# -*- 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 3GPP TS 31.102 V17.9.0 """ # # Copyright (C) 2020 Supreeth Herle # Copyright (C) 2021-2024 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 . # import enum from construct import Optional as COptional from construct import Int32ub, Nibble, GreedyRange, Struct, FlagsEnum, Switch, this, Int16ub, Padding from construct import Bytewise, Int24ub, Int24sb, PaddedString, PrefixedArray, If from osmocom.utils import is_hexstr from osmocom.tlv import * from osmocom.construct import * import pySim.ts_102_221 from pySim.ts_51_011 import EF_ACMmax, EF_AAeM, EF_eMLPP, EF_CMI, EF_PNN from pySim.ts_51_011 import EF_MMSN, EF_MMSICP, EF_MMSUP, EF_MMSUCP, EF_VGCS, EF_VGCSS, EF_NIA from pySim.ts_51_011 import EF_SMSR, EF_DCK, EF_EXT, EF_CNL, EF_OPL, EF_MBI, EF_MWIS from pySim.ts_51_011 import EF_CBMID, EF_CBMIR, EF_ADN, EF_CFIS, EF_SMS, EF_MSISDN, EF_SMSP, EF_SMSS from pySim.ts_51_011 import EF_IMSI, EF_xPLMNwAcT, EF_SPN, EF_CBMI, EF_ACC, EF_PLMNsel from pySim.ts_51_011 import EF_Kc, EF_CPBCCH, EF_InvScan from pySim.ts_102_221 import EF_ARR from pySim.filesystem import * from pySim.ts_31_102_telecom import DF_PHONEBOOK, EF_UServiceTable from pySim.ts_31_103_shared import EF_IMSConfigData, EF_XCAPConfigData, EF_MuDMiDConfigData from pySim.ts_31_103_shared import EF_AC_GBAUAPI, EF_IMSDCI from pySim.cat import SMS_TPDU, DeviceIdentities, SMSPPDownload # Mapping between USIM Service Number and its description EF_UST_map = { 1: 'Local Phone Book', 2: 'Fixed Dialling Numbers (FDN)', 3: 'Extension 2', 4: 'Service Dialling Numbers (SDN)', 5: 'Extension3', 6: 'Barred Dialling Numbers (BDN)', 7: 'Extension4', 8: 'Outgoing Call Information (OCI and OCT)', 9: 'Incoming Call Information (ICI and ICT)', 10: 'Short Message Storage (SMS)', 11: 'Short Message Status Reports (SMSR)', 12: 'Short Message Service Parameters (SMSP)', 13: 'Advice of Charge (AoC)', 14: 'Capability Configuration Parameters 2 (CCP2)', 15: 'Cell Broadcast Message Identifier', 16: 'Cell Broadcast Message Identifier Ranges', 17: 'Group Identifier Level 1', 18: 'Group Identifier Level 2', 19: 'Service Provider Name', 20: 'User controlled PLMN selector with Access Technology', 21: 'MSISDN', 22: 'Image (IMG)', 23: 'Support of Localised Service Areas (SoLSA)', 24: 'Enhanced Multi-Level Precedence and Pre-emption Service', 25: 'Automatic Answer for eMLPP', 26: 'RFU', 27: 'GSM Access', 28: 'Data download via SMS-PP', 29: 'Data download via SMS-CB', 30: 'Call Control by USIM', 31: 'MO-SMS Control by USIM', 32: 'RUN AT COMMAND command', 33: 'shall be set to 1', 34: 'Enabled Services Table', 35: 'APN Control List (ACL)', 36: 'Depersonalisation Control Keys', 37: 'Co-operative Network List', 38: 'GSM security context', 39: 'CPBCCH Information', 40: 'Investigation Scan', 41: 'MexE', 42: 'Operator controlled PLMN selector with Access Technology', 43: 'HPLMN selector with Access Technology', 44: 'Extension 5', 45: 'PLMN Network Name', 46: 'Operator PLMN List', 47: 'Mailbox Dialling Numbers', 48: 'Message Waiting Indication Status', 49: 'Call Forwarding Indication Status', 50: 'Reserved and shall be ignored', 51: 'Service Provider Display Information', 52: 'Multimedia Messaging Service (MMS)', 53: 'Extension 8', 54: 'Call control on GPRS by USIM', 55: 'MMS User Connectivity Parameters', 56: 'Network\'s indication of alerting in the MS (NIA)', 57: 'VGCS Group Identifier List (EFVGCS and EFVGCSS)', 58: 'VBS Group Identifier List (EFVBS and EFVBSS)', 59: 'Pseudonym', 60: 'User Controlled PLMN selector for I-WLAN access', 61: 'Operator Controlled PLMN selector for I-WLAN access', 62: 'User controlled WSID list', 63: 'Operator controlled WSID list', 64: 'VGCS security', 65: 'VBS security', 66: 'WLAN Reauthentication Identity', 67: 'Multimedia Messages Storage', 68: 'Generic Bootstrapping Architecture (GBA)', 69: 'MBMS security', 70: 'Data download via USSD and USSD application mode', 71: 'Equivalent HPLMN', 72: 'Additional TERMINAL PROFILE after UICC activation', 73: 'Equivalent HPLMN Presentation Indication', 74: 'Last RPLMN Selection Indication', 75: 'OMA BCAST Smart Card Profile', 76: 'GBA-based Local Key Establishment Mechanism', 77: 'Terminal Applications', 78: 'Service Provider Name Icon', 79: 'PLMN Network Name Icon', 80: 'Connectivity Parameters for USIM IP connections', 81: 'Home I-WLAN Specific Identifier List', 82: 'I-WLAN Equivalent HPLMN Presentation Indication', 83: 'I-WLAN HPLMN Priority Indication', 84: 'I-WLAN Last Registered PLMN', 85: 'EPS Mobility Management Information', 86: 'Allowed CSG Lists and corresponding indications', 87: 'Call control on EPS PDN connection by USIM', 88: 'HPLMN Direct Access', 89: 'eCall Data', 90: 'Operator CSG Lists and corresponding indications', 91: 'Support for SM-over-IP', 92: 'Support of CSG Display Control', 93: 'Communication Control for IMS by USIM', 94: 'Extended Terminal Applications', 95: 'Support of UICC access to IMS', 96: 'Non-Access Stratum configuration by USIM', 97: 'PWS configuration by USIM', 98: 'RFU', 99: 'URI support by UICC', 100: 'Extended EARFCN support', 101: 'ProSe', 102: 'USAT Application Pairing', 103: 'Media Type support', 104: 'IMS call disconnection cause', 105: 'URI support for MO SHORT MESSAGE CONTROL', 106: 'ePDG configuration Information support', 107: 'ePDG configuration Information configured', 108: 'ACDC support', 109: 'MCPTT', 110: 'ePDG configuration Information for Emergency Service support', 111: 'ePDG configuration Information for Emergency Service configured', 112: 'eCall Data over IMS', 113: 'URI support for SMS-PP DOWNLOAD as defined in 3GPP TS 31.111 [12]', 114: 'From Preferred', 115: 'IMS configuration data', 116: 'TV configuration', 117: '3GPP PS Data Off', 118: '3GPP PS Data Off Service List', 119: 'V2X', 120: 'XCAP Configuration Data', 121: 'EARFCN list for MTC/NB-IOT UEs', 122: '5GS Mobility Management Information', 123: '5G Security Parameters', 124: 'Subscription identifier privacy support', 125: 'SUCI calculation by the USIM', 126: 'UAC Access Identities support', 127: 'Expect control plane-based Steering of Roaming information during initial registration in VPLMN', 128: 'Call control on PDU Session by USIM', 129: '5GS Operator PLMN List', 130: 'Support for SUPI of type NSI or GLI or GCI', 131: '3GPP PS Data Off separate Home and Roaming lists', 132: 'Support for URSP by USIM', 133: '5G Security Parameters extended', 134: 'MuD and MiD configuration data', 135: 'Support for Trusted non-3GPP access networks by USIM', 136: 'Support for multiple records of NAS security context storage for multiple registration', 137: 'Pre-configured CAG information list', 138: 'SOR-CMCI storage in USIM', 139: '5G ProSe', 140: 'Storage of disaster roaming information