stable/freqtrade/worker.py

"""
Main Freqtrade worker class.
"""
import logging
import time
import traceback
from argparse import Namespace
from typing import Any, Callable
import sdnotify

from freqtrade import (constants, OperationalException, TemporaryError,
                       __version__)
from freqtrade.configuration import Configuration
from freqtrade.state import State
from freqtrade.rpc import RPCMessageType


logger = logging.getLogger(__name__)


class Worker(object):
    """
    Freqtradebot worker class
    """

    def __init__(self, args: Namespace) -> None:
        """
        Init all variables and objects the bot needs to work
        """
        logger.info('Starting worker %s', __version__)

        self._args = args
        self._init()

        # Tell systemd that we completed initialization phase
        if self._sd_notify:
            logger.debug("sd_notify: READY=1")
            self._sd_notify.notify("READY=1")

    def _init(self):
        """
        Also called from the _reconfigure() method.
        """
        # Load configuration
        self._config = Configuration(self._args, None).get_config()

        # Import freqtradebot here in order to avoid python circular
        # dependency error, damn!
        from freqtrade.freqtradebot import FreqtradeBot

        # Init the instance of the bot
        self.freqtrade = FreqtradeBot(self._config, self)

        # Set initial bot state
        initial_state = self._config.get('initial_state')
        if initial_state:
            self._state = State[initial_state.upper()]
        else:
            self._state = State.STOPPED

        self._throttle_secs = self._config.get('internals', {}).get(
            'process_throttle_secs',
            constants.PROCESS_THROTTLE_SECS
        )

        self._sd_notify = sdnotify.SystemdNotifier() if \
            self._config.get('internals', {}).get('sd_notify', False) else None

    @property
    def state(self) -> State:
        return self._state

    @state.setter
    def state(self, value: State):
        self._state = value

    def run(self):
        state = None
        while True:
            state = self._worker(old_state=state, throttle_secs=self._throttle_secs)
            if state == State.RELOAD_CONF:
                self.freqtrade = self._reconfigure()

    def _worker(self, old_state: State, throttle_secs: float) -> State:
        """
        Trading routine that must be run at each loop
        :param old_state: the previous service state from the previous call
        :return: current service state
        """
        state = self._state

        # Log state transition
        if state != old_state:
            self.freqtrade.rpc.send_msg({
                'type': RPCMessageType.STATUS_NOTIFICATION,
                'status': f'{state.name.lower()}'
            })
            logger.info('Changing state to: %s', state.name)
            if state == State.RUNNING:
                self.freqtrade.rpc.startup_messages(self._config, self.freqtrade.pairlists)

        if state == State.STOPPED:
            # Ping systemd watchdog before sleeping in the stopped state
            if self._sd_notify:
                logger.debug("sd_notify: WATCHDOG=1\\nSTATUS=State: STOPPED.")
                self._sd_notify.notify("WATCHDOG=1\nSTATUS=State: STOPPED.")

            time.sleep(throttle_secs)

        elif state == State.RUNNING:
            # Ping systemd watchdog before throttling
            if self._sd_notify:
                logger.debug("sd_notify: WATCHDOG=1\\nSTATUS=State: RUNNING.")
                self._sd_notify.notify("WATCHDOG=1\nSTATUS=State: RUNNING.")

            self._throttle(func=self._process, min_secs=throttle_secs)

        return state

    def _throttle(self, func: Callable[..., Any], min_secs: float, *args, **kwargs) -> Any:
        """
        Throttles the given callable that it
        takes at least `min_secs` to finish execution.
        :param func: Any callable
        :param min_secs: minimum execution time in seconds
        :return: Any
        """
        start = time.time()
        result = func(*args, **kwargs)
        end = time.time()
        duration = max(min_secs - (end - start), 0.0)
        logger.debug('Throttling %s for %.2f seconds', func.__name__, duration)
        time.sleep(duration)
        return result

    def _process(self) -> bool:
        state_changed = False
        try:
            state_changed = self.freqtrade.process()

