d0zingcat/gocryptotrader
1
0
Fork 0
mirror of https://github.com/d0zingcat/gocryptotrader.git synced 2026-05-14 23:16:49 +00:00
Code Issues Packages Projects Releases Wiki Activity
Files
af73d7ea3b20b03fdfbf8ceefb4aca9b255abe7f
gocryptotrader/exchanges/binance/binance.go
Scott 5ea5245afb Improvement: Subsystem separation (#664) 
* Initial codes for a trade tracker

* Moving everything in a broken fashion

* Removes tradetracker. Removes some errors for subsystems

* Cleans up some subsystems, renames stuttering types. Removes some global Bot usage

* More basic subsystem renaming and file moving

* Removes engine dependency from events,ntpserver,ordermanager,comms manager

* Exports eventManager, fixes rpcserver. puts rpcserver back for now

* Removes redundant error message, further removes engine dependencies

* experimental end of day interface usage

* adds ability to build the application

* Withdraw and event manager handling

* cleans up apiserver and communications manager

* Cleans up some start/setup processes. Though should separate

* More consistency with Setup Start Stop IsRunning funcs

* Final consistency pass before testing phase

* Fixes engine tests. Fixes stop nil issue

* api server tests

* Communications manager testing

* Connection manager tests and nilsubsystem error

* End of day currencypairsyncer tests

* Adds databaseconnection/databaseconnection_test.go

* Adds withdrawal manager tests

* Deposit address testing. Moved orderbook sync first as its more important

* Adds test for event manager

* More full eventmanager testing

* Adds testfile. Enables skipped test.

* ntp manager tests

* Adds ordermanager tests, Extracts a whole new subsystem from engine and fanangles import cycles

* Adds websocket routine manager tests

* Basic portfolio manager testing

* Fixes issue with currency pair sync startup

* Fixes issue with event manager startup

* Starts the order manager before backtester starts

* Fixes fee tests. Expands testing. Doesnt fix races

* Fixes most test races

* Resolves data races

* Fixes subsystem test issues

* currency pair syncer coverage tests

* Refactors portfolio. Fixes tests. Withdraw validation

Portfolio didn't need to exist with a portfolio manager. Now the porfolio manager
is in charge how the portfolio is handled and all portfolio functions are attached
to the base instead of just exported at the package level

Withdrawal validation occurred at the exchange level when it can just be run at the
withdrawal manager level. All withdrawal requests go through that endpoint

* lint -fix

* golang lint fixes

* lints and comments everything

* Updates GCT logo, adds documentation for some subsystems

* More documentation and more logo updates

* Fixes backtesting and apiserver errors encountered

* Fixes errors and typos from reviewing

* More minor fixes

* Changes %h verb to %w

* reverbs to %s

* Humbly begins reverting to more flat engine package

The main reasoning for this is that the subsystem split doesn't make sense
in a golang environment. The subsystems are only meant to be used with engine
and so by placing them in a non-engine area, it does not work and is
inconsistent with the rest of the application's package layout.

This will begin salvaging the changes made by reverting to a flat
engine package, but maintaining the consistent designs introduced.
Further, I will look to remove any TestMains and decrease the scope
of testing to be more local and decrease the issues that have been
caused from our style of testing.

* Manages to re-flatten things. Everything is within its own file

* mini fixes

* Fixes tests and data races and lints

* Updates docs tool for engine to create filename readmes

* os -> ioutil

* remove err

* Appveyor version increase test

* Removes tCleanup as its unsupported on appveyor

* Adds stuff that I thought was in previous merge master commit

* Removes cancel from test

* Fixes really fun test-exclusive data race

* minor nit fixes

* niterinos

* docs gen

* rm;rf test

* Remove typoline. expands startstop helper. Splits apiserver

* Removes accidental folder

* Uses update instead of replace for order upsert

* addresses nits. Renames files. Regenerates documentation.

