This FastAPI plugin allow you to automatically format any errors as Problem details described in RFC 9457. This allow rich error responses and consistent errors formatting within a single or multiple APIs.
- Getting Started
- Validation errors handling
- HTTP errors handling
- Unexpected errors handling
- Custom errors handling
- Returning HTTP errors as Problem Details
- Documenting your custom problems details
- Troubleshooting
Install the plugin
pip install fastapi-problem-details
Register the plugin against your FastAPI app
from fastapi import FastAPI
import fastapi_problem_details as problem
app = FastAPI()
problem.init_app(app)
And you're done! (mostly)
At this point any unhandled errors Exception
, validation errors fastapi.exceptions.RequestValidationError
and HTTP errors starlette.exceptions.HTTPException
will be automatically handled and returned as Problem Details objects, for example, an unhandled error will be catched and returned as following JSON:
{
"type": "about:blank",
"title": "Internal Server Error",
"status": 500,
"detail": "Server got itself in trouble"
}
The plugin actaully add custom error handlers for all mentionned kind of errors in order to return proper Problem Details responses. Note however that you can override any of those "default" handlers after initializing the plugin.
Now, let's dig a bit more on what the plugin is actually doing.
Plugin will automatically handle any FastAPI RequestValidationError
and returns a Problem Details response.
from typing import Any
from fastapi import FastAPI
from pydantic import BaseModel
import fastapi_problem_details as problem
app = FastAPI()
problem.init_app(app)
class User(BaseModel):
id: str
name: str
@app.post("/users/")
def create_user(_user: User) -> Any: # noqa: ANN401
pass
Trying to create an user using invalid payload will result in a validation error formatted as a Problem Details response. In particular, it will put the validation errors into an errors
property in returned object.
curl -X POST http://localhost:8000/users/ -d '{}' -H "Content-Type: application/json"
{
"type": "about:blank",
"title": "Unprocessable Entity",
"status": 422,
"detail": "Request validation failed",
"errors": [
{
"type": "missing",
"loc": [
"body",
"id"
],
"msg": "Field required",
"input": {}
},
{
"type": "missing",
"loc": [
"body",
"name"
],
"msg": "Field required",
"input": {}
}
]
}
By default, validation errors will returns a 422 status code (FastAPI default) with a "Request validation failed"
detail message.
However, you can override both of those if you want.
from fastapi import FastAPI, status
import fastapi_problem_details as problem
app = FastAPI()
problem.init_app(app, validation_error_code=status.HTTP_400_BAD_REQUEST, validation_error_detail="Invalid payload!")
Any FastAPI or starlette HTTPException
raised during a request will be automatically catched and formatted as a Problem details response.
from typing import Any
from fastapi import FastAPI, HTTPException, status
import fastapi_problem_details as problem
app = FastAPI()
problem.init_app(app)
@app.get("/")
def raise_error() -> Any: # noqa: ANN401
raise HTTPException(status_code=status.HTTP_401_UNAUTHORIZED)
Requesting this endpoint will get you the following response
curl http://localhost:8000/
{
"type":"about:blank",
"title":"Unauthorized",
"status":401,
"detail":"No permission -- see authorization schemes",
}
The title
property is the official phrase corresponding to the HTTP status code.
The detail
property is filled with the one passed to the raised HTTPException
and defaults to the description of the HTTP status code http.HTTPStatus(status).description
if not provided.
Note that
headers
passed to theHTTPException
will be returned as well.
Requests against non existing routes of your API also raise 404 HTTPException
. The key difference is in the detail
property message. This is pretty handy for clients to distinguish between a resource not found (e.g: trying to get an user which does not exist) and a route not existing
curl -X POST http://localhost:8000/not-exist
{
"type": "about:blank",
"title": "Not Found",
"status": 404,
"detail": "Nothing matches the given URI",
}
Any unexpected errors raised during processing of a request will be automatically handled by the plugin which will returns an internal server error formatted as a Problem Details.
Also note that the exception will be logged as well using logger named
fastapi_problem_details.error_handlers
from typing import Any
from fastapi import FastAPI
import fastapi_problem_details as problem
app = FastAPI()
problem.init_app(app)
class CustomError(Exception):
pass
@app.get("/")
def raise_error() -> Any: # noqa: ANN401
raise CustomError("Something went wrong...")
