Testkit is a testing tool designed for API manual testing and test automation tasks built by the APItoolkit team and amazing community contributors. Testkit provides a simplified YAML syntax for defining and executing API test scenarios.
- Why a Testing DSL?
- Installation
- Comparison with Other Testing Libraries
- Test Definition Syntax
- What is JSONPath?
- Referencing Values and Dynamic Inputs for Subsequent API Requests
- Date Assertions
- Using Environment Variables
- Contributing and Help
- License
- Teams should not be forced to write Javascript (Postman), Groovy (Katalon), or Java (Rest-Assured) just because they want to test an API for a web system.
- We should be able to create interactive builders that generate this underlying DSL (Domain Specific Language). So you shouldn't even need to write this DSL by hand in the future.
- We should be able to use the same script for both individual tests and load testing.
- We should still be able to persist these tests in our version control and collaborate on them with our peers.
- Inspired by Local-First software principles.
To install testkit
, kindly follow one of the options below (click on the toggle):
Download Binaries
Navigate to the releases page, download the latest version of the testkit
binary suitable for your operating system (Windows, macOS, or Linux), and proceed to install.
Binary File | Description |
---|---|
testkit-release-test-i686-pc-windows-msvc.zip |
32-bit Windows (MSVC) |
testkit-release-test-x86_64-pc-windows-msvc.zip |
64-bit Windows (MSVC) |
testkit-release-test-x86_64-pc-windows-gnu.zip |
64-bit Windows (GNU) |
testkit-release-test-x86_64-apple-darwin.tar.gz |
64-bit macOS (Darwin) |
testkit-release-test-x86_64-unknown-linux-gnu.tar.gz |
64-bit Linux (GNU) |
After downloading, extract the zip file and proceed to install the extracted file. Alternatively, if you're using macOS, you can use Homebrew to install, like so:
-
Tap the
testkit
release repository to add it as a source for Homebrew formulae using the command below:brew tap apitoolkit/testkit
-
Install
testkit
using the command below:brew install testkit
Clone Repository
Kindly follow the steps below to build the project locally:
-
Ensure you have Rust programming language and Cargo package manager installed on your computer.
-
Clone the
testkit
repository from GitHub using the command below:git clone https://github.com/testkit/testkit
-
Open the cloned directory using the command below:
cd testkit
-
Build the project using the Cargo command below:
cargo build --release
-
Once the build process is complete, you will find the
testkit
executable file in thetarget/release
directory. -
Run the
testkit
CLI tool, using the command below:testkit test --file ./test.tk.yaml
-
For further testing, ensure to replace the
./test.tk.yaml
with the path to your YAML test file.
Note
Once testkit
is installed succesfully, run the testkit --help
command for all CLI commands and options.
Before delving into the details of testkit
and its functionality, let's compare it to other testing libraries to highlight it's elegance, cleanliness, and simplicity. By showcasing the differences, you will see how testkit
provides a more streamlined and user-friendly approach to API testing. To illustrate this, we will rewrite a Cypress test as seen below:
describe('TODO API testing', () => {
let todoItem;
it('fetches Todo items - GET', () => {
cy.request('/todos/').as('todoRequest');
cy.get('@todoRequest').then((todos) => {
todoItem = todos.body[0]['_id'];
expect(todos.status).to.eq(200);
assert.isArray(todos.body, 'Todos Response is an array');
});
});
it('Deletes Todo items - DELETE', () => {
cy.request('DELETE', `/todos/${todoItem}`).as('todoRequest');
cy.get('@todoRequest').then((todos) => {
expect(todos.status).to.eq(200);
assert.isString(todos.body, 'todo deleted!');
});
});
it('Adds Todo item - POST', () => {
cy.request('POST', '/todos/', { task: 'run tests' }).as('todoRequest');
// Adds new Todo item by defining Todo name
cy.get('@todoRequest').then((todos) => {
expect(todos.status).to.eq(200);
cy.wrap(todos.body).should('deep.include', {
task: 'run tests',
completed: false,
});
});
});
});
---
- title: fetches TODO items - GET
GET: /todos/
asserts: # Asserts accepts a list of expressions, usually via JSONPaths to identify the items being referred to.