* lint and removal of comments

* Add new test for default scenario

* Fixes typo

* regen docs
2021-05-31 10:17:12 +10:00

1041 lines
32 KiB
Go
Raw Blame History

package binance
import (
"bytes"
"context"
"encoding/json"
"errors"
"fmt"
"net/http"
"net/url"
"sort"
"strconv"
"time"
"github.com/thrasher-corp/gocryptotrader/common"
"github.com/thrasher-corp/gocryptotrader/common/convert"
"github.com/thrasher-corp/gocryptotrader/common/crypto"
"github.com/thrasher-corp/gocryptotrader/currency"
exchange "github.com/thrasher-corp/gocryptotrader/exchanges"
"github.com/thrasher-corp/gocryptotrader/exchanges/asset"
"github.com/thrasher-corp/gocryptotrader/exchanges/order"
"github.com/thrasher-corp/gocryptotrader/exchanges/request"
"github.com/thrasher-corp/gocryptotrader/log"
)
// Binance is the overarching type across the Binance package
type Binance struct {
exchange.Base
// Valid string list that is required by the exchange
validLimits []int
obm *orderbookManager
}
const (
apiURL = "https://api.binance.com"
spotAPIURL = "https://sapi.binance.com"
cfuturesAPIURL = "https://dapi.binance.com"
ufuturesAPIURL = "https://fapi.binance.com"
// Public endpoints
exchangeInfo = "/api/v3/exchangeInfo"
orderBookDepth = "/api/v3/depth"
recentTrades = "/api/v3/trades"
aggregatedTrades = "/api/v3/aggTrades"
candleStick = "/api/v3/klines"
averagePrice = "/api/v3/avgPrice"
priceChange = "/api/v3/ticker/24hr"
symbolPrice = "/api/v3/ticker/price"
bestPrice = "/api/v3/ticker/bookTicker"
userAccountStream = "/api/v3/userDataStream"
perpExchangeInfo = "/fapi/v1/exchangeInfo"
historicalTrades = "/api/v3/historicalTrades"
// Authenticated endpoints
newOrderTest = "/api/v3/order/test"
orderEndpoint = "/api/v3/order"
openOrders = "/api/v3/openOrders"
allOrders = "/api/v3/allOrders"
accountInfo = "/api/v3/account"
marginAccountInfo = "/sapi/v1/margin/account"
// Withdraw API endpoints
withdrawEndpoint = "/wapi/v3/withdraw.html"
depositHistory = "/wapi/v3/depositHistory.html"
withdrawalHistory = "/wapi/v3/withdrawHistory.html"
depositAddress = "/wapi/v3/depositAddress.html"
accountStatus = "/wapi/v3/accountStatus.html"
systemStatus = "/wapi/v3/systemStatus.html"
dustLog = "/wapi/v3/userAssetDribbletLog.html"
tradeFee = "/wapi/v3/tradeFee.html"
assetDetail = "/wapi/v3/assetDetail.html"
undocumentedInterestHistory = "/gateway-api/v1/public/isolated-margin/pair/vip-level"
undocumentedCrossMarginInterestHistory = "/gateway-api/v1/friendly/margin/vip/spec/list-all"
)
// GetInterestHistory gets interest history for currency/currencies provided
func (b *Binance) GetInterestHistory() (MarginInfoData, error) {
var resp MarginInfoData
if err := b.SendHTTPRequest(exchange.EdgeCase1, undocumentedInterestHistory, spotDefaultRate, &resp); err != nil {
return resp, err
}
return resp, nil
}
// GetCrossMarginInterestHistory gets cross-margin interest history for currency/currencies provided
func (b *Binance) GetCrossMarginInterestHistory() (CrossMarginInterestData, error) {
var resp CrossMarginInterestData
if err := b.SendHTTPRequest(exchange.EdgeCase1, undocumentedCrossMarginInterestHistory, spotDefaultRate, &resp); err != nil {
return resp, err
}
return resp, nil
}
// GetMarginMarkets returns exchange information. Check binance_types for more information
func (b *Binance) GetMarginMarkets() (PerpsExchangeInfo, error) {
var resp PerpsExchangeInfo
return resp, b.SendHTTPRequest(exchange.RestSpot, perpExchangeInfo, spotDefaultRate, &resp)
}
// GetExchangeInfo returns exchange information. Check binance_types for more
// information
func (b *Binance) GetExchangeInfo() (ExchangeInfo, error) {
var resp ExchangeInfo
return resp, b.SendHTTPRequest(exchange.RestSpotSupplementary, exchangeInfo, spotExchangeInfo, &resp)
}
// GetOrderBook returns full orderbook information
//
// OrderBookDataRequestParams contains the following members
// symbol: string of currency pair
// limit: returned limit amount
func (b *Binance) GetOrderBook(obd OrderBookDataRequestParams) (OrderBook, error) {
var orderbook OrderBook
if err := b.CheckLimit(obd.Limit); err != nil {
return orderbook, err
}
params := url.Values{}
symbol, err := b.FormatSymbol(obd.Symbol, asset.Spot)
if err != nil {
return orderbook, err
}
params.Set("symbol", symbol)
params.Set("limit", fmt.Sprintf("%d", obd.Limit))
var resp OrderBookData
if err := b.SendHTTPRequest(exchange.RestSpotSupplementary, orderBookDepth+"?"+params.Encode(), orderbookLimit(obd.Limit), &resp); err != nil {
return orderbook, err
}
