node-fetch vs axios vs fetch-mock vs @orval/hono
HTTP Client Libraries Comparison
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What's HTTP Client Libraries?

HTTP client libraries are essential tools in web development that facilitate making HTTP requests to servers, handling responses, and managing asynchronous operations. They abstract the complexities of the underlying network protocols, allowing developers to focus on building features rather than dealing with low-level details. These libraries vary in terms of features, ease of use, and specific use cases, making it crucial to choose the right one based on project requirements.

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node-fetch61,758,0248,832107 kB2142 years agoMIT
axios59,810,269106,4152.14 MB6715 days agoMIT
fetch-mock817,2261,297150 kB52 days agoMIT
@orval/hono166,303-278 kB-4 days agoMIT
Feature Comparison: node-fetch vs axios vs fetch-mock vs @orval/hono

Type Safety

  • node-fetch:

    node-fetch offers basic type safety when used with TypeScript, but it does not provide the same level of type generation as @orval/hono. Developers need to define their own types for the requests and responses.

  • axios:

    Axios does not provide built-in type safety, but it can be used with TypeScript. However, developers need to manually define types for requests and responses, which can lead to inconsistencies if not managed properly.

  • fetch-mock:

    fetch-mock does not inherently provide type safety as it is primarily a mocking library. However, it can be used in conjunction with TypeScript to define types for mocked responses, enhancing the testing experience.

  • @orval/hono:

    @orval/hono provides strong type safety by generating TypeScript types directly from OpenAPI specifications. This ensures that your API interactions are type-checked at compile time, reducing runtime errors and improving developer experience.

Ease of Use

  • node-fetch:

    node-fetch mimics the Fetch API found in browsers, making it easy for developers who are already familiar with the Fetch API to use it in Node.js applications. Its API is straightforward and aligns closely with the native Fetch.

  • axios:

    Axios is known for its simplicity and ease of use. Its API is clean and well-documented, making it easy for developers to perform common tasks like sending requests and handling responses without much boilerplate code.

  • fetch-mock:

    fetch-mock is easy to set up and use for mocking fetch requests. It provides a simple API for defining responses and controlling the behavior of fetch calls, making it a valuable tool for testing.

  • @orval/hono:

    @orval/hono is designed to be user-friendly, especially for developers familiar with OpenAPI. Its API is intuitive, allowing for quick setup and straightforward usage when interacting with APIs.

Interceptors

  • node-fetch:

    node-fetch does not have built-in support for interceptors. Developers need to implement their own logic for modifying requests or responses, which can add complexity to the code.

  • axios:

    Axios provides powerful request and response interceptors, allowing developers to modify requests or responses before they are handled. This feature is useful for adding authentication tokens, logging, or error handling globally.

  • fetch-mock:

    fetch-mock does not support interceptors since it is a mocking library. However, it allows you to define specific behaviors for fetch calls, which can simulate interceptor-like functionality during testing.

  • @orval/hono:

    @orval/hono does not support interceptors as it focuses on type-safe API interactions. Its design philosophy emphasizes simplicity and type safety over advanced features like interceptors.

Community Support

  • node-fetch:

    node-fetch is widely used in the Node.js ecosystem and has a solid community backing. It is well-documented and frequently updated, making it a dependable choice for server-side HTTP requests.

  • axios:

    Axios has a large and active community, with extensive documentation, numerous tutorials, and a wealth of third-party resources available. This makes it a reliable choice for developers looking for support and resources.

  • fetch-mock:

    fetch-mock has a dedicated user base, especially among developers focused on testing. While its community is smaller than Axios, it provides adequate documentation and examples for effective use.

  • @orval/hono:

    @orval/hono is relatively new and may have a smaller community compared to more established libraries. However, it is gaining traction due to its modern approach and TypeScript integration.

Testing Capabilities

  • node-fetch:

    node-fetch can be tested using standard testing libraries, but it lacks built-in mocking features. Developers often need to implement their own mocking strategy or use additional libraries to facilitate testing.

  • axios:

    Axios can be tested easily, but it does not provide built-in mocking capabilities. Developers often use libraries like Jest or Sinon to mock Axios requests in their tests.

  • fetch-mock:

    fetch-mock excels in testing scenarios, allowing developers to easily mock fetch requests and simulate various server responses. This makes it an excellent choice for unit testing applications that rely on fetch.