- ok: $.resp.status == 200 # Rely on an expressions library for parsing expressions
- array: $.resp.json
exports: # Values which should be accessible to future steps.
todoItem: $.resp.json[0]._id
- title: deletes TODO items - DELETE
DELETE: /todos/$.stages[0].todoItem # Relative syntax exists: $.stages[-1].todoItem, -1 means one stage before me
asserts:
- empty: $.resp.json.todos
- string: $.resp.json
- title: Adds Todo item - POST
POST: /todos/
json:
task: "run tests"
asserts:
- ok: $.resp.status == 200
- ok: $.resp.json.task == "run tests"
- ok: $.resp.json.completed == false
Testkit offers a clean and intuitive syntax that simplifies the process of defining and executing API test scenarios.
Testkit uses a YAML-based syntax for defining test scenarios. Each scenario consists of multiple stages, where each stage represents a specific API request and its associated assertions. Below is an example of the YAML syntax for defining API tests:
---
- title: fetches TODO items - GET
GET: /todos/
asserts:
- ok: $.resp.status == 200
- array: $.resp.json
exports:
todoItem: $.resp.json[0]._id
- title: deletes TODO items - DELETE
DELETE: /todos/$.stages[0].todoItem
asserts:
- empty: $.resp.json.todos
- string: $.resp.json
- title: Adds Todo item - POST
POST: /todos/
json:
task: "run tests"
asserts:
- ok: $.resp.status == 200
- ok: $.resp.json.task == "run tests"
- ok: $.resp.json.completed
In the example above, the YAML test file defines three test items fetching TODO items using a GET request, deleting a specific TODO item using a DELETE request, and adding a new TODO item using a POST request. The YAML file consists of a list of test scenarios. Each scenario represents an API request and contains the following fields:
Field | Description |
---|---|
title (required) |
A descriptive name for the stage. |
request (required) |
Defines the API request to be made, including HTTP methods and the URL. |
asserts (optional) |
Optional. Defines assertions to be performed on the response for validation. |
exports (optional) |
Optional. Specifies values to capture from the response for future stages. |
Kindly click each toggle below to learn more about each field.
request
field
The request
field in testkit
defines the API request to be made and consists of three properties:
method
(required): This property specifies the HTTP method for the request, such asGET
,POST
,PUT
, orDELETE
. The value of themethod
property is the request URL path. Example:
# POST request
- title: Adds Todo item - POST
POST: /todos/
# GET request
- title: Fetches Todo items - GET
GET: /todos/
headers
(optional): This property allows you to include HTTP headers in the request. Headers can be used to pass additional information to the server, such as authentication tokens or content types. Example:
- title: Fetches Todo items - GET with headers
GET: /todos/
headers:
Authorization: Bearer <token>
Content-Type: application/json
Allowed-Methods:
- GET
- POST
json
(optional): This property allows you to include request body data in JSON format when necessary. By specifying thejson
property within therequest
field, you can provide structured data that needs to be sent along with the API request. Example:
- title: Create User - POST
POST: /users/
json:
name: John Doe
age: 25
email: [email protected]
In the above example, a POST request is made to create a new user. The json
property contains the user data in JSON format, including properties such as name
, age
, and email
. Including the json
property in the request
field enables you to pass structured data to the API endpoint, facilitating actions such as creating or updating resources on the server.
These properties in the request
field provide flexibility and control over the API requests made during testing. You can specify the HTTP method and include headers as needed to interact with the API endpoints effectively.
asserts
field
The asserts
field in testkit
plays a crucial role in defining assertions or validations to be performed on the API response. It allows you to specify conditions that must be met for the test to pass successfully. The field accepts a collection of key-value pairs, where the keys represent the type of assertion (think of it as a variable) and the values define the corresponding expressions or conditions to be evaluated. You can include multiple assertions within the asserts
field to perform various validations on different aspects of the API response, such as checking specific properties, verifying the presence of certain data, or comparing values.
Here's an example to demonstrate the usage of the asserts
field:
- title: Fetches Todo items - GET
GET: /todos/
asserts:
- ok: $.resp.status == 200
- array: $.resp.json
- ok: $.resp.json[0].task == "run tests"
NB: The
.json
in$.resp.json
tellstestkit
to convert the response into JSON format. This allows you to access properties of the response JSON using JSONPath expressions.
