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gocryptotrader/exchanges/stream/websocket.go
Gareth Kirwan f9437dbd08 Bitfinex: Websocket subscription improvements (#1353) 
* Websockets: Add keys to websocket subscriptions

* This switches all RO uses of the mutex to use a RLock method.
* The mutex used for discrete field access has had scope drift from
  name 'connectionMutex' so rename to more appropriate fieldsMutex
* The mutex used for Set/CanUseAuthEndpoints moves from the
  subscriptions endpoint to the fieldsMutex
* Add GetSubscription by key
* Expose stream.Matcher type

* Bitfinex: Subscribe and Unsubscribe atomicly

* Fix Auth failures ignored
* This change makes it so that Subscribe and Unsubscribe wait for success
** Tells the DataHandler about errors
** Errors are returned to consumers
* Subscribes concurrently to the channels
* It also simplifies the chanId to stream mapping
* Removes unable to locate chanID: %d errors which are just noise
* Paves the way for unified channelSubscription id handling
* Adds support for subId for Book subscriptions, which is more robust

* Vastly simplifies what we need to test TestWsSubscribedResponse
This test was working to ensure that the various fancy key parsing
mechanisms all worked. Now that we use subId, we just need a thorough
test of that
* Expose Match.Set in order to capture websocket incoming data
Can't see another way of doing this. Doesn't seem too bad

* Allow tests to run with auth or WS
These flags made it difficult to run the tests whilst working on
websockets

* Enable API auth and WS in testconfig
This change minimises the changes requires for a full test run against
live endpoints, so that new contributors have a clearer testing path.
I cannot see any reason to turn WS off and Auth endpoints off when we're
not going to run API tests without Creds being set, and we're not going
to do live fire tests without canManipulateRealOrders

* TestWsSubscribe and various fixes
** Enables the websocket for live non-authed integration tests by default
** Adds an integration test for subscriptions
** Changes the Ws tests to respect canManipulateRealOrders
** Uses WsConnect instead of setupWs; fixes seqNo config not sent for WS tests
** Allows api creds to live in config/testdata.json which might be
  less likely to accidentally commit, and less obtrusive

* Bitfinex: Support period and timeframe for Candles

* Fixes manual Subscribe() symbol or key formatting
* Unifies handling of params for DefaultSubscriptions and manual
  subsrciptions

* Bitfinex: Handle conf and info WS channel events

* Bitfinex: Better tests for subscriptions

* fixup! Websockets: Add keys to websocket subscriptions

* fixup! Bitfinex: Subscribe and Unsubscribe atomicly

* fixup! Websockets: Add keys to websocket subscriptions

* Websockets: Add Pending subscription status

Add a status tracker so that Sub/Unsub can prevent duplicates,
and also fixes when first message comes before we have added the sub
to the tracker

* Websockets: Add State instead of pending

This change allows more clarity about the current state and
checks for specifically already Unsubing

* Bitfinex: Fix first sub message maybe lost

The only link we have between a sub req and the sub resp is the subID.
And the only link we have between a sub message and the sub is the chanID.
We can't derive a link using Pair or anything else.

This meant that by sending the resp and its chanID down the IncomingData
channel, we allowed the channel reader to maybe process the next
message, the first message on the channel, before the runtime executed
the switch back to subscribeToChan waiting on the chan.

To fix this, we key initially on subId.(string), and then replace it
with chanId.(int64) when we have it *inside* the wsHandleData so we
know we've procedurally handled it before the next message.

subscribeToChan is then free to remove the subId keyed Sub regardless of
error or not

If there's an error, we don't need to inline handling because there
won't be any second update.

Expands test coverage to make sure those subId keyed subscriptions are
removed.

* Websocket: Validate state in SetChanState

* fixup! Bitfinex: Fix first sub message maybe lost

* Websockets: Rename RemoveUnsuccessfulSubs

Implementation doesn't imply Unsuccessful or need to.
This change supports the registering of Pending subs

