npm package discovery and stats viewer.

Discover Tips

  • General search

    [free text search, go nuts!]

  • Package details

    pkg:[package-name]

  • User packages

    @[username]

Sponsor

Optimize Toolset

I’ve always been into building performant and accessible sites, but lately I’ve been taking it extremely seriously. So much so that I’ve been building a tool to help me optimize and monitor the sites that I build to make sure that I’m making an attempt to offer the best experience to those who visit them. If you’re into performant, accessible and SEO friendly sites, you might like it too! You can check it out at Optimize Toolset.

About

Hi, 👋, I’m Ryan Hefner  and I built this site for me, and you! The goal of this site was to provide an easy way for me to check the stats on my npm packages, both for prioritizing issues and updates, and to give me a little kick in the pants to keep up on stuff.

As I was building it, I realized that I was actually using the tool to build the tool, and figured I might as well put this out there and hopefully others will find it to be a fast and useful way to search and browse npm packages as I have.

If you’re interested in other things I’m working on, follow me on Twitter or check out the open source projects I’ve been publishing on GitHub.

I am also working on a Twitter bot for this site to tweet the most popular, newest, random packages from npm. Please follow that account now and it will start sending out packages soon–ish.

Open Software & Tools

This site wouldn’t be possible without the immense generosity and tireless efforts from the people who make contributions to the world and share their work via open source initiatives. Thank you 🙏

© 2024 – Pkg Stats / Ryan Hefner

@asteasolutions/zod-to-openapi

v7.3.0

Published

Builds OpenAPI schemas from Zod schemas

Downloads

1,327,101

Readme

Zod to OpenAPI

npm version npm downloads

A library that uses zod schemas to generate an Open API Swagger documentation.

  1. Purpose and quick example
  2. Usage
    1. Installation
    2. The openapi method
    3. The Registry
    4. The Generator
    5. Defining schemas
    6. Defining routes & webhooks
    7. Defining custom components
    8. A full example
    9. Adding it as part of your build
    10. Using schemas vs a registry
  3. Zod schema types
    1. Supported types
    2. Unsupported types
  4. Technologies

We keep a changelog as part of the GitHub releases.

Purpose and quick example

We at Astea Solutions made this library because we use zod for validation in our APIs and are tired of the duplication to also support a separate OpenAPI definition that must be kept in sync. Using zod-to-openapi, we generate OpenAPI definitions directly from our zod schemas, thus having a single source of truth.

Simply put, it turns this:

const UserSchema = z
  .object({
    id: z.string().openapi({ example: '1212121' }),
    name: z.string().openapi({ example: 'John Doe' }),
    age: z.number().openapi({ example: 42 }),
  })
  .openapi('User');

registry.registerPath({
  method: 'get',
  path: '/users/{id}',
  summary: 'Get a single user',
  request: {
    params: z.object({ id: z.string() }),
  },

  responses: {
    200: {
      description: 'Object with user data.',
      content: {
        'application/json': {
          schema: UserSchema,
        },
      },
    },
  },
});

into this:

components:
  schemas:
    User:
      type: object
      properties:
        id:
          type: string
          example: '1212121'
        name:
          type: string
          example: John Doe
        age:
          type: number
          example: 42
      required:
        - id
        - name
        - age

/users/{id}:
  get:
    summary: Get a single user
    parameters:
      - in: path
        name: id
        schema:
          type: string
        required: true
    responses:
      '200':
        description: Object with user data
        content:
          application/json:
            schema:
              $ref: '#/components/schemas/User'

and you can still use UserSchema and the request.params object to validate the input of your API.

Usage

Installation

npm install @asteasolutions/zod-to-openapi
# or
yarn add @asteasolutions/zod-to-openapi

The openapi method

To keep openapi definitions natural, we add an openapi method to all Zod objects. Its idea is to provide a convenient way to provide OpenApi specific data. It has three overloads:

  1. .openapi({ [key]: value }) - this way we can specify any OpenApi fields. For example z.number().openapi({ example: 3 }) would add example: 3 to the generated schema.
  2. .openapi("<schema-name>") - this way we specify that the underlying zod schema should be "registered" i.e added into components/schemas with the provided <schema-name>
  3. .openapi("<schema-name>", { [key]: value }) - this unites the two use cases above so that we can specify both a registration <schema-name> and additional metadata

For this to work, you need to call extendZodWithOpenApi once in your project.

