# pragma pylint: disable=unused-argument, unused-variable, protected-access, invalid-name """ This module manage Telegram communication """ import json import logging import re from dataclasses import dataclass from datetime import date, datetime, timedelta from functools import partial from html import escape from itertools import chain from math import isnan from typing import Any, Callable, Dict, List, Optional, Union import arrow from tabulate import tabulate from telegram import (MAX_MESSAGE_LENGTH, CallbackQuery, InlineKeyboardButton, InlineKeyboardMarkup, KeyboardButton, ParseMode, ReplyKeyboardMarkup, Update) from telegram.error import BadRequest, NetworkError, TelegramError from telegram.ext import CallbackContext, CallbackQueryHandler, CommandHandler, Updater from telegram.utils.helpers import escape_markdown from freqtrade.__init__ import __version__ from freqtrade.constants import DUST_PER_COIN from freqtrade.enums import RPCMessageType, SignalDirection, TradingMode from freqtrade.exceptions import OperationalException from freqtrade.misc import chunks, plural, round_coin_value from freqtrade.persistence import Trade from freqtrade.rpc import RPC, RPCException, RPCHandler logger = logging.getLogger(__name__) logger.debug('Included module rpc.telegram ...') @dataclass class TimeunitMappings: header: str message: str message2: str callback: str default: int def authorized_only(command_handler: Callable[..., None]) -> Callable[..., Any]: """ Decorator to check if the message comes from the correct chat_id :param command_handler: Telegram CommandHandler :return: decorated function """ def wrapper(self, *args, **kwargs): """ Decorator logic """ update = kwargs.get('update') or args[0] # Reject unauthorized messages if update.callback_query: cchat_id = int(update.callback_query.message.chat.id) else: cchat_id = int(update.message.chat_id) chat_id = int(self._config['telegram']['chat_id']) if cchat_id != chat_id: logger.info( 'Rejected unauthorized message from: %s', update.message.chat_id ) return wrapper # Rollback session to avoid getting data stored in a transaction. Trade.query.session.rollback() logger.debug( 'Executing handler: %s for chat_id: %s', command_handler.__name__, chat_id ) try: return command_handler(self, *args, **kwargs) except BaseException: logger.exception('Exception occurred within Telegram module') return wrapper class Telegram(RPCHandler): """ This class handles all telegram communication """ def __init__(self, rpc: RPC, config: Dict[str, Any]) -> None: """ Init the Telegram call, and init the super class RPCHandler :param rpc: instance of RPC Helper class :param config: Configuration object :return: None """ super().__init__(rpc, config) self._updater: Updater self._init_keyboard() self._init() def _init_keyboard(self) -> None: """ Validates the keyboard configuration from telegram config section. """ self._keyboard: List[List[Union[str, KeyboardButton]]] = [ ['/daily', '/profit', '/balance'], ['/status', '/status table', '/performance'], ['/count', '/start', '/stop', '/help'] ] # do not allow commands with mandatory arguments and critical cmds # TODO: DRY! - its not good to list all valid cmds here. But otherwise # this needs refactoring of the whole telegram module (same # problem in _help()). valid_keys: List[str] = [r'/start$', r'/stop$', r'/status$', r'/status table$', r'/trades$', r'/performance$', r'/buys', r'/entries', r'/sells', r'/exits', r'/mix_tags', r'/daily$', r'/daily \d+$', r'/profit$', r'/profit \d+', r'/stats$', r'/count$', r'/locks$', r'/balance$', r'/stopbuy$', r'/reload_config$', r'/show_config$', r'/logs$', r'/whitelist$', r'/blacklist$', r'/bl_delete$', r'/weekly$', r'/weekly \d+$', r'/monthly$', r'/monthly \d+$', r'/forcebuy$', r'/forcelong$', r'/forceshort$', r'/forcesell$', r'/forceexit$', r'/edge$', r'/health$', r'/help$', r'/version$'] # Create keys for generation valid_keys_print = [k.replace('$', '') for k in valid_keys] # custom keyboard specified in config.json cust_keyboard = self._config['telegram'].get('keyboard', []) if cust_keyboard: combined = "(" + ")|(".join(valid_keys) + ")" # check for valid shortcuts invalid_keys = [b for b in chain.from_iterable(cust_keyboard) if not re.match(combined, b)] if len(invalid_keys): err_msg = ('config.telegram.keyboard: Invalid commands for ' f'custom Telegram keyboard: {invalid_keys}' f'\nvalid commands are: {valid_keys_print}') raise OperationalException(err_msg) else: self._keyboard = cust_keyboard logger.info('using custom keyboard from ' f'config.json: {self._keyboard}') def _init(self) -> None: """ Initializes this module with the given config, registers all known command handlers and starts polling for message updates """ self._updater = Updater(token=self._config['telegram']['token'], workers=0, use_context=True) # Register command handler and start telegram message polling handles = [ CommandHandler('status', self._status), CommandHandler('profit', self._profit), CommandHandler('balance', self._balance), CommandHandler('start', self._start), CommandHandler('stop', self._stop), CommandHandler(['forcesell', 'forceexit', 'fx'], self._force_exit), CommandHandler(['forcebuy', 'forcelong'], partial( self._force_enter, order_side=SignalDirection.LONG)), CommandHandler('forceshort', partial( self._force_enter, order_side=SignalDirection.SHORT)), CommandHandler('trades', self._trades), CommandHandler('delete', self._delete_trade), CommandHandler('performance', self._performance), CommandHandler(['buys', 'entries'], self._enter_tag_performance), CommandHandler(['sells', 'exits'], self._exit_reason_performance), CommandHandler('mix_tags', self._mix_tag_performance), CommandHandler('stats', self._stats), CommandHandler('daily', self._daily), CommandHandler('weekly', self._weekly), CommandHandler('monthly', self._monthly), CommandHandler('count', self._count), CommandHandler('locks', self._locks), CommandHandler(['unlock', 'delete_locks'], self._delete_locks), CommandHandler(['reload_config', 'reload_conf'], self._reload_config), CommandHandler(['show_config', 'show_conf'], self._show_config), CommandHandler('stopbuy', self._stopbuy), CommandHandler('whitelist', self._whitelist), CommandHandler('blacklist', self._blacklist), CommandHandler(['blacklist_delete', 'bl_delete'], self._blacklist_delete), CommandHandler('logs', self._logs), CommandHandler('edge', self._edge), CommandHandler('health', self._health), CommandHandler('help', self._help), CommandHandler('version', self._version), ] callbacks = [ CallbackQueryHandler(self._status_table, pattern='update_status_table'), CallbackQueryHandler(self._daily, pattern='update_daily'), CallbackQueryHandler(self._weekly, pattern='update_weekly'), CallbackQueryHandler(self._monthly, pattern='update_monthly'), CallbackQueryHandler(self._profit, pattern='update_profit'), CallbackQueryHandler(self._balance, pattern='update_balance'), CallbackQueryHandler(self._performance, pattern='update_performance'), CallbackQueryHandler(self._enter_tag_performance, pattern='update_enter_tag_performance'), CallbackQueryHandler(self._exit_reason_performance, pattern='update_exit_reason_performance'), CallbackQueryHandler(self._mix_tag_performance, pattern='update_mix_tag_performance'), CallbackQueryHandler(self._count, pattern='update_count'), CallbackQueryHandler(self._force_exit_inline, pattern=r"force_exit__\S+"), CallbackQueryHandler(self._force_enter_inline, pattern=r"\S+\/\S+"), ] for handle in handles: self._updater.dispatcher.add_handler(handle) for callback in callbacks: self._updater.dispatcher.add_handler(callback) self._updater.start_polling( bootstrap_retries=-1, timeout=20, read_latency=60, # Assumed transmission latency drop_pending_updates=True, ) logger.info( 'rpc.telegram is listening for following commands: %s', [h.command for h in handles] ) def cleanup(self) -> None: """ Stops all running telegram threads. :return: None """ # This can take up to `timeout` from the call to `start_polling`. self._updater.stop() def _exchange_from_msg(self, msg: Dict[str, Any]) -> str: """ Extracts the exchange name from the given message. :param msg: The message to extract the exchange name from. :return: The exchange name. """ return f"{msg['exchange']}{' (dry)' if self._config['dry_run'] else ''}" def _add_analyzed_candle(self, pair: str) -> str: candle_val = self._config['telegram'].get( 'notification_settings', {}).get('show_candle', 'off') if candle_val != 'off': if candle_val == 'ohlc': analyzed_df, _ = self._rpc._freqtrade.dataprovider.get_analyzed_dataframe( pair, self._config['timeframe']) candle = analyzed_df.iloc[-1].squeeze() if len(analyzed_df) > 0 else None if candle is not None: return ( f"*Candle OHLC*: `{candle['open']}, {candle['high']}, " f"{candle['low']}, {candle['close']}`\n" ) return '' def _format_entry_msg(self, msg: Dict[str, Any]) -> str: if self._rpc._fiat_converter: msg['stake_amount_fiat'] = self._rpc._fiat_converter.convert_amount( msg['stake_amount'], msg['stake_currency'], msg['fiat_currency']) else: msg['stake_amount_fiat'] = 0 is_fill = msg['type'] in [RPCMessageType.ENTRY_FILL] emoji = '\N{CHECK MARK}' if is_fill else '\N{LARGE BLUE CIRCLE}' entry_side = ({'enter': 'Long', 'entered': 'Longed'} if msg['direction'] == 'Long' else {'enter': 'Short', 'entered': 'Shorted'}) message = ( f"{emoji} *{self._exchange_from_msg(msg)}:*" f" {entry_side['entered'] if is_fill else entry_side['enter']} {msg['pair']}" f" (#{msg['trade_id']})\n" ) message += self._add_analyzed_candle(msg['pair']) message += f"*Enter Tag:* `{msg['enter_tag']}`\n" if msg.get('enter_tag') else "" message += f"*Amount:* `{msg['amount']:.8f}`\n" if msg.get('leverage') and msg.get('leverage', 1.0) != 1.0: message += f"*Leverage:* `{msg['leverage']}`\n" if msg['type'] in [RPCMessageType.ENTRY_FILL]: message += f"*Open Rate:* `{msg['open_rate']:.8f}`\n" elif msg['type'] in [RPCMessageType.ENTRY]: message += f"*Open Rate:* `{msg['limit']:.8f}`\n"\ f"*Current Rate:* `{msg['current_rate']:.8f}`\n" message += f"*Total:* `({round_coin_value(msg['stake_amount'], msg['stake_currency'])}" if msg.get('fiat_currency'): message += f", {round_coin_value(msg['stake_amount_fiat'], msg['fiat_currency'])}" message += ")`" return message def _format_exit_msg(self, msg: Dict[str, Any]) -> str: msg['amount'] = round(msg['amount'], 8) msg['profit_percent'] = round(msg['profit_ratio'] * 100, 2) msg['duration'] = msg['close_date'].replace( microsecond=0) - msg['open_date'].replace(microsecond=0) msg['duration_min'] = msg['duration'].total_seconds() / 60 msg['enter_tag'] = msg['enter_tag'] if "enter_tag" in msg.keys() else None msg['emoji'] = self._get_sell_emoji(msg) msg['leverage_text'] = (f"*Leverage:* `{msg['leverage']:.1f}`\n" if msg.get('leverage') and msg.get('leverage', 1.0) != 1.0 else "") # Check if all sell properties are available. # This might not be the case if the message origin is triggered by /forceexit if (all(prop in msg for prop in ['gain', 'fiat_currency', 'stake_currency']) and self._rpc._fiat_converter): msg['profit_fiat'] = self._rpc._fiat_converter.convert_amount( msg['profit_amount'], msg['stake_currency'], msg['fiat_currency']) msg['profit_extra'] = ( f" / {msg['profit_fiat']:.3f} {msg['fiat_currency']}") else: msg['profit_extra'] = '' msg['profit_extra'] = ( f" ({msg['gain']}: {msg['profit_amount']:.8f} {msg['stake_currency']}" f"{msg['profit_extra']})") is_fill = msg['type'] == RPCMessageType.EXIT_FILL is_sub_trade = msg.get('sub_trade') is_sub_profit = msg['profit_amount'] != msg.get('cumulative_profit') profit_prefix = ('Sub ' if is_sub_profit else 'Cumulative ') if is_sub_trade else '' cp_extra = '' if is_sub_profit and is_sub_trade: if self._rpc._fiat_converter: cp_fiat = self._rpc._fiat_converter.convert_amount( msg['cumulative_profit'], msg['stake_currency'], msg['fiat_currency']) cp_extra = f" / {cp_fiat:.3f} {msg['fiat_currency']}" else: cp_extra = '' cp_extra = f"*Cumulative Profit:* (`{msg['cumulative_profit']:.8f} " \ f"{msg['stake_currency']}{cp_extra}`)\n" message = ( f"{msg['emoji']} *{self._exchange_from_msg(msg)}:* " f"{'Exited' if is_fill else 'Exiting'} {msg['pair']} (#{msg['trade_id']})\n" f"{self._add_analyzed_candle(msg['pair'])}" f"*{f'{profit_prefix}Profit' if is_fill else f'Unrealized {profit_prefix}Profit'}:* " f"`{msg['profit_ratio']:.2%}{msg['profit_extra']}`\n" f"{cp_extra}" f"*Enter Tag:* `{msg['enter_tag']}`\n" f"*Exit Reason:* `{msg['exit_reason']}`\n" f"*Direction:* `{msg['direction']}`\n" f"{msg['leverage_text']}" f"*Amount:* `{msg['amount']:.8f}`\n" f"*Open Rate:* `{msg['open_rate']:.8f}`\n" ) if msg['type'] == RPCMessageType.EXIT: message += (f"*Current Rate:* `{msg['current_rate']:.8f}`\n" f"*Exit Rate:* `{msg['limit']:.8f}`") elif msg['type'] == RPCMessageType.EXIT_FILL: message += f"*Exit Rate:* `{msg['close_rate']:.8f}`" if msg.get('sub_trade'): if self._rpc._fiat_converter: msg['stake_amount_fiat'] = self._rpc._fiat_converter.convert_amount( msg['stake_amount'], msg['stake_currency'], msg['fiat_currency']) else: msg['stake_amount_fiat'] = 0 rem = round_coin_value(msg['stake_amount'], msg['stake_currency']) message += f"\n*Remaining:* `({rem}" if msg.get('fiat_currency', None): message += f", {round_coin_value(msg['stake_amount_fiat'], msg['fiat_currency'])}" message += ")`" else: message += f"\n*Duration:* `{msg['duration']} ({msg['duration_min']:.1f} min)`" return message def compose_message(self, msg: Dict[str, Any], msg_type: RPCMessageType) -> str: if