Azure Identity client library for JavaScript
The Azure Identity library provides Microsoft Entra ID (formerly Azure Active Directory) token authentication through a set of convenient TokenCredential implementations.
For examples of various credentials, see the Azure Identity examples page.
Key links:
Getting started
Currently supported environments
- LTS versions of Node.js
- Note: If your application runs on Node.js v8 or lower and you cannot upgrade your Node.js version to latest stable version, then pin your
@azure/identity
dependency to version 1.1.0.
- Latest versions of Safari, Chrome, Edge, and Firefox.
- Note: Among the different credentials exported in this library,
InteractiveBrowserCredential
is the only one that is supported in the browser.
See our support policy for more details.
Install the package
Install Azure Identity with npm
:
npm install --save @azure/identity
Prerequisites
When to use @azure/identity
The credential classes exposed by @azure/identity
are focused on providing the most straightforward way to authenticate the Azure SDK clients locally, in your development environments, and in production. We aim for simplicity and reasonable support of the authentication protocols to cover most of the authentication scenarios possible on Azure. We're actively expanding to cover more scenarios. For a full list of the credentials offered, see the Credential Classes section.
All credential types provided by @azure/identity
are supported in Node.js. For browsers, InteractiveBrowserCredential
is the credential type to be used for basic authentication scenarios.
Most of the credential types offered by @azure/identity
use the Microsoft Authentication Library for JavaScript (MSAL.js). Specifically, we use the v2 MSAL.js libraries, which use OAuth 2.0 Authorization Code Flow with PKCE and are OpenID-compliant. While @azure/identity
focuses on simplicity, the MSAL.js libraries, such as @azure/msal-common, @azure/msal-node, and @azure/msal-browser, are designed to provide robust support for the authentication protocols that Azure supports.
When to use something else
The @azure/identity
credential types are implementations of @azure/core-auth's TokenCredential
class. In principle, any object with a getToken
method that satisfies getToken(scopes: string | string[], options?: GetTokenOptions): Promise<AccessToken | null>
will work as a TokenCredential
. This means developers can write their own credential types to support authentication cases not covered by @azure/identity
. To learn more, see Custom Credentials.
Though our credential types support many advanced cases, developers may want full control of the authentication protocol. For that use case, we recommend using Microsoft Authentication Library for JavaScript (MSAL.js) directly. You can read more through the following links:
For advanced authentication workflows in the browser, we have a section where we showcase how to use the @azure/msal-browser library directly to authenticate Azure SDK clients.
Authenticate the client in development environment
While we recommend using managed identity in your Azure-hosted application, it is typical for a developer to use their own account for authenticating calls to Azure services when debugging and executing code locally. There are several developer tools which can be used to perform this authentication in your development environment.
Authenticate via the Azure Developer CLI
Developers coding outside of an IDE can also use the Azure Developer CLI to authenticate. Applications using the DefaultAzureCredential
or the AzureDeveloperCliCredential
can then use this account to authenticate calls in their application when running locally.
To authenticate with the Azure Developer CLI, users can run the command azd auth login
. For users running on a system with a default web browser, the Azure Developer CLI will launch the browser to authenticate the user.
For systems without a default web browser, the azd auth login --use-device-code
command will use the device code authentication flow.
Authenticate via the Azure CLI
Applications using the AzureCliCredential
, whether directly or via the DefaultAzureCredential
, can use the Azure CLI account to authenticate calls in the application when running locally.
To authenticate with the Azure CLI users can run the command az login
. For users running on a system with a default web browser the Azure cli will launch the browser to authenticate the user.
For systems without a default web browser, the az login
command will use the device code authentication flow. The user can also force the Azure CLI to use the device code flow rather than launching a browser by specifying the --use-device-code
argument.
Authenticate via Azure PowerShell
Applications using the AzurePowerShellCredential
, whether directly or via the DefaultAzureCredential
, can use the account connected to Azure PowerShell to authenticate calls in the application when running locally.
To authenticate with Azure PowerShell users can run the Connect-AzAccount
cmdlet. By default, like the Azure CLI, Connect-AzAccount
will launch the default web browser to authenticate a user account.
If interactive authentication cannot be supported in the session, then the -UseDeviceAuthentication
argument will force the cmdlet to use a device code authentication flow instead, similar to the corresponding option in the Azure CLI credential.
Authenticate via Visual Studio Code
Developers using Visual Studio Code can use the Azure Account extension to authenticate via the editor. Apps using VisualStudioCodeCredential
can then use this account to authenticate calls in their app when running locally.
To authenticate in Visual Studio Code, ensure the Azure Account extension is installed. Once installed, open the Command Palette and run the Azure: Sign In command.
Additionally, use the @azure/identity-vscode
plugin package. This package provides the dependencies of VisualStudioCodeCredential
and enables it. See Plugins.
It's a known issue that VisualStudioCodeCredential
doesn't work with Azure Account extension versions newer than 0.9.11. A long-term fix to this problem is in progress. In the meantime, consider authenticating via the Azure CLI.
