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6d8ba0a96ada81d723474d922e95e6437eb53fa2
gocryptotrader/exchanges/bitstamp/bitstamp.go
Ryan O'Hara-Reid 6d8ba0a96a Initial implementation of HTTP mock testing framework (#310) 
* Initial implementation of HTTP mock testing framework

Convert to VCR testing server. Segregate live testing via build tags.

Converted Binance to VCR server

Convert Bitstamp to VCR mocking tests

Added VCR mock testing for localbitcoins

* Add server generation for concurrent testing

* Fix linter issues

* Fix linter issue

* fix race - potentially

* revert auto assigning of host vals

* Fix requested changes

* Adds mock testing for ANX
Switch to using TestMain functionality
Added cron job usage for travis-ci to live testing
Added appveyor scheduled build check for live testing

* WOOPS

* silly correction

* Fixes fantastic linter issues

* fixed another whoopsie

* WOOO!

* Adds gemini mock testing with additional fixes

* Add docs and sharedvalue

* Added tls using httptest package

* Fixed issues

* added explicit mock recording reference to error

* Fix requested changes

* strip port from mock files as they are not needed on tls server

* Change incorrect names

* fix requested changes

* lbank update

* Fix another issue

* Updated readme
2019-08-23 15:20:02 +10:00

775 lines
22 KiB
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package bitstamp
import (
"bytes"
"encoding/json"
"errors"
"fmt"
"net/http"
"net/url"
"reflect"
"strconv"
"strings"
"time"
"github.com/thrasher-corp/gocryptotrader/common"
"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/request"
"github.com/thrasher-corp/gocryptotrader/exchanges/ticker"
"github.com/thrasher-corp/gocryptotrader/exchanges/websocket/wshandler"
log "github.com/thrasher-corp/gocryptotrader/logger"
)
const (
bitstampAPIURL = "https://www.bitstamp.net/api"
bitstampAPIVersion = "2"
bitstampAPITicker = "ticker"
bitstampAPITickerHourly = "ticker_hour"
bitstampAPIOrderbook = "order_book"
bitstampAPITransactions = "transactions"
bitstampAPIEURUSD = "eur_usd"
bitstampAPIBalance = "balance"
bitstampAPIUserTransactions = "user_transactions"
bitstampAPIOpenOrders = "open_orders"
bitstampAPIOrderStatus = "order_status"
bitstampAPICancelOrder = "cancel_order"
bitstampAPICancelAllOrders = "cancel_all_orders"
bitstampAPIBuy = "buy"
bitstampAPISell = "sell"
bitstampAPIMarket = "market"
bitstampAPIWithdrawalRequests = "withdrawal_requests"
bitstampAPIOpenWithdrawal = "withdrawal/open"
bitstampAPIBitcoinWithdrawal = "bitcoin_withdrawal"
bitstampAPILTCWithdrawal = "ltc_withdrawal"
bitstampAPIETHWithdrawal = "eth_withdrawal"
bitstampAPIBitcoinDeposit = "bitcoin_deposit_address"
bitstampAPILitecoinDeposit = "ltc_address"
bitstampAPIEthereumDeposit = "eth_address"
bitstampAPIBitcoinCashDeposit = "bch_address"
bitstampAPIUnconfirmedBitcoin = "unconfirmed_btc"
bitstampAPITransferToMain = "transfer-to-main"
bitstampAPITransferFromMain = "transfer-from-main"
bitstampAPIXrpWithdrawal = "xrp_withdrawal"
bitstampAPIXrpDeposit = "xrp_address"
bitstampAPIReturnType = "string"
bitstampAPITradingPairsInfo = "trading-pairs-info"
bitstampAuthRate = 600
