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initial rework separating server and client impl

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This commit is contained in:
Timothy Pogue 2022-08-29 13:41:15 -06:00
parent 8c4e68b8eb
commit 7952e0df25
25 changed files with 1329 additions and 1068 deletions
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3
.gitignore vendored
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@ -115,6 +115,3 @@ target/
!config_examples/config_freqai.example.json
!config_examples/config_leader.example.json
!config_examples/config_follower.example.json
*-config.json
*.db*

87
config_examples/config_follower.example.json
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@ -1,87 +0,0 @@
{
"db_url": "sqlite:///follower.db",
"strategy": "SampleStrategy",
"max_open_trades": 3,
"stake_currency": "USDT",
"stake_amount": 100,
"tradable_balance_ratio": 0.99,
"fiat_display_currency": "USD",
"dry_run": true,
"cancel_open_orders_on_exit": false,
"trading_mode": "spot",
"margin_mode": "",
"unfilledtimeout": {
"entry": 10,
"exit": 10,
"exit_timeout_count": 0,
"unit": "minutes"
},
"entry_pricing": {
"price_side": "same",
"use_order_book": true,
"order_book_top": 1,
"price_last_balance": 0.0,
"check_depth_of_market": {
"enabled": false,
"bids_to_ask_delta": 1
}
},
"exit_pricing":{
"price_side": "same",
"use_order_book": true,
"order_book_top": 1
},
"exchange": {
"name": "kucoin",
"key": "",
"secret": "",
"password": "",
"ccxt_config": {},
"ccxt_async_config": {},
"pair_whitelist": [
],
"pair_blacklist": [
]
},
"pairlists": [
{
"method": "ExternalPairList", // ExternalPairList is required in follower mode
"number_assets": 5, // We can limit the amount of pairs to use from the leaders
}
],
"telegram": {
"enabled": false,
"token": "",
"chat_id": ""
},
"api_server": {
"enabled": true,
"listen_ip_address": "127.0.0.1",
"listen_port": 8081,
"verbosity": "error",
"enable_openapi": false,
"jwt_secret_key": "fcc24d31d6581ad2c90c3fc438c8a8b2ccce1393126959934568707f0bd2d647",
"CORS_origins": [],
"username": "freqtrader",
"password": "testing123"
},
"external_signal": {
"enabled": true,
"mode": "follower",
"leaders": [
{
"url": "ws://localhost:8080/signals/ws",
"api_token": "testtoken"
}
],
"wait_data_policy": "all", // ['all', 'first', none] defaults to all
"remove_signals_analyzed_df": true, // Remove entry/exit signals from Leader df, Defaults to false
},
"bot_name": "freqtrade",
"initial_state": "running",
"force_entry_enable": false,
"internals": {
"process_throttle_secs": 5,
}
}

97
config_examples/config_leader.example.json
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@ -1,97 +0,0 @@
{
"db_url": "sqlite:///leader.db",
"strategy": "SampleStrategy",
"max_open_trades": 3,
"stake_currency": "USDT",
"stake_amount": 100,
"tradable_balance_ratio": 0.99,
"fiat_display_currency": "USD",
"dry_run": true,
"cancel_open_orders_on_exit": false,
"trading_mode": "spot",
"margin_mode": "",
"unfilledtimeout": {
"entry": 10,
"exit": 10,
"exit_timeout_count": 0,
"unit": "minutes"
},
"entry_pricing": {
"price_side": "same",
"use_order_book": true,
"order_book_top": 1,
"price_last_balance": 0.0,
"check_depth_of_market": {
"enabled": false,
"bids_to_ask_delta": 1
}
},
"exit_pricing":{
"price_side": "same",
"use_order_book": true,
"order_book_top": 1
},
"exchange": {
"name": "kucoin",
"key": "",
"secret": "",
"password": "",
"ccxt_config": {},
"ccxt_async_config": {},
"pair_whitelist": [
],
"pair_blacklist": [
]
},
"pairlists": [
{
"method": "VolumePairList",
"number_assets": 20,
"sort_key": "quoteVolume",
"min_value": 0,
"refresh_period": 1800
}
],
"edge": {
"enabled": false,
"process_throttle_secs": 3600,
"calculate_since_number_of_days": 7,
"allowed_risk": 0.01,
"stoploss_range_min": -0.01,
"stoploss_range_max": -0.1,
"stoploss_range_step": -0.01,
"minimum_winrate": 0.60,
"minimum_expectancy": 0.20,
"min_trade_number": 10,
"max_trade_duration_minute": 1440,
"remove_pumps": false
},
"telegram": {
"enabled": false,
"token": "",
"chat_id": ""
},
"api_server": {
"enabled": true,
"listen_ip_address": "127.0.0.1",
"listen_port": 8080,
"verbosity": "error",
"enable_openapi": false,
"jwt_secret_key": "fcc24d31d6581ad2c90c3fc438c8a8b2ccce1393126959934568707f0bd2d647",
"CORS_origins": [],
"username": "freqtrader",
"password": "testing123"
},
"external_signal": {
"enabled": true,
"mode": "leader",
"api_token": "testtoken",
},
"bot_name": "freqtrade",
"initial_state": "running",
"force_entry_enable": false,
"internals": {
"process_throttle_secs": 5,
}
}

1
freqtrade/constants.py
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@ -404,6 +404,7 @@ CONF_SCHEMA = {
},
'username': {'type': 'string'},
'password': {'type': 'string'},
'api_token': {'type': 'string'},
'jwt_secret_key': {'type': 'string'},
'CORS_origins': {'type': 'array', 'items': {'type': 'string'}},
'verbosity': {'type': 'string', 'enum': ['error', 'info']},

5
freqtrade/enums/rpcmessagetype.py
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@ -1,7 +1,8 @@
from enum import Enum
class RPCMessageType(Enum):
# We need to inherit from str so we can use as a str
class RPCMessageType(str, Enum):
STATUS = 'status'
WARNING = 'warning'
STARTUP = 'startup'
@ -19,7 +20,7 @@ class RPCMessageType(Enum):
STRATEGY_MSG = 'strategy_msg'
EMIT_DATA = 'emit_data'
WHITELIST = 'whitelist'
def __repr__(self):
return self.value

39
freqtrade/freqtradebot.py
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@ -17,13 +17,13 @@ from freqtrade.constants import BuySell, LongShort
from freqtrade.data.converter import order_book_to_dataframe
from freqtrade.data.dataprovider import DataProvider
from freqtrade.edge import Edge
from freqtrade.enums import (ExitCheckTuple, ExitType, LeaderMessageType, RPCMessageType, RunMode,
SignalDirection, State, TradingMode)
from freqtrade.enums import (ExitCheckTuple, ExitType, RPCMessageType, RunMode, SignalDirection,
State, TradingMode)
from freqtrade.exceptions import (DependencyException, ExchangeError, InsufficientFundsError,
InvalidOrderException, PricingError)
from freqtrade.exchange import timeframe_to_minutes, timeframe_to_seconds
from freqtrade.exchange.exchange import timeframe_to_next_date
from freqtrade.misc import dataframe_to_json, safe_value_fallback, safe_value_fallback2
from freqtrade.misc import safe_value_fallback, safe_value_fallback2
from freqtrade.mixins import LoggingMixin
from freqtrade.persistence import Order, PairLocks, Trade, init_db
from freqtrade.plugins.pairlistmanager import PairListManager
@ -75,8 +75,6 @@ class FreqtradeBot(LoggingMixin):
PairLocks.timeframe = self.config['timeframe']
self.external_signal_controller = None
self.pairlists = PairListManager(self.exchange, self.config)
# RPC runs in separate threads, can start handling external commands just after
@ -194,27 +192,6 @@ class FreqtradeBot(LoggingMixin):
strategy_safe_wrapper(self.strategy.bot_loop_start, supress_error=True)()
if self.external_signal_controller:
if not self.external_signal_controller.is_leader():
# Run Follower mode analyzing
leader_pairs = self.pairlists._whitelist
self.strategy.analyze_external(self.active_pair_whitelist, leader_pairs)
else:
# We are leader, make sure to pass callback func to emit data
def emit_on_finish(pair, dataframe, timeframe, candle_type):
logger.debug(f"Emitting dataframe for {pair}")
return self.rpc.emit_data(
{
"data_type": LeaderMessageType.analyzed_df,
"data": {
"key": (pair, timeframe, candle_type),
"value": dataframe_to_json(dataframe)
}
}
)
self.strategy.analyze(self.active_pair_whitelist, finish_callback=emit_on_finish)
else:
self.strategy.analyze(self.active_pair_whitelist)
with self._exit_lock:
@ -278,15 +255,7 @@ class FreqtradeBot(LoggingMixin):
self.pairlists.refresh_pairlist()
_whitelist = self.pairlists.whitelist
# If external signal leader, broadcast whitelist data
# Should we broadcast before trade pairs are added?
if self.external_signal_controller:
if self.external_signal_controller.is_leader():
self.rpc.emit_data({
"data_type": LeaderMessageType.pairlist,
"data": _whitelist
})
self.rpc.send_msg({'type': RPCMessageType.WHITELIST, 'msg': _whitelist})
# Calculating Edge positioning
if self.edge:

24
freqtrade/rpc/api_server/api_auth.py
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@ -1,8 +1,10 @@
import logging
import secrets
from datetime import datetime, timedelta
from typing import Any, Dict, Union
import jwt
from fastapi import APIRouter, Depends, HTTPException, status
from fastapi import APIRouter, Depends, HTTPException, WebSocket, status
from fastapi.security import OAuth2PasswordBearer
from fastapi.security.http import HTTPBasic, HTTPBasicCredentials
@ -10,6 +12,8 @@ from freqtrade.rpc.api_server.api_schemas import AccessAndRefreshToken, AccessTo
from freqtrade.rpc.api_server.deps import get_api_config
logger = logging.getLogger(__name__)
ALGORITHM = "HS256"
router_login = APIRouter()
@ -44,6 +48,24 @@ def get_user_from_token(token, secret_key: str, token_type: str = "access"):
return username
# This should be reimplemented to better realign with the existing tools provided
# by FastAPI regarding API Tokens
async def get_ws_token(
ws: WebSocket,
token: Union[str, None] = None,
api_config: Dict[str, Any] = Depends(get_api_config)
):
secret_ws_token = api_config['ws_token']
if token == secret_ws_token:
# Just return the token if it matches
return token
else:
logger.debug("Denying websocket request")
# If it doesn't match, close the websocket connection
await ws.close(code=status.WS_1008_POLICY_VIOLATION)
def create_token(data: dict, secret_key: str, token_type: str = "access") -> str:
to_encode = data.copy()
if token_type == "access":

52
freqtrade/rpc/api_server/api_ws.py Normal file
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@ -0,0 +1,52 @@
import logging
from fastapi import APIRouter, Depends, WebSocket, WebSocketDisconnect
from freqtrade.rpc.api_server.deps import get_channel_manager
from freqtrade.rpc.api_server.ws.utils import is_websocket_alive
logger = logging.getLogger(__name__)
# Private router, protected by API Key authentication
router = APIRouter()
@router.websocket("/message/ws")
async def message_endpoint(
ws: WebSocket,
channel_manager=Depends(get_channel_manager)
):
try:
if is_websocket_alive(ws):
logger.info(f"Consumer connected - {ws.client}")
# TODO:
# Return a channel ID, pass that instead of ws to the rest of the methods
channel = await channel_manager.on_connect(ws)
# Keep connection open until explicitly closed, and sleep
try:
while not channel.is_closed():
request = await channel.recv()
# This is where we'd parse the request. For now this should only
# be a list of topics to subscribe too. List[str]
# Maybe allow the consumer to update the topics subscribed
# during runtime?
logger.info(f"Consumer request - {request}")
except WebSocketDisconnect:
# Handle client disconnects
logger.info(f"Consumer disconnected - {ws.client}")
await channel_manager.on_disconnect(ws)
except Exception as e:
logger.info(f"Consumer connection failed - {ws.client}")
logger.exception(e)
# Handle cases like -
# RuntimeError('Cannot call "send" once a closed message has been sent')
await channel_manager.on_disconnect(ws)
except Exception:
logger.error(f"Failed to serve - {ws.client}")
await channel_manager.on_disconnect(ws)

4
freqtrade/rpc/api_server/deps.py
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@ -41,6 +41,10 @@ def get_exchange(config=Depends(get_config)):
return ApiServer._exchange
def get_channel_manager():
return ApiServer._channel_manager
def is_webserver_mode(config=Depends(get_config)):
if config['runmode'] != RunMode.WEBSERVER:
raise RPCException('Bot is not in the correct state')

76
freqtrade/rpc/api_server/webserver.py
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@ -1,15 +1,20 @@
import asyncio
import logging
from ipaddress import IPv4Address
from threading import Thread
from typing import Any, Dict
import orjson
import uvicorn
from fastapi import Depends, FastAPI
from fastapi.middleware.cors import CORSMiddleware
# Look into alternatives
from janus import Queue as ThreadedQueue
from starlette.responses import JSONResponse
from freqtrade.exceptions import OperationalException
from freqtrade.rpc.api_server.uvicorn_threaded import UvicornServer
from freqtrade.rpc.api_server.ws.channel import ChannelManager
from freqtrade.rpc.rpc import RPC, RPCException, RPCHandler
@ -43,6 +48,10 @@ class ApiServer(RPCHandler):
_config: Dict[str, Any] = {}
# Exchange - only available in webserver mode.
_exchange = None
# websocket message queue stuff
_channel_manager = None
_thread = None
_loop = None
def __new__(cls, *args, **kwargs):
"""
@ -64,10 +73,15 @@ class ApiServer(RPCHandler):
return
self._standalone: bool = standalone
self._server = None
self._queue = None
self._background_task = None
ApiServer.__initialized = True
api_config = self._config['api_server']
ApiServer._channel_manager = ChannelManager()
self.app = FastAPI(title="Freqtrade API",
docs_url='/docs' if api_config.get('enable_openapi', False) else None,
redoc_url=None,
@ -95,6 +109,18 @@ class ApiServer(RPCHandler):
logger.info("Stopping API Server")
self._server.cleanup()
if self._thread and self._loop:
logger.info("Stopping API Server background tasks")
if self._background_task:
# Cancel the queue task
self._background_task.cancel()
# Finally stop the loop
self._loop.call_soon_threadsafe(self._loop.stop)
self._thread.join()
@classmethod
def shutdown(cls):
cls.__initialized = False
@ -104,7 +130,10 @@ class ApiServer(RPCHandler):
cls._rpc = None
def send_msg(self, msg: Dict[str, str]) -> None:
pass
if self._queue:
logger.info(f"Adding message to queue: {msg}")
sync_q = self._queue.sync_q
sync_q.put(msg)
def handle_rpc_exception(self, request, exc):
logger.exception(f"API Error calling: {exc}")
@ -114,10 +143,12 @@ class ApiServer(RPCHandler):
)
def configure_app(self, app: FastAPI, config):
from freqtrade.rpc.api_server.api_auth import http_basic_or_jwt_token, router_login
from freqtrade.rpc.api_server.api_auth import (get_ws_token, http_basic_or_jwt_token,
router_login)
from freqtrade.rpc.api_server.api_backtest import router as api_backtest
from freqtrade.rpc.api_server.api_v1 import router as api_v1
from freqtrade.rpc.api_server.api_v1 import router_public as api_v1_public
from freqtrade.rpc.api_server.api_ws import router as ws_router
from freqtrade.rpc.api_server.web_ui import router_ui
app.include_router(api_v1_public, prefix="/api/v1")
@ -128,6 +159,9 @@ class ApiServer(RPCHandler):
app.include_router(api_backtest, prefix="/api/v1",
dependencies=[Depends(http_basic_or_jwt_token)],
)
app.include_router(ws_router, prefix="/api/v1",
dependencies=[Depends(get_ws_token)]
)
app.include_router(router_login, prefix="/api/v1", tags=["auth"])
# UI Router MUST be last!
app.include_router(router_ui, prefix='')
@ -142,6 +176,43 @@ class ApiServer(RPCHandler):
app.add_exception_handler(RPCException, self.handle_rpc_exception)
def start_message_queue(self):
# Create a new loop, as it'll be just for the background thread
self._loop = asyncio.new_event_loop()
# Start the thread
if not self._thread:
self._thread = Thread(target=self._loop.run_forever)
self._thread.start()
else:
raise RuntimeError("Threaded loop is already running")
# Finally, submit the coro to the thread
self._background_task = asyncio.run_coroutine_threadsafe(
self._broadcast_queue_data(), loop=self._loop)
async def _broadcast_queue_data(self):
# Instantiate the queue in this coroutine so it's attached to our loop
self._queue = ThreadedQueue()
async_queue = self._queue.async_q
try:
while True:
logger.debug("Getting queue data...")
# Get data from queue
data = await async_queue.get()
logger.debug(f"Found data: {data}")
# Broadcast it
await self._channel_manager.broadcast(data)
# Sleep, make this configurable?
await asyncio.sleep(0.1)
except asyncio.CancelledError:
# Silently stop
pass
# For testing, shouldn't happen when stable
except Exception as e:
logger.info(f"Exception happened in background task: {e}")
def start_api(self):
"""
Start API ... should be run in thread.
@ -179,6 +250,7 @@ class ApiServer(RPCHandler):
if self._standalone:
self._server.run()
else:
self.start_message_queue()
self._server.run_in_thread()
except Exception:
logger.exception("Api server failed to start.")