* Bitfinex: Fix race in Tests
2023-11-02 12:10:43 +11:00

1110 lines
30 KiB
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package stream
import (
"errors"
"fmt"
"net"
"net/url"
"sync"
"time"
"github.com/gorilla/websocket"
"github.com/thrasher-corp/gocryptotrader/common"
"github.com/thrasher-corp/gocryptotrader/config"
"github.com/thrasher-corp/gocryptotrader/log"
)
const (
defaultJobBuffer = 5000
// defaultTrafficPeriod defines a period of pause for the traffic monitor,
// as there are periods with large incoming traffic alerts which requires a
// timer reset, this limits work on this routine to a more effective rate
// of check.
defaultTrafficPeriod = time.Second
)
var (
// ErrSubscriptionNotFound defines an error when a subscription is not found
ErrSubscriptionNotFound = errors.New("subscription not found")
// ErrSubscribedAlready defines an error when a channel is already subscribed
ErrSubscribedAlready = errors.New("duplicate subscription")
// ErrSubscriptionFailure defines an error when a subscription fails
ErrSubscriptionFailure = errors.New("subscription failure")
// ErrUnsubscribeFailure defines an error when a unsubscribe fails
ErrUnsubscribeFailure = errors.New("unsubscribe failure")
// ErrChannelInStateAlready defines an error when a subscription channel is already in a new state
ErrChannelInStateAlready = errors.New("channel already in state")
// ErrAlreadyDisabled is returned when you double-disable the websocket
ErrAlreadyDisabled = errors.New("websocket already disabled")
// ErrNotConnected defines an error when websocket is not connected
ErrNotConnected = errors.New("websocket is not connected")
errAlreadyRunning = errors.New("connection monitor is already running")
errExchangeConfigIsNil = errors.New("exchange config is nil")
errWebsocketIsNil = errors.New("websocket is nil")
errWebsocketSetupIsNil = errors.New("websocket setup is nil")
errWebsocketAlreadyInitialised = errors.New("websocket already initialised")
errWebsocketFeaturesIsUnset = errors.New("websocket features is unset")
errConfigFeaturesIsNil = errors.New("exchange config features is nil")
errDefaultURLIsEmpty = errors.New("default url is empty")
errRunningURLIsEmpty = errors.New("running url cannot be empty")
errInvalidWebsocketURL = errors.New("invalid websocket url")
errExchangeConfigNameUnset = errors.New("exchange config name unset")
errInvalidTrafficTimeout = errors.New("invalid traffic timeout")
errWebsocketSubscriberUnset = errors.New("websocket subscriber function needs to be set")
errWebsocketUnsubscriberUnset = errors.New("websocket unsubscriber functionality allowed but unsubscriber function not set")
errWebsocketConnectorUnset = errors.New("websocket connector function not set")
errWebsocketSubscriptionsGeneratorUnset = errors.New("websocket subscriptions generator function needs to be set")
errClosedConnection = errors.New("use of closed network connection")
errSubscriptionsExceedsLimit = errors.New("subscriptions exceeds limit")
errInvalidMaxSubscriptions = errors.New("max subscriptions cannot be less than 0")
errNoSubscriptionsSupplied = errors.New("no subscriptions supplied")
errChannelAlreadySubscribed = errors.New("channel already subscribed")
errInvalidChannelState = errors.New("invalid Channel state")
)
var globalReporter Reporter
// SetupGlobalReporter sets a reporter interface to be used
// for all exchange requests
func SetupGlobalReporter(r Reporter) {
globalReporter = r
}
// New initialises the websocket struct
func New() *Websocket {
return &Websocket{
Init: true,
DataHandler: make(chan interface{}, defaultJobBuffer),
ToRoutine: make(chan interface{}, defaultJobBuffer),
TrafficAlert: make(chan struct{}),
ReadMessageErrors: make(chan error),
Subscribe: make(chan []ChannelSubscription),
Unsubscribe: make(chan []ChannelSubscription),
Match: NewMatch(),
}
}
// Setup sets main variables for websocket connection
func (w *Websocket) Setup(s *WebsocketSetup) error {
if w == nil {
return errWebsocketIsNil
}
if s == nil {
return errWebsocketSetupIsNil
}
if !w.Init {
