# -*- coding: utf-8 -*- # without this, pylint will fail when inner classes are used # within the 'nested' kwarg of our TlvMeta metaclass on python 3.7 :( # pylint: disable=undefined-variable """ 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 . # from pySim.profile import match_sim from pySim.profile import CardProfile, CardProfileAddon from pySim.filesystem import * from pySim.ts_31_102_telecom import DF_PHONEBOOK, DF_MULTIMEDIA, DF_MCS, DF_V2X from pySim.gsm_r import AddonGSMR import enum from pySim.construct import * from construct import Optional as COptional from construct import * from struct import pack, unpack from typing import Tuple from pySim.tlv import * from pySim.utils import * # 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', } ###################################################################### # DF.TELECOM ###################################################################### # TS 51.011 Section 10.5.1 / Table 12 class ExtendedBcdAdapter(Adapter): """Replace some hex-characters with other ASCII characters""" # we only translate a=* / b=# as they habe a clear representation # in terms of USSD / SS service codes def _decode(self, obj, context, path): if not isinstance(obj, str): return obj return obj.lower().replace("a","*").replace("b","#") def _encode(self, obj, context, path): if not isinstance(obj, str): return obj return obj.replace("*","a").replace("#","b") # TS 51.011 Section 10.5.1 class EF_ADN(LinFixedEF): _test_decode = [ ( '42204841203120536963ffffffff06810628560810ffffffffffffff', { "alpha_id": "B HA 1 Sic", "len_of_bcd": 6, "ton_npi": { "ext": True, "type_of_number": "unknown", "numbering_plan_id": "isdn_e164" }, "dialing_nr": "6082658001", "cap_conf_id": 255, "ext1_record_id": 255 }), ( '4B756E64656E626574726575756E67FFFFFF0791947112122721ffffffffffff', {"alpha_id": "Kundenbetreuung", "len_of_bcd": 7, "ton_npi": {"ext": True, "type_of_number": "international", "numbering_plan_id": "isdn_e164"}, "dialing_nr": "491721217212", "cap_conf_id": 255, "ext1_record_id": 255} ) ] _test_no_pad = True def __init__(self, fid='6f3a', sfid=None, name='EF.ADN', desc='Abbreviated Dialing Numbers', ext=1, **kwargs): super().__init__(fid, sfid=sfid, name=name, desc=desc, rec_len=(14, 30), **kwargs) ext_name = 'ext%u_record_id' % ext self._construct = Struct('alpha_id'/COptional(GsmOrUcs2Adapter(Rpad(Bytes(this._.total_len-14)))), 'len_of_bcd'/Int8ub, 'ton_npi'/TonNpi, 'dialing_nr'/ExtendedBcdAdapter(BcdAdapter(Rpad(Bytes(10)))), 'cap_conf_id'/Int8ub, ext_name/Int8ub) # TS 51.011 Section 10.5.5 class EF_SMS(LinFixedEF): def __init__(self, fid='6f3c', sfid=None, name='EF.SMS', desc='Short messages', **kwargs): super().__init__(fid, sfid=sfid, name=name, desc=desc, rec_len=(176, 176), **kwargs) def _decode_record_bin(self, raw_bin_data, **kwargs): def decode_status(status): if status & 0x01 == 0x00: return (None, 'free_space') elif status & 0x07 == 0x01: return ('mt', 'message_read') elif status & 0x07 == 0x03: return ('mt', 'message_to_be_read') elif status & 0x07 == 0x07: return ('mo', 'message_to_be_sent') elif status & 0x1f == 0x05: return ('mo', 'sent_status_not_requested') elif status & 0x1f == 0x0d: return ('mo', 'sent_status_req_but_not_received') elif status & 0x1f == 0x15: return ('mo', 'sent_status_req_rx_not_stored_smsr') elif status & 0x1f == 0x1d: return ('mo', 'sent_status_req_rx_stored_smsr') else: return (None, 'rfu') status = decode_status(raw_bin_data[0]) remainder = raw_bin_data[1:] return {'direction': status[0], 'status': status[1], 'remainder': b2h(remainder)} # TS 51.011 Section 10.5.5 class EF_MSISDN(LinFixedEF): def __init__(self, fid='6f40', sfid=None, name='EF.MSISDN', desc='MSISDN', **kwargs): super().__init__(fid, sfid=sfid, name=name, desc=desc, rec_len=(15, 34), leftpad=True, **kwargs) def _decode_record_hex(self, raw_hex_data, **kwargs): return {'msisdn': dec_msisdn(raw_hex_data)} def _encode_record_hex(self, abstract, **kwargs): msisdn = abstract['msisdn'] if type(msisdn) == str: encoded_msisdn = enc_msisdn(msisdn) else: encoded_msisdn = enc_msisdn(msisdn[2], msisdn[0], msisdn[1]) alpha_identifier = (list(self.rec_len)[0] - len(encoded_msisdn) // 2) * "ff" return alpha_identifier + encoded_msisdn # TS 51.011 Section 10.5.6 class EF_SMSP(LinFixedEF): # FIXME: re-encode fails / missing alpha_id at start of output _test_decode = [ ( '454e6574776f726b73fffffffffffffff1ffffffffffffffffffffffffffffffffffffffffffffffff0000a7', { "alpha_id": "ENetworks", "parameter_indicators": { "tp_dest_addr": False, "tp_sc_addr": True, "tp_pid": True, "tp_dcs": True, "tp_vp": True }, "tp_dest_addr": { "length": 255, "ton_npi": { "ext": True, "type_of_number": "reserved_for_extension", "numbering_plan_id": "reserved_for_extension" }, "call_number": "" }, "tp_sc_addr": { "length": 255, "ton_npi": { "ext": True, "type_of_number": "reserved_for_extension", "numbering_plan_id": "reserved_for_extension" }, "call_number": "" }, "tp_pid": "00", "tp_dcs": "00", "tp_vp_minutes": 1440 } ), ] _test_no_pad = True class ValidityPeriodAdapter(Adapter): def _decode(self, obj, context, path): if obj <= 143: return obj + 1 * 5 elif obj <= 167: return 12 * 60 + ((obj - 143) * 30) elif obj <= 196: return (obj - 166) * (24 * 60) elif obj <= 255: return (obj - 192) * (7 * 24 * 60) else: raise ValueError def _encode(self, obj, context, path): if obj <= 12*60: return obj/5 - 1 elif obj <= 24*60: return 143 + ((obj - (12 * 60)) // 30) elif obj <= 30 * 24 * 60: return 166 + (obj / (24 * 60)) elif obj <= 63 * 7 * 24 * 60: return 192 + (obj // (7 * 24 * 60)) else: raise ValueError def __init__(self, fid='6f42', sfid=None, name='EF.SMSP', desc='Short message service parameters', **kwargs): super().__init__(fid, sfid=sfid, name=name, desc=desc, rec_len=(28, None), **kwargs) ScAddr = Struct('length'/Int8ub, 'ton_npi'/TonNpi, 'call_number'/BcdAdapter(Rpad(Bytes(10)))) self._construct = Struct('alpha_id'/COptional(GsmStringAdapter(Rpad(Bytes(this._.total_len-28)))), 'parameter_indicators'/InvertAdapter(FlagsEnum(Byte, tp_dest_addr=1, tp_sc_addr=2, tp_pid=3, tp_dcs=4, tp_vp=5)), 'tp_dest_addr'/ScAddr, 'tp_sc_addr'/ScAddr, 'tp_pid'/HexAdapter(Bytes(1)), 'tp_dcs'/HexAdapter(Bytes(1)), 'tp_vp_minutes'/EF_SMSP.ValidityPeriodAdapter(Byte)) # TS 51.011 Section 10.5.7 class EF_SMSS(TransparentEF): class MemCapAdapter(Adapter): def _decode(self, obj, context, path): return False if obj & 1 else True def _encode(self, obj, context, path): return 0 if obj else 1 def __init__(self, fid='6f43', sfid=None, name='EF.SMSS', desc='SMS status', size=(2, 8), **kwargs): super().__init__(fid, sfid=sfid, name=name, desc=desc, size=size, **kwargs) self._construct = Struct( 'last_used_tpmr'/Int8ub, 'memory_capacity_exceeded'/self.MemCapAdapter(Int8ub)) # TS 51.011 Section 10.5.8 class EF_SMSR(LinFixedEF): def __init__(self, fid='6f47', sfid=None, name='EF.SMSR', desc='SMS status reports', rec_len=(30, 30), **kwargs): super().__init__(fid, sfid=sfid, name=name, desc=desc, rec_len=rec_len, **kwargs) self._construct = Struct( 'sms_record_id'/Int8ub, 'sms_status_report'/HexAdapter(Bytes(29))) class EF_EXT(LinFixedEF): def __init__(self, fid, sfid=None, name='EF.EXT', desc='Extension', rec_len=(13, 13), **kwargs): super().__init__(fid=fid, sfid=sfid, name=name, desc=desc, rec_len=rec_len, **kwargs) self._construct = Struct( 'record_type'/Int8ub, 'extension_data'/HexAdapter(Bytes(11)), 'identifier'/Int8ub) # TS 51.011 Section 10.5.16 class EF_CMI(LinFixedEF): def __init__(self, fid='6f58', sfid=None, name='EF.CMI', rec_len=(2, 21), desc='Comparison Method Information', **kwargs): super().__init__(fid, sfid=sfid, name=name, desc=desc, rec_len=rec_len, **kwargs) self._construct = Struct( 'alpha_id'/GsmStringAdapter(Rpad(Bytes(this._.total_len-1))), 'comparison_method_id'/Int8ub) class DF_TELECOM(CardDF): def __init__(self, fid='7f10', name='DF.TELECOM', desc=None, **kwargs): super().__init__(fid=fid, name=name, desc=desc, **kwargs) files = [ EF_ADN(), EF_ADN(fid='6f3b', name='EF.FDN', desc='Fixed dialling numbers', ext=2), EF_SMS(), LinFixedEF(fid='6f3d', name='EF.CCP', desc='Capability Configuration Parameters', rec_len=(14, 14)), LinFixedEF(fid='6f4f', name='EF.ECCP', desc='Extended Capability Configuration Parameters', rec_len=(15, 32)), EF_MSISDN(), EF_SMSP(), EF_SMSS(), EF_ADN('6f44', None, 'EF.LND', 'Last Number Dialled', ext=1), EF_ADN('6f49', None, 'EF.SDN', 'Service Dialling Numbers', ext=3), EF_EXT('6f4a', None, 'EF.EXT1', 'Extension1 (ADN/SSC)'), EF_EXT('6f4b', None, 'EF.EXT2', 'Extension2 (FDN/SSC)'), EF_EXT('6f4c', None, 'EF.EXT3', 'Extension3 (SDN)'), EF_ADN(fid='6f4d', name='EF.BDN', desc='Barred Dialling Numbers'), EF_EXT('6f4e', None, 'EF.EXT4', 'Extension4 (BDN/SSC)'), EF_SMSR(), EF_CMI(), # not really part of 51.011 but something that TS 31.102 specifies may exist here. DF_PHONEBOOK(), DF_MULTIMEDIA(), DF_MCS(), DF_V2X(), ] self.add_files(files) ###################################################################### # DF.GSM ###################################################################### # TS 