add websocket request/message schemas
This commit is contained in:
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8bfaf0a998
commit
5934495dda
@ -121,7 +121,8 @@ class DataProvider:
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'type': RPCMessageType.ANALYZED_DF,
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'data': {
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'key': pair_key,
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'value': (dataframe, datetime.now(timezone.utc))
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'df': dataframe,
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'la': datetime.now(timezone.utc)
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}
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}
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)
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@ -130,7 +131,7 @@ class DataProvider:
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self,
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pair: str,
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dataframe: DataFrame,
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last_analyzed: Optional[str] = None,
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last_analyzed: Optional[datetime] = None,
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timeframe: Optional[str] = None,
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candle_type: Optional[CandleType] = None,
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producer_name: str = "default"
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@ -150,10 +151,7 @@ class DataProvider:
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if producer_name not in self.__producer_pairs_df:
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self.__producer_pairs_df[producer_name] = {}
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if not last_analyzed:
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_last_analyzed = datetime.now(timezone.utc)
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else:
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_last_analyzed = datetime.fromisoformat(last_analyzed)
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_last_analyzed = datetime.now(timezone.utc) if not last_analyzed else last_analyzed
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self.__producer_pairs_df[producer_name][pair_key] = (dataframe, _last_analyzed)
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logger.debug(f"External DataFrame for {pair_key} from {producer_name} added.")
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@ -8,6 +8,8 @@ from starlette.websockets import WebSocketState
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from freqtrade.enums import RPCMessageType, RPCRequestType
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from freqtrade.rpc.api_server.deps import get_channel_manager, get_rpc
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from freqtrade.rpc.api_server.ws.channel import WebSocketChannel
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from freqtrade.rpc.api_server.ws.schema import (ValidationError, WSAnalyzedDFMessage,
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WSRequestSchema, WSWhitelistMessage)
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from freqtrade.rpc.rpc import RPC
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@ -18,6 +20,9 @@ router = APIRouter()
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async def is_websocket_alive(ws: WebSocket) -> bool:
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"""
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Check if a FastAPI Websocket is still open
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"""
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if (
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ws.application_state == WebSocketState.CONNECTED and
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ws.client_state == WebSocketState.CONNECTED
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@ -31,7 +36,17 @@ async def _process_consumer_request(
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channel: WebSocketChannel,
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rpc: RPC
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):
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type, data = request.get('type'), request.get('data')
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"""
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Validate and handle a request from a websocket consumer
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"""
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# Validate the request, makes sure it matches the schema
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try:
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websocket_request = WSRequestSchema.parse_obj(request)
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except ValidationError as e:
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logger.error(f"Invalid request from {channel}: {e}")
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return
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type, data = websocket_request.type, websocket_request.data
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logger.debug(f"Request of type {type} from {channel}")
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@ -41,35 +56,35 @@ async def _process_consumer_request(
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if not data:
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return
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if not isinstance(data, list):
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logger.error(f"Improper subscribe request from channel: {channel} - {request}")
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return
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# If all topics passed are a valid RPCMessageType, set subscriptions on channel
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if all([any(x.value == topic for x in RPCMessageType) for topic in data]):
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logger.debug(f"{channel} subscribed to topics: {data}")
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channel.set_subscriptions(data)
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# We don't send a response for subscriptions
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elif type == RPCRequestType.WHITELIST:
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# They requested the whitelist
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# Get whitelist
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whitelist = rpc._ws_request_whitelist()
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await channel.send({"type": RPCMessageType.WHITELIST, "data": whitelist})
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# Format response
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response = WSWhitelistMessage(data=whitelist)
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# Send it back
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await channel.send(response.dict(exclude_none=True))
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elif type == RPCRequestType.ANALYZED_DF:
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limit = None
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if data:
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# Limit the amount of candles per dataframe to 'limit' or 1500
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limit = max(data.get('limit', 500), 1500)
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limit = max(data.get('limit', 1500), 1500)
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# They requested the full historical analyzed dataframes
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analyzed_df = rpc._ws_request_analyzed_df(limit)
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# For every dataframe, send as a separate message
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for _, message in analyzed_df.items():
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await channel.send({"type": RPCMessageType.ANALYZED_DF, "data": message})
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response = WSAnalyzedDFMessage(data=message)
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await channel.send(response.dict(exclude_none=True))
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@router.websocket("/message/ws")
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@ -78,6 +93,9 @@ async def message_endpoint(
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rpc: RPC = Depends(get_rpc),
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channel_manager=Depends(get_channel_manager),
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):
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"""
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Message WebSocket endpoint, facilitates sending RPC messages
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"""
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try:
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if is_websocket_alive(ws):
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# TODO:
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78
freqtrade/rpc/api_server/ws/schema.py
Normal file
78
freqtrade/rpc/api_server/ws/schema.py
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@ -0,0 +1,78 @@
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from datetime import datetime
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from typing import Any, Dict, List, Optional
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from pandas import DataFrame
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from pydantic import BaseModel, ValidationError
