This is a lightweight library that works as a connector to Binance Futures public API
- Supported APIs:
- USDT-M Futures
/fapi/*
- COIN-M Delivery
/dapi/*
- Futures/Delivery Websocket Market Stream
- Futures/Delivery User Data Stream
- USDT-M Futures
- Inclusion of examples
- Customizable base URL, request timeout
- Response metadata can be displayed
pip install binance-futures-connector
Usage examples:
from binance.cm_futures import CMFutures
cm_futures_client = CMFutures()
# get server time
print(cm_futures_client.time())
cm_futures_client = CMFutures(key='<api_key>', secret='<api_secret>')
# Get account information
print(cm_futures_client.account())
# Post a new order
params = {
'symbol': 'BTCUSDT',
'side': 'SELL',
'type': 'LIMIT',
'timeInForce': 'GTC',
'quantity': 0.002,
'price': 59808
}
response = cm_futures_client.new_order(**params)
print(response)
Please find examples
folder to check for more endpoints.
For USDT-M Futures, if base_url
is not provided, it defaults to fapi.binance.com
.
For COIN-M Delivery, if base_url
is not provided, it defaults to dapi.binance.com
.
It's recommended to pass in the base_url
parameter, even in production as Binance provides alternative URLs
PEP8 suggests lowercase with words separated by underscores, but for this connector, the methods' optional parameters should follow their exact naming as in the API documentation.
# Recognised parameter name
response = client.query_order('BTCUSDT', orderListId=1)
# Unrecognised parameter name
response = client.query_order('BTCUSDT', order_list_id=1)
Additional parameter recvWindow
is available for endpoints requiring signature.
It defaults to 5000
(milliseconds) and can be any value lower than 60000
(milliseconds).
Anything beyond the limit will result in an error response from Binance server.
from binance.cm_futures import CMFutures
cm_futures_client = CMFutures(key='<api_key>', secret='<api_secret>')
response = cm_futures_client.query_order('BTCUSDT', orderId=11, recvWindow=10000)
timeout
is available to be assigned with the number of seconds you find most appropriate to wait for a server response.
Please remember the value as it won't be shown in error message no bytes have been received on the underlying socket for timeout seconds.
By default, timeout
is None. Hence, requests do not time out.
from binance.cm_futures import CMFutures
client= CMFutures(timeout=1)
proxy is supported
from binance.cm_futures import CMFutures
proxies = { 'https': 'http://1.2.3.4:8080' }
client= CMFutures(proxies=proxies)
The Binance API server provides weight usages in the headers of each response.
You can display them by initializing the client with show_limit_usage=True
:
from binance.cm_futures import CMFutures
client = CMFutures(show_limit_usage=True)
print(client.time())
returns:
{'limit_usage': {'x-mbx-used-weight-1m': '1'}, 'data': {'serverTime': 1653563092778}}
You can also display full response metadata to help in debugging:
client = Client(show_header=True)
print(client.time())
returns:
{'data': {'serverTime': 1587990847650}, 'header': {'Context-Type': 'application/json;charset=utf-8', ...}}
If ClientError
is received, it'll display full response meta information.
Setting the log level to DEBUG
will log the request URL, payload and response text.
There are 2 types of error returned from the library:
binance.error.ClientError
- This is thrown when server returns
4XX
, it's an issue from client side. - It has 4 properties:
status_code
- HTTP status codeerror_code
- Server's error code, e.g.-1102
error_message
- Server's error message, e.g.Unknown order sent.
header
- Full response header.
- This is thrown when server returns
binance.error.ServerError
- This is thrown when server returns
5XX
, it's an issue from server side.
- This is thrown when server returns
import time
from binance.websocket.cm_futures.websocket_client import CMFuturesWebsocketClient
def message_handler(message):
print(message)
ws_client = CMFuturesWebsocketClient()
ws_client.start()
ws_client.mini_ticker(
symbol='bnbusdt',
id=1,
callback=message_handler,
)
# Combine selected streams
ws_client.instant_subscribe(
stream=['bnbusdt@bookTicker', 'ethusdt@bookTicker'],
callback=message_handler,
)
time.sleep(10)
print("closing ws connection")
ws_client.stop()
More websocket examples are available in the examples
folder
Once connected, the websocket server sends a ping frame every 3 minutes and requires a response pong frame back within a 10 minutes period. This package handles the pong responses automatically.
MIT