Google APIs Node.js Client
Node.js client library for using Google APIs. Support for authorization and authentication with OAuth 2.0, API Keys and JWT tokens is included.
Google APIs
The full list of supported APIs can be found on the Google APIs Explorer. The API endpoints are automatically generated, so if the API is not in the list, it is currently not supported by this API client library.
Working with Google Cloud Platform APIs?
If you're working with Google Cloud Platform APIs such as Datastore, Cloud Storage or Pub/Sub, consider using the @google-cloud
client libraries: single purpose idiomatic Node.js clients for Google Cloud Platform services.
Support and maintenance
These client libraries are officially supported by Google. However, these libraries are considered complete and are in maintenance mode. This means that we will address critical bugs and security issues but will not add any new features. For Google Cloud Platform APIs, we recommend using google-cloud-node which is under active development.
This library supports the maintenance LTS, active LTS, and current release of node.js. See the node.js release schedule for more information.
Getting started
Installation
This library is distributed on npm
. In order to add it as a dependency, run the following command:
$ npm install googleapis
If you need to reduce startup times, you can also install a submodule as its own dependency. We make an effort to publish submodules that are not in this list. In order to add it as a dependency, run the following sample command, replacing with your preferred API:
$ npm install @googleapis/docs
You can run this search on npm, to find a list of the submodules available.
Using the client library
This is a very simple example. This creates a Blogger client and retrieves the details of a blog given the blog Id:
const {google} = require('googleapis');
const blogger = google.blogger({
version: 'v3',
auth: 'YOUR API KEY'
});
const params = {
blogId: '3213900'
};
blogger.blogs.get(params, (err, res) => {
if (err) {
console.error(err);
throw err;
}
console.log(`The blog url is ${res.data.url}`);
});
Instead of using callbacks you can also use promises!
blogger.blogs.get(params)
.then(res => {
console.log(`The blog url is ${res.data.url}`);
})
.catch(error => {
console.error(error);
});
Or async/await:
async function runSample() {
const res = await blogger.blogs.get(params);
console.log(`The blog url is ${res.data.url}`);
}
runSample().catch(console.error);
You can also make calls directly to the APIs by installing a submodule:
const docs = require('@googleapis/docs')
const auth = new docs.auth.GoogleAuth({
keyFilename: 'PATH_TO_SERVICE_ACCOUNT_KEY.json',
scopes: ['https://www.googleapis.com/auth/documents']
});
const authClient = await auth.getClient();
const client = await docs.docs({
version: 'v1',
auth: authClient
});
const createResponse = await client.documents.create({
requestBody: {
title: 'Your new document!',
},
});
console.log(createResponse.data);
Samples
There are a lot of samples 🤗 If you're trying to figure out how to use an API ... look there first! If there's a sample you need missing, feel free to file an issue.
API Reference
This library has a full set of API Reference Documentation. This documentation is auto-generated, and the location may change.
Authentication and authorization
There are multiple ways to authenticate to Google APIs. Some service support all authentication methods, other may only support one or two.
-
OAuth2 - This allows you to make API calls on behalf of a given user. In this model, the user visits your application, signs in with their Google account, and provides your application with authorization against a set of scopes. Learn more.
-
API Key - With an API key, you can access your service from a client or the server. Typically less secure, this is only available on a small subset of services with limited scopes. Learn more.
-
Application default credentials - Provides automatic access to Google APIs using the Google Cloud SDK for local development, or the GCE Metadata Server for applications deployed to Google Cloud Platform. Learn more.
-
Service account credentials - In this model, your application talks directly to Google APIs using a Service Account. It's useful when you have a backend application that will talk directly to Google APIs from the backend. Learn more.
To learn more about the authentication client, see the Google Auth Library.
OAuth2 client
This module comes with an OAuth2 client that allows you to retrieve an access token, refresh it, and retry the request seamlessly. The basics of Google's OAuth2 implementation is explained on Google Authorization and Authentication documentation.
In the following examples, you may need a CLIENT_ID
, CLIENT_SECRET
and REDIRECT_URL
. You can find these pieces of information by going to the Developer Console, clicking your project --> APIs & auth --> credentials.
