# -*- coding: utf-8 -*- # (c) 2012-2014, Michael DeHaan # (c) 2016, Toshio Kuratomi # # This file is part of Ansible # # Ansible is free software: you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation, either version 3 of the License, or # (at your option) any later version. # # Ansible is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with Ansible. If not, see . # Make coding more python3-ish from __future__ import (absolute_import, division, print_function) __metaclass__ = type import binascii import io import os from binascii import hexlify from nose.plugins.skip import SkipTest from ansible.compat.tests import unittest from ansible import errors from ansible.module_utils import six from ansible.module_utils._text import to_bytes, to_text from ansible.parsing.vault import VaultLib from ansible.parsing import vault # Counter import fails for 2.0.1, requires >= 2.6.1 from pip try: from Crypto.Util import Counter HAS_COUNTER = True except ImportError: HAS_COUNTER = False # KDF import fails for 2.0.1, requires >= 2.6.1 from pip try: from Crypto.Protocol.KDF import PBKDF2 HAS_PBKDF2 = True except ImportError: HAS_PBKDF2 = False # AES IMPORTS try: from Crypto.Cipher import AES as AES HAS_AES = True except ImportError: HAS_AES = False class TestVaultIsEncrypted(unittest.TestCase): def test_bytes_not_encrypted(self): b_data = b"foobar" self.assertFalse(vault.is_encrypted(b_data)) def test_bytes_encrypted(self): b_data = b"$ANSIBLE_VAULT;9.9;TEST\n%s" % hexlify(b"ansible") self.assertTrue(vault.is_encrypted(b_data)) def test_text_not_encrypted(self): b_data = to_text(b"foobar") self.assertFalse(vault.is_encrypted(b_data)) def test_text_encrypted(self): b_data = to_text(b"$ANSIBLE_VAULT;9.9;TEST\n%s" % hexlify(b"ansible")) self.assertTrue(vault.is_encrypted(b_data)) def test_invalid_text_not_ascii(self): data = u"$ANSIBLE_VAULT;9.9;TEST\n%s"% u"ァ ア ィ イ ゥ ウ ェ エ ォ オ カ ガ キ ギ ク グ ケ " self.assertFalse(vault.is_encrypted(data)) def test_invalid_bytes_not_ascii(self): data = u"$ANSIBLE_VAULT;9.9;TEST\n%s"% u"ァ ア ィ イ ゥ ウ ェ エ ォ オ カ ガ キ ギ ク グ ケ " b_data = to_bytes(data, encoding='utf-8') self.assertFalse(vault.is_encrypted(b_data)) class TestVaultIsEncryptedFile(unittest.TestCase): def test_binary_file_handle_not_encrypted(self): b_data = b"foobar" b_data_fo = io.BytesIO(b_data) self.assertFalse(vault.is_encrypted_file(b_data_fo)) def test_text_file_handle_not_encrypted(self): data = u"foobar" data_fo = io.StringIO(data) self.assertFalse(vault.is_encrypted_file(data_fo)) def test_binary_file_handle_encrypted(self): b_data = b"$ANSIBLE_VAULT;9.9;TEST\n%s" % hexlify(b"ansible") b_data_fo = io.BytesIO(b_data) self.assertTrue(vault.is_encrypted_file(b_data_fo)) def test_text_file_handle_encrypted(self): data = u"$ANSIBLE_VAULT;9.9;TEST\n%s" % to_text(hexlify(b"ansible")) data_fo = io.StringIO(data) self.assertTrue(vault.is_encrypted_file(data_fo)) def test_binary_file_handle_invalid(self): data = u"$ANSIBLE_VAULT;9.9;TEST\n%s" % u"ァ ア ィ イ ゥ ウ ェ エ ォ オ カ ガ キ ギ ク グ ケ " b_data = to_bytes(data) b_data_fo = io.BytesIO(b_data) self.assertFalse(vault.is_encrypted_file(b_data_fo)) def test_text_file_handle_invalid(self): data = u"$ANSIBLE_VAULT;9.9;TEST\n%s" % u"ァ ア ィ イ ゥ ウ ェ エ ォ オ カ ガ キ ギ ク グ ケ " data_fo = io.StringIO(data) self.assertFalse(vault.is_encrypted_file(data_fo)) def test_file_already_read_from_finds_header(self): b_data = b"$ANSIBLE_VAULT;9.9;TEST\n%s" % hexlify(b"ansible\ntesting\nfile pos") b_data_fo = io.BytesIO(b_data) b_data_fo.read(42) # Arbitrary number self.assertTrue(vault.is_encrypted_file(b_data_fo)) def test_file_already_read_from_saves_file_pos(self): b_data = b"$ANSIBLE_VAULT;9.9;TEST\n%s" % hexlify(b"ansible\ntesting\nfile pos") b_data_fo = io.BytesIO(b_data) b_data_fo.read(69) # Arbitrary number vault.is_encrypted_file(b_data_fo) self.assertEqual(b_data_fo.tell(), 69) def test_file_with_offset(self): b_data = b"JUNK$ANSIBLE_VAULT;9.9;TEST\n%s" % hexlify(b"ansible\ntesting\nfile pos") b_data_fo = io.BytesIO(b_data) self.assertTrue(vault.is_encrypted_file(b_data_fo, start_pos=4)) def test_file_with_count(self): b_data = b"$ANSIBLE_VAULT;9.9;TEST\n%s" % hexlify(b"ansible\ntesting\nfile pos") vault_length = len(b_data) b_data = b_data + u'ァ ア'.encode('utf-8') b_data_fo = io.BytesIO(b_data) self.assertTrue(vault.is_encrypted_file(b_data_fo, count=vault_length)) def test_file_with_offset_and_count(self): b_data = b"$ANSIBLE_VAULT;9.9;TEST\n%s" % hexlify(b"ansible\ntesting\nfile pos") vault_length = len(b_data) b_data = b'JUNK' + b_data + u'ァ ア'.encode('utf-8') b_data_fo = io.BytesIO(b_data) self.assertTrue(vault.is_encrypted_file(b_data_fo, start_pos=4, count=vault_length)) class TestVaultCipherAes256(unittest.TestCase): def setUp(self): self.vault_cipher = vault.VaultAES256() def test(self): self.assertIsInstance(self.vault_cipher, vault.VaultAES256) # TODO: tag these as slow tests def test_create_key(self): b_password = b'hunter42' b_salt = os.urandom(32) b_key = self.vault_cipher._create_key(b_password, b_salt, keylength=32, ivlength=16) self.assertIsInstance(b_key, six.binary_type) def test_create_key_known(self): b_password = b'hunter42' # A fixed salt b_salt = b'q' * 32 # q is the most random letter. b_key = self.vault_cipher._create_key(b_password, b_salt, keylength=32, ivlength=16) self.assertIsInstance(b_key, six.binary_type) # verify we get the same answer # we could potentially run a few iterations of this and time it to see if it's roughly constant time # and or that it exceeds some minimal time, but that would likely cause unreliable fails, esp in CI b_key_2 = self.vault_cipher._create_key(b_password, b_salt, keylength=32, ivlength=16) self.assertIsInstance(b_key, six.binary_type) self.assertEqual(b_key, b_key_2) def test_is_equal_is_equal(self): self.assertTrue(self.vault_cipher._is_equal(b'abcdefghijklmnopqrstuvwxyz', b'abcdefghijklmnopqrstuvwxyz')) def test_is_equal_unequal_length(self): self.assertFalse(self.vault_cipher._is_equal(b'abcdefghijklmnopqrstuvwxyz', b'abcdefghijklmnopqrstuvwx and sometimes y')) def test_is_equal_not_equal(self): self.assertFalse(self.vault_cipher._is_equal(b'abcdefghijklmnopqrstuvwxyz', b'AbcdefghijKlmnopQrstuvwxZ')) def test_is_equal_empty(self): self.assertTrue(self.vault_cipher._is_equal(b'', b'')) def test_is_equal_non_ascii_equal(self): utf8_data = to_bytes(u'私はガラスを食べられます。それは私を傷つけません。') self.assertTrue(self.vault_cipher._is_equal(utf8_data, utf8_data)) def test_is_equal_non_ascii_unequal(self): utf8_data = to_bytes(u'私はガラスを食べられます。