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A(i)ppealing Companies 🏒 ➑️ πŸ€– ➑️ 🍫 πŸš— πŸ–ΌοΈ

API to create appealing images of company products made of chocolate, gold or lego. Reference implementation is based on OpenAI (DALL-E, GPT-3).

Run in Postman

Postman Governance checks on branch

Integration Tests Production

Motivation

There are some amazing, visually appealing company products made of chocolate or lego

image imageSoccer%20Stadium%20made%20of%20Lego

Inspired by the image and text generation capabilities of OpenAI, this API generates images of the products, companies are most known for, and turns them into gold, chocolate, lego or any other material.

Volkswagen / Porsche

image image

Allianz

image image

Mercedes-Benz

image image

Trying it out 🏒 ➑️ πŸ€– ➑️ 🍫 πŸš— πŸ–ΌοΈ πŸŽ‰

Follow the generated API documentation and click the "Run in Postman" button

image

OpenAPI Generated JavaScript/Express Server

Overview

This server was generated using the OpenAPI Generator project. The code generator, and it's generated code allows you to develop your system with an API-First attitude, where the API contract is the anchor and definer of your project, and your code and business-logic aims to complete and comply to the terms in the API contract.

prerequisites

  • NodeJS >= 10.6
  • NPM >= 6.10.0

The code was written on a mac, so assuming all should work smoothly on Linux-based computers. However, there is no reason not to run this library on Windows-based machines. If you find an OS-related problem, please open an issue and it will be resolved.

Running the server

This is a long read, but there's a lot to understand. Please take the time to go through this.

  1. Use the OpenAPI Generator to generate your application: Assuming you have Java (1.8+), and have the jar to generate the application, run: java -jar {path_to_jar_file} generate -g nodejs-express-server -i {openapi yaml/json file} -o {target_directory_where_the_app_will_be_installed} If you do not have the jar, or do not want to run Java from your local machine, follow instructions on the OpenAPITools page. You can run the script online, on docker, and various other ways.

  2. Go to the generated directory you defined. There's a fully working NodeJS-ExpressJs server waiting for you. This is important - the code is yours to change and update! Look at config.js and see that the settings there are ok with you - the server will run on port 3000, and files will be uploaded to a new directory 'uploaded_files'.

  3. The server will base itself on an openapi.yaml file which is located under /api/openapi.yaml. This is not exactly the same file that you used to generate the app: I. If you have application/json contentBody that was defined inside the path object - the generate will have moved it to the components/schemas section of the openapi document. II. Every process has a new element added to it - x-eov-operation-handler: controllers/PetController which directs the call to that file. III. We have a Java application that translates the operationId to a method, and a nodeJS script that does the same process to call that method. Both are converting the method to camelCase, but might have discrepancy. Please pay attention to the operationID names, and see that they are represented in the controllers and services directories.

  4. Take the time to understand the structure of the application. There might be bugs, and there might be settings and business-logic that does not meet your expectation. Instead of dumping this solution and looking for something else - see if you can make the generated code work for you. To keep the explanation short (a more detailed explanation will follow): Application starts with a call to index.js (this is where you will plug in the db later). It calls expressServer.js which is where the express.js and openapi-validator kick in. This is an important file. Learn it. All calls to endpoints that were configured in the openapi.yaml document go to controllers/{name_of_tag_which_the_operation_was_associated_with}.js, which is a very small method. All the business-logic lies in controllers/Controller.js, and from there - to services/{name_of_tag_which_the_operation_was_associated_with}.js.

  5. Once you've understood what is going to happen, launch the app and ensure everything is working as expected:

npm start

View and test the API

(Assuming no changes were made to config.js)

  1. API documentation, and to check the available endpoints: http://localhost:3000/api-docs/. To
  2. Download the openapi.yaml document: http://localhost:3000/openapi.
  3. Every call to an endpoint that was defined in the openapi document will return a 200 and a list of all the parameters and objects that were sent in the request.
  4. Endpoints that require security need to have security handlers configured before they can return a successful response. At this point they will return a response code of 401.
  5. At this stage the server does not support document body sent in xml format.