This should be done only once in a common-entrypoint file of your project (for example an index.ts/app.ts). If you're using tree-shaking with Webpack, mark that file as having side-effects.

It can be bit tricky to achieve this in your codebase, because require is synchronous and import is a async.

The basic idea

import { extendZodWithOpenApi } from '@asteasolutions/zod-to-openapi';
import { z } from 'zod';

extendZodWithOpenApi(z);

// We can now use `.openapi()` to specify OpenAPI metadata
z.string().openapi({ description: 'Some string' });

Example 1: Calling the openapi-extension using tsx

//zod-extend.ts

import { extendZodWithOpenApi } from '@asteasolutions/zod-to-openapi';
import { z } from 'zod';

extendZodWithOpenApi(z);

// package.json

  "scripts": {
    "start": "tsx --import ./zod-extend.ts ./index.ts",

Example 2 - require-syntax

import { extendZodWithOpenApi } from '@asteasolutions/zod-to-openapi';
import { z } from 'zod';

extendZodWithOpenApi(z);

const { startServer } = require('./server/start');
startServer();

The Registry

The OpenAPIRegistry is a utility that can be used to collect definitions which would later be passed to a OpenApiGeneratorV3 or OpenApiGeneratorV31 instance.

import {
  OpenAPIRegistry,
  OpenApiGeneratorV3,
} from '@asteasolutions/zod-to-openapi';

const registry = new OpenAPIRegistry();

// Register definitions here

const generator = new OpenApiGeneratorV3(registry.definitions);

return generator.generateComponents();

The Generator

There are two generators that can be used - OpenApiGeneratorV3 and OpenApiGeneratorV31. They share the same interface but internally generate schemas that correctly follow the data format for the specific Open API version - 3.0.x or 3.1.x. The Open API version affects how some components are generated.

For example: changing the generator from OpenApiGeneratorV3 to OpenApiGeneratorV31 would result in following differences:

z.string().nullable().openapi(refId: 'name');
# 3.1.0
# nullable is invalid in 3.1.0 but type arrays are invalid in previous versions
name:
  type:
    - 'string'
    - 'null'

# 3.0.0
name:
  type: 'string'
  nullable: true

Both generators take a single argument in their constructors - an array of definitions - i.e results from the registry or regular zod schemas.

The public methods of both generators are as follows:

generateComponents will generate only the /components section of an OpenAPI document (e.g. only schemas and parameters), not generating actual routes.

generateDocument will generate the whole OpenAPI document.

Defining schemas

An OpenApi schema should be registered by using the .openapi method and providing a name:

const UserSchema = z
  .object({
    id: z.string().openapi({ example: '1212121' }),
    name: z.string().openapi({ example: 'John Doe' }),
    age: z.number().openapi({ example: 42 }),
  })
  .openapi('User');

const generator = new OpenApiGeneratorV3([UserSchema]);

The same can be achieved by using the register method of an OpenAPIRegistry instance. For more check the "Using schemas vs a registry" section

const UserSchema = registry.register(
  'User',
  z.object({
    id: z.string().openapi({ example: '1212121' }),
    name: z.string().openapi({ example: 'John Doe' }),
    age: z.number().openapi({ example: 42 }),
  })
);

const generator = new OpenApiGeneratorV3(registry.definitions);

If run now, generator.generateComponents() will generate the following structure:

components:
  schemas:
    User:
      type: object
      properties:
        id:
          type: string
          example: '1212121'
        name:
          type: string
          example: John Doe
        age:
          type: number
          example: 42
      required:
        - id
        - name
        - age

The key for the schema in the output is the first argument passed to .openapi method (or the .register) - in this case: User.

