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'use strict';
var crypto = require('crypto');
var tape = require('tape');
var Buffer = require('safe-buffer').Buffer;
var Sha1 = require('../').sha1;
var nodeSupportsUint16 = false;
try {
crypto.createHash('sha1').update(new Uint16Array());
nodeSupportsUint16 = true;
} catch (err) {}
var inputs = [
['', 'ascii'],
['abc', 'ascii'],
['123', 'ascii'],
['123456789abcdef123456789abcdef123456789abcdef123456789abcdef', 'ascii'],
['123456789abcdef123456789abcdef123456789abcdef123456789abc', 'ascii'],
['123456789abcdef123456789abcdef123456789abcdef123456789ab', 'ascii'],
['0123456789abcdef0123456789abcdef0123456789abcdef0123456789abcde', 'ascii'],
['0123456789abcdef0123456789abcdef0123456789abcdef0123456789abcdef', 'ascii'],
['foobarbaz', 'ascii'],
[Buffer.from('buffer')],
nodeSupportsUint16 ? [new Uint16Array([1, 2, 3])] : null
].filter(Boolean);
tape("hash is the same as node's crypto", function (t) {
inputs.forEach(function (v) {
var a = new Sha1().update(v[0], v[1]).digest('hex');
var e = crypto.createHash('sha1').update(v[0], v[1]).digest('hex');
t.equal(a, e, a + ' == ' + e);
});
t.end();
});
tape('call update multiple times', function (t) {
inputs.forEach(function (v) {
var hash = new Sha1();
var sha1hash = crypto.createHash('sha1');
for (var i = 0; i < v[0].length; i = (i + 1) * 2) {
var s = v[0].slice(i, (i + 1) * 2);
hash.update(s, v[1]);
sha1hash.update(s, v[1]);
}
var a = hash.digest('hex');
var e = sha1hash.digest('hex');
t.equal(a, e, a + ' == ' + e);
});
t.end();
});
tape('call update twice', function (t) {
var sha1hash = crypto.createHash('sha1');
var hash = new Sha1();
sha1hash.update('foo', 'ascii');
hash.update('foo', 'ascii');
sha1hash.update('bar', 'ascii');
hash.update('bar', 'ascii');
sha1hash.update('baz', 'ascii');
hash.update('baz', 'ascii');
var a = hash.digest('hex');
var e = sha1hash.digest('hex');
t.equal(a, e);
t.end();
});
tape('hex encoding', function (t) {
inputs.forEach(function (v) {
var hash = new Sha1();
var sha1hash = crypto.createHash('sha1');
for (var i = 0; i < v[0].length; i = (i + 1) * 2) {
var s = v[0].slice(i, (i + 1) * 2);
hash.update(Buffer.from(s, 'ascii').toString('hex'), 'hex');
sha1hash.update(Buffer.from(s, 'ascii').toString('hex'), 'hex');
}
var a = hash.digest('hex');
var e = sha1hash.digest('hex');
t.equal(a, e, a + ' == ' + e);
});
t.end();
});
tape('throws on invalid input', function (t) {
var invalid = [
{}, // non-arrayish
{ length: 20 }, // undefined values
[NaN], // non-numbers
[[]], // non-numbers
[1, 1.5], // non-integers
[1, 256], // out of bounds
[-1, 0] // out of bounds
];
invalid.forEach(function (input) {
var hash = new Sha1();
t['throws'](function () {
hash.update(input);
hash.digest('hex');
});
});
t.end();
});
tape('call digest for more than MAX_UINT32 bits of data', function (t) {
var sha1hash = crypto.createHash('sha1');
var hash = new Sha1();
var bigData;
try {
bigData = Buffer.alloc(0x1ffffffff / 8);
} catch (err) {
// node < 3 has a lower buffer size limit than node 3+. node 0.10 requires the `/8`, 0.12 - 2 are fine with `-8`
bigData = Buffer.alloc(0x3fffffff / 8);
}
hash.update(bigData);
sha1hash.update(bigData);
var a = hash.digest('hex');
var e = sha1hash.digest('hex');
t.equal(a, e, a + ' == ' + e);
t.end();
});