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community.general/test/units/parsing/vault/test_vault.py
Adrian Likins 297dfb1d50 Vault secrets script client inc new 'keyring' client (#27669)
This adds a new type of vault-password script  (a 'client') that takes advantage of and enhances the 
multiple vault password support.

If a vault password script basename ends with the name '-client', consider it a vault password script client. 

A vault password script 'client' just means that the script will take a '--vault-id' command line arg.

The previous vault password script (as invoked by --vault-password-file pointing to an executable) takes
no args and returns the password on stdout. But it doesnt know anything about --vault-id or multiple vault
passwords.

The new 'protocol' of the vault password script takes a cli arg ('--vault-id') so that it can lookup that specific
vault-id and return it's password.

Since existing vault password scripts don't know the new 'protocol', a way to distinguish password scripts
that do understand the protocol was needed.  The convention now is to consider password scripts that are
named like 'something-client.py' (and executable) to be vault password client scripts.

The new client scripts get invoked with the '--vault-id' they were requested for. An example:

     ansible-playbook --vault-id my_vault_id@contrib/vault/vault-keyring-client.py some_playbook.yml

That will cause the 'contrib/vault/vault-keyring-client.py' script to be invoked as:

     contrib/vault/vault-keyring-client.py --vault-id my_vault_id

The previous vault-keyring.py password script was extended to become vault-keyring-client.py. It uses
the python 'keyring' module to request secrets from various backends. The plain 'vault-keyring.py' script
would determine which key id and keyring name to use based on values that had to be set in ansible.cfg.
So it was also limited to one keyring name.

The new vault-keyring-client.py will request the secret for the vault id provided via the '--vault-id' option.
The script can be used without config and can be used for multiple keyring ids (and keyrings).

On success, a vault password client script will print the password to stdout and exit with a return code of 0.
If the 'client' script can't find a secret for the --vault-id, the script will exit with return code of 2 and print an error to stderr.
2017-10-13 15:23:08 -04:00

