axios vs got vs node-fetch vs request

Node.js 与前端架构中的 HTTP 客户端选型

axios、got、node-fetch 和 request 都是用于发送 HTTP 请求的 JavaScript 库，但它们的适用场景和维护状态截然不同。axios 是一个基于 Promise 的通用客户端，同时支持浏览器和 Node.js，以拦截器和自动 JSON 转换著称。got 是专为 Node.js 设计的现代 HTTP 客户端，提供强大的重试、分页和缓存功能。node-fetch 旨在将浏览器的 fetch API 带到 Node.js 环境中，轻量且符合标准。request 曾经是 Node.js 的标准库，但已正式弃用，不再维护。

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统计详情

npm包名称	下载量	Stars	大小	Issues	发布时间	License
npm包名称	下载量	Stars	大小	Issues	发布时间	License
axios	0	108,655	2.41 MB	347	2 天前	MIT
got	0	14,882	304 kB	1	3 个月前	MIT
node-fetch	0	8,862	107 kB	240	3 年前	MIT
request	0	25,581	-	142	6 年前	Apache-2.0

Axios vs Got vs Node-Fetch vs Request: 架构选型深度对比

在构建现代 JavaScript 应用时，发送 HTTP 请求是最基础的需求之一。axios、got、node-fetch 和 request 都曾是这个领域的热门选择，但它们的架构理念、运行环境和维护状态存在巨大差异。作为架构师，我们需要透过表面的 API 差异，理解它们在实际工程中的权衡。

🌍 运行环境：浏览器与 Node.js 的支持

运行环境是选型的第一道门槛。有些库专为服务器设计，有些则追求同构。

axios 是真正的同构库。

它在浏览器中使用 XMLHttpRequest，在 Node.js 中使用原生 http 模块。
代码无需修改即可在两端运行。

// axios: 浏览器和 Node.js 通用
import axios from 'axios';

const res = await axios.get('/api/data');
console.log(res.data);

got 专为 Node.js 设计。

它依赖 Node.js 特有的流和 DNS 缓存功能。
无法直接打包到浏览器环境中使用。

// got: 仅 Node.js
import got from 'got';

const res = await got.get('http://api.example.com/data');
console.log(res.body);

node-fetch 是 Node.js 对浏览器标准的实现。

它实现了 fetch API，但仅在 Node.js 环境有效。
浏览器中应直接使用原生 fetch。

// node-fetch: 仅 Node.js (v2 CommonJS, v3 ESM)
import fetch from 'node-fetch';

const res = await fetch('http://api.example.com/data');
const data = await res.json();

request 仅支持 Node.js。

它依赖 Node.js 核心模块，且架构陈旧。
无法在浏览器中运行。

// request: 仅 Node.js (已弃用)
import request from 'request';

request('http://api.example.com/data', (err, res, body) => {
  console.log(body);
});

📝 基本用法与 Promise 支持

异步处理模式直接影响代码的可读性和维护成本。现代开发应优先选择基于 Promise 或 async/await 的库。

axios 原生基于 Promise。

返回的数据包裹在 { data, status, headers } 对象中。
自动将响应体解析为 JSON（如果内容是 JSON）。

// axios: 自动 JSON 解析
const response = await axios.post('/user', { name: 'Alice' });
// response.data 已经是对象

got 也是基于 Promise 的现代 API。

返回对象包含 body, statusCode, headers 等属性。
默认返回字符串，需手动解析 JSON 或使用 .json() 方法。

// got: 需手动或链式解析 JSON
const response = await got.post('http://api.example.com/user', { json: { name: 'Alice' } });
// response.body 是字符串，或用 await got.get(...).json()

node-fetch 遵循浏览器 fetch 标准。

返回 Response 对象，需手动调用 .json() 或 .text()。
不会自动抛出网络错误，需检查 res.ok。

// node-fetch: 标准 Response 对象
const res = await fetch('http://api.example.com/user');
if (!res.ok) throw new Error('Network error');
const data = await res.json();

request 基于回调函数（Callback）。

容易导致“回调地狱”，虽可配合 promise 库使用，但非原生支持。
这是它被现代项目淘汰的主要原因之一。

// request: 回调风格 (过时)
request.post({ url: '/user', json: { name: 'Alice' } }, (err, res, body) => {
  if (err) return console.error(err);
  console.log(body);
});

🛠️ 扩展能力：拦截器与配置

在大型项目中，我们需要统一处理认证、日志或错误码。

axios 提供强大的拦截器系统。

可以在请求发出前或响应回来后统一处理逻辑。
非常适合添加 Token 或全局错误监控。

// axios: 请求拦截器
axios.interceptors.request.use(config => {
  config.headers.Authorization = `Bearer ${token}`;
  return config;
});

got 提供钩子（Hooks）系统。

功能类似拦截器，但更细粒度（如 beforeRequest, beforeError）。
支持更复杂的流控制。

// got: 钩子函数
const client = got.extend({
  hooks: {
    beforeRequest: [
      options => {
        options.headers.authorization = `Bearer ${token}`;
      }
    ]
  }
});

node-fetch 本身极简，无内置拦截器。

需要自行封装函数来实现统一逻辑。
优点是轻量，缺点是需要重复造轮子。

// node-fetch: 手动封装
async function fetchWithAuth(url) {
  return fetch(url, { headers: { Authorization: `Bearer ${token}` } });
}

request 支持默认配置，但缺乏现代拦截机制。

可以通过 request.defaults 设置基础配置。
无法灵活拦截响应内容。

// request: 默认配置
const api = request.defaults({ baseUrl: 'http://api.example.com' });

⚠️ 维护状态与未来风险

这是架构决策中最关键的一环。使用已弃用的库会带来安全漏洞和技术债务。

request 已正式弃用。

官方明确表示不再维护。
存在未修复的安全漏洞，不应出现在任何新架构中。

node-fetch 维护良好，但版本断裂。

v2 支持 CommonJS，v3 仅支持 ESM。
如果你的项目是 CommonJS 且不愿迁移，需注意版本锁定。

axios 和 got 均活跃维护。

两者都有稳定的社区和安全更新。
选择取决于运行环境（浏览器 vs 纯 Node）。

📊 总结对比表

特性	`axios`	`got`	`node-fetch`	`request`
运行环境	🌐 浏览器 + Node.js	🖥️ 仅 Node.js	🖥️ 仅 Node.js	🖥️ 仅 Node.js
API 风格	Promise	Promise	Promise (标准 fetch)	Callback (回调)
JSON 处理	✅ 自动解析	⚙️ 手动或链式	⚙️ 手动 `.json()`	⚙️ 手动 `json: true`
拦截器	✅ 内置拦截器	✅ 钩子 (Hooks)	❌ 需手动封装	❌ 仅默认配置
维护状态	🟢 活跃	🟢 活跃	🟢 活跃	🔴 已弃用
包体积	中等	中等	轻量	中等

💡 最终建议

axios 是全栈开发的稳妥选择 🛡️。如果你需要在 React/Vue 前端和 Node.js 后端之间共享请求逻辑，或者需要开箱即用的拦截器功能，它是首选。它的自动 JSON 转换能减少大量样板代码。

got 是 Node.js 微服务的利器 ⚙️。如果你的代码只运行在服务器上，且需要处理复杂的重试策略、分页或流式传输，got 提供的细粒度控制优于 axios。

node-fetch 是轻量级场景的最佳拍档 🪶。适合 Serverless 函数或边缘计算节点，尤其是当你希望代码风格与浏览器原生 fetch 保持一致时。但请留意 ESM 模块系统的兼容性。

request 应被视为技术债务 🗑️。无论旧项目多么依赖它，新代码绝不应引入。迁移到上述现代库是保障系统安全性的必要步骤。

核心原则：不要为了习惯而牺牲安全性。在现代架构中，优先选择支持 Promise、 actively maintained（积极维护）且符合运行环境的库。

如何选择: axios vs got vs node-fetch vs request

axios:
选择 axios 如果你需要同构代码（同时在浏览器和 Node.js 运行），或者需要开箱即用的拦截器、请求取消和自动 JSON 转换功能。它是全栈项目中减少环境差异的首选。
got:
选择 got 如果你的项目仅运行在 Node.js 环境中，且需要高级功能如自动重试、分页处理、缓存或更细致的流控制。它比 axios 更适合复杂的后端服务集成。
node-fetch:
选择 node-fetch 如果你希望在不引入重型依赖的情况下，在 Node.js 中使用标准的 fetch API。适合服务器less 函数或边缘计算场景，但需注意 v3 版本仅支持 ESM。
request:
切勿在新项目中选择 request。该库已于 2020 年正式弃用，不再接收安全更新或功能修复。现有项目应尽快迁移至 axios、got 或原生 fetch。

