Rails::API is a subset of a normal Rails application, created for applications that don't require all functionality that a complete Rails application provides. It is a bit more lightweight, and consequently a bit faster than a normal Rails application. The main example for its usage is in API applications only, where you usually don't need the entire Rails middleware stack nor template generation.
Using Rails for API-only Apps
This is a quick walk-through to help you get up and running with Rails::API to create API-only Apps, covering:
- What Rails::API provides for API-only applications
- How to decide which middlewares you will want to include
- How to decide which modules to use in your controller
What is an API app?
Traditionally, when people said that they used Rails as an "API", they meant providing a programmatically accessible API alongside their web application. For example, GitHub provides an API that you can use from your own custom clients.
With the advent of client-side frameworks, more developers are using Rails to build a backend that is shared between their web application and other native applications.
For example, Twitter uses its public API in its web application, which is built as a static site that consumes JSON resources.
Instead of using Rails to generate dynamic HTML that will communicate with the server through forms and links, many developers are treating their web application as just another client, consuming a simple JSON API.
This guide covers building a Rails application that serves JSON resources to an API client or client-side framework.
Why use Rails for JSON APIs?
The first question a lot of people have when thinking about building a JSON API using Rails is: "isn't using Rails to spit out some JSON overkill? Shouldn't I just use something like Sinatra?"
For very simple APIs, this may be true. However, even in very HTML-heavy applications, most of an application's logic is actually outside of the view layer.
The reason most people use Rails is that it provides a set of defaults that allows us to get up and running quickly without having to make a lot of trivial decisions.
Let's take a look at some of the things that Rails provides out of the box that are still applicable to API applications.
Handled at the middleware layer:
- Reloading: Rails applications support transparent reloading. This works even if your application gets big and restarting the server for every request becomes non-viable.
- Development Mode: Rails application come with smart defaults for development, making development pleasant without compromising production-time performance.
- Test Mode: Ditto test mode.
- Logging: Rails applications log every request, with a level of verbosity appropriate for the current mode. Rails logs in development include information about the request environment, database queries, and basic performance information.
- Security: Rails detects and thwarts IP spoofing attacks and handles cryptographic signatures in a timing attack aware way. Don't know what an IP spoofing attack or a timing attack is? Exactly.
- Parameter Parsing: Want to specify your parameters as JSON instead of as a URL-encoded String? No problem. Rails will decode the JSON for you and make it available in params. Want to use nested URL-encoded params? That works too.
- Conditional GETs: Rails handles conditional GET, (ETag and Last-Modified), processing request headers and returning the correct response headers and status code. All you need to do is use the stale? check in your controller, and Rails will handle all of the HTTP details for you.
- Caching: If you use dirty? with public cache control, Rails will automatically cache your responses. You can easily configure the cache store.
- HEAD requests: Rails will transparently convert HEAD requests into GET requests, and return just the headers on the way out. This makes HEAD work reliably in all Rails APIs.
While you could obviously build these up in terms of existing Rack middlewares, I think this list demonstrates that the default Rails middleware stack provides a lot of value, even if you're "just generating JSON".
Handled at the ActionPack layer:
- Resourceful Routing: If you're building a RESTful JSON API, you want to be using the Rails router. Clean and conventional mapping from HTTP to controllers means not having to spend time thinking about how to model your API in terms of HTTP.
- URL Generation: The flip side of routing is URL generation. A good API based on HTTP includes URLs (see the GitHub gist API for an example).
- Header and Redirection Responses:
redirect_to user_url(current_user)come in handy. Sure, you could manually add the response headers, but why?
- Caching: Rails provides page, action and fragment caching. Fragment caching is especially helpful when building up a nested JSON object.
- Basic, Digest and Token Authentication: Rails comes with out-of-the-box support for three kinds of HTTP authentication.
- Instrumentation: Rails 3.0 added an instrumentation API that will trigger registered handlers for a variety of events, such as action processing, sending a file or data, redirection, and database queries. The payload of each event comes with relevant information (for the action processing event, the payload includes the controller, action, params, request format, request method and the request's full path).
- Generators: This may be passé for advanced Rails users, but it can be nice to generate a resource and get your model, controller, test stubs, and routes created for you in a single command.
- Plugins: Many third-party libraries come with support for Rails that reduces or eliminates the cost of setting up and gluing together the library and the web framework. This includes things like overriding default generators, adding rake tasks, and honoring Rails choices (like the logger and cache backend).
Of course, the Rails boot process also glues together all registered components. For example, the Rails boot process is what uses your config/database.yml file when configuring ActiveRecord.
The short version is: you may not have thought about which parts of Rails are still applicable even if you remove the view layer, but the answer turns out to be "most of it".
The Basic Configuration
If you're building a Rails application that will be an API server first and foremost, you can start with a more limited subset of Rails and add in features as needed.