In the above example, we have defined three assertions:
-
ok
: This assertion checks whether the response status code is equal to 200. The expression$.resp.status == 200
is evaluated, and if it returnstrue
, the assertion is considered successful. -
array
: This assertion verifies that the response body is an array. The expression$.resp.json
is evaluated, and if the result is an array, the assertion is considered successful. -
ok
: This assertion checks if the first Todo item retrieved from the API response has a task name equal to "run tests". The expression$.resp.json
is evaluated, and if it returnstrue
, the assertion is considered successful.
By utilizing the asserts
field effectively, you can ensure that the API response meets the expected criteria, providing confidence in the correctness and reliability of your API. All possible assertions you could use are as follows:
Assertion | Description |
---|---|
ok |
Checks if the provided expression evaluates to true . |
empty |
Checks if a value is empty (e.g., an empty array, string, or null). |
array |
Checks if a value is an array. |
string |
Checks if a value is a string. |
number |
Checks if a value is a number. |
boolean |
Checks if a value is a boolean. |
null |
Checks if a value is null. |
exists |
Checks if a value exists. |
date |
Checks if a value is a valid date string. |
These assertions provide a wide range of options to validate different aspects of the API response, allowing you to ensure the correctness and integrity of the data and behavior. You can select the appropriate assertion based on the specific validation requirements of your API test scenario.
exports
field
The exports
field in testkit
allows you to capture and store values from the API response of a stage for future reference within the test scenario. It provides a convenient way to extract specific data and make it accessible in subsequent stages of the test.
To use the exports
field, you define key-value pairs where the keys represent the names of the exports (think of it as a variable), and the values define the JSON paths or expressions used to extract the desired data from the response.
Here's an example that demonstrates the usage of the exports
field:
- title: Fetches Todo items - GET
GET: /todos/
exports:
todoItem: $.resp.json[0]._id
In the above example, the exports
field captures the value of the _id
property from the first element of the API response array. It assigns this value to the todoItem
export. By capturing the _id
value in the todoItem
exports, you can access it in subsequent stages of the test scenario. This allows you to use the extracted data for further API requests, assertions, or any other necessary operations.
The exports
field enables you to create a bridge between different stages within the test scenario, providing a way to pass relevant data between them. This can be particularly useful when you need to refer to specific values or dynamically generate inputs for subsequent API requests. Using the exports
field, you can enhance the flexibility and modularity of your API tests, making them more robust and adaptable to different scenarios.
JSONPath is a powerful query language designed for navigating and extracting data from JSON documents. It provides a concise syntax that allows you to specify paths to specific elements within a JSON structure, facilitating data access and manipulation. In testkit
, JSONPath expressions are extensively used to extract data for assertions and exports. To illustrate how JSONPath works, consider the following examples:
$.user.name
: This expression retrieves the name of a user from the top-level object in the JSON document.$.todos[0].task
: This expression accesses the task property of the first element in an array of todos.$.todos[*].task.description
: This expression retrieves the description property of all tasks within the todos array.
The syntax of JSONPath expressions includes several key components:
Component | Description |
---|---|
Bracket notation | Access elements within an array by providing the index within square brackets ([] ). |
Wildcard | Match any element at the current level, allowing retrieval of all elements of that level (* ). |
Recursive descent | Enable searching for elements at any depth within the JSON structure, including nested objects and arrays (.. ). |
Filters | Apply conditions or filters to select specific elements based on certain criteria ([?] ). |
By employing JSONPath expressions, you can precisely pinpoint the desired data within a JSON structure. These expressions play a vital role in testkit
facilitating the extraction of data for performing assertions and capturing exports during the testing process.
Note
To learn more about JSONPaths, please take a look at the official docs.
The exports
field in testkit
not only allows you to capture values from the API response but also provides a powerful mechanism for referencing those values and dynamically generating inputs for subsequent API requests.
By capturing relevant data using the exports
field, you can store it as an export and easily refer to it in the later stages of your test scenario. This capability becomes particularly useful when you need to access specific values extracted from the response and utilize them in subsequent API requests.
For example, let's say you retrieve an ID from an API response in one stage using the exports
field:
- title: Fetch User - GET
GET: /users/1
exports:
userId: $.resp.body.id
To reference this userId
export in a subsequent API request, you can use the $.stages[n].<VAL>
syntax:
- title: Update User - PUT
PUT: /users/$.stages[0].userId
json:
name: 'John Doe'
In the above example, the userId
captured in the first stage is accessed using the syntax $.stages[0].userId
. testkit
understands that it should substitute the reference with the corresponding value during execution.