856 lines
36 KiB
Python

# -*- coding: utf-8 -*-
# (c) 2012-2014, Michael DeHaan <michael.dehaan@gmail.com>
# (c) 2016, Toshio Kuratomi <tkuratomi@ansible.com>
#
# 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 <http://www.gnu.org/licenses/>.
# Make coding more python3-ish
from __future__ import (absolute_import, division, print_function)
__metaclass__ = type
import binascii
import io
import os
import tempfile
from binascii import hexlify
import pytest
from ansible.compat.tests import unittest
from ansible.compat.tests.mock import patch, MagicMock
from ansible import errors
from ansible.module_utils import six
from ansible.module_utils._text import to_bytes, to_text
from ansible.parsing import vault
from units.mock.loader import DictDataLoader
from units.mock.vault_helper import TextVaultSecret
class TestVaultSecret(unittest.TestCase):
def test(self):
secret = vault.VaultSecret()
secret.load()
self.assertIsNone(secret._bytes)
def test_bytes(self):
some_text = u'私はガラスを食べられます。それは私を傷つけません。'
_bytes = to_bytes(some_text)
secret = vault.VaultSecret(_bytes)
secret.load()
self.assertEqual(secret.bytes, _bytes)
class TestPromptVaultSecret(unittest.TestCase):
def test_empty_prompt_formats(self):
secret = vault.PromptVaultSecret(vault_id='test_id', prompt_formats=[])
secret.load()
self.assertIsNone(secret._bytes)
@patch('ansible.parsing.vault.display.prompt', return_value='the_password')
def test_prompt_formats_none(self, mock_display_prompt):
secret = vault.PromptVaultSecret(vault_id='test_id')
secret.load()
self.assertEqual(secret._bytes, b'the_password')
@patch('ansible.parsing.vault.display.prompt', return_value='the_password')
def test_custom_prompt(self, mock_display_prompt):
secret = vault.PromptVaultSecret(vault_id='test_id',
prompt_formats=['The cow flies at midnight: '])
secret.load()
self.assertEqual(secret._bytes, b'the_password')
@patch('ansible.parsing.vault.display.prompt', side_effect=EOFError)
def test_prompt_eoferror(self, mock_display_prompt):
secret = vault.PromptVaultSecret(vault_id='test_id')
self.assertRaisesRegexp(vault.AnsibleVaultError,
'EOFError.*test_id',
secret.load)
@patch('ansible.parsing.vault.display.prompt', side_effect=['first_password', 'second_password'])
def test_prompt_passwords_dont_match(self, mock_display_prompt):
secret = vault.PromptVaultSecret(vault_id='test_id',
prompt_formats=['Vault password: ',
'Confirm Vault password: '])
self.assertRaisesRegexp(errors.AnsibleError,
'Passwords do not match',
secret.load)
class TestFileVaultSecret(unittest.TestCase):
def test(self):
secret = vault.FileVaultSecret()
self.assertIsNone(secret._bytes)
self.assertIsNone(secret._text)
def test_repr_empty(self):
secret = vault.FileVaultSecret()
self.assertEqual(repr(secret), "FileVaultSecret()")
def test_repr(self):
tmp_file = tempfile.NamedTemporaryFile(delete=False)
fake_loader = DictDataLoader({tmp_file.name: 'sdfadf'})
secret = vault.FileVaultSecret(loader=fake_loader, filename=tmp_file.name)
filename = tmp_file.name
tmp_file.close()
self.assertEqual(repr(secret), "FileVaultSecret(filename='%s')" % filename)
def test_empty_bytes(self):
secret = vault.FileVaultSecret()
self.assertIsNone(secret.bytes)
def test_file(self):
password = 'some password'
tmp_file = tempfile.NamedTemporaryFile(delete=False)
tmp_file.write(to_bytes(password))
tmp_file.close()
fake_loader = DictDataLoader({tmp_file.name: 'sdfadf'})
secret = vault.FileVaultSecret(loader=fake_loader, filename=tmp_file.name)
secret.load()
os.unlink(tmp_file.name)
self.assertEqual(secret.bytes, to_bytes(password))
def test_file_empty(self):
tmp_file = tempfile.NamedTemporaryFile(delete=False)
tmp_file.write(to_bytes(''))
tmp_file.close()
fake_loader = DictDataLoader({tmp_file.name: ''})