51.011 Section 10.3.1 class EF_LP(TransRecEF): _test_de_encode = [ ( "24", "24"), ] 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, **kwargs): return b2h(in_bin) def _encode_record_bin(self, in_json, **kwargs): return h2b(in_json) # TS 51.011 Section 10.3.2 class EF_IMSI(TransparentEF): _test_de_encode = [ ( "082982608200002080", { "imsi": "228062800000208" } ), ( "082926101160845740", { "imsi": "262011106487504" } ), ] 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) # add those commands to the general commands of a TransparentEF self.shell_commands += [self.AddlShellCommands(self)] def _decode_hex(self, raw_hex): return {'imsi': dec_imsi(raw_hex)} def _encode_hex(self, abstract): return enc_imsi(abstract['imsi']) @with_default_category('File-Specific Commands') class AddlShellCommands(CommandSet): def __init__(self, ef: TransparentEF): super().__init__() self._ef = ef def do_update_imsi_plmn(self, arg: str): """Change the plmn part of the IMSI""" plmn = arg.strip() if len(plmn) == 5 or len(plmn) == 6: (data, sw) = self._cmd.lchan.read_binary_dec() if sw == '9000' and len(data['imsi'])-len(plmn) == 10: imsi = data['imsi'] msin = imsi[len(plmn):] (data, sw) = self._cmd.lchan.update_binary_dec( {'imsi': plmn+msin}) if sw == '9000' and data: self._cmd.poutput_json( self._cmd.lchan.selected_file.decode_hex(data)) else: raise ValueError("PLMN length does not match IMSI length") else: raise ValueError("PLMN has wrong length!") # TS 51.011 Section 10.3.4 class EF_PLMNsel(TransRecEF): _test_de_encode = [ ( "22F860", { "mcc": "228", "mnc": "06" } ), ( "330420", { "mcc": "334", "mnc": "020" } ), ] def __init__(self, fid='6f30', sfid=None, name='EF.PLMNsel', desc='PLMN selector', size=(24, None), rec_len=3, **kwargs): super().__init__(fid, name=name, sfid=sfid, desc=desc, size=size, rec_len=rec_len, **kwargs) def _decode_record_hex(self, in_hex, **kwargs): if in_hex[:6] == "ffffff": return None else: return dec_plmn(in_hex) def _encode_record_hex(self, in_json, **kwargs): if in_json == None: return "ffffff" else: return enc_plmn(in_json['mcc'], in_json['mnc']) # TS 51.011 Section 10.3.6 class EF_ACMmax(TransparentEF): _test_de_encode = [ ( "000000", { "acm_max": 0 } ), ] def __init__(self, fid='6f37', sfid=None, name='EF.ACMmax', size=(3, 3), desc='ACM maximum value', **kwargs): super().__init__(fid, sfid=sfid, name=name, desc=desc, size=size, **kwargs) self._construct = Struct('acm_max'/Int24ub) # 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 self.shell_commands += [self.AddlShellCommands()] @staticmethod def _bit_byte_offset_for_service(service: int) -> Tuple[int, int]: i = service - 1 byte_offset = i//4 bit_offset = (i % 4) * 2 return (byte_offset, bit_offset) 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] if service_nr in self.table else None, 'allocated': True if bits & 1 else False, 'activated': True if bits & 2 else False, } return ret def _encode_bin(self, in_json): # compute the required binary size bin_len = 0 for srv in in_json.keys(): service_nr = int(srv) (byte_offset, bit_offset) = self._bit_byte_offset_for_service(service_nr) if byte_offset >= bin_len: bin_len = byte_offset+1 # encode the actual data out = bytearray(b'\x00' * bin_len) for srv in in_json.keys(): service_nr = int(srv) (byte_offset, bit_offset) = self._bit_byte_offset_for_service(service_nr) bits = 0 if in_json[srv]['allocated'] == True: bits |= 1 if in_json[srv]['activated'] == True: bits |= 2 out[byte_offset] |= ((bits & 3) << bit_offset) return out @with_default_category('File-Specific Commands') class AddlShellCommands(CommandSet): def _adjust_service(self, service_nr: int, allocate: Optional[bool] = None, activate : Optional[bool] = None): (byte_offset, bit_offset) = EF_ServiceTable._bit_byte_offset_for_service(service_nr) hex_data, sw = self._cmd.lchan.read_binary(length=1, offset=byte_offset) data = h2b(hex_data) if allocate is not None: if allocate: data[0] |= (1 << bit_offset) else: data[0] &= ~(1 << bit_offset) if activate is not None: if activate: data[0] |= (2 << bit_offset) else: data[0] &= ~(2 << bit_offset) total_data, sw = self._cmd.lchan.update_binary(b2h(data), offset=byte_offset) return sw def do_sst_service_allocate(self, arg): """Allocate a service within EF.SST""" self._adjust_service(int(arg), allocate = True) def do_sst_service_deallocate(self, arg): """Deallocate a service within EF.SST""" self._adjust_service(int(arg), allocate = False) def do_sst_service_activate(self, arg): """Activate a service within EF.SST""" self._adjust_service(int(arg), activate = True) def do_sst_service_deactivate(self, arg): """Deactivate a service within EF.SST""" self._adjust_service(int(arg), activate = False) # TS 51.011 Section 10.3.11 class EF_SPN(TransparentEF): _test_de_encode = [ ( "0147534d2d52204348ffffffffffffffff", { "rfu": 0, "hide_in_oplmn": False, "show_in_hplmn": True, "spn": "GSM-R CH" } ), ] def __init__(self, fid='6f46', sfid=None, name='EF.SPN', desc='Service Provider Name', size=(17, 17), **kwargs): super().