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from freqtrade.constants import PairWithTimeframe
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from freqtrade.enums.rpcmessagetype import RPCMessageType, RPCRequestType
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__all__ = ('WSRequestSchema', 'WSMessageSchema', 'ValidationError')
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class BaseArbitraryModel(BaseModel):
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class Config:
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arbitrary_types_allowed = True
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class WSRequestSchema(BaseArbitraryModel):
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type: RPCRequestType
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data: Optional[Any] = None
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class WSMessageSchema(BaseArbitraryModel):
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type: RPCMessageType
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data: Optional[Any] = None
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class Config:
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extra = 'allow'
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# ------------------------------ REQUEST SCHEMAS ----------------------------
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class WSSubscribeRequest(WSRequestSchema):
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type: RPCRequestType = RPCRequestType.SUBSCRIBE
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data: List[RPCMessageType]
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class WSWhitelistRequest(WSRequestSchema):
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type: RPCRequestType = RPCRequestType.WHITELIST
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data: None = None
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class WSAnalyzedDFRequest(WSRequestSchema):
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type: RPCRequestType = RPCRequestType.ANALYZED_DF
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data: Dict[str, Any] = {"limit": 1500}
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# ------------------------------ MESSAGE SCHEMAS ----------------------------
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class WSWhitelistMessage(WSMessageSchema):
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type: RPCMessageType = RPCMessageType.WHITELIST
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data: List[str]
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class WSAnalyzedDFMessage(WSMessageSchema):
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class AnalyzedDFData(BaseArbitraryModel):
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key: PairWithTimeframe
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df: DataFrame
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la: datetime
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type: RPCMessageType = RPCMessageType.ANALYZED_DF
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data: AnalyzedDFData
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# --------------------------------------------------------------------------
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if __name__ == "__main__":
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message = WSAnalyzedDFMessage(
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data={
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"key": ("1", "5m", "spot"),
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"df": DataFrame(),
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"la": datetime.now()
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}
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)
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print(message)
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@ -8,14 +8,18 @@ import asyncio
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import logging
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import socket
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from threading import Thread
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from typing import TYPE_CHECKING, Any, Dict, List, Optional
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from typing import TYPE_CHECKING, Any, Dict, List
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import websockets
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from freqtrade.data.dataprovider import DataProvider
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from freqtrade.enums import RPCMessageType, RPCRequestType
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from freqtrade.enums import RPCMessageType
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from freqtrade.misc import remove_entry_exit_signals
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from freqtrade.rpc.api_server.ws.channel import WebSocketChannel
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from freqtrade.rpc.api_server.ws.schema import (ValidationError, WSAnalyzedDFMessage,
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WSAnalyzedDFRequest, WSMessageSchema,
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WSRequestSchema, WSSubscribeRequest,
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WSWhitelistMessage, WSWhitelistRequest)
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if TYPE_CHECKING:
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@ -67,15 +71,10 @@ class ExternalMessageConsumer:
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self.topics = [RPCMessageType.WHITELIST, RPCMessageType.ANALYZED_DF]
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# Allow setting data for each initial request
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self._initial_requests: List[Dict[str, Any]] = [
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{
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"type": RPCRequestType.WHITELIST,
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"data": None
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},
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{
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"type": RPCRequestType.ANALYZED_DF,
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"data": {"limit": self.initial_candle_limit}
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}
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self._initial_requests: List[WSRequestSchema] = [
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WSSubscribeRequest(data=self.topics),
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WSWhitelistRequest(),
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WSAnalyzedDFRequest()
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]
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# Specify which function to use for which RPCMessageType
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@ -174,16 +173,10 @@ class ExternalMessageConsumer:
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logger.info(f"Producer connection success - {channel}")
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# Tell the producer we only want these topics
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# Should always be the first thing we send
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await channel.send(
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self.compose_consumer_request(RPCRequestType.SUBSCRIBE, self.topics)
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)
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# Now request the initial data from this Producer
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for request in self._initial_requests:
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await channel.send(
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self.compose_consumer_request(request['type'], request['data'])
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request.dict(exclude_none=True)
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)
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# Now receive data, if none is within the time limit, ping
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@ -253,74 +246,66 @@ class ExternalMessageConsumer:
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break
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def compose_consumer_request(
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self,
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type_: RPCRequestType,
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data: Optional[Any] = None
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) -> Dict[str, Any]:
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"""
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Create a request for sending to a producer
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:param type_: The RPCRequestType
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:param data: The data to send
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:returns: Dict[str, Any]
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"""
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return {'type': type_, 'data': data}
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def handle_producer_message(self, producer: Dict[str, Any], message: Dict[str, Any]):
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"""
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Handles external messages from a Producer
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"""
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producer_name = producer.get('name', 'default')
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# Should we have a default message type?
