def exchangeobj(apikeys):
if apikeys['exchange'] == 'bitmex':
bitmex = ccxt.bitmex({'apiKey': apikeys['apikey'], 'secret': apikeys['secret']})
bitmex.urls['api'] = bitmex.urls['test']
return bitmex
if apikeys['exchange'] == 'bithumb':
# bithumb = ccxt.bithumb({'apiKey': apikeys['apikey'], 'secret': apikeys['secret']})
bithumb = Bithumb(apikeys['apikey'], apikeys['secret'])
return bithumb
if apikeys['exchange'] == 'upbit':
upbit = ccxt.upbit({'apiKey': apikeys['apikey'], 'secret': apikeys['secret']})
return upbit
def kimp():
c = CurrencyConverter('http://www.ecb.europa.eu/stats/eurofxref/eurofxref.zip')
exchange_rate = round(c.convert(1, 'USD', 'KRW'),2) #환율
#print(exchange_rate)
binance = ccxt.binance()
markets_binance = binance.fetch_tickers()
#print(markets_binance.keys())
binance_BTC = binance.fetch_ticker('BTC/USDT')
binance_BTC_close = binance_BTC['close']
#print(binance_BTC_close)
upbit = ccxt.upbit()
markets_upbit = upbit.fetch_tickers()
#print(markets_upbit.keys())
upbit_BTC = upbit.fetch_ticker('BTC/KRW')
upbit_BTC_close = upbit_BTC['close']
#print(upbit_BTC_close)
kimp_BTC = round(((upbit_BTC_close/(binance_BTC_close*exchange_rate) - 1) * 100),2)
binance_ETH = binance.fetch_ticker('ETH/USDT')
binance_XRP = binance.fetch_ticker('XRP/USDT')
binance_ADA = binance.fetch_ticker('ADA/USDT')
binance_ETH_close = binance_ETH['close']
binance_XRP_close = binance_XRP['close']
binance_ADA_close = binance_ADA['close']
upbit_ETH = upbit.fetch_ticker('ETH/KRW')
upbit_XRP = upbit.fetch_ticker('XRP/KRW')
upbit_ADA = upbit.fetch_ticker('ADA/KRW')
upbit_ETH_close = upbit_ETH['close']
upbit_XRP_close = upbit_XRP['close']
upbit_ADA_close = upbit_ADA['close']
kimp_ETH = round(((upbit_ETH_close / (binance_ETH_close * exchange_rate) - 1) * 100))
kimp_XRP = round(((upbit_XRP_close / (binance_XRP_close * exchange_rate) - 1) * 100))
kimp_ADA = round(((upbit_ADA_close / (binance_ADA_close * exchange_rate) - 1) * 100))
format_upbit_BTC_close = format(upbit_BTC_close, ",")[:-2]
format_upbit_ETH_close = format(upbit_ETH_close, ",")[:-2]
format_upbit_XRP_close = format(upbit_XRP_close, ",")[:-2]
format_upbit_ADA_close = format(upbit_ADA_close, ",")[:-2]
# now = datetime.datetime.now().time()
now = time.strftime('%y-%m-%d %H:%M:%S')
s = f"현재시간 : {now} <br><br>\n" \
f"BTC : {format_upbit_BTC_close} ({kimp_BTC}%) <p> \n" \
f"ETH : {format_upbit_ETH_close} ({kimp_ETH}%) <p> \n" \
f"XRP : {format_upbit_XRP_close} ({kimp_XRP}%) <p> \n" \
f"ADA : {format_upbit_ADA_close} ({kimp_ADA}%)"
return s
def fetch_exchange_data(exchange_name):
bitstamp = ccxt.bitstamp()
bitmex = ccxt.bitmex()
bitfinex = ccxt.bitfinex2()
bittrex = ccxt.bittrex()
okcoin = ccxt.okcoinusd()
kraken = ccxt.kraken()
binance = ccxt.binance()
coss = ccxt.coss()
kucoin = ccxt.kucoin2()
poloniex = ccxt.poloniex()
# theocean = ccxt.theocean()
upbit = ccxt.upbit()
