bbgo_origin/pkg/bbgo/environment.go

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package bbgo
import (
"context"
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"fmt"
"os"
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"strings"
"time"
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"github.com/codingconcepts/env"
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"github.com/jmoiron/sqlx"
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log "github.com/sirupsen/logrus"
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"github.com/c9s/bbgo/pkg/accounting/pnl"
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"github.com/c9s/bbgo/pkg/service"
"github.com/c9s/bbgo/pkg/types"
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"github.com/c9s/bbgo/pkg/util"
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)
var LoadedExchangeStrategies = make(map[string]SingleExchangeStrategy)
var LoadedCrossExchangeStrategies = make(map[string]CrossExchangeStrategy)
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func RegisterStrategy(key string, s interface{}) {
switch d := s.(type) {
case SingleExchangeStrategy:
LoadedExchangeStrategies[key] = d
case CrossExchangeStrategy:
LoadedCrossExchangeStrategies[key] = d
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default:
panic(fmt.Errorf("%T does not implement SingleExchangeStrategy or CrossExchangeStrategy", d))
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}
}
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var emptyTime time.Time
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// Environment presents the real exchange data layer
type Environment struct {
// Notifiability here for environment is for the streaming data notification
// note that, for back tests, we don't need notification.
Notifiability
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PersistenceServiceFacade *PersistenceServiceFacade
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TradeService *service.TradeService
TradeSync *service.SyncService
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// startTime is the time of start point (which is used in the backtest)
startTime time.Time
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tradeScanTime time.Time
sessions map[string]*ExchangeSession
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}
func NewEnvironment() *Environment {
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return &Environment{
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// default trade scan time
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tradeScanTime: time.Now().AddDate(0, 0, -7), // sync from 7 days ago
sessions: make(map[string]*ExchangeSession),
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}
}
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func (environ *Environment) Sessions() map[string]*ExchangeSession {
return environ.sessions
}
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func (environ *Environment) SyncTrades(db *sqlx.DB) *Environment {
environ.TradeService = &service.TradeService{DB: db}
environ.TradeSync = &service.SyncService{
TradeService: environ.TradeService,
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}
return environ
}
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func (environ *Environment) AddExchange(name string, exchange types.Exchange) (session *ExchangeSession) {
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session = NewExchangeSession(name, exchange)
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environ.sessions[name] = session
return session
}
// Init prepares the data that will be used by the strategies
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func (environ *Environment) Init(ctx context.Context) (err error) {
for n := range environ.sessions {
var session = environ.sessions[n]
var markets, err = LoadExchangeMarketsWithCache(ctx, session.Exchange)
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if len(markets) == 0 {
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return fmt.Errorf("market config should not be empty")
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}
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session.markets = markets
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// trade sync and market data store depends on subscribed symbols so we have to do this here.
for symbol := range session.loadedSymbols {
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var trades []types.Trade
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if environ.TradeSync != nil {
log.Infof("syncing trades from %s for symbol %s...", session.Exchange.Name(), symbol)
if err := environ.TradeSync.SyncTrades(ctx, session.Exchange, symbol, environ.tradeScanTime); err != nil {
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return err
}
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tradingFeeCurrency := session.Exchange.PlatformFeeCurrency()
if strings.HasPrefix(symbol, tradingFeeCurrency) {
trades, err = environ.TradeService.QueryForTradingFeeCurrency(session.Exchange.Name(), symbol, tradingFeeCurrency)
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} else {
trades, err = environ.TradeService.Query(session.Exchange.Name(), symbol)
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}
if err != nil {
return err
}
log.Infof("symbol %s: %d trades loaded", symbol, len(trades))
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}
session.Trades[symbol] = trades
session.lastPrices[symbol] = 0.0
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marketDataStore := NewMarketDataStore(symbol)
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marketDataStore.BindStream(session.Stream)
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session.marketDataStores[symbol] = marketDataStore
