# -*- coding: utf-8 -*- """ Various constants from ETSI TS 151.011 + Representation of the GSM SIM/USIM/ISIM filesystem hierarchy. The File (and its derived classes) uses the classes of pySim.filesystem in order to describe the files specified in the relevant ETSI + 3GPP specifications. """ # # Copyright (C) 2017 Alexander.Chemeris # Copyright (C) 2021 Harald Welte # # 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 . # MF_num = '3F00' DF_num = { 'TELECOM': '7F10', 'GSM': '7F20', 'IS-41': '7F22', 'FP-CTS': '7F23', 'GRAPHICS': '5F50', 'IRIDIUM': '5F30', 'GLOBST': '5F31', 'ICO': '5F32', 'ACeS': '5F33', 'EIA/TIA-553': '5F40', 'CTS': '5F60', 'SOLSA': '5F70', 'MExE': '5F3C', } EF_num = { # MF 'ICCID': '2FE2', 'ELP': '2F05', 'DIR': '2F00', # DF_TELECOM 'ADN': '6F3A', 'FDN': '6F3B', 'SMS': '6F3C', 'CCP': '6F3D', 'MSISDN': '6F40', 'SMSP': '6F42', 'SMSS': '6F43', 'LND': '6F44', 'SMSR': '6F47', 'SDN': '6F49', 'EXT1': '6F4A', 'EXT2': '6F4B', 'EXT3': '6F4C', 'BDN': '6F4D', 'EXT4': '6F4E', 'CMI': '6F58', 'ECCP': '6F4F', # DF_GRAPHICS 'IMG': '4F20', # DF_SoLSA 'SAI': '4F30', 'SLL': '4F31', # DF_MExE 'MExE-ST': '4F40', 'ORPK': '4F41', 'ARPK': '4F42', 'TPRPK': '4F43', # DF_GSM 'LP': '6F05', 'IMSI': '6F07', 'Kc': '6F20', 'DCK': '6F2C', 'PLMNsel': '6F30', 'HPPLMN': '6F31', 'CNL': '6F32', 'ACMmax': '6F37', 'SST': '6F38', 'ACM': '6F39', 'GID1': '6F3E', 'GID2': '6F3F', 'PUCT': '6F41', 'CBMI': '6F45', 'SPN': '6F46', 'CBMID': '6F48', 'BCCH': '6F74', 'ACC': '6F78', 'FPLMN': '6F7B', 'LOCI': '6F7E', 'AD': '6FAD', 'PHASE': '6FAE', 'VGCS': '6FB1', 'VGCSS': '6FB2', 'VBS': '6FB3', 'VBSS': '6FB4', 'eMLPP': '6FB5', 'AAeM': '6FB6', 'ECC': '6FB7', 'CBMIR': '6F50', 'NIA': '6F51', 'KcGPRS': '6F52', 'LOCIGPRS': '6F53', 'SUME': '6F54', 'PLMNwAcT': '6F60', 'OPLMNwAcT': '6F61', # Figure 8 names it HPLMNAcT, but in the text it's names it HPLMNwAcT 'HPLMNAcT': '6F62', 'HPLMNwAcT': '6F62', 'CPBCCH': '6F63', 'INVSCAN': '6F64', 'PNN': '6FC5', 'OPL': '6FC6', 'MBDN': '6FC7', 'EXT6': '6FC8', 'MBI': '6FC9', 'MWIS': '6FCA', 'CFIS': '6FCB', 'EXT7': '6FCC', 'SPDI': '6FCD', 'MMSN': '6FCE', 'EXT8': '6FCF', 'MMSICP': '6FD0', 'MMSUP': '6FD1', 'MMSUCP': '6FD2', } DF = { 'TELECOM': [MF_num, DF_num['TELECOM']], 'GSM': [MF_num, DF_num['GSM']], 'IS-41': [MF_num, DF_num['IS-41']], 'FP-CTS': [MF_num, DF_num['FP-CTS']], 'GRAPHICS': [MF_num, DF_num['GRAPHICS']], 'IRIDIUM': [MF_num, DF_num['IRIDIUM']], 'GLOBST': [MF_num, DF_num['GLOBST']], 'ICO': [MF_num, DF_num['ICO']], 'ACeS': [MF_num, DF_num['ACeS']], 'EIA/TIA-553': [MF_num, DF_num['EIA/TIA-553']], 'CTS': [MF_num, DF_num['CTS']], 'SoLSA': [MF_num, DF_num['SOLSA']], 'MExE': [MF_num, DF_num['MExE']], } EF = { 'ICCID': [MF_num, EF_num['ICCID']], 'ELP': [MF_num, EF_num['ELP']], 'DIR': [MF_num, EF_num['DIR']], 'ADN': DF['TELECOM']+[EF_num['ADN']], 'FDN': DF['TELECOM']+[EF_num['FDN']], 'SMS': DF['TELECOM']+[EF_num['SMS']], 'CCP': DF['TELECOM']+[EF_num['CCP']], 'MSISDN': DF['TELECOM']+[EF_num['MSISDN']], 'SMSP': DF['TELECOM']+[EF_num['SMSP']], 'SMSS': DF['TELECOM']+[EF_num['SMSS']], 'LND': DF['TELECOM']+[EF_num['LND']], 