与axios类似的npm包

axios 是一个流行的 HTTP 客户端库，适用于浏览器和 Node.js。它基于 Promise，提供了易于使用的 API，用于发送 HTTP 请求并处理响应。Axios 支持请求和响应拦截器、请求取消、自动转换 JSON 数据等功能，使其成为开发者进行 API 调用的热门选择。然而，市场上还有其他一些替代库，提供类似的功能。以下是几个替代方案：

node-fetch 是一个轻量级的 Node.js 库，旨在实现浏览器的 Fetch API。它提供了一个简单的 API 来发起 HTTP 请求，并且与 Fetch API 的语法相似，使得在 Node.js 环境中使用 HTTP 请求变得更加直观。如果你熟悉 Fetch API 并希望在 Node.js 中使用类似的功能，node-fetch 是一个不错的选择。
request 是一个功能强大的 HTTP 请求库，曾经非常流行，支持多种请求类型、流式请求、文件上传等功能。虽然它的功能非常全面，但由于其体积较大且不再维护，许多开发者开始寻找更轻量级的替代品。虽然 request 仍然可以使用，但在新项目中，建议考虑其他更现代的库。
superagent 是一个灵活且强大的 HTTP 请求库，适用于浏览器和 Node.js。它提供了链式调用的 API，支持各种请求类型、文件上传、JSON 数据处理等功能。Superagent 的设计理念是简化 HTTP 请求的过程，同时提供足够的灵活性以满足复杂的需求。如果你需要一个功能丰富且易于使用的 HTTP 客户端，superagent 是一个值得考虑的选项。

查看比较：比较 axios vs node-fetch vs request vs superagent。

与got类似的npm包

got 是一个流行的 HTTP 请求库，专为 Node.js 设计。它提供了一个强大且灵活的 API，使得发送 HTTP 请求变得简单和高效。got 支持 Promise 和流的方式，适合处理各种 HTTP 请求场景。尽管 got 是一个优秀的选择，但在 Node.js 生态系统中，还有其他一些库可以作为替代方案。以下是几个常见的替代库：

axios 是一个基于 Promise 的 HTTP 客户端，适用于浏览器和 Node.js。它提供了一个简单的 API，支持请求和响应拦截、请求取消、自动转换 JSON 数据等功能。由于其易用性和广泛的社区支持，axios 成为许多开发者的首选 HTTP 请求库。对于需要在浏览器和 Node.js 中都能使用的项目，axios 是一个非常好的选择。
node-fetch 是一个轻量级的 Node.js 实现的 Fetch API。它提供了与浏览器中的 Fetch API 相似的功能，使得在 Node.js 环境中进行 HTTP 请求变得更加简单。node-fetch 适合那些希望在 Node.js 中使用与浏览器相同的 API 的开发者。如果你熟悉 Fetch API，并希望在 Node.js 中使用类似的语法，node-fetch 是一个不错的选择。
request 曾经是一个非常流行的 HTTP 请求库，提供了丰富的功能和灵活性。然而，由于其维护问题，request 已被标记为不再推荐使用，开发者被建议转向其他库。尽管如此，request 仍然在一些遗留项目中使用，适合那些需要兼容旧代码的情况。

要查看 got 与 axios、node-fetch 和 request 的比较，请访问以下链接：比较 axios vs got vs node-fetch vs request。

与node-fetch类似的npm包

node-fetch 是一个轻量级的 HTTP 请求库，旨在为 Node.js 环境提供类似于浏览器的 fetch API。它使得在服务器端进行网络请求变得简单而直观，适合需要从外部 API 获取数据的应用程序。虽然 node-fetch 提供了强大的功能，但在 Node.js 生态系统中还有其他一些库可以作为替代方案。以下是几个替代库：

axios 是一个基于 Promise 的 HTTP 客户端，适用于浏览器和 Node.js。它提供了丰富的功能，如请求和响应拦截、请求取消、自动转换 JSON 数据等。由于其简单易用的 API 和强大的功能，axios 成为了许多开发者的首选。如果你需要一个功能全面且易于使用的 HTTP 请求库，axios 是一个非常好的选择。
got 是一个强大的 HTTP 请求库，专为 Node.js 设计。它提供了许多高级功能，如重试机制、流支持和更好的错误处理。got 的 API 设计简洁，适合需要进行复杂 HTTP 请求的应用程序。如果你的项目需要处理大量的 HTTP 请求，并且需要更高的灵活性和控制，got 是一个理想的选择。
isomorphic-fetch 是一个兼容浏览器和 Node.js 的 fetch 实现。它允许开发者在两种环境中使用相同的 API，从而简化了代码的共享和维护。isomorphic-fetch 适合那些希望在客户端和服务器端使用相同的 HTTP 请求逻辑的项目。

要查看 node-fetch 与 axios、got 和 isomorphic-fetch 的比较，请访问：Comparing axios vs got vs isomorphic-fetch vs node-fetch。

与request类似的npm包

request 是一个用于 Node.js 的 HTTP 请求库，旨在简化与 HTTP 服务器的交互。尽管 request 提供了强大的功能，但在 JavaScript 生态系统中还有其他一些库可以作为替代方案。以下是几个替代库：

axios 是一个基于 Promise 的 HTTP 客户端，适用于浏览器和 Node.js。它提供了简洁的 API，支持请求和响应拦截、请求取消、自动转换 JSON 数据等功能。由于其易用性和灵活性，axios 成为许多开发者的首选，特别是在需要处理复杂请求或响应时。
got 是一个现代的、轻量级的 HTTP 请求库，专为 Node.js 设计。它支持 Promise 和流，并提供了丰富的功能，如重试、超时、请求取消等。got 的设计理念是简化 HTTP 请求的使用，同时提供强大的功能，非常适合需要高性能和灵活性的应用程序。
node-fetch 是一个轻量级的模块，旨在为 Node.js 提供与浏览器 Fetch API 相同的功能。它使得在 Node.js 环境中进行 HTTP 请求变得简单，特别适合那些希望在服务器端使用与客户端相同的 Fetch API 的开发者。node-fetch 是一个理想的选择，特别是对于那些希望在 Node.js 中使用现代 JavaScript 特性的人。

要查看 request 与其他库的比较，请访问：比较 axios vs got vs node-fetch vs request。

axios

got

node-fetch

request

axios的README

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Promise based HTTP client for the browser and node.js

Website • Documentation

npm bundle size npm downloads

Features

Browser Requests: Make XMLHttpRequests directly from the browser.
Node.js Requests: Make http requests from Node.js environments.
Promise-based: Fully supports the Promise API for easier asynchronous code.
Interceptors: Intercept requests and responses to add custom logic or transform data.
Data Transformation: Transform request and response data automatically.
Request Cancellation: Cancel requests using built-in mechanisms.
Automatic JSON Handling: Automatically serializes and parses JSON data.
Form Serialization: 🆕 Automatically serializes data objects to multipart/form-data or x-www-form-urlencoded formats.
XSRF Protection: Client-side support to protect against Cross-Site Request Forgery.

