bbgo_origin/pkg/strategy/grid2/strategy.go

2193 lines
68 KiB
Go

package grid2
import (
"context"
"fmt"
"math"
"sort"
"strconv"
"strings"
"sync"
"time"
"github.com/google/uuid"
"github.com/pkg/errors"
"github.com/prometheus/client_golang/prometheus"
"github.com/sirupsen/logrus"
"go.uber.org/multierr"
"github.com/c9s/bbgo/pkg/bbgo"
"github.com/c9s/bbgo/pkg/core"
"github.com/c9s/bbgo/pkg/exchange/retry"
"github.com/c9s/bbgo/pkg/fixedpoint"
"github.com/c9s/bbgo/pkg/types"
"github.com/c9s/bbgo/pkg/util"
"github.com/c9s/bbgo/pkg/util/tradingutil"
)
const ID = "grid2"
const orderTag = "grid2"
var log = logrus.WithField("strategy", ID)
var maxNumberOfOrderTradesQueryTries = 10
const historyRollbackDuration = 3 * 24 * time.Hour
const historyRollbackOrderIdRange = 1000
func init() {
// Register the pointer of the strategy struct,
// so that bbgo knows what struct to be used to unmarshal the configs (YAML or JSON)
// Note: built-in strategies need to imported manually in the bbgo cmd package.
bbgo.RegisterStrategy(ID, &Strategy{})
}
type PrettyPins []Pin
func (pp PrettyPins) String() string {
var ss []string
for _, p := range pp {
price := fixedpoint.Value(p)
ss = append(ss, price.String())
}
return fmt.Sprintf("%v", ss)
}
//go:generate mockgen -destination=mocks/order_executor.go -package=mocks . OrderExecutor
type OrderExecutor interface {
SubmitOrders(ctx context.Context, submitOrders ...types.SubmitOrder) (types.OrderSlice, error)
ClosePosition(ctx context.Context, percentage fixedpoint.Value, tags ...string) error
GracefulCancel(ctx context.Context, orders ...types.Order) error
ActiveMakerOrders() *bbgo.ActiveOrderBook
}
type advancedOrderCancelApi interface {
CancelAllOrders(ctx context.Context) ([]types.Order, error)
CancelOrdersBySymbol(ctx context.Context, symbol string) ([]types.Order, error)
CancelOrdersByGroupID(ctx context.Context, groupID uint32) ([]types.Order, error)
}
//go:generate callbackgen -type Strategy
type Strategy struct {
Environment *bbgo.Environment
// Market stores the configuration of the market, for example, VolumePrecision, PricePrecision, MinLotSize... etc
// This field will be injected automatically since we defined the Symbol field.
types.Market `json:"-"`
// These fields will be filled from the config file (it translates YAML to JSON)
Symbol string `json:"symbol"`
// ProfitSpread is the fixed profit spread you want to submit the sell order
// When ProfitSpread is enabled, the grid will shift up, e.g.,
// If you opened a grid with the price range 10_000 to 20_000
// With profit spread set to 3_000
// The sell orders will be placed in the range 13_000 to 23_000
// And the buy orders will be placed in the original price range 10_000 to 20_000
ProfitSpread fixedpoint.Value `json:"profitSpread"`
// GridNum is the grid number, how many orders you want to post on the orderbook.
GridNum int64 `json:"gridNumber"`
// BaseGridNum is an optional field used for base investment sell orders
BaseGridNum int `json:"baseGridNumber,omitempty"`
AutoRange *types.SimpleDuration `json:"autoRange"`
UpperPrice fixedpoint.Value `json:"upperPrice"`
LowerPrice fixedpoint.Value `json:"lowerPrice"`
// Compound option is used for buying more inventory when
// the profit is made by the filled sell order.
Compound bool `json:"compound"`
// EarnBase option is used for earning profit in base currency.
// e.g. earn BTC in BTCUSDT and earn ETH in ETHUSDT
// instead of earn USDT in BTCUSD
EarnBase bool `json:"earnBase"`
// QuantityOrAmount embeds the Quantity field and the Amount field
// If you set up the Quantity field or the Amount field, you don't need to set the QuoteInvestment and BaseInvestment
bbgo.QuantityOrAmount
// If Quantity and Amount is not set, we can use the quote investment to calculate our quantity.
QuoteInvestment fixedpoint.Value `json:"quoteInvestment"`
// BaseInvestment is the total base quantity you want to place as the sell order.
BaseInvestment fixedpoint.Value `json:"baseInvestment"`
TriggerPrice fixedpoint.Value `json:"triggerPrice"`
StopLossPrice fixedpoint.Value `json:"stopLossPrice"`
TakeProfitPrice fixedpoint.Value `json:"takeProfitPrice"`
// CloseWhenCancelOrder option is used to close the grid if any of the order is canceled.
// This option let you simply remote control the grid from the crypto exchange mobile app.
CloseWhenCancelOrder bool `json:"closeWhenCancelOrder"`
// KeepOrdersWhenShutdown option is used for keeping the grid orders when shutting down bbgo
KeepOrdersWhenShutdown bool `json:"keepOrdersWhenShutdown"`
// RecoverOrdersWhenStart option is used for recovering grid orders
RecoverOrdersWhenStart bool `json:"recoverOrdersWhenStart"`
// ClearOpenOrdersWhenStart
// If this is set, when bbgo started, it will clear the open orders in the same market (by symbol)
ClearOpenOrdersWhenStart bool `json:"clearOpenOrdersWhenStart"`
ClearOpenOrdersIfMismatch bool `json:"clearOpenOrdersIfMismatch"`
ClearDuplicatedPriceOpenOrders bool `json:"clearDuplicatedPriceOpenOrders"`
// UseCancelAllOrdersApiWhenClose uses a different API to cancel all the orders on the market when closing a grid
UseCancelAllOrdersApiWhenClose bool `json:"useCancelAllOrdersApiWhenClose"`
// ResetPositionWhenStart resets the position when the strategy is started
ResetPositionWhenStart bool `json:"resetPositionWhenStart"`
// StopIfLessThanMinimalQuoteInvestment stops the strategy if the quote investment does not match
StopIfLessThanMinimalQuoteInvestment bool `json:"stopIfLessThanMinimalQuoteInvestment"`
OrderFillDelay types.Duration `json:"orderFillDelay"`
// PrometheusLabels will be used as the base prometheus labels
PrometheusLabels prometheus.Labels `json:"prometheusLabels"`
// OrderGroupID is the group ID used for the strategy instance for canceling orders
OrderGroupID uint32 `json:"orderGroupID"`
LogFields logrus.Fields `json:"logFields"`
// FeeRate is used for calculating the minimal profit spread.
// it makes sure that your grid configuration is profitable.
FeeRate fixedpoint.Value `json:"feeRate"`
SkipSpreadCheck bool `json:"skipSpreadCheck"`
RecoverGridByScanningTrades bool `json:"recoverGridByScanningTrades"`
RecoverGridWithin time.Duration `json:"recoverGridWithin"`
EnableProfitFixer bool `json:"enableProfitFixer"`
FixProfitSince *types.Time `json:"fixProfitSince"`
// Debug enables the debug mode
Debug bool `json:"debug"`
GridProfitStats *GridProfitStats `persistence:"grid_profit_stats"`
Position *types.Position `persistence:"position"`
PersistenceTTL types.Duration `json:"persistenceTTL"`
// ExchangeSession is an injection field
ExchangeSession *bbgo.ExchangeSession
grid *Grid
session *bbgo.ExchangeSession
orderQueryService types.ExchangeOrderQueryService
orderExecutor OrderExecutor
historicalTrades *core.TradeStore
logger *logrus.Entry
gridReadyCallbacks []func()
gridProfitCallbacks []func(stats *GridProfitStats, profit *GridProfit)
gridClosedCallbacks []func()
gridErrorCallbacks []func(err error)
// filledOrderIDMap is used to prevent processing the same order ID twice.
filledOrderIDMap *types.SyncOrderMap
// mu is used for locking the grid object field, avoid double grid opening
mu sync.Mutex
tradingCtx, writeCtx context.Context
cancelWrite context.CancelFunc
recoverC chan struct{}
// this ensures that bbgo.Sync to lock the object
sync.Mutex
}
func (s *Strategy) ID() string {
return ID
}
func (s *Strategy) Validate() error {
if s.AutoRange == nil {
if s.UpperPrice.IsZero() {
return errors.New("upperPrice can not be zero, you forgot to set?")
}
if s.LowerPrice.IsZero() {
return errors.New("lowerPrice can not be zero, you forgot to set?")