For new apps
Install the gem if you haven't already:
gem install rails-api
Then generate a new Rails::API app:
rails-api new my_api
This will do two main things for you:
- Make ApplicationController inherit from ActionController::API instead of ActionController::Base. As with middleware, this will leave out any ActionController modules that provide functionality primarily used by browser applications.
- Configure the generators to skip generating views, helpers and assets when you generate a new resource.
For already existing apps
If you want to take an existing app and make it a Rails::API app, you'll have to do some quick setup manually.
Add the gem to your Gemfile:
bundle to install the gem.
# instead of class ApplicationController < ActionController::Base end # do class ApplicationController < ActionController::API end
And comment out the
protect_from_forgery call if you are using it.
An api application comes with the following middlewares by default.
- Rack::Cache: Caches responses with public Cache-Control headers using HTTP caching semantics.
- Rack::Sendfile: Uses a front-end server's file serving support from your Rails application.
- Rack::Lock: If your application is not marked as threadsafe (
config.threadsafe!), this middleware will add a mutex around your requests.
- Rack::Runtime: Adds a header to the response listing the total runtime of the request.
- ActionDispatch::ShowExceptions: Rescue exceptions and re-dispatch them to an exception handling application.
- ActionDispatch::DebugExceptions: Log exceptions.
- ActionDispatch::RemoteIp: Protect against IP spoofing attacks.
- ActionDispatch::Reloader: In development mode, support code reloading.
- ActionDispatch::ParamsParser: Parse XML, YAML and JSON parameters when the request's Content-Type is one of those.
- ActionDispatch::Head: Dispatch HEAD requests as GET requests, and return only the status code and headers.
- Rack::ConditionalGet: Supports the
stale?feature in Rails controllers.
- Rack::ETag: Automatically set an ETag on all string responses. This means that if the same response is returned from a controller for the same URL, the server will return a 304 Not Modified, even if no additional caching steps are taken. This is primarily a client-side optimization; it reduces bandwidth costs but not server processing time.
Other plugins, including ActiveRecord, may add additional middlewares. In general, these middlewares are agnostic to the type of app you are building, and make sense in an API-only Rails application.
You can get a list of all middlewares in your application via:
Rails ships with a number of other middlewares that you might want to use in an API app, especially if one of your API clients is the browser:
- Rack::MethodOverride: Allows the use of the _method hack to route POST requests to other verbs.
- ActionDispatch::Cookies: Supports the cookie method in ActionController, including support for signed and encrypted cookies.
- ActionDispatch::Flash: Supports the flash mechanism in ActionController.
- ActionDispatch::BestStandards: Tells Internet Explorer to use the most standards-compliant available renderer. In production mode, if ChromeFrame is available, use ChromeFrame.
- Session Management: If a config.session_store is supplied, this middleware makes the session available as the session method in ActionController.
Any of these middlewares can be added via:
If you don't want to use a middleware that is included by default in the api middleware set, you can remove it using config.middleware.delete:
Keep in mind that removing these features may remove support for certain features in ActionController.
Choosing Controller Modules
An api application (using ActionController::API) comes with the following controller modules by default:
- ActionController::UrlFor: Makes url_for and friends available
- ActionController::Redirecting: Support for redirect_to
- ActionController::Rendering: Basic support for rendering
- ActionController::Renderers::All: Support for render :json and friends
- ActionController::ConditionalGet: Support for stale?
- ActionController::ForceSSL: Support for force_ssl
- ActionController::RackDelegation: Support for the request and response methods returning ActionDispatch::Request and ActionDispatch::Response objects.
- ActionController::DataStreaming: Support for send_file and send_data
- AbstractController::Callbacks: Support for before_filter and friends
- ActionController::Instrumentation: Support for the instrumentation hooks defined by ActionController (see the source for more).
- ActionController::Rescue: Support for rescue_from.
Other plugins may add additional modules. You can get a list of all modules included into ActionController::API in the rails console:
ActionController::API.ancestors - ActionController::Metal.ancestors
Adding Other Modules
All Action Controller modules know about their dependent modules, so you can feel free to include any modules into your controllers, and all dependencies will be included and set up as well.
Some common modules you might want to add:
- AbstractController::Translation: Support for the l and t localization and translation methods. These delegate to I18n.translate and I18n.localize.
- ActionController::HttpAuthentication::Basic (or Digest or Token): Support for basic, digest or token HTTP authentication.
- AbstractController::Layouts: Support for layouts when rendering.
- ActionController::MimeResponds: Support for content negotiation (respond_to, respond_with).
- ActionController::Cookies: Support for cookies, which includes support for signed and encrypted cookies. This requires the cookie middleware.
The best place to add a module is in your ApplicationController. You can also add modules to individual controllers.
- Fork it
- Create your feature branch (
git checkout -b my-new-feature)
- Commit your changes (
git commit -am 'Added some feature')
- Push to the branch (
git push origin my-new-feature)
- Create new Pull Request
- Santiago Pastorino (https://github.com/spastorino)
- Carlos Antonio da Silva (https://github.com/carlosantoniodasilva)