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Scripting with the REST API and JavaScript

Write a script using the Octokit.js SDK to interact with the REST API.

About Octokit.js

If you want to write a script using JavaScript to interact with GitHub's REST API, GitHub recommends that you use the Octokit.js SDK. Octokit.js is maintained by GitHub. The SDK implements best practices and makes it easier for you to interact with the REST API via JavaScript. Octokit.js works with all modern browsers, Node.js, and Deno. For more information about Octokit.js, see the Octokit.js README.

Prerequisites

This guide assumes that you are familiar with JavaScript and the GitHub REST API. For more information about the REST API, see "Getting started with the REST API."

You must install and import octokit in order to use the Octokit.js library. This guide uses import statements in accordance with ES6. For more information about different installation and import methods, see the Octokit.js README's Usage section.

Instantiating and authenticating

Warning

Treat your authentication credentials like a password.

To keep your credentials secure, you can store your credentials as a secret and run your script through GitHub Actions. For more information, see "Using secrets in GitHub Actions."

You can also store your credentials as a Codespaces secret and run your script in Codespaces. For more information, see "Managing your account-specific secrets for GitHub Codespaces."

If these options are not possible, consider using another CLI service to store your credentials securely.

Authenticating with a personal access token

If you want to use the GitHub REST API for personal use, you can create a personal access token. For more information about creating a personal access token, see "Managing your personal access tokens."

First, import Octokit from octokit. Then, pass your personal access token when you create an instance of Octokit. In the following example, replace YOUR-TOKEN with a reference to your personal access token.

JavaScript
import { Octokit } from "octokit";

const octokit = new Octokit({ 
  auth: 'YOUR-TOKEN',
});

Authenticating with a GitHub App

If you want to use the API on behalf of an organization or another user, GitHub recommends that you use a GitHub App. If an endpoint is available to GitHub Apps, the REST reference documentation for that endpoint will indicate what type of GitHub App token is required. For more information, see "Registering a GitHub App" and "About authentication with a GitHub App."

Instead of importing Octokit from octokit, import App. In the following example, replace APP_ID with a reference to your app's ID. Replace PRIVATE_KEY with a reference to your app's private key. Replace INSTALLATION_ID with the ID of the installation of your app that you want to authenticate on behalf of. You can find your app's ID and generate a private key on the settings page for your app. For more information, see "Managing private keys for GitHub Apps." You can get an installation ID with the GET /users/{username}/installation, GET /repos/{owner}/{repo}/installation, or GET /orgs/{org}/installation endpoints. For more information, see "REST API endpoints for GitHub Apps."

JavaScript
import { App } from "octokit";

const app = new App({
  appId: APP_ID,
  privateKey: PRIVATE_KEY,
});

const octokit = await app.getInstallationOctokit(INSTALLATION_ID);

Authenticating in GitHub Actions

If you want to use the API in a GitHub Actions workflow, GitHub recommends that you authenticate with the built-in GITHUB_TOKEN instead of creating a token. You can grant permissions to the GITHUB_TOKEN with the permissions key. For more information about GITHUB_TOKEN, see "Automatic token authentication."

If your workflow needs to access resources outside of the workflow's repository, then you will not be able to use GITHUB_TOKEN. In that case, store your credentials as a secret and replace GITHUB_TOKEN in the examples below with the name of your secret. For more information about secrets, see "Using secrets in GitHub Actions."

If you use the run keyword to execute your JavaScript script in your GitHub Actions workflows, you can store the value of GITHUB_TOKEN as an environment variable. Your script can access the environment variable as process.env.VARIABLE_NAME.

For example, this workflow step stores GITHUB_TOKEN in an environment variable called TOKEN:

- name: Run script
  env:
    TOKEN: ${{ secrets.GITHUB_TOKEN }}
  run: |
    node .github/actions-scripts/use-the-api.mjs

The script that the workflow runs uses process.env.TOKEN to authenticate:

JavaScript
import { Octokit } from "octokit";

const octokit = new Octokit({ 
  auth: process.env.TOKEN,
});

Instantiating without authentication

You can use the REST API without authentication, although you will have a lower rate limit and will not be able to use some endpoints. To create an instance of Octokit without authenticating, do not pass the auth argument.

