d0zingcat/gocryptotrader
1
0
Fork 0
mirror of https://github.com/d0zingcat/gocryptotrader.git synced 2026-05-16 15:09:57 +00:00
Code Issues Packages Projects Releases Wiki Activity
Files
9a2a541b2594bfeaa73800a48b23a2fc0932ca6a
gocryptotrader/exchanges/btse/btse_wrapper.go
Gareth Kirwan 52c6b3bf0b Websocket: Various refactors and test improvements (#1466) 
* Websocket: Remove IsInit and simplify SetProxyAddress

IsInit was basically the same as IsConnected.
Any time Connect was called both would be set to true.
Any time we had a disconnect they'd both be set to false
Shutdown() incorrectly didn't setInit(false)

SetProxyAddress simplified to only reconnect a connected Websocket.
Any other state means it hasn't been Connected, or it's about to
reconnect anyway.
There's no handling for IsConnecting previously, either, so I've wrapped
that behind the main mutex.

* Websocket: Expand and Assertify tests

* Websocket: Simplify state transistions

* Websocket: Simplify Connecting/Connected state

* Websocket: Tests and errors for websocket

* Websocket: Make WebsocketNotEnabled a real error

This allows for testing and avoids the repetition.
If each returned error is a error.New() you can never use errors.Is()

* Websocket: Add more testable errors

* Websocket: Improve GenerateMessageID test

Testing just the last id doesn't feel very robust

* Websocket: Protect Setup() from races

* Websocket: Use atomics instead of mutex

This was spurred by looking at the setState call in trafficMonitor and
the effect on blocking and efficiency.
With the new atomic types in Go 1.19, and the small types in use here,
atomics should be safe for our usage. bools should be truly atomic,
and uint32 is atomic when the accepted value range is less than one byte/uint8 since
that can be written atomicly by concurrent processors.
Maybe that's not even a factor any more, however we don't even have to worry enough to check.

* Websocket: Fix and simplify traffic monitor

trafficMonitor had a check throttle at the end of the for loop to stop it just gobbling the (blocking) trafficAlert channel non-stop.
That makes sense, except that nothing is sent to the trafficAlert channel if there's no listener.
So that means that it's out by one second on the trafficAlert, because any traffic received during the pause is doesn't try to send a traffic alert.

The unstopped timer is deliberately leaked for later GC when shutdown.
It won't delay/block anything, and it's a trivial memory leak during an infrequent event.

Deliberately Choosing to recreate the timer each time instead of using Stop, drain and reset

* Websocket: Split traficMonitor test on behaviours

* Websocket: Remove trafficMonitor connected status

trafficMonitor does not need to set the connection to be connected.
Connect() does that. Anything after that should result in a full
shutdown and restart. It can't and shouldn't become connected
unexpectedly, and this is most likely a race anyway.

Also dropped trafficCheckInterval to 100ms to mitigate races of traffic
alerts being buffered for too long.

* Websocket: Set disconnected earlier in Shutdown

This caused a possible race where state is still connected, but we start
to trigger interested actors via ShutdownC and Wait.
They may check state and then call Shutdown again, such as
trafficMonitor

* Websocket: Wait 5s for slow tests to pass traffic draining

Keep getting failures upstream on test rigs.
Think they can be very contended, so this pushes the boundary right out
to 5s
2024-02-23 18:39:25 +11:00