msg_type in [RPCMessageType.ENTRY, RPCMessageType.ENTRY_FILL]: message = self._format_entry_msg(msg) elif msg_type in [RPCMessageType.EXIT, RPCMessageType.EXIT_FILL]: message = self._format_exit_msg(msg) elif msg_type in (RPCMessageType.ENTRY_CANCEL, RPCMessageType.EXIT_CANCEL): msg['message_side'] = 'enter' if msg_type in [RPCMessageType.ENTRY_CANCEL] else 'exit' message = (f"\N{WARNING SIGN} *{self._exchange_from_msg(msg)}:* " f"Cancelling {'partial ' if msg.get('sub_trade') else ''}" f"{msg['message_side']} Order for {msg['pair']} " f"(#{msg['trade_id']}). Reason: {msg['reason']}.") elif msg_type == RPCMessageType.PROTECTION_TRIGGER: message = ( f"*Protection* triggered due to {msg['reason']}. " f"`{msg['pair']}` will be locked until `{msg['lock_end_time']}`." ) elif msg_type == RPCMessageType.PROTECTION_TRIGGER_GLOBAL: message = ( f"*Protection* triggered due to {msg['reason']}. " f"*All pairs* will be locked until `{msg['lock_end_time']}`." ) elif msg_type == RPCMessageType.STATUS: message = f"*Status:* `{msg['status']}`" elif msg_type == RPCMessageType.WARNING: message = f"\N{WARNING SIGN} *Warning:* `{msg['status']}`" elif msg_type == RPCMessageType.STARTUP: message = f"{msg['status']}" elif msg_type == RPCMessageType.STRATEGY_MSG: message = f"{msg['msg']}" else: raise NotImplementedError(f"Unknown message type: {msg_type}") return message def send_msg(self, msg: Dict[str, Any]) -> None: """ Send a message to telegram channel """ default_noti = 'on' msg_type = msg['type'] noti = '' if msg_type == RPCMessageType.EXIT: sell_noti = self._config['telegram'] \ .get('notification_settings', {}).get(str(msg_type), {}) # For backward compatibility sell still can be string if isinstance(sell_noti, str): noti = sell_noti else: noti = sell_noti.get(str(msg['exit_reason']), default_noti) else: noti = self._config['telegram'] \ .get('notification_settings', {}).get(str(msg_type), default_noti) if noti == 'off': logger.info(f"Notification '{msg_type}' not sent.") # Notification disabled return message = self.compose_message(msg, msg_type) self._send_msg(message, disable_notification=(noti == 'silent')) def _get_sell_emoji(self, msg): """ Get emoji for sell-side """ if float(msg['profit_percent']) >= 5.0: return "\N{ROCKET}" elif float(msg['profit_percent']) >= 0.0: return "\N{EIGHT SPOKED ASTERISK}" elif msg['exit_reason'] == "stop_loss": return "\N{WARNING SIGN}" else: return "\N{CROSS MARK}" def _prepare_order_details(self, filled_orders: List, quote_currency: str, is_open: bool): """ Prepare details of trade with entry adjustment enabled """ lines: List[str] = [] if len(filled_orders) > 0: first_avg = filled_orders[0]["safe_price"] for x, order in enumerate(filled_orders): if order['is_open'] is True: continue wording = 'Entry' if order['ft_is_entry'] else 'Exit' cur_entry_datetime = arrow.get(order["order_filled_date"]) cur_entry_amount = order["filled"] or order["amount"] cur_entry_average = order["safe_price"] lines.append(" ") if x == 0: lines.append(f"*{wording} #{x+1}:*") lines.append( f"*Amount:* {cur_entry_amount} ({order['cost']:.8f} {quote_currency})") lines.append(f"*Average Price:* {cur_entry_average}") else: sumA = 0 sumB = 0 for y in range(x): amount = filled_orders[y]["filled"] or filled_orders[y]["amount"] sumA += amount * filled_orders[y]["safe_price"] sumB += amount prev_avg_price = sumA / sumB # TODO: This calculation ignores fees. price_to_1st_entry = ((cur_entry_average - first_avg) / first_avg) minus_on_entry = 0 if prev_avg_price: minus_on_entry = (cur_entry_average - prev_avg_price) / prev_avg_price lines.append(f"*{wording} #{x+1}:* at {minus_on_entry:.2%} avg profit") if is_open: lines.append("({})".format(cur_entry_datetime .humanize(granularity=["day", "hour", "minute"]))) lines.append( f"*Amount:* {cur_entry_amount} ({order['cost']:.8f} {quote_currency})") lines.append(f"*Average {wording} Price:* {cur_entry_average} " f"({price_to_1st_entry:.2%} from 1st entry rate)") lines.append(f"*Order filled:* {order['order_filled_date']}") # TODO: is this really useful? # dur_entry = cur_entry_datetime - arrow.get( # filled_orders[x - 1]["order_filled_date"]) # days = dur_entry.days # hours, remainder = divmod(dur_entry.seconds, 3600) # minutes, seconds = divmod(remainder, 60) # lines.append( # f"({days}d {hours}h {minutes}m {seconds}s from previous {wording.lower()})") return lines @authorized_only def _status(self, update: Update, context: CallbackContext) -> None: """ Handler for /status. Returns the current TradeThread status :param bot: telegram bot :param update: message update :return: None """ if context.args and 'table' in context.args: self._status_table(update, context) return else: self._status_msg(update, context) def _status_msg(self, update: Update, context: CallbackContext) -> None: """ handler for `/status` and `/status `. """ try: # Check if there's at least one numerical ID provided. # If so, try to get only these trades. trade_ids = [] if context.args and len(context.args) > 0: trade_ids = [int(i) for i in context.args if i.isnumeric()] results = self._rpc._rpc_trade_status(trade_ids=trade_ids) position_adjust = self._config.get('position_adjustment_enable', False) max_entries = self._config.get('max_entry_position_adjustment', -1) messages = [] for r in results: r['open_date_hum'] = arrow.get(r['open_date']).humanize() r['num_entries'] = len([o for o in r['orders'] if o['ft_is_entry']]) r['exit_reason'] = r.get('exit_reason', "") lines = [ "*Trade ID:* `{trade_id}`" + ("` (since {open_date_hum})`" if r['is_open'] else ""), "*Current Pair:* {pair}", "*Direction:* " + ("`Short`" if r.get('is_short') else "`Long`"), "*Leverage:* `{leverage}`" if r.get('leverage') else "", "*Amount:* `{amount} ({stake_amount} {quote_currency})`", "*Enter Tag:* `{enter_tag}`" if r['enter_tag'] else "", "*Exit Reason:* `{exit_reason}`" if r['exit_reason'] else "", ] if position_adjust: max_buy_str = (f"/{max_entries + 1}" if (max_entries > 0) else "") lines.append("*Number of Entries:* `{num_entries}`" + max_buy_str) lines.extend([ "*Open Rate:* `{open_rate:.8f}`", "*Close Rate:* `{close_rate:.8f}`" if r['close_rate'] else "", "*Open Date:* `{open_date}`", "*Close Date:* `{close_date}`" if r['close_date'] else "", "*Current Rate:* `{current_rate:.8f}`" if r['is_open'] else "", ("*Current Profit:* " if r['is_open'] else "*Close Profit: *") + "`{profit_ratio:.2%}`", ]) if r['is_open']: if r.get('realized_profit'): lines.append("*Realized Profit:* `{realized_profit:.8f}`") if (r['stop_loss_abs'] != r['initial_stop_loss_abs'] and r['initial_stop_loss_ratio'] is not None): # Adding initial stoploss only if it is different from stoploss lines.append("*Initial Stoploss:* `{initial_stop_loss_abs:.8f}` " "`({initial_stop_loss_ratio:.2%})`") # Adding