return fmt.Errorf("%s %w", w.exchangeName, errWebsocketAlreadyInitialised)
}
if s.ExchangeConfig == nil {
return errExchangeConfigIsNil
}
if s.ExchangeConfig.Name == "" {
return errExchangeConfigNameUnset
}
w.exchangeName = s.ExchangeConfig.Name
w.verbose = s.ExchangeConfig.Verbose
if s.Features == nil {
return fmt.Errorf("%s %w", w.exchangeName, errWebsocketFeaturesIsUnset)
}
w.features = s.Features
if s.ExchangeConfig.Features == nil {
return fmt.Errorf("%s %w", w.exchangeName, errConfigFeaturesIsNil)
}
w.enabled = s.ExchangeConfig.Features.Enabled.Websocket
if s.Connector == nil {
return fmt.Errorf("%s %w", w.exchangeName, errWebsocketConnectorUnset)
}
w.connector = s.Connector
if s.Subscriber == nil {
return fmt.Errorf("%s %w", w.exchangeName, errWebsocketSubscriberUnset)
}
w.Subscriber = s.Subscriber
if w.features.Unsubscribe && s.Unsubscriber == nil {
return fmt.Errorf("%s %w", w.exchangeName, errWebsocketUnsubscriberUnset)
}
w.connectionMonitorDelay = s.ExchangeConfig.ConnectionMonitorDelay
if w.connectionMonitorDelay <= 0 {
w.connectionMonitorDelay = config.DefaultConnectionMonitorDelay
}
w.Unsubscriber = s.Unsubscriber
if s.GenerateSubscriptions == nil {
return fmt.Errorf("%s %w", w.exchangeName, errWebsocketSubscriptionsGeneratorUnset)
}
w.GenerateSubs = s.GenerateSubscriptions
if s.DefaultURL == "" {
return fmt.Errorf("%s websocket %w", w.exchangeName, errDefaultURLIsEmpty)
}
w.defaultURL = s.DefaultURL
if s.RunningURL == "" {
return fmt.Errorf("%s websocket %w", w.exchangeName, errRunningURLIsEmpty)
}
err := w.SetWebsocketURL(s.RunningURL, false, false)
if err != nil {
return fmt.Errorf("%s %w", w.exchangeName, err)
}
if s.RunningURLAuth != "" {
err = w.SetWebsocketURL(s.RunningURLAuth, true, false)
if err != nil {
return fmt.Errorf("%s %w", w.exchangeName, err)
}
}
if s.ExchangeConfig.WebsocketTrafficTimeout < time.Second {
return fmt.Errorf("%s %w cannot be less than %s",
w.exchangeName,
errInvalidTrafficTimeout,
time.Second)
}
w.trafficTimeout = s.ExchangeConfig.WebsocketTrafficTimeout
w.ShutdownC = make(chan struct{})
w.Wg = new(sync.WaitGroup)
w.SetCanUseAuthenticatedEndpoints(s.ExchangeConfig.API.AuthenticatedWebsocketSupport)
if err := w.Orderbook.Setup(s.ExchangeConfig, &s.OrderbookBufferConfig, w.DataHandler); err != nil {
return err
}
w.Trade.Setup(w.exchangeName, s.TradeFeed, w.DataHandler)
w.Fills.Setup(s.FillsFeed, w.DataHandler)
if s.MaxWebsocketSubscriptionsPerConnection < 0 {
return fmt.Errorf("%s %w", w.exchangeName, errInvalidMaxSubscriptions)
}
w.MaxSubscriptionsPerConnection = s.MaxWebsocketSubscriptionsPerConnection
return nil
}
// SetupNewConnection sets up an auth or unauth streaming connection
func (w *Websocket) SetupNewConnection(c ConnectionSetup) error {
if w == nil {
return errors.New("setting up new connection error: websocket is nil")
}
if c == (ConnectionSetup{}) {
return errors.New("setting up new connection error: websocket connection configuration empty")
}
if w.exchangeName == "" {
return errors.New("setting up new connection error: exchange name not set, please call setup first")
}
if w.TrafficAlert == nil {
return errors.New("setting up new connection error: traffic alert is nil, please call setup first")
}
if w.ReadMessageErrors == nil {
return errors.New("setting up new connection error: read message errors is nil, please call setup first")
}
connectionURL := w.GetWebsocketURL()
if c.URL != "" {
connectionURL = c.URL
}
if c.ConnectionLevelReporter == nil {
c.ConnectionLevelReporter = w.ExchangeLevelReporter
}
if c.ConnectionLevelReporter == nil {
c.ConnectionLevelReporter = globalReporter
}
newConn := &WebsocketConnection{
ExchangeName: w.exchangeName,
URL: connectionURL,
ProxyURL: w.GetProxyAddress(),
Verbose: w.verbose,
ResponseMaxLimit: c.ResponseMaxLimit,
Traffic: w.TrafficAlert,
readMessageErrors: w.ReadMessageErrors,
ShutdownC: w.ShutdownC,
Wg: w.Wg,
Match: w.Match,
RateLimit: c.RateLimit,
Reporter: c.ConnectionLevelReporter,
}
if c.Authenticated {
w.AuthConn = newConn
} else {
w.Conn = newConn
}
return nil
}