1340 lines
37 KiB
Go
Raw Blame History

package btse
import (
"context"
"errors"
"fmt"
"math"
"sort"
"strconv"
"strings"
"time"
"github.com/shopspring/decimal"
"github.com/thrasher-corp/gocryptotrader/common"
"github.com/thrasher-corp/gocryptotrader/common/key"
"github.com/thrasher-corp/gocryptotrader/config"
"github.com/thrasher-corp/gocryptotrader/currency"
exchange "github.com/thrasher-corp/gocryptotrader/exchanges"
"github.com/thrasher-corp/gocryptotrader/exchanges/account"
"github.com/thrasher-corp/gocryptotrader/exchanges/asset"
"github.com/thrasher-corp/gocryptotrader/exchanges/deposit"
"github.com/thrasher-corp/gocryptotrader/exchanges/fundingrate"
"github.com/thrasher-corp/gocryptotrader/exchanges/futures"
"github.com/thrasher-corp/gocryptotrader/exchanges/kline"
"github.com/thrasher-corp/gocryptotrader/exchanges/order"
"github.com/thrasher-corp/gocryptotrader/exchanges/orderbook"
"github.com/thrasher-corp/gocryptotrader/exchanges/protocol"
"github.com/thrasher-corp/gocryptotrader/exchanges/request"
"github.com/thrasher-corp/gocryptotrader/exchanges/stream"
"github.com/thrasher-corp/gocryptotrader/exchanges/ticker"
"github.com/thrasher-corp/gocryptotrader/exchanges/trade"
"github.com/thrasher-corp/gocryptotrader/log"
"github.com/thrasher-corp/gocryptotrader/portfolio/withdraw"
)
// GetDefaultConfig returns a default exchange config
func (b *BTSE) GetDefaultConfig(ctx context.Context) (*config.Exchange, error) {
b.SetDefaults()
exchCfg, err := b.GetStandardConfig()
if err != nil {
return nil, err
}
err = b.SetupDefaults(exchCfg)
if err != nil {
return nil, err
}
if b.Features.Supports.RESTCapabilities.AutoPairUpdates {
err = b.UpdateTradablePairs(ctx, true)
if err != nil {
return nil, err
}
}
return exchCfg, nil
}
// SetDefaults sets the basic defaults for BTSE
func (b *BTSE) SetDefaults() {
b.Name = "BTSE"
b.Enabled = true
b.Verbose = true
b.API.CredentialsValidator.RequiresKey = true
b.API.CredentialsValidator.RequiresSecret = true
fmt1 := currency.PairStore{
RequestFormat: &currency.PairFormat{
Uppercase: true,
Delimiter: currency.DashDelimiter,
},
ConfigFormat: &currency.PairFormat{
Uppercase: true,
Delimiter: currency.DashDelimiter,
},
}
err := b.StoreAssetPairFormat(asset.Spot, fmt1)
if err != nil {
log.Errorln(log.ExchangeSys, err)
}
fmt2 := currency.PairStore{
RequestFormat: &currency.PairFormat{
Uppercase: true,
},
ConfigFormat: &currency.PairFormat{
Uppercase: true,
Delimiter: currency.DashDelimiter,
},
}
err = b.StoreAssetPairFormat(asset.Futures, fmt2)
if err != nil {
log.Errorln(log.ExchangeSys, err)
}
b.Features = exchange.Features{
Supports: exchange.FeaturesSupported{
REST: true,
Websocket: true,
RESTCapabilities: protocol.Features{
TickerFetching: true,
TickerBatching: true,
KlineFetching: true,
TradeFetching: true,
OrderbookFetching: true,
AutoPairUpdates: true,
AccountInfo: true,
GetOrder: true,
GetOrders: true,
CancelOrders: true,
CancelOrder: true,
SubmitOrder: true,
TradeFee: true,
FiatDepositFee: true,
FiatWithdrawalFee: true,
CryptoWithdrawalFee: true,
FundingRateFetching: true,
},
WebsocketCapabilities: protocol.Features{
OrderbookFetching: true,
TradeFetching: true,
Subscribe: true,
Unsubscribe: true,
GetOrders: true,
GetOrder: true,
},
WithdrawPermissions: exchange.NoAPIWithdrawalMethods,
Kline: kline.ExchangeCapabilitiesSupported{
DateRanges: true,
Intervals: true,
},
FuturesCapabilities: exchange.FuturesCapabilities{
FundingRates: true,
SupportedFundingRateFrequencies: map[kline.Interval]bool{
kline.OneHour: true,
},
FundingRateBatching: map[asset.Item]bool{
asset.Futures: true,
},
OpenInterest: exchange.OpenInterestSupport{
Supported: true,
SupportsRestBatch: true,
SupportedViaTicker: true,
},
},
},
Enabled: exchange.FeaturesEnabled{
AutoPairUpdates: true,
Kline: kline.ExchangeCapabilitiesEnabled{
Intervals: kline.DeployExchangeIntervals(
kline.IntervalCapacity{Interval: kline.OneMin},
kline.IntervalCapacity{Interval: kline.FiveMin},
kline.IntervalCapacity{Interval: kline.FifteenMin},
kline.IntervalCapacity{Interval: kline.ThirtyMin},
kline.IntervalCapacity{Interval: kline.OneHour},
kline.IntervalCapacity{Interval: kline.SixHour},
kline.IntervalCapacity{Interval: kline.OneDay},
),
GlobalResultLimit: 300,
},
},
}
b.Requester, err = request.New(b.Name,
common.NewHTTPClientWithTimeout(exchange.DefaultHTTPTimeout),
request.WithLimiter(SetRateLimit()))
if err != nil {
log.Errorln(log.ExchangeSys, err)
}
b.API.Endpoints = b.NewEndpoints()
err = b.API.Endpoints.SetDefaultEndpoints(map[exchange.URL]string{
exchange.RestSpot: btseAPIURL,
exchange.RestFutures: btseAPIURL,
exchange.WebsocketSpot: btseWebsocket,
})
if err != nil {
log.Errorln(log.ExchangeSys, err)
}
b.Websocket = stream.NewWebsocket()
b.WebsocketResponseMaxLimit = exchange.DefaultWebsocketResponseMaxLimit
b.WebsocketResponseCheckTimeout = exchange.DefaultWebsocketResponseCheckTimeout
b.WebsocketOrderbookBufferLimit = exchange.DefaultWebsocketOrderbookBufferLimit
}
// Setup takes in the supplied exchange configuration details and sets params