Browser Support

Chrome	Firefox	Safari	Opera	Edge

Latest ✔	Latest ✔	Latest ✔	Latest ✔	Latest ✔

Installing

Package manager

Using npm:

$ npm install axios

Using bower:

$ bower install axios

Using yarn:

$ yarn add axios

Using pnpm:

$ pnpm add axios

Using bun:

$ bun add axios

Once the package is installed, you can import the library using import or require approach:

import axios, { isCancel, AxiosError } from "axios";

You can also use the default export, since the named export is just a re-export from the Axios factory:

import axios from "axios";

console.log(axios.isCancel("something"));

If you use require for importing, only the default export is available:

const axios = require("axios");

console.log(axios.isCancel("something"));

For some bundlers and some ES6 linters you may need to do the following:

import { default as axios } from "axios";

For cases where something went wrong when trying to import a module into a custom or legacy environment, you can try importing the module package directly:

const axios = require("axios/dist/browser/axios.cjs"); // browser commonJS bundle (ES2017)
// const axios = require('axios/dist/node/axios.cjs'); // node commonJS bundle (ES2017)

CDN

Using jsDelivr CDN (ES5 UMD browser module):

<script src="https://cdn.jsdelivr.net/npm/axios@1.13.2/dist/axios.min.js"></script>

Using unpkg CDN:

<script src="https://unpkg.com/axios@1.13.2/dist/axios.min.js"></script>

Example

import axios from "axios";
//const axios = require('axios'); // legacy way

try {
  const response = await axios.get("/user?ID=12345");
  console.log(response);
} catch (error) {
  console.error(error);
}

// Optionally the request above could also be done as
axios
  .get("/user", {
    params: {
      ID: 12345,
    },
  })
  .then(function (response) {
    console.log(response);
  })
  .catch(function (error) {
    console.log(error);
  })
  .finally(function () {
    // always executed
  });

// Want to use async/await? Add the `async` keyword to your outer function/method.
async function getUser() {
  try {
    const response = await axios.get("/user?ID=12345");
    console.log(response);
  } catch (error) {
    console.error(error);
  }
}

Note: async/await is part of ECMAScript 2017 and is not supported in Internet Explorer and older browsers, so use with caution.

Performing a POST request

const response = await axios.post("/user", {
  firstName: "Fred",
  lastName: "Flintstone",
});
console.log(response);

Performing multiple concurrent requests

function getUserAccount() {
  return axios.get("/user/12345");
}

function getUserPermissions() {
  return axios.get("/user/12345/permissions");
}

Promise.all([getUserAccount(), getUserPermissions()]).then(function (results) {
  const acct = results[0];
  const perm = results[1];
});

axios API

Requests can be made by passing the relevant config to axios.

axios(config)

// Send a POST request
axios({
  method: "post",
  url: "/user/12345",
  data: {
    firstName: "Fred",
    lastName: "Flintstone",
  },
});

// GET request for remote image in node.js
const response = await axios({
  method: "get",
  url: "https://bit.ly/2mTM3nY",
  responseType: "stream",
});
response.data.pipe(fs.createWriteStream("ada_lovelace.jpg"));

axios(url[, config])

// Send a GET request (default method)
axios("/user/12345");

Request method aliases

For convenience, aliases have been provided for all common request methods.

axios.request(config)

axios.get(url[, config])

axios.delete(url[, config])

axios.head(url[, config])

axios.options(url[, config])

axios.post(url[, data[, config]])

axios.put(url[, data[, config]])

axios.patch(url[, data[, config]])

NOTE

When using the alias methods url, method, and data properties don't need to be specified in config.

Concurrency (Deprecated)

Please use Promise.all to replace the below functions.

Helper functions for dealing with concurrent requests.

axios.all(iterable) axios.spread(callback)

Creating an instance

You can create a new instance of axios with a custom config.

axios.create([config])

const instance = axios.create({
  baseURL: "https://some-domain.com/api/",
  timeout: 1000,
  headers: { "X-Custom-Header": "foobar" },
});

Instance methods

The available instance methods are listed below. The specified config will be merged with the instance config.

axios#request(config)

axios#get(url[, config])

axios#delete(url[, config])

axios#head(url[, config])

axios#options(url[, config])

axios#post(url[, data[, config]])

axios#put(url[, data[, config]])

axios#patch(url[, data[, config]])

axios#getUri([config])

Request Config

These are the available config options for making requests. Only the url is required. Requests will default to GET if method is not specified.

{
  // `url` is the server URL that will be used for the request
  url: '/user',

  // `method` is the request method to be used when making the request
  method: 'get', // default

  // `baseURL` will be prepended to `url` unless `url` is absolute and the option `allowAbsoluteUrls` is set to true.
  // It can be convenient to set `baseURL` for an instance of axios to pass relative URLs
  // to the methods of that instance.
  baseURL: 'https://some-domain.com/api/',

  // `allowAbsoluteUrls` determines whether or not absolute URLs will override a configured `baseUrl`.
  // When set to true (default), absolute values for `url` will override `baseUrl`.
  // When set to false, absolute values for `url` will always be prepended by `baseUrl`.
  allowAbsoluteUrls: true,

  // `transformRequest` allows changes to the request data before it is sent to the server
  // This is only applicable for request methods 'PUT', 'POST', 'PATCH' and 'DELETE'
  // The last function in the array must return a string or an instance of Buffer, ArrayBuffer,
  // FormData or Stream
  // You may modify the headers object.
  transformRequest: [function (data, headers) {
    // Do whatever you want to transform the data

    return data;
  }],

  // `transformResponse` allows changes to the response data to be made before
  // it is passed to then/catch
  transformResponse: [function (data) {
    // Do whatever you want to transform the data

    return data;
  }],

  // `headers` are custom headers to be sent
  headers: {'X-Requested-With': 'XMLHttpRequest'},

  // `params` are the URL parameters to be sent with the request
  // Must be a plain object or a URLSearchParams object
  params: {
    ID: 12345
  },

  // `paramsSerializer` is an optional config that allows you to customize serializing `params`.
  paramsSerializer: {

    // Custom encoder function which sends key/value pairs in an iterative fashion.
    encode?: (param: string): string => { /* Do custom operations here and return transformed string */ },

    // Custom serializer function for the entire parameter. Allows the user to mimic pre 1.x behaviour.
    serialize?: (params: Record<string, any>, options?: ParamsSerializerOptions ),

    // Configuration for formatting array indexes in the params.
    indexes: false // Three available options: (1) indexes: null (leads to no brackets), (2) (default) indexes: false (leads to empty brackets), (3) indexes: true (leads to brackets with indexes).
  },

  // `data` is the data to be sent as the request body
  // Only applicable for request methods 'PUT', 'POST', 'DELETE', and 'PATCH'
  // When no `transformRequest` is set, it must be of one of the following types:
  // - string, plain object, ArrayBuffer, ArrayBufferView, URLSearchParams
  // - Browser only: FormData, File, Blob
  // - Node only: Stream, Buffer, FormData (form-data package)
  data: {
    firstName: 'Fred'
  },

  // syntax alternative to send data into the body
  // method post
  // only the value is sent, not the key
  data: 'Country=Brasil&City=Belo Horizonte',

  // `timeout` specifies the number of milliseconds before the request times out.
  // If the request takes longer than `timeout`, the request will be aborted.
  timeout: 1000, // default is `0` (no timeout)

  // `withCredentials` indicates whether or not cross-site Access-Control requests
  // should be made using credentials
  withCredentials: false, // default

  // `adapter` allows custom handling of requests which makes testing easier.
  // Return a promise and supply a valid response (see lib/adapters/README.md)
  adapter: function (config) {
    /* ... */
  },
  // Also, you can set the name of the built-in adapter, or provide an array with their names
  // to choose the first available in the environment
  adapter: 'xhr', // 'fetch' | 'http' | ['xhr', 'http', 'fetch']

  // `auth` indicates that HTTP Basic auth should be used, and supplies credentials.
  // This will set an `Authorization` header, overwriting any existing
  // `Authorization` custom headers you have set using `headers`.
  // Please note that only HTTP Basic auth is configurable through this parameter.
  // For Bearer tokens and such, use `Authorization` custom headers instead.
  auth: {
    username: 'janedoe',
    password: 's00pers3cret'
  },

  // `responseType` indicates the type of data that the server will respond with
  // options are: 'arraybuffer', 'document', 'json', 'text', 'stream'
  //   browser only: 'blob'
  responseType: 'json', // default

