#!/usr/bin/env python3 import asyncio import copy import json import logging import sys import time import traceback from concurrent.futures import ThreadPoolExecutor from datetime import datetime from typing import Dict, Optional, List import requests from cachetools import cached, TTLCache from freqtrade import __version__, exchange, persistence, rpc, DependencyException, \ OperationalException from freqtrade.analyze import get_signal, SignalType from freqtrade.misc import State, get_state, update_state, parse_args, throttle, \ load_config from freqtrade.persistence import Trade from freqtrade.fiat_convert import CryptoToFiatConverter logger = logging.getLogger('freqtrade') _CONF = {} def refresh_whitelist(whitelist: Optional[List[str]] = None) -> None: """ Check wallet health and remove pair from whitelist if necessary :param whitelist: a new whitelist (optional) :return: None """ whitelist = whitelist or _CONF['exchange']['pair_whitelist'] sanitized_whitelist = [] health = exchange.get_wallet_health() for status in health: pair = '{}_{}'.format(_CONF['stake_currency'], status['Currency']) if pair not in whitelist: continue if status['IsActive']: sanitized_whitelist.append(pair) else: logger.info( 'Ignoring %s from whitelist (reason: %s).', pair, status.get('Notice') or 'wallet is not active' ) if _CONF['exchange']['pair_whitelist'] != sanitized_whitelist: logger.debug('Using refreshed pair whitelist: %s ...', sanitized_whitelist) _CONF['exchange']['pair_whitelist'] = sanitized_whitelist def _process(dynamic_whitelist: Optional[int] = 0) -> bool: """ Queries the persistence layer for open trades and handles them, otherwise a new trade is created. :param: dynamic_whitelist: True is a dynamic whitelist should be generated (optional) :return: True if a trade has been created or closed, False otherwise """ state_changed = False try: # Refresh whitelist based on wallet maintenance refresh_whitelist( gen_pair_whitelist( _CONF['stake_currency'], topn=dynamic_whitelist ) if dynamic_whitelist else None ) # Query trades from persistence layer trades = Trade.query.filter(Trade.is_open.is_(True)).all() if len(trades) < _CONF['max_open_trades']: try: # Create entity and execute trade state_changed = create_trade(float(_CONF['stake_amount'])) if not state_changed: logger.info( 'Checked all whitelisted currencies. ' 'Found no suitable entry positions for buying. Will keep looking ...' ) except DependencyException as exception: logger.warning('Unable to create trade: %s', exception) for trade in trades: # Get order details for actual price per unit if trade.open_order_id: # Update trade with order values logger.info('Got open order for %s', trade) trade.update(exchange.get_order(trade.open_order_id)) if trade.is_open and trade.open_order_id is None: # Check if we can sell our current pair state_changed = handle_trade(trade) or state_changed Trade.session.flush() except (requests.exceptions.RequestException, json.JSONDecodeError) as error: logger.warning( 'Got %s in _process(), retrying in 30 seconds...', error ) time.sleep(30) except OperationalException: rpc.send_msg('*Status:* Got OperationalException:\n```\n{traceback}```{hint}'.format( traceback=traceback.format_exc(), hint='Issue `/start` if you think it is safe to restart.' )) logger.exception('Got OperationalException. Stopping trader ...') update_state(State.STOPPED) return state_changed def execute_sell(trade: Trade, limit: float) -> None: """ Executes a limit sell for the given trade and limit :param trade: Trade instance :param limit: limit rate for the sell order :return: None """ # Execute sell and update trade record order_id = exchange.sell(str(trade.pair), limit, trade.amount) trade.open_order_id = order_id fmt_exp_profit = round(trade.calc_profit_percent(rate=limit) * 