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A JavaScript / TypeScript implementation of JSON Type Definition

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This is a fork of the official json-typedef-js that provides improved ESM support while (hopefully) maintaining compatibility with legacy CommonJS stuff.

jtd: JSON Validation for JavaScript

npm

JSON Type Definition, aka RFC 8927, is an easy-to-learn, standardized way to define a schema for JSON data. You can use JSON Typedef to portably validate data across programming languages, create dummy data, generate code, and more.

This jtd package is a JavaScript / TypeScript implementation of JSON Type Definition. It lets you validate input data against JSON Type Definition schemas. jtd works in Node.js and web browsers.

If you're looking to generate code from schemas, check out "Generating TypeScript from JSON Typedef schemas" in the JSON Typedef docs.

Installation

You can install this package with npm:

npm install jtd

Or with yarn:

yarn add jtd

Documentation

Detailed API documentation is available online at:

https://jsontypedef.github.io/json-typedef-js/index.html

For more high-level documentation about JSON Typedef in general, or JSON Typedef in combination with JavaScript in particular, see:

Basic Usage

Here's an example of how you can use this package to validate JSON data against a JSON Typedef schema:

import { Schema, validate } from "jtd";

// You can leave out the "as Schema" part at the end if you're using JavaScript
// and not TypeScript.
const schema = {
  properties: {
    name: { type: "string" },
    age: { type: "uint32" },
    phones: {
      elements: { type: "string" },
    },
  },
} as Schema;

// jtd.validate returns an array of validation errors. If there were no problems
// with the input, it returns an empty array.

// Outputs: []
console.log(
  validate(schema, {
    name: "John Doe",
    age: 43,
    phones: ["+44 1234567", "+44 2345678"],
  })
);

// This next input has three problems with it:
//
// 1. It's missing "name", which is a required property.
// 2. "age" is a string, but it should be an integer.
// 3. "phones[1]" is a number, but it should be a string.
//
// Each of those errors corresponds to one of the errors returned by validate.

// Outputs:
//
// [
//   { instancePath: [], schemaPath: [ 'properties', 'name' ] },
//   {
//     instancePath: [ 'age' ],
//     schemaPath: [ 'properties', 'age', 'type' ]
//   },
//   {
//     instancePath: [ 'phones', '1' ],
//     schemaPath: [ 'properties', 'phones', 'elements', 'type' ]
//   }
// ]
console.log(
  validate(schema, {
    age: "43",
    phones: ["+44 1234567", 442345678],
  })
);

Advanced Usage: Limiting Errors Returned

By default, jtd.validate returns every error it finds. If you just care about whether there are any errors at all, or if you can't show more than some number of errors, then you can get better performance out of jtd.validate using the maxErrors option.

For example, taking the same example from before, but limiting it to 1 error, we get:

// Outputs:
//
// [ { instancePath: [], schemaPath: [ 'properties', 'name' ] } ]
console.log(
  validate(
    schema,
    {
      age: "43",
      phones: ["+44 1234567", 442345678],
    },
    { maxErrors: 1 }
  )
);

Advanced Usage: Handling Untrusted Schemas

If you want to run jtd against a schema that you don't trust, then you should:

  1. Ensure the schema is well-formed, using jtd.isSchema and jtd.isValidSchema. isSchema does basic "type" checking (and in TypeScript, it acts as a type guard for the Schema type), while isValidSchema validates things like making sure all refs have corresponding definitions.

  2. Call jtd.validate with the maxDepth option. JSON Typedef lets you write recursive schemas -- if you're evaluating against untrusted schemas, you might go into an infinite loop when evaluating against a malicious input, such as this one:

    {
      "ref": "loop",
      "definitions": {
        "loop": {
          "ref": "loop"
        }
      }
    }

    The maxDepth option tells jtd.validate how many refs to follow recursively before giving up and throwing jtd.MaxDepthExceededError.

Here's an example of how you can use jtd to evaluate data against an untrusted schema:

import { isSchema, isValidSchema, Schema, validate } from "jtd";

// validateUntrusted returns true if `data` satisfies `schema`, and false if it
// does not. Throws an error if `schema` is invalid, or if validation goes in an
// infinite loop.
function validateUntrusted(schema: unknown, data: unknown): boolean {
  if (!isSchema(schema) || !isValidSchema(schema)) {
    throw new Error("invalid schema");
  }

  // You should tune maxDepth to be high enough that most legitimate schemas
  // evaluate without errors, but low enough that an attacker cannot cause a
  // denial of service attack.
  return validate(schema, data, { maxDepth: 32 }).length === 0;
}

// Returns true
validateUntrusted({ type: "string" }, "foo");

// Returns false
validateUntrusted({ type: "string" }, null);

// Throws "invalid schema"
validateUntrusted({ type: "nonsense" }, null);

// Throws an instance of jtd.MaxDepthExceededError
validateUntrusted(
  {
    ref: "loop",
    definitions: {
      loop: {
        ref: "loop",
      },
    },
  },
  null
);

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