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message_type = message.get('type', RPCMessageType.STATUS)
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message_data = message.get('data')
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try:
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producer_message = WSMessageSchema.parse_obj(message)
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except ValidationError as e:
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logger.error(f"Invalid message from {producer_name}: {e}")
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return
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# We shouldn't get empty messages
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if message_data is None:
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if producer_message.data is None:
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return
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logger.info(f"Received message of type {message_type} from `{producer_name}`")
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logger.info(f"Received message of type {producer_message.type} from `{producer_name}`")
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message_handler = self._message_handlers.get(message_type)
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message_handler = self._message_handlers.get(producer_message.type)
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if not message_handler:
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logger.info(f"Received unhandled message: {message_data}, ignoring...")
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logger.info(f"Received unhandled message: {producer_message.data}, ignoring...")
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return
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message_handler(producer_name, message_data)
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message_handler(producer_name, producer_message)
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def _consume_whitelist_message(self, producer_name: str, message_data: Any):
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# We expect List[str]
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if not isinstance(message_data, list):
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def _consume_whitelist_message(self, producer_name: str, message: Any):
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try:
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# Validate the message
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message = WSWhitelistMessage.parse_obj(message)
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except ValidationError:
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return
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# Add the pairlist data to the DataProvider
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self._dp._set_producer_pairs(message_data, producer_name=producer_name)
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self._dp._set_producer_pairs(message.data, producer_name=producer_name)
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logger.debug(f"Consumed message from {producer_name} of type RPCMessageType.WHITELIST")
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logger.debug(f"Consumed message from {producer_name} of type `RPCMessageType.WHITELIST`")
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def _consume_analyzed_df_message(self, producer_name: str, message_data: Any):
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# We expect a Dict[str, Any]
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if not isinstance(message_data, dict):
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def _consume_analyzed_df_message(self, producer_name: str, message: Any):
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try:
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message = WSAnalyzedDFMessage.parse_obj(message)
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except ValidationError:
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return
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key, value = message_data.get('key'), message_data.get('value')
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key = message.data.key
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df = message.data.df
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la = message.data.la
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if key and value:
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pair, timeframe, candle_type = key
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dataframe, last_analyzed = value
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pair, timeframe, candle_type = key
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# If set, remove the Entry and Exit signals from the Producer
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if self._emc_config.get('remove_entry_exit_signals', False):
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dataframe = remove_entry_exit_signals(dataframe)
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# If set, remove the Entry and Exit signals from the Producer
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if self._emc_config.get('remove_entry_exit_signals', False):
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df = remove_entry_exit_signals(df)
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# Add the dataframe to the dataprovider
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self._dp._add_external_df(pair, dataframe,
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last_analyzed=last_analyzed,
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timeframe=timeframe,
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candle_type=candle_type,
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producer_name=producer_name)
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# Add the dataframe to the dataprovider
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self._dp._add_external_df(pair, df,
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last_analyzed=la,
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timeframe=timeframe,
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candle_type=candle_type,
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producer_name=producer_name)
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logger.debug(
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f"Consumed message from {producer_name} of type RPCMessageType.ANALYZED_DF")
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logger.debug(
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f"Consumed message from {producer_name} of type RPCMessageType.ANALYZED_DF")
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@ -1068,8 +1068,12 @@ class RPC:
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for pair in pairlist:
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dataframe, last_analyzed = self.__rpc_analysed_dataframe_raw(pair, timeframe, limit)
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_data[pair] = {"key": (pair, timeframe, candle_type),
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"value": (dataframe, last_analyzed)}
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_data[pair] = {
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"key": (pair, timeframe, candle_type),
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"df": dataframe,
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"la": last_analyzed
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}
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return _data
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