secret = vault.FileVaultSecret(loader=fake_loader, filename=tmp_file.name)
self.assertRaisesRegexp(vault.AnsibleVaultPasswordError,
'Invalid vault password was provided from file.*%s' % tmp_file.name,
secret.load)
os.unlink(tmp_file.name)
def test_file_not_a_directory(self):
filename = '/dev/null/foobar'
fake_loader = DictDataLoader({filename: 'sdfadf'})
secret = vault.FileVaultSecret(loader=fake_loader, filename=filename)
self.assertRaisesRegexp(errors.AnsibleError,
'.*Could not read vault password file.*/dev/null/foobar.*Not a directory',
secret.load)
def test_file_not_found(self):
tmp_file = tempfile.NamedTemporaryFile()
filename = tmp_file.name
tmp_file.close()
fake_loader = DictDataLoader({filename: 'sdfadf'})
secret = vault.FileVaultSecret(loader=fake_loader, filename=filename)
self.assertRaisesRegexp(errors.AnsibleError,
'.*Could not read vault password file.*%s.*' % filename,
secret.load)
class TestScriptVaultSecret(unittest.TestCase):
def test(self):
secret = vault.ScriptVaultSecret()
self.assertIsNone(secret._bytes)
self.assertIsNone(secret._text)
def _mock_popen(self, mock_popen, return_code=0, stdout=b'', stderr=b''):
def communicate():
return stdout, stderr
mock_popen.return_value = MagicMock(returncode=return_code)
mock_popen_instance = mock_popen.return_value
mock_popen_instance.communicate = communicate
@patch('ansible.parsing.vault.subprocess.Popen')
def test_read_file(self, mock_popen):
self._mock_popen(mock_popen, stdout=b'some_password')
secret = vault.ScriptVaultSecret()
with patch.object(secret, 'loader') as mock_loader:
mock_loader.is_executable = MagicMock(return_value=True)
secret.load()
@patch('ansible.parsing.vault.subprocess.Popen')
def test_read_file_empty(self, mock_popen):
self._mock_popen(mock_popen, stdout=b'')
secret = vault.ScriptVaultSecret()
with patch.object(secret, 'loader') as mock_loader:
mock_loader.is_executable = MagicMock(return_value=True)
self.assertRaisesRegexp(vault.AnsibleVaultPasswordError,
'Invalid vault password was provided from script',
secret.load)
@patch('ansible.parsing.vault.subprocess.Popen')
def test_read_file_os_error(self, mock_popen):
self._mock_popen(mock_popen)
mock_popen.side_effect = OSError('That is not an executable')
secret = vault.ScriptVaultSecret()
with patch.object(secret, 'loader') as mock_loader:
mock_loader.is_executable = MagicMock(return_value=True)
self.assertRaisesRegexp(errors.AnsibleError,
'Problem running vault password script.*',
secret.load)
@patch('ansible.parsing.vault.subprocess.Popen')
def test_read_file_not_executable(self, mock_popen):
self._mock_popen(mock_popen)
secret = vault.ScriptVaultSecret()
with patch.object(secret, 'loader') as mock_loader:
mock_loader.is_executable = MagicMock(return_value=False)
self.assertRaisesRegexp(vault.AnsibleVaultError,
'The vault password script .* was not executable',
secret.load)
@patch('ansible.parsing.vault.subprocess.Popen')
def test_read_file_non_zero_return_code(self, mock_popen):
stderr = b'That did not work for a random reason'
rc = 37
self._mock_popen(mock_popen, return_code=rc, stderr=stderr)
secret = vault.ScriptVaultSecret(filename='/dev/null/some_vault_secret')
with patch.object(secret, 'loader') as mock_loader:
mock_loader.is_executable = MagicMock(return_value=True)
self.assertRaisesRegexp(errors.AnsibleError,
'Vault password script.*returned non-zero \(%s\): %s' % (rc, stderr),
secret.load)
class TestScriptIsClient(unittest.TestCase):
def test_randomname(self):
filename = 'randomname'
res = vault.script_is_client(filename)
self.assertFalse(res)
def test_something_dash_client(self):
filename = 'something-client'
res = vault.script_is_client(filename)
self.assertTrue(res)
def test_something_dash_client_somethingelse(self):