  // `responseEncoding` indicates encoding to use for decoding responses (Node.js only)
  // Note: Ignored for `responseType` of 'stream' or client-side requests
  // options are: 'ascii', 'ASCII', 'ansi', 'ANSI', 'binary', 'BINARY', 'base64', 'BASE64', 'base64url',
  // 'BASE64URL', 'hex', 'HEX', 'latin1', 'LATIN1', 'ucs-2', 'UCS-2', 'ucs2', 'UCS2', 'utf-8', 'UTF-8',
  // 'utf8', 'UTF8', 'utf16le', 'UTF16LE'
  responseEncoding: 'utf8', // default

  // `xsrfCookieName` is the name of the cookie to use as a value for the xsrf token
  xsrfCookieName: 'XSRF-TOKEN', // default

  // `xsrfHeaderName` is the name of the http header that carries the xsrf token value
  xsrfHeaderName: 'X-XSRF-TOKEN', // default

  // `undefined` (default) - set XSRF header only for the same origin requests
  withXSRFToken: boolean | undefined | ((config: InternalAxiosRequestConfig) => boolean | undefined),

  // `withXSRFToken` controls whether Axios reads the XSRF cookie and sets the XSRF header.
  // - `undefined` (default): the XSRF header is set only for same-origin requests.
  // - `true`: attempt to set the XSRF header for all requests (including cross-origin).
  // - `false`: never set the XSRF header.
  // - function: a callback that receives the request `config` and returns `true`,
  //   `false`, or `undefined` to decide per-request behavior.
  //
  // Note about `withCredentials`: `withCredentials` controls whether cross-site
  // requests include credentials (cookies and HTTP auth). In older Axios versions,
  // setting `withCredentials: true` implicitly caused Axios to set the XSRF header
  // for cross-origin requests. Newer Axios separates these concerns: to allow the
  // XSRF header to be sent for cross-origin requests you should set both
  // `withCredentials: true` and `withXSRFToken: true`.
  //
  // Example:
  // axios.get('/user', { withCredentials: true, withXSRFToken: true });

  // `onUploadProgress` allows handling of progress events for uploads
  // browser & node.js
  onUploadProgress: function ({loaded, total, progress, bytes, estimated, rate, upload = true}) {
    // Do whatever you want with the Axios progress event
  },

  // `onDownloadProgress` allows handling of progress events for downloads
  // browser & node.js
  onDownloadProgress: function ({loaded, total, progress, bytes, estimated, rate, download = true}) {
    // Do whatever you want with the Axios progress event
  },

  // `maxContentLength` defines the max size of the http response content in bytes allowed in node.js
  maxContentLength: 2000,

  // `maxBodyLength` (Node only option) defines the max size of the http request content in bytes allowed
  maxBodyLength: 2000,

  // `validateStatus` defines whether to resolve or reject the promise for a given
  // HTTP response status code. If `validateStatus` returns `true` (or is set to `null`
  // or `undefined`), the promise will be resolved; otherwise, the promise will be
  // rejected.
  validateStatus: function (status) {
    return status >= 200 && status < 300; // default
  },

  // `maxRedirects` defines the maximum number of redirects to follow in node.js.
  // If set to 0, no redirects will be followed.
  maxRedirects: 21, // default

  // `beforeRedirect` defines a function that will be called before redirect.
  // Use this to adjust the request options upon redirecting,
  // to inspect the latest response headers,
  // or to cancel the request by throwing an error
  // If maxRedirects is set to 0, `beforeRedirect` is not used.
  beforeRedirect: (options, { headers }) => {
    if (options.hostname === "example.com") {
      options.auth = "user:password";
    }
  },

  // `socketPath` defines a UNIX Socket to be used in node.js.
  // e.g. '/var/run/docker.sock' to send requests to the docker daemon.
  // Only either `socketPath` or `proxy` can be specified.
  // If both are specified, `socketPath` is used.
  socketPath: null, // default

  // `transport` determines the transport method that will be used to make the request.
  // If defined, it will be used. Otherwise, if `maxRedirects` is 0,
  // the default `http` or `https` library will be used, depending on the protocol specified in `protocol`.
  // Otherwise, the `httpFollow` or `httpsFollow` library will be used, again depending on the protocol,
  // which can handle redirects.
  transport: undefined, // default

  // `httpAgent` and `httpsAgent` define a custom agent to be used when performing http
  // and https requests, respectively, in node.js. This allows options to be added like
  // `keepAlive` that are not enabled by default before Node.js v19.0.0. After Node.js
  // v19.0.0, you no longer need to customize the agent to enable `keepAlive` because
  // `http.globalAgent` has `keepAlive` enabled by default.
  httpAgent: new http.Agent({ keepAlive: true }),
  httpsAgent: new https.Agent({ keepAlive: true }),

  // `proxy` defines the hostname, port, and protocol of the proxy server.
  // You can also define your proxy using the conventional `http_proxy` and
  // `https_proxy` environment variables. If you are using environment variables
  // for your proxy configuration, you can also define a `no_proxy` environment
  // variable as a comma-separated list of domains that should not be proxied.
  // Use `false` to disable proxies, ignoring environment variables.
  // `auth` indicates that HTTP Basic auth should be used to connect to the proxy, and
  // supplies credentials.
  // This will set a `Proxy-Authorization` header, overwriting any existing
  // `Proxy-Authorization` custom headers you have set using `headers`.
  // If the proxy server uses HTTPS, then you must set the protocol to `https`.
  proxy: {
    protocol: 'https',
    host: '127.0.0.1',
    // hostname: '127.0.0.1' // Takes precedence over 'host' if both are defined
    port: 9000,
    auth: {
      username: 'mikeymike',
      password: 'rapunz3l'
    }
  },

  // `cancelToken` specifies a cancel token that can be used to cancel the request
  // (see Cancellation section below for details)
  cancelToken: new CancelToken(function (cancel) {
  }),

  // an alternative way to cancel Axios requests using AbortController
  signal: new AbortController().signal,

  // `decompress` indicates whether or not the response body should be decompressed
  // automatically. If set to `true` will also remove the 'content-encoding' header
  // from the responses objects of all decompressed responses
  // - Node only (XHR cannot turn off decompression)
  decompress: true, // default

  // `insecureHTTPParser` boolean.
  // Indicates where to use an insecure HTTP parser that accepts invalid HTTP headers.
  // This may allow interoperability with non-conformant HTTP implementations.
  // Using the insecure parser should be avoided.
  // see options https://nodejs.org/dist/latest-v12.x/docs/api/http.html#http_http_request_url_options_callback
  // see also https://nodejs.org/en/blog/vulnerability/february-2020-security-releases/#strict-http-header-parsing-none
  insecureHTTPParser: undefined, // default

  // transitional options for backward compatibility that may be removed in the newer versions
  transitional: {
    // silent JSON parsing mode
    // `true`  - ignore JSON parsing errors and set response.data to null if parsing failed (old behaviour)
    // `false` - throw SyntaxError if JSON parsing failed
    // Important: this option only takes effect when `responseType` is explicitly set to 'json'.
    // When `responseType` is omitted (defaults to no value), axios uses `forcedJSONParsing`
    // to attempt JSON parsing, but will silently return the raw string on failure regardless
    // of this setting. To have invalid JSON throw errors, use:
    //   { responseType: 'json', transitional: { silentJSONParsing: false } }
    silentJSONParsing: true, // default value for the current Axios version

    // try to parse the response string as JSON even if `responseType` is not 'json'
    forcedJSONParsing: true,

    // throw ETIMEDOUT error instead of generic ECONNABORTED on request timeouts
    clarifyTimeoutError: false,

    // use the legacy interceptor request/response ordering
    legacyInterceptorReqResOrdering: true, // default
  },

  env: {
    // The FormData class to be used to automatically serialize the payload into a FormData object
    FormData: window?.FormData || global?.FormData
  },

  formSerializer: {
      visitor: (value, key, path, helpers) => {}; // custom visitor function to serialize form values
      dots: boolean; // use dots instead of brackets format
      metaTokens: boolean; // keep special endings like {} in parameter key
      indexes: boolean; // array indexes format null - no brackets, false - empty brackets, true - brackets with indexes
  },

  // http adapter only (node.js)
  maxRate: [
    100 * 1024, // 100KB/s upload limit,
    100 * 1024  // 100KB/s download limit
  ]
}

Response Schema

The response to a request contains the following information.

