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905214d90d8cd9dad7db04ea9ecbe98604f34492
gocryptotrader/exchanges/stream/websocket.go
Ryan O'Hara-Reid 7b718700f7 orderbook: Implement initial linked list (#643) 
* Exchanges: Initial implementation after rebase of depth (WIP)

* orderbook/buffer: convert and couple orderbook interaction functionality from buffer to orderbook linked list - Use single point reference for orderbook depth

* buffer/orderbook: conversion continued (WIP)

* exchange: buffer/linkedlist handover (WIP)

* Added some tests for yesterday

* linkedList: added more testing and trying to figure out broken things

* Started tying everything in

* continuous integration and testing

* orderbook: expanded tests

* go mod tidy

* Add in different synchornisation levels for protocols
Add in timer for the streaming system to reduce updates to datahandler
Add in more test code as I integrate more exchanges

* Depth: Add tests, add length check to call linked list updating, add in constructor.
Linked List: Improve tests, add in checks for zero liquidity on books.
Node: Added in cleaner POC, add in contructor.
Buffer: Fixed tests, checked benchmarks.

* orderbook: reinstate dispatch calls

* Addr glorious & madcozbad nits

* fix functionality and add tests

* Address linterinos

* remove label

* expanded comment

* fix races and and bitmex test

* reinstate go routine for alerting changes

* rm line :D

* fix more tests

* Addr glorious nits

* rm glorious field

* depth: defer unlock to stop deadlock

* orderbook: remove unused vars

* buffer: fix test to what it should be

* nits: madcosbad addr

* nits: glorious nits

* linkedlist: remove unused params

* orderbook: shift time call to outside of push to inline, add in case for update inster price for zero liquidity, nits

* orderbook: nits addressed

* engine: change stream -> websocket convention and remove unused function

* nits: glorious nits

* Websocket Buffer: Add verbosity switch

* linked list: Add comment

* linked list: fix spelling

* nits: glorious nits

* orderbook: Adds in test and explicit time type with constructor, fix nits

* linter

* spelling: removed the dere fence

* depth: Update alerting mechanism to a more battle tested state

* depth: spelling

* nits: glorious nits

* linked list: match cases

* buffer: fix linter issue

* golangci: increase timeout by 30 seconds

* nodes: update atomic checks

* spelling: fix

* node: add in commentary

* exchanges/syncer: add function to switch over to REST when websocket functionality is not available for a specific asset type

* linter: exchange linter issues

* syncer: Add in warning

* nits: glorious nits

* AssetWebsocketSupport: unexport map

* Nits: Adrr

* rm letter

* exchanges: Orderbook verification change for naming, deprecate checksum bypass as it has the potential to obfuscate errors that are at the tail end of the book, add in verification for websocket stream updates

