A Python framework to build Slack apps in a flash with the latest platform features. Read the getting started guide and look at our code examples to learn how to build apps using Bolt. The Python module documents are available here.
# Python 3.6+ required
python -m venv .venv
source .venv/bin/activate
pip install -U pip
pip install slack_bolt
Create a Bolt for Python app by calling a constructor, which is a top-level export. If you'd prefer, you can create an async app.
import logging
logging.basicConfig(level=logging.DEBUG)
from slack_bolt import App
# export SLACK_SIGNING_SECRET=***
# export SLACK_BOT_TOKEN=xoxb-***
app = App()
# Add functionality here
if __name__ == "__main__":
app.start(3000) # POST http://localhost:3000/slack/events
export SLACK_SIGNING_SECRET=***
export SLACK_BOT_TOKEN=xoxb-***
python app.py
# in another terminal
ngrok http 3000
If you use Socket Mode for running your app, SocketModeHandler
is available for it.
import os
from slack_bolt import App
from slack_bolt.adapter.socket_mode import SocketModeHandler
# Install the Slack app and get xoxb- token in advance
app = App(token=os.environ["SLACK_BOT_TOKEN"])
# Add functionality here
if __name__ == "__main__":
# Create an app-level token with connections:write scope
handler = SocketModeHandler(app, os.environ["SLACK_APP_TOKEN"])
handler.start()
Run the app this way:
export SLACK_APP_TOKEN=xapp-***
export SLACK_BOT_TOKEN=xoxb-***
python app.py
# SLACK_SIGNING_SECRET is not required
# Running ngrok is not required
Apps typically react to a collection of incoming events, which can correspond to Events API events, actions, shortcuts, slash commands or options requests. For each type of request, there's a method to build a listener function.
# Listen for an event from the Events API
app.event(event_type)(fn)
# Convenience method to listen to only `message` events using a string or re.Pattern
app.message([pattern ,])(fn)
# Listen for an action from a Block Kit element (buttons, select menus, date pickers, etc)
app.action(action_id)(fn)
# Listen for dialog submissions
app.action({"callback_id": callbackId})(fn)
# Listen for a global or message shortcuts
app.shortcut(callback_id)(fn)
# Listen for slash commands
app.command(command_name)(fn)
# Listen for view_submission modal events
app.view(callback_id)(fn)
# Listen for options requests (from select menus with an external data source)
app.options(action_id)(fn)
The recommended way to use these methods are decorators:
@app.event(event_type)
def handle_event(event):
pass
Most of the app's functionality will be inside listener functions (the fn
parameters above). These functions are called with a set of arguments, each of which can be used in any order. If you'd like to access arguments off of a single object, you can use args
, an slack_bolt.kwargs_injection.Args
instance that contains all available arguments for that event.
Argument | Description |
---|---|
body |
Dictionary that contains the entire body of the request (superset of payload ). Some accessory data is only available outside of the payload (such as trigger_id and authorizations ). |
payload |
Contents of the incoming event. The payload structure depends on the listener. For example, for an Events API event, payload will be the event type structure. For a block action, it will be the action from within the actions list. The payload dictionary is also accessible via the alias corresponding to the listener (message , event , action , shortcut , view , command , or options ). For example, if you were building a message() listener, you could use the payload and message arguments interchangably. An easy way to understand what's in a payload is to log it. |
context |
Event context. This dictionary contains data about the event and app, such as the botId . Middleware can add additional context before the event is passed to listeners. |
ack |
Function that must be called to acknowledge that your app received the incoming event. ack exists for all actions, shortcuts, view submissions, slash command and options requests. ack returns a promise that resolves when complete. Read more in Acknowledging events. |
respond |
Utility function that responds to incoming events if it contains a response_url (shortcuts, actions, and slash commands). |
say |
Utility function to send a message to the channel associated with the incoming event. This argument is only available when the listener is triggered for events that contain a channel_id (the most common being message events). say accepts simple strings (for plain-text messages) and dictionaries (for messages containing blocks). |
client |
Web API client that uses the token associated with the event. For single-workspace installations, the token is provided to the constructor. For multi-workspace installations, the token is returned by using the OAuth library, or manually using the authorize function. |
logger |
The built-in logging.Logger instance you can use in middleware/listeners. |
If you'd prefer to build your app with asyncio, you can import the AIOHTTP library and call the AsyncApp
constructor. Within async apps, you can use the async/await pattern.
# Python 3.6+ required
python -m venv .venv
source .venv/bin/activate
pip install -U pip
# aiohttp is required
pip install slack_bolt aiohttp
In async apps, all middleware/listeners must be async functions. When calling utility methods (like ack
and say
) within these functions, it's required to use the await
keyword.
# Import the async app instead of the regular one
from slack_bolt.async_app import AsyncApp
app = AsyncApp()
@app.event("app_mention")
async def event_test(body, say, logger):
logger.info(body)
await say("What's up?")
@app.command("/hello-bolt-python")
async def command(ack, body, respond):
await ack()
await respond(f"Hi <@{body['user_id']}>!")
if __name__ == "__main__":
app.start(3000)
If you want to use another async Web framework (e.g., Sanic, FastAPI, Starlette), take a look at the built-in adapters and their examples.
- The Bolt app examples
- The built-in adapters Apps can be run the same way as the syncronous example above. If you'd prefer another async Web framework (e.g., Sanic, FastAPI, Starlette), take a look at the built-in adapters and their corresponding examples.
The documentation has more information on basic and advanced concepts for Bolt for Python. Also, all the Python module documents of this library are available here.
If you otherwise get stuck, we're here to help. The following are the best ways to get assistance working through your issue:
- Issue Tracker for questions, bug reports, feature requests, and general discussion related to Bolt for Python. Try searching for an existing issue before creating a new one.
- Email our developer support team:
[email protected]