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path: root/testsuite/Testsrc/Testlib/TestServer/TestEncryption.py
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# -*- 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 *

try:
    from Bcfg2.Server.Encryption import *
    HAS_CRYPTO = True
except ImportError:
    HAS_CRYPTO = False


class TestEncryption(Bcfg2TestCase):
    plaintext = """foo bar
baz
ö
\t\tquux
""" + "a" * 16384  # 16K is completely arbitrary
    iv = "0123456789ABCDEF"
    salt = "01234567"
    algo = "des_cbc"

    @skipUnless(HAS_CRYPTO, "Encryption libraries not found")
    def setUp(self):
        Bcfg2.Options.setup.algorithm = "aes_256_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_bruteforce_decrypt(self):
        passwd = "a simple passphrase"
        crypted = ssl_encrypt(self.plaintext, passwd)

        # test with no passphrases given nor in config
        Bcfg2.Options.setup.passphrases = dict()
        self.assertRaises(EVPError,
                          bruteforce_decrypt, crypted)

        # test with good passphrase given in function call
        self.assertEqual(self.plaintext,
                         bruteforce_decrypt(crypted,
                                            passphrases=["bogus pass",
                                                         passwd,
                                                         "also bogus"]))

        # test with no good passphrase given nor in config
        self.assertRaises(EVPError,
                          bruteforce_decrypt,
                          crypted, passphrases=["bogus", "also bogus"])

        # test with good passphrase in config file
        Bcfg2.Options.setup.passphrases = dict(bogus="bogus",
                                               real=passwd,
                                               bogus2="also bogus")
        self.assertEqual(self.plaintext,
                         bruteforce_decrypt(crypted))

        # test that passphrases given in function call take
        # precedence over config
        self.assertRaises(EVPError,
                          bruteforce_decrypt, crypted,
                          passphrases=["bogus", "also bogus"])

        # test that different algorithms are used
        crypted = ssl_encrypt(self.plaintext, passwd, algorithm=self.algo)
        self.assertEqual(self.plaintext,
                         bruteforce_decrypt(crypted, algorithm=self.algo))