func (b *BTSE) Setup(exch *config.Exchange) error {
err := exch.Validate()
if err != nil {
return err
}
if !exch.Enabled {
b.SetEnabled(false)
return nil
}
err = b.SetupDefaults(exch)
if err != nil {
return err
}
wsRunningURL, err := b.API.Endpoints.GetURL(exchange.WebsocketSpot)
if err != nil {
return err
}
err = b.Websocket.Setup(&stream.WebsocketSetup{
ExchangeConfig: exch,
DefaultURL: btseWebsocket,
RunningURL: wsRunningURL,
Connector: b.WsConnect,
Subscriber: b.Subscribe,
Unsubscriber: b.Unsubscribe,
GenerateSubscriptions: b.GenerateDefaultSubscriptions,
Features: &b.Features.Supports.WebsocketCapabilities,
})
if err != nil {
return err
}
err = b.seedOrderSizeLimits(context.TODO())
if err != nil {
return err
}
return b.Websocket.SetupNewConnection(stream.ConnectionSetup{
ResponseCheckTimeout: exch.WebsocketResponseCheckTimeout,
ResponseMaxLimit: exch.WebsocketResponseMaxLimit,
})
}
// FetchTradablePairs returns a list of the exchanges tradable pairs
func (b *BTSE) FetchTradablePairs(ctx context.Context, a asset.Item) (currency.Pairs, error) {
m, err := b.GetMarketSummary(ctx, "", a == asset.Spot)
if err != nil {
return nil, err
}
pairs := make(currency.Pairs, 0, len(m))
mPairs := m.MillionPairs()
for _, l := range m {
if !l.Active || !l.HasLiquidity() ||
(a == asset.Spot && !l.IsMarketOpenToSpot) { // Skip OTC assets only tradable on web UI
continue
}
if mPairs[l.Symbol] {
// BTSE lists M_ symbols for very small pairs, in millions. For those listings, we want to take the M_ listing in preference
// to the native listing, since they're often going to appear as locked markets due to size (bid == ask, e.g. 0.0000000003)
continue
}
baseCurr := l.Base
var quoteCurr string
if a == asset.Futures {
s := strings.Split(l.Symbol, l.Base) // e.g. RUNEPFC for RUNE-USD futures pair
if len(s) <= 1 {
continue
}
quoteCurr = s[1]
} else {
s := strings.Split(l.Symbol, currency.DashDelimiter)
if len(s) != 2 {
continue
}
baseCurr = s[0]
quoteCurr = s[1]
}
pair, err := currency.NewPairFromStrings(baseCurr, quoteCurr)
if err != nil {
return nil, err
}
pairs = append(pairs, pair)
}
return pairs, nil
}
// UpdateTradablePairs updates the exchanges available pairs and stores
// them in the exchanges config
func (b *BTSE) UpdateTradablePairs(ctx context.Context, forceUpdate bool) error {
a := b.GetAssetTypes(false)
for i := range a {
pairs, err := b.FetchTradablePairs(ctx, a[i])
if err != nil {
return err
}
err = b.UpdatePairs(pairs, a[i], false, forceUpdate)
if err != nil {
return err
}
}
return b.EnsureOnePairEnabled()
}
// UpdateTickers updates the ticker for all currency pairs of a given asset type
func (b *BTSE) UpdateTickers(ctx context.Context, a asset.Item) error {
if !b.SupportsAsset(a) {
return fmt.Errorf("%w %v", asset.ErrNotSupported, a)
}
tickers, err := b.GetMarketSummary(ctx, "", a == asset.Spot)
if err != nil {
return err
}
var errs error
for x := range tickers {
pair, err := currency.NewPairFromString(tickers[x].Symbol)
if err == nil {
err = ticker.ProcessTicker(&ticker.Price{
Pair: pair,
Ask: tickers[x].LowestAsk,
Bid: tickers[x].HighestBid,
Low: tickers[x].Low24Hr,
Last: tickers[x].Last,
Volume: tickers[x].Volume,
High: tickers[x].High24Hr,
OpenInterest: tickers[x].OpenInterest,
ExchangeName: b.Name,
AssetType: a})
}
if err != nil {
errs = common.AppendError(errs, err)
}
}
return errs
}
// UpdateTicker updates and returns the ticker for a currency pair
func (b *BTSE) UpdateTicker(ctx context.Context, p currency.Pair, a asset.Item) (*ticker.Price, error) {
if p.IsEmpty() {
return nil, currency.ErrCurrencyPairEmpty
}
if !b.SupportsAsset(a) {
return nil, fmt.Errorf("%w %v", asset.ErrNotSupported, a)
}
ticks, err := b.GetMarketSummary(ctx, p.String(), a == asset.Spot)
if err != nil {
return nil, err
}
if len(ticks) != 1 {
return nil, errors.New("market_summary should return 1 tick for a single ticker")
}
err = ticker.ProcessTicker(&ticker.Price{
Pair: p,
Ask: ticks[0].LowestAsk,
Bid: ticks[0].HighestBid,
Low: ticks[0].Low24Hr,
Last: ticks[0].Last,
Volume: ticks[0].Volume,
High: ticks[0].High24Hr,
ExchangeName: b.Name,
AssetType: a})
if err != nil {
return nil, err
}
return ticker.GetTicker(b.Name, p, a)
}
// FetchTicker returns the ticker for a currency pair
func (b *BTSE) FetchTicker(ctx context.Context, p currency.Pair, assetType asset.Item) (*ticker.Price, error) {
tickerNew, err := ticker.GetTicker(b.Name, p, assetType)
if err != nil {
return b.UpdateTicker(ctx, p, assetType)
}
return tickerNew, nil
}
// FetchOrderbook returns orderbook base on the currency pair
func (b *BTSE) FetchOrderbook(ctx context.Context, p currency.Pair, assetType asset.Item) (*orderbook.Base, error) {
ob, err := orderbook.Get(b.Name, p, assetType)
if err != nil {
return b.UpdateOrderbook(ctx, p, assetType)
}
return ob, nil
}
// UpdateOrderbook updates and returns the orderbook for a currency pair
func (b *BTSE) UpdateOrderbook(ctx context.Context, p currency.Pair, assetType asset.Item) (*orderbook.Base, error) {