dict_of_exchanges = {
'kraken': kraken,
'bitmex': bitmex,
'bittrex': bittrex,
'bitstamp': bitstamp,
'bitfinex': bitfinex,
'okcoin': okcoin,
'binance': binance,
'coss': coss,
'kucoin': kucoin,
'poloniex': poloniex,
# 'theocean': theocean,
'upbit': upbit
}
try:
return dict(
dict_of_exchanges[exchange_name].fetch_order_book('BTC/USD'))
# return dict(dict_of_exchanges[exchange_name].fetch_order_book('XRP/USD'))
# return dict(dict_of_exchanges[exchange_name].fetch_order_book('LTC/USD'))
# add BitcoinCash
# return dict(dict_of_exchanges[exchange_name].fetch_order_book('ETH/USD'))
except Exception as ex:
print('%s - erro: %s' % (exchange_name, ex))
return {}
write = csv.writer(file, dialect='excel')
for i in range(len(data)):
write.writerow(data.iloc[i])
file.close()
time.sleep(1)
if __name__ == '__main__':
obj_list = [
ccxt.okex(),
ccxt.huobipro(),
ccxt.binance(),
ccxt.bitmax(),
ccxt.fcoin(),
ccxt.upbit()
]
file = open('config.txt', 'r')
config = json.loads(file.read())
file.close()
mkdir(config['name_list'])
time_info = get_time_info(config['name_list'], config['symbol_list'])
info_queue = Queue()
for obj, name in zip(obj_list, config['name_list']):
crawl = CrawlInfo(obj, info_queue, name, config['symbol_list'])
crawl.start()
for i in range(3):
Parse_thread = Parse(info_queue)
Parse_thread.start()
Update_thread = Update()
Update_thread.start()
import ccxt
from environs import Env
env = Env()
env.read_env()
UPBIT_ACCESS_KEY = env('UPBIT_ACCESS_KEY')
UPBIT_SECRET_KEY = env('UPBIT_SECRET_KEY')
config = {
'apiKey': UPBIT_ACCESS_KEY,
'secret': UPBIT_SECRET_KEY,
}
# CCXT Example, https://github.com/ccxt/ccxt/tree/master/examples/py
upbit = ccxt.upbit(config=config) # 1000원 단위 주문 가능
binance = ccxt.binance()
BTCKRW = 'BTC/KRW'
BTCUSDT = 'BTC/USDT'
def test():
# print(upbit.load_markets())
print(upbit.fetch_ticker(BTCKRW))
print(upbit.fetch_balance())
upbit_order_book = upbit.fetch_order_book(BTCKRW)
symbol = BTCKRW
expected_trades_base_amount = int(
def init_supported_exchanges():
objects = {
"acx": ccxt.acx(),
"aofex": ccxt.aofex(),
"bequant": ccxt.bequant(),
"bibox": ccxt.bibox(),
"bigone": ccxt.bigone(),
"binance": ccxt.binance(),
"bitbank": ccxt.bitbank(),
"bitbay": ccxt.bitbay(),
"bitfinex": ccxt.bitfinex(),
"bitflyer": ccxt.bitflyer(),
"bitforex": ccxt.bitforex(),
"bithumb": ccxt.bithumb(),
"bitkk": ccxt.bitkk(),
"bitmax": ccxt.bitmax(),
"bitstamp": ccxt.bitstamp(),
"bittrex": ccxt.bittrex(),
"bitz": ccxt.bitz(),
"bl3p": ccxt.bl3p(),
"bleutrade": ccxt.bleutrade(),
"braziliex": ccxt.braziliex(),
"btcalpha": ccxt.btcalpha(),
"btcbox": ccxt.btcbox(),
"btcmarkets": ccxt.btcmarkets(),
"btctradeua": ccxt.btctradeua(),
"bw": ccxt.bw(),
"bybit": ccxt.bybit(),
"bytetrade": ccxt.bytetrade(),
"cex": ccxt.cex(),
"chilebit": ccxt.chilebit(),
"coinbase": ccxt.coinbase(),
"coinbasepro": ccxt.coinbasepro(),
