You need to decide which elements of the FortiAuthenticator configuration you need:
- Determine the type of authentication you will use: password-based or token-based. Optionally, you can enable both types. This is called two-factor authentication.
- Determine the type of authentication server you will use: RADIUS, built-in LDAP, or Remote LDAP. You will need to use at least one of these server types.
- Determine which FortiGate units or third-party devices will use the FortiAuthenticator. The FortiAuthenticator must be configured on each FortiGate unit as an authentication server, either RADIUS or LDAP. For RADIUS authentication, each FortiGate or third-party device must be configured on the FortiAuthenticator as an authentication client.
User accounts can be created on the FortiAuthenticator device in multiple ways:
- Administrator creates a user and specifies their username and password.
- Administrator creates a username and a random password is automatically emailed to the user.
- Users are created by importing either a CSV file or from an external LDAP server.
Users can self-register for password-based authentication. This reduces the workload for the system administrator. Users can choose their own passwords or have a randomly generated password provided in the browser or sent to them via email or SMS. Self-registration can be instant, or it can require administrator approval. See Self-registration.
See User management for more information about user accounts.
- Something the user knows, usually a password,
- Something the user has, such as a FortiToken device.
Requiring the two factors increases the difficulty for an unauthorized person to impersonate a legitimate user.
To enable two-factor authentication, configure both password-based and token-based authentication in the user’s account.
- Time-based (TOTP): The token passcode is generated using a combination of the time and a secret key which is known only by the token and the FortiAuthenticator device. The token password changes at regular time intervals, and FortiAuthenticator is able to validate the entered passcode using the time and the secret seed information for that token.
- FortiToken hardware
- FortiToken Mobile, running on a compatible smartphone
For more information about TOTP, see RFC 6238.
- Event-based or HMAC-based (HOTP): The token passcode is generated using an event trigger and a secret key. Event tokens are supported using a valid email account and a mobile phone number with SMS service.
FortiToken devices, FortiToken Mobile apps, email addresses, and phone numbers must be configured in the user’s account.
For more information about HOTP, see RFC 4226.
Only the administrator can configure token-based authentication. See Configuring token-based authentication.
Concatenated passwords and one-time password (OTP) codes can be provided by the client in the password field so that there is no second step to enter an OTP code. This is supported by all authentication methods on the FortiAuthenticator that also support password-only authentication. See Authentication methods.
The built-in servers are best used where there is no existing authentication infrastructure, or when a separate set of credentials is required. You build a user account database on FortiAuthenticator. The database can include additional user information such as street addresses and phone numbers that cannot be stored in a FortiGate unit’s user authentication database. To authenticate, either LDAP or RADIUS can be used. The remote LDAP option adds your FortiGate units to an existing LDAP structure. Optionally, you can add two-factor authentication to remote LDAP.
If you use RADIUS, you must enable RADIUS in each user account. FortiGate units must be registered as RADIUS authentication clients under Authentication > RADIUS Service > Clients. See RADIUS service. On each FortiGate unit that will use the RADIUS protocol, FortiAuthenticator must be configured as a RADIUS server under User & Device > RADIUS Servers.
If you use built-in LDAP, you will need to configure the LDAP directory tree. You add users from the user database to the appropriate nodes in the LDAP hierarchy. See Creating the directory tree. On each FortiGate unit that will use LDAP protocol, FortiAuthenticator must be configured as an LDAP server under User & Device > LDAP Servers.
Remote LDAP is used when an existing LDAP directory exists and should be used for authentication. User information can be selectively synchronized with FortiAuthenticator, but the user credentials (passwords) remain on, and are validated against the LDAP directory.
To utilize remote LDAP, the authentication client (such as a FortiGate device) must connect to the FortiAuthenticator device using RADIUS to authenticate the user information (see User & Device > RADIUS Servers). The password is then proxied to the LDAP server for validation, while any associated token passcode is validated locally.
RADIUS with PAP, user portals, SAML IdP, and REST API:
- End-user password provided to FortiAuthenticator as cleartext.
- Any type of user account (i.e. local or remote) can authenticate.
RADIUS with CHAP/MSCHAPv2:
- End-user password provided to FortiAuthenticator as a hash digest.
- Only local user accounts with passwords stored using reversible cryptography can authenticate. See Local user account password storage
Machine authentication is performed by the computer itself, which sends its computer object credentials before the Windows logon screen appears. User authentication is performed after the user logs in to Windows.
Based on the computer credentials provided during machine authentication, limited access to the network can be granted. For example, access can be granted to just the Active Directory server to enable user authentication.
Following machine authentication, user authentication can take place to authenticate that the user is also valid, and to then grant further access to the network.
Machine authentication commonly occurs on boot up or log out, and not, for example, when a device awakens from hibernation. Because of this, the FortiAuthenticator caches authenticated devices based on their MAC addresses for a configurable period (see User account policies). For more information on cached users, see Windows device logins
To configure machine authentication, see RADIUS service.