in USIM', 141: 'Pre-configured eDRX parameters', 142: '5G NSWO support', 143: 'PWS configuration for SNPN in USIM', 144: 'Multiplier Coefficient for Higher Priority PLMN search via NG-RAN satellite access', 145: 'K_AUSF derivation configuration', 146: 'Network Identifier for SNPN (NID)', } EF_5G_PROSE_ST_map = { 1: '5G ProSe configuration data for direct discovery', 2: '5G ProSe configuration data for direct communication', 3: '5G ProSe configuration data for UE-to-network relay UE', 4: '5G ProSe configuration data for remote UE', 5: '5G ProSe configuration data for usage information reporting', } # Mapping between USIM Enbled Service Number and its description EF_EST_map = { 1: 'Fixed Dialling Numbers (FDN)', 2: 'Barred Dialling Numbers (BDN)', 3: 'APN Control List (ACL)' } # 3gPP TS 31.102 Section 7.5.2.1 class SUCI_TlvDataObject(BER_TLV_IE, tag=0xA1): _construct = HexAdapter(GreedyBytes) ###################################################################### # ADF.USIM ###################################################################### # 3GPP TS 31.102 Section 4.4.11.4 (EF_5GS3GPPNSC) class EF_5GS3GPPNSC(LinFixedEF): class NgKSI(BER_TLV_IE, tag=0x80): _construct = Int8ub class K_AMF(BER_TLV_IE, tag=0x81): _construct = HexAdapter(Bytes(32)) class UplinkNASCount(BER_TLV_IE, tag=0x82): _construct = Int32ub class DownlinkNASCount(BER_TLV_IE, tag=0x83): _construct = Int32ub class IdsOfSelectedNasAlgos(BER_TLV_IE, tag=0x84): # 3GPP TS 24.501 Section 9.11.3.34 _construct = BitStruct('ciphering'/Nibble, 'integrity'/Nibble) class IdsOfSelectedEpsAlgos(BER_TLV_IE, tag=0x85): # 3GPP TS 24.301 Section 9.9.3.23 _construct = BitStruct('ciphering'/Nibble, 'integrity'/Nibble) class FiveGSNasSecurityContext(BER_TLV_IE, tag=0xA0, nested=[NgKSI, K_AMF, UplinkNASCount, DownlinkNASCount, IdsOfSelectedNasAlgos, IdsOfSelectedEpsAlgos]): pass def __init__(self, fid="4f03", sfid=0x03, name='EF.5GS3GPPNSC', rec_len=(57, None), desc='5GS 3GPP Access NAS Security Context', **kwargs): super().__init__(fid, sfid=sfid, name=name, desc=desc, rec_len=rec_len, **kwargs) self._tlv = EF_5GS3GPPNSC.FiveGSNasSecurityContext # 3GPP TS 31.102 Section 4.4.11.6 class EF_5GAUTHKEYS(TransparentEF): class K_AUSF(BER_TLV_IE, tag=0x80): _construct = HexAdapter(GreedyBytes) class K_SEAF(BER_TLV_IE, tag=0x81): _construct = HexAdapter(GreedyBytes) class FiveGAuthKeys(TLV_IE_Collection, nested=[K_AUSF, K_SEAF]): pass def __init__(self, fid='4f05', sfid=0x05, name='EF.5GAUTHKEYS', size=(68, None), desc='5G authentication keys', **kwargs): super().__init__(fid, sfid=sfid, name=name, desc=desc, size=size, **kwargs) self._tlv = EF_5GAUTHKEYS.FiveGAuthKeys # TS 31.102 4.4.11.8 class EF_SUCI_Calc_Info(TransparentEF): _test_de_encode = [ ( 'A00401010000A14A80010A81204E858C4D49D1343E6181284C47CA721730C98742CB7C6182D2E8126E08088D3680010B8120D1BC365F4997D17CE4374E72181431CBFEBA9E1B98D7618F79D48561B144672A', {"prot_scheme_id_list": [{"priority": 0, "identifier": 1, "key_index": 1}, {"priority": 1, "identifier": 0, "key_index": 0}], "hnet_pubkey_list": [{"hnet_pubkey_identifier": 10, "hnet_pubkey": "4e858c4d49d1343e6181284c47ca721730c98742cb7c6182d2e8126e08088d36"}, {"hnet_pubkey_identifier": 11, "hnet_pubkey": "d1bc365f4997d17ce4374e72181431cbfeba9e1b98d7618f79d48561b144672a"}]} ), ] # 3GPP TS 31.102 Section 4.4.11.8 class ProtSchemeIdList(BER_TLV_IE, tag=0xa0): # FIXME: 3GPP TS 24.501 Protection Scheme Identifier # repeated sequence of (id, index) tuples _construct = GreedyRange( Struct('identifier'/Enum(Byte, null=0, A=1, B=2), 'key_index'/Int8ub)) class HnetPubkeyIdentifier(BER_TLV_IE, tag=0x80): # 3GPP TS 24.501 / 3GPP TS 23.003 _construct = Int8ub class HnetPubkey(BER_TLV_IE, tag=0x81): # contents according to RFC 7748 / RFC 5480 _construct = HexAdapter(GreedyBytes) class HnetPubkeyList(BER_TLV_IE, tag=0xa1, nested=[HnetPubkeyIdentifier, HnetPubkey]): pass # 3GPP TS 31.102 Section 4.4.11.6 class SUCI_CalcInfo(TLV_IE_Collection, nested=[ProtSchemeIdList, HnetPubkeyList]): pass def __init__(self, fid="4f07", sfid=0x07, name='EF.SUCI_Calc_Info', size=(2, None), desc='SUCI Calc Info', **kwargs): super().__init__(fid, sfid=sfid, name=name, desc=desc, size=size, **kwargs) def _encode_prot_scheme_id_list(self, in_list): out_bytes = [0xa0] out_bytes.append(len(in_list)*2) # two byte per entry # position in list determines priority; high-priority items (low index) come first for scheme in sorted(in_list, key=lambda item: item["priority"]): out_bytes.append(scheme["identifier"]) out_bytes.append(scheme["key_index"]) return out_bytes @staticmethod def _compact_pubkey_list(l: List[dict]) -> List[dict]: """conversion method to generate list of {hnet_pubkey_identifier, hnet_pubkey} dicts from flat [{hnet_pubkey_identifier: }, {net_pubkey: }, ...] list""" out = [] while len(l): a = l.pop(0) b = l.pop(0) z = {**a, **b} out.append(z) return out @staticmethod def _expand_pubkey_list(l: List[dict]) -> List[dict]: """conversion method to generate flat [{hnet_pubkey_identifier: }, {net_pubkey: }, ...] list from compacted list of {hnet_pubkey_identifier, hnet_pubkey} dicts""" out = [] for d in l: for k, v in d.items(): out.append({k: v}) return out def _encode_hex(self, in_json, **kwargs): out_bytes = self._encode_prot_scheme_id_list( in_json['prot_scheme_id_list']) d = self._expand_pubkey_list(in_json['hnet_pubkey_list']) hpkl = EF_SUCI_Calc_Info.HnetPubkeyList() hpkl.from_dict({'hnet_pubkey_list': d}) out_bytes += hpkl.to_tlv() return "".join(["%02X" % i for i in out_bytes]) def _decode_prot_scheme_id_list(self, in_bytes): prot_scheme_id_list = [] pos = 0 # two bytes per entry while pos < len(in_bytes): prot_scheme = { 'priority': pos//2, # first in list: high priority 'identifier': in_bytes[pos], 'key_index': in_bytes[pos+1] } pos += 2 prot_scheme_id_list.append(prot_scheme) return prot_scheme_id_list def _decode_bin(self, in_bin): return self._decode_hex(b2h(in_bin)) def _decode_hex(self, in_hex): in_bytes = h2b(in_hex) pos = 0 if in_bytes[pos] != 0xa0: print("missing Protection Scheme Identifier List data object tag") return {} pos += 1 prot_scheme_id_list_len = in_bytes[pos] # TODO maybe more than 1 byte pos += 1 # decode Protection Scheme Identifier List data object prot_scheme_id_list = self._decode_prot_scheme_id_list( in_bytes[pos:pos+prot_scheme_id_list_len]) pos += prot_scheme_id_list_len # remaining data holds Home Network Public Key Data Object hpkl = EF_SUCI_Calc_Info.HnetPubkeyList() hpkl.from_tlv(in_bytes[pos:]) hnet_pubkey_list = self._compact_pubkey_list(hpkl.to_dict()['hnet_pubkey_list']) return { 'prot_scheme_id_list': prot_scheme_id_list, 'hnet_pubkey_list': hnet_pubkey_list } def _encode_bin(self, in_json, **kwargs): return h2b(self._encode_hex(in_json, **kwargs)) class EF_LI(TransRecEF): def __init__(self, fid='6f05', sfid=None, name='EF.LI', size=(2, None), rec_len=2, desc='Language Indication'): super().