  • @orval/hono:

    @orval/hono focuses on type-safe API interactions and does not include built-in testing capabilities. However, its type safety can enhance testing by ensuring that API calls conform to expected types.

How to Choose: node-fetch vs axios vs fetch-mock vs @orval/hono
  • node-fetch:

    Choose node-fetch if you want a lightweight module that brings the Fetch API to Node.js. It is useful for server-side applications that need to make HTTP requests and prefer a familiar API similar to the browser's Fetch.

  • axios:

    Choose Axios if you need a promise-based HTTP client with a rich feature set, including request and response interceptors, automatic JSON data transformation, and the ability to cancel requests. It is widely adopted and has a large community support.

  • fetch-mock:

    Choose fetch-mock if you need to mock fetch requests in your tests. It allows you to simulate server responses and control the behavior of fetch calls, making it ideal for unit testing and ensuring your application behaves correctly under various scenarios.

  • @orval/hono:

    Choose @orval/hono if you are looking for a modern, type-safe HTTP client that integrates seamlessly with TypeScript and offers a straightforward API for generating API clients from OpenAPI specifications.

Similar Npm Packages to node-fetch

node-fetch is a lightweight module that brings window.fetch to Node.js, allowing developers to make HTTP requests in a simple and familiar way. It is particularly useful for server-side applications that need to interact with APIs or fetch resources over the network. While node-fetch is a popular choice for making HTTP requests in Node.js, there are several alternatives that also provide robust solutions. Here are a few noteworthy alternatives:

  • axios is a widely-used promise-based HTTP client for both the browser and Node.js. It offers a rich feature set, including automatic JSON data transformation, request and response interceptors, and the ability to cancel requests. Axios is known for its simplicity and ease of use, making it a go-to choice for many developers when it comes to making HTTP requests. If you need a powerful and flexible HTTP client that works seamlessly in both environments, axios is an excellent option.
  • got is another popular HTTP request library for Node.js that focuses on simplicity and performance. It provides a rich set of features, including retries, timeouts, and streaming support. Got is designed to be a more modern and user-friendly alternative to the built-in http module in Node.js, making it a great choice for developers who want a straightforward and efficient way to handle HTTP requests. If you are building a Node.js application and need a feature-rich HTTP client, got is worth considering.
  • isomorphic-fetch is a library that provides a universal fetch API for both the browser and Node.js. It is built on top of the native fetch API and aims to provide a consistent interface across different environments. This makes it a suitable choice for applications that need to run both on the server and the client without changing the code for making HTTP requests. If you are looking for a solution that works seamlessly in both environments, isomorphic-fetch can be a good fit.

To see how node-fetch compares with axios, got, and isomorphic-fetch, check out the comparison: Comparing axios vs got vs isomorphic-fetch vs node-fetch.

Similar Npm Packages to axios

axios is a popular promise-based HTTP client for both the browser and Node.js. It simplifies making HTTP requests and handling responses, providing a clean and intuitive API. Axios supports features such as request and response interception, automatic JSON data transformation, and the ability to cancel requests. It is widely used in web applications for interacting with RESTful APIs and is known for its ease of use and flexibility. However, there are several alternatives to axios that developers may consider based on their specific needs:

  • node-fetch is a lightweight module that brings window.fetch to Node.js. It is a simple and minimalistic implementation of the Fetch API, allowing developers to make HTTP requests using a familiar API. Node-fetch is particularly useful for server-side applications or when working with APIs in a Node.js environment. It supports promises and is a great choice for those who prefer the Fetch API's syntax and behavior over traditional XMLHttpRequest or other libraries.
  • request was once one of the most popular HTTP request libraries for Node.js. It provided a simple and flexible API for making HTTP requests and handling responses. However, it has been deprecated and is no longer actively maintained. While it may still be found in legacy projects, developers are encouraged to use more modern alternatives like axios or node-fetch for new applications.
  • superagent is another powerful HTTP request library for Node.js and browsers. It offers a flexible and expressive API for making HTTP requests, supporting features like chaining, automatic content type handling, and file uploads. Superagent is particularly useful for developers who need a more feature-rich alternative to axios or want to work with a library that provides a more expressive syntax.

For a comprehensive comparison of these libraries, check out the following link: Comparing axios vs node-fetch vs request vs superagent.

