Google Authenticator

Google Authenticator
Developer(s) Google
Initial release September 20, 2010 (2010-09-20)[1]
Operating system Android, iOS, BlackBerry OS
Platform Mobile
License Proprietary (earlier versions were under Apache License 2.0)

Google Authenticator is an application that implements two-step verification services using the Time-based One-time Password Algorithm (TOTP) and HMAC-based One-time Password Algorithm (HOTP), for authenticating users of mobile applications by Google. The service implements algorithms specified in RFC 6238 and RFC 4226.[2]

Authenticator provides a six- to eight-digit one-time password which users must provide in addition to their username and password to log in to Google services or other sites. The Authenticator can also generate codes for third-party applications, such as password managers or file hosting services. Previous versions of the software were open-sourced but subsequent releases are proprietary.[3]

Typical use case

Typically, a user installs the Authenticator app on a smartphone. To log in to a site or service that uses two-factor authentication, the user provides user name and password to the site and runs the Authenticator app. The app displays an additional six-digit one-time password and transmits it to the site, which asks the user what that password is. The user enters it, thus authenticating the user's identity.

For this to work, a set-up operation has to be performed ahead of time: the site provides a shared secret key to the user over a secure channel, to be stored in the Authenticator app. This secret key will be used for all future logins to the site.

With this kind of two-factor authentication, mere knowledge of username and password is not sufficient to break into a user's account. The attacker also needs knowledge of the shared secret key or physical access to the device running the Authenticator app. An alternative route of attack is a man-in-the-middle attack: if the computer used for the login process is compromised by a trojan, then username, password and one-time password can be captured by the trojan, which can then initiate its own login session to the site or monitor and modify the communication between user and site.

Implementations

Google provides Android,[4] BlackBerry, and iOS[5] versions of Authenticator. Several third party implementations are available.

  • Windows Phone 7.5/8/8.1/10: Microsoft Authenticator[6] Virtual TokenFactor[7]
  • Windows Mobile: Google Authenticator for Windows Mobile[8]
  • Java CLI: Authenticator.jar[9]
  • Java GUI: JAuth[10] FXAuth[11]
  • J2ME: gauthj2me[12] lwuitgauthj2me[13] Mobile-OTP (Chinese only)[14] totp-me[15]
  • Palm OS: gauthj2me[16]
  • Python: onetimepass[17]
  • PHP: GoogleAuthenticator.php[18]
  • Ruby: rotp,[19] twofu[20]
  • Rails: active_model_otp[21] (third party implementation)
  • webOS: GAuth[22]
  • Windows: gauth4win[23] MOS Authenticator[24] WinAuth[25]
  • .NET: TwoStepsAuthenticator[26]
  • HTML5: html5-google-authenticator[27]
  • MeeGo/Harmattan (Nokia N9): GAuth[28]
  • Sailfish OS: SGAuth,[29] SailOTP[30]
  • Apache: Google Authenticator Apache Module[31]
  • PAM: Google Pluggable Authentication Module[32] oauth-pam[33]
  • Backend: LinOTP (Management Backend implemented in python)
  • Chrome/Chrome OS: Authenticator[34]
  • iOS: OTP Auth[35]

Technical description

The service provider generates an 80-bit secret key for each user (whereas RFC 4226 §4 requires 128 bits and recommends 160 bits).[36] This is provided as a 16, 26 or 32 character base32 string or as a QR code. The client creates an HMAC-SHA1 using this secret key. The message that is HMAC-ed can be:

A portion of the HMAC is extracted and converted to a 6 digit code.

