From 19afac05cefe9ead18d6a283459f6837d2bc0617 Mon Sep 17 00:00:00 2001 From: "Chris St. Pierre" Date: Fri, 28 Sep 2012 13:54:41 -0400 Subject: wrote unit tests for encryption --- testsuite/Testsrc/Testlib/TestEncryption.py | 199 ++++++++++++++++++++++++++++ 1 file changed, 199 insertions(+) create mode 100644 testsuite/Testsrc/Testlib/TestEncryption.py (limited to 'testsuite/Testsrc') diff --git a/testsuite/Testsrc/Testlib/TestEncryption.py b/testsuite/Testsrc/Testlib/TestEncryption.py new file mode 100644 index 000000000..530592cd0 --- /dev/null +++ b/testsuite/Testsrc/Testlib/TestEncryption.py @@ -0,0 +1,199 @@ +# -*- coding: utf-8 -*- +import os +import sys +from Bcfg2.Compat import b64decode +from mock import Mock, MagicMock, patch + +# add all parent testsuite directories to sys.path to allow (most) +# relative imports in python 2.4 +path = os.path.dirname(__file__) +while path != "/": + if os.path.basename(path).lower().startswith("test"): + sys.path.append(path) + if os.path.basename(path) == "testsuite": + break + path = os.path.dirname(path) +from common import call, u, can_skip, skip, skipIf, skipUnless, \ + Bcfg2TestCase, patchIf + +try: + from Bcfg2.Encryption import * + + class TestEncryption(Bcfg2TestCase): + plaintext = """foo bar +baz +รถ +\t\tquux +""" + "a" * 16384 # 16K is completely arbitrary + iv = "0123456789ABCDEF" + salt = "01234567" + algo = "des_cbc" + + def test_str_crypt(self): + """ test str_encrypt/str_decrypt """ + key = "a simple key" + + # simple symmetrical test with no options + crypted = str_encrypt(self.plaintext, key) + self.assertEqual(self.plaintext, str_decrypt(crypted, key)) + + # symmetrical test with lots of options + crypted = str_encrypt(self.plaintext, key, + iv=self.iv, salt=self.salt, + algorithm=self.algo) + self.assertEqual(self.plaintext, + str_decrypt(crypted, key, iv=self.iv, + algorithm=self.algo)) + + # test that different algorithms are actually used + self.assertNotEqual(str_encrypt(self.plaintext, key), + str_encrypt(self.plaintext, key, + algorithm=self.algo)) + + # test that different keys are actually used + self.assertNotEqual(str_encrypt(self.plaintext, key), + str_encrypt(self.plaintext, "different key")) + + # test that different IVs are actually used + self.assertNotEqual(str_encrypt(self.plaintext, key, iv=self.iv), + str_encrypt(self.plaintext, key)) + + # test that errors are raised on bad decrypts + crypted = str_encrypt(self.plaintext, key, algorithm=self.algo) + self.assertRaises(EVPError, str_decrypt, + crypted, "bogus key", algorithm=self.algo) + self.assertRaises(EVPError, str_decrypt, + crypted, key) # bogus algorithm + + def test_ssl_crypt(self): + """ test ssl_encrypt/ssl_decrypt """ + passwd = "a simple passphrase" + + # simple symmetrical test + crypted = ssl_encrypt(self.plaintext, passwd) + self.assertEqual(self.plaintext, ssl_decrypt(crypted, passwd)) + + # more complex symmetrical test + crypted = ssl_encrypt(self.plaintext, passwd, algorithm=self.algo, + salt=self.salt) + self.assertEqual(self.plaintext, + ssl_decrypt(crypted, passwd, algorithm=self.algo)) + + # test that different algorithms are actually used + self.assertNotEqual(ssl_encrypt(self.plaintext, passwd), + ssl_encrypt(self.plaintext, passwd, + algorithm=self.algo)) + + # test that different passwords are actually used + self.assertNotEqual(ssl_encrypt(self.plaintext, passwd), + ssl_encrypt(self.plaintext, "different pass")) + + # there's no reasonable test we can do to see if the + # output is base64-encoded, unfortunately, but