        except TemporaryError as error:
            logger.warning(f"Error: {error}, retrying in {constants.RETRY_TIMEOUT} seconds...")
            time.sleep(constants.RETRY_TIMEOUT)
        except OperationalException:
            tb = traceback.format_exc()
            hint = 'Issue `/start` if you think it is safe to restart.'
            self.freqtrade.rpc.send_msg({
                'type': RPCMessageType.STATUS_NOTIFICATION,
                'status': f'OperationalException:\n```\n{tb}```{hint}'
            })
            logger.exception('OperationalException. Stopping trader ...')
            self.state = State.STOPPED
        return state_changed

    def _reconfigure(self):
        """
        Cleans up current freqtradebot instance, reloads the configuration and
        returns the new instance
        """
        # Tell systemd that we initiated reconfiguration
        if self._sd_notify:
            logger.debug("sd_notify: RELOADING=1")
            self._sd_notify.notify("RELOADING=1")

        # Clean up current freqtrade modules
        self.freqtrade.cleanup()

        # Load and validate config and create new instance of the bot
        self._init()

        self.freqtrade.rpc.send_msg({
            'type': RPCMessageType.STATUS_NOTIFICATION,
            'status': 'config reloaded'
        })

        # Tell systemd that we completed reconfiguration
        if self._sd_notify:
            logger.debug("sd_notify: READY=1")
            self._sd_notify.notify("READY=1")

    def exit(self):
        # Tell systemd that we are exiting now
        if self._sd_notify:
            logger.debug("sd_notify: STOPPING=1")
            self._sd_notify.notify("STOPPING=1")

        if self.freqtrade:
            self.freqtrade.rpc.send_msg({
                'type': RPCMessageType.STATUS_NOTIFICATION,
                'status': 'process died'
            })
            self.freqtrade.cleanup()
Worker moved to new worker.py 2019-03-25 14:45:03 +00:00			`"""`
			`Main Freqtrade worker class.`
			`"""`
			`import logging`
			`import time`
			`import traceback`
			`from argparse import Namespace`
			`from typing import Any, Callable`
			`import sdnotify`

			`from freqtrade import (constants, OperationalException, TemporaryError,`
			`__version__)`
			`from freqtrade.configuration import Configuration`
			`from freqtrade.state import State`
			`from freqtrade.rpc import RPCMessageType`


			`logger = logging.getLogger(__name__)`


			`class Worker(object):`
			`"""`
			`Freqtradebot worker class`
			`"""`

			`def __init__(self, args: Namespace) -> None:`
			`"""`
			`Init all variables and objects the bot needs to work`
			`"""`
			`logger.info('Starting worker %s', __version__)`

			`self._args = args`
			`self._init()`

			`# Tell systemd that we completed initialization phase`
			`if self._sd_notify:`
			`logger.debug("sd_notify: READY=1")`
			`self._sd_notify.notify("READY=1")`

			`def _init(self):`
			`"""`
			`Also called from the _reconfigure() method.`
			`"""`
			`# Load configuration`
			`self._config = Configuration(self._args, None).get_config()`

			`# Import freqtradebot here in order to avoid python circular`
			`# dependency error, damn!`
			`from freqtrade.freqtradebot import FreqtradeBot`

			`# Init the instance of the bot`
			`self.freqtrade = FreqtradeBot(self._config, self)`

			`# Set initial bot state`
			`initial_state = self._config.get('initial_state')`
			`if initial_state:`
			`self._state = State[initial_state.upper()]`
			`else:`
			`self._state = State.STOPPED`

			`self._throttle_secs = self._config.get('internals', {}).get(`
			`'process_throttle_secs',`
			`constants.PROCESS_THROTTLE_SECS`
			`)`

			`self._sd_notify = sdnotify.SystemdNotifier() if \`
			`self._config.get('internals', {}).get('sd_notify', False) else None`

			`@property`
			`def state(self) -> State:`
			`return self._state`

			`@state.setter`
			`def state(self, value: State):`
			`self._state = value`

			`def run(self):`
			`state = None`
			`while True:`
			`state = self._worker(old_state=state, throttle_secs=self._throttle_secs)`
			`if state == State.RELOAD_CONF:`
			`self.freqtrade = self._reconfigure()`

