package bbgo import ( "context" "fmt" "reflect" "sync" "github.com/pkg/errors" log "github.com/sirupsen/logrus" "github.com/c9s/bbgo/pkg/types" _ "github.com/go-sql-driver/mysql" ) var SupportedExchanges = []types.ExchangeName{"binance", "max", "ftx"} // SingleExchangeStrategy represents the single Exchange strategy type SingleExchangeStrategy interface { ID() string Run(ctx context.Context, orderExecutor OrderExecutor, session *ExchangeSession) error } type ExchangeSessionSubscriber interface { Subscribe(session *ExchangeSession) } type CrossExchangeSessionSubscriber interface { CrossSubscribe(sessions map[string]*ExchangeSession) } type CrossExchangeStrategy interface { ID() string CrossRun(ctx context.Context, orderExecutionRouter OrderExecutionRouter, sessions map[string]*ExchangeSession) error } //go:generate callbackgen -type Graceful type Graceful struct { shutdownCallbacks []func(ctx context.Context, wg *sync.WaitGroup) } func (g *Graceful) Shutdown(ctx context.Context) { var wg sync.WaitGroup wg.Add(len(g.shutdownCallbacks)) go g.EmitShutdown(ctx, &wg) wg.Wait() } type Logging interface { EnableLogging() DisableLogging() } type Logger interface { Warnf(message string, args ...interface{}) Errorf(message string, args ...interface{}) Infof(message string, args ...interface{}) } type SilentLogger struct{} func (logger *SilentLogger) Infof(message string, args ...interface{}) {} func (logger *SilentLogger) Warnf(message string, args ...interface{}) {} func (logger *SilentLogger) Errorf(message string, args ...interface{}) {} type Trader struct { environment *Environment riskControls *RiskControls crossExchangeStrategies []CrossExchangeStrategy exchangeStrategies map[string][]SingleExchangeStrategy logger Logger Graceful Graceful } func NewTrader(environ *Environment) *Trader { return &Trader{ environment: environ, exchangeStrategies: make(map[string][]SingleExchangeStrategy), logger: log.StandardLogger(), } } func (trader *Trader) EnableLogging() { trader.logger = log.StandardLogger() } func (trader *Trader) DisableLogging() { trader.logger = &SilentLogger{} } func (trader *Trader) Configure(userConfig *Config) error { if userConfig.RiskControls != nil { trader.SetRiskControls(userConfig.RiskControls) } for _, entry := range userConfig.ExchangeStrategies { for _, mount := range entry.Mounts { log.Infof("attaching strategy %T on %s...", entry.Strategy, mount) if err := trader.AttachStrategyOn(mount, entry.Strategy); err != nil { return err } } } for _, strategy := range userConfig.CrossExchangeStrategies { log.Infof("attaching cross exchange strategy %T", strategy) trader.AttachCrossExchangeStrategy(strategy) } for _, report := range userConfig.PnLReporters { if len(report.AverageCostBySymbols) > 0 { log.Infof("setting up average cost pnl reporter on symbols: %v", report.AverageCostBySymbols) trader.ReportPnL(). AverageCostBySymbols(report.AverageCostBySymbols...). Of(report.Of...). When(report.When...) } else { return fmt.Errorf("unsupported PnL reporter: %+v", report) } } return nil } // AttachStrategyOn attaches the single exchange strategy on an exchange Session. // Single exchange strategy is the default behavior. func (trader *Trader) AttachStrategyOn(session string, strategies ...SingleExchangeStrategy) error { if len(trader.environment.sessions) == 0 { return fmt.Errorf("you don't have any session configured, please check your environment variable or config file") } if _, ok := trader.environment.sessions[session]; !ok { var keys []string for k := range trader.environment.sessions { keys = append(keys, k) } return fmt.Errorf("session %s is not defined, valid sessions are: %v", session, keys) } for _, s := range strategies { trader.exchangeStrategies[session] = append(trader.exchangeStrategies[session], s) } return nil } // AttachCrossExchangeStrategy attaches the cross exchange strategy func (trader *Trader) AttachCrossExchangeStrategy(strategy CrossExchangeStrategy) *Trader { trader.crossExchangeStrategies = append(trader.crossExchangeStrategies, strategy) return trader } // TODO: provide a more DSL way to configure risk controls func (trader *Trader) SetRiskControls(riskControls *RiskControls) { trader.riskControls = riskControls } func (trader *Trader) Subscribe() { // pre-subscribe the data for sessionName, strategies := range trader.exchangeStrategies { session := trader.environment.sessions[sessionName] for _, strategy := range strategies { if subscriber, ok := strategy.(ExchangeSessionSubscriber); ok { subscriber.Subscribe(session) } else { log.Errorf("strategy %s does not implement ExchangeSessionSubscriber", strategy.ID()) } } } for _, strategy := range trader.crossExchangeStrategies { if subscriber, ok := strategy.