Note that generateComponents does not return YAML but a JS object - you can then serialize that object into YAML or JSON depending on your use-case.

The resulting schema can then be referenced by using $ref: #/components/schemas/User in an existing OpenAPI JSON. This will be done automatically for Routes defined through the registry.

Note by default a Zod object will result in "additionalProperties": true as per the Open API spec unless using strict or catchall, this is in contrast to normal Zod object usage where zod.parse is used.

Defining routes & webhooks

Registering a path or webhook

An OpenAPI path is registered using the registerPath method of an OpenAPIRegistry instance. An OpenAPI webhook is registered using the registerWebhook method and takes the same parameters as registerPath.

registry.registerPath({
  method: 'get',
  path: '/users/{id}',
  description: 'Get user data by its id',
  summary: 'Get a single user',
  request: {
    params: z.object({
      id: z.string().openapi({ example: '1212121' }),
    }),
  },
  responses: {
    200: {
      description: 'Object with user data.',
      content: {
        'application/json': {
          schema: UserSchema,
        },
      },
    },
    204: {
      description: 'No content - successful operation',
    },
  },
});

The YAML equivalent of the schema above would be:

'/users/{id}':
  get:
    description: Get user data by its id
    summary: Get a single user
    parameters:
      - in: path
        name: id
        schema:
          type: string
          example: '1212121'
        required: true
    responses:
      '200':
        description: Object with user data.
        content:
          application/json:
            schema:
              $ref: '#/components/schemas/User'
      '204':
        description: No content - successful operation

The library specific properties for registerPath are method, path, request and responses. Everything else gets directly appended to the path definition.

  • method - One of get, post, put, delete and patch;
  • path - a string - being the path of the endpoint;
  • request - an optional object with optional body, params, query and headers keys,
    • query, params - being instances of ZodObject
    • body - an object with a description and a content record where:
      • the key is a mediaType string like application/json
      • and the value is an object with a schema of any zod type
    • headers - instances of ZodObject or an array of any zod instances
  • responses - an object where the key is the status code or default and the value is an object with a description and a content record where:
    • the key is a mediaType string like application/json
    • and the value is an object with a schema of any zod type

Defining route parameters

If you don't want to inline all parameter definitions, you can define them separately with registerParameter and then reference them:

const UserIdParam = registry.registerParameter(
  'UserId',
  z.string().openapi({
    param: {
      name: 'id',
      in: 'path',
    },
    example: '1212121',
  })
);

registry.registerPath({
  ...
  request: {
    params: z.object({
      id: UserIdParam
    }),
  },
  responses: ...
});

The YAML equivalent would be:

components:
  parameters:
    UserId:
      in: path
      name: id
      schema:
        type: string
        example: '1212121'
      required: true

'/users/{id}':
  get:
    ...
    parameters:
      - $ref: '#/components/parameters/UserId'
    responses: ...

Note: In order to define properties that apply to the parameter itself, use the param property of .openapi. Any properties provided outside of param would be applied to the schema for this parameter.

Generating the full document

A full OpenAPI document can be generated using the generateDocument method of an OpenApiGeneratorV3 or OpenApiGeneratorV31 instance. It takes one argument - the document config. It may look something like this:

return generator.generateDocument({
  openapi: '3.0.0',
  info: {
    version: '1.0.0',
    title: 'My API',
    description: 'This is the API',
  },
  servers: [{ url: 'v1' }],
});

Defining custom components

You can define components that are not OpenAPI schemas, including security schemes, response headers and others. See this test file for examples.

A full example

A full example code can be found here. And the YAML representation of its result - here

Using schemas vs a registry

Schemas are automatically being registered when referenced. That means that if you have a schema like:

const schema = z.object({ key: z.string().openapi('Test') }).openapi('Object');

you'd have the following resulting structure:

components:
  schemas:
    Test:
      type: 'string',
    Object:
      type: 'object',
      properties:
        key:
          $ref: '#/components/schemas/Test'
      required: ['key']

This does not require any usages of an OpenAPIRegistry instance.