// Connect initiates a websocket connection by using a package defined connection
// function
func (w *Websocket) Connect() error {
if w.connector == nil {
return errors.New("websocket connect function not set, cannot continue")
}
w.m.Lock()
defer w.m.Unlock()
if !w.IsEnabled() {
return errors.New(WebsocketNotEnabled)
}
if w.IsConnecting() {
return fmt.Errorf("%v Websocket already attempting to connect",
w.exchangeName)
}
if w.IsConnected() {
return fmt.Errorf("%v Websocket already connected",
w.exchangeName)
}
w.dataMonitor()
w.trafficMonitor()
w.setConnectingStatus(true)
err := w.connector()
if err != nil {
w.setConnectingStatus(false)
return fmt.Errorf("%v Error connecting %s",
w.exchangeName, err)
}
w.setConnectedStatus(true)
w.setConnectingStatus(false)
w.setInit(true)
if !w.IsConnectionMonitorRunning() {
err = w.connectionMonitor()
if err != nil {
log.Errorf(log.WebsocketMgr,
"%s cannot start websocket connection monitor %v",
w.GetName(),
err)
}
}
subs, err := w.GenerateSubs() // regenerate state on new connection
if err != nil {
return fmt.Errorf("%s websocket: %w", w.exchangeName, common.AppendError(ErrSubscriptionFailure, err))
}
if len(subs) == 0 {
return nil
}
err = w.checkSubscriptions(subs)
if err != nil {
return fmt.Errorf("%s websocket: %w", w.exchangeName, common.AppendError(ErrSubscriptionFailure, err))
}
err = w.Subscriber(subs)
if err != nil {
return fmt.Errorf("%s websocket: %w", w.exchangeName, common.AppendError(ErrSubscriptionFailure, err))
}
return nil
}
// Disable disables the exchange websocket protocol
func (w *Websocket) Disable() error {
if !w.IsEnabled() {
return fmt.Errorf("%w for exchange '%s'", ErrAlreadyDisabled, w.exchangeName)
}
w.setEnabled(false)
return nil
}
// Enable enables the exchange websocket protocol
func (w *Websocket) Enable() error {
if w.IsConnected() || w.IsEnabled() {
return fmt.Errorf("websocket is already enabled for exchange %s",
w.exchangeName)
}
w.setEnabled(true)
return w.Connect()
}
// dataMonitor monitors job throughput and logs if there is a back log of data
func (w *Websocket) dataMonitor() {
if w.IsDataMonitorRunning() {
return
}
w.setDataMonitorRunning(true)
w.Wg.Add(1)
go func() {
defer func() {
for {
// Bleeds data from the websocket connection if needed
select {
case <-w.DataHandler:
default:
w.setDataMonitorRunning(false)
w.Wg.Done()
return
}
}
}()
for {
select {
case <-w.ShutdownC:
return
case d := <-w.DataHandler:
select {
case w.ToRoutine <- d:
case <-w.ShutdownC:
return
default:
log.Warnf(log.WebsocketMgr,
"%s exchange backlog in websocket processing detected",
w.exchangeName)
select {
case w.ToRoutine <- d:
case <-w.ShutdownC:
return
}
}
}
}
}()
}
// connectionMonitor ensures that the WS keeps connecting
func (w *Websocket) connectionMonitor() error {
if w.checkAndSetMonitorRunning() {
return errAlreadyRunning
}
w.fieldMutex.RLock()
delay := w.connectionMonitorDelay
w.fieldMutex.RUnlock()
go func() {
timer := time.NewTimer(delay)
for {
if w.verbose {
log.Debugf(log.WebsocketMgr,
"%v websocket: running connection monitor cycle\n",
w.exchangeName)
}
if !w.IsEnabled() {
if w.verbose {
log.Debugf(log.WebsocketMgr,
"%v websocket: connectionMonitor - websocket disabled, shutting down\n",
w.exchangeName)
}
if w.IsConnected() {
err := w.Shutdown()
if err != nil {
log.Errorln(log.WebsocketMgr, err)
}
}
if w.verbose {
log.Debugf(log.WebsocketMgr,
"%v websocket: connection monitor exiting\n",
w.exchangeName)
}
timer.Stop()
w.setConnectionMonitorRunning(false)
return
}
select {
case err := <-w.ReadMessageErrors:
if IsDisconnectionError(err) {
w.setInit(false)
log.Warnf(log.WebsocketMgr,
"%v websocket has been disconnected. Reason: %v",
w.exchangeName, err)
w.setConnectedStatus(false)
}
w.DataHandler <- err
case <-timer.C:
if !w.IsConnecting() && !w.IsConnected() {
err := w.Connect()
if err != nil {
log.Errorln(log.WebsocketMgr, err)
}
}
if !timer.Stop() {
select {
case <-timer.C:
default:
}
}
timer.Reset(delay)
}
}
}()
return nil
}
// Shutdown attempts to shut down a websocket connection and associated routines