bitstampUnauthRate = 600
)
// Bitstamp is the overarching type across the bitstamp package
type Bitstamp struct {
exchange.Base
Balance Balances
WebsocketConn *wshandler.WebsocketConnection
}
// SetDefaults sets default for Bitstamp
func (b *Bitstamp) SetDefaults() {
b.Name = "Bitstamp"
b.Enabled = false
b.Verbose = false
b.RESTPollingDelay = 10
b.APIWithdrawPermissions = exchange.AutoWithdrawCrypto |
exchange.AutoWithdrawFiat
b.RequestCurrencyPairFormat.Delimiter = ""
b.RequestCurrencyPairFormat.Uppercase = true
b.ConfigCurrencyPairFormat.Delimiter = ""
b.ConfigCurrencyPairFormat.Uppercase = true
b.AssetTypes = []string{ticker.Spot}
b.SupportsAutoPairUpdating = true
b.SupportsRESTTickerBatching = false
b.Requester = request.New(b.Name,
request.NewRateLimit(time.Minute*10, bitstampAuthRate),
request.NewRateLimit(time.Minute*10, bitstampUnauthRate),
common.NewHTTPClientWithTimeout(exchange.DefaultHTTPTimeout))
b.APIUrlDefault = bitstampAPIURL
b.APIUrl = b.APIUrlDefault
b.Websocket = wshandler.New()
b.Websocket.Functionality = wshandler.WebsocketOrderbookSupported |
wshandler.WebsocketTradeDataSupported |
wshandler.WebsocketSubscribeSupported |
wshandler.WebsocketUnsubscribeSupported
b.WebsocketResponseMaxLimit = exchange.DefaultWebsocketResponseMaxLimit
b.WebsocketResponseCheckTimeout = exchange.DefaultWebsocketResponseCheckTimeout
b.WebsocketOrderbookBufferLimit = exchange.DefaultWebsocketOrderbookBufferLimit
}
// Setup sets configuration values to bitstamp
func (b *Bitstamp) Setup(exch *config.ExchangeConfig) {
if !exch.Enabled {
b.SetEnabled(false)
} else {
b.Enabled = true
b.AuthenticatedAPISupport = exch.AuthenticatedAPISupport
b.SetAPIKeys(exch.APIKey, exch.APISecret, exch.ClientID, false)
b.SetHTTPClientTimeout(exch.HTTPTimeout)
b.SetHTTPClientUserAgent(exch.HTTPUserAgent)
b.RESTPollingDelay = exch.RESTPollingDelay
b.Verbose = exch.Verbose
b.HTTPDebugging = exch.HTTPDebugging
b.Websocket.SetWsStatusAndConnection(exch.Websocket)
b.BaseCurrencies = exch.BaseCurrencies
b.AvailablePairs = exch.AvailablePairs
b.EnabledPairs = exch.EnabledPairs
b.APIKey = exch.APIKey
b.APISecret = exch.APISecret
b.SetAPIKeys(exch.APIKey, exch.APISecret, b.ClientID, false)
b.AuthenticatedAPISupport = true
b.WebsocketURL = bitstampWSURL
err := b.SetCurrencyPairFormat()
if err != nil {
log.Fatal(err)
}
err = b.SetAssetTypes()
if err != nil {
log.Fatal(err)
}
err = b.SetAutoPairDefaults()
if err != nil {
log.Fatal(err)
}
err = b.SetAPIURL(exch)
if err != nil {
log.Fatal(err)
}
err = b.SetClientProxyAddress(exch.ProxyAddress)
if err != nil {
log.Fatal(err)
}
err = b.Websocket.Setup(b.WsConnect,
b.Subscribe,
b.Unsubscribe,
exch.Name,
exch.Websocket,
exch.Verbose,
bitstampWSURL,
exch.WebsocketURL,
exch.AuthenticatedWebsocketAPISupport)
if err != nil {
log.Fatal(err)
}
b.WebsocketConn = &wshandler.WebsocketConnection{
ExchangeName: b.Name,
URL: b.Websocket.GetWebsocketURL(),
ProxyURL: b.Websocket.GetProxyAddress(),
Verbose: b.Verbose,
ResponseCheckTimeout: exch.WebsocketResponseCheckTimeout,
ResponseMaxLimit: exch.WebsocketResponseMaxLimit,
}
b.Websocket.Orderbook.Setup(
exch.WebsocketOrderbookBufferLimit,
true,
true,
true,
false,
exch.Name)