}
if s.UpperPrice.Compare(s.LowerPrice) <= 0 {
return fmt.Errorf("upperPrice (%s) should not be less than or equal to lowerPrice (%s)", s.UpperPrice.String(), s.LowerPrice.String())
}
}
if s.GridNum == 0 || s.GridNum == 1 {
return fmt.Errorf("gridNum can not be zero or one")
}
if !s.SkipSpreadCheck {
if err := s.checkSpread(); err != nil {
return errors.Wrapf(err, "spread is too small, please try to reduce your gridNum or increase the price range (upperPrice and lowerPrice)")
}
}
if !s.QuantityOrAmount.IsSet() && s.QuoteInvestment.IsZero() && s.BaseInvestment.IsZero() {
return fmt.Errorf("either quantity, amount or quoteInvestment must be set")
}
return nil
}
func (s *Strategy) Defaults() error {
if s.LogFields == nil {
s.LogFields = logrus.Fields{}
}
s.LogFields["symbol"] = s.Symbol
s.LogFields["strategy"] = ID
return nil
}
func (s *Strategy) Initialize() error {
s.filledOrderIDMap = types.NewSyncOrderMap()
s.logger = log.WithFields(s.LogFields)
return nil
}
func (s *Strategy) Subscribe(session *bbgo.ExchangeSession) {
if !s.TriggerPrice.IsZero() || !s.StopLossPrice.IsZero() || !s.TakeProfitPrice.IsZero() {
session.Subscribe(types.KLineChannel, s.Symbol, types.SubscribeOptions{Interval: types.Interval1m})
}
if s.AutoRange != nil {
interval := s.AutoRange.Interval()
session.Subscribe(types.KLineChannel, s.Symbol, types.SubscribeOptions{Interval: interval})
}
}
// InstanceID returns the instance identifier from the current grid configuration parameters
func (s *Strategy) InstanceID() string {
id := fmt.Sprintf("%s-%s-size-%d", ID, s.Symbol, s.GridNum)
if s.AutoRange != nil {
id += "-autoRange-" + s.AutoRange.String()
} else {
id += "-" + s.UpperPrice.String() + "-" + s.LowerPrice.String()
}
return id
}
func (s *Strategy) checkSpread() error {
gridNum := fixedpoint.NewFromInt(s.GridNum)
spread := s.ProfitSpread
if spread.IsZero() {
spread = s.UpperPrice.Sub(s.LowerPrice).Div(gridNum)
}
feeRate := s.FeeRate
if feeRate.IsZero() {
feeRate = fixedpoint.NewFromFloat(0.075 * 0.01)
}
// the min fee rate from 2 maker/taker orders (with 0.1 rate for profit)
gridFeeRate := feeRate.Mul(fixedpoint.NewFromFloat(2.01))
if spread.Div(s.LowerPrice).Compare(gridFeeRate) < 0 {
return fmt.Errorf("profitSpread %f %s is too small for lower price, less than the grid fee rate: %s", spread.Float64(), spread.Div(s.LowerPrice).Percentage(), gridFeeRate.Percentage())
}
if spread.Div(s.UpperPrice).Compare(gridFeeRate) < 0 {
return fmt.Errorf("profitSpread %f %s is too small for upper price, less than the grid fee rate: %s", spread.Float64(), spread.Div(s.UpperPrice).Percentage(), gridFeeRate.Percentage())
}
return nil
}
func (s *Strategy) handleOrderCanceled(o types.Order) {
s.logger.Infof("GRID ORDER CANCELED: %s", o.String())
ctx := context.Background()
if s.CloseWhenCancelOrder {
s.logger.Infof("one of the grid orders is canceled, now closing grid...")
if err := s.CloseGrid(ctx); err != nil {
s.logger.WithError(err).Errorf("graceful order cancel error")
}
}
}
func (s *Strategy) calculateProfit(o types.Order, buyPrice, buyQuantity fixedpoint.Value) *GridProfit {
if s.EarnBase {
// sell quantity - buy quantity
profitQuantity := o.Quantity.Sub(buyQuantity)
profit := &GridProfit{
Currency: s.Market.BaseCurrency,
Profit: profitQuantity,
Time: o.UpdateTime.Time(),
Order: o,
}
return profit
}
// earn quote
// (sell_price - buy_price) * quantity
profitQuantity := o.Price.Sub(buyPrice).Mul(o.Quantity)
profit := &GridProfit{
Currency: s.Market.QuoteCurrency,
Profit: profitQuantity,
Time: o.UpdateTime.Time(),
Order: o,
}
return profit
}
func (s *Strategy) verifyOrderTrades(o types.Order, trades []types.Trade) bool {
tq := tradingutil.AggregateTradesQuantity(trades)
// on MAX: if order.status == filled, it does not mean order.executedQuantity == order.quantity
// order.executedQuantity can be less than order.quantity
// so here we use executed quantity to check if the total trade quantity matches to order.executedQuantity
executedQuantity := o.ExecutedQuantity
if executedQuantity.IsZero() {
// fall back to the original quantity if the executed quantity is zero
executedQuantity = o.Quantity
}
// early return here if it matches
c := tq.Compare(executedQuantity)
if c == 0 {
return true
}
if c < 0 {
s.logger.Warnf("order trades missing. expected: %s got: %s",
executedQuantity.String(),
tq.String())
return false
} else if c > 0 {
s.logger.Errorf("aggregated trade quantity %s > order executed quantity %s, something is wrong, please check", tq.String(), executedQuantity.String())
return true
}
// shouldn't reach here
return true
}
// aggregateOrderQuoteAmountAndFee collects the base fee quantity from the given order
// it falls back to query the trades via the RESTful API when the websocket trades are not all received.
func (s *Strategy) aggregateOrderQuoteAmountAndFee(o types.Order) (fixedpoint.Value, fixedpoint.Value, string) {
// try to get the received trades (websocket trades)
orderTrades := s.historicalTrades.GetOrderTrades(o)
if len(orderTrades) > 0 {
s.logger.Infof("GRID: found filled order trades: %+v", orderTrades)
}
feeCurrency := s.Market.BaseCurrency
if o.Side == types.SideTypeSell {
feeCurrency = s.Market.QuoteCurrency
}
for maxTries := maxNumberOfOrderTradesQueryTries; maxTries > 0; maxTries-- {
// if one of the trades is missing, we need to query the trades from the RESTful API
if s.verifyOrderTrades(o, orderTrades) {
// if trades are verified
quoteAmount := tradingutil.AggregateTradesQuoteQuantity(orderTrades)
fees := tradingutil.CollectTradeFee(orderTrades)
if fee, ok := fees[feeCurrency]; ok {
return quoteAmount, fee, feeCurrency
}
return quoteAmount, fixedpoint.Zero, feeCurrency
}
// if we don't support orderQueryService, then we should just skip
if s.orderQueryService == nil {
return fixedpoint.Zero, fixedpoint.Zero, feeCurrency
}
s.logger.Warnf("GRID: missing #%d order trades or missing trade fee, pulling order trades from API", o.OrderID)
// if orderQueryService is supported, use it to query the trades of the filled order
apiOrderTrades, err := retry.QueryOrderTradesUntilSuccessful(context.Background(), s.orderQueryService, types.OrderQuery{
Symbol: o.Symbol,
OrderID: strconv.FormatUint(o.OrderID, 10),
})
if err != nil {
s.logger.WithError(err).Errorf("query #%d order trades error", o.OrderID)
} else {
s.logger.Infof("GRID: fetched api #%d order trades: %+v", o.OrderID, apiOrderTrades)
orderTrades = apiOrderTrades
}
}
quoteAmount := tradingutil.AggregateTradesQuoteQuantity(orderTrades)
// still try to aggregate the trades quantity if we can:
fees := tradingutil.CollectTradeFee(orderTrades)
if fee, ok := fees[feeCurrency]; ok {
return quoteAmount, fee, feeCurrency
}
return quoteAmount, fixedpoint.Zero, feeCurrency
}
func (s *Strategy) processFilledOrder(o types.Order) {
var profit *GridProfit = nil
// check order fee
newSide := types.SideTypeSell
newPrice := o.Price
executedQuantity := o.ExecutedQuantity
// A safeguard check, fallback to the original quantity
if executedQuantity.IsZero() {
executedQuantity = o.Quantity
}
newQuantity := executedQuantity
if o.ExecutedQuantity.Compare(o.Quantity) != 0 {
s.logger.Warnf("order #%d is filled, but order executed quantity %s != order quantity %s, something is wrong", o.OrderID, o.ExecutedQuantity, o.Quantity)
}
/*
if o.AveragePrice.Sign() > 0 {
executedPrice = o.AveragePrice
}
*/
// collect trades for fee
// fee calculation is used to reduce the order quantity
// because when 1.0 BTC buy order is filled without FEE token, then we will actually get 1.0 * (1 - feeRate) BTC
// if we don't reduce the sell quantity, than we might fail to place the sell order
orderExecutedQuoteAmount, fee, feeCurrency := s.aggregateOrderQuoteAmountAndFee(o)
s.logger.Infof("GRID ORDER #%d %s FEE: %s %s",
o.OrderID, o.Side,
fee.String(), feeCurrency)
switch o.Side {
case types.SideTypeSell:
newSide = types.SideTypeBuy
if !s.ProfitSpread.IsZero() {
newPrice = newPrice.Sub(s.ProfitSpread)
} else {
if pin, ok := s.grid.NextLowerPin(newPrice); ok {
newPrice = fixedpoint.Value(pin)
}
}
// use the profit to buy more inventory in the grid
if s.Compound || s.EarnBase {
// if it's not using the platform fee currency, reduce the quote quantity for the buy order
if feeCurrency == s.Market.QuoteCurrency && fee.Sign() > 0 {
orderExecutedQuoteAmount = orderExecutedQuoteAmount.Sub(fee)
}
// for quote amount, always round down with price precision to prevent the quote currency fund locking rounding issue
origQuoteAmount := orderExecutedQuoteAmount
orderExecutedQuoteAmount = orderExecutedQuoteAmount.Round(s.Market.PricePrecision, fixedpoint.Down)
s.logger.Infof("round down %s %s order quote quantity %s to %s by quote precision %d", s.Symbol, newSide, origQuoteAmount.String(), orderExecutedQuoteAmount.String(), s.Market.PricePrecision)
newQuantity = orderExecutedQuoteAmount.Div(newPrice)
origQuantity := newQuantity
newQuantity = newQuantity.Round(s.Market.VolumePrecision, fixedpoint.Down)