100, 2) profit_trade = trade.calc_profit(rate=limit) fiat_converter = CryptoToFiatConverter() profit_fiat = fiat_converter.convert_amount( profit_trade, _CONF['stake_currency'], _CONF['fiat_display_currency'] ) rpc.send_msg('*{exchange}:* Selling [{pair}]({pair_url}) with limit `{limit:.8f}`' '` (profit: ~{profit_percent:.2f}%, {profit_coin:.8f} {coin}`' '` / {profit_fiat:.3f} {fiat})`'.format( exchange=trade.exchange, pair=trade.pair.replace('_', '/'), pair_url=exchange.get_pair_detail_url(trade.pair), limit=limit, profit_percent=fmt_exp_profit, profit_coin=profit_trade, coin=_CONF['stake_currency'], profit_fiat=profit_fiat, fiat=_CONF['fiat_display_currency'], )) Trade.session.flush() def min_roi_reached(trade: Trade, current_rate: float, current_time: datetime) -> bool: """ Based an earlier trade and current price and ROI configuration, decides whether bot should sell :return True if bot should sell at current rate """ current_profit = trade.calc_profit_percent(current_rate) if 'stoploss' in _CONF and current_profit < float(_CONF['stoploss']): logger.debug('Stop loss hit.') return True # Check if time matches and current rate is above threshold time_diff = (current_time - trade.open_date).total_seconds() / 60 for duration, threshold in sorted(_CONF['minimal_roi'].items()): if time_diff > float(duration) and current_profit > threshold: return True logger.debug('Threshold not reached. (cur_profit: %1.2f%%)', float(current_profit) * 100.0) return False def handle_trade(trade: Trade) -> bool: """ Sells the current pair if the threshold is reached and updates the trade record. :return: True if trade has been sold, False otherwise """ if not trade.is_open: raise ValueError('attempt to handle closed trade: {}'.format(trade)) logger.debug('Handling %s ...', trade) current_rate = exchange.get_ticker(trade.pair)['bid'] # Check if minimal roi has been reached if not min_roi_reached(trade, current_rate, datetime.utcnow()): return False # Check if sell signal has been enabled and triggered if _CONF.get('experimental', {}).get('use_sell_signal'): logger.debug('Checking sell_signal ...') if not get_signal(trade.pair, SignalType.SELL): return False execute_sell(trade, current_rate) return True def get_target_bid(ticker: Dict[str, float]) -> float: """ Calculates bid target between current ask price and last price """ if ticker['ask'] < ticker['last']: return ticker['ask'] balance = _CONF['bid_strategy']['ask_last_balance'] return ticker['ask'] + balance * (ticker['last'] - ticker['ask']) def create_trade(stake_amount: float) -> bool: """ Checks the implemented trading indicator(s) for a randomly picked pair, if one pair triggers the buy_signal a new trade record gets created :param stake_amount: amount of btc to spend :return: True if a trade object has been created and persisted, False otherwise """ logger.info( 'Checking buy signals to create a new trade with stake_amount: %f ...', stake_amount ) whitelist = copy.deepcopy(_CONF['exchange']['pair_whitelist']) # Check if stake_amount is fulfilled if exchange.get_balance(_CONF['stake_currency']) < stake_amount: raise DependencyException( 'stake amount is not fulfilled (currency={})'.format(_CONF['stake_currency']) ) # Remove currently opened and latest pairs from whitelist for trade in Trade.query.filter(Trade.is_open.is_(True)).all(): if trade.pair in whitelist: whitelist.remove(trade.pair) logger.debug('Ignoring %s in pair whitelist', trade.pair) if not whitelist: raise DependencyException('No pair in whitelist') # Pick pair based on StochRSI buy signals with ThreadPoolExecutor() as pool: awaitable_signals = [ asyncio.wrap_future(pool.submit(get_signal, pair, SignalType.BUY)) for pair in whitelist ] loop = asyncio.get_event_loop() signals = loop.run_until_complete(asyncio.gather(*awaitable_signals)) for