freqtrade_origin/freqtrade/worker.py
2024-10-04 06:36:00 +02:00

235 lines
8.3 KiB
Python

"""
Main Freqtrade worker class.
"""
import logging
import time
import traceback
from os import getpid
from typing import Any, Callable, Optional
import sdnotify
from freqtrade import __version__
from freqtrade.configuration import Configuration
from freqtrade.constants import PROCESS_THROTTLE_SECS, RETRY_TIMEOUT, Config
from freqtrade.enums import RPCMessageType, State
from freqtrade.exceptions import OperationalException, TemporaryError
from freqtrade.exchange import timeframe_to_next_date
from freqtrade.freqtradebot import FreqtradeBot
logger = logging.getLogger(__name__)
class Worker:
"""
Freqtradebot worker class
"""
def __init__(self, args: dict[str, Any], config: Optional[Config] = None) -> None:
"""
Init all variables and objects the bot needs to work
"""
logger.info(f"Starting worker {__version__}")
self._args = args
self._config = config
self._init(False)
self._heartbeat_msg: float = 0
# Tell systemd that we completed initialization phase
self._notify("READY=1")
def _init(self, reconfig: bool) -> None:
"""
Also called from the _reconfigure() method (with reconfig=True).
"""
if reconfig or self._config is None:
# Load configuration
self._config = Configuration(self._args, None).get_config()
# Init the instance of the bot
self.freqtrade = FreqtradeBot(self._config)
internals_config = self._config.get("internals", {})
self._throttle_secs = internals_config.get("process_throttle_secs", PROCESS_THROTTLE_SECS)
self._heartbeat_interval = internals_config.get("heartbeat_interval", 60)
self._sd_notify = (
sdnotify.SystemdNotifier()
if self._config.get("internals", {}).get("sd_notify", False)
else None
)
def _notify(self, message: str) -> None:
"""
Removes the need to verify in all occurrences if sd_notify is enabled
:param message: Message to send to systemd if it's enabled.
"""
if self._sd_notify:
logger.debug(f"sd_notify: {message}")
self._sd_notify.notify(message)
def run(self) -> None:
state = None
while True:
state = self._worker(old_state=state)
if state == State.RELOAD_CONFIG:
self._reconfigure()
def _worker(self, old_state: Optional[State]) -> State:
"""
The main routine that runs each throttling iteration and handles the states.
:param old_state: the previous service state from the previous call
:return: current service state
"""
state = self.freqtrade.state
# Log state transition
if state != old_state:
if old_state != State.RELOAD_CONFIG:
self.freqtrade.notify_status(f"{state.name.lower()}")
logger.info(
f"Changing state{f' from {old_state.name}' if old_state else ''} to: {state.name}"
)
if state == State.RUNNING:
self.freqtrade.startup()
if state == State.STOPPED:
self.freqtrade.check_for_open_trades()
# Reset heartbeat timestamp to log the heartbeat message at
# first throttling iteration when the state changes
self._heartbeat_msg = 0
if state == State.STOPPED:
# Ping systemd watchdog before sleeping in the stopped state
self._notify("WATCHDOG=1\nSTATUS=State: STOPPED.")
self._throttle(func=self._process_stopped, throttle_secs=self._throttle_secs)
elif state == State.RUNNING:
# Ping systemd watchdog before throttling
self._notify("WATCHDOG=1\nSTATUS=State: RUNNING.")
# Use an offset of 1s to ensure a new candle has been issued
self._throttle(
func=self._process_running,
throttle_secs=self._throttle_secs,
timeframe=self._config["timeframe"] if self._config else None,
timeframe_offset=1,
)
if self._heartbeat_interval:
now = time.time()
if (now - self._heartbeat_msg) > self._heartbeat_interval:
version = __version__
strategy_version = self.freqtrade.strategy.version()
if strategy_version is not None:
version += ", strategy_version: " + strategy_version
logger.info(
f"Bot heartbeat. PID={getpid()}, version='{version}', state='{state.name}'"
)
self._heartbeat_msg = now
return state
def _throttle(
self,
func: Callable[..., Any],
throttle_secs: float,
timeframe: Optional[str] = None,
timeframe_offset: float = 1.0,
*args,
**kwargs,
) -> Any:
"""
Throttles the given callable that it
takes at least `min_secs` to finish execution.
:param func: Any callable
:param throttle_secs: throttling iteration execution time limit in seconds
:param timeframe: ensure iteration is executed at the beginning of the next candle.
:param timeframe_offset: offset in seconds to apply to the next candle time.
:return: Any (result of execution of func)
"""
last_throttle_start_time = time.time()
logger.debug("========================================")
result = func(*args, **kwargs)
time_passed = time.time() - last_throttle_start_time
sleep_duration = throttle_secs - time_passed
if timeframe:
next_tf = timeframe_to_next_date(timeframe)
# Maximum throttling should be until new candle arrives
# Offset is added to ensure a new candle has been issued.
next_tft = next_tf.timestamp() - time.time()
next_tf_with_offset = next_tft + timeframe_offset
if next_tft < sleep_duration and sleep_duration < next_tf_with_offset:
# Avoid hitting a new loop between the new candle and the candle with offset
sleep_duration = next_tf_with_offset
sleep_duration = min(sleep_duration, next_tf_with_offset)
sleep_duration = max(sleep_duration, 0.0)
# next_iter = datetime.now(timezone.utc) + timedelta(seconds=sleep_duration)
logger.debug(
f"Throttling with '{func.__name__}()': sleep for {sleep_duration:.2f} s, "
f"last iteration took {time_passed:.2f} s."
# f"next: {next_iter}"
)
self._sleep(sleep_duration)
return result
@staticmethod
def _sleep(sleep_duration: float) -> None:
"""Local sleep method - to improve testability"""
time.sleep(sleep_duration)
def _process_stopped(self) -> None:
self.freqtrade.process_stopped()
def _process_running(self) -> None:
try:
self.freqtrade.process()
except TemporaryError as error:
logger.warning(f"Error: {error}, retrying in {RETRY_TIMEOUT} seconds...")
time.sleep(RETRY_TIMEOUT)
except OperationalException:
tb = traceback.format_exc()
hint = "Issue `/start` if you think it is safe to restart."
self.freqtrade.notify_status(
f"*OperationalException:*\n```\n{tb}```\n {hint}", msg_type=RPCMessageType.EXCEPTION
)
logger.exception("OperationalException. Stopping trader ...")
self.freqtrade.state = State.STOPPED
def _reconfigure(self) -> None:
"""
Cleans up current freqtradebot instance, reloads the configuration and
replaces it with the new instance
"""
# Tell systemd that we initiated reconfiguration
self._notify("RELOADING=1")
# Clean up current freqtrade modules
self.freqtrade.cleanup()
# Load and validate config and create new instance of the bot
self._init(True)
self.freqtrade.notify_status("config reloaded")
# Tell systemd that we completed reconfiguration
self._notify("READY=1")
def exit(self) -> None:
# Tell systemd that we are exiting now
self._notify("STOPPING=1")
if self.freqtrade:
self.freqtrade.notify_status("process died")
self.freqtrade.cleanup()