'SMSR': DF['TELECOM']+[EF_num['SMSR']], 'SDN': DF['TELECOM']+[EF_num['SDN']], 'EXT1': DF['TELECOM']+[EF_num['EXT1']], 'EXT2': DF['TELECOM']+[EF_num['EXT2']], 'EXT3': DF['TELECOM']+[EF_num['EXT3']], 'BDN': DF['TELECOM']+[EF_num['BDN']], 'EXT4': DF['TELECOM']+[EF_num['EXT4']], 'CMI': DF['TELECOM']+[EF_num['CMI']], 'ECCP': DF['TELECOM']+[EF_num['ECCP']], 'IMG': DF['GRAPHICS']+[EF_num['IMG']], 'SAI': DF['SoLSA']+[EF_num['SAI']], 'SLL': DF['SoLSA']+[EF_num['SLL']], 'MExE-ST': DF['MExE']+[EF_num['MExE-ST']], 'ORPK': DF['MExE']+[EF_num['ORPK']], 'ARPK': DF['MExE']+[EF_num['ARPK']], 'TPRPK': DF['MExE']+[EF_num['TPRPK']], 'LP': DF['GSM']+[EF_num['LP']], 'IMSI': DF['GSM']+[EF_num['IMSI']], 'Kc': DF['GSM']+[EF_num['Kc']], 'DCK': DF['GSM']+[EF_num['DCK']], 'PLMNsel': DF['GSM']+[EF_num['PLMNsel']], 'HPPLMN': DF['GSM']+[EF_num['HPPLMN']], 'CNL': DF['GSM']+[EF_num['CNL']], 'ACMmax': DF['GSM']+[EF_num['ACMmax']], 'SST': DF['GSM']+[EF_num['SST']], 'ACM': DF['GSM']+[EF_num['ACM']], 'GID1': DF['GSM']+[EF_num['GID1']], 'GID2': DF['GSM']+[EF_num['GID2']], 'PUCT': DF['GSM']+[EF_num['PUCT']], 'CBMI': DF['GSM']+[EF_num['CBMI']], 'SPN': DF['GSM']+[EF_num['SPN']], 'CBMID': DF['GSM']+[EF_num['CBMID']], 'BCCH': DF['GSM']+[EF_num['BCCH']], 'ACC': DF['GSM']+[EF_num['ACC']], 'FPLMN': DF['GSM']+[EF_num['FPLMN']], 'LOCI': DF['GSM']+[EF_num['LOCI']], 'AD': DF['GSM']+[EF_num['AD']], 'PHASE': DF['GSM']+[EF_num['PHASE']], 'VGCS': DF['GSM']+[EF_num['VGCS']], 'VGCSS': DF['GSM']+[EF_num['VGCSS']], 'VBS': DF['GSM']+[EF_num['VBS']], 'VBSS': DF['GSM']+[EF_num['VBSS']], 'eMLPP': DF['GSM']+[EF_num['eMLPP']], 'AAeM': DF['GSM']+[EF_num['AAeM']], 'ECC': DF['GSM']+[EF_num['ECC']], 'CBMIR': DF['GSM']+[EF_num['CBMIR']], 'NIA': DF['GSM']+[EF_num['NIA']], 'KcGPRS': DF['GSM']+[EF_num['KcGPRS']], 'LOCIGPRS': DF['GSM']+[EF_num['LOCIGPRS']], 'SUME': DF['GSM']+[EF_num['SUME']], 'PLMNwAcT': DF['GSM']+[EF_num['PLMNwAcT']], 'OPLMNwAcT': DF['GSM']+[EF_num['OPLMNwAcT']], # Figure 8 names it HPLMNAcT, but in the text it's names it HPLMNwAcT 'HPLMNAcT': DF['GSM']+[EF_num['HPLMNAcT']], 'HPLMNwAcT': DF['GSM']+[EF_num['HPLMNAcT']], 'CPBCCH': DF['GSM']+[EF_num['CPBCCH']], 'INVSCAN': DF['GSM']+[EF_num['INVSCAN']], 'PNN': DF['GSM']+[EF_num['PNN']], 'OPL': DF['GSM']+[EF_num['OPL']], 'MBDN': DF['GSM']+[EF_num['MBDN']], 'EXT6': DF['GSM']+[EF_num['EXT6']], 'MBI': DF['GSM']+[EF_num['MBI']], 'MWIS': DF['GSM']+[EF_num['MWIS']], 'CFIS': DF['GSM']+[EF_num['CFIS']], 'EXT7': DF['GSM']+[EF_num['EXT7']], 'SPDI': DF['GSM']+[EF_num['SPDI']], 'MMSN': DF['GSM']+[EF_num['MMSN']], 'EXT8': DF['GSM']+[EF_num['EXT8']], 'MMSICP': DF['GSM']+[EF_num['MMSICP']], 'MMSUP': DF['GSM']+[EF_num['MMSUP']], 'MMSUCP': DF['GSM']+[EF_num['MMSUCP']], } # Mapping between SIM Service Number and its description EF_SST_map = { 1: 'CHV1 disable function', 2: 'Abbreviated Dialling Numbers (ADN)', 3: 'Fixed Dialling Numbers (FDN)', 4: 'Short Message Storage (SMS)', 5: 'Advice of Charge (AoC)', 6: 'Capability Configuration Parameters (CCP)', 7: 'PLMN selector', 8: 'RFU', 9: 'MSISDN', 10: 