async def test():
    bitfinex = ccxt.bitfinex({
        'apiKey': "YOUR_API_KEY",
        'secret': "YOUR_SECRET",
        'verbose': True,  # switch it to False if you don't want the HTTP log
    })
    print(await bitfinex.public_get_symbols())
    await bitfinex.close()
async def test():
    bitfinex = ccxt.bitfinex({
        'apiKey': "4FlEDtxDl35gdEiobnfZ72vJeZteE4Bb7JdvqzjIjHq",
        'secret': "D4DXM8DZdHuAq9YptUsb42aWT1XBnGlIJgLi8a7tzFH",
        'verbose': True,  # switch it to False if you don't want the HTTP log
    })
    print(await bitfinex.public_get_symbols())
    await bitfinex.close()
Beispiel #3
0
async def test_bot_checker():

    bfx = ccxt.bitfinex({
        #
        # ↓ The "proxy" property setting below is for CORS-proxying only!
        # Do not use it if you don't know what a CORS proxy is.
        # https://github.com/ccxt/ccxt/wiki/Install#cors-access-control-allow-origin
        # You should only use the "proxy" setting if you're having a problem with Access-Control-Allow-Origin
        # In Python you rarely need to use it, if ever at all.
        #
        # 'proxy': 'https://cors-anywhere.herokuapp.com/',
        #
        # ↓ The "aiohttp_proxy" setting is for HTTP(S)-proxying (SOCKS, etc...)
        # It is a standard method of sending your requests through your proxies
        # This gets passed to the `asyncio` and `aiohttp` implementation directly
        # You can use this setting as documented here:
        # https://docs.aiohttp.org/en/stable/client_advanced.html#proxy-support
        # This is the setting you should be using with async version of ccxt in Python 3.5+
        #
        # 'aiohttp_proxy': 'http://proxy.com',
        # 'aiohttp_proxy': 'http://*****:*****@some.proxy.com',
        # 'aiohttp_proxy': 'http://10.10.1.10:3128',
        'enableRateLimit': False,
    })
    binance = ccxt.binance({
        'enableRateLimit': False,
    })

    try:
        # your code goes here...
        while True:
            ticker1 = await bfx.fetch_ticker('BTC/USD')
            ticker2 = await binance.fetch_ticker('BTC/USDT')
            if abs(ticker1["last"] - ticker2["last"]) / (
                (ticker1["last"] + ticker2["last"]) / 2) > 0.01:
                print("Opportunity for arb: {} {} differ: {}%".format(
                    ticker1["last"], ticker1["last"],
                    (100 * abs(ticker1["last"] - ticker2["last"])) /
                    ((ticker1["last"] + ticker2["last"]) / 2)))
            print("BFX: {} Binance: {}".format(ticker1["last"],
                                               ticker2["last"]))
            # await bfx.close()
            # await binance.close()
            await asyncio.sleep(1)
    except:
        # traceback.print_stack()
        pass
    finally:
        await bfx.close()
        await binance.close()
Beispiel #4
0
def is_active_symbol(exchange, symbol):
    return ('.' not in symbol) and (('active' not in exchange.markets[symbol])
                                    or (exchange.markets[symbol]['active']))


async def fetch_ticker(exchange, symbol):
    ticker = await exchange.fetchTicker(symbol)
    print(exchange.id, symbol, ticker)
    return ticker


async def fetch_tickers(exchange):
    await exchange.load_markets()
    print(exchange.id,
          'fetching all tickers by simultaneous multiple concurrent requests')
    symbols_to_load = get_active_symbols(exchange)
    input_coroutines = [
        fetch_ticker(exchange, symbol) for symbol in symbols_to_load
    ]
    tickers = await asyncio.gather(*input_coroutines, return_exceptions=True)
    for ticker, symbol in zip(tickers, symbols_to_load):
        if not isinstance(ticker, dict):
            print(exchange.id, symbol, 'error')
        else:
            print(exchange.id, symbol, 'ok')
    print(exchange.id, 'fetched', len(list(tickers)), 'tickers')


asyncio.run(fetch_tickers(ccxt.bitfinex()))
import os
import sys

root = os.path.dirname(
    os.path.dirname(os.path.dirname(os.path.abspath(__file__))))
sys.path.append(root + '/python')

import ccxt.async_support as ccxt  # noqa: E402


async def test(exchange):
    print(await exchange.fetch_balance())


kraken = ccxt.kraken({
    'apiKey': "hEvQNMDIeoCJbr7W/ZBb5CGOrx3G0lWF5B3zqa1JBxdZlEaL8EK+D0Mw",
    'secret':
    "JaE9wI6Nwgh5oRxiHcVxurwzwBxwc05W/qv/k1srGg4s3EYuXPpNkLLM5NYbbWpM8rCyijIeDavRuqWbU0ZV9A==",
    'verbose': True,  # switch it to False if you don't want the HTTP log
})
bitfinex = ccxt.bitfinex({
    'apiKey': "4FlEDtxDl35gdEiobnfZ72vJeZteE4Bb7JdvqzjIjHq",
    'secret': "D4DXM8DZdHuAq9YptUsb42aWT1XBnGlIJgLi8a7tzFH",
    'verbose': True,  # switch it to False if you don't want the HTTP log
})