s.logger.Infof("round down %s %s order base quantity %s to %s by base precision %d", s.Symbol, newSide, origQuantity.String(), newQuantity.String(), s.Market.VolumePrecision)
} else if s.QuantityOrAmount.Quantity.Sign() > 0 {
newQuantity = s.QuantityOrAmount.Quantity
}
// TODO: need to consider sell order fee for the profit calculation
profit = s.calculateProfit(o, newPrice, newQuantity)
case types.SideTypeBuy:
newSide = types.SideTypeSell
if !s.ProfitSpread.IsZero() {
newPrice = newPrice.Add(s.ProfitSpread)
} else {
if pin, ok := s.grid.NextHigherPin(newPrice); ok {
newPrice = fixedpoint.Value(pin)
}
}
if feeCurrency == s.Market.BaseCurrency && fee.Sign() > 0 {
newQuantity = newQuantity.Sub(fee)
}
// if EarnBase is enabled, we should sell less to get the same quote amount back
if s.EarnBase {
newQuantity = orderExecutedQuoteAmount.Div(newPrice).Sub(fee)
}
// always round down the base quantity for placing sell order to avoid the base currency fund locking issue
origQuantity := newQuantity
newQuantity = newQuantity.Round(s.Market.VolumePrecision, fixedpoint.Down)
s.logger.Infof("round down sell order quantity %s to %s by base quantity precision %d", origQuantity.String(), newQuantity.String(), s.Market.VolumePrecision)
}
if newQuantity.Compare(s.Market.MinQuantity) < 0 {
s.logger.Infof("new quantity %s @ price %s is less than min base quantity %s, please check it. it may due to trading fee or the min base quantity setting changes", newQuantity.String(), newPrice.String(), s.Market.MinQuantity.String())
}
orderForm := types.SubmitOrder{
Symbol: s.Symbol,
Market: s.Market,
Type: types.OrderTypeLimit,
Price: newPrice,
Side: newSide,
TimeInForce: types.TimeInForceGTC,
Quantity: newQuantity,
Tag: orderTag,
GroupID: s.OrderGroupID,
ClientOrderID: s.newClientOrderID(),
}
s.logger.Infof("SUBMIT GRID REVERSE ORDER: %s", orderForm.String())
writeCtx := s.getWriteContext()
createdOrders, err := s.orderExecutor.SubmitOrders(writeCtx, orderForm)
if err != nil {
s.logger.WithError(err).Errorf("GRID REVERSE ORDER SUBMISSION ERROR: order: %s", orderForm.String())
return
}
s.logger.Infof("GRID REVERSE ORDER IS CREATED: %+v", createdOrders)
// we calculate profit only when the order is placed successfully
if profit != nil {
s.GridProfitStats.AddProfit(profit)
s.logger.Infof("GENERATED GRID PROFIT: %+v; TOTAL GRID PROFIT BECOMES: %f", profit, s.GridProfitStats.TotalQuoteProfit.Float64())
s.EmitGridProfit(s.GridProfitStats, profit)
}
}
// handleOrderFilled is called when an order status is FILLED
func (s *Strategy) handleOrderFilled(o types.Order) {
if s.grid == nil {
s.logger.Warn("grid is not opened yet, skip order update event")
return
}
if s.filledOrderIDMap.Exists(o.OrderID) {
s.logger.Warnf("duplicated id (%d) of filled order detected", o.OrderID)
return
}
s.filledOrderIDMap.Add(o)
s.logger.Infof("GRID ORDER FILLED: %s", o.String())
s.updateFilledOrderMetrics(o)
s.processFilledOrder(o)
}
func (s *Strategy) checkRequiredInvestmentByQuantity(
baseBalance, quoteBalance, quantity, lastPrice fixedpoint.Value, pins []Pin,
) (requiredBase, requiredQuote fixedpoint.Value, err error) {
// check more investment budget details
requiredBase = fixedpoint.Zero
requiredQuote = fixedpoint.Zero
// when we need to place a buy-to-sell conversion order, we need to mark the price
si := -1
for i := len(pins) - 1; i >= 0; i-- {
pin := pins[i]
price := fixedpoint.Value(pin)
// TODO: add fee if we don't have the platform token. BNB, OKB or MAX...
if price.Compare(lastPrice) >= 0 {
si = i
// for orders that sell
// if we still have the base balance
if requiredBase.Add(quantity).Compare(baseBalance) <= 0 {
requiredBase = requiredBase.Add(quantity)
} else if i > 0 { // we do not want to sell at i == 0
// convert sell to buy quote and add to requiredQuote
nextLowerPin := pins[i-1]
nextLowerPrice := fixedpoint.Value(nextLowerPin)
requiredQuote = requiredQuote.Add(quantity.Mul(nextLowerPrice))
}
} else {
// for orders that buy
if i+1 == si {
continue
}
requiredQuote = requiredQuote.Add(quantity.Mul(price))
}
}
if requiredBase.Compare(baseBalance) > 0 && requiredQuote.Compare(quoteBalance) > 0 {
return requiredBase, requiredQuote, fmt.Errorf("both base balance (%f %s) or quote balance (%f %s) is not enough, required = base %f + quote %f",
baseBalance.Float64(), s.Market.BaseCurrency,
quoteBalance.Float64(), s.Market.QuoteCurrency,
requiredBase.Float64(),
requiredQuote.Float64())
}
if requiredBase.Compare(baseBalance) > 0 {
return requiredBase, requiredQuote, fmt.Errorf("base balance (%f %s), required = base %f",
baseBalance.Float64(), s.Market.BaseCurrency,
requiredBase.Float64(),
)
}
if requiredQuote.Compare(quoteBalance) > 0 {
return requiredBase, requiredQuote, fmt.Errorf("quote balance (%f %s) is not enough, required = quote %f",
quoteBalance.Float64(), s.Market.QuoteCurrency,
requiredQuote.Float64(),
)
}
return requiredBase, requiredQuote, nil
}
func (s *Strategy) checkRequiredInvestmentByAmount(
baseBalance, quoteBalance, amount, lastPrice fixedpoint.Value, pins []Pin,
) (requiredBase, requiredQuote fixedpoint.Value, err error) {
// check more investment budget details
requiredBase = fixedpoint.Zero
requiredQuote = fixedpoint.Zero
// when we need to place a buy-to-sell conversion order, we need to mark the price
si := -1
for i := len(pins) - 1; i >= 0; i-- {
pin := pins[i]
price := fixedpoint.Value(pin)
// TODO: add fee if we don't have the platform token. BNB, OKB or MAX...
if price.Compare(lastPrice) >= 0 {
si = i
// for orders that sell
// if we still have the base balance
quantity := amount.Div(lastPrice)
if requiredBase.Add(quantity).Compare(baseBalance) <= 0 {
requiredBase = requiredBase.Add(quantity)
} else if i > 0 { // we do not want to sell at i == 0
// convert sell to buy quote and add to requiredQuote
nextLowerPin := pins[i-1]
nextLowerPrice := fixedpoint.Value(nextLowerPin)
requiredQuote = requiredQuote.Add(quantity.Mul(nextLowerPrice))
}
} else {
// for orders that buy
if s.ProfitSpread.IsZero() && i+1 == si {
continue
}
requiredQuote = requiredQuote.Add(amount)
}
}
if requiredBase.Compare(baseBalance) > 0 && requiredQuote.Compare(quoteBalance) > 0 {
return requiredBase, requiredQuote, fmt.Errorf("both base balance (%f %s) or quote balance (%f %s) is not enough, required = base %f + quote %f",
baseBalance.Float64(), s.Market.BaseCurrency,
quoteBalance.Float64(), s.Market.QuoteCurrency,
requiredBase.Float64(),
requiredQuote.Float64())
}
if requiredBase.Compare(baseBalance) > 0 {
return requiredBase, requiredQuote, fmt.Errorf("base balance (%f %s), required = base %f",
baseBalance.Float64(), s.Market.BaseCurrency,
requiredBase.Float64(),
)
}
if requiredQuote.Compare(quoteBalance) > 0 {
return requiredBase, requiredQuote, fmt.Errorf("quote balance (%f %s) is not enough, required = quote %f",
quoteBalance.Float64(), s.Market.QuoteCurrency,
requiredQuote.Float64(),
)
}
return requiredBase, requiredQuote, nil
}
func (s *Strategy) calculateQuoteInvestmentQuantity(
quoteInvestment, lastPrice fixedpoint.Value, pins []Pin,
) (fixedpoint.Value, error) {
// quoteInvestment = (p1 * q) + (p2 * q) + (p3 * q) + ....
// =>
// quoteInvestment = (p1 + p2 + p3) * q
// q = quoteInvestment / (p1 + p2 + p3)
totalQuotePrice := fixedpoint.Zero
si := len(pins)
cntOrder := 0
for i := len(pins) - 1; i >= 0; i-- {
pin := pins[i]
price := fixedpoint.Value(pin)
if price.Compare(lastPrice) >= 0 {
si = i
// do not place sell order on the bottom price
if i == 0 {
continue
}
// for orders that sell
// if we still have the base balance
// quantity := amount.Div(lastPrice)
if s.ProfitSpread.Sign() > 0 {
totalQuotePrice = totalQuotePrice.Add(price)
} else { // we do not want to sell at i == 0
// convert sell to buy quote and add to requiredQuote
nextLowerPin := pins[i-1]
nextLowerPrice := fixedpoint.Value(nextLowerPin)
totalQuotePrice = totalQuotePrice.Add(nextLowerPrice)
}
cntOrder++
} else {
// for orders that buy
if s.ProfitSpread.IsZero() && i+1 == si {
continue
}
// should never place a buy order at the upper price
if i == len(pins)-1 {
continue
}
totalQuotePrice = totalQuotePrice.Add(price)
cntOrder++
}
}
orderDusts := fixedpoint.NewFromFloat(math.Pow10(-s.Market.PricePrecision) * float64(cntOrder))
adjustedQuoteInvestment := quoteInvestment.Sub(orderDusts)
q := adjustedQuoteInvestment.Div(totalQuotePrice)
s.logger.Infof("calculateQuoteInvestmentQuantity: adjustedQuoteInvestment=%f sumOfPrice=%f quantity=%f", adjustedQuoteInvestment.Float64(), totalQuotePrice.Float64(), q.Float64())
return q, nil
}
func (s *Strategy) calculateBaseQuoteInvestmentQuantity(
quoteInvestment, baseInvestment, lastPrice fixedpoint.Value, pins []Pin,
) (fixedpoint.Value, error) {
s.logger.Infof("calculating quantity by base/quote investment: %f / %f", baseInvestment.Float64(), quoteInvestment.Float64())
// q_p1 = q_p2 = q_p3 = q_p4
// baseInvestment = q_p1 + q_p2 + q_p3 + q_p4 + ....
