Esempio n. 1
0
    def test_base_n(self):
        """Test to/from_base_n conversions."""
        alphabet = (string.digits + string.ascii_lowercase +
                    string.ascii_uppercase)

        for base in [2, 10, 16, 36, 62]:
            for num in [0, 10, 2313, 23134223879243284]:
                n_num = utils.to_base_n(num, base=base, alphabet=alphabet)
                _num = utils.from_base_n(n_num, base=base, alphabet=alphabet)
                self.assertTrue(num == _num)

        self.assertEquals(utils.to_base_n(15, base=16), 'f')
        self.assertEquals(utils.to_base_n(10, base=2), '1010')

        self.assertEquals(
            utils.from_base_n('101', base=2),
            int('101', base=2),
        )
        self.assertEquals(utils.from_base_n('deadbeef', base=16),
                          int('deadbeef', base=16))
Esempio n. 2
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def gen_uniqueid(event_file):
    """Generate a uniqueid for a given event file

    Uniqueid needs to be length constrained (exactly 13 char) and character set
    constrained ([a-z0-9]) to avoid issues with the naming limitations of the
    different resources of the container (root dir, logical volume, virtual
    ethernet device, ...)

    The current smallest length limiter is:

        virtual ethernet device(13): IFNAMESZ 16 char
                                     - 1 (zero terminated)
                                     - 2 ('.0'/'.1' suffix)

    This function will output an unique identifier of a maximum of 13 chars
    by encoding the event's instance_id, inode number and ctime in base 62.

    :param event_file:
        Full path to an event file
    :type event_file:
        ``str``
    :returns:
        (``str``) -- 13 chars identifier
    """

    event_stat = os.stat(event_file)
    # Event time is the creation time in millisec
    event_time = int(event_stat.st_ctime * 10**6)

    # Event data is the event inode (64bit) combined with the instance id
    # (33bit)
    # Why: InstanceID is 10 digits:
    #      int(10 * math.log(10) / math.log(2)) -> 33
    event_data = int(event_stat.st_ino)
    _name, _sep, instance = os.path.basename(event_file).rpartition('#')
    event_data ^= (int(instance) << 31)
    event_data &= (2**64) - 1

    seed = (event_time << 64) + int(event_data)

    # Trim the top bits so that we only consider 77bits.
    # Note we trim from the ctime high bits.
    # Why: int(13 * math.log(62) / math.log(2)) -> 77
    seed &= (2**77) - 1

    numerals = string.digits + string.ascii_lowercase + string.ascii_uppercase
    ret = utils.to_base_n(seed, base=len(numerals), alphabet=numerals)

    return '{identifier:>013s}'.format(identifier=ret)