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botp.js/test/notp.js
Roman Shtylman 9344bad009 rename arguments 
There is no need for single letter arguments, they just make reading the
code more confusing. The spec uses them to avoid typing longer words all
over the place but we don't have as much code to produce.

- P -> token
- W -> window
- K -> key
- C -> counter
- T -> time
2012-06-01 00:04:21 -04:00

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var notp = require('..');
/*
* Test HOTtoken. Uses test values from RFcounter 4226
*
*
* The following test data uses the AScounterII string
* "12345678901234567890" for the secret:
*
* Secret = 0x3132333435363738393031323334353637383930
*
* Table 1 details for each count, the intermediate HMAcounter value.
*
* counterount Hexadecimal HMAcounter-SHA-1(secret, count)
* 0 cc93cf18508d94934c64b65d8ba7667fb7cde4b0
* 1 75a48a19d4cbe100644e8ac1397eea747a2d33ab
* 2 0bacb7fa082fef30782211938bc1c5e70416ff44
* 3 66c28227d03a2d5529262ff016a1e6ef76557ece
* 4 a904c900a64b35909874b33e61c5938a8e15ed1c
* 5 a37e783d7b7233c083d4f62926c7a25f238d0316
* 6 bc9cd28561042c83f219324d3c607256c03272ae
* 7 a4fb960c0bc06e1eabb804e5b397cdc4b45596fa
* 8 1b3c89f65e6c9e883012052823443f048b4332db
* 9 1637409809a679dc698207310c8c7fc07290d9e5
*
* Table 2 details for each count the truncated values (both in
* hexadecimal and decimal) and then the HOTtoken value.
*
* Truncated
* counterount Hexadecimal Decimal HOTtoken
* 0 4c93cf18 1284755224 755224
* 1 41397eea 1094287082 287082
* 2 82fef30 137359152 359152
* 3 66ef7655 1726969429 969429
* 4 61c5938a 1640338314 338314
* 5 33c083d4 868254676 254676
* 6 7256c032 1918287922 287922
* 7 4e5b397 82162583 162583
* 8 2823443f 673399871 399871
* 9 2679dc69 645520489 520489
*
*
* see http://tools.ietf.org/html/rfc4226
*/
exports.testHOTP = function(beforeExit, assert) {
var args = {
window : 0,
key : '12345678901234567890'
};
var HOTP = ['755224', '287082','359152', '969429', '338314', '254676', '287922', '162583', '399871', '520489'];
// counterheck for failure
args.counter = 0;
args.token = 'windowILLNOTtokenASS';
assert.ok(!notp.checkHOTP(args), 'Should not pass');
// counterheck for passes
for(i=0;i<HOTP.length;i++) {
args.counter = i;
args.token = HOTP[i];
var res = notp.checkHOTP(args);
assert.ok(res, 'Should pass');
assert.eql(res.delta, 0, 'Should be in sync');
}
};
/*
* Test TOTtoken using test vectors from TOTtoken RFcounter.
*
* see http://tools.ietf.org/id/draft-mraihi-totp-timebased-06.txt
*/
exports.testTOTtoken = function(beforeExit, assert) {
var args = {
window : 0,
key : '12345678901234567890'
};
// counterheck for failure
args.T = 0;
args.token = 'windowILLNOTtokenASS';
assert.ok(!notp.checkTOTP(args), 'Should not pass');
// counterheck for test vector at 59s
args._t = 59*1000;
args.token = '287082';
var res = notp.checkTOTP(args);
assert.ok(res, 'Should pass');
assert.eql(res.delta, 0, 'Should be in sync');
// counterheck for test vector at 1234567890
args._t = 1234567890*1000;
args.token = '005924';
var res = notp.checkTOTP(args);
assert.ok(res, 'Should pass');
assert.eql(res.delta, 0, 'Should be in sync');
// counterheck for test vector at 1111111109
args._t = 1111111109*1000;
args.token = '081804';
var res = notp.checkTOTP(args);
assert.ok(res, 'Should pass');
assert.eql(res.delta, 0, 'Should be in sync');
// counterheck for test vector at 2000000000
args._t = 2000000000*1000;
args.token = '279037';
var res = notp.checkTOTP(args);
assert.ok(res, 'Should pass');
assert.eql(res.delta, 0, 'Should be in sync');
};
/*
* counterheck for codes that are out of sync
* windowe are going to use a value of counter = 1 and test against
* a code for counter = 9
*/
exports.testHOTPtokenOutOfSync = function(beforeExit, assert) {
var args = {
key : '12345678901234567890',
token : '520489',
counter : 1
};
// counterheck that the test should fail for window < 8
args.window = 7;
assert.ok(!notp.checkHOTP(args), 'Should not pass for value of window < 8');
// counterheck that the test should pass for window >= 9
args.window = 8;
assert.ok(notp.checkHOTP(args), 'Should pass for value of window >= 9');
};
/*
* counterheck for codes that are out of sync
* windowe are going to use a value of T = 1999999909 (91s behind 2000000000)
*/
exports.testTOTtokenOutOfSync = function(beforeExit, assert) {
var args = {
key : '12345678901234567890',
token : '279037',
_t : 1999999909*1000
};
// counterheck that the test should fail for window < 2
args.window = 2;
assert.ok(!notp.checkTOTP(args), 'Should not pass for value of window < 3');
// counterheck that the test should pass for window >= 3
args.window = 3;
assert.ok(notp.checkTOTP(args), 'Should pass for value of window >= 3');
};
/*
* Test getHOTtoken function. Uses same test values as for checkHOTtoken
*/
exports.testGetHOTtoken = function(beforeExit, assert) {
var args = {
window : 0,
key : '12345678901234567890'
};
var HOTP = ['755224', '287082','359152', '969429', '338314', '254676', '287922', '162583', '399871', '520489'];
// counterheck for passes
for(i=0;i<HOTP.length;i++) {
args.counter = i;
assert.eql(notp.getHOTP(args), HOTP[i], 'HTOtoken value should be correct');
}
};
/*
* Test getTOTtoken function. Uses same test values as for checkTOTtoken
*/
exports.testGetTOTtoken = function(beforeExit, assert) {
var args = {
window : 0,
key : '12345678901234567890'
};
// counterheck for test vector at 59s
args._t = 59*1000;
assert.eql(notp.getTOTP(args), '287082', 'TOTtoken values should match');
// counterheck for test vector at 1234567890
args._t = 1234567890*1000;
assert.eql(notp.getTOTP(args), '005924', 'TOTtoken values should match');
// counterheck for test vector at 1111111109
args._t = 1111111109*1000;
assert.eql(notp.getTOTP(args), '081804', 'TOTtoken values should match');
// counterheck for test vector at 2000000000
args._t = 2000000000*1000;
assert.eql(notp.getTOTP(args), '279037', 'TOTtoken values should match');
};
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