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path: root/testing/tests/client/test_crypto.py
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# -*- coding: utf-8 -*-
# test_crypto.py
# Copyright (C) 2013 LEAP
#
# This program 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.
#
# This program 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 this program. If not, see <http://www.gnu.org/licenses/>.
"""
Tests for cryptographic related stuff.
"""
import os
import hashlib
import binascii

from leap.soledad.client import crypto
from leap.soledad.common.document import SoledadDocument
from test_soledad.util import BaseSoledadTest
from leap.soledad.common.crypto import WrongMacError
from leap.soledad.common.crypto import UnknownMacMethodError
from leap.soledad.common.crypto import ENC_JSON_KEY
from leap.soledad.common.crypto import ENC_SCHEME_KEY
from leap.soledad.common.crypto import MAC_KEY
from leap.soledad.common.crypto import MAC_METHOD_KEY


class EncryptedSyncTestCase(BaseSoledadTest):

    """
    Tests that guarantee that data will always be encrypted when syncing.
    """

    def test_encrypt_decrypt_json(self):
        """
        Test encrypting and decrypting documents.
        """
        simpledoc = {'key': 'val'}
        doc1 = SoledadDocument(doc_id='id')
        doc1.content = simpledoc

        # encrypt doc
        doc1.set_json(self._soledad._crypto.encrypt_doc(doc1))
        # assert content is different and includes keys
        self.assertNotEqual(
            simpledoc, doc1.content,
            'incorrect document encryption')
        self.assertTrue(ENC_JSON_KEY in doc1.content)
        self.assertTrue(ENC_SCHEME_KEY in doc1.content)
        # decrypt doc
        doc1.set_json(self._soledad._crypto.decrypt_doc(doc1))
        self.assertEqual(
            simpledoc, doc1.content, 'incorrect document encryption')


class RecoveryDocumentTestCase(BaseSoledadTest):

    def test_export_recovery_document_raw(self):
        rd = self._soledad.secrets._export_recovery_document()
        secret_id = rd[self._soledad.secrets.STORAGE_SECRETS_KEY].items()[0][0]
        # assert exported secret is the same
        secret = self._soledad.secrets._decrypt_storage_secret_version_1(
            rd[self._soledad.secrets.STORAGE_SECRETS_KEY][secret_id])
        self.assertEqual(secret_id, self._soledad.secrets._secret_id)
        self.assertEqual(secret, self._soledad.secrets._secrets[secret_id])
        # assert recovery document structure
        encrypted_secret = rd[
            self._soledad.secrets.STORAGE_SECRETS_KEY][secret_id]
        self.assertTrue(self._soledad.secrets.CIPHER_KEY in encrypted_secret)
        self.assertTrue(
            encrypted_secret[self._soledad.secrets.CIPHER_KEY] == 'aes256')
        self.assertTrue(self._soledad.secrets.LENGTH_KEY in encrypted_secret)
        self.assertTrue(self._soledad.secrets.SECRET_KEY in encrypted_secret)

    def test_import_recovery_document(self):
        rd = self._soledad.secrets._export_recovery_document()
        s = self._soledad_instance()
        s.secrets._import_recovery_document(rd)
        s.secrets.set_secret_id(self._soledad.secrets._secret_id)
        self.assertEqual(self._soledad.storage_secret,
                         s.storage_secret,
                         'Failed settinng secret for symmetric encryption.')
        s.close()


class SoledadSecretsTestCase(BaseSoledadTest):

    def test_new_soledad_instance_generates_one_secret(self):
        self.assertTrue(
            self._soledad.storage_secret is not None,
            "Expected secret to be something different than None")
        number_of_secrets = len(self._soledad.secrets._secrets)
        self.assertTrue(
            number_of_secrets == 1,
            "Expected exactly 1 secret, got %d instead." % number_of_secrets)

    def test_generated_secret_is_of_correct_type(self):
        expected_type = str
        self.assertIsInstance(
            self._soledad.storage_secret, expected_type,
            "Expected secret to be of type %s" % expected_type)

    def test_generated_secret_has_correct_lengt(self):
        expected_length = self._soledad.secrets.GEN_SECRET_LENGTH
        actual_length = len(self._soledad.storage_secret)
        self.assertTrue(
            expected_length == actual_length,
            "Expected secret with length %d, got %d instead."
            % (expected_length, actual_length))

    def test_generated_secret_id_is_sha256_hash_of_secret(self):
        generated = self._soledad.secrets.secret_id
        expected = hashlib.sha256(self._soledad.storage_secret).hexdigest()
        self.assertTrue(
            generated == expected,
            "Expeceted generated secret id to be sha256 hash, got something "
            "else instead.")

