freqtrade_origin/freqtrade/persistence/custom_data.py
2024-03-03 12:50:28 +01:00

175 lines
6.4 KiB
Python

import json
import logging
from datetime import datetime
from typing import Any, ClassVar, List, Optional, Sequence
from sqlalchemy import DateTime, ForeignKey, Integer, String, Text, UniqueConstraint, select
from sqlalchemy.orm import Mapped, mapped_column, relationship
from freqtrade.constants import DATETIME_PRINT_FORMAT
from freqtrade.persistence.base import ModelBase, SessionType
from freqtrade.util import dt_now
logger = logging.getLogger(__name__)
class _CustomData(ModelBase):
"""
CustomData database model
Keeps records of metadata as key/value store
for trades or global persistant values
One to many relationship with Trades:
- One trade can have many metadata entries
- One metadata entry can only be associated with one Trade
"""
__tablename__ = 'trade_custom_data'
__allow_unmapped__ = True
session: ClassVar[SessionType]
# Uniqueness should be ensured over pair, order_id
# its likely that order_id is unique per Pair on some exchanges.
__table_args__ = (UniqueConstraint('ft_trade_id', 'cd_key', name="_trade_id_cd_key"),)
id = mapped_column(Integer, primary_key=True)
ft_trade_id = mapped_column(Integer, ForeignKey('trades.id'), index=True)
trade = relationship("Trade", back_populates="custom_data")
cd_key: Mapped[str] = mapped_column(String(255), nullable=False)
cd_type: Mapped[str] = mapped_column(String(25), nullable=False)
cd_value: Mapped[str] = mapped_column(Text, nullable=False)
created_at: Mapped[datetime] = mapped_column(DateTime, nullable=False, default=dt_now)
updated_at: Mapped[Optional[datetime]] = mapped_column(DateTime, nullable=True)
# Empty container value - not persisted, but filled with cd_value on query
value: Any = None
def __repr__(self):
create_time = (self.created_at.strftime(DATETIME_PRINT_FORMAT)
if self.created_at is not None else None)
update_time = (self.updated_at.strftime(DATETIME_PRINT_FORMAT)
if self.updated_at is not None else None)
return (f'CustomData(id={self.id}, key={self.cd_key}, type={self.cd_type}, ' +
f'value={self.cd_value}, trade_id={self.ft_trade_id}, created={create_time}, ' +
f'updated={update_time})')
@classmethod
def query_cd(cls, key: Optional[str] = None,
trade_id: Optional[int] = None) -> Sequence['_CustomData']:
"""
Get all CustomData, if trade_id is not specified
return will be for generic values not tied to a trade
:param trade_id: id of the Trade
"""
filters = []
if trade_id is not None:
filters.append(_CustomData.ft_trade_id == trade_id)
if key is not None:
filters.append(_CustomData.cd_key.ilike(key))
return _CustomData.session.scalars(select(_CustomData).filter(*filters)).all()
class CustomDataWrapper:
"""
CustomData middleware class
Abstracts the database layer away so it becomes optional - which will be necessary to support
backtesting and hyperopt in the future.
"""
use_db = True
custom_data: List[_CustomData] = []
unserialized_types = ['bool', 'float', 'int', 'str']
@staticmethod
def _convert_custom_data(data: _CustomData) -> _CustomData:
if data.cd_type in CustomDataWrapper.unserialized_types:
data.value = data.cd_value
if data.cd_type == 'bool':
data.value = data.cd_value.lower() == 'true'
elif data.cd_type == 'int':
data.value = int(data.cd_value)
elif data.cd_type == 'float':
data.value = float(data.cd_value)
else:
data.value = json.loads(data.cd_value)
return data
@staticmethod
def reset_custom_data() -> None:
"""
Resets all key-value pairs. Only active for backtesting mode.
"""
if not CustomDataWrapper.use_db:
CustomDataWrapper.custom_data = []
@staticmethod
def delete_custom_data(trade_id: int) -> None:
_CustomData.session.query(_CustomData).filter(_CustomData.ft_trade_id == trade_id).delete()
_CustomData.session.commit()
@staticmethod
def get_custom_data(*, trade_id: int, key: Optional[str] = None) -> List[_CustomData]:
if CustomDataWrapper.use_db:
filters = [
_CustomData.ft_trade_id == trade_id,
]
if key is not None:
filters.append(_CustomData.cd_key.ilike(key))
filtered_custom_data = _CustomData.session.scalars(select(_CustomData).filter(
*filters)).all()
else:
filtered_custom_data = [
data_entry for data_entry in CustomDataWrapper.custom_data
if (data_entry.ft_trade_id == trade_id)
]
if key is not None:
filtered_custom_data = [
data_entry for data_entry in filtered_custom_data
if (data_entry.cd_key.casefold() == key.casefold())
]
return [CustomDataWrapper._convert_custom_data(d) for d in filtered_custom_data]
@staticmethod
def set_custom_data(trade_id: int, key: str, value: Any) -> None:
value_type = type(value).__name__
if value_type not in CustomDataWrapper.unserialized_types:
try:
value_db = json.dumps(value)
except TypeError as e:
logger.warning(f"could not serialize {key} value due to {e}")
return
else:
value_db = str(value)
if trade_id is None:
trade_id = 0
custom_data = CustomDataWrapper.get_custom_data(trade_id=trade_id, key=key)
if custom_data:
data_entry = custom_data[0]
data_entry.cd_value = value_db
data_entry.updated_at = dt_now()
else:
data_entry = _CustomData(
ft_trade_id=trade_id,
cd_key=key,
cd_type=value_type,
cd_value=value_db,
created_at=dt_now(),
)
data_entry.value = value
if CustomDataWrapper.use_db and value_db is not None:
_CustomData.session.add(data_entry)
_CustomData.session.commit()
else:
if not custom_data:
CustomDataWrapper.custom_data.append(data_entry)
# Existing data will have updated interactively.