- Navigate to the Cloud Console and Create a new OAuth2 Client Id
- Select
Web Application
for the application type - Add an authorized redirect URI with the value
http://localhost:3000/oauth2callback
(or applicable value for your scenario) - Click
Create
, and Ok
on the following screen - Click the
Download
icon next to your newly created OAuth2 Client Id
Make sure to store this file in safe place, and do not check this file into source control!
For more information about OAuth2 and how it works, see here.
A complete sample application that authorizes and authenticates with the OAuth2 client is available at samples/oauth2.js
.
Generating an authentication URL
To ask for permissions from a user to retrieve an access token, you redirect them to a consent page. To create a consent page URL:
const {google} = require('googleapis');
const oauth2Client = new google.auth.OAuth2(
YOUR_CLIENT_ID,
YOUR_CLIENT_SECRET,
YOUR_REDIRECT_URL
);
const scopes = [
'https://www.googleapis.com/auth/blogger',
'https://www.googleapis.com/auth/calendar'
];
const url = oauth2Client.generateAuthUrl({
access_type: 'offline',
scope: scopes
});
IMPORTANT NOTE - The refresh_token
is only returned on the first authorization. More details here.
Retrieve authorization code
Once a user has given permissions on the consent page, Google will redirect the page to the redirect URL you have provided with a code query parameter.
GET /oauthcallback?code={authorizationCode}
Retrieve access token
With the code returned, you can ask for an access token as shown below:
const {tokens} = await oauth2Client.getToken(code)
oauth2Client.setCredentials(tokens);
With the credentials set on your OAuth2 client - you're ready to go!
Handling refresh tokens
Access tokens expire. This library will automatically use a refresh token to obtain a new access token if it is about to expire. An easy way to make sure you always store the most recent tokens is to use the tokens
event:
oauth2Client.on('tokens', (tokens) => {
if (tokens.refresh_token) {
console.log(tokens.refresh_token);
}
console.log(tokens.access_token);
});
This tokens event only occurs in the first authorization, and you need to have set your access_type
to offline
when calling the generateAuthUrl
method to receive the refresh token. If you have already given your app the requisiste permissions without setting the appropriate constraints for receiving a refresh token, you will need to re-authorize the application to receive a fresh refresh token. You can revoke your app's access to your account here.
To set the refresh_token
at a later time, you can use the setCredentials
method:
oauth2Client.setCredentials({
refresh_token: `STORED_REFRESH_TOKEN`
});
Once the client has a refresh token, access tokens will be acquired and refreshed automatically in the next call to the API.
Refresh tokens may stop working after they are granted, either because:
- The user has revoked your app's access
- The refresh token has not been used for 6 months
- The user changed passwords and the refresh token contains Gmail scopes
- The user account has exceeded a max number of live refresh tokens
- The application has a status of 'Testing' and the consent screen is configured for an external user type, causing the token to expire in 7 days
As a developer, you should write your code to handle the case where a refresh token is no longer working.
Using API keys
You may need to send an API key with the request you are going to make. The following uses an API key to make a request to the Blogger API service to retrieve a blog's name, url, and its total amount of posts:
const {google} = require('googleapis');
const blogger = google.blogger_v3({
version: 'v3',
auth: 'YOUR_API_KEY'
});
const params = {
blogId: '3213900'
};
async function main(params) {
const res = await blogger.blogs.get({blogId: params.blogId});
console.log(`${res.data.name} has ${res.data.posts.totalItems} posts! The blog url is ${res.data.url}`)
};
main().catch(console.error);
To learn more about API keys, please see the documentation.
Application default credentials
Rather than manually creating an OAuth2 client, JWT client, or Compute client, the auth library can create the correct credential type for you, depending upon the environment your code is running under.
For example, a JWT auth client will be created when your code is running on your local developer machine, and a Compute client will be created when the same code is running on a configured instance of Google Compute Engine. The code below shows how to retrieve a default credential type, depending upon the runtime environment.