// baseInvestment = numberOfSellOrders * q
// maxBaseQuantity = baseInvestment / numberOfSellOrders
// if maxBaseQuantity < minQuantity or maxBaseQuantity * priceLowest < minNotional
// then reduce the numberOfSellOrders
numberOfSellOrders := s.BaseGridNum
// if it's not configured, calculate the number of sell orders
if numberOfSellOrders == 0 {
for i := len(pins) - 1; i >= 0; i-- {
pin := pins[i]
price := fixedpoint.Value(pin)
sellPrice := price
if s.ProfitSpread.Sign() > 0 {
sellPrice = sellPrice.Add(s.ProfitSpread)
}
if sellPrice.Compare(lastPrice) < 0 {
break
}
numberOfSellOrders++
}
// avoid placing a sell order above the last price
if numberOfSellOrders > 0 {
numberOfSellOrders--
}
s.logger.Infof("calculated number of sell orders: %d", numberOfSellOrders)
}
// if the maxBaseQuantity is less than minQuantity, then we need to reduce the number of the sell orders
// so that the quantity can be increased.
baseQuantity := s.Market.TruncateQuantity(
baseInvestment.Div(
fixedpoint.NewFromInt(
int64(numberOfSellOrders))))
minBaseQuantity := fixedpoint.Max(
s.Market.MinNotional.Div(s.UpperPrice),
s.Market.MinQuantity)
if baseQuantity.Compare(minBaseQuantity) <= 0 {
s.logger.Infof("base quantity %s is less than min base quantity: %s, adjusting...", baseQuantity.String(), minBaseQuantity.String())
baseQuantity = s.Market.RoundUpQuantityByPrecision(minBaseQuantity)
numberOfSellOrders = int(math.Floor(baseInvestment.Div(baseQuantity).Float64()))
s.logger.Infof("adjusted base quantity to %s", baseQuantity.String())
}
s.logger.Infof("grid base investment sell orders: %d", numberOfSellOrders)
s.logger.Infof("grid base investment quantity: %f (base investment) / %d (number of sell orders) = %f (base quantity per order)", baseInvestment.Float64(), numberOfSellOrders, baseQuantity.Float64())
// calculate quantity with quote investment
totalQuotePrice := fixedpoint.Zero
// quoteInvestment = (p1 * q) + (p2 * q) + (p3 * q) + ....
// =>
// quoteInvestment = (p1 + p2 + p3) * q
// maxBuyQuantity = quoteInvestment / (p1 + p2 + p3)
si := -1
end := len(pins) - 1
for i := end - numberOfSellOrders - 1; i >= 0; i-- {
pin := pins[i]
price := fixedpoint.Value(pin)
// buy price greater than the last price will trigger taker order.
if price.Compare(lastPrice) >= 0 {
si = i
// when profit spread is set, we count all the grid prices as buy prices
if s.ProfitSpread.Sign() > 0 {
totalQuotePrice = totalQuotePrice.Add(price)
} else if i > 0 {
// when profit spread is not set
// we do not want to place sell order at i == 0
// here we submit an order to convert a buy order into a sell order
nextLowerPin := pins[i-1]
nextLowerPrice := fixedpoint.Value(nextLowerPin)
// requiredQuote = requiredQuote.Add(quantity.Mul(nextLowerPrice))
totalQuotePrice = totalQuotePrice.Add(nextLowerPrice)
}
} else {
// for orders that buy
if s.ProfitSpread.IsZero() && i+1 == si {
continue
}
// should never place a buy order at the upper price
if i == end {
continue
}
totalQuotePrice = totalQuotePrice.Add(price)
}
}
s.logger.Infof("total quote price: %f", totalQuotePrice.Float64())
if totalQuotePrice.Sign() > 0 && quoteInvestment.Sign() > 0 {
quoteSideQuantity := quoteInvestment.Div(totalQuotePrice)
s.logger.Infof("quote side quantity: %f = %f / %f", quoteSideQuantity.Float64(), quoteInvestment.Float64(), totalQuotePrice.Float64())
if numberOfSellOrders > 0 {
return fixedpoint.Min(quoteSideQuantity, baseQuantity), nil
}
return quoteSideQuantity, nil
}
return baseQuantity, nil
}
func (s *Strategy) newTriggerPriceHandler(ctx context.Context, session *bbgo.ExchangeSession) types.KLineCallback {
return types.KLineWith(s.Symbol, types.Interval1m, func(k types.KLine) {
if s.TriggerPrice.Compare(k.High) > 0 || s.TriggerPrice.Compare(k.Low) < 0 {
return
}
if s.grid != nil {
return
}
s.logger.Infof("the last price %f hits triggerPrice %f, opening grid", k.Close.Float64(), s.TriggerPrice.Float64())
if err := s.openGrid(ctx, session); err != nil {
s.logger.WithError(err).Errorf("failed to setup grid orders")
return
}
})
}
func (s *Strategy) newOrderUpdateHandler(ctx context.Context, session *bbgo.ExchangeSession) func(o types.Order) {
return func(o types.Order) {
if s.OrderFillDelay > 0 {
time.Sleep(s.OrderFillDelay.Duration())
}
s.handleOrderFilled(o)
// sync the profits to redis
bbgo.Sync(ctx, s)
s.updateGridNumOfOrdersMetricsWithLock()
}
}
func (s *Strategy) newStopLossPriceHandler(ctx context.Context, session *bbgo.ExchangeSession) types.KLineCallback {
return types.KLineWith(s.Symbol, types.Interval1m, func(k types.KLine) {
if s.StopLossPrice.Compare(k.Low) < 0 {
return
}
s.logger.Infof("last low price %f hits stopLossPrice %f, closing grid", k.Low.Float64(), s.StopLossPrice.Float64())
if err := s.CloseGrid(ctx); err != nil {
s.logger.WithError(err).Errorf("can not close grid")
return
}
base := s.Position.GetBase()
if base.Sign() < 0 {
return
}
s.logger.Infof("position base %f > 0, closing position...", base.Float64())
if err := s.orderExecutor.ClosePosition(ctx, fixedpoint.One, "grid2:stopLoss"); err != nil {
s.logger.WithError(err).Errorf("can not close position")
return
}
})
}
func (s *Strategy) newTakeProfitHandler(ctx context.Context, session *bbgo.ExchangeSession) types.KLineCallback {
return types.KLineWith(s.Symbol, types.Interval1m, func(k types.KLine) {
if s.TakeProfitPrice.Compare(k.High) > 0 {
return
}
s.logger.Infof("last high price %f hits takeProfitPrice %f, closing grid", k.High.Float64(), s.TakeProfitPrice.Float64())
if err := s.CloseGrid(ctx); err != nil {
s.logger.WithError(err).Errorf("can not close grid")
return
}
base := s.Position.GetBase()
if base.Sign() < 0 {
return
}
s.logger.Infof("position base %f > 0, closing position...", base.Float64())
if err := s.orderExecutor.ClosePosition(ctx, fixedpoint.One, "grid2:takeProfit"); err != nil {
s.logger.WithError(err).Errorf("can not close position")
return
}
})
}
func (s *Strategy) OpenGrid(ctx context.Context) error {
return s.openGrid(ctx, s.session)
}
// TODO: make sure the context here is the trading context or the shutdown context?
func (s *Strategy) cancelAll(ctx context.Context) error {
var werr error
session := s.session
if session == nil {
session = s.ExchangeSession
}
service, support := session.Exchange.(advancedOrderCancelApi)
if s.UseCancelAllOrdersApiWhenClose && !support {
s.logger.Warnf("advancedOrderCancelApi interface is not implemented, fallback to default graceful cancel, exchange %T", session)
s.UseCancelAllOrdersApiWhenClose = false
}
if s.UseCancelAllOrdersApiWhenClose {
s.logger.Infof("useCancelAllOrdersApiWhenClose is set, using advanced order cancel api for canceling...")
for {
s.logger.Infof("checking %s open orders...", s.Symbol)
openOrders, err := retry.QueryOpenOrdersUntilSuccessful(ctx, session.Exchange, s.Symbol)
if err != nil {
s.logger.WithError(err).Errorf("CancelOrdersByGroupID api call error")
werr = multierr.Append(werr, err)
}
if len(openOrders) == 0 {
break
}
s.logger.Infof("found %d open orders left, using cancel all orders api", len(openOrders))
s.logger.Infof("using cancal all orders api for canceling grid orders...")
if err := retry.CancelAllOrdersUntilSuccessful(ctx, service); err != nil {
s.logger.WithError(err).Errorf("CancelAllOrders api call error")
werr = multierr.Append(werr, err)
}
time.Sleep(1 * time.Second)
}
} else {
if err := s.orderExecutor.GracefulCancel(ctx); err != nil {
werr = multierr.Append(werr, err)
}
}
return werr
}
// CloseGrid closes the grid orders
func (s *Strategy) CloseGrid(ctx context.Context) error {
s.logger.Infof("closing %s grid", s.Symbol)
defer s.EmitGridClosed()
bbgo.Sync(ctx, s)
// now we can cancel the open orders
s.logger.Infof("canceling grid orders...")
err := s.cancelAll(ctx)
// free the grid object
s.setGrid(nil)
s.updateGridNumOfOrdersMetricsWithLock()
return err
}
func (s *Strategy) newGrid() *Grid {
grid := NewGrid(s.LowerPrice, s.UpperPrice, fixedpoint.NewFromInt(s.GridNum), s.Market.TickSize)
grid.CalculateArithmeticPins()
return grid
}
// openGrid
// 1) if quantity or amount is set, we should use quantity/amount directly instead of using investment amount to calculate.