}
}
// GetFee returns an estimate of fee based on type of transaction
func (b *Bitstamp) GetFee(feeBuilder *exchange.FeeBuilder) (float64, error) {
var fee float64
switch feeBuilder.FeeType {
case exchange.CryptocurrencyTradeFee:
var err error
b.Balance, err = b.GetBalance()
if err != nil {
return 0, err
}
fee = b.CalculateTradingFee(feeBuilder.Pair.Base,
feeBuilder.Pair.Quote,
feeBuilder.PurchasePrice,
feeBuilder.Amount)
case exchange.CyptocurrencyDepositFee:
fee = 0
case exchange.InternationalBankDepositFee:
fee = getInternationalBankDepositFee(feeBuilder.Amount)
case exchange.InternationalBankWithdrawalFee:
fee = getInternationalBankWithdrawalFee(feeBuilder.Amount)
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 0.0025 * price * amount
}
// getInternationalBankWithdrawalFee returns international withdrawal fee
func getInternationalBankWithdrawalFee(amount float64) float64 {
fee := amount * 0.0009
if fee < 15 {
return 15
}
return fee
}
// getInternationalBankDepositFee returns international deposit fee
func getInternationalBankDepositFee(amount float64) float64 {
fee := amount * 0.0005
if fee < 7.5 {
return 7.5
}
if fee > 300 {
return 300
}
return fee
}
// CalculateTradingFee returns fee on a currency pair
func (b *Bitstamp) CalculateTradingFee(base, quote currency.Code, purchasePrice, amount float64) float64 {
var fee float64
switch base.String() + quote.String() {
case currency.BTC.String() + currency.USD.String():
fee = b.Balance.BTCUSDFee
case currency.BTC.String() + currency.EUR.String():
fee = b.Balance.BTCEURFee
case currency.XRP.String() + currency.EUR.String():
fee = b.Balance.XRPEURFee
case currency.XRP.String() + currency.USD.String():
fee = b.Balance.XRPUSDFee
case currency.EUR.String() + currency.USD.String():
fee = b.Balance.EURUSDFee
default:
fee = 0
}
return fee * purchasePrice * amount
}
// GetTicker returns ticker information
func (b *Bitstamp) GetTicker(currency string, hourly bool) (Ticker, error) {
response := Ticker{}
tickerEndpoint := bitstampAPITicker
if hourly {
tickerEndpoint = bitstampAPITickerHourly
}
path := fmt.Sprintf(
"%s/v%s/%s/%s/",
b.APIUrl,
bitstampAPIVersion,
tickerEndpoint,
common.StringToLower(currency),
)
return response, b.SendHTTPRequest(path, &response)
}
// GetOrderbook Returns a JSON dictionary with "bids" and "asks". Each is a list
// of open orders and each order is represented as a list holding the price and
// the amount.
func (b *Bitstamp) GetOrderbook(currency string) (Orderbook, error) {
type response struct {
Timestamp int64 `json:"timestamp,string"`
Bids [][]string `json:"bids"`
Asks [][]string `json:"asks"`
}
resp := response{}
path := fmt.Sprintf(
"%s/v%s/%s/%s/",
b.APIUrl,
bitstampAPIVersion,
bitstampAPIOrderbook,
common.StringToLower(currency),
)
err := b.SendHTTPRequest(path, &resp)
if err != nil {
return Orderbook{}, err
}
orderbook := Orderbook{}
orderbook.Timestamp = resp.Timestamp
for _, x := range resp.Bids {
price, err := strconv.ParseFloat(x[0], 64)
if err != nil {
log.Error(err)
continue
}
amount, err := strconv.ParseFloat(x[1], 64)
if err != nil {
log.Error(err)
continue
}
orderbook.Bids = append(orderbook.Bids, OrderbookBase{price, amount})