__init__(fid, sfid=sfid, name=name, desc=desc, size=size, rec_len=rec_len) def _decode_record_bin(self, in_bin, **kwargs): if in_bin == b'\xff\xff': return None else: # officially this is 7-bit GSM alphabet with one padding bit in each byte return in_bin.decode('ascii') def _encode_record_bin(self, in_json, **kwargs): if in_json is None: return b'\xff\xff' else: # officially this is 7-bit GSM alphabet with one padding bit in each byte return in_json.encode('ascii') class EF_Keys(TransparentEF): def __init__(self, fid='6f08', sfid=0x08, name='EF.Keys', size=(33, 33), desc='Ciphering and Integrity Keys'): super().__init__(fid, sfid=sfid, name=name, desc=desc, size=size) self._construct = Struct( 'ksi'/Int8ub, 'ck'/HexAdapter(Bytes(16)), 'ik'/HexAdapter(Bytes(16))) # TS 31.102 Section 4.2.6 class EF_HPPLMN(TransparentEF): _test_de_encode = [ ( '05', 5 ) ] def __init__(self, fid='6f31', sfid=0x12, name='EF.HPPLMN', size=(1, 1), desc='Higher Priority PLMN search period'): super().__init__(fid, sfid=sfid, name=name, desc=desc, size=size) self._construct = Int8ub class EF_UST(EF_UServiceTable): def __init__(self, **kwargs): super().__init__(fid='6f38', sfid=0x04, name='EF.UST', desc='USIM Service Table', size=(1,17), table=EF_UST_map, **kwargs) # add those commands to the general commands of a TransparentEF self.shell_commands += [self.AddlShellCommands()] @with_default_category('File-Specific Commands') class AddlShellCommands(CommandSet): def do_ust_service_activate(self, arg): """Activate a service within EF.UST""" selected_file = self._cmd.lchan.selected_file selected_file.ust_update(self._cmd, [int(arg)], []) def do_ust_service_deactivate(self, arg): """Deactivate a service within EF.UST""" selected_file = self._cmd.lchan.selected_file selected_file.ust_update(self._cmd, [], [int(arg)]) def do_ust_service_check(self, _arg): """Check consistency between services of this file and files present/activated. Many services determine if one or multiple files shall be present/activated or if they shall be absent/deactivated. This performs a consistency check to ensure that no services are activated for files that are not - and vice-versa, no files are activated for services that are not. Error messages are printed for every inconsistency found.""" selected_file = self._cmd.lchan.selected_file num_problems = selected_file.ust_service_check(self._cmd) # obtain list of currently active services active_services = selected_file.get_active_services(self._cmd) # Service n°46 can only be declared "available" if service n°45 is declared "available" if 46 in active_services and not 45 in active_services: self._cmd.perror("ERROR: Service 46 available, but it requires Service 45") num_problems += 1 # Service n°125 shall only be taken into account if Service n°124 is declared "available" if 125 in active_services and not 124 in active_services: self._cmd.perror("ERROR: Service 125 is ignored as Service 124 not available") num_problems += 1 # Service n°95, n°99 and n°115 shall not be declared "available" if an ISIM application is present on the UICC non_isim_services = [95, 99, 115] app_names = selected_file.get_mf().get_app_names() if 'ADF.ISIM' in app_names: for s in non_isim_services: if s in active_services: self._cmd.perror("ERROR: Service %u shall not be available as ISIM application is present" % s) num_problems += 1 self._cmd.poutput("===> %u service / file inconsistencies detected" % num_problems) # TS 31.103 Section 4.2.7 - *not* the same as DF.GSM/EF.ECC! class EF_ECC(LinFixedEF): _test_de_encode = [ ( '19f1ff01', { "call_code": "911f", "service_category": { "police": True, "ambulance": False, "fire_brigade": False, "marine_guard": False, "mountain_rescue": False, "manual_ecall": False, "automatic_ecall": False } } ), ( '19f3ff02', { "call_code": "913f", "service_category": { "police": False, "ambulance": True, "fire_brigade": False, "marine_guard": False, "mountain_rescue": False, "manual_ecall": False, "automatic_ecall": False } } ), ] _test_no_pad = True cc_construct = BcdAdapter(Rpad(Bytes(3))) category_construct = FlagsEnum(Byte, police=1, ambulance=2, fire_brigade=3, marine_guard=4, mountain_rescue=5, manual_ecall=6, automatic_ecall=7) alpha_construct = GsmOrUcs2Adapter(Rpad(GreedyBytes)) def __init__(self, fid='6fb7', sfid=0x01, name='EF.ECC', desc='Emergency Call Codes'): super().__init__(fid, sfid=sfid, name=name, desc=desc, rec_len=(4, 20)) def _decode_record_bin(self, in_bin, **kwargs): # mandatory parts code = in_bin[:3] if code == b'\xff\xff\xff': return None svc_category = in_bin[-1:] ret = {'call_code': parse_construct(EF_ECC.cc_construct, code), 'service_category': parse_construct(EF_ECC.category_construct, svc_category)} # optional alpha identifier if len(in_bin) > 4: alpha_id = in_bin[3:-1] ret['alpha_id'] = parse_construct(EF_ECC.alpha_construct, alpha_id) return ret def _encode_record_bin(self, in_json, **kwargs): if in_json is None: return b'\xff\xff\xff\xff' code = EF_ECC.cc_construct.build(in_json['call_code']) svc_category = EF_ECC.category_construct.build(in_json['service_category']) if 'alpha_id' in in_json: alpha_id = EF_ECC.alpha_construct.build(in_json['alpha_id']) # FIXME: alpha_id needs padding up to 'record_length - 4' else: alpha_id = b'' return code + alpha_id + svc_category # TS 31.102 Section 4.2.17 class EF_LOCI(TransparentEF): _test_de_encode = [ ( '47d1264a62f21037211e00', { "tmsi": "47d1264a", "lai": { "mcc_mnc": "262-01", "lac": "3721" }, "rfu": 30, "lu_status": 0 } ), ( 'ffffffff62f2200000ff01', {"tmsi": "ffffffff", "lai": {"mcc_mnc": "262-02", "lac": "0000"}, "rfu": 255, "lu_status": 1} ), ] def __init__(self, fid='6f7e', sfid=0x0b, name='EF.LOCI', desc='Location information', size=(11, 11)): super().__init__(fid, sfid=sfid, name=name, desc=desc, size=size) Lai = Struct('mcc_mnc'/PlmnAdapter(Bytes(3)), 'lac'/HexAdapter(Bytes(2))) self._construct = Struct('tmsi'/HexAdapter(Bytes(4)), 'lai'/Lai, 'rfu'/Int8ub, 'lu_status'/Int8ub) # TS 31.102 Section 4.2.18 class EF_AD(TransparentEF): _test_de_encode = [ ( '00000002', { "ms_operation_mode": "normal", "additional_info": { "ciphering_indicator": False, "csg_display_control": False, "prose_services": False, "extended_drx": False }, "rfu": 0, "mnc_len": 2, "extensions": b'' } ), ( '01000102', { "ms_operation_mode": "normal_and_specific_facilities", "additional_info": { "ciphering_indicator": True, "csg_display_control": False, "prose_services": False, "extended_drx": False }, "rfu": 0, "mnc_len": 2, "extensions": b'' } ), ] _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 def __init__(self, fid='6fad', sfid=0x03, name='EF.AD', desc='Administrative Data', size=(4, 6)): 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 + 3 'additional_info'/Bytewise(FlagsEnum(Int16ub, ciphering_indicator=1, csg_display_control=2, prose_services=4, extended_drx=8)), 'rfu'/BitsRFU(4), 'mnc_len'/BitsInteger(4), 'extensions'/COptional(Bytewise(GreedyBytesRFU)) ) # TS 31.102 Section 4.2.23 class EF_PSLOCI(TransparentEF): def __init__(self, fid='6f73', sfid=0x0c, name='EF.PSLOCI', desc='PS 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'/Int8ub) # TS 31.102 Section 4.2.33 class EF_ICI(CyclicEF): def __init__(self, fid='6f80', sfid=0x14, name='EF.ICI', rec_len=(28, 48), desc='Incoming Call Information', **kwargs): super().