JavaScript
import { Octokit } from "octokit";

const octokit = new Octokit({ });

Making requests

Octokit supports multiple ways of making requests. You can use the request method to make requests if you know the HTTP verb and path for the endpoint. You can use the rest method if you want to take advantage of autocompletion in your IDE and typing. For paginated endpoints, you can use the paginate method to request multiple pages of data.

Using the request method to make requests

To use the request method to make requests, pass the HTTP method and path as the first argument. Pass any body, query, or path parameters in an object as the second argument. For example, to make a GET request to /repos/{owner}/{repo}/issues and pass the owner, repo, and per_page parameters:

JavaScript
await octokit.request("GET /repos/{owner}/{repo}/issues", {
  owner: "github",
  repo: "docs",
  per_page: 2
});

The request method automatically passes the Accept: application/vnd.github+json header. To pass additional headers or a different Accept header, add a headers property to the object that is passed as a second argument. The value of the headers property is an object with the header names as keys and header values as values. For example, to send a content-type header with a value of text/plain and a x-github-api-version header with a value of 2022-11-28:

JavaScript
await octokit.request("POST /markdown/raw", {
  text: "Hello **world**",
  headers: {
    "content-type": "text/plain",
    "x-github-api-version": "2022-11-28",
  },
});

Using rest endpoint methods to make requests

Every REST API endpoint has an associated rest endpoint method in Octokit. These methods generally autocomplete in your IDE for convenience. You can pass any parameters as an object to the method.

JavaScript
await octokit.rest.issues.listForRepo({
  owner: "github",
  repo: "docs",
  per_page: 2
});

Additionally, if you are using a typed language such as TypeScript, you can import types to use with these methods. For more information, see the TypeScript section in the plugin-rest-endpoint-methods.js README.

Making paginated requests

If the endpoint is paginated and you want to fetch more than one page of results, you can use the paginate method. paginate will fetch the next page of results until it reaches the last page and then return all of the results as a single array. A few endpoints return paginated results as array in an object, as opposed to returning the paginated results as an array. paginate always returns an array of items even if the raw result was an object.

For example, the following example gets all of the issues from the github/docs repository. Although it requests 100 issues at a time, the function won't return until the last page of data is reached.

JavaScript
const issueData = await octokit.paginate("GET /repos/{owner}/{repo}/issues", {
  owner: "github",
  repo: "docs",
  per_page: 100,
  headers: {
    "x-github-api-version": "2022-11-28",
  },
});

The paginate method accepts an optional map function, which you can use to collect only the data that you want from the response. This reduces memory usage by your script. The map function can take a second argument, done, which you can call to end the pagination before the last page is reached. This lets you fetch a subset of pages. For example, the following example continues to fetch results until an issue that includes "test" in the title is returned. For the pages of data that were returned, only the issue title and author are stored.

JavaScript
const issueData = await octokit.paginate("GET /repos/{owner}/{repo}/issues", {
  owner: "github",
  repo: "docs",
  per_page: 100,
  headers: {
    "x-github-api-version": "2022-11-28",
  },
},
    (response, done) => response.data.map((issue) => {
    if (issue.title.includes("test")) {
      done()
    }
    return ({title: issue.title, author: issue.user.login})
  })
);

Instead of fetching all of the results at once, you can use octokit.paginate.iterator() to iterate through a single page at a time. For example, the following example fetches one page of results at a time and processes each object from the page before fetching the next page. Once an issue that includes "test" in the title is reached, the script stops the iteration and returns the issue title and issue author of each object that was processed. The iterator is the most memory efficient method for fetching paginated data.