'Extension1', 11: 'Extension2', 12: 'SMS Parameters', 13: 'Last Number Dialled (LND)', 14: 'Cell Broadcast Message Identifier', 15: 'Group Identifier Level 1', 16: 'Group Identifier Level 2', 17: 'Service Provider Name', 18: 'Service Dialling Numbers (SDN)', 19: 'Extension3', 20: 'RFU', 21: 'VGCS Group Identifier List (EFVGCS and EFVGCSS)', 22: 'VBS Group Identifier List (EFVBS and EFVBSS)', 23: 'enhanced Multi-Level Precedence and Pre-emption Service', 24: 'Automatic Answer for eMLPP', 25: 'Data download via SMS-CB', 26: 'Data download via SMS-PP', 27: 'Menu selection', 28: 'Call control', 29: 'Proactive SIM', 30: 'Cell Broadcast Message Identifier Ranges', 31: 'Barred Dialling Numbers (BDN)', 32: 'Extension4', 33: 'De-personalization Control Keys', 34: 'Co-operative Network List', 35: 'Short Message Status Reports', 36: 'Network\'s indication of alerting in the MS', 37: 'Mobile Originated Short Message control by SIM', 38: 'GPRS', 39: 'Image (IMG)', 40: 'SoLSA (Support of Local Service Area)', 41: 'USSD string data object supported in Call Control', 42: 'RUN AT COMMAND command', 43: 'User controlled PLMN Selector with Access Technology', 44: 'Operator controlled PLMN Selector with Access Technology', 45: 'HPLMN Selector with Access Technology', 46: 'CPBCCH Information', 47: 'Investigation Scan', 48: 'Extended Capability Configuration Parameters', 49: 'MExE', 50: 'Reserved and shall be ignored', 51: 'PLMN Network Name', 52: 'Operator PLMN List', 53: 'Mailbox Dialling Numbers', 54: 'Message Waiting Indication Status', 55: 'Call Forwarding Indication Status', 56: 'Service Provider Display Information', 57: 'Multimedia Messaging Service (MMS)', 58: 'Extension 8', 59: 'MMS User Connectivity Parameters', } # 10.3.18 "EF.AD (Administrative data) " EF_AD_mode_map = { '00' : 'normal operation', '80' : 'type approval operations', '01' : 'normal operation + specific facilities', '81' : 'type approval operations + specific facilities', '02' : 'maintenance (off line)', '04' : 'cell test operation', } from pySim.utils import * from struct import pack, unpack from pySim.filesystem import * import pySim.ts_102_221 ###################################################################### # DF.TELECOM ###################################################################### # TS 51.011 Section 10.5.1 class EF_ADN(LinFixedEF): def __init__(self, fid='6f3a', sfid=None, name='EF.ADN', desc='Abbreviated Dialing Numbers'): super().__init__(fid, sfid=sfid, name=name, desc=desc, rec_len={14, 30}) def _decode_record_bin(self, raw_bin_data): alpha_id_len = len(raw_bin_data) - 14 alpha_id = raw_bin_data[:alpha_id_len] u = unpack('!BB10sBB', raw_bin_data[-14:]) return {'alpha_id': alpha_id, 'len_of_bcd': u[0], 'ton_npi': u[1], 'dialing_nr': u[2], 'cap_conf_id': u[3], 'ext1_record_id': u[4]} # TS 51.011 Section 10.5.5 class EF_MSISDN(LinFixedEF): def __init__(self, fid='6f4f', sfid=None, name='EF.MSISDN', desc='MSISDN'): super().