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-rw-r--r--client/changes/feat-7338_refactor_crypto1
-rw-r--r--client/src/leap/soledad/client/api.py6
-rw-r--r--client/src/leap/soledad/client/crypto.py180
-rw-r--r--client/src/leap/soledad/client/http_target.py15
-rw-r--r--client/src/leap/soledad/client/secrets.py10
-rw-r--r--common/src/leap/soledad/common/crypto.py1
-rw-r--r--common/src/leap/soledad/common/tests/test_crypto.py89
7 files changed, 82 insertions, 220 deletions
diff --git a/client/changes/feat-7338_refactor_crypto b/client/changes/feat-7338_refactor_crypto
new file mode 100644
index 00000000..d5afa96c
--- /dev/null
+++ b/client/changes/feat-7338_refactor_crypto
@@ -0,0 +1 @@
+- refactor SoledadCrypto to remove circular dependency with SoledadSecrets (Closes: 7338)
diff --git a/client/src/leap/soledad/client/api.py b/client/src/leap/soledad/client/api.py
index 3e9f6bd4..57df4021 100644
--- a/client/src/leap/soledad/client/api.py
+++ b/client/src/leap/soledad/client/api.py
@@ -183,9 +183,7 @@ class Soledad(object):
global SOLEDAD_CERT
SOLEDAD_CERT = cert_file
- # init crypto variables
self._set_token(auth_token)
- self._crypto = SoledadCrypto(self)
self._init_config_with_defaults()
self._init_working_dirs()
@@ -200,6 +198,8 @@ class Soledad(object):
self._init_secrets()
self._init_u1db_sqlcipher_backend()
+ self._crypto = SoledadCrypto(self._secrets.remote_storage_secret)
+
if syncable:
self._init_u1db_syncer()
@@ -240,7 +240,7 @@ class Soledad(object):
"""
self._secrets = SoledadSecrets(
self.uuid, self._passphrase, self._secrets_path,
- self.shared_db, self._crypto)
+ self.shared_db)
self._secrets.bootstrap()
def _init_u1db_sqlcipher_backend(self):
diff --git a/client/src/leap/soledad/client/crypto.py b/client/src/leap/soledad/client/crypto.py
index 6328fd2b..90ad656e 100644
--- a/client/src/leap/soledad/client/crypto.py
+++ b/client/src/leap/soledad/client/crypto.py
@@ -25,7 +25,6 @@ import json
import logging
from pycryptopp.cipher.aes import AES
-from pycryptopp.cipher.xsalsa20 import XSalsa20
from leap.soledad.common import soledad_assert
from leap.soledad.common import soledad_assert_type
@@ -38,100 +37,52 @@ logger = logging.getLogger(__name__)
MAC_KEY_LENGTH = 64
-def _assert_known_encryption_method(method):
+def encrypt_sym(data, key):
"""
- Assert that we can encrypt/decrypt the given C{method}
-
- :param method: The encryption method to assert.
- :type method: str
-
- :raise UnknownEncryptionMethodError: Raised when C{method} is unknown.
- """
- valid_methods = [
- crypto.EncryptionMethods.AES_256_CTR,
- crypto.EncryptionMethods.XSALSA20,
- ]
- try:
- soledad_assert(method in valid_methods)
- except AssertionError:
- raise crypto.UnknownEncryptionMethodError
-
-
-def encrypt_sym(data, key, method):
- """
- Encrypt C{data} using a {password}.
-
- Currently, the only encryption methods supported are AES-256 in CTR
- mode and XSalsa20.
+ Encrypt data using AES-256 cipher in CTR mode.
:param data: The data to be encrypted.
:type data: str
- :param key: The key used to encrypt C{data} (must be 256 bits long).
+ :param key: The key used to encrypt data (must be 256 bits long).
:type key: str
- :param method: The encryption method to use.
- :type method: str
- :return: A tuple with the initial value and the encrypted data.
+ :return: A tuple with the initialization vector and the encrypted data.
:rtype: (long, str)
-
- :raise AssertionError: Raised if C{method} is unknown.