__init__(fid, sfid=sfid, name=name, desc=desc, size=size, **kwargs) self._construct = BitStruct( # Byte 1 'rfu'/BitsRFU(6), 'hide_in_oplmn'/Flag, 'show_in_hplmn'/Flag, # Bytes 2..17 'spn'/Bytewise(GsmOrUcs2String(16)) ) # TS 51.011 Section 10.3.13 class EF_CBMI(TransRecEF): # TODO: Test vectors def __init__(self, fid='6f45', sfid=None, name='EF.CBMI', size=(2, None), rec_len=2, desc='Cell Broadcast message identifier selection', **kwargs): super().__init__(fid, sfid=sfid, name=name, desc=desc, size=size, rec_len=rec_len, **kwargs) self._construct = GreedyRange(Int16ub) # TS 51.011 Section 10.3.15 class EF_ACC(TransparentEF): # example: acc_list(15) will produce a dict with only ACC15 being True # example: acc_list(2, 4) will produce a dict with ACC2 and ACC4 being True # example: acc_list() will produce a dict with all ACCs being False acc_list = lambda *active: {'ACC{}'.format(c) : c in active for c in range(16)} _test_de_encode = [ ( "0000", acc_list() ), ( "0001", acc_list(0) ), ( "0002", acc_list(1) ), ( "0100", acc_list(8) ), ( "8000", acc_list(15) ), ( "802b", acc_list(0,1,3,5,15) ), ] def __init__(self, fid='6f78', sfid=None, name='EF.ACC', desc='Access Control Class', size=(2, 2), **kwargs): super().__init__(fid, sfid=sfid, name=name, desc=desc, size=size, **kwargs) # LSB of octet 2 is ACC=0 ... MSB of octet 1 is ACC=15 flags = ['ACC{}'.format(c) / Flag for c in range(16)] self._construct = ByteSwapped(BitsSwapped(BitStruct(*flags))) # TS 51.011 Section 10.3.16 class EF_LOCI(TransparentEF): _test_de_encode = [ ( "7802570222f81009780000", { "tmsi": "78025702", "lai": "22f8100978", "tmsi_time": 0, "lu_status": "updated" } ), ] def __init__(self, fid='6f7e', sfid=None, name='EF.LOCI', desc='Location Information', size=(11, 11)): super().__init__(fid, sfid=sfid, name=name, desc=desc, size=size) self._construct = Struct('tmsi'/HexAdapter(Bytes(4)), 'lai'/HexAdapter(Bytes(5)), 'tmsi_time'/Int8ub, 'lu_status'/Enum(Byte, updated=0, not_updated=1, plmn_not_allowed=2, location_area_not_allowed=3)) # TS 51.011 Section 10.3.18 class EF_AD(TransparentEF): _test_de_encode = [ ( "00ffff", { "ms_operation_mode": "normal", "rfu1": 255, "rfu2": 127, "ofm": True, "extensions": None } ), ] _test_no_pad = True class OP_MODE(enum.IntEnum): normal = 0x00 type_approval = 0x80 normal_and_specific_facilities = 0x01 type_approval_and_specific_facilities = 0x81 maintenance_off_line = 0x02 cell_test = 0x04 #OP_MODE_DICT = {int(v) : str(v) for v in EF_AD.OP_MODE} #OP_MODE_DICT_REVERSED = {str(v) : int(v) for v in EF_AD.OP_MODE} 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) self._construct = BitStruct( # Byte 1 'ms_operation_mode'/Bytewise(Enum(Byte, EF_AD.OP_MODE)), # Byte 2 'rfu1'/Bytewise(ByteRFU), # Byte 3 'rfu2'/BitsRFU(7), 'ofm'/Flag, # Byte 4 (optional), 'extensions'/COptional(Struct( 'rfu3'/BitsRFU(4), 'mnc_len'/BitsInteger(4), # Byte 5..N-4 (optional, RFU) 'extensions'/Bytewise(GreedyBytesRFU) )) ) # TS 51.011 Section 10.3.20 / 10.3.22 class EF_VGCS(TransRecEF): _test_de_encode = [ ( "92f9ffff", "299fffff" ), ] def __init__(self, fid='6fb1', sfid=None, name='EF.VGCS', size=(4, 200), rec_len=4, desc='Voice Group Call Service', **kwargs): super().__init__(fid, sfid=sfid, name=name, desc=desc, size=size, rec_len=rec_len, **kwargs) self._construct = BcdAdapter(Bytes(4)) # TS 51.011 Section 10.3.21 / 10.3.23 class EF_VGCSS(TransparentEF): _test_decode = [ ( "010000004540fc", { "flags": [ 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 1, 0, 1, 0, 0, 0, 1, 0, 0, 0, 0, 0, 0, 0, 1, 0, 0, 0 ] } ), ] def __init__(self, fid='6fb2', sfid=None, name='EF.VGCSS', size=(7, 7), desc='Voice Group Call Service Status', **kwargs): super().__init__(fid, sfid=sfid, name=name, desc=desc, size=size, **kwargs) self._construct = BitsSwapped(BitStruct( 'flags'/Bit[50], Padding(6, pattern=b'\xff'))) # TS 51.011 Section 10.3.24 class EF_eMLPP(TransparentEF): _test_de_encode = [ ( "7c04", { "levels": { "A": False, "B": False, "zero": True, "one": True, "two": True, "three": True, "four": True }, "fast_call_setup_cond": { "A": False, "B": False, "zero": True, "one": False, "two": False, "three": False, "four": False } }), ] def __init__(self, fid='6fb5', sfid=None, name='EF.eMLPP', size=(2, 2), desc='enhanced Multi Level Pre-emption and Priority', **kwargs): super().