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The rapid expansion platforms has heightenedurgency for robust authentication to protect sensitivefrom escalating array cyber threats. Traditional securitysystems increasingly insufficient, as they vulnerable toattack, including phishing brute-force attempts. Inresponse these challenges, two-factor (2F A) has emergedas critical solution, requiring users to provide formsverification access accounts. However, many 2FAimplementations significant flaws, such as inadequateend-to-end and poor synchronization, which can exposesecurity risks. This study an open-source, fully encrypted2FA designed to overcome shortcomings. By leveragingprotocols such as One-Time Password (TOTP) andHMAC-based Password (HOTP), our facilitates secureand reliable authentication. A standout of system is itsseamless cross-device enabling users manageauthentication tokens across devices, thereby enhancingusability. Central our is the implementation strongmethods, specifically AES-256-CBC, which safeguardssensitive during transmission storage. This encryptionensures authentication data protected from interception,even environments. The user-friendly web designed tosimplify the 2F A process, allowing users easily configureand manage authentication settings. By addressing incurrent technologies, our nitiative to improve practicesand promote widespread two-factor. The enhancedusability features our system intended to set new forsecure authentication, ultimately contributing to digitallandscape users.

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