Similar Npm Packages to fetch-mock

fetch-mock is a powerful library for mocking HTTP requests in JavaScript applications. It is particularly useful for testing purposes, allowing developers to simulate API responses without making actual network calls. This can help in creating reliable tests that do not depend on external services, thus improving the speed and stability of the testing process. With fetch-mock, you can easily define custom responses, set delays, and handle various request scenarios, making it a versatile tool for developers working with the Fetch API.

An alternative to fetch-mock is axios-mock-adapter. This library is specifically designed to work with Axios, a popular HTTP client for making requests in JavaScript applications. axios-mock-adapter allows you to intercept requests made by Axios and return mock responses, similar to what fetch-mock does for the Fetch API. This makes it an excellent choice for projects that are already using Axios for their HTTP requests, as it integrates seamlessly into the existing codebase.

Both libraries serve the purpose of mocking HTTP requests, but they cater to different use cases depending on the HTTP client being used. If your project utilizes the Fetch API, fetch-mock is the way to go. Conversely, if you are using Axios, then axios-mock-adapter would be the more suitable option.

For a detailed comparison of these two packages, check out the following link: Comparing axios-mock-adapter vs fetch-mock.

Similar Npm Packages to @orval/hono

@orval/hono is a library designed for building and managing HTTP APIs in a structured and efficient manner. It provides a set of tools and utilities that simplify the process of creating, testing, and maintaining APIs. With its focus on developer experience, @orval/hono allows developers to quickly set up API endpoints and manage their responses, making it an excellent choice for those looking to streamline their API development process. However, there are several alternatives in the ecosystem that also provide HTTP client capabilities. Here are a few notable ones:

  • axios is a widely-used promise-based HTTP client for JavaScript that works seamlessly with both the browser and Node.js. It provides a simple and intuitive API for making HTTP requests and handling responses, along with features like interceptors, request cancellation, and automatic JSON data transformation. If you need a robust and feature-rich HTTP client, axios is a popular choice among developers for its ease of use and extensive capabilities.

  • fetch-mock is a library specifically designed for mocking HTTP requests in tests. It works with the native Fetch API, allowing developers to simulate API responses and test their applications without making actual network requests. This is particularly useful for unit testing and integration testing, as it enables developers to create predictable and controlled testing environments. If your focus is on testing and you need to mock API calls, fetch-mock is an excellent option.

  • node-fetch is a lightweight module that brings the Fetch API to Node.js. It allows developers to make HTTP requests in a similar way to the Fetch API available in the browser, making it easier to work with APIs in server-side applications. If you're building a Node.js application and want a familiar API for making HTTP requests, node-fetch is a solid choice that maintains compatibility with the Fetch API's syntax and behavior.

To see how @orval/hono compares with axios, fetch-mock, and node-fetch, check out the comparison: Comparing @orval/hono vs axios vs fetch-mock vs node-fetch.

README for node-fetch
Node Fetch

A light-weight module that brings Fetch API to Node.js.

Build status Coverage status Current version Install size Mentioned in Awesome Node.js Discord

Consider supporting us on our Open Collective:

Open Collective

You might be looking for the v2 docs

Motivation

Instead of implementing XMLHttpRequest in Node.js to run browser-specific Fetch polyfill, why not go from native http to fetch API directly? Hence, node-fetch, minimal code for a window.fetch compatible API on Node.js runtime.

See Jason Miller's isomorphic-unfetch or Leonardo Quixada's cross-fetch for isomorphic usage (exports node-fetch for server-side, whatwg-fetch for client-side).

Features

  • Stay consistent with window.fetch API.
  • Make conscious trade-off when following WHATWG fetch spec and stream spec implementation details, document known differences.
  • Use native promise and async functions.
  • Use native Node streams for body, on both request and response.
  • Decode content encoding (gzip/deflate/brotli) properly, and convert string output (such as res.text() and res.json()) to UTF-8 automatically.
  • Useful extensions such as redirect limit, response size limit, explicit errors for troubleshooting.

Difference from client-side fetch

  • See known differences:
  • If you happen to use a missing feature that window.fetch offers, feel free to open an issue.
  • Pull requests are welcomed too!

Installation

Current stable release (3.x) requires at least Node.js 12.20.0.

npm install node-fetch

Loading and configuring the module

ES Modules (ESM)

import fetch from 'node-fetch';

CommonJS

node-fetch from v3 is an ESM-only module - you are not able to import it with require().

