Metadata-Version: 2.1
Name: odoo-addon-fastapi
Version: 18.0.1.3.2.3
Requires-Python: >=3.10
Requires-Dist: a2wsgi>=1.10.6
Requires-Dist: fastapi>=0.110.0
Requires-Dist: odoo-addon-endpoint_route_handler==18.0.*
Requires-Dist: odoo==18.0.*
Requires-Dist: parse-accept-language
Requires-Dist: python-multipart
Requires-Dist: ujson
Summary: Odoo FastAPI endpoint
Home-page: https://github.com/OCA/rest-framework
License: LGPL-3
Author: ACSONE SA/NV,Odoo Community Association (OCA)
Author-email: support@odoo-community.org
Classifier: Programming Language :: Python
Classifier: Framework :: Odoo
Classifier: Framework :: Odoo :: 18.0
Classifier: License :: OSI Approved :: GNU Lesser General Public License v3 (LGPLv3)
Classifier: Development Status :: 4 - Beta
Description-Content-Type: text/x-rst

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============
Odoo FastAPI
============

.. 
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This addon provides the basis to smoothly integrate the
`FastAPI <https://fastapi.tiangolo.com/>`__ framework into Odoo.

This integration allows you to use all the goodies from
`FastAPI <https://fastapi.tiangolo.com/>`__ to build custom APIs for
your Odoo server based on standard Python type hints.

**What is building an API?**

An API is a set of functions that can be called from the outside world.
The goal of an API is to provide a way to interact with your application
from the outside world without having to know how it works internally. A
common mistake when you are building an API is to expose all the
internal functions of your application and therefore create a tight
coupling between the outside world and your internal datamodel and
business logic. This is not a good idea because it makes it very hard to
change your internal datamodel and business logic without breaking the
outside world.

When you are building an API, you define a contract between the outside
world and your application. This contract is defined by the functions
that you expose and the parameters that you accept. This contract is the
API. When you change your internal datamodel and business logic, you can
still keep the same API contract and therefore you don't break the
outside world. Even if you change your implementation, as long as you
keep the same API contract, the outside world will still work. This is
the beauty of an API and this is why it is so important to design a good
API.

A good API is designed to be stable and to be easy to use. It's designed
to provide high-level functions related to a specific use case. It's
designed to be easy to use by hiding the complexity of the internal
datamodel and business logic. A common mistake when you are building an
API is to expose all the internal functions of your application and let
the oustide world deal with the complexity of your internal datamodel
and business logic. Don't forget that on a transactional point of view,
each call to an API function is a transaction. This means that if a
specific use case requires multiple calls to your API, you should
provide a single function that does all the work in a single
transaction. This why APIs methods are called high-level and atomic
functions.

**Table of contents**

.. contents::
   :local:

Usage
=====

What's building an API with fastapi?
------------------------------------

FastAPI is a modern, fast (high-performance), web framework for building
APIs with Python 3.7+ based on standard Python type hints. This addons
let's you keep advantage of the fastapi framework and use it with Odoo.

Before you start, we must define some terms:

- **App**: A FastAPI app is a collection of routes, dependencies, and
  other components that can be used to build a web application.
- **Router**: A router is a collection of routes that can be mounted in
  an app.
- **Route**: A route is a mapping between an HTTP method and a path, and
  defines what should happen when the user requests that path.
- **Dependency**: A dependency is a callable that can be used to get
  some information from the user request, or to perform some actions
  before the request handler is called.
- **Request**: A request is an object that contains all the information
  sent by the user's browser as part of an HTTP request.
- **Response**: A response is an object that contains all the
  information that the user's browser needs to build the result page.
- **Handler**: A handler is a function that takes a request and returns
  a response.
- **Middleware**: A middleware is a function that takes a request and a
  handler, and returns a response.

The FastAPI framework is based on the following principles:

- **Fast**: Very high performance, on par with NodeJS and Go (thanks to
  Starlette and Pydantic). [One of the fastest Python frameworks
  available]
- **Fast to code**: Increase the speed to develop features by about 200%
  to 300%.
- **Fewer bugs**: Reduce about 40% of human (developer) induced errors.
- **Intuitive**: Great editor support. Completion everywhere. Less time
  debugging.
- **Easy**: Designed to be easy to use and learn. Less time reading
  docs.
- **Short**: Minimize code duplication. Multiple features from each
  parameter declaration. Fewer bugs.
- **Robust**: Get production-ready code. With automatic interactive
  documentation.
- **Standards-based**: Based on (and fully compatible with) the open
  standards for APIs: OpenAPI (previously known as Swagger) and JSON
  Schema.
- **Open Source**: FastAPI is fully open-source, under the MIT license.

The first step is to install the fastapi addon. You can do it with the
following command:

   $ pip install odoo-addon-fastapi

Once the addon is installed, you can start building your API. The first
thing you need to do is to create a new addon that depends on 'fastapi'.
For example, let's create an addon called *my_demo_api*.

Then, you need to declare your app by defining a model that inherits
from 'fastapi.endpoint' and add your app name into the app field. For
example:

.. code:: python

   from odoo import fields, models

   class FastapiEndpoint(models.Model):

       _inherit = "fastapi.endpoint"

       app: str = fields.Selection(
           selection_add=[("demo", "Demo Endpoint")], ondelete={"demo": "cascade"}
       )

The **'fastapi.endpoint'** model is the base model for all the
endpoints. An endpoint instance is the mount point for a fastapi app
into Odoo. When you create a new endpoint, you can define the app that
you want to mount in the **'app'** field and the path where you want to
mount it in the **'path'** field.

figure:: static/description/endpoint_create.png

   FastAPI Endpoint

Thanks to the **'fastapi.endpoint'** model, you can create as many
endpoints as you want and mount as many apps as you want in each
endpoint. The endpoint is also the place where you can define
configuration parameters for your app. A typical example is the
authentication method that you want to use for your app when accessed at
the endpoint path.

Now, you can create your first router. For that, you need to define a
global variable into your fastapi_endpoint module called for example
'demo_api_router'

.. code:: python

   from fastapi import APIRouter
   from odoo import fields, models

   class FastapiEndpoint(models.Model):

       _inherit = "fastapi.endpoint"

       app: str = fields.Selection(
           selection_add=[("demo", "Demo Endpoint")], ondelete={"demo": "cascade"}
       )

   # create a router
   demo_api_router = APIRouter()

To make your router available to your app, you need to add it to the
list of routers returned by the **\_get_fastapi_routers** method of your
fastapi_endpoint model.

.. code:: python

   from fastapi import APIRouter
   from odoo import api, fields, models

   class FastapiEndpoint(models.Model):

       _inherit = "fastapi.endpoint"

       app: str = fields.Selection(
           selection_add=[("demo", "Demo Endpoint")], ondelete={"demo": "cascade"}
       )

       def _get_fastapi_routers(self):
           if self.app == "demo":
               return [demo_api_router]
           return super()._get_fastapi_routers()

   # create a router
   demo_api_router = APIRouter()

Now, you can start adding routes to your router. For example, let's add
a route that returns a list of partners.