}
for _, x := range resp.Asks {
price, err := strconv.ParseFloat(x[0], 64)
if err != nil {
log.Error(err)
continue
}
amount, err := strconv.ParseFloat(x[1], 64)
if err != nil {
log.Error(err)
continue
}
orderbook.Asks = append(orderbook.Asks, OrderbookBase{price, amount})
}
return orderbook, nil
}
// GetTradingPairs returns a list of trading pairs which Bitstamp
// currently supports
func (b *Bitstamp) GetTradingPairs() ([]TradingPair, error) {
var result []TradingPair
path := fmt.Sprintf("%s/v%s/%s",
b.APIUrl,
bitstampAPIVersion,
bitstampAPITradingPairsInfo)
return result, b.SendHTTPRequest(path, &result)
}
// GetTransactions returns transaction information
// value paramater ["time"] = "minute", "hour", "day" will collate your
// response into time intervals. Implementation of value in test code.
func (b *Bitstamp) GetTransactions(currencyPair string, values url.Values) ([]Transactions, error) {
var transactions []Transactions
path := common.EncodeURLValues(
fmt.Sprintf(
"%s/v%s/%s/%s/",
b.APIUrl,
bitstampAPIVersion,
bitstampAPITransactions,
common.StringToLower(currencyPair),
),
values,
)
return transactions, b.SendHTTPRequest(path, &transactions)
}
// GetEURUSDConversionRate returns the conversion rate between Euro and USD
func (b *Bitstamp) GetEURUSDConversionRate() (EURUSDConversionRate, error) {
rate := EURUSDConversionRate{}
path := fmt.Sprintf("%s/%s", b.APIUrl, bitstampAPIEURUSD)
return rate, b.SendHTTPRequest(path, &rate)
}
// GetBalance returns full balance of currency held on the exchange
func (b *Bitstamp) GetBalance() (Balances, error) {
var balance Balances
return balance,
b.SendAuthenticatedHTTPRequest(bitstampAPIBalance, true, nil, &balance)
}
// GetUserTransactions returns an array of transactions
func (b *Bitstamp) GetUserTransactions(currencyPair string) ([]UserTransactions, error) {
type Response struct {
Date string `json:"datetime"`
TransID int64 `json:"id"`
Type int `json:"type,string"`
USD interface{} `json:"usd"`
EUR float64 `json:"eur"`
XRP float64 `json:"xrp"`
BTC interface{} `json:"btc"`
BTCUSD interface{} `json:"btc_usd"`
Fee float64 `json:"fee,string"`
OrderID int64 `json:"order_id"`
}
var response []Response
if currencyPair == "" {
if err := b.SendAuthenticatedHTTPRequest(bitstampAPIUserTransactions,
true,
url.Values{},
&response); err != nil {
return nil, err
}
} else {
if err := b.SendAuthenticatedHTTPRequest(bitstampAPIUserTransactions+"/"+currencyPair,
true,
url.Values{},
&response); err != nil {
return nil, err
}
}
var transactions []UserTransactions
for _, y := range response {
tx := UserTransactions{}
tx.Date = y.Date
tx.TransID = y.TransID
tx.Type = y.Type
/* Hack due to inconsistent JSON values... */
varType := reflect.TypeOf(y.USD).String()
if varType == bitstampAPIReturnType {
tx.USD, _ = strconv.ParseFloat(y.USD.(string), 64)
} else {
tx.USD = y.USD.(float64)
}
tx.EUR = y.EUR
tx.XRP = y.XRP
varType = reflect.TypeOf(y.BTC).String()
if varType == bitstampAPIReturnType {
tx.BTC, _ = strconv.ParseFloat(y.BTC.(string), 64)
} else {
tx.BTC = y.BTC.(float64)
}
varType = reflect.TypeOf(y.BTCUSD).String()
if varType == bitstampAPIReturnType {
tx.BTCUSD, _ = strconv.ParseFloat(y.BTCUSD.(string), 64)