146
freqtrade/rpc/api_server/ws/channel.py Normal file
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@ -0,0 +1,146 @@
import logging
from threading import RLock
from typing import Type
from freqtrade.rpc.api_server.ws.proxy import WebSocketProxy
from freqtrade.rpc.api_server.ws.serializer import ORJSONWebSocketSerializer, WebSocketSerializer
from freqtrade.rpc.api_server.ws.types import WebSocketType
logger = logging.getLogger(__name__)
class WebSocketChannel:
"""
Object to help facilitate managing a websocket connection
"""
def __init__(
self,
websocket: WebSocketType,
serializer_cls: Type[WebSocketSerializer] = ORJSONWebSocketSerializer
):
# The WebSocket object
self._websocket = WebSocketProxy(websocket)
# The Serializing class for the WebSocket object
self._serializer_cls = serializer_cls
# Internal event to signify a closed websocket
self._closed = False
# Wrap the WebSocket in the Serializing class
self._wrapped_ws = self._serializer_cls(self._websocket)
async def send(self, data):
"""
Send data on the wrapped websocket
"""
# logger.info(f"Serialized Send - {self._wrapped_ws._serialize(data)}")
await self._wrapped_ws.send(data)
async def recv(self):
"""
Receive data on the wrapped websocket
"""
return await self._wrapped_ws.recv()
async def ping(self):
"""
Ping the websocket
"""
return await self._websocket.ping()
async def close(self):
"""
Close the WebSocketChannel
"""
self._closed = True
def is_closed(self):
return self._closed
class ChannelManager:
def __init__(self):
self.channels = dict()
self._lock = RLock() # Re-entrant Lock
async def on_connect(self, websocket: WebSocketType):
"""
Wrap websocket connection into Channel and add to list
:param websocket: The WebSocket object to attach to the Channel
"""
if hasattr(websocket, "accept"):
try:
await websocket.accept()
except RuntimeError:
# The connection was closed before we could accept it
return
ws_channel = WebSocketChannel(websocket)
with self._lock:
self.channels[websocket] = ws_channel
return ws_channel
async def on_disconnect(self, websocket: WebSocketType):
"""
Call close on the channel if it's not, and remove from channel list
:param websocket: The WebSocket objet attached to the Channel
"""
with self._lock:
channel = self.channels.get(websocket)
if channel:
logger.debug(f"Disconnecting channel - {channel}")
if not channel.is_closed():
await channel.close()
del self.channels[websocket]
async def disconnect_all(self):
"""
Disconnect all Channels
"""
with self._lock:
for websocket, channel in self.channels.items():
if not channel.is_closed():
await channel.close()
self.channels = dict()
async def broadcast(self, data):
"""
Broadcast data on all Channels
:param data: The data to send
"""
with self._lock:
logger.debug(f"Broadcasting data: {data}")
for websocket, channel in self.channels.items():
try:
await channel.send(data)
except RuntimeError:
# Handle cannot send after close cases
await self.on_disconnect(websocket)
async def send_direct(self, channel, data):
"""
Send data directly through direct_channel only
:param direct_channel: The WebSocketChannel object to send data through
:param data: The data to send
"""
# We iterate over the channels to get reference to the websocket object
# so we can disconnect incase of failure
await channel.send(data)
def has_channels(self):
"""
Flag for more than 0 channels
"""
return len(self.channels) > 0

61
freqtrade/rpc/api_server/ws/proxy.py Normal file
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@ -0,0 +1,61 @@
from typing import Union
from fastapi import WebSocket as FastAPIWebSocket
from websockets import WebSocketClientProtocol as WebSocket
from freqtrade.rpc.api_server.ws.types import WebSocketType
class WebSocketProxy:
"""
WebSocketProxy object to bring the FastAPIWebSocket and websockets.WebSocketClientProtocol
under the same API
"""
def __init__(self, websocket: WebSocketType):
self._websocket: Union[FastAPIWebSocket, WebSocket] = websocket
async def send(self, data):
"""
Send data on the wrapped websocket
"""
if isinstance(data, str):
data = data.encode()
if hasattr(self._websocket, "send_bytes"):
await self._websocket.send_bytes(data)
else:
await self._websocket.send(data)
async def recv(self):
"""
Receive data on the wrapped websocket
"""
if hasattr(self._websocket, "receive_bytes"):
return await self._websocket.receive_bytes()
else:
return await self._websocket.recv()
async def ping(self):
"""
Ping the websocket, not supported by FastAPI WebSockets
"""
if hasattr(self._websocket, "ping"):
return await self._websocket.ping()
return False
async def close(self, code: int = 1000):
"""
Close the websocket connection, only supported by FastAPI WebSockets
"""
if hasattr(self._websocket, "close"):
return await self._websocket.close(code)
pass
async def accept(self):
"""
Accept the WebSocket connection, only support by FastAPI WebSockets
"""
if hasattr(self._websocket, "accept"):
return await self._websocket.accept()
pass

65
freqtrade/rpc/api_server/ws/serializer.py Normal file
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@ -0,0 +1,65 @@
import json
import logging
from abc import ABC, abstractmethod
import msgpack
import orjson
from freqtrade.rpc.api_server.ws.proxy import WebSocketProxy
logger = logging.getLogger(__name__)
class WebSocketSerializer(ABC):
def __init__(self, websocket: WebSocketProxy):
self._websocket: WebSocketProxy = websocket
@abstractmethod
def _serialize(self, data):
raise NotImplementedError()
@abstractmethod
def _deserialize(self, data):
raise NotImplementedError()
async def send(self, data: bytes):
await self._websocket.send(self._serialize(data))
async def recv(self) -> bytes:
data = await self._websocket.recv()
return self._deserialize(data)
async def close(self, code: int = 1000):
await self._websocket.close(code)
# Going to explore using MsgPack as the serialization,
# as that might be the best method for sending pandas
# dataframes over the wire
class JSONWebSocketSerializer(WebSocketSerializer):
def _serialize(self, data):
return json.dumps(data)
def _deserialize(self, data):
return json.loads(data)
class ORJSONWebSocketSerializer(WebSocketSerializer):
ORJSON_OPTIONS = orjson.OPT_NAIVE_UTC | orjson.OPT_SERIALIZE_NUMPY
def _serialize(self, data):
return orjson.dumps(data, option=self.ORJSON_OPTIONS)
def _deserialize(self, data):
return orjson.loads(data, option=self.ORJSON_OPTIONS)
class MsgPackWebSocketSerializer(WebSocketSerializer):
def _serialize(self, data):
return msgpack.packb(data, use_bin_type=True)
def _deserialize(self, data):
return msgpack.unpackb(data, raw=False)

8
freqtrade/rpc/api_server/ws/types.py Normal file
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@ -0,0 +1,8 @@
from typing import Any, Dict, TypeVar
from fastapi import WebSocket as FastAPIWebSocket
from websockets import WebSocketClientProtocol as WebSocket
WebSocketType = TypeVar("WebSocketType", FastAPIWebSocket, WebSocket)
MessageType = Dict[str, Any]

12
freqtrade/rpc/api_server/ws/utils.py Normal file
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@ -0,0 +1,12 @@
from fastapi import WebSocket
# fastapi does not make this available through it, so import directly from starlette
from starlette.websockets import WebSocketState
async def is_websocket_alive(ws: WebSocket) -> bool:
if (
ws.application_state == WebSocketState.CONNECTED and
ws.client_state == WebSocketState.CONNECTED
):
return True
return False

10
freqtrade/rpc/external_signal/__init__.py
View File

@ -1,5 +1,5 @@
# flake8: noqa: F401
from freqtrade.rpc.external_signal.controller import ExternalSignalController
__all__ = ('ExternalSignalController')
# # flake8: noqa: F401
# from freqtrade.rpc.external_signal.controller import ExternalSignalController
#
#
# __all__ = ('ExternalSignalController')