stoploss and stoploss percentage only if it is not None lines.append("*Stoploss:* `{stop_loss_abs:.8f}` " + ("`({stop_loss_ratio:.2%})`" if r['stop_loss_ratio'] else "")) lines.append("*Stoploss distance:* `{stoploss_current_dist:.8f}` " "`({stoploss_current_dist_ratio:.2%})`") if r['open_order']: if r['exit_order_status']: lines.append("*Open Order:* `{open_order}` - `{exit_order_status}`") else: lines.append("*Open Order:* `{open_order}`") lines_detail = self._prepare_order_details( r['orders'], r['quote_currency'], r['is_open']) lines.extend(lines_detail if lines_detail else "") # Filter empty lines using list-comprehension messages.append("\n".join([line for line in lines if line]).format(**r)) for msg in messages: self._send_msg(msg) except RPCException as e: self._send_msg(str(e)) @authorized_only def _status_table(self, update: Update, context: CallbackContext) -> None: """ Handler for /status table. Returns the current TradeThread status in table format :param bot: telegram bot :param update: message update :return: None """ try: fiat_currency = self._config.get('fiat_display_currency', '') statlist, head, fiat_profit_sum = self._rpc._rpc_status_table( self._config['stake_currency'], fiat_currency) show_total = not isnan(fiat_profit_sum) and len(statlist) > 1 max_trades_per_msg = 50 """ Calculate the number of messages of 50 trades per message 0.99 is used to make sure that there are no extra (empty) messages As an example with 50 trades, there will be int(50/50 + 0.99) = 1 message """ messages_count = max(int(len(statlist) / max_trades_per_msg + 0.99), 1) for i in range(0, messages_count): trades = statlist[i * max_trades_per_msg:(i + 1) * max_trades_per_msg] if show_total and i == messages_count - 1: # append total line trades.append(["Total", "", "", f"{fiat_profit_sum:.2f} {fiat_currency}"]) message = tabulate(trades, headers=head, tablefmt='simple') if show_total and i == messages_count - 1: # insert separators line between Total lines = message.split("\n") message = "\n".join(lines[:-1] + [lines[1]] + [lines[-1]]) self._send_msg(f"
{message}
", parse_mode=ParseMode.HTML, reload_able=True, callback_path="update_status_table", query=update.callback_query) except RPCException as e: self._send_msg(str(e)) @authorized_only def _timeunit_stats(self, update: Update, context: CallbackContext, unit: str) -> None: """ Handler for /daily Returns a daily profit (in BTC) over the last n days. :param bot: telegram bot :param update: message update :return: None """ vals = { 'days': TimeunitMappings('Day', 'Daily', 'days', 'update_daily', 7), 'weeks': TimeunitMappings('Monday', 'Weekly', 'weeks (starting from Monday)', 'update_weekly', 8), 'months': TimeunitMappings('Month', 'Monthly', 'months', 'update_monthly', 6), } val = vals[unit] stake_cur = self._config['stake_currency'] fiat_disp_cur = self._config.get('fiat_display_currency', '') try: timescale = int(context.args[0]) if context.args else val.default except (TypeError, ValueError, IndexError): timescale = val.default try: stats = self._rpc._rpc_timeunit_profit( timescale, stake_cur, fiat_disp_cur, unit ) stats_tab = tabulate( [[f"{period['date']} ({period['trade_count']})", f"{round_coin_value(period['abs_profit'], stats['stake_currency'])}", f"{period['fiat_value']:.2f} {stats['fiat_display_currency']}", f"{period['rel_profit']:.2%}", ] for period in stats['data']], headers=[ f"{val.header} (count)", f'{stake_cur}', f'{fiat_disp_cur}', 'Profit %', 'Trades', ], tablefmt='simple') message = ( f'{val.message} Profit over the last {timescale} {val.message2}:\n' f'
{stats_tab}
' ) self._send_msg(message, parse_mode=ParseMode.HTML, reload_able=True, callback_path=val.callback, query=update.callback_query) except RPCException as e: self._send_msg(str(e)) @authorized_only def _daily(self, update: Update, context: CallbackContext) -> None: """ Handler for /daily Returns a daily profit (in BTC) over the last n days. :param bot: telegram bot :param update: message update :return: None """ self._timeunit_stats(update, context, 'days') @authorized_only def _weekly(self, update: Update, context: CallbackContext) -> None: """ Handler for /weekly Returns a weekly profit (in BTC) over the last n weeks. :param bot: telegram bot :param update: message update :return: None """ self._timeunit_stats(update, context, 'weeks') @authorized_only def _monthly(self, update: Update, context: CallbackContext) -> None: """ Handler for /monthly Returns a monthly profit (in BTC) over the last n months. :param bot: telegram bot :param update: message update :return: None """ self._timeunit_stats(update, context, 'months') @authorized_only def _profit(self, update: Update, context: CallbackContext) -> None: """ Handler for /profit. Returns a cumulative profit statistics. :param bot: telegram bot :param update: message update :return: None """ stake_cur = self._config['stake_currency'] fiat_disp_cur = self._config.get('fiat_display_currency', '') start_date = datetime.fromtimestamp(0) timescale = None try: if context.args: timescale = int(context.args[0]) - 1 today_start = datetime.combine(date.today(), datetime.min.time()) start_date = today_start - timedelta(days=timescale) except (TypeError, ValueError, IndexError): pass stats = self._rpc._rpc_trade_statistics( stake_cur, fiat_disp_cur, start_date) profit_closed_coin = stats['profit_closed_coin'] profit_closed_ratio_mean = stats['profit_closed_ratio_mean'] profit_closed_percent = stats['profit_closed_percent'] profit_closed_fiat = stats['profit_closed_fiat'] profit_all_coin = stats['profit_all_coin'] profit_all_ratio_mean = stats['profit_all_ratio_mean'] profit_all_percent = stats['profit_all_percent'] profit_all_fiat = stats['profit_all_fiat'] trade_count = stats['trade_count'] first_trade_date = stats['first_trade_date'] latest_trade_date = stats['latest_trade_date'] avg_duration = stats['avg_duration'] best_pair = stats['best_pair'] best_pair_profit_ratio = stats['best_pair_profit_ratio'] if stats['trade_count'] == 0: markdown_msg = 'No trades yet.' else: # Message to display if stats['closed_trade_count'] > 0: markdown_msg = ("*ROI:* Closed trades\n" f"∙ `{round_coin_value(profit_closed_coin, stake_cur)} " f"({profit_closed_ratio_mean:.2%}) " f"({profit_closed_percent} \N{GREEK CAPITAL LETTER SIGMA}%)`\n" f"∙ `{round_coin_value(profit_closed_fiat, fiat_disp_cur)}`\n") else: markdown_msg = "`No closed trade` \n" markdown_msg += ( f"*ROI:* All trades\n" f"∙ `{round_coin_value(profit_all_coin, stake_cur)} " f"({profit_all_ratio_mean:.2%}) " f"({profit_all_percent} \N{GREEK CAPITAL LETTER SIGMA}%)`\n" f"∙ `{round_coin_value(profit_all_fiat, fiat_disp_cur)}`\n" f"*Total Trade Count:* `{trade_count}`\n" f"*{'First