__init__(fid, sfid=sfid, name=name, desc=desc, size=size, **kwargs) FlagsConstruct = FlagsEnum( Byte, A=1, B=2, zero=4, one=8, two=16, three=32, four=64) self._construct = Struct( 'levels'/FlagsConstruct, 'fast_call_setup_cond'/FlagsConstruct) # TS 51.011 Section 10.3.25 class EF_AAeM(TransparentEF): _test_de_encode = [ ( "3c", { "auto_answer_prio_levels": { "A": False, "B": False, "zero": True, "one": True, "two": True, "three": True, "four": False } } ), ] def __init__(self, fid='6fb6', sfid=None, name='EF.AAeM', size=(1, 1), desc='Automatic Answer for eMLPP Service', **kwargs): super().__init__(fid, sfid=sfid, name=name, desc=desc, size=size, **kwargs) FlagsConstruct = FlagsEnum( Byte, A=1, B=2, zero=4, one=8, two=16, three=32, four=64) self._construct = Struct('auto_answer_prio_levels'/FlagsConstruct) # TS 51.011 Section 10.3.26 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', **kwargs): super().__init__(fid, sfid=sfid, name=name, desc=desc, size=size, rec_len=rec_len, **kwargs) self._construct = GreedyRange(Int16ub) # 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', **kwargs): super().__init__(fid, sfid=sfid, name=name, desc=desc, size=size, rec_len=rec_len, **kwargs) self._construct = GreedyRange(BcdAdapter(Bytes(3))) # 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', **kwargs): super().__init__(fid, sfid=sfid, name=name, desc=desc, size=size, rec_len=rec_len, **kwargs) self._construct = GreedyRange(Struct('lower'/Int16ub, 'upper'/Int16ub)) # TS 51.011 Section 10.3.29 class EF_DCK(TransparentEF): def __init__(self, fid='6f2c', sfid=None, name='EF.DCK', size=(16, 16), desc='Depersonalisation Control Keys', **kwargs): super().__init__(fid, sfid=sfid, name=name, desc=desc, size=size, **kwargs) self._construct = Struct('network'/BcdAdapter(Bytes(4)), 'network_subset'/BcdAdapter(Bytes(4)), 'service_provider'/BcdAdapter(Bytes(4)), 'corporate'/BcdAdapter(Bytes(4))) # TS 51.011 Section 10.3.30 class EF_CNL(TransRecEF): def __init__(self, fid='6f32', sfid=None, name='EF.CNL', size=(6, None), rec_len=6, desc='Co-operative Network List', **kwargs): super().__init__(fid, sfid=sfid, name=name, desc=desc, size=size, rec_len=rec_len, **kwargs) def _decode_record_hex(self, in_hex, **kwargs): (in_plmn, sub, svp, corp) = unpack('!3sBBB', h2b(in_hex)) res = dec_plmn(b2h(in_plmn)) res['network_subset'] = sub res['service_provider_id'] = svp res['corporate_id'] = corp return res def _encode_record_hex(self, in_json, **kwargs): plmn = enc_plmn(in_json['mcc'], in_json['mnc']) return b2h(pack('!3sBBB', h2b(plmn), in_json['network_subset'], in_json['service_provider_id'], in_json['corporate_id'])) # TS 51.011 Section 10.3.31 class EF_NIA(LinFixedEF): def __init__(self, fid='6f51', sfid=None, name='EF.NIA', rec_len=(1, 32), desc='Network\'s Indication of Alerting', **kwargs): super().__init__(fid, sfid=sfid, name=name, desc=desc, rec_len=rec_len, **kwargs) self._construct = Struct( 'alerting_category'/Int8ub, 'category'/GreedyBytes) # TS 51.011 Section 10.3.32 class EF_Kc(TransparentEF): _test_de_encode = [ ( "837d783609a3858f05", { "kc": "837d783609a3858f", "cksn": 5 } ), ] def __init__(self, fid='6f20', sfid=None, name='EF.Kc', desc='Ciphering key Kc', size=(9, 9), **kwargs): super().__init__(fid, sfid=sfid, name=name, desc=desc, size=size, **kwargs) self._construct = Struct('kc'/HexAdapter(Bytes(8)), 'cksn'/Int8ub) # TS 51.011 Section 10.3.33 class EF_LOCIGPRS(TransparentEF): _test_de_encode = [ ( "ffffffffffffff22f8990000ff01", { "ptmsi": "ffffffff", "ptmsi_sig": "ffffff", "rai": "22f8990000ff", "rau_status": "not_updated" } ), ] def __init__(self, fid='6f53', sfid=None, name='EF.LOCIGPRS', desc='GPRS Location Information', size=(14, 14)): super().__init__(fid, sfid=sfid, name=name, desc=desc, size=size) self._construct = Struct('ptmsi'/HexAdapter(Bytes(4)), 'ptmsi_sig'/HexAdapter(Bytes(3)), 'rai'/HexAdapter(Bytes(6)), 'rau_status'/Enum(Byte, updated=0, not_updated=1, plmn_not_allowed=2, routing_area_not_allowed=3)) # TS 51.011 Section 10.3.35..37 class EF_xPLMNwAcT(TransRecEF): _test_de_encode = [ ( '62F2104000', { "mcc": "262", "mnc": "01", "act": [ "E-UTRAN NB-S1", "E-UTRAN WB-S1" ] } ), ( '62F2108000', { "mcc": "262", "mnc": "01", "act": [ "UTRAN" ] } ), ( '62F220488C', { "mcc": "262", "mnc": "02", "act": ['E-UTRAN NB-S1', 'E-UTRAN WB-S1', 'EC-GSM-IoT', 'GSM', 'NG-RAN'] } ), ] def __init__(self, fid='1234', sfid=None, name=None, desc=None, size=(40, None), rec_len=5, **kwargs): super().