for x := range resp.Bids {
price, err := strconv.ParseFloat(resp.Bids[x][0], 64)
if err != nil {
return orderbook, err
}
amount, err := strconv.ParseFloat(resp.Bids[x][1], 64)
if err != nil {
return orderbook, err
}
orderbook.Bids = append(orderbook.Bids, OrderbookItem{
Price: price,
Quantity: amount,
})
}
for x := range resp.Asks {
price, err := strconv.ParseFloat(resp.Asks[x][0], 64)
if err != nil {
return orderbook, err
}
amount, err := strconv.ParseFloat(resp.Asks[x][1], 64)
if err != nil {
return orderbook, err
}
orderbook.Asks = append(orderbook.Asks, OrderbookItem{
Price: price,
Quantity: amount,
})
}
orderbook.LastUpdateID = resp.LastUpdateID
return orderbook, nil
}
// GetMostRecentTrades returns recent trade activity
// limit: Up to 500 results returned
func (b *Binance) GetMostRecentTrades(rtr RecentTradeRequestParams) ([]RecentTrade, error) {
var resp []RecentTrade
params := url.Values{}
symbol, err := b.FormatSymbol(rtr.Symbol, asset.Spot)
if err != nil {
return nil, err
}
params.Set("symbol", symbol)
params.Set("limit", fmt.Sprintf("%d", rtr.Limit))
path := recentTrades + "?" + params.Encode()
return resp, b.SendHTTPRequest(exchange.RestSpotSupplementary, path, spotDefaultRate, &resp)
}
// GetHistoricalTrades returns historical trade activity
//
// symbol: string of currency pair
// limit: Optional. Default 500; max 1000.
// fromID:
func (b *Binance) GetHistoricalTrades(symbol string, limit int, fromID int64) ([]HistoricalTrade, error) {
var resp []HistoricalTrade
params := url.Values{}
params.Set("symbol", symbol)
params.Set("limit", fmt.Sprintf("%d", limit))
// else return most recent trades
if fromID > 0 {
params.Set("fromId", fmt.Sprintf("%d", fromID))
}
path := historicalTrades + "?" + params.Encode()
return resp, b.SendAPIKeyHTTPRequest(exchange.RestSpotSupplementary, path, spotDefaultRate, &resp)
}
// GetAggregatedTrades returns aggregated trade activity.
// If more than one hour of data is requested or asked limit is not supported by exchange
// then the trades are collected with multiple backend requests.
// https://binance-docs.github.io/apidocs/spot/en/#compressed-aggregate-trades-list
func (b *Binance) GetAggregatedTrades(arg *AggregatedTradeRequestParams) ([]AggregatedTrade, error) {
params := url.Values{}
symbol, err := b.FormatSymbol(arg.Symbol, asset.Spot)
if err != nil {
return nil, err
}
params.Set("symbol", symbol)
// if the user request is directly not supported by the exchange, we might be able to fulfill it
// by merging results from multiple API requests
needBatch := false
if arg.Limit > 0 {
if arg.Limit > 1000 {
// remote call doesn't support higher limits
needBatch = true
} else {
params.Set("limit", strconv.Itoa(arg.Limit))
}
}
if arg.FromID != 0 {
params.Set("fromId", strconv.FormatInt(arg.FromID, 10))
}
if !arg.StartTime.IsZero() {
params.Set("startTime", timeString(arg.StartTime))
}
if !arg.EndTime.IsZero() {
params.Set("endTime", timeString(arg.EndTime))
}
// startTime and endTime are set and time between startTime and endTime is more than 1 hour
needBatch = needBatch || (!arg.StartTime.IsZero() && !arg.EndTime.IsZero() && arg.EndTime.Sub(arg.StartTime) > time.Hour)
// Fall back to batch requests, if possible and necessary
if needBatch {
// fromId xor start time must be set
canBatch := arg.FromID == 0 != arg.StartTime.IsZero()
if canBatch {
// Split the request into multiple
return b.batchAggregateTrades(arg, params)
}
// Can't handle this request locally or remotely
// We would receive {"code":-1128,"msg":"Combination of optional parameters invalid."}
return nil, errors.New("please set StartTime or FromId, but not both")
}
var resp []AggregatedTrade
path := aggregatedTrades + "?" + params.Encode()
return resp, b.SendHTTPRequest(exchange.RestSpotSupplementary, path, spotDefaultRate, &resp)
}
// batchAggregateTrades fetches trades in multiple requests
// first phase, hourly requests until the first trade (or end time) is reached
// second phase, limit requests from previous trade until end time (or limit) is reached
func (b *Binance) batchAggregateTrades(arg *AggregatedTradeRequestParams, params url.Values) ([]AggregatedTrade, error) {
var resp []AggregatedTrade
// prepare first request with only first hour and max limit
if arg.Limit == 0 || arg.Limit > 1000 {
// Extend from the default of 500
params.Set("limit", "1000")
}
var fromID int64
if arg.FromID > 0 {
fromID = arg.FromID
} else {
for start := arg.StartTime; len(resp) == 0; start = start.Add(time.Hour) {
