Overview of Azure AD certificate-based authentication
Azure AD certificate-based authentication (CBA) enables customers to allow or require users to authenticate directly with X.509 certificates against their Azure Active Directory (Azure AD) for applications and browser sign-in. This feature enables customers to adopt a phishing resistant authentication and authenticate with an X.509 certificate against their Public Key Infrastructure (PKI).
What is Azure AD CBA?
Before cloud-managed support for CBA to Azure AD, customers had to implement federated certificate-based authentication, which requires deploying Active Directory Federation Services (AD FS) to be able to authenticate using X.509 certificates against Azure AD. With Azure AD certificate-based authentication, customers can authenticate directly against Azure AD and eliminate the need for federated AD FS, with simplified customer environments and cost reduction.
The following images show how Azure AD CBA simplifies the customer environment by eliminating federated AD FS.
Certificate-based authentication with federated AD FS
Azure AD certificate-based authentication
Key benefits of using Azure AD CBA
|Great user experience||- Users who need certificate-based authentication can now directly authenticate against Azure AD and not have to invest in federated AD FS.
- Portal UI enables users to easily configure how to map certificate fields to a user object attribute to look up the user in the tenant (certificate username bindings)
- Portal UI to configure authentication policies to help determine which certificates are single-factor versus multifactor.
|Easy to deploy and administer||- Azure AD CBA is a free feature, and you don't need any paid editions of Azure AD to use it.
- No need for complex on-premises deployments or network configuration.
- Directly authenticate against Azure AD.
|Secure||- On-premises passwords don't need to be stored in the cloud in any form.
- Protects your user accounts by working seamlessly with Azure AD Conditional Access policies, including Phishing-Resistant multifactor authentication (MFA requires licensed edition) and blocking legacy authentication.
- Strong authentication support where users can define authentication policies through the certificate fields, such as issuer or policy OID (object identifiers), to determine which certificates qualify as single-factor versus multifactor.
- The feature works seamlessly with Conditional Access features and authentication strength capability to enforce MFA to help secure your users.
The following scenarios are supported:
- User sign-ins to web browser-based applications on all platforms.
- User sign-ins to Office mobile apps, including Outlook, OneDrive, and so on.
- User sign-ins on mobile native browsers.
- Support for granular authentication rules for multifactor authentication by using the certificate issuer Subject and policy OIDs.
- Configuring certificate-to-user account bindings by using any of the certificate fields:
- Subject Alternate Name (SAN) PrincipalName and SAN RFC822Name
- Subject Key Identifier (SKI) and SHA1PublicKey
- Configuring certificate-to-user account bindings by using any of the user object attributes:
- User Principal Name
The following scenarios aren't supported:
- Certificate Authority hints aren't supported, so the list of certificates that appears for users in the certificate picker UI isn't scoped.
- Only one CRL Distribution Point (CDP) for a trusted CA is supported.
- The CDP can be only HTTP URLs. We don't support Online Certificate Status Protocol (OCSP), or Lightweight Directory Access Protocol (LDAP) URLs.
- Configuring other certificate-to-user account bindings, such as using the Subject, Subject + Issuer or Issuer + Serial Number, aren’t available in this release.
- Password as an authentication method cannot be disabled and the option to sign in using a password is displayed even with Azure AD CBA method available to the user.
Out of Scope
The following scenarios are out of scope for Azure AD CBA:
- Public Key Infrastructure for creating client certificates. Customers need to configure their own Public Key Infrastructure (PKI) and provision certificates to their users and devices.
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