} else {
tx.BTCUSD = y.BTCUSD.(float64)
}
tx.Fee = y.Fee
tx.OrderID = y.OrderID
transactions = append(transactions, tx)
}
return transactions, nil
}
// GetOpenOrders returns all open orders on the exchange
func (b *Bitstamp) GetOpenOrders(currencyPair string) ([]Order, error) {
var resp []Order
path := fmt.Sprintf(
"%s/%s", bitstampAPIOpenOrders, common.StringToLower(currencyPair),
)
return resp, b.SendAuthenticatedHTTPRequest(path, true, nil, &resp)
}
// GetOrderStatus returns an the status of an order by its ID
func (b *Bitstamp) GetOrderStatus(orderID int64) (OrderStatus, error) {
resp := OrderStatus{}
req := url.Values{}
req.Add("id", strconv.FormatInt(orderID, 10))
return resp,
b.SendAuthenticatedHTTPRequest(bitstampAPIOrderStatus, false, req, &resp)
}
// CancelExistingOrder cancels order by ID
func (b *Bitstamp) CancelExistingOrder(orderID int64) (bool, error) {
result := false
var req = url.Values{}
req.Add("id", strconv.FormatInt(orderID, 10))
return result,
b.SendAuthenticatedHTTPRequest(bitstampAPICancelOrder, true, req, &result)
}
// CancelAllExistingOrders cancels all open orders on the exchange
func (b *Bitstamp) CancelAllExistingOrders() (bool, error) {
result := false
return result,
b.SendAuthenticatedHTTPRequest(bitstampAPICancelAllOrders, false, nil, &result)
}
// PlaceOrder places an order on the exchange.
func (b *Bitstamp) PlaceOrder(currencyPair string, price, amount float64, buy, market bool) (Order, error) {
var req = url.Values{}
req.Add("amount", strconv.FormatFloat(amount, 'f', -1, 64))
req.Add("price", strconv.FormatFloat(price, 'f', -1, 64))
response := Order{}
orderType := bitstampAPIBuy
if !buy {
orderType = bitstampAPISell
}
var path string
if market {
path = fmt.Sprintf("%s/%s/%s", orderType, bitstampAPIMarket, common.StringToLower(currencyPair))
} else {
path = fmt.Sprintf("%s/%s", orderType, common.StringToLower(currencyPair))
}
return response,
b.SendAuthenticatedHTTPRequest(path, true, req, &response)
}
// GetWithdrawalRequests returns withdrawal requests for the account
// timedelta - positive integer with max value 50000000 which returns requests
// from number of seconds ago to now.
func (b *Bitstamp) GetWithdrawalRequests(timedelta int64) ([]WithdrawalRequests, error) {
var resp []WithdrawalRequests
if timedelta > 50000000 || timedelta < 0 {
return resp, errors.New("time delta exceeded, max: 50000000 min: 0")
}
value := url.Values{}
value.Set("timedelta", strconv.FormatInt(timedelta, 10))
if timedelta == 0 {
value = url.Values{}
}
return resp,
b.SendAuthenticatedHTTPRequest(bitstampAPIWithdrawalRequests, false, value, &resp)
}
// CryptoWithdrawal withdraws a cryptocurrency into a supplied wallet, returns ID
// amount - The amount you want withdrawn
// address - The wallet address of the cryptocurrency
// symbol - the type of crypto ie "ltc", "btc", "eth"
// destTag - only for XRP default to ""
// instant - only for bitcoins
func (b *Bitstamp) CryptoWithdrawal(amount float64, address, symbol, destTag string, instant bool) (CryptoWithdrawalResponse, error) {
var req = url.Values{}
req.Add("amount", strconv.FormatFloat(amount, 'f', -1, 64))