If you cannot switch to ESM, please use v2 which remains compatible with CommonJS. Critical bug fixes will continue to be published for v2.

npm install node-fetch@2

Alternatively, you can use the async import() function from CommonJS to load node-fetch asynchronously:

// mod.cjs
const fetch = (...args) => import('node-fetch').then(({default: fetch}) => fetch(...args));

Providing global access

To use fetch() without importing it, you can patch the global object in node:

// fetch-polyfill.js
import fetch, {
  Blob,
  blobFrom,
  blobFromSync,
  File,
  fileFrom,
  fileFromSync,
  FormData,
  Headers,
  Request,
  Response,
} from 'node-fetch'

if (!globalThis.fetch) {
  globalThis.fetch = fetch
  globalThis.Headers = Headers
  globalThis.Request = Request
  globalThis.Response = Response
}

// index.js
import './fetch-polyfill'

// ...

Upgrading

Using an old version of node-fetch? Check out the following files:

Common Usage

NOTE: The documentation below is up-to-date with 3.x releases, if you are using an older version, please check how to upgrade.

Plain text or HTML

import fetch from 'node-fetch';

const response = await fetch('https://github.com/');
const body = await response.text();

console.log(body);

JSON

import fetch from 'node-fetch';

const response = await fetch('https://api.github.com/users/github');
const data = await response.json();

console.log(data);

Simple Post

import fetch from 'node-fetch';

const response = await fetch('https://httpbin.org/post', {method: 'POST', body: 'a=1'});
const data = await response.json();

console.log(data);

Post with JSON

import fetch from 'node-fetch';

const body = {a: 1};

const response = await fetch('https://httpbin.org/post', {
	method: 'post',
	body: JSON.stringify(body),
	headers: {'Content-Type': 'application/json'}
});
const data = await response.json();

console.log(data);

Post with form parameters

URLSearchParams is available on the global object in Node.js as of v10.0.0. See official documentation for more usage methods.

NOTE: The Content-Type header is only set automatically to x-www-form-urlencoded when an instance of URLSearchParams is given as such:

import fetch from 'node-fetch';

const params = new URLSearchParams();
params.append('a', 1);

const response = await fetch('https://httpbin.org/post', {method: 'POST', body: params});
const data = await response.json();

console.log(data);

Handling exceptions

NOTE: 3xx-5xx responses are NOT exceptions, and should be handled in then(), see the next section.

Wrapping the fetch function into a try/catch block will catch all exceptions, such as errors originating from node core libraries, like network errors, and operational errors which are instances of FetchError. See the error handling document for more details.

import fetch from 'node-fetch';

try {
	await fetch('https://domain.invalid/');
} catch (error) {
	console.log(error);
}

Handling client and server errors

It is common to create a helper function to check that the response contains no client (4xx) or server (5xx) error responses:

import fetch from 'node-fetch';

class HTTPResponseError extends Error {
	constructor(response) {
		super(`HTTP Error Response: ${response.status} ${response.statusText}`);
		this.response = response;
	}
}

const checkStatus = response => {
	if (response.ok) {
		// response.status >= 200 && response.status < 300
		return response;
	} else {
		throw new HTTPResponseError(response);
	}
}

const response = await fetch('https://httpbin.org/status/400');

try {
	checkStatus(response);
} catch (error) {
	console.error(error);

	const errorBody = await error.response.text();
	console.error(`Error body: ${errorBody}`);
}

Handling cookies

Cookies are not stored by default. However, cookies can be extracted and passed by manipulating request and response headers. See Extract Set-Cookie Header for details.

Advanced Usage

Streams

The "Node.js way" is to use streams when possible. You can pipe res.body to another stream. This example uses stream.pipeline to attach stream error handlers and wait for the download to complete.

import {createWriteStream} from 'node:fs';
import {pipeline} from 'node:stream';
import {promisify} from 'node:util'
import fetch from 'node-fetch';

const streamPipeline = promisify(pipeline);

const response = await fetch('https://github.githubassets.com/images/modules/logos_page/Octocat.png');

if (!response.ok) throw new Error(`unexpected response ${response.statusText}`);

await streamPipeline(response.body, createWriteStream('./octocat.png'));

In Node.js 14 you can also use async iterators to read body; however, be careful to catch errors -- the longer a response runs, the more likely it is to encounter an error.

