websockets is a library for building WebSocket servers and clients in Python with a focus on correctness, simplicity, robustness, and performance.
Built on top of asyncio
, Python's standard asynchronous I/O framework, the
default implementation provides an elegant coroutine-based API.
An implementation on top of threading
and a Sans-I/O implementation are also
available.
Documentation is available on Read the Docs.
Here's an echo server with the asyncio
API:
#!/usr/bin/env python
import asyncio
from websockets.server import serve
async def echo(websocket):
async for message in websocket:
await websocket.send(message)
async def main():
async with serve(echo, "localhost", 8765):
await asyncio.get_running_loop().create_future() # run forever
asyncio.run(main())
Here's how a client sends and receives messages with the threading
API:
#!/usr/bin/env python
from websockets.sync.client import connect
def hello():
with connect("ws://localhost:8765") as websocket:
websocket.send("Hello world!")
message = websocket.recv()
print(f"Received: {message}")
hello()
Does that look good?
Get started with the tutorial!
Available as part of the Tidelift Subscription
The maintainers of websockets and thousands of other packages are working with Tidelift to deliver commercial support and maintenance for the open source dependencies you use to build your applications. Save time, reduce risk, and improve code health, while paying the maintainers of the exact dependencies you use. Learn more.
(If you contribute to websockets
and would like to become an official support provider, let me know.)
The development of websockets
is shaped by four principles:
- Correctness:
websockets
is heavily tested for compliance with RFC 6455. Continuous integration fails under 100% branch coverage. - Simplicity: all you need to understand is
msg = await ws.recv()
andawait ws.send(msg)
.websockets
takes care of managing connections so you can focus on your application. - Robustness:
websockets
is built for production. For example, it was the only library to handle backpressure correctly before the issue became widely known in the Python community. - Performance: memory usage is optimized and configurable. A C extension accelerates expensive operations. It's pre-compiled for Linux, macOS and Windows and packaged in the wheel format for each system and Python version.
Documentation is a first class concern in the project. Head over to Read the Docs and see for yourself.
If you prefer callbacks over coroutines:
websockets
was created to provide the best coroutine-based API to manage WebSocket connections in Python. Pick another library for a callback-based API.If you're looking for a mixed HTTP / WebSocket library:
websockets
aims at being an excellent implementation of RFC 6455: The WebSocket Protocol and RFC 7692: Compression Extensions for WebSocket. Its support for HTTP is minimal — just enough for an HTTP health check.If you want to do both in the same server, look at HTTP frameworks that build on top of
websockets
to support WebSocket connections, like Sanic.
Bug reports, patches and suggestions are welcome!
To report a security vulnerability, please use the Tidelift security contact. Tidelift will coordinate the fix and disclosure.
For anything else, please open an issue or send a pull request.
Participants must uphold the Contributor Covenant code of conduct.
websockets
is released under the BSD license.