.. code:: python

   from typing import Annotated

   from fastapi import APIRouter
   from pydantic import BaseModel

   from odoo import api, fields, models
   from odoo.api import Environment

   from odoo.addons.fastapi.dependencies import odoo_env

   class FastapiEndpoint(models.Model):

       _inherit = "fastapi.endpoint"

       app: str = fields.Selection(
           selection_add=[("demo", "Demo Endpoint")], ondelete={"demo": "cascade"}
       )

       def _get_fastapi_routers(self):
           if self.app == "demo":
               return [demo_api_router]
           return super()._get_fastapi_routers()

   # create a router
   demo_api_router = APIRouter()

   class PartnerInfo(BaseModel):
       name: str
       email: str

   @demo_api_router.get("/partners", response_model=list[PartnerInfo])
   def get_partners(env: Annotated[Environment, Depends(odoo_env)]) -> list[PartnerInfo]:
       return [
           PartnerInfo(name=partner.name, email=partner.email)
           for partner in env["res.partner"].search([])
       ]

Now, you can start your Odoo server, install your addon and create a new
endpoint instance for your app. Once it's done click on the docs url to
access the interactive documentation of your app.

Before trying to test your app, you need to define on the endpoint
instance the user that will be used to run the app. You can do it by
setting the **'user_id'** field. This information is the most important
one because it's the basis for the security of your app. The user that
you define in the endpoint instance will be used to run the app and to
access the database. This means that the user will be able to access all
the data that he has access to in Odoo. To ensure the security of your
app, you should create a new user that will be used only to run your app
and that will have no access to the database.

.. code:: xml

   <record
         id="my_demo_app_user"
         model="res.users"
         context="{'no_reset_password': True, 'no_reset_password': True}"
     >
     <field name="name">My Demo Endpoint User</field>
     <field name="login">my_demo_app_user</field>
     <field name="groups_id" eval="[(6, 0, [])]" />
   </record>

At the same time you should create a new group that will be used to
define the access rights of the user that will run your app. This group
should imply the predefined group **'FastAPI Endpoint Runner'**. This
group defines the minimum access rights that the user needs to:

- access the endpoint instance it belongs to
- access to its own user record
- access to the partner record that is linked to its user record

.. code:: xml

   <record id="my_demo_app_group" model="res.groups">
     <field name="name">My Demo Endpoint Group</field>
     <field name="users" eval="[(4, ref('my_demo_app_user'))]" />
     <field name="implied_ids" eval="[(4, ref('fastapi.group_fastapi_endpoint_runner'))]" />
   </record>

Now, you can test your app. You can do it by clicking on the 'Try it
out' button of the route that you have defined. The result of the
request will be displayed in the 'Response' section and contains the
list of partners.

Note

The **'FastAPI Endpoint Runner'** group ensures that the user cannot
access any information others than the 3 ones mentioned above. This
means that for every information that you want to access from your app,
you need to create the proper ACLs and record rules. (see `Managing
security into the route
handlers <#managing-security-into-the-route-handlers>`__) It's a good
practice to use a dedicated user into a specific group from the
beginning of your project and in your tests. This will force you to
define the proper security rules for your endoints.

Dealing with the odoo environment
---------------------------------

The **'odoo.addons.fastapi.dependencies'** module provides a set of
functions that you can use to inject reusable dependencies into your
routes. For example, the **'odoo_env'** function returns the current
odoo environment. You can use it to access the odoo models and the
database from your route handlers.

.. code:: python

   from typing import Annotated

   from odoo.api import Environment
   from odoo.addons.fastapi.dependencies import odoo_env

   @demo_api_router.get("/partners", response_model=list[PartnerInfo])
   def get_partners(env: Annotated[Environment, Depends(odoo_env)]) -> list[PartnerInfo]:
       return [
           PartnerInfo(name=partner.name, email=partner.email)
           for partner in env["res.partner"].search([])
       ]

As you can see, you can use the **'Depends'** function to inject the
dependency into your route handler. The **'Depends'** function is
provided by the **'fastapi'** framework. You can use it to inject any
dependency into your route handler. As your handler is a python
function, the only way to get access to the odoo environment is to
inject it as a dependency. The fastapi addon provides a set of function
that can be used as dependencies:

- **'odoo_env'**: Returns the current odoo environment.
- **'fastapi_endpoint'**: Returns the current fastapi endpoint model
  instance.
- **'authenticated_partner'**: Returns the authenticated partner.
- **'authenticated_partner_env'**: Returns the current odoo environment
  with the authenticated_partner_id into the context.

By default, the **'odoo_env'** and **'fastapi_endpoint'** dependencies
are available without extra work.

Note

Even if 'odoo_env' and 'authenticated_partner_env' returns the current
odoo environment, they are not the same. The 'odoo_env' dependency
returns the environment without any modification while the
'authenticated_partner_env' adds the authenticated partner id into the
context of the environment. As it will be explained in the section
`Managing security into the route
handlers <#managing-security-into-the-route-handlers>`__ dedicated to
the security, the presence of the authenticated partner id into the
context is the key information that will allow you to enforce the
security of your endpoint methods. As consequence, you should always use
the 'authenticated_partner_env' dependency instead of the 'odoo_env'
dependency for all the methods that are not public.

The dependency injection mechanism
----------------------------------

The **'odoo_env'** dependency relies on a simple implementation that
retrieves the current odoo environment from ContextVar variable
initialized at the start of the request processing by the specific
request dispatcher processing the fastapi requests.

The **'fastapi_endpoint'** dependency relies on the
'dependency_overrides' mechanism provided by the **'fastapi'** module.
(see the fastapi documentation for more details about the
dependency_overrides mechanism). If you take a look at the current
implementation of the **'fastapi_endpoint'** dependency, you will see
that the method depends of two parameters: **'endpoint_id'** and
**'env'**. Each of these parameters are dependencies themselves.

.. code:: python

   def fastapi_endpoint_id() -> int:
       """This method is overriden by default to make the fastapi.endpoint record
       available for your endpoint method. To get the fastapi.endpoint record
       in your method, you just need to add a dependency on the fastapi_endpoint method
       defined below
       """


   def fastapi_endpoint(
       _id: Annotated[int, Depends(fastapi_endpoint_id)],
       env: Annotated[Environment, Depends(odoo_env)],
   ) -> "FastapiEndpoint":
       """Return the fastapi.endpoint record"""
       return env["fastapi.endpoint"].browse(_id)

As you can see, one of these dependencies is the
**'fastapi_endpoint_id'** dependency and has no concrete implementation.
This method is used as a contract that must be implemented/provided at
the time the fastapi app is created. Here comes the power of the
dependency_overrides mechanism.

If you take a look at the **'\_get_app'** method of the
**'FastapiEndpoint'** model, you will see that the
**'fastapi_endpoint_id'** dependency is overriden by registering a
specific method that returns the id of the current fastapi endpoint
model instance for the original method.

.. code:: python

   def _get_app(self) -> FastAPI:
       app = FastAPI(**self._prepare_fastapi_endpoint_params())
       for router in self._get_fastapi_routers():
           app.include_router(prefix=self.root_path, router=router)
       app.dependency_overrides[dependencies.fastapi_endpoint_id] = partial(
           lambda a: a, self.id
       )

This kind of mechanism is very powerful and allows you to inject any
dependency into your route handlers and moreover, define an abstract
dependency that can be used by any other addon and for which the
implementation could depend on the endpoint configuration.