import fetch from 'node-fetch';

const response = await fetch('https://httpbin.org/stream/3');

try {
	for await (const chunk of response.body) {
		console.dir(JSON.parse(chunk.toString()));
	}
} catch (err) {
	console.error(err.stack);
}

In Node.js 12 you can also use async iterators to read body; however, async iterators with streams did not mature until Node.js 14, so you need to do some extra work to ensure you handle errors directly from the stream and wait on it response to fully close.

import fetch from 'node-fetch';

const read = async body => {
	let error;
	body.on('error', err => {
		error = err;
	});

	for await (const chunk of body) {
		console.dir(JSON.parse(chunk.toString()));
	}

	return new Promise((resolve, reject) => {
		body.on('close', () => {
			error ? reject(error) : resolve();
		});
	});
};

try {
	const response = await fetch('https://httpbin.org/stream/3');
	await read(response.body);
} catch (err) {
	console.error(err.stack);
}

Accessing Headers and other Metadata

import fetch from 'node-fetch';

const response = await fetch('https://github.com/');

console.log(response.ok);
console.log(response.status);
console.log(response.statusText);
console.log(response.headers.raw());
console.log(response.headers.get('content-type'));

Extract Set-Cookie Header

Unlike browsers, you can access raw Set-Cookie headers manually using Headers.raw(). This is a node-fetch only API.

import fetch from 'node-fetch';

const response = await fetch('https://example.com');

// Returns an array of values, instead of a string of comma-separated values
console.log(response.headers.raw()['set-cookie']);

Post data using a file

import fetch, {
  Blob,
  blobFrom,
  blobFromSync,
  File,
  fileFrom,
  fileFromSync,
} from 'node-fetch'

const mimetype = 'text/plain'
const blob = fileFromSync('./input.txt', mimetype)
const url = 'https://httpbin.org/post'

const response = await fetch(url, { method: 'POST', body: blob })
const data = await response.json()

console.log(data)

node-fetch comes with a spec-compliant FormData implementations for posting multipart/form-data payloads

import fetch, { FormData, File, fileFrom } from 'node-fetch'

const httpbin = 'https://httpbin.org/post'
const formData = new FormData()
const binary = new Uint8Array([ 97, 98, 99 ])
const abc = new File([binary], 'abc.txt', { type: 'text/plain' })

formData.set('greeting', 'Hello, world!')
formData.set('file-upload', abc, 'new name.txt')

const response = await fetch(httpbin, { method: 'POST', body: formData })
const data = await response.json()

console.log(data)

If you for some reason need to post a stream coming from any arbitrary place, then you can append a Blob or a File look-a-like item.

The minimum requirement is that it has:

  1. A Symbol.toStringTag getter or property that is either Blob or File
  2. A known size.
  3. And either a stream() method or a arrayBuffer() method that returns a ArrayBuffer.

The stream() must return any async iterable object as long as it yields Uint8Array (or Buffer) so Node.Readable streams and whatwg streams works just fine.

formData.append('upload', {
	[Symbol.toStringTag]: 'Blob',
	size: 3,
  *stream() {
    yield new Uint8Array([97, 98, 99])
	},
	arrayBuffer() {
		return new Uint8Array([97, 98, 99]).buffer
	}
}, 'abc.txt')

Request cancellation with AbortSignal

You may cancel requests with AbortController. A suggested implementation is abort-controller.

An example of timing out a request after 150ms could be achieved as the following:

import fetch, { AbortError } from 'node-fetch';

// AbortController was added in node v14.17.0 globally
const AbortController = globalThis.AbortController || await import('abort-controller')

const controller = new AbortController();
const timeout = setTimeout(() => {
	controller.abort();
}, 150);

try {
	const response = await fetch('https://example.com', {signal: controller.signal});
	const data = await response.json();
} catch (error) {
	if (error instanceof AbortError) {
		console.log('request was aborted');
	}
} finally {
	clearTimeout(timeout);
}

See test cases for more examples.

API

fetch(url[, options])

  • url A string representing the URL for fetching
  • options Options for the HTTP(S) request
  • Returns: Promise<Response>

Perform an HTTP(S) fetch.

url should be an absolute URL, such as https://example.com/. A path-relative URL (/file/under/root) or protocol-relative URL (//can-be-http-or-https.com/) will result in a rejected Promise.

Options

The default values are shown after each option key.