$ curl http://localhost:8000
{
"type": "about:blank",
"title": "Internal Server Error",
"status": 500,
"detail": "Server got itself in trouble",
}
During development, it can sometimes be useful to include in your HTTP responses the type and stack trace of unhandled errors for easier debugging.
problem.init_app(app, include_exc_info_in_response=True)
Doing so will enrich Problem Details response with exception type exc_type
(str
) and stack trace exc_stack
(list[str]
)
$ curl http://localhost:8000
{
"type": "about:blank",
"title": "Internal Server Error",
"status": 500,
"detail": "Server got itself in trouble",
"exc_type": "snippet.CustomError",
"exc_stack": [
"Traceback (most recent call last):\n",
" File \"/Users/gody/Development/OpenSource/fastapi-problem-details/.venv/lib/python3.11/site-packages/starlette/middleware/errors.py\", line 164, in __call__\n await self.app(scope, receive, _send)\n",
" File \"/Users/gody/Development/OpenSource/fastapi-problem-details/.venv/lib/python3.11/site-packages/starlette/middleware/exceptions.py\", line 65, in __call__\n await wrap_app_handling_exceptions(self.app, conn)(scope, receive, send)\n",
" File \"/Users/gody/Development/OpenSource/fastapi-problem-details/.venv/lib/python3.11/site-packages/starlette/_exception_handler.py\", line 64, in wrapped_app\n raise exc\n",
" File \"/Users/gody/Development/OpenSource/fastapi-problem-details/.venv/lib/python3.11/site-packages/starlette/_exception_handler.py\", line 53, in wrapped_app\n await app(scope, receive, sender)\n",
" File \"/Users/gody/Development/OpenSource/fastapi-problem-details/.venv/lib/python3.11/site-packages/starlette/routing.py\", line 756, in __call__\n await self.middleware_stack(scope, receive, send)\n",
" File \"/Users/gody/Development/OpenSource/fastapi-problem-details/.venv/lib/python3.11/site-packages/starlette/routing.py\", line 776, in app\n await route.handle(scope, receive, send)\n",
" File \"/Users/gody/Development/OpenSource/fastapi-problem-details/.venv/lib/python3.11/site-packages/starlette/routing.py\", line 297, in handle\n await self.app(scope, receive, send)\n",
" File \"/Users/gody/Development/OpenSource/fastapi-problem-details/.venv/lib/python3.11/site-packages/starlette/routing.py\", line 77, in app\n await wrap_app_handling_exceptions(app, request)(scope, receive, send)\n",
" File \"/Users/gody/Development/OpenSource/fastapi-problem-details/.venv/lib/python3.11/site-packages/starlette/_exception_handler.py\", line 64, in wrapped_app\n raise exc\n",
" File \"/Users/gody/Development/OpenSource/fastapi-problem-details/.venv/lib/python3.11/site-packages/starlette/_exception_handler.py\", line 53, in wrapped_app\n await app(scope, receive, sender)\n",
" File \"/Users/gody/Development/OpenSource/fastapi-problem-details/.venv/lib/python3.11/site-packages/starlette/routing.py\", line 72, in app\n response = await func(request)\n ^^^^^^^^^^^^^^^^^^^\n",
" File \"/Users/gody/Development/OpenSource/fastapi-problem-details/.venv/lib/python3.11/site-packages/fastapi/routing.py\", line 278, in app\n raw_response = await run_endpoint_function(\n ^^^^^^^^^^^^^^^^^^^^^^^^^^^^\n",
" File \"/Users/gody/Development/OpenSource/fastapi-problem-details/.venv/lib/python3.11/site-packages/fastapi/routing.py\", line 193, in run_endpoint_function\n return await run_in_threadpool(dependant.call, **values)\n ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^\n",
" File \"/Users/gody/Development/OpenSource/fastapi-problem-details/.venv/lib/python3.11/site-packages/starlette/concurrency.py\", line 42, in run_in_threadpool\n return await anyio.to_thread.run_sync(func, *args)\n ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^\n",
" File \"/Users/gody/Development/OpenSource/fastapi-problem-details/.venv/lib/python3.11/site-packages/anyio/to_thread.py\", line 56, in run_sync\n return await get_async_backend().run_sync_in_worker_thread(\n ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^\n",
" File \"/Users/gody/Development/OpenSource/fastapi-problem-details/.venv/lib/python3.11/site-packages/anyio/_backends/_asyncio.py\", line 2177, in run_sync_in_worker_thread\n return await future\n ^^^^^^^^^^^^\n",
" File \"/Users/gody/Development/OpenSource/fastapi-problem-details/.venv/lib/python3.11/site-packages/anyio/_backends/_asyncio.py\", line 859, in run\n result = context.run(func, *args)\n ^^^^^^^^^^^^^^^^^^^^^^^^\n",
" File \"/Users/gody/Development/OpenSource/fastapi-problem-details/snippet.py\", line 22, in raise_error\n return raise_some_error()\n ^^^^^^^^^^^^^^^^^^\n",
" File \"/Users/gody/Development/OpenSource/fastapi-problem-details/snippet.py\", line 17, in raise_some_error\n raise CustomError\n",
"snippet.CustomError\n"
]
}
⚠️ This feature is expected to be used only for development purposes. You should not enable this on production because it can leak sensitive internal information. Use it at your own risk.