if !arg.EndTime.IsZero() && !start.Before(arg.EndTime) {
// All requests returned empty
return nil, nil
}
params.Set("startTime", timeString(start))
params.Set("endTime", timeString(start.Add(time.Hour)))
path := aggregatedTrades + "?" + params.Encode()
err := b.SendHTTPRequest(exchange.RestSpotSupplementary, path, spotDefaultRate, &resp)
if err != nil {
log.Warn(log.ExchangeSys, err.Error())
return resp, err
}
}
fromID = resp[len(resp)-1].ATradeID
}
// other requests follow from the last aggregate trade id and have no time window
params.Del("startTime")
params.Del("endTime")
// while we haven't reached the limit
for ; arg.Limit == 0 || len(resp) < arg.Limit; fromID = resp[len(resp)-1].ATradeID {
// Keep requesting new data after last retrieved trade
params.Set("fromId", strconv.FormatInt(fromID, 10))
path := aggregatedTrades + "?" + params.Encode()
var additionalTrades []AggregatedTrade
err := b.SendHTTPRequest(exchange.RestSpotSupplementary, path, spotDefaultRate, &additionalTrades)
if err != nil {
return resp, err
}
lastIndex := len(additionalTrades)
if !arg.EndTime.IsZero() {
// get index for truncating to end time
lastIndex = sort.Search(len(additionalTrades), func(i int) bool {
return arg.EndTime.Before(additionalTrades[i].TimeStamp)
})
}
// don't include the first as the request was inclusive from last ATradeID
resp = append(resp, additionalTrades[1:lastIndex]...)
// If only the starting trade is returned or if we received trades after end time
if len(additionalTrades) == 1 || lastIndex < len(additionalTrades) {
// We found the end
break
}
}
// Truncate if necessary
if arg.Limit > 0 && len(resp) > arg.Limit {
resp = resp[:arg.Limit]
}
return resp, nil
}
// GetSpotKline returns kline data
//
// KlinesRequestParams supports 5 parameters
// symbol: the symbol to get the kline data for
// limit: optinal
// interval: the interval time for the data
// startTime: startTime filter for kline data
// endTime: endTime filter for the kline data
func (b *Binance) GetSpotKline(arg *KlinesRequestParams) ([]CandleStick, error) {
var resp interface{}
var klineData []CandleStick
params := url.Values{}
symbol, err := b.FormatSymbol(arg.Symbol, asset.Spot)
if err != nil {
return nil, err
}
params.Set("symbol", symbol)
params.Set("interval", arg.Interval)
if arg.Limit != 0 {
params.Set("limit", strconv.Itoa(arg.Limit))
}
if !arg.StartTime.IsZero() {
params.Set("startTime", timeString(arg.StartTime))
}
if !arg.EndTime.IsZero() {
params.Set("endTime", timeString(arg.EndTime))
}
path := candleStick + "?" + params.Encode()
if err := b.SendHTTPRequest(exchange.RestSpotSupplementary, path, spotDefaultRate, &resp); err != nil {
return klineData, err
}
for _, responseData := range resp.([]interface{}) {
var candle CandleStick
for i, individualData := range responseData.([]interface{}) {
switch i {
case 0:
tempTime := individualData.(float64)
var err error
candle.OpenTime, err = convert.TimeFromUnixTimestampFloat(tempTime)
if err != nil {
return klineData, err
}
case 1:
candle.Open, _ = strconv.ParseFloat(individualData.(string), 64)
case 2:
candle.High, _ = strconv.ParseFloat(individualData.(string), 64)
case 3:
candle.Low, _ = strconv.ParseFloat(individualData.(string), 64)
case 4:
candle.Close, _ = strconv.ParseFloat(individualData.(string), 64)
case 5:
candle.Volume, _ = strconv.ParseFloat(individualData.(string), 64)
case 6:
tempTime := individualData.(float64)
var err error
candle.CloseTime, err = convert.TimeFromUnixTimestampFloat(tempTime)
if err != nil {
return klineData, err
}
case 7:
candle.QuoteAssetVolume, _ = strconv.ParseFloat(individualData.(string), 64)
case 8:
candle.TradeCount = individualData.(float64)
case 9:
candle.TakerBuyAssetVolume, _ = strconv.ParseFloat(individualData.(string), 64)
case 10:
candle.TakerBuyQuoteAssetVolume, _ = strconv.ParseFloat(individualData.(string), 64)
}
}
klineData = append(klineData, candle)
}
return klineData, nil
}
// GetAveragePrice returns current average price for a symbol.
//
// symbol: string of currency pair
func (b *Binance) GetAveragePrice(symbol currency.Pair) (AveragePrice, error) {
resp := AveragePrice{}
params := url.Values{}
symbolValue, err := b.FormatSymbol(symbol, asset.Spot)
if err != nil {
return resp, err
}
params.Set("symbol", symbolValue)
path := averagePrice + "?" + params.Encode()
return resp, b.SendHTTPRequest(exchange.RestSpotSupplementary, path, spotDefaultRate, &resp)
}
// GetPriceChangeStats returns price change statistics for the last 24 hours
//