"coincheck": ccxt.coincheck(),
"coinegg": ccxt.coinegg(),
"coinex": ccxt.coinex(),
"coinfalcon": ccxt.coinfalcon(),
"coinfloor": ccxt.coinfloor(),
"coinmate": ccxt.coinmate(),
"coinone": ccxt.coinone(),
"crex24": ccxt.crex24(),
"currencycom": ccxt.currencycom(),
"digifinex": ccxt.digifinex(),
"dsx": ccxt.dsx(),
"eterbase": ccxt.eterbase(),
"exmo": ccxt.exmo(),
"exx": ccxt.exx(),
"foxbit": ccxt.foxbit(),
"ftx": ccxt.ftx(),
"gateio": ccxt.gateio(),
"gemini": ccxt.gemini(),
"hbtc": ccxt.hbtc(),
"hitbtc": ccxt.hitbtc(),
"hollaex": ccxt.hollaex(),
"huobipro": ccxt.huobipro(),
"ice3x": ccxt.ice3x(),
"independentreserve": ccxt.independentreserve(),
"indodax": ccxt.indodax(),
"itbit": ccxt.itbit(),
"kraken": ccxt.kraken(),
"kucoin": ccxt.kucoin(),
"lakebtc": ccxt.lakebtc(),
"latoken": ccxt.latoken(),
"lbank": ccxt.lbank(),
"liquid": ccxt.liquid(),
"livecoin": ccxt.livecoin(),
"luno": ccxt.luno(),
"lykke": ccxt.lykke(),
"mercado": ccxt.mercado(),
"oceanex": ccxt.oceanex(),
"okcoin": ccxt.okcoin(),
"okex": ccxt.okex(),
"paymium": ccxt.paymium(),
"poloniex": ccxt.poloniex(),
"probit": ccxt.probit(),
"southxchange": ccxt.southxchange(),
"stex": ccxt.stex(),
"surbitcoin": ccxt.surbitcoin(),
"therock": ccxt.therock(),
"tidebit": ccxt.tidebit(),
"tidex": ccxt.tidex(),
"upbit": ccxt.upbit(),
"vbtc": ccxt.vbtc(),
"wavesexchange": ccxt.wavesexchange(),
"whitebit": ccxt.whitebit(),
"yobit": ccxt.yobit(),
"zaif": ccxt.zaif(),
"zb": ccxt.zb()
}
return objects
import logging
import datetime
import math
import telegram
logger = logging.getLogger()
logger.setLevel(logging.ERROR)
file_handler = logging.FileHandler(filename="error.log")
logger.addHandler(file_handler)
telegm_token = ''
bot = telegram.Bot(token=telegm_token)
coin_list = []
exchange = ccxt.upbit({'apiKey': '', 'secret': '', 'enableRateLimit': True})
'''
exchange = ccxt.bithumb({'apiKey':'',
'secret':'',
'enableRateLimit': True
})
'''
def run():
now = datetime.datetime.now()
mid = datetime.datetime(now.year, now.month, now.day) + datetime.timedelta(
1) # 익일 자정
nextDay = mid + datetime.timedelta(hours=9) #익일 자정 + 9시간 --> 익일 오전 9시
coin_list = getCoinData() # 거래할 코인 리스트 불러옴
coin_list_dic = {}
def __init__(self, *args, **kwargs):
self.api = ccxt.upbit()
super().__init__(*args, **kwargs)
self.__account()
except:
escape = len(line)
if line:
key_list.append(line[0:escape].split(':')[1].strip())
else:
break
file.close
con_key = key_list[0]
sec_key = key_list[1]
target_volatility = float(key_list[2]) # 수용가능한 변동성은 2%
exchange = ccxt.upbit({
'apiKey': con_key,
'secret': sec_key,
'enableRateLimit': False #변동성 돌파는 시장가로 매매, 시장가가 싫으면 True로.
})
ready_trading = False
class CryptoTrader(QThread):
finished = pyqtSignal(dict)
def run(self):
now = datetime.datetime.now() # 2019-12-09 00:02
mid = datetime.datetime(now.year, now.month,
now.day) + datetime.timedelta(1)
global ready_trading