filename = 'something-client-somethingelse'
res = vault.script_is_client(filename)
self.assertFalse(res)
def test_something_dash_client_py(self):
filename = 'something-client.py'
res = vault.script_is_client(filename)
self.assertTrue(res)
def test_full_path_something_dash_client_py(self):
filename = '/foo/bar/something-client.py'
res = vault.script_is_client(filename)
self.assertTrue(res)
def test_full_path_something_dash_client(self):
filename = '/foo/bar/something-client'
res = vault.script_is_client(filename)
self.assertTrue(res)
def test_full_path_something_dash_client_in_dir(self):
filename = '/foo/bar/something-client/but/not/filename'
res = vault.script_is_client(filename)
self.assertFalse(res)
class TestGetFileVaultSecret(unittest.TestCase):
def test_file(self):
password = 'some password'
tmp_file = tempfile.NamedTemporaryFile(delete=False)
tmp_file.write(to_bytes(password))
tmp_file.close()
fake_loader = DictDataLoader({tmp_file.name: 'sdfadf'})
secret = vault.get_file_vault_secret(filename=tmp_file.name, loader=fake_loader)
secret.load()
os.unlink(tmp_file.name)
self.assertEqual(secret.bytes, to_bytes(password))
def test_file_not_a_directory(self):
filename = '/dev/null/foobar'
fake_loader = DictDataLoader({filename: 'sdfadf'})
self.assertRaisesRegexp(errors.AnsibleError,
'.*The vault password file %s was not found.*' % filename,
vault.get_file_vault_secret,
filename=filename,
loader=fake_loader)
def test_file_not_found(self):
tmp_file = tempfile.NamedTemporaryFile()
filename = tmp_file.name
tmp_file.close()
fake_loader = DictDataLoader({filename: 'sdfadf'})
self.assertRaisesRegexp(errors.AnsibleError,
'.*The vault password file %s was not found.*' % filename,
vault.get_file_vault_secret,
filename=filename,
loader=fake_loader)
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))
@pytest.mark.skipif(not vault.HAS_CRYPTOGRAPHY,
reason="Skipping cryptography tests because cryptography is not installed")
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_cryptography(self):
b_password = b'hunter42'
b_salt = os.urandom(32)
b_key_cryptography = self.vault_cipher._create_key_cryptography(b_password, b_salt, key_length=32, iv_length=16)
self.assertIsInstance(b_key_cryptography, six.binary_type)
@pytest.mark.skipif(not vault.HAS_PYCRYPTO, reason='Not testing pycrypto key as pycrypto is not installed')
def test_create_key_pycrypto(self):
b_password = b'hunter42'
b_salt = os.urandom(32)
b_key_pycrypto = self.vault_cipher._create_key_pycrypto(b_password, b_salt, key_length=32, iv_length=16)
self.assertIsInstance(b_key_pycrypto, six.binary_type)
@pytest.mark.skipif(not vault.HAS_PYCRYPTO,
reason='Not comparing cryptography key to pycrypto key as pycrypto is not installed')
def test_compare_new_keys(self):
b_password = b'hunter42'
b_salt = os.urandom(32)
b_key_cryptography = self.vault_cipher._create_key_cryptography(b_password, b_salt, key_length=32, iv_length=16)
b_key_pycrypto = self.vault_cipher._create_key_pycrypto(b_password, b_salt, key_length=32, iv_length=16)
self.assertEqual(b_key_cryptography, b_key_pycrypto)
def test_create_key_known_cryptography(self):
b_password = b'hunter42'
# A fixed salt
b_salt = b'q' * 32 # q is the most random letter.
b_key_1 = self.vault_cipher._create_key_cryptography(b_password, b_salt, key_length=32, iv_length=16)
self.assertIsInstance(b_key_1, 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_cryptography(b_password, b_salt, key_length=32, iv_length=16)
self.assertIsInstance(b_key_2, six.binary_type)
self.assertEqual(b_key_1, b_key_2)
# And again with pycrypto
b_key_3 = self.vault_cipher._create_key_pycrypto(b_password, b_salt, key_length=32, iv_length=16)