__init__(fid, sfid=sfid, name=name, desc=desc, rec_len={15, None}) def _decode_record_hex(self, raw_hex_data): return {'msisdn': dec_msisdn(raw_hex_data)} def _encode_record_hex(self, abstract): return enc_msisdn(abstract['msisdn']) # TS 51.011 Section 10.5.6 class EF_SMSP(LinFixedEF): def __init__(self, fid='6f42', sfid=None, name='EF.SMSP', desc='Short message service parameters'): super().__init__(fid, sfid=sfid, name=name, desc=desc, rec_len={28, None}) class DF_TELECOM(CardDF): def __init__(self, fid='7f10', name='DF.TELECOM', desc=None): super().__init__(fid=fid, name=name, desc=desc) files = [ EF_ADN(), # FDN, SMS, CCP, ECCP EF_MSISDN(), EF_SMSP(), # SMSS, LND, SDN, EXT1, EXT2, EXT3, BDN, EXT4, SMSR, CMI ] self.add_files(files) def decode_select_response(self, data_hex): return decode_select_response(data_hex) ###################################################################### # DF.GSM ###################################################################### # TS 51.011 Section 10.3.1 class EF_LP(TransRecEF): def __init__(self, fid='6f05', sfid=None, name='EF.LP', size={1,None}, rec_len=1, desc='Language Preference'): super().__init__(fid, sfid=sfid, name=name, desc=desc, size=size, rec_len=rec_len) def _decode_record_bin(self, in_bin): return b2h(in_bin) def _encode_record_bin(self, in_json): return h2b(in_json) # TS 51.011 Section 10.3.2 class EF_IMSI(TransparentEF): def __init__(self, fid='6f07', sfid=None, name='EF.IMSI', desc='IMSI', size={9,9}): super().__init__(fid, sfid=sfid, name=name, desc=desc, size=size) def _decode_hex(self, raw_hex): return {'imsi': dec_imsi(raw_hex)} def _encode_hex(self, abstract): return enc_imsi(abstract['imsi']) # TS 51.011 Section 10.3.4 class EF_PLMNsel(TransRecEF): def __init__(self, fid='6f30', sfid=None, name='EF.PLMNsel', desc='PLMN selector', size={24,None}, rec_len=3): super().__init__(fid, name=name, sfid=sfid, desc=desc, size=size, rec_len=rec_len) def _decode_record_hex(self, in_hex): if in_hex[:6] == "ffffff": return None else: return dec_plmn(in_hex) def _encode_record_hex(self, in_json): if in_json == None: return "ffffff" else: return enc_plmn(in_json['mcc'], in_json['mnc']) # TS 51.011 Section 10.3.7 class EF_ServiceTable(TransparentEF): def __init__(self, fid, sfid, name, desc, size, table): super().__init__(fid, sfid=sfid, name=name, desc=desc, size=size) self.table = table def _decode_bin(self, raw_bin): ret = {} for i in range(0, len(raw_bin)*4): service_nr = i+1 byte = int(raw_bin[i//4]) bit_offset = (i % 4) * 2 bits = (byte >> bit_offset) & 3 ret[service_nr] = { 'description': self.table[service_nr] or None, 'allocated': True if bits & 1 else False, 'activated': True if bits & 2 else False, } return ret # TODO: encoder # TS 51.011 Section 10.3.11 class EF_SPN(TransparentEF): def __init__(self, fid='6f46', sfid=None, name='EF.SPN', desc='Service Provider Name', size={17,17}): super().__init__(fid, sfid=sfid, name=name, desc=desc, size=size) def _decode_hex(self, raw_hex): return {'spn': dec_spn(raw_hex)} def _encode_hex(self, abstract): return enc_spn(abstract['spn']) # TS 51.011 Section 10.3.13 class EF_CBMI(TransRecEF): def __init__(self, fid='6f45', sfid=None, name='EF.CBMI', size={2,None}, rec_len=2, desc='Cell Broadcast message identifier selection'): super().