290
freqtrade/rpc/external_signal/channel.py
View File

@ -1,145 +1,145 @@
import logging
from threading import RLock
from typing import Type
from freqtrade.rpc.external_signal.proxy import WebSocketProxy
from freqtrade.rpc.external_signal.serializer import MsgPackWebSocketSerializer, WebSocketSerializer
from freqtrade.rpc.external_signal.types import WebSocketType
logger = logging.getLogger(__name__)
class WebSocketChannel:
"""
Object to help facilitate managing a websocket connection
"""
def __init__(
self,
websocket: WebSocketType,
serializer_cls: Type[WebSocketSerializer] = MsgPackWebSocketSerializer
):
# The WebSocket object
self._websocket = WebSocketProxy(websocket)
# The Serializing class for the WebSocket object
self._serializer_cls = serializer_cls
# Internal event to signify a closed websocket
self._closed = False
# Wrap the WebSocket in the Serializing class
self._wrapped_ws = self._serializer_cls(self._websocket)
async def send(self, data):
"""
Send data on the wrapped websocket
"""
# logger.info(f"Serialized Send - {self._wrapped_ws._serialize(data)}")
await self._wrapped_ws.send(data)
async def recv(self):
"""
Receive data on the wrapped websocket
"""
return await self._wrapped_ws.recv()
async def ping(self):
"""
Ping the websocket
"""
return await self._websocket.ping()
async def close(self):
"""
Close the WebSocketChannel
"""
self._closed = True
def is_closed(self):
return self._closed
class ChannelManager:
def __init__(self):
self.channels = dict()
self._lock = RLock() # Re-entrant Lock
async def on_connect(self, websocket: WebSocketType):
"""
Wrap websocket connection into Channel and add to list
:param websocket: The WebSocket object to attach to the Channel
"""
if hasattr(websocket, "accept"):
try:
await websocket.accept()
except RuntimeError:
# The connection was closed before we could accept it
return
ws_channel = WebSocketChannel(websocket)
with self._lock:
self.channels[websocket] = ws_channel
return ws_channel
async def on_disconnect(self, websocket: WebSocketType):
"""
Call close on the channel if it's not, and remove from channel list
:param websocket: The WebSocket objet attached to the Channel
"""
with self._lock:
channel = self.channels.get(websocket)
if channel:
logger.debug(f"Disconnecting channel - {channel}")
if not channel.is_closed():
await channel.close()
del self.channels[websocket]
async def disconnect_all(self):
"""
Disconnect all Channels
"""
with self._lock:
for websocket, channel in self.channels.items():
if not channel.is_closed():
await channel.close()
self.channels = dict()
async def broadcast(self, data):
"""
Broadcast data on all Channels
:param data: The data to send
"""
with self._lock:
for websocket, channel in self.channels.items():
try:
await channel.send(data)
except RuntimeError:
# Handle cannot send after close cases
await self.on_disconnect(websocket)
async def send_direct(self, channel, data):
"""
Send data directly through direct_channel only
:param direct_channel: The WebSocketChannel object to send data through
:param data: The data to send
"""
# We iterate over the channels to get reference to the websocket object
# so we can disconnect incase of failure
await channel.send(data)
def has_channels(self):
"""
Flag for more than 0 channels
"""
return len(self.channels) > 0
# import logging
# from threading import RLock
# from typing import Type
#
# from freqtrade.rpc.external_signal.proxy import WebSocketProxy
# from freqtrade.rpc.external_signal.serializer import MsgPackWebSocketSerializer
# from freqtrade.rpc.external_signal.types import WebSocketType
#
#
# logger = logging.getLogger(__name__)
#
#
# class WebSocketChannel:
# """
# Object to help facilitate managing a websocket connection
# """
#
# def __init__(
# self,
# websocket: WebSocketType,
# serializer_cls: Type[WebSocketSerializer] = MsgPackWebSocketSerializer
# ):
# # The WebSocket object
# self._websocket = WebSocketProxy(websocket)
# # The Serializing class for the WebSocket object
# self._serializer_cls = serializer_cls
#
# # Internal event to signify a closed websocket
# self._closed = False
#
# # Wrap the WebSocket in the Serializing class
# self._wrapped_ws = self._serializer_cls(self._websocket)
#
# async def send(self, data):
# """
# Send data on the wrapped websocket
# """
# # logger.info(f"Serialized Send - {self._wrapped_ws._serialize(data)}")
# await self._wrapped_ws.send(data)
#
# async def recv(self):
# """
# Receive data on the wrapped websocket
# """
# return await self._wrapped_ws.recv()
#
# async def ping(self):
# """
# Ping the websocket
# """
# return await self._websocket.ping()
#
# async def close(self):
# """
# Close the WebSocketChannel
# """
#
# self._closed = True
#
# def is_closed(self):
# return self._closed
#
#
# class ChannelManager:
# def __init__(self):
# self.channels = dict()
# self._lock = RLock() # Re-entrant Lock
#
# async def on_connect(self, websocket: WebSocketType):
# """
# Wrap websocket connection into Channel and add to list
#
# :param websocket: The WebSocket object to attach to the Channel
# """
# if hasattr(websocket, "accept"):
# try:
# await websocket.accept()
# except RuntimeError:
# # The connection was closed before we could accept it
# return
#
# ws_channel = WebSocketChannel(websocket)
#
# with self._lock:
# self.channels[websocket] = ws_channel
#
# return ws_channel
#
# async def on_disconnect(self, websocket: WebSocketType):
# """
# Call close on the channel if it's not, and remove from channel list
#
# :param websocket: The WebSocket objet attached to the Channel
# """
# with self._lock:
# channel = self.channels.get(websocket)
# if channel:
# logger.debug(f"Disconnecting channel - {channel}")
#
# if not channel.is_closed():
# await channel.close()
#
# del self.channels[websocket]
#
# async def disconnect_all(self):
# """
# Disconnect all Channels
# """
# with self._lock:
# for websocket, channel in self.channels.items():
# if not channel.is_closed():
# await channel.close()
#
# self.channels = dict()
#
# async def broadcast(self, data):
# """
# Broadcast data on all Channels
#
# :param data: The data to send
# """
# with self._lock:
# for websocket, channel in self.channels.items():
# try:
# await channel.send(data)
# except RuntimeError:
# # Handle cannot send after close cases
# await self.on_disconnect(websocket)
#
# async def send_direct(self, channel, data):
# """
# Send data directly through direct_channel only
#
# :param direct_channel: The WebSocketChannel object to send data through
# :param data: The data to send
# """
# # We iterate over the channels to get reference to the websocket object
# # so we can disconnect incase of failure
# await channel.send(data)
#
# def has_channels(self):
# """
# Flag for more than 0 channels
# """
# return len(self.channels) > 0

