#!/usr/bin/env python # -*- coding: utf-8 -*- """ pySim: various utilities """ # # Copyright (C) 2009-2010 Sylvain Munaut # # This program is free software: you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation, either version 2 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 General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program. If not, see . # def h2b(s): return ''.join([chr((int(x,16)<<4)+int(y,16)) for x,y in zip(s[0::2], s[1::2])]) def b2h(s): return ''.join(['%02x'%ord(x) for x in s]) def h2i(s): return [(int(x,16)<<4)+int(y,16) for x,y in zip(s[0::2], s[1::2])] def i2h(s): return ''.join(['%02x'%(x) for x in s]) def h2s(s): return ''.join([chr((int(x,16)<<4)+int(y,16)) for x,y in zip(s[0::2], s[1::2]) if not (x == 'f' and y == 'f') ]) def s2h(s): return b2h(s) def swap_nibbles(s): return ''.join([x+y for x,y in zip(s[1::2], s[0::2])]) def rpad(s, l, c='f'): return s + c * (l - len(s)) def lpad(s, l, c='f'): return c * (l - len(s)) + s def enc_imsi(imsi): """Converts a string imsi into the value of the EF""" l = (len(imsi) + 1) // 2 # Required bytes oe = len(imsi) & 1 # Odd (1) / Even (0) ei = '%02x' % l + swap_nibbles(lpad('%01x%s' % ((oe<<3)|1, imsi), 16)) return ei def dec_imsi(ef): """Converts an EF value to the imsi string representation""" if len(ef) < 4: return None l = int(ef[0:2], 16) * 2 # Length of the IMSI string swapped = swap_nibbles(ef[2:]) oe = (int(swapped[0])>>3) & 1 # Odd (1) / Even (0) if oe: l = l-1 if l+1 > len(swapped): return None imsi = swapped[1:l+2] return imsi def dec_iccid(ef): return swap_nibbles(ef).strip('f') def enc_iccid(iccid): return swap_nibbles(rpad(iccid, 20)) def enc_plmn(mcc, mnc): """Converts integer MCC/MNC into 3 bytes for EF""" return swap_nibbles(lpad('%d' % mcc, 3) + lpad('%d' % mnc, 3)) def dec_spn(ef): byte1 = int(ef[0:2]) hplmn_disp = (byte1&0x01 == 0x01) oplmn_disp = (byte1&0x02 == 0x02) name = h2s(ef[2:]) return (name, hplmn_disp, oplmn_disp) def enc_spn(name, hplmn_disp=False, oplmn_disp=False): byte1 = 0x00 if hplmn_disp: byte1 = byte1|0x01 if oplmn_disp: byte1 = byte1|0x02 return i2h([byte1])+s2h(name) def derive_milenage_opc(ki_hex, op_hex): """ Run the milenage algorithm to calculate OPC from Ki and OP """ from Crypto.Cipher import AES from Crypto.Util.strxor import strxor from pySim.utils import b2h # We pass in hex string and now need to work on bytes aes = AES.new(h2b(ki_hex)) opc_bytes = aes.encrypt(h2b(op_hex)) return b2h(strxor(opc_bytes, h2b(op_hex))) def calculate_luhn(cc): """ Calculate Luhn checksum used in e.g. ICCID and IMEI """ num = map(int, str(cc)) check_digit = 10 - sum(num[-2::-2] + [sum(divmod(d * 2, 10)) for d in num[::-2]]) % 10 return 0 if check_digit == 10 else check_digit