JsonApiClient Build Status Code Climate Code Coverage

This gem is meant to help you build an API client for interacting with REST APIs as laid out by http://jsonapi.org. It attempts to give you a query building framework that is easy to understand (it is similar to ActiveRecord scopes).

Note: master is currently tracking the 1.0.0 specification. If you're looking for the older code, see 0.x branch

Usage

You will want to create your own resource classes that inherit from JsonApiClient::Resource similar to how you would create an ActiveRecord class. You may also want to create your own abstract base class to share common behavior. Additionally, you will probably want to namespace your models. Namespacing your model will not affect the url routing to that resource.

module MyApi
  # this is an "abstract" base class that
  class Base < JsonApiClient::Resource
    # set the api base url in an abstract base class
    self.site = "http://example.com/"
  end

  class Article < Base
  end

  class Comment < Base
  end

  class Person < Base
  end
end

By convention, we guess the resource route from the class name. In the above example, Article's path is "http://example.com/articles" and Person's path would be "http://example.com/people".

Some basic example usage:

MyApi::Article.all
MyApi::Article.where(author_id: 1).find(2)
MyApi::Article.where(author_id: 1).all

MyApi::Person.where(name: "foo").order(created_at: :desc).includes(:preferences, :cars).all

u = MyApi::Person.new(first_name: "bar", last_name: "foo")
u.new_record?
# => true
u.save

u.new_record?
# => false

u = MyApi::Person.find(1).first
u.update_attributes(
  a: "b",
  c: "d"
)

u.persisted?
# => true

u.destroy

u.destroyed?
# => true
u.persisted?
# => false

u = MyApi::Person.create(
  a: "b",
  c: "d"
)

All class level finders/creators should return a JsonApiClient::ResultSet which behaves like an Array and contains extra data about the api response.

Handling Validation Errors

See specification

Out of the box, json_api_client handles server side validation only.

User.create(name: "Bob", email_address: "invalid email")
# => false

user = User.new(name: "Bob", email_address: "invalid email")
user.save
# => false

# returns an error collector which is array-like
user.errors
# => ["Email address is invalid"]

# get all error titles
user.errors.full_messages
# => ["Email address is invalid"]

# get errors for a specific parameter
user.errors[:email_address]
# => ["Email address is invalid"]

user = User.find(1)
user.update_attributes(email_address: "invalid email")
# => false

user.errors
# => ["Email address is invalid"]

user.email_address
# => "invalid email"

For now we are assuming that error sources are all parameters.

If you want to add client side validation, I suggest creating a form model class that uses ActiveModel's validations.

Meta information

See specification

If the response has a top level meta data section, we can access it via the meta accessor on ResultSet.

# Example response:
{
  "meta": {
    "copyright": "Copyright 2015 Example Corp.",
    "authors": [
      "Yehuda Katz",
      "Steve Klabnik",
      "Dan Gebhardt"
    ]
  },
  "data": {
    // ...
  }
}
articles = Articles.all

articles.meta.copyright
# => "Copyright 2015 Example Corp."

articles.meta.authors
# => ["Yehuda Katz", "Steve Klabnik", "Dan Gebhardt"]

See specification

If the resource returns top level links, we can access them via the links accessor on ResultSet.

articles = Articles.find(1)
articles.links.related

Nested Resources

You can force nested resource paths for your models by using a belongs_to association.

Note: Using belongs_to is only necessary for setting a nested path unless you provide shallow_path: true option.

module MyApi
  class Account < JsonApiClient::Resource
    belongs_to :user
  end

  class Customer < JsonApiClient::Resource
      belongs_to :user, shallow_path: true
    end
end

# try to find without the nested parameter
MyApi::Account.find(1)
# => raises ArgumentError

# makes request to /users/2/accounts/1
MyApi::Account.where(user_id: 2).find(1)
# => returns ResultSet

# makes request to /customers/1
MyApi::Customer.find(1)
# => returns ResultSet

# makes request to /users/2/customers/1
MyApi::Customer.where(user_id: 2).find(1)
# => returns ResultSet

you can also override param name for belongs_to association

module MyApi
  class Account < JsonApiClient::Resource
    belongs_to :user, param: :customer_id
  end
end

# makes request to /users/2/accounts/1
MyApi::Account.where(customer_id: 2).find(1)
# => returns ResultSet

Custom Methods

You can create custom methods on both collections (class method) and members (instance methods).

module MyApi
  class User < JsonApiClient::Resource
    # GET /users/search
    custom_endpoint :search, on: :collection, request_method: :get

    # PUT /users/:id/verify
    custom_endpoint :verify, on: :member, request_method: :put
  end
end

# makes GET request to /users/search?name=Jeff
MyApi::User.search(name: 'Jeff')
# => <ResultSet of MyApi::User instances>

user = MyApi::User.find(1)
# makes PUT request to /users/1/verify?foo=bar
user.verify(foo: 'bar')

Fetching Includes

See specification

If the response returns a compound document, then we should be able to get the related resources.

