/**
* @license
* Copyright The Closure Library Authors.
* SPDX-License-Identifier: Apache-2.0
*/
goog.module('goog.crypt.Sha2_64bit_test');
goog.setTestOnly();
const Sha384 = goog.require('goog.crypt.Sha384');
const Sha512 = goog.require('goog.crypt.Sha512');
const Sha512_256 = goog.require('goog.crypt.Sha512_256');
const crypt = goog.require('goog.crypt');
const hashTester = goog.require('goog.crypt.hashTester');
const testSuite = goog.require('goog.testing.testSuite');
const userAgent = goog.require('goog.userAgent');
/**
* Each object in the test vector array is a source text and one or more
* hashes of that source text. The source text is either a string or a
* byte array.
* <p>
* All hash values, except for the empty string, are from public sources:
* csrc.nist.gov/publications/fips/fips180-2/fips180-2withchangenotice.pdf
* csrc.nist.gov/groups/ST/toolkit/documents/Examples/SHA384.pdf
* csrc.nist.gov/groups/ST/toolkit/documents/Examples/SHA512_256.pdf
* csrc.nist.gov/groups/ST/toolkit/documents/Examples/SHA2_Additional.pdf
* en.wikipedia.org/wiki/SHA-2#Examples_of_SHA-2_variants
*/
const TEST_VECTOR = [
{
// Make sure the algorithm correctly handles the empty string
source: '',
512: 'cf83e1357eefb8bdf1542850d66d8007d620e4050b5715dc83f4a921d36ce9ce' +
'47d0d13c5d85f2b0ff8318d2877eec2f63b931bd47417a81a538327af927da3e',
},
{
source: 'abc',
512: 'ddaf35a193617abacc417349ae20413112e6fa4e89a97ea20a9eeee64b55d39a' +
'2192992a274fc1a836ba3c23a3feebbd454d4423643ce80e2a9ac94fa54ca49f',
384: 'cb00753f45a35e8bb5a03d699ac65007272c32ab0eded163' +
'1a8b605a43ff5bed8086072ba1e7cc2358baeca134c825a7',
256: '53048e2681941ef99b2e29b76b4c7dabe4c2d0c634fc6d46e0e2f13107e7af23',
},
{
source: 'abcdefghbcdefghicdefghijdefghijkefghijklfghijklmghijklmn' +
'hijklmnoijklmnopjklmnopqklmnopqrlmnopqrsmnopqrstnopqrstu',
512: '8e959b75dae313da8cf4f72814fc143f8f7779c6eb9f7fa17299aeadb6889018' +
'501d289e4900f7e4331b99dec4b5433ac7d329eeb6dd26545e96e55b874be909',
384: '09330c33f71147e83d192fc782cd1b4753111b173b3b05d2' +
'2fa08086e3b0f712fcc7c71a557e2db966c3e9fa91746039',
256: '3928e184fb8690f840da3988121d31be65cb9d3ef83ee6146feac861e19b563a',
},
{
source: 'The quick brown fox jumps over the lazy dog',
512: '07e547d9586f6a73f73fbac0435ed76951218fb7d0c8d788a309d785436bbb64' +
'2e93a252a954f23912547d1e8a3b5ed6e1bfd7097821233fa0538f3db854fee6',
384: 'ca737f1014a48f4c0b6dd43cb177b0afd9e5169367544c49' +
'4011e3317dbf9a509cb1e5dc1e85a941bbee3d7f2afbc9b1',
256: 'dd9d67b371519c339ed8dbd25af90e976a1eeefd4ad3d889005e532fc5bef04d',
},
];
/**
* For each integer key N, the value is the SHA-512 value of a string
* consisting of N repetitions of the character 'a'.
*/
const TEST_FENCEPOST_VECTOR = {
110: 'c825949632e509824543f7eaf159fb6041722fce3c1cdcbb613b3d37ff107c51' +
'9417baac32f8e74fe29d7f4823bf6886956603dca5354a6ed6e4a542e06b7d28',
111: 'fa9121c7b32b9e01733d034cfc78cbf67f926c7ed83e82200ef8681819692176' +
'0b4beff48404df811b953828274461673c68d04e297b0eb7b2b4d60fc6b566a2',
112: 'c01d080efd492776a1c43bd23dd99d0a2e626d481e16782e75d54c2503b5dc32' +
'bd05f0f1ba33e568b88fd2d970929b719ecbb152f58f130a407c8830604b70ca',
113: '55ddd8ac210a6e18ba1ee055af84c966e0dbff091c43580ae1be703bdb85da31' +
'acf6948cf5bd90c55a20e5450f22fb89bd8d0085e39f85a86cc46abbca75e24d',
};
/**
* Function called by the actual testers to ensure that specific strings
* hash to specific published values.
* Each item in the vector has a "source" and one or more additional keys.
* If the item has a key matching the key argument passed to this
* function, it is the expected value of the hash function.
