""" Tests in this file do NOT mock network calls, so they are expected to be fluky at times. However, these tests should give a good idea to determine if a new exchange is suitable to run with freqtrade. """ from copy import deepcopy from datetime import datetime, timedelta, timezone from pathlib import Path import pytest from freqtrade.enums import CandleType from freqtrade.exchange import timeframe_to_minutes, timeframe_to_prev_date from freqtrade.exchange.exchange import timeframe_to_msecs from freqtrade.resolvers.exchange_resolver import ExchangeResolver from tests.conftest import get_default_conf_usdt # Exchanges that should be tested EXCHANGES = { 'bittrex': { 'pair': 'BTC/USDT', 'stake_currency': 'USDT', 'hasQuoteVolume': False, 'timeframe': '1h', 'leverage_tiers_public': False, 'leverage_in_spot_market': False, }, 'binance': { 'pair': 'BTC/USDT', 'stake_currency': 'USDT', 'hasQuoteVolume': True, 'timeframe': '5m', 'futures': True, 'leverage_tiers_public': False, 'leverage_in_spot_market': False, }, 'kraken': { 'pair': 'BTC/USDT', 'stake_currency': 'USDT', 'hasQuoteVolume': True, 'timeframe': '5m', 'leverage_tiers_public': False, 'leverage_in_spot_market': True, }, 'ftx': { 'pair': 'BTC/USD', 'stake_currency': 'USD', 'hasQuoteVolume': True, 'timeframe': '5m', 'futures_pair': 'BTC/USD:USD', 'futures': False, 'leverage_tiers_public': False, # TODO: Set to True once implemented on CCXT 'leverage_in_spot_market': True, }, 'kucoin': { 'pair': 'XRP/USDT', 'stake_currency': 'USDT', 'hasQuoteVolume': True, 'timeframe': '5m', 'leverage_tiers_public': False, 'leverage_in_spot_market': True, }, 'gateio': { 'pair': 'BTC/USDT', 'stake_currency': 'USDT', 'hasQuoteVolume': True, 'timeframe': '5m', 'futures': True, 'futures_pair': 'BTC/USDT:USDT', 'leverage_tiers_public': True, 'leverage_in_spot_market': True, }, 'okx': { 'pair': 'BTC/USDT', 'stake_currency': 'USDT', 'hasQuoteVolume': True, 'timeframe': '5m', 'futures_pair': 'BTC/USDT:USDT', 'futures': True, 'leverage_tiers_public': True, 'leverage_in_spot_market': True, }, 'huobi': { 'pair': 'BTC/USDT', 'stake_currency': 'USDT', 'hasQuoteVolume': True, 'timeframe': '5m', 'futures': False, }, 'bitvavo': { 'pair': 'BTC/EUR', 'stake_currency': 'EUR', 'hasQuoteVolume': True, 'timeframe': '5m', 'leverage_tiers_public': False, 'leverage_in_spot_market': False, }, } @pytest.fixture(scope="class") def exchange_conf(): config = get_default_conf_usdt((Path(__file__).parent / "testdata").resolve()) config['exchange']['pair_whitelist'] = [] config['exchange']['key'] = '' config['exchange']['secret'] = '' config['dry_run'] = False config['entry_pricing']['use_order_book'] = True config['exit_pricing']['use_order_book'] = True return config @pytest.fixture(params=EXCHANGES, scope="class") def exchange(request, exchange_conf): exchange_conf['exchange']['name'] = request.param exchange_conf['stake_currency'] = EXCHANGES[request.param]['stake_currency'] exchange = ExchangeResolver.load_exchange(request.param, exchange_conf, validate=True) yield exchange, request.param @pytest.fixture(params=EXCHANGES, scope="class") def exchange_futures(request, exchange_conf, class_mocker): if not EXCHANGES[request.param].get('futures') is True: yield None, request.param else: exchange_conf = deepcopy(exchange_conf) exchange_conf['exchange']['name'] = request.param exchange_conf['trading_mode'] = 'futures' exchange_conf['margin_mode'] = 'isolated' exchange_conf['stake_currency'] = EXCHANGES[request.param]['stake_currency'] class_mocker.patch( 'freqtrade.exchange.binance.Binance.fill_leverage_tiers') class_mocker.patch('freqtrade.exchange.exchange.Exchange.fetch_trading_fees') class_mocker.patch('freqtrade.exchange.okx.Okx.additional_exchange_init') class_mocker.patch('freqtrade.exchange.binance.Binance.additional_exchange_init') class_mocker.patch('freqtrade.exchange.exchange.Exchange.load_cached_leverage_tiers', return_value=None) class_mocker.patch('freqtrade.exchange.exchange.Exchange.cache_leverage_tiers') exchange = ExchangeResolver.load_exchange( request.param, exchange_conf, validate=True, load_leverage_tiers=True) yield