To use Application default credentials locally with the Google Cloud SDK, run:
$ gcloud auth application-default login
When running in GCP, service authorize is automatically provided via the GCE Metadata server.
const {google} = require('googleapis');
const compute = google.compute('v1');
async function main () {
const auth = new google.auth.GoogleAuth({
scopes: ['https://www.googleapis.com/auth/compute']
});
const authClient = await auth.getClient();
const project = await auth.getProjectId();
const res = await compute.zones.list({ project, auth: authClient });
console.log(res.data);
}
main().catch(console.error);
Service account credentials
Service accounts allow you to perform server to server, app-level authentication using a robot account. You will create a service account, download a keyfile, and use that to authenticate to Google APIs. To create a service account:
Save the service account credential file somewhere safe, and do not check this file into source control! To reference the service account credential file, you have a few options.
Using the GOOGLE_APPLICATION_CREDENTIALS
env var
You can start process with an environment variable named GOOGLE_APPLICATION_CREDENTIALS
. The value of this env var should be the full path to the service account credential file:
$ GOOGLE_APPLICATION_CREDENTIALS=./your-secret-key.json node server.js
Using the keyFile
property
Alternatively, you can specify the path to the service account credential file via the keyFile
property in the GoogleAuth
constructor:
const {google} = require('googleapis');
const auth = new google.auth.GoogleAuth({
keyFile: '/path/to/your-secret-key.json',
scopes: ['https://www.googleapis.com/auth/cloud-platform'],
});
Setting global or service-level auth
You can set the auth
as a global or service-level option so you don't need to specify it every request. For example, you can set auth
as a global option:
const {google} = require('googleapis');
const oauth2Client = new google.auth.OAuth2(
YOUR_CLIENT_ID,
YOUR_CLIENT_SECRET,
YOUR_REDIRECT_URL
);
google.options({
auth: oauth2Client
});
Instead of setting the option globally, you can also set the authentication client at the service-level:
const {google} = require('googleapis');
const oauth2Client = new google.auth.OAuth2(
YOUR_CLIENT_ID,
YOUR_CLIENT_SECRET,
YOUR_REDIRECT_URL
);
const drive = google.drive({
version: 'v2',
auth: oauth2Client
});
See the Options section for more information.
Usage
Specifying request body
The body of the request is specified in the requestBody
parameter object of the request. The body is specified as a JavaScript object with key/value pairs. For example, this sample creates a watcher that posts notifications to a Google Cloud Pub/Sub topic when emails are sent to a gmail account:
const res = await gmail.users.watch({
userId: 'me',
requestBody: {
topicName: `projects/el-gato/topics/gmail`
}
});
console.log(res.data);
Media uploads
This client supports multipart media uploads. The resource parameters are specified in the requestBody
parameter object, and the media itself is specified in the media.body
parameter with mime-type specified in media.mimeType
.
This example uploads a plain text file to Google Drive with the title "Test" and contents "Hello World".
const drive = google.drive({
version: 'v3',
auth: oauth2Client
});
const res = await drive.files.create({
requestBody: {
name: 'Test',
mimeType: 'text/plain'
},
media: {
mimeType: 'text/plain',
body: 'Hello World'
}
});
You can also upload media by specifying media.body
as a Readable stream. This can allow you to upload very large files that cannot fit into memory.
const fs = require('fs');
const drive = google.drive({
version: 'v3',
auth: oauth2Client
});
async function main() {
const res = await drive.files.create({
requestBody: {
name: 'testimage.png',
mimeType: 'image/png'
},
media: {
mimeType: 'image/png',
body: fs.createReadStream('awesome.png')
}
});
console.log(res.data);
}
main().catch(console.error);
For more examples of creation and modification requests with media attachments, take a look at the samples/drive/upload.js
sample.
Request Options
For more fine-tuned control over how your API calls are made, we provide you with the ability to specify additional options that can be applied directly to the 'gaxios' object used in this library to make network calls to the API.
You may specify additional options either in the global google
object or on a service client basis. The options you specify are attached to the gaxios
object so whatever gaxios
supports, this library supports. You may also specify global or per-service request parameters that will be attached to all API calls you make.
A full list of supported options can be found here.