898
freqtrade/rpc/external_signal/controller.py
View File

@ -1,449 +1,449 @@
"""
This module manages replicate mode communication
"""
import asyncio
import logging
import secrets
import socket
from threading import Thread
from typing import Any, Callable, Coroutine, Dict, Union
import websockets
from fastapi import Depends
from fastapi import WebSocket as FastAPIWebSocket
from fastapi import WebSocketDisconnect, status
from janus import Queue as ThreadedQueue
from freqtrade.enums import ExternalSignalModeType, LeaderMessageType, RPCMessageType
from freqtrade.rpc import RPC, RPCHandler
from freqtrade.rpc.external_signal.channel import ChannelManager
from freqtrade.rpc.external_signal.types import MessageType
from freqtrade.rpc.external_signal.utils import is_websocket_alive
logger = logging.getLogger(__name__)
class ExternalSignalController(RPCHandler):
""" This class handles all websocket communication """
def __init__(
self,
rpc: RPC,
config: Dict[str, Any],
api_server: Union[Any, None] = None
) -> None:
"""
Init the ExternalSignalController class, and init the super class RPCHandler
:param rpc: instance of RPC Helper class
:param config: Configuration object
:param api_server: The ApiServer object
:return: None
"""
super().__init__(rpc, config)
self.freqtrade = rpc._freqtrade
self.api_server = api_server
if not self.api_server:
raise RuntimeError("The API server must be enabled for external signals to work")
self._loop = None
self._running = False
self._thread = None
self._queue = None
self._main_task = None
self._sub_tasks = None
self._message_handlers = {
LeaderMessageType.pairlist: self._rpc._handle_pairlist_message,
LeaderMessageType.analyzed_df: self._rpc._handle_analyzed_df_message,
LeaderMessageType.default: self._rpc._handle_default_message
}
self.channel_manager = ChannelManager()
self.external_signal_config = config.get('external_signal', {})
# What the config should look like
# "external_signal": {
# "enabled": true,
# "mode": "follower",
# "leaders": [
# {
# "url": "ws://localhost:8080/signals/ws",
# "api_token": "test"
# }
# ]
# }
# "external_signal": {
# "enabled": true,
# "mode": "leader",
# "api_token": "test"
# }
self.mode = ExternalSignalModeType[
self.external_signal_config.get('mode', 'leader').lower()
]
self.leaders_list = self.external_signal_config.get('leaders', [])
self.push_throttle_secs = self.external_signal_config.get('push_throttle_secs', 0.1)
self.reply_timeout = self.external_signal_config.get('follower_reply_timeout', 10)
self.ping_timeout = self.external_signal_config.get('follower_ping_timeout', 2)
self.sleep_time = self.external_signal_config.get('follower_sleep_time', 5)
# Validate external_signal_config here?
if self.mode == ExternalSignalModeType.follower and len(self.leaders_list) == 0:
raise ValueError("You must specify at least 1 leader in follower mode.")
# This is only used by the leader, the followers use the tokens specified
# in each of the leaders
# If you do not specify an API key in the config, one will be randomly
# generated and logged on startup
default_api_key = secrets.token_urlsafe(16)
self.secret_api_key = self.external_signal_config.get('api_token', default_api_key)
self.start()
def is_leader(self):
"""
Leader flag
"""
return self.enabled() and self.mode == ExternalSignalModeType.leader
def enabled(self):
"""
Enabled flag
"""
return self.external_signal_config.get('enabled', False)
def num_leaders(self):
"""
The number of leaders we should be connected to
"""
return len(self.leaders_list)
def start_threaded_loop(self):
"""
Start the main internal loop in another thread to run coroutines
"""
self._loop = asyncio.new_event_loop()
if not self._thread:
self._thread = Thread(target=self._loop.run_forever)
self._thread.start()
self._running = True
else:
raise RuntimeError("A loop is already running")
def submit_coroutine(self, coroutine: Coroutine):
"""
Submit a coroutine to the threaded loop
"""
if not self._running:
raise RuntimeError("Cannot schedule new futures after shutdown")
if not self._loop or not self._loop.is_running():
raise RuntimeError("Loop must be started before any function can"
" be submitted")
return asyncio.run_coroutine_threadsafe(coroutine, self._loop)
def start(self):
"""
Start the controller main loop
"""
self.start_threaded_loop()
self._main_task = self.submit_coroutine(self.main())
async def shutdown(self):
"""
Shutdown all tasks and close up
"""
logger.info("Stopping rpc.externalsignalcontroller")
# Flip running flag
self._running = False
# Cancel sub tasks
for task in self._sub_tasks:
task.cancel()
# Then disconnect all channels
await self.channel_manager.disconnect_all()
def cleanup(self) -> None:
"""
Cleanup pending module resources.
"""
if self._thread:
if self._loop.is_running():
self._main_task.cancel()
self._thread.join()
async def main(self):
"""
Main coro
Start the loop based on what mode we're in
"""
try:
if self.mode == ExternalSignalModeType.leader:
logger.info("Starting rpc.externalsignalcontroller in Leader mode")
await self.run_leader_mode()
elif self.mode == ExternalSignalModeType.follower:
logger.info("Starting rpc.externalsignalcontroller in Follower mode")
await self.run_follower_mode()
except asyncio.CancelledError:
# We're cancelled
await self.shutdown()
except Exception as e:
# Log the error
logger.error(f"Exception occurred in main task: {e}")
logger.exception(e)
finally:
# This coroutine is the last thing to be ended, so it should stop the loop
self._loop.stop()
def log_api_token(self):
"""
Log the API token
"""
logger.info("-" * 15)
logger.info(f"API_KEY: {self.secret_api_key}")
logger.info("-" * 15)
def send_msg(self, msg: MessageType) -> None:
"""
Support RPC calls
"""
if msg["type"] == RPCMessageType.EMIT_DATA:
message = msg.get("message")
if message:
self.send_message(message)
else:
logger.error(f"Message is empty! {msg}")
def send_message(self, msg: MessageType) -> None:
"""
Broadcast message over all channels if there are any
"""
if self.channel_manager.has_channels():
self._send_message(msg)
else:
logger.debug("No listening followers, skipping...")
pass
def _send_message(self, msg: MessageType):
"""
Add data to the internal queue to be broadcasted. This func will block
if the queue is full. This is meant to be called in the main thread.
"""
if self._queue:
queue = self._queue.sync_q
queue.put(msg) # This will block if the queue is full
else:
logger.warning("Can not send data, leader loop has not started yet!")
async def send_initial_data(self, channel):
logger.info("Sending initial data through channel")
data = self._rpc._initial_leader_data()
for message in data:
await channel.send(message)
async def _handle_leader_message(self, message: MessageType):
"""
Handle message received from a Leader
"""
type = message.get("data_type", LeaderMessageType.default)
data = message.get("data")
handler: Callable = self._message_handlers[type]
handler(type, data)
# ----------------------------------------------------------------------
async def run_leader_mode(self):
"""
Main leader coroutine
This starts all of the leader coros and registers the endpoint on
the ApiServer
"""
self.register_leader_endpoint()
self.log_api_token()
self._sub_tasks = [
self._loop.create_task(self._broadcast_queue_data())
]
return await asyncio.gather(*self._sub_tasks)
async def run_follower_mode(self):
"""
Main follower coroutine
This starts all of the follower connection coros
"""
rpc_lock = asyncio.Lock()
self._sub_tasks = [
self._loop.create_task(self._handle_leader_connection(leader, rpc_lock))
for leader in self.leaders_list
]
return await asyncio.gather(*self._sub_tasks)
async def _broadcast_queue_data(self):
"""
Loop over queue data and broadcast it
"""
# Instantiate the queue in this coroutine so it's attached to our loop
self._queue = ThreadedQueue()
async_queue = self._queue.async_q
try:
while self._running:
# Get data from queue
data = await async_queue.get()
# Broadcast it to everyone
await self.channel_manager.broadcast(data)
# Sleep
await asyncio.sleep(self.push_throttle_secs)
except asyncio.CancelledError:
# Silently stop
pass
async def get_api_token(
self,
websocket: FastAPIWebSocket,
token: Union[str, None] = None
):
"""
Extract the API key from query param. Must match the
set secret_api_key or the websocket connection will be closed.
"""
if token == self.secret_api_key:
return token
else:
logger.info("Denying websocket request...")
await websocket.close(code=status.WS_1008_POLICY_VIOLATION)
def register_leader_endpoint(self, path: str = "/signals/ws"):
"""
Attach and start the main leader loop to the ApiServer
:param path: The endpoint path
"""
if not self.api_server:
raise RuntimeError("The leader needs the ApiServer to be active")
# The endpoint function for running the main leader loop
@self.api_server.app.websocket(path)
async def leader_endpoint(
websocket: FastAPIWebSocket,
api_key: str = Depends(self.get_api_token)
):
await self.leader_endpoint_loop(websocket)
async def leader_endpoint_loop(self, websocket: FastAPIWebSocket):
"""
The WebSocket endpoint served by the ApiServer. This handles connections,
and adding them to the channel manager.
"""
try:
if is_websocket_alive(websocket):
logger.info(f"Follower connected - {websocket.client}")
channel = await self.channel_manager.on_connect(websocket)
# Send initial data here
# Data is being broadcasted right away as soon as startup,
# we may not have to send initial data at all. Further testing
# required.
await self.send_initial_data(channel)
# Keep connection open until explicitly closed, and sleep
try:
while not channel.is_closed():
request = await channel.recv()
logger.info(f"Follower request - {request}")
except WebSocketDisconnect:
# Handle client disconnects
logger.info(f"Follower disconnected - {websocket.client}")
await self.channel_manager.on_disconnect(websocket)
except Exception as e:
logger.info(f"Follower connection failed - {websocket.client}")
logger.exception(e)
# Handle cases like -
# RuntimeError('Cannot call "send" once a closed message has been sent')
await self.channel_manager.on_disconnect(websocket)
except Exception:
logger.error(f"Failed to serve - {websocket.client}")
await self.channel_manager.on_disconnect(websocket)
async def _handle_leader_connection(self, leader, lock):
"""
Given a leader, connect and wait on data. If connection is lost,
it will attempt to reconnect.
"""
try:
url, token = leader["url"], leader["api_token"]
websocket_url = f"{url}?token={token}"
logger.info(f"Attempting to connect to Leader at: {url}")
while True:
try:
async with websockets.connect(websocket_url) as ws:
channel = await self.channel_manager.on_connect(ws)
logger.info(f"Connection to Leader at {url} successful")
while True:
try:
data = await asyncio.wait_for(
channel.recv(),
timeout=self.reply_timeout
)
except (asyncio.TimeoutError, websockets.exceptions.ConnectionClosed):
# We haven't received data yet. Check the connection and continue.
try:
# ping
ping = await channel.ping()
await asyncio.wait_for(ping, timeout=self.ping_timeout)
logger.debug(f"Connection to {url} still alive...")
continue
except Exception:
logger.info(
f"Ping error {url} - retrying in {self.sleep_time}s")
asyncio.sleep(self.sleep_time)
break
async with lock:
# Acquire lock so only 1 coro handling at a time
# as we call the RPC module in the main thread
await self._handle_leader_message(data)
except (socket.gaierror, ConnectionRefusedError):
logger.info(f"Connection Refused - retrying connection in {self.sleep_time}s")
await asyncio.sleep(self.sleep_time)
continue
except websockets.exceptions.InvalidStatusCode as e:
logger.error(f"Connection Refused - {e}")
await asyncio.sleep(self.sleep_time)
continue
except asyncio.CancelledError:
pass
