Extending the API

Note

This document provides general background information on how one can extend the REST API in nova. For information on the microversion support including how to add new microversions, see API Microversions. For information on how to use the API, refer to the API guide and API reference guide.

Nova’s API is a mostly RESTful API. REST stands for Representational State Transfer and provides an architecture “style” for distributed systems using HTTP for transport. Figure out a way to express your request and response in terms of resources that are being created, modified, read, or destroyed.

Nova has v2.1 API frameworks which supports microversions. This document covers how to add API for the v2.1 API framework. A microversions-specific document covers the details around what is required for the microversions part.

The v2.1 API framework is under nova/api and each API is implemented in nova/api/openstack/compute.

Note

Any change to the Nova API to be merged will first require a spec be approved first. See here for the appropriate repository. For guidance on the design of the API please refer to the OpenStack API WG

Basic API Controller

API controller includes the implementation of API methods for a resource.

A very basic controller of a v2.1 API:

"""Basic Controller"""

from nova.api.openstack.compute.schemas import xyz
from nova.api.openstack import extensions
from nova.api.openstack import wsgi
from nova.api import validation

class BasicController(wsgi.Controller):

    # Define support for GET on a collection
    def index(self, req):
        data = {'param': 'val'}
        return data

    # Define support for POST on a collection
    @extensions.expected_errors((400, 409))
    @validation.schema(xyz.create)
    @wsgi.response(201)
    def create(self, req, body):
        write_body_here = ok
        return response_body

    # Defining support for other RESTFul methods based on resource.

    # ...

See servers.py for ref.

All of the controller modules should live in the nova/api/openstack/compute directory.

URL Mapping to API

The URL mapping is based on the plain list which routes the API request to appropriate controller and method. Each API needs to add its route information in nova/api/openstack/compute/routes.py.

A basic skeleton of URL mapping in routers.py:

"""URL Mapping Router List"""

import functools

import nova.api.openstack
from nova.api.openstack.compute import basic_api

# Create a controller object
basic_controller = functools.partial(
    _create_controller, basic_api.BasicController, [], [],
)

# Routing list structure:
# (
#     ('Route path': {
#         'HTTP method: [
#             'Controller',
#             'The method of controller is used to handle this route'
#         ],
#         ...
#     }),
#     ...
# )
ROUTE_LIST = (
    # ...
    ('/basic', {
        'GET': [basic_controller, 'index'],
        'POST': [basic_controller, 'create']
    }),
    # ...
)

Complete routing list can be found in routes.py.

Policy

For more info about policy, see policies, Also look at the context.can(...) call in existing API controllers.

Modularity

The Nova REST API is separated into different controllers in the directory nova/api/openstack/compute/.

Because microversions are supported in the Nova REST API, the API can be extended without any new controller. But for code readability, the Nova REST API code still needs modularity. Here are rules for how to separate modules:

  • You are adding a new resource The new resource should be in standalone module. There isn’t any reason to put different resources in a single module.

  • Add sub-resource for existing resource To prevent an existing resource module becoming over-inflated, the sub-resource should be implemented in a separate module.

  • Add extended attributes for existing resource In normally, the extended attributes is part of existing resource’s data model too. So this can be added into existing resource module directly and lightly. To avoid namespace complexity, we should avoid to add extended attributes in existing extended models. New extended attributes needn’t any namespace prefix anymore.

JSON-Schema

The v2.1 API validates a REST request body with JSON-Schema library. Valid body formats are defined with JSON-Schema in the directory nova/api/openstack/compute/schemas. Each definition is used at the corresponding method with the validation.schema decorator like:

@validation.schema(schema.update_something)
    def update(self, req, id, body):

Unit Tests

Unit tests for the API can be found under path nova/tests/unit/api/openstack/compute/. Unit tests for the API are generally negative scenario tests, because the positive scenarios are tested with functional API samples tests.