# makes request to /articles/1?include=author,comments.author
results = Article.includes(:author, :comments => :author).find(1)

# should not have to make additional requests to the server
authors = results.map(&:author)

# makes POST request to /articles?include=author,comments.author
article = Article.new(title: 'New one').request_includes(:author, :comments => :author)
article.save

# makes PATCH request to /articles/1?include=author,comments.author
article = Article.find(1)
article.title = 'Changed'
article.request_includes(:author, :comments => :author)
article.save

# request includes will be cleared if response is successful
# to avoid this `keep_request_params` class attribute can be used
Article.keep_request_params = true

# to clear request_includes use
article.reset_request_includes!

Sparse Fieldsets

See specification

# makes request to /articles?fields[articles]=title,body
article = Article.select("title", "body").first

# should have fetched the requested fields
article.title
# => "Rails is Omakase"

# should not have returned the created_at
article.created_at
# => raise NoMethodError

# or you can use fieldsets from multiple resources
# makes request to /articles?fields[articles]=title,body&fields[comments]=tag
article = Article.select("title", "body",{comments: 'tag'}).first

# makes POST request to /articles?fields[articles]=title,body&fields[comments]=tag
article = Article.new(title: 'New one').request_select(:title, :body, comments: 'tag')
article.save

# makes PATCH request to /articles/1?fields[articles]=title,body&fields[comments]=tag
article = Article.find(1)
article.title = 'Changed'
article.request_select(:title, :body, comments: 'tag')
article.save

# request fields will be cleared if response is successful
# to avoid this `keep_request_params` class attribute can be used
Article.keep_request_params = true

# to clear request fields use
article.reset_request_select!(:comments) # to clear for comments
article.reset_request_select! # to clear for all fields

Sorting

See specification

# makes request to /people?sort=age
youngest = Person.order(:age).all

# also makes request to /people?sort=age
youngest = Person.order(age: :asc).all

# makes request to /people?sort=-age
oldest = Person.order(age: :desc).all

Paginating

See specification

Requesting

# makes request to /articles?page=2&per_page=30
articles = Article.page(2).per(30).to_a

# also makes request to /articles?page=2&per_page=30
articles = Article.paginate(page: 2, per_page: 30).to_a

# keep in mind that page number can be nil - in that case default number will be applied
# also makes request to /articles?page=1&per_page=30
articles = Article.paginate(page: nil, per_page: 30).to_a

Note: The mapping of pagination parameters is done by the query_builder which is customizable.

Browsing

If the response contains additional pagination links, you can also get at those:

articles = Article.paginate(page: 2, per_page: 30).to_a
articles.pages.next
articles.pages.last

Library compatibility

A JsonApiClient::ResultSet object should be paginatable with both kaminari and will_paginate.

Filtering

See specifiation

# makes request to /people?filter[name]=Jeff
Person.where(name: 'Jeff').all

Schema

You can define schema within your client model. You can define basic types and set default values if you wish. If you declare a basic type, we will try to cast any input to be that type.

The added benefit of declaring your schema is that you can access fields before data is set (otherwise, you'll get a NoMethodError).

Note: This is completely optional. This will set default values and handle typecasting.

Example

class User < JsonApiClient::Resource
  property :name, type: :string
  property :is_admin, type: :boolean, default: false
  property :points_accrued, type: :int, default: 0
  property :averge_points_per_day, type: :float
end

# default values
u = User.new

u.name
# => nil

u.is_admin
# => false

u.points_accrued
# => 0

# casting
u.average_points_per_day = "0.3"
u.average_points_per_day
# => 0.3

Types

The basic types that we allow are:

  • :int or :integer
  • :float
  • :string
  • :time - *Note: Include the time zone in the string if it's different than local time.
  • :boolean - Note: we will cast the string version of "true" and "false" to their respective values

Also, we consider nil to be an acceptable value and will not cast the value.

Note : Do not map the primary key as int.

Customizing

Paths

You can customize this path by changing your resource's table_name:

module MyApi
  class SomeResource < Base
    def self.table_name
      "foobar"
    end
  end
end

# requests http://example.com/foobar
MyApi::SomeResource.all

Custom headers

You can inject custom headers on resource request by wrapping your code into block:

MyApi::SomeResource.with_headers(x_access_token: 'secure_token_here') do
  MyApi::SomeResource.find(1)
end

Connections

You can configure your API client to use a custom connection that implementes the run instance method. It should return data that your parser can handle. The default connection class wraps Faraday and lets you add middleware.

class NullConnection
  def initialize(*args)
  end

  def run(request_method, path, params: nil, headers: {}, body: nil)
  end

  def use(*args); end
end

class CustomConnectionResource < TestResource
  self.connection_class = NullConnection
end

Connection Options

You can configure your connection using Faraday middleware. In general, you'll want to do this in a base model that all your resources inherit from:

MyApi::Base.connection do |connection|
  # set OAuth2 headers
  connection.use FaradayMiddleware::OAuth2, 'MYTOKEN'