// symbol: string of currency pair
func (b *Binance) GetPriceChangeStats(symbol currency.Pair) (PriceChangeStats, error) {
resp := PriceChangeStats{}
params := url.Values{}
rateLimit := spotPriceChangeAllRate
if !symbol.IsEmpty() {
rateLimit = spotDefaultRate
symbolValue, err := b.FormatSymbol(symbol, asset.Spot)
if err != nil {
return resp, err
}
params.Set("symbol", symbolValue)
}
path := priceChange + "?" + params.Encode()
return resp, b.SendHTTPRequest(exchange.RestSpotSupplementary, path, rateLimit, &resp)
}
// GetTickers returns the ticker data for the last 24 hrs
func (b *Binance) GetTickers() ([]PriceChangeStats, error) {
var resp []PriceChangeStats
return resp, b.SendHTTPRequest(exchange.RestSpotSupplementary, priceChange, spotPriceChangeAllRate, &resp)
}
// GetLatestSpotPrice returns latest spot price of symbol
//
// symbol: string of currency pair
func (b *Binance) GetLatestSpotPrice(symbol currency.Pair) (SymbolPrice, error) {
resp := SymbolPrice{}
params := url.Values{}
rateLimit := spotSymbolPriceAllRate
if !symbol.IsEmpty() {
rateLimit = spotDefaultRate
symbolValue, err := b.FormatSymbol(symbol, asset.Spot)
if err != nil {
return resp, err
}
params.Set("symbol", symbolValue)
}
path := symbolPrice + "?" + params.Encode()
return resp, b.SendHTTPRequest(exchange.RestSpotSupplementary, path, rateLimit, &resp)
}
// GetBestPrice returns the latest best price for symbol
//
// symbol: string of currency pair
func (b *Binance) GetBestPrice(symbol currency.Pair) (BestPrice, error) {
resp := BestPrice{}
params := url.Values{}
rateLimit := spotOrderbookTickerAllRate
if !symbol.IsEmpty() {
rateLimit = spotDefaultRate
symbolValue, err := b.FormatSymbol(symbol, asset.Spot)
if err != nil {
return resp, err
}
params.Set("symbol", symbolValue)
}
path := bestPrice + "?" + params.Encode()
return resp, b.SendHTTPRequest(exchange.RestSpotSupplementary, path, rateLimit, &resp)
}
// NewOrder sends a new order to Binance
func (b *Binance) NewOrder(o *NewOrderRequest) (NewOrderResponse, error) {
var resp NewOrderResponse
if err := b.newOrder(orderEndpoint, o, &resp); err != nil {
return resp, err
}
if resp.Code != 0 {
return resp, errors.New(resp.Msg)
}
return resp, nil
}
// NewOrderTest sends a new test order to Binance
func (b *Binance) NewOrderTest(o *NewOrderRequest) error {
var resp NewOrderResponse
return b.newOrder(newOrderTest, o, &resp)
}
func (b *Binance) newOrder(api string, o *NewOrderRequest, resp *NewOrderResponse) error {
params := url.Values{}
symbol, err := b.FormatSymbol(o.Symbol, asset.Spot)
if err != nil {
return err
}
params.Set("symbol", symbol)
params.Set("side", o.Side)
params.Set("type", string(o.TradeType))
if o.QuoteOrderQty > 0 {
params.Set("quoteOrderQty", strconv.FormatFloat(o.QuoteOrderQty, 'f', -1, 64))
} else {
params.Set("quantity", strconv.FormatFloat(o.Quantity, 'f', -1, 64))
}
if o.TradeType == BinanceRequestParamsOrderLimit {
params.Set("price", strconv.FormatFloat(o.Price, 'f', -1, 64))
}
if o.TimeInForce != "" {
params.Set("timeInForce", string(o.TimeInForce))
}
if o.NewClientOrderID != "" {
params.Set("newClientOrderID", o.NewClientOrderID)
}
if o.StopPrice != 0 {
params.Set("stopPrice", strconv.FormatFloat(o.StopPrice, 'f', -1, 64))
}
if o.IcebergQty != 0 {
params.Set("icebergQty", strconv.FormatFloat(o.IcebergQty, 'f', -1, 64))
}
if o.NewOrderRespType != "" {
params.Set("newOrderRespType", o.NewOrderRespType)
}
return b.SendAuthHTTPRequest(exchange.RestSpotSupplementary, http.MethodPost, api, params, spotOrderRate, resp)
}
// CancelExistingOrder sends a cancel order to Binance
func (b *Binance) CancelExistingOrder(symbol currency.Pair, orderID int64, origClientOrderID string) (CancelOrderResponse, error) {
var resp CancelOrderResponse
symbolValue, err := b.FormatSymbol(symbol, asset.Spot)
if err != nil {
return resp, err
}
params := url.Values{}
params.Set("symbol", symbolValue)
if orderID != 0 {
params.Set("orderId", strconv.FormatInt(orderID, 10))
}
if origClientOrderID != "" {
params.Set("origClientOrderId", origClientOrderID)
}
return resp, b.SendAuthHTTPRequest(exchange.RestSpotSupplementary, http.MethodDelete, orderEndpoint, params, spotOrderRate, &resp)
}
// OpenOrders Current open orders. Get all open orders on a symbol.
// Careful when accessing this with no symbol: The number of requests counted against the rate limiter
// is significantly higher
func (b *Binance) OpenOrders(pair currency.Pair) ([]QueryOrderData, error) {
var resp []QueryOrderData
params := url.Values{}
var p string