__init__(fid=fid, sfid=sfid, name=name, desc=desc, rec_len=rec_len, **kwargs) self._construct = Struct('alpha_id'/HexAdapter(Bytes(this._.total_len-28)), 'len_of_bcd_contents'/Int8ub, 'ton_npi'/Int8ub, 'call_number'/BcdAdapter(Bytes(10)), 'cap_cfg2_record_id'/Int8ub, 'ext5_record_id'/Int8ub, 'date_and_time'/BcdAdapter(Bytes(7)), 'duration'/Int24ub, 'status'/Byte, 'link_to_phonebook'/HexAdapter(Bytes(3))) # TS 31.102 Section 4.2.34 class EF_OCI(CyclicEF): def __init__(self, fid='6f81', sfid=0x15, name='EF.OCI', rec_len=(27, 47), desc='Outgoing Call Information', **kwargs): super().__init__(fid=fid, sfid=sfid, name=name, desc=desc, rec_len=rec_len, **kwargs) self._construct = Struct('alpha_id'/HexAdapter(Bytes(this._.total_len-27)), 'len_of_bcd_contents'/Int8ub, 'ton_npi'/Int8ub, 'call_number'/BcdAdapter(Bytes(10)), 'cap_cfg2_record_id'/Int8ub, 'ext5_record_id'/Int8ub, 'date_and_time'/BcdAdapter(Bytes(7)), 'duration'/Int24ub, 'link_to_phonebook'/HexAdapter(Bytes(3))) # TS 31.102 Section 4.2.35 class EF_ICT(CyclicEF): def __init__(self, fid='6f82', sfid=None, name='EF.ICT', rec_len=(3, 3), desc='Incoming Call Timer', **kwargs): super().__init__(fid=fid, sfid=sfid, name=name, desc=desc, rec_len=rec_len, **kwargs) self._construct = Struct('accumulated_call_timer'/Int24ub) # TS 31.102 Section 4.2.38 class EF_CCP2(LinFixedEF): def __init__(self, fid='6f4f', sfid=0x16, name='EF.CCP2', desc='Capability Configuration Parameters 2', **kwargs): super().__init__(fid=fid, sfid=sfid, name=name, desc=desc, rec_len=(15, None), **kwargs) # TS 31.102 Section 4.2.47 class EF_EST(EF_UServiceTable): def __init__(self, **kwargs): super().__init__(fid='6f56', sfid=0x05, name='EF.EST', desc='Enabled Services Table', size=(1,None), table=EF_EST_map, **kwargs) # add those commands to the general commands of a TransparentEF self.shell_commands += [self.AddlShellCommands()] @with_default_category('File-Specific Commands') class AddlShellCommands(CommandSet): def do_est_service_enable(self, arg): """Enable a service within EF.EST""" selected_file = self._cmd.lchan.selected_file selected_file.ust_update(self._cmd, [int(arg)], []) def do_est_service_disable(self, arg): """Disable a service within EF.EST""" selected_file = self._cmd.lchan.selected_file selected_file.ust_update(self._cmd, [], [int(arg)]) # TS 31.102 Section 4.2.48 class EF_ACL(TransparentEF): def __init__(self, fid='6f57', sfid=None, name='EF.ACL', size=(32, None), desc='Access Point Name Control List', **kwargs): super().__init__(fid, sfid=sfid, name=name, desc=desc, size=size, **kwargs) self._construct = Struct('num_of_apns'/Int8ub, 'tlvs'/HexAdapter(GreedyBytes)) # TS 31.102 Section 4.2.51 class EF_START_HFN(TransparentEF): _test_de_encode = [ ( 'f00000f00000', { "start_cs": 15728640, "start_ps": 15728640 } ), ] def __init__(self, fid='6f5b', sfid=0x0f, name='EF.START-HFN', size=(6, 6), desc='Initialisation values for Hyperframe number', **kwargs): super().__init__(fid, sfid=sfid, name=name, desc=desc, size=size, **kwargs) self._construct = Struct('start_cs'/Int24ub, 'start_ps'/Int24ub) # TS 31.102 Section 4.2.52 class EF_THRESHOLD(TransparentEF): _test_de_encode = [ ( 'f01000', { "max_start": 15732736 } ), ] def __init__(self, fid='6f5c', sfid=0x10, name='EF.THRESHOLD', size=(3, 3), desc='Maximum value of START', **kwargs): super().__init__(fid, sfid=sfid, name=name, desc=desc, size=size, **kwargs) self._construct = Struct('max_start'/Int24ub) # TS 31.102 (old releases like 3.8.0) Section 4.2.56 class EF_RPLMNAcT(TransRecEF): def __init__(self, fid='6f65', sfid=None, name='EF.RPLMNAcTD', size=(2, 4), rec_len=2, desc='RPLMN Last used Access Technology', **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): return dec_act(in_hex) # TODO: Encode # TS 31.102 Section 4.2.77 class EF_VGCSCA(TransRecEF): def __init__(self, fid='6fd4', sfid=None, name='EF.VGCSCA', size=(2, 100), rec_len=2, desc='Voice Group Call Service Ciphering Algorithm', **kwargs): super().__init__(fid, sfid=sfid, name=name, desc=desc, size=size, rec_len=rec_len, **kwargs) self._construct = Struct('alg_v_ki_1'/Int8ub, 'alg_v_ki_2'/Int8ub) # TS 31.102 Section 4.2.79 class EF_GBABP(TransparentEF): def __init__(self, fid='6fd6', sfid=None, name='EF.GBABP', size=(3, 50), desc='GBA Bootstrapping parameters', **kwargs): super().__init__(fid, sfid=sfid, name=name, desc=desc, size=size, **kwargs) self._construct = Struct('rand'/LV, 'b_tid'/LV, 'key_lifetime'/LV) # TS 31.102 Section 4.2.80 class EF_MSK(LinFixedEF): def __init__(self, fid='6fd7', sfid=None, name='EF.MSK', desc='MBMS Service Key List', **kwargs): super().__init__(fid=fid, sfid=sfid, name=name, desc=desc, rec_len=(20, None), **kwargs) msk_ts_constr = Struct('msk_id'/Int32ub, 'timestamp_counter'/Int32ub) self._construct = Struct('key_domain_id'/HexAdapter(Bytes(3)), 'num_msk_id'/Int8ub, 'msk_ids'/msk_ts_constr[this.num_msk_id]) # TS 31.102 Section 4.2.81 class EF_MUK(LinFixedEF): class MUK_Idr(BER_TLV_IE, tag=0x80): _construct = HexAdapter(GreedyBytes) class MUK_Idi(BER_TLV_IE, tag=0x82): _construct = HexAdapter(GreedyBytes) class MUK_ID(BER_TLV_IE, tag=0xA0, nested=[MUK_Idr, MUK_Idi]): pass class TimeStampCounter(BER_TLV_IE, tag=0x81): pass class EF_MUK_Collection(TLV_IE_Collection, nested=[MUK_ID, TimeStampCounter]): pass def __init__(self, fid='6fd8', sfid=None, name='EF.MUK', desc='MBMS User Key', **kwargs): super().__init__(fid=fid, sfid=sfid, name=name, desc=desc, rec_len=(None, None), **kwargs) self._tlv = EF_MUK.EF_MUK_Collection # TS 31.102 Section 4.2.83 class EF_GBANL(LinFixedEF): class NAF_ID(BER_TLV_IE, tag=0x80): _construct = HexAdapter(GreedyBytes) class B_TID(BER_TLV_IE, tag=0x81): _construct = HexAdapter(GreedyBytes) class EF_GBANL_Collection(BER_TLV_IE, nested=[NAF_ID, B_TID]): pass def __init__(self, fid='6fda', sfid=None, name='EF.GBANL', desc='GBA NAF List', **kwargs): super().