if p.IsEmpty() {
return nil, currency.ErrCurrencyPairEmpty
}
if err := b.CurrencyPairs.IsAssetEnabled(assetType); err != nil {
return nil, err
}
book := &orderbook.Base{
Exchange: b.Name,
Pair: p,
Asset: assetType,
VerifyOrderbook: b.CanVerifyOrderbook,
}
fPair, err := b.FormatExchangeCurrency(p, assetType)
if err != nil {
return book, err
}
a, err := b.FetchOrderBook(ctx, fPair.String(), 0, 0, 0, assetType == asset.Spot)
if err != nil {
return book, err
}
book.Bids = make(orderbook.Items, 0, len(a.BuyQuote))
for x := range a.BuyQuote {
if b.orderbookFilter(a.BuyQuote[x].Price, a.BuyQuote[x].Size) {
continue
}
book.Bids = append(book.Bids, orderbook.Item{
Price: a.BuyQuote[x].Price,
Amount: a.BuyQuote[x].Size,
})
}
book.Asks = make(orderbook.Items, 0, len(a.SellQuote))
for x := range a.SellQuote {
if b.orderbookFilter(a.SellQuote[x].Price, a.SellQuote[x].Size) {
continue
}
book.Asks = append(book.Asks, orderbook.Item{
Price: a.SellQuote[x].Price,
Amount: a.SellQuote[x].Size,
})
}
book.Asks.SortAsks()
book.Pair = p
book.Exchange = b.Name
book.Asset = assetType
err = book.Process()
if err != nil {
return book, err
}
return orderbook.Get(b.Name, p, assetType)
}
// UpdateAccountInfo retrieves balances for all enabled currencies for the
// BTSE exchange
func (b *BTSE) UpdateAccountInfo(ctx context.Context, assetType asset.Item) (account.Holdings, error) {
var a account.Holdings
balance, err := b.GetWalletInformation(ctx)
if err != nil {
return a, err
}
currencies := make([]account.Balance, len(balance))
for b := range balance {
currencies[b] = account.Balance{
Currency: currency.NewCode(balance[b].Currency),
Total: balance[b].Total,
Hold: balance[b].Total - balance[b].Available,
Free: balance[b].Available,
}
}
a.Exchange = b.Name
a.Accounts = []account.SubAccount{
{
AssetType: assetType,
Currencies: currencies,
},
}
creds, err := b.GetCredentials(ctx)
if err != nil {
return account.Holdings{}, err
}
err = account.Process(&a, creds)
if err != nil {
return account.Holdings{}, err
}
return a, nil
}
// FetchAccountInfo retrieves balances for all enabled currencies
func (b *BTSE) FetchAccountInfo(ctx context.Context, assetType asset.Item) (account.Holdings, error) {
creds, err := b.GetCredentials(ctx)
if err != nil {
return account.Holdings{}, err
}
acc, err := account.GetHoldings(b.Name, creds, assetType)
if err != nil {
return b.UpdateAccountInfo(ctx, assetType)
}
return acc, nil
}
// GetAccountFundingHistory returns funding history, deposits and
// withdrawals
func (b *BTSE) GetAccountFundingHistory(_ context.Context) ([]exchange.FundingHistory, error) {
return nil, common.ErrFunctionNotSupported
}
func (b *BTSE) withinLimits(pair currency.Pair, amount float64) error {
val, found := OrderSizeLimits(pair.String())
if !found {
return fmt.Errorf("%w for pair %v", order.ErrExchangeLimitNotLoaded, pair)
}
if math.Mod(amount, val.MinSizeIncrement) < 0 {
return fmt.Errorf("%w %v %v %v", order.ErrAmountBelowMin, pair, amount, val.MinSizeIncrement)
}
if amount < val.MinOrderSize {
return fmt.Errorf("%w %v %v %v", order.ErrAmountBelowMin, pair, amount, val.MinOrderSize)
}
if amount > val.MaxOrderSize {
return fmt.Errorf("%w %v %v %v", order.ErrAmountExceedsMax, pair, amount, val.MinSizeIncrement)
}
return nil
}
// GetWithdrawalsHistory returns previous withdrawals data
func (b *BTSE) GetWithdrawalsHistory(_ context.Context, _ currency.Code, _ asset.Item) ([]exchange.WithdrawalHistory, error) {
return nil, common.ErrFunctionNotSupported
}
// GetRecentTrades returns the most recent trades for a currency and asset
func (b *BTSE) GetRecentTrades(ctx context.Context, p currency.Pair, assetType asset.Item) ([]trade.Data, error) {
var err error
p, err = b.FormatExchangeCurrency(p, assetType)
if err != nil {
return nil, err
}
const limit = 500
var tradeData []Trade
tradeData, err = b.GetTrades(ctx,
p.String(),
time.Time{}, time.Time{},
0, 0, limit,
false,
assetType == asset.Spot)
if err != nil {
return nil, err
}
resp := make([]trade.Data, len(tradeData))
for i := range tradeData {
tradeTimestamp := time.UnixMilli(tradeData[i].Time)
var side order.Side
side, err = order.StringToOrderSide(tradeData[i].Side)
if err != nil {
return nil, err
}
resp[i] = trade.Data{
Exchange: b.Name,
TID: strconv.FormatInt(tradeData[i].SerialID, 10),
CurrencyPair: p,
AssetType: assetType,
Side: side,
Price: tradeData[i].Price,
Amount: tradeData[i].Amount,
Timestamp: tradeTimestamp,
}
}
err = b.AddTradesToBuffer(resp...)
if err != nil {
return nil, err
}
sort.Sort(trade.ByDate(resp))
return resp, nil
}
// GetHistoricTrades returns historic trade data within the timeframe provided
func (b *BTSE) GetHistoricTrades(_ context.Context, _ currency.Pair, _ asset.Item, _, _ time.Time) ([]trade.Data, error) {
return nil, common.ErrFunctionNotSupported
}
// SubmitOrder submits a new order
func (b *BTSE) SubmitOrder(ctx context.Context, s *order.Submit) (*order.SubmitResponse, error) {
if err := s.Validate(); err != nil {
return nil, err
}