JavaScript
const iterator = octokit.paginate.iterator("GET /repos/{owner}/{repo}/issues", {
  owner: "github",
  repo: "docs",
  per_page: 100,
  headers: {
    "x-github-api-version": "2022-11-28",
  },
});

let issueData = []
let breakLoop = false
for await (const {data} of iterator) {
  if (breakLoop) break
  for (const issue of data) {
    if (issue.title.includes("test")) {
      breakLoop = true
      break
    } else {
      issueData = [...issueData, {title: issue.title, author: issue.user.login}];
    }
  }
}

You can use the paginate method with the rest endpoint methods as well. Pass the rest endpoint method as the first argument. Pass any parameters as the second argument.

JavaScript
const iterator = octokit.paginate.iterator(octokit.rest.issues.listForRepo, {
  owner: "github",
  repo: "docs",
  per_page: 100,
  headers: {
    "x-github-api-version": "2022-11-28",
  },
});

For more information about pagination, see "Using pagination in the REST API."

Catching errors

Catching all errors

Sometimes, the GitHub REST API will return an error. For example, you will get an error if your access token is expired or if you omitted a required parameter. Octokit.js automatically retries the request when it gets an error other than 400 Bad Request, 401 Unauthorized, 403 Forbidden, 404 Not Found, and 422 Unprocessable Entity. If an API error occurs even after retries, Octokit.js throws an error that includes the HTTP status code of the response (response.status) and the response headers (response.headers). You should handle these errors in your code. For example, you can use a try/catch block to catch errors:

JavaScript
let filesChanged = []

try {
  const iterator = octokit.paginate.iterator("GET /repos/{owner}/{repo}/pulls/{pull_number}/files", {
    owner: "github",
    repo: "docs",
    pull_number: 22809,
    per_page: 100,
    headers: {
      "x-github-api-version": "2022-11-28",
    },
  });

  for await (const {data} of iterator) {
    filesChanged = [...filesChanged, ...data.map(fileData => fileData.filename)];
  }
} catch (error) {
  if (error.response) {
    console.error(`Error! Status: ${error.response.status}. Message: ${error.response.data.message}`)
  }
  console.error(error)
}

Handling intended error codes

Sometimes, GitHub uses a 4xx status code to indicate a non-error response. If the endpoint you are using does this, you can add additional handling for specific errors. For example, the GET /user/starred/{owner}/{repo} endpoint will return a 404 if the repository is not starred. The following example uses the 404 response to indicate that the repository was not starred; all other errors codes are treated as errors.

JavaScript
try {
  await octokit.request("GET /user/starred/{owner}/{repo}", {
    owner: "github",
    repo: "docs",
    headers: {
      "x-github-api-version": "2022-11-28",
    },
  });

  console.log(`The repository is starred by me`);

} catch (error) {
  if (error.status === 404) {
    console.log(`The repository is not starred by me`);
  } else {
    console.error(`An error occurred while checking if the repository is starred: ${error?.response?.data?.message}`);
  }
}

Handling rate limit errors

If you receive a rate limit error, you may want to retry your request after waiting. When you are rate limited, GitHub responds with a 403 Forbidden error and the x-ratelimit-remaining response header value will be "0". The response headers will include a x-ratelimit-reset header, which tells you the time at which the current rate limit window resets, in UTC epoch seconds. You can retry your request after the time specified by x-ratelimit-reset.

JavaScript
async function requestRetry(route, parameters) {
  try {
    const response = await octokit.request(route, parameters);
    return response
  } catch (error) {
    if (error.response && error.status === 403 && error.response.headers['x-ratelimit-remaining'] === '0') {
      const resetTimeEpochSeconds = error.response.headers['x-ratelimit-reset'];
      const currentTimeEpochSeconds = Math.floor(Date.now() / 1000);
      const secondsToWait = resetTimeEpochSeconds - currentTimeEpochSeconds;
      console.log(`You have exceeded your rate limit. Retrying in ${secondsToWait} seconds.`);
      setTimeout(requestRetry, secondsToWait * 1000, route, parameters);
    } else {
      console.error(error);
    }
  }
}

const response = await requestRetry("GET /repos/{owner}/{repo}/issues", {
    owner: "github",
    repo: "docs",
    per_page: 2
  })

Using the response

The request method returns a promise that resolves to an object if the request was successful. The object properties are data (the response body returned by the endpoint), status (the HTTP response code), url (the URL of the request), and headers (an object containing the response headers). Unless otherwise specified, the response body is in JSON format. Some endpoints do not return a response body; in those cases, the data property is omitted.