__init__(fid=fid, sfid=sfid, name=name, desc=desc, rec_len=(None, None), **kwargs) self._tlv = EF_GBANL.EF_GBANL_Collection # TS 31.102 Section 4.2.85 class EF_EHPLMNPI(TransparentEF): _test_de_encode = [ ( '00', {"presentation_ind": "no_preference"} ), ( '02', { "presentation_ind": "display_all" } ), ] def __init__(self, fid='6fdb', sfid=None, name='EF.EHPLMNPI', size=(1, 1), desc='Equivalent HPLMN Presentation Indication', **kwargs): super().__init__(fid, sfid=sfid, name=name, desc=desc, size=size, **kwargs) self._construct = Struct('presentation_ind' / Enum(Byte, no_preference=0, display_highest_prio_only=1, display_all=2)) # TS 31.102 Section 4.2.87 class EF_NAFKCA(LinFixedEF): class NAF_KeyCentreAddress(BER_TLV_IE, tag=0x80): _construct = HexAdapter(GreedyBytes) def __init__(self, fid='6fdd', sfid=None, name='EF.NAFKCA', rec_len=(None, None), desc='NAF Key Centre Address', **kwargs): super().__init__(fid=fid, sfid=sfid, name=name, desc=desc, rec_len=rec_len, **kwargs) self._tlv = EF_NAFKCA.NAF_KeyCentreAddress # TS 31.102 Section 4.2.90 class EF_NCP_IP(LinFixedEF): class DataDestAddrRange(TLV_IE, tag=0x83): _construct = Struct('type_of_address'/Enum(Byte, IPv4=0x21, IPv6=0x56), 'prefix_length'/Int8ub, 'prefix'/HexAdapter(GreedyBytes)) class AccessPointName(TLV_IE, tag=0x80): # coded as per TS 23.003 _construct = HexAdapter(GreedyBytes) class Login(TLV_IE, tag=0x81): # as per SMS DCS TS 23.038 _construct = GsmStringAdapter(GreedyBytes) class Password(TLV_IE, tag=0x82): # as per SMS DCS TS 23.038 _construct = GsmStringAdapter(GreedyBytes) class BearerDescription(TLV_IE, tag=0x84): # Bearer descriptionTLV DO as per TS 31.111 pass class EF_NCP_IP_Collection(TLV_IE_Collection, nested=[AccessPointName, Login, Password, BearerDescription]): pass def __init__(self, fid='6fe2', sfid=None, name='EF.NCP-IP', rec_len=(None, None), desc='Network Connectivity Parameters for USIM IP connections', **kwargs): super().__init__(fid=fid, sfid=sfid, name=name, desc=desc, rec_len=rec_len, **kwargs) self._tlv = EF_NCP_IP.EF_NCP_IP_Collection # TS 31.102 Section 4.2.91 class EF_EPSLOCI(TransparentEF): def __init__(self, fid='6fe3', sfid=0x1e, name='EF.EPSLOCI', desc='EPS Location Information', size=(18,18), **kwargs): super().__init__(fid, sfid=sfid, name=name, desc=desc, size=size, **kwargs) upd_status_constr = Enum( Byte, updated=0, not_updated=1, roaming_not_allowed=2) self._construct = Struct('guti'/HexAdapter(Bytes(12)), 'last_visited_registered_tai'/HexAdapter(Bytes(5)), 'eps_update_status'/upd_status_constr) # TS 31.102 Section 4.2.92 class EF_EPSNSC(LinFixedEF): class KSI_ASME(BER_TLV_IE, tag=0x80): _construct = Int8ub class K_ASME(BER_TLV_IE, tag=0x81): _construct = HexAdapter(GreedyBytes) class UplinkNASCount(BER_TLV_IE, tag=0x82): _construct = Int32ub class DownlinkNASCount(BER_TLV_IE, tag=0x83): _construct = Int32ub class IDofNASAlgorithms(BER_TLV_IE, tag=0x84): _construct = HexAdapter(GreedyBytes) class EPS_NAS_Security_Context(BER_TLV_IE, tag=0xa0, nested=[KSI_ASME, K_ASME, UplinkNASCount, DownlinkNASCount, IDofNASAlgorithms]): pass def __init__(self, fid='6fe4', sfid=0x18, name='EF.EPSNSC', rec_len=(54, 128), desc='EPS NAS Security Context', **kwargs): super().__init__(fid=fid, sfid=sfid, name=name, desc=desc, rec_len=rec_len, **kwargs) self._tlv = EF_EPSNSC.EPS_NAS_Security_Context # TS 31.102 Section 4.2.96 class EF_PWS(TransparentEF): _test_de_encode = [ ( '00', { "pws_configuration": { "ignore_pws_in_hplmn_and_equivalent": False, "ignore_pws_in_vplmn": False } } ), ] def __init__(self, fid='6fec', sfid=None, name='EF.PWS', desc='Public Warning System', size=(1, 1), **kwargs): super().__init__(fid, sfid=sfid, name=name, desc=desc, size=size, **kwargs) pws_config = FlagsEnum( Byte, ignore_pws_in_hplmn_and_equivalent=1, ignore_pws_in_vplmn=2) self._construct = Struct('pws_configuration'/pws_config) # TS 31.102 Section 4.2.101 class EF_IPS(CyclicEF): def __init__(self, fid='6ff1', sfid=None, name='EF.IPS', rec_len=(4, 4), desc='IMEI(SV) Pairing Status', **kwargs): super().__init__(fid, sfid=sfid, name=name, desc=desc, rec_len=rec_len, **kwargs) self._construct = Struct('status'/PaddedString(2, 'ascii'), 'link_to_ef_ipd'/Int8ub, 'rfu'/Byte) # TS 31.102 Section 4.2.103 (Rel 13) class EF_ePDGId(TransparentEF): _test_de_encode = [ ( '801100657064672e6f736d6f636f6d2e6f7267', {'e_pdg_id': {"type_of_ePDG_address": "FQDN", "ePDG_address" : "epdg.osmocom.org" } } ), ( '800501c0a8a001', {'e_pdg_id': {"type_of_ePDG_address": "IPv4", "ePDG_address" : "192.168.160.1" } } ), ( '80110220010db8000000000000000000000023', {'e_pdg_id': {"type_of_ePDG_address": "IPv6", "ePDG_address" : "2001:db8::23" } } ), ] class ePDGId(BER_TLV_IE, tag=0x80): _construct = Struct('type_of_ePDG_address'/Enum(Byte, FQDN=0, IPv4=1, IPv6=2), 'ePDG_address'/Switch(this.type_of_ePDG_address, {'FQDN': Utf8Adapter(GreedyBytes), 'IPv4': Ipv4Adapter(GreedyBytes), 'IPv6': Ipv6Adapter(GreedyBytes)})) def __init__(self, fid='6ff3', sfid=None, name='EF.ePDGId', desc='Home ePDG Identifier', **kwargs): super().__init__(fid, sfid=sfid, name=name, desc=desc, **kwargs) self._tlv = EF_ePDGId.ePDGId # TS 31.102 Section 4.2.104 (Rel 13) class EF_ePDGSelection(TransparentEF): _test_de_encode = [ ( '800600f110000100', {'e_pdg_selection': [{'plmn': '001-01', 'epdg_priority': 1, 'epdg_fqdn_format': 'operator_identified' }] }), ( '800600011000a001', {'e_pdg_selection': [{'plmn': '001-001', 'epdg_priority': 160, 'epdg_fqdn_format': 'location_based' }] }), ] class ePDGSelection(BER_TLV_IE, tag=0x80): _construct = GreedyRange(Struct('plmn'/PlmnAdapter(Bytes(3)), 'epdg_priority'/Int16ub, 'epdg_fqdn_format'/Enum(Int8ub, operator_identified=0, location_based=1))) def __init__(self, fid='6ff4', sfid=None, name='EF.ePDGSelection', desc='ePDG Selection Information', **kwargs): super().__init__(fid, sfid=sfid, name=name, desc=desc, **kwargs) self._tlv = EF_ePDGSelection.ePDGSelection # TS 31.102 Section 4.2.106 (Rel 14) class EF_FromPreferred(TransparentEF): def __init__(self, fid='6ff7', sfid=None, name='EF.FromPreferred', size=(1, 1), desc='From Preferred', **kwargs): super().