self.assertIsInstance(b_key_3, 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_4 = self.vault_cipher._create_key_pycrypto(b_password, b_salt, key_length=32, iv_length=16)
self.assertIsInstance(b_key_4, six.binary_type)
self.assertEqual(b_key_3, b_key_4)
self.assertEqual(b_key_1, b_key_4)
def test_create_key_known_pycrypto(self):
b_password = b'hunter42'
# A fixed salt
b_salt = b'q' * 32 # q is the most random letter.
b_key_3 = self.vault_cipher._create_key_pycrypto(b_password, b_salt, key_length=32, iv_length=16)
self.assertIsInstance(b_key_3, 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_4 = self.vault_cipher._create_key_pycrypto(b_password, b_salt, key_length=32, iv_length=16)
self.assertIsInstance(b_key_4, six.binary_type)
self.assertEqual(b_key_3, b_key_4)
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)
@pytest.mark.skipif(not vault.HAS_PYCRYPTO,
reason="Skipping Pycrypto tests because pycrypto is not installed")
class TestVaultCipherAes256PyCrypto(TestVaultCipherAes256):
def setUp(self):
self.has_cryptography = vault.HAS_CRYPTOGRAPHY
vault.HAS_CRYPTOGRAPHY = False
super(TestVaultCipherAes256PyCrypto, self).setUp()
def tearDown(self):
vault.HAS_CRYPTOGRAPHY = self.has_cryptography
super(TestVaultCipherAes256PyCrypto, self).tearDown()
class TestMatchSecrets(unittest.TestCase):
def test_empty_tuple(self):
secrets = [tuple()]
vault_ids = ['vault_id_1']
self.assertRaises(ValueError,
vault.match_secrets,
secrets, vault_ids)
def test_empty_secrets(self):
matches = vault.match_secrets([], ['vault_id_1'])
self.assertEqual(matches, [])
def test_single_match(self):
secret = TextVaultSecret('password')
matches = vault.match_secrets([('default', secret)], ['default'])
self.assertEquals(matches, [('default', secret)])
def test_no_matches(self):
secret = TextVaultSecret('password')
matches = vault.match_secrets([('default', secret)], ['not_default'])
self.assertEquals(matches, [])
def test_multiple_matches(self):
secrets = [('vault_id1', TextVaultSecret('password1')),
('vault_id2', TextVaultSecret('password2')),
('vault_id1', TextVaultSecret('password3')),
('vault_id4', TextVaultSecret('password4'))]
vault_ids = ['vault_id1', 'vault_id4']
matches = vault.match_secrets(secrets, vault_ids)
self.assertEqual(len(matches), 3)
expected = [('vault_id1', TextVaultSecret('password1')),
('vault_id1', TextVaultSecret('password3')),
('vault_id4', TextVaultSecret('password4'))]
self.assertEqual([x for x, y in matches],
[a for a, b in expected])
@pytest.mark.skipif(not vault.HAS_CRYPTOGRAPHY,
reason="Skipping cryptography tests because cryptography is not installed")
class TestVaultLib(unittest.TestCase):
def setUp(self):
self.vault_password = "test-vault-password"
text_secret = TextVaultSecret(self.vault_password)
self.vault_secrets = [('default', text_secret),
('test_id', text_secret)]
self.v = vault.VaultLib(self.vault_secrets)
def _vault_secrets(self, vault_id, secret):
return [(vault_id, secret)]
def _vault_secrets_from_password(self, vault_id, password):
return [(vault_id, TextVaultSecret(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_vault_id(self):
plaintext = u'Some text to encrypt in a café'
b_vaulttext = self.v.encrypt(plaintext, vault_id='test_id')
self.assertIsInstance(b_vaulttext, six.binary_type)
b_header = b'$ANSIBLE_VAULT;1.2;AES256;test_id\n'
self.assertEqual(b_vaulttext[:len(b_header)], b_header)
def test_encrypt_bytes(self):
plaintext = to_bytes(u'Some text to encrypt in a café')
b_vaulttext = self.v.encrypt(plaintext)
self.assertIsInstance(b_vaulttext, six.binary_type)
b_header = b'$ANSIBLE_VAULT;1.1;AES256\n'
self.assertEqual(b_vaulttext[:len(b_header)], b_header)
def test_encrypt_no_secret_empty_secrets(self):
vault_secrets = []
v = vault.VaultLib(vault_secrets)