// 2) if baseInvestment, quoteInvestment is set, then we should calculate the quantity from the given base investment and quote investment.
func (s *Strategy) openGrid(ctx context.Context, session *bbgo.ExchangeSession) error {
// grid object guard
s.mu.Lock()
defer s.mu.Unlock()
if s.grid != nil {
return nil
}
grid := s.newGrid()
s.grid = grid
s.logger.Info("OPENING GRID: ", s.grid.String())
lastPrice, err := s.getLastTradePrice(ctx, session)
if err != nil {
err2 := errors.Wrap(err, "unable to get the last trade price")
s.EmitGridError(err2)
return err2
}
if s.BaseGridNum > 0 {
sell1 := fixedpoint.Value(s.grid.Pins[len(s.grid.Pins)-1-s.BaseGridNum])
lastPrice = sell1.Sub(s.Market.TickSize)
}
// check if base and quote are enough
var totalBase = fixedpoint.Zero
var totalQuote = fixedpoint.Zero
baseBalance, ok := session.Account.Balance(s.Market.BaseCurrency)
if ok {
totalBase = baseBalance.Available
}
quoteBalance, ok := session.Account.Balance(s.Market.QuoteCurrency)
if ok {
totalQuote = quoteBalance.Available
}
// shift 1 grid because we will start from the buy order
// if the buy order is filled, then we will submit another sell order at the higher grid.
if s.QuantityOrAmount.IsSet() {
if quantity := s.QuantityOrAmount.Quantity; !quantity.IsZero() {
if _, _, err2 := s.checkRequiredInvestmentByQuantity(totalBase, totalQuote, lastPrice, s.QuantityOrAmount.Quantity, s.grid.Pins); err != nil {
s.EmitGridError(err2)
return err2
}
}
if amount := s.QuantityOrAmount.Amount; !amount.IsZero() {
if _, _, err2 := s.checkRequiredInvestmentByAmount(totalBase, totalQuote, lastPrice, amount, s.grid.Pins); err != nil {
s.EmitGridError(err2)
return err2
}
}
} else {
// calculate the quantity from the investment configuration
if !s.BaseInvestment.IsZero() {
quantity, err2 := s.calculateBaseQuoteInvestmentQuantity(s.QuoteInvestment, s.BaseInvestment, lastPrice, s.grid.Pins)
if err2 != nil {
s.EmitGridError(err2)
return err2
}
s.QuantityOrAmount.Quantity = quantity
} else if !s.QuoteInvestment.IsZero() {
quantity, err2 := s.calculateQuoteInvestmentQuantity(s.QuoteInvestment, lastPrice, s.grid.Pins)
if err2 != nil {
s.EmitGridError(err2)
return err2
}
s.QuantityOrAmount.Quantity = quantity
}
}
// if base investment and quote investment is set, when we should check if the
// investment configuration is valid with the current balances
if !s.BaseInvestment.IsZero() && !s.QuoteInvestment.IsZero() {
if s.BaseInvestment.Compare(totalBase) > 0 {
err2 := fmt.Errorf("baseInvestment setup %f is greater than the total base balance %f", s.BaseInvestment.Float64(), totalBase.Float64())
s.EmitGridError(err2)
return err2
}
if s.QuoteInvestment.Compare(totalQuote) > 0 {
err2 := fmt.Errorf("quoteInvestment setup %f is greater than the total quote balance %f", s.QuoteInvestment.Float64(), totalQuote.Float64())
s.EmitGridError(err2)
return err2
}
}
var submitOrders []types.SubmitOrder
if !s.BaseInvestment.IsZero() || !s.QuoteInvestment.IsZero() {
submitOrders, err = s.generateGridOrders(s.QuoteInvestment, s.BaseInvestment, lastPrice)
} else {
submitOrders, err = s.generateGridOrders(totalQuote, totalBase, lastPrice)
}
if err != nil {
s.EmitGridError(err)
return err
}
s.debugGridOrders(submitOrders, lastPrice)
writeCtx := s.getWriteContext(ctx)
createdOrders, err2 := s.orderExecutor.SubmitOrders(writeCtx, submitOrders...)
if err2 != nil {
s.EmitGridError(err2)
return err2
}
// try to always emit grid ready
defer s.EmitGridReady()
// update the number of orders to metrics
baseLabels := s.newPrometheusLabels()
metricsGridNumOfOrders.With(baseLabels).Set(float64(len(createdOrders)))
var orderIds []uint64
for _, order := range createdOrders {
orderIds = append(orderIds, order.OrderID)
s.logger.Info(order.String())
}
sort.Slice(orderIds, func(i, j int) bool {
return orderIds[i] < orderIds[j]
})
if len(orderIds) > 0 {
s.GridProfitStats.InitialOrderID = orderIds[0]
bbgo.Sync(ctx, s)
}
s.logger.Infof("ALL GRID ORDERS SUBMITTED")
s.updateGridNumOfOrdersMetrics(grid)
return nil
}
func (s *Strategy) updateFilledOrderMetrics(order types.Order) {
labels := s.newPrometheusLabels()
labels["side"] = order.Side.String()
metricsGridFilledOrderPrice.With(labels).Set(order.Price.Float64())
}
func (s *Strategy) updateGridNumOfOrdersMetricsWithLock() {
if s.mu.TryLock() {
grid := s.grid
s.mu.Unlock()
s.updateGridNumOfOrdersMetrics(grid)
} else {
s.logger.Warnf("updateGridNumOfOrdersMetricsWithLock: failed to acquire the lock to update metrics")
}
}
func (s *Strategy) updateGridNumOfOrdersMetrics(grid *Grid) {
baseLabels := s.newPrometheusLabels()
makerOrders := s.orderExecutor.ActiveMakerOrders()
numOfOrders := makerOrders.NumOfOrders()
metricsGridNumOfOrders.With(baseLabels).Set(float64(numOfOrders))
metricsGridLowerPrice.With(baseLabels).Set(s.LowerPrice.Float64())
metricsGridUpperPrice.With(baseLabels).Set(s.UpperPrice.Float64())
metricsGridQuoteInvestment.With(baseLabels).Set(s.QuoteInvestment.Float64())
metricsGridBaseInvestment.With(baseLabels).Set(s.BaseInvestment.Float64())
if grid != nil {
gridNum := grid.Size.Int()
metricsGridNum.With(baseLabels).Set(float64(gridNum))
numOfMissingOrders := gridNum - 1 - numOfOrders
metricsGridNumOfMissingOrders.With(baseLabels).Set(float64(numOfMissingOrders))
var numOfOrdersWithCorrectPrice int
priceSet := make(map[fixedpoint.Value]struct{})
for _, order := range makerOrders.Orders() {
// filter out duplicated prices
if _, ok := priceSet[order.Price]; ok {
continue
}
priceSet[order.Price] = struct{}{}
if grid.HasPin(Pin(order.Price)) {
numOfOrdersWithCorrectPrice++
}
}
numOfMissingOrdersWithCorrectPrice := gridNum - 1 - numOfOrdersWithCorrectPrice
metricsGridNumOfOrdersWithCorrectPrice.With(baseLabels).Set(float64(numOfOrdersWithCorrectPrice))
metricsGridNumOfMissingOrdersWithCorrectPrice.With(baseLabels).Set(float64(numOfMissingOrdersWithCorrectPrice))
}
}
func (s *Strategy) debugGridOrders(submitOrders []types.SubmitOrder, lastPrice fixedpoint.Value) {
if !s.Debug {
return
}
var sb strings.Builder
sb.WriteString("GRID ORDERS [\n")
for i, order := range submitOrders {
if i > 0 && lastPrice.Compare(order.Price) >= 0 && lastPrice.Compare(submitOrders[i-1].Price) <= 0 {
sb.WriteString(fmt.Sprintf(" - LAST PRICE: %f\n", lastPrice.Float64()))
}
sb.WriteString(" - " + order.String() + "\n")
}
sb.WriteString("] END OF GRID ORDERS")
s.logger.Infof(sb.String())
}
func (s *Strategy) debugOrders(desc string, orders []types.Order) {
if !s.Debug {
return
}
var sb strings.Builder
if desc == "" {
desc = "ORDERS"
}
sb.WriteString(desc + " [\n")
for i, order := range orders {
sb.WriteString(fmt.Sprintf(" - %d) %s\n", i, order.String()))
}
sb.WriteString("]")
s.logger.Infof(sb.String())
}
func (s *Strategy) debugLog(format string, args ...interface{}) {
if !s.Debug {
return
}
s.logger.Infof(format, args...)
