A cloud first service for key to JWT authentication library and server written in Python 3.
Project description
JWThenticator
A cloud first service for key to JWT authentication library and server written in Python 3.
Intro
JWThenticator was written for client authentication in micro-services architectures with usage of API gateways in mind.
Although there are multiple open-source projects for authenticating users in exchange for JWT (json web token), we couldn't find any project that fit our need for a key based authentication for our clients. This is beneficial for any client authentication and more specifically for IoT.
The service is stateless, Docker first service for cloud authentication, but can generally be used for any key to JWT authentication and in multiple different architectures (see example below).
How To Use
Pip
pip install jwthenticator
To run as a server you can run: python3 -m jwthenticator.server
.
Make sure to configure the proper database to be used via the environment variables exposed in jwthenticator/consts.py file.
By default PostgreSQL is used and a basic local config setup is:
export DB_USER="my-postgres-user"
export DB_PASS="my-postgres-pass"
Note - if RSA keys are not provided (via the environment variables RSA_PUBLIC_KEY
+ RSA_PRIVATE_KEY
or RSA_PUBLIC_KEY_PATH
+ RSA_PRIVATE_KEY_PATH
), a new RSA pair will be generated every time the systems goes up.
Docker
docker pull claroty/jwthenticator
docker run -p 8080:8080 claroty/jwthenticator
A database is needed to be linked or configured to the image.
See examples/docker-compose.yml for a full example, run it using:
cd examples
docker-compose up
From Source
The project uses poetry for dependency management and packaging.
To run from source clone project and:
pip install poetry
poetry install
Documentation
- API documentation - openapi.yaml file (ex Swagger)
- Configurable environment variables - jwthenticator/consts.py
- Code usage examples - Code Examples
- Example architecture - Example Architecture
- Diagrams - docs folder for some UML sequence diagrams and Python diagrams using diagrams
Code Examples
For full examples see the examples folder.
Client
To make it easier to work agains a JWThenticator protected server (either directly or via API gateway), a client class is provided.
The Client
class handles auth state management against JWThenticator. It handles JWthenticator responses for you, performs authentication for you, and JWT refresh when needed.
It exposes a request_with_auth
function (and the simpler get_with_auth
and post_with_auth
) that manages all interactions against the secured service and the JWThenticator itself for you.
Example usage:
from uuid import uuid4
from jwthenticator.client import Client
identifier = uuid4()
client = Client("https://my-jwthenticator-host/", identifier, key="my-awesome-key")
response = await client.get_with_auth("https://my-secure-server/")
Server
Although JWThenticator was designed with an API gateway in mind, it can be used to authenticate server endpoints directly.
For easy usage with an aiohttp Python server you can do the following:
from aiohttp import web
from jwthenticator.server_utils import authenticate
app = web.Application()
@authenticate("https://my-jwthenticator-host/")
async def secure_index(request: web.Request) -> web.Response:
return "Secure hello world!"
app.add_routes([web.get("/", secure_index)])
web.run_app(app)
Example Architecture
A visual example on how JWThenticator is and can be used.
Additional ones can be found in docs folder.
API Gateway Architecture
Generated from docs/api_gateway_architecture_diagram.py
API Gateway REST Sequence Diagram
Generated from docs/api_gateway_flow.diag
How it works
There are 3 key components to JWThenticator:
Keys
Keys that are registered against the service and can then be used for authentication.
All keys are registered to the database, have an expiration time (change default of 30 minutes using the env var KEY_EXPIRY
in seconds), identifier of the registrant and some other metadata stored about them.
The identifier is usefull if a key needs to be linked later to a specific server or route.
Refresh tokens
Since JWTs are short lived and keys should be kept safe, an intermediate method is needed so we don't have a long lived JWTs or use our secret key every 30 minutes (by default). This is where refresh token come into play.
Refresh tokens are received from a successfull authentication and are used for receiving a new JWTs after they expire.
They are recoreded in the database, have an expiration time (change default of 60 days using the env var REFRESH_TOKEN_EXPIRY
in seconds) and some other metadata stored about them.
You can check out jwthenticator/models.py to see what data is stored in the database.
JWTs
The industry standard JWT (RFC 7519). The JWT is used for verification against an API gateway, JWThenticator itself, or any service / code you use for you auth verification.
The JWTs are short lived (as they should be) with a configurable lease time via JWT_LEASE_TIME
env var.
Additionaly, similarly to the keys we use a UUID identifier in the authentication process and store it in the JWT's payload. This is useful for better client identification or smarter k8s routing.
Addtional Features
- All consts can be overriden via environment variables, see jwthenticator/consts.py for the full list.
- Service contains both internal and public routes, the admin / public API's can be disabled by setting the
DISABLE_EXTERNAL_API
orDISABLE_INTERNAL_API
env vars. This is very important when running the service in production environments, you don't want to expose the key registration to the general public :). - The service can be used with any JWT verification service or API gateway using the industry standard JWKS (RFC 7517) via
/jwks
API call. - JWThenticator can be used as an Nginx authentication backend using the
/validate_request
API call. - Some requests require giving a UUID identifier. Even though the service doesn't enforce its verification, it can be used as a mean of identifiying incoming users, smart routing, and later for additional validations.
- All REST API schemas are defined using Python
dataclass
es and validated using marshmallow_dataclass, see schemas.py.
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