Authenticate the client in browsers
To authenticate Azure SDK clients within web browsers, we offer the InteractiveBrowserCredential
, which can be set to use redirection or popups to complete the authentication flow. It's necessary to create an Azure App Registration in the Azure portal for your web application first.
Key concepts
If this is your first time using @azure/identity
or Microsoft Entra ID, read Using @azure/identity
with Microsoft Entra ID first. This document provides a deeper understanding of the platform and how to configure your Azure account correctly.
Credentials
A credential is a class which contains or can obtain the data needed for a service client to authenticate requests. Service clients across the Azure SDK accept credentials when they're constructed. Service clients use those credentials to authenticate requests to the service.
The Azure Identity library focuses on OAuth authentication with Microsoft Entra ID, and it offers a variety of credential classes capable of acquiring a Microsoft Entra token to authenticate service requests. All of the credential classes in this library are implementations of the TokenCredential abstract class, and any of them can be used by to construct service clients capable of authenticating with a TokenCredential.
See Credential Classes.
DefaultAzureCredential
The DefaultAzureCredential
is appropriate for most scenarios where the application is intended to ultimately be run in Azure. This is because the DefaultAzureCredential
combines credentials commonly used to authenticate when deployed with credentials used to authenticate in a development environment.
Note: DefaultAzureCredential
is intended to simplify getting started with the SDK by handling common scenarios with reasonable default behaviors. Developers who want more control or whose scenario isn't served by the default settings should use other credential types.
If used from Node.js, the DefaultAzureCredential
will attempt to authenticate via the following mechanisms in order:
- Environment - The
DefaultAzureCredential
will read account information specified via environment variables and use it to authenticate. - Workload Identity - If the application is deployed to Azure Kubernetes Service with Managed Identity enabled,
DefaultAzureCredential
will authenticate with it. - Managed Identity - If the application is deployed to an Azure host with Managed Identity enabled, the
DefaultAzureCredential
will authenticate with that account. - Azure CLI - If the developer has authenticated an account via the Azure CLI
az login
command, the DefaultAzureCredential
will authenticate with that account. - Azure PowerShell - If the developer has authenticated using the Azure PowerShell module
Connect-AzAccount
command, the DefaultAzureCredential
will authenticate with that account. - Azure Developer CLI - If the developer has authenticated an account via the Azure Developer CLI
azd auth login
command, the DefaultAzureCredential
will authenticate with that account.
Continuation policy
As of version 3.3.0, DefaultAzureCredential
will attempt to authenticate with all developer credentials until one succeeds, regardless of any errors previous developer credentials experienced. For example, a developer credential may attempt to get a token and fail, so DefaultAzureCredential
will continue to the next credential in the flow. Deployed service credentials will stop the flow with a thrown exception if they're able to attempt token retrieval, but don't receive one.
This allows for trying all of the developer credentials on your machine while having predictable deployed behavior.
Note about VisualStudioCodeCredential
Due to a known issue, VisualStudioCodeCredential
has been removed from the DefaultAzureCredential
token chain. When the issue is resolved in a future release, this change will be reverted.
Plugins
Azure Identity for JavaScript provides a plugin API that allows us to provide certain functionality through separate plugin packages. The @azure/identity
package exports a top-level function (useIdentityPlugin
) that can be used to enable a plugin. We provide two plugin packages:
@azure/identity-broker
, which provides brokered authentication support through a native broker, such as Web Account Manager.@azure/identity-cache-persistence
, which provides persistent token caching in Node.js using a native secure storage system provided by your operating system. This plugin allows cached access_token
values to persist across sessions, meaning that an interactive login flow does not need to be repeated as long as a cached token is available.
Examples
You can find more examples of using various credentials in Azure Identity Examples Page
Authenticate with the DefaultAzureCredential
This example demonstrates authenticating the KeyClient
from the @azure/keyvault-keys client library using the DefaultAzureCredential
.
import { KeyClient } from "@azure/keyvault-keys";
import { DefaultAzureCredential } from "@azure/identity";
const credential = new DefaultAzureCredential();
const client = new KeyClient(vaultUrl, credential);
Specify a user-assigned managed identity with the DefaultAzureCredential
A relatively common scenario involves authenticating using a user-assigned managed identity for an Azure resource. Explore the example on Authenticating a user-assigned managed identity with DefaultAzureCredential to see how this is made a relatively straightforward task that can be configured using environment variables or in code.
Define a custom authentication flow with the ChainedTokenCredential
While the DefaultAzureCredential
is generally the quickest way to get started developing applications for Azure, more advanced users may want to customize the credentials considered when authenticating. The ChainedTokenCredential
enables users to combine multiple credential instances to define a customized chain of credentials. This example demonstrates creating a ChainedTokenCredential
which will attempt to authenticate using two differently configured instances of ClientSecretCredential
, to then authenticate the KeyClient
from the @azure/keyvault-keys:
import { ClientSecretCredential, ChainedTokenCredential } from "@azure/identity";
const firstCredential = new ClientSecretCredential(tenantId, clientId, clientSecret);
const secondCredential = new ClientSecretCredential(tenantId, anotherClientId, anotherSecret);
const credentialChain = new ChainedTokenCredential(firstCredential, secondCredential);
import { KeyClient } from "@azure/keyvault-keys";
const client = new KeyClient(vaultUrl, credentialChain);
Managed identity support
The Managed identity authentication is supported via either the DefaultAzureCredential
or the ManagedIdentityCredential
credential classes directly for the following Azure services:
For examples of how to use managed identity for authentication, see the examples.
