Mercurial > libervia-backend
view sat/memory/crypto.py @ 2816:114cdde9ff96
plugin XEP-0280: priority and "sent" fixes:
- carbon prioriy must be bigger than ones of encryption plugins, because the carbon copied messages must be unwrapped to be decrypted, this patch fixes it
- "sent" carbon elements was only stored and notified to frontends, it is now unwrapped and injected in normal traffic, this way other plugin can manage it, in particular encrypted elements can be decrypted
| author | Goffi <goffi@goffi.org> |
|---|---|
| date | Thu, 28 Feb 2019 18:57:06 +0100 |
| parents | 003b8b4b56a7 |
| children | ab2696e34d29 |
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#!/usr/bin/env python2 # -*- coding: utf-8 -*- # SAT: a jabber client # Copyright (C) 2009-2019 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/>. try: from Crypto.Cipher import AES from Crypto.Protocol.KDF import PBKDF2 except ImportError: raise Exception("PyCrypto is not installed.") from os import urandom from base64 import b64encode, b64decode from twisted.internet.threads import deferToThread from twisted.internet.defer import succeed class BlockCipher(object): BLOCK_SIZE = AES.block_size # 16 bits MAX_KEY_SIZE = AES.key_size[-1] # 32 bits = AES-256 IV_SIZE = BLOCK_SIZE # initialization vector size, 16 bits @classmethod def encrypt(cls, 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: Deferred: base-64 encoded str """ if leave_empty and text == "": return succeed(text) iv = BlockCipher.getRandomKey() key = key.encode("utf-8") key = ( key[: BlockCipher.MAX_KEY_SIZE] if len(key) >= BlockCipher.MAX_KEY_SIZE else BlockCipher.pad(key) ) cipher = AES.new(key, AES.MODE_CFB, iv) d = deferToThread(cipher.encrypt, BlockCipher.pad(text.encode("utf-8"))) d.addCallback(lambda ciphertext: b64encode(iv + ciphertext)) return d @classmethod def decrypt(cls, 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 succeed("") ciphertext = b64decode(ciphertext) iv, ciphertext = ( ciphertext[: BlockCipher.IV_SIZE], ciphertext[BlockCipher.IV_SIZE :], ) key = key.encode("utf-8") key = ( key[: BlockCipher.MAX_KEY_SIZE] if len(key) >= BlockCipher.MAX_KEY_SIZE else BlockCipher.pad(key) ) cipher = AES.new(key, AES.MODE_CFB, iv) d = deferToThread(cipher.decrypt, ciphertext) d.addCallback(lambda text: BlockCipher.unpad(text)) # XXX: cipher.decrypt gives no way to make the distinction between # a decrypted empty value and a decryption failure... both return # the empty value. Fortunately, we detect empty passwords beforehand # thanks to the "leave_empty" parameter which is used by default. d.addCallback(lambda text: text.decode("utf-8") if text else None) return d @classmethod def getRandomKey(cls, 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 @classmethod def pad(self, s): """Method from http://stackoverflow.com/a/12525165""" bs = BlockCipher.BLOCK_SIZE return s + (bs - len(s) % bs) * chr(bs - len(s) % bs) @classmethod def unpad(self, s): """Method from http://stackoverflow.com/a/12525165""" return s[0 : -ord(s[-1])] class PasswordHasher(object): SALT_LEN = 16 # 128 bits @classmethod def hash(cls, 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 succeed(password) salt = ( b64decode(salt)[: PasswordHasher.SALT_LEN] if salt else urandom(PasswordHasher.SALT_LEN) ) d = deferToThread(PBKDF2, password, salt) d.addCallback(lambda hashed: b64encode(salt + hashed)) return d @classmethod def verify(cls, attempt, hashed): """Verify a password attempt. @param attempt (str): the attempt to check @param hashed (str): the hash of the password @return: Deferred: boolean """ leave_empty = hashed == "" d = PasswordHasher.hash(attempt, hashed, leave_empty) d.addCallback(lambda hashed_attempt: hashed_attempt == hashed) return d