Adversaries may attempt to bypass multi-factor authentication (MFA) mechanisms and gain access to accounts by generating MFA requests sent to users.
Adversaries in possession of credentials to Valid Accounts may be unable to complete the login process if they lack access to the 2FA or MFA mechanisms required as an additional credential and security control. To circumvent this, adversaries may abuse the automatic generation of push notifications to MFA services such as Duo Push, Microsoft Authenticator, Okta, or similar services to have the user grant access to their account. If adversaries lack credentials to victim accounts, they may also abuse automatic push notification generation when this option is configured for self-service password reset (SSPR).(Citation: Obsidian SSPR Abuse 2023)
In some cases, adversaries may continuously repeat login attempts in order to bombard users with MFA push notifications, SMS messages, and phone calls, potentially resulting in the user finally accepting the authentication request in response to “MFA fatigue.”(Citation: Russian 2FA Push Annoyance - Cimpanu)(Citation: MFA Fatigue Attacks - PortSwigger)(Citation: Suspected Russian Activity Targeting Government and Business Entities Around the Globe)
View in MITRE ATT&CK®| Capability ID | Capability Description | Mapping Type | ATT&CK ID | ATT&CK Name | Notes |
|---|---|---|---|---|---|
| intel-ptt | Intel Platform Trust Technology | Win 11, ESS/Hello | T1621 | Multi-Factor Authentication Request Generation |
Comments
Windows Hello ESS authentication leverages virtual sandbox(Intel VT-X) to protect authentication data to significantly reduce the risk of brute force attacks on passwords, as biometrics typically require physical presence or biometric data that cannot be easily guessed or replicated. It uses the TPM (Intel PTT) to store authentication data including public/private key pairs. Windows Hello also includes Passkeys, a passwordless authentication option that generates public/private key pair with the public key shared with the service requiring authentication and the private key stored in the TPM, which is only released after authentication locally on the device using either a biometric factor such as fingerprint, facial recognition, or a PIN. Windows Hello helps protect against the risk of credentials being stored in files by eliminating the need for passwords in many authentication scenarios.
Windows Hello utilizes passkeys which helps protect against the risk of credentials being stored in files by eliminating the need for passwords.
References
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