You can also use relative references like $.stages[-n]
which refers to the exports
of the nth
stage before the current stage.
Example:
- title: deletes TODO items - DELETE
DELETE: /todos/$.stages[-1].todoItem #-1 means one stage before me
asserts:
- string: $.resp.json.task
- ok: $.resp.json.id == $.stages[-1].todoItem
By referencing specific values captured in previous stages, you can establish dependencies between different API requests and ensure seamless data flow throughout your test scenario. This flexibility allows you to build more comprehensive and realistic tests, simulating complex user interactions or workflows.
To make date assertions in testkit
you'll need to provide the date string and the date format, like so:
- title: Get User Profile - GET
GET: /user/jon_doe
asserts:
- date: $.resp.json.createdAt %Y-%m-%d %H:%M:%S %Z
In the example above, we first provide a JSONPath to the date followed by the date's format.
More on the date format
Testkit uses the chrono crate's formatting tokens to represent different components of a date. Here are some commonly used formatting tokens:
Token | Meaning | Example |
---|---|---|
%Y |
Year with century as a decimal number. | 2023 |
%m |
Month as a zero-padded decimal number. | 07 |
%b or %h |
Abbreviated month name. | Jul |
%B |
Full month name. | July |
%d |
Day of the month as a zero-padded decimal number. | 03 |
%A |
Full weekday name. | Monday |
%a |
Abbreviated weekday name. | Mon |
%H |
Hour (00-23). | 14 |
%I |
Hour (01-12). | 03 |
%M |
Minute (00-59). | 59 |
%S |
Second (00-59). | 45 |
%p |
AM/PM designation for 12-hour clock. | PM |
%Z |
Timezone offset or name. | UTC |
Example dates and their formats
Here are some example dates and their correct formats:
Date String | Format |
---|---|
2023-07-26 | %Y-%m-%d |
2023-07-26 12:34:56 UTC | %Y-%m-%d %H:%M:%S %Z |
15 August, 1995, 03:45 PM UTC | %d %B, %Y, %I:%M %p %Z |
Mon, 05 Dec 2022 11:05:30 UTC | %a, %d %b %Y %H:%M:%S %Z |
January 01, 2000 - 00:00:00 UTC | %B %d, %Y - %H:%M:%S %Z |
1987/03/10 06:30 AM UTC | %Y/%m/%d %I:%M %p %Z |
In this table, the "Date String" column represents the example date string, and the "Format" column contains the corresponding format string to parse the given date string.
Testkit supports environment variables in two ways (.env
file and CLI configuration). These approaches allow users to configure and customize their test scripts without exposing sensitive data and making it easier to switch between different environments and scenarios seamlessly.
Using a .env
file involves creating a text file named .env
in the test script's directory and defining KEY=VALUE
pairs for each environment variable. testkit
automatically loads these variables from the .env
file during test execution, like so:
APIURL=https://api.example.com
[email protected]
PASSWORD=mysecretpassword
USERNAME=myusername
APIKEY=mysecretapikey
Setting environment variables directly is done via the command line or the test environment, like so:
APIKEY=SECRETAPIKEY testkit test --file test.tk.yaml
To utilize environment variables in testkit
, you can access them using the following syntax: $.env.<VAL>
, where <VAL>
represents the name of the specific environment variable you want to use. This allows you to easily reference and incorporate the values of these environment variables within your test scripts, enabling greater flexibility and adaptability without hardcoding sensitive information or configuration details. Here's an example:
- title: Register
POST: '$.env.APIURL/users'
headers:
Content-Type: application/json
X-Requested-With: XMLHttpRequest
json: '{"user":{"email":"$.env.EMAIL", "password":"$.env.PASSWORD", "username":"$.env.USERNAME"}}'
asserts:
- exists: $.resp.json.user
- exists: $.resp.json.user.email
- exists: $.resp.json.user.username
- exists: $.resp.json.user.bio
- exists: $.resp.json.user.image
- exists: $.resp.json.user.token
In this example, testkit
performs a POST
request to the API URL specified in the environment variable APIURL
. The user information for registration is taken from the environment variables EMAIL
, PASSWORD
, and USERNAME
, allowing for easy customization and reusability of the test script across different environments.
To contribute to the development of this project or request help from the community and our team, kindly do any of the following:
- Read our Contributors Guide.
- Join our community Discord Server.
- Create a new issue in this repository.
This repository is published under the MIT license.