{
  // `data` is the response that was provided by the server
  data: {},

  // `status` is the HTTP status code from the server response
  status: 200,

  // `statusText` is the HTTP status message from the server response
  statusText: 'OK',

  // `headers` the HTTP headers that the server responded with
  // All header names are lowercase and can be accessed using the bracket notation.
  // Example: `response.headers['content-type']`
  headers: {},

  // `config` is the config that was provided to `axios` for the request
  config: {},

  // `request` is the request that generated this response
  // It is the last ClientRequest instance in node.js (in redirects)
  // and an XMLHttpRequest instance in the browser
  request: {}
}

When using then, you will receive the response as follows:

const response = await axios.get("/user/12345");
console.log(response.data);
console.log(response.status);
console.log(response.statusText);
console.log(response.headers);
console.log(response.config);

When using catch, or passing a rejection callback as second parameter of then, the response will be available through the error object as explained in the Handling Errors section.

Config Defaults

You can specify config defaults that will be applied to every request.

Global axios defaults

axios.defaults.baseURL = "https://api.example.com";

// Important: If axios is used with multiple domains, the AUTH_TOKEN will be sent to all of them.
// See below for an example using Custom instance defaults instead.
axios.defaults.headers.common["Authorization"] = AUTH_TOKEN;

axios.defaults.headers.post["Content-Type"] =
  "application/x-www-form-urlencoded";

Custom instance defaults

// Set config defaults when creating the instance
const instance = axios.create({
  baseURL: "https://api.example.com",
});

// Alter defaults after instance has been created
instance.defaults.headers.common["Authorization"] = AUTH_TOKEN;

Config order of precedence

Config will be merged with an order of precedence. The order is library defaults found in lib/defaults/index.js, then defaults property of the instance, and finally config argument for the request. The latter will take precedence over the former. Here's an example.

// Create an instance using the config defaults provided by the library
// At this point the timeout config value is `0` as is the default for the library
const instance = axios.create();

// Override timeout default for the library
// Now all requests using this instance will wait 2.5 seconds before timing out
instance.defaults.timeout = 2500;

// Override timeout for this request as it's known to take a long time
instance.get("/longRequest", {
  timeout: 5000,
});

Interceptors

You can intercept requests or responses before methods like .get() or .post() resolve their promises (before code inside then or catch, or after await)

const instance = axios.create();

// Add a request interceptor
instance.interceptors.request.use(
  function (config) {
    // Do something before the request is sent
    return config;
  },
  function (error) {
    // Do something with the request error
    return Promise.reject(error);
  },
);

// Add a response interceptor
instance.interceptors.response.use(
  function (response) {
    // Any status code that lies within the range of 2xx causes this function to trigger
    // Do something with response data
    return response;
  },
  function (error) {
    // Any status codes that fall outside the range of 2xx cause this function to trigger
    // Do something with response error
    return Promise.reject(error);
  },
);

If you need to remove an interceptor later you can.

const instance = axios.create();
const myInterceptor = instance.interceptors.request.use(function () {
  /*...*/
});
axios.interceptors.request.eject(myInterceptor);

You can also clear all interceptors for requests or responses.

const instance = axios.create();
instance.interceptors.request.use(function () {
  /*...*/
});
instance.interceptors.request.clear(); // Removes interceptors from requests
instance.interceptors.response.use(function () {
  /*...*/
});
instance.interceptors.response.clear(); // Removes interceptors from responses

You can add interceptors to a custom instance of axios.

const instance = axios.create();
instance.interceptors.request.use(function () {
  /*...*/
});

When you add request interceptors, they are presumed to be asynchronous by default. This can cause a delay in the execution of your axios request when the main thread is blocked (a promise is created under the hood for the interceptor and your request gets put at the bottom of the call stack). If your request interceptors are synchronous you can add a flag to the options object that will tell axios to run the code synchronously and avoid any delays in request execution.

axios.interceptors.request.use(
  function (config) {
    config.headers.test = "I am only a header!";
    return config;
  },
  null,
  { synchronous: true },
);

If you want to execute a particular interceptor based on a runtime check, you can add a runWhen function to the options object. The request interceptor will not be executed if and only if the return of runWhen is false. The function will be called with the config object (don't forget that you can bind your own arguments to it as well.) This can be handy when you have an asynchronous request interceptor that only needs to run at certain times.

function onGetCall(config) {
  return config.method === "get";
}
axios.interceptors.request.use(
  function (config) {
    config.headers.test = "special get headers";
    return config;
  },
  null,
  { runWhen: onGetCall },
);

Note: The options parameter(having synchronous and runWhen properties) is only supported for request interceptors at the moment.

Interceptor Execution Order

Important: Interceptors have different execution orders depending on their type!

Request interceptors are executed in reverse order (LIFO - Last In, First Out). This means the last interceptor added is executed first.

Response interceptors are executed in the order they were added (FIFO - First In, First Out). This means the first interceptor added is executed first.

Example:

const instance = axios.create();

const interceptor = (id) => (base) => {
  console.log(id);
  return base;
};

instance.interceptors.request.use(interceptor("Request Interceptor 1"));
instance.interceptors.request.use(interceptor("Request Interceptor 2"));
instance.interceptors.request.use(interceptor("Request Interceptor 3"));
instance.interceptors.response.use(interceptor("Response Interceptor 1"));
instance.interceptors.response.use(interceptor("Response Interceptor 2"));
instance.interceptors.response.use(interceptor("Response Interceptor 3"));

// Console output:
// Request Interceptor 3
// Request Interceptor 2
// Request Interceptor 1
// [HTTP request is made]
// Response Interceptor 1
// Response Interceptor 2
// Response Interceptor 3

Multiple Interceptors

Given that you add multiple response interceptors and when the response was fulfilled

then each interceptor is executed
then they are executed in the order they were added
then only the last interceptor's result is returned
then every interceptor receives the result of its predecessor
and when the fulfillment-interceptor throws
- then the following fulfillment-interceptor is not called
- then the following rejection-interceptor is called
- once caught, another following fulfill-interceptor is called again (just like in a promise chain).

Read the interceptor tests to see all this in code.

Error Types

There are many different axios error messages that can appear which can provide basic information about the specifics of the error and where opportunities may lie in debugging.

The general structure of axios errors is as follows:

Property	Definition
message	A quick summary of the error message and the status it failed with.
name	This defines where the error originated from. For axios, it will always be an 'AxiosError'.
stack	Provides the stack trace of the error.
config	An axios config object with specific instance configurations defined by the user from when the request was made
code	Represents an axios identified error. The table below lists specific definitions for internal axios error.
status	HTTP response status code. See here for common HTTP response status code meanings.

Below is a list of potential axios identified error:

Code	Definition
ERR_BAD_OPTION_VALUE	Invalid value provided in axios configuration.
ERR_BAD_OPTION	Invalid option provided in axios configuration.
ERR_NOT_SUPPORT	Feature or method not supported in the current axios environment.
ERR_DEPRECATED	Deprecated feature or method used in axios.
ERR_INVALID_URL	Invalid URL provided for axios request.
ECONNABORTED	Typically indicates that the request has been timed out (unless `transitional.clarifyTimeoutError` is set) or aborted by the browser or its plugin.
ERR_CANCELED	Feature or method is canceled explicitly by the user using an AbortSignal (or a CancelToken).
ETIMEDOUT	Request timed out due to exceeding the default axios timelimit. `transitional.clarifyTimeoutError` must be set to `true`, otherwise a generic `ECONNABORTED` error will be thrown instead.
ERR_NETWORK	Network-related issue. In the browser, this error can also be caused by a CORS or Mixed Content policy violation. The browser does not allow the JS code to clarify the real reason for the error caused by security issues, so please check the console.
ERR_FR_TOO_MANY_REDIRECTS	Request is redirected too many times; exceeds max redirects specified in axios configuration.
ERR_BAD_RESPONSE	Response cannot be parsed properly or is in an unexpected format. Usually related to a response with `5xx` status code.
ERR_BAD_REQUEST	The request has an unexpected format or is missing required parameters. Usually related to a response with `4xx` status code.