fPair, err := b.FormatExchangeCurrency(s.Pair, s.AssetType)
if err != nil {
return nil, err
}
err = b.withinLimits(fPair, s.Amount)
if err != nil {
return nil, err
}
r, err := b.CreateOrder(ctx,
s.ClientID, 0.0,
false,
s.Price,
s.Side.String(),
s.Amount, 0, 0,
fPair.String(),
goodTillCancel,
0.0,
s.TriggerPrice,
"",
s.Type.String())
if err != nil {
return nil, err
}
var orderID string
if len(r) > 0 {
orderID = r[0].OrderID
}
return s.DeriveSubmitResponse(orderID)
}
// ModifyOrder will allow of changing orderbook placement and limit to
// market conversion
func (b *BTSE) ModifyOrder(_ context.Context, _ *order.Modify) (*order.ModifyResponse, error) {
return nil, common.ErrFunctionNotSupported
}
// CancelOrder cancels an order by its corresponding ID number
func (b *BTSE) CancelOrder(ctx context.Context, o *order.Cancel) error {
if err := o.Validate(o.StandardCancel()); err != nil {
return err
}
fPair, err := b.FormatExchangeCurrency(o.Pair, o.AssetType)
if err != nil {
return err
}
_, err = b.CancelExistingOrder(ctx, o.OrderID, fPair.String(), o.ClientOrderID)
if err != nil {
return err
}
return nil
}
// CancelBatchOrders cancels an orders by their corresponding ID numbers
func (b *BTSE) CancelBatchOrders(_ context.Context, _ []order.Cancel) (*order.CancelBatchResponse, error) {
return nil, common.ErrFunctionNotSupported
}
// CancelAllOrders cancels all orders associated with a currency pair
// If product ID is sent, all orders of that specified market will be cancelled
// If not specified, all orders of all markets will be cancelled
func (b *BTSE) CancelAllOrders(ctx context.Context, orderCancellation *order.Cancel) (order.CancelAllResponse, error) {
if err := orderCancellation.Validate(); err != nil {
return order.CancelAllResponse{}, err
}
var resp order.CancelAllResponse
fPair, err := b.FormatExchangeCurrency(orderCancellation.Pair,
orderCancellation.AssetType)
if err != nil {
return resp, err
}
allOrders, err := b.CancelExistingOrder(ctx, "", fPair.String(), "")
if err != nil {
return resp, err
}
resp.Status = make(map[string]string)
for x := range allOrders {
if allOrders[x].Status == orderCancelled {
resp.Status[allOrders[x].OrderID] = order.Cancelled.String()
}
}
return resp, nil
}
func orderIntToType(i int) order.Type {
if i == 77 {
return order.Market
} else if i == 76 {
return order.Limit
}
return order.UnknownType
}
// GetOrderInfo returns order information based on order ID
func (b *BTSE) GetOrderInfo(ctx context.Context, orderID string, _ currency.Pair, _ asset.Item) (*order.Detail, error) {
o, err := b.GetOrders(ctx, "", orderID, "")
if err != nil {
return nil, err
}
var od order.Detail
if len(o) == 0 {
return nil, errors.New("no orders found")
}
format, err := b.GetPairFormat(asset.Spot, false)
if err != nil {
return nil, err
}
for i := range o {
if o[i].OrderID != orderID {
continue
}
var side = order.Buy
if strings.EqualFold(o[i].Side, order.Ask.String()) {
side = order.Sell
}
od.Pair, err = currency.NewPairDelimiter(o[i].Symbol,
format.Delimiter)
if err != nil {
log.Errorf(log.ExchangeSys,
"%s GetOrderInfo unable to parse currency pair: %s\n",
b.Name,
err)
}
od.Exchange = b.Name
od.Amount = o[i].Size
od.OrderID = o[i].OrderID
od.Date = time.Unix(o[i].Timestamp, 0)
od.Side = side
od.Type = orderIntToType(o[i].OrderType)
od.Price = o[i].Price
if od.Status, err = order.StringToOrderStatus(o[i].OrderState); err != nil {
log.Errorf(log.ExchangeSys, "%s %v", b.Name, err)
}
th, err := b.TradeHistory(ctx,
"",
time.Time{}, time.Time{},
0, 0, 0,
false,
"", orderID)
if err != nil {
return nil, fmt.Errorf("unable to get order fills for orderID %s", orderID)
}
for i := range th {
createdAt, err := parseOrderTime(th[i].TradeID)
if err != nil {
log.Errorf(log.ExchangeSys,
"%s GetOrderInfo unable to parse time: %s\n", b.Name, err)
}
var orderSide order.Side
orderSide, err = order.StringToOrderSide(th[i].Side)
if err != nil {
return nil, err
}
od.Trades = append(od.Trades, order.TradeHistory{
Timestamp: createdAt,
TID: th[i].TradeID,
Price: th[i].Price,
Amount: th[i].Size,
Exchange: b.Name,
Side: orderSide,
Fee: th[i].FeeAmount,
})
}
}
return &od, nil
}
// GetDepositAddress returns a deposit address for a specified currency
func (b *BTSE) GetDepositAddress(ctx context.Context, c currency.Code, _, _ string) (*deposit.Address, error) {
address, err := b.GetWalletAddress(ctx, c.String())
if err != nil {
return nil, err
}
extractor := func(addr string) (string, string) {
if strings.Contains(addr, ":") {
split := strings.Split(addr, ":")
return split[0], split[1]
}
return addr, ""
}
if len(address) == 0 {
addressCreate, err := b.CreateWalletAddress(ctx, c.String())
if err != nil {
return nil, err
}
if len(addressCreate) != 0 {
addr, tag := extractor(addressCreate[0].Address)
return &deposit.Address{
Address: addr,
Tag: tag,
}, nil
}
return nil, errors.New("address not found")
}
addr, tag := extractor(address[0].Address)
return &deposit.Address{
Address: addr,
Tag: tag,
}, nil
}
// WithdrawCryptocurrencyFunds returns a withdrawal ID when a withdrawal is