__init__(fid, sfid=sfid, name=name, desc=desc, size=size, rec_len=rec_len, **kwargs) def _decode_record_hex(self, in_hex, **kwargs): if in_hex[:6] == "ffffff": return None else: return dec_xplmn_w_act(in_hex) def _encode_record_hex(self, in_json, **kwargs): 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 and 'E-UTRAN NB-S1' in in_list: u16 |= 0x4000 elif 'E-UTRAN WB-S1' in in_list: u16 |= 0x6000 elif '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-IoT' in in_list: u16 |= 0x0088 return '%04X' % (u16) # TS 51.011 Section 10.3.38 class EF_CPBCCH(TransRecEF): def __init__(self, fid='6f63', sfid=None, name='EF.CPBCCH', size=(2, 14), rec_len=2, desc='CPBCCH Information', **kwargs): super().__init__(fid, sfid=sfid, name=name, desc=desc, size=size, rec_len=rec_len, **kwargs) self._construct = Struct('cpbcch'/Int16ub) # TS 51.011 Section 10.3.39 class EF_InvScan(TransparentEF): def __init__(self, fid='6f64', sfid=None, name='EF.InvScan', size=(1, 1), desc='IOnvestigation Scan', **kwargs): super().__init__(fid, sfid=sfid, name=name, desc=desc, size=size, **kwargs) self._construct = FlagsEnum( Byte, in_limited_service_mode=1, after_successful_plmn_selection=2) # TS 51.011 Section 10.3.46 class EF_CFIS(LinFixedEF): _test_decode = [ ( '0100ffffffffffffffffffffffffffff', {"msp_number": 1, "cfu_indicator_status": { "voice": False, "fax": False, "data": False, "rfu": 0 }, "len_of_bcd": 255, "ton_npi": {"ext": True, "type_of_number": "reserved_for_extension", "numbering_plan_id": "reserved_for_extension"}, "dialing_nr": "", "cap_conf_id": 255, "ext7_record_id": 255} ), ] def __init__(self, fid='6fcb', sfid=None, name='EF.CFIS', desc='Call Forwarding Indication Status', ext=7, **kwargs): super().__init__(fid, sfid=sfid, name=name, desc=desc, rec_len=(16, 30), **kwargs) ext_name = 'ext%u_record_id' % ext self._construct = Struct('msp_number'/Int8ub, 'cfu_indicator_status'/BitStruct('voice'/Flag, 'fax'/Flag, 'data'/Flag, 'rfu'/BitsRFU(5)), 'len_of_bcd'/Int8ub, 'ton_npi'/TonNpi, 'dialing_nr'/ExtendedBcdAdapter(BcdAdapter(Rpad(Bytes(10)))), 'cap_conf_id'/Int8ub, ext_name/Int8ub) # TS 51.011 Section 4.2.58 class EF_PNN(LinFixedEF): # TODO: 430a82d432bbbc7eb75de432450a82d432bbbc7eb75de432ffffffff # TODO: 430a82c596b34cbfbfe5eb39ffffffffffffffffffffffffffffffffffff class FullNameForNetwork(BER_TLV_IE, tag=0x43): # TS 24.008 10.5.3.5a # TODO: proper decode _construct = HexAdapter(GreedyBytes) class ShortNameForNetwork(BER_TLV_IE, tag=0x45): # TS 24.008 10.5.3.5a # TODO: proper decode _construct = HexAdapter(GreedyBytes) class NetworkNameCollection(TLV_IE_Collection, nested=[FullNameForNetwork, ShortNameForNetwork]): pass def __init__(self, fid='6fc5', sfid=None, name='EF.PNN', desc='PLMN Network Name', **kwargs): super().__init__(fid, sfid=sfid, name=name, desc=desc, **kwargs) self._tlv = EF_PNN.NetworkNameCollection # TS 51.011 Section 10.3.42 class EF_OPL(LinFixedEF): _test_de_encode = [ ( '62f2100000fffe01', { "lai": { "mcc_mnc": "262-01", "lac_min": "0000", "lac_max": "fffe" }, "pnn_record_id": 1 } ), ] def __init__(self, fid='6fc6', sfid=None, name='EF.OPL', rec_len=(8, 8), desc='Operator PLMN List', **kwargs): super().__init__(fid, sfid=sfid, name=name, desc=desc, rec_len=rec_len, **kwargs) self._construct = Struct('lai'/Struct('mcc_mnc'/PlmnAdapter(Bytes(3)), 'lac_min'/HexAdapter(Bytes(2)), 'lac_max'/HexAdapter(Bytes(2))), 'pnn_record_id'/Int8ub) # TS 51.011 Section 10.3.44 + TS 31.102 4.2.62 class EF_MBI(LinFixedEF): _test_de_encode = [ ( '0100000000', { "mbi_voicemail": 1, "mbi_fax": 0, "mbi_email": 0, "mbi_other": 0, "mbi_videocall": 0 } ), ] def __init__(self, fid='6fc9', sfid=None, name='EF.MBI', rec_len=(4, 5), desc='Mailbox Identifier', **kwargs): super().__init__(fid, sfid=sfid, name=name, desc=desc, rec_len=rec_len, **kwargs) self._construct = Struct('mbi_voicemail'/Int8ub, 'mbi_fax'/Int8ub, 'mbi_email'/Int8ub, 'mbi_other'/Int8ub, 'mbi_videocall'/COptional(Int8ub)) # TS 51.011 Section 10.3.45 + TS 31.102 4.2.63 class EF_MWIS(LinFixedEF): _test_de_encode = [ ( '0000000000', {"mwi_status": {"voicemail": False, "fax": False, "email": False, "other": False, "videomail": False}, "num_waiting_voicemail": 0, "num_waiting_fax": 0, "num_waiting_email": 0, "num_waiting_other": 0, "num_waiting_videomail": None} ), ] _test_no_pad = True def __init__(self, fid='6fca', sfid=None, name='EF.MWIS', rec_len=(5, 6), desc='Message Waiting Indication Status', **kwargs): super().