__init__(fid, sfid=sfid, name=name, desc=desc, size=size, rec_len=rec_len) # TS 51.011 Section 10.3.15 class EF_ACC(TransparentEF): def __init__(self, fid='6f78', sfid=None, name='EF.ACC', desc='Access Control Class', size={2,2}): super().__init__(fid, sfid=sfid, name=name, desc=desc, size=size) def _decode_bin(self, raw_bin): return {'acc': unpack('!H', raw_bin)[0]} def _encode_bin(self, abstract): return pack('!H', abstract['acc']) # TS 51.011 Section 10.3.18 class EF_AD(TransparentEF): OP_MODE = { 0x00: 'normal operation', 0x80: 'type approval operations', 0x01: 'normal operation + specific facilities', 0x81: 'type approval + specific facilities', 0x02: 'maintenance (off line)', 0x04: 'cell test operation', } def __init__(self, fid='6fad', sfid=None, name='EF.AD', desc='Administrative Data', size={3,4}): super().__init__(fid, sfid=sfid, name=name, desc=desc, size=size) def _decode_bin(self, raw_bin): u = unpack('!BH', raw_bin[:3]) # TS 51.011 Section 10.3.13 class EF_CBMID(EF_CBMI): def __init__(self, fid='6f48', sfid=None, name='EF.CBMID', size={2,None}, rec_len=2, desc='Cell Broadcast Message Identifier for Data Download'): super().__init__(fid, sfid=sfid, name=name, desc=desc, size=size, rec_len=rec_len) # TS 51.011 Section 10.3.27 class EF_ECC(TransRecEF): def __init__(self, fid='6fb7', sfid=None, name='EF.ECC', size={3,15}, rec_len=3, desc='Emergency Call Codes'): super().__init__(fid, sfid=sfid, name=name, desc=desc, size=size, rec_len=rec_len) # TS 51.011 Section 10.3.28 class EF_CBMIR(TransRecEF): def __init__(self, fid='6f50', sfid=None, name='EF.CBMIR', size={4,None}, rec_len=4, desc='Cell Broadcast message identifier range selection'): super().__init__(fid, sfid=sfid, name=name, desc=desc, size=size, rec_len=rec_len) # TS 51.011 Section 10.3.35..37 class EF_xPLMNwAcT(TransRecEF): def __init__(self, fid, sfid=None, name=None, desc=None, size={40,None}, rec_len=5): super().__init__(fid, sfid=sfid, name=name, desc=desc, size=size, rec_len=rec_len) def _decode_record_hex(self, in_hex): if in_hex[:6] == "ffffff": return None else: return dec_xplmn_w_act(in_hex) def _encode_record_hex(self, in_json): if in_json == None: return "ffffff0000" else: hplmn = enc_plmn(in_json['mcc'], in_json['mnc']) act = self.enc_act(in_json['act']) return hplmn + act @staticmethod def enc_act(in_list): u16 = 0 # first the simple ones if 'UTRAN' in in_list: u16 |= 0x8000 if 'NG-RAN' in in_list: u16 |= 0x0800 if 'GSM COMPACT' in in_list: u16 |= 0x0040 if 'cdma2000 HRPD' in in_list: u16 |= 0x0020 if 'cdma2000 1xRTT' in in_list: u16 |= 0x0010 # E-UTRAN if 'E-UTRAN WB-S1' in in_list: u16 |= 0x6000 if 'E-UTRAN NB-S1' in in_list: u16 |= 0x5000 # GSM mess if 'GSM' in in_list and 'EC-GSM-IoT' in in_list: u16 |= 0x008C elif 'GSM' in in_list: u16 |= 0x0084 elif 'EC-GSM-IuT' in in_list: u16 |= 0x0088 return '%04X'%(u16) class DF_GSM(CardDF): def __init__(self, fid='7f20', name='DF.GSM', desc='GSM Network related files'): super().