// submitted
func (b *BTSE) WithdrawCryptocurrencyFunds(ctx context.Context, withdrawRequest *withdraw.Request) (*withdraw.ExchangeResponse, error) {
if err := withdrawRequest.Validate(); err != nil {
return nil, err
}
amountToString := strconv.FormatFloat(withdrawRequest.Amount, 'f', 8, 64)
resp, err := b.WalletWithdrawal(ctx,
withdrawRequest.Currency.String(),
withdrawRequest.Crypto.Address,
withdrawRequest.Crypto.AddressTag,
amountToString)
if err != nil {
return nil, err
}
return &withdraw.ExchangeResponse{
Name: b.Name,
ID: resp.WithdrawID,
}, nil
}
// WithdrawFiatFunds returns a withdrawal ID when a withdrawal is
// submitted
func (b *BTSE) WithdrawFiatFunds(_ context.Context, _ *withdraw.Request) (*withdraw.ExchangeResponse, error) {
return nil, common.ErrFunctionNotSupported
}
// WithdrawFiatFundsToInternationalBank returns a withdrawal ID when a withdrawal is
// submitted
func (b *BTSE) WithdrawFiatFundsToInternationalBank(_ context.Context, _ *withdraw.Request) (*withdraw.ExchangeResponse, error) {
return nil, common.ErrFunctionNotSupported
}
// GetActiveOrders retrieves any orders that are active/open
func (b *BTSE) GetActiveOrders(ctx context.Context, req *order.MultiOrderRequest) (order.FilteredOrders, error) {
err := req.Validate()
if err != nil {
return nil, err
}
if len(req.Pairs) == 0 {
return nil, errors.New("no pair provided")
}
var orders []order.Detail
for x := range req.Pairs {
formattedPair, err := b.FormatExchangeCurrency(req.Pairs[x], asset.Spot)
if err != nil {
return nil, err
}
resp, err := b.GetOrders(ctx, formattedPair.String(), "", "")
if err != nil {
return nil, err
}
format, err := b.GetPairFormat(asset.Spot, false)
if err != nil {
return nil, err
}
for i := range resp {
var side = order.Buy
if strings.EqualFold(resp[i].Side, order.Ask.String()) {
side = order.Sell
}
status, err := order.StringToOrderStatus(resp[i].OrderState)
if err != nil {
log.Errorf(log.ExchangeSys, "%s %v", b.Name, err)
}
p, err := currency.NewPairDelimiter(resp[i].Symbol,
format.Delimiter)
if err != nil {
log.Errorf(log.ExchangeSys,
"%s GetActiveOrders unable to parse currency pair: %s\n",
b.Name,
err)
}
openOrder := order.Detail{
Pair: p,
Exchange: b.Name,
Amount: resp[i].Size,
ExecutedAmount: resp[i].FilledSize,
RemainingAmount: resp[i].Size - resp[i].FilledSize,
OrderID: resp[i].OrderID,
Date: time.Unix(resp[i].Timestamp, 0),
Side: side,
Price: resp[i].Price,
Status: status,
}
if resp[i].OrderType == 77 {
openOrder.Type = order.Market
} else if resp[i].OrderType == 76 {
openOrder.Type = order.Limit
}
fills, err := b.TradeHistory(ctx,
"",
time.Time{}, time.Time{},
0, 0, 0,
false,
"", resp[i].OrderID)
if err != nil {
log.Errorf(log.ExchangeSys,
"%s: Unable to get order fills for orderID %s",
b.Name,
resp[i].OrderID)
continue
}
for i := range fills {
createdAt, err := parseOrderTime(fills[i].Timestamp)
if err != nil {
log.Errorf(log.ExchangeSys,
"%s GetActiveOrders unable to parse time: %s\n",
b.Name,
err)
}
var orderSide order.Side
orderSide, err = order.StringToOrderSide(fills[i].Side)
if err != nil {
return nil, err
}
openOrder.Trades = append(openOrder.Trades, order.TradeHistory{
Timestamp: createdAt,
TID: fills[i].TradeID,
Price: fills[i].Price,
Amount: fills[i].Size,
Exchange: b.Name,
Side: orderSide,
Fee: fills[i].FeeAmount,
})
}
orders = append(orders, openOrder)
}
}
return req.Filter(b.Name, orders), nil
}
func matchType(input int, required order.Type) bool {
if (required == order.AnyType) || (input == 76 && required == order.Limit) || input == 77 && required == order.Market {
return true
}
return false
}
// GetOrderHistory retrieves account order information
// Can Limit response to specific order status
func (b *BTSE) GetOrderHistory(ctx context.Context, getOrdersRequest *order.MultiOrderRequest) (order.FilteredOrders, error) {
err := getOrdersRequest.Validate()
if err != nil {
return nil, err
}
var resp []order.Detail
if len(getOrdersRequest.Pairs) == 0 {
var err error
getOrdersRequest.Pairs, err = b.GetEnabledPairs(asset.Spot)
if err != nil {
return nil, err
}
}
orderDeref := *getOrdersRequest
for x := range orderDeref.Pairs {
fPair, err := b.FormatExchangeCurrency(orderDeref.Pairs[x], asset.Spot)
if err != nil {
return nil, err
}
currentOrder, err := b.GetOrders(ctx, fPair.String(), "", "")
if err != nil {
return nil, err
}
for y := range currentOrder {
if !matchType(currentOrder[y].OrderType, orderDeref.Type) {
continue
}
orderStatus, err := order.StringToOrderStatus(currentOrder[y].OrderState)
if err != nil {
log.Errorf(log.ExchangeSys, "%s %v", b.Name, err)
}
var orderSide order.Side
orderSide, err = order.StringToOrderSide(currentOrder[y].Side)
if err != nil {
return nil, err
}
orderTime := time.UnixMilli(currentOrder[y].Timestamp)
tempOrder := order.Detail{
OrderID: currentOrder[y].OrderID,
ClientID: currentOrder[y].ClOrderID,
Exchange: b.Name,
Price: currentOrder[y].Price,
AverageExecutedPrice: currentOrder[y].AverageFillPrice,
Amount: currentOrder[y].Size,