Trade opened' if not timescale else 'Showing Profit since'}:* " f"`{first_trade_date}`\n" f"*Latest Trade opened:* `{latest_trade_date}`\n" f"*Win / Loss:* `{stats['winning_trades']} / {stats['losing_trades']}`" ) if stats['closed_trade_count'] > 0: markdown_msg += ( f"\n*Avg. Duration:* `{avg_duration}`\n" f"*Best Performing:* `{best_pair}: {best_pair_profit_ratio:.2%}`\n" f"*Trading volume:* `{round_coin_value(stats['trading_volume'], stake_cur)}`\n" f"*Profit factor:* `{stats['profit_factor']:.2f}`\n" f"*Max Drawdown:* `{stats['max_drawdown']:.2%} " f"({round_coin_value(stats['max_drawdown_abs'], stake_cur)})`" ) self._send_msg(markdown_msg, reload_able=True, callback_path="update_profit", query=update.callback_query) @authorized_only def _stats(self, update: Update, context: CallbackContext) -> None: """ Handler for /stats Show stats of recent trades """ stats = self._rpc._rpc_stats() reason_map = { 'roi': 'ROI', 'stop_loss': 'Stoploss', 'trailing_stop_loss': 'Trail. Stop', 'stoploss_on_exchange': 'Stoploss', 'exit_signal': 'Exit Signal', 'force_exit': 'Force Exit', 'emergency_exit': 'Emergency Exit', } exit_reasons_tabulate = [ [ reason_map.get(reason, reason), sum(count.values()), count['wins'], count['losses'] ] for reason, count in stats['exit_reasons'].items() ] exit_reasons_msg = 'No trades yet.' for reason in chunks(exit_reasons_tabulate, 25): exit_reasons_msg = tabulate( reason, headers=['Exit Reason', 'Exits', 'Wins', 'Losses'] ) if len(exit_reasons_tabulate) > 25: self._send_msg(f"```\n{exit_reasons_msg}```", ParseMode.MARKDOWN) exit_reasons_msg = '' durations = stats['durations'] duration_msg = tabulate( [ ['Wins', str(timedelta(seconds=durations['wins'])) if durations['wins'] is not None else 'N/A'], ['Losses', str(timedelta(seconds=durations['losses'])) if durations['losses'] is not None else 'N/A'] ], headers=['', 'Avg. Duration'] ) msg = (f"""```\n{exit_reasons_msg}```\n```\n{duration_msg}```""") self._send_msg(msg, ParseMode.MARKDOWN) @authorized_only def _balance(self, update: Update, context: CallbackContext) -> None: """ Handler for /balance """ try: result = self._rpc._rpc_balance(self._config['stake_currency'], self._config.get('fiat_display_currency', '')) balance_dust_level = self._config['telegram'].get('balance_dust_level', 0.0) if not balance_dust_level: balance_dust_level = DUST_PER_COIN.get(self._config['stake_currency'], 1.0) output = '' if self._config['dry_run']: output += "*Warning:* Simulated balances in Dry Mode.\n" starting_cap = round_coin_value( result['starting_capital'], self._config['stake_currency']) output += f"Starting capital: `{starting_cap}`" starting_cap_fiat = round_coin_value( result['starting_capital_fiat'], self._config['fiat_display_currency'] ) if result['starting_capital_fiat'] > 0 else '' output += (f" `, {starting_cap_fiat}`.\n" ) if result['starting_capital_fiat'] > 0 else '.\n' total_dust_balance = 0 total_dust_currencies = 0 for curr in result['currencies']: curr_output = '' if curr['est_stake'] > balance_dust_level: if curr['is_position']: curr_output = ( f"*{curr['currency']}:*\n" f"\t`{curr['side']}: {curr['position']:.8f}`\n" f"\t`Leverage: {curr['leverage']:.1f}`\n" f"\t`Est. {curr['stake']}: " f"{round_coin_value(curr['est_stake'], curr['stake'], False)}`\n") else: curr_output = ( f"*{curr['currency']}:*\n" f"\t`Available: {curr['free']:.8f}`\n" f"\t`Balance: {curr['balance']:.8f}`\n" f"\t`Pending: {curr['used']:.8f}`\n" f"\t`Est. {curr['stake']}: " f"{round_coin_value(curr['est_stake'], curr['stake'], False)}`\n") elif curr['est_stake'] <= balance_dust_level: total_dust_balance += curr['est_stake'] total_dust_currencies += 1 # Handle overflowing message length if len(output + curr_output) >= MAX_MESSAGE_LENGTH: self._send_msg(output) output = curr_output else: output += curr_output if total_dust_balance > 0: output += ( f"*{total_dust_currencies} Other " f"{plural(total_dust_currencies, 'Currency', 'Currencies')} " f"(< {balance_dust_level} {result['stake']}):*\n" f"\t`Est. {result['stake']}: " f"{round_coin_value(total_dust_balance, result['stake'], False)}`\n") tc = result['trade_count'] > 0 stake_improve = f" `({result['starting_capital_ratio']:.2%})`" if tc else '' fiat_val = f" `({result['starting_capital_fiat_ratio']:.2%})`" if tc else '' output += ("\n*Estimated Value*:\n" f"\t`{result['stake']}: " f"{round_coin_value(result['total'], result['stake'], False)}`" f"{stake_improve}\n" f"\t`{result['symbol']}: " f"{round_coin_value(result['value'], result['symbol'], False)}`" f"{fiat_val}\n") self._send_msg(output, reload_able=True, callback_path="update_balance", query=update.callback_query) except RPCException as e: self._send_msg(str(e)) @authorized_only def _start(self, update: Update, context: CallbackContext) -> None: """ Handler for /start. Starts TradeThread :param bot: telegram bot :param update: message update :return: None """ msg = self._rpc._rpc_start() self._send_msg(f"Status: `{msg['status']}`") @authorized_only def _stop(self, update: Update, context: CallbackContext) -> None: """ Handler for /stop. Stops TradeThread :param bot: telegram bot :param update: message update :return: None """ msg = self._rpc._rpc_stop() self._send_msg(f"Status: `{msg['status']}`") @authorized_only def _reload_config(self, update: Update, context: CallbackContext) -> None: """ Handler for /reload_config. Triggers a config file reload :param bot: telegram bot :param update: message update :return: None """ msg = self._rpc._rpc_reload_config() self._send_msg(f"Status: `{msg['status']}`") @authorized_only def _stopbuy(self, update: Update, context: CallbackContext) -> None: """ Handler for /stop_buy. Sets max_open_trades to 0 and gracefully sells all open trades :param bot: telegram bot :param update: message update :return: None """ msg = self._rpc._rpc_stopbuy() self._send_msg(f"Status: `{msg['status']}`") @authorized_only def _force_exit(self, update: Update, context: CallbackContext) -> None: """ Handler for /forceexit . Sells the given trade at current price :param bot: telegram bot :param update: message update :return: None """ if context.args: trade_id = context.args[0] self._force_exit_action(trade_id) else: fiat_currency = self._config.get('fiat_display_currency', '') try: statlist, _, _ = self._rpc._rpc_status_table( self._config['stake_currency'], fiat_currency) except RPCException: self._send_msg(msg='No open trade found.') return trades = [] for trade in statlist: trades.append((trade[0], f"{trade[0]} {trade[1]} {trade[2]} {trade[3]}")) trade_buttons = [ InlineKeyboardButton(text=trade[1], callback_data=f"force_exit__{trade[0]}") for trade in trades] buttons_aligned = self._layout_inline_keyboard_onecol(trade_buttons) buttons_aligned.append([InlineKeyboardButton( text='Cancel', callback_data='force_exit__cancel')]) self._send_msg(msg="Which trade?", keyboard=buttons_aligned) def _force_exit_action(self, trade_id): if trade_id != 'cancel': try: self._rpc._rpc_force_exit(trade_id) except RPCException as e: self._send_msg(str(e)) def _force_exit_inline(self, update: Update, _: CallbackContext) -> None: if update.callback_query: query = update.callback_query if query.data and '__' in query.data: # Input data is "force_exit__" trade_id = query.data.split("__")[1].split(' ')[0] if trade_id == 'cancel': query.answer() query.edit_message_text(text="Force exit canceled.") return trade: Trade = Trade.get_trades(trade_filter=Trade.id == trade_id).first() query.answer() query.edit_message_text(text=f"Manually exiting Trade #{trade_id}, {trade.pair}") self._force_exit_action(trade_id) def _force_enter_action(self, pair, price: Optional[float], order_side: SignalDirection): if pair != 'cancel': try: self._rpc._rpc_force_entry(pair, price, order_side=order_side) except RPCException as e: self._send_msg(str(e)) def _force_enter_inline(self, update: Update, _: CallbackContext) -> None: if update.callback_query: query = update.callback_query if query.data and '_||_' in query.data: pair, side = query.data.split('_||_') order_side = SignalDirection(side) query.answer() query.edit_message_text(text=f"Manually entering {order_side} for {pair}") self._force_enter_action(pair, None, order_side) @staticmethod def _layout_inline_keyboard( buttons: List[InlineKeyboardButton], cols=3) -> List[List[InlineKeyboardButton]]: return [buttons[i:i + cols] for i in range(0, len(buttons), cols)] @staticmethod def _layout_inline_keyboard_onecol( buttons: List[InlineKeyboardButton], cols=1) -> List[List[InlineKeyboardButton]]: return [buttons[i:i + cols] for i in range(0, len(buttons), cols)] @authorized_only def _force_enter( self, update: Update, context: CallbackContext, order_side: SignalDirection) -> None: """ Handler for /forcelong and `/forceshort Buys a pair trade at the given or current price :param bot: telegram bot :param update: message update :return: None """ if context.args: pair = context.args[0] price = float(context.args[1]) if len(context.args) > 1 else None self._force_enter_action(pair, price, order_side) else: whitelist = self._rpc._rpc_whitelist()['whitelist'] pair_buttons = [ InlineKeyboardButton(text=pair, callback_data=f"{pair}_||_{order_side}") for pair in sorted(whitelist) ] buttons_aligned = self._layout_inline_keyboard(pair_buttons) buttons_aligned.append([InlineKeyboardButton(text='Cancel', callback_data='cancel')]) self._send_msg(msg="Which pair?", keyboard=buttons_aligned, query=update.callback_query) @authorized_only def _trades(self, update: Update, context: CallbackContext) -> None: """ Handler for /trades Returns last n recent trades. :param bot: telegram bot :param update: message update :return: None """ stake_cur = self._config['stake_currency'] try: nrecent = int(context.args[0]) if context.args else 10 except (TypeError, ValueError, IndexError): nrecent = 10 try: trades = self._rpc._rpc_trade_history( nrecent ) trades_tab = tabulate( [[arrow.get(trade['close_date']).humanize(), trade['pair'] + " (#" + str(trade['trade_id']) + ")", f"{(trade['close_profit']):.2%} ({trade['close_profit_abs']})"] for trade in trades['trades']], headers=[ 'Close Date', 'Pair (ID)', f'Profit ({stake_cur})', ], tablefmt='simple') message = (f"{min(trades['trades_count'], nrecent)} recent trades:\n" + (f"
{trades_tab}
" if trades['trades_count'] > 0 else '')) self._send_msg(message, parse_mode=ParseMode.HTML) except RPCException as e: self._send_msg(str(e)) @authorized_only def _delete_trade(self, update: Update, context: CallbackContext) -> None: """ Handler for /delete . Delete the given trade :param bot: telegram bot :param update: message update :return: None """ try: if not context.args or len(context.args) == 0: raise RPCException("Trade-id not set.") trade_id = int(context.args[0]) msg = self._rpc._rpc_delete(trade_id) self._send_msg(( f"`{msg['result_msg']}`\n" 'Please make sure to take care of this asset on the exchange manually.' )) except RPCException as e: self._send_msg(str(e)) @authorized_only def _performance(self, update: Update, context: CallbackContext) -> None: """ Handler for /performance. Shows a performance statistic from finished trades :param bot: telegram bot :param update: message update :return: None """ try: trades = self._rpc._rpc_performance() output = "Performance:\n" for i, trade in enumerate(trades): stat_line = ( f"{i+1}.\t {trade['pair']}\t" f"{round_coin_value(trade['profit_abs'], self._config['stake_currency'])} " f"({trade['profit_ratio']:.2%}) " f"({trade['count']})\n") if len(output + stat_line) >= MAX_MESSAGE_LENGTH: self._send_msg(output, parse_mode=ParseMode.HTML) output = stat_line else: output += stat_line self._send_msg(output, parse_mode=ParseMode.HTML, reload_able=True, callback_path="update_performance", query=update.callback_query) except RPCException as e: self._send_msg(str(e)) @authorized_only def _enter_tag_performance(self, update: Update, context: CallbackContext) -> None: """ Handler for /buys PAIR . Shows a performance statistic from finished trades :param bot: telegram bot :param update: message update :return: None """ try: pair = None if context.args and isinstance(context.args[0], str): pair = context.args[0] trades = self._rpc._rpc_enter_tag_performance(pair) output = "Entry Tag Performance:\n" for i, trade in enumerate(trades): stat_line = ( f"{i+1}.\t {trade['enter_tag']}\t" f"{round_coin_value(trade['profit_abs'], self._config['stake_currency'])} " f"({trade['profit_ratio']:.2%}) " f"({trade['count']})\n") if len(output + stat_line) >= MAX_MESSAGE_LENGTH: self._send_msg(output, parse_mode=ParseMode.HTML) output = stat_line else: output += stat_line self._send_msg(output, parse_mode=ParseMode.HTML, reload_able=True, callback_path="update_enter_tag_performance", query=update.callback_query) except RPCException as e: self._send_msg(str(e)) @authorized_only def _exit_reason_performance(self, update: Update, context: CallbackContext) -> None: """ Handler for /sells. Shows a performance statistic from finished trades :param bot: telegram bot :param update: message update :return: None """ try: pair = None if context.args and isinstance(context.args[0], str): pair = context.args[0] trades = self._rpc._rpc_exit_reason_performance(pair) output = "Exit Reason Performance:\n" for i, trade in enumerate(trades): stat_line = ( f"{i+1}.