__init__(fid, sfid=sfid, name=name, desc=desc, size=size, **kwargs) self._construct = BitStruct('rfu'/BitsRFU(7), 'from_preferred'/Flag) # TS 31.102 Section 4.2.112 + TS 23.032 Section 6.1 GadPoint = Struct('latitude'/Int24sb, 'longitude'/Int24sb) # TS 31.102 Section 4.2.112 (Rel ??) class EF_EARFCNList(TransparentEF): _test_de_encode = [ # single data object with one EARFCN + one area of 3 points ('a01a8004000100008112000001100001000002100002000003100003', [{'earfcn_list_tlv': [{'earfcn': 65536}, {'geographical_area': [{'latitude': 1, 'longitude': 1048577}, {'latitude': 2, 'longitude': 1048578}, {'latitude': 3, 'longitude': 1048579}] }]}] ), # single data object with one EARFCN + two areas of 3 + 4 points ('a03480040001000081120000011000010000021000020000031000038118000001100001000002100002000003100003000004100004', [{'earfcn_list_tlv': [{'earfcn': 65536}, {'geographical_area': [{'latitude': 1, 'longitude': 1048577}, {'latitude': 2, 'longitude': 1048578}, {'latitude': 3, 'longitude': 1048579}] }, {'geographical_area': [{'latitude': 1, 'longitude': 1048577}, {'latitude': 2, 'longitude': 1048578}, {'latitude': 3, 'longitude': 1048579}, {'latitude': 4, 'longitude': 1048580}] } ] }] ), # two concatenated data objects with 3 points each ('a01a8004000100008112000001100001000002100002000003100003a01a8004000200008112000011100011000012100012000013100013', [{'earfcn_list_tlv': [{'earfcn': 65536}, {'geographical_area': [{'latitude': 1, 'longitude': 1048577}, {'latitude': 2, 'longitude': 1048578}, {'latitude': 3, 'longitude': 1048579}] }]}, {'earfcn_list_tlv': [{'earfcn': 131072}, {'geographical_area': [{'latitude': 17, 'longitude': 1048593}, {'latitude': 18, 'longitude': 1048594}, {'latitude': 19, 'longitude': 1048595}] }]} ]), ] class Earfcn(BER_TLV_IE, tag=0x80): _construct = Int32ub class GeographicalArea(BER_TLV_IE, tag=0x81): _construct = GreedyRange(GadPoint) class EarfcnListTlv(BER_TLV_IE, tag=0xa0, nested=[Earfcn,GeographicalArea]): pass # we need a collection as there might be multiple concatenated instances class EarfcnListTlvCollection(TLV_IE_Collection, nested=[EarfcnListTlv]): pass def __init__(self, fid='6ffd', sfid=None, name='EF.EARFCNList', size=(30, 100), desc='EARFCN list for MTC/NB-IOT UEs', **kwargs): super().__init__(fid, sfid=sfid, name=name, desc=desc, size=size, **kwargs) self._tlv = self.EarfcnListTlvCollection # TS 31.102 Section 4.2.114 (Rel 18) class EF_eAKA(TransparentEF): def __init__(self, fid='6f01', sfid=None, name='EF.eAKA', size=(1, 1), desc='enhanced AKA support', **kwargs): super().__init__(fid, sfid=sfid, name=name, desc=desc, size=size, **kwargs) self._construct = BitStruct('rfu'/BitsRFU(7), 'enhanced_sqn_calculation_supported'/Flag) # TS 31.102 Section 4.2.115 (Rel 18) class EF_OCST(TransparentEF): def __init__(self, fid='6f02', sfid=None, name='EF.OCST', size=(2, 100), desc='Operator controlled signal threshold per access technology', **kwargs): super().__init__(fid, sfid=sfid, name=name, desc=desc, size=size, **kwargs) self._construct = Struct('sense'/FlagsEnum(Byte, sense_enabled=1), 'ocst_tlv'/GreedyBytes) ###################################################################### # DF.GSM-ACCESS ###################################################################### class DF_GSM_ACCESS(CardDF): def __init__(self, fid='5F3B', name='DF.GSM-ACCESS', desc='GSM Access', **kwargs): super().__init__(fid=fid, name=name, desc=desc, service=27, **kwargs) files = [ EF_Kc(fid='4f20', sfid=0x01, service=27), EF_Kc(fid='4f52', sfid=0x02, name='EF.KcGPRS', desc='GPRS Ciphering key KcGPRS', service=27), EF_CPBCCH(fid='4f63', service=39), EF_InvScan(fid='4f64', service=40), ] self.add_files(files) ###################################################################### # DF.NHB ###################################################################### # 3GPP TS 31.102 Section 4.4.6.2 class EF_ACSGL(LinFixedEF): _test_de_encode = [ ( 'a00d800362f21081060000000002e0', {'csg_list': [{'plmn': '262-01'}, {'csg_information': { 'csg_type': 'from_other_sources', 'hnb_name_indication': 'from_other_sources', 'csg_id': { 'id': 23 } } } ] } ), ] class Plmn(BER_TLV_IE, tag=0x80): _construct = PlmnAdapter(Bytes(3)) class CsgInformation(BER_TLV_IE, tag=0x81): _construct = Struct('csg_type'/Enum(Int8ub, from_other_sources=0), 'hnb_name_indication'/Enum(Int8ub, from_other_sources=0), 'csg_id'/BitStruct('id'/BitsInteger(27), Padding(5))) class CsgList(BER_TLV_IE, tag=0xa0, nested=[Plmn, CsgInformation]): pass def __init__(self, fid='4f81', sfid=0x01, name='EF.ACSGL', desc='Allowed CSG Lists', service=86, **kwargs): super().__init__(fid=fid, sfid=sfid, name=name, desc=desc, service=service, rec_len=(1, None), **kwargs) self._tlv = EF_ACSGL.CsgList # 3GPP TS 31.102 Section 4.4.6.3 class EF_CSGT(LinFixedEF): _test_de_encode = [ ( '8906810300666f6f', [{ 'text_csg_type': 'foo' }] ), ( '8906810300666f6f801068747470733a2f2f666f6f2e6261722f', [{ 'text_csg_type': 'foo' }, { "graphics_csg_type_uri": "https://foo.bar/" }] ), ] class TextCsgType(BER_TLV_IE, tag=0x89): _construct = Ucs2Adapter(GreedyBytes) class GraphicsCsgTypeURI(BER_TLV_IE, tag=0x80): _construct = Utf8Adapter(GreedyBytes) class GraphicsCsgTypeEfImg(BER_TLV_IE, tag=0x81): _construct = Int8ub class Csgt_TLV_Collection(TLV_IE_Collection, nested=[TextCsgType, GraphicsCsgTypeURI, GraphicsCsgTypeEfImg]): pass def __init__(self, fid='4f82', sfid=0x02, name='EF.CSGT', desc='CSG Types', service=86, **kwargs): super().__init__(fid=fid, sfid=sfid, name=name, desc=desc, service=service, rec_len=(1, None), **kwargs) self._tlv = EF_CSGT.Csgt_TLV_Collection # 3GPP TS 31.102 Section 4.4.6.4 class EF_HNBN(LinFixedEF): _test_de_encode = [ ( '800b8108006d61686c7a656974', { 'hnb_name': 'mahlzeit' }), ] class HnbName(BER_TLV_IE, tag=0x80): _construct = Ucs2Adapter(GreedyBytes) def __init__(self, fid='4f83', sfid=0x03, name='EF.HNBN', desc='Home NodeB Name', service=86, **kwargs): super().__init__(fid=fid, sfid=sfid, name=name, desc=desc, service=service, rec_len=(1, None), **kwargs) self._tlv = EF_HNBN.HnbName # 3GPP TS 31.102 Section 4.4.6.5 class EF_OCSGL(LinFixedEF): _test_de_encode = [ ( 'a010800362f21081060000000002e0820100', {'operator_csg_list': [{'plmn': '262-01'}, {'csg_information': { 'csg_type': 'from_other_sources', 'hnb_name_indication': 'from_other_sources', 'csg_id': { 'id': 23 } } }, {'csg_display_indicator': 'all_available_csg_ids' } ] } ), ] class CsgDisplayIndicator(BER_TLV_IE, tag=0x82): _construct = Enum(Int8ub, all_available_csg_ids=0, only_ocsgl_csg_ids=1) class OperatorCsgList(BER_TLV_IE, tag=0xa0, nested=[EF_ACSGL.Plmn, EF_ACSGL.CsgInformation, CsgDisplayIndicator]): pass def __init__(self, fid='4f84', sfid=0x04, name='EF.OCSGL', desc='Operator CSG Lists', service=90, **kwargs): super().__init__(fid=fid, sfid=sfid, name=name, desc=desc, service=service, rec_len=(1, None), **kwargs) self._tlv = EF_OCSGL.OperatorCsgList ###################################################################### # DF.5GS (Rel 15) ###################################################################### # TS 31.102 Section 4.4.11.2 (Rel 15) class EF_5GS3GPPLOCI(TransparentEF): def __init__(self, fid='4f01', sfid=0x01, name='EF.5GS3GPPLOCI', size=(20, 20), desc='5S 3GP location information', **kwargs): super().