[asyncio.ensure_future(test(exchange)) for exchange in [kraken, bitfinex]]
pending = asyncio.Task.all_tasks()
loop = asyncio.get_event_loop()
loop.run_until_complete(asyncio.gather(*pending))
# -*- coding: utf-8 -*-

import asyncio
import os
import sys

root = os.path.dirname(
    os.path.dirname(os.path.dirname(os.path.abspath(__file__))))
sys.path.append(root + '/python')

import ccxt.async_support as ccxt  # noqa: E402


async def main(exchange):
    for i in range(0, 10):
        # this can be any call instead of fetch_ticker, really
        print(await exchange.fetch_ticker('BTC/USD'))


# you can set enableRateLimit = True to enable the built-in rate limiter
# this way you request rate will never hit the limit of an exchange
# the library will throttle your requests to avoid that

exchange = ccxt.bitfinex({
    'enableRateLimit': True,  # this option enables the built-in rate limiter
})

asyncio.get_event_loop().run_until_complete(main(exchange))
    def __init__(self, loop, config):

        self.ob_constant = OD_TICK_TIMER
        self.bl_constant = BALANCE_TICK_TIMER
        self.trade_constant = TRADE_TICK_TIMER

        self.stop_tick_time = datetime.datetime.now() + datetime.timedelta(
            seconds=TICK_TIMER)
        self.orderbook_tick_time = datetime.datetime.now(
        ) + datetime.timedelta(seconds=self.ob_constant)
        self.balance_tick_time = datetime.datetime.now() + datetime.timedelta(
            seconds=self.bl_constant)
        self.trade_tick_time = datetime.datetime.now() + datetime.timedelta(
            seconds=self.trade_constant)
        self.info_tick_time = datetime.datetime.now() + datetime.timedelta(
            seconds=INFO_TIMER)

        self.config = config
        self.orderbook_count = 0
        self.pair_info = dict()
        self.logger = None
        if 'logger' in self.config.keys():
            self.logger = self.config['logger']

        self.exhange = config['exchange']
        self.is_auth = False
        self.name = '[ccxt %s]' % self.exhange
        self.pair_list = set()

        if self.exhange == 'liqui':
            self.ob_constant = 30
            self.bl_constant = 60

        self.ccxt_it_queue = self.config['ccxt_in_queue']
        self.ccxt_out_queue = self.config['ccxt_out_queue']

        self.pair_list = self.config['pairs']

        # for i in self.config['pairs']:
        #     i['balance_tick'] = True
        #     self.pair_list.add( i['name'] )

        auth = {}
        if 'auth' in self.config.keys():
            auth = self.config['auth']
            self.is_auth = True
            self.name = '[ccxt %s %s*]' % (self.exhange, auth['apiKey'][:4])

        asyncio.set_event_loop(loop)

        if self.exhange == 'hitbtc':
            loop.create_task(self.run_loop(ccxt.hitbtc(auth)))
        elif self.exhange == 'coinmarketcap':
            loop.create_task(self.run_loop(ccxt.coinmarketcap()))
        elif self.exhange == 'binance':
            loop.create_task(self.run_loop(ccxt.binance(auth)))
        elif self.exhange == 'bitmex':
            loop.create_task(self.run_loop(ccxt.bitmex(auth)))
        elif self.exhange == 'huobipro':
            loop.create_task(self.run_loop(ccxt.huobipro()))
        elif self.exhange == 'liqui':
            loop.create_task(self.run_loop(ccxt.liqui(auth)))
        elif self.exhange == 'bitfinex2':
            loop.create_task(self.run_loop(ccxt.bitfinex2(auth)))
        elif self.exhange == 'bitfinex':
            loop.create_task(self.run_loop(ccxt.bitfinex(auth)))
        elif self.exhange == 'okex':
            loop.create_task(self.run_loop(ccxt.okex(auth)))
        elif self.exhange == 'kucoin':
            loop.create_task(self.run_loop(ccxt.kucoin(auth)))
        elif self.exhange == 'bittrex':
            loop.create_task(self.run_loop(ccxt.bittrex(auth)))
        elif self.exhange == 'qryptos':
            loop.create_task(self.run_loop(ccxt.qryptos(auth)))
        elif self.exhange == 'kraken':
            loop.create_task(self.run_loop(ccxt.kraken(auth)))

        loop.run_forever()
Beispiel #8
0
import asyncio
import os
import sys

root = os.path.dirname(os.path.dirname(os.path.dirname(os.path.abspath(__file__))))
sys.path.append(root + '/python')

import ccxt.async_support as ccxt  # noqa: E402


async def test(exchange):
    print(await exchange.fetch_balance())
    await exchange.close()


kraken = ccxt.kraken({
    'apiKey': "YOUR_API_KEY",
    'secret': "YOUR_SECRET",
    'verbose': True,  # switch it to False if you don't want the HTTP log
})
bitfinex = ccxt.bitfinex({
    'apiKey': "YOUR_API_KEY",
    'secret': "YOUR_SECRET",
    'verbose': True,  # switch it to False if you don't want the HTTP log
})

[asyncio.ensure_future(test(exchange)) for exchange in [kraken, bitfinex]]
pending = asyncio.Task.all_tasks()
loop = asyncio.get_event_loop()
loop.run_until_complete(asyncio.gather(*pending))