idx, _pair in enumerate(whitelist): if signals[idx]: pair = _pair break else: return False # Calculate amount buy_limit = get_target_bid(exchange.get_ticker(pair)) amount = stake_amount / buy_limit order_id = exchange.buy(pair, buy_limit, amount) # Create trade entity and return rpc.send_msg('*{}:* Buying [{}]({}) with limit `{:.8f}`'.format( exchange.get_name().upper(), pair.replace('_', '/'), exchange.get_pair_detail_url(pair), buy_limit )) # Fee is applied twice because we make a LIMIT_BUY and LIMIT_SELL trade = Trade( pair=pair, stake_amount=stake_amount, amount=amount, fee=exchange.get_fee(), open_rate=buy_limit, open_date=datetime.utcnow(), exchange=exchange.get_name().upper(), open_order_id=order_id ) Trade.session.add(trade) Trade.session.flush() return True def init(config: dict, db_url: Optional[str] = None) -> None: """ Initializes all modules and updates the config :param config: config as dict :param db_url: database connector string for sqlalchemy (Optional) :return: None """ # Initialize all modules rpc.init(config) persistence.init(config, db_url) exchange.init(config) # Set initial application state initial_state = config.get('initial_state') if initial_state: update_state(State[initial_state.upper()]) else: update_state(State.STOPPED) @cached(TTLCache(maxsize=1, ttl=1800)) def gen_pair_whitelist(base_currency: str, topn: int = 20, key: str = 'BaseVolume') -> List[str]: """ Updates the whitelist with with a dynamically generated list :param base_currency: base currency as str :param topn: maximum number of returned results, must be greater than 0 :param key: sort key (defaults to 'BaseVolume') :return: List of pairs """ summaries = sorted( (s for s in exchange.get_market_summaries() if s['MarketName'].startswith(base_currency)), key=lambda s: s.get(key) or 0.0, reverse=True ) if topn <= 0: topn = 20 return [s['MarketName'].replace('-', '_') for s in summaries[:topn]] def cleanup() -> None: """ Cleanup the application state und finish all pending tasks :return: None """ rpc.send_msg('*Status:* `Stopping trader...`') logger.info('Stopping trader and cleaning up modules...') update_state(State.STOPPED) persistence.cleanup() rpc.cleanup() exit(0) def main() -> None: """ Loads and validates the config and handles the main loop :return: None """ global _CONF args = parse_args(sys.argv[1:]) if not args: exit(0) # Initialize logger logging.basicConfig( level=args.loglevel, format='%(asctime)s - %(name)s - %(levelname)s - %(message)s', ) logger.info( 'Starting freqtrade %s (loglevel=%s)', __version__, logging.getLevelName(args.loglevel) ) # Load and validate configuration _CONF = load_config(args.config) # Initialize all modules and start main loop if args.dynamic_whitelist: logger.info('Using dynamically generated whitelist. (--dynamic-whitelist detected)') # If the user ask for Dry run with a local DB instead of memory if args.dry_run_db: if _CONF.get('dry_run', False): _CONF.update({'dry_run_db': True}) logger.info( 'Dry_run will use the DB file: "tradesv3.dry_run.sqlite". (--dry_run_db detected)' ) else: logger.info('Dry run is disabled. (--dry_run_db ignored)') try: init(_CONF) old_state = None while True: new_state = get_state() # Log state transition if new_state != old_state: rpc.send_msg('*Status:* `{}`'.format(new_state.name.lower())) logger.info('Changing state to: %s', new_state.name) if new_state == State.STOPPED: time.sleep(1) elif new_state == State.RUNNING: throttle( _process, min_secs=_CONF['internals'].get('process_throttle_secs', 10), dynamic_whitelist=args.dynamic_whitelist, ) old_state = new_state except KeyboardInterrupt: logger.info('Got SIGINT, aborting ...') except BaseException: logger.exception('Got fatal exception!') finally: cleanup() if __name__ == '__main__': main()