Swagger tooling for Rails API's. Generate beautiful API documentation, including a UI to explore and test operations, directly from your rspec integration tests.
Rswag extends rspec-rails "request specs" with a Swagger-based DSL for describing and testing API operations. You describe your API operations with a succinct, intuitive syntax, and it automaticaly runs the tests. Once you have green tests, run a rake task to auto-generate corresponding Swagger files and expose them as JSON endpoints. Rswag also provides an embedded version of the awesome swagger-ui that's powered by the exposed JSON. This toolchain makes it seamless to go from integration specs, which youre probably doing in some form already, to living documentation for your API consumers.
And that's not all ...
Once you have an API that can describe itself in Swagger, you've opened the treasure chest of Swagger-based tools including a client generator that can be targeted to a wide range of popular platforms. See swagger-codegen for more details.
Rswag Version | Swagger (OpenAPI) Spec. | swagger-ui |
---|---|---|
master | 2.0 | 3.17.3 |
2.0.5 | 2.0 | 3.17.3 |
1.6.0 | 2.0 | 2.2.5 |
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Add this line to your applications Gemfile:
gem 'rswag'
or if you like to avoid loading rspec in other bundler groups.
# Gemfile gem 'rswag-api' gem 'rswag-ui' group :test do gem 'rspec-rails' gem 'rswag-specs' end
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Run the install generator
rails g rswag:install
Or run the install generators for each package separately if you installed Rswag as separate gems, as indicated above:
rails g rswag:api:install rswag:ui:install RAILS_ENV=test rails g rswag:specs:install
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Create an integration spec to describe and test your API.
# spec/integration/blogs_spec.rb require 'swagger_helper' describe 'Blogs API' do path '/blogs' do post 'Creates a blog' do tags 'Blogs' consumes 'application/json', 'application/xml' parameter name: :blog, in: :body, schema: { type: :object, properties: { title: { type: :string }, content: { type: :string } }, required: [ 'title', 'content' ] } response '201', 'blog created' do let(:blog) { { title: 'foo', content: 'bar' } } run_test! end response '422', 'invalid request' do let(:blog) { { title: 'foo' } } run_test! end end end path '/blogs/{id}' do get 'Retrieves a blog' do tags 'Blogs' produces 'application/json', 'application/xml' parameter name: :id, :in => :path, :type => :string response '200', 'blog found' do schema type: :object, properties: { id: { type: :integer }, title: { type: :string }, content: { type: :string } }, required: [ 'id', 'title', 'content' ] let(:id) { Blog.create(title: 'foo', content: 'bar').id } run_test! end response '404', 'blog not found' do let(:id) { 'invalid' } run_test! end response '406', 'unsupported accept header' do let(:'Accept') { 'application/foo' } run_test! end end end end
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Generate the Swagger JSON file(s)
rake rswag:specs:swaggerize
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Spin up your app and check out the awesome, auto-generated docs at /api-docs!
If you've used Swagger before, then the syntax should be very familiar. To describe your API operations, start by specifying a path and then list the supported operations (i.e. HTTP verbs) for that path. Path parameters must be surrounded by curly braces ({}). Within an operation block (see "post" or "get" in the example above), most of the fields supported by the Swagger "Operation" object are available as methods on the example group. To list (and test) the various responses for an operation, create one or more response blocks. Again, you can reference the Swagger "Response" object for available fields.
Take special note of the run_test! method that's called within each response block. This tells rswag to create and execute a corresponding example. It builds and submits a request based on parameter descriptions and corresponding values that have been provided using the rspec "let" syntax. For example, the "post" description in the example above specifies a "body" parameter called "blog". It also lists 2 different responses. For the success case (i.e. the 201 response), notice how "let" is used to set the blog parameter to a value that matches the provided schema. For the failure case (i.e. the 422 response), notice how it's set to a value that does not match the provided schema. When the test is executed, rswag also validates the actual response code and, where applicable, the response body against the provided JSON Schema.
If you want to do additional validation on the response, pass a block to the run_test! method:
response '201', 'blog created' do
run_test! do |response|
data = JSON.parse(response.body)
expect(data['title']).to eq('foo')
end
end
If you'd like your specs to be a little more explicit about what's going on here, you can replace the call to run_test! with equivalent "before" and "it" blocks:
response '201', 'blog created' do
let(:blog) { { title: 'foo', content: 'bar' } }
before do |example|
submit_request(example.metadata)
end
it 'returns a valid 201 response' do |example|
assert_response_matches_metadata(example.metadata)
end
end
This library is currently using JSON::Draft4 for validation of response models. It does not support null as a value. So you can add the property 'x-nullable' to a definition to allow null/nil values to pass.
describe 'Blogs API' do
path '/blogs' do
post 'Creates a blog' do
...
response '200', 'blog found' do
schema type: :object,
properties: {
id: { type: :integer },
title: { type: :string },
content: { type: :string, 'x-nullable': true }
}
....
