Adapters-based API serializers with Hypermedia support for Ruby apps. Read the blog post for context and motivation.
Oat lets you design your API payloads succinctly while conforming to your media type of choice (hypermedia or not). The details of the media type are dealt with by pluggable adapters.
Oat ships with adapters for HAL, Siren and JsonAPI, and it's easy to write your own.
A serializer describes one or more of your API's entities.
You extend from Oat::Serializer to define your own serializers.
require 'oat/adapters/hal'
class ProductSerializer < Oat::Serializer
adapter Oat::Adapters::HAL
schema do
type "product"
link :self, href: product_url(item)
properties do |props|
props.title item.title
props.price item.price
props.description item.blurb
end
end
end
Then in your app (for example a Rails controller)
product = Product.find(params[:id])
render json: ProductSerializer.new(product)
Serializers require a single object as argument, which can be a model instance, a presenter or any other domain object.
The full serializer signature is item
, context
, adapter_class
.
item
a model or presenter instance. It is available in your serializer's schema asitem
.context
(optional) a context hash that is passed to the serializer and sub-serializers as thecontext
variable. Useful if you need to pass request-specific data.adapter_class
(optional) A serializer's adapter can be configured at class-level or passed here to the initializer. Useful if you want to switch adapters based on request data. More on this below.
There are a few different ways of defining properties on a serializer.
Properties can be added explicitly using property
. In this case, you can map an arbitrary value to an arbitrary key:
require 'oat/adapters/hal'
class ProductSerializer < Oat::Serializer
adapter Oat::Adapters::HAL
schema do
type "product"
link :self, href: product_url(item)
property :title, item.title
property :price, item.price
property :description, item.blurb
property :the_number_one, 1
end
end
Similarly, properties can be added within a block using properties
to be more concise or make the code more readable. Again, these will set arbitrary values for arbitrary keys:
require 'oat/adapters/hal'
class ProductSerializer < Oat::Serializer
adapter Oat::Adapters::HAL
schema do
type "product"
link :self, href: product_url(item)
properties do |p|
p.title item.title
p.price item.price
p.description item.blurb
p.the_number_one 1
end
end
end
In many cases, you will want to simply map the properties of item
to a property in the serializer. This can be easily done using map_properties
. This method takes a list of method or attribute names to which item
will respond. Note that you cannot assign arbitrary values and keys using map_properties
- the serializer will simply add a key and call that method on item
to assign the value.
require 'oat/adapters/hal'
class ProductSerializer < Oat::Serializer
adapter Oat::Adapters::HAL
schema do
type "product"
link :self, href: product_url(item)
map_properties :title, :price
property :description, item.blurb
property :the_number_one, 1
end
end
Links to other resources can be added by using link
with a name and an options hash. Most adapters expect just an href in the options hash, but some might support additional properties.
Some adapters also suport passing templated: true
in the options hash to indicate special treatment of a link template.
You can add meta-information about your JSON document via meta :property, "value"
. When using the JsonAPI adapter these properties are rendered in a top level "meta" node. When using the HAL or Siren adapters meta
just acts as an alias to property
, so the properties are rendered like normal properties.
Using the included HAL adapter, the ProductSerializer
above would render the following JSON:
{
"_links": {
"self": {"href": "http://example.com/products/1"}
},
"title": "Some product",
"price": 1000,
"description": "..."
}
You can easily swap adapters. The same ProductSerializer
, this time using the Siren adapter:
adapter Oat::Adapters::Siren
... Renders this JSON:
{
"class": ["product"],
"links": [
{ "rel": [ "self" ], "href": "http://example.com/products/1" }
],
"properties": {
"title": "Some product",
"price": 1000,
"description": "..."
}
}
At the moment Oat ships with adapters for HAL, Siren and JsonAPI, but it's easy to write your own.
Note: Oat adapters are not required by default. Your code should explicitly require the ones it needs:
# HAL
require 'oat/adapters/hal'
# Siren
require 'oat/adapters/siren'
# JsonAPI
require 'oat/adapters/json_api'
Adapters can also be passed as an argument to serializer instances.
ProductSerializer.new(product, nil, Oat::Adapters::HAL)
That means that your app could switch adapters on run time depending, for example, on the request's Accept
header or anything you need.
Note: a different library could be written to make adapter-switching auto-magical for different frameworks, for example using Responders in Rails. Also see Rails Integration.
It's common for a media type to include "embedded" entities within a payload. For example an account
entity may have many users
. An Oat serializer can inline such relationships:
class AccountSerializer < Oat::Serializer
adapter Oat::Adapters::HAL
schema do
property :id, item.id
property :status, item.status
# user entities
entities :users, item.users do |user, user_serializer|
user_serializer.properties do |props|
props.name user.name
props.email user.email
end
end
end
end
Another, more reusable option is to use a nested serializer. Instead of a block, you pass another serializer class that will handle serializing user
entities.
class AccountSerializer < Oat::Serializer
adapter Oat::Adapters::HAL
schema do
property :id, item.id
property :status, item.status
# user entities
entities :users, item.users, UserSerializer
end
end
And the UserSerializer
may look like this:
class UserSerializer < Oat::Serializer
adapter Oat::Adapters::HAL
schema do
property :name, item.name
property :email, item.name
end
end
In the user serializer, item
refers to the user instance being wrapped by the serializer.
