View Source JSON and APIs

Requirement: This guide expects that you have gone through the introductory guides and got a Phoenix application up and running.

Requirement: This guide expects that you have gone through the Controllers guide.

You can also use the Phoenix Framework to build Web APIs. By default Phoenix supports JSON but you can bring any other rendering format you desire.

the-json-api

The JSON API

For this guide let's create a simple JSON API to store our favourite links, that will support all the CRUD (Create, Read, Update, Delete) operations out of the box.

For this guide, we will use Phoenix generators to scaffold our API infrastructure:

mix phx.gen.json Urls Url urls link:string title:string
* creating lib/hello_web/controllers/url_controller.ex
* creating lib/hello_web/controllers/url_json.ex
* creating lib/hello_web/controllers/changeset_json.ex
* creating test/hello_web/controllers/url_controller_test.exs
* creating lib/hello_web/controllers/fallback_controller.ex
* creating lib/hello/urls/url.ex
* creating priv/repo/migrations/20221129120234_create_urls.exs
* creating lib/hello/urls.ex
* injecting lib/hello/urls.ex
* creating test/hello/urls_test.exs
* injecting test/hello/urls_test.exs
* creating test/support/fixtures/urls_fixtures.ex
* injecting test/support/fixtures/urls_fixtures.ex

We will break those files into four categories:

  • Files in lib/hello_web responsible for effectively rendering JSON
  • Files in lib/hello responsible for defining our context and logic to persist links to the database
  • Files in priv/repo/migrations responsible for updating our database
  • Files in test to test our controllers and contexts

In this guide, we will explore only the first category of files. To learn more about how Phoenix stores and manage data, check out the Ecto guide and the Contexts guide for more information. We also have a whole section dedicating on testing.

At the end, the generator asks us to add the /url resource to our :api scope in lib/links_web/router.ex:

scope "/api", LinksWeb do
  pipe_through :api
  resources "/urls", UrlController, except: [:new, :edit]
end

The API scope uses the :api pipeline, which will run specific steps such as ensuring the client can handle JSON responses.

Then we need to update our repository by running migrations:

mix ecto.migrate

trying-out-the-json-api

Trying out the JSON API

Before we go ahead and change those files, let's take a look at how our API behaves from the command line.

First, we need to start the server:

mix phx.server

Next, let's make a smoke test to check our API is working with:

curl -i http://localhost:4000/api/urls

If everything went as planned we should get a 200 response:

HTTP/1.1 200 OK
cache-control: max-age=0, private, must-revalidate
content-length: 11
content-type: application/json; charset=utf-8
date: Fri, 06 May 2022 21:22:42 GMT
server: Cowboy
x-request-id: Fuyg-wMl4S-hAfsAAAUk

{"data":[]}

We didn't get any data because we haven't populated the database with any yet. So let's add some links:

curl -iX POST http://localhost:4000/api/urls \
   -H 'Content-Type: application/json' \
   -d '{"url": {"link":"https://phoenixframework.org", "title":"Phoenix Framework"}}'

curl -iX POST http://localhost:4000/api/urls \
   -H 'Content-Type: application/json' \
   -d '{"url": {"link":"https://elixir-lang.org", "title":"Elixir"}}'

Now we can retrieve all links:

curl -i http://localhost:4000/api/urls

Or we can just retrieve a link it's id:

curl -i http://localhost:4000/api/urls/1

Next, we can update a link with:

curl -iX PUT http://localhost:4000/api/urls/2 \
   -H 'Content-Type: application/json' \
   -d '{"url": {"title":"Elixir Programming Language"}}'

The response should be a 200 with the update link in the body.

Finally, we need to try out the removal of a link:

curl -iX DELETE http://localhost:4000/api/urls/2 \
   -H 'Content-Type: application/json'

A 204 response should be returned to indicate the successful removal of the link.

rendering-json

Rendering JSON

To understand how to render JSON, let's start with the index action from UrlController defined at lib/hello_web/controllers/url_controller.ex:

  def index(conn, _params) do
    urls = Urls.list_urls()
    render(conn, :index, urls: urls)
  end

As we can see, this is not any different from how Phoenix renders HTML templates. We call render/3, passing the connection, the template we want our views to render (:index), and the data we want to make available to our views.

Phoenix typically uses one view per rendering format. When rendering HTML, we would use HelloHTML. Now that we are rendering JSON, we will find a UrlJSON view collocated with the template at lib/hello_web/controllers/url_json.ex. Let's open it up:

defmodule HelloWeb.UrlJSON do
  alias Hello.Urls.Url

  @doc """
  Renders a list of urls.
  """
  def index(%{urls: urls}) do
    %{data: for(url <- urls, do: data(url))}
  end

  @doc """
  Renders a single url.
  """
  def show(%{url: url}) do
    %{data: data(url)}
  end

  defp data(%Url{} = url) do
    %{
      id: url.id,
      link: url.link,
      title: url.title
    }
  end
end

This view is very simple. The index function receives all URLs, and converts them into a list of maps. Those maps are placed inside the data key at the root, exactly as we saw when interfacing with our application from cURL. In other words, our JSON view converts our complex data into simple Elixir data-structures. Once our view layer returns, Phoenix uses the Jason library to encode JSON and send the response to the client.

