Example #1
0
    def blind(self, msg, blind):
        """
        Blinds a msg.

        Args:
            msg (bytes): Message to be blinded.
            blind: The blind that was used on the msg. instance of Blind


        Returns:
            A byte string of the blinded msg on success, None otherwise
        """

        if len(msg) != self.size or blind is None:
            return None

        ctx = _ssl.BN_CTX_new()
        f = _ssl.BN_bin2bn(msg, len(msg), _ssl.BN_new())

        if _ssl.BN_mod_mul(f, f, blind.bn_A, self.bn_n, ctx) != 1:
            logging.debug('Failed to blind msg')
            _ssl.BN_free(f)
            _ssl.BN_CTX_free(ctx)
            return None

        blinded_msg = BNToBin(f, self.size)

        # Free
        _ssl.BN_free(f)
        _ssl.BN_CTX_free(ctx)
        return blinded_msg
Example #2
0
    def revert_blind(self, msg, blind):
        """
        Removes a blind r from the message.

        Args:
            msg (bytes): A blinded message.
            blind: The blind that was used on the msg. instance of Blind

        Returns:
            A byte string of the unblinded msg on success, None otherwise
        """

        if len(msg) != self.size or blind is None:
            return None

        ctx = _ssl.BN_CTX_new()
        f = _ssl.BN_bin2bn(msg, len(msg), _ssl.BN_new())

        if _ssl.BN_mod_mul(f, f, blind.bn_ri, self.bn_n, ctx) != 1:
            logging.debug('Failed to unblind msg')
            _ssl.BN_free(f)
            _ssl.BN_CTX_free(ctx)
            return None

        unblinded_msg = BNToBin(f, self.size)

        # Cleanup
        _ssl.BN_free(f)
        _ssl.BN_CTX_free(ctx)

        return unblinded_msg
Example #3
0
    def unblind(self, msg, blind):
        """
        Unblinds a msg.

        Args:
            msg: A string - a blinded message.
               len(msg) must equal self.size
            blind: The blind that was used on the msg. instance of Blind


        Returns:
            A byte string of the unblinded msg on success, None otherwise
        """

        if (len(msg) != self.size or blind is None):
            return None

        ctx = _ssl.BN_CTX_new()
        f = _ssl.BN_bin2bn(msg, len(msg), _ssl.BN_new())

        if _ssl.BN_mod_mul(f, f, blind.bn_Ai, self.bn_n, ctx) != 1:
            logging.debug("Failed to unblind msg")
            _ssl.BN_free(f)
            _ssl.BN_CTX_free(ctx)
            return None

        unblinded_msg = BNToBin(f, self.size)

        # Cleanup
        _ssl.BN_free(f)
        _ssl.BN_CTX_free(ctx)

        return unblinded_msg
Example #4
0
def get_random(bits, mod=None):
    """
    Returns a random byte string of size `bits`/8 bytes.

    Args:
        bits (int): The number of bits the random string should have.
        mod (:obj:`ctypes.c_void_p`, optional): A pointer to a BN instance
    Returns:
        A byte strings of length `bits`/8 or None if an error occured
        If mod is set the random byte string will have a value < mod
    """
    ctx = _ssl.BN_CTX_new()
    _ssl.BN_CTX_start(ctx)
    r = _ssl.BN_CTX_get(ctx)
    ret = _ssl.BN_CTX_get(ctx)

    if mod:
        if _ssl.BN_rand_range(r, mod) == 0:
            logging.debug("get_random: failed to generate random number")
            return None

        while _ssl.BN_gcd(ret, r, mod, ctx) != 1:
            logging.debug("R is not a relative prime")
            if _ssl.BN_rand_range(r, mod) == 0:
                logging.debug("get_random: failed to generate random number")
                return None

    else:
        if _ssl.BN_rand(r, bits, 0, 1) == 0:
            logging.debug("get_random: failed to generate random number")
            return None

    rand = BNToBin(r, bits // 8)

    _ssl.BN_free(r)
    _ssl.BN_free(ret)
    _ssl.BN_CTX_end(ctx)
    _ssl.BN_CTX_free(ctx)

    return rand
Example #5
0
    def __init__(self, r, e, mod):
        assert r is not None
        assert e is not None
        assert mod is not None

        ctx = _ssl.BN_CTX_new()
        self._free = []

        self.r = r
        self.bn_r = _ssl.BN_bin2bn(r, len(r), _ssl.BN_new())  # r
        self.bn_Ai = _ssl.BN_mod_inverse(None, self.bn_r, mod, ctx)  # r^-1

        self.bn_A = _ssl.BN_new()  # r^pk
        if _ssl.BN_mod_exp(self.bn_A, self.bn_r, e, mod, ctx) != 1:
            logging.debug("Failed to get r^pk")

        self.bn_ri = _ssl.BN_new()  # (r^-1)^pk
        if _ssl.BN_mod_exp(self.bn_ri, self.bn_Ai, e, mod, ctx) != 1:
            logging.debug("Failed to get (r^-1)^pk")
        _ssl.BN_CTX_free(ctx)

        self._free = [self.bn_r, self.bn_ri, self.bn_A, self.bn_Ai]
Example #6
0
    def multiply(self, z1, q2):
        """ Computes `z1` * `q2^e` mod `n`

        `e` is the rsa key public exponent
        `n` is the rsa key modulus

        Returns:
            A byte string representing the result of the computation
        """

        # Convert to BN
        z1_bn = BinToBN(z1)
        q2_bn = BinToBN(q2)

        # Prep context
        ctx = _ssl.BN_CTX_new()
        _ssl.BN_CTX_start(ctx)

        # Get q2 ^ e
        ret = _ssl.BN_mod_exp(q2_bn, q2_bn, self.rsa_key.bn_e,
                              self.rsa_key.bn_n, ctx)
        if ret != 1:
            return None

        # Multiply z1 *  (q2 ^ e) mod n
        ret = _ssl.BN_mod_mul(z1_bn, z1_bn, q2_bn, self.rsa_key.bn_n, ctx)
        if ret != 1:
            return None

        result = BNToBin(z1_bn, self.rsa_key.size)

        _ssl.BN_free(z1_bn)
        _ssl.BN_free(q2_bn)
        _ssl.BN_CTX_end(ctx)
        _ssl.BN_CTX_free(ctx)

        return result
Example #7
0
    def get_quotient(self, q1, q2):
        """ Computes (`q2` / `q1`) mod `n`

        `n` is the rsa key modulus

        Returns:
            A byte string representing the result of the computation
        """

        # Convert to BN
        q1_bn = BinToBN(q1)
        q2_bn = BinToBN(q2)

        if q1_bn is None or q2_bn is None:
            return None

        # Prep context
        ctx = _ssl.BN_CTX_new()
        _ssl.BN_CTX_start(ctx)

        # Invert q1
        _ssl.BN_mod_inverse(q1_bn, q1_bn, self.rsa_key.bn_n, ctx)

        # Multiplty q2 * (q1)^-1
        ret = _ssl.BN_mod_mul(q1_bn, q1_bn, q2_bn, self.rsa_key.bn_n, ctx)
        if ret != 1:
            return None

        quotient = BNToBin(q1_bn, self.rsa_key.size)

        _ssl.BN_free(q1_bn)
        _ssl.BN_free(q2_bn)
        _ssl.BN_CTX_end(ctx)
        _ssl.BN_CTX_free(ctx)

        return quotient