plaintext = u'Some text to encrypt in a café'
self.assertRaisesRegexp(vault.AnsibleVaultError,
'.*A vault password must be specified to encrypt data.*',
v.encrypt,
plaintext)
def test_is_encrypted(self):
self.assertFalse(self.v.is_encrypted(b"foobar"), msg="encryption check on plaintext yielded false positive")
b_data = b"$ANSIBLE_VAULT;9.9;TEST\n%s" % hexlify(b"ansible")
self.assertTrue(self.v.is_encrypted(b_data), msg="encryption check on headered text failed")
def test_format_vaulttext_envelope(self):
cipher_name = "TEST"
b_ciphertext = b"ansible"
b_vaulttext = vault.format_vaulttext_envelope(b_ciphertext,
cipher_name,
version=self.v.b_version,
vault_id='default')
b_lines = b_vaulttext.split(b'\n')
self.assertGreater(len(b_lines), 1, msg="failed to properly add header")
b_header = b_lines[0]
# self.assertTrue(b_header.endswith(b';TEST'), msg="header does not end with cipher name")
b_header_parts = b_header.split(b';')
self.assertEqual(len(b_header_parts), 4, msg="header has the wrong number of parts")
self.assertEqual(b_header_parts[0], b'$ANSIBLE_VAULT', msg="header does not start with $ANSIBLE_VAULT")
self.assertEqual(b_header_parts[1], self.v.b_version, msg="header version is incorrect")
self.assertEqual(b_header_parts[2], b'TEST', msg="header does not end with cipher name")
# And just to verify, lets parse the results and compare
b_ciphertext2, b_version2, cipher_name2, vault_id2 = \
vault.parse_vaulttext_envelope(b_vaulttext)
self.assertEqual(b_ciphertext, b_ciphertext2)
self.assertEqual(self.v.b_version, b_version2)
self.assertEqual(cipher_name, cipher_name2)
self.assertEqual('default', vault_id2)
def test_parse_vaulttext_envelope(self):
b_vaulttext = b"$ANSIBLE_VAULT;9.9;TEST\nansible"
b_ciphertext, b_version, cipher_name, vault_id = vault.parse_vaulttext_envelope(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(cipher_name, u'TEST', msg="cipher name was not properly set")
self.assertEqual(b_version, b"9.9", msg="version was not properly set")
def test_parse_vaulttext_envelope_crlf(self):
b_vaulttext = b"$ANSIBLE_VAULT;9.9;TEST\r\nansible"
b_ciphertext, b_version, cipher_name, vault_id = vault.parse_vaulttext_envelope(b_vaulttext)
b_lines = b_ciphertext.split(b'\n')
self.assertEqual(b_lines[0], b"ansible", msg="Payload was not properly split from the header")
self.assertEqual(cipher_name, u'TEST', msg="cipher name was not properly set")
self.assertEqual(b_version, b"9.9", msg="version was not properly set")
def test_encrypt_decrypt_aes(self):
self.v.cipher_name = u'AES'
vault_secrets = self._vault_secrets_from_password('default', 'ansible')
self.v.secrets = vault_secrets
# AES encryption code has been removed, so this is old output for
# AES-encrypted 'foobar' with password 'ansible'.
b_vaulttext = b'''$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):
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_none_secrets(self):
vault_secrets = self._vault_secrets_from_password('default', 'ansible')
v = vault.VaultLib(vault_secrets)
plaintext = u"foobar"
b_vaulttext = v.encrypt(plaintext)
# VaultLib will default to empty {} if secrets is None
v_none = vault.VaultLib(None)
# so set secrets None explicitly
v_none.secrets = None
self.assertRaisesRegexp(vault.AnsibleVaultError,
'.*A vault password must be specified to decrypt data.*',
v_none.decrypt,
b_vaulttext)
def test_encrypt_decrypt_aes256_empty_secrets(self):
vault_secrets = self._vault_secrets_from_password('default', 'ansible')
v = vault.VaultLib(vault_secrets)
plaintext = u"foobar"
b_vaulttext = v.encrypt(plaintext)
vault_secrets_empty = []
v_none = vault.VaultLib(vault_secrets_empty)
self.assertRaisesRegexp(vault.AnsibleVaultError,
'.*Attempting to decrypt but no vault secrets found.*',