    def test_generate_new_secret_generates_different_secret_id(self):
        # generate new secret
        secret_id_1 = self._soledad.secrets.secret_id
        secret_id_2 = self._soledad.secrets._gen_secret()
        self.assertTrue(
            len(self._soledad.secrets._secrets) == 2,
            "Expected exactly 2 secrets.")
        self.assertTrue(
            secret_id_1 != secret_id_2,
            "Expected IDs of secrets to be distinct.")
        self.assertTrue(
            secret_id_1 in self._soledad.secrets._secrets,
            "Expected to find ID of first secret in Soledad Secrets.")
        self.assertTrue(
            secret_id_2 in self._soledad.secrets._secrets,
            "Expected to find ID of second secret in Soledad Secrets.")

    def test__has_secret(self):
        self.assertTrue(
            self._soledad._secrets._has_secret(),
            "Should have a secret at this point")


class MacAuthTestCase(BaseSoledadTest):

    def test_decrypt_with_wrong_mac_raises(self):
        """
        Trying to decrypt a document with wrong MAC should raise.
        """
        simpledoc = {'key': 'val'}
        doc = SoledadDocument(doc_id='id')
        doc.content = simpledoc
        # encrypt doc
        doc.set_json(self._soledad._crypto.encrypt_doc(doc))
        self.assertTrue(MAC_KEY in doc.content)
        self.assertTrue(MAC_METHOD_KEY in doc.content)
        # mess with MAC
        doc.content[MAC_KEY] = '1234567890ABCDEF'
        # try to decrypt doc
        self.assertRaises(
            WrongMacError,
            self._soledad._crypto.decrypt_doc, doc)

    def test_decrypt_with_unknown_mac_method_raises(self):
        """
        Trying to decrypt a document with unknown MAC method should raise.
        """
        simpledoc = {'key': 'val'}
        doc = SoledadDocument(doc_id='id')
        doc.content = simpledoc
        # encrypt doc
        doc.set_json(self._soledad._crypto.encrypt_doc(doc))
        self.assertTrue(MAC_KEY in doc.content)
        self.assertTrue(MAC_METHOD_KEY in doc.content)
        # mess with MAC method
        doc.content[MAC_METHOD_KEY] = 'mymac'
        # try to decrypt doc
        self.assertRaises(
            UnknownMacMethodError,
            self._soledad._crypto.decrypt_doc, doc)


class SoledadCryptoAESTestCase(BaseSoledadTest):

    def test_encrypt_decrypt_sym(self):
        # generate 256-bit key
        key = os.urandom(32)
        iv, cyphertext = crypto.encrypt_sym('data', key)
        self.assertTrue(cyphertext is not None)
        self.assertTrue(cyphertext != '')
        self.assertTrue(cyphertext != 'data')
        plaintext = crypto.decrypt_sym(cyphertext, key, iv)
        self.assertEqual('data', plaintext)

    def test_decrypt_with_wrong_iv_fails(self):
        key = os.urandom(32)
        iv, cyphertext = crypto.encrypt_sym('data', key)
        self.assertTrue(cyphertext is not None)
        self.assertTrue(cyphertext != '')
        self.assertTrue(cyphertext != 'data')
        # get a different iv by changing the first byte
        rawiv = binascii.a2b_base64(iv)
        wrongiv = rawiv
        while wrongiv == rawiv:
            wrongiv = os.urandom(1) + rawiv[1:]
        plaintext = crypto.decrypt_sym(
            cyphertext, key, iv=binascii.b2a_base64(wrongiv))
        self.assertNotEqual('data', plaintext)

    def test_decrypt_with_wrong_key_fails(self):
        key = os.urandom(32)
        iv, cyphertext = crypto.encrypt_sym('data', key)
        self.assertTrue(cyphertext is not None)
        self.assertTrue(cyphertext != '')
        self.assertTrue(cyphertext != 'data')
        wrongkey = os.urandom(32)  # 256-bits key
        # ensure keys are different in case we are extremely lucky
        while wrongkey == key:
            wrongkey = os.urandom(32)
        plaintext = crypto.decrypt_sym(cyphertext, wrongkey, iv)
        self.assertNotEqual('data', plaintext)