bbgo_origin/pkg/exchange/binance/stream.go

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package binance
import (
"context"
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"net"
"net/http"
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"os"
"strconv"
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"sync"
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"time"
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"github.com/pkg/errors"
"github.com/c9s/bbgo/pkg/depth"
"github.com/c9s/bbgo/pkg/util"
"github.com/adshao/go-binance/v2"
"github.com/adshao/go-binance/v2/futures"
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"github.com/gorilla/websocket"
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"github.com/c9s/bbgo/pkg/types"
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)
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var debugBinanceDepth bool
var defaultDialer = &websocket.Dialer{
Proxy: http.ProxyFromEnvironment,
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HandshakeTimeout: 10 * time.Second,
ReadBufferSize: 4096,
}
// from Binance document:
// The websocket server will send a ping frame every 3 minutes.
// If the websocket server does not receive a pong frame back from the connection within a 10 minute period, the connection will be disconnected.
// Unsolicited pong frames are allowed.
// WebSocket connections have a limit of 5 incoming messages per second. A message is considered:
// A PING frame
// A PONG frame
// A JSON controlled message (e.g. subscribe, unsubscribe)
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// The connect() method dials and creates the connection object, then it starts 2 go-routine, 1 for reading message, 2 for writing ping messages.
// The re-connector uses the ReconnectC signal channel to start a new websocket connection.
// When ReconnectC is triggered
// - The context created for the connection must be canceled
// - The read goroutine must close the connection and exit
// - The ping goroutine must stop the ticker and exit
// - the re-connector calls connect() to create the new connection object, go to the 1 step.
// When stream.Close() is called, a close message must be written to the websocket connection.
const readTimeout = 1 * time.Minute
const writeTimeout = 5 * time.Second
const pingInterval = readTimeout / 2
const listenKeyKeepAliveInterval = 30 * time.Minute
const reconnectCoolDownPeriod = 15 * time.Second
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func init() {
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debugBinanceDepth, _ = strconv.ParseBool(os.Getenv("DEBUG_BINANCE_DEPTH"))
if debugBinanceDepth {
log.Info("binance depth debugging is enabled")
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}
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}
type WebSocketCommand struct {
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// request ID is required
ID int `json:"id"`
Method string `json:"method"`
Params []string `json:"params"`
}
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//go:generate callbackgen -type Stream -interface
type Stream struct {
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types.MarginSettings
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types.FuturesSettings
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types.StandardStream
Client *binance.Client
futuresClient *futures.Client
Conn *websocket.Conn
ConnLock sync.Mutex
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connCtx context.Context
connCancel context.CancelFunc
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// custom callbacks
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depthEventCallbacks []func(e *DepthEvent)
kLineEventCallbacks []func(e *KLineEvent)
kLineClosedEventCallbacks []func(e *KLineEvent)
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markPriceUpdateEventCallbacks []func(e *MarkPriceUpdateEvent)
continuousKLineEventCallbacks []func(e *ContinuousKLineEvent)
continuousKLineClosedEventCallbacks []func(e *ContinuousKLineEvent)
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balanceUpdateEventCallbacks []func(event *BalanceUpdateEvent)
outboundAccountInfoEventCallbacks []func(event *OutboundAccountInfoEvent)
outboundAccountPositionEventCallbacks []func(event *OutboundAccountPositionEvent)
executionReportEventCallbacks []func(event *ExecutionReportEvent)
bookTickerEventCallbacks []func(event *BookTickerEvent)
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orderTradeUpdateEventCallbacks []func(e *OrderTradeUpdateEvent)