Handling Errors

The default behavior is to reject every response that returns with a status code that falls out of the range of 2xx and treat it as an error.

axios.get("/user/12345").catch(function (error) {
  if (error.response) {
    // The request was made and the server responded with a status code
    // that falls out of the range of 2xx
    console.log(error.response.data);
    console.log(error.response.status);
    console.log(error.response.headers);
  } else if (error.request) {
    // The request was made but no response was received
    // `error.request` is an instance of XMLHttpRequest in the browser and an instance of
    // http.ClientRequest in node.js
    console.log(error.request);
  } else {
    // Something happened in setting up the request that triggered an Error
    console.log("Error", error.message);
  }
  console.log(error.config);
});

Using the validateStatus config option, you can override the default condition (status >= 200 && status < 300) and define HTTP code(s) that should throw an error.

axios.get("/user/12345", {
  validateStatus: function (status) {
    return status < 500; // Resolve only if the status code is less than 500
  },
});

Using toJSON you get an object with more information about the HTTP error.

axios.get("/user/12345").catch(function (error) {
  console.log(error.toJSON());
});

Handling Timeouts

async function fetchWithTimeout() {
  try {
    const response = await axios.get("https://example.com/data", {
      timeout: 5000, // 5 seconds
    });

    console.log("Response:", response.data);
  } catch (error) {
    if (axios.isAxiosError(error) && error.code === "ECONNABORTED") {
      console.error("❌ Request timed out!");
    } else {
      console.error("❌ Error:", error.message);
    }
  }
}

Cancellation

AbortController

Starting from v0.22.0 Axios supports AbortController to cancel requests in a fetch API way:

const controller = new AbortController();

axios
  .get("/foo/bar", {
    signal: controller.signal,
  })
  .then(function (response) {
    //...
  });
// cancel the request
controller.abort();

CancelToken `👎deprecated`

You can also cancel a request using a CancelToken.

The axios cancel token API is based on the withdrawn cancellable promises proposal.

This API is deprecated since v0.22.0 and shouldn't be used in new projects

You can create a cancel token using the CancelToken.source factory as shown below:

const CancelToken = axios.CancelToken;
const source = CancelToken.source();

axios
  .get("/user/12345", {
    cancelToken: source.token,
  })
  .catch(function (thrown) {
    if (axios.isCancel(thrown)) {
      console.log("Request canceled", thrown.message);
    } else {
      // handle error
    }
  });

axios.post(
  "/user/12345",
  {
    name: "new name",
  },
  {
    cancelToken: source.token,
  },
);

// cancel the request (the message parameter is optional)
source.cancel("Operation canceled by the user.");

You can also create a cancel token by passing an executor function to the CancelToken constructor:

const CancelToken = axios.CancelToken;
let cancel;

axios.get("/user/12345", {
  cancelToken: new CancelToken(function executor(c) {
    // An executor function receives a cancel function as a parameter
    cancel = c;
  }),
});

// cancel the request
cancel();

Note: you can cancel several requests with the same cancel token/abort controller. If a cancellation token is already cancelled at the moment of starting an Axios request, then the request is cancelled immediately, without any attempts to make a real request.

During the transition period, you can use both cancellation APIs, even for the same request:

Using `application/x-www-form-urlencoded` format

URLSearchParams

By default, axios serializes JavaScript objects to JSON. To send data in the application/x-www-form-urlencoded format instead, you can use the URLSearchParams API, which is supported in the vast majority of browsers, and Node starting with v10 (released in 2018).

const params = new URLSearchParams({ foo: "bar" });
params.append("extraparam", "value");
axios.post("/foo", params);

Query string (Older browsers)

For compatibility with very old browsers, there is a polyfill available (make sure to polyfill the global environment).

Alternatively, you can encode data using the qs library:

const qs = require("qs");
axios.post("/foo", qs.stringify({ bar: 123 }));

Or in another way (ES6),

import qs from "qs";
const data = { bar: 123 };
const options = {
  method: "POST",
  headers: { "content-type": "application/x-www-form-urlencoded" },
  data: qs.stringify(data),
  url,
};
axios(options);

Older Node.js versions

For older Node.js engines, you can use the querystring module as follows:

const querystring = require("querystring");
axios.post("https://something.com/", querystring.stringify({ foo: "bar" }));

You can also use the qs library.

Note: The qs library is preferable if you need to stringify nested objects, as the querystring method has known issues with that use case.

🆕 Automatic serialization to URLSearchParams

Axios will automatically serialize the data object to urlencoded format if the content-type header is set to "application/x-www-form-urlencoded".

const data = {
  x: 1,
  arr: [1, 2, 3],
  arr2: [1, [2], 3],
  users: [
    { name: "Peter", surname: "Griffin" },
    { name: "Thomas", surname: "Anderson" },
  ],
};

await axios.postForm("https://postman-echo.com/post", data, {
  headers: { "content-type": "application/x-www-form-urlencoded" },
});

The server will handle it as:

  {
    x: '1',
    'arr[]': [ '1', '2', '3' ],
    'arr2[0]': '1',
    'arr2[1][0]': '2',
    'arr2[2]': '3',
    'arr3[]': [ '1', '2', '3' ],
    'users[0][name]': 'Peter',
    'users[0][surname]': 'griffin',
    'users[1][name]': 'Thomas',
    'users[1][surname]': 'Anderson'
  }

If your backend body-parser (like body-parser of express.js) supports nested objects decoding, you will get the same object on the server-side automatically

const app = express();

app.use(bodyParser.urlencoded({ extended: true })); // support encoded bodies

app.post("/", function (req, res, next) {
  // echo body as JSON
  res.send(JSON.stringify(req.body));
});

server = app.listen(3000);

Using `multipart/form-data` format

FormData

To send the data as a multipart/form-data you need to pass a formData instance as a payload. Setting the Content-Type header is not required as Axios guesses it based on the payload type.

const formData = new FormData();
formData.append("foo", "bar");

axios.post("https://httpbin.org/post", formData);

In node.js, you can use the form-data library as follows:

const FormData = require("form-data");

const form = new FormData();
form.append("my_field", "my value");
form.append("my_buffer", Buffer.alloc(10));
form.append("my_file", fs.createReadStream("/foo/bar.jpg"));

axios.post("https://example.com", form);

🆕 Automatic serialization to FormData

Starting from v0.27.0, Axios supports automatic object serialization to a FormData object if the request Content-Type header is set to multipart/form-data.

The following request will submit the data in a FormData format (Browser & Node.js):

import axios from "axios";

axios
  .post(
    "https://httpbin.org/post",
    { x: 1 },
    {
      headers: {
        "Content-Type": "multipart/form-data",
      },
    },
  )
  .then(({ data }) => console.log(data));

In the node.js build, the (form-data) polyfill is used by default.

You can overload the FormData class by setting the env.FormData config variable, but you probably won't need it in most cases:

const axios = require("axios");
var FormData = require("form-data");

axios
  .post(
    "https://httpbin.org/post",
    { x: 1, buf: Buffer.alloc(10) },
    {
      headers: {
        "Content-Type": "multipart/form-data",
      },
    },
  )
  .then(({ data }) => console.log(data));

Axios FormData serializer supports some special endings to perform the following operations:

{} - serialize the value with JSON.stringify
[] - unwrap the array-like object as separate fields with the same key

Note: unwrap/expand operation will be used by default on arrays and FileList objects

FormData serializer supports additional options via config.formSerializer: object property to handle rare cases:

visitor: Function - user-defined visitor function that will be called recursively to serialize the data object to a FormData object by following custom rules.
dots: boolean = false - use dot notation instead of brackets to serialize arrays and objects;
metaTokens: boolean = true - add the special ending (e.g user{}: '{"name": "John"}') in the FormData key. The back-end body-parser could potentially use this meta-information to automatically parse the value as JSON.
indexes: null|false|true = false - controls how indexes will be added to unwrapped keys of flat array-like objects.
- null - don't add brackets (arr: 1, arr: 2, arr: 3)
- false(default) - add empty brackets (arr[]: 1, arr[]: 2, arr[]: 3)
- true - add brackets with indexes (arr[0]: 1, arr[1]: 2, arr[2]: 3)

Let's say we have an object like this one:

const obj = {
  x: 1,
  arr: [1, 2, 3],
  arr2: [1, [2], 3],
  users: [
    { name: "Peter", surname: "Griffin" },
    { name: "Thomas", surname: "Anderson" },
  ],
  "obj2{}": [{ x: 1 }],
};

The following steps will be executed by the Axios serializer internally:

const formData = new FormData();
formData.append("x", "1");
formData.append("arr[]", "1");
formData.append("arr[]", "2");
formData.append("arr[]", "3");
formData.append("arr2[0]", "1");
formData.append("arr2[1][0]", "2");
formData.append("arr2[2]", "3");
formData.append("users[0][name]", "Peter");
formData.append("users[0][surname]", "Griffin");
formData.append("users[1][name]", "Thomas");
formData.append("users[1][surname]", "Anderson");
formData.append("obj2{}", '[{"x":1}]');

Axios supports the following shortcut methods: postForm, putForm, patchForm which are just the corresponding http methods with the Content-Type header preset to multipart/form-data.