standardIndicatorSet := NewStandardIndicatorSet(symbol, marketDataStore)
session.standardIndicatorSets[symbol] = standardIndicatorSet
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}
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log.Infof("querying balances from session %s...", session.Name)
balances, err := session.Exchange.QueryAccountBalances(ctx)
if err != nil {
return err
}
log.Infof("%s account", session.Name)
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balances.Print()
session.Account.UpdateBalances(balances)
session.Account.BindStream(session.Stream)
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session.Stream.OnBalanceUpdate(func(balances types.BalanceMap) {
log.Infof("balance update: %+v", balances)
})
// update last prices
session.Stream.OnKLineClosed(func(kline types.KLine) {
log.Infof("kline closed: %+v", kline)
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if _, ok := session.startPrices[kline.Symbol]; !ok {
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session.startPrices[kline.Symbol] = kline.Open
}
session.lastPrices[kline.Symbol] = kline.Close
})
session.Stream.OnTradeUpdate(func(trade types.Trade) {
session.Trades[trade.Symbol] = append(session.Trades[trade.Symbol], trade)
})
// feed klines into the market data store
if environ.startTime == emptyTime {
environ.startTime = time.Now()
}
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var intervals = map[types.Interval]struct{}{}
for _, sub := range session.Subscriptions {
if sub.Channel == types.KLineChannel {
intervals[types.Interval(sub.Options.Interval)] = struct{}{}
}
}
for symbol := range session.loadedSymbols {
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marketDataStore, ok := session.marketDataStores[symbol]
if !ok {
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return fmt.Errorf("symbol %s is not defined", symbol)
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}
var lastPriceTime time.Time
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for interval := range intervals {
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// avoid querying the last unclosed kline
endTime := environ.startTime.Add(- interval.Duration())
kLines, err := session.Exchange.QueryKLines(ctx, symbol, interval, types.KLineQueryOptions{
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EndTime: &endTime,
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Limit: 1000, // indicators need at least 100
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})
if err != nil {
return err
}
if len(kLines) == 0 {
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log.Warnf("no kline data for interval %s (end time <= %s)", interval, environ.startTime)
continue
}
// update last prices by the given kline
lastKLine := kLines[len(kLines)-1]
if lastPriceTime == emptyTime {
session.lastPrices[symbol] = lastKLine.Close
lastPriceTime = lastKLine.EndTime
} else if lastPriceTime.Before(lastKLine.EndTime) {
session.lastPrices[symbol] = lastKLine.Close
lastPriceTime = lastKLine.EndTime
}
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for _, k := range kLines {
// let market data store trigger the update, so that the indicator could be updated too.
marketDataStore.AddKLine(k)
}
}
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}
if environ.TradeService != nil {
session.Stream.OnTradeUpdate(func(trade types.Trade) {
if err := environ.TradeService.Insert(trade); err != nil {
log.WithError(err).Errorf("trade insert error: %+v", trade)
}
})
}
// TODO: move market data store dispatch to here, use one callback to dispatch the market data
// Session.Stream.OnKLineClosed(func(kline types.KLine) { })
}
return nil
}
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func (environ *Environment) ConfigurePersistence(conf *PersistenceConfig) error {
var facade = &PersistenceServiceFacade{}
if conf.Redis != nil {
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if err := env.Set(conf.Redis) ; err != nil {
return err
}
facade.Redis = NewRedisPersistenceService(conf.Redis)
}
if conf.Json != nil {
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if _, err := os.Stat(conf.Json.Directory); os.IsNotExist(err) {
if err2 := os.MkdirAll(conf.Json.Directory, 0777); err2 != nil {
log.WithError(err2).Errorf("can not create directory: %s", conf.Json.Directory)
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return err2
}
}
facade.Json = &JsonPersistenceService{Directory: conf.Json.Directory}
}
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environ.PersistenceServiceFacade = facade
return nil
}
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// configure notification rules
// for symbol-based routes, we should register the same symbol rules for each session.
// for session-based routes, we should set the fixed callbacks for each session
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func (environ *Environment) ConfigureNotification(conf *NotificationConfig) error {
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// configure routing here
if conf.SymbolChannels != nil {
environ.SymbolChannelRouter.AddRoute(conf.SymbolChannels)
}
if conf.SessionChannels != nil {
environ.SessionChannelRouter.AddRoute(conf.SessionChannels)
}
if conf.Routing != nil {
// configure passive object notification routing
switch conf.Routing.Trade {
case "$silent": // silent, do not setup notification
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case "$session":
defaultTradeUpdateHandler := func(trade types.Trade) {
text := util.Render(TemplateTradeReport, trade)
environ.Notify(text, &trade)
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}
for name := range environ.sessions {
session := environ.sessions[name]
// if we can route session name to channel successfully...