ExecutedAmount: currentOrder[y].FilledSize,
RemainingAmount: currentOrder[y].Size - currentOrder[y].FilledSize,
Date: orderTime,
Side: orderSide,
Status: orderStatus,
Pair: orderDeref.Pairs[x],
}
tempOrder.InferCostsAndTimes()
resp = append(resp, tempOrder)
}
}
return getOrdersRequest.Filter(b.Name, resp), nil
}
// GetFeeByType returns an estimate of fee based on type of transaction
func (b *BTSE) GetFeeByType(ctx context.Context, feeBuilder *exchange.FeeBuilder) (float64, error) {
if feeBuilder == nil {
return 0, fmt.Errorf("%T %w", feeBuilder, common.ErrNilPointer)
}
if !b.AreCredentialsValid(ctx) && // Todo check connection status
feeBuilder.FeeType == exchange.CryptocurrencyTradeFee {
feeBuilder.FeeType = exchange.OfflineTradeFee
}
return b.GetFee(ctx, feeBuilder)
}
// ValidateAPICredentials validates current credentials used for wrapper
// functionality
func (b *BTSE) ValidateAPICredentials(ctx context.Context, assetType asset.Item) error {
_, err := b.UpdateAccountInfo(ctx, assetType)
return b.CheckTransientError(err)
}
// FormatExchangeKlineInterval formats kline interval to exchange requested type
func (b *BTSE) FormatExchangeKlineInterval(in kline.Interval) string {
return strconv.FormatFloat(in.Duration().Minutes(), 'f', 0, 64)
}
// GetHistoricCandles returns candles between a time period for a set time interval
func (b *BTSE) GetHistoricCandles(ctx context.Context, pair currency.Pair, a asset.Item, interval kline.Interval, start, end time.Time) (*kline.Item, error) {
switch a {
case asset.Spot, asset.Futures:
default:
return nil, fmt.Errorf("%w %v", asset.ErrNotSupported, a)
}
req, err := b.GetKlineRequest(pair, a, interval, start, end, false)
if err != nil {
return nil, err
}
intervalInt, err := strconv.Atoi(b.FormatExchangeKlineInterval(req.ExchangeInterval))
if err != nil {
return nil, err
}
candles, err := b.GetOHLCV(ctx,
req.RequestFormatted.String(),
req.Start,
req.End.Add(-req.ExchangeInterval.Duration()), // End time is inclusive, so we need to subtract the interval.
intervalInt,
a)
if err != nil {
return nil, err
}
timeSeries := make([]kline.Candle, len(candles))
for x := range candles {
timeSeries[x] = kline.Candle{
Time: time.Unix(int64(candles[x][0]), 0),
Open: candles[x][1],
High: candles[x][2],
Low: candles[x][3],
Close: candles[x][4],
Volume: candles[x][5],
}
}
return req.ProcessResponse(timeSeries)
}
// GetHistoricCandlesExtended returns candles between a time period for a set time interval
func (b *BTSE) GetHistoricCandlesExtended(ctx context.Context, pair currency.Pair, a asset.Item, interval kline.Interval, start, end time.Time) (*kline.Item, error) {
switch a {
case asset.Spot, asset.Futures:
default:
return nil, fmt.Errorf("%w %v", asset.ErrNotSupported, a)
}
req, err := b.GetKlineExtendedRequest(pair, a, interval, start, end)
if err != nil {
return nil, err
}
intervalInt, err := strconv.Atoi(b.FormatExchangeKlineInterval(req.ExchangeInterval))
if err != nil {
return nil, err
}
timeSeries := make([]kline.Candle, req.Size())
for i := range req.RangeHolder.Ranges {
var candles OHLCV
candles, err = b.GetOHLCV(ctx,
req.RequestFormatted.String(),
req.RangeHolder.Ranges[i].Start.Time,
req.RangeHolder.Ranges[i].End.Time,
intervalInt,
a)
if err != nil {
return nil, err
}
for x := range candles {
timeSeries[x] = kline.Candle{
Time: time.Unix(int64(candles[x][0]), 0),
Open: candles[x][1],
High: candles[x][2],
Low: candles[x][3],
Close: candles[x][4],
Volume: candles[x][5],
}
}
}
return req.ProcessResponse(timeSeries)
}
func (b *BTSE) seedOrderSizeLimits(ctx context.Context) error {
pairs, err := b.GetMarketSummary(ctx, "", true)
if err != nil {
return err
}
for x := range pairs {
tempValues := OrderSizeLimit{
MinOrderSize: pairs[x].MinOrderSize,
MaxOrderSize: pairs[x].MaxOrderSize,
MinSizeIncrement: pairs[x].MinSizeIncrement,
}
orderSizeLimitMap.Store(pairs[x].Symbol, tempValues)
}
pairs, err = b.GetMarketSummary(ctx, "", false)
if err != nil {
return err
}
for x := range pairs {
tempValues := OrderSizeLimit{
MinOrderSize: pairs[x].MinOrderSize,
MaxOrderSize: pairs[x].MaxOrderSize,
MinSizeIncrement: pairs[x].MinSizeIncrement,
}
orderSizeLimitMap.Store(pairs[x].Symbol, tempValues)
}
return nil
}
// OrderSizeLimits looks up currency pair in orderSizeLimitMap and returns OrderSizeLimit
func OrderSizeLimits(pair string) (limits OrderSizeLimit, found bool) {
resp, ok := orderSizeLimitMap.Load(pair)
if !ok {
return
}
val, ok := resp.(OrderSizeLimit)
return val, ok
}
// GetServerTime returns the current exchange server time.
func (b *BTSE) GetServerTime(ctx context.Context, _ asset.Item) (time.Time, error) {
st, err := b.GetCurrentServerTime(ctx)
if err != nil {
return time.Time{}, err
}
return st.ISO, nil
}
// GetFuturesContractDetails returns details about futures contracts
func (b *BTSE) GetFuturesContractDetails(ctx context.Context, item asset.Item) ([]futures.Contract, error) {
if !item.IsFutures() {
return nil, futures.ErrNotFuturesAsset
}
if item != asset.Futures {
