From 6fe7e61bfd8f8fd6140b931e55b8c5aae6432321 Mon Sep 17 00:00:00 2001 From: Victor Shyba Date: Fri, 11 Nov 2016 16:38:00 -0300 Subject: [feature] Adds deprecated crypto module This is supposed to be used only for temporary backwards compatibility, while we develop a proper migration tool. --- client/src/leap/soledad/client/crypto.py | 450 +++++++++++++++++++++++++++++++ 1 file changed, 450 insertions(+) create mode 100644 client/src/leap/soledad/client/crypto.py diff --git a/client/src/leap/soledad/client/crypto.py b/client/src/leap/soledad/client/crypto.py new file mode 100644 index 00000000..09e90171 --- /dev/null +++ b/client/src/leap/soledad/client/crypto.py @@ -0,0 +1,450 @@ +# -*- coding: utf-8 -*- +# crypto.py +# Copyright (C) 2013, 2014 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 . +""" +Cryptographic utilities for Soledad. +""" +import os +import binascii +import hmac +import hashlib +import json + +from cryptography.hazmat.primitives.ciphers import Cipher, algorithms, modes +from cryptography.hazmat.backends.multibackend import MultiBackend +from cryptography.hazmat.backends.openssl.backend \ + import Backend as OpenSSLBackend + +from leap.soledad.common import soledad_assert +from leap.soledad.common import soledad_assert_type +from leap.soledad.common import crypto +from leap.soledad.common.log import getLogger +import warnings + + +logger = getLogger(__name__) +warnings.warn("'soledad.client.crypto' MODULE DEPRECATED", + DeprecationWarning, stacklevel=2) + + +MAC_KEY_LENGTH = 64 + +crypto_backend = MultiBackend([OpenSSLBackend()]) + + +def encrypt_sym(data, key): + """ + 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 data (must be 256 bits long). + :type key: str + + :return: A tuple with the initialization vector and the encrypted data. + :rtype: (long, str) + """ + 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)) + + iv = os.urandom(16) + cipher = Cipher(algorithms.AES(key), modes.CTR(iv), backend=crypto_backend) + encryptor = cipher.encryptor() + ciphertext = encryptor.update(data) + encryptor.finalize() + + return binascii.b2a_base64(iv), ciphertext + + +def decrypt_sym(data, key, iv): + """ + 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 symmetric key used to decrypt data (must be 256 bits + long). + :type key: str + :param iv: The initialization vector. + :type iv: long + + :return: The decrypted data. + :rtype: str + """ + 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)) + iv = binascii.a2b_base64(iv) + cipher = Cipher(algorithms.AES(key), modes.CTR(iv), backend=crypto_backend) + decryptor = cipher.decryptor() + return decryptor.update(data) + decryptor.finalize() + + +def doc_mac_key(doc_id, secret): + """ + Generate a key for calculating a MAC for a document whose id is + C{doc_id}. + + The key is derived using HMAC having sha256 as underlying hash + function. The key used for HMAC is the first MAC_KEY_LENGTH characters + of Soledad's storage secret. The HMAC message is C{doc_id}. + + :param doc_id: The id of the document. + :type doc_id: str + + :param secret: The Soledad storage secret + :type secret: str + + :return: The key. + :rtype: str + """ + soledad_assert(secret is not None) + return hmac.new( + secret[:MAC_KEY_LENGTH], + doc_id, + hashlib.sha256).digest() + + +class SoledadCrypto(object): + """ + General cryptographic functionality encapsulated in a + object that can be passed along. + """ + def __init__(self, secret): + """ + Initialize the crypto object. + + :param secret: The Soledad remote storage secret. + :type secret: str + """ + self._secret = secret + + def doc_mac_key(self, doc_id): + return doc_mac_key(doc_id, self._secret) + + def doc_passphrase(self, doc_id): + """ + Generate a passphrase for symmetric encryption of document's contents. + + The password is derived using HMAC having sha256 as underlying hash + function. The key used for HMAC are the first + C{soledad.REMOTE_STORAGE_SECRET_LENGTH} bytes of Soledad's storage + secret stripped from the first MAC_KEY_LENGTH characters. The HMAC + message is C{doc_id}. + + :param doc_id: The id of the document that will be encrypted using + this passphrase. + :type doc_id: str + + :return: The passphrase. + :rtype: str + """ + soledad_assert(self._secret is not None) + return hmac.new( + self._secret[MAC_KEY_LENGTH:], + doc_id, + hashlib.sha256).digest() + + def encrypt_doc(self, doc): + """ + Wrapper around encrypt_docstr that accepts the document as argument. + + :param doc: the document. + :type doc: SoledadDocument + """ + key = self.doc_passphrase(doc.doc_id) + + 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 + + +# +# Crypto utilities for a SoledadDocument. +# + +def mac_doc(doc_id, doc_rev, ciphertext, enc_scheme, enc_method, enc_iv, + mac_method, secret): + """ + Calculate a MAC for C{doc} using C{ciphertext}. + + Current MAC method used is HMAC, with the following parameters: + + * key: sha256(storage_secret, doc_id) + * msg: doc_id + doc_rev + ciphertext + * digestmod: sha256 + + :param doc_id: The id of the document. + :type doc_id: str + :param doc_rev: The revision of the document. + :type doc_rev: str + :param ciphertext: The content of the document. + :type ciphertext: str + :param enc_scheme: The encryption scheme. + :type enc_scheme: str + :param enc_method: The encryption method. + :type enc_method: str + :param enc_iv: The encryption initialization vector. + :type enc_iv: str + :param mac_method: The MAC method to use. + :type mac_method: str + :param secret: The Soledad storage secret + :type secret: str + + :return: The calculated MAC. + :rtype: str + + :raise crypto.UnknownMacMethodError: Raised when C{mac_method} is unknown. + """ + try: + soledad_assert(mac_method == crypto.MacMethods.HMAC) + except AssertionError: + raise crypto.UnknownMacMethodError + template = "{doc_id}{doc_rev}{ciphertext}{enc_scheme}{enc_method}{enc_iv}" + content = template.format( + doc_id=doc_id, + doc_rev=doc_rev, + ciphertext=ciphertext, + enc_scheme=enc_scheme, + enc_method=enc_method, + enc_iv=enc_iv) + return hmac.new( + doc_mac_key(doc_id, secret), + content, + hashlib.sha256).digest() + + +def encrypt_docstr(docstr, doc_id, doc_rev, key, secret): + """ + Encrypt C{doc}'s content. + + Encrypt doc's contents using AES-256 CTR mode and return a valid JSON + string representing the following: + + { + crypto.ENC_JSON_KEY: '', + crypto.ENC_SCHEME_KEY: 'symkey', + crypto.ENC_METHOD_KEY: crypto.EncryptionMethods.AES_256_CTR, + crypto.ENC_IV_KEY: '', + MAC_KEY: '' + crypto.MAC_METHOD_KEY: 'hmac' + } + + :param docstr: A representation of the document to be encrypted. + :type docstr: str or unicode. + + :param doc_id: The document id. + :type doc_id: str + + :param doc_rev: The document revision. + :type doc_rev: str + + :param key: The key used to encrypt ``data`` (must be 256 bits long). + :type key: str + + :param secret: The Soledad storage secret (used for MAC auth). + :type secret: str + + :return: The JSON serialization of the dict representing the encrypted + content. + :rtype: str + """ + enc_scheme = crypto.EncryptionSchemes.SYMKEY + enc_method = crypto.EncryptionMethods.AES_256_CTR + mac_method = crypto.MacMethods.HMAC + enc_iv, ciphertext = encrypt_sym( + str(docstr), # encryption/decryption routines expect str + key) + mac = binascii.b2a_hex( # store the mac as hex. + mac_doc( + doc_id, + doc_rev, + ciphertext, + enc_scheme, + enc_method, + enc_iv, + mac_method, + secret)) + # Return a representation for the encrypted content. In the following, we + # convert binary data to hexadecimal representation so the JSON + # serialization does not complain about what it tries to serialize. + hex_ciphertext = binascii.b2a_hex(ciphertext) + logger.debug("encrypting doc: %s" % doc_id) + return json.dumps({ + crypto.ENC_JSON_KEY: hex_ciphertext, + crypto.ENC_SCHEME_KEY: enc_scheme, + crypto.ENC_METHOD_KEY: enc_method, + crypto.ENC_IV_KEY: enc_iv, + crypto.MAC_KEY: mac, + crypto.MAC_METHOD_KEY: mac_method, + }) + + +def _verify_doc_mac(doc_id, doc_rev, ciphertext, enc_scheme, enc_method, + enc_iv, mac_method, secret, doc_mac): + """ + Verify that C{doc_mac} is a correct MAC for the given document. + + :param doc_id: The id of the document. + :type doc_id: str + :param doc_rev: The revision of the document. + :type doc_rev: str + :param ciphertext: The content of the document. + :type ciphertext: str + :param enc_scheme: The encryption scheme. + :type enc_scheme: str + :param enc_method: The encryption method. + :type enc_method: str + :param enc_iv: The encryption initialization vector. + :type enc_iv: str + :param mac_method: The MAC method to use. + :type mac_method: str + :param secret: The Soledad storage secret + :type secret: str + :param doc_mac: The MAC to be verified against. + :type doc_mac: str + + :raise crypto.UnknownMacMethodError: Raised when C{mac_method} is unknown. + :raise crypto.WrongMacError: Raised when MAC could not be verified. + """ + calculated_mac = mac_doc( + doc_id, + doc_rev, + ciphertext, + enc_scheme, + enc_method, + enc_iv, + mac_method, + secret) + # we compare mac's hashes to avoid possible timing attacks that might + # exploit python's builtin comparison operator behaviour, which fails + # immediatelly when non-matching bytes are found. + doc_mac_hash = hashlib.sha256( + binascii.a2b_hex( # the mac is stored as hex + doc_mac)).digest() + calculated_mac_hash = hashlib.sha256(calculated_mac).digest() + + if doc_mac_hash != calculated_mac_hash: + logger.warn("wrong MAC while decrypting doc...") + raise crypto.WrongMacError("Could not authenticate document's " + "contents.") + + +def decrypt_doc_dict(doc_dict, doc_id, doc_rev, key, secret): + """ + Decrypt a symmetrically encrypted C{doc}'s content. + + Return the JSON string representation of the document's decrypted content. + + The passed doc_dict argument should have the following structure: + + { + crypto.ENC_JSON_KEY: '', + crypto.ENC_SCHEME_KEY: '', + crypto.ENC_METHOD_KEY: '', + crypto.ENC_IV_KEY: '', # (optional) + MAC_KEY: '' + crypto.MAC_METHOD_KEY: 'hmac' + } + + C{enc_blob} is the encryption of the JSON serialization of the document's + content. For now Soledad just deals with documents whose C{enc_scheme} is + crypto.EncryptionSchemes.SYMKEY and C{enc_method} is + crypto.EncryptionMethods.AES_256_CTR. + + :param doc_dict: The content of the document to be decrypted. + :type doc_dict: dict + + :param doc_id: The document id. + :type doc_id: str + + :param doc_rev: The document revision. + :type doc_rev: str + + :param key: The key used to encrypt ``data`` (must be 256 bits long). + :type key: str + + :param secret: The Soledad storage secret. + :type secret: str + + :return: The JSON serialization of the decrypted content. + :rtype: str + + :raise UnknownEncryptionMethodError: Raised when trying to decrypt from an + unknown encryption method. + """ + # assert document dictionary structure + expected_keys = set([ + crypto.ENC_JSON_KEY, + crypto.ENC_SCHEME_KEY, + crypto.ENC_METHOD_KEY, + crypto.ENC_IV_KEY, + crypto.MAC_KEY, + crypto.MAC_METHOD_KEY, + ]) + soledad_assert(expected_keys.issubset(set(doc_dict.keys()))) + + ciphertext = binascii.a2b_hex(doc_dict[crypto.ENC_JSON_KEY]) + enc_scheme = doc_dict[crypto.ENC_SCHEME_KEY] + enc_method = doc_dict[crypto.ENC_METHOD_KEY] + enc_iv = doc_dict[crypto.ENC_IV_KEY] + doc_mac = doc_dict[crypto.MAC_KEY] + mac_method = doc_dict[crypto.MAC_METHOD_KEY] + + soledad_assert(enc_scheme == crypto.EncryptionSchemes.SYMKEY) + + _verify_doc_mac( + doc_id, doc_rev, ciphertext, enc_scheme, enc_method, + enc_iv, mac_method, secret, doc_mac) + + return decrypt_sym(ciphertext, key, enc_iv) + + +def is_symmetrically_encrypted(doc): + """ + Return True if the document was symmetrically encrypted. + + :param doc: The document to check. + :type doc: SoledadDocument + + :rtype: bool + """ + if doc.content and crypto.ENC_SCHEME_KEY in doc.content: + if doc.content[crypto.ENC_SCHEME_KEY] \ + == crypto.EncryptionSchemes.SYMKEY: + return True + return False -- cgit v1.2.3