# """
# This module manages replicate mode communication
# """
# import asyncio
# import logging
# import secrets
# import socket
# from threading import Thread
# from typing import Any, Callable, Coroutine, Dict, Union
#
# import websockets
# from fastapi import Depends
# from fastapi import WebSocket as FastAPIWebSocket
# from fastapi import WebSocketDisconnect, status
# from janus import Queue as ThreadedQueue
#
# from freqtrade.enums import ExternalSignalModeType, LeaderMessageType, RPCMessageType
# from freqtrade.rpc import RPC, RPCHandler
# from freqtrade.rpc.external_signal.channel import ChannelManager
# from freqtrade.rpc.external_signal.types import MessageType
# from freqtrade.rpc.external_signal.utils import is_websocket_alive
#
#
# logger = logging.getLogger(__name__)
#
#
# class ExternalSignalController(RPCHandler):
# """ This class handles all websocket communication """
#
# def __init__(
# self,
# rpc: RPC,
# config: Dict[str, Any],
# api_server: Union[Any, None] = None
# ) -> None:
# """
# Init the ExternalSignalController class, and init the super class RPCHandler
# :param rpc: instance of RPC Helper class
# :param config: Configuration object
# :param api_server: The ApiServer object
# :return: None
# """
# super().__init__(rpc, config)
#
# self.freqtrade = rpc._freqtrade
# self.api_server = api_server
#
# if not self.api_server:
# raise RuntimeError("The API server must be enabled for external signals to work")
#
# self._loop = None
# self._running = False
# self._thread = None
# self._queue = None
#
# self._main_task = None
# self._sub_tasks = None
#
# self._message_handlers = {
# LeaderMessageType.pairlist: self._rpc._handle_pairlist_message,
# LeaderMessageType.analyzed_df: self._rpc._handle_analyzed_df_message,
# LeaderMessageType.default: self._rpc._handle_default_message
# }
#
# self.channel_manager = ChannelManager()
# self.external_signal_config = config.get('external_signal', {})
#
# # What the config should look like
# # "external_signal": {
# # "enabled": true,
# # "mode": "follower",
# # "leaders": [
# # {
# # "url": "ws://localhost:8080/signals/ws",
# # "api_token": "test"
# # }
# # ]
# # }
#
# # "external_signal": {
# # "enabled": true,
# # "mode": "leader",
# # "api_token": "test"
# # }
#
# self.mode = ExternalSignalModeType[
# self.external_signal_config.get('mode', 'leader').lower()
# ]
#
# self.leaders_list = self.external_signal_config.get('leaders', [])
# self.push_throttle_secs = self.external_signal_config.get('push_throttle_secs', 0.1)
#
# self.reply_timeout = self.external_signal_config.get('follower_reply_timeout', 10)
# self.ping_timeout = self.external_signal_config.get('follower_ping_timeout', 2)
# self.sleep_time = self.external_signal_config.get('follower_sleep_time', 5)
#
# # Validate external_signal_config here?
#
# if self.mode == ExternalSignalModeType.follower and len(self.leaders_list) == 0:
# raise ValueError("You must specify at least 1 leader in follower mode.")
#
# # This is only used by the leader, the followers use the tokens specified
# # in each of the leaders
# # If you do not specify an API key in the config, one will be randomly
# # generated and logged on startup
# default_api_key = secrets.token_urlsafe(16)
# self.secret_api_key = self.external_signal_config.get('api_token', default_api_key)
#
# self.start()
#
# def is_leader(self):
# """
# Leader flag
# """
# return self.enabled() and self.mode == ExternalSignalModeType.leader
#
# def enabled(self):
# """
# Enabled flag
# """
# return self.external_signal_config.get('enabled', False)
#
# def num_leaders(self):
# """
# The number of leaders we should be connected to
# """
# return len(self.leaders_list)
#
# def start_threaded_loop(self):
# """
# Start the main internal loop in another thread to run coroutines
# """
# self._loop = asyncio.new_event_loop()
#
# if not self._thread:
# self._thread = Thread(target=self._loop.run_forever)
# self._thread.start()
# self._running = True
# else:
# raise RuntimeError("A loop is already running")
#
# def submit_coroutine(self, coroutine: Coroutine):
# """
# Submit a coroutine to the threaded loop
# """
# if not self._running:
# raise RuntimeError("Cannot schedule new futures after shutdown")
#
# if not self._loop or not self._loop.is_running():
# raise RuntimeError("Loop must be started before any function can"
# " be submitted")
#
# return asyncio.run_coroutine_threadsafe(coroutine, self._loop)
#
# def start(self):
# """
# Start the controller main loop
# """
# self.start_threaded_loop()
# self._main_task = self.submit_coroutine(self.main())
#
# async def shutdown(self):
# """
# Shutdown all tasks and close up
# """
# logger.info("Stopping rpc.externalsignalcontroller")
#
# # Flip running flag
# self._running = False
#
# # Cancel sub tasks
# for task in self._sub_tasks:
# task.cancel()
#
# # Then disconnect all channels
# await self.channel_manager.disconnect_all()
#
# def cleanup(self) -> None:
# """
# Cleanup pending module resources.
# """
# if self._thread:
# if self._loop.is_running():
# self._main_task.cancel()
# self._thread.join()
#
# async def main(self):
# """
# Main coro
#
# Start the loop based on what mode we're in
# """
# try:
# if self.mode == ExternalSignalModeType.leader:
# logger.info("Starting rpc.externalsignalcontroller in Leader mode")
#
# await self.run_leader_mode()
# elif self.mode == ExternalSignalModeType.follower:
# logger.info("Starting rpc.externalsignalcontroller in Follower mode")
#
# await self.run_follower_mode()
#
# except asyncio.CancelledError:
# # We're cancelled
# await self.shutdown()
# except Exception as e:
# # Log the error
# logger.error(f"Exception occurred in main task: {e}")
# logger.exception(e)
# finally:
# # This coroutine is the last thing to be ended, so it should stop the loop
# self._loop.stop()
#
# def log_api_token(self):
# """
# Log the API token
# """
# logger.info("-" * 15)
# logger.info(f"API_KEY: {self.secret_api_key}")
# logger.info("-" * 15)
#
# def send_msg(self, msg: MessageType) -> None:
# """
# Support RPC calls
# """
# if msg["type"] == RPCMessageType.EMIT_DATA:
# message = msg.get("message")
# if message:
# self.send_message(message)
# else:
# logger.error(f"Message is empty! {msg}")
#
# def send_message(self, msg: MessageType) -> None:
# """
# Broadcast message over all channels if there are any
# """
#
# if self.channel_manager.has_channels():
# self._send_message(msg)
# else:
# logger.debug("No listening followers, skipping...")
# pass
#
# def _send_message(self, msg: MessageType):
# """
# Add data to the internal queue to be broadcasted. This func will block
# if the queue is full. This is meant to be called in the main thread.
# """
# if self._queue:
# queue = self._queue.sync_q
# queue.put(msg) # This will block if the queue is full
# else:
# logger.warning("Can not send data, leader loop has not started yet!")
#
# async def send_initial_data(self, channel):
# logger.info("Sending initial data through channel")
#
# data = self._rpc._initial_leader_data()
#
# for message in data:
# await channel.send(message)
#
# async def _handle_leader_message(self, message: MessageType):
# """
# Handle message received from a Leader
# """
# type = message.get("data_type", LeaderMessageType.default)
# data = message.get("data")
#
# handler: Callable = self._message_handlers[type]
# handler(type, data)
#
# # ----------------------------------------------------------------------
#
# async def run_leader_mode(self):
# """
# Main leader coroutine
#
# This starts all of the leader coros and registers the endpoint on
# the ApiServer
# """
# self.register_leader_endpoint()
# self.log_api_token()
#
# self._sub_tasks = [
# self._loop.create_task(self._broadcast_queue_data())
# ]
#
# return await asyncio.gather(*self._sub_tasks)
#
# async def run_follower_mode(self):
# """
# Main follower coroutine
#
# This starts all of the follower connection coros
# """
#
# rpc_lock = asyncio.Lock()
#
# self._sub_tasks = [
# self._loop.create_task(self._handle_leader_connection(leader, rpc_lock))
# for leader in self.leaders_list
# ]
#
# return await asyncio.gather(*self._sub_tasks)
#
# async def _broadcast_queue_data(self):
# """
# Loop over queue data and broadcast it
# """
# # Instantiate the queue in this coroutine so it's attached to our loop
# self._queue = ThreadedQueue()
# async_queue = self._queue.async_q
#
# try:
# while self._running:
# # Get data from queue
# data = await async_queue.get()
#
# # Broadcast it to everyone
# await self.channel_manager.broadcast(data)
#
# # Sleep
# await asyncio.sleep(self.push_throttle_secs)
#
# except asyncio.CancelledError:
# # Silently stop
# pass
#
# async def get_api_token(
# self,
# websocket: FastAPIWebSocket,
# token: Union[str, None] = None
# ):
# """
# Extract the API key from query param. Must match the
# set secret_api_key or the websocket connection will be closed.
# """
# if token == self.secret_api_key:
# return token
# else:
# logger.info("Denying websocket request...")
# await websocket.close(code=status.WS_1008_POLICY_VIOLATION)
#
# def register_leader_endpoint(self, path: str = "/signals/ws"):
# """
# Attach and start the main leader loop to the ApiServer
#
# :param path: The endpoint path
# """
# if not self.api_server:
# raise RuntimeError("The leader needs the ApiServer to be active")
#
# # The endpoint function for running the main leader loop
# @self.api_server.app.websocket(path)
# async def leader_endpoint(
# websocket: FastAPIWebSocket,
# api_key: str = Depends(self.get_api_token)
# ):
# await self.leader_endpoint_loop(websocket)
#
# async def leader_endpoint_loop(self, websocket: FastAPIWebSocket):
# """
# The WebSocket endpoint served by the ApiServer. This handles connections,
# and adding them to the channel manager.
# """
# try:
# if is_websocket_alive(websocket):
# logger.info(f"Follower connected - {websocket.client}")
# channel = await self.channel_manager.on_connect(websocket)
#
# # Send initial data here
# # Data is being broadcasted right away as soon as startup,
# # we may not have to send initial data at all. Further testing
# # required.
# await self.send_initial_data(channel)
#
# # Keep connection open until explicitly closed, and sleep
# try:
# while not channel.is_closed():
# request = await channel.recv()
# logger.info(f"Follower request - {request}")
#
# except WebSocketDisconnect:
# # Handle client disconnects
# logger.info(f"Follower disconnected - {websocket.client}")
# await self.channel_manager.on_disconnect(websocket)
# except Exception as e:
# logger.info(f"Follower connection failed - {websocket.client}")
# logger.exception(e)
# # Handle cases like -
# # RuntimeError('Cannot call "send" once a closed message has been sent')
# await self.channel_manager.on_disconnect(websocket)
#
# except Exception:
# logger.error(f"Failed to serve - {websocket.client}")
# await self.channel_manager.on_disconnect(websocket)
#
# async def _handle_leader_connection(self, leader, lock):
# """
# Given a leader, connect and wait on data. If connection is lost,
# it will attempt to reconnect.
# """
# try:
# url, token = leader["url"], leader["api_token"]
# websocket_url = f"{url}?token={token}"
#
# logger.info(f"Attempting to connect to Leader at: {url}")
# while True:
# try:
# async with websockets.connect(websocket_url) as ws:
# channel = await self.channel_manager.on_connect(ws)
# logger.info(f"Connection to Leader at {url} successful")
# while True:
# try:
# data = await asyncio.wait_for(
# channel.recv(),
# timeout=self.reply_timeout
# )
# except (asyncio.TimeoutError, websockets.exceptions.ConnectionClosed):
# # We haven't received data yet. Check the connection and continue.
# try:
# # ping
# ping = await channel.ping()
# await asyncio.wait_for(ping, timeout=self.ping_timeout)
# logger.debug(f"Connection to {url} still alive...")
# continue
# except Exception:
# logger.info(
# f"Ping error {url} - retrying in {self.sleep_time}s")
# asyncio.sleep(self.sleep_time)
# break
#
# async with lock:
# # Acquire lock so only 1 coro handling at a time
# # as we call the RPC module in the main thread
# await self._handle_leader_message(data)
#
# except (socket.gaierror, ConnectionRefusedError):
# logger.info(f"Connection Refused - retrying connection in {self.sleep_time}s")
# await asyncio.sleep(self.sleep_time)
# continue
# except websockets.exceptions.InvalidStatusCode as e:
# logger.error(f"Connection Refused - {e}")
# await asyncio.sleep(self.sleep_time)
# continue
#
# except asyncio.CancelledError:
# pass