However the same output can be achieved with the following code:

const registry = new OpenAPIRegistry();
const schema = registry.register(
  'Object',
  z.object({ key: z.string().openapi('Test') })
);

The main benefit of the .registry method is that you can use the registry as a "collection" where you would put all such schemas.

With .openapi:

// file1.ts
export const Schema1 = ...

// file2.ts
export const Schema2 = ...

new OpenApiGeneratorV3([Schema1, Schema2])

Adding a NewSchema into file3.ts would require you to pass that schema manually into the array of the generator constructor. Note: If a NewSchema is referenced by any other schemas or a route/webhook definition it would still appear in the resulting document.

With registry.register:

// registry.ts
export const registry = new OpenAPIRegistry()

// file1.ts
export const Schema1 = registry.register(...)

// file2.ts
export const Schema2 = registry.register(...)

new OpenApiGeneratorV3(registry.definitions)

Adding a NewSchema into file3.ts and using registry.register would NOT require you to do any changes to the generator constructor.

Conclusion

Using an OpenAPIRegistry instance is mostly useful if you would want your resulting document to contain unreferenced schemas. That can sometimes be useful - for example when you are slowly integrating an already existing documentation with @asteasolutions/zod-to-openapi and you are migrating small pieces at a time. Those pieces can then be referenced directly from an existing documentation.

Adding it as part of your build

In a file inside your project you can have a file like so:

export const registry = new OpenAPIRegistry();

export function generateOpenAPI() {
  const config = {...}; // your config comes here

  return new OpenApiGeneratorV3(registry.definitions).generateDocument(config);
}

You then use the exported registry object to register all schemas, parameters and routes where appropriate.

Then you can create a script that executes the exported generateOpenAPI function. This script can be executed as a part of your build step so that it can write the result to some file like openapi-docs.json.

Zod schema types

Supported types

The list of all supported types as of now is:

  • ZodAny

  • ZodArray

  • ZodBigInt

  • ZodBoolean

  • ZodDate

  • ZodDefault

  • ZodDiscriminatedUnion

    • including discriminator mapping when all Zod objects in the union are registered with .register() or contain a refId.
  • ZodEffects

  • ZodEnum

  • ZodIntersection

  • ZodLiteral

  • ZodNativeEnum

  • ZodNullable

  • ZodNumber

    • including z.number().int() being inferred as type: 'integer'
  • ZodObject

    • including .catchall resulting in the respective additionalProperties schema
    • also including strict resulting in the respective additionalProperties schema
  • ZodOptional

  • ZodPipeline

  • ZodReadonly

  • ZodRecord

  • ZodString

    • adding format for:

      • .emoji()
      • .cuid()
      • .cuid2()
      • .ulid()
      • .ip()
      • .date()
      • .datetime()
      • .uuid()
      • .email()
      • .url()
    • adding pattern for .regex() is also supported

      ${'emoji'} | ${z.string().emoji()} | ${'emoji'} ${'cuid'} | ${z.string().cuid()} | ${'cuid'} ${'cuid2'} | ${z.string().cuid2()} | ${'cuid2'} ${'ulid'} | ${z.string().ulid()} | ${'ulid'} ${'ip'} | ${z.string().ip()} | ${'ip'}

  • ZodTuple

  • ZodUnion

  • ZodUnknown

Extending an instance of ZodObject is also supported and results in an OpenApi definition with allOf

Unsupported types

In case you try to create an OpenAPI schema from a zod schema that is not one of the aforementioned types then you'd receive an UnknownZodTypeError.

You can still register such schemas on your own by providing a type via the .openapi method. In case you think that the desired behavior can be achieved automatically do not hesitate to reach out to us by describing your case via Github Issues.

Known issues

  1. z.nullable(schema) does not generate a $ref for underlying registered schemas.
  • This is an implementation limitation.
  • However you can simply use schema.nullable() which has the exact same effect zod wise but it is also fully supported on our end.

Technologies