(CrossExchangeSessionSubscriber); ok { subscriber.CrossSubscribe(trader.environment.sessions) } else { log.Errorf("strategy %s does not implement CrossExchangeSessionSubscriber", strategy.ID()) } } } func (trader *Trader) RunSingleExchangeStrategy(ctx context.Context, strategy SingleExchangeStrategy, session *ExchangeSession, orderExecutor OrderExecutor) error { rs := reflect.ValueOf(strategy) // get the struct element rs = rs.Elem() if rs.Kind() != reflect.Struct { return errors.New("strategy object is not a struct") } if err := trader.injectCommonServices(rs); err != nil { return err } if err := injectField(rs, "OrderExecutor", orderExecutor, false); err != nil { return errors.Wrapf(err, "failed to inject OrderExecutor on %T", strategy) } if symbol, ok := isSymbolBasedStrategy(rs); ok { log.Debugf("found symbol based strategy from %s", rs.Type()) if _, ok := hasField(rs, "Market"); ok { if market, ok := session.Market(symbol); ok { // let's make the market object passed by pointer if err := injectField(rs, "Market", &market, false); err != nil { return errors.Wrapf(err, "failed to inject Market on %T", strategy) } } } // StandardIndicatorSet if _, ok := hasField(rs, "StandardIndicatorSet"); ok { if indicatorSet, ok := session.StandardIndicatorSet(symbol); ok { if err := injectField(rs, "StandardIndicatorSet", indicatorSet, true); err != nil { return errors.Wrapf(err, "failed to inject StandardIndicatorSet on %T", strategy) } } } if _, ok := hasField(rs, "MarketDataStore"); ok { if store, ok := session.MarketDataStore(symbol); ok { if err := injectField(rs, "MarketDataStore", store, true); err != nil { return errors.Wrapf(err, "failed to inject MarketDataStore on %T", strategy) } } } } return strategy.Run(ctx, orderExecutor, session) } func (trader *Trader) getSessionOrderExecutor(sessionName string) OrderExecutor { var session = trader.environment.sessions[sessionName] // default to base order executor var orderExecutor OrderExecutor = session.orderExecutor // Since the risk controls are loaded from the config file if trader.riskControls != nil && trader.riskControls.SessionBasedRiskControl != nil { if control, ok := trader.riskControls.SessionBasedRiskControl[sessionName]; ok { control.SetBaseOrderExecutor(session.orderExecutor) // pick the wrapped order executor if control.OrderExecutor != nil { return control.OrderExecutor } } } return orderExecutor } func (trader *Trader) RunAllSingleExchangeStrategy(ctx context.Context) error { // load and run Session strategies for sessionName, strategies := range trader.exchangeStrategies { var session = trader.environment.sessions[sessionName] var orderExecutor = trader.getSessionOrderExecutor(sessionName) for _, strategy := range strategies { if err := trader.RunSingleExchangeStrategy(ctx, strategy, session, orderExecutor); err != nil { return err } } } return nil } func (trader *Trader) Run(ctx context.Context) error { trader.Subscribe() if err := trader.environment.Init(ctx); err != nil { return err } if err := trader.RunAllSingleExchangeStrategy(ctx); err != nil { return err } router := &ExchangeOrderExecutionRouter{ Notifiability: trader.environment.Notifiability, sessions: trader.environment.sessions, } for _, strategy := range trader.crossExchangeStrategies { rs := reflect.ValueOf(strategy) // get the struct element from the struct pointer rs = rs.Elem() if rs.Kind() != reflect.Struct { continue } if err := trader.injectCommonServices(rs); err != nil { return err } if err := strategy.CrossRun(ctx, router, trader.environment.sessions); err != nil { return err } } return trader.environment.Connect(ctx) } func (trader *Trader) injectCommonServices(rs reflect.Value) error { if err := injectField(rs, "Graceful", &trader.Graceful, true); err != nil { return errors.Wrap(err, "failed to inject Graceful") } if err := injectField(rs, "Logger", &trader.logger, false); err != nil { return errors.Wrap(err, "failed to inject Logger") } if err := injectField(rs, "Notifiability", &trader.environment.Notifiability, false); err != nil { return errors.Wrap(err, "failed to inject Notifiability") } if trader.environment.TradeService != nil { if err := injectField(rs, "TradeService", trader.environment.TradeService, true); err != nil { return errors.Wrap(err, "failed to inject TradeService") } } if field, ok := hasField(rs, "Persistence"); ok { if trader.environment.PersistenceServiceFacade == nil { log.Warnf("strategy has Persistence field but persistence service is not defined") } else { if field.IsNil() { field.Set(reflect.ValueOf(&Persistence{ PersistenceSelector: &PersistenceSelector{ StoreID: "default", Type: "memory", }, Facade: trader.environment.PersistenceServiceFacade, })) } else { elem := field.Elem() if elem.Kind() != reflect.Struct { return fmt.Errorf("field Persistence is not a struct element") } if err := injectField(elem, "Facade", trader.environment.PersistenceServiceFacade, true); err != nil { return errors.Wrap(err, "failed to inject Persistence") } } } } return nil } // ReportPnL configure and set the PnLReporter with the given notifier func (trader *Trader) ReportPnL() *PnLReporterManager { return NewPnLReporter(&trader.environment.Notifiability) }