Files Posting

You can easily submit a single file:

await axios.postForm("https://httpbin.org/post", {
  myVar: "foo",
  file: document.querySelector("#fileInput").files[0],
});

or multiple files as multipart/form-data:

await axios.postForm("https://httpbin.org/post", {
  "files[]": document.querySelector("#fileInput").files,
});

FileList object can be passed directly:

await axios.postForm(
  "https://httpbin.org/post",
  document.querySelector("#fileInput").files,
);

All files will be sent with the same field names: files[].

🆕 HTML Form Posting (browser)

Pass an HTML Form element as a payload to submit it as multipart/form-data content.

await axios.postForm(
  "https://httpbin.org/post",
  document.querySelector("#htmlForm"),
);

FormData and HTMLForm objects can also be posted as JSON by explicitly setting the Content-Type header to application/json:

await axios.post(
  "https://httpbin.org/post",
  document.querySelector("#htmlForm"),
  {
    headers: {
      "Content-Type": "application/json",
    },
  },
);

For example, the Form

<form id="form">
  <input type="text" name="foo" value="1" />
  <input type="text" name="deep.prop" value="2" />
  <input type="text" name="deep prop spaced" value="3" />
  <input type="text" name="baz" value="4" />
  <input type="text" name="baz" value="5" />

  <select name="user.age">
    <option value="value1">Value 1</option>
    <option value="value2" selected>Value 2</option>
    <option value="value3">Value 3</option>
  </select>

  <input type="submit" value="Save" />
</form>

will be submitted as the following JSON object:

{
  "foo": "1",
  "deep": {
    "prop": {
      "spaced": "3"
    }
  },
  "baz": [
    "4",
    "5"
  ],
  "user": {
    "age": "value2"
  }
}

Sending Blobs/Files as JSON (base64) is not currently supported.

🆕 Progress capturing

Axios supports both browser and node environments to capture request upload/download progress. The frequency of progress events is forced to be limited to 3 times per second.

await axios.post(url, data, {
  onUploadProgress: function (axiosProgressEvent) {
    /*{
      loaded: number;
      total?: number;
      progress?: number; // in range [0..1]
      bytes: number; // how many bytes have been transferred since the last trigger (delta)
      estimated?: number; // estimated time in seconds
      rate?: number; // upload speed in bytes
      upload: true; // upload sign
    }*/
  },

  onDownloadProgress: function (axiosProgressEvent) {
    /*{
      loaded: number;
      total?: number;
      progress?: number;
      bytes: number;
      estimated?: number;
      rate?: number; // download speed in bytes
      download: true; // download sign
    }*/
  },
});

You can also track stream upload/download progress in node.js:

const { data } = await axios.post(SERVER_URL, readableStream, {
  onUploadProgress: ({ progress }) => {
    console.log((progress * 100).toFixed(2));
  },

  headers: {
    "Content-Length": contentLength,
  },

  maxRedirects: 0, // avoid buffering the entire stream
});

Note: Capturing FormData upload progress is not currently supported in node.js environments.

⚠️ Warning It is recommended to disable redirects by setting maxRedirects: 0 to upload the stream in the node.js environment, as the follow-redirects package will buffer the entire stream in RAM without following the "backpressure" algorithm.

🆕 Rate limiting

Download and upload rate limits can only be set for the http adapter (node.js):

const { data } = await axios.post(LOCAL_SERVER_URL, myBuffer, {
  onUploadProgress: ({ progress, rate }) => {
    console.log(
      `Upload [${(progress * 100).toFixed(2)}%]: ${(rate / 1024).toFixed(2)}KB/s`,
    );
  },

  maxRate: [100 * 1024], // 100KB/s limit
});

🆕 AxiosHeaders

Axios has its own AxiosHeaders class to manipulate headers using a Map-like API that guarantees caseless work. Although HTTP is case-insensitive in headers, Axios will retain the case of the original header for stylistic reasons and as a workaround when servers mistakenly consider the header's case. The old approach of directly manipulating the headers object is still available, but deprecated and not recommended for future usage.

Working with headers

An AxiosHeaders object instance can contain different types of internal values. that control setting and merging logic. The final headers object with string values is obtained by Axios by calling the toJSON method.

Note: By JSON here we mean an object consisting only of string values intended to be sent over the network.

The header value can be one of the following types:

string - normal string value that will be sent to the server
null - skip header when rendering to JSON
false - skip header when rendering to JSON, additionally indicates that set method must be called with rewrite option set to true to overwrite this value (Axios uses this internally to allow users to opt out of installing certain headers like User-Agent or Content-Type)
undefined - value is not set

Note: The header value is considered set if it is not equal to undefined.

The headers object is always initialized inside interceptors and transformers:

axios.interceptors.request.use((request: InternalAxiosRequestConfig) => {
  request.headers.set("My-header", "value");

  request.headers.set({
    "My-set-header1": "my-set-value1",
    "My-set-header2": "my-set-value2",
  });

  request.headers.set("User-Agent", false); // disable subsequent setting the header by Axios

  request.headers.setContentType("text/plain");

  request.headers["My-set-header2"] = "newValue"; // direct access is deprecated

  return request;
});

You can iterate over an AxiosHeaders instance using a for...of statement:

const headers = new AxiosHeaders({
  foo: "1",
  bar: "2",
  baz: "3",
});

for (const [header, value] of headers) {
  console.log(header, value);
}

// foo 1
// bar 2
// baz 3

new AxiosHeaders(headers?)

Constructs a new AxiosHeaders instance.

constructor(headers?: RawAxiosHeaders | AxiosHeaders | string);

If the headers object is a string, it will be parsed as RAW HTTP headers.

const headers = new AxiosHeaders(`
Host: www.bing.com
User-Agent: curl/7.54.0
Accept: */*`);

console.log(headers);

// Object [AxiosHeaders] {
//   host: 'www.bing.com',
//   'user-agent': 'curl/7.54.0',
//   accept: '*/*'
// }

AxiosHeaders#set

set(headerName, value: Axios, rewrite?: boolean);
set(headerName, value, rewrite?: (this: AxiosHeaders, value: string, name: string, headers: RawAxiosHeaders) => boolean);
set(headers?: RawAxiosHeaders | AxiosHeaders | string, rewrite?: boolean);

The rewrite argument controls the overwriting behavior:

false - do not overwrite if the header's value is set (is not undefined)
undefined (default) - overwrite the header unless its value is set to false
true - rewrite anyway

The option can also accept a user-defined function that determines whether the value should be overwritten or not.

Returns this.

AxiosHeaders#get(header)

  get(headerName: string, matcher?: true | AxiosHeaderMatcher): AxiosHeaderValue;
  get(headerName: string, parser: RegExp): RegExpExecArray | null;

Returns the internal value of the header. It can take an extra argument to parse the header's value with RegExp.exec, matcher function or internal key-value parser.

const headers = new AxiosHeaders({
  "Content-Type": "multipart/form-data; boundary=Asrf456BGe4h",
});

console.log(headers.get("Content-Type"));
// multipart/form-data; boundary=Asrf456BGe4h

console.log(headers.get("Content-Type", true)); // parse key-value pairs from a string separated with \s,;= delimiters:
// [Object: null prototype] {
//   'multipart/form-data': undefined,
//    boundary: 'Asrf456BGe4h'
// }

console.log(
  headers.get("Content-Type", (value, name, headers) => {
    return String(value).replace(/a/g, "ZZZ");
  }),
);
// multipZZZrt/form-dZZZtZZZ; boundZZZry=Asrf456BGe4h

console.log(headers.get("Content-Type", /boundary=(\w+)/)?.[0]);
// boundary=Asrf456BGe4h

Returns the value of the header.