__init__(fid, sfid=sfid, name=name, desc=desc, size=size, **kwargs) upd_status_constr = Enum( Byte, updated=0, not_updated=1, roaming_not_allowed=2) self._construct = Struct('5g_guti'/HexAdapter(Bytes(13)), 'last_visited_registered_tai_in_5gs'/HexAdapter(Bytes(6)), '5gs_update_status'/upd_status_constr) # TS 31.102 Section 4.4.11.7 (Rel 15) class EF_UAC_AIC(TransparentEF): _test_de_encode = [ ( '03', { "uac_access_id_config": { "multimedia_priority_service": True, "mission_critical_service": True } } ), ] def __init__(self, fid='4f06', sfid=0x06, name='EF.UAC_AIC', size=(4, 4), desc='UAC Access Identities Configuration', **kwargs): super().__init__(fid, sfid=sfid, name=name, desc=desc, size=size, **kwargs) cfg_constr = FlagsEnum(Byte, multimedia_priority_service=1, mission_critical_service=2) self._construct = Struct('uac_access_id_config'/cfg_constr) # TS 31.102 Section 4.4.11.9 (Rel 15) class EF_OPL5G(LinFixedEF): def __init__(self, fid='4f08', sfid=0x08, name='EF.OPL5G', desc='5GS Operator PLMN List', **kwargs): super().__init__(fid=fid, sfid=sfid, name=name, desc=desc, rec_len=(10, None), **kwargs) Tai = Struct('mcc_mnc'/PlmnAdapter(Bytes(3)), 'tac_min'/HexAdapter(Bytes(3)), 'tac_max'/HexAdapter(Bytes(3))) self._construct = Struct('tai'/Tai, 'pnn_record_id'/Int8ub) # TS 31.102 Section 4.4.11.10 (Rel 15) class EF_SUPI_NAI(TransparentEF): class NetworkSpecificIdentifier(TLV_IE, tag=0x80): # RFC 7542 encoded as UTF-8 string _construct = Utf8Adapter(GreedyBytes) class GlobalLineIdentifier(TLV_IE, tag=0x81): # TS 23.003 clause 28.16.2 _construct = Utf8Adapter(GreedyBytes) class GlobalCableIdentifier(TLV_IE, tag=0x82): # TS 23.003 clause 28.15.2 _construct = Utf8Adapter(GreedyBytes) class NAI_TLV_Collection(TLV_IE_Collection, nested=[NetworkSpecificIdentifier, GlobalLineIdentifier, GlobalCableIdentifier]): pass def __init__(self, fid='4f09', sfid=0x09, name='EF.SUPI_NAI', desc='SUPI as Network Access Identifier', **kwargs): super().__init__(fid, sfid=sfid, name=name, desc=desc, **kwargs) self._tlv = EF_SUPI_NAI.NAI_TLV_Collection # TS 31.102 Section 4.4.11.11 (Rel 15) class EF_Routing_Indicator(TransparentEF): def __init__(self, fid='4f0a', sfid=0x0a, name='EF.Routing_Indicator', desc='Routing Indicator', **kwargs): super().__init__(fid, sfid=sfid, name=name, desc=desc, **kwargs) # 3GPP TS 24.501 Table 9.11.3.4.1: # Routing Indicator shall consist of 1 to 4 digits. The coding of this field is the # responsibility of home network operator but BCD coding shall be used. If a network # operator decides to assign less than 4 digits to Routing Indicator, the remaining digits # shall be coded as "1111" to fill the 4 digits coding of Routing Indicator self._construct = Struct('routing_indicator'/Rpad(BcdAdapter(Bytes(2)), 'f', 2), 'rfu'/HexAdapter(Bytes(2))) # TS 31.102 Section 4.4.11.13 (Rel 16) class EF_TN3GPPSNN(TransparentEF): class ServingNetworkName(BER_TLV_IE, tag=0x80): _construct = Utf8Adapter(GreedyBytes) def __init__(self, fid='4f0c', sfid=0x0c, name='EF.TN3GPPSNN', desc='Trusted non-3GPP Serving network names list', **kwargs): super().__init__(fid, sfid=sfid, name=name, desc=desc, **kwargs) self._tlv = EF_TN3GPPSNN.ServingNetworkName # TS 31.102 Section 4.4.11.14 (Rel 17) class EF_CAG(TransparentEF): def __init__(self, fid='4f0d', sfid=0x0d, name='EF.CAG', desc='Pre-configured CAG information list EF', **kwargs): super().__init__(fid, sfid=sfid, name=name, desc=desc, **kwargs) self._construct = HexAdapter(GreedyBytes) # TS 31.102 Section 4.4.11.15 (Rel 17) class EF_SOR_CMCI(TransparentEF): def __init__(self, fid='4f0e', sfid=0x0e, name='EF.SOR-CMCI', desc='Steering Of Roaming - Connected Mode Control Information', **kwargs): super().__init__(fid, sfid=sfid, name=name, desc=desc, **kwargs) self._construct = HexAdapter(GreedyBytes) # TS 31.102 Section 4.4.11.17 (Rel 17) class EF_DRI(TransparentEF): def __init__(self, fid='4f0f', sfid=0x0f, name='EF.DRI', desc='Disaster roaming information EF', **kwargs): super().__init__(fid, sfid=sfid, name=name, desc=desc, **kwargs) self._construct = Struct('disaster_roaming_enabled'/Byte, 'parameters_indicator_status'/FlagsEnum(Byte, roaming_wait_range=1, return_wait_range=2, applicability_indicator=3), 'roaming_wait_range'/HexAdapter(Bytes(2)), 'return_wait_range'/HexAdapter(Bytes(2)), 'applicability_indicator'/HexAdapter(Byte)) # TS 31.102 Section 4.4.12.2 (Rel 17) class EF_PWS_SNPN(TransparentEF): def __init__(self, fid='4f01', sfid=0x01, name='EF.PWS_SNPN', desc='Public Warning System in SNPNs', **kwargs): super().__init__(fid, sfid=sfid, name=name, desc=desc, **kwargs) self._construct = Struct('pws_config_in_snpns'/FlagsEnum(Byte, ignore_all_pws_in_subscribed=1, ignore_all_pws_in_non_subscribed=2)) # TS 31.102 Section 4.4.12.2 (Rel 17) class EF_NID(LinFixedEF): def __init__(self, fid='4f02', sfid=0x02, name='EF.NID', desc='Network Identifier for SNPN', **kwargs): super().__init__(fid, sfid=sfid, name=name, desc=desc, rec_len=(6,6), **kwargs) self._construct = Struct('assignment_mode'/Enum(Byte, coordinated_ass_opt1=0, self_ass=1, coordinated_ass_opt2=2), 'network_identifier'/HexAdapter(Bytes(5))) # TS 31.102 Section 4.4.12 (Rel 17) class DF_SNPN(CardDF): def __init__(self, fid='5fe0', name='DF.SNPN', desc='Files for SNPN purpose', **kwargs): super().__init__(fid=fid, name=name, desc=desc, **kwargs) files = [ EF_PWS_SNPN(service=143), EF_NID(service=146), ] self.add_files(files) # TS 31.102 Section 4.4.13.2 (Rel 17) class EF_5G_PROSE_ST(EF_UServiceTable): def __init__(self, **kwargs): super().__init__(fid='4f01', sfid=0x01, name='EF.5G_PROSE_ST', desc='5G ProSe Service Table', size=(1,2), table=EF_5G_PROSE_ST_map, **kwargs) # add those commands to the general commands of a TransparentEF self.shell_commands += [self.AddlShellCommands()] @with_default_category('File-Specific Commands') class AddlShellCommands(CommandSet): def do_prose_service_activate(self, arg): """Activate a service within EF.5G_PROSE_ST""" selected_file = self._cmd.lchan.selected_file selected_file.ust_update(self._cmd, [int(arg)], []) def do_prose_service_deactivate(self, arg): """Deactivate a service within EF.5G_PROSE_ST""" selected_file = self._cmd.lchan.selected_file selected_file.ust_update(self._cmd, [], [int(arg)]) # TS 31.102 Section 4.4.13.3 (Rel 17) class EF_5G_PROSE_DD(TransparentEF): class ServedByNgRan(BER_TLV_IE, tag=0x80): pass class NotServedByNgran(BER_TLV_IE, tag=0x81): pass class ProSeIdentifiers(BER_TLV_IE, tag=0x82): pass class ProSeIdToDefaultDestL2Id(BER_TLV_IE, tag=0x83): pass class GroupMemberDiscoveryParameters(BER_TLV_IE, tag=0x84): pass class ValidityTimer(BER_TLV_IE, tag=0x85): pass class ProSeDirectDiscoveryUeId(BER_TLV_IE, tag=0x86): pass class Hplmn5GDdnmfAddressInformation(BER_TLV_IE, tag=0x87): pass class ProSeConfigForDirectDiscovery(BER_TLV_IE, tag=0xA0, nested=[ServedByNgRan, NotServedByNgran, ProSeIdentifiers, ProSeIdToDefaultDestL2Id, GroupMemberDiscoveryParameters, ValidityTimer, ProSeDirectDiscoveryUeId, Hplmn5GDdnmfAddressInformation]): pass def __init__(self, fid='4f02', sfid=0x02, name='EF.5G_PROSE_DD', desc='5G ProSe configuration data for direct discovery', **kwargs): super().