* Copyright (c) Cake Software Foundation, Inc. (http://cakefoundation.org) * * Licensed under The MIT License * For full copyright and license information, please see the LICENSE.txt * Redistributions of files must retain the above copyright notice * * @copyright Copyright (c) Cake Software Foundation, Inc. (http://cakefoundation.org) * @link http://book.cakephp.org/2.0/en/development/testing.html CakePHP(tm) Tests * @since CakePHP(tm) v 1.2.0.5432 * @license http://www.opensource.org/licenses/mit-license.php MIT License */ App::uses('Security', 'Utility'); /** * SecurityTest class * * @package Cake.Test.Case.Utility */ class SecurityTest extends CakeTestCase { /** * sut property * * @var mixed */ public $sut = null; /** * testInactiveMins method * * @return void */ public function testInactiveMins() { Configure::write('Security.level', 'high'); $this->assertEquals(10, Security::inactiveMins()); Configure::write('Security.level', 'medium'); $this->assertEquals(100, Security::inactiveMins()); Configure::write('Security.level', 'low'); $this->assertEquals(300, Security::inactiveMins()); } /** * testGenerateAuthkey method * * @return void */ public function testGenerateAuthkey() { $this->assertEquals(strlen(Security::generateAuthKey()), 40); } /** * testValidateAuthKey method * * @return void */ public function testValidateAuthKey() { $authKey = Security::generateAuthKey(); $this->assertTrue(Security::validateAuthKey($authKey)); } /** * testHashInvalidSalt method * * @expectedException PHPUnit_Framework_Error * @return void */ public function testHashInvalidSalt() { Security::hash('someKey', 'blowfish', true); } /** * testHashAnotherInvalidSalt * * @expectedException PHPUnit_Framework_Error * @return void */ public function testHashAnotherInvalidSalt() { Security::hash('someKey', 'blowfish', '$1$lksdjoijfaoijs'); } /** * testHashYetAnotherInvalidSalt * * @expectedException PHPUnit_Framework_Error * @return void */ public function testHashYetAnotherInvalidSalt() { Security::hash('someKey', 'blowfish', '$2a$10$123'); } /** * testHashInvalidCost method * * @expectedException PHPUnit_Framework_Error * @return void */ public function testHashInvalidCost() { Security::setCost(1000); } /** * testHash method * * @return void */ public function testHash() { $_hashType = Security::$hashType; $key = 'someKey'; $hash = 'someHash'; $this->assertSame(40, strlen(Security::hash($key, null, false))); $this->assertSame(40, strlen(Security::hash($key, 'sha1', false))); $this->assertSame(40, strlen(Security::hash($key, null, true))); $this->assertSame(40, strlen(Security::hash($key, 'sha1', true))); $result = Security::hash($key, null, $hash); $this->assertSame($result, 'e38fcb877dccb6a94729a81523851c931a46efb1'); $result = Security::hash($key, 'sha1', $hash); $this->assertSame($result, 'e38fcb877dccb6a94729a81523851c931a46efb1'); $hashType = 'sha1'; Security::setHash($hashType); $this->assertSame($hashType, Security::$hashType); $this->assertSame(40, strlen(Security::hash($key, null, true))); $this->assertSame(40, strlen(Security::hash($key, null, false))); $this->assertSame(32, strlen(Security::hash($key, 'md5', false))); $this->assertSame(32, strlen(Security::hash($key, 'md5', true))); $hashType = 'md5'; Security::setHash($hashType); $this->assertSame($hashType, Security::$hashType); $this->assertSame(32, strlen(Security::hash($key, null, false))); $this->assertSame(32, strlen(Security::hash($key, null, true))); if (!function_exists('hash') && !function_exists('mhash')) { $this->assertSame(32, strlen(Security::hash($key, 'sha256', false))); $this->assertSame(32, strlen(Security::hash($key, 'sha256', true))); } else { $this->assertSame(64, strlen(Security::hash($key, 