Negative tests would include such things as:

  • Request schema validation failures, for both the request body and query parameters

  • HTTPNotFound or other >=400 response code failures

Functional tests and API Samples

All functional API changes, including new microversions - especially if there are new request or response parameters, should have new functional API samples tests.

The API samples tests are made of two parts:

  • The API sample for the reference docs. These are found under path doc/api_samples/. There is typically one directory per API controller with subdirectories per microversion for that API controller. The unversioned samples are used for the base v2.0 / v2.1 APIs.

  • Corresponding API sample templates found under path nova/tests/functional/api_sample_tests/api_samples. These have a similar structure to the API reference docs samples, except the format of the sample can include substitution variables filled in by the tests where necessary, for example, to substitute things that change per test run, like a server UUID.

The actual functional tests are found under path nova/tests/functional/api_sample_tests/. Most, if not all, API samples tests extend the ApiSampleTestBaseV21 class which extends ApiSampleTestBase. These base classes provide the framework for making a request using an API reference doc sample and validating the response using the corresponding template file, along with any variable substitutions that need to be made.

Note that it is possible to automatically generate the API reference doc samples using the templates by simply running the tests using tox -e api-samples. This relies, of course, upon the test and templates being correct for the test to pass, which may take some iteration.

In general, if you are adding a new microversion to an existing API controller, it is easiest to simply copy an existing test and modify it for the new microversion and the new samples/templates.

The functional API samples tests are not the simplest thing in the world to get used to and it can be very frustrating at times when they fail in not obvious ways. If you need help debugging a functional API sample test failure, feel free to post your work-in-progress change for review and ask for help in the openstack-nova OFTC IRC channel.

Documentation

All API changes must also include updates to the compute API reference, which can be found under path api-ref/source/.

Things to consider here include:

  • Adding new request and/or response parameters with a new microversion

  • Marking existing parameters as deprecated in a new microversion

More information on the compute API reference format and conventions can be found in the API reference guideline.

For more detailed documentation of certain aspects of the API, consider writing something into the compute API guide found under path api-guide/source/.

Deprecating APIs

Compute REST API routes may be deprecated by capping a method or functionality using microversions. For example, the 2.36 microversion deprecated several compute REST API routes which only worked when using the since-removed nova-network service or are proxies to other external services like cinder, neutron, etc.

The point of deprecating with microversions is users can still get the same functionality at a lower microversion but there is at least some way to signal to users that they should stop using the REST API.

The general steps for deprecating a REST API are:

  • Set a maximum allowed microversion for the route. Requests beyond that microversion on that route will result in a 404 HTTPNotFound error.

  • Update the Compute API reference documentation to indicate the route is deprecated and move it to the bottom of the list with the other deprecated APIs.

  • Deprecate, and eventually remove, related CLI / SDK functionality in other projects like python-novaclient.

Removing deprecated APIs

Nova tries to maintain backward compatibility with all REST APIs as much as possible, but when enough time has lapsed, there are few (if any) users or there are supported alternatives, the underlying service code that supports a deprecated REST API, like in the case of nova-network, is removed and the REST API must also be effectively removed.

The general steps for removing support for a deprecated REST API are:

  • The route mapping will remain but all methods will return a 410 HTTPGone error response. This is slightly different then the 404 HTTPNotFound error response a user will get for trying to use a microversion that does not support a deprecated API. 410 means the resource is gone and not coming back, which is more appropriate when the API is fully removed and will not work at any microversion.

  • Related configuration options, policy rules, and schema validation are removed.

  • The API reference documentation should be updated to move the documentation for the removed API to the Obsolete APIs section and mention in which release the API was removed.

  • Unit tests can be removed.

  • API sample functional tests can be changed to assert the 410 response behavior, but can otherwise be mostly gutted. Related *.tpl files for the API sample functional tests can be deleted since they will not be used.

  • An “upgrade” release note should be added to mention the REST API routes that were removed along with any related configuration options that were also removed.

Here is an example of the above steps: https://review.opendev.org/567682/