AxiosHeaders#has(header, matcher?)

has(header: string, matcher?: AxiosHeaderMatcher): boolean;

Returns true if the header is set (has no undefined value).

AxiosHeaders#delete(header, matcher?)

delete(header: string | string[], matcher?: AxiosHeaderMatcher): boolean;

Returns true if at least one header has been removed.

AxiosHeaders#clear(matcher?)

clear(matcher?: AxiosHeaderMatcher): boolean;

Removes all headers. Unlike the delete method matcher, this optional matcher will be used to match against the header name rather than the value.

const headers = new AxiosHeaders({
  foo: "1",
  "x-foo": "2",
  "x-bar": "3",
});

console.log(headers.clear(/^x-/)); // true

console.log(headers.toJSON()); // [Object: null prototype] { foo: '1' }

Returns true if at least one header has been cleared.

AxiosHeaders#normalize(format);

If the headers object was changed directly, it can have duplicates with the same name but in different cases. This method normalizes the headers object by combining duplicate keys into one. Axios uses this method internally after calling each interceptor. Set format to true for converting header names to lowercase and capitalizing the initial letters (cOntEnt-type => Content-Type)

const headers = new AxiosHeaders({
  foo: "1",
});

headers.Foo = "2";
headers.FOO = "3";

console.log(headers.toJSON()); // [Object: null prototype] { foo: '1', Foo: '2', FOO: '3' }
console.log(headers.normalize().toJSON()); // [Object: null prototype] { foo: '3' }
console.log(headers.normalize(true).toJSON()); // [Object: null prototype] { Foo: '3' }

Returns this.

AxiosHeaders#concat(...targets)

concat(...targets: Array<AxiosHeaders | RawAxiosHeaders | string | undefined | null>): AxiosHeaders;

Merges the instance with targets into a new AxiosHeaders instance. If the target is a string, it will be parsed as RAW HTTP headers.

Returns a new AxiosHeaders instance.

AxiosHeaders#toJSON(asStrings?)

toJSON(asStrings?: boolean): RawAxiosHeaders;

Resolve all internal header values into a new null prototype object. Set asStrings to true to resolve arrays as a string containing all elements, separated by commas.

AxiosHeaders.from(thing?)

from(thing?: AxiosHeaders | RawAxiosHeaders | string): AxiosHeaders;

Returns a new AxiosHeaders instance created from the raw headers passed in, or simply returns the given headers object if it's an AxiosHeaders instance.

AxiosHeaders.concat(...targets)

concat(...targets: Array<AxiosHeaders | RawAxiosHeaders | string | undefined | null>): AxiosHeaders;

Returns a new AxiosHeaders instance created by merging the target objects.

Shortcuts

The following shortcuts are available:

setContentType, getContentType, hasContentType
setContentLength, getContentLength, hasContentLength
setAccept, getAccept, hasAccept
setUserAgent, getUserAgent, hasUserAgent
setContentEncoding, getContentEncoding, hasContentEncoding

🔥 Fetch adapter

Fetch adapter was introduced in v1.7.0. By default, it will be used if xhr and http adapters are not available in the build, or not supported by the environment. To use it by default, it must be selected explicitly:

const { data } = axios.get(url, {
  adapter: "fetch", // by default ['xhr', 'http', 'fetch']
});

You can create a separate instance for this:

const fetchAxios = axios.create({
  adapter: "fetch",
});

const { data } = fetchAxios.get(url);

The adapter supports the same functionality as the xhr adapter, including upload and download progress capturing. Also, it supports additional response types such as stream and formdata (if supported by the environment).

🔥 Custom fetch

Starting from v1.12.0, you can customize the fetch adapter to use a custom fetch API instead of environment globals. You can pass a custom fetch function, Request, and Response constructors via env config. This can be helpful in case of custom environments & app frameworks.

Also, when using a custom fetch, you may need to set custom Request and Response too. If you don't set them, global objects will be used. If your custom fetch api does not have these objects, and the globals are incompatible with a custom fetch, you must disable their use inside the fetch adapter by passing null.

Note: Setting Request & Response to null will make it impossible for the fetch adapter to capture the upload & download progress.

Basic example:

import customFetchFunction from "customFetchModule";

const instance = axios.create({
  adapter: "fetch",
  onDownloadProgress(e) {
    console.log("downloadProgress", e);
  },
  env: {
    fetch: customFetchFunction,
    Request: null, // undefined -> use the global constructor
    Response: null,
  },
});

🔥 Using with Tauri

A minimal example of setting up Axios for use in a Tauri app with a platform fetch function that ignores CORS policy for requests.

import { fetch } from "@tauri-apps/plugin-http";
import axios from "axios";

const instance = axios.create({
  adapter: "fetch",
  onDownloadProgress(e) {
    console.log("downloadProgress", e);
  },
  env: {
    fetch,
  },
});

const { data } = await instance.get("https://google.com");

🔥 Using with SvelteKit

SvelteKit framework has a custom implementation of the fetch function for server rendering (so called load functions), and also uses relative paths, which makes it incompatible with the standard URL API. So, Axios must be configured to use the custom fetch API:

export async function load({ fetch }) {
  const { data: post } = await axios.get(
    "https://jsonplaceholder.typicode.com/posts/1",
    {
      adapter: "fetch",
      env: {
        fetch,
        Request: null,
        Response: null,
      },
    },
  );

  return { post };
}

🔥 HTTP2

In version 1.13.0, experimental HTTP2 support was added to the http adapter. The httpVersion option is now available to select the protocol version used. Additional native options for the internal session.request() call can be passed via the http2Options config. This config also includes the custom sessionTimeout parameter, which defaults to 1000ms.

const form = new FormData();

form.append("foo", "123");

const { data, headers, status } = await axios.post(
  "https://httpbin.org/post",
  form,
  {
    httpVersion: 2,
    http2Options: {
      // rejectUnauthorized: false,
      // sessionTimeout: 1000
    },
    onUploadProgress(e) {
      console.log("upload progress", e);
    },
    onDownloadProgress(e) {
      console.log("download progress", e);
    },
    responseType: "arraybuffer",
  },
);

Semver

Since Axios has reached a v.1.0.0 we will fully embrace semver as per the spec here

Promises

axios depends on a native ES6 Promise implementation to be supported. If your environment doesn't support ES6 Promises, you can polyfill.

TypeScript

axios includes TypeScript definitions and a type guard for axios errors.

let user: User = null;
try {
  const { data } = await axios.get("/user?ID=12345");
  user = data.userDetails;
} catch (error) {
  if (axios.isAxiosError(error)) {
    handleAxiosError(error);
  } else {
    handleUnexpectedError(error);
  }
}

Because axios dual publishes with an ESM default export and a CJS module.exports, there are some caveats. The recommended setting is to use "moduleResolution": "node16" (this is implied by "module": "node16"). Note that this requires TypeScript 4.7 or greater. If use ESM, your settings should be fine. If you compile TypeScript to CJS and you can’t use "moduleResolution": "node 16", you have to enable esModuleInterop. If you use TypeScript to type check CJS JavaScript code, your only option is to use "moduleResolution": "node16".

You can also create a custom instance with typed interceptors:

import axios, { AxiosInstance, InternalAxiosRequestConfig } from "axios";

const apiClient: AxiosInstance = axios.create({
  baseURL: "https://api.example.com",
  timeout: 10000,
});

apiClient.interceptors.request.use((config: InternalAxiosRequestConfig) => {
  // Add auth token
  return config;
});

Online one-click setup

You can use Gitpod, an online IDE(which is free for Open Source) for contributing or running the examples online.

Resources

Credits

axios is heavily inspired by the $http service provided in AngularJS. Ultimately axios is an effort to provide a standalone $http-like service for use outside of AngularJS.