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Json Spec

Scrutinizer Code Quality Build Status

Json Spec provides set of easy-to-use matcher that should help you to validate data in JSON responses from your api with less pain.

If you working with JSON-based REST APIs there are several issues:

  • You can't simply check is a response is equal to given string as there are things like server-generated IDs or keys sorting.
  • Key ordering should be the same both for your API and for expected JSON.
  • Matching the whole responses breaks DRY for the spec

json_spec solves this problems as it normalize JSON before match it.

Let's see simple example:


{
   "id": 1421,
   "created_at": "1977-05-25 00:00:00"
   "last_name": "Skywalker",
   "first_name": "Luke",
}
        
      

{
   "first_name": "Luke",
   "last_name": "Skywalker"
}
        
      

json_spec will assume that this JSON documents are equal. Before asserting, json_spec will exclude keys id, created_at and updated_at from response JSON (List of excluded keys is configurable). Then it will normalize JSON (reorder keys, pretty-print) and after, just check for string equality. That's all. Also you can match JSON by given path instead of describing whole response in your specification, check is JSON collection contains some record and many more.

Installation

To install json_spec you may want to use composer:

composer require --dev fesor/json_spec

After that you should enable json_spec behat extension and optionally add context provided with json_spec in your behat.yml. For example:

default:
    suites:
        default:
            contexts:
                - FeatureContext
                - json_spec
    extensions:
        JsonSpec\Behat\Extension: ~

Usage

json_spec provides you two ways of how you can use matchers:

  • Using json_spec context, which implements steps for verifying json responses. This approach best fits for cases, when developers uses feature specs as API documentation and tests.
  • Inject JsonMatcherFactory into your context, so you can use it in your step definitions. This approach preferable since you can practice BDD with it. For more information about how to write feature specs please read Modeling by examples.

Using json_spec Context

json_spec provides Behat context which implements steps utilizing all matchers provided by json_matcher. This is perfect for testing your app's JSON API.

One note. json_spec should have access to responses. If you are using Mink, that it's just fine. json_spec will get responses from Mink. This means that all you need to do to start working, is just to enable MinkExtension in your behat.yml:

default:
    suites:
        default:
            contexts:
                - FeatureContext
                - json_spec
    extensions:
        JsonSpec\Behat\Extension: ~
        Behat\MinkExtension:
            base_url:  'http://localhost:8047'
            sessions:
                default:
                    goutte: ~

That's all, now json_spec have access to all responses. You may also want to use behatch:rest context from sanpii/behatch-contexts instead of mink context.

If you are using your own context, which not using Mink, then just implement JsonHolderAware interface for your context:

use \JsonSpec\Behat\Context\JsonHolderAware;
use \Behat\Behat\Context\Context;

class MyRestApiFeatureContext implements Context, JsonHolderAware
{
    /**
     * @var \JsonSpec\Behat\JsonProvider\JsonHolder
     */
    private $jsonHolder;

    /**
     * @When /^I request "([^"]*)"$/
     */
    public function iRequest($pageUrl)
    {
        // ... make request and get response body as string
        $this->jsonHolder->setJson($responseBody);
    }
}

Now, you can use the json_spec steps in your features:

Feature: User API
  Background:
    Given the following users exist:
      | id | first_name | last_name |
      | 1  | Steve      | Richert   |
      | 2  | Catie      | Richert   |
    And "Steve Richert" is friends with "Catie Richert"

  Scenario: Index action
    When I visit "/users.json"
    Then the JSON response should have 2 users
    And the JSON response at "0/id" should be 1
    And the JSON response at "1/id" should be 2

  Scenario: Show action
    When I visit "/users/1.json"
    Then the JSON response at "first_name" should be "Steve"
    And the JSON response at "last_name" should be "Richert"
    And the JSON response should have "created_at"
    And the JSON response at "created_at" should be a string
    And the JSON response at "friends" should be:
      """
      [
        {
          "id": 2,
          "first_name": "Catie",
          "last_name": "Richert"
        }
      ]
      """

The background steps above and the "visit" steps aren't provided by json_spec. The remaining steps, json_spec provides. They're versatile and can be used in plenty of different formats:

Then the JSON should be:
  """
  {
    "key": "value"
  }
  """
Then the JSON at "path" should be:
  """
  [
    "entry",
    "entry"
  ]
  """