To handle specific errors in your API you can simply register custom error handlers (see FastAPI documentation) and returns ProblemResponse
object.
from typing import Any
from fastapi import FastAPI, Request, status
import fastapi_problem_details as problem
from fastapi_problem_details import ProblemResponse
app = FastAPI()
problem.init_app(app)
class UserNotFoundError(Exception):
def __init__(self, user_id: str) -> None:
super().__init__(f"There is no user with id {user_id!r}")
self.user_id = user_id
@app.exception_handler(UserNotFoundError)
async def handle_user_not_found_error(
_: Request, exc: UserNotFoundError
) -> ProblemResponse:
return ProblemResponse(
status=status.HTTP_404_NOT_FOUND,
type="/problems/user-not-found",
title="User Not Found",
detail=str(exc),
user_id=exc.user_id,
)
@app.get("/users/{user_id}")
def get_user(user_id: str) -> Any: # noqa: ANN401
raise UserNotFoundError(user_id)
Requesting an user will get you following problem details
$ curl http://localhost:8000/users/1234
{
"type":"/problems/user-not-found",
"title":"User Not Found",
"status":404,
"detail":"There is no user with id '1234'",
"user_id":"1234"
}
Note that in this example I've provided a custom type
property but this might not be necessary for this use case. Basically, you should only use specific type and title when your error goes beyond the original meaning of the HTTP status code. See the RFC for more details.
Likewise, truly generic problems -- i.e., conditions that might apply to any resource on the Web -- are usually better expressed as plain status codes. For example, a "write access disallowed" problem is probably unnecessary, since a 403 Forbidden status code in response to a PUT request is self-explanatory.
Also note that you can include additional properties to the ProblemResponse
object like headers
or instance
. Any extra properties will be added as-is in the returned Problem Details object (like the user_id
in this example).
Last but not least, any null
values are stripped from returned Problem Details object.
As shown in previous sections, any HTTPException
raised during a request cause the API to respond with a well formatted Problem Details object. However, what if we want to raise a HTTPException
but with extra properties or Problem Details specific properties?
In that case you can instead raise a ProblemException
exception.
from typing import Any
from fastapi import FastAPI, status
import fastapi_problem_details as problem
from fastapi_problem_details import ProblemException
app = FastAPI()
problem.init_app(app)
@app.get("/")
def raise_error() -> Any: # noqa: ANN401
raise ProblemException(
status=status.HTTP_503_SERVICE_UNAVAILABLE,
detail="One or several internal services are not working properly",
service_1="down",
service_2="up",
headers={"Retry-After": "30"},
)
curl http://localhost:8000 -v
* Trying [::1]:8000...
* connect to ::1 port 8000 failed: Connection refused
* Trying 127.0.0.1:8000...
* Connected to localhost (127.0.0.1) port 8000
> GET / HTTP/1.1
> Host: localhost:8000
> User-Agent: curl/8.4.0
> Accept: */*
>
< HTTP/1.1 503 Service Unavailable
< date: Tue, 30 Jul 2024 14:10:02 GMT
< server: uvicorn
< retry-after: 30
< content-length: 186
< content-type: application/problem+json
<
* Connection #0 to host localhost left intact
{
"type":"about:blank",
"title":"Service Unavailable",
"status":503,
"detail":"One or several internal services are not working properly",
"service_1":"down",
"service_2":"up"
}
The ProblemException
exception takes almost same arguments as a ProblemResponse
.
If you start having to raise almost the same ProblemException
in several places of your code (for example when you validate a requester permissions) you have two ways to avoid copy-pasting the same object in many places of your code
Simply create your own subclass of ProblemException
from fastapi import status
from fastapi_problem_details.models import ProblemException
class UserPermissionError(ProblemException):
def __init__(
self,
user_id: str,
headers: dict[str, str] | None = None,
) -> None:
super().__init__(
status=status.HTTP_403_FORBIDDEN,
detail=f"User {user_id} is not allowed to perform this operation",
headers=headers,
user_id=user_id,
)
def do_something_meaningful(user_id: str):
raise UserPermissionError(user_id)
The advantage of this solution is that its rather simple and straightforward. You do not have anything else to do to properly returns Problem Details responses.