accountUpdateEventCallbacks []func(e *AccountUpdateEvent)
accountConfigUpdateEventCallbacks []func(e *AccountConfigUpdateEvent)
depthBuffers map[string]*depth.Buffer
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}
func NewStream(ex *Exchange, client *binance.Client, futuresClient *futures.Client) *Stream {
stream := &Stream{
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StandardStream: types.StandardStream{
ReconnectC: make(chan struct{}, 1),
CloseC: make(chan struct{}),
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},
Client: client,
futuresClient: futuresClient,
depthBuffers: make(map[string]*depth.Buffer),
}
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stream.OnDepthEvent(func(e *DepthEvent) {
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if debugBinanceDepth {
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log.Infof("received %s depth event updateID %d ~ %d (len %d)", e.Symbol, e.FirstUpdateID, e.FinalUpdateID, e.FinalUpdateID-e.FirstUpdateID)
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}
f, ok := stream.depthBuffers[e.Symbol]
if ok {
f.AddUpdate(types.SliceOrderBook{
Symbol: e.Symbol,
Bids: e.Bids,
Asks: e.Asks,
}, e.FirstUpdateID, e.FinalUpdateID)
} else {
f = depth.NewBuffer(func() (types.SliceOrderBook, int64, error) {
return ex.QueryDepth(context.Background(), e.Symbol)
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})
stream.depthBuffers[e.Symbol] = f
f.SetBufferingPeriod(time.Second)
f.OnReady(func(snapshot types.SliceOrderBook, updates []depth.Update) {
if valid, err := snapshot.IsValid(); !valid {
log.Errorf("depth snapshot is invalid, error: %v", err)
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return
}
stream.EmitBookSnapshot(snapshot)
for _, u := range updates {
stream.EmitBookUpdate(u.Object)
}
})
f.OnPush(func(update depth.Update) {
stream.EmitBookUpdate(update.Object)
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})
}
})
stream.OnOutboundAccountPositionEvent(stream.handleOutboundAccountPositionEvent)
stream.OnKLineEvent(stream.handleKLineEvent)
stream.OnBookTickerEvent(stream.handleBookTickerEvent)
stream.OnExecutionReportEvent(stream.handleExecutionReportEvent)
stream.OnContinuousKLineEvent(stream.handleContinuousKLineEvent)
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// Event type ACCOUNT_UPDATE from user data stream updates Balance and FuturesPosition.
stream.OnAccountUpdateEvent(stream.handleAccountUpdateEvent)
stream.OnAccountConfigUpdateEvent(stream.handleAccountConfigUpdateEvent)
stream.OnOrderTradeUpdateEvent(stream.handleOrderTradeUpdateEvent)
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stream.OnDisconnect(func() {
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log.Infof("resetting depth snapshots...")
for _, f := range stream.depthBuffers {
f.Reset()
}
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})
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stream.OnConnect(func() {
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var params []string
for _, subscription := range stream.Subscriptions {
params = append(params, convertSubscription(subscription))
}
if len(params) == 0 {
return
}
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log.Infof("subscribing channels: %+v", params)
err := stream.Conn.WriteJSON(WebSocketCommand{
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Method: "SUBSCRIBE",
Params: params,
ID: 1,
})
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if err != nil {
log.WithError(err).Error("subscribe error")
}
})
return stream
}
func (s *Stream) handleContinuousKLineEvent(e *ContinuousKLineEvent) {
kline := e.KLine.KLine()
if e.KLine.Closed {
s.EmitContinuousKLineClosedEvent(e)
s.EmitKLineClosed(kline)
} else {
s.EmitKLine(kline)
}
}
func (s *Stream) handleExecutionReportEvent(e *ExecutionReportEvent) {
switch e.CurrentExecutionType {
case "NEW", "CANCELED", "REJECTED", "EXPIRED", "REPLACED":
order, err := e.Order()
if err != nil {
log.WithError(err).Error("order convert error")
return
}
s.EmitOrderUpdate(*order)
case "TRADE":
trade, err := e.Trade()
if err != nil {
log.WithError(err).Error("trade convert error")
return
}
s.EmitTradeUpdate(*trade)
order, err := e.Order()
if err != nil {
log.WithError(err).Error("order convert error")
return
}
// Update Order with FILLED event
if order.Status == types.OrderStatusFilled {
s.EmitOrderUpdate(*order)
}
}
}
func (s *Stream) handleBookTickerEvent(e *BookTickerEvent) {
s.EmitBookTickerUpdate(e.BookTicker())
}