Global options
You can choose default options that will be sent with each request. These options will be used for every service instantiated by the google client. In this example, the timeout
property of GaxiosOptions
will be set for every request:
const {google} = require('googleapis');
google.options({
timeout: 1000,
auth: auth
});
You can also modify the parameters sent with each request:
const {google} = require('googleapis');
google.options({
params: {
quotaUser: 'user123@example.com'
}
});
Service-client options
You can also specify options when creating a service client.
const blogger = google.blogger({
version: 'v3',
auth: 'API KEY';
});
By doing this, every API call made with this service client will use 'API KEY'
to authenticate.
Note: Created clients are immutable so you must create a new one if you want to specify different options.
Similar to the examples above, you can also modify the parameters used for every call of a given service:
const blogger = google.blogger({
version: 'v3',
params: {
blogId: '3213900'
}
});
const drive = google.drive('v3');
...
Request-level options
You can specify an auth
object to be used per request. Each request also inherits the options specified at the service level and global level.
For example:
const {google} = require('googleapis');
const bigquery = google.bigquery('v2');
async function main() {
const auth = new google.auth.GoogleAuth({
scopes: ['https://www.googleapis.com/auth/cloud-platform']
});
const authClient = await auth.getClient();
const projectId = await auth.getProjectId();
const request = {
projectId,
datasetId: '<YOUR_DATASET_ID>',
auth: authClient
};
const res = await bigquery.datasets.delete(request);
console.log(res.data);
}
main().catch(console.error);
You can also override gaxios options per request, such as url
, method
, and responseType
.
For example:
const res = await drive.files.export({
fileId: 'asxKJod9s79',
mimeType: 'application/pdf'
}, {
responseType: 'stream'
});
Using a Proxy
You can use the following environment variables to proxy HTTP and HTTPS requests:
HTTP_PROXY
/ http_proxy
HTTPS_PROXY
/ https_proxy
When HTTP_PROXY / http_proxy are set, they will be used to proxy non-SSL requests that do not have an explicit proxy configuration option present. Similarly, HTTPS_PROXY / https_proxy will be respected for SSL requests that do not have an explicit proxy configuration option. It is valid to define a proxy in one of the environment variables, but then override it for a specific request, using the proxy configuration option.
Getting Supported APIs
You can programmatically obtain the list of supported APIs, and all available versions:
const {google} = require('googleapis');
const apis = google.getSupportedAPIs();
This will return an object with the API name as object property names, and an array of version strings as the object values;
TypeScript
This library is written in TypeScript, and provides types out of the box. All classes and interfaces generated for each API are exported under the ${apiName}_${version}
namespace. For example, the Drive v3 API types are all available from the drive_v3
namespace:
import {
google,
drive_v3,
Auth,
Common,
} from 'googleapis';
const auth: Auth.GoogleAuth = new google.auth.GoogleAuth();
const drive: drive_v3.Drive = google.drive({
version: 'v3',
auth,
});
const listParams: drive_v3.Params$Resource$Files$List = {};
const res = await drive.files.list(listParams);
const listResults: drive_v3.Schema$FileList = res.data;
HTTP/2
This library has experimental support for HTTP/2. This support is experimental, and should not be used in production. To enable it for testing purposes, use the http2
option anywhere request parameters are accepted:
const {google} = require('googleapis');
google.options({
http2: true,
});
HTTP/2 is often more performant, as it allows multiplexing of multiple concurrent requests over a single socket. In a traditional HTTP/2 API, the client is directly responsible for opening and closing the sessions made to make requests. To maintain compatibility with the existing API, this module will automatically re-use existing sessions, which are collected after idling for 500ms. Much of the performance gains will be visible in batch style workloads, and tight loops. To provide feedback on the experimental API surface, please comment on this issue.
Release Notes & Breaking Changes
You can find a detailed list of breaking changes and new features in our Release Notes. If you've used this library before 25.x
, see our Release Notes to learn about migrating your code from 24.x.x
to 25.x.x
. It's pretty easy :)
License
This library is licensed under Apache 2.0. Full license text is available in LICENSE.
Contributing
We love contributions! Before submitting a Pull Request, it's always good to start with a new issue first. To learn more, see CONTRIBUTING.
Questions/problems?