"""
soledad_assert_type(key, str)
soledad_assert(
len(key) == 32, # 32 x 8 = 256 bits.
'Wrong key size: %s bits (must be 256 bits long).' %
(len(key) * 8))
- _assert_known_encryption_method(method)
-
- iv = None
- # AES-256 in CTR mode
- if method == crypto.EncryptionMethods.AES_256_CTR:
- iv = os.urandom(16)
- ciphertext = AES(key=key, iv=iv).process(data)
- # XSalsa20
- elif method == crypto.EncryptionMethods.XSALSA20:
- iv = os.urandom(24)
- ciphertext = XSalsa20(key=key, iv=iv).process(data)
+
+ iv = os.urandom(16)
+ ciphertext = AES(key=key, iv=iv).process(data)
return binascii.b2a_base64(iv), ciphertext
-def decrypt_sym(data, key, method, **kwargs):
+def decrypt_sym(data, key, iv):
"""
- Decrypt data using symmetric secret.
-
- Currently, the only encryption method supported is AES-256 CTR mode.
+ Decrypt some data previously encrypted using AES-256 cipher in CTR mode.
:param data: The data to be decrypted.
:type data: str
- :param key: The key used to decrypt C{data} (must be 256 bits long).
+ :param key: The symmetric key used to decrypt data (must be 256 bits
+ long).
:type key: str
- :param method: The encryption method to use.
- :type method: str
- :param kwargs: Other parameters specific to each encryption method.
- :type kwargs: dict
+ :param iv: The initialization vector.
+ :type iv: long
:return: The decrypted data.
:rtype: str
-
- :raise UnknownEncryptionMethodError: Raised when C{method} is unknown.
"""
soledad_assert_type(key, str)
# assert params
soledad_assert(
len(key) == 32, # 32 x 8 = 256 bits.
'Wrong key size: %s (must be 256 bits long).' % len(key))
- soledad_assert(
- 'iv' in kwargs,
- '%s needs an initial value.' % method)
- _assert_known_encryption_method(method)
- # AES-256 in CTR mode
- if method == crypto.EncryptionMethods.AES_256_CTR:
- return AES(
- key=key, iv=binascii.a2b_base64(kwargs['iv'])).process(data)
- elif method == crypto.EncryptionMethods.XSALSA20:
- return XSalsa20(
- key=key, iv=binascii.a2b_base64(kwargs['iv'])).process(data)
+ return AES(
+ key=key, iv=binascii.a2b_base64(iv)).process(data)
def doc_mac_key(doc_id, secret):
@@ -164,25 +115,17 @@ class SoledadCrypto(object):
General cryptographic functionality encapsulated in a
object that can be passed along.
"""
- def __init__(self, soledad):
+ def __init__(self, secret):
"""
Initialize the crypto object.
- :param soledad: A Soledad instance for key lookup.
- :type soledad: leap.soledad.Soledad
+ :param secret: The Soledad remote storage secret.
+ :type secret: str
"""
- self._soledad = soledad
-
- def encrypt_sym(self, data, key,
- method=crypto.EncryptionMethods.AES_256_CTR):
- return encrypt_sym(data, key, method)
-
- def decrypt_sym(self, data, key,
- method=crypto.EncryptionMethods.AES_256_CTR, **kwargs):
- return decrypt_sym(data, key, method, **kwargs)
+ self._secret = secret
- def doc_mac_key(self, doc_id, secret):
- return doc_mac_key(doc_id, self.secret)
+ def doc_mac_key(self, doc_id):
+ return doc_mac_key(doc_id, self._secret)
def doc_passphrase(self, doc_id):
"""
@@ -201,21 +144,41 @@ class SoledadCrypto(object):
:return: The passphrase.
:rtype: str
"""
- soledad_assert(self.secret is not None)
+ soledad_assert(self._secret is not None)
return hmac.new(
- self.secret[MAC_KEY_LENGTH:],
+ self._secret[MAC_KEY_LENGTH:],
doc_id,
hashlib.sha256).digest()
- #
- # secret setters/getters
- #
+ def encrypt_doc(self, doc):
+ """
+ Wrapper around encrypt_docstr that accepts the document as argument.
- def _get_secret(self):
- return self._soledad.secrets.remote_storage_secret
+ :param doc: the document.
+ :type doc: SoledadDocument
+ """
+ key = self.doc_passphrase(doc.doc_id)
- secret = property(
- _get_secret, doc='The secret used for symmetric encryption')
+ return encrypt_docstr(
+ doc.get_json(), doc.doc_id, doc.rev, key, self._secret)
+
+ def decrypt_doc(self, doc):
+ """
+ Wrapper around decrypt_doc_dict that accepts the document as argument.
+
+ :param doc: the document.
+ :type doc: SoledadDocument
+
+ :return: json string with the decrypted document
+ :rtype: str
+ """
+ key = self.doc_passphrase(doc.doc_id)
+ return decrypt_doc_dict(
+ doc.content, doc.doc_id, doc.rev, key, self._secret)
+
+ @property
+ def secret(self):
+ return self._secret
#
@@ -273,23 +236,6 @@ def mac_doc(doc_id, doc_rev, ciphertext, enc_scheme, enc_method, enc_iv,
hashlib.sha256).digest()
-def encrypt_doc(crypto, doc):
- """
- Wrapper around encrypt_docstr that accepts a crypto object and the document
- as arguments.
-
- :param crypto: a soledad crypto object.
- :type crypto: SoledadCrypto
- :param doc: the document.
- :type doc: SoledadDocument
- """
- key = crypto.doc_passphrase(doc.doc_id)
- secret = crypto.secret
-
- return encrypt_docstr(
- doc.get_json(), doc.doc_id, doc.rev, key, secret)
-
-
def encrypt_docstr(docstr, doc_id, doc_rev, key, secret):
"""
Encrypt C{doc}'s content.
@@ -330,7 +276,7 @@ def encrypt_docstr(docstr, doc_id, doc_rev, key, secret):
mac_method = crypto.MacMethods.HMAC
enc_iv, ciphertext = encrypt_sym(
str(docstr), # encryption/decryption routines expect str
- key, method=enc_method)
+ key)
mac = binascii.b2a_hex( # store the mac as hex.
mac_doc(
doc_id,
@@ -356,24 +302,6 @@ def encrypt_docstr(docstr, doc_id, doc_rev, key, secret):
})
-def decrypt_doc(crypto, doc):
- """
- Wrapper around decrypt_doc_dict that accepts a crypto object and the
- document as arguments.
-
- :param crypto: a soledad crypto object.
- :type crypto: SoledadCrypto
- :param doc: the document.
- :type doc: SoledadDocument
-
- :return: json string with the decrypted document
- :rtype: str
- """
- key = crypto.doc_passphrase(doc.doc_id)
- secret = crypto.secret
- return decrypt_doc_dict(doc.content, doc.doc_id, doc.rev, key, secret)
-
-
def _verify_doc_mac(doc_id, doc_rev, ciphertext, enc_scheme, enc_method,
enc_iv, mac_method, secret, doc_mac):
"""
@@ -458,8 +386,8 @@ def decrypt_doc_dict(doc_dict, doc_id, doc_rev, key, secret):
:param key: The key used to encrypt ``data`` (must be 256 bits long).
:type key: str
- :param secret:
- :type secret:
+ :param secret: The Soledad storage secret.
+ :type secret: str
:return: The JSON serialization of the decrypted content.
:rtype: str
@@ -491,7 +419,7 @@ def decrypt_doc_dict(doc_dict, doc_id, doc_rev, key, secret):
doc_id, doc_rev, ciphertext, enc_scheme, enc_method,
enc_iv, mac_method, secret, doc_mac)
- return decrypt_sym(ciphertext, key, method=enc_method, iv=enc_iv)
+ return decrypt_sym(ciphertext, key, enc_iv)
def is_symmetrically_encrypted(doc):
diff --git a/client/src/leap/soledad/client/http_target.py b/client/src/leap/soledad/client/http_target.py
index 3dc45e20..f7f50af6 100644
--- a/client/src/leap/soledad/client/http_target.py
+++ b/client/src/leap/soledad/client/http_target.py
@@ -41,8 +41,6 @@ from leap.soledad.common.document import SoledadDocument
from leap.soledad.common.errors import InvalidAuthTokenError
from leap.soledad.client.crypto import is_symmetrically_encrypted
-from leap.soledad.client.crypto import encrypt_doc
-from leap.soledad.client.crypto import decrypt_doc
from leap.soledad.client.events import SOLEDAD_SYNC_SEND_STATUS
from leap.soledad.client.events import SOLEDAD_SYNC_RECEIVE_STATUS
from leap.soledad.client.events import emit
@@ -89,9 +87,10 @@ class SoledadHTTPSyncTarget(SyncTarget):
instead of retreiving it from the dedicated
database.
:type sync_db: Sqlite handler
- :param verify_ssl: Whether we should perform SSL server certificate
- verification.
- :type verify_ssl: bool
+ :param sync_enc_pool: The encryption pool to use to defer encryption.
+ If None is passed the encryption will not be
+ deferred.
+ :type sync_enc_pool: leap.soledad.client.encdecpool.SyncEncrypterPool
"""
if url.endswith("/"):
url = url[:-1]
@@ -347,7 +346,7 @@ class SoledadHTTPSyncTarget(SyncTarget):
d = defer.succeed(None)
elif not self._defer_encryption:
# fallback case, for tests
- d = defer.succeed(encrypt_doc(self._crypto, doc))
+ d = defer.succeed(self._crypto.encrypt_doc(doc))
else:
def _maybe_encrypt_doc_inline(doc_json):
@@ -355,7 +354,7 @@ class SoledadHTTPSyncTarget(SyncTarget):
# the document is not marked as tombstone, but we got
# nothing from the sync db. As it is not encrypted
# yet, we force inline encryption.
- return encrypt_doc(self._crypto, doc)
+ return self._crypto.encrypt_doc(doc)
return doc_json
d = self._sync_enc_pool.get_encrypted_doc(doc.doc_id, doc.rev)
@@ -491,7 +490,7 @@ class SoledadHTTPSyncTarget(SyncTarget):
idx)
else:
# defer_decryption is False or no-sync-db fallback
- doc.set_json(decrypt_doc(self._crypto, doc))
+ doc.set_json(self._crypto.decrypt_doc(doc))
self._insert_doc_cb(doc, gen, trans_id)
else:
# not symmetrically encrypted doc, insert it directly
diff --git a/client/src/leap/soledad/client/secrets.py b/client/src/leap/soledad/client/secrets.py
index 97dbbaca..e55d64c6 100644
--- a/client/src/leap/soledad/client/secrets.py
+++ b/client/src/leap/soledad/client/secrets.py
@@ -37,6 +37,7 @@ from leap.soledad.common import soledad_assert_type
from leap.soledad.common import document
from leap.soledad.common import errors
from leap.soledad.client import events
+from leap.soledad.client.crypto import encrypt_sym, decrypt_sym
logger = logging.getLogger(name=__name__)
@@ -148,7 +149,7 @@ class SoledadSecrets(object):
Keys used to access storage secrets in recovery documents.
"""
- def __init__(self, uuid, passphrase, secrets_path, shared_db, crypto):
+ def __init__(self, uuid, passphrase, secrets_path, shared_db):
"""
Initialize the secrets manager.
@@ -162,8 +163,6 @@ class SoledadSecrets(object):
:type secrets_path: str
:param shared_db: The shared database that stores user secrets.
:type shared_db: leap.soledad.client.shared_db.SoledadSharedDatabase
- :param crypto: A soledad crypto object.
- :type crypto: SoledadCrypto
"""
# XXX removed since not in use
# We will pick the first secret available.
@@ -173,7 +172,6 @@ class SoledadSecrets(object):
self._passphrase = passphrase
self._secrets_path = secrets_path
self._shared_db = shared_db
- self._crypto = crypto
self._secrets = {}
self._secret_id = None
@@ -511,7 +509,7 @@ class SoledadSecrets(object):
iv, ciphertext = encrypted_secret_dict[self.SECRET_KEY].split(
self.IV_SEPARATOR, 1)
ciphertext = binascii.a2b_base64(ciphertext)
- decrypted_secret = self._crypto.decrypt_sym(ciphertext, key, iv=iv)
+ decrypted_secret = decrypt_sym(ciphertext, key, iv)
if encrypted_secret_dict[self.LENGTH_KEY] != len(decrypted_secret):
raise SecretsException("Wrong length of decrypted secret.")
return decrypted_secret
@@ -543,7 +541,7 @@ class SoledadSecrets(object):
salt = os.urandom(self.SALT_LENGTH)
# get a 256-bit key
key = scrypt.hash(self._passphrase_as_string(), salt, buflen=32)
- iv, ciphertext = self._crypto.encrypt_sym(decrypted_secret, key)
+ iv, ciphertext = encrypt_sym(decrypted_secret, key)
encrypted_secret_dict = {
# leap.soledad.crypto submodule uses AES256 for symmetric
# encryption.
diff --git a/common/src/leap/soledad/common/crypto.py b/common/src/leap/soledad/common/crypto.py
index b4f3234f..77a5a93b 100644
--- a/common/src/leap/soledad/common/crypto.py
+++ b/common/src/leap/soledad/common/crypto.py
@@ -48,7 +48,6 @@ class EncryptionMethods(object):
"""
AES_256_CTR = 'aes-256-ctr'
- XSALSA20 = 'xsalsa20'
class UnknownEncryptionMethodError(Exception):
diff --git a/common/src/leap/soledad/common/tests/test_crypto.py b/common/src/leap/soledad/common/tests/test_crypto.py
index fdad8aac..55ecbdd7 100644
--- a/common/src/leap/soledad/common/tests/test_crypto.py
+++ b/common/src/leap/soledad/common/tests/test_crypto.py
@@ -47,7 +47,7 @@ class EncryptedSyncTestCase(BaseSoledadTest):
doc1.content = simpledoc
# encrypt doc
- doc1.set_json(crypto.encrypt_doc(self._soledad._crypto, doc1))
+ doc1.set_json(self._soledad._crypto.encrypt_doc(doc1))
# assert content is different and includes keys
self.assertNotEqual(
simpledoc, doc1.content,
@@ -55,7 +55,7 @@ class EncryptedSyncTestCase(BaseSoledadTest):
self.assertTrue(ENC_JSON_KEY in doc1.content)
self.assertTrue(ENC_SCHEME_KEY in doc1.content)
# decrypt doc
- doc1.set_json(crypto.decrypt_doc(self._soledad._crypto, doc1))
+ doc1.set_json(self._soledad._crypto.decrypt_doc(doc1))
self.assertEqual(
simpledoc, doc1.content, 'incorrect document encryption')
@@ -153,7 +153,7 @@ class MacAuthTestCase(BaseSoledadTest):
doc = SoledadDocument(doc_id='id')
doc.content = simpledoc
# encrypt doc
- doc.set_json(crypto.encrypt_doc(self._soledad._crypto, 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
@@ -161,7 +161,7 @@ class MacAuthTestCase(BaseSoledadTest):
# try to decrypt doc
self.assertRaises(
WrongMacError,
- crypto.decrypt_doc, self._soledad._crypto, doc)
+ self._soledad._crypto.decrypt_doc, doc)
def test_decrypt_with_unknown_mac_method_raises(self):
"""
@@ -171,7 +171,7 @@ class MacAuthTestCase(BaseSoledadTest):
doc = SoledadDocument(doc_id='id')
doc.content = simpledoc
# encrypt doc
- doc.set_json(crypto.encrypt_doc(self._soledad._crypto, 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
@@ -179,7 +179,7 @@ class MacAuthTestCase(BaseSoledadTest):
# try to decrypt doc
self.assertRaises(
UnknownMacMethodError,
- crypto.decrypt_doc, self._soledad._crypto, doc)
+ self._soledad._crypto.decrypt_doc, doc)
class SoledadCryptoAESTestCase(BaseSoledadTest):
@@ -187,22 +187,16 @@ class SoledadCryptoAESTestCase(BaseSoledadTest):
def test_encrypt_decrypt_sym(self):
# generate 256-bit key
key = os.urandom(32)
- iv, cyphertext = self._soledad._crypto.encrypt_sym(
- 'data', key,
- method=EncryptionMethods.AES_256_CTR)
+ iv, cyphertext = crypto.encrypt_sym('data', key)
self.assertTrue(cyphertext is not None)
self.assertTrue(cyphertext != '')
self.assertTrue(cyphertext != 'data')
- plaintext = self._soledad._crypto.decrypt_sym(
- cyphertext, key, iv=iv,
- method=EncryptionMethods.AES_256_CTR)
+ 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 = self._soledad._crypto.encrypt_sym(
- 'data', key,
- method=EncryptionMethods.AES_256_CTR)
+ iv, cyphertext = crypto.encrypt_sym('data', key)
self.assertTrue(cyphertext is not None)
self.assertTrue(cyphertext != '')
self.assertTrue(cyphertext != 'data')
@@ -211,16 +205,13 @@ class SoledadCryptoAESTestCase(BaseSoledadTest):
wrongiv = rawiv
while wrongiv == rawiv:
wrongiv = os.urandom(1) + rawiv[1:]
- plaintext = self._soledad._crypto.decrypt_sym(
- cyphertext, key, iv=binascii.b2a_base64(wrongiv),
- method=EncryptionMethods.AES_256_CTR)
+ 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 = self._soledad._crypto.encrypt_sym(
- 'data', key,
- method=EncryptionMethods.AES_256_CTR)
+ iv, cyphertext = crypto.encrypt_sym('data', key)
self.assertTrue(cyphertext is not None)
self.assertTrue(cyphertext != '')
self.assertTrue(cyphertext != 'data')
@@ -228,59 +219,5 @@ class SoledadCryptoAESTestCase(BaseSoledadTest):
# ensure keys are different in case we are extremely lucky
while wrongkey == key:
wrongkey = os.urandom(32)
- plaintext = self._soledad._crypto.decrypt_sym(
- cyphertext, wrongkey, iv=iv,
- method=EncryptionMethods.AES_256_CTR)
- self.assertNotEqual('data', plaintext)
-
-
-class SoledadCryptoXSalsa20TestCase(BaseSoledadTest):
-
- def test_encrypt_decrypt_sym(self):
- # generate 256-bit key
- key = os.urandom(32)
- iv, cyphertext = self._soledad._crypto.encrypt_sym(
- 'data', key,
- method=EncryptionMethods.XSALSA20)
- self.assertTrue(cyphertext is not None)
- self.assertTrue(cyphertext != '')
- self.assertTrue(cyphertext != 'data')
- plaintext = self._soledad._crypto.decrypt_sym(
- cyphertext, key, iv=iv,
- method=EncryptionMethods.XSALSA20)
- self.assertEqual('data', plaintext)
-
- def test_decrypt_with_wrong_iv_fails(self):
- key = os.urandom(32)
- iv, cyphertext = self._soledad._crypto.encrypt_sym(
- 'data', key,
- method=EncryptionMethods.XSALSA20)
- 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 = self._soledad._crypto.decrypt_sym(
- cyphertext, key, iv=binascii.b2a_base64(wrongiv),
- method=EncryptionMethods.XSALSA20)
- self.assertNotEqual('data', plaintext)
-
- def test_decrypt_with_wrong_key_fails(self):
- key = os.urandom(32)
- iv, cyphertext = self._soledad._crypto.encrypt_sym(
- 'data', key,
- method=EncryptionMethods.XSALSA20)
- 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 = self._soledad._crypto.decrypt_sym(
- cyphertext, wrongkey, iv=iv,
- method=EncryptionMethods.XSALSA20)
+ plaintext = crypto.decrypt_sym(cyphertext, wrongkey, iv)
self.assertNotEqual('data', plaintext)