return nil, fmt.Errorf("%w %v", asset.ErrNotSupported, item)
}
marketSummary, err := b.GetMarketSummary(ctx, "", false)
if err != nil {
return nil, err
}
resp := make([]futures.Contract, 0, len(marketSummary))
for i := range marketSummary {
var cp currency.Pair
cp, err = currency.NewPairFromStrings(marketSummary[i].Base, marketSummary[i].Symbol[len(marketSummary[i].Base):])
if err != nil {
return nil, err
}
settlementCurrencies := make(currency.Currencies, len(marketSummary[i].AvailableSettlement))
var s, e time.Time
var ct futures.ContractType
if marketSummary[i].OpenTime > 0 {
s = time.UnixMilli(marketSummary[i].OpenTime)
}
if marketSummary[i].CloseTime > 0 {
e = time.UnixMilli(marketSummary[i].CloseTime)
}
if marketSummary[i].TimeBasedContract {
if e.Sub(s) > kline.OneMonth.Duration() {
ct = futures.Quarterly
} else {
ct = futures.Monthly
}
} else {
ct = futures.Perpetual
}
var contractSettlementType futures.ContractSettlementType
for j := range marketSummary[i].AvailableSettlement {
settlementCurrencies[j] = currency.NewCode(marketSummary[i].AvailableSettlement[j])
if contractSettlementType == futures.LinearOrInverse {
continue
}
containsUSD := strings.Contains(marketSummary[i].AvailableSettlement[j], "USD")
if !containsUSD {
contractSettlementType = futures.LinearOrInverse
continue
}
if containsUSD {
contractSettlementType = futures.Linear
}
}
c := futures.Contract{
Exchange: b.Name,
Name: cp,
Underlying: currency.NewPair(currency.NewCode(marketSummary[i].Base), currency.NewCode(marketSummary[i].Quote)),
Asset: item,
SettlementCurrencies: settlementCurrencies,
StartDate: s,
EndDate: e,
SettlementType: contractSettlementType,
IsActive: marketSummary[i].Active,
Type: ct,
}
if marketSummary[i].FundingRate > 0 {
c.LatestRate = fundingrate.Rate{
Rate: decimal.NewFromFloat(marketSummary[i].FundingRate),
Time: time.Now().Truncate(time.Hour),
}
}
resp = append(resp, c)
}
return resp, nil
}
// GetLatestFundingRates returns the latest funding rates data
func (b *BTSE) GetLatestFundingRates(ctx context.Context, r *fundingrate.LatestRateRequest) ([]fundingrate.LatestRateResponse, error) {
if r == nil {
return nil, fmt.Errorf("%w LatestRateRequest", common.ErrNilPointer)
}
if r.Asset != asset.Futures {
return nil, fmt.Errorf("%w %v", asset.ErrNotSupported, r.Asset)
}
if r.IncludePredictedRate {
return nil, fmt.Errorf("%w IncludePredictedRate", common.ErrFunctionNotSupported)
}
format, err := b.GetPairFormat(r.Asset, true)
if err != nil {
return nil, err
}
fPair := format.Format(r.Pair)
rates, err := b.GetMarketSummary(ctx, fPair, false)
if err != nil {
return nil, err
}
resp := make([]fundingrate.LatestRateResponse, 0, len(rates))
for i := range rates {
var cp currency.Pair
var isEnabled bool
cp, isEnabled, err = b.MatchSymbolCheckEnabled(rates[i].Symbol, r.Asset, true)
if err != nil && !errors.Is(err, currency.ErrPairNotFound) {
return nil, err
}
if !isEnabled {
continue
}
var isPerp bool
isPerp, err = b.IsPerpetualFutureCurrency(r.Asset, cp)
if err != nil {
return nil, err
}
if !isPerp {
continue
}
tt := time.Now().Truncate(time.Hour)
resp = append(resp, fundingrate.LatestRateResponse{
Exchange: b.Name,
Asset: r.Asset,
Pair: cp,
LatestRate: fundingrate.Rate{
Time: time.Now().Truncate(time.Hour),
Rate: decimal.NewFromFloat(rates[i].FundingRate),
},
TimeOfNextRate: tt.Add(time.Hour),
TimeChecked: time.Now(),
})
}
return resp, nil
}
// IsPerpetualFutureCurrency ensures a given asset and currency is a perpetual future
func (b *BTSE) IsPerpetualFutureCurrency(a asset.Item, p currency.Pair) (bool, error) {
return a == asset.Futures && p.Quote.Equal(currency.PFC), nil
}
// UpdateOrderExecutionLimits updates order execution limits
func (b *BTSE) UpdateOrderExecutionLimits(_ context.Context, _ asset.Item) error {
return common.ErrNotYetImplemented
}
// GetOpenInterest returns the open interest rate for a given asset pair
func (b *BTSE) GetOpenInterest(ctx context.Context, k ...key.PairAsset) ([]futures.OpenInterest, error) {
for i := range k {
if k[i].Asset != asset.Futures {
// avoid API calls or returning errors after a successful retrieval
return nil, fmt.Errorf("%w %v %v", asset.ErrNotSupported, k[i].Asset, k[i].Pair())
}
}
tickers, err := b.GetMarketSummary(ctx, "", false)
if err != nil {
return nil, err
}
resp := make([]futures.OpenInterest, 0, len(tickers))
for i := range tickers {
var symbol currency.Pair
var enabled bool
symbol, enabled, err = b.MatchSymbolCheckEnabled(tickers[i].Symbol, asset.Futures, false)
if err != nil && !errors.Is(err, currency.ErrPairNotFound) {
return nil, err
}
if !enabled {
continue
}
var appendData bool
for j := range k {
if k[j].Pair().Equal(symbol) {
appendData = true
break
}
}
if len(k) > 0 && !appendData {
continue
}
resp = append(resp, futures.OpenInterest{
Key: key.ExchangePairAsset{
Exchange: b.Name,
Base: symbol.Base.Item,
Quote: symbol.Quote.Item,
Asset: asset.Futures,
},
OpenInterest: tickers[i].OpenInterest,
})
}
return resp, nil
}
Reference in New Issue View Git Blame Copy Permalink