122
freqtrade/rpc/external_signal/proxy.py
View File

@ -1,61 +1,61 @@
from typing import Union
from fastapi import WebSocket as FastAPIWebSocket
from websockets import WebSocketClientProtocol as WebSocket
from freqtrade.rpc.external_signal.types import WebSocketType
class WebSocketProxy:
"""
WebSocketProxy object to bring the FastAPIWebSocket and websockets.WebSocketClientProtocol
under the same API
"""
def __init__(self, websocket: WebSocketType):
self._websocket: Union[FastAPIWebSocket, WebSocket] = websocket
async def send(self, data):
"""
Send data on the wrapped websocket
"""
if isinstance(data, str):
data = data.encode()
if hasattr(self._websocket, "send_bytes"):
await self._websocket.send_bytes(data)
else:
await self._websocket.send(data)
async def recv(self):
"""
Receive data on the wrapped websocket
"""
if hasattr(self._websocket, "receive_bytes"):
return await self._websocket.receive_bytes()
else:
return await self._websocket.recv()
async def ping(self):
"""
Ping the websocket, not supported by FastAPI WebSockets
"""
if hasattr(self._websocket, "ping"):
return await self._websocket.ping()
return False
async def close(self, code: int = 1000):
"""
Close the websocket connection, only supported by FastAPI WebSockets
"""
if hasattr(self._websocket, "close"):
return await self._websocket.close(code)
pass
async def accept(self):
"""
Accept the WebSocket connection, only support by FastAPI WebSockets
"""
if hasattr(self._websocket, "accept"):
return await self._websocket.accept()
pass
# from typing import Union
#
# from fastapi import WebSocket as FastAPIWebSocket
# from websockets import WebSocketClientProtocol as WebSocket
#
# from freqtrade.rpc.external_signal.types import WebSocketType
#
#
# class WebSocketProxy:
# """
# WebSocketProxy object to bring the FastAPIWebSocket and websockets.WebSocketClientProtocol
# under the same API
# """
#
# def __init__(self, websocket: WebSocketType):
# self._websocket: Union[FastAPIWebSocket, WebSocket] = websocket
#
# async def send(self, data):
# """
# Send data on the wrapped websocket
# """
# if isinstance(data, str):
# data = data.encode()
#
# if hasattr(self._websocket, "send_bytes"):
# await self._websocket.send_bytes(data)
# else:
# await self._websocket.send(data)
#
# async def recv(self):
# """
# Receive data on the wrapped websocket
# """
# if hasattr(self._websocket, "receive_bytes"):
# return await self._websocket.receive_bytes()
# else:
# return await self._websocket.recv()
#
# async def ping(self):
# """
# Ping the websocket, not supported by FastAPI WebSockets
# """
# if hasattr(self._websocket, "ping"):
# return await self._websocket.ping()
# return False
#
# async def close(self, code: int = 1000):
# """
# Close the websocket connection, only supported by FastAPI WebSockets
# """
# if hasattr(self._websocket, "close"):
# return await self._websocket.close(code)
# pass
#
# async def accept(self):
# """
# Accept the WebSocket connection, only support by FastAPI WebSockets
# """
# if hasattr(self._websocket, "accept"):
# return await self._websocket.accept()
# pass

130
freqtrade/rpc/external_signal/serializer.py
View File

@ -1,65 +1,65 @@
import json
import logging
from abc import ABC, abstractmethod
import msgpack
import orjson
from freqtrade.rpc.external_signal.proxy import WebSocketProxy
logger = logging.getLogger(__name__)
class WebSocketSerializer(ABC):
def __init__(self, websocket: WebSocketProxy):
self._websocket: WebSocketProxy = websocket
@abstractmethod
def _serialize(self, data):
raise NotImplementedError()
@abstractmethod
def _deserialize(self, data):
raise NotImplementedError()
async def send(self, data: bytes):
await self._websocket.send(self._serialize(data))
async def recv(self) -> bytes:
data = await self._websocket.recv()
return self._deserialize(data)
async def close(self, code: int = 1000):
await self._websocket.close(code)
# Going to explore using MsgPack as the serialization,
# as that might be the best method for sending pandas
# dataframes over the wire
class JSONWebSocketSerializer(WebSocketSerializer):
def _serialize(self, data):
return json.dumps(data)
def _deserialize(self, data):
return json.loads(data)
class ORJSONWebSocketSerializer(WebSocketSerializer):
ORJSON_OPTIONS = orjson.OPT_NAIVE_UTC | orjson.OPT_SERIALIZE_NUMPY
def _serialize(self, data):
return orjson.dumps(data, option=self.ORJSON_OPTIONS)
def _deserialize(self, data):
return orjson.loads(data, option=self.ORJSON_OPTIONS)
class MsgPackWebSocketSerializer(WebSocketSerializer):
def _serialize(self, data):
return msgpack.packb(data, use_bin_type=True)
def _deserialize(self, data):
return msgpack.unpackb(data, raw=False)
# import json
# import logging
# from abc import ABC, abstractmethod
#
# import msgpack
# import orjson
#
# from freqtrade.rpc.external_signal.proxy import WebSocketProxy
#
#
# logger = logging.getLogger(__name__)
#
#
# class WebSocketSerializer(ABC):
# def __init__(self, websocket: WebSocketProxy):
# self._websocket: WebSocketProxy = websocket
#
# @abstractmethod
# def _serialize(self, data):
# raise NotImplementedError()
#
# @abstractmethod
# def _deserialize(self, data):
# raise NotImplementedError()
#
# async def send(self, data: bytes):
# await self._websocket.send(self._serialize(data))
#
# async def recv(self) -> bytes:
# data = await self._websocket.recv()
#
# return self._deserialize(data)
#
# async def close(self, code: int = 1000):
# await self._websocket.close(code)
#
# # Going to explore using MsgPack as the serialization,
# # as that might be the best method for sending pandas
# # dataframes over the wire
#
#
# class JSONWebSocketSerializer(WebSocketSerializer):
# def _serialize(self, data):
# return json.dumps(data)
#
# def _deserialize(self, data):
# return json.loads(data)
#
#
# class ORJSONWebSocketSerializer(WebSocketSerializer):
# ORJSON_OPTIONS = orjson.OPT_NAIVE_UTC | orjson.OPT_SERIALIZE_NUMPY
#
# def _serialize(self, data):
# return orjson.dumps(data, option=self.ORJSON_OPTIONS)
#
# def _deserialize(self, data):
# return orjson.loads(data, option=self.ORJSON_OPTIONS)
#
#
# class MsgPackWebSocketSerializer(WebSocketSerializer):
# def _serialize(self, data):
# return msgpack.packb(data, use_bin_type=True)
#
# def _deserialize(self, data):
# return msgpack.unpackb(data, raw=False)

16
freqtrade/rpc/external_signal/types.py
View File

@ -1,8 +1,8 @@
from typing import Any, Dict, TypeVar
from fastapi import WebSocket as FastAPIWebSocket
from websockets import WebSocketClientProtocol as WebSocket
WebSocketType = TypeVar("WebSocketType", FastAPIWebSocket, WebSocket)
MessageType = Dict[str, Any]
# from typing import Any, Dict, TypeVar
#
# from fastapi import WebSocket as FastAPIWebSocket
# from websockets import WebSocketClientProtocol as WebSocket
#
#
# WebSocketType = TypeVar("WebSocketType", FastAPIWebSocket, WebSocket)
# MessageType = Dict[str, Any]

