pwman3/pwman/util/crypto.py

#============================================================================
# This file is part of Pwman3.
#
# Pwman3 is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License, version 2
# as published by the Free Software Foundation;
#
# Pwman3 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 Pwman3; if not, write to the Free Software
# Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA  02110-1301  USA
#============================================================================
# Copyright (C) 2012 Oz Nahum <nahumoz@gmail.com>
#============================================================================
# Copyright (C) 2006 Ivan Kelly <ivan@ivankelly.net>
#============================================================================

"""
Encryption Module used by PwmanDatabase

Supports AES, ARC2, Blowfish, CAST, DES, DES3, IDEA, RC5.

Usage:
import pwman.util.crypto.CryptoEngine as CryptoEngine
from pwman.util.crypto import CryptoEngine

class myCallback(CryptoEngine.Callback):
    def execute(self):
        return "mykey"

params = {'encryptionAlgorithm': 'AES',
          'encryptionCallback': callbackFunction}

CryptoEngine.init(params)

crypto = CryptoEngine.get()
ciphertext = crypto.encrypt("plaintext")
plaintext = cyypto.decrypt(ciphertext)
"""

from Crypto.Cipher import Blowfish as cBlowfish
from Crypto.Cipher import AES as cAES
from Crypto.Cipher import ARC2 as cARC2
from Crypto.Cipher import ARC4 as cARC4
from Crypto.Cipher import CAST as cCAST
from Crypto.Cipher import DES as cDES
from Crypto.Cipher import DES3 as cDES3
from Crypto.Random import OSRNG

from pwman.util.callback import Callback
import pwman.util.config as config
import cPickle
import time
import sys
import ctypes
import hashlib


def zerome(string):
    """
    securely erase strings ...
    for windows: ctypes.cdll.msvcrt.memset
    """
    bufsize = len(string) + 1
    offset = sys.getsizeof(string) - bufsize
    ctypes.memset(id(string) + offset, 0, bufsize)

# Use this to tell if crypto is successful or not
_TAG = "PWMANCRYPTO"

_INSTANCE = None


class CryptoException(Exception):
    """Generic Crypto Exception."""
    def __init__(self, message):
        self.message = message

    def __str__(self):
        return "CryptoException: " + self.message


class CryptoUnsupportedException(CryptoException):
    """Unsupported feature requested."""
    def __str__(self):
        return "CryptoUnsupportedException: " + self.message


class CryptoBadKeyException(CryptoException):
    """Encryption key is incorrect."""
    def __str__(self):
        return "CryptoBadKeyException: " + self.message


class CryptoNoKeyException(CryptoException):
    """No key has been initalised."""
    def __str__(self):
        return "CryptoNoKeyException: " + self.message


class CryptoNoCallbackException(CryptoException):
    """No Callback has been set."""
    def __str__(self):
        return "CryptoNoCallbackException: " + self.message


class CryptoPasswordMismatchException(CryptoException):
    """Entered passwords do not match."""
    def __str__(self):
        return "CryptoPasswordMismatchException: " + self.message


class CryptoEngine(object):
    """Cryptographic Engine"""
    _timeoutcount = 0
    _instance = None
    _callback = None

    @classmethod
    def get(cls):
        """
        CryptoEngine.get() -> CryptoEngine
        Return an instance of CryptoEngine.
        If no instance is found, a CryptoException is raised.
        """
        if CryptoEngine._instance is None:
            algo = config.get_value("Encryption", "algorithm")
            if algo == "Dummy":
                CryptoEngine._instance = DummyCryptoEngine()
            else:
                CryptoEngine._instance = CryptoEngine()
        return CryptoEngine._instance

    def __init__(self):
        """Initialise the Cryptographic Engine

        params is a dictionary. Valid keys are:
        algorithm: Which cipher to use
        callback:  Callback class.
        keycrypted: This should be set by the database layer.
        timeout:   Time after which key will be forgotten.
                             Default is -1 (disabled).
        """
        algo = config.get_value("Encryption", "algorithm")
        if algo:
            self._algo = algo
        else:
            raise CryptoException("Parameters missing, no algorithm given")