{
	// These properties are part of the Fetch Standard
	method: 'GET',
	headers: {},            // Request headers. format is the identical to that accepted by the Headers constructor (see below)
	body: null,             // Request body. can be null, or a Node.js Readable stream
	redirect: 'follow',     // Set to `manual` to extract redirect headers, `error` to reject redirect
	signal: null,           // Pass an instance of AbortSignal to optionally abort requests

	// The following properties are node-fetch extensions
	follow: 20,             // maximum redirect count. 0 to not follow redirect
	compress: true,         // support gzip/deflate content encoding. false to disable
	size: 0,                // maximum response body size in bytes. 0 to disable
	agent: null,            // http(s).Agent instance or function that returns an instance (see below)
	highWaterMark: 16384,   // the maximum number of bytes to store in the internal buffer before ceasing to read from the underlying resource.
	insecureHTTPParser: false	// Use an insecure HTTP parser that accepts invalid HTTP headers when `true`.
}

Default Headers

If no values are set, the following request headers will be sent automatically:

| Header | Value | | ------------------- | ------------------------------------------------------ | | Accept-Encoding | gzip, deflate, br (when options.compress === true) | | Accept | */* | | Content-Length | (automatically calculated, if possible) | | Host | (host and port information from the target URI) | | Transfer-Encoding | chunked (when req.body is a stream) | | User-Agent | node-fetch |

Note: when body is a Stream, Content-Length is not set automatically.

Custom Agent

The agent option allows you to specify networking related options which are out of the scope of Fetch, including and not limited to the following:

  • Support self-signed certificate
  • Use only IPv4 or IPv6
  • Custom DNS Lookup

See http.Agent for more information.

If no agent is specified, the default agent provided by Node.js is used. Note that this changed in Node.js 19 to have keepalive true by default. If you wish to enable keepalive in an earlier version of Node.js, you can override the agent as per the following code sample.

In addition, the agent option accepts a function that returns http(s).Agent instance given current URL, this is useful during a redirection chain across HTTP and HTTPS protocol.

import http from 'node:http';
import https from 'node:https';

const httpAgent = new http.Agent({
	keepAlive: true
});
const httpsAgent = new https.Agent({
	keepAlive: true
});

const options = {
	agent: function(_parsedURL) {
		if (_parsedURL.protocol == 'http:') {
			return httpAgent;
		} else {
			return httpsAgent;
		}
	}
};

Custom highWaterMark

Stream on Node.js have a smaller internal buffer size (16kB, aka highWaterMark) from client-side browsers (>1MB, not consistent across browsers). Because of that, when you are writing an isomorphic app and using res.clone(), it will hang with large response in Node.

The recommended way to fix this problem is to resolve cloned response in parallel:

import fetch from 'node-fetch';

const response = await fetch('https://example.com');
const r1 = response.clone();

const results = await Promise.all([response.json(), r1.text()]);

console.log(results[0]);
console.log(results[1]);

If for some reason you don't like the solution above, since 3.x you are able to modify the highWaterMark option:

import fetch from 'node-fetch';

const response = await fetch('https://example.com', {
	// About 1MB
	highWaterMark: 1024 * 1024
});

const result = await res.clone().arrayBuffer();
console.dir(result);

Insecure HTTP Parser

Passed through to the insecureHTTPParser option on http(s).request. See http.request for more information.

Manual Redirect

The redirect: 'manual' option for node-fetch is different from the browser & specification, which results in an opaque-redirect filtered response. node-fetch gives you the typical basic filtered response instead.

import fetch from 'node-fetch';

const response = await fetch('https://httpbin.org/status/301', { redirect: 'manual' });

if (response.status === 301 || response.status === 302) {
	const locationURL = new URL(response.headers.get('location'), response.url);
	const response2 = await fetch(locationURL, { redirect: 'manual' });
	console.dir(response2);
}

Class: Request

An HTTP(S) request containing information about URL, method, headers, and the body. This class implements the Body interface.

Due to the nature of Node.js, the following properties are not implemented at this moment:

  • type
  • destination
  • mode
  • credentials
  • cache
  • integrity
  • keepalive

The following node-fetch extension properties are provided:

  • follow
  • compress
  • counter
  • agent
  • highWaterMark

See options for exact meaning of these extensions.

new Request(input[, options])

(spec-compliant)

  • input A string representing a URL, or another Request (which will be cloned)
  • options Options for the HTTP(S) request

Constructs a new Request object. The constructor is identical to that in the browser.

