�PNG  IHDR��;���IDATx��ܻn�0���K�� �)(�pA��� ���7�LeG{�� �§㻢|��ذaÆ 6lذaÆ 6lذaÆ 6lom��$^�y���ذag�5bÆ 6lذaÆ 6lذa{���� 6lذaÆ �`����}H�Fkm�,�m����Ӫ���ô�ô!� �x�|'ܢ˟;�E:���9�&ᶒ�}�{�v]�n&�6� �h��_��t�ڠ͵-ҫ���Z;��Z$�.�P���k�ž)�!��o���>}l�eQfJ�T��u і���چ��\��X=8��Rن4`Vw�l�>����n�G�^��i�s��"ms�$�u��i��?w�bs[m�6�K4���O���.�4��%����/����b�C%��t ��M�ז� �-l�G6�mrz2���s�%�9��s@���-�k�9�=���)������k�B5����\��+͂�Zsٲ ��Rn��~G���R���C����� �wIcI��n7jJ���hۛNCS|���j0��8y�iHKֶۛ�k�Ɉ+;Sz������L/��F�*\��Ԕ�#"5��m�2��[S��������=�g��n�a�P�e�ғ�L�� lذaÆ 6l�^k��̱aÆ 6lذaÆ 6lذa;���� �_��ذaÆ 6lذaÆ 6lذaÆ ���R���IEND�B` var test = require('tape') var algorithms = ['sha1', 'sha224', 'sha256', 'sha384', 'sha512', 'md5', 'rmd160'] var vectors = require('hash-test-vectors/hmac') testLib('createHmac in crypto-browserify', require('../').createHmac) testLib('create-hmac/browser', require('create-hmac/browser')) function testLib (name, createHmac) { algorithms.forEach(function (alg) { test(name + ' hmac(' + alg + ')', function (t) { run(0) function run (i) { if (i >= vectors.length) { return t.end() } var input = vectors[i] var output = createHmac(alg, new Buffer(input.key, 'hex')) .update(input.data, 'hex').digest() output = input.truncate ? output.slice(0, input.truncate) : output output = output.toString('hex') if (output !== input[alg]) { t.equal(output, input[alg]) } setTimeout(run, 0, i + 1) } }) test('hmac(' + alg + ')', function (t) { run(0) function run (i) { if (i >= vectors.length) { return t.end() } var input = vectors[i] var hmac = createHmac(alg, new Buffer(input.key, 'hex')) hmac.end(input.data, 'hex') var output = hmac.read() output = input.truncate ? output.slice(0, input.truncate) : output output = output.toString('hex') if (output !== input[alg]) { t.equal(output, input[alg]) } setTimeout(run, 0, i + 1) } }) }) }