func (s *Stream) handleKLineEvent(e *KLineEvent) {
kline := e.KLine.KLine()
if e.KLine.Closed {
s.EmitKLineClosedEvent(e)
s.EmitKLineClosed(kline)
} else {
s.EmitKLine(kline)
}
}
func (s *Stream) handleOutboundAccountPositionEvent(e *OutboundAccountPositionEvent) {
snapshot := types.BalanceMap{}
for _, balance := range e.Balances {
snapshot[balance.Asset] = types.Balance{
Currency: balance.Asset,
Available: balance.Free,
Locked: balance.Locked,
}
}
s.EmitBalanceSnapshot(snapshot)
}
func (s *Stream) handleAccountUpdateEvent(e *AccountUpdateEvent) {
futuresPositionSnapshot := toGlobalFuturesPositions(e.AccountUpdate.Positions)
s.EmitFuturesPositionSnapshot(futuresPositionSnapshot)
balanceSnapshot := toGlobalFuturesBalance(e.AccountUpdate.Balances)
s.EmitBalanceSnapshot(balanceSnapshot)
}
// TODO: emit account config leverage updates
func (s *Stream) handleAccountConfigUpdateEvent(e *AccountConfigUpdateEvent) {
}
func (s *Stream) handleOrderTradeUpdateEvent(e *OrderTradeUpdateEvent) {
switch e.OrderTrade.CurrentExecutionType {
case "NEW", "CANCELED", "EXPIRED":
order, err := e.OrderFutures()
if err != nil {
log.WithError(err).Error("order convert error")
return
}
s.EmitOrderUpdate(*order)
case "TRADE":
// TODO
// trade, err := e.Trade()
// if err != nil {
// log.WithError(err).Error("trade convert error")
// return
// }
// stream.EmitTradeUpdate(*trade)
// order, err := e.OrderFutures()
// if err != nil {
// log.WithError(err).Error("order convert error")
// return
// }
// Update Order with FILLED event
// if order.Status == types.OrderStatusFilled {
// stream.EmitOrderUpdate(*order)
// }
case "CALCULATED - Liquidation Execution":
log.Infof("CALCULATED - Liquidation Execution not support yet.")
}
}
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func (s *Stream) getEndpointUrl(listenKey string) string {
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var url string
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if s.IsFutures {
url = BinanceFuturesWebSocketURL + "/ws"
} else if isBinanceUs() {
url = BinanceUSWebSocketURL + "/ws"
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} else {
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url = BinanceWebSocketURL + "/ws"
}
if !s.PublicOnly {
url += "/" + listenKey
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}
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return url
}
func (s *Stream) dial(listenKey string) (*websocket.Conn, error) {
url := s.getEndpointUrl(listenKey)
conn, _, err := defaultDialer.Dial(url, nil)
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if err != nil {
return nil, err
}
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// use the default ping handler
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// The websocket server will send a ping frame every 3 minutes.
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// If the websocket server does not receive a pong frame back from the connection within a 10 minutes period,
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// the connection will be disconnected.
// Unsolicited pong frames are allowed.
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conn.SetPingHandler(nil)
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conn.SetPongHandler(func(string) error {
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log.Debugf("websocket <- received pong")
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if err := conn.SetReadDeadline(time.Now().Add(readTimeout * 2)); err != nil {
log.WithError(err).Error("pong handler can not set read deadline")
}
return nil
})
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return conn, nil
}
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// Connect starts the stream and create the websocket connection
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func (s *Stream) Connect(ctx context.Context) error {
err := s.connect(ctx)
if err != nil {
return err
}
// start one re-connector goroutine with the base context
go s.reconnector(ctx)
s.EmitStart()
return nil
}
func (s *Stream) reconnector(ctx context.Context) {
for {
select {
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case <-ctx.Done():
return
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case <-s.CloseC:
return
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case <-s.ReconnectC:
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log.Warnf("received reconnect signal")
time.Sleep(reconnectCoolDownPeriod)
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log.Warnf("re-connecting...")