The bundled hypermedia adapters ship with an entities
method to add arrays of entities, and an entity
method to add a single entity.
# single entity
entity :child, item.child do |child, s|
s.name child.name
s.id child.id
end
# list of entities
entities :children, item.children do |child, s|
s.name child.name
s.id child.id
end
Both can be expressed using a separate serializer:
# single entity
entity :child, item.child, ChildSerializer
# list of entities
entities :children, item.children, ChildSerializer
The way sub-entities are rendered in the final payload is up to the adapter. In HAL the example above would be:
{
...,
"_embedded": {
"child": {"name": "child's name", "id": 1},
"children": [
{"name": "child 2 name", "id": 2},
{"name": "child 3 name", "id": 3},
...
]
}
}
Collections are easy to express in HAL and Siren because they're no different from any other "entity". JsonAPI, however, doesn't work that way. In JsonAPI there's a distinction between "side-loaded" entities and the collection that is the subject of the resource. For this reason a collection
method was added to the Oat DSL specifically for use with the JsonAPI
adapter.
In the HAL
and Siren
adapters, collection
is aliased to entities
, but in the JsonAPI
adapter, it sets the resource's main collection array as per the spec. entities
keep the current behaviour of side-loading entities in the resource.
Serializers can be subclassed, for example if you want all your serializers to share the same adapter or add shared helper methods.
class MyAppSerializer < Oat::Serializer
adapter Oat::Adapters::HAL
protected
def format_price(price)
Money.new(price, 'GBP').format
end
end
class ProductSerializer < MyAppSerializer
schema do
property :title, item.title
property :price, format_price(item.price)
end
end
This is useful if you want your serializers to better express your app's domain. For example, a serializer for a social app:
class UserSerializer < SocialSerializer
schema do
name item.name
email item.email
# friend entities
friends item.friends
end
end
The superclass defines the methods name
, email
and friends
, which in turn delegate to the adapter's setters.
class SocialSerializer < Oat::Serializer
adapter Oat::Adapters::HAL # or whatever
# friendly setters
protected
def name(value)
property :name, value
end
def email(value)
property :email, value
end
def friends(objects)
entities :friends, objects, FriendSerializer
end
end
You can specify multiple schema blocks, including across class hierarchies. This allows us to append schema attributes or override previously defined attributes:
class ExtendedUserSerializer < UserSerializer
schema do
name item.full_name # name property will now by the user's full name
property :dob, item.dob # additional date of birth attribute
end
end
Hypermedia is all about the URLs linking your resources together. Oat adapters can have methods to declare links in your entity schema but it's up to your code/framework how to create those links. A simple stand-alone implementation could be:
class ProductSerializer < Oat::Serializer
adapter Oat::Adapters::HAL
schema do
link :self, href: product_url(item.id)
...
end
protected
# helper URL method
def product_url(id)
"https://api.com/products/#{id}"
end
end
In frameworks like Rails, you'll probably want to use the URL helpers created by the routes.rb
file. Two options:
You can pass a context hash as second argument to serializers. This object will be passed to nested serializers too. For example, you can pass the controller instance itself.
# users_controller.rb
def show
user = User.find(params[:id])
render json: UserSerializer.new(user, controller: self)
end
Then, in the UserSerializer
:
class ProductSerializer < Oat::Serializer
adapter Oat::Adapters::HAL
schema do
# `context[:controller]` is the controller, which responds to URL helpers.
link :self, href: context[:controller].product_url(item)
...
end
end
The context hash is passed down to each nested serializer called by a parent. In some cases, you might want to include extra context information for one or more nested serializers. This can be done by passing options into your call to entity
or entities
.
class CategorySerializer < Oat::Serializer
adapter Oat::Adapters::HAL
schema do
map_properties :id, :name
# category entities
# passing this option ensures that only direct children are embedded within
# the parent serialized category
entities :subcategories, item.subcategories, CategorySerializer, embedded: true if context[:embedded]
end
end
The additional options are merged into the current context before being passed down to the nested serializer.
Alternatively, you can mix in Rails routing helpers directly into your serializers.
class MyAppParentSerializer < Oat::Serializer
include ActionDispatch::Routing::UrlFor
include Rails.application.routes.url_helpers
def self.default_url_options
Rails.application.routes.default_url_options
end
adapter Oat::Adapters::HAL
end
Then your serializer sub-classes can just use the URL helpers
class ProductSerializer < MyAppParentSerializer
schema do
# `product_url` is mixed in from Rails' routing system.
link :self, href: product_url(item)
...
end
end
However, since serializers don't have access to the current request, for this to work you must configure each environment's base host. In config/environments/production.rb
:
config.after_initialize do
Rails.application.routes.default_url_options[:host] = 'api.com'
end
NOTE: Rails URL helpers could be handled by a separate oat-rails gem.