* @param {!crypt.Sha2_64bit} hasher The hasher to test
* @param {number} length The length of the resulting hash, in bits. Also the
* key to use in TEST_VECTOR for the expected hash value
*/
function hashGoldenTester(hasher, length) {
TEST_VECTOR.forEach(data => {
hasher.update(data.source);
const digest = hasher.digest();
assertEquals('Hash digest has the wrong length', length, digest.length * 8);
if (data[length]) {
// We're given an expected value
const expected = crypt.hexToByteArray(data[length]);
assertElementsEquals(
`Wrong result for hash${length}` +
'(\'' + data.source + '\')',
expected, digest);
}
hasher.reset();
});
}
testSuite({
/** Simple sanity tests for hash functions. */
testBasicOperations() {
const sha512 = new Sha512();
hashTester.runBasicTests(sha512);
const sha384 = new Sha384();
hashTester.runBasicTests(sha384);
const sha256 = new Sha512_256();
hashTester.runBasicTests(sha256);
},
/** Test that Sha512() returns the published values */
testHashing512() {
hashGoldenTester(new Sha512(), 512);
},
/** Test that Sha384 returns the published values */
testHashing384() {
hashGoldenTester(new Sha384(), 384);
},
/** Test that Sha512_256 returns the published values */
testHashing256() {
hashGoldenTester(new Sha512_256(), 256);
},
/** Test that the opt_length works */
testHashing_optLength() {
const hasher = new Sha512();
hasher.update('1234567890');
const digest1 = hasher.digest();
hasher.reset();
hasher.update('12345678901234567890', 10);
const digest2 = hasher.digest();
assertElementsEquals(digest1, digest2);
},
/**
* Make sure that we correctly handle strings whose length is 110-113.
* This is the area where we are likely to hit fencepost errors in the padding
* code.
*/
testFencepostErrors() {
const hasher = new Sha512();
const A64 =
'aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa';
const A128 = A64 + A64;
for (let i = 110; i <= 113; i++) {
hasher.update(A128, i);
const digest = hasher.digest();
const expected = crypt.hexToByteArray(TEST_FENCEPOST_VECTOR[i]);
assertElementsEquals(`Fencepost ${i}`, expected, digest);
hasher.reset();
}
},
/** Test one really large string using SHA512 */
testHashing512Large() {
// This test tends to time out on IE7 and IE8. See b/22873770.
if (!userAgent.IE || userAgent.isVersionOrHigher('9')) {
const hasher = new Sha512();
hasher.update((new Array(1000000)).fill(0));
const digest = hasher.digest();
const expected = crypt.hexToByteArray(
'ce044bc9fd43269d5bbc946cbebc3bb711341115cc4abdf2edbc3ff2c57ad4b1' +
'5deb699bda257fea5aef9c6e55fcf4cf9dc25a8c3ce25f2efe90908379bff7ed');
assertElementsEquals(expected, digest);
}
},
/** Check that the code throws an error for bad input */
testBadInput_nullNotAllowed() {
const hasher = new Sha512();
assertThrows(
'Null input not allowed',
/** @suppress {checkTypes} array like isn't a supported type */
() => {
hasher.update({});
});
},
testBadInput_noFloatingPoint() {
const hasher = new Sha512();
assertThrows('Floating point not allows', () => {
hasher.update([1, 2, 3, 4, 4.5]);
});
},
testBadInput_negativeNotAllowed() {
const hasher = new Sha512();
assertThrows('Negative not allowed', () => {
hasher.update([1, 2, 3, 4, -10]);
});
},
testBadInput_mustBeByteArray() {
const hasher = new Sha512();
assertThrows('Must be byte array', () => {
hasher.update([1, 2, 3, 4, {}]);
});
},
testBadInput_byteTooLarge() {
const hasher = new Sha512();
assertThrows('>255 not allowed', () => {
hasher.update([1, 2, 3, 4, 256]);
});
},
testBadInput_characterTooLarge() {
const hasher = new Sha512();
assertThrows('>255 not allowed', () => {
hasher.update('abc' + String.fromCharCode(256));
});
},
testHasherNeedsReset_beforeDigest() {
const hasher = new Sha512();
hasher.update('abc');
hasher.digest();
assertThrows('Need reset after digest', () => {
hasher.digest();
});
},
testHasherNeedsReset_beforeUpdate() {
const hasher = new Sha512();
hasher.update('abc');
hasher.digest();
assertThrows('Need reset after digest', () => {
hasher.update('abc');
});
},
/** @suppress {checkTypes} array like isn't a supported type */
testHashingArrayLike() {
// Create array-like object
const obj = {};
obj.length = 26;
for (let i = 0; i < 26; i++) {
obj[i] = 97 + i;
}
// Check hashing
const hasher = new Sha512();
hasher.update(obj);
const digest1 = hasher.digest();
hasher.reset();
hasher.update('abcdefghijklmnopqrstuvwxyz', 26);
const digest2 = hasher.digest();
assertElementsEquals(digest1, digest2);
},
});
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