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if err := s.connect(ctx); err != nil {
log.WithError(err).Errorf("re-connect error, try to reconnect after %s...", reconnectCoolDownPeriod)
// re-emit the re-connect signal if error
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s.Reconnect()
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}
}
}
}
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func (s *Stream) connect(ctx context.Context) error {
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var err error
var listenKey string
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if s.PublicOnly {
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log.Infof("stream is set to public only mode")
} else {
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listenKey, err = s.fetchListenKey(ctx)
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if err != nil {
return err
}
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log.Infof("listen key is created: %s", util.MaskKey(listenKey))
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}
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// when in public mode, the listen key is an empty string
conn, err := s.dial(listenKey)
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if err != nil {
return err
}
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log.Infof("websocket connected")
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// should only start one connection one time, so we lock the mutex
s.ConnLock.Lock()
// ensure the previous context is cancelled
if s.connCancel != nil {
s.connCancel()
}
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// create a new context for this connection
s.connCtx, s.connCancel = context.WithCancel(ctx)
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s.Conn = conn
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s.ConnLock.Unlock()
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s.EmitConnect()
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if !s.PublicOnly {
go s.listenKeyKeepAlive(s.connCtx, listenKey)
}
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go s.read(s.connCtx, conn)
go s.ping(s.connCtx, conn, pingInterval)
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return nil
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}
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func (s *Stream) ping(ctx context.Context, conn *websocket.Conn, interval time.Duration) {
defer log.Debug("ping worker stopped")
var pingTicker = time.NewTicker(interval)
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defer pingTicker.Stop()
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for {
select {
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case <-ctx.Done():
return
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case <-s.CloseC:
return
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case <-pingTicker.C:
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log.Debugf("websocket -> ping")
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if err := conn.WriteControl(websocket.PingMessage, nil, time.Now().Add(writeTimeout)); err != nil {
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log.WithError(err).Error("ping error", err)
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s.Reconnect()
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}
}
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}
}
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func (s *Stream) read(ctx context.Context, conn *websocket.Conn) {
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defer func() {
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// if we failed to read, we need to cancel the context
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if s.connCancel != nil {
s.connCancel()
}
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_ = conn.Close()
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s.EmitDisconnect()
}()
for {
select {
case <-ctx.Done():
return
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case <-s.CloseC:
return
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default:
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if err := conn.SetReadDeadline(time.Now().Add(readTimeout)); err != nil {
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log.WithError(err).Errorf("set read deadline error: %s", err.Error())
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}
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mt, message, err := conn.ReadMessage()
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if err != nil {
// if it's a network timeout error, we should re-connect
switch err := err.(type) {
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// if it's a websocket related error
case *websocket.CloseError:
if err.Code == websocket.CloseNormalClosure {
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return
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}
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log.WithError(err).Errorf("websocket error abnormal close: %+v", err)
_ = conn.Close()
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// for unexpected close error, we should re-connect
// emit reconnect to start a new connection
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s.Reconnect()
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return
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case net.Error:
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log.WithError(err).Error("websocket read network error")
_ = conn.Close()
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s.Reconnect()
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return
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default:
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log.WithError(err).Error("unexpected websocket error")
_ = conn.Close()
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s.Reconnect()
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return
}
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}
// skip non-text messages
if mt != websocket.TextMessage {
continue
}
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log.Debug(string(message))
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e, err := ParseEvent(string(message))
if err != nil {
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log.WithError(err).Errorf("websocket event parse error")
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continue
}
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s.dispatchEvent(e)
}
}
}
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func (s *Stream) dispatchEvent(e interface{}) {
switch e := e.(type) {
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case *OutboundAccountPositionEvent:
s.EmitOutboundAccountPositionEvent(e)
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case *OutboundAccountInfoEvent:
s.EmitOutboundAccountInfoEvent(e)
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case *BalanceUpdateEvent:
s.EmitBalanceUpdateEvent(e)
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case *KLineEvent:
s.EmitKLineEvent(e)
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case *BookTickerEvent:
s.EmitBookTickerEvent(e)
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case *DepthEvent:
s.EmitDepthEvent(e)
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case *ExecutionReportEvent:
s.EmitExecutionReportEvent(e)
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case *MarkPriceUpdateEvent:
s.EmitMarkPriceUpdateEvent(e)
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case *ContinuousKLineEvent:
s.EmitContinuousKLineEvent(e)
case *OrderTradeUpdateEvent:
s.EmitOrderTradeUpdateEvent(e)
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case *AccountUpdateEvent:
s.EmitAccountUpdateEvent(e)
case *AccountConfigUpdateEvent:
s.EmitAccountConfigUpdateEvent(e)
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}
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}
func (s *Stream) Close() error {
log.Infof("closing stream...")
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// close the close signal channel
close(s.CloseC)
// get the connection object before call the context cancel function
s.ConnLock.Lock()
conn := s.Conn
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connCancel := s.connCancel
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s.ConnLock.Unlock()
// cancel the context so that the ticker loop and listen key updater will be stopped.