// by using a package defined shutdown function
func (w *Websocket) Shutdown() error {
w.m.Lock()
defer w.m.Unlock()
if !w.IsConnected() {
return fmt.Errorf("%v websocket: cannot shutdown %w",
w.exchangeName,
ErrNotConnected)
}
// TODO: Interrupt connection and or close connection when it is re-established.
if w.IsConnecting() {
return fmt.Errorf("%v websocket: cannot shutdown, in the process of reconnection",
w.exchangeName)
}
if w.verbose {
log.Debugf(log.WebsocketMgr,
"%v websocket: shutting down websocket\n",
w.exchangeName)
}
defer w.Orderbook.FlushBuffer()
if w.Conn != nil {
if err := w.Conn.Shutdown(); err != nil {
return err
}
}
if w.AuthConn != nil {
if err := w.AuthConn.Shutdown(); err != nil {
return err
}
}
// flush any subscriptions from last connection if needed
w.subscriptionMutex.Lock()
w.subscriptions = subscriptionMap{}
w.subscriptionMutex.Unlock()
close(w.ShutdownC)
w.Wg.Wait()
w.ShutdownC = make(chan struct{})
w.setConnectedStatus(false)
w.setConnectingStatus(false)
if w.verbose {
log.Debugf(log.WebsocketMgr,
"%v websocket: completed websocket shutdown\n",
w.exchangeName)
}
return nil
}
// FlushChannels flushes channel subscriptions when there is a pair/asset change
func (w *Websocket) FlushChannels() error {
if !w.IsEnabled() {
return fmt.Errorf("%s websocket: service not enabled", w.exchangeName)
}
if !w.IsConnected() {
return fmt.Errorf("%s websocket: service not connected", w.exchangeName)
}
if w.features.Subscribe {
newsubs, err := w.GenerateSubs()
if err != nil {
return err
}
subs, unsubs := w.GetChannelDifference(newsubs)
if w.features.Unsubscribe {
if len(unsubs) != 0 {
err := w.UnsubscribeChannels(unsubs)
if err != nil {
return err
}
}
}
if len(subs) < 1 {
return nil
}
return w.SubscribeToChannels(subs)
} else if w.features.FullPayloadSubscribe {
// FullPayloadSubscribe means that the endpoint requires all
// subscriptions to be sent via the websocket connection e.g. if you are
// subscribed to ticker and orderbook but require trades as well, you
// would need to send ticker, orderbook and trades channel subscription
// messages.
newsubs, err := w.GenerateSubs()
if err != nil {
return err
}
if len(newsubs) != 0 {
// Purge subscription list as there will be conflicts
w.subscriptionMutex.Lock()
w.subscriptions = subscriptionMap{}
w.subscriptionMutex.Unlock()
return w.SubscribeToChannels(newsubs)
}
return nil
}
if err := w.Shutdown(); err != nil {
return err
}
return w.Connect()
}
// trafficMonitor uses a timer of WebsocketTrafficLimitTime and once it expires,
// it will reconnect if the TrafficAlert channel has not received any data. The
// trafficTimer will reset on each traffic alert
func (w *Websocket) trafficMonitor() {
if w.IsTrafficMonitorRunning() {
return
}
w.setTrafficMonitorRunning(true)
w.Wg.Add(1)
go func() {
var trafficTimer = time.NewTimer(w.trafficTimeout)
pause := make(chan struct{})
for {
select {
case <-w.ShutdownC:
if w.verbose {
log.Debugf(log.WebsocketMgr,
"%v websocket: trafficMonitor shutdown message received\n",
w.exchangeName)
}
trafficTimer.Stop()
w.setTrafficMonitorRunning(false)
w.Wg.Done()
return
case <-w.TrafficAlert:
if !trafficTimer.Stop() {
select {
case <-trafficTimer.C:
default:
}
}
w.setConnectedStatus(true)
trafficTimer.Reset(w.trafficTimeout)
case <-trafficTimer.C: // Falls through when timer runs out
if w.verbose {
log.Warnf(log.WebsocketMgr,
"%v websocket: has not received a traffic alert in %v. Reconnecting",
w.exchangeName,
w.trafficTimeout)
}
trafficTimer.Stop()
w.setTrafficMonitorRunning(false)
w.Wg.Done() // without this the w.Shutdown() call below will deadlock
if !w.IsConnecting() && w.IsConnected() {
err := w.Shutdown()
if err != nil {
log.Errorf(log.WebsocketMgr,
"%v websocket: trafficMonitor shutdown err: %s",
w.exchangeName, err)
}
}
return
}
if w.IsConnected() {
// Routine pausing mechanism
go func(p chan<- struct{}) {
time.Sleep(defaultTrafficPeriod)
select {
case p <- struct{}{}:
default:
}
}(pause)
select {
case <-w.ShutdownC:
trafficTimer.Stop()
w.setTrafficMonitorRunning(false)
w.Wg.Done()