        callback = config.get_value("Encryption", "callback")
        if isinstance(callback, Callback):
            self._callback = callback
        else:
            self._callback = None

        keycrypted = config.get_value("Encryption", "keycrypted")
        if len(keycrypted) > 0:
            self._keycrypted = keycrypted
        else:
            self._keycrypted = None

        timeout = config.get_value("Encryption", "timeout")
        if timeout.isdigit():
            self._timeout = timeout
        else:
            self._timeout = -1
        self._cipher = None

    def auth(self, key):
        """
        authenticate using a given key
        """
        tmpcipher = self._getcipher_real(key, self._algo)
        plainkey = tmpcipher.decrypt(str(self._keycrypted).decode('base64'))
        key = self._retrievedata(plainkey)
        key = str(key).decode('base64')
        self._cipher = self._getcipher_real(key, self._algo)


    def encrypt(self, obj):
        """
        encrypt(obj) -> ciphertext
        Encrypt obj and return its ciphertext. obj must be a picklable class.
        Can raise a CryptoException and CryptoUnsupportedException"""
        cipher = self._getcipher()
        plaintext = self._preparedata(obj, cipher.block_size)
        ciphertext = cipher.encrypt(plaintext)

        return str(ciphertext).encode('base64')

    def decrypt(self, ciphertext):
        """
        decrypt(ciphertext) -> obj
        Decrypt ciphertext and returns the obj that was encrypted.
        If key is bad, a CryptoBadKeyException is raised
        Can also raise a CryptoException and CryptoUnsupportedException"""
        cipher = self._getcipher()
        ciphertext = str(ciphertext).decode('base64')
        plaintext = cipher.decrypt(ciphertext)
        return self._retrievedata(plaintext)

    def set_cryptedkey(self, key):
        """
        hold _keycrypted
        """
        self._keycrypted = key

    def get_cryptedkey(self):
        """
        return _keycrypted
        """
        return self._keycrypted

    def set_callback(self, callback):
        """
        set the callback function
        """
        self._callback = callback

    def get_callback(self):
        """
        return call back function
        """
        return self._callback

    #def get_user_password(self):
    #    "get the password from the user"
    #    if self._callback is None:
    #        raise CryptoNoCallbackException("No call back class has been "
    #                                        "specified")

    def changepassword(self):
        """
        Creates a new key. The key itself is actually stored in
        the database in crypted form. This key is encrypted using the
        password that the user provides. This makes it easy to change the
        password for the database.
        If oldKeyCrypted is none, then a new password is generated."""
        if self._callback is None:
            raise CryptoNoCallbackException("No call back class has been "
                                            "specified")
        if self._keycrypted is None:
            # Generate a new key, 32 byts in length, if that's
            # too long for the Cipher, _getCipherReal will sort it out
            random = OSRNG.new()
            key = str(random.read(32)).encode('base64')
        else:
            password = self._callback.getsecret(("Please enter your current "
                                                 "password"))
            cipher = self._getcipher_real(password, self._algo)
            plainkey = cipher.decrypt(str(self._keycrypted).decode('base64'))
            key = self._retrievedata(plainkey)

        newpassword1 = self._callback.getnewsecret("Please enter your new \
password")
        newpassword2 = self._callback.getnewsecret("Please enter your new \
password again")
        while newpassword1 != newpassword2:
            print "Passwords do not match!"
            newpassword1 = self._callback.getnewsecret("Please enter your new \
password")
            newpassword2 = self._callback.getnewsecret("Please enter your new \
password again")

        newcipher = self._getcipher_real(newpassword1, self._algo)
        self._keycrypted = str(newcipher.encrypt(
                               self._preparedata(key,
                                                 newcipher.block_size)
                               )).encode('base64')
        # newpassword1, newpassword2 are not needed any more so we erase
        # them
        zerome(newpassword1)
        zerome(newpassword2)
        del(newpassword1)
        del(newpassword2)
        # we also want to create the cipher if there isn't one already
        # so this CryptoEngine can be used from now on
        if self._cipher is None:
            self._cipher = self._getcipher_real(str(key).decode('base64'),
                                                self._algo)
            CryptoEngine._timeoutcount = time.time()
        return self._keycrypted

