Reynard is an OpenAPI client for Ruby. It operates directly on the OpenAPI specification without the need to generate any source code.
# A Client does not have a fixed state and creating a new
# client will never incur a cost over creating the object
# itself.
reynard = Reynard.new(filename: 'openapi.yml')
Reynard is distributed as a gem called reynard
.
An OpenAPI specification may specify multiple servers. There is no automated way to select the ‘correct’ server so Reynard uses the first one by default.
For example:
servers:
- url: http://production.example.com/v1
- url: http://staging.example.com/v1
Will cause Reynard to choose the production URL.
reynard.url #=> "http://production.example.com/v1"
You can override the base_url
if you want to use a different one.
reynard.base_url('http://test.example.com/v1')
You also have access to all servers in the specification so you can automatically select one however you want.
base_url = reynard.servers.map(&:url).find do |url|
/staging/.match(url)
end
reynard.base_url(base_url)
Assuming there is an operation with the operationId
set to employeeByUuid
you can perform a request as shown below. Note that operationId
is a required property in the specs.
response = reynard.
operation('employeeByUuid').
params(uuid: uuid).
execute
When an operation requires a body, you can add it as structured data. It will be converted to JSON automatically.
response = reynard.
operation('createEmployee').
body(name: 'Sam Seven').
execute
The response object shares much of its interface with Net::HTTP::Response
.
response.code #=> '200'
response.content_type #=> 'application/json'
response['Content-Type'] #=> 'application/json'
response.body #=> '{"name":"Sam Seven"}'
response.parsed_body #=> { "name" => "Sam Seven" }
You can test for groups of response codes, basically matching 1xx
through 5xx
.
response.informational?
response.success?
response.redirection?
response.client_error?
response.server_error?
In case the response status and content-type matches a response in the specification it will attempt to build an object using the specified schema.
response.object.name #=> 'Sam Seven'
See below for more details about the object builder.
Reynard has an object builder that allows you to get a value object backed by model classes based on the resource schema.
For example, when the schema for a response is something like this:
book:
type: object
properties:
name:
type: string
author:
type: object
properties:
name:
type: string
And the parsed body from the response is:
{
"name": "Erebus",
"author": { "name": "Palin" }
}
You should be able to access it using:
response.object.class #=> Reynard::Models::Book
response.object.author.class #=> Reynard::Models::Author
response.object.author.name #=> 'Palin'
Model names are determined in order:
- From the
title
attribute of a schema - From the
$ref
pointing to the schema - From the path to the definition of the schema
application/json:
schema:
$ref: "#/components/schemas/Book"
components:
schemas:
Book:
type: object
title: LibraryBook
In this example it would use the title
and the model name would be LibraryBook
. Otherwise it would use Book
from the end of the $ref
.
If neither of those are available it would look at the full expanded path.
books:
type: array
items:
type: object
For example, in case of an array item it would look at books
and singularize it to Book
.
If you run into issues where Reynard doesn't properly build an object for a nested resource, it's probably because of a naming issue. It's advised to add a title
property to the schema definition with a unique name in that case.
Reynard provides access to JSON properties on the model in a number of ways. There are some restrictions because of Ruby, so it's good to understand them.
Let's assume there is a payload for an Author
model that looks like this:
{"first_name":"Marcél","lastName":"Marcellus","1st-class":false}
Reynard attemps to give access to these properties as much as possible by sanitizing and normalizing them, so you can do the following:
response.object.first_name #=> "Marcél"
response.object.last_name #=> "Marcellus"
But it's also possible to use the original casing for lastName
.
response.object.lastName #=> "Marcellus"
However, a method can't start with a number and can't contain dashes in Ruby so the following is not possible:
# Not valid Ruby syntax:
response.object.1st-class
There are two alternatives for accessing this property:
# The preferred solution for accessing raw property values is through the
# parsed JSON on the response object.
response.parsed_body["1st-class"]
# When you are processing nested models and you don't have access to the
# response object, you can choose to use the `[]` method.
response.object["1st-class"]
# Don't use `send` to access the property, this may not work in future
# versions.
response.object.send("1st-class")
In case you are forced to access a property through a method, you could choose to map irregular property names to method names globally for all models:
reynard.snake_cases({ "1st-class" => "first_class" })
This will allow you to access the property through the first_class
method without changing the behavior of the rest of the object.
response.object.first_class #=> false
response.object["1st-class"] #=> false
Don't use this to map common property names that would work fine otherwise, because you could make things really confusing.
# Don't do this.
reynard.snake_cases({ "name" => "naem" })
The current version of Reynard does not read or enforce the properties defined in the schema, instead it builds the response object based on the properties returned by the service. This was done deliberately to make it easier to access a server with a newer or older schema than the one used to build the Reynard instance.
In the code that means that you may have to check if you are receiving certain attributes, you can do this in a number of ways:
response.object.respond_to?(:name)
response.parsed_body["name"]
response.object["name"]
As noted earlier there is a deterministic way in which Reynard decides on a model name. This means that you can define the model name before Reynard gets to it.
The easiest way to find out how Reynard does this, is to actually perform the operation and look at the response. Let's look at an example where Reynard creates a Library
model:
response.object.class #=> Reynard::Models::Library
response.parsed_body #=> {"name" => "Alexandria"}
One way to ensure that the response object has the required attributes is to defined a valid?
method on it:
class Reynard
module Models
class Library < Reynard::Model
def valid?
(%w[name] - @attributes.keys).empty?
end
end
end
end
Next time you perform a request you can use your version of Library
:
if response.object.valid?
puts "The library is valid!"
else
puts "The library is not valid :-( #{response.parsed_object.inspect}"
end
Another way to do this is to override the attributes=
method.
def attributes=(attributes)
super # call super or nested attributes and other features will break
raise_invalid unless valid?
end
private
def raise_invalid
return if valid?
raise(
ArgumentError,
"Library may not be initialized without all required attributes."
)
end
A third way of dealing with optional attributes is to define an accessor yourself.
def name
@attributes.fetch("name") { "Unnnamed library" }
end
When you want to know what the Reynard client is doing you can enable logging.
logger = Logger.new($stdout)
logger.level = Logger::INFO
reynard.logger(logger).execute
The logging should be compatible with the Ruby on Rails logger.
reynard.logger(Rails.logger).execute
You can add request headers at any time to a Reynard context, these are additive so you can easily have global headers for all requests and specific ones for an operation.
reynard = reynard.headers(
{
"User-Agent" => "MyApplication/12.1.1 Reynard/#{Reynard::VERSION}",
"Accept" => "application/json"
}
)
You can turn on debug logging in Net::HTTP
by setting the DEBUG
environment variable. After setting this, all HTTP interaction will be written to STDERR.
env DEBUG=true ruby script.rb
Internally this will set http.debug_output = $stderr
on the HTTP object in the client.
You can mock Reynard requests by changing the HTTP implementation. The class must implement a single request
method that accepts an URI and net/http request object. It must return a net/http response object or an object with the exact same interface.
Reynard.http = MyMock.new
class MyMock
def request(uri, net_http_request)
Net::HTTPResponse::CODE_TO_OBJ['404'].new('HTTP/1.1', '200', 'OK')
end
end
See LICENCE.