channel, ok := environ.SessionChannelRouter.Route(name)
if ok {
session.Stream.OnTradeUpdate(func(trade types.Trade) {
text := util.Render(TemplateTradeReport, trade)
environ.NotifyTo(channel, text, &trade)
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})
} else {
session.Stream.OnTradeUpdate(defaultTradeUpdateHandler)
}
}
case "$symbol":
// configure object routes for Trade
environ.ObjectChannelRouter.Route(func(obj interface{}) (channel string, ok bool) {
trade, matched := obj.(*types.Trade)
if !matched {
return
}
channel, ok = environ.SymbolChannelRouter.Route(trade.Symbol)
return
})
// use same handler for each session
handler := func(trade types.Trade) {
text := util.Render(TemplateTradeReport, trade)
channel, ok := environ.RouteObject(&trade)
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if ok {
environ.NotifyTo(channel, text, &trade)
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} else {
environ.Notify(text, &trade)
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}
}
for _, session := range environ.sessions {
session.Stream.OnTradeUpdate(handler)
}
}
switch conf.Routing.Order {
case "$silent": // silent, do not setup notification
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case "$session":
defaultOrderUpdateHandler := func(order types.Order) {
text := util.Render(TemplateOrderReport, order)
environ.Notify(text, &order)
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}
for name := range environ.sessions {
session := environ.sessions[name]
// if we can route session name to channel successfully...
channel, ok := environ.SessionChannelRouter.Route(name)
if ok {
session.Stream.OnOrderUpdate(func(order types.Order) {
text := util.Render(TemplateOrderReport, order)
environ.NotifyTo(channel, text, &order)
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})
} else {
session.Stream.OnOrderUpdate(defaultOrderUpdateHandler)
}
}
case "$symbol":
// add object route
environ.ObjectChannelRouter.Route(func(obj interface{}) (channel string, ok bool) {
order, matched := obj.(*types.Order)
if !matched {
return
}
channel, ok = environ.SymbolChannelRouter.Route(order.Symbol)
return
})
// use same handler for each session
handler := func(order types.Order) {
text := util.Render(TemplateOrderReport, order)
channel, ok := environ.RouteObject(&order)
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if ok {
environ.NotifyTo(channel, text, &order)
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} else {
environ.Notify(text, &order)
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}
}
for _, session := range environ.sessions {
session.Stream.OnOrderUpdate(handler)
}
}
switch conf.Routing.SubmitOrder {
case "$silent": // silent, do not setup notification
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case "$symbol":
// add object route
environ.ObjectChannelRouter.Route(func(obj interface{}) (channel string, ok bool) {
order, matched := obj.(*types.SubmitOrder)
if !matched {
return
}
channel, ok = environ.SymbolChannelRouter.Route(order.Symbol)
return
})
}
// currently not used
switch conf.Routing.PnL {
case "$symbol":
environ.ObjectChannelRouter.Route(func(obj interface{}) (channel string, ok bool) {
report, matched := obj.(*pnl.AverageCostPnlReport)
if !matched {
return
}
channel, ok = environ.SymbolChannelRouter.Route(report.Symbol)
return
})
}
}
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return nil
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}
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func (environ *Environment) SetStartTime(t time.Time) *Environment {
environ.startTime = t
return environ
}
// SyncTradesFrom overrides the default trade scan time (-7 days)
func (environ *Environment) SyncTradesFrom(t time.Time) *Environment {
environ.tradeScanTime = t
return environ
}
func (environ *Environment) Connect(ctx context.Context) error {
for n := range environ.sessions {
// avoid using the placeholder variable for the session because we use that in the callbacks
var session = environ.sessions[n]
var logger = log.WithField("session", n)
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if len(session.Subscriptions) == 0 {
logger.Warnf("exchange session %s has no subscriptions", session.Name)
} else {
// add the subscribe requests to the stream
for _, s := range session.Subscriptions {
logger.Infof("subscribing %s %s %v", s.Symbol, s.Channel, s.Options)
session.Stream.Subscribe(s.Channel, s.Symbol, s.Options)
}
}
logger.Infof("connecting session %s...", session.Name)
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if err := session.Stream.Connect(ctx); err != nil {
return err
}
}
return nil
}
func LoadExchangeMarketsWithCache(ctx context.Context, ex types.Exchange) (markets types.MarketMap, err error) {
err = WithCache(fmt.Sprintf("%s-markets", ex.Name()), &markets, func() (interface{}, error) {
return ex.QueryMarkets(ctx)
})
return markets, err
}