Exemplo n.º 1
0
 def test_bmp(self):
     """
         test if the classmethods in bmp work
     """
     bignum = 4321056789
     fcd_seq = [0xf4, 0xf3, 0xf2, 0xf1, 0xf0,
                0xf5, 0xf6, 0xf7, 0xf8, 0xf9]
     self.assertEqual(
         BCD.encode_fcd(bignum),
         fcd_seq)
     self.assertEqual(
         BCD.decode_fcd(fcd_seq),
         bignum)
Exemplo n.º 2
0
    def register(self, config_byte, **kwargs):
        """
        registers this ECR at the PT, locking menus
        for real world conditions.
        """
        kwargs = dict(kwargs)
        if self.password:
            kwargs['password'] = self.password
        if config_byte is not None:
            kwargs['config_byte'] = config_byte

        ret = self.transmit(Registration(**kwargs))

        if ret == TRANSMIT_OK:
            # get the terminal-id if its there.
            for inc, packet in self.transmitter.last_history:
                if inc and isinstance(packet, Completion):
                    if 'tid' in packet.bitmaps_as_dict().keys():
                        self.terminal_id = packet.bitmaps_as_dict()\
                            .get('tid', BCD(0)).value()
            # remember this.
            self._state_registered = True
        return ret
Exemplo n.º 3
0
    def get_end_of_day_information(self):
        """
        if this status information is sent in an end of day cycle,
        it contains the end of day information, making it a type of
        subpacket of itself.

        @returns: a dictionary holding end-of-day information.

        - returns an empty dictionary if there is no total amount
        - returns total amount at least in key 'amount'
        - tries to decipher credit card data into following format:
          number-<creditcard>, turnover-<creditcard>
          creditcard being [ec-card, jcb, eurocard, amex, visa, diners,
          remaining]
        - receipt-number-start, receipt-number-end contain the range of
          receipts
        """
        ret = {}
        # create a dictionary of bitmaps:
        bdict = self.bitmaps_as_dict()
        # at least amount should be present:
        if 'amount' not in bdict.keys():
            return {}
        else:
            ret = {
                'amount': int(bdict['amount'].value()),
            }
        # bitmap 0x60 (totals) contains the required information.
        # another bitmap (amount) holds the amount
        if 'totals' not in bdict.keys():
            # this packet holds no detail information but an amount.
            return ret
        totals = bdict['totals']
        totals_list = totals.value()
        # totals_list = str(bdict['totals'])
        # now we build our real data our of it.

        # rebuild date and time.
        my_time = None
        my_date = None
        if 'time' in bdict.keys():
            # print bdict['time'].value()
            mt = str(bdict['time'].value())
            my_time = datetime.time(hour=int(mt[0:2]),
                                    minute=int(mt[2:4]),
                                    second=int(mt[4:6]))
        if 'date_day' in bdict.keys():
            # print bdict['date'].value()
            md = str(bdict['date_day'].value())
            my_date = datetime.date(year=datetime.datetime.now().year,
                                    month=int(md[0:2]),
                                    day=int(md[2:4]))
        ret = {
            'receipt-number-start':
            BCD.as_int(BCD.decode_bcd(totals_list[0:2])),
            'receipt-number-end':
            BCD.as_int(BCD.decode_bcd(totals_list[2:4])),
            'number-ec-card':
            bs2hl(totals_list[4])[0],
            'turnover-ec-card':
            BCD.as_int(BCD.decode_bcd(totals_list[5:5 + 6])),
            'number-jcb':
            bs2hl(totals_list[11])[0],
            'turnover-jcb':
            BCD.as_int(BCD.decode_bcd(totals_list[12:12 + 6])),
            'number-eurocard':
            bs2hl(totals_list[18])[0],
            'turnover-eurocard':
            BCD.as_int(BCD.decode_bcd(totals_list[19:19 + 6])),
            'number-amex':
            bs2hl(totals_list[25])[0],
            'turnover-amex':
            BCD.as_int(BCD.decode_bcd(totals_list[26:26 + 6])),
            'number-visa':
            bs2hl(totals_list[32])[0],
            'turnover-visa':
            BCD.as_int(BCD.decode_bcd(totals_list[33:33 + 6])),
            'number-diners':
            bs2hl(totals_list[39])[0],
            'turnover-diners':
            BCD.as_int(BCD.decode_bcd(totals_list[40:40 + 6])),
            'number-remaining':
            bs2hl(totals_list[46])[0],
            'turnover-remaining':
            BCD.as_int(BCD.decode_bcd(totals_list[47:47 + 6])),
            'amount':
            int(bdict['amount'].value()),
            'turnover-amount':
            int(bdict['amount'].value()),
            'date':
            my_date,
            'time':
            my_time,
            'number-total':
            0,
        }
        # time holds simply HHMMSS (BCD)
        # date holds simply mmdd (BCD)

        # adding a formatted version
        tn = 0
        float_version = {}
        for key, value in ret.items():
            if key.startswith('turnover-'):
                key_id = key.replace('turnover-', '')
                # add a key with a formatted representation.
                v = float(value) / 100.0
                float_version['float-%s' % key_id] = v
            elif key.startswith('number-'):
                # add total numbers.
                tn += int(value)
        ret['number-total'] = tn
        ret.update(float_version)
        return ret
Exemplo n.º 4
0
 def get_end_of_day_information(self):
     """ if this status information is sent in an end of day cycle,
         it contains the end of day information, making it a type of
         subpacket of itself.
         