var err error
if !pair.IsEmpty() {
p, err = b.FormatSymbol(pair, asset.Spot)
if err != nil {
return nil, err
}
params.Add("symbol", p)
} else {
// extend the receive window when all currencies to prevent "recvwindow" error
params.Set("recvWindow", "10000")
}
if err := b.SendAuthHTTPRequest(exchange.RestSpotSupplementary, http.MethodGet, openOrders, params, openOrdersLimit(p), &resp); err != nil {
return resp, err
}
return resp, nil
}
// AllOrders Get all account orders; active, canceled, or filled.
// orderId optional param
// limit optional param, default 500; max 500
func (b *Binance) AllOrders(symbol currency.Pair, orderID, limit string) ([]QueryOrderData, error) {
var resp []QueryOrderData
params := url.Values{}
symbolValue, err := b.FormatSymbol(symbol, asset.Spot)
if err != nil {
return resp, err
}
params.Set("symbol", symbolValue)
if orderID != "" {
params.Set("orderId", orderID)
}
if limit != "" {
params.Set("limit", limit)
}
if err := b.SendAuthHTTPRequest(exchange.RestSpotSupplementary, http.MethodGet, allOrders, params, spotAllOrdersRate, &resp); err != nil {
return resp, err
}
return resp, nil
}
// QueryOrder returns information on a past order
func (b *Binance) QueryOrder(symbol currency.Pair, origClientOrderID string, orderID int64) (QueryOrderData, error) {
var resp QueryOrderData
params := url.Values{}
symbolValue, err := b.FormatSymbol(symbol, asset.Spot)
if err != nil {
return resp, err
}
params.Set("symbol", symbolValue)
if origClientOrderID != "" {
params.Set("origClientOrderId", origClientOrderID)
}
if orderID != 0 {
params.Set("orderId", strconv.FormatInt(orderID, 10))
}
if err := b.SendAuthHTTPRequest(exchange.RestSpotSupplementary, http.MethodGet, orderEndpoint, params, spotOrderQueryRate, &resp); err != nil {
return resp, err
}
if resp.Code != 0 {
return resp, errors.New(resp.Msg)
}
return resp, nil
}
// GetAccount returns binance user accounts
func (b *Binance) GetAccount() (*Account, error) {
type response struct {
Response
Account
}
var resp response
params := url.Values{}
if err := b.SendAuthHTTPRequest(exchange.RestSpotSupplementary, http.MethodGet, accountInfo, params, spotAccountInformationRate, &resp); err != nil {
return &resp.Account, err
}
if resp.Code != 0 {
return &resp.Account, errors.New(resp.Msg)
}
return &resp.Account, nil
}
func (b *Binance) GetMarginAccount() (*MarginAccount, error) {
var resp MarginAccount
params := url.Values{}
if err := b.SendAuthHTTPRequest(exchange.RestSpotSupplementary, http.MethodGet, marginAccountInfo, params, spotAccountInformationRate, &resp); err != nil {
return &resp, err
}
return &resp, nil
}
// SendHTTPRequest sends an unauthenticated request
func (b *Binance) SendHTTPRequest(ePath exchange.URL, path string, f request.EndpointLimit, result interface{}) error {
endpointPath, err := b.API.Endpoints.GetURL(ePath)
if err != nil {
return err
}
return b.SendPayload(context.Background(), &request.Item{
Method: http.MethodGet,
Path: endpointPath + path,
Result: result,
Verbose: b.Verbose,
HTTPDebugging: b.HTTPDebugging,
HTTPRecording: b.HTTPRecording,
Endpoint: f})
}
func (b *Binance) SendAPIKeyHTTPRequest(ePath exchange.URL, path string, f request.EndpointLimit, result interface{}) error {
endpointPath, err := b.API.Endpoints.GetURL(ePath)
if err != nil {
return err
}
headers := make(map[string]string)
headers["X-MBX-APIKEY"] = b.API.Credentials.Key
return b.SendPayload(context.Background(), &request.Item{
Method: http.MethodGet,
Path: endpointPath + path,
Headers: headers,
Result: result,
Verbose: b.Verbose,
HTTPDebugging: b.HTTPDebugging,
HTTPRecording: b.HTTPRecording,
Endpoint: f})
}
// SendAuthHTTPRequest sends an authenticated HTTP request
func (b *Binance) SendAuthHTTPRequest(ePath exchange.URL, method, path string, params url.Values, f request.EndpointLimit, result interface{}) error {
if !b.AllowAuthenticatedRequest() {
return fmt.Errorf("%s %w", b.Name, exchange.ErrAuthenticatedRequestWithoutCredentialsSet)
}
endpointPath, err := b.API.Endpoints.GetURL(ePath)
if err != nil {
return err
}
path = endpointPath + path
if params == nil {
params = url.Values{}
}
recvWindow := 5 * time.Second
if params.Get("recvWindow") != "" {
// convert recvWindow value into time.Duration
var recvWindowParam int64
recvWindowParam, err = convert.Int64FromString(params.Get("recvWindow"))
if err != nil {
return err
}
recvWindow = time.Duration(recvWindowParam) * time.Millisecond
} else {
params.Set("recvWindow", strconv.FormatInt(convert.RecvWindow(recvWindow), 10))
