phpseclib/tests/Unit/Crypt/TwofishTest.php
terrafrost d34a911402 SymmetricCiphers: don't cache "hi-optimized code"
Also add a new engine - ENGINE_EVAL. Previously ENGINE_INTERNAL
had three different modes - a "hi-optimized" version, a
"lo-optimized" version and a version that didn't depend on
create_function and there wasn't a way to really isolate these
modes and test them individually.
2016-12-08 09:20:19 -06:00

77 lines
3.4 KiB
PHP

<?php
/**
* @author Andreas Fischer <bantu@phpbb.com>
* @copyright MMXIII Andreas Fischer
* @license http://www.opensource.org/licenses/mit-license.html MIT License
*/
use phpseclib\Crypt\Common\BlockCipher;
use phpseclib\Crypt\Twofish;
class Unit_Crypt_TwofishTest extends PhpseclibTestCase
{
public function testVectors()
{
$engines = array(
BlockCipher::ENGINE_INTERNAL => 'internal',
BlockCipher::ENGINE_EVAL => 'eval',
BlockCipher::ENGINE_MCRYPT => 'mcrypt',
BlockCipher::ENGINE_OPENSSL => 'OpenSSL',
);
foreach ($engines as $engine => $name) {
$tf = new Twofish(Twofish::MODE_CBC);
$tf->setIV(str_repeat("\0", $tf->getBlockLength() >> 3));
$tf->disablePadding();
// tests from https://www.schneier.com/code/ecb_ival.txt
// key size = 128
$key = pack('H*', '00000000000000000000000000000000');
$tf->setKey($key);
if (!$tf->isValidEngine($engine)) {
self::markTestSkipped('Unable to initialize ' . $name . ' engine');
}
$plaintext = pack('H*', '00000000000000000000000000000000');
$ciphertext = $tf->encrypt($plaintext);
$expected = strtolower('9F589F5CF6122C32B6BFEC2F2AE8C35A');
$this->assertEquals(bin2hex($ciphertext), $expected, "Failed asserting that $plaintext yielded expected output in $name engine");
$expected = bin2hex($plaintext);
$plaintext = bin2hex($tf->decrypt($ciphertext));
$this->assertEquals($plaintext, $expected, "Failed asserting that $plaintext yielded expected output in $name engine");
// key size = 192
$key = pack('H*', '0123456789ABCDEFFEDCBA98765432100011223344556677');
$tf->setKey($key);
if (!$tf->isValidEngine($engine)) {
self::markTestSkipped('Unable to initialize ' . $name . ' engine');
}
$plaintext = pack('H*', '00000000000000000000000000000000');
$ciphertext = $tf->encrypt($plaintext);
$expected = strtolower('CFD1D2E5A9BE9CDF501F13B892BD2248');
$this->assertEquals(bin2hex($ciphertext), $expected, "Failed asserting that $plaintext yielded expected output in $name engine");
$expected = bin2hex($plaintext);
$plaintext = bin2hex($tf->decrypt($ciphertext));
$this->assertEquals($plaintext, $expected, "Failed asserting that $plaintext yielded expected output in $name engine");
// key size = 256
$key = pack('H*', '0123456789ABCDEFFEDCBA987654321000112233445566778899AABBCCDDEEFF');
$tf->setKey($key);
if (!$tf->isValidEngine($engine)) {
self::markTestSkipped('Unable to initialize ' . $name . ' engine');
}
$plaintext = pack('H*', '00000000000000000000000000000000');
$ciphertext = $tf->encrypt($plaintext);
$expected = strtolower('37527BE0052334B89F0CFCCAE87CFA20');
$this->assertEquals(bin2hex($ciphertext), $expected, "Failed asserting that $plaintext yielded expected output in $name engine");
$expected = bin2hex($plaintext);
$plaintext = bin2hex($tf->decrypt($ciphertext));
$this->assertEquals($plaintext, $expected, "Failed asserting that $plaintext yielded expected output in $name engine");
}
}
}