The authentication mechanism
----------------------------

To make our app not tightly coupled with a specific authentication
mechanism, we will use the **'authenticated_partner'** dependency. As
for the **'fastapi_endpoint'** this dependency depends on an abstract
dependency.

When you define a route handler, you can inject the
**'authenticated_partner'** dependency as a parameter of your route
handler.

.. code:: python

   from odoo.addons.base.models.res_partner import Partner


   @demo_api_router.get("/partners", response_model=list[PartnerInfo])
   def get_partners(
       env: Annotated[Environment, Depends(odoo_env)], partner: Annotated[Partner, Depends(authenticated_partner)]
   ) -> list[PartnerInfo]:
       return [
           PartnerInfo(name=partner.name, email=partner.email)
           for partner in env["res.partner"].search([])
       ]

At this stage, your handler is not tied to a specific authentication
mechanism but only expects to get a partner as a dependency. Depending
on your needs, you can implement different authentication mechanism
available for your app. The fastapi addon provides a default
authentication mechanism using the 'BasicAuth' method. This
authentication mechanism is implemented in the
**'odoo.addons.fastapi.dependencies'** module and relies on
functionalities provided by the **'fastapi.security'** module.

.. code:: python

   def authenticated_partner(
       env: Annotated[Environment, Depends(odoo_env)],
       security: Annotated[HTTPBasicCredentials, Depends(HTTPBasic())],
   ) -> "res.partner":
       """Return the authenticated partner"""
       partner = env["res.partner"].search(
           [("email", "=", security.username)], limit=1
       )
       if not partner:
           raise HTTPException(
               status_code=status.HTTP_401_UNAUTHORIZED,
               detail="Invalid authentication credentials",
               headers={"WWW-Authenticate": "Basic"},
           )
       if not partner.check_password(security.password):
           raise HTTPException(
               status_code=status.HTTP_401_UNAUTHORIZED,
               detail="Invalid authentication credentials",
               headers={"WWW-Authenticate": "Basic"},
           )
       return partner

As you can see, the **'authenticated_partner'** dependency relies on the
**'HTTPBasic'** dependency provided by the **'fastapi.security'**
module. In this dummy implementation, we just check that the provided
credentials can be used to authenticate a user in odoo. If the
authentication is successful, we return the partner record linked to the
authenticated user.

In some cases you could want to implement a more complex authentication
mechanism that could rely on a token or a session. In this case, you can
override the **'authenticated_partner'** dependency by registering a
specific method that returns the authenticated partner. Moreover, you
can make it configurable on the fastapi endpoint model instance.

To do it, you just need to implement a specific method for each of your
authentication mechanism and allows the user to select one of these
methods when he creates a new fastapi endpoint. Let's say that we want
to allow the authentication by using an api key or via basic auth. Since
basic auth is already implemented, we will only implement the api key
authentication mechanism.

.. code:: python

   from fastapi.security import APIKeyHeader

   def api_key_based_authenticated_partner_impl(
       api_key: Annotated[str, Depends(
           APIKeyHeader(
               name="api-key",
               description="In this demo, you can use a user's login as api key.",
           )
       )],
       env: Annotated[Environment, Depends(odoo_env)],
   ) -> Partner:
       """A dummy implementation that look for a user with the same login
       as the provided api key
       """
       partner = env["res.users"].search([("login", "=", api_key)], limit=1).partner_id
       if not partner:
           raise HTTPException(
               status_code=status.HTTP_401_UNAUTHORIZED, detail="Incorrect API Key"
           )
       return partner

As for the 'BasicAuth' authentication mechanism, we also rely on one of
the native security dependency provided by the **'fastapi.security'**
module.

Now that we have an implementation for our two authentication
mechanisms, we can allows the user to select one of these authentication
mechanisms by adding a selection field on the fastapi endpoint model.

.. code:: python

   from odoo import fields, models

   class FastapiEndpoint(models.Model):

       _inherit = "fastapi.endpoint"

       app: str = fields.Selection(
         selection_add=[("demo", "Demo Endpoint")], ondelete={"demo": "cascade"}
       )
       demo_auth_method = fields.Selection(
           selection=[("api_key", "Api Key"), ("http_basic", "HTTP Bacic")],
           string="Authenciation method",
       )

Note

A good practice is to prefix specific configuration fields of your app
with the name of your app. This will avoid conflicts with other app when
the 'fastapi.endpoint' model is extended for other 'app'.

Now that we have a selection field that allows the user to select the
authentication method, we can use the dependency override mechanism to
provide the right implementation of the **'authenticated_partner'**
dependency when the app is instantiated.

.. code:: python

   from odoo.addons.fastapi.dependencies import authenticated_partner
   class FastapiEndpoint(models.Model):

       _inherit = "fastapi.endpoint"

       app: str = fields.Selection(
         selection_add=[("demo", "Demo Endpoint")], ondelete={"demo": "cascade"}
       )
       demo_auth_method = fields.Selection(
           selection=[("api_key", "Api Key"), ("http_basic", "HTTP Bacic")],
           string="Authenciation method",
       )

     def _get_app(self) -> FastAPI:
         app = super()._get_app()
         if self.app == "demo":
             # Here we add the overrides to the authenticated_partner_impl method
             # according to the authentication method configured on the demo app
             if self.demo_auth_method == "http_basic":
                 authenticated_partner_impl_override = (
                     authenticated_partner_from_basic_auth_user
                 )
             else:
                 authenticated_partner_impl_override = (
                     api_key_based_authenticated_partner_impl
                 )
             app.dependency_overrides[
                 authenticated_partner_impl
             ] = authenticated_partner_impl_override
         return app

To see how the dependency override mechanism works, you can take a look
at the demo app provided by the fastapi addon. If you choose the app
'demo' in the fastapi endpoint form view, you will see that the
authentication method is configurable. You can also see that depending
on the authentication method configured on your fastapi endpoint, the
documentation will change.

Note

At time of writing, the dependency override mechanism is not supported
by the fastapi documentation generator. A fix has been proposed and is
waiting to be merged. You can follow the progress of the fix on
`github <https://github.com/tiangolo/fastapi/pull/5452>`__

Managing configuration parameters for your app
----------------------------------------------

As we have seen in the previous section, you can add configuration
fields on the fastapi endpoint model to allow the user to configure your
app (as for any odoo model you extend). When you need to access these
configuration fields in your route handlers, you can use the
**'odoo.addons.fastapi.dependencies.fastapi_endpoint'** dependency
method to retrieve the 'fastapi.endpoint' record associated to the
current request.