32
freqtrade/rpc/external_signal/utils.py
View File

@ -1,22 +1,10 @@
from pandas import DataFrame
from starlette.websockets import WebSocket, WebSocketState
from freqtrade.enums.signaltype import SignalTagType, SignalType
async def is_websocket_alive(ws: WebSocket) -> bool:
if (
ws.application_state == WebSocketState.CONNECTED and
ws.client_state == WebSocketState.CONNECTED
):
return True
return False
def remove_entry_exit_signals(dataframe: DataFrame):
dataframe[SignalType.ENTER_LONG.value] = 0
dataframe[SignalType.EXIT_LONG.value] = 0
dataframe[SignalType.ENTER_SHORT.value] = 0
dataframe[SignalType.EXIT_SHORT.value] = 0
dataframe[SignalTagType.ENTER_TAG.value] = None
dataframe[SignalTagType.EXIT_TAG.value] = None
# from starlette.websockets import WebSocket, WebSocketState
#
#
# async def is_websocket_alive(ws: WebSocket) -> bool:
# if (
# ws.application_state == WebSocketState.CONNECTED and
# ws.client_state == WebSocketState.CONNECTED
# ):
# return True
# return False

131
freqtrade/rpc/rpc.py
View File

@ -19,13 +19,12 @@ from freqtrade.configuration.timerange import TimeRange
from freqtrade.constants import CANCEL_REASON, DATETIME_PRINT_FORMAT
from freqtrade.data.history import load_data
from freqtrade.data.metrics import calculate_max_drawdown
from freqtrade.enums import (CandleType, ExitCheckTuple, ExitType, LeaderMessageType,
SignalDirection, State, TradingMode)
from freqtrade.enums import (CandleType, ExitCheckTuple, ExitType, SignalDirection, State,
TradingMode)
from freqtrade.exceptions import ExchangeError, PricingError
from freqtrade.exchange import timeframe_to_minutes, timeframe_to_msecs
from freqtrade.loggers import bufferHandler
from freqtrade.misc import (decimals_per_coin, json_to_dataframe, remove_entry_exit_signals,
shorten_date)
from freqtrade.misc import decimals_per_coin, shorten_date
from freqtrade.persistence import PairLocks, Trade
from freqtrade.persistence.models import PairLock
from freqtrade.plugins.pairlist.pairlist_helpers import expand_pairlist
@ -1090,65 +1089,65 @@ class RPC:
'last_process_loc': last_p.astimezone(tzlocal()).strftime(DATETIME_PRINT_FORMAT),
'last_process_ts': int(last_p.timestamp()),
}
# ------------------------------ EXTERNAL SIGNALS -----------------------
def _initial_leader_data(self):
# We create a list of Messages to send to the follower on connect
data = []
# Send Pairlist data
data.append({
"data_type": LeaderMessageType.pairlist,
"data": self._freqtrade.pairlists._whitelist
})
return data
def _handle_pairlist_message(self, type, data):
"""
Handles the emitted pairlists from the Leaders
:param type: The data_type of the data
:param data: The data
"""
pairlist = data
logger.debug(f"Handling Pairlist message: {pairlist}")
external_pairlist = self._freqtrade.pairlists._pairlist_handlers[0]
external_pairlist.add_pairlist_data(pairlist)
def _handle_analyzed_df_message(self, type, data):
"""
Handles the analyzed dataframes from the Leaders
:param type: The data_type of the data
:param data: The data
"""
key, value = data["key"], data["value"]
pair, timeframe, candle_type = key
# Skip any pairs that we don't have in the pairlist?
# leader_pairlist = self._freqtrade.pairlists._whitelist
# if pair not in leader_pairlist:
# return
dataframe = json_to_dataframe(value)
if self._config.get('external_signal', {}).get('remove_signals_analyzed_df', False):
dataframe = remove_entry_exit_signals(dataframe)
logger.debug(f"Handling analyzed dataframe for {pair}")
logger.debug(dataframe.tail())
# Add the dataframe to the dataprovider
dataprovider = self._freqtrade.dataprovider
dataprovider.add_external_df(pair, timeframe, dataframe, candle_type)
def _handle_default_message(self, type, data):
"""
Default leader message handler, just logs it. We should never have to
run this unless the leader sends us some weird message.
"""
logger.debug(f"Received message from Leader of type {type}: {data}")
#
# # ------------------------------ EXTERNAL SIGNALS -----------------------
#
# def _initial_leader_data(self):
# # We create a list of Messages to send to the follower on connect
# data = []
#
# # Send Pairlist data
# data.append({
# "data_type": LeaderMessageType.pairlist,
# "data": self._freqtrade.pairlists._whitelist
# })
#
# return data
#
# def _handle_pairlist_message(self, type, data):
# """
# Handles the emitted pairlists from the Leaders
#
# :param type: The data_type of the data
# :param data: The data
# """
# pairlist = data
#
# logger.debug(f"Handling Pairlist message: {pairlist}")
#
# external_pairlist = self._freqtrade.pairlists._pairlist_handlers[0]
# external_pairlist.add_pairlist_data(pairlist)
#
# def _handle_analyzed_df_message(self, type, data):
# """
# Handles the analyzed dataframes from the Leaders
#
# :param type: The data_type of the data
# :param data: The data
# """
# key, value = data["key"], data["value"]
# pair, timeframe, candle_type = key
#
# # Skip any pairs that we don't have in the pairlist?
# # leader_pairlist = self._freqtrade.pairlists._whitelist
# # if pair not in leader_pairlist:
# # return
#
# dataframe = json_to_dataframe(value)
#
# if self._config.get('external_signal', {}).get('remove_signals_analyzed_df', False):
# dataframe = remove_entry_exit_signals(dataframe)
#
# logger.debug(f"Handling analyzed dataframe for {pair}")
# logger.debug(dataframe.tail())
#
# # Add the dataframe to the dataprovider
# dataprovider = self._freqtrade.dataprovider
# dataprovider.add_external_df(pair, timeframe, dataframe, candle_type)
#
# def _handle_default_message(self, type, data):
# """
# Default leader message handler, just logs it. We should never have to
# run this unless the leader sends us some weird message.
# """
# logger.debug(f"Received message from Leader of type {type}: {data}")

26
freqtrade/rpc/rpc_manager.py
View File

@ -51,14 +51,14 @@ class RPCManager:
# Enable External Signals mode
# For this to be enabled, the API server must also be enabled
if config.get('external_signal', {}).get('enabled', False):
logger.info('Enabling RPC.ExternalSignalController')
from freqtrade.rpc.external_signal import ExternalSignalController
external_signals = ExternalSignalController(self._rpc, config, apiserver)
self.registered_modules.append(external_signals)
# Attach the controller to FreqTrade
freqtrade.external_signal_controller = external_signals
# if config.get('external_signal', {}).get('enabled', False):
# logger.info('Enabling RPC.ExternalSignalController')
# from freqtrade.rpc.external_signal import ExternalSignalController
# external_signals = ExternalSignalController(self._rpc, config, apiserver)
# self.registered_modules.append(external_signals)
#
# # Attach the controller to FreqTrade
# freqtrade.external_signal_controller = external_signals
def cleanup(self) -> None:
""" Stops all enabled rpc modules """
@ -78,7 +78,6 @@ class RPCManager:
'status': 'stopping bot'
}
"""
if msg.get("type") != RPCMessageType.EMIT_DATA:
logger.info('Sending rpc message: %s', msg)
if 'pair' in msg:
msg.update({
@ -138,12 +137,3 @@ class RPCManager:
'type': RPCMessageType.STARTUP,
'status': f'Using Protections: \n{prots}'
})
def emit_data(self, data: Dict[str, Any]):
"""
Send a message via RPC with type RPCMessageType.EMIT_DATA
"""
self.send_msg({
"type": RPCMessageType.EMIT_DATA,
"message": data
})

58
scripts/test_ws_client.py Normal file
View File

@ -0,0 +1,58 @@
import asyncio
import logging
import socket
import websockets
logging.basicConfig(level=logging.DEBUG)
logger = logging.getLogger(__name__)
async def _client():
try:
while True:
try:
url = "ws://localhost:8080/api/v1/message/ws?token=testtoken"
async with websockets.connect(url) as ws:
logger.info("Connection successful")
while True:
try:
data = await asyncio.wait_for(
ws.recv(),
timeout=5
)
logger.info(f"Data received - {data}")
except (asyncio.TimeoutError, websockets.exceptions.ConnectionClosed):
# We haven't received data yet. Check the connection and continue.
try:
# ping
ping = await ws.ping()
await asyncio.wait_for(ping, timeout=2)
logger.debug(f"Connection to {url} still alive...")
continue
except Exception:
logger.info(
f"Ping error {url} - retrying in 5s")
asyncio.sleep(2)
break
except (socket.gaierror, ConnectionRefusedError):
logger.info("Connection Refused - retrying connection in 5s")
await asyncio.sleep(2)
continue
except websockets.exceptions.InvalidStatusCode as e:
logger.error(f"Connection Refused - {e}")
await asyncio.sleep(2)
continue
except (asyncio.CancelledError, KeyboardInterrupt):
pass
def main():
asyncio.run(_client())
if __name__ == "__main__":
main()