}
func (s *Strategy) generateGridOrders(totalQuote, totalBase, lastPrice fixedpoint.Value) ([]types.SubmitOrder, error) {
var pins = s.grid.Pins
var usedBase = fixedpoint.Zero
var usedQuote = fixedpoint.Zero
var submitOrders []types.SubmitOrder
// si is for sell order price index
var si = len(pins)
for i := len(pins) - 1; i >= 0; i-- {
pin := pins[i]
price := fixedpoint.Value(pin)
sellPrice := price
// when profitSpread is set, the sell price is shift upper with the given spread
if s.ProfitSpread.Sign() > 0 {
sellPrice = sellPrice.Add(s.ProfitSpread)
}
quantity := s.QuantityOrAmount.Quantity
if quantity.IsZero() {
quantity = s.QuantityOrAmount.Amount.Div(price)
}
placeSell := price.Compare(lastPrice) >= 0
// override the relative price position for sell order if BaseGridNum is defined
if s.BaseGridNum > 0 {
placeSell = i >= len(pins)-1-s.BaseGridNum
}
if placeSell {
si = i
// do not place sell order when i == 0 (the bottom of grid)
if i == 0 {
continue
}
if usedBase.Add(quantity).Compare(totalBase) <= 0 {
submitOrders = append(submitOrders, types.SubmitOrder{
Symbol: s.Symbol,
Type: types.OrderTypeLimit,
Side: types.SideTypeSell,
Price: sellPrice,
Quantity: quantity,
Market: s.Market,
TimeInForce: types.TimeInForceGTC,
Tag: orderTag,
GroupID: s.OrderGroupID,
ClientOrderID: s.newClientOrderID(),
})
usedBase = usedBase.Add(quantity)
} else {
// if we don't have enough base asset
// then we need to place a buy order at the next price.
nextPin := pins[i-1]
nextPrice := fixedpoint.Value(nextPin)
submitOrders = append(submitOrders, types.SubmitOrder{
Symbol: s.Symbol,
Type: types.OrderTypeLimit,
Side: types.SideTypeBuy,
Price: nextPrice,
Quantity: quantity,
Market: s.Market,
TimeInForce: types.TimeInForceGTC,
Tag: orderTag,
GroupID: s.OrderGroupID,
ClientOrderID: s.newClientOrderID(),
})
quoteQuantity := quantity.Mul(nextPrice)
// because the precision issue, we need to round up quote quantity and add it into used quote
// e.g. quote we calculate : 8888.85, but it may lock 8888.9 due to their precision.
roundUpQuoteQuantity := quoteQuantity.Round(s.Market.PricePrecision, fixedpoint.Up)
usedQuote = usedQuote.Add(roundUpQuoteQuantity)
}
} else {
// if price spread is not enabled, and we have already placed a sell order index on the top of this price,
// then we should skip
if s.ProfitSpread.IsZero() && i+1 == si {
continue
}
// should never place a buy order at the upper price
if i == len(pins)-1 {
continue
}
quoteQuantity := quantity.Mul(price)
// because the precision issue, we need to round up quote quantity and add it into used quote
// e.g. quote we calculate : 8888.85, but it may lock 8888.9 due to their precision.
roundUpQuoteQuantity := quoteQuantity.Round(s.Market.PricePrecision, fixedpoint.Up)
if usedQuote.Add(roundUpQuoteQuantity).Compare(totalQuote) > 0 {
if i > 0 {
return nil, fmt.Errorf("used quote %f > total quote %f, this should not happen", usedQuote.Add(quoteQuantity).Float64(), totalQuote.Float64())
} else {
restQuote := totalQuote.Sub(usedQuote)
quantity = restQuote.Div(price).Round(s.Market.VolumePrecision, fixedpoint.Down)
if s.Market.MinQuantity.Compare(quantity) > 0 {
return nil, fmt.Errorf("the round down quantity (%s) is less than min quantity (%s), we cannot place this order", quantity, s.Market.MinQuantity)
}
}
}
submitOrders = append(submitOrders, types.SubmitOrder{
Symbol: s.Symbol,
Type: types.OrderTypeLimit,
Side: types.SideTypeBuy,
Price: price,
Quantity: quantity,
Market: s.Market,
TimeInForce: types.TimeInForceGTC,
Tag: orderTag,
GroupID: s.OrderGroupID,
ClientOrderID: s.newClientOrderID(),
})
usedQuote = usedQuote.Add(roundUpQuoteQuantity)
}
}
return submitOrders, nil
}
func (s *Strategy) clearOpenOrders(ctx context.Context, session *bbgo.ExchangeSession) error {
// clear open orders when start
openOrders, err := retry.QueryOpenOrdersUntilSuccessful(ctx, session.Exchange, s.Symbol)
if err != nil {
return err
}
return retry.CancelOrdersUntilSuccessful(ctx, session.Exchange, openOrders...)
}
func (s *Strategy) getLastTradePrice(ctx context.Context, session *bbgo.ExchangeSession) (fixedpoint.Value, error) {
if bbgo.IsBackTesting {
price, ok := session.LastPrice(s.Symbol)
if !ok {
return fixedpoint.Zero, fmt.Errorf("last price of %s not found", s.Symbol)
}
return price, nil
}
tickers, err := session.Exchange.QueryTickers(ctx, s.Symbol)
if err != nil {
return fixedpoint.Zero, err
}
if ticker, ok := tickers[s.Symbol]; ok {
if !ticker.Last.IsZero() {
return ticker.Last, nil
}
// fallback to buy price
return ticker.Buy, nil
}
return fixedpoint.Zero, fmt.Errorf("%s ticker price not found", s.Symbol)
}
func calculateMinimalQuoteInvestment(market types.Market, grid *Grid) fixedpoint.Value {
// upperPrice for buy order
lowerPrice := grid.LowerPrice
minQuantity := fixedpoint.Max(market.MinNotional.Div(lowerPrice), market.MinQuantity)
var pins = grid.Pins
var totalQuote = fixedpoint.Zero
for i := len(pins) - 2; i >= 0; i-- {
pin := pins[i]
price := fixedpoint.Value(pin)
// TODO: should we round the quote here before adding?
totalQuote = totalQuote.Add(price.Mul(minQuantity))
}
return totalQuote
}
func (s *Strategy) checkMinimalQuoteInvestment(grid *Grid) error {
minimalQuoteInvestment := calculateMinimalQuoteInvestment(s.Market, grid)
if s.QuoteInvestment.Compare(minimalQuoteInvestment) <= 0 {
return fmt.Errorf("need at least %f %s for quote investment, %f %s given",
minimalQuoteInvestment.Float64(),
s.Market.QuoteCurrency,
s.QuoteInvestment.Float64(),
s.Market.QuoteCurrency)
}
return nil
}
func (s *Strategy) recoverGridWithOpenOrders(
ctx context.Context, historyService types.ExchangeTradeHistoryService, openOrders []types.Order,
) error {
grid := s.newGrid()
s.logger.Infof("GRID RECOVER: %s", grid.String())
lastOrderID := uint64(1)
now := time.Now()
firstOrderTime := now.AddDate(0, 0, -7)
lastOrderTime := firstOrderTime
if since, until, ok := scanOrderCreationTimeRange(openOrders); ok {
firstOrderTime = since
lastOrderTime = until
}
_ = lastOrderTime
// for MAX exchange we need the order ID to query the closed order history
if s.GridProfitStats != nil && s.GridProfitStats.InitialOrderID > 0 {
lastOrderID = s.GridProfitStats.InitialOrderID
s.logger.Infof("found initial order id #%d from grid stats", lastOrderID)
} else {
if oid, ok := findEarliestOrderID(openOrders); ok {
lastOrderID = oid
s.logger.Infof("found earliest order id #%d from open orders", lastOrderID)
}
}
// Allocate a local order book for querying the history orders
orderBook := bbgo.NewActiveOrderBook(s.Symbol)
// Ensure that orders are grid orders
// The price must be at the grid pin
gridOrders := grid.FilterOrders(openOrders)
for _, gridOrder := range gridOrders {
orderBook.Add(gridOrder)
}
// if all open orders are the grid orders, then we don't have to recover
s.logger.Infof("GRID RECOVER: verifying pins %v", PrettyPins(grid.Pins))
missingPrices := scanMissingPinPrices(orderBook, grid.Pins)
if numMissing := len(missingPrices); numMissing <= 1 {
s.logger.Infof("GRID RECOVER: no missing grid prices, stop re-playing order history")
s.addOrdersToActiveOrderBook(gridOrders)
s.setGrid(grid)
s.EmitGridReady()
s.updateGridNumOfOrdersMetricsWithLock()
return nil
} else {
s.logger.Infof("GRID RECOVER: found missing prices: %v", missingPrices)
// Note that for MAX Exchange, the order history API only uses fromID parameter to query history order.
// The time range does not matter.
// TODO: handle context correctly
startTime := firstOrderTime
endTime := now
maxTries := 5
localHistoryRollbackDuration := historyRollbackDuration
for maxTries > 0 {
maxTries--
if err := s.replayOrderHistory(ctx, grid, orderBook, historyService, startTime, endTime, lastOrderID); err != nil {
return err
}
// Verify if there are still missing prices
missingPrices = scanMissingPinPrices(orderBook, grid.Pins)
if len(missingPrices) <= 1 {
// skip this order history loop and start recovering
break
}
// history rollback range
startTime = startTime.Add(-localHistoryRollbackDuration)
if newFromOrderID := lastOrderID - historyRollbackOrderIdRange; newFromOrderID > 1 {
lastOrderID = newFromOrderID
}
s.logger.Infof("GRID RECOVER: there are still more than two missing orders, rolling back query start time to earlier time point %s, fromID %d", startTime.String(), lastOrderID)
localHistoryRollbackDuration = localHistoryRollbackDuration * 2
}
}
debugGrid(s.logger, grid, orderBook)
// note that the tmpOrders contains FILLED and NEW orders
tmpOrders := orderBook.Orders()
// if all orders on the order book are active orders, we don't need to recover.