.. code:: python

   from pydantic import BaseModel, Field
   from odoo.addons.fastapi.dependencies import fastapi_endpoint

   class EndpointAppInfo(BaseModel):
     id: str
     name: str
     app: str
     auth_method: str = Field(alias="demo_auth_method")
     root_path: str
     model_config = ConfigDict(from_attributes=True)


     @demo_api_router.get(
         "/endpoint_app_info",
         response_model=EndpointAppInfo,
         dependencies=[Depends(authenticated_partner)],
     )
     async def endpoint_app_info(
         endpoint: Annotated[FastapiEndpoint, Depends(fastapi_endpoint)],
     ) -> EndpointAppInfo:
         """Returns the current endpoint configuration"""
         # This method show you how to get access to current endpoint configuration
         # It also show you how you can specify a dependency to force the security
         # even if the method doesn't require the authenticated partner as parameter
         return EndpointAppInfo.model_validate(endpoint)

Some of the configuration fields of the fastapi endpoint could impact
the way the app is instantiated. For example, in the previous section,
we have seen that the authentication method configured on the
'fastapi.endpoint' record is used in order to provide the right
implementation of the **'authenticated_partner'** when the app is
instantiated. To ensure that the app is re-instantiated when an element
of the configuration used in the instantiation of the app is modified,
you must override the **'\_fastapi_app_fields'** method to add the name
of the fields that impact the instantiation of the app into the returned
list.

.. code:: python

   class FastapiEndpoint(models.Model):

       _inherit = "fastapi.endpoint"

       app: str = fields.Selection(
         selection_add=[("demo", "Demo Endpoint")], ondelete={"demo": "cascade"}
       )
       demo_auth_method = fields.Selection(
           selection=[("api_key", "Api Key"), ("http_basic", "HTTP Bacic")],
           string="Authenciation method",
       )

       @api.model
       def _fastapi_app_fields(self) -> List[str]:
           fields = super()._fastapi_app_fields()
           fields.append("demo_auth_method")
           return fields

Dealing with languages
----------------------

The fastapi addon parses the Accept-Language header of the request to
determine the language to use. This parsing is done by respecting the
`RFC 7231
specification <https://datatracker.ietf.org/doc/html/rfc7231#section-5.3.5>`__.
That means that the language is determined by the first language found
in the header that is supported by odoo (with care of the priority
order). If no language is found in the header, the odoo default language
is used. This language is then used to initialize the Odoo's environment
context used by the route handlers. All this makes the management of
languages very easy. You don't have to worry about. This feature is also
documented by default into the generated openapi documentation of your
app to instruct the api consumers how to request a specific language.

How to extend an existing app
-----------------------------

When you develop a fastapi app, in a native python app it's not possible
to extend an existing one. This limitation doesn't apply to the fastapi
addon because the fastapi endpoint model is designed to be extended.
However, the way to extend an existing app is not the same as the way to
extend an odoo model.

First of all, it's important to keep in mind that when you define a
route, you are actually defining a contract between the client and the
server. This contract is defined by the route path, the method (GET,
POST, PUT, DELETE, etc.), the parameters and the response. If you want
to extend an existing app, you must ensure that the contract is not
broken. Any change to the contract will respect the `Liskov substitution
principle <https://en.wikipedia.org/wiki/Liskov_substitution_principle>`__.
This means that the client should not be impacted by the change.

What does it mean in practice? It means that you can't change the route
path or the method of an existing route. You can't change the name of a
parameter or the type of a response. You can't add a new parameter or a
new response. You can't remove a parameter or a response. If you want to
change the contract, you must create a new route.

What can you change?

- You can change the implementation of the route handler.
- You can override the dependencies of the route handler.
- You can add a new route handler.
- You can extend the model used as parameter or as response of the route
  handler.

Let's see how to do that.

Changing the implementation of the route handler
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~

Let's say that you want to change the implementation of the route
handler **'/demo/echo'**. Since a route handler is just a python method,
it could seems a tedious task since we are not into a model method and
therefore we can't take advantage of the Odoo inheritance mechanism.

However, the fastapi addon provides a way to do that. Thanks to the
**'odoo_env'** dependency method, you can access the current odoo
environment. With this environment, you can access the registry and
therefore the model you want to delegate the implementation to. If you
want to change the implementation of the route handler **'/demo/echo'**,
the only thing you have to do is to inherit from the model where the
implementation is defined and override the method **'echo'**.

.. code:: python

   from pydantic import BaseModel
   from fastapi import Depends, APIRouter
   from odoo import models
   from odoo.addons.fastapi.dependencies import odoo_env

   class FastapiEndpoint(models.Model):

       _inherit = "fastapi.endpoint"

       def _get_fastapi_routers(self) -> List[APIRouter]:
           routers = super()._get_fastapi_routers()
           routers.append(demo_api_router)
           return routers

   demo_api_router = APIRouter()

   @demo_api_router.get(
       "/echo",
       response_model=EchoResponse,
       dependencies=[Depends(odoo_env)],
   )
   async def echo(
       message: str,
       odoo_env: Annotated[Environment, Depends(odoo_env)],
   ) -> EchoResponse:
       """Echo the message"""
       return EchoResponse(message=odoo_env["demo.fastapi.endpoint"].echo(message))

   class EchoResponse(BaseModel):
       message: str

   class DemoEndpoint(models.AbstractModel):

       _name = "demo.fastapi.endpoint"
       _description = "Demo Endpoint"

       def echo(self, message: str) -> str:
           return message

   class DemoEndpointInherit(models.AbstractModel):

       _inherit = "demo.fastapi.endpoint"

       def echo(self, message: str) -> str:
           return f"Hello {message}"

Note

It's a good programming practice to implement the business logic outside
the route handler. This way, you can easily test your business logic
without having to test the route handler. In the example above, the
business logic is implemented in the method **'echo'** of the model
**'demo.fastapi.endpoint'**. The route handler just delegate the
implementation to this method.

Overriding the dependencies of the route handler
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~

As you've previously seen, the dependency injection mechanism of fastapi
is very powerful. By designing your route handler to rely on
dependencies with a specific functional scope, you can easily change the
implementation of the dependency without having to change the route
handler. With such a design, you can even define abstract dependencies
that must be implemented by the concrete application. This is the case
of the **'authenticated_partner'** dependency in our previous example.
(you can find the implementation of this dependency in the file
**'odoo/addons/fastapi/dependencies.py'** and it's usage in the file
**'odoo/addons/fastapi/models/fastapi_endpoint_demo.py'**)

