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https://github.com/phpseclib/phpseclib.git
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129 lines
7.1 KiB
PHP
129 lines
7.1 KiB
PHP
<?php
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/**
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* @author Andreas Fischer <bantu@phpbb.com>
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* @copyright MMXIII Andreas Fischer
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* @license http://www.opensource.org/licenses/mit-license.html MIT License
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*/
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use phpseclib\Crypt\Base;
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use phpseclib\Crypt\RC2;
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class Unit_Crypt_RC2Test extends PhpseclibTestCase
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{
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var $engines = array(
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Base::ENGINE_INTERNAL => 'internal',
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Base::ENGINE_MCRYPT => 'mcrypt',
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Base::ENGINE_OPENSSL => 'OpenSSL',
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);
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public function engineVectors()
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{
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// tests from https://tools.ietf.org/html/rfc2268#page-8
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$tests = array(
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// key, effective key length, plaintext, ciphertext
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array('0000000000000000', 63, '0000000000000000', 'ebb773f993278eff'),
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array('ffffffffffffffff', 64, 'ffffffffffffffff', '278b27e42e2f0d49'),
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array('3000000000000000', 64, '1000000000000001', '30649edf9be7d2c2'),
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array('88', 64, '0000000000000000', '61a8a244adacccf0'),
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array('88bca90e90875a', 64, '0000000000000000', '6ccf4308974c267f'),
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array('88bca90e90875a7f0f79c384627bafb2', 64, '0000000000000000', '1a807d272bbe5db1'),
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array('88bca90e90875a7f0f79c384627bafb2', 128, '0000000000000000', '2269552ab0f85ca6'),
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array('88bca90e90875a7f0f79c384627bafb216f80a6f85920584c42fceb0be255daf1e', 129, '0000000000000000', '5b78d3a43dfff1f1')
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);
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$result = array();
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foreach ($this->engines as $engine => $engineName) {
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foreach ($tests as $test) {
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$result[] = array($engine, $engineName, $test[0], $test[1], $test[2], $test[3]);
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}
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}
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return $result;
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}
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// this test is just confirming RC2's key expansion
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public function testEncryptPadding()
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{
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$rc2 = new RC2(Base::MODE_ECB);
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// unlike Crypt_AES / Crypt_Rijndael, when you tell Crypt_RC2 that the key length is 128-bits the key isn't null padded to that length.
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// instead, RC2 key expansion is used to extend it out to that length. this isn't done for AES / Rijndael since that doesn't define any
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// sort of key expansion algorithm.
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// admittedly, phpseclib is inconsistent in this regard. RC4 and Blowfish support arbitrary key lengths between a certain range, as well,
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// and they don't have any way to set the key length. but then again, neither do those algorithms have their own key expansion algorithm,
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// whereas RC2 does. and technically, AES / Rijndael (and even Twofish) don't support arbitrary key lengths - they support variable key
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// lengths. so in some ways, i suppose this inconsistency somewhat makes sense, although the fact that Crypt_Twofish doesn't have a
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// setKeyLength() function whereas Crypt_AES / Crypt_Rijndael do not is, itself, an inconsistency.
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// but that said, Crypt_RC2 is inconsistent in other ways: if you pass a 128-bit (16-byte) key to it via setKey() the key is not treated
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// as a 128-bit key but rather as a 1024-bit key and is expanded accordingly, not via null padding, but via RC2's key expansion algorithm.
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// this behavior is in contrast to mcrypt, which extends keys via null padding to 1024 bits. it is also in contrast to OpenSSL, which
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// extends keys, via null padding, to 128 bits. mcrypt's approach seems preferable as one can simulate 128 bit keys by using RC2's
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// key expansion algorithm to extend the key to 1024 bits and then changing the first byte of the new key with an inverse pitable mapping.
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// in contrast, to my knowledge, there is no technique for expanding a key less than 128 bits to 128 bits, via RC2 key expansion. the only
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// scenario in that regard is null padding.
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// simple truncation is insufficient, since, quoting RFC2268, "the purpose of the key-expansion algorithm [in RC2] is to modify the key buffer
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// so that each bit of the expanded key depends in a complicated way on every bit of the supplied input key".
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// now, to OpenSSL's credit, null padding is internally consistent with OpenSSL. OpenSSL only supports fixed length keys. For rc2, rc4 and
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// bf (blowfish), all keys are 128 bits (or are null padded / truncated accordingly). to use 40-bit or 64-bit keys with RC4 with OpenSSL you
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// don't use the rc4 algorithm - you use the rc4-40 or rc4-64 algorithm. and similarly, it's not aes-cbc that you use - it's either aes-128-cbc
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// or aes-192-cbc or aes-256-cbc. this is in contrast to mcrypt, which (with the exception of RC2) actually supports variable and arbitrary
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// length keys.
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// superficially, it seens like Rijndael would be another exception to mcrypt's key length handling, but it in fact is not. the reason being that,
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// with mcrypt, when you specify MCRYPT_RIJNDAEL_128 or MCRYPT_RIJNDAEL_192 or MCRYPT_RIJNDAEL_256 the numbers at the end aren't referring to the
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// key length, but rather, the block length. ie. Rijndael, unlike most block ciphers, doesn't just have a variable (but not arbitrary) key length -
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// it also has a variable block length. AES's block length, however, is not variable, so technically, only MCRYPT_RIJNDAEL_128 is AES.
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$rc2->setKey(str_repeat('d', 16), 128);
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$rc2->setPreferredEngine(Base::ENGINE_INTERNAL);
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$internal = $rc2->encrypt('d');
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$result = pack('H*', 'e3b36057f4821346');
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$this->assertEquals($result, $internal, 'Failed asserting that the internal engine produced the correct result');
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$rc2->setPreferredEngine(Base::ENGINE_MCRYPT);
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if ($rc2->getEngine() == Base::ENGINE_MCRYPT) {
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$mcrypt = $rc2->encrypt('d');
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$this->assertEquals($result, $mcrypt, 'Failed asserting that the mcrypt engine produced the correct result');
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} else {
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self::markTestSkipped('Unable to initialize mcrypt engine');
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}
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$rc2->setPreferredEngine(Base::ENGINE_OPENSSL);
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if ($rc2->getEngine() == Base::ENGINE_OPENSSL) {
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$openssl = $rc2->encrypt('d');
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$this->assertEquals($result, $openssl, 'Failed asserting that the OpenSSL engine produced the correct result');
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} else {
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self::markTestSkipped('Unable to initialize OpenSSL engine');
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}
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}
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/**
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* @dataProvider engineVectors
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*/
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public function testVectors($engine, $engineName, $key, $keyLen, $plaintext, $ciphertext)
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{
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$rc2 = new RC2();
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$rc2->disablePadding();
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$rc2->setKeyLength($keyLen);
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$rc2->setKey(pack('H*', $key)); // could also do $rc2->setKey(pack('H*', $key), $keyLen)
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if (!$rc2->isValidEngine($engine)) {
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self::markTestSkipped('Unable to initialize ' . $engineName . ' engine');
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}
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$rc2->setPreferredEngine($engine);
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$result = bin2hex($rc2->encrypt(pack('H*', $plaintext)));
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$this->assertEquals($result, $ciphertext, "Failed asserting that $plaintext yielded expected output in $engineName engine");
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$result = bin2hex($rc2->decrypt(pack('H*', $ciphertext)));
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$this->assertEquals($result, $plaintext, "Failed asserting that decrypted result yielded $plaintext as a result in $engineName engine");
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}
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}
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