return
case <-pause:
}
}
}
}()
}
func (w *Websocket) setConnectedStatus(b bool) {
w.fieldMutex.Lock()
w.connected = b
w.fieldMutex.Unlock()
}
// IsConnected returns status of connection
func (w *Websocket) IsConnected() bool {
w.fieldMutex.RLock()
defer w.fieldMutex.RUnlock()
return w.connected
}
func (w *Websocket) setConnectingStatus(b bool) {
w.fieldMutex.Lock()
w.connecting = b
w.fieldMutex.Unlock()
}
// IsConnecting returns status of connecting
func (w *Websocket) IsConnecting() bool {
w.fieldMutex.RLock()
defer w.fieldMutex.RUnlock()
return w.connecting
}
func (w *Websocket) setEnabled(b bool) {
w.fieldMutex.Lock()
w.enabled = b
w.fieldMutex.Unlock()
}
// IsEnabled returns status of enabled
func (w *Websocket) IsEnabled() bool {
w.fieldMutex.RLock()
defer w.fieldMutex.RUnlock()
return w.enabled
}
func (w *Websocket) setInit(b bool) {
w.fieldMutex.Lock()
w.Init = b
w.fieldMutex.Unlock()
}
// IsInit returns status of init
func (w *Websocket) IsInit() bool {
w.fieldMutex.RLock()
defer w.fieldMutex.RUnlock()
return w.Init
}
func (w *Websocket) setTrafficMonitorRunning(b bool) {
w.fieldMutex.Lock()
w.trafficMonitorRunning = b
w.fieldMutex.Unlock()
}
// IsTrafficMonitorRunning returns status of the traffic monitor
func (w *Websocket) IsTrafficMonitorRunning() bool {
w.fieldMutex.RLock()
defer w.fieldMutex.RUnlock()
return w.trafficMonitorRunning
}
func (w *Websocket) checkAndSetMonitorRunning() (alreadyRunning bool) {
w.fieldMutex.Lock()
defer w.fieldMutex.Unlock()
if w.connectionMonitorRunning {
return true
}
w.connectionMonitorRunning = true
return false
}
func (w *Websocket) setConnectionMonitorRunning(b bool) {
w.fieldMutex.Lock()
w.connectionMonitorRunning = b
w.fieldMutex.Unlock()
}
// IsConnectionMonitorRunning returns status of connection monitor
func (w *Websocket) IsConnectionMonitorRunning() bool {
w.fieldMutex.RLock()
defer w.fieldMutex.RUnlock()
return w.connectionMonitorRunning
}
func (w *Websocket) setDataMonitorRunning(b bool) {
w.fieldMutex.Lock()
w.dataMonitorRunning = b
w.fieldMutex.Unlock()
}
// IsDataMonitorRunning returns status of data monitor
func (w *Websocket) IsDataMonitorRunning() bool {
w.fieldMutex.RLock()
defer w.fieldMutex.RUnlock()
return w.dataMonitorRunning
}
// CanUseAuthenticatedWebsocketForWrapper Handles a common check to
// verify whether a wrapper can use an authenticated websocket endpoint
func (w *Websocket) CanUseAuthenticatedWebsocketForWrapper() bool {
if w.IsConnected() && w.CanUseAuthenticatedEndpoints() {
return true
} else if w.IsConnected() && !w.CanUseAuthenticatedEndpoints() {
log.Infof(log.WebsocketMgr,
WebsocketNotAuthenticatedUsingRest,
w.exchangeName)
}
return false
}
// SetWebsocketURL sets websocket URL and can refresh underlying connections
func (w *Websocket) SetWebsocketURL(url string, auth, reconnect bool) error {
defaultVals := url == "" || url == config.WebsocketURLNonDefaultMessage
if auth {
if defaultVals {
url = w.defaultURLAuth
}
err := checkWebsocketURL(url)
if err != nil {
return err
}
w.runningURLAuth = url
if w.verbose {
log.Debugf(log.WebsocketMgr,
"%s websocket: setting authenticated websocket URL: %s\n",
w.exchangeName,
url)
}
if w.AuthConn != nil {
w.AuthConn.SetURL(url)
}
} else {
if defaultVals {
url = w.defaultURL
}
err := checkWebsocketURL(url)
if err != nil {
return err
}
w.runningURL = url
if w.verbose {
log.Debugf(log.WebsocketMgr,
"%s websocket: setting unauthenticated websocket URL: %s\n",
w.exchangeName,
url)
}
if w.Conn != nil {
w.Conn.SetURL(url)
}
}
if w.IsConnected() && reconnect {
log.Debugf(log.WebsocketMgr,
"%s websocket: flushing websocket connection to %s\n",
w.exchangeName,
url)
return w.Shutdown()
}
return nil
}
// GetWebsocketURL returns the running websocket URL
func (w *Websocket) GetWebsocketURL() string {
return w.runningURL
}
// SetProxyAddress sets websocket proxy address
func (w *Websocket) SetProxyAddress(proxyAddr string) error {
if proxyAddr != "" {
_, err := url.ParseRequestURI(proxyAddr)
if err != nil {
return fmt.Errorf("%v websocket: cannot set proxy address error '%v'",