if isCompleteGridOrderBook(orderBook, s.GridNum) {
s.logger.Infof("GRID RECOVER: all orders are active orders, do not need recover")
s.addOrdersToActiveOrderBook(gridOrders)
s.setGrid(grid)
s.EmitGridReady()
s.updateGridNumOfOrdersMetricsWithLock()
return nil
}
// for reverse order recovering, we need the orders to be sort by update time ascending-ly
types.SortOrdersUpdateTimeAscending(tmpOrders)
// we will only submit reverse orders for filled orders
filledOrders := types.OrdersFilled(tmpOrders)
// if the number of FILLED orders and NEW orders equals to GridNum, then we need to remove an extra filled order for the replay events
if len(tmpOrders) == int(s.GridNum) && len(filledOrders) > 0 {
// remove the latest updated order because it's near the empty slot
filledOrders = filledOrders[1:]
}
s.logger.Infof("GRID RECOVER: found %d/%d filled grid orders, gridNumber=%d, will re-replay the order event in the following order:", len(filledOrders), len(tmpOrders), int(s.GridNum))
for i, o := range filledOrders {
s.logger.Infof("%d) %s", i+1, o.String())
}
// before we re-play the orders,
// we need to add these open orders to the active order book
s.addOrdersToActiveOrderBook(gridOrders)
s.setGrid(grid)
s.EmitGridReady()
s.updateGridNumOfOrdersMetricsWithLock()
for i := range filledOrders {
// avoid using the iterator
o := filledOrders[i]
s.processFilledOrder(o)
time.Sleep(100 * time.Millisecond)
}
// wait for the reverse order to be placed
time.Sleep(2 * time.Second)
s.logger.Infof("GRID RECOVER COMPLETE")
debugGrid(s.logger, grid, s.orderExecutor.ActiveMakerOrders())
s.updateGridNumOfOrdersMetricsWithLock()
return nil
}
func (s *Strategy) addOrdersToActiveOrderBook(gridOrders []types.Order) {
activeOrderBook := s.orderExecutor.ActiveMakerOrders()
for _, gridOrder := range gridOrders {
// put the order back to the active order book so that we can receive order update
activeOrderBook.Add(gridOrder)
}
}
func (s *Strategy) setGrid(grid *Grid) {
s.mu.Lock()
s.grid = grid
s.mu.Unlock()
}
func (s *Strategy) getGrid() *Grid {
s.mu.Lock()
grid := s.grid
s.mu.Unlock()
return grid
}
// replayOrderHistory queries the closed order history from the API and rebuild the orderbook from the order history.
// startTime, endTime is the time range of the order history.
func (s *Strategy) replayOrderHistory(
ctx context.Context, grid *Grid, orderBook *bbgo.ActiveOrderBook, historyService types.ExchangeTradeHistoryService,
startTime, endTime time.Time, lastOrderID uint64,
) error {
// a simple guard, in reality, this startTime is not possible to exceed the endTime
// because the queries closed orders might still in the range.
orderIdChanged := true
for startTime.Before(endTime) && orderIdChanged {
closedOrders, err := historyService.QueryClosedOrders(ctx, s.Symbol, startTime, endTime, lastOrderID)
if err != nil {
return err
}
// need to prevent infinite loop for:
// if there is only one order and the order creation time matches our startTime
if len(closedOrders) == 0 || len(closedOrders) == 1 && closedOrders[0].OrderID == lastOrderID {
break
}
// for each closed order, if it's newer than the open order's update time, we will update it.
orderIdChanged = false
for _, closedOrder := range closedOrders {
if closedOrder.OrderID > lastOrderID {
lastOrderID = closedOrder.OrderID
orderIdChanged = true
}
// skip orders that are not limit order
if closedOrder.Type != types.OrderTypeLimit {
continue
}
// skip canceled orders (?)
if closedOrder.Status == types.OrderStatusCanceled {
continue
}
creationTime := closedOrder.CreationTime.Time()
if creationTime.After(startTime) {
startTime = creationTime
}
// skip non-grid order prices
if !grid.HasPrice(closedOrder.Price) {
continue
}
existingOrder := orderBook.Lookup(func(o types.Order) bool {
return o.Price.Eq(closedOrder.Price)
})
if existingOrder == nil {
orderBook.Add(closedOrder)
} else {
// To update order, we need to remove the old order, because it's using order ID as the key of the map.
if creationTime.After(existingOrder.CreationTime.Time()) {
orderBook.Remove(*existingOrder)
orderBook.Add(closedOrder)
}
}
}
}
return nil
}
// isCompleteGridOrderBook checks if the number of open orders == gridNum - 1 and all orders are active order
func isCompleteGridOrderBook(orderBook *bbgo.ActiveOrderBook, gridNum int64) bool {
tmpOrders := orderBook.Orders()
activeOrders := types.OrdersActive(tmpOrders)
return len(activeOrders) == int(gridNum)-1
}
func findEarliestOrderID(orders []types.Order) (uint64, bool) {
if len(orders) == 0 {
return 0, false
}
earliestOrderID := orders[0].OrderID
for _, o := range orders {
if o.OrderID < earliestOrderID {
earliestOrderID = o.OrderID
}
}
return earliestOrderID, true
}
// scanOrderCreationTimeRange finds the earliest creation time and the latest creation time from the given orders
func scanOrderCreationTimeRange(orders []types.Order) (time.Time, time.Time, bool) {
if len(orders) == 0 {
return time.Time{}, time.Time{}, false
}
firstOrderTime := orders[0].CreationTime.Time()
lastOrderTime := firstOrderTime
for _, o := range orders {
createTime := o.CreationTime.Time()
if createTime.Before(firstOrderTime) {
firstOrderTime = createTime
} else if createTime.After(lastOrderTime) {
lastOrderTime = createTime
}
}
return firstOrderTime, lastOrderTime, true
}
// scanMissingPinPrices finds the missing grid order prices
func scanMissingPinPrices(orderBook *bbgo.ActiveOrderBook, pins []Pin) PriceMap {
// Add all open orders to the local order book
gridPrices := make(PriceMap)
missingPrices := make(PriceMap)
for _, pin := range pins {
price := fixedpoint.Value(pin)
gridPrices[price.String()] = price
existingOrder := orderBook.Lookup(func(o types.Order) bool {
return o.Price.Compare(price) == 0
})
if existingOrder == nil {
missingPrices[price.String()] = price
}
}
return missingPrices
}
func (s *Strategy) newPrometheusLabels() prometheus.Labels {
labels := prometheus.Labels{
"exchange": "default",
"symbol": s.Symbol,
}
if s.session != nil {
labels["exchange"] = s.session.Name
}
if s.PrometheusLabels == nil {
return labels
}
return mergeLabels(s.PrometheusLabels, labels)
}
func (s *Strategy) CleanUp(ctx context.Context) error {
if s.ExchangeSession != nil {
s.session = s.ExchangeSession
}
_ = s.Initialize()
defer s.EmitGridClosed()
return s.cancelAll(ctx)
}
func (s *Strategy) getWriteContext(fallbackCtxList ...context.Context) context.Context {
if s.writeCtx != nil {
return s.writeCtx
}
for _, c := range fallbackCtxList {
if c != nil {
return c
}
}
if s.tradingCtx != nil {
return s.tradingCtx
}
// final fallback to context background
return context.Background()
}
func (s *Strategy) Run(ctx context.Context, _ bbgo.OrderExecutor, session *bbgo.ExchangeSession) error {
instanceID := s.InstanceID()
// allocate a context for write operation (submitting orders)
s.tradingCtx = ctx
s.writeCtx, s.cancelWrite = context.WithCancel(ctx)
s.session = session
if service, ok := session.Exchange.(types.ExchangeOrderQueryService); ok {
s.orderQueryService = service
}
if s.OrderGroupID == 0 {
s.OrderGroupID = util.FNV32(instanceID) % math.MaxInt32
}
if s.AutoRange != nil {
indicatorSet := session.StandardIndicatorSet(s.Symbol)
interval := s.AutoRange.Interval()
pivotLow := indicatorSet.PivotLow(types.IntervalWindow{Interval: interval, Window: s.AutoRange.Num})
pivotHigh := indicatorSet.PivotHigh(types.IntervalWindow{Interval: interval, Window: s.AutoRange.Num})
s.UpperPrice = fixedpoint.NewFromFloat(pivotHigh.Last(0))
s.LowerPrice = fixedpoint.NewFromFloat(pivotLow.Last(0))
s.logger.Infof("autoRange is enabled, using pivot high %f and pivot low %f", s.UpperPrice.Float64(), s.LowerPrice.Float64())
}
s.logger.Infof("market info: %+v", s.Market)
if s.ProfitSpread.Sign() > 0 {
s.ProfitSpread = s.Market.TruncatePrice(s.ProfitSpread)
}
s.logger.Infof("persistence ttl: %s", s.PersistenceTTL.Duration())
if s.GridProfitStats == nil {
s.GridProfitStats = newGridProfitStats(s.Market)
}
s.GridProfitStats.SetTTL(s.PersistenceTTL.Duration())
if s.Position == nil {
s.Position = types.NewPositionFromMarket(s.Market)
}
s.Position.SetTTL(s.PersistenceTTL.Duration())
// initialize and register prometheus metrics
if s.PrometheusLabels != nil {
initMetrics(labelKeys(s.PrometheusLabels))
} else {
initMetrics(nil)
}
registerMetrics()
if s.ResetPositionWhenStart {
s.Position.Reset()
}
// we need to check the minimal quote investment here, because we need the market info
if s.QuoteInvestment.Sign() > 0 {
grid := s.newGrid()
if err := s.checkMinimalQuoteInvestment(grid); err != nil {
if s.StopIfLessThanMinimalQuoteInvestment {
s.logger.WithError(err).Errorf("check minimal quote investment failed, market info: %+v", s.Market)
return err
} else {
// if no, just warning
s.logger.WithError(err).Warnf("minimal quote investment may be not enough, market info: %+v", s.Market)
}
}
}
s.historicalTrades = core.NewTradeStore()
s.historicalTrades.SetPruneEnabled(true)
s.historicalTrades.BindStream(session.UserDataStream)
orderExecutor := bbgo.NewGeneralOrderExecutor(session, s.Symbol, ID, instanceID, s.Position)
orderExecutor.BindEnvironment(s.Environment)
orderExecutor.Bind()
orderExecutor.TradeCollector().OnTrade(func(trade types.Trade, _, _ fixedpoint.Value) {
s.GridProfitStats.AddTrade(trade)
})
orderExecutor.TradeCollector().OnPositionUpdate(func(position *types.Position) {
bbgo.Sync(ctx, s)
})
orderExecutor.ActiveMakerOrders().OnFilled(s.newOrderUpdateHandler(ctx, session))
orderExecutor.SetMaxRetries(5)
if s.logger != nil {
orderExecutor.SetLogger(s.logger)
}
s.orderExecutor = orderExecutor
s.OnGridProfit(func(stats *GridProfitStats, profit *GridProfit) {
if profit != nil {
bbgo.Notify(profit)
}
bbgo.Notify(stats)
})
s.OnGridProfit(func(stats *GridProfitStats, profit *GridProfit) {
labels := s.newPrometheusLabels()
metricsGridProfit.With(labels).Set(stats.TotalQuoteProfit.Float64())
})
bbgo.OnShutdown(ctx, func(ctx context.Context, wg *sync.WaitGroup) {
defer wg.Done()
if s.cancelWrite != nil {
s.cancelWrite()
}
if s.KeepOrdersWhenShutdown {
s.logger.Infof("keepOrdersWhenShutdown is set, will keep the orders on the exchange")
return
}
if err := s.CloseGrid(ctx); err != nil {
s.logger.WithError(err).Errorf("grid graceful order cancel error")
}
})
if !s.TriggerPrice.IsZero() {
session.MarketDataStream.OnKLineClosed(s.newTriggerPriceHandler(ctx, session))
}
if !s.StopLossPrice.IsZero() {
session.MarketDataStream.OnKLineClosed(s.newStopLossPriceHandler(ctx, session))
}
if !s.TakeProfitPrice.IsZero() {
session.MarketDataStream.OnKLineClosed(s.newTakeProfitHandler(ctx, session))
}
// detect if there are previous grid orders on the order book
session.UserDataStream.OnStart(func() {
if s.ClearOpenOrdersWhenStart {
s.logger.Infof("clearOpenOrdersWhenStart is set, clearing open orders...")