\t {trade['exit_reason']}\t" f"{round_coin_value(trade['profit_abs'], self._config['stake_currency'])} " f"({trade['profit_ratio']:.2%}) " f"({trade['count']})\n") if len(output + stat_line) >= MAX_MESSAGE_LENGTH: self._send_msg(output, parse_mode=ParseMode.HTML) output = stat_line else: output += stat_line self._send_msg(output, parse_mode=ParseMode.HTML, reload_able=True, callback_path="update_exit_reason_performance", query=update.callback_query) except RPCException as e: self._send_msg(str(e)) @authorized_only def _mix_tag_performance(self, update: Update, context: CallbackContext) -> None: """ Handler for /mix_tags. Shows a performance statistic from finished trades :param bot: telegram bot :param update: message update :return: None """ try: pair = None if context.args and isinstance(context.args[0], str): pair = context.args[0] trades = self._rpc._rpc_mix_tag_performance(pair) output = "Mix Tag Performance:\n" for i, trade in enumerate(trades): stat_line = ( f"{i+1}.\t {trade['mix_tag']}\t" f"{round_coin_value(trade['profit_abs'], self._config['stake_currency'])} " f"({trade['profit']:.2%}) " f"({trade['count']})\n") if len(output + stat_line) >= MAX_MESSAGE_LENGTH: self._send_msg(output, parse_mode=ParseMode.HTML) output = stat_line else: output += stat_line self._send_msg(output, parse_mode=ParseMode.HTML, reload_able=True, callback_path="update_mix_tag_performance", query=update.callback_query) except RPCException as e: self._send_msg(str(e)) @authorized_only def _count(self, update: Update, context: CallbackContext) -> None: """ Handler for /count. Returns the number of trades running :param bot: telegram bot :param update: message update :return: None """ try: counts = self._rpc._rpc_count() message = tabulate({k: [v] for k, v in counts.items()}, headers=['current', 'max', 'total stake'], tablefmt='simple') message = "
{}
".format(message) logger.debug(message) self._send_msg(message, parse_mode=ParseMode.HTML, reload_able=True, callback_path="update_count", query=update.callback_query) except RPCException as e: self._send_msg(str(e)) @authorized_only def _locks(self, update: Update, context: CallbackContext) -> None: """ Handler for /locks. Returns the currently active locks """ rpc_locks = self._rpc._rpc_locks() if not rpc_locks['locks']: self._send_msg('No active locks.', parse_mode=ParseMode.HTML) for locks in chunks(rpc_locks['locks'], 25): message = tabulate([[ lock['id'], lock['pair'], lock['lock_end_time'], lock['reason']] for lock in locks], headers=['ID', 'Pair', 'Until', 'Reason'], tablefmt='simple') message = f"
{escape(message)}
" logger.debug(message) self._send_msg(message, parse_mode=ParseMode.HTML) @authorized_only def _delete_locks(self, update: Update, context: CallbackContext) -> None: """ Handler for /delete_locks. Returns the currently active locks """ arg = context.args[0] if context.args and len(context.args) > 0 else None lockid = None pair = None if arg: try: lockid = int(arg) except ValueError: pair = arg self._rpc._rpc_delete_lock(lockid=lockid, pair=pair) self._locks(update, context) @authorized_only def _whitelist(self, update: Update, context: CallbackContext) -> None: """ Handler for /whitelist Shows the currently active whitelist """ try: whitelist = self._rpc._rpc_whitelist() message = f"Using whitelist `{whitelist['method']}` with {whitelist['length']} pairs\n" message += f"`{', '.join(whitelist['whitelist'])}`" logger.debug(message) self._send_msg(message) except RPCException as e: self._send_msg(str(e)) @authorized_only def _blacklist(self, update: Update, context: CallbackContext) -> None: """ Handler for /blacklist Shows the currently active blacklist """ self.send_blacklist_msg(self._rpc._rpc_blacklist(context.args)) def send_blacklist_msg(self, blacklist: Dict): errmsgs = [] for pair, error in blacklist['errors'].items(): errmsgs.append(f"Error adding `{pair}` to blacklist: `{error['error_msg']}`") if errmsgs: self._send_msg('\n'.join(errmsgs)) message = f"Blacklist contains {blacklist['length']} pairs\n" message += f"`{', '.join(blacklist['blacklist'])}`" logger.debug(message) self._send_msg(message) @authorized_only def _blacklist_delete(self, update: Update, context: CallbackContext) -> None: """ Handler for /bl_delete Deletes pair(s) from current blacklist """ self.send_blacklist_msg(self._rpc._rpc_blacklist_delete(context.args or [])) @authorized_only def _logs(self, update: Update, context: CallbackContext) -> None: """ Handler for /logs Shows the latest logs """ try: try: limit = int(context.args[0]) if context.args else 10 except (TypeError, ValueError, IndexError): limit = 10 logs = RPC._rpc_get_logs(limit)['logs'] msgs = '' msg_template = "*{}* {}: {} \\- `{}`" for logrec in logs: msg = msg_template.format(escape_markdown(logrec[0], version=2), escape_markdown(logrec[2], version=2), escape_markdown(logrec[3], version=2), escape_markdown(logrec[4], version=2)) if len(msgs + msg) + 10 >= MAX_MESSAGE_LENGTH: # Send message immediately if it would become too long self._send_msg(msgs, parse_mode=ParseMode.MARKDOWN_V2) msgs = msg + '\n' else: # Append message to messages to send msgs += msg + '\n' if msgs: self._send_msg(msgs, parse_mode=ParseMode.MARKDOWN_V2) except RPCException as e: self._send_msg(str(e)) @authorized_only def _edge(self, update: Update, context: CallbackContext) -> None: """ Handler for /edge Shows information related to Edge """ try: edge_pairs = self._rpc._rpc_edge() if not edge_pairs: message = 'Edge only validated following pairs:' self._send_msg(message, parse_mode=ParseMode.HTML) for chunk in chunks(edge_pairs, 25): edge_pairs_tab = tabulate(chunk, headers='keys', tablefmt='simple') message = (f'Edge only validated following pairs:\n' f'
{edge_pairs_tab}
') self._send_msg(message, parse_mode=ParseMode.HTML) except RPCException as e: self._send_msg(str(e)) @authorized_only def _help(self, update: Update, context: CallbackContext) -> None: """ Handler for /help. Show commands of the bot :param bot: telegram bot :param update: message update :return: None """ force_enter_text = ("*/forcelong []:* `Instantly buys the given pair. " "Optionally takes a rate at which to buy " "(only applies to limit orders).` \n" ) if self._rpc._freqtrade.trading_mode != TradingMode.SPOT: force_enter_text += ("*/forceshort []:* `Instantly shorts the given pair. " "Optionally takes a rate at which to sell " "(only applies to limit orders).` \n") message = ( "_Bot Control_\n" "------------\n" "*/start:* `Starts the trader`\n" "*/stop:* Stops the trader\n" "*/stopbuy:* `Stops buying, but handles open trades gracefully` \n" "*/forceexit |all:* `Instantly exits the given trade or all trades, " "regardless of profit`\n" "*/fx |all:* `Alias to /forceexit`\n" f"{force_enter_text if self._config.get('force_entry_enable', False) else ''}" "*/delete :* `Instantly delete the given trade in the database`\n" "*/whitelist:* `Show current whitelist` \n" "*/blacklist [pair]:* `Show current blacklist, or adds one or more pairs " "to the blacklist.