* general: fix spelling remove breakpoint

* nits: fix more glorious nits until more are found

* orderbook: fix tests

* orderbook: fix wait tests and add in more checks

* nits: addr

* orderbook: remove dispatch reference

* linkedlist: consolidate bid/ask functions

* linked lisdt: remove words

* fix spelling
2021-04-23 15:16:01 +10:00

915 lines
22 KiB
Go
Raw Blame History

package stream
import (
"errors"
"fmt"
"net"
"net/url"
"strings"
"sync"
"time"
"github.com/gorilla/websocket"
"github.com/thrasher-corp/gocryptotrader/config"
"github.com/thrasher-corp/gocryptotrader/log"
)
const (
defaultJobBuffer = 1000
// 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 errClosedConnection = errors.New("use of closed network connection")
// New initialises the websocket struct
func New() *Websocket {
return &Websocket{
Init: true,
DataHandler: make(chan interface{}),
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 errors.New("websocket is nil")
}
if s == nil {
return errors.New("websocket setup is nil")
}
if !w.Init {
return fmt.Errorf("%s Websocket already initialised",
s.ExchangeName)
}
w.verbose = s.Verbose
if s.Features == nil {
return errors.New("websocket features is unset")
}
w.features = s.Features
if w.features.Subscribe && s.Subscriber == nil {
return errors.New("features have been set yet channel subscriber is not set")
}
w.Subscriber = s.Subscriber
if w.features.Unsubscribe && s.UnSubscriber == nil {
return errors.New("features have been set yet channel unsubscriber is not set")
}
w.Unsubscriber = s.UnSubscriber
w.GenerateSubs = s.GenerateSubscriptions
w.enabled = s.Enabled
if s.DefaultURL == "" {
return errors.New("default url is empty")
}
w.defaultURL = s.DefaultURL
if s.RunningURL == "" {
return errors.New("running URL cannot be nil")
}
err := w.SetWebsocketURL(s.RunningURL, false, false)
if err != nil {
return err
}
if s.RunningURLAuth != "" {
err = w.SetWebsocketURL(s.RunningURLAuth, true, false)
if err != nil {
return err
}
}
w.connector = s.Connector
if s.ExchangeName == "" {
return errors.New("exchange name unset")
}
w.exchangeName = s.ExchangeName
if s.WebsocketTimeout < time.Second {
return fmt.Errorf("traffic timeout cannot be less than %s", time.Second)
}
w.trafficTimeout = s.WebsocketTimeout
w.ShutdownC = make(chan struct{})
w.Wg = new(sync.WaitGroup)
w.SetCanUseAuthenticatedEndpoints(s.AuthenticatedWebsocketAPISupport)
return w.Orderbook.Setup(s.OrderbookBufferLimit,
s.BufferEnabled,
s.SortBuffer,
s.SortBufferByUpdateIDs,
s.UpdateEntriesByID,
s.Verbose,
w.exchangeName,
w.DataHandler)
}
// 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
}
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,
}
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() {
w.connectionMonitor()
}
// Resubscribe after re-connection
if len(w.subscriptions) != 0 {
err = w.Subscriber(w.subscriptions)
if err != nil {
return fmt.Errorf("%v Error subscribing %s", w.exchangeName, err)
}
}
return nil
}
// Disable disables the exchange websocket protocol
func (w *Websocket) Disable() error {
if !w.IsConnected() || !w.IsEnabled() {
return fmt.Errorf("websocket is already disabled for exchange %s",
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() {
if w.IsConnectionMonitorRunning() {
return
}
w.setConnectionMonitorRunning(true)
go func() {
timer := time.NewTimer(connectionMonitorDelay)
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.Error(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)
} else {
// pass off non disconnect errors to datahandler to manage
w.DataHandler <- err
}
case <-timer.C:
if !w.IsConnecting() && !w.IsConnected() {
err := w.Connect()
if err != nil {
log.Error(log.WebsocketMgr, err)
}
}
if !timer.Stop() {
select {
case <-timer.C:
default:
}
}
timer.Reset(connectionMonitorDelay)
}
}
}()
}
// 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 a disconnected websocket",
w.exchangeName)
}
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 = nil
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 = nil
w.subscriptionMutex.Unlock()
return w.SubscribeToChannels(newsubs)
}
return nil
}
err := w.Shutdown()
if 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.Wg.Done()
if !w.IsConnecting() && w.IsConnected() {
err := w.Shutdown()
if err != nil {
log.Errorf(log.WebsocketMgr,
"%v websocket: trafficMonitor shutdown err: %s",
w.exchangeName, err)
}
}
w.setTrafficMonitorRunning(false)
return
}
if w.IsConnected() {
// Routine pausing mechanism
go func(p chan<- struct{}) {
time.Sleep(defaultTrafficPeriod)
p <- struct{}{}
}(pause)
select {
case <-w.ShutdownC:
trafficTimer.Stop()
w.setTrafficMonitorRunning(false)
w.Wg.Done()
return
case <-pause:
}
}
}
}()
}
func (w *Websocket) setConnectedStatus(b bool) {
w.connectionMutex.Lock()
w.connected = b
w.connectionMutex.Unlock()
}
// IsConnected returns status of connection
func (w *Websocket) IsConnected() bool {
w.connectionMutex.RLock()
defer w.connectionMutex.RUnlock()
return w.connected
}
func (w *Websocket) setConnectingStatus(b bool) {
w.connectionMutex.Lock()
w.connecting = b
w.connectionMutex.Unlock()