'sha256', false))); $this->assertSame(64, strlen(Security::hash($key, 'sha256', true))); } Security::setHash($_hashType); } /** * Test that hash() works with blowfish. * * @return void */ public function testHashBlowfish() { Security::setCost(10); $test = Security::hash('password', 'blowfish'); $this->skipIf(strpos($test, '$2a$') === false, 'Blowfish hashes are incorrect.'); $_hashType = Security::$hashType; $key = 'someKey'; $hashType = 'blowfish'; Security::setHash($hashType); $this->assertSame($hashType, Security::$hashType); $this->assertSame(60, strlen(Security::hash($key, null, false))); $password = $submittedPassword = $key; $storedPassword = Security::hash($password); $hashedPassword = Security::hash($submittedPassword, null, $storedPassword); $this->assertSame($storedPassword, $hashedPassword); $submittedPassword = 'someOtherKey'; $hashedPassword = Security::hash($submittedPassword, null, $storedPassword); $this->assertNotSame($storedPassword, $hashedPassword); $expected = sha1('customsaltsomevalue'); $result = Security::hash('somevalue', 'sha1', 'customsalt'); $this->assertSame($expected, $result); $oldSalt = Configure::read('Security.salt'); Configure::write('Security.salt', 'customsalt'); $expected = sha1('customsaltsomevalue'); $result = Security::hash('somevalue', 'sha1', true); $this->assertSame($expected, $result); Configure::write('Security.salt', $oldSalt); Security::setHash($_hashType); } /** * testCipher method * * @return void */ public function testCipher() { $length = 10; $txt = ''; for ($i = 0; $i < $length; $i++) { $txt .= mt_rand(0, 255); } $key = 'my_key'; $result = Security::cipher($txt, $key); $this->assertEquals($txt, Security::cipher($result, $key)); $txt = ''; $key = 'my_key'; $result = Security::cipher($txt, $key); $this->assertEquals($txt, Security::cipher($result, $key)); $txt = 123456; $key = 'my_key'; $result = Security::cipher($txt, $key); $this->assertEquals($txt, Security::cipher($result, $key)); $txt = '123456'; $key = 'my_key'; $result = Security::cipher($txt, $key); $this->assertEquals($txt, Security::cipher($result, $key)); } /** * testCipherEmptyKey method * * @expectedException PHPUnit_Framework_Error * @return void */ public function testCipherEmptyKey() { $txt = 'some_text'; $key = ''; Security::cipher($txt, $key); } /** * testRijndael method * * @return void */ public function testRijndael() { $this->skipIf(!function_exists('mcrypt_encrypt')); $txt = 'The quick brown fox jumped over the lazy dog.'; $key = 'DYhG93b0qyJfIxfs2guVoUubWwvniR2G0FgaC9mi'; $result = Security::rijndael($txt, $key, 'encrypt'); $this->assertEquals($txt, Security::rijndael($result, $key, 'decrypt')); $result = Security::rijndael($key, $txt, 'encrypt'); $this->assertEquals($key, Security::rijndael($result, $txt, 'decrypt')); $result = Security::rijndael('', $key, 'encrypt'); $this->assertEquals('', Security::rijndael($result, $key, 'decrypt')); $key = 'this is my key of over 32 chars, yes it is'; $result = Security::rijndael($txt, $key, 'encrypt'); $this->assertEquals($txt, Security::rijndael($result, $key, 'decrypt')); } /** * Test that rijndael() can still decrypt values with a fixed iv. * * @return void */ public function testRijndaelBackwardCompatibility() { $this->skipIf(!function_exists('mcrypt_encrypt')); $txt = 'The quick brown fox jumped over the lazy dog.'; $key = 'DYhG93b0qyJfIxfs2guVoUubWwvniR2G0FgaC9mi'; // Encrypted before random iv $value = base64_decode('1WPjnq96LMzLGwNgmudHF+cAIqVUN5DaUZEpf5tm1EzSgt5iYY9o3d66iRI/fKJLTlTVGsa8HzW0jDNitmVXoQ=='); $this->assertEquals($txt, Security::rijndael($value, $key, 'decrypt')); } /** * testRijndaelInvalidOperation method * * @expectedException PHPUnit_Framework_Error * @return void */ public function testRijndaelInvalidOperation() { $txt = 'The quick brown fox jumped over the lazy dog.'; $key = 'DYhG93b0qyJfIxfs2guVoUubWwvniR2G0FgaC9mi'; Security::rijndael($txt, $key, 'foo'); } /** * testRijndaelInvalidKey method * * @expectedException PHPUnit_Framework_Error * @return void */ public function testRijndaelInvalidKey() { $txt = 'The quick brown fox jumped over the lazy dog.'; $key = 'too small'; Security::rijndael($txt, $key, 'encrypt'); } /** * Test encrypt/decrypt. * * @return void */ public function testEncryptDecrypt() { $txt = 'The quick brown fox'; $key = 'This key is longer than 32 bytes long.'; $result = Security::encrypt($txt, $key); $this->assertNotEquals($txt, $result, 'Should be encrypted.'); $this->assertNotEquals($result, Security::encrypt($txt, $key), 'Each result is unique.'); $this->assertEquals($txt, Security::decrypt($result, $key)); } /** * Test that changing the key causes decryption to fail. * * @return void */ public function testDecryptKeyFailure() { $txt = 'The quick brown fox'; $key = 'This key is longer than 32 bytes long.'; Security::encrypt($txt, $key); $key = 'Not the same key. This one will fail'; $this->assertFalse(Security::decrypt($txt, $key), 'Modified key will fail.'); } /** * Test that decrypt fails when there is an hmac error. * * @return void */ public function testDecryptHmacFailure() { $txt = 'The quick brown fox'; $key = 'This key is quite long and works well.'; $salt = 'this is a delicious salt!'; $result = Security::encrypt($txt, $key, $salt); // Change one of the bytes in the hmac. $result[10] = 'x'; $this->assertFalse(Security::decrypt($result, $key, $salt), 'Modified hmac causes failure.'); } /** * Test that changing the hmac salt will cause failures. * * @return void */ public function testDecryptHmacSaltFailure() { $txt = 'The quick brown fox'; $key = 'This key is quite long and works well.'; $salt = 'this is a delicious salt!'; $result = Security::encrypt($txt, $key, $salt); $salt = 'humpty dumpty had a great fall.'; $this->assertFalse(Security::decrypt($result, $key, $salt), 'Modified salt causes failure.'); } /** * Test that short keys cause errors * * @expectedException CakeException * @expectedExceptionMessage Invalid key for encrypt(), key must be at least 256 bits (32 bytes) long. * @return void */ public function testEncryptInvalidKey() { $txt = 'The quick brown fox jumped over the lazy dog.'; $key = 'this is too short'; Security::encrypt($txt, $key); } /** * Test encrypting falsey data * * @return void */ public function testEncryptDecryptFalseyData() { $key = 'This is a key that is long enough to be ok.'; $result = Security::encrypt('', $key); $this->assertSame('', Security::decrypt($result, $key)); $result = Security::encrypt(false, $key); $this->assertSame('', Security::decrypt($result, $key)); $result = Security::encrypt(null, $key); $this->assertSame('', Security::decrypt($result, $key)); $result = Security::encrypt(0, $key); $this->assertSame('0', Security::decrypt($result, $key)); $result = Security::encrypt('0', $key); $this->assertSame('0', Security::decrypt($result, $key)); } /** * Test that short keys cause errors * * @expectedException CakeException * @expectedExceptionMessage Invalid key for decrypt(), key must be at least 256 bits (32 bytes) long. * @return void */ public function testDecryptInvalidKey() { $txt = 'The quick brown fox jumped over the lazy dog.'; $key = 'this is too short'; Security::decrypt($txt, $key); } /** * Test that empty data cause errors * * @expectedException CakeException * @expectedExceptionMessage The data to decrypt cannot be empty. * @return void */ public function testDecryptInvalidData() { $txt = ''; $key = 'This is a key that is long enough to be ok.'; Security::decrypt($txt, $key); } }