__init__(fid, sfid=sfid, name=name, desc=desc, **kwargs) # contains TLV structure despite being TransparentEF, not BER-TLV ?!? self._tlv = EF_5G_PROSE_DD.ProSeConfigForDirectDiscovery # TS 31.102 Section 4.4.13.4 (Rel 17) class EF_5G_PROSE_DC(TransparentEF): class PrivacyConfig(BER_TLV_IE, tag=0x87): pass class DirectCommInNrPc5(BER_TLV_IE, tag=0x88): pass class ApplicationToPathPreferenceMappingRules(BER_TLV_IE, tag=0x89): pass class ProSeIdToNrTxProfileForBroadcastAndGroupcastMappingRules(BER_TLV_IE, tag=0x91): pass class ProSeConfigForDirectCommunication(BER_TLV_IE, tag=0xA0, nested=[EF_5G_PROSE_DD.ServedByNgRan, EF_5G_PROSE_DD.NotServedByNgran, PrivacyConfig, DirectCommInNrPc5, ApplicationToPathPreferenceMappingRules, EF_5G_PROSE_DD.ValidityTimer, ProSeIdToNrTxProfileForBroadcastAndGroupcastMappingRules]): pass def __init__(self, fid='4f03', sfid=0x03, name='EF.5G_PROSE_DC', desc='5G ProSe configuration data for direct communication', **kwargs): super().__init__(fid, sfid=sfid, name=name, desc=desc, **kwargs) # contains TLV structure despite being TransparentEF, not BER-TLV ?!? self._tlv = EF_5G_PROSE_DC.ProSeConfigForDirectCommunication # TS 31.102 Section 4.4.13.5 (Rel 17) class EF_5G_PROSE_U2NRU(TransparentEF): class ProSeIdToDefaultDestL2Id(BER_TLV_IE, tag=0x8a): pass class RxcInfoList(BER_TLV_IE, tag=0x8b): pass class FiveQiToPc65QosParametersMappingRules(BER_TLV_IE, tag=0x8c): pass class ProSeIdToAppSrvAddrMappingRules(BER_TLV_IE, tag=0x8d): pass class UserInfoIdForDiscovery(BER_TLV_IE, tag=0x8e): pass class PrivacyTimer(BER_TLV_IE, tag=0x92): pass class FiveGPkkmfAddressInformation(BER_TLV_IE, tag=0x93): pass class ProSeConfigDataForUeToNetworkRelayUe(BER_TLV_IE, tag=0xA0, nested=[EF_5G_PROSE_DD.ServedByNgRan, EF_5G_PROSE_DD.NotServedByNgran, ProSeIdToDefaultDestL2Id, RxcInfoList, FiveQiToPc65QosParametersMappingRules, ProSeIdToAppSrvAddrMappingRules, EF_5G_PROSE_DD.ValidityTimer, UserInfoIdForDiscovery, PrivacyTimer, FiveGPkkmfAddressInformation]): pass def __init__(self, fid='4f04', sfid=0x04, name='EF.5G_PROSE_U2NRU', desc='5G ProSe configuration data for UE-to-network relay UE', **kwargs): super().__init__(fid, sfid=sfid, name=name, desc=desc, **kwargs) # contains TLV structure despite being TransparentEF, not BER-TLV ?!? self._tlv = EF_5G_PROSE_U2NRU.ProSeConfigDataForUeToNetworkRelayUe # TS 31.102 Section 4.4.13.6 (Rel 17) class EF_5G_PROSE_RU(TransparentEF): class DefaultDestL2Ids(BER_TLV_IE, tag=0x8f): pass class N3IwfSelectionInfoFor5GProSeL3RemoteUE(BER_TLV_IE, tag=0x90): pass class ProSeConfigDataForRemoteUe(BER_TLV_IE, tag=0xa0, nested=[EF_5G_PROSE_DD.ServedByNgRan, EF_5G_PROSE_DD.NotServedByNgran, DefaultDestL2Ids, EF_5G_PROSE_U2NRU.RxcInfoList, N3IwfSelectionInfoFor5GProSeL3RemoteUE, EF_5G_PROSE_DD.ValidityTimer, EF_5G_PROSE_U2NRU.UserInfoIdForDiscovery, EF_5G_PROSE_U2NRU.PrivacyTimer, EF_5G_PROSE_U2NRU.FiveGPkkmfAddressInformation]): pass def __init__(self, fid='4f05', sfid=0x05, name='EF.5G_PROSE_RU', desc='5G ProSe configuration data for remote UE', **kwargs): super().__init__(fid, sfid=sfid, name=name, desc=desc, **kwargs) # contains TLV structure despite being TransparentEF, not BER-TLV ?!? self._tlv = EF_5G_PROSE_RU.ProSeConfigDataForRemoteUe # TS 31.102 Section 4.4.13.7 (Rel 17) class EF_5G_PROSE_UIR(TransparentEF): class CollectionPeriod(BER_TLV_IE, tag=0x94): pass class ReportingWindow(BER_TLV_IE, tag=0x95): pass class ReportingIndicators(BER_TLV_IE, tag=0x96): pass class FiveGDdnmfCtfAddrForUploading(BER_TLV_IE, tag=0x97): pass class ProSeConfigDataForUeToNetworkRelayUE(BER_TLV_IE, tag=0xa0, nested=[EF_5G_PROSE_DD.ValidityTimer, CollectionPeriod, ReportingWindow, ReportingIndicators, FiveGDdnmfCtfAddrForUploading]): pass def __init__(self, fid='4f06', sfid=0x06, name='EF.5G_PROSE_UIR', desc='5G ProSe configuration data for usage information reporting', **kwargs): super().__init__(fid, sfid=sfid, name=name, desc=desc, **kwargs) # contains TLV structure despite being TransparentEF, not BER-TLV ?!? self._tlv = EF_5G_PROSE_UIR.ProSeConfigDataForUeToNetworkRelayUE # TS 31.102 Section 4.4.13.8 (Rel 18) class EF_5G_PROSE_U2URU(TransparentEF): class ValidityTimer(BER_TLV_IE, tag=0x85): _construct = Bytes(5) class ServedByNGRAN(BER_TLV_IE, tag=0x80): _construct = GreedyBytes class NotServedByNGRAN(BER_TLV_IE, tag=0x81): _construct = GreedyBytes class DefaultDstL2IdsForRxDisc(BER_TLV_IE, tag=0x99): _construct = GreedyBytes class UserInforIdForDiscovery(BER_TLV_IE, tag=0x8e): _construct = GreedyBytes class RSCInfoList(BER_TLV_IE, tag=0x8b): _construct = GreedyBytes class DefaultDstL2IdsForTxRxDirect(BER_TLV_IE, tag=0x9a): _construct = GreedyBytes class ProSeConfigDataForU2URelayUE(BER_TLV_IE, tag=0xa0, nested=[ValidityTimer, ServedByNGRAN, NotServedByNGRAN, DefaultDstL2IdsForRxDisc, UserInforIdForDiscovery, RSCInfoList, DefaultDstL2IdsForTxRxDirect]): pass def __init__(self, fid='4f07', sfid=0x07, name='EF.5G_PROSE_U2URU', desc='5G ProSe configuration data for UE-to-UE relay UE', **kwargs): super().__init__(fid, sfid=sfid, name=name, desc=desc, **kwargs) self._tlv = EF_5G_PROSE_U2URU.ProSeConfigDataForU2URelayUE # TS 31.102 Section 4.4.13.9 (Rel 18) class EF_5G_PROSE_EU(TransparentEF): class PKMFAddressInformation(BER_TLV_IE, tag=0x93): Ipv4AddrList = PrefixedArray(Int8ub, Int32ub) Ipv6AddrList = PrefixedArray(Int8ub, Bytes(16)) _construct = Struct('flags'/FlagsEnum(Byte, ipv4=1, ipv6=2, fqdn=4), 'ipv4_addr_list'/If(this.flags.ipv4, Ipv4AddrList), 'ipv6_addr_list'/If(this.flags.ipv6, Ipv6AddrList), 'fqdn'/Prefixed(Int8ub, Utf8Adapter(GreedyBytes))) class ProSeConfigDataForEndUE(BER_TLV_IE, tag=0xa0, nested=[EF_5G_PROSE_U2URU.ValidityTimer, EF_5G_PROSE_U2URU.ServedByNGRAN, EF_5G_PROSE_U2URU.NotServedByNGRAN, EF_5G_PROSE_U2URU.DefaultDstL2IdsForRxDisc, EF_5G_PROSE_U2URU.UserInforIdForDiscovery, EF_5G_PROSE_U2URU.RSCInfoList, EF_5G_PROSE_U2URU.DefaultDstL2IdsForTxRxDirect, PKMFAddressInformation]): pass def __init__(self, fid='4f08', sfid=0x08, name='EF.5G_PROSE_EU', desc='5G ProSe configuration data for end UE', **kwargs): super().__init__(fid, sfid=sfid, name=name, desc=desc, **kwargs) self._tlv = EF_5G_PROSE_EU.ProSeConfigDataForEndUE # TS 31.102 Section 4.4.13 (Rel 17) class DF_5G_ProSe(CardDF): def __init__(self, fid='5ff0', name='DF.5G_ProSe', desc='Files for 5G ProSe purpose', **kwargs): super().__init__(fid=fid, name=name, desc=desc, **kwargs) files = [ EF_5G_PROSE_ST(), EF_5G_PROSE_DD(service=1), EF_5G_PROSE_DC(service=2), EF_5G_PROSE_U2NRU(service=3), EF_5G_PROSE_RU(service=4), EF_5G_PROSE_UIR(service=5), # Rel 18 additions EF_5G_PROSE_U2URU(service=6), EF_