Project Files

Root Directory:

In the root directory we have (besides package.json, config.js, and log files):

  • logger.js - where we define the logger for the project. The project uses winston, but the purpose of this file is to enable users to change and modify their own logger behavior.
  • index.js - This is the project's 'main' file, and from here we launch the application. This is a very short and concise file, and the idea behind launching from this short file is to allow use-cases of launching the server with different parameters (changing config and/or logger) without affecting the rest of the code.
  • expressServer.js - The core of the Express.js server. This is where the express server is initialized, together with the OpenAPI validator, OpenAPI UI, and other libraries needed to start our server. If we want to add external links, that's where they would go. Our project uses the express-openapi-validator library that acts as a first step in the routing process - requests that are directed to paths defined in the openapi.yaml file are caught by this process, and it's parameters and bodyContent are validated against the schema. A successful result of this validation will be a new 'openapi' object added to the request. If the path requested is not part of the openapi.yaml file, the validator ignores the request and passes it on, as is, down the flow of the Express server.

api/

  • openapi.yaml - This is the OpenAPI contract to which this server will comply. The file was generated using the codegen, and should contain everything needed to run the API Gateway - no references to external models/schemas.

utils/

Currently a single file:

  • openapiRouter.js - This is where the routing to our back-end code happens. If the request object includes an openapi object, it picks up the following values (that are part of the openapi.yaml file): 'x-openapi-router-controller', and 'x-openapi-router-service'. These variables are names of files/classes in the controllers and services directories respectively. The operationId of the request is also extracted. The operationId is a method in the controller and the service that was generated as part of the codegen process. The routing process sends the request and response objects to the controller, which will extract the expected variables from the request, and send it to be processed by the service, returning the response from the service to the caller.

controllers/

After validating the request, and ensuring this belongs to our API gateway, we send the request to a controller, where the variables and parameters are extracted from the request and sent to the relevant service for processing. The controller handles the response from the service and builds the appropriate HTTP response to be sent back to the user.

  • index.js - load all the controllers that were generated for this project, and export them to be used dynamically by the openapiRouter.js. If you would like to customize your controller, it is advised that you link to your controller here, and ensure that the codegen does not rewrite this file.

  • Controller.js - The core processor of the generated controllers. The generated controllers are designed to be as slim and generic as possible, referencing to the Controller.js for the business logic of parsing the needed variables and arguments from the request, and for building the HTTP response which will be sent back. The Controller.js is a class with static methods.

  • .js - auto-generated code, processing all the operations. The Controller is a class that is constructed with the service class it will be sending the request to. Every request defined by the openapi.yaml has an operationId. The operationId is the name of the method that will be called. Every method receives the request and response, and calls the Controller.js to process the request and response, adding the service method that should be called for the actual business-logic processing.

services/

This is where the API Gateway ends, and the unique business-logic of your application kicks in. Every endpoint in the openapi.yaml has a variable 'x-openapi-router-service', which is the name of the service class that is generated. The operationID of the endpoint is the name of the method that will be called. The generated code provides a simple promise with a try/catch clause. A successful operation ends with a call to the generic Service.js to build a successful response (payload and response code), and a failure will call the generic Service.js to build a response with an error object and the relevant response code. It is recommended to have the services be generated automatically once, and after the initial build add methods manually.

  • index.js - load all the services that were generated for this project, and export them to be used dynamically by the openapiRouter.js. If you would like to customize your service, it is advised that you link to your controller here, and ensure that the codegen does not rewrite this file.

  • Service.js - A utility class, very simple and thin at this point, with two static methods for building a response object for successful and failed results in the service operation. The default response code is 200 for success and 500 for failure. It is recommended to send more accurate response codes and override these defaults when relevant.

  • .js - auto-generated code, providing a stub Promise for each operationId defined in the openapi.yaml. Each method receives the variables that were defined in the openapi.yaml file, and wraps a Promise in a try/catch clause. The Promise resolves both success and failure in a call to the Service.js utility class for building the appropriate response that will be sent back to the Controller and then to the caller of this endpoint.

tests/

  • serverTests.js - basic server validation tests, checking that the server is up, that a call to an endpoint within the scope of the openapi.yaml file returns 200, that a call to a path outside that scope returns 200 if it exists and a 404 if not.
  • routingTests.js - Runs through all the endpoints defined in the openapi.yaml, and constructs a dummy request to send to the server. Confirms that the response code is 200. At this point requests containing xml or formData fail - currently they are not supported in the router.
  • additionalEndpointsTests.js - A test file for all the endpoints that are defined outside the openapi.yaml scope. Confirms that these endpoints return a successful 200 response.

Future tests should be written to ensure that the response of every request sent should conform to the structure defined in the openapi.yaml. This test will fail 100% initially, and the job of the development team will be to clear these tests.

models/

Currently a concept awaiting feedback. The idea is to have the objects defined in the openapi.yaml act as models which are passed between the different modules. This will conform the programmers to interact using defined objects, rather than loosely-defined JSON objects. Given the nature of JavaScript programmers, who want to work with their own bootstrapped parameters, this concept might not work. Keeping this here for future discussion and feedback.