Adding a new route handler
~~~~~~~~~~~~~~~~~~~~~~~~~~

Let's say that you want to add a new route handler **'/demo/echo2'**.
You could be tempted to add this new route handler in your new addons by
importing the router of the existing app and adding the new route
handler to it.

.. code:: python

   from odoo.addons.fastapi.models.fastapi_endpoint_demo import demo_api_router

   @demo_api_router.get(
       "/echo2",
       response_model=EchoResponse,
       dependencies=[Depends(odoo_env)],
   )
   async def echo2(
       message: str,
       odoo_env: Annotated[Environment, Depends(odoo_env)],
   ) -> EchoResponse:
       """Echo the message"""
       echo = odoo_env["demo.fastapi.endpoint"].echo2(message)
       return EchoResponse(message=f"Echo2: {echo}")

The problem with this approach is that you unconditionally add the new
route handler to the existing app even if the app is called for a
different database where your new addon is not installed.

The solution is to define a new router and to add it to the list of
routers returned by the method **'\_get_fastapi_routers'** of the model
**'fastapi.endpoint'** you are inheriting from into your new addon.

.. code:: python

   class FastapiEndpoint(models.Model):

       _inherit = "fastapi.endpoint"

       def _get_fastapi_routers(self) -> List[APIRouter]:
           routers = super()._get_fastapi_routers()
           if self.app == "demo":
               routers.append(additional_demo_api_router)
           return routers

   additional_demo_api_router = APIRouter()

   @additional_demo_api_router.get(
       "/echo2",
       response_model=EchoResponse,
       dependencies=[Depends(odoo_env)],
   )
   async def echo2(
       message: str,
       odoo_env: Annotated[Environment, Depends(odoo_env)],
   ) -> EchoResponse:
       """Echo the message"""
       echo = odoo_env["demo.fastapi.endpoint"].echo2(message)
       return EchoResponse(message=f"Echo2: {echo}")

In this way, the new router is added to the list of routers of your app
only if the app is called for a database where your new addon is
installed.

Extending the model used as parameter or as response of the route handler
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~

The fastapi python library uses the pydantic library to define the
models. By default, once a model is defined, it's not possible to extend
it. However, a companion python library called
`extendable_pydantic <https://pypi.org/project/extendable_pydantic/>`__
provides a way to use inheritance with pydantic models to extend an
existing model. If used alone, it's your responsibility to instruct this
library the list of extensions to apply to a model and the order to
apply them. This is not very convenient. Fortunately, an dedicated odoo
addon exists to make this process complete transparent. This addon is
called
`odoo-addon-extendable-fastapi <https://pypi.org/project/odoo-addon-extendable-fastapi/>`__.

When you want to allow other addons to extend a pydantic model, you must
first define the model as an extendable model by using a dedicated
metaclass

.. code:: python

   from pydantic import BaseModel
   from extendable_pydantic import ExtendableModelMeta

   class Partner(BaseModel, metaclass=ExtendableModelMeta):
     name = 0.1
     model_config = ConfigDict(from_attributes=True)

As any other pydantic model, you can now use this model as parameter or
as response of a route handler. You can also use all the features of
models defined with pydantic.

.. code:: python

   @demo_api_router.get(
       "/partner",
       response_model=Location,
       dependencies=[Depends(authenticated_partner)],
   )
   async def partner(
       partner: Annotated[ResPartner, Depends(authenticated_partner)],
   ) -> Partner:
       """Return the location"""
       return Partner.model_validate(partner)

If you need to add a new field into the model **'Partner'**, you can
extend it in your new addon by defining a new model that inherits from
the model **'Partner'**.

.. code:: python

   from typing import Optional
   from odoo.addons.fastapi.models.fastapi_endpoint_demo import Partner

   class PartnerExtended(Partner, extends=Partner):
       email: Optional[str]

If your new addon is installed in a database, a call to the route
handler **'/demo/partner'** will return a response with the new field
**'email'** if a value is provided by the odoo record.

.. code:: python

   {
     "name": "John Doe",
     "email": "jhon.doe@acsone.eu"
   }

If your new addon is not installed in a database, a call to the route
handler **'/demo/partner'** will only return the name of the partner.

.. code:: python

   {
     "name": "John Doe"
   }

Note

The liskov substitution principle has also to be respected. That means
that if you extend a model, you must add new required fields or you must
provide default values for the new optional fields.

Managing security into the route handlers
-----------------------------------------

By default the route handlers are processed using the user configured on
the **'fastapi.endpoint'** model instance. (default is the Public user).
You have seen previously how to define a dependency that will be used to
enforce the authentication of a partner. When a method depends on this
dependency, the 'authenticated_partner_id' key is added to the context
of the partner environment. (If you don't need the partner as dependency
but need to get an environment with the authenticated user, you can use
the dependency 'authenticated_partner_env' instead of
'authenticated_partner'.)

The fastapi addon extends the 'ir.rule' model to add into the evaluation
context of the security rules the key 'authenticated_partner_id' that
contains the id of the authenticated partner.

As briefly introduced in a previous section, a good practice when you
develop a fastapi app and you want to protect your data in an efficient
and traceable way is to:

- create a new user specific to the app but with any access rights.
- create a security group specific to the app and add the user to this
  group. (This group must implies the group 'AFastAPI Endpoint Runner'
  that give the minimal access rights)
- for each model you want to protect:

  - add a 'ir.model.access' record for the model to allow read access to
    your model and add the group to the record.
  - create a new 'ir.rule' record for the model that restricts the
    access to the records of the model to the authenticated partner by
    using the key 'authenticated_partner_id' in domain of the rule. (or
    to the user defined on the 'fastapi.endpoint' model instance if the
    method is public)

- add a dependency on the 'authenticated_partner' to your handlers when
  you need to access the authenticated partner or ensure that the
  service is called by an authenticated partner.

.. code:: xml

   <record
         id="my_demo_app_user"
         model="res.users"
         context="{'no_reset_password': True, 'no_reset_password': True}"
     >
     <field name="name">My Demo Endpoint User</field>
     <field name="login">my_demo_app_user</field>
     <field name="groups_id" eval="[(6, 0, [])]" />
   </record>

   <record id="my_demo_app_group" model="res.groups">
     <field name="name">My Demo Endpoint Group</field>
     <field name="users" eval="[(4, ref('my_demo_app_user'))]" />
     <field name="implied_ids" eval="[(4, ref('group_fastapi_endpoint_runner'))]" />
   </record>

   <!-- acl for the model 'sale.order' -->
   <record id="sale_order_demo_app_access" model="ir.model.access">
     <field name="name">My Demo App: access to sale.order</field>
     <field name="model_id" ref="model_sale_order"/>
     <field name="group_id" ref="my_demo_app_group"/>
     <field name="perm_read" eval="True"/>
     <field name="perm_write" eval="False"/>
     <field name="perm_create" eval="False"/>
     <field name="perm_unlink" eval="False"/>
   </record>

   <!-- a record rule to allows the authenticated partner to access only its sale orders -->
   <record id="demo_app_sale_order_rule" model="ir.rule">
     <field name="name">Sale Order Rule</field>
     <field name="model_id" ref="model_sale_order"/>
     <field name="domain_force">[('partner_id', '=', authenticated_partner_id)]</field>
     <field name="groups" eval="[(4, ref('my_demo_app_group'))]"/>
   </record>

How to test your fastapi app
----------------------------

Thanks to the starlette test client, it's possible to test your fastapi
app in a very simple way. With the test client, you can call your route
handlers as if they were real http endpoints. The test client is
available in the **'fastapi.testclient'** module.

Once again the dependency injection mechanism comes to the rescue by
allowing you to inject into the test client specific implementations of
the dependencies normally provided by the normal processing of the
request by the fastapi app. (for example, you can inject a mock of the
dependency 'authenticated_partner' to test the behavior of your route
handlers when the partner is not authenticated, you can also inject a
mock for the odoo_env etc...)

The fastapi addon provides a base class for the test cases that you can
use to write your tests. This base class is
**'odoo.fastapi.tests.common.FastAPITransactionCase'**. This class
mainly provides the method **'\_create_test_client'** that you can use
to create a test client for your fastapi app. This method encapsulates
the creation of the test client and the injection of the dependencies.
It also ensures that the odoo environment is make available into the
context of the route handlers. This method is designed to be used when
you need to test your app or when you need to test a specific router
(It's therefore easy to defines tests for routers in an addon that
doesn't provide a fastapi endpoint).

With this base class, writing a test for a route handler is as simple
as:

.. code:: python

   from odoo.fastapi.tests.common import FastAPITransactionCase

   from odoo.addons.fastapi import dependencies
   from odoo.addons.fastapi.routers import demo_router

   class FastAPIDemoCase(FastAPITransactionCase):

       @classmethod
       def setUpClass(cls) -> None:
           super().setUpClass()
           cls.default_fastapi_running_user = cls.env.ref("fastapi.my_demo_app_user")
           cls.default_fastapi_authenticated_partner = cls.env["res.partner"].create({"name": "FastAPI Demo"})

       def test_hello_world(self) -> None:
           with self._create_test_client(router=demo_router) as test_client:
               response: Response = test_client.get("/demo/")
           self.assertEqual(response.status_code, status.HTTP_200_OK)
           self.assertDictEqual(response.json(), {"Hello": "World"})

In the previous example, we created a test client for the demo_router.