` \n" "*/blacklist_delete [pairs]| /bl_delete [pairs]:* " "`Delete pair / pattern from blacklist. Will reset on reload_conf.` \n" "*/reload_config:* `Reload configuration file` \n" "*/unlock :* `Unlock this Pair (or this lock id if it's numeric)`\n" "_Current state_\n" "------------\n" "*/show_config:* `Show running configuration` \n" "*/locks:* `Show currently locked pairs`\n" "*/balance:* `Show account balance per currency`\n" "*/logs [limit]:* `Show latest logs - defaults to 10` \n" "*/count:* `Show number of active trades compared to allowed number of trades`\n" "*/edge:* `Shows validated pairs by Edge if it is enabled` \n" "*/health* `Show latest process timestamp - defaults to 1970-01-01 00:00:00` \n" "_Statistics_\n" "------------\n" "*/status |[table]:* `Lists all open trades`\n" " * :* `Lists one or more specific trades.`\n" " `Separate multiple with a blank space.`\n" " *table :* `will display trades in a table`\n" " `pending buy orders are marked with an asterisk (*)`\n" " `pending sell orders are marked with a double asterisk (**)`\n" "*/buys :* `Shows the enter_tag performance`\n" "*/sells :* `Shows the exit reason performance`\n" "*/mix_tags :* `Shows combined entry tag + exit reason performance`\n" "*/trades [limit]:* `Lists last closed trades (limited to 10 by default)`\n" "*/profit []:* `Lists cumulative profit from all finished trades, " "over the last n days`\n" "*/performance:* `Show performance of each finished trade grouped by pair`\n" "*/daily :* `Shows profit or loss per day, over the last n days`\n" "*/weekly :* `Shows statistics per week, over the last n weeks`\n" "*/monthly :* `Shows statistics per month, over the last n months`\n" "*/stats:* `Shows Wins / losses by Sell reason as well as " "Avg. holding durationsfor buys and sells.`\n" "*/help:* `This help message`\n" "*/version:* `Show version`" ) self._send_msg(message, parse_mode=ParseMode.MARKDOWN) @authorized_only def _health(self, update: Update, context: CallbackContext) -> None: """ Handler for /health Shows the last process timestamp """ try: health = self._rpc._health() message = f"Last process: `{health['last_process_loc']}`" self._send_msg(message) except RPCException as e: self._send_msg(str(e)) @authorized_only def _version(self, update: Update, context: CallbackContext) -> None: """ Handler for /version. Show version information :param bot: telegram bot :param update: message update :return: None """ strategy_version = self._rpc._freqtrade.strategy.version() version_string = f'*Version:* `{__version__}`' if strategy_version is not None: version_string += f', *Strategy version: * `{strategy_version}`' self._send_msg(version_string) @authorized_only def _show_config(self, update: Update, context: CallbackContext) -> None: """ Handler for /show_config. Show config information information :param bot: telegram bot :param update: message update :return: None """ val = RPC._rpc_show_config(self._config, self._rpc._freqtrade.state) if val['trailing_stop']: sl_info = ( f"*Initial Stoploss:* `{val['stoploss']}`\n" f"*Trailing stop positive:* `{val['trailing_stop_positive']}`\n" f"*Trailing stop offset:* `{val['trailing_stop_positive_offset']}`\n" f"*Only trail above offset:* `{val['trailing_only_offset_is_reached']}`\n" ) else: sl_info = f"*Stoploss:* `{val['stoploss']}`\n" if val['position_adjustment_enable']: pa_info = ( f"*Position adjustment:* On\n" f"*Max enter position adjustment:* `{val['max_entry_position_adjustment']}`\n" ) else: pa_info = "*Position adjustment:* Off\n" self._send_msg( f"*Mode:* `{'Dry-run' if val['dry_run'] else 'Live'}`\n" f"*Exchange:* `{val['exchange']}`\n" f"*Market: * `{val['trading_mode']}`\n" f"*Stake per trade:* `{val['stake_amount']} {val['stake_currency']}`\n" f"*Max open Trades:* `{val['max_open_trades']}`\n" f"*Minimum ROI:* `{val['minimal_roi']}`\n" f"*Entry strategy:* ```\n{json.dumps(val['entry_pricing'])}```\n" f"*Exit strategy:* ```\n{json.dumps(val['exit_pricing'])}```\n" f"{sl_info}" f"{pa_info}" f"*Timeframe:* `{val['timeframe']}`\n" f"*Strategy:* `{val['strategy']}`\n" f"*Current state:* `{val['state']}`" ) def _update_msg(self, query: CallbackQuery, msg: str, callback_path: str = "", reload_able: bool = False, parse_mode: str = ParseMode.MARKDOWN) -> None: if reload_able: reply_markup = InlineKeyboardMarkup([ [InlineKeyboardButton("Refresh", callback_data=callback_path)], ]) else: reply_markup = InlineKeyboardMarkup([[]]) msg += "\nUpdated: {}".format(datetime.now().ctime()) if not query.message: return chat_id = query.message.chat_id message_id = query.message.message_id try: self._updater.bot.edit_message_text( chat_id=chat_id, message_id=message_id, text=msg, parse_mode=parse_mode, reply_markup=reply_markup ) except BadRequest as e: if 'not modified' in e.message.lower(): pass else: logger.warning('TelegramError: %s', e.message) except TelegramError as telegram_err: logger.warning('TelegramError: %s! Giving up on that message.', telegram_err.message) def _send_msg(self, msg: str, parse_mode: str = ParseMode.MARKDOWN, disable_notification: bool = False, keyboard: List[List[InlineKeyboardButton]] = None, callback_path: str = "", reload_able: bool = False, query: Optional[CallbackQuery] = None) -> None: """ Send given markdown message :param msg: message :param bot: alternative bot :param parse_mode: telegram parse mode :return: None """ reply_markup: Union[InlineKeyboardMarkup, ReplyKeyboardMarkup] if query: self._update_msg(query=query, msg=msg, parse_mode=parse_mode, callback_path=callback_path, reload_able=reload_able) return if reload_able and self._config['telegram'].get('reload', True): reply_markup = InlineKeyboardMarkup([ [InlineKeyboardButton("Refresh", callback_data=callback_path)]]) else: if keyboard is not None: reply_markup = InlineKeyboardMarkup(keyboard, resize_keyboard=True) else: reply_markup = ReplyKeyboardMarkup(self._keyboard, resize_keyboard=True) try: try: self._updater.bot.send_message( self._config['telegram']['chat_id'], text=msg, parse_mode=parse_mode, reply_markup=reply_markup, disable_notification=disable_notification, ) except NetworkError as network_err: # Sometimes the telegram server resets the current connection, # if this is the case we send the message again. logger.warning( 'Telegram NetworkError: %s! Trying one more time.', network_err.message ) self._updater.bot.send_message( self._config['telegram']['chat_id'], text=msg, parse_mode=parse_mode, reply_markup=reply_markup, disable_notification=disable_notification, ) except TelegramError as telegram_err: logger.warning( 'TelegramError: %s! Giving up on that message.', telegram_err.message )