freqtrade_origin/freqtrade/rpc/external_message_consumer.py

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"""
ExternalMessageConsumer module
Main purpose is to connect to external bot's message websocket to consume data
from it
"""
import asyncio
import logging
import socket
from threading import Thread
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from typing import TYPE_CHECKING, Any, Dict, List
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import websockets
from freqtrade.data.dataprovider import DataProvider
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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,
WSAnalyzedDFRequest, WSMessageSchema,
WSRequestSchema, WSSubscribeRequest,
WSWhitelistMessage, WSWhitelistRequest)
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if TYPE_CHECKING:
import websockets.connect
import websockets.exceptions
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logger = logging.getLogger(__name__)
class ExternalMessageConsumer:
"""
The main controller class for consuming external messages from
other FreqTrade bot's
"""
def __init__(
self,
config: Dict[str, Any],
dataprovider: DataProvider
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):
self._config = config
self._dp = dataprovider
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self._running = False
self._thread = None
self._loop = None
self._main_task = None
self._sub_tasks = None
self._emc_config = self._config.get('external_message_consumer', {})
self.enabled = self._emc_config.get('enabled', False)
self.producers = self._emc_config.get('producers', [])
if self.enabled and len(self.producers) < 1:
raise ValueError("You must specify at least 1 Producer to connect to.")
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self.reply_timeout = self._emc_config.get('reply_timeout', 30)
self.ping_timeout = self._emc_config.get('ping_timeout', 5)
self.sleep_time = self._emc_config.get('sleep_time', 10)
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# The amount of candles per dataframe on the initial request
self.initial_candle_limit = self._emc_config.get('initial_candle_limit', 1500)
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# Setting these explicitly as they probably shouldn't be changed by a user
# Unless we somehow integrate this with the strategy to allow creating
# callbacks for the messages
self.topics = [RPCMessageType.WHITELIST, RPCMessageType.ANALYZED_DF]
# Allow setting data for each initial request
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self._initial_requests: List[WSRequestSchema] = [
WSSubscribeRequest(data=self.topics),
WSWhitelistRequest(),
WSAnalyzedDFRequest()
]
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# Specify which function to use for which RPCMessageType
self._message_handlers = {
RPCMessageType.WHITELIST: self._consume_whitelist_message,
RPCMessageType.ANALYZED_DF: self._consume_analyzed_df_message,
}
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self.start()
def start(self):
"""
Start the main internal loop in another thread to run coroutines
"""
self._loop = asyncio.new_event_loop()
if not self._thread:
logger.info("Starting ExternalMessageConsumer")
self._thread = Thread(target=self._loop.run_forever)
self._thread.start()
self._running = True
else:
raise RuntimeError("A loop is already running")
self._main_task = asyncio.run_coroutine_threadsafe(self._main(), loop=self._loop)
def shutdown(self):
"""
Shutdown the loop, thread, and tasks
"""
if self._thread and self._loop:
logger.info("Stopping ExternalMessageConsumer")
if self._sub_tasks:
# Cancel sub tasks
for task in self._sub_tasks:
task.cancel()
if self._main_task:
# Cancel the main task
self._main_task.cancel()
self._thread.join()
async def _main(self):
"""
The main task coroutine
"""
lock = asyncio.Lock()
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try:
# Create a connection to each producer
self._sub_tasks = [
self._loop.create_task(self._handle_producer_connection(producer, lock))
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for producer in self.producers
]
await asyncio.gather(*self._sub_tasks)
except asyncio.CancelledError:
pass
finally:
# Stop the loop once we are done
self._loop.stop()
async def _handle_producer_connection(self, producer: Dict[str, Any], lock: asyncio.Lock):
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"""
Main connection loop for the consumer
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:param producer: Dictionary containing producer info
:param lock: An asyncio Lock
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"""
try:
await self._create_connection(producer, lock)
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except asyncio.CancelledError:
# Exit silently
pass
async def _create_connection(self, producer: Dict[str, Any], lock: asyncio.Lock):
"""
Actually creates and handles the websocket connection, pinging on timeout
and handling connection errors.
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:param producer: Dictionary containing producer info
:param lock: An asyncio Lock
"""
while self._running:
try:
url, token = producer['url'], producer['ws_token']
name = producer["name"]
ws_url = f"{url}?token={token}"
# This will raise InvalidURI if the url is bad
async with websockets.connect(ws_url) as ws:
channel = WebSocketChannel(ws, channel_id=name)
logger.info(f"Producer connection success - {channel}")
# Now request the initial data from this Producer
for request in self._initial_requests:
await channel.send(
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request.dict(exclude_none=True)
)
# Now receive data, if none is within the time limit, ping
await self._receive_messages(channel, producer, lock)
# Catch invalid ws_url, and break the loop
except websockets.exceptions.InvalidURI as e:
logger.error(f"{ws_url} is an invalid WebSocket URL - {e}")
break
except (
socket.gaierror,
ConnectionRefusedError,
websockets.exceptions.InvalidStatusCode
) as e:
logger.error(f"Connection Refused - {e} retrying in {self.sleep_time}s")
await asyncio.sleep(self.sleep_time)
continue
except Exception as e:
# An unforseen error has occurred, log and stop
logger.exception(e)
break
async def _receive_messages(
self,
channel: WebSocketChannel,
producer: Dict[str, Any],
lock: asyncio.Lock
):
"""
Loop to handle receiving messages from a Producer
:param channel: The WebSocketChannel object for the WebSocket
:param producer: Dictionary containing producer info
:param lock: An asyncio Lock
"""
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while self._running:
try:
message = await asyncio.wait_for(
channel.recv(),
timeout=self.reply_timeout
)
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try:
async with lock:
# Handle the message
self.handle_producer_message(producer, message)
except Exception as e:
logger.exception(f"Error handling producer message: {e}")
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 {channel} still alive...")
continue
except Exception:
logger.info(
f"Ping error {channel} - retrying in {self.sleep_time}s")
await asyncio.sleep(self.sleep_time)
break
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def handle_producer_message(self, producer: Dict[str, Any], message: Dict[str, Any]):
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"""
Handles external messages from a Producer
"""
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producer_name = producer.get('name', 'default')
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try:
producer_message = WSMessageSchema.parse_obj(message)
except ValidationError as e:
logger.error(f"Invalid message from {producer_name}: {e}")
return
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# We shouldn't get empty messages
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if producer_message.data is None:
return
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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(producer_message.type)
if not message_handler:
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logger.info(f"Received unhandled message: {producer_message.data}, ignoring...")
return
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message_handler(producer_name, producer_message)
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def _consume_whitelist_message(self, producer_name: str, message: Any):
try:
# Validate the message
message = WSWhitelistMessage.parse_obj(message)
except ValidationError:
return
# 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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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: Any):
try:
message = WSAnalyzedDFMessage.parse_obj(message)
except ValidationError:
return
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key = message.data.key
df = message.data.df
la = message.data.la
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pair, timeframe, candle_type = key
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# If set, remove the Entry and Exit signals from the Producer
if self._emc_config.get('remove_entry_exit_signals', False):
df = remove_entry_exit_signals(df)
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# Add the dataframe to the dataprovider
self._dp._add_external_df(pair, df,
last_analyzed=la,
timeframe=timeframe,
candle_type=candle_type,
producer_name=producer_name)
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logger.debug(
f"Consumed message from {producer_name} of type RPCMessageType.ANALYZED_DF")