Skip to main content

FastStream: the simplest way to work with a messaging queues

Project description

FastStream

Effortless event stream integration for your services


airtai%2Ffaststream | Trendshift

Test Passing Coverage Downloads Package version Supported Python versions
CodeQL Dependency Review License Code of Conduct Discord Telegram
Gurubase


Features

FastStream simplifies the process of writing producers and consumers for message queues, handling all the parsing, networking and documentation generation automatically.

Making streaming microservices has never been easier. Designed with junior developers in mind, FastStream simplifies your work while keeping the door open for more advanced use cases. Here's a look at the core features that make FastStream a go-to framework for modern, data-centric microservices.

  • Multiple Brokers: FastStream provides a unified API to work across multiple message brokers (Kafka, RabbitMQ, NATS, Redis support)

  • Pydantic Validation: Leverage Pydantic's validation capabilities to serialize and validate incoming messages

  • Automatic Docs: Stay ahead with automatic AsyncAPI documentation

  • Intuitive: Full-typed editor support makes your development experience smooth, catching errors before they reach runtime

  • Powerful Dependency Injection System: Manage your service dependencies efficiently with FastStream's built-in DI system

  • Testable: Supports in-memory tests, making your CI/CD pipeline faster and more reliable

  • Extensible: Use extensions for lifespans, custom serialization and middleware

  • Integrations: FastStream is fully compatible with any HTTP framework you want (FastAPI especially)

That's FastStream in a nutshell—easy, efficient, and powerful. Whether you're just starting with streaming microservices or looking to scale, FastStream has got you covered.


Documentation: https://faststream.airt.ai/latest/


History

FastStream is a new package based on the ideas and experiences gained from FastKafka and Propan. By joining our forces, we picked up the best from both packages and created a unified way to write services capable of processing streamed data regardless of the underlying protocol. We'll continue to maintain both packages, but new development will be in this project. If you are starting a new service, this package is the recommended way to do it.


Install

FastStream works on Linux, macOS, Windows and most Unix-style operating systems. You can install it with pip as usual:

pip install faststream[kafka]
# or
pip install faststream[rabbit]
# or
pip install faststream[nats]
# or
pip install faststream[redis]

By default FastStream uses PydanticV2 written in Rust, but you can downgrade it manually, if your platform has no Rust support - FastStream will work correctly with PydanticV1 as well.


Writing app code

FastStream brokers provide convenient function decorators @broker.subscriber and @broker.publisher to allow you to delegate the actual process of:

  • consuming and producing data to Event queues, and

  • decoding and encoding JSON-encoded messages

These decorators make it easy to specify the processing logic for your consumers and producers, allowing you to focus on the core business logic of your application without worrying about the underlying integration.

Also, FastStream uses Pydantic to parse input JSON-encoded data into Python objects, making it easy to work with structured data in your applications, so you can serialize your input messages just using type annotations.

Here is an example Python app using FastStream that consumes data from an incoming data stream and outputs the data to another one:

from faststream import FastStream
from faststream.kafka import KafkaBroker
# from faststream.rabbit import RabbitBroker
# from faststream.nats import NatsBroker
# from faststream.redis import RedisBroker

broker = KafkaBroker("localhost:9092")
# broker = RabbitBroker("amqp://guest:guest@localhost:5672/")
# broker = NatsBroker("nats://localhost:4222/")
# broker = RedisBroker("redis://localhost:6379/")

app = FastStream(broker)

@broker.subscriber("in")
@broker.publisher("out")
async def handle_msg(user: str, user_id: int) -> str:
    return f"User: {user_id} - {user} registered"

Also, Pydantic’s BaseModel class allows you to define messages using a declarative syntax, making it easy to specify the fields and types of your messages.

from pydantic import BaseModel, Field, PositiveInt
from faststream import FastStream
from faststream.kafka import KafkaBroker

broker = KafkaBroker("localhost:9092")
app = FastStream(broker)

class User(BaseModel):
    user: str = Field(..., examples=["John"])
    user_id: PositiveInt = Field(..., examples=["1"])

@broker.subscriber("in")
@broker.publisher("out")
async def handle_msg(data: User) -> str:
    return f"User: {data.user} - {data.user_id} registered"

Testing the service

The service can be tested using the TestBroker context managers, which, by default, puts the Broker into "testing mode".

The Tester will redirect your subscriber and publisher decorated functions to the InMemory brokers, allowing you to quickly test your app without the need for a running broker and all its dependencies.

Using pytest, the test for our service would look like this:

# Code above omitted 👆

import pytest
import pydantic
from faststream.kafka import TestKafkaBroker


@pytest.mark.asyncio
async def test_correct():
    async with TestKafkaBroker(broker) as br:
        await br.publish({
            "user": "John",
            "user_id": 1,
        }, "in")

@pytest.mark.asyncio
async def test_invalid():
    async with TestKafkaBroker(broker) as br:
        with pytest.raises(pydantic.ValidationError):
            await br.publish("wrong message", "in")

Running the application

The application can be started using built-in FastStream CLI command.