If you explore the remaining the controller, you will learn the show action is similar to the index one. For create, update, and delete actions, Phoenix uses one other important feature, called "Action fallback".

action-fallback

Action fallback

Action fallback allows us to centralize error handling code in plugs, which are called when a controller action fails to return a %Plug.Conn{} struct. These plugs receive both the conn which was originally passed to the controller action along with the return value of the action.

Let's say we have a show action which uses with to fetch a blog post and then authorize the current user to view that blog post. In this example we might expect fetch_post/1 to return {:error, :not_found} if the post is not found and authorize_user/3 might return {:error, :unauthorized} if the user is unauthorized. We could use our ErrorHTML and ErrorJSON views which are generated by Phoenix for every new application to handle these error paths accordingly:

defmodule HelloWeb.MyController do
  use Phoenix.Controller

  def show(conn, %{"id" => id}, current_user) do
    with {:ok, post} <- fetch_post(id),
         :ok <- authorize_user(current_user, :view, post) do
      render(conn, :show, post: post)
    else
      {:error, :not_found} ->
        conn
        |> put_status(:not_found)
        |> put_view(html: HelloWeb.ErrorHTML, json: HelloWeb.ErrorJSON)
        |> render(:"404")

      {:error, :unauthorized} ->
        conn
        |> put_status(403)
        |> put_view(html: HelloWeb.ErrorHTML, json: HelloWeb.ErrorJSON)
        |> render(:"403")
    end
  end
end

Now imagine you may need to implement similar logic for every controller and action handled by your API. This would result in a lot of repetition.

Instead we can define a module plug which knows how to handle these error cases specifically. Since controllers are module plugs, let's define our plug as a controller:

defmodule HelloWeb.MyFallbackController do
  use Phoenix.Controller

  def call(conn, {:error, :not_found}) do
    conn
    |> put_status(:not_found)
    |> put_view(json: HelloWeb.ErrorJSON)
    |> render(:"404")
  end

  def call(conn, {:error, :unauthorized}) do
    conn
    |> put_status(403)
    |> put_view(json: HelloWeb.ErrorJSON)
    |> render(:"403")
  end
end

Then we can reference our new controller as the action_fallback and simply remove the else block from our with:

defmodule HelloWeb.MyController do
  use Phoenix.Controller

  action_fallback HelloWeb.MyFallbackController

  def show(conn, %{"id" => id}, current_user) do
    with {:ok, post} <- fetch_post(id),
         :ok <- authorize_user(current_user, :view, post) do
      render(conn, :show, post: post)
    end
  end
end

Whenever the with conditions do not match, HelloWeb.MyFallbackController will receive the original conn as well as the result of the action and respond accordingly.

fallbackcontroller-and-changesetjson

FallbackController and ChangesetJSON

With this knowledge in hand, we can explore the FallbackController (lib/hello_web/controllers/fallback_controller.ex) generated by mix phx.gen.json. In particular, it handles one clause (the other is generated as an example):

  def call(conn, {:error, %Ecto.Changeset{} = changeset}) do
    conn
    |> put_status(:unprocessable_entity)
    |> put_view(json: HelloWeb.ChangesetJSON)
    |> render("error.json", changeset: changeset)
  end

The goal of this clause is to handle the {:error, changeset} return types from the HelloWeb.Urls context and render them into rendered errors via the ChangesetJSON view. Let's open up lib/hello_web/controllers/changeset_json.ex to learn more:

defmodule HelloWeb.ChangesetJSON do
  @doc """
  Renders changeset errors.
  """
  def error(%{changeset: changeset}) do
    # When encoded, the changeset returns its errors
    # as a JSON object. So we just pass it forward.
    %{errors: Ecto.Changeset.traverse_errors(changeset, &HelloWeb.CoreComponents.translate_error/1)}
  end
end

As we can see, it will convert the errors into a data structure, which will be rendered as JSON. The changeset is a data structure responsible for casting and validating data. For our example, it is defined in Hello.Urls.Url.changeset/1. Let's open up lib/hello/urls/url.ex and see its definition:

  @doc false
  def changeset(url, attrs) do
    url
    |> cast(attrs, [:link, :title])
    |> validate_required([:link, :title])
  end

As you can see, the changeset requires both link and title to be given. This means we can try posting a url with no link and title and see how our API responds:

curl -iX POST http://localhost:4000/api/urls \
   -H 'Content-Type: application/json' \
   -d '{"url": {}}'

{"errors": {"link": ["can't be blank"], "title": ["can't be blank"]}}

Feel free to modify the changeset function and see how your API behaves.

api-only-applications

API-only applications

In case you want to generate a Phoenix application exclusively for APIs, you can pass several options when invoking mix phx.new. Let's check which --no-* flags we need to use to not generate the scaffolding that isn't necessary on our Phoenix application for the REST API.

From your terminal run:

mix help phx.new

The output should contain the following:

  • --no-assets - do not generate the assets folder
  • --no-ecto - do not generate Ecto files
  • --no-html - do not generate HTML views
  • --no-gettext - do not generate gettext files
  • --no-dashboard - do not include Phoenix.LiveDashboard
  • --no-mailer - do not generate Swoosh mailer files

The --no-html is the obvious one we want to use when creating any Phoenix application for an API in order to leave out all the unnecessary HTML scaffolding. You may also pass --no-assets, if you don't want any of the asset management bit, --no-gettext if you don't support internationalization, and so on.

Also bear in mind that nothing stops you to have a backend that supports simultaneously the REST API and a Web App (HTML, assets, internationalization and sockets).