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gitea/vendor/github.com/pquerna/otp
Andrew 6dd096b7f0 Two factor authentication support (#630)
* Initial commit for 2FA support

Signed-off-by: Andrew <write@imaginarycode.com>

* Add vendored files

* Add missing depends

* A few clean ups

* Added improvements, proper encryption

* Better encryption key

* Simplify "key" generation

* Make 2FA enrollment page more robust

* Fix typo

* Rename twofa/2FA to TwoFactor

* UNIQUE INDEX -> UNIQUE
2017-01-16 10:14:29 +08:00
..
hotp Two factor authentication support (#630) 2017-01-16 10:14:29 +08:00
totp Two factor authentication support (#630) 2017-01-16 10:14:29 +08:00
doc.go Two factor authentication support (#630) 2017-01-16 10:14:29 +08:00
LICENSE Two factor authentication support (#630) 2017-01-16 10:14:29 +08:00
NOTICE Two factor authentication support (#630) 2017-01-16 10:14:29 +08:00
otp.go Two factor authentication support (#630) 2017-01-16 10:14:29 +08:00
README.md Two factor authentication support (#630) 2017-01-16 10:14:29 +08:00

otp: One Time Password utilities Go / Golang

GoDoc Build Status

Why One Time Passwords?

One Time Passwords (OTPs) are an mechanism to improve security over passwords alone. When a Time-based OTP (TOTP) is stored on a user's phone, and combined with something the user knows (Password), you have an easy on-ramp to Multi-factor authentication without adding a dependency on a SMS provider. This Password and TOTP combination is used by many popular websites including Google, Github, Facebook, Salesforce and many others.

The otp library enables you to easily add TOTPs to your own application, increasing your user's security against mass-password breaches and malware.

Because TOTP is standardized and widely deployed, there are many mobile clients and software implementations.

otp Supports:

  • Generating QR Code images for easy user enrollment.
  • Time-based One-time Password Algorithm (TOTP) (RFC 6238): Time based OTP, the most commonly used method.
  • HMAC-based One-time Password Algorithm (HOTP) (RFC 4226): Counter based OTP, which TOTP is based upon.
  • Generation and Validation of codes for either algorithm.

Implementing TOTP in your application:

User Enrollment

For an example of a working enrollment work flow, Github has documented theirs, but the basics are:

  1. Generate new TOTP Key for a User. key,_ := totp.Generate(...).
  2. Display the Key's Secret and QR-Code for the User. key.Secret() and key.Image(...).
  3. Test that the user can successfully use their TOTP. totp.Validate(...).
  4. Store TOTP Secret for the User in your backend. key.Secret()
  5. Provide the user with "recovery codes". (See Recovery Codes bellow)

Code Generation

  • In either TOTP or HOTP cases, use the GenerateCode function and a counter or time.Time struct to generate a valid code compatible with most implementations.
  • For uncommon or custom settings, or to catch unlikely errors, use GenerateCodeCustom in either module.

Validation

  1. Prompt and validate User's password as normal.
  2. If the user has TOTP enabled, prompt for TOTP passcode.
  3. Retrieve the User's TOTP Secret from your backend.
  4. Validate the user's passcode. totp.Validate(...)

Recovery Codes

When a user loses access to their TOTP device, they would no longer have access to their account. Because TOTPs are often configured on mobile devices that can be lost, stolen or damaged, this is a common problem. For this reason many providers give their users "backup codes" or "recovery codes". These are a set of one time use codes that can be used instead of the TOTP. These can simply be randomly generated strings that you store in your backend. Github's documentation provides an overview of the user experience.

Improvements, bugs, adding feature, etc:

Please open issues in Github for ideas, bugs, and general thoughts. Pull requests are of course preferred :)

License

otp is licensed under the Apache License, Version 2.0