}
// IsConnecting returns status of connecting
func (w *Websocket) IsConnecting() bool {
w.connectionMutex.RLock()
defer w.connectionMutex.RUnlock()
return w.connecting
}
func (w *Websocket) setEnabled(b bool) {
w.connectionMutex.Lock()
w.enabled = b
w.connectionMutex.Unlock()
}
// IsEnabled returns status of enabled
func (w *Websocket) IsEnabled() bool {
w.connectionMutex.RLock()
defer w.connectionMutex.RUnlock()
return w.enabled
}
func (w *Websocket) setInit(b bool) {
w.connectionMutex.Lock()
w.Init = b
w.connectionMutex.Unlock()
}
// IsInit returns status of init
func (w *Websocket) IsInit() bool {
w.connectionMutex.RLock()
defer w.connectionMutex.RUnlock()
return w.Init
}
func (w *Websocket) setTrafficMonitorRunning(b bool) {
w.connectionMutex.Lock()
w.trafficMonitorRunning = b
w.connectionMutex.Unlock()
}
// IsTrafficMonitorRunning returns status of the traffic monitor
func (w *Websocket) IsTrafficMonitorRunning() bool {
w.connectionMutex.RLock()
defer w.connectionMutex.RUnlock()
return w.trafficMonitorRunning
}
func (w *Websocket) setConnectionMonitorRunning(b bool) {
w.connectionMutex.Lock()
w.connectionMonitorRunning = b
w.connectionMutex.Unlock()
}
// IsConnectionMonitorRunning returns status of connection monitor
func (w *Websocket) IsConnectionMonitorRunning() bool {
w.connectionMutex.RLock()
defer w.connectionMutex.RUnlock()
return w.connectionMonitorRunning
}
func (w *Websocket) setDataMonitorRunning(b bool) {
w.connectionMutex.Lock()
w.dataMonitorRunning = b
w.connectionMutex.Unlock()
}
// IsDataMonitorRunning returns status of data monitor
func (w *Websocket) IsDataMonitorRunning() bool {
w.connectionMutex.RLock()
defer w.connectionMutex.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.Lock()
defer w.subscriptionMutex.Unlock()
oldsubs:
for x := range w.subscriptions {
for y := range genSubs {
if w.subscriptions[x].Equal(&genSubs[y]) {
continue oldsubs
}
}
unsub = append(unsub, w.subscriptions[x])
}
newsubs:
for x := range genSubs {
for y := range w.subscriptions {
if genSubs[x].Equal(&w.subscriptions[y]) {
continue newsubs
}
}
sub = append(sub, genSubs[x])
}
return
}
// UnsubscribeChannels unsubscribes from a websocket channel
func (w *Websocket) UnsubscribeChannels(channels []ChannelSubscription) error {
if len(channels) == 0 {
return fmt.Errorf("%s websocket: channels not populated cannot remove",
w.exchangeName)
}
w.subscriptionMutex.Lock()
defer w.subscriptionMutex.Unlock()
channels:
for x := range channels {
for y := range w.subscriptions {
if channels[x].Equal(&w.subscriptions[y]) {
continue channels
}
}
return fmt.Errorf("%s websocket: subscription not found in list: %+v",
w.exchangeName,
channels[x])
}
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 len(channels) == 0 {
return fmt.Errorf("%s websocket: cannot subscribe no channels supplied",
w.exchangeName)
}
w.subscriptionMutex.Lock()
defer w.subscriptionMutex.Unlock()
for x := range channels {
for y := range w.subscriptions {
if channels[x].Equal(&w.subscriptions[y]) {
return fmt.Errorf("%s websocket: %v already subscribed",
w.exchangeName,
channels[x])
}
}
}
return w.Subscriber(channels)
}
// AddSuccessfulSubscriptions adds subscriptions to the subscription lists that
// has been successfully subscribed
func (w *Websocket) AddSuccessfulSubscriptions(channels ...ChannelSubscription) {
w.subscriptions = append(w.subscriptions, channels...)
}
// RemoveSuccessfulUnsubscriptions removes subscriptions from the subscription
// list that has been successfulling unsubscribed
func (w *Websocket) RemoveSuccessfulUnsubscriptions(channels ...ChannelSubscription) {
for x := range channels {
for y := range w.subscriptions {
if channels[x].Equal(&w.subscriptions[y]) {
w.subscriptions[y] = w.subscriptions[len(w.subscriptions)-1]
w.subscriptions[len(w.subscriptions)-1] = ChannelSubscription{}
w.subscriptions = w.subscriptions[:len(w.subscriptions)-1]
break
}
}
}
}
// Equal two WebsocketChannelSubscription to determine equality
func (w *ChannelSubscription) Equal(s *ChannelSubscription) bool {
return strings.EqualFold(w.Channel, s.Channel) &&
w.Currency.Equal(s.Currency)
}
// GetSubscriptions returns a copied list of subscriptions
// subscriptions is a private member and cannot be manipulated
func (w *Websocket) GetSubscriptions() []ChannelSubscription {
w.subscriptionMutex.Lock()
defer w.subscriptionMutex.Unlock()
return append(w.subscriptions[:0:0], w.subscriptions...)
}
// SetCanUseAuthenticatedEndpoints sets canUseAuthenticatedEndpoints val in
// a thread safe manner
func (w *Websocket) SetCanUseAuthenticatedEndpoints(val bool) {
w.subscriptionMutex.Lock()
defer w.subscriptionMutex.Unlock()
w.canUseAuthenticatedEndpoints = val
}
// CanUseAuthenticatedEndpoints gets canUseAuthenticatedEndpoints val in
// a thread safe manner
func (w *Websocket) CanUseAuthenticatedEndpoints() bool {
w.subscriptionMutex.Lock()
defer w.subscriptionMutex.Unlock()
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 invalid websocket URL %s", s)
}
return nil
}
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