Sticker is a powerful yet boilerplate-free alternative to writing your web API.
Project description
Write boilerplate-free Python functions and use them as your API handlers. Sticker allows you to choose Flask, bottle.py, Sanic, or Tornado as your application runtime.
Highlights:
Community created and maintained
Support for OpenAPI 3.0
Multi-framework support: Flask, bottle.py, Sanic, and Tornado
Support for pure Python handlers (no boilerplate code)
It’s Easy to Write
You need a little bit of Python.
def say_hello(params):
return {"contents": "Hello World!"}
Plus bits of your API description.
openapi: "3.0.0"
paths:
/:
get:
operationId: hello.say_hello
Now the fun part, you choose which web framework you want to use.
Run with Flask:
from sticker import FlaskAPI
api = FlaskAPI('hello.yml')
api.get_app(__name__).run()
Run with Bottle.py:
from sticker import BottleAPI
api = BottleAPI('hello.yml')
api.run()
Run with Sanic:
from sticker import SanicAPI
api = SanicAPI('hello.yml')
api.get_app(__name__).run()
Run with Tornado:
from sticker import TornadoAPI
import tornado.ioloop
api = TornadoAPI('hello.yml')
api.get_app().listen(8888)
tornado.ioloop.IOLoop.current().start()
The framework setup, validation, types conversion, and mocking is handled at runtime by Sticker.
✨
Installation
Sticker is published at PyPI, so you can use pip to install:
$ pip install sticker
Requirements
Sticker was developed for Python >=3.6 and OpenAPI 3.0. Support for Python 2.7 is not present nor planned for this project.
Documentation
Sticker is a flexible metaframework for Web API development and execution. The OpenAPI 3.0 standard is used as description format for Sticker powered APIs. You provide the API specification and choose one of the Sticker’s runtimes to have a webserver up and running.
In this document we will describe a few different ways to write code that works well with Sticker.
Pure Python Handlers
Sticker supports the use of pure Python functions as handlers. Your code will be free of any framework specific boilerplate code, including Sticker’s itself. This allows you to swap between different frameworks as you wish. Sticker will take care of putting together your code, your API, and the framework you choose.
def myhandler(params):
return {
"content": f"Hello {params.get("name", "World")}!",
"status": 200
}
Writing tests for pure Python handles is easy and also free of boilerplate code.
def test_myhandler():
params = {
"name": "John Doe"
}
response = myhandler(params)
assert response["content"] == "Hello John Doe!"
As you could see in the example above, no imports from Sticker were necessary to define the API handler function. This is only possible because Sticker expects your handlers to follow a code convention.
Anatomy Of An API Handler Function
Write this part.
Responses
API handlers are expected to return a Python dictionary (dict) object. The returned dictionary defines how a response will look like. All keys in the dictionary are optional. The expected keys are described in the table bellow.
Key |
Type |
Description |
---|---|---|
content |
str |
Body of HTTP request. No treatment/parsing of this value is done. The value is passed directly to the chosen framework. |
json |
Union[dict, List[dict]] |
JSON value to be used in the body of the request. This is a shortcut to having the header “Content-Type: application/json” and serializing this value using the most common way done by the chosen framework. |
file |
Union[IO[AnyStr], str] |
Data to be returned as byte stream. This is a shortcut for having the header “Content-Type: application/octet-stream”. Uses the most common way to stream files with the chosen framework. |
redirect |
str |
The path or full URL to be redirected. This is a shortcut for having the header “Location:” with HTTP status 301. |
status |
int |
The HTTP status code to be used in the response. This value overrides any shortcut default status code. |
headers |
Dict[str, str] |
The HTTP headers to be used in the response. This value is merged with the shortcut values with priority. |
We have exposed here some examples of using different configurations of the dict we’ve defined above to describe the HTTP response of API handlers. The actual HTTP response value generated will vary depending on the framework chosen as runtime. The examples are a minimal illustration of what to expect to be the HTTP response.
The “content” key can be used when it’s desired to return a “Hello world!” string with status 200.
def say_hello(params):
return {"content": "Hello world!"}
Results in the HTTP response similar to:
HTTP/1.1 200 OK
Content-Type: text/plain
Hello world!
The “json” key can be used when desired to return an JSON response with status 201.
def create(params):
data = {
"id": "uhHuehuE",
"value": "something"
}
return {"json": data, "status": 201}
The HTTP response generated will be similar to:
HTTP/1.1 201 Created
Content-Type: application/json
{"id":"uhHuehuE","value":"something"}
The “file” key is used to return file contents.
def homepage(params):
return {
"file": open('templates/home.html', 'r'),
"headers": {
"Content-Type": "text/html"
}
}
The HTTP response will be similar to:
HTTP/1.1 200 OK
Content-Type: text/html
<html><title>My homepage</title><body><h1>Welcome!</h1></body></html>
When necessary to redirect request, the “redirect” key can be used.
def old_endpoint(params):
return {'redirect': '/new-path'}
The HTTP response will be similar to:
HTTP/1.1 301 Moved Permanently
Location: https://example.com/new-path
The usage of keys “status” and “headers” were shown in the previous examples. The “status” and “headers” keys, when set, override the values set by default when using the shortcut keys (“json”, “file”, and “redirect”).
Error Handling
Sticker expects you to define the error format to be returned by your API. A error handler is configurable, and called every time validation for the endpoint fails.
def error_handler(error):
return {
"content": {
"error": error["message"]
},
"headers": {
"Content-Type": "application/json"
},
"status_code": 400
}
Contributing
Sticker is developed under the Apache 2.0 license and is publicly available to everyone. We are happy to accept contributions.
How to Contribute
Check for open issues or open a fresh issue to start a discussion around a feature idea or a bug. There is a Good First Issue tag for issues that should be ideal for people who are not very familiar with the codebase yet.
Fork the repository on GitHub to start making your changes to the master branch (or branch off of it).
Write a test which shows that the bug was fixed or that the feature works as expected.
Send a pull request and bug the maintainer until it gets merged and published. :) Make sure to add yourself to AUTHORS.
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