			`def _worker(self, old_state: State, throttle_secs: float) -> State:`
			`"""`
			`Trading routine that must be run at each loop`
			`:param old_state: the previous service state from the previous call`
			`:return: current service state`
			`"""`
			`state = self._state`

			`# Log state transition`
			`if state != old_state:`
			`self.freqtrade.rpc.send_msg({`
			`'type': RPCMessageType.STATUS_NOTIFICATION,`
			`'status': f'{state.name.lower()}'`
			`})`
			`logger.info('Changing state to: %s', state.name)`
			`if state == State.RUNNING:`
			`self.freqtrade.rpc.startup_messages(self._config, self.freqtrade.pairlists)`

			`if state == State.STOPPED:`
			`# Ping systemd watchdog before sleeping in the stopped state`
			`if self._sd_notify:`
			`logger.debug("sd_notify: WATCHDOG=1\\nSTATUS=State: STOPPED.")`
			`self._sd_notify.notify("WATCHDOG=1\nSTATUS=State: STOPPED.")`

			`time.sleep(throttle_secs)`

			`elif state == State.RUNNING:`
			`# Ping systemd watchdog before throttling`
			`if self._sd_notify:`
			`logger.debug("sd_notify: WATCHDOG=1\\nSTATUS=State: RUNNING.")`
			`self._sd_notify.notify("WATCHDOG=1\nSTATUS=State: RUNNING.")`

			`self._throttle(func=self._process, min_secs=throttle_secs)`

			`return state`

			`def _throttle(self, func: Callable[..., Any], min_secs: float, args, *kwargs) -> Any:`
			`"""`
			`Throttles the given callable that it`
			takes at least `min_secs` to finish execution.
			`:param func: Any callable`
			`:param min_secs: minimum execution time in seconds`
			`:return: Any`
			`"""`
			`start = time.time()`
			`result = func(args, *kwargs)`
			`end = time.time()`
			`duration = max(min_secs - (end - start), 0.0)`
			`logger.debug('Throttling %s for %.2f seconds', func.__name__, duration)`
			`time.sleep(duration)`
			`return result`

			`def _process(self) -> bool:`
			`state_changed = False`
			`try:`
			`state_changed = self.freqtrade.process()`

			`except TemporaryError as error:`
			`logger.warning(f"Error: {error}, retrying in {constants.RETRY_TIMEOUT} seconds...")`
			`time.sleep(constants.RETRY_TIMEOUT)`
			`except OperationalException:`
			`tb = traceback.format_exc()`
			hint = 'Issue `/start` if you think it is safe to restart.'
			`self.freqtrade.rpc.send_msg({`
			`'type': RPCMessageType.STATUS_NOTIFICATION,`
			'status': f'OperationalException:\n```\n{tb}```{hint}'
			`})`
			`logger.exception('OperationalException. Stopping trader ...')`
			`self.state = State.STOPPED`
			`return state_changed`

			`def _reconfigure(self):`
			`"""`
			`Cleans up current freqtradebot instance, reloads the configuration and`
			`returns the new instance`
			`"""`
			`# Tell systemd that we initiated reconfiguration`
			`if self._sd_notify:`
			`logger.debug("sd_notify: RELOADING=1")`
			`self._sd_notify.notify("RELOADING=1")`

			`# Clean up current freqtrade modules`
			`self.freqtrade.cleanup()`

			`# Load and validate config and create new instance of the bot`
			`self._init()`

			`self.freqtrade.rpc.send_msg({`
			`'type': RPCMessageType.STATUS_NOTIFICATION,`
			`'status': 'config reloaded'`
			`})`

			`# Tell systemd that we completed reconfiguration`
			`if self._sd_notify:`
			`logger.debug("sd_notify: READY=1")`
			`self._sd_notify.notify("READY=1")`

			`def exit(self):`
			`# Tell systemd that we are exiting now`
			`if self._sd_notify:`
			`logger.debug("sd_notify: STOPPING=1")`
			`self._sd_notify.notify("STOPPING=1")`

			`if self.freqtrade:`
			`self.freqtrade.rpc.send_msg({`
			`'type': RPCMessageType.STATUS_NOTIFICATION,`
			`'status': 'process died'`
			`})`
			`self.freqtrade.cleanup()`