdatePrices(ctx context.Context, currencies []string, fiat string) (err error) { // TODO: move this cache check to the http routes // if session.lastPriceUpdatedAt.After(time.Now().Add(-time.Hour)) { // return nil // } markets := session.Markets() var symbols []string for _, c := range currencies { possibleSymbols := findPossibleMarketSymbols(markets, c, fiat) symbols = append(symbols, possibleSymbols...) } if len(symbols) == 0 { return nil } tickers, err := session.Exchange.QueryTickers(ctx, symbols...) if err != nil || len(tickers) == 0 { return err } var lastTime time.Time for k, v := range tickers { // for {Crypto}/USDT markets // map things like BTCUSDT = {price} if market, ok := markets[k]; ok { if types.IsFiatCurrency(market.BaseCurrency) { session.lastPrices[k] = v.Last.Div(fixedpoint.One) } else { session.lastPrices[k] = v.Last } } else { session.lastPrices[k] = v.Last } if v.Time.After(lastTime) { lastTime = v.Time } } session.lastPriceUpdatedAt = lastTime return err } func (session *ExchangeSession) FindPossibleAssetSymbols() (symbols []string, err error) { // If the session is an isolated margin session, there will be only the isolated margin symbol if session.Margin && session.IsolatedMargin { return []string{ session.IsolatedMarginSymbol, }, nil } var balances = session.GetAccount().Balances() var fiatAssets []string for _, currency := range types.FiatCurrencies { if balance, ok := balances[currency]; ok && balance.Total().Sign() > 0 { fiatAssets = append(fiatAssets, currency) } } var symbolMap = map[string]struct{}{} for _, market := range session.Markets() { // ignore the markets that are not fiat currency markets if !util.StringSliceContains(fiatAssets, market.QuoteCurrency) { continue } // ignore the asset that we don't have in the balance sheet balance, hasAsset := balances[market.BaseCurrency] if !hasAsset || balance.Total().IsZero() { continue } symbolMap[market.Symbol] = struct{}{} } for s := range symbolMap { symbols = append(symbols, s) } return symbols, nil } // newBasicPrivateExchange allocates a basic exchange instance with the user private credentials func (session *ExchangeSession) newBasicPrivateExchange(exchangeName types.ExchangeName) (types.Exchange, error) { var err error var exMinimal types.ExchangeMinimal if session.Key != "" && session.Secret != "" { exMinimal, err = exchange2.New(exchangeName, session.Key, session.Secret, session.Passphrase) } else { exMinimal, err = exchange2.NewWithEnvVarPrefix(exchangeName, session.EnvVarPrefix) } if err != nil { return nil, err } if ex, ok := exMinimal.(types.Exchange); ok { return ex, nil } return nil, fmt.Errorf("exchange %T does not implement types.Exchange", exMinimal) } // InitExchange initialize the exchange instance and allocate memory for fields // In this stage, the session var could be loaded from the JSON config, so the pointer fields are still nil // The Init method will be called after this stage, environment.Init will call the session.Init method later. func (session *ExchangeSession) InitExchange(name string, ex types.Exchange) error { var err error var exchangeName = session.ExchangeName if ex == nil { if session.PublicOnly { ex, err = exchange2.NewPublic(exchangeName) } else { ex, err = session.newBasicPrivateExchange(exchangeName) } } if err != nil { return err } // configure exchange if session.Margin { marginExchange, ok := ex.(types.MarginExchange) if !ok { return fmt.Errorf("exchange %s does not support margin", exchangeName) } if session.IsolatedMargin { marginExchange.UseIsolatedMargin(session.IsolatedMarginSymbol) } else { marginExchange.UseMargin() } } if session.Futures { futuresExchange, ok := ex.(types.FuturesExchange) if !ok { return fmt.Errorf("exchange %s does not support futures", exchangeName) } if session.IsolatedFutures { futuresExchange.UseIsolatedFutures(session.IsolatedFuturesSymbol) } else { futuresExchange.UseFutures() } } session.Name = name session.Exchange = ex session.UserDataStream = ex.NewStream() session.MarketDataStream = ex.NewStream() session.MarketDataStream.SetPublicOnly() // pointer fields session.Subscriptions = make(map[types.Subscription]types.Subscription) session.Account = &types.Account{} session.Trades = make(map[string]*types.TradeSlice) session.orderBooks = make(map[string]*types.StreamOrderBook) session.markets = make(map[string]types.Market) session.lastPrices = make(map[string]fixedpoint.Value) session.startPrices = make(map[string]fixedpoint.Value) session.marketDataStores = make(map[string]*MarketDataStore) session.positions = make(map[string]*types.Position) session.standardIndicatorSets = make(map[string]*StandardIndicatorSet) session.indicators = make(map[string]*IndicatorSet) session.OrderExecutor = &ExchangeOrderExecutor{ // copy the notification system so that we can route Session: session, } session.usedSymbols = make(map[string]struct{}) session.initializedSymbols = make(map[string]struct{}) session.logger = log.WithField("session", name) return nil } func (session *ExchangeSession) MarginType() types.MarginType { if session.Margin { if session.IsolatedMargin { return types.MarginTypeIsolatedMargin } else { return types.MarginTypeCrossMargin } } return types.MarginTypeSpot } func (session *ExchangeSession) metricsBalancesUpdater(balances types.BalanceMap) { for currency, balance := range balances { labels := prometheus.Labels{ "session": session.Name, "exchange": session.ExchangeName.String(), "margin_type": string(session.MarginType()), "symbol": session.IsolatedMarginSymbol, "currency": currency, } metricsTotalBalances.With(labels).Set(balance.Total().Float64()) metricsBalanceNetMetrics.With(labels).Set(balance.Net().Float64()) metricsBalanceAvailableMetrics.With(labels).Set(balance.Available.Float64()) metricsBalanceLockedMetrics.With(labels).Set(balance.Locked.Float64()) // margin metrics metricsBalanceDebtMetrics.With(labels).Set(balance.Debt().Float64()) metricsBalanceBorrowedMetrics.With(labels).Set(balance.Borrowed.Float64()) metricsBalanceInterestMetrics.With(labels).Set(balance.Interest.Float64()) metricsLastUpdateTimeMetrics.With(prometheus.Labels{ "session": session.Name, "exchange": session.ExchangeName.String(), "margin_type": string(session.MarginType()), "channel": "user", "data_type": "balance", "symbol": "", "currency": currency, }).SetToCurrentTime() } } func (session *ExchangeSession) metricsOrderUpdater(order types.Order) { metricsLastUpdateTimeMetrics.With(prometheus.Labels{ "session": session.Name, "exchange": session.ExchangeName.String(), "margin_type": string(session.MarginType()), "channel": "user", "data_type": "order", "symbol": order.Symbol, "currency": "", }).SetToCurrentTime() } func (session *ExchangeSession) metricsTradeUpdater(trade types.Trade) { labels := prometheus.Labels{ "session": session.Name, "exchange": session.ExchangeName.String(), "margin_type": string(session.MarginType()), "side": trade.Side.String(), "symbol": trade.Symbol, "liquidity": trade.Liquidity(), } metricsTradingVolume.With(labels).Add(trade.Quantity.Mul(trade.Price).Float64()) metricsTradesTotal.With(labels).Inc() metricsLastUpdateTimeMetrics.With(prometheus.Labels{ "session": session.Name, "exchange": session.ExchangeName.String(), "margin_type": string(session.MarginType()), "channel": "user", "data_type": "trade", "symbol": trade.Symbol, "currency": "", }).SetToCurrentTime() } func (session *ExchangeSession) bindMarketDataStreamMetrics(stream types.Stream) { stream.OnBookUpdate(func(book types.SliceOrderBook) { metricsLastUpdateTimeMetrics.With(prometheus.Labels{ "session": session.Name, "exchange": session.ExchangeName.String(), "margin_type": string(session.MarginType()), "channel": "market", "data_type": "book", "symbol": book.Symbol, "currency": "", }).SetToCurrentTime() }) stream.OnKLineClosed(func(kline types.KLine) { metricsLastUpdateTimeMetrics.With(prometheus.Labels{ "session": session.Name, "exchange": session.ExchangeName.String(), "margin_type": string(session.MarginType()), "channel": "market", "data_type": "kline", "symbol": kline.Symbol, "currency": "", }).SetToCurrentTime() }) } func (session *ExchangeSession) bindUserDataStreamMetrics(stream types.Stream) { stream.OnBalanceUpdate(session.metricsBalancesUpdater) stream.OnBalanceSnapshot(session.metricsBalancesUpdater) stream.OnTradeUpdate(session.metricsTradeUpdater) stream.OnOrderUpdate(session.metricsOrderUpdater) stream.OnDisconnect(func() { metricsConnectionStatus.With(prometheus.Labels{ "channel": "user", "session": session.Name, "exchange": session.ExchangeName.String(), "margin_type": string(session.MarginType()), "symbol": session.IsolatedMarginSymbol, }).Set(0.0) }) stream.OnConnect(func() { metricsConnectionStatus.With(prometheus.Labels{ "channel": "user", "session": session.Name, "exchange": session.ExchangeName.String(), "margin_type": string(session.MarginType()), "symbol": session.IsolatedMarginSymbol, }).Set(1.0) }) } func (session *ExchangeSession) bindConnectionStatusNotification(stream types.Stream, streamName string) { stream.OnDisconnect(func() { Notify("session %s %s stream disconnected", session.Name, streamName) }) stream.OnConnect(func() { Notify("session %s %s stream connected", session.Name, streamName) }) } func (session *ExchangeSession) SlackAttachment() slack.Attachment { var fields []slack.AttachmentField var footerIcon = types.ExchangeFooterIcon(session.ExchangeName) return slack.Attachment{ // Pretext: "", // Text: text, Title: session.Name, Fields: fields, FooterIcon: footerIcon, Footer: templateutil.Render("update time {{ . }}", time.Now().Format(time.RFC822)), } } func (session *ExchangeSession) FormatOrders(orders []types.SubmitOrder) (formattedOrders []types.SubmitOrder, err error) { for _, order := range orders { o, err := session.FormatOrder(order) if err != nil { return formattedOrders, err } formattedOrders = append(formattedOrders, o) } return formattedOrders, err } func findPossibleMarketSymbols(markets types.MarketMap, c, fiat string) (symbols []string) { var tries []string // expand USD stable coin currencies if types.IsUSDFiatCurrency(fiat) { for _, usdFiat := range types.USDFiatCurrencies { tries = append(tries, c+usdFiat, usdFiat+c) } } else { tries = []string{c + fiat, fiat + c} } for _, try := range tries { if markets.Has(try) { symbols = append(symbols, try) break } } return symbols }