w.exchangeName,
err)
}
if w.proxyAddr == proxyAddr {
return fmt.Errorf("%v websocket: cannot set proxy address to the same address '%v'",
w.exchangeName,
w.proxyAddr)
}
log.Debugf(log.ExchangeSys,
"%s websocket: setting websocket proxy: %s\n",
w.exchangeName,
proxyAddr)
} else {
log.Debugf(log.ExchangeSys,
"%s websocket: removing websocket proxy\n",
w.exchangeName)
}
if w.Conn != nil {
w.Conn.SetProxy(proxyAddr)
}
if w.AuthConn != nil {
w.AuthConn.SetProxy(proxyAddr)
}
w.proxyAddr = proxyAddr
if w.IsInit() && w.IsEnabled() {
if w.IsConnected() {
err := w.Shutdown()
if err != nil {
return err
}
}
return w.Connect()
}
return nil
}
// GetProxyAddress returns the current websocket proxy
func (w *Websocket) GetProxyAddress() string {
return w.proxyAddr
}
// GetName returns exchange name
func (w *Websocket) GetName() string {
return w.exchangeName
}
// GetChannelDifference finds the difference between the subscribed channels
// and the new subscription list when pairs are disabled or enabled.
func (w *Websocket) GetChannelDifference(genSubs []ChannelSubscription) (sub, unsub []ChannelSubscription) {
w.subscriptionMutex.RLock()
unsubMap := make(map[any]ChannelSubscription, len(w.subscriptions))
for k, c := range w.subscriptions {
unsubMap[k] = *c
}
w.subscriptionMutex.RUnlock()
for i := range genSubs {
key := genSubs[i].EnsureKeyed()
if _, ok := unsubMap[key]; ok {
delete(unsubMap, key) // If it's in both then we remove it from the unsubscribe list
} else {
sub = append(sub, genSubs[i]) // If it's in genSubs but not existing subs we want to subscribe
}
}
for _, c := range unsubMap {
unsub = append(unsub, c)
}
return
}
// UnsubscribeChannels unsubscribes from a websocket channel
func (w *Websocket) UnsubscribeChannels(channels []ChannelSubscription) error {
if len(channels) == 0 {
return fmt.Errorf("%s websocket: %w", w.exchangeName, errNoSubscriptionsSupplied)
}
w.subscriptionMutex.RLock()
for i := range channels {
key := channels[i].EnsureKeyed()
if _, ok := w.subscriptions[key]; !ok {
w.subscriptionMutex.RUnlock()
return fmt.Errorf("%s websocket: %w: %+v", w.exchangeName, ErrSubscriptionNotFound, channels[i])
}
}
w.subscriptionMutex.RUnlock()
return w.Unsubscriber(channels)
}
// ResubscribeToChannel resubscribes to channel
func (w *Websocket) ResubscribeToChannel(subscribedChannel *ChannelSubscription) error {
err := w.UnsubscribeChannels([]ChannelSubscription{*subscribedChannel})
if err != nil {
return err
}
return w.SubscribeToChannels([]ChannelSubscription{*subscribedChannel})
}
// SubscribeToChannels appends supplied channels to channelsToSubscribe
func (w *Websocket) SubscribeToChannels(channels []ChannelSubscription) error {
if err := w.checkSubscriptions(channels); err != nil {
return fmt.Errorf("%s websocket: %w", w.exchangeName, common.AppendError(ErrSubscriptionFailure, err))
}
if err := w.Subscriber(channels); err != nil {
return fmt.Errorf("%s websocket: %w", w.exchangeName, common.AppendError(ErrSubscriptionFailure, err))
}
return nil
}
// AddSubscription adds a subscription to the subscription lists
// Unlike AddSubscriptions this method will error if the subscription already exists
func (w *Websocket) AddSubscription(c *ChannelSubscription) error {
w.subscriptionMutex.Lock()
defer w.subscriptionMutex.Unlock()
if w.subscriptions == nil {
w.subscriptions = subscriptionMap{}
}
key := c.EnsureKeyed()
if _, ok := w.subscriptions[key]; ok {
return ErrSubscribedAlready
}
n := *c // Fresh copy; we don't want to use the pointer we were given and allow encapsulation/locks to be bypassed
w.subscriptions[key] = &n
return nil
}
// SetSubscriptionState sets an existing subscription state
// returns an error if the subscription is not found, or the new state is already set
func (w *Websocket) SetSubscriptionState(c *ChannelSubscription, state ChannelState) error {
w.subscriptionMutex.Lock()
defer w.subscriptionMutex.Unlock()
if w.subscriptions == nil {
w.subscriptions = subscriptionMap{}
}
key := c.EnsureKeyed()
p, ok := w.subscriptions[key]
if !ok {