We could have created a test client for the whole app by not specifying
the router but the app instead.

.. code:: python

   from odoo.fastapi.tests.common import FastAPITransactionCase

   from odoo.addons.fastapi import dependencies
   from odoo.addons.fastapi.routers import demo_router

   class FastAPIDemoCase(FastAPITransactionCase):

       @classmethod
       def setUpClass(cls) -> None:
           super().setUpClass()
           cls.default_fastapi_running_user = cls.env.ref("fastapi.my_demo_app_user")
           cls.default_fastapi_authenticated_partner = cls.env["res.partner"].create({"name": "FastAPI Demo"})

       def test_hello_world(self) -> None:
           demo_endpoint = self.env.ref("fastapi.fastapi_endpoint_demo")
           with self._create_test_client(app=demo_endpoint._get_app()) as test_client:
               response: Response = test_client.get(f"{demo_endpoint.root_path}/demo/")
           self.assertEqual(response.status_code, status.HTTP_200_OK)
           self.assertDictEqual(response.json(), {"Hello": "World"})

Overall considerations when you develop an fastapi app
------------------------------------------------------

Developing a fastapi app requires to follow some good practices to
ensure that the app is robust and easy to maintain. Here are some of
them:

- A route handler must be as simple as possible. It must not contain any
  business logic. The business logic must be implemented into the
  service layer. The route handler must only call the service layer and
  return the result of the service layer. To ease extension on your
  business logic, your service layer can be implemented as an odoo
  abstract model that can be inherited by other addons.
- A route handler should not expose the internal data structure and api
  of Odoo. It should provide the api that is needed by the client. More
  widely, an app provides a set of services that address a set of use
  cases specific to a well defined functional domain. You must always
  keep in mind that your api will remain the same for a long time even
  if you upgrade your odoo version of modify your business logic.
- A route handler is a transactional unit of work. When you design your
  api you must ensure that the completeness of a use case is guaranteed
  by a single transaction. If you need to perform several transactions
  to complete a use case, you introduce a risk of inconsistency in your
  data or extra complexity in your client code.
- Properly handle the errors. The route handler must return a proper
  error response when an error occurs. The error response must be
  consistent with the rest of the api. The error response must be
  documented in the api documentation. By default, the
  **'odoo-addon-fastapi'** module handles the common exception types
  defined in the **'odoo.exceptions'** module and returns a proper error
  response with the corresponding http status code. An error in the
  route handler must always return an error response with a http status
  code different from 200. The error response must contain a human
  readable message that can be displayed to the user. The error response
  can also contain a machine readable code that can be used by the
  client to handle the error in a specific way.
- When you design your json document through the pydantic models, you
  must use the appropriate data types. For example, you must use the
  data type **'datetime.date'** to represent a date and not a string.
  You must also properly define the constraints on the fields. For
  example, if a field is optional, you must use the data type
  **'typing.Optional'**. `pydantic <https://docs.pydantic.dev/>`__
  provides everything you need to properly define your json document.
- Always use an appropriate pydantic model as request and/or response
  for your route handler. Constraints on the fields of the pydantic
  model must apply to the specific use case. For example, if your route
  handler is used to create a sale order, the pydantic model must not
  contain the field 'id' because the id of the sale order will be
  generated by the route handler. But if the id is required afterwords,
  the pydantic model for the response must contain the field 'id' as
  required.
- Uses descriptive property names in your json documents. For example,
  avoid the use of documents providing a flat list of key value pairs.
- Be consistent in the naming of your fields into your json documents.
  For example, if you use 'id' to represent the id of a sale order, you
  must use 'id' to represent the id of all the other objects.
- Be consistent in the naming style of your fields. Always prefer
  underscore to camel case.
- Always use plural for the name of the fields that contain a list of
  items. For example, if you have a field 'lines' that contains a list
  of sale order lines, you must use 'lines' and not 'line'.
- You can't expect that a client will provide you the identifier of a
  specific record in odoo (for example the id of a carrier) if you don't
  provide a specific route handler to retrieve the list of available
  records. Sometimes, the client must share with odoo the identity of a
  specific record to be able to perform an appropriate action specific
  to this record (for example, the processing of a payment is different
  for each payment acquirer). In this case, you must provide a specific
  attribute that allows both the client and odoo to identify the record.
  The field 'provider' on a payment acquirer allows you to identify a
  specific record in odoo. This kind of approach allows both the client
  and odoo to identify the record without having to rely on the id of
  the record. (This will ensure that the client will not break if the id
  of the record is changed in odoo for example when tests are run on an
  other database).
- Always use the same name for the same kind of object. For example, if
  you have a field 'lines' that contains a list of sale order lines, you
  must use the same name for the same kind of object in all the other
  json documents.
- Manage relations between objects in your json documents the same way.
  By default, you should return the id of the related object in the json
  document. But this is not always possible or convenient, so you can
  also return the related object in the json document. The main
  advantage of returning the id of the related object is that it allows
  you to avoid the `n+1
  problem <https://restfulapi.net/rest-api-n-1-problem/>`__ . The main
  advantage of returning the related object in the json document is that
  it allows you to avoid an extra call to retrieve the related object.
  By keeping in mind the pros and cons of each approach, you can choose
  the best one for your use case. Once it's done, you must be consistent
  in the way you manage the relations of the same object.
- It's not always a good idea to name your fields into your json
  documents with the same name as the fields of the corresponding odoo
  model. For example, in your document representing a sale order, you
  must not use the name 'order_line' for the field that contains the
  list of sale order lines. The name 'order_line' in addition to being
  confusing and not consistent with the best practices, is not
  auto-descriptive. The name 'lines' is much better.
- Keep a defensive programming approach. If you provide a route handler
  that returns a list of records, you must ensure that the computation
  of the list is not too long or will not drain your server resources.
  For example, for search route handlers, you must ensure that the
  search is limited to a reasonable number of records by default.
- As a corollary of the previous point, a search handler must always use
  the pagination mechanism with a reasonable default page size. The
  result list must be enclosed in a json document that contains the
  count of records into the system matching your search criteria and the
  list of records for the given page and size.
- Use plural for the name of a service. For example, if you provide a
  service that allows you to manage the sale orders, you must use the
  name 'sale_orders' and not 'sale_order'.
- ... and many more.

We could write a book about the best practices to follow when you design
your api but we will stop here. This list is the result of our
experience at `ACSONE SA/NV <https://acsone.eu>`__ and it evolves over
time. It's a kind of rescue kit that we would provide to a new developer
that starts to design an api. This kit must be accompanied with the
reading of some useful resources link like the `REST
Guidelines <https://www.belgif.be/specification/rest/api-guide/>`__. On
a technical level, the `fastapi
documentation <https://fastapi.tiangolo.com/>`__ provides a lot of
useful information as well, with a lot of examples. Last but not least,
the `pydantic <https://docs.pydantic.dev/>`__ documentation is also very
useful.

Miscellaneous
-------------

Development of a search route handler
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~

The **'odoo-addon-fastapi'** module provides 2 useful piece of code to
help you be consistent when writing a route handler for a search route.

1. A dependency method to use to specify the pagination parameters in
   the same way for all the search route handlers:
   **'odoo.addons.fastapi.paging'**.
2. A PagedCollection pydantic model to use to return the result of a
   search route handler enclosed in a json document that contains the
   count of records.

.. code:: python

   from typing import Annotated
   from pydantic import BaseModel

   from odoo.api import Environment
   from odoo.addons.fastapi.dependencies import paging, authenticated_partner_env
   from odoo.addons.fastapi.schemas import PagedCollection, Paging

   class SaleOrder(BaseModel):
       id: int
       name: str
       model_config = ConfigDict(from_attributes=True)


   @router.get(
       "/sale_orders",
       response_model=PagedCollection[SaleOrder],
       response_model_exclude_unset=True,
   )
   def get_sale_orders(
       paging: Annotated[Paging, Depends(paging)],
       env: Annotated[Environment, Depends(authenticated_partner_env)],
   ) -> PagedCollection[SaleOrder]:
       """Get the list of sale orders."""
       count = env["sale.order"].search_count([])
       orders = env["sale.order"].search([], limit=paging.limit, offset=paging.offset)
       return PagedCollection[SaleOrder](
           count=count,
           items=[SaleOrder.model_validate(order) for order in orders],
       )

Note

The **'odoo.addons.fastapi.schemas.Paging'** and
**'odoo.addons.fastapi.schemas.PagedCollection'** pydantic models are
not designed to be extended to not introduce a dependency between the
**'odoo-addon-fastapi'** module and the **'odoo-addon-extendable'**

Error handling
~~~~~~~~~~~~~~