Cloud configuration
Credentials default to authenticating to the Microsoft Entra endpoint for Azure Public Cloud. To access resources in other clouds, such as Azure Government or a private cloud, configure credentials with the authorityHost
argument in the constructor. The AzureAuthorityHosts
enum defines authorities for well-known clouds. For the US Government cloud, you could instantiate a credential this way:
import { AzureAuthorityHosts, ClientSecretCredential } from "@azure/identity";
const credential = new ClientSecretCredential(
"<YOUR_TENANT_ID>",
"<YOUR_CLIENT_ID>",
"<YOUR_CLIENT_SECRET>",
{
authorityHost: AzureAuthorityHosts.AzureGovernment,
}
);
As an alternative to specifying the authorityHost
argument, you can also set the AZURE_AUTHORITY_HOST
environment variable to the URL of your cloud's authority. This approach is useful when configuring multiple credentials to authenticate to the same cloud or when the deployed environment needs to define the target cloud:
AZURE_AUTHORITY_HOST=https://login.partner.microsoftonline.cn
The AzureAuthorityHosts
enum defines authorities for well-known clouds for your convenience; however, if the authority for your cloud isn't listed in AzureAuthorityHosts
, you may pass any valid authority URL as a string argument. For example:
import { AzureAuthorityHosts, ClientSecretCredential } from "@azure/identity";
const credential = new ClientSecretCredential(
"<YOUR_TENANT_ID>",
"<YOUR_CLIENT_ID>",
"<YOUR_CLIENT_SECRET>",
{
authorityHost: "https://login.partner.microsoftonline.cn",
}
);
Not all credentials require this configuration. Credentials that authenticate through a development tool, such as AzureCliCredential
, use that tool's configuration. Similarly, VisualStudioCodeCredential
accepts an authorityHost
argument but defaults to the authorityHost
matching Visual Studio Code's Azure: Cloud setting.
Credential classes
Authenticate Azure-hosted applications
Authenticate service principals
Authenticate users
Authenticate via development tools
Environment variables
DefaultAzureCredential
and EnvironmentCredential
can be configured with environment variables. Each type of authentication requires values for specific variables.
Service principal with secret
Variable name | Value |
---|
AZURE_CLIENT_ID | ID of a Microsoft Entra application |
AZURE_TENANT_ID | ID of the application's Microsoft Entra tenant |
AZURE_CLIENT_SECRET | one of the application's client secrets |
Service principal with certificate
Variable name | Value |
---|
AZURE_CLIENT_ID | ID of a Microsoft Entra application |
AZURE_TENANT_ID | ID of the application's Microsoft Entra tenant |
AZURE_CLIENT_CERTIFICATE_PATH | path to a PEM-encoded certificate file including private key |
AZURE_CLIENT_CERTIFICATE_PASSWORD | password of the certificate file, if any |
Username and password
Variable name | Value |
---|
AZURE_CLIENT_ID | ID of a Microsoft Entra application |
AZURE_TENANT_ID | ID of the application's Microsoft Entra tenant |
AZURE_USERNAME | a username (usually an email address) |
AZURE_PASSWORD | that user's password |
Configuration is attempted in the above order. For example, if values for a client secret and certificate are both present, the client secret will be used.
Continuous Access Evaluation
As of version 3.3.0, accessing resources protected by Continuous Access Evaluation (CAE) is possible on a per-request basis. This can be enabled using the GetTokenOptions.enableCae(boolean)
API. CAE isn't supported for developer credentials.
Token caching
Token caching is a feature provided by the Azure Identity library that allows apps to:
- Cache tokens in memory (default) and on disk (opt-in).
- Improve resilience and performance.
- Reduce the number of requests made to Microsoft Entra ID to obtain access tokens.
The Azure Identity library offers both in-memory and persistent disk caching. For more details, see the token caching documentation.
Brokered authentication
An authentication broker is an application that runs on a user’s machine and manages the authentication handshakes and token maintenance for connected accounts. Currently, only the Windows Web Account Manager (WAM) is supported. To enable support, use the @azure/identity-broker
package. For details on authenticating using WAM, see the broker plugin documentation.
Troubleshooting
For assistance with troubleshooting, see the troubleshooting guide.
Next steps
Read the documentation
API documentation for this library can be found on our documentation site.
Client library support
Client and management libraries listed on the Azure SDK releases page that support Microsoft Entra authentication accept credentials from this library. Learn more about using these libraries in their documentation, which is linked from the releases page.
Known issues
Azure AD B2C support
This library doesn't support the Azure AD B2C service.
For other open issues, see the library's GitHub repository.
Provide feedback
If you encounter bugs or have suggestions, please open an issue.
Contributing
If you'd like to contribute to this library, please read the contributing guide to learn more about how to build and test the code.