if err := s.clearOpenOrders(ctx, session); err != nil {
s.logger.WithError(err).Errorf("clearOpenOrdersWhenStart error")
}
}
if s.ClearOpenOrdersIfMismatch {
s.logger.Infof("clearOpenOrdersIfMismatch is set, checking mismatched orders...")
mismatch, err := s.openOrdersMismatches(ctx, session)
if err != nil {
s.logger.WithError(err).Errorf("clearOpenOrdersIfMismatch error")
} else if mismatch {
if err2 := s.clearOpenOrders(ctx, session); err2 != nil {
s.logger.WithError(err2).Errorf("clearOpenOrders error")
}
}
}
if s.ClearDuplicatedPriceOpenOrders {
s.logger.Infof("clearDuplicatedPriceOpenOrders is set, finding duplicated open orders...")
if err := s.cancelDuplicatedPriceOpenOrders(ctx, session); err != nil {
s.logger.WithError(err).Errorf("cancelDuplicatedPriceOpenOrders error")
}
}
})
// if TriggerPrice is zero, that means we need to open the grid when start up
if s.TriggerPrice.IsZero() {
session.UserDataStream.OnAuth(func() {
s.logger.Infof("user data stream authenticated, start the process")
if !bbgo.IsBackTesting {
time.AfterFunc(3*time.Second, func() {
if err := s.startProcess(ctx, session); err != nil {
return
}
s.recoverPeriodically(ctx)
})
} else {
s.startProcess(ctx, session)
}
})
}
return nil
}
func (s *Strategy) startProcess(ctx context.Context, session *bbgo.ExchangeSession) error {
if s.RecoverOrdersWhenStart {
// do recover only when triggerPrice is not set and not in the back-test mode
s.logger.Infof("recoverWhenStart is set, trying to recover grid orders...")
if err := s.recover(ctx); err != nil {
// if recover fail, return and do not open grid
s.logger.WithError(err).Error("failed to start process, recover error")
s.EmitGridError(errors.Wrapf(err, "failed to start process, recover error"))
return err
}
s.EmitGridReady()
}
// avoid using goroutine here for back-test
if err := s.openGrid(ctx, session); err != nil {
s.EmitGridError(errors.Wrapf(err, "failed to start process, setup grid orders error"))
return err
}
return nil
}
func (s *Strategy) recoverGrid(ctx context.Context, session *bbgo.ExchangeSession) error {
if s.RecoverGridByScanningTrades {
s.debugLog("recovering grid by scanning trades")
return s.recoverByScanningTrades(ctx, session)
}
s.debugLog("recovering grid by scanning orders")
return s.recoverByScanningOrders(ctx, session)
}
func (s *Strategy) recoverByScanningOrders(ctx context.Context, session *bbgo.ExchangeSession) error {
openOrders, err := retry.QueryOpenOrdersUntilSuccessful(ctx, session.Exchange, s.Symbol)
if err != nil {
return err
}
// do recover only when openOrders > 0
if len(openOrders) == 0 {
s.logger.Warn("0 open orders, skip recovery process")
return nil
}
s.logger.Infof("found %d open orders left on the %s order book", len(openOrders), s.Symbol)
historyService, implemented := session.Exchange.(types.ExchangeTradeHistoryService)
if !implemented {
s.logger.Warn("ExchangeTradeHistoryService is not implemented, can not recover grid")
return nil
}
if err := s.recoverGridWithOpenOrders(ctx, historyService, openOrders); err != nil {
return errors.Wrap(err, "grid recover error")
}
return nil
}
// openOrdersMismatches verifies if the open orders are on the grid pins
// return true if mismatches
func (s *Strategy) openOrdersMismatches(ctx context.Context, session *bbgo.ExchangeSession) (bool, error) {
openOrders, err := session.Exchange.QueryOpenOrders(ctx, s.Symbol)
if err != nil {
return false, err
}
if len(openOrders) == 0 {
return false, nil
}
grid := s.newGrid()
for _, o := range openOrders {
// if any of the open order is not on the grid, or out of the range
// we should cancel all of them
if !grid.HasPrice(o.Price) || grid.OutOfRange(o.Price) {
return true, nil
}
}
return false, nil
}
func (s *Strategy) cancelDuplicatedPriceOpenOrders(ctx context.Context, session *bbgo.ExchangeSession) error {
openOrders, err := retry.QueryOpenOrdersUntilSuccessful(ctx, session.Exchange, s.Symbol)
if err != nil {
return err
}
if len(openOrders) == 0 {
return nil
}
dupOrders := s.findDuplicatedPriceOpenOrders(openOrders)
if len(dupOrders) > 0 {
s.debugOrders("DUPLICATED ORDERS", dupOrders)
return session.Exchange.CancelOrders(ctx, dupOrders...)
}
s.logger.Infof("no duplicated order found")
return nil
}
func (s *Strategy) findDuplicatedPriceOpenOrders(openOrders []types.Order) (dupOrders []types.Order) {
orderBook := bbgo.NewActiveOrderBook(s.Symbol)
for _, openOrder := range openOrders {
existingOrder := orderBook.Lookup(func(o types.Order) bool {
return o.Price.Compare(openOrder.Price) == 0
})
if existingOrder != nil {
// found duplicated order
// compare creation time and remove the latest created order
// if the creation time equals, then we can just cancel one of them
s.debugOrders(
fmt.Sprintf("found duplicated order at price %s, comparing orders", openOrder.Price.String()),
[]types.Order{*existingOrder, openOrder})
dupOrder := *existingOrder
if openOrder.CreationTime.After(existingOrder.CreationTime.Time()) {
dupOrder = openOrder
} else if openOrder.CreationTime.Before(existingOrder.CreationTime.Time()) {
// override the existing order and take the existing order as a duplicated one
orderBook.Add(openOrder)
}
dupOrders = append(dupOrders, dupOrder)
} else {
orderBook.Add(openOrder)
}
}
return dupOrders
}
func (s *Strategy) newClientOrderID() string {
if s.session != nil && s.session.ExchangeName == types.ExchangeMax {
return uuid.New().String()
}
return ""
}
func (s *Strategy) recoverActiveOrders(ctx context.Context, session *bbgo.ExchangeSession) {
s.logger.Infof("recovering active orders after websocket connect")
grid := s.getGrid()
if grid == nil {
return
}
// this lock avoids recovering the active orders while the openGrid is executing
s.mu.Lock()
defer s.mu.Unlock()
// TODO: move this logics into the active maker orders component, like activeOrders.Sync(ctx)
activeOrderBook := s.orderExecutor.ActiveMakerOrders()
activeOrders := activeOrderBook.Orders()
if len(activeOrders) == 0 {
return
}
s.logger.Infof("found %d active orders to update...", len(activeOrders))
for i, o := range activeOrders {
s.logger.Infof("updating %d/%d order #%d...", i+1, len(activeOrders), o.OrderID)
updatedOrder, err := retry.QueryOrderUntilSuccessful(ctx, s.orderQueryService, types.OrderQuery{
Symbol: o.Symbol,
OrderID: strconv.FormatUint(o.OrderID, 10),
})
if err != nil {
s.logger.WithError(err).Errorf("unable to query order")
return
}
s.logger.Infof("triggering updated order #%d: %s", o.OrderID, o.String())
activeOrderBook.Update(*updatedOrder)
}
}