__init__(fid, sfid=sfid, name=name, desc=desc, rec_len=rec_len, **kwargs) self._construct = Struct('mwi_status'/FlagsEnum(Byte, voicemail=1, fax=2, email=4, other=8, videomail=16), 'num_waiting_voicemail'/Int8ub, 'num_waiting_fax'/Int8ub, 'num_waiting_email'/Int8ub, 'num_waiting_other'/Int8ub, 'num_waiting_videomail'/COptional(Int8ub)) # TS 51.011 Section 10.3.66 class EF_SPDI(TransparentEF): # TODO: a305800337f800ffffffffffffffffffffffffffffffffffffffffffffff class ServiceProviderPLMN(BER_TLV_IE, tag=0x80): # flexible numbers of 3-byte PLMN records _construct = GreedyRange(PlmnAdapter(Bytes(3))) class SPDI(BER_TLV_IE, tag=0xA3, nested=[ServiceProviderPLMN]): pass def __init__(self, fid='6fcd', sfid=None, name='EF.SPDI', desc='Service Provider Display Information', **kwargs): super().__init__(fid, sfid=sfid, name=name, desc=desc, **kwargs) self._tlv = EF_SPDI.SPDI # TS 51.011 Section 10.3.51 class EF_MMSN(LinFixedEF): def __init__(self, fid='6fce', sfid=None, name='EF.MMSN', rec_len=(4, 20), desc='MMS Notification', **kwargs): super().__init__(fid, sfid=sfid, name=name, desc=desc, rec_len=rec_len, **kwargs) self._construct = Struct('mms_status'/HexAdapter(Bytes(2)), 'mms_implementation'/HexAdapter(Bytes(1)), 'mms_notification'/HexAdapter(Bytes(this._.total_len-4)), 'ext_record_nr'/Byte) # TS 51.011 Annex K.1 class MMS_Implementation(BER_TLV_IE, tag=0x80): _construct = FlagsEnum(Byte, WAP=1) # TS 51.011 Section 10.3.53 class EF_MMSICP(TransparentEF): class MMS_Relay_Server(BER_TLV_IE, tag=0x81): # 3GPP TS 23.140 pass class Interface_to_CN(BER_TLV_IE, tag=0x82): # 3GPP TS 23.140 pass class Gateway(BER_TLV_IE, tag=0x83): # Address, Type of address, Port, Service, AuthType, AuthId, AuthPass / 3GPP TS 23.140 pass class MMS_ConnectivityParamters(TLV_IE_Collection, nested=[MMS_Implementation, MMS_Relay_Server, Interface_to_CN, Gateway]): pass def __init__(self, fid='6fd0', sfid=None, name='EF.MMSICP', size=(1, None), desc='MMS Issuer Connectivity Parameters', **kwargs): super().__init__(fid, sfid=sfid, name=name, desc=desc, size=size, **kwargs) self._tlv = EF_MMSICP.MMS_ConnectivityParamters # TS 51.011 Section 10.3.54 class EF_MMSUP(LinFixedEF): class MMS_UserPref_ProfileName(BER_TLV_IE, tag=0x81): _construct = GsmOrUcs2Adapter(GreedyBytes) class MMS_UserPref_Info(BER_TLV_IE, tag=0x82): pass class MMS_User_Preferences(TLV_IE_Collection, nested=[MMS_Implementation, MMS_UserPref_ProfileName, MMS_UserPref_Info]): pass def __init__(self, fid='6fd1', sfid=None, name='EF.MMSUP', rec_len=(1, None), desc='MMS User Preferences', **kwargs): super().__init__(fid, sfid=sfid, name=name, desc=desc, rec_len=rec_len, **kwargs) self._tlv = EF_MMSUP.MMS_User_Preferences # TS 51.011 Section 10.3.55 class EF_MMSUCP(TransparentEF): def __init__(self, fid='6fd2', sfid=None, name='EF.MMSUCP', size=(1, None), desc='MMS User Connectivity Parameters', **kwargs): super().__init__(fid, sfid=sfid, name=name, desc=desc, size=size, **kwargs) 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) self.shell_commands += [self.AddlShellCommands()] files = [ EF_LP(), EF_IMSI(), EF_Kc(), EF_PLMNsel(), TransparentEF('6f31', None, 'EF.HPPLMN', desc='Higher Priority PLMN search period'), EF_ACMmax(), EF_ServiceTable('6f38', None, 'EF.SST', desc='SIM service table', table=EF_SST_map, size=(2, 16)), CyclicEF('6f39', None, 'EF.ACM', desc='Accumulated call meter', rec_len=(3, 3)), TransparentEF('6f3e', None, 'EF.GID1', desc='Group Identifier Level 1'), TransparentEF('6f3f', None, 'EF.GID2', desc='Group Identifier Level 2'), EF_SPN(), TransparentEF('6f41', None, 'EF.PUCT', desc='Price per unit and currency table', size=(5, 5)), EF_CBMI(), TransparentEF('6f74', None, 'EF.BCCH', desc='Broadcast control channels', size=(16, 16)), EF_ACC(), EF_PLMNsel('6f7b', None, 'EF.FPLMN', desc='Forbidden PLMNs', size=(12, 12)), EF_LOCI(), EF_AD(), TransparentEF('6fae', None, 'EF.Phase', desc='Phase identification', size=(1, 1)), EF_VGCS(), EF_VGCSS(), EF_VGCS('6fb3', None, 'EF.VBS', desc='Voice Broadcast Service'), EF_VGCSS('6fb4', None, 'EF.VBSS', desc='Voice Broadcast Service Status'), EF_eMLPP(), EF_AAeM(), EF_CBMID(), EF_ECC(), EF_CBMIR(), EF_DCK(), EF_CNL(), EF_NIA(), EF_Kc('6f52', None, 'EF.KcGPRS', desc='GPRS Ciphering key KcGPRS'), EF_LOCIGPRS(), TransparentEF('6f54', None, 'EF.SUME', desc='SetUpMenu Elements'), EF_xPLMNwAcT('6f60', None, 'EF.PLMNwAcT', desc='User controlled PLMN