return ErrSubscriptionNotFound
}
if state == p.State {
return ErrChannelInStateAlready
}
if state > ChannelUnsubscribing {
return errInvalidChannelState
}
p.State = state
return nil
}
// AddSuccessfulSubscriptions adds subscriptions to the subscription lists that
// has been successfully subscribed
func (w *Websocket) AddSuccessfulSubscriptions(channels ...ChannelSubscription) {
w.subscriptionMutex.Lock()
defer w.subscriptionMutex.Unlock()
if w.subscriptions == nil {
w.subscriptions = subscriptionMap{}
}
for _, cN := range channels {
c := cN // cN is an iteration var; Not safe to make a pointer to
key := c.EnsureKeyed()
c.State = ChannelSubscribed
w.subscriptions[key] = &c
}
}
// RemoveSubscriptions removes subscriptions from the subscription list
func (w *Websocket) RemoveSubscriptions(channels ...ChannelSubscription) {
w.subscriptionMutex.Lock()
defer w.subscriptionMutex.Unlock()
if w.subscriptions == nil {
w.subscriptions = subscriptionMap{}
}
for i := range channels {
key := channels[i].EnsureKeyed()
delete(w.subscriptions, key)
}
}
// EnsureKeyed sets the default key on a channel if it doesn't have one
// Returns key for convenience
func (c *ChannelSubscription) EnsureKeyed() any {
if c.Key == nil {
c.Key = DefaultChannelKey{
Channel: c.Channel,
Asset: c.Asset,
Currency: c.Currency,
}
}
return c.Key
}
// GetSubscription returns a pointer to a copy of the subscription at the key provided
// returns nil if no subscription is at that key or the key is nil
func (w *Websocket) GetSubscription(key any) *ChannelSubscription {
if key == nil || w == nil || w.subscriptions == nil {
return nil
}
w.subscriptionMutex.RLock()
defer w.subscriptionMutex.RUnlock()
if s, ok := w.subscriptions[key]; ok {
c := *s
return &c
}
return nil
}
// GetSubscriptions returns a new slice of the subscriptions
func (w *Websocket) GetSubscriptions() []ChannelSubscription {
w.subscriptionMutex.RLock()
defer w.subscriptionMutex.RUnlock()
subs := make([]ChannelSubscription, 0, len(w.subscriptions))
for _, c := range w.subscriptions {
subs = append(subs, *c)
}
return subs
}
// SetCanUseAuthenticatedEndpoints sets canUseAuthenticatedEndpoints val in
// a thread safe manner
func (w *Websocket) SetCanUseAuthenticatedEndpoints(val bool) {
w.fieldMutex.Lock()
defer w.fieldMutex.Unlock()
w.canUseAuthenticatedEndpoints = val
}
// CanUseAuthenticatedEndpoints gets canUseAuthenticatedEndpoints val in
// a thread safe manner
func (w *Websocket) CanUseAuthenticatedEndpoints() bool {
w.fieldMutex.RLock()
defer w.fieldMutex.RUnlock()
return w.canUseAuthenticatedEndpoints
}
// IsDisconnectionError Determines if the error sent over chan ReadMessageErrors is a disconnection error
func IsDisconnectionError(err error) bool {
if websocket.IsUnexpectedCloseError(err) {
return true
}
if _, ok := err.(*net.OpError); ok {
return !errors.Is(err, errClosedConnection)
}
return false
}
// checkWebsocketURL checks for a valid websocket url
func checkWebsocketURL(s string) error {
u, err := url.Parse(s)
if err != nil {
return err
}
if u.Scheme != "ws" && u.Scheme != "wss" {
return fmt.Errorf("cannot set %w %s", errInvalidWebsocketURL, s)
}
return nil
}
// checkSubscriptions checks subscriptions against the max subscription limit
// and if the subscription already exists.
func (w *Websocket) checkSubscriptions(subs []ChannelSubscription) error {
if len(subs) == 0 {
return errNoSubscriptionsSupplied
}
w.subscriptionMutex.RLock()
defer w.subscriptionMutex.RUnlock()
if w.MaxSubscriptionsPerConnection > 0 && len(w.subscriptions)+len(subs) > w.MaxSubscriptionsPerConnection {
return fmt.Errorf("%w: current subscriptions: %v, incoming subscriptions: %v, max subscriptions per connection: %v - please reduce enabled pairs",
errSubscriptionsExceedsLimit,
len(w.subscriptions),
len(subs),
w.MaxSubscriptionsPerConnection)
}
for i := range subs {
key := subs[i].EnsureKeyed()
if _, ok := w.subscriptions[key]; ok {
return fmt.Errorf("%w for %+v", errChannelAlreadySubscribed, subs[i])
}
}
return nil
}
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