The main issue of this is that it can cause your code to cross boundaries. If you start to use ProblemException
into your domain logic, you couple your core code with your HTTP API. If you decide to build a CLI and/or and event based application using the same core logic, you'll end up with uncomfortable problem exception and status code which has no meaning here.
The other approach is to only use custom exceptions in your code and add custom error handlers in your FastAPI app to properly map your core errors with Problem Details.
from typing import Any
from fastapi import FastAPI, Request, status
import fastapi_problem_details as problem
from fastapi_problem_details import ProblemResponse
app = FastAPI()
problem.init_app(app)
class UserNotFoundError(Exception):
def __init__(self, user_id: str) -> None:
super().__init__(f"There is no user with id {user_id!r}")
self.user_id = user_id
@app.exception_handler(UserNotFoundError)
async def handle_user_not_found_error(
_: Request, exc: UserNotFoundError
) -> ProblemResponse:
return ProblemResponse(
status=status.HTTP_404_NOT_FOUND,
type="/problems/user-not-found",
title="User Not Found",
detail=str(exc),
user_id=exc.user_id,
)
@app.get("/users/{user_id}")
def get_user(user_id: str) -> Any: # noqa: ANN401
raise get_user_by_id(user_id)
# somewhere else, in a repository.py file for example or dao.py
db: dict[str, dict[str, Any]] = {}
def get_user_by_id(user_id: str):
if user_id not in db:
raise UserNotFoundError(user_id)
The biggest advantage of this solution is that you decouple your core code from your FastAPI app. You can define regular Python exceptions whatever you want and just do the conversion for your API in your custom error handler(s).
The disadvantage obviously is that it requires you to write more code. Its a question of balance.
Considering the two previous mechanisms, the way which worked best for me is to do the following:
- When I raise errors in my core (domain code, business logic) I use dedicated exceptions, unrelated to HTTP nor APIs, and I add a custom error handler to my FastAPI app to handle and returns a ProblemResponse`.
- When I want to raise an error directly in one of my API controller (i.e: a FastAPI route) I simply raise a
ProblemException
. If I'm raising same problem exception in several places I create a subclass of problem exception and put in my defaults and raise that error instead.
When registering problem details against your FastAPI app, it adds a default
openapi response to all routes with the Problem Details schema. This might be enough in most cases but if you want to explicit additional problem details responses for specific status code or document additional properties you can register your Problem Details.
from typing import Any, Literal
from fastapi import FastAPI, Request, status
import fastapi_problem_details as problem
from fastapi_problem_details import ProblemResponse
app = FastAPI()
problem.init_app(app)
class UserNotFoundProblem(problem.Problem):
status: Literal[404]
user_id: str
class UserNotFoundError(Exception):
def __init__(self, user_id: str) -> None:
super().__init__(f"There is no user with id {user_id!r}")
self.user_id = user_id
@app.exception_handler(UserNotFoundError)
async def handle_user_not_found_error(
_: Request, exc: UserNotFoundError
) -> ProblemResponse:
return ProblemResponse.from_exception(
exc,
status=status.HTTP_404_NOT_FOUND,
detail=f"User {exc.user_id} not found",
user_id=exc.user_id,
)
@app.get("/users/{user_id}", responses={404: {"model": UserNotFoundProblem}})
def get_user(user_id: str) -> Any: # noqa: ANN401
raise UserNotFoundError(user_id)
Note that this has limitation. Indeed, the UserNotFoundProblem
class just act as a model schema for openapi documentation. You actually not instantiate this class and no validation is performed when returning the problem response. It means that the error handler can returns something which does not match a UserNotFoundProblem
.
This is because of the way FastAPI manages errors. At the moment, there is no way to register error handler and its response schema in the same place and there is no mechanism to ensure both are synced.
If you use APIRouter
from FastAPI to bind your routes and then include routers in your main API you must initializes the problem details error handlers BEFORE including the routers if you want your routes to have their OpenAPI responses documented with the default
problem details response.
from fastapi import APIRouter, FastAPI
import fastapi_problem_details as problem
app = FastAPI()
v1 = APIRouter(prefix="/v1")
# THIS DOES NOT WORK
app.include_router(v1)
problem.init_app(app)
# Instead, init problem errors handlers first
problem.init_app(app)
app.include_router(v1)