Selector with Access Technology'), EF_xPLMNwAcT('6f61', None, 'EF.OPLMNwAcT', desc='Operator controlled PLMN Selector with Access Technology'), EF_xPLMNwAcT('6f62', None, 'EF.HPLMNwAcT', desc='HPLMN Selector with Access Technology'), EF_CPBCCH(), EF_InvScan(), EF_PNN(), EF_OPL(), EF_ADN('6fc7', None, 'EF.MBDN', desc='Mailbox Dialling Numbers'), EF_MBI(), EF_MWIS(), EF_CFIS(), EF_EXT('6fc8', None, 'EF.EXT6', desc='Externsion6 (MBDN)'), EF_EXT('6fcc', None, 'EF.EXT7', desc='Externsion7 (CFIS)'), EF_SPDI(), EF_MMSN(), EF_EXT('6fcf', None, 'EF.EXT8', desc='Extension8 (MMSN)'), EF_MMSICP(), EF_MMSUP(), EF_MMSUCP(), ] self.add_files(files) @with_default_category('Application-Specific Commands') class AddlShellCommands(CommandSet): def __init__(self): super().__init__() authenticate_parser = argparse.ArgumentParser() authenticate_parser.add_argument('rand', type=is_hexstr, help='Random challenge') @cmd2.with_argparser(authenticate_parser) def do_authenticate(self, opts): """Perform GSM Authentication.""" (data, sw) = self._cmd.lchan.scc.run_gsm(opts.rand) self._cmd.poutput_json(data) class CardProfileSIM(CardProfile): ORDER = 3 def __init__(self): sw = { 'Normal': { '9000': 'Normal ending of the command', '91xx': 'normal ending of the command, with extra information from the proactive SIM containing a command for the ME', '9exx': 'length XX of the response data given in case of a SIM data download error', '9fxx': 'length XX of the response data', }, 'Postponed processing': { '9300': 'SIM Application Toolkit is busy. Command cannot be executed at present, further normal commands are allowed', }, 'Memory management': { '920x': 'command successful but after using an internal update retry routine X times', '9240': 'memory problem', }, 'Referencing management': { '9400': 'no EF selected', '9402': 'out of range (invalid address)', '9404': 'file ID not found or pattern not found', '9408': 'file is inconsistent with the command', }, 'Security management': { '9802': 'no CHV initialized', '9804': 'access condition not fulfilled, unsuccessful CHV verification or authentication failed', '9808': 'in contradiction with CHV status', '9810': 'in contradiction with invalidation status', '9840': 'unsuccessful verification, CHV blocked, UNBLOCK CHV blocked', '9850': 'increase cannot be performed, Max value reached', }, 'Application independent errors': { '67xx': 'incorrect parameter P3', '6bxx': 'incorrect parameter P1 or P2', '6dxx': 'unknown instruction code given in the command', '6exx': 'wrong instruction class given in the command', '6fxx': 'technical problem with no diagnostic given', }, } addons = [ AddonGSMR, ] super().__init__('SIM', desc='GSM SIM Card', cla="a0", sel_ctrl="0000", files_in_mf=[DF_TELECOM(), DF_GSM()], sw=sw, addons = addons) @staticmethod def decode_select_response(resp_hex: str) -> object: # we try to build something that resembles a dict resulting from the TLV decoder # of TS 102.221 (FcpTemplate), so that higher-level code only has to deal with one # format of SELECT response resp_bin = h2b(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': { 'file_descriptor_byte': {}, }, 'proprietary_info': {}, } ret['file_id'] = b2h(resp_bin[4:6]) 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_descriptor_byte']['file_type'] = file_type if file_type in ['mf', 'df']: ret['proprietary_info']['available_memory'] = int.from_bytes(resp_bin[2:4], 'big') ret['file_characteristics'] = b2h(resp_bin[13:14]) ret['num_direct_child_df'] = resp_bin[14] ret['num_direct_child_ef'] = resp_bin[15] ret['num_chv_unblock_adm_codes'] = int(resp_bin[16]) # CHV / UNBLOCK CHV stats elif file_type in ['working_ef']: ret['file_size'] = int.from_bytes(resp_bin[2:4], 'big') 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']['file_descriptor_byte']['structure'] = file_struct if file_struct != 'transparent': record_len = resp_bin[14] ret['file_descriptor']['record_len'] = record_len ret['file_descriptor']['num_of_rec'] = ret['file_size'] // record_len 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 @staticmethod def match_with_card(scc: SimCardCommands) -> bool: return match_sim(scc) class AddonSIM(CardProfileAddon): """An add-on that can be found on a UICC in order to support classic GSM SIM.""" def __init__(self): files = [ DF_GSM(), DF_TELECOM(), ] super().__init__('SIM', desc='GSM SIM', files_in_mf=files) def probe(self, card:'CardBase') -> bool: # we assume the add-on to be present in case DF.GSM is found on the card return card.file_exists(self.files_in_mf[0].fid)