req.Add("address", address)
resp := CryptoWithdrawalResponse{}
var endpoint string
switch common.StringToLower(symbol) {
case "btc":
if instant {
req.Add("instant", "1")
} else {
req.Add("instant", "0")
}
endpoint = bitstampAPIBitcoinWithdrawal
case "ltc":
endpoint = bitstampAPILTCWithdrawal
case "eth":
endpoint = bitstampAPIETHWithdrawal
case "xrp":
if destTag != "" {
req.Add("destination_tag", destTag)
}
endpoint = bitstampAPIXrpWithdrawal
default:
return resp, errors.New("incorrect symbol")
}
return resp, b.SendAuthenticatedHTTPRequest(endpoint, false, req, &resp)
}
// OpenBankWithdrawal Opens a bank withdrawal request (SEPA or international)
func (b *Bitstamp) OpenBankWithdrawal(amount float64, currency,
name, iban, bic, address, postalCode, city, country,
comment, withdrawalType string) (FIATWithdrawalResponse, error) {
var req = url.Values{}
req.Add("amount", strconv.FormatFloat(amount, 'f', -1, 64))
req.Add("account_currency", currency)
req.Add("name", name)
req.Add("iban", iban)
req.Add("bic", bic)
req.Add("address", address)
req.Add("postal_code", postalCode)
req.Add("city", city)
req.Add("country", country)
req.Add("type", withdrawalType)
req.Add("comment", comment)
resp := FIATWithdrawalResponse{}
return resp, b.SendAuthenticatedHTTPRequest(bitstampAPIOpenWithdrawal, true, req, &resp)
}
// OpenInternationalBankWithdrawal Opens a bank withdrawal request (international)
func (b *Bitstamp) OpenInternationalBankWithdrawal(amount float64, currency,
name, iban, bic, address, postalCode, city, country,
bankName, bankAddress, bankPostCode, bankCity, bankCountry, internationalCurrency,
comment, withdrawalType string) (FIATWithdrawalResponse, error) {
var req = url.Values{}
req.Add("amount", strconv.FormatFloat(amount, 'f', -1, 64))
req.Add("account_currency", currency)
req.Add("name", name)
req.Add("iban", iban)
req.Add("bic", bic)
req.Add("address", address)
req.Add("postal_code", postalCode)
req.Add("city", city)
req.Add("country", country)
req.Add("type", withdrawalType)
req.Add("comment", comment)
req.Add("currency", internationalCurrency)
req.Add("bank_name", bankName)
req.Add("bank_address", bankAddress)
req.Add("bank_postal_code", bankPostCode)
req.Add("bank_city", bankCity)
req.Add("bank_country", bankCountry)
resp := FIATWithdrawalResponse{}
return resp, b.SendAuthenticatedHTTPRequest(bitstampAPIOpenWithdrawal, true, req, &resp)
}
// GetCryptoDepositAddress returns a depositing address by crypto
// crypto - example "btc", "ltc", "eth", "xrp" or "bch"
func (b *Bitstamp) GetCryptoDepositAddress(crypto currency.Code) (string, error) {
var resp string
switch crypto {
case currency.BTC:
return resp,
b.SendAuthenticatedHTTPRequest(bitstampAPIBitcoinDeposit, false, nil, &resp)
case currency.LTC:
return resp,
b.SendAuthenticatedHTTPRequest(bitstampAPILitecoinDeposit, true, nil, &resp)
case currency.ETH:
return resp,
b.SendAuthenticatedHTTPRequest(bitstampAPIEthereumDeposit, true, nil, &resp)
case currency.XRP:
return resp,
b.SendAuthenticatedHTTPRequest(bitstampAPIXrpDeposit, true, nil, &resp)
case currency.BCH:
return resp,
b.SendAuthenticatedHTTPRequest(bitstampAPIBitcoinCashDeposit, true, nil, &resp)
default:
return resp, fmt.Errorf("unsupported cryptocurrency string %s", crypto)
}
}
// GetUnconfirmedBitcoinDeposits returns unconfirmed transactions
func (b *Bitstamp) GetUnconfirmedBitcoinDeposits() ([]UnconfirmedBTCTransactions, error) {
var response []UnconfirmedBTCTransactions
return response,
b.SendAuthenticatedHTTPRequest(bitstampAPIUnconfirmedBitcoin, false, nil, &response)
}
// TransferAccountBalance transfers funds from either a main or sub account
// amount - to transfers
// currency - which currency to transfer
// subaccount - name of account
// toMain - bool either to or from account
func (b *Bitstamp) TransferAccountBalance(amount float64, currency, subAccount string, toMain bool) error {
var req = url.Values{}
req.Add("amount", strconv.FormatFloat(amount, 'f', -1, 64))
req.Add("currency", currency)
if subAccount == "" {
return errors.New("missing subAccount parameter")
}
req.Add("subAccount", subAccount)
var path string
if toMain {
path = bitstampAPITransferToMain
} else {
path = bitstampAPITransferFromMain
}
var resp interface{}
return b.SendAuthenticatedHTTPRequest(path, true, req, &resp)
}
// SendHTTPRequest sends an unauthenticated HTTP request
func (b *Bitstamp) SendHTTPRequest(path string, result interface{}) error {
return b.SendPayload(http.MethodGet,
path,
nil,
nil,
result,
false,
false,
b.Verbose,
b.HTTPDebugging,
b.HTTPRecording)
}
// SendAuthenticatedHTTPRequest sends an authenticated request
func (b *Bitstamp) SendAuthenticatedHTTPRequest(path string, v2 bool, values url.Values, result interface{}) error {
if !b.AuthenticatedAPISupport {
return fmt.Errorf(exchange.WarningAuthenticatedRequestWithoutCredentialsSet, b.Name)
}
n := b.Requester.GetNonce(true).String()
if values == nil {
values = url.Values{}
}
values.Set("key", b.APIKey)
values.Set("nonce", n)
hmac := common.GetHMAC(common.HashSHA256, []byte(n+b.ClientID+b.APIKey), []byte(b.APISecret))
values.Set("signature", common.StringToUpper(common.HexEncodeToString(hmac)))
if v2 {
path = fmt.Sprintf("%s/v%s/%s/", b.APIUrl, bitstampAPIVersion, path)
} else {
path = fmt.Sprintf("%s/%s/", b.APIUrl, path)
}
if b.Verbose {
log.Debugf("Sending POST request to " + path)
}
headers := make(map[string]string)
headers["Content-Type"] = "application/x-www-form-urlencoded"
encodedValues := values.Encode()
readerValues := bytes.NewBufferString(encodedValues)
interim := json.RawMessage{}
errCap := struct {
Error string `json:"error"`
Status string `json:"status"`
Reason interface{} `json:"reason"`
}{}
err := b.SendPayload(http.MethodPost,
path,
headers,
readerValues,
&interim,
true,
true,
b.Verbose,
b.HTTPDebugging,
b.HTTPRecording)
if err != nil {
return err
}
if err := common.JSONDecode(interim, &errCap); err == nil {
if errCap.Error != "" {
return errors.New(errCap.Error)
}
if data, ok := errCap.Reason.(map[string][]string); ok {
var details string
for _, v := range data {
details += strings.Join(v, "")
}
return errors.New(details)
}
if data, ok := errCap.Reason.(string); ok {
return errors.New(data)
}
if errCap.Status != "" {
return errors.New(errCap.Status)
}
}
return common.JSONDecode(interim, result)
}
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