Modeling beautiful JSON APIs with Ion

JSON is by far the most popular response format for APIs today. It’s not hard to see why: it’s easy for both humans and machines to read. Virtually all platforms and devices can read and write JSON, making it nearly as ubiquitous as HTML. JSON is unstructured and “squishy”, which makes it easy to model dynamic responses. (Maybe a little too easy.)

If you’re building an API, especially one with more than a few endpoints, you’ll likely want to adopt a schema or pattern for your responses. This could be as simple as one or two common response properties, or it could be a complex message envelope. Unlike XML, JSON doesn’t have a built-in way of defining a document schema (the downside of being unstructured and squishy).

There are a few popular ways to add schemas to JSON, but they all have drawbacks. In this post, I’ll examine some of those drawbacks, and show you how to use Ion to create intuitive, beautiful REST APIs.

Existing JSON schema formats

Schema-fied JSON comes in two basic flavors, depending on the goal: making JSON work more like XML, or facilitating HATEOAS. (HATEOAS is the core REST idea that APIs should express behavior as links in the response document. Read more in my introduction to HATEOAS.)

JSON-Schema falls into the first camp. If you need to define a strict, XSD-style message schema, JSON-Schema might be a good choice. It’s a little too heavy for my taste.

HAL, JSON-API, and Collection+JSON are examples of formats that help facilitate HATEOAS and linking in JSON APIs.

Both HAL and JSON-API documents tend to look like this:

{
  "_links": {
    "self": "https://api.example.io/posts/1",
    "next": "https://api.example.io/posts/2
  },
  // the rest of the document...
}

This results in documents with huge chunks of links tacked onto the top or bottom. Machines won’t care, but it’s awkward for humans to reason about. When was the last time you bundled up all the <a> tags at the bottom of your HTML document?

The Ion hypermedia type

There’s a new kid on the block called Ion (not to be confused with Amazon’s Ion serialization format). Ion describes itself as an intuitive JSON-based hypermedia type for REST. It’s currently being finalized and will be sent to the IETF as a formal draft soon.

Like HAL and JSON-API, Ion is meant to help facilitate HATEOAS in a JSON API. Unlike the others, it’s a very short and simple specification that puts a strong emphasis on being friendly to both humans and machines, while only adding a minimal amount of cruft to JSON.

Here’s a basic Ion document:

{
  "firstName": "Luke",
  "lastName": "Skywalker",
  "homeworld": "Tattooine"
}

In other words, any valid JSON is already valid Ion!

Linking between resources

Ion adds metadata to an existing JSON structure, but aims to do it in a minimal and clean way. For example, a link between resources is a simple object:

{
  "firstName": "Luke",
  "lastName": "Skywalker",
  "homeworld": { "href": "https://api.galaxy/planets/tattooine" }
}

Just like HTML, Ion links appear naturally in the document, where you’d expect them to.

Links can have additional metadata in the form of a link relation, such as self:

{
  "self": {
      "href": "https://api.galaxy/people/100",
      "rel": ["self"]
  },
  "firstName": "Luke",
  "lastName": "Skywalker",
  "homeworld": { "href": "https://api.galaxy/planets/tattooine" }
}

If you think of HATEOAS with the “API clients are like browsers” analogy, a link between resources is like an <a href="">, and a self-referential link is like the current location.

Because it’s common to include a self-referential link in responses, the Ion spec will implicitly assume a root href member has a self relation. This resource is equivalent to the one above:

{
  "href": "https://api.galaxy/people/100",
  "firstName": "Luke",
  "lastName": "Skywalker",
  "homeworld": { "href": "https://api.galaxy/planets/tattooine" }
}

Collections of resources

Ion also defines what collections (arrays) of resources should look like:

{
  "href": "https://api.galaxy/people"
  "rel": ["collection"],
  "value": [
    {
      "href": "https://api.galaxy/people/100",
      "firstName": "Luke",
      "lastName": "Skywalker",
      "homeworld": { "href": "https://api.galaxy/planets/tattooine" }
    },
    {
      "href": "https://api.galaxy/people/101",
      "firstName": "Han",
      "lastName": "Solo",
      "homeworld": { "href": "https://api.galaxy/planets/corellia" }
    }
  ]
}

It’s easy to extend this basic collection definition to include more behavior, such as pagination.

Conclusion

I really like Ion’s approach to minimal metadata. Links between resources is one half of the HATEOAS story, but to fully close the loop we also need a way to model state changes (such as creating or updating resources). I’ll cover one of Ion’s best features, Forms, in a future post.

If you want to get involved, the Ion Working Group is on GitHub and actively soliciting feedback on the formal Ion draft.