browser-authenticator.js/bower_components/botp/index.js

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2015-10-23 07:42:35 +00:00
(function (exports, TEST) {
'use strict';
var crypto;
var sha1Hmac = exports.sha1Hmac || function (key, bytes) {
if (!crypto) { crypto = require('crypto'); }
var hmac = crypto.createHmac('sha1', new Buffer(key));
// Update the HMAC with the byte array
return hmac.update(new Buffer(bytes)).digest('hex');
};
/**
* convert an integer to a byte array
* @param {Integer} num
* @return {Array} bytes
*/
function intToBytes(num) {
var bytes = [];
for(var i=7 ; i>=0 ; --i) {
bytes[i] = num & (255);
num = num >> 8;
}
return bytes;
}
/**
* convert a hex value to a byte array
* @param {String} hex string of hex to convert to a byte array
* @return {Array} bytes
*/
function hexToBytes(hex) {
var bytes = [];
for(var c = 0, C = hex.length; c < C; c += 2) {
bytes.push(parseInt(hex.substr(c, 2), 16));
}
return bytes;
}
var hotp = {};
/**
* Generate a counter based One Time Password
*
* @return {String} the one time password
*
* Arguments:
*
* args
* key - Key for the one time password. This should be unique and secret for
* every user as this is the seed that is used to calculate the HMAC
*
* counter - Counter value. This should be stored by the application, must
* be user specific, and be incremented for each request.
*
*/
hotp.gen = function(key, opt) {
key = key || '';
opt = opt || {};
var counter = opt.counter || 0;
// Create the byte array
return sha1Hmac(key, intToBytes(counter)).then(function (digest) {
// Get byte array
var h = hexToBytes(digest);
// Truncate
var offset = h[19] & 0xf;
var v = (h[offset] & 0x7f) << 24 |
(h[offset + 1] & 0xff) << 16 |
(h[offset + 2] & 0xff) << 8 |
(h[offset + 3] & 0xff);
v = (v % 1000000) + '';
return new Array(7-v.length).join('0') + v;
});
};
/**
* Check a One Time Password based on a counter.
*
* @return {Object} null if failure, { delta: # } on success
* delta is the time step difference between the client and the server
*
* Arguments:
*
* args
* key - Key for the one time password. This should be unique and secret for
* every user as it is the seed used to calculate the HMAC
*
* token - Passcode to validate.
*
* window - The allowable margin for the counter. The function will check
* 'W' codes in the future against the provided passcode. Note,
* it is the calling applications responsibility to keep track of
* 'W' and increment it for each password check, and also to adjust
* it accordingly in the case where the client and server become
* out of sync (second argument returns non zero).
* E.g. if W = 100, and C = 5, this function will check the passcode
* against all One Time Passcodes between 5 and 105.
*
* Default - 50
*
* counter - Counter value. This should be stored by the application, must
* be user specific, and be incremented for each request.
*
*/
hotp.verify = function(token, key, opt) {
opt = opt || {};
var window = opt.window || 50;
var counter = opt.counter || 0;
var i = counter - window;
var len = counter + window;
// Now loop through from C to C + W to determine if there is
// a correct code
function check(t) {
opt.counter = i + 1;
if (!t) {
return null;
}
if (i > len) {
return null;
}
if(t === token) {
// We have found a matching code, trigger callback
// and pass offset
return i;
}
// TODO count 0, -1, 1, -2, 2, ... instead of -2, -1, 0, 1, ...
i += 1;
return hotp.gen(key, opt).then(check);
}
opt.counter = i;
return hotp.gen(key, opt).then(check).then(function (i) {
if('number' === typeof i) {
return { delta: i - counter };
}
// If we get to here then no codes have matched, return null
return null;
});
};
var totp = {};
/**
* Generate a time based One Time Password
*
* @return {String} the one time password
*
* Arguments:
*
* args
* key - Key for the one time password. This should be unique and secret for
* every user as it is the seed used to calculate the HMAC
*
* time - The time step of the counter. This must be the same for
* every request and is used to calculat C.
*
* Default - 30
*
*/
totp.gen = function(key, opt) {
opt = opt || {};
var time = opt.time || 30;
var _t = Date.now();
// Time has been overwritten.
if(opt._t) {
if(!TEST) {
console.warn('Overwriting time in non-test environment!');
}
_t = opt._t;
}
// Determine the value of the counter, C
// This is the number of time steps in seconds since T0
opt.counter = Math.floor((_t / 1000) / time);
return hotp.gen(key, opt);
};
/**
* Check a One Time Password based on a timer.
*
* @return {Object} null if failure, { delta: # } on success
* delta is the time step difference between the client and the server
*
* Arguments:
*
* args
* key - Key for the one time password. This should be unique and secret for
* every user as it is the seed used to calculate the HMAC
*
* token - Passcode to validate.
*
* window - The allowable margin for the counter. The function will check
* 'W' codes either side of the provided counter. Note,
* it is the calling applications responsibility to keep track of
* 'W' and increment it for each password check, and also to adjust
* it accordingly in the case where the client and server become
* out of sync (second argument returns non zero).
* E.g. if W = 5, and C = 1000, this function will check the passcode
* against all One Time Passcodes between 995 and 1005.
*
* Default - 6
*
* time - The time step of the counter. This must be the same for
* every request and is used to calculate C.
*
* Default - 30
*
*/
totp.verify = function(token, key, opt) {
opt = opt || {};
var time = opt.time || 30;
var _t = Date.now();
// Time has been overwritten.
if(opt._t) {
if(!TEST) {
console.warn('Overwriting time in non-test environment!');
}
_t = opt._t;
}
// Determine the value of the counter, C
// This is the number of time steps in seconds since T0
opt.counter = Math.floor((_t / 1000) / time);
return hotp.verify(token, key, opt);
};
exports.hotp = hotp;
exports.totp = totp;
}(
'undefined' !== typeof window ? window : module.exports
, 'undefined' !== typeof process ? process.env.NODE_ENV : false
));