Pseudocode for One Time Password OTP

  function GoogleAuthenticatorCode(string secret)
      key := base32decode(secret)
      message := floor(current Unix time / 30)
      hash := HMAC-SHA1(key, message)
      offset := last nibble of hash
      truncatedHash := hash[offset..offset+3]  //4 bytes starting at the offset
      Set the first bit of truncatedHash to zero  //remove the most significant bit
      code := truncatedHash mod 1000000
      pad code with 0 until length of code is 6
      return code

Pseudocode for Event/Counter OTP

  function GoogleAuthenticatorCode(string secret)
      key := base32decode(secret)
      message := counter encoded on 8 bytes
      hash := HMAC-SHA1(key, message)
      offset := last nibble of hash
      truncatedHash := hash[offset..offset+3]  //4 bytes starting at the offset
      Set the first bit of truncatedHash to zero  //remove the most significant bit
      code := truncatedHash mod 1000000
      pad code with 0 until length of code is 6
      return code

Open Source status on Android

The Authenticator app as available on Google's Android app market is proprietary.[3] Although now Google has moved the source for their Authenticator app to its own GitHub repository, in the past this was explained on the project's development page:

"This open source project allows you to download the code that powered version 2.21 of the application. Subsequent versions contain Google-specific workflows that are not part of the project."[32]

An independent fork of the Android version of the software named OTP Authenticator[37] has been created, which was based on the last version of the open source code that had been provided by Google, prior to their move to github. Another Open Source fork named FreeOTP[38] is maintained by Red Hat.[3]

References

  1. "Google Is Making Your Account Vastly More Secure With Two-Step Authentication - TechCrunch". TechCrunch. 2010-09-20. Retrieved 2016-03-12.
  2. "GitHub - google/google-authenticator: Open source version of Google Authenticator (except the Android app)". GitHub. Google. These implementations support the HMAC-Based One-time Password (HOTP) algorithm specified in RFC 4226 and the Time-based One-time Password (TOTP) algorithm specified in RFC 6238.
  3. 1 2 3 Willis, Nathan (22 January 2014)."FreeOTP multi-factor authentication". LWN.net. Retrieved 10 August 2015.
  4. https://play.google.com/store/apps/details?id=com.google.android.apps.authenticator2 A
  5. "Google Authenticator". App Store.
  6. "Authenticator". 4 April 2013.
  7. "Virtual TokenFactor". 26 February 2012.
  8. "[APP]Google Authenticator for Windows Mobile". XDA Developers.
  9. "http://blog dot jamesdotcuff dot net".
  10. "mclamp/JAuth". GitHub.
  11. "kamenitxan/FXAuth". GitHub.
  12. "gauthj2me - Google Authentification in Java Mobile, j2me - Google Project Hosting".
  13. "lwuitgauthj2me - Google Authenticator for J2ME phones - Google Project Hosting".
  14. "chunlinyao / mobile-otp — Bitbucket".
  15. "totp-me - TOTP for Java ME - Google authenticator".
  16. "gauth.prc - gauthj2me - Google Authenticator for Palm OS (converted from java) - Google Authentification in Java Mobile, j2me - Google Project Hosting".
  17. "tadeck/onetimepass". GitHub.
  18. "chregu/GoogleAuthenticator.php". GitHub.
  19. "rotp - RubyGems.org - your community gem host".
  20. "ukazap/twofu". GitHub.
  21. "heapsource/active_model_otp". GitHub.
  22. "GAuth".
  23. "gauth4win - Google Authenticator for windows - Google Project Hosting".
  24. "MOS Authenticator Home".
  25. "winauth - Windows Authenticator for Battle.net / World of Warcraft / Guild Wars 2 / Glyph / WildStar / Google / Bitcoin - Google Project Hosting".
  26. "glacasa/TwoStepsAuthenticator". GitHub.
  27. "gbraad/html5-google-authenticator". GitHub.
  28. Techtransit. "Nokia Store: Download GAuth and many other games, wallpaper, ringtones and mobile apps on your Nokia phone".
  29. "SGAuth".
  30. "SailOTP".
  31. "google-authenticator-apache-module - Apache Module for Two-Factor Authentication via Google Authenticator - Google Project Hosting".
  32. 1 2 "google-authenticator - Two-step verification - Google Project Hosting".
  33. "oauth-pam - PAM for use with OAuth Websites - Google Project Hosting".
  34. "Authenticator".
  35. "OTP Auth". App Store.
  36. https://tools.ietf.org/html/c#section-4
  37. "kaie/otp-authenticator-android". GitHub.
  38. "FreeOTP".

External links

This article is issued from Wikipedia - version of the 10/30/2016. The text is available under the Creative Commons Attribution/Share Alike but additional terms may apply for the media files.