それは私を傷つけません。') utf8_data2 = to_bytes(u'Pot să mănânc sticlă și ea nu mă rănește.') # Test for the len optimization path self.assertFalse(self.vault_cipher._is_equal(utf8_data, utf8_data2)) # Test for the slower, char by char comparison path self.assertFalse(self.vault_cipher._is_equal(utf8_data, utf8_data[:-1] + b'P')) def test_is_equal_non_bytes(self): """ Anything not a byte string should raise a TypeError """ self.assertRaises(TypeError, self.vault_cipher._is_equal, u"One fish", b"two fish") self.assertRaises(TypeError, self.vault_cipher._is_equal, b"One fish", u"two fish") self.assertRaises(TypeError, self.vault_cipher._is_equal, 1, b"red fish") self.assertRaises(TypeError, self.vault_cipher._is_equal, b"blue fish", 2) class TestVaultLib(unittest.TestCase): def setUp(self): self.v = VaultLib('test-vault-password') def test_encrypt(self): plaintext = u'Some text to encrypt in a café' b_vaulttext = self.v.encrypt(plaintext) self.assertIsInstance(b_vaulttext, six.binary_type) b_header = b'$ANSIBLE_VAULT;1.1;AES256\n' self.assertEqual(b_vaulttext[:len(b_header)], b_header) def test_encrypt_bytes(self): plaintext = to_bytes(u'Some text to encrypt in a café') b_vaulttext = self.v.encrypt(plaintext) self.assertIsInstance(b_vaulttext, six.binary_type) b_header = b'$ANSIBLE_VAULT;1.1;AES256\n' self.assertEqual(b_vaulttext[:len(b_header)], b_header) def test_is_encrypted(self): self.assertFalse(self.v.is_encrypted(b"foobar"), msg="encryption check on plaintext yielded false positive") b_data = b"$ANSIBLE_VAULT;9.9;TEST\n%s" % hexlify(b"ansible") self.assertTrue(self.v.is_encrypted(b_data), msg="encryption check on headered text failed") def test_format_output(self): self.v.cipher_name = "TEST" b_ciphertext = b"ansible" b_vaulttext = self.v._format_output(b_ciphertext) b_lines = b_vaulttext.split(b'\n') self.assertGreater(len(b_lines), 1, msg="failed to properly add header") b_header = b_lines[0] self.assertTrue(b_header.endswith(b';TEST'), msg="header does not end with cipher name") b_header_parts = b_header.split(b';') self.assertEqual(len(b_header_parts), 3, msg="header has the wrong number of parts") self.assertEqual(b_header_parts[0], b'$ANSIBLE_VAULT', msg="header does not start with $ANSIBLE_VAULT") self.assertEqual(b_header_parts[1], self.v.b_version, msg="header version is incorrect") self.assertEqual(b_header_parts[2], b'TEST', msg="header does not end with cipher name") def test_split_header(self): b_vaulttext = b"$ANSIBLE_VAULT;9.9;TEST\nansible" b_ciphertext = self.v._split_header(b_vaulttext) b_lines = b_ciphertext.split(b'\n') self.assertEqual(b_lines[0], b"ansible", msg="Payload was not properly split from the header") self.assertEqual(self.v.cipher_name, u'TEST', msg="cipher name was not properly set") self.assertEqual(self.v.b_version, b"9.9", msg="version was not properly set") def test_encrypt_decrypt_aes(self): if not HAS_AES or not HAS_COUNTER or not HAS_PBKDF2: raise SkipTest self.v.cipher_name = u'AES' self.v.b_password = b'ansible' # AES encryption code has been removed, so this is old output for # AES-encrypted 'foobar' with password 'ansible'. b_vaulttext = b'''$ANSIBLE_VAULT;1.1;AES 53616c7465645f5fc107ce1ef4d7b455e038a13b053225776458052f8f8f332d554809d3f150bfa3 fe3db930508b65e0ff5947e4386b79af8ab094017629590ef6ba486814cf70f8e4ab0ed0c7d2587e 786a5a15efeb787e1958cbdd480d076c ''' b_plaintext = self.v.decrypt(b_vaulttext) self.assertEqual(b_plaintext, b"foobar", msg="decryption failed") def test_encrypt_decrypt_aes256(self): if not HAS_AES or not HAS_COUNTER or not HAS_PBKDF2: raise SkipTest self.v.cipher_name = u'AES256' plaintext = u"foobar" b_vaulttext = self.v.encrypt(plaintext) b_plaintext = self.v.decrypt(b_vaulttext) self.assertNotEqual(b_vaulttext, b"foobar", msg="encryption failed") self.assertEqual(b_plaintext, b"foobar", msg="decryption failed") def test_encrypt_decrypt_aes256_existing_vault(self): if not HAS_AES or not HAS_COUNTER or not HAS_PBKDF2: raise SkipTest self.v.cipher_name = u'AES256' b_orig_plaintext = b"Setec Astronomy" vaulttext = u'''$ANSIBLE_VAULT;1.1;AES256 33363965326261303234626463623963633531343539616138316433353830356566396130353436 3562643163366231316662386565383735653432386435610a306664636137376132643732393835 63383038383730306639353234326630666539346233376330303938323639306661313032396437 6233623062366136310a633866373936313238333730653739323461656662303864663666653563 3138''' b_plaintext = self.v.decrypt(vaulttext) self.assertEqual(b_plaintext, b_plaintext, msg="decryption failed") b_vaulttext = to_bytes(vaulttext, encoding='ascii', errors='strict') b_plaintext = self.v.decrypt(b_vaulttext) self.assertEqual(b_plaintext, b_orig_plaintext, msg="decryption failed") def test_encrypt_decrypt_aes256_bad_hmac(self): # FIXME This test isn't working quite yet. raise SkipTest if not HAS_AES or not HAS_COUNTER or not HAS_PBKDF2: raise SkipTest self.v.cipher_name = 'AES256' # plaintext = "Setec Astronomy" enc_data = '''$ANSIBLE_VAULT;1.1;AES256 33363965326261303234626463623963633531343539616138316433353830356566396130353436 3562643163366231316662386565383735653432386435610a306664636137376132643732393835 63383038383730306639353234326630666539346233376330303938323639306661313032396437 6233623062366136310a633866373936313238333730653739323461656662303864663666653563 3138''' b_data = to_bytes(enc_data, errors='strict', encoding='utf-8') b_data = self.v._split_header(b_data) foo = binascii.unhexlify(b_data) lines = foo.splitlines() # line 0 is salt, line 1 is hmac, line 2+ is ciphertext b_salt = lines[0] b_hmac = lines[1] b_ciphertext_data = b'\n'.join(lines[2:]) b_ciphertext = binascii.unhexlify(b_ciphertext_data) # b_orig_ciphertext = b_ciphertext[:] # now muck with the text # b_munged_ciphertext = b_ciphertext[:10] + b'\x00' + b_ciphertext[11:] # b_munged_ciphertext = b_ciphertext # assert b_orig_ciphertext != b_munged_ciphertext b_ciphertext_data = binascii.hexlify(b_ciphertext) b_payload = b'\n'.join([b_salt, b_hmac, b_ciphertext_data]) # reformat b_invalid_ciphertext = self.v._format_output(b_payload) # assert we throw an error self.v.decrypt(b_invalid_ciphertext) def test_encrypt_encrypted(self): if not HAS_AES or not HAS_COUNTER or not HAS_PBKDF2: raise SkipTest self.v.cipher_name = u'AES' b_vaulttext = b"$ANSIBLE_VAULT;9.9;TEST\n%s" % hexlify(b"ansible") vaulttext = to_text(b_vaulttext, errors='strict') self.assertRaises(errors.AnsibleError, self.v.encrypt, b_vaulttext) self.assertRaises(errors.AnsibleError, self.v.encrypt, vaulttext) def test_decrypt_decrypted(self): if not HAS_AES or not HAS_COUNTER or not HAS_PBKDF2: raise SkipTest plaintext = u"ansible" self.assertRaises(errors.AnsibleError, self.v.decrypt, plaintext) b_plaintext = b"ansible" self.assertRaises(errors.AnsibleError, self.v.decrypt, b_plaintext) def test_cipher_not_set(self): # not setting the cipher should default to AES256 if not HAS_AES or not HAS_COUNTER or not HAS_PBKDF2: raise SkipTest plaintext = u"ansible" self.v.encrypt(plaintext) self.assertEquals(self.v.cipher_name, "AES256")