}
params.Set("recvWindow", strconv.FormatInt(convert.RecvWindow(recvWindow), 10))
params.Set("timestamp", strconv.FormatInt(time.Now().Unix()*1000, 10))
signature := params.Encode()
hmacSigned := crypto.GetHMAC(crypto.HashSHA256, []byte(signature), []byte(b.API.Credentials.Secret))
hmacSignedStr := crypto.HexEncodeToString(hmacSigned)
headers := make(map[string]string)
headers["X-MBX-APIKEY"] = b.API.Credentials.Key
if b.Verbose {
log.Debugf(log.ExchangeSys, "sent path: %s", path)
}
path = common.EncodeURLValues(path, params)
path += "&signature=" + hmacSignedStr
interim := json.RawMessage{}
errCap := struct {
Success bool `json:"success"`
Message string `json:"msg"`
Code int64 `json:"code"`
}{}
ctx, cancel := context.WithTimeout(context.Background(), recvWindow)
defer cancel()
err = b.SendPayload(ctx, &request.Item{
Method: method,
Path: path,
Headers: headers,
Body: bytes.NewBuffer(nil),
Result: &interim,
AuthRequest: true,
Verbose: b.Verbose,
HTTPDebugging: b.HTTPDebugging,
HTTPRecording: b.HTTPRecording,
Endpoint: f})
if err != nil {
return err
}
if err := json.Unmarshal(interim, &errCap); err == nil {
if !errCap.Success && errCap.Message != "" && errCap.Code != 200 {
return errors.New(errCap.Message)
}
}
return json.Unmarshal(interim, result)
}
// CheckLimit checks value against a variable list
func (b *Binance) CheckLimit(limit int) error {
for x := range b.validLimits {
if b.validLimits[x] == limit {
return nil
}
}
return errors.New("incorrect limit values - valid values are 5, 10, 20, 50, 100, 500, 1000")
}
// SetValues sets the default valid values
func (b *Binance) SetValues() {
b.validLimits = []int{5, 10, 20, 50, 100, 500, 1000, 5000}
}
// GetFee returns an estimate of fee based on type of transaction
func (b *Binance) GetFee(feeBuilder *exchange.FeeBuilder) (float64, error) {
var fee float64
switch feeBuilder.FeeType {
case exchange.CryptocurrencyTradeFee:
multiplier, err := b.getMultiplier(feeBuilder.IsMaker)
if err != nil {
return 0, err
}
fee = calculateTradingFee(feeBuilder.PurchasePrice, feeBuilder.Amount, multiplier)
case exchange.CryptocurrencyWithdrawalFee:
fee = getCryptocurrencyWithdrawalFee(feeBuilder.Pair.Base)
case exchange.OfflineTradeFee:
fee = getOfflineTradeFee(feeBuilder.PurchasePrice, feeBuilder.Amount)
}
if fee < 0 {
fee = 0
}
return fee, nil
}
// getOfflineTradeFee calculates the worst case-scenario trading fee
func getOfflineTradeFee(price, amount float64) float64 {
return 0.002 * price * amount
}
// getMultiplier retrieves account based taker/maker fees
func (b *Binance) getMultiplier(isMaker bool) (float64, error) {
var multiplier float64
account, err := b.GetAccount()
if err != nil {
return 0, err
}
if isMaker {
multiplier = float64(account.MakerCommission)
} else {
multiplier = float64(account.TakerCommission)
}
return multiplier, nil
}
// calculateTradingFee returns the fee for trading any currency on Bittrex
func calculateTradingFee(purchasePrice, amount, multiplier float64) float64 {
return (multiplier / 100) * purchasePrice * amount
}
// getCryptocurrencyWithdrawalFee returns the fee for withdrawing from the exchange
func getCryptocurrencyWithdrawalFee(c currency.Code) float64 {
return WithdrawalFees[c]
}
// WithdrawCrypto sends cryptocurrency to the address of your choosing
func (b *Binance) WithdrawCrypto(asset, address, addressTag, name, amount string) (string, error) {
var resp WithdrawResponse
params := url.Values{}
params.Set("asset", asset)
params.Set("address", address)
params.Set("amount", amount)
if len(name) > 0 {
params.Set("name", name)
}
if len(addressTag) > 0 {
params.Set("addressTag", addressTag)
}
if err := b.SendAuthHTTPRequest(exchange.RestSpotSupplementary, http.MethodPost, withdrawEndpoint, params, spotDefaultRate, &resp); err != nil {
return "", err
}
if !resp.Success {
return resp.ID, errors.New(resp.Msg)
}
return resp.ID, nil
}
// WithdrawStatus gets the status of recent withdrawals
// status `param` used as string to prevent default value 0 (for int) interpreting as EmailSent status
func (b *Binance) WithdrawStatus(c currency.Code, status string, startTime, endTime int64) ([]WithdrawStatusResponse, error) {
var response struct {
Success bool `json:"success"`
WithdrawList []WithdrawStatusResponse `json:"withdrawList"`
}
params := url.Values{}
params.Set("asset", c.String())
if status != "" {
i, err := strconv.Atoi(status)
if err != nil {
return response.WithdrawList, fmt.Errorf("wrong param (status): %s. Error: %v", status, err)