An adapter's primary concern is to abstract away the details of specific media types.
Methods defined in an adapter are exposed as schema
setters in your serializers.
Ideally different adapters should expose the same methods so your serializers can switch adapters without loosing compatibility. For example all bundled adapters expose the following methods:
type
The type of the entity. Renders as "class" in Siren, root node name in JsonAPI, not used in HAL.link
Add a link withrel
andhref
. Renders inside "_links" in HAL, "links" in Siren and JsonAP.property
Add a property to the entity. Top level attributes in HAL and JsonAPI, "properties" node in Siren.properties
Yield a properties object to set many properties at once.entity
Add a single sub-entity. "_embedded" node in HAL, "entities" in Siren, "linked" in JsonAPI.entities
Add a collection of sub-entities.
You can define these in your own custom adapters if you're using your own media type or need to implement a different spec.
class CustomAdapter < Oat::Adapter
def type(*types)
data[:rel] = types
end
def property(name, value)
data[:attr][name] = value
end
def entity(name, obj, serializer_class = nil, &block)
data[:nested_documents] = serializer_from_block_or_class(obj, serializer_class, &block).to_hash
end
... etc
end
An adapter class provides a data
object (just a Hash) that stores your data in the structure you want. An adapter's public methods are exposed to your serializers.
Although adapters should in general comply with a common interface, you can still create your own domain-specific adapters if you need to.
Let's say you're working on a media-type specification specializing in describing social networks and want your payload definitions to express the concept of "friendship". You want your serializers to look like:
class UserSerializer < Oat::Serializer
adapter SocialAdapter
schema do
name item.name
email item.email
# Friend entity
friends item.friends do |friend, friend_serializer|
friend_serializer.name friend.name
friend_serializer.email friend.email
end
end
end
A custom media type could return JSON looking looking like this:
{
"name": "Joe",
"email": "[email protected]",
"friends": [
{"name": "Jane", "email":"[email protected]"},
...
]
}
The adapter for that would be:
class SocialAdapter < Oat::Adapter
def name(value)
data[:name] = value
end
def email(value)
data[:email] = value
end
def friends(friend_list, serializer_class = nil, &block)
data[:friends] = friend_list.map do |obj|
serializer_from_block_or_class(obj, serializer_class, &block).to_hash
end
end
end
But you can easily write an adapter that turns your domain-specific serializers into HAL-compliant JSON.
class SocialHalAdapter < Oat::Adapters::HAL
def name(value)
property :name, value
end
def email(value)
property :email, value
end
def friends(friend_list, serializer_class = nil, &block)
entities :friends, friend_list, serializer_class, &block
end
end
The result for the SocialHalAdapter is:
{
"name": "Joe",
"email": "[email protected]",
"_embedded": {
"friends": [
{"name": "Jane", "email":"[email protected]"},
...
]
}
}
You can take a look at the built-in Hypermedia adapters for guidance.
The Rails responder functionality works out of the box with Oat when the
requests specify JSON as their response format via a header
Accept: application/json
or query parameter format=json
.
However, if you want to also support the mime type of your Hypermedia format of choice, it will require a little bit of code.
The example below uses Siren, but the same pattern can be used for HAL and JsonAPI.
Register the Siren mime-type and a responder:
# config/initializers/oat.rb
Mime::Type.register 'application/vnd.siren+json', :siren
ActionController::Renderers.add :siren do |resource, options|
self.content_type ||= Mime[:siren]
resource.to_siren
end
In your controller, add :siren
to the respond_to
:
class UsersController < ApplicationController
respond_to :siren, :json
def show
user = User.find(params[:id])
respond_with UserSerializer.new(user)
end
end
Finally, add a to_siren
method to your serializer:
class UserSerializer < Oat::Serializer
adapter Oat::Adapters::Siren
schema do
property :name, item.name
property :email, item.name
end
def to_siren
to_json
end
end
Now http requests that specify the Siren mime type will work as expected.
NOTE
The key thing that makes this all work together is that the
object passed to respond_with
implements a to_FORMAT
method, where
FORMAT
is the symbol used to register the mime type and responder
(:siren
). Without it, Rails will not invoke your responder block.
Add this line to your application's Gemfile:
gem 'oat'
And then execute:
$ bundle
Or install it yourself as:
$ gem install oat
- JsonAPI top-level meta
- testing module that can be used for testing spec-compliance in user apps?
- Fork it
- Create your feature branch (
git checkout -b my-new-feature
) - Commit your changes (
git commit -am 'Add some feature'
) - Push to the branch (
git push origin my-new-feature
) - Create new Pull Request
Many thanks to all contributors! https://github.com/ismasan/oat/graphs/contributors