The error handling is a very important topic in the design of the
fastapi integration with odoo. By default, when instantiating the
fastapi app, the fastapi library declare a default exception handler
that will catch any exception raised by the route handlers and return a
proper error response. This is done to ensure that the serving of the
app is not interrupted by an unhandled exception. If this implementation
makes sense for a native fastapi app, it's not the case for the fastapi
integration with odoo. The transactional nature of the calls to odoo's
api is implemented at the root of the request processing by odoo. To
ensure that the transaction is properly managed, the integration with
odoo must ensure that the exceptions raised by the route handlers
properly bubble up to the handling of the request by odoo. This is done
by the monkey patching of the registered exception handler of the
fastapi app in the **'odoo.addons.fastapi.models.error_handlers'**
module. As a result, it's no longer possible to define a custom
exception handler in your fastapi app. If you add a custom exception
handler in your app, it will be ignored.

FastAPI addons directory structure
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~

When you develop a new addon to expose an api with fastapi, it's a good
practice to follow the same directory structure and naming convention
for the files related to the api. It will help you to easily find the
files related to the api and it will help the other developers to
understand your code.

Here is the directory structure that we recommend. It's based on
practices that are used in the python community when developing a
fastapi app.

::

   .
   ├── x_api
   │   ├── data
   │   │   ├── ... .xml
   │   ├── demo
   │   │   ├── ... .xml
   │   ├── i18n
   │   │   ├── ... .po
   │   ├── models
   │   │   ├── __init__.py
   │   │   ├── fastapi_endpoint.py  # your app
   │   │   └── ... .py
   │   └── routers
   │   │   ├── __init__.py
   │   │   ├── items.py
   │   │   └── ... .py
   │   ├── schemas | schemas.py
   │   │   ├── __init__.py
   │   │   ├── my_model.py  # pydantic model
   │   │   └── ... .py
   │   ├── security
   │   │   ├── ... .xml
   │   ├── views
   │   │   ├── ... .xml
   │   ├── __init__.py
   │   ├── __manifest__.py
   │   ├── dependencies.py  # custom dependencies
   │   ├── error_handlers.py  # custom error handlers

- The **'models'** directory contains the odoo models. When you define a
  new app, as for the others addons, you will add your new model
  inheriting from the **'fastapi.endpoint'** model in this directory.

- The **'routers'** directory contains the fastapi routers. You will add
  your new routers in this directory. Each route starting with the same
  prefix should be grouped in the same file. For example, all the routes
  starting with '/items' should be defined in the **'items.py'** file.
  The **'\__init\_\_.py'** file in this directory is used to import all
  the routers defined in the directory and create a global router that
  can be used in an app. For example, in your **'items.py'** file, you
  will define a router like this:

  .. code:: python

     router = APIRouter(tags=["items"])

     router.get("/items", response_model=List[Item])
     def list_items():
         pass

  In the **'\__init\_\_.py'** file, you will import the router and add
  it to the global router or your addon.

  .. code:: python

     from fastapi import APIRouter

     from .items import router as items_router

     router = APIRouter()
     router.include_router(items_router)

- The **'schemas.py'** will be used to define the pydantic models. For
  complex APIs with a lot of models, it will be better to create a
  **'schemas'** directory and split the models in different files. The
  **'\__init\_\_.py'** file in this directory will be used to import all
  the models defined in the directory. For example, in your
  **'my_model.py'** file, you will define a model like this:

  .. code:: python

     from pydantic import BaseModel

     class MyModel(BaseModel):
         name: str
         description: str = None

  In the **'\__init\_\_.py'** file, you will import the model's classes
  from the files in the directory.

  .. code:: python

     from .my_model import MyModel

  This will allow to always import the models from the schemas module
  whatever the models are spread across different files or defined in
  the **'schemas.py'** file.

  .. code:: python

     from x_api_addon.schemas import MyModel

- The **'dependencies.py'** file contains the custom dependencies that
  you will use in your routers. For example, you can define a dependency
  to check the access rights of the user.

- The **'error_handlers.py'** file contains the custom error handlers
  that you will use in your routers. The **'odoo-addon-fastapi'** module
  provides the default error handlers for the common odoo exceptions.
  Chance are that you will not need to define your own error handlers.
  But if you need to do it, you can define them in this file.

What's next?
------------

The **'odoo-addon-fastapi'** module is still in its early stage of
development. It will evolve over time to integrate your feedback and to
provide the missing features. It's now up to you to try it and to
provide your feedback.

Known issues / Roadmap
======================

The
`roadmap <https://github.com/OCA/rest-framework/issues?q=is%3Aopen+is%3Aissue+label%3Aenhancement+label%3Afastapi>`__
and `known
issues <https://github.com/OCA/rest-framework/issues?q=is%3Aopen+is%3Aissue+label%3Abug+label%3Afastapi>`__
can be found on GitHub.

