This package implements the RFC 4226 OATH-HOTP algorithm; these passwords derived from the HMAC-SHA1 of an internal counter. They are presented as (typically) 6 or 8-digit numeric passphrases.
This package was designed to be interoperable with the Google Authenticator app and YubiKeys programmed in OATH-HOTP mode.
Also provided is the hotpgen
command-line program. This generates
a QR code suitable for use with the Google Authenticator application
alongside a text file containing the URL for the QR code. For more
information, see the README in the file.
See also the godocs for this package. The hotpweb package provides a simple webapp demonstrating the use of the Google Authenticator interaction.
These keys are cryptographic secrets. Please store them with all due caution! For example, they could be encrypted in a database using cryptobox.
The HOTP keys can be serialised with the Marshal
function; this preserves
a "snapshot", so to speak, of the key value. Serialisation is done
in DER-format:
SEQUENCE {
OCTET STRING
INTEGER
INTEGER
}
Serialised key values can be parsed with the Unmarshal
function;
as a serialised key value is a snapshot, the counter state at the
time of marshalling will be restored.
If the key values are to be stored in a database, the key and counter
values must be preserved. To avoid any potention issues, the counter
value should be stored using the Counter
method (i.e., as an
uint64
) and key values restored with NewHOTP
. It is strongly
recommended that the Key
field be stored securely. The Digit
field can be stored as constant in the program, and used whenever
key values are loaded.
A server that wants to generate a new HOTP authentication for users can generate a new random HOTP source; this example saves a QR code to a file. The user can scan this QR code in with the app on their phone and use it to generate codes for the server.
// Generate a new, random 6-digit HOTP source with an initial
// counter of 0 (the second argument, if true, will randomise
// the counter).
otp, err := GenerateHOTP(6, false)
if err != nil {
// error handling elided
}
qrCode, err := otp.QR("[email protected]")
if err != nil {
// error handling elided
}
err = ioutil.WriteFile("[email protected]", qrCode
if err != nil {
// error handling elided
}
After the user has imported this QR code, they can immediately begin
using codes for it. The Check
method on an OTP source will check
whether the code is valid; if it isn't, the counter won't be
decremented to prevent the server from falling out of sync. If the
either side is suspected of falling out of sync, the Scan
method
will look ahead a certain window of values. If it finds a valid
value, the counter is updated and the two will be in sync again.
The Google Authenticator app on Android also provides users a means
to "Check key value"; the IntegrityCheck
method will provide the
the two values shown here (the initial code and the current counter)
that may be used to verify the integrity of the key value.
In the testdata
directory, there are three files with the base name
of "gauth_example" that contain the HOTP key values used in the
test suite. The PNG image may be scanned in using a mobile phone,
the text file contains the URL that the QR code is based on, and
the .key
file may be used with the hotpcli
program. The first
several codes produced by this URL are:
- 023667, counter = 0
- 641344, counter = 1
- 419615, counter = 2
- 692589, counter = 3
- 237233, counter = 4
- 711695, counter = 5
- 620195, counter = 6
The codes may be checked against the app to ensure they are correct; these values are used in the test suite to ensure interoperability.
A YubiKey programmed in "OATH-HOTP" mode can also be used with this
package. The YubiKey user will need to provide their key, and
optionally their token identifier for additional security. If the
token is used across multiple sites, the Scan
function will need
to be used (with a probably generous window) to sync the counters
initially.
When reading input from a YubiKey, the YubiKey
method takes as
input the output directly from the token, and splits it into the
code, the token identity, and a boolean indicating whether it was
valid output. Note that YubiKey
does not check whether the
code is correct; this ensures that the user can check the code with
whatever means is appropriate (i.e. Scan
or Check
).
In the testdata
directory, there is a configuration file containing
the paramters for the YubiKey used to generate the test suite. This
may be used to program a YubiKey to verify the package's interoperability.
The first several codes produced by this configuration are (split
into raw output from yubikey / the code / the counter):
- cccc52345777705179, 705179, counter = 0
- cccc52345777404068, 404068, counter = 1
- cccc52345777490143, 490143, counter = 2
- cccc52345777739740, 739740, counter = 3
- cccc52345777043269, 043269, counter = 4
- cccc52345777035666, 035666, counter = 5
- cccc52345777725326, 725325, counter = 6
- Add example code.
Test coverage is currently at 100%.
-
RFC 4226 - HOTP: An HMAC-Based One-Time Password Algorithm is the specification of the OATH-HOTP algorithm. A copy is provided in the package's source directory.
-
The Key URI Format page on the Google Authenticator wiki documents the URI format for use with the Google Authenticator app. This package follows that format when generating URLs (and by extension, QR codes).
-
The YubiKey manual contains documentation on the YubiKey HOTP format.
hotp
was written by Kyle Isom [email protected].
Copyright (c) 2013 Kyle Isom <[email protected]>
Permission to use, copy, modify, and distribute this software for any
purpose with or without fee is hereby granted, provided that the above
copyright notice and this permission notice appear in all copies.
THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.