end
end
end
end
Note: the OAI v3 may be released soon(ish?) and include a nullable property. This may have an effect on the need/use of custom extension to the draft. Do not use this property if you don't understand the implications. OAI/OpenAPI-Specification#229 (comment)
In addition to paths, operations and responses, Swagger also supports global API metadata. When you install rswag, a file called swagger_helper.rb is added to your spec folder. This is where you define one or more Swagger documents and provide global metadata. Again, the format is based on Swagger so most of the global fields supported by the top level "Swagger" object can be provided with each document definition. As an example, you could define a Swagger document for each version of your API and in each case specify a title, version string and URL basePath:
# spec/swagger_helper.rb
RSpec.configure do |config|
config.swagger_root = Rails.root.to_s + '/swagger'
config.swagger_docs = {
'v1/swagger.json' => {
swagger: '2.0',
info: {
title: 'API V1',
version: 'v1',
description: 'This is the first version of my API'
},
basePath: '/api/v1'
},
'v2/swagger.json' => {
swagger: '2.0',
info: {
title: 'API V2',
version: 'v2',
description: 'This is the second version of my API'
},
basePath: '/api/v2'
}
}
end
By default, the paths, operations and responses defined in your spec files will be associated with the first Swagger document in swagger_helper.rb. If your API has multiple versions, you should be using separate documents to describe each of them. In order to assign a file with a given version of API, you'll need to add the swagger_doc
tag to each spec specifying its target document name:
# spec/integration/v2/blogs_spec.rb
describe 'Blogs API', swagger_doc: 'v2/swagger.json' do
path '/blogs' do
...
path '/blogs/{id}' do
...
end
Swagger supports the Markdown syntax to format strings. This can be especially handy if you were to provide a long description of a given API version or endpoint. Use this guide for reference.
NOTE: There is one difference between the official Markdown syntax and Swagger interpretation, namely tables. To create a table like this:
Column1 | Collumn2 |
---|---|
cell1 | cell2 |
you should use the folowing syntax, making sure there are no whitespaces at the start of any of the lines:
| Column1 | Collumn2 |
| ------- | -------- |
| cell1 | cell2 |
Swagger allows for the specification of different security schemes and their applicability to operations in an API. To leverage this in rswag, you define the schemes globally in swagger_helper.rb and then use the "security" attribute at the operation level to specify which schemes, if any, are applicable to that operation. Swagger supports :basic, :apiKey and :oauth2 scheme types. See the spec for more info.
# spec/swagger_helper.rb
RSpec.configure do |config|
config.swagger_root = Rails.root.to_s + '/swagger'
config.swagger_docs = {
'v1/swagger.json' => {
...
securityDefinitions: {
basic: {
type: :basic
},
apiKey: {
type: :apiKey,
name: 'api_key',
in: :query
}
}
}
}
end
# spec/integration/blogs_spec.rb
describe 'Blogs API' do
path '/blogs' do
post 'Creates a blog' do
tags 'Blogs'
security [ basic: [] ]
...
response '201', 'blog created' do
let(:Authorization) { "Basic #{::Base64.strict_encode64('jsmith:jspass')}" }
run_test!
end
response '401', 'authentication failed' do
let(:Authorization) { "Basic #{::Base64.strict_encode64('bogus:bogus')}" }
run_test!
end
end
end
end
NOTE: Depending on the scheme types, you'll be required to assign a corresponding parameter value with each example. For example, :basic auth is required above and so the :Authorization (header) parameter must be set accordingly
The steps described above will get you up and running with minimal setup. However, rswag offers a lot of flexibility to customize as you see fit. Before exploring the various options, you'll need to be aware of it's different components. The following table lists each of them and the files that get added/updated as part of a standard install.
Gem | Description | Added/Updated |
---|---|---|
rswag-specs | Swagger-based DSL for rspec & accompanying rake task for generating Swagger files | spec/swagger_helper.rb |
rswag-api | Rails Engine that exposes your Swagger files as JSON endpoints | config/initializers/rswag-api.rb, config/routes.rb |
rswag-ui | Rails Engine that includes swagger-ui and powers it from your Swagger endpoints | config/initializers/rswag-ui.rb, config/routes.rb |
You can adjust this in the swagger_helper.rb that's installed with rswag-specs:
# spec/swagger_helper.rb
RSpec.configure do |config|
config.swagger_root = Rails.root.to_s + '/your-custom-folder-name'
...
end
NOTE: If you do change this, you'll also need to update the rswag-api.rb initializer (assuming you're using rswag-api). More on this later.