JavaScript
const response = await octokit.request("GET /repos/{owner}/{repo}/issues/{issue_number}", {
  owner: "github",
  repo: "docs",
  issue_number: 11901,
  headers: {
    "x-github-api-version": "2022-11-28",
  },
});

console.log(`The status of the response is: ${response.status}`)
console.log(`The request URL was: ${response.url}`)
console.log(`The x-ratelimit-remaining response header is: ${response.headers["x-ratelimit-remaining"]}`)
console.log(`The issue title is: ${response.data.title}`)

Similarly, the paginate method returns a promise. If the request was successful, the promise resolves to an array of data returned by the endpoint. Unlike the request method, the paginate method does not return the status code, URL, or headers.

JavaScript
const data = await octokit.paginate("GET /repos/{owner}/{repo}/issues", {
  owner: "github",
  repo: "docs",
  per_page: 100,
  headers: {
    "x-github-api-version": "2022-11-28",
  },
});

console.log(`${data.length} issues were returned`)
console.log(`The title of the first issue is: ${data[0].title}`)

Example script

Here is a full example script that uses Octokit.js. The script imports Octokit and creates a new instance of Octokit. If you wanted to authenticate with a GitHub App instead of a personal access token, you would import and instantiate App instead of Octokit. For more information, see "Authenticating with a GitHub App."

The getChangedFiles function gets all of the files changed for a pull request. The commentIfDataFilesChanged function calls the getChangedFiles function. If any of the files that the pull request changed include /data/ in the file path, then the function will comment on the pull request.

JavaScript
import { Octokit } from "octokit";

const octokit = new Octokit({ 
  auth: 'YOUR-TOKEN',
});

async function getChangedFiles({owner, repo, pullNumber}) {
  let filesChanged = []

  try {
    const iterator = octokit.paginate.iterator("GET /repos/{owner}/{repo}/pulls/{pull_number}/files", {
      owner: owner,
      repo: repo,
      pull_number: pullNumber,
      per_page: 100,
      headers: {
        "x-github-api-version": "2022-11-28",
      },
    });

    for await (const {data} of iterator) {
      filesChanged = [...filesChanged, ...data.map(fileData => fileData.filename)];
    }
  } catch (error) {
    if (error.response) {
      console.error(`Error! Status: ${error.response.status}. Message: ${error.response.data.message}`)
    }
    console.error(error)
  }

  return filesChanged
}

async function commentIfDataFilesChanged({owner, repo, pullNumber}) {
  const changedFiles = await getChangedFiles({owner, repo, pullNumber});

  const filePathRegex = new RegExp(/\/data\//, "i");
  if (!changedFiles.some(fileName => filePathRegex.test(fileName))) {
    return;
  }

  try {
    const {data: comment} = await octokit.request("POST /repos/{owner}/{repo}/issues/{issue_number}/comments", {
      owner: owner,
      repo: repo,
      issue_number: pullNumber,
      body: `It looks like you changed a data file. These files are auto-generated. \n\nYou must revert any changes to data files before your pull request will be reviewed.`,
      headers: {
        "x-github-api-version": "2022-11-28",
      },
    });

    return comment.html_url;
  } catch (error) {
    if (error.response) {
      console.error(`Error! Status: ${error.response.status}. Message: ${error.response.data.message}`)
    }
    console.error(error)
  }
}

await commentIfDataFilesChanged({owner: "github", repo: "docs", pullNumber: 191});

Next steps