if it's + # obviously not we fail + crypted = ssl_encrypt(self.plaintext, passwd) + self.assertRegexpMatches(crypted, r'^[A-Za-z0-9+/]+[=]{0,2}$') + + # test that errors are raised on bad decrypts + crypted = ssl_encrypt(self.plaintext, passwd, + algorithm=self.algo) + self.assertRaises(EVPError, ssl_decrypt, + crypted, "bogus passwd", algorithm=self.algo) + self.assertRaises(EVPError, ssl_decrypt, + crypted, passwd) # bogus algorithm + + def test_get_algorithm(self): + setup = Mock() + # we don't care what the default is, as long as there is + # one + setup.cfp.get.return_value = ALGORITHM + self.assertRegexpMatches(get_algorithm(setup), + r'^[a-z0-9]+_[a-z0-9_]+$') + setup.cfp.get.assert_called_with(CFG_SECTION, CFG_ALGORITHM, + default=ALGORITHM) + + setup.cfp.get.return_value = self.algo + self.assertEqual(get_algorithm(setup), self.algo) + setup.cfp.get.assert_called_with(CFG_SECTION, CFG_ALGORITHM, + default=ALGORITHM) + + # test that get_algorithm converts algorithms given in + # OpenSSL style to M2Crypto style + setup.cfp.get.return_value = "DES-EDE3-CFB8" + self.assertEqual(get_algorithm(setup), "des_ede3_cfb8") + setup.cfp.get.assert_called_with(CFG_SECTION, CFG_ALGORITHM, + default=ALGORITHM) + + def test_get_passphrases(self): + setup = Mock() + setup.cfp.has_section.return_value = False + self.assertEqual(get_passphrases(setup), dict()) + + setup.cfp.has_section.return_value = True + setup.cfp.options.return_value = ["foo", "bar", CFG_ALGORITHM] + setup.cfp.get.return_value = "passphrase" + self.assertItemsEqual(get_passphrases(setup), + dict(foo="passphrase", + bar="passphrase")) + + @patch("Bcfg2.Encryption.get_passphrases") + def test_bruteforce_decrypt(self, mock_passphrases): + passwd = "a simple passphrase" + crypted = ssl_encrypt(self.plaintext, passwd) + setup = Mock() + + # test with no passphrases given nor in config + mock_passphrases.return_value = dict() + self.assertRaises(EVPError, + bruteforce_decrypt, + crypted, setup=setup) + mock_passphrases.assert_called_with(setup) + + # test with good passphrase given in function call + mock_passphrases.reset_mock() + self.assertEqual(self.plaintext, + bruteforce_decrypt(crypted, + passphrases=["bogus pass", + passwd, + "also bogus"])) + self.assertFalse(mock_passphrases.called) + + # test with no good passphrase given nor in config + mock_passphrases.reset_mock() + self.assertRaises(EVPError, + bruteforce_decrypt, + crypted, passphrases=["bogus", "also bogus"]) + self.assertFalse(mock_passphrases.called) + + # test with good passphrase in config file + mock_passphrases.reset_mock() + mock_passphrases.return_value = dict(bogus="bogus", + real=passwd, + bogus2="also bogus") + self.assertEqual(self.plaintext, + bruteforce_decrypt(crypted, setup=setup)) + mock_passphrases.assert_called_with(setup) + + # test that passphrases given in function call take + # precedence over config + mock_passphrases.reset_mock() + self.assertRaises(EVPError, + bruteforce_decrypt, + crypted, setup=setup, + passphrases=["bogus", "also bogus"]) + self.assertFalse(mock_passphrases.called) + + # test that different algorithms are used + mock_passphrases.reset_mock() + self.assertRaises(EVPError, + bruteforce_decrypt, + crypted, setup=setup, algorithm=self.algo) + + mock_passphrases.reset_mock() + crypted = ssl_encrypt(self.plaintext, passwd, algorithm=self.algo) + self.assertEqual(self.plaintext, + bruteforce_decrypt(crypted, setup=setup, + algorithm=self.algo)) + +except ImportError: + pass -- cgit v1.2.3-1-g7c22