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if connCancel != nil {
connCancel()
}
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// gracefully write the close message to the connection
err := conn.WriteMessage(websocket.CloseMessage, websocket.FormatCloseMessage(websocket.CloseNormalClosure, ""))
if err != nil {
return errors.Wrap(err, "websocket write close message error")
}
// let the reader close the connection
<-time.After(time.Second)
return nil
}
func (s *Stream) fetchListenKey(ctx context.Context) (string, error) {
if s.IsMargin {
if s.IsIsolatedMargin {
log.Debugf("isolated margin %s is enabled, requesting margin user stream listen key...", s.IsolatedMarginSymbol)
req := s.Client.NewStartIsolatedMarginUserStreamService()
req.Symbol(s.IsolatedMarginSymbol)
return req.Do(ctx)
}
log.Debugf("margin mode is enabled, requesting margin user stream listen key...")
req := s.Client.NewStartMarginUserStreamService()
return req.Do(ctx)
} else if s.IsFutures {
log.Debugf("futures mode is enabled, requesting futures user stream listen key...")
req := s.futuresClient.NewStartUserStreamService()
return req.Do(ctx)
}
log.Debugf("spot mode is enabled, requesting user stream listen key...")
return s.Client.NewStartUserStreamService().Do(ctx)
}
func (s *Stream) keepaliveListenKey(ctx context.Context, listenKey string) error {
log.Debugf("keepalive listen key: %s", util.MaskKey(listenKey))
if s.IsMargin {
if s.IsIsolatedMargin {
req := s.Client.NewKeepaliveIsolatedMarginUserStreamService().ListenKey(listenKey)
req.Symbol(s.IsolatedMarginSymbol)
return req.Do(ctx)
}
req := s.Client.NewKeepaliveMarginUserStreamService().ListenKey(listenKey)
return req.Do(ctx)
} else if s.IsFutures {
req := s.futuresClient.NewKeepaliveUserStreamService().ListenKey(listenKey)
return req.Do(ctx)
}
return s.Client.NewKeepaliveUserStreamService().ListenKey(listenKey).Do(ctx)
}
func (s *Stream) closeListenKey(ctx context.Context, listenKey string) (err error) {
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// should use background context to invalidate the user stream
log.Debugf("closing listen key: %s", util.MaskKey(listenKey))
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if s.IsMargin {
if s.IsIsolatedMargin {
req := s.Client.NewCloseIsolatedMarginUserStreamService().ListenKey(listenKey)
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req.Symbol(s.IsolatedMarginSymbol)
err = req.Do(ctx)
} else {
req := s.Client.NewCloseMarginUserStreamService().ListenKey(listenKey)
err = req.Do(ctx)
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}
} else if s.IsFutures {
req := s.futuresClient.NewCloseUserStreamService().ListenKey(listenKey)
err = req.Do(ctx)
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} else {
err = s.Client.NewCloseUserStreamService().ListenKey(listenKey).Do(ctx)
}
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if err != nil {
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log.WithError(err).Errorf("error deleting listen key: %s", util.MaskKey(listenKey))
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return err
}
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return nil
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}
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// listenKeyKeepAlive
// From Binance
// Keepalive a user data stream to prevent a time out. User data streams will close after 60 minutes.
// It's recommended to send a ping about every 30 minutes.
func (s *Stream) listenKeyKeepAlive(ctx context.Context, listenKey string) {
keepAliveTicker := time.NewTicker(listenKeyKeepAliveInterval)
defer keepAliveTicker.Stop()
// if we exit, we should invalidate the existing listen key
defer func() {
log.Debugf("keepalive worker stopped")
if err := s.closeListenKey(context.Background(), listenKey); err != nil {
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log.WithError(err).Errorf("invalidate listen key error: %v key: %s", err, util.MaskKey(listenKey))
}
}()
for {
select {
case <-s.CloseC:
return
case <-ctx.Done():
return
case <-keepAliveTicker.C:
for i := 0; i < 5; i++ {
err := s.keepaliveListenKey(ctx, listenKey)
if err == nil {
break
} else {
switch err.(type) {
case net.Error:
log.WithError(err).Errorf("listen key keep-alive network error: %v key: %s", err, util.MaskKey(listenKey))
time.Sleep(5 * time.Second)
continue
default:
log.WithError(err).Errorf("listen key keep-alive unexpected error: %v key: %s", err, util.MaskKey(listenKey))
s.Reconnect()
return
}
}
}
}
}
}