  # log responses
  connection.use Faraday::Response::Logger

  connection.use MyCustomMiddleware
end

module MyApi
  class User < Base
    # will use the customized connection
  end
end
Custom status handler

You can change handling of response status using connection_options. For example you can override 400 status handling. By default it raises JsonApiClient::Errors::ClientError but you can skip exception if you want to process errors from the server. You need to provide a proc which should call throw(:handled) default handler for this status should be skipped.

class ApiBadRequestHandler
  def self.call(_env)
    # do not raise exception
  end
end

class CustomUnauthorizedError < StandardError
  attr_reader :env

  def initialize(env)
    @env = env
    super('not authorized')
  end
end

MyApi::Base.connection_options[:status_handlers] = {
    400 => ApiBadRequestHandler,
    401 => ->(env) { raise CustomUnauthorizedError, env }
}

module MyApi
  class User < Base
    # will use the customized status_handlers
  end
end

user = MyApi::User.create(name: 'foo')
# server responds with { errors: [ { detail: 'bad request' } ] }
user.errors.messages # { base: ['bad request'] }
# on 401 it will raise CustomUnauthorizedError instead of JsonApiClient::Errors::NotAuthorized
Specifying an HTTP Proxy

All resources have a class method connection_options used to pass options to the JsonApiClient::Connection initializer.

MyApi::Base.connection_options[:proxy] = 'http://proxy.example.com'
MyApi::Base.connection do |connection|
  # ...
end

module MyApi
  class User < Base
    # will use the customized connection with proxy
  end
end

Custom Parser

You can configure your API client to use a custom parser that implements the parse class method. It should return a JsonApiClient::ResultSet instance. You can use it by setting the parser attribute on your model:

class MyCustomParser
  def self.parse(klass, response)
    # …
    # returns some ResultSet object
  end
end

class MyApi::Base < JsonApiClient::Resource
  self.parser = MyCustomParser
end

Custom Query Builder

You can customize how the scope builder methods map to request parameters.

class MyQueryBuilder
  def initialize(klass); end

  def where(conditions = {})
  end

  # … add order, includes, paginate, page, first, build
end

class MyApi::Base < JsonApiClient::Resource
  self.query_builder = MyQueryBuilder
end

Custom Paginator

You can customize how your resources find pagination information from the response.

If the existing paginator fits your requirements but you don't use the default page and per_page params for pagination, you can customise the param keys as follows:

JsonApiClient::Paginating::Paginator.page_param = "number"
JsonApiClient::Paginating::Paginator.per_page_param = "size"

Please note that this is a global configuration, so library authors should create a custom paginator that inherits JsonApiClient::Paginating::Paginator and configure the custom paginator to avoid modifying global config.

If the existing paginator does not fit your needs, you can create a custom paginator:

class MyPaginator
  def initialize(result_set, data); end
  # implement current_page, total_entries, etc
end

class MyApi::Base < JsonApiClient::Resource
  self.paginator = MyPaginator
end

Custom type

If your model must be named differently from classified type of resource you can easily customize it. It will work both for defined and not defined relationships

class MyApi::Base < JsonApiClient::Resource
  resolve_custom_type 'document--files', 'File'
end

class MyApi::File < MyApi::Base
  def self.resource_name
    'document--files'
  end
end

Type Casting

You can define your own types and its casting mechanism for schema.

require 'money'
class MyMoneyCaster
  def self.cast(value, default)
    begin
      Money.new(value, "USD")
    rescue ArgumentError
      default
    end
  end
end

JsonApiClient::Schema.register money: MyMoneyCaster

and finally

class Order < JsonApiClient::Resource
  property :total_amount, type: :money
end

Safe singular resource fetching

That is a bit curios, but json_api_client returns an array from .find method, always. The history of this fact was discussed here

So, when we searching for a single resource by primary key, we typically write the things like

admin = User.find(id).first

The next thing which we need to notice - json_api_client will just interpolate the incoming .find param to the end of API URL, just like that:

http://somehost/api/v1/users/id

What will happen if we pass the blank id (nil or empty string) to the .find method then?.. Yeah, json_api_client will try to call the INDEX API endpoint instead of SHOW one:

http://somehost/api/v1/users/

Lets sum all together - in case if id comes blank (from CGI for instance), we can silently receive the admin variable equal to some existing resource, with all the consequences.

Even worse, admin variable can equal to random resource, depends on ordering applied by INDEX endpoint.

If you prefer to get JsonApiClient::Errors::NotFound raised, please define in your base Resource class:

class Resource < JsonApiClient::Resource
  self.raise_on_blank_find_param = true
end

Contributing

Contributions are welcome! Please fork this repo and send a pull request. Your pull request should have:

  • a description about what's broken or what the desired functionality is
  • a test illustrating the bug or new feature
  • the code to fix the bug

Ideally, the PR has 2 commits - the first showing the failed test and the second with the fix - although this is not required. The commits will be squashed into master once accepted.

Changelog

See changelog