Then the JSON should be {"key":"value"}
Then the JSON at "path" should be {"key":"value"}
Then the JSON should be ["entry","entry"]
Then the JSON at "path" should be ["entry","entry"]
Then the JSON at "path" should be "string"
Then the JSON at "path" should be 10
Then the JSON at "path" should be 10.0
Then the JSON at "path" should be 1e+1
Then the JSON at "path" should be true
Then the JSON at "path" should be false
Then the JSON at "path" should be null

Then the JSON should include:
  """
  {
    "key": "value"
  }
  """
Then the JSON at "path" should include:
  """
  [
    "entry",
    "entry"
  ]
  """

Then the JSON should include {"key":"value"}
Then the JSON at "path" should include {"key":"value"}
Then the JSON should include ["entry","entry"]
Then the JSON at "path" should include ["entry","entry"]
Then the JSON should include "string"
Then the JSON at "path" should include "string"
Then the JSON should include 10
Then the JSON at "path" should include 10
Then the JSON should include 10.0
Then the JSON at "path" should include 10.0
Then the JSON should include 1e+1
Then the JSON at "path" should include 1e+1
Then the JSON should include true
Then the JSON at "path" should include true
Then the JSON should include false
Then the JSON at "path" should include false
Then the JSON should include null
Then the JSON at "path" should include null

Then the JSON should have "path"

Then the JSON should be a hash
Then the JSON at "path" should be an array
Then the JSON at "path" should be a float

Then the JSON should have 1 entry
Then the JSON at "path" should have 2 entries
Then the JSON should have 3 keys
Then the JSON should have 4 whatevers

All instances of "should" above could be followed by "not" and all instances of "JSON" could be downcased and/or followed by "response."

Table Format

Another step exists that uses Behat's table formatting and wraps two of the above steps:

Then the JSON should have the following:

  | path/0 | {"key":"value"}   |
  | path/1 | ["entry","entry"] |

Any number of rows can be given. The step above is equivalent to:

Then the JSON at "path/0" should be {"key":"value"}
And the JSON at "path/1" should be ["entry","entry"]

If only one column is given:

Then the JSON should have the following:
  | path/0 |
  | path/1 |

This is equivalent to:

Then the JSON should have "path/0"
And the JSON should have "path/1"

JSON Memory

There's one more Behat step that json_spec provides which hasn't been used above. It's used to memorize JSON for reuse in later steps. You can "keep" all or a portion of the JSON by giving a name by which to remember it.

Feature: User API
  Scenario: Index action includes full user JSON
    Given the following user exists:
      | id | first_name | last_name |
      | 1  | Steve      | Richert   |
    And I visit "/users/1.json"
    And I keep the JSON response as "USER_1"
    When I visit "/users.json"
    Then the JSON response should be:
      """
      [
        {$USER_1}
      ]
      """

You can memorize JSON at a path:

Given I keep the JSON response at "first_name" as "FIRST_NAME"

You can remember JSON at a path:

Then the JSON response at "0/first_name" should be:
  """
  {$FIRST_NAME}
  """

You can also remember JSON inline:

Then the JSON response at "0/first_name" should be {$FIRST_NAME}

Also starting from version 0.2.3 you can inject memory helper into your feature context to define some variables. To do so, your context should implement MemoryHelperAware interface.

More Examples

Check out the features to see all the various ways you can use json_spec.

Using json matcher in your step definitions

To inject JsonMatcherFactory you can just implement JsonMatcherAware interface in your context, or just use JsonMatcherAwareTrait:

Scenario: User should be able to add another user in friend list
    Given I signed in as Bob
      And I view Alice's profile
    When I add her to my friends list
    Then Alice should appear in my friend list
use JsonMatcherAwareTrait;

/**
 * @Then :user should appear in my friend list
 */
function userShouldAppearInFriendList(User $user)
{
    $this
       ->json($this->lastResponse)
       ->haveSize(1)
       ->includes($this->serialize($user, ['short_profile'])
    ;
}

Contributing

If you come across any issues, please tell me . Pull requests (with tests) are appreciated. No pull request is too small. Please help with:

  • Reporting bugs
  • Suggesting features
  • Writing or improving documentation
  • Fixing typos
  • Cleaning whitespace
  • Refactoring code
  • Adding tests
  • Closing issues

If you report a bug and don't include a fix, please include a failing test.

Credits

  • json_spec - Ruby's gem for handling JSON in RSpec and Cucumber. This library is mainly just php port of this great library.