v_none.decrypt,
b_vaulttext)
def test_encrypt_decrypt_aes256_multiple_secrets_all_wrong(self):
plaintext = u'Some text to encrypt in a café'
b_vaulttext = self.v.encrypt(plaintext)
vault_secrets = [('default', TextVaultSecret('another-wrong-password')),
('wrong-password', TextVaultSecret('wrong-password'))]
v_multi = vault.VaultLib(vault_secrets)
self.assertRaisesRegexp(errors.AnsibleError,
'.*Decryption failed.*',
v_multi.decrypt,
b_vaulttext,
filename='/dev/null/fake/filename')
def test_encrypt_decrypt_aes256_multiple_secrets_one_valid(self):
plaintext = u'Some text to encrypt in a café'
b_vaulttext = self.v.encrypt(plaintext)
correct_secret = TextVaultSecret(self.vault_password)
wrong_secret = TextVaultSecret('wrong-password')
vault_secrets = [('default', wrong_secret),
('corect_secret', correct_secret),
('wrong_secret', wrong_secret)]
v_multi = vault.VaultLib(vault_secrets)
b_plaintext = v_multi.decrypt(b_vaulttext)
self.assertNotEqual(b_vaulttext, to_bytes(plaintext), msg="encryption failed")
self.assertEqual(b_plaintext, to_bytes(plaintext), msg="decryption failed")
def test_encrypt_decrypt_aes256_existing_vault(self):
self.v.cipher_name = u'AES256'
b_orig_plaintext = b"Setec Astronomy"
vaulttext = u'''$ANSIBLE_VAULT;1.1;AES256
33363965326261303234626463623963633531343539616138316433353830356566396130353436
3562643163366231316662386565383735653432386435610a306664636137376132643732393835
63383038383730306639353234326630666539346233376330303938323639306661313032396437
6233623062366136310a633866373936313238333730653739323461656662303864663666653563
3138'''
b_plaintext = self.v.decrypt(vaulttext)
self.assertEqual(b_plaintext, b_plaintext, msg="decryption failed")
b_vaulttext = to_bytes(vaulttext, encoding='ascii', errors='strict')
b_plaintext = self.v.decrypt(b_vaulttext)
self.assertEqual(b_plaintext, b_orig_plaintext, msg="decryption failed")
# FIXME This test isn't working quite yet.
@pytest.mark.skip(reason='This test is not ready yet')
def test_encrypt_decrypt_aes256_bad_hmac(self):
self.v.cipher_name = 'AES256'
# plaintext = "Setec Astronomy"
enc_data = '''$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_decrypt_non_default_1_2(self):
b_expected_plaintext = to_bytes('foo bar\n')
vaulttext = '''$ANSIBLE_VAULT;1.2;AES256;ansible_devel
65616435333934613466373335363332373764363365633035303466643439313864663837393234
3330656363343637313962633731333237313636633534630a386264363438363362326132363239
39363166646664346264383934393935653933316263333838386362633534326664646166663736
6462303664383765650a356637643633366663643566353036303162386237336233393065393164
6264'''
vault_secrets = self._vault_secrets_from_password('default', 'ansible')
v = vault.VaultLib(vault_secrets)
b_vaulttext = to_bytes(vaulttext)
b_plaintext = v.decrypt(b_vaulttext)
self.assertEqual(b_expected_plaintext, b_plaintext)
b_ciphertext, b_version, cipher_name, vault_id = vault.parse_vaulttext_envelope(b_vaulttext)
self.assertEqual('ansible_devel', vault_id)
self.assertEqual(b'1.2', b_version)
def test_encrypt_encrypted(self):
self.v.cipher_name = u'AES'
b_vaulttext = b"$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):
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):
plaintext = u"ansible"
self.v.encrypt(plaintext)
self.assertEquals(self.v.cipher_name, "AES256")
@pytest.mark.skipif(not vault.HAS_PYCRYPTO,
reason="Skipping Pycrypto tests because pycrypto is not installed")
class TestVaultLibPyCrypto(TestVaultLib):
def setUp(self):
self.has_cryptography = vault.HAS_CRYPTOGRAPHY
vault.HAS_CRYPTOGRAPHY = False
super(TestVaultLibPyCrypto, self).setUp()
def tearDown(self):
vault.HAS_CRYPTOGRAPHY = self.has_cryptography
super(TestVaultLibPyCrypto, self).tearDown()