exchange, request.param @pytest.mark.longrun class TestCCXTExchange(): def test_load_markets(self, exchange): exchange, exchangename = exchange pair = EXCHANGES[exchangename]['pair'] markets = exchange.markets assert pair in markets assert isinstance(markets[pair], dict) assert exchange.market_is_spot(markets[pair]) def test_has_validations(self, exchange): exchange, exchangename = exchange exchange.validate_ordertypes({ 'entry': 'limit', 'exit': 'limit', 'stoploss': 'limit', }) if exchangename == 'gateio': # gateio doesn't have market orders on spot return exchange.validate_ordertypes({ 'entry': 'market', 'exit': 'market', 'stoploss': 'market', }) def test_load_markets_futures(self, exchange_futures): exchange, exchangename = exchange_futures if not exchange: # exchange_futures only returns values for supported exchanges return pair = EXCHANGES[exchangename]['pair'] pair = EXCHANGES[exchangename].get('futures_pair', pair) markets = exchange.markets assert pair in markets assert isinstance(markets[pair], dict) assert exchange.market_is_future(markets[pair]) def test_ccxt_fetch_tickers(self, exchange): exchange, exchangename = exchange pair = EXCHANGES[exchangename]['pair'] tickers = exchange.get_tickers() assert pair in tickers assert 'ask' in tickers[pair] assert tickers[pair]['ask'] is not None assert 'bid' in tickers[pair] assert tickers[pair]['bid'] is not None assert 'quoteVolume' in tickers[pair] if EXCHANGES[exchangename].get('hasQuoteVolume'): assert tickers[pair]['quoteVolume'] is not None def test_ccxt_fetch_ticker(self, exchange): exchange, exchangename = exchange pair = EXCHANGES[exchangename]['pair'] ticker = exchange.fetch_ticker(pair) assert 'ask' in ticker assert ticker['ask'] is not None assert 'bid' in ticker assert ticker['bid'] is not None assert 'quoteVolume' in ticker if EXCHANGES[exchangename].get('hasQuoteVolume'): assert ticker['quoteVolume'] is not None def test_ccxt_fetch_l2_orderbook(self, exchange): exchange, exchangename = exchange pair = EXCHANGES[exchangename]['pair'] l2 = exchange.fetch_l2_order_book(pair) assert 'asks' in l2 assert 'bids' in l2 assert len(l2['asks']) >= 1 assert len(l2['bids']) >= 1 l2_limit_range = exchange._ft_has['l2_limit_range'] l2_limit_range_required = exchange._ft_has['l2_limit_range_required'] if exchangename == 'gateio': # TODO: Gateio is unstable here at the moment, ignoring the limit partially. return for val in [1, 2, 5, 25, 100]: l2 = exchange.fetch_l2_order_book(pair, val) if not l2_limit_range or val in l2_limit_range: assert len(l2['asks']) == val assert len(l2['bids']) == val else: next_limit = exchange.get_next_limit_in_list( val, l2_limit_range, l2_limit_range_required) if next_limit is None: assert len(l2['asks']) > 100 assert len(l2['asks']) > 100 elif next_limit > 200: # Large orderbook sizes can be a problem for some exchanges (bitrex ...) assert len(l2['asks']) > 200 assert len(l2['asks']) > 200 else: assert len(l2['asks']) == next_limit assert len(l2['asks']) == next_limit def test_ccxt_fetch_ohlcv(self, exchange): exchange, exchangename = exchange pair = EXCHANGES[exchangename]['pair'] timeframe = EXCHANGES[exchangename]['timeframe'] pair_tf = (pair, timeframe, CandleType.SPOT) ohlcv = exchange.refresh_latest_ohlcv([pair_tf]) assert isinstance(ohlcv, dict) assert len(ohlcv[pair_tf]) == len(exchange.klines(pair_tf)) # assert len(exchange.klines(pair_tf)) > 200 # Assume 90% uptime ... assert len(exchange.klines(pair_tf)) > exchange.ohlcv_candle_limit( timeframe, CandleType.SPOT) * 0.90 # Check if last-timeframe is within the last 2 intervals now = datetime.now(timezone.utc) - timedelta(minutes=(timeframe_to_minutes(timeframe) * 2)) assert exchange.klines(pair_tf).iloc[-1]['date'] >= timeframe_to_prev_date(timeframe, now) def ccxt__async_get_candle_history(self, exchange, exchangename, pair, timeframe, candle_type): timeframe_ms = timeframe_to_msecs(timeframe) now = timeframe_to_prev_date( timeframe, datetime.now(timezone.utc)) for offset in (360, 120, 30, 10, 5, 2): since = now - timedelta(days=offset) since_ms = int(since.timestamp() * 1000) res = exchange.loop.run_until_complete(exchange._async_get_candle_history( pair=pair, timeframe=timeframe, since_ms=since_ms, candle_type=candle_type ) ) assert res assert res[0] == pair assert res[1] == timeframe assert res[2] == candle_type candles = res[3] candle_count = exchange.ohlcv_candle_limit(timeframe, candle_type, since_ms) * 0.9 candle_count1 = (now.timestamp() * 1000 - since_ms) // timeframe_ms assert len(candles) >= min(candle_count, candle_count1) assert candles[0][0] == since_ms or (since_ms + timeframe_ms) def test_ccxt__async_get_candle_history(self, exchange): exchange, exchangename = exchange # For some weired reason, this test returns random lengths for bittrex. if not exchange._ft_has['ohlcv_has_history'] or exchangename in ('bittrex'): return pair = EXCHANGES[exchangename]['pair'] timeframe = EXCHANGES[exchangename]['timeframe'] self.ccxt__async_get_candle_history( exchange, exchangename, pair, timeframe, CandleType.SPOT) def test_ccxt__async_get_candle_history_futures(self, exchange_futures): exchange, exchangename = exchange_futures if not exchange: # exchange_futures only returns values for supported exchanges return pair = EXCHANGES[exchangename].get('futures_pair', EXCHANGES[exchangename]['pair']) timeframe = EXCHANGES[exchangename]['timeframe'] self.ccxt__async_get_candle_history( exchange, exchangename, pair, timeframe, CandleType.FUTURES) def test_ccxt_fetch_funding_rate_history(self, exchange_futures): exchange, exchangename = exchange_futures if not exchange: # exchange_futures only returns values for supported exchanges return pair = EXCHANGES[exchangename].get('futures_pair', EXCHANGES[exchangename]['pair']) since = int((datetime.now(timezone.utc) - timedelta(days=5)).timestamp() * 1000) timeframe_ff = exchange._ft_has.get('funding_fee_timeframe', exchange._ft_has['mark_ohlcv_timeframe']) pair_tf = (pair, timeframe_ff, CandleType.FUNDING_RATE) funding_ohlcv = exchange.refresh_latest_ohlcv( [pair_tf], since_ms=since, drop_incomplete=False) assert isinstance(funding_ohlcv, dict) rate = funding_ohlcv[pair_tf] this_hour = timeframe_to_prev_date(timeframe_ff) hour1 = timeframe_to_prev_date(timeframe_ff, this_hour - timedelta(minutes=1)) hour2 = timeframe_to_prev_date(timeframe_ff, hour1 - timedelta(minutes=1)) hour3 = timeframe_to_prev_date(timeframe_ff, hour2 - timedelta(minutes=1)) val0 = rate[rate['date'] == this_hour].iloc[0]['open'] val1 = rate[rate['date'] == hour1].iloc[0]['open'] val2 = rate[rate['date'] == hour2].iloc[0]['open'] val3 = rate[rate['date'] == hour3].iloc[0]['open'] # Test For last 4 hours # Avoids random test-failure when funding-fees are 0 for a few hours. assert val0 != 0.0 or val1 != 0.0 or val2 != 0.0 or val3 != 0.0 # We expect funding rates to be different from 0.0 - or moving around. assert ( rate['open'].max() != 0.0 or rate['open'].min() != 0.0 or (rate['open'].min() != rate['open'].max()) ) def test_ccxt_fetch_mark_price_history(self, exchange_futures): exchange, exchangename = exchange_futures if not exchange: # exchange_futures only returns values for supported exchanges return pair = EXCHANGES[exchangename].get('futures_pair', EXCHANGES[exchangename]['pair']) since = int((datetime.now(timezone.utc) - timedelta(days=5)).timestamp() * 1000) pair_tf = (pair, '1h', CandleType.MARK) mark_ohlcv = exchange.refresh_latest_ohlcv( [pair_tf], since_ms=since, drop_incomplete=False) assert isinstance(mark_ohlcv, dict) expected_tf = '1h' mark_candles = mark_ohlcv[pair_tf] this_hour = timeframe_to_prev_date(expected_tf) prev_hour = timeframe_to_prev_date(expected_tf, this_hour - timedelta(minutes=1)) assert mark_candles[mark_candles['date'] == prev_hour].iloc[0]['open'] != 0.0 assert mark_candles[mark_candles['date'] == this_hour].iloc[0]['open'] != 0.0 def test_ccxt__calculate_funding_fees(self, exchange_futures): exchange, exchangename = exchange_futures if not exchange: # exchange_futures only returns values for supported exchanges return pair = EXCHANGES[exchangename].get('futures_pair', EXCHANGES[exchangename]['pair']) since = datetime.now(timezone.utc) - timedelta(days=5) funding_fee = exchange._fetch_and_calculate_funding_fees( pair, 20, is_short=False, open_date=since) assert isinstance(funding_fee, float) # assert funding_fee > 0 # TODO: tests fetch_trades (?) def test_ccxt_get_fee(self, exchange): exchange, exchangename = exchange pair = EXCHANGES[exchangename]['pair'] threshold = 0.01 assert 0 < exchange.get_fee(pair, 'limit', 'buy') < threshold assert 0 < exchange.get_fee(pair, 'limit', 'sell') < threshold assert 0 < exchange.get_fee(pair, 'market', 'buy') < threshold assert 0 < exchange.get_fee(pair, 'market', 'sell') < threshold def test_ccxt_get_max_leverage_spot(self, exchange): spot, spot_name = exchange if spot: leverage_in_market_spot = EXCHANGES[spot_name].get('leverage_in_spot_market') if leverage_in_market_spot: spot_pair = EXCHANGES[spot_name].get('pair', EXCHANGES[spot_name]['pair']) spot_leverage = spot.get_max_leverage(spot_pair, 20) assert (isinstance(spot_leverage, float) or isinstance(spot_leverage, int)) assert spot_leverage >= 1.0 def test_ccxt_get_max_leverage_futures(self, exchange_futures): futures, futures_name = exchange_futures if futures: leverage_tiers_public = EXCHANGES[futures_name].get('leverage_tiers_public') if leverage_tiers_public: futures_pair = EXCHANGES[futures_name].get( 'futures_pair', EXCHANGES[futures_name]['pair'] ) futures_leverage = futures.get_max_leverage(futures_pair, 20) assert (isinstance(futures_leverage, float) or isinstance(futures_leverage, int)) assert futures_leverage >= 1.0 def test_ccxt_get_contract_size(self, exchange_futures): futures, futures_name = exchange_futures if futures: futures_pair = EXCHANGES[futures_name].get( 'futures_pair', EXCHANGES[futures_name]['pair'] ) contract_size = futures.get_contract_size(futures_pair) assert (isinstance(contract_size, float) or isinstance(contract_size, int)) assert contract_size >= 0.0 def test_ccxt_load_leverage_tiers(self, exchange_futures): futures, futures_name = exchange_futures if futures and EXCHANGES[futures_name].get('leverage_tiers_public'): leverage_tiers = futures.load_leverage_tiers() futures_pair = EXCHANGES[futures_name].get( 'futures_pair', EXCHANGES[futures_name]['pair'] ) assert (isinstance(leverage_tiers, dict)) assert futures_pair in leverage_tiers pair_tiers = leverage_tiers[futures_pair] assert len(pair_tiers) > 0 oldLeverage = float('inf') oldMaintenanceMarginRate = oldminNotional = oldmaxNotional = -1 for tier in pair_tiers: for key in [ 'maintenanceMarginRate', 'minNotional', 'maxNotional', 'maxLeverage' ]: assert key in tier assert tier[key] >= 0.0 assert tier['maxNotional'] > tier['minNotional'] assert tier['maxLeverage'] <= oldLeverage assert tier['maintenanceMarginRate'] >= oldMaintenanceMarginRate assert tier['minNotional'] > oldminNotional assert tier['maxNotional'] > oldmaxNotional oldLeverage = tier['maxLeverage'] oldMaintenanceMarginRate = tier['maintenanceMarginRate'] oldminNotional = tier['minNotional'] oldmaxNotional = tier['maxNotional'] def test_ccxt_dry_run_liquidation_price(self, exchange_futures): futures, futures_name = exchange_futures if futures and EXCHANGES[futures_name].get('leverage_tiers_public'): futures_pair = EXCHANGES[futures_name].get( 'futures_pair', EXCHANGES[futures_name]['pair'] ) liquidation_price = futures.dry_run_liquidation_price( futures_pair, 40000, False, 100, 100, 100, ) assert (isinstance(liquidation_price, float)) assert liquidation_price >= 0.0 liquidation_price = futures.dry_run_liquidation_price( futures_pair, 40000, False, 100, 100, 100, ) assert (isinstance(liquidation_price, float)) assert liquidation_price >= 0.0 def test_ccxt_get_max_pair_stake_amount(self, exchange_futures): futures, futures_name = exchange_futures if futures: futures_pair = EXCHANGES[futures_name].get( 'futures_pair', EXCHANGES[futures_name]['pair'] ) max_stake_amount = futures.get_max_pair_stake_amount(futures_pair, 40000) assert (isinstance(max_stake_amount, float)) assert max_stake_amount >= 0.0