Swagger allows you to describe JSON structures inline with your operation descriptions OR as referenced globals. For example, you might have a standard response structure for all failed operations. Rather than repeating the schema in every operation spec, you can define it globally and provide a reference to it in each spec:
# spec/swagger_helper.rb
config.swagger_docs = {
'v1/swagger.json' => {
swagger: '2.0',
info: {
title: 'API V1'
},
definitions: {
errors_object: {
type: 'object',
properties: {
errors: { '$ref' => '#/definitions/errors_map' }
}
},
errors_map: {
type: 'object',
additionalProperties: {
type: 'array',
items: { type: 'string' }
}
}
}
}
}
# spec/integration/blogs_spec.rb
describe 'Blogs API' do
path '/blogs' do
post 'Creates a blog' do
response 422, 'invalid request' do
schema '$ref' => '#/definitions/errors_object'
...
end
# spec/integration/comments_spec.rb
describe 'Blogs API' do
path '/blogs/{blog_id}/comments' do
post 'Creates a comment' do
response 422, 'invalid request' do
schema '$ref' => '#/definitions/errors_object'
...
end
In Rswag, you could use header
method inside the response block to specify header objects for this response. Rswag will validate your response headers with those header objects and inject them into the generated swagger file:
# spec/integration/comments_spec.rb
describe 'Blogs API' do
path '/blogs/{blog_id}/comments' do
post 'Creates a comment' do
response 422, 'invalid request' do
header 'X-Rate-Limit-Limit', type: :integer, description: 'The number of allowed requests in the current period'
header 'X-Rate-Limit-Remaining', type: :integer, description: 'The number of remaining requests in the current period'
...
end
You can provide custom response examples to the generated swagger file by calling the method examples
inside the response block:
# spec/integration/blogs_spec.rb
describe 'Blogs API' do
path '/blogs/{blog_id}' do
get 'Retrieves a blog' do
response 200, 'blog found' do
examples 'application/json' => {
id: 1,
title: 'Hello world!',
content: '...'
}
...
end
To enable examples generation from responses add callback above run_test! like:
after do |example|
example.metadata[:response][:examples] = { 'application/json' => JSON.parse(response.body, symbolize_names: true) }
end
You need to disable --dry-run option for Rspec > 3
Add to application.rb:
RSpec.configure do |config|
config.swagger_dry_run = false
end
The functionality to expose Swagger files, such as those generated by rswag-specs, as JSON endpoints is implemented as a Rails Engine. As with any Engine, you can change it's mount prefix in routes.rb:
TestApp::Application.routes.draw do
...
mount Rswag::Api::Engine => 'your-custom-prefix'
end
Assuming a Swagger file exists at <swagger_root>/v1/swagger.json, this configuration would expose the file as the following JSON endpoint:
GET http://<hostname>/your-custom-prefix/v1/swagger.json
You can adjust this in the rswag-api.rb initializer that's installed with rspec-api:
Rswag::Api.configure do |c|
c.swagger_root = Rails.root.to_s + '/your-custom-folder-name'
...
end
NOTE: If you're using rswag-specs to generate Swagger files, you'll want to ensure they both use the same <swagger_root>. The reason for separate settings is to maintain independence between the two gems. For example, you could install rswag-api independently and create your Swagger files manually.
There may be cases where you need to add dynamic values to the Swagger JSON that's returned by rswag-api. For example, you may want to provide an explicit host name. Rather than hardcoding it, you can configure a filter that's executed prior to serializing every Swagger document:
Rswag::Api.configure do |c|
...
c.swagger_filter = lambda { |swagger, env| swagger['host'] = env['HTTP_HOST'] }
end
Note how the filter is passed the rack env for the current request. This provides a lot of flexibilty. For example, you can assign the "host" property (as shown) or you could inspect session information or an Authoriation header and remove operations based on user permissions.
You can update the rswag-ui.rb initializer, installed with rswag-ui, to specify which Swagger endpoints should be available to power the documentation UI. If you're using rswag-api, these should correspond to the Swagger endpoints it exposes. When the UI is rendered, you'll see these listed in a drop-down to the top right of the page:
Rswag::Ui.configure do |c|
c.swagger_endpoint '/api-docs/v1/swagger.json', 'API V1 Docs'
c.swagger_endpoint '/api-docs/v2/swagger.json', 'API V2 Docs'
end
Similar to rswag-api, you can customize the swagger-ui path by changing it's mount prefix in routes.rb:
TestApp::Application.routes.draw do
...
mount Rswag::Api::Engine => 'api-docs'
mount Rswag::Ui::Engine => 'your-custom-prefix'
end
The swagger-ui provides several options for customizing it's behavior, all of which are documented here https://github.com/swagger-api/swagger-ui/tree/2.x#swaggerui. If you need to tweak these or customize the overall look and feel of your swagger-ui, then you'll need to provide your own version of index.html. You can do this with the following generator.
rails g rswag:ui:custom
This will add a local version that you can modify at app/views/rswag/ui/home/index.html.erb
Rswag ships with an embedded version of the swagger-ui, which is a static collection of JavaScript and CSS files. These assets are served by the rswag-ui middleware. However, for optimal performance you may want to serve them directly from your web server (e.g. Apache or NGINX). To do this, you'll need to copy them to the web server root. This is the "public" folder in a typical Rails application.
bundle exec rake rswag:ui:copy_assets[public/api-docs]
NOTE:: The provided subfolder MUST correspond to the UI mount prefix - "api-docs" by default.