In most cases, directly fetch(url, options) is simpler than creating a Request object.

Class: Response

An HTTP(S) response. This class implements the Body interface.

The following properties are not implemented in node-fetch at this moment:

  • trailer

new Response([body[, options]])

(spec-compliant)

Constructs a new Response object. The constructor is identical to that in the browser.

Because Node.js does not implement service workers (for which this class was designed), one rarely has to construct a Response directly.

response.ok

(spec-compliant)

Convenience property representing if the request ended normally. Will evaluate to true if the response status was greater than or equal to 200 but smaller than 300.

response.redirected

(spec-compliant)

Convenience property representing if the request has been redirected at least once. Will evaluate to true if the internal redirect counter is greater than 0.

response.type

(deviation from spec)

Convenience property representing the response's type. node-fetch only supports 'default' and 'error' and does not make use of filtered responses.

Class: Headers

This class allows manipulating and iterating over a set of HTTP headers. All methods specified in the Fetch Standard are implemented.

new Headers([init])

(spec-compliant)

  • init Optional argument to pre-fill the Headers object

Construct a new Headers object. init can be either null, a Headers object, an key-value map object or any iterable object.

// Example adapted from https://fetch.spec.whatwg.org/#example-headers-class
import {Headers} from 'node-fetch';

const meta = {
	'Content-Type': 'text/xml'
};
const headers = new Headers(meta);

// The above is equivalent to
const meta = [['Content-Type', 'text/xml']];
const headers = new Headers(meta);

// You can in fact use any iterable objects, like a Map or even another Headers
const meta = new Map();
meta.set('Content-Type', 'text/xml');
const headers = new Headers(meta);
const copyOfHeaders = new Headers(headers);

Interface: Body

Body is an abstract interface with methods that are applicable to both Request and Response classes.

body.body

(deviation from spec)

Data are encapsulated in the Body object. Note that while the Fetch Standard requires the property to always be a WHATWG ReadableStream, in node-fetch it is a Node.js Readable stream.

body.bodyUsed

(spec-compliant)

  • Boolean

A boolean property for if this body has been consumed. Per the specs, a consumed body cannot be used again.

body.arrayBuffer()

body.formData()

body.blob()

body.json()

body.text()

fetch comes with methods to parse multipart/form-data payloads as well as x-www-form-urlencoded bodies using .formData() this comes from the idea that Service Worker can intercept such messages before it's sent to the server to alter them. This is useful for anybody building a server so you can use it to parse & consume payloads.

Code example 
import http from 'node:http'
import { Response } from 'node-fetch'

http.createServer(async function (req, res) {
  const formData = await new Response(req, {
    headers: req.headers // Pass along the boundary value
  }).formData()
  const allFields = [...formData]

  const file = formData.get('uploaded-files')
  const arrayBuffer = await file.arrayBuffer()
  const text = await file.text()
  const whatwgReadableStream = file.stream()

  // other was to consume the request could be to do:
  const json = await new Response(req).json()
  const text = await new Response(req).text()
  const arrayBuffer = await new Response(req).arrayBuffer()
  const blob = await new Response(req, {
    headers: req.headers // So that `type` inherits `Content-Type`
  }.blob()
})

Class: FetchError

(node-fetch extension)

An operational error in the fetching process. See ERROR-HANDLING.md for more info.

Class: AbortError

(node-fetch extension)

An Error thrown when the request is aborted in response to an AbortSignal's abort event. It has a name property of AbortError. See ERROR-HANDLING.MD for more info.

TypeScript

Since 3.x types are bundled with node-fetch, so you don't need to install any additional packages.

For older versions please use the type definitions from DefinitelyTyped:

npm install --save-dev @types/node-fetch@2.x

Acknowledgement

Thanks to github/fetch for providing a solid implementation reference.

Team

| David Frank | Jimmy Wärting | Antoni Kepinski | Richie Bendall | Gregor Martynus | | ----------------------------------------------------------------------------------- | ------------------------------------------------------------------------------------------------- | ----------------------------------------------------------------------------------------- | ------------------------------------------------------------------------------------------ | ----------------------------------------------------------------------------------- | | David Frank | Jimmy Wärting | Antoni Kepinski | Richie Bendall | Gregor Martynus |

Former

License

MIT

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