High-performance ASGI framework
Project description
Python package documentation
Aeros is an all-in-one ASGI (Asynchronous Server Gateway Interface) package containing wrappers for widely used Web and API functions, as well as custom-written helper functions which make backend development a lot easier and require way less code than a native implementation using the featured packages would.
It is primarily meant to simplify backend server development with Python by bundling APIs for multiple modules, such as quart
, flask-caching
, quart-compress
, uvicorn
and
some more. While you can focus on developing your backend with one streamlined package, Aeros takes care of dependencies and compatibility.
Features
- High-performance web server
- Async request handling
- Supports multi-threading
- Production-grade ASGI (async WSGI)
- In-Python code API
- Native server-side caching
- Native gzip compression
- Easy client-side caching (cache-control header)
- Easy Framework based on Flask/Quart
- Custom global headers (like CORS etc.)
- Colored logging output
- Detailed access logs
Why use Aeros over Flask and Quart?
A detailed overview of pros and cons can be found here:
Feature | Aeros | Flask | Flask + Waitress | Flask + Gunicorn | Quart | Quart + Hypercorn | |
---|---|---|---|---|---|---|---|
In-Python API | |||||||
Easy to use | |||||||
Production-grade | |||||||
Asynchronous | |||||||
Multiple workers | |||||||
Callable from thread | |||||||
Native caching | |||||||
Native compression | |||||||
Native CORS support | |||||||
Cache-Control API |
Parameter & Statistics
Parameter | Recommended | Min | Max |
---|---|---|---|
Worker threads | 8 | 1 | ? |
Concurrent requests | 64 | 1 | ? |
Worker threads | 8 | 1 | ? |
The following graph shows the overall performance improvement since version 1.0.6. The replacement of Aeros backend in version 2.0.0 is clearly visible as a boot in single-thread performance.
The graph below shows the obtained response rates for multiple worker configurations. For most devices, a total of 8 workers and 64 concurrent requests will extract the largest amount of performance from the hardware. Everything above will actually slow the service down, since it has to do a lot of load balancing and negotiation between the workers. When accepting more concurrent requests, the server queues them up for execution by one of the workers, so the more, the better. But, after 64 concurrent requests at once, the server will again have to deal with a lot of load balancing and will eventually loose performance. So a total of 64 concurrent requests is recommended.
Getting started
This basic code snippet should get you ready for more. Remember that routed methods
(the ones that are called on an HTTP endpoint) must be defined with async def
, not def
!
from Aeros import WebServer
from quart import jsonify
app = WebServer(__name__, host="0.0.0.0", port=80)
@app.route("/")
async def home():
return jsonify({"response": "ok"})
if __name__ == '__main__':
app.run_server()
Full Documentation
Using sync methods in async methods
If you need to execute a synchronous method in an HTTP request handler and need to wait for its response, you should use sync_to_async
from asgiref.sync
. This method can also
be imported from Aeros.misc
:
from Aeros.misc import sync_to_async
import time
@sync_to_async
def sync_method():
time.sleep(2)
return "ok"
@app.route("/")
async def home():
status = sync_method()
return jsonify({"response": status})
Starting a server in a separate thread
Quart and Hypercorn don't allow server instances to be started from a non __main__
thread. Aeros however does. This code shows how:
from Aeros import WebServer
from Aeros import AdvancedThread
from threading import Thread
import time
app = WebServer(__name__, host="0.0.0.0", port=80, worker_threads=2)
...
if __name__ == '__main__':
t = AdvancedThread(target=app.run_server, daemon=True)
# OR
t = Thread(target=app.run_server, daemon=True)
t.start()
time.sleep(120)
t.stop() # only available in AdvancedThread, not in Thread
Headers
Adding custom global headers
You can define headers, which will be sent on every response, no matter the response type.
from Aeros import WebServer
app = WebServer(__name__, global_headers={"foo": "bar"})
...
Remove the server
header
The server
header can be removed on initialization:
from Aeros import WebServer
app = WebServer(__name__, include_server_header=False)
...
Caching
By default, WebServer()
has no cache configured. You can choose between multiple cache types to start your server instance with:
Cache Type | Description |
---|---|
SimpleCache() |
Easy to set-up, not very stable with multiple worker threads. |
FilesystemCache() |
Stores every unique request in a separate file in a given directory. |
RedisCache() |
Stores cached objects on a given Redis server. |
Here, the most basic example
from Aeros import WebServer
from asyncio import sleep
from Aeros import SimpleCache
cache = SimpleCache(timeout=10, # Cache objects are deleted after this time [s]
threshold=10 # Only 10 objects are stored in cache
)
app = WebServer(__name__, host="0.0.0.0", port=80, worker_threads=4, cache=cache)
@app.route("/")
@app.route("/<path:path>")
@app.cache()
async def index(path=""):
print(path)
if path != "favicon.ico":
await sleep(5)
return "test"
if __name__ == '__main__':
app.run_server()
Compression
Aeros supports gzip compression, which is enabled by default (for all text-based files >500 bytes, with compression level 2). You can customize these compression settings by default
from Aeros import WebServer, Compress, AdvancedThread
import time
# For more information:
# https://github.com/colour-science/flask-compress
app = WebServer(__name__, host="0.0.0.0", port=80, worker_threads=2, )
app.config["COMPRESS_MIN_SIZE"] = 5 # size in bytes
app.config["COMPRESS_LEVEL"] = 2 # compresses to about 25% of original size
app.config["COMPRESS_MIMETYPES"] = [ # compresses all text-based things
'text/plain',
'text/html',
'text/css',
'text/scss',
'text/xml',
'application/json',
'application/javascript'
]
Compress(app)
@app.route("/")
async def home():
return "testing again..."
if __name__ == '__main__':
t = AdvancedThread(target=app.run_server, daemon=True)
t.start()
time.sleep(120)
t.stop() # only available in AdvancedThread, not in Thread
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.