         @returns: a dictionary holding end-of-day information.
         
         - returns an empty dictionary if there is no total amount
         - returns total amount at least in key 'amount'
         - tries to decipher credit card data into following format:
           number-<creditcard>, turnover-<creditcard>
           creditcard being [ec-card, jcb, eurocard, amex, visa, diners, remaining]
         - receipt-number-start, receipt-number-end contain the range of receipts
         
     """
     ret = {}
     # create a dictionary of bitmaps:
     bdict = self.bitmaps_as_dict()
     # at least amount should be present:
     if not 'amount' in bdict.keys():
         return {}
     else:
         ret = {'amount': int(bdict['amount'].value()),}
     # bitmap 0x60 (totals) contains the required information.
     # another bitmap (amount) holds the amount
     if not 'totals' in bdict.keys():
         # this packet holds no detail information but an amount.
         return ret
     totals = bdict['totals']
     totals_list = totals.value()
     #totals_list = str(bdict['totals'])
     # now we build our real data our of it.
     
     # rebuild date and time.
     my_time = None
     my_date = None
     if 'time' in bdict.keys():
         #print bdict['time'].value()
         mt = str(bdict['time'].value())
         my_time = datetime.time( hour=int(mt[0:2]),
                                  minute=int(mt[2:4]),
                                  second=int(mt[4:6]),
                                  )
     if 'date_day' in bdict.keys():
         #print bdict['date'].value()
         md = str(bdict['date_day'].value())
         my_date = datetime.date( year=datetime.datetime.now().year,
                                  month=int(md[0:2]),
                                  day=int(md[2:4]),
                                  )
     ret = {'receipt-number-start': BCD.as_int( BCD.decode_bcd( totals_list[0:2] ) ),
            'receipt-number-end': BCD.as_int( BCD.decode_bcd( totals_list[2:4] ) ),
            'number-ec-card': conv.bs2hl( totals_list[4] )[0],
            'turnover-ec-card': BCD.as_int( BCD.decode_bcd( totals_list[5:5+6] ) ),
            'number-jcb': conv.bs2hl(totals_list[11])[0],
            'turnover-jcb': BCD.as_int( BCD.decode_bcd( totals_list[12:12+6] ) ),
            'number-eurocard': conv.bs2hl(totals_list[18])[0],
            'turnover-eurocard': BCD.as_int( BCD.decode_bcd( totals_list[19:19+6] ) ),
            'number-amex': conv.bs2hl(totals_list[25])[0],
            'turnover-amex': BCD.as_int( BCD.decode_bcd( totals_list[26:26+6] ) ),
            'number-visa': conv.bs2hl(totals_list[32])[0],
            'turnover-visa': BCD.as_int( BCD.decode_bcd( totals_list[33:33+6] ) ),
            'number-diners': conv.bs2hl(totals_list[39])[0],
            'turnover-diners': BCD.as_int( BCD.decode_bcd( totals_list[40:40+6] ) ),
            'number-remaining': conv.bs2hl(totals_list[46])[0],
            'turnover-remaining': BCD.as_int( BCD.decode_bcd( totals_list[47:47+6] ) ),
            'amount': int(bdict['amount'].value()),
            'turnover-amount': int(bdict['amount'].value()),
            'date': my_date,
            'time': my_time,
            'number-total': 0,
            }
     # time holds simply HHMMSS (BCD)
     # date holds simply mmdd (BCD)
     
     # adding a formatted version
     tn = 0
     for key, value in ret.items():
         if key.startswith('turnover-'):
             key_id = key.replace('turnover-', '')
             # add a key with a formatted representation.
             v = float(value) / 100.0
             ret['float-%s' % key_id] = v
         elif key.startswith('number-'):
             # add total numbers.
             tn += int(value)
     ret['number-total'] = tn
     return ret
Exemplo n.º 5
0
    def test_bcd(self):
        """ small test for bcds """
        n1, n2 = 4, 5
        bcd_n = 0x45
        # bcd_split should create two numbers out of bcd.
        self.assertEqual(BCD.bcd_split(bcd_n), (n1, n2))
        # bcd unite however should create one bcd byte out of two numbers
        self.assertEqual(BCD.bcd_unite((n1, n2)), bcd_n)

        # now test the full ones
        password = '******'
        bcd_pass = [0x12, 0x34, 0x56]
        password_nums = [int(x) for x in password]
        self.assertEqual(BCD.encode_bcd(password),
                         bcd_pass)
        self.assertEqual(BCD.decode_bcd(bcd_pass),
                         password_nums)
        # test instantiation:
        b = BCD(password)
        b._length = 3
        # print b.values()
        self.assertEqual(b.value(), password)
        # test dumping
        b = BCD(1)
        b._length = 3
        b._id = 666  # this is actually impossible, but manually valid.
        d = b.dump()
        self.assertEqual(d,
                         [666, 0, 0, 1])