This is an unofficial Python wrapper for the Binance exchange REST API v3.
If you came here looking for the Binance exchange to purchase cryptocurrencies, then go here. If you want to automate interactions with Binance stick around.
Please make sure your python-binance version is v.1.0.20 or higher. The previous versions are no longer recommended because some endpoints have been deprecated.
- Source code
- https://github.com/sammchardy/python-binance
- Documentation
- https://python-binance.readthedocs.io/en/latest/
- Community Telegram Chat
- https://t.me/python_binance
- Announcements Channel
- https://t.me/python_binance_announcements
- Examples including async
- https://github.com/sammchardy/python-binance/tree/master/examples
Make sure you update often and check the Changelog for new features and bug fixes.
Your contributions, suggestions, and fixes are always welcome! Don't hesitate to open a GitHub issue or reach out to us on our Telegram chat
- Implementation of all General, Market Data and Account endpoints.
- Asyncio implementation
- Testnet support for Spot, Futures and Vanilla Options
- Simple handling of authentication include RSA and EDDSA keys
- No need to generate timestamps yourself, the wrapper does it for you
- Response exception handling
- Websocket handling with reconnection and multiplexed connections
- CRUDE over websockets, create/fetch/edit through websockets for minimum latency.
- Symbol Depth Cache
- Historical Kline/Candle fetching function
- Withdraw functionality
- Deposit addresses
- Margin Trading
- Futures Trading
- Porfolio Margin Trading
- Vanilla Options
- Proxy support
- Support other domains (.us, .jp, etc)
The breaking changes include the migration from wapi to sapi endpoints which related to the wallet endpoints detailed in the Binance Docs
The other breaking change is for websocket streams and the Depth Cache Manager which have been converted to use Asynchronous Context Managers. See examples in the Async section below or view the websockets and depth cache docs.
Register an account with Binance.
Generate an API Key and assign relevant permissions.
If you are using an exchange from the US, Japan or other TLD then make sure pass tld='us' when creating the client.
To use the Spot, Vanilla Options , or Futures Testnet pass testnet=True when creating the client.
pip install python-binance
from binance import Client, ThreadedWebsocketManager, ThreadedDepthCacheManager
client = Client(api_key, api_secret)
# get market depth
depth = client.get_order_book(symbol='BNBBTC')
# place a test market buy order, to place an actual order use the create_order function
order = client.create_test_order(
symbol='BNBBTC',
side=Client.SIDE_BUY,
type=Client.ORDER_TYPE_MARKET,
quantity=100)
# get all symbol prices
prices = client.get_all_tickers()
# withdraw 100 ETH
# check docs for assumptions around withdrawals
from binance.exceptions import BinanceAPIException
try:
result = client.withdraw(
asset='ETH',
address='<eth_address>',
amount=100)
except BinanceAPIException as e:
print(e)
else:
print("Success")
# fetch list of withdrawals
withdraws = client.get_withdraw_history()
# fetch list of ETH withdrawals
eth_withdraws = client.get_withdraw_history(coin='ETH')
# get a deposit address for BTC
address = client.get_deposit_address(coin='BTC')
# get historical kline data from any date range
# fetch 1 minute klines for the last day up until now
klines = client.get_historical_klines("BNBBTC", Client.KLINE_INTERVAL_1MINUTE, "1 day ago UTC")
# fetch 30 minute klines for the last month of 2017
klines = client.get_historical_klines("ETHBTC", Client.KLINE_INTERVAL_30MINUTE, "1 Dec, 2017", "1 Jan, 2018")
# fetch weekly klines since it listed
klines = client.get_historical_klines("NEOBTC", Client.KLINE_INTERVAL_1WEEK, "1 Jan, 2017")
# create order through websockets
order_ws = client.ws_create_order( symbol="LTCUSDT", side="BUY", type="MARKET", quantity=0.1)
# socket manager using threads
twm = ThreadedWebsocketManager()
twm.start()
# depth cache manager using threads
dcm = ThreadedDepthCacheManager()
dcm.start()
def handle_socket_message(msg):
print(f"message type: {msg['e']}")
print(msg)
def handle_dcm_message(depth_cache):
print(f"symbol {depth_cache.symbol}")
print("top 5 bids")
print(depth_cache.get_bids()[:5])
print("top 5 asks")
print(depth_cache.get_asks()[:5])
print("last update time {}".format(depth_cache.update_time))
twm.start_kline_socket(callback=handle_socket_message, symbol='BNBBTC')
dcm.start_depth_cache(callback=handle_dcm_message, symbol='ETHBTC')
# replace with a current options symbol
options_symbol = 'BTC-241227-41000-C'
dcm.start_options_depth_cache(callback=handle_dcm_message, symbol=options_symbol)
# join the threaded managers to the main thread
twm.join()
dcm.join()
For more check out the documentation.
Read Async basics for Binance for more information.
import asyncio
import json
from binance import AsyncClient, DepthCacheManager, BinanceSocketManager
async def main():
# initialise the client
client = await AsyncClient.create()
# run some simple requests
print(json.dumps(await client.get_exchange_info(), indent=2))
print(json.dumps(await client.get_symbol_ticker(symbol="BTCUSDT"), indent=2))
# initialise websocket factory manager
bsm = BinanceSocketManager(client)
# create listener using async with
# this will exit and close the connection after 5 messages
async with bsm.trade_socket('ETHBTC') as ts:
for _ in range(5):
res = await ts.recv()
print(f'recv {res}')
# get historical kline data from any date range
# fetch 1 minute klines for the last day up until now
klines = client.get_historical_klines("BNBBTC", AsyncClient.KLINE_INTERVAL_1MINUTE, "1 day ago UTC")
# use generator to fetch 1 minute klines for the last day up until now
async for kline in await client.get_historical_klines_generator("BNBBTC", AsyncClient.KLINE_INTERVAL_1MINUTE, "1 day ago UTC"):
print(kline)
# fetch 30 minute klines for the last month of 2017
klines = await client.get_historical_klines("ETHBTC", Client.KLINE_INTERVAL_30MINUTE, "1 Dec, 2017", "1 Jan, 2018")
# fetch weekly klines since it listed
klines = await client.get_historical_klines("NEOBTC", Client.KLINE_INTERVAL_1WEEK, "1 Jan, 2017")
# create order through websockets
order_ws = await client.ws_create_order( symbol="LTCUSDT", side="BUY", type="MARKET", quantity=0.1)
# setup an async context the Depth Cache and exit after 5 messages
async with DepthCacheManager(client, symbol='ETHBTC') as dcm_socket:
for _ in range(5):
depth_cache = await dcm_socket.recv()
print(f"symbol {depth_cache.symbol} updated:{depth_cache.update_time}")
print("Top 5 asks:")
print(depth_cache.get_asks()[:5])
print("Top 5 bids:")
print(depth_cache.get_bids()[:5])
# Vanilla options Depth Cache works the same, update the symbol to a current one
options_symbol = 'BTC-241227-41000-C'
async with OptionsDepthCacheManager(client, symbol=options_symbol) as dcm_socket:
for _ in range(5):
depth_cache = await dcm_socket.recv()
count += 1
print(f"symbol {depth_cache.symbol} updated:{depth_cache.update_time}")
print("Top 5 asks:")
print(depth_cache.get_asks()[:5])
print("Top 5 bids:")
print(depth_cache.get_bids()[:5])
await client.close_connection()
if __name__ == "__main__":
loop = asyncio.get_event_loop()
loop.run_until_complete(main())
The library is under MIT license, that means it's absolutely free for any developer to build commercial and opensource software on top of it, but use it at your own risk with no warranties, as is.
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