}
switch i {
case EmailSent, Cancelled, AwaitingApproval, Rejected, Processing, Failure, Completed:
default:
return response.WithdrawList, fmt.Errorf("wrong param (status): %s", status)
}
params.Set("status", status)
}
if startTime > 0 {
params.Set("startTime", strconv.FormatInt(startTime, 10))
}
if endTime > 0 {
params.Set("endTime", strconv.FormatInt(endTime, 10))
}
if err := b.SendAuthHTTPRequest(exchange.RestSpotSupplementary, http.MethodGet, withdrawalHistory, params, spotDefaultRate, &response); err != nil {
return response.WithdrawList, err
}
return response.WithdrawList, nil
}
// GetDepositAddressForCurrency retrieves the wallet address for a given currency
func (b *Binance) GetDepositAddressForCurrency(currency string) (string, error) {
resp := struct {
Address string `json:"address"`
Success bool `json:"success"`
AddressTag string `json:"addressTag"`
}{}
params := url.Values{}
params.Set("asset", currency)
params.Set("status", "true")
params.Set("recvWindow", "10000")
return resp.Address,
b.SendAuthHTTPRequest(exchange.RestSpotSupplementary, http.MethodGet, depositAddress, params, spotDefaultRate, &resp)
}
// GetWsAuthStreamKey will retrieve a key to use for authorised WS streaming
func (b *Binance) GetWsAuthStreamKey() (string, error) {
endpointPath, err := b.API.Endpoints.GetURL(exchange.RestSpotSupplementary)
if err != nil {
return "", err
}
var resp UserAccountStream
path := endpointPath + userAccountStream
headers := make(map[string]string)
headers["X-MBX-APIKEY"] = b.API.Credentials.Key
err = b.SendPayload(context.Background(), &request.Item{
Method: http.MethodPost,
Path: path,
Headers: headers,
Body: bytes.NewBuffer(nil),
Result: &resp,
AuthRequest: true,
Verbose: b.Verbose,
HTTPDebugging: b.HTTPDebugging,
HTTPRecording: b.HTTPRecording,
})
if err != nil {
return "", err
}
return resp.ListenKey, nil
}
// MaintainWsAuthStreamKey will keep the key alive
func (b *Binance) MaintainWsAuthStreamKey() error {
endpointPath, err := b.API.Endpoints.GetURL(exchange.RestSpotSupplementary)
if err != nil {
return err
}
if listenKey == "" {
listenKey, err = b.GetWsAuthStreamKey()
return err
}
path := endpointPath + userAccountStream
params := url.Values{}
params.Set("listenKey", listenKey)
path = common.EncodeURLValues(path, params)
headers := make(map[string]string)
headers["X-MBX-APIKEY"] = b.API.Credentials.Key
return b.SendPayload(context.Background(), &request.Item{
Method: http.MethodPut,
Path: path,
Headers: headers,
Body: bytes.NewBuffer(nil),
AuthRequest: true,
Verbose: b.Verbose,
HTTPDebugging: b.HTTPDebugging,
HTTPRecording: b.HTTPRecording,
})
}
// FetchSpotExchangeLimits fetches spot order execution limits
func (b *Binance) FetchSpotExchangeLimits() ([]order.MinMaxLevel, error) {
var limits []order.MinMaxLevel
spot, err := b.GetExchangeInfo()
if err != nil {
return nil, err
}
for x := range spot.Symbols {
var cp currency.Pair
cp, err = currency.NewPairFromStrings(spot.Symbols[x].BaseAsset,
spot.Symbols[x].QuoteAsset)
if err != nil {
return nil, err
}
var assets []asset.Item
for y := range spot.Symbols[x].Permissions {
switch spot.Symbols[x].Permissions[y] {
case "SPOT":
assets = append(assets, asset.Spot)
case "MARGIN":
assets = append(assets, asset.Margin)
case "LEVERAGED": // leveraged tokens not available for spot trading
default:
return nil, fmt.Errorf("unhandled asset type for exchange limits loading %s",
spot.Symbols[x].Permissions[y])
}
}
for z := range assets {
if len(spot.Symbols[x].Filters) < 8 {
continue
}
limits = append(limits, order.MinMaxLevel{
Pair: cp,
Asset: assets[z],
MinPrice: spot.Symbols[x].Filters[0].MinPrice,
MaxPrice: spot.Symbols[x].Filters[0].MaxPrice,
StepPrice: spot.Symbols[x].Filters[0].TickSize,
MultiplierUp: spot.Symbols[x].Filters[1].MultiplierUp,
MultiplierDown: spot.Symbols[x].Filters[1].MultiplierDown,
AveragePriceMinutes: spot.Symbols[x].Filters[1].AvgPriceMinutes,
MaxAmount: spot.Symbols[x].Filters[2].MaxQty,
MinAmount: spot.Symbols[x].Filters[2].MinQty,
StepAmount: spot.Symbols[x].Filters[2].StepSize,
MinNotional: spot.Symbols[x].Filters[3].MinNotional,
MaxIcebergParts: spot.Symbols[x].Filters[4].Limit,
MarketMinQty: spot.Symbols[x].Filters[5].MinQty,
MarketMaxQty: spot.Symbols[x].Filters[5].MaxQty,
MarketStepSize: spot.Symbols[x].Filters[5].StepSize,
MaxTotalOrders: spot.Symbols[x].Filters[6].MaxNumOrders,
MaxAlgoOrders: spot.Symbols[x].Filters[7].MaxNumAlgoOrders,
})
}
}
return limits, nil
}
Reference in New Issue View Git Blame Copy Permalink