The **FastAPI** module provides an easy way to use WebSockets.
Unfortunately, this support is not 'yet' available in the **Odoo**
framework. The challenge is high because the integration of the fastapi
is based on the use of a specific middleware that convert the WSGI
request consumed by odoo to a ASGI request. The question is to know if
it is also possible to develop the same kind of bridge for the
WebSockets and to stream large responses.

Changelog
=========

17.0.3.0.0 (2024-10-03)
-----------------------

Features
~~~~~~~~

- 

  - A new parameter is now available on the endpoint model to let you
    disable the creation and the store of session files used by Odoo for
    calls to your application endpoint. This is usefull to prevent disk
    space consumption and IO operations if your application doesn't need
    to use this sessions files which are mainly used by Odoo by to store
    the session info of logged in users.
    (`#442 <https://github.com/OCA/rest-framework/issues/442>`__)

Bugfixes
~~~~~~~~

- Fix issue with the retry of a POST request with a body content.

  Prior to this fix the retry of a POST request with a body content
  would stuck in a loop and never complete. This was due to the fact
  that the request input stream was not reset after a failed attempt to
  process the request.
  (`#440 <https://github.com/OCA/rest-framework/issues/440>`__)

17.0.2.0.0 (2024-10-03)
-----------------------

Bugfixes
~~~~~~~~

- This change is a complete rewrite of the way the transactions are
  managed when integrating a fastapi application into Odoo.

  In the previous implementation, specifics error handlers were put in
  place to catch exception occurring in the handling of requests made to
  a fastapi application and to rollback the transaction in case of
  error. This was done by registering specifics error handlers methods
  to the fastapi application using the 'add_exception_handler' method of
  the fastapi application. In this implementation, the transaction was
  rolled back in the error handler method.

  This approach was not working as expected for several reasons:

  - The handling of the error at the fastapi level prevented the retry
    mechanism to be triggered in case of a DB concurrency error. This is
    because the error was catch at the fastapi level and never bubbled
    up to the early stage of the processing of the request where the
    retry mechanism is implemented.
  - The cleanup of the environment and the registry was not properly
    done in case of error. In the **'odoo.service.model.retrying'**
    method, you can see that the cleanup process is different in case of
    error raised by the database and in case of error raised by the
    application.

  This change fix these issues by ensuring that errors are no more catch
  at the fastapi level and bubble up the fastapi processing stack
  through the event loop required to transform WSGI to ASGI. As result
  the transactional nature of the requests to the fastapi applications
  is now properly managed by the Odoo framework.

  (`#422 <https://github.com/OCA/rest-framework/issues/422>`__)

17.0.1.0.1 (2024-10-02)
-----------------------

Bugfixes
~~~~~~~~

- Fix compatibility issues with the latest Odoo version

  From
  https://github.com/odoo/odoo/commit/cb1d057dcab28cb0b0487244ba99231ee292502e
  the original werkzeug HTTPRequest class has been wrapped in a new
  class to keep under control the attributes developers use. This
  changes take care of this new implementation but also keep
  compatibility with the old ones.
  (`#414 <https://github.com/OCA/rest-framework/issues/414>`__)

16.0.1.2.5 (2024-01-17)
-----------------------

Bugfixes
~~~~~~~~

- Odoo has done an update and now, it checks domains of ir.rule on
  creation and modification.

  The ir.rule 'Fastapi: Running user rule' uses a field
  (authenticate\ *partner_id) that comes from the context. This field
  wasn't always set and this caused an error when Odoo checked the
  domain. So now it is set to False by default.
  (``#410 <https://github.com/OCA/rest-framework/issues/410>``*)

16.0.1.2.3 (2023-12-21)
-----------------------

Bugfixes
~~~~~~~~

- In case of exception in endpoint execution, close the database cursor
  after rollback.

  This is to ensure that the *retrying* method in *service/model.py*
  does not try to flush data to the database.
  (`#405 <https://github.com/OCA/rest-framework/issues/405>`__)

16.0.1.2.2 (2023-12-12)
-----------------------

Bugfixes
~~~~~~~~

- When using the 'FastAPITransactionCase' class, allows to specify a
  specific override of the 'authenticated_partner_impl' method into the
  list of overrides to apply. Before this change, the
  'authenticated_partner_impl' override given in the 'overrides'
  parameter was always overridden in the '\_create_test_client' method
  of the 'FastAPITransactionCase' class. It's now only overridden if the
  'authenticated_partner_impl' method is not already present in the list
  of overrides to apply and no specific partner is given. If a specific
  partner is given at same time of an override for the
  'authenticated_partner_impl' method, an error is raised.
  (`#396 <https://github.com/OCA/rest-framework/issues/396>`__)

16.0.1.2.1 (2023-11-03)
-----------------------

Bugfixes
~~~~~~~~

- Fix a typo in the Field declaration of the 'count' attribute of the
  'PagedCollection' schema.

  Misspelt parameter was triggering a deprecation warning due to recent
  versions of Pydantic seeing it as an arbitrary parameter.
  (`#389 <https://github.com/OCA/rest-framework/issues/389>`__)

16.0.1.2.0 (2023-10-13)
-----------------------

Features
~~~~~~~~

- The field *total* in the *PagedCollection* schema is replaced by the
  field *count*. The field *total* is now deprecated and will be removed
  in the next major version. This change is backward compatible. The
  json document returned will now contain both fields *total* and
  *count* with the same value. In your python code the field *total*, if
  used, will fill the field *count* with the same value. You are
  encouraged to use the field *count* instead of *total* and adapt your
  code accordingly.
  (`#380 <https://github.com/OCA/rest-framework/issues/380>`__)

Bug Tracker
===========

Bugs are tracked on `GitHub Issues <https://github.com/OCA/rest-framework/issues>`_.
In case of trouble, please check there if your issue has already been reported.
If you spotted it first, help us to smash it by providing a detailed and welcomed
`feedback <https://github.com/OCA/rest-framework/issues/new?body=module:%20fastapi%0Aversion:%2018.0%0A%0A**Steps%20to%20reproduce**%0A-%20...%0A%0A**Current%20behavior**%0A%0A**Expected%20behavior**>`_.

Do not contact contributors directly about support or help with technical issues.

Credits
=======

Authors
-------

* ACSONE SA/NV

Contributors
------------

- Laurent Mignon <laurent.mignon@acsone.eu>

Maintainers
-----------

This module is maintained by the OCA.

.. image:: https://odoo-community.org/logo.png
   :alt: Odoo Community Association
   :target: https://odoo-community.org

OCA, or the Odoo Community Association, is a nonprofit organization whose
mission is to support the collaborative development of Odoo features and
promote its widespread use.

.. |maintainer-lmignon| image:: https://github.com/lmignon.png?size=40px
    :target: https://github.com/lmignon
    :alt: lmignon

Current `maintainer <https://odoo-community.org/page/maintainer-role>`__:

|maintainer-lmignon| 

This module is part of the `OCA/rest-framework <https://github.com/OCA/rest-framework/tree/18.0/fastapi>`_ project on GitHub.

You are welcome to contribute. To learn how please visit https://odoo-community.org/page/Contribute.