Before running the service, install FastStream CLI using the following command:

pip install "faststream[cli]"

To run the service, use the FastStream CLI command and pass the module (in this case, the file where the app implementation is located) and the app symbol to the command.

faststream run basic:app

After running the command, you should see the following output:

INFO     - FastStream app starting...
INFO     - input_data |            - `HandleMsg` waiting for messages
INFO     - FastStream app started successfully! To exit press CTRL+C

Also, FastStream provides you with a great hot reload feature to improve your Development Experience

faststream run basic:app --reload

And multiprocessing horizontal scaling feature as well:

faststream run basic:app --workers 3

You can learn more about CLI features here


Project Documentation

FastStream automatically generates documentation for your project according to the AsyncAPI specification. You can work with both generated artifacts and place a web view of your documentation on resources available to related teams.

The availability of such documentation significantly simplifies the integration of services: you can immediately see what channels and message formats the application works with. And most importantly, it won't cost anything - FastStream has already created the docs for you!

HTML-page


Dependencies

FastStream (thanks to FastDepends) has a dependency management system similar to pytest fixtures and FastAPI Depends at the same time. Function arguments declare which dependencies you want are needed, and a special decorator delivers them from the global Context object.

from faststream import Depends, Logger

async def base_dep(user_id: int) -> bool:
    return True

@broker.subscriber("in-test")
async def base_handler(user: str,
                       logger: Logger,
                       dep: bool = Depends(base_dep)):
    assert dep is True
    logger.info(user)

HTTP Frameworks integrations

Any Framework

You can use FastStream MQBrokers without a FastStream application. Just start and stop them according to your application's lifespan.

from aiohttp import web

from faststream.kafka import KafkaBroker

broker = KafkaBroker("localhost:9092")

@broker.subscriber("test")
async def base_handler(body):
    print(body)

async def start_broker(app):
    await broker.start()

async def stop_broker(app):
    await broker.close()

async def hello(request):
    return web.Response(text="Hello, world")

app = web.Application()
app.add_routes([web.get("/", hello)])
app.on_startup.append(start_broker)
app.on_cleanup.append(stop_broker)

if __name__ == "__main__":
    web.run_app(app)

FastAPI Plugin

Also, FastStream can be used as part of FastAPI.

Just import a StreamRouter you need and declare the message handler with the same @router.subscriber(...) and @router.publisher(...) decorators.

from fastapi import FastAPI
from pydantic import BaseModel

from faststream.kafka.fastapi import KafkaRouter

router = KafkaRouter("localhost:9092")

class Incoming(BaseModel):
    m: dict

@router.subscriber("test")
@router.publisher("response")
async def hello(m: Incoming):
    return {"response": "Hello, world!"}

app = FastAPI()
app.include_router(router)

More integration features can be found here


Stay in touch

Please show your support and stay in touch by:

Your support helps us to stay in touch with you and encourages us to continue developing and improving the framework. Thank you for your support!


Contributors

Thanks to all of these amazing people who made the project better!

Project details


Release history Release notifications | RSS feed

Download files

Download the file for your platform. If you're not sure which to choose, learn more about installing packages.

Source Distribution

faststream-0.5.30.tar.gz (284.5 kB view details)

Uploaded Source

Built Distribution

faststream-0.5.30-py3-none-any.whl (382.0 kB view details)

Uploaded Python 3

File details

Details for the file faststream-0.5.30.tar.gz.

File metadata

  • Download URL: faststream-0.5.30.tar.gz
  • Upload date:
  • Size: 284.5 kB
  • Tags: Source
  • Uploaded using Trusted Publishing? No
  • Uploaded via: twine/5.1.1 CPython/3.12.7

File hashes

Hashes for faststream-0.5.30.tar.gz
Algorithm Hash digest
SHA256 50ad5288719cfa75c13e9c277d40afae62533a590facad6e6d215e868f2b97f4
MD5 6290d2e813b333762aefe408dc989d31
BLAKE2b-256 88d3c2a3e1233274c93a4978cbac210a81ba05cee09e2e0051049b40f55406f1

See more details on using hashes here.

File details

Details for the file faststream-0.5.30-py3-none-any.whl.

File metadata

  • Download URL: faststream-0.5.30-py3-none-any.whl
  • Upload date:
  • Size: 382.0 kB
  • Tags: Python 3
  • Uploaded using Trusted Publishing? No
  • Uploaded via: twine/5.1.1 CPython/3.12.7

File hashes

Hashes for faststream-0.5.30-py3-none-any.whl
Algorithm Hash digest
SHA256 bf48826be99210f3e9c7dff1b2a17b4bc4762c873c5558ac81b9b873549ae6a1
MD5 257abf0f77a3280501b0b60dbac5bdf1
BLAKE2b-256 53cea9eec6c2c9803de6bc2b2a5cac35d56b8908c64fcdd4c73616c1a16c9b90

See more details on using hashes here.

Supported by

AWS AWS Cloud computing and Security Sponsor Datadog Datadog Monitoring Fastly Fastly CDN Google Google Download Analytics Microsoft Microsoft PSF Sponsor Pingdom Pingdom Monitoring Sentry Sentry Error logging StatusPage StatusPage Status page