__init__(fid=fid, name=name, desc=desc) files = [ EF_LP(), EF_IMSI(), TransparentEF('5f20', None, 'EF.Kc', 'Ciphering key Kc'), EF_PLMNsel(), TransparentEF('6f31', None, 'EF.HPPLMN', 'Higher Priority PLMN search period'), # ACMmax EF_ServiceTable('6f37', None, 'EF.SST', 'SIM service table', table=EF_SST_map, size={2,16}), CyclicEF('6f39', None, 'EF.ACM', 'Accumulated call meter', rec_len={4,3}), TransparentEF('6f3e', None, 'EF.GID1', 'Group Identifier Level 1'), TransparentEF('6f3f', None, 'EF.GID2', 'Group Identifier Level 2'), EF_SPN(), TransparentEF('6f41', None, 'EF.PUCT', 'Price per unit and currency table', size={5,5}), EF_CBMI(), TransparentEF('6f7f', None, 'EF.BCCH', 'Broadcast control channels', size={16,16}), EF_ACC(), EF_PLMNsel('6f7b', None, 'EF.FPLMN', 'Forbidden PLMNs', size={12,12}), TransparentEF('6f7e', None, 'EF.LOCI', 'Locationn information', size={11,11}), EF_AD(), TransparentEF('6fa3', None, 'EF.Phase', 'Phase identification', size={1,1}), # TODO EF.VGCS VGCSS, VBS, VBSS, eMLPP, AAeM EF_CBMID(), EF_ECC(), EF_CBMIR(), # DCK, CNL, NIA, KcGRS, LOCIGPRS, SUME EF_xPLMNwAcT('6f60', None, 'EF.PLMNwAcT', 'User controlled PLMN Selector with Access Technology'), EF_xPLMNwAcT('6f61', None, 'EF.OPLMNwAcT', 'Operator controlled PLMN Selector with Access Technology'), EF_xPLMNwAcT('6f62', None, 'EF.HPLMNwAcT', 'HPLMN Selector with Access Technology'), # CPBCCH, InvScan, PNN, OPL, MBDN, MBI, MWIS, CFIS, EXT5, EXT6, EXT7, SPDI, MMSN, EXT8 # MMSICP, MMSUP, MMSUCP ] self.add_files(files) def decode_select_response(self, data_hex): return decode_select_response(data_hex) def decode_select_response(resp_hex): resp_bin = h2b(resp_hex) if resp_bin[0] == 0x62: return pySim.ts_102_221.decode_select_response(resp_hex) struct_of_file_map = { 0: 'transparent', 1: 'linear_fixed', 3: 'cyclic' } type_of_file_map = { 1: 'mf', 2: 'df', 4: 'working_ef' } ret = { 'file_descriptor': {}, 'proprietary_info': {}, } ret['file_id'] = b2h(resp_bin[4:6]) ret['proprietary_info']['available_memory'] = int.from_bytes(resp_bin[2:4], 'big') file_type = type_of_file_map[resp_bin[6]] if resp_bin[6] in type_of_file_map else resp_bin[6] ret['file_descriptor']['file_type'] = file_type if file_type in ['mf', 'df']: ret['file_characteristics'] = b2h(resp_bin[13]) ret['num_direct_child_df'] = int(resp_bin[14], 16) ret['num_direct_child_ef'] = int(resp_bin[15], 16) ret['num_chv_unbkock_adm_codes'] = int(resp_bin[16]) # CHV / UNBLOCK CHV stats elif file_type in ['working_ef']: file_struct = struct_of_file_map[resp_bin[13]] if resp_bin[13] in struct_of_file_map else resp_bin[13] ret['file_descriptor']['structure'] = file_struct ret['access_conditions'] = b2h(resp_bin[8:10]) if resp_bin[11] & 0x01 == 0: ret['life_cycle_status_int'] = 'operational_activated' elif resp_bin[11] & 0x04: ret['life_cycle_status_int'] = 'operational_deactivated' else: ret['life_cycle_status_int'] = 'terminated' return ret CardProfileSIM = CardProfile('SIM', desc='GSM SIM Card', files_in_mf=[DF_TELECOM(), DF_GSM()])