Mercurial > libervia-backend
view sat/memory/crypto.py @ 3370:2157880ba3b4
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author | Goffi <goffi@goffi.org> |
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date | Sun, 20 Sep 2020 14:05:40 +0200 |
parents | 330a5f1d9eea |
children | be6d91572633 |
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#!/usr/bin/env python3 # SAT: a jabber client # Copyright (C) 2009-2020 Jérôme Poisson (goffi@goffi.org) # Copyright (C) 2013-2016 Adrien Cossa (souliane@mailoo.org) # This program is free software: you can redistribute it and/or modify # it under the terms of the GNU Affero 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 Affero General Public License for more details. # You should have received a copy of the GNU Affero General Public License # along with this program. If not, see <http://www.gnu.org/licenses/>. from os import urandom from base64 import b64encode, b64decode from cryptography.hazmat.primitives import hashes from cryptography.hazmat.primitives.kdf.pbkdf2 import PBKDF2HMAC from cryptography.hazmat.primitives.ciphers import Cipher, algorithms, modes from cryptography.hazmat.backends import default_backend crypto_backend = default_backend() class BlockCipher: BLOCK_SIZE = 16 MAX_KEY_SIZE = 32 IV_SIZE = BLOCK_SIZE # initialization vector size, 16 bits @staticmethod def encrypt(key, text, leave_empty=True): """Encrypt a message. Based on http://stackoverflow.com/a/12525165 @param key (unicode): the encryption key @param text (unicode): the text to encrypt @param leave_empty (bool): if True, empty text will be returned "as is" @return (D(str)): base-64 encoded encrypted message """ if leave_empty and text == "": return "" iv = BlockCipher.getRandomKey() key = key.encode() key = ( key[: BlockCipher.MAX_KEY_SIZE] if len(key) >= BlockCipher.MAX_KEY_SIZE else BlockCipher.pad(key) ) cipher = Cipher(algorithms.AES(key), modes.CFB8(iv), backend=crypto_backend) encryptor = cipher.encryptor() encrypted = encryptor.update(BlockCipher.pad(text.encode())) + encryptor.finalize() return b64encode(iv + encrypted).decode() @staticmethod def decrypt(key, ciphertext, leave_empty=True): """Decrypt a message. Based on http://stackoverflow.com/a/12525165 @param key (unicode): the decryption key @param ciphertext (base-64 encoded str): the text to decrypt @param leave_empty (bool): if True, empty ciphertext will be returned "as is" @return: Deferred: str or None if the password could not be decrypted """ if leave_empty and ciphertext == "": return "" ciphertext = b64decode(ciphertext) iv, ciphertext = ( ciphertext[: BlockCipher.IV_SIZE], ciphertext[BlockCipher.IV_SIZE :], ) key = key.encode() key = ( key[: BlockCipher.MAX_KEY_SIZE] if len(key) >= BlockCipher.MAX_KEY_SIZE else BlockCipher.pad(key) ) cipher = Cipher(algorithms.AES(key), modes.CFB8(iv), backend=crypto_backend) decryptor = cipher.decryptor() decrypted = decryptor.update(ciphertext) + decryptor.finalize() return BlockCipher.unpad(decrypted) @staticmethod def getRandomKey(size=None, base64=False): """Return a random key suitable for block cipher encryption. Note: a good value for the key length is to make it as long as the block size. @param size: key length in bytes, positive or null (default: BlockCipher.IV_SIZE) @param base64: if True, encode the result to base-64 @return: str (eventually base-64 encoded) """ if size is None or size < 0: size = BlockCipher.IV_SIZE key = urandom(size) return b64encode(key) if base64 else key @staticmethod def pad(s): """Method from http://stackoverflow.com/a/12525165""" bs = BlockCipher.BLOCK_SIZE return s + (bs - len(s) % bs) * (chr(bs - len(s) % bs)).encode() @staticmethod def unpad(s): """Method from http://stackoverflow.com/a/12525165""" s = s.decode() return s[0 : -ord(s[-1])] class PasswordHasher: SALT_LEN = 16 # 128 bits @staticmethod def hash(password, salt=None, leave_empty=True): """Hash a password. @param password (str): the password to hash @param salt (base-64 encoded str): if not None, use the given salt instead of a random value @param leave_empty (bool): if True, empty password will be returned "as is" @return: Deferred: base-64 encoded str """ if leave_empty and password == "": return "" salt = ( b64decode(salt)[: PasswordHasher.SALT_LEN] if salt else urandom(PasswordHasher.SALT_LEN) ) # we use PyCrypto's PBKDF2 arguments while porting to crytography, to stay # compatible with existing installations. But this is temporary and we need # to update them to more secure values. kdf = PBKDF2HMAC( # FIXME: SHA1() is not secure, it is used here for historical reasons # and must be changed as soon as possible algorithm=hashes.SHA1(), length=16, salt=salt, iterations=1000, backend=crypto_backend ) key = kdf.derive(password.encode()) return b64encode(salt + key).decode() @staticmethod def verify(attempt, pwd_hash): """Verify a password attempt. @param attempt (str): the attempt to check @param pwd_hash (str): the hash of the password @return: Deferred: boolean """ assert isinstance(attempt, str) assert isinstance(pwd_hash, str) leave_empty = pwd_hash == "" attempt_hash = PasswordHasher.hash(attempt, pwd_hash, leave_empty) assert isinstance(attempt_hash, str) return attempt_hash == pwd_hash