    def alive(self):
        """
        check if we have cipher
        """
        if self._cipher is not None:
            return True
        else:
            return False

    def forget(self):
        """
        discard cipher
        """
        self._cipher = None

    def _getcipher(self):
        """
        get cypher from user, to decrypt DB
        """
        if (self._cipher is not None
            and (self._timeout == -1
                 or (time.time() -
                     CryptoEngine._timeoutcount) < self._timeout)):
            return self._cipher
        if self._callback is None:
            raise CryptoNoCallbackException("No Callback exception")
        if self._keycrypted is None:
            raise CryptoNoKeyException("Encryption key has not been generated")

        max_tries = 5
        tries = 0
        key = None

        while tries < max_tries:
            try:
                password = self._callback.getsecret("Please enter your "
                                                    "password")
                tmpcipher = self._getcipher_real(password, self._algo)
                plainkey = tmpcipher.decrypt(str(self._keycrypted).decode(
                    'base64'))
                key = self._retrievedata(plainkey)
                break
            except CryptoBadKeyException:
                print "Wrong password."
                tries += 1

        if not key:
            raise Exception("Wrong password entered %s times; giving up"
                            % max_tries)

        key = str(key).decode('base64')
        self._cipher = self._getcipher_real(key,
                                            self._algo)

        CryptoEngine._timeoutcount = time.time()
        return self._cipher

    def _getcipher_real(self, key, algo):
        """
        do the real job of decrypting using functions
        form PyCrypto
        """
        if (algo == "AES"):
            key = hashlib.sha256(key)
            cipher = cAES.new(key.digest(), cAES.MODE_ECB)
        elif (algo == 'ARC2'):
            cipher = cARC2.new(key, cARC2.MODE_ECB)
        elif (algo == 'ARC4'):
            raise CryptoUnsupportedException("ARC4 is currently unsupported")
        elif (algo == 'Blowfish'):
            cipher = cBlowfish.new(key, cBlowfish.MODE_ECB)
        elif (algo == 'CAST'):
            cipher = cCAST.new(key, cCAST.MODE_ECB)
        elif (algo == 'DES'):
            if len(key) != 8:
                raise Exception("DES Encrypted keys must be 8 characters long!")
            cipher = cDES.new(key, cDES.MODE_ECB)
        elif (algo == 'DES3'):
            key = hashlib.sha224(key)
            cipher = cDES3.new(key.digest()[:24], cDES3.MODE_ECB)
        elif (algo == 'XOR'):
            raise CryptoUnsupportedException("XOR is currently unsupported")
        else:
            raise CryptoException("Invalid algorithm specified")
        return cipher

    def _preparedata(self, obj, blocksize):
        """
        prepare data before encrypting
        """
        #plaintext = cPickle.dumps(obj)
        plaintext = _TAG + obj
        numblocks = (len(plaintext)/blocksize) + 1
        newdatasize = blocksize*numblocks
        return plaintext.ljust(newdatasize)

    def _retrievedata(self, plaintext):
        """
        retrieve encrypted data
        """
        if (plaintext.startswith(_TAG)):
            plaintext = plaintext[len(_TAG):]
        else:
            raise CryptoBadKeyException("Error decrypting, bad key")

        try:
            # old db version used to write stuff to db with
            # plaintext = cPickle.dumps(obj)
            # TODO: completely remove this block, and convert
            # the DB to a completely plain text ...

            # This implies that the coversion from OLD DATABASE FORMAT has
            # to plain strings too ...
            return cPickle.loads(plaintext)
        except (TypeError, ValueError, cPickle.UnpicklingError, EOFError):
            return plaintext


class DummyCryptoEngine(CryptoEngine):
    """Dummy CryptoEngine used when database doesn't ask for encryption.
    Only for testing and debugging the DB drivers really."""
    def __init__(self):
        pass

    def encrypt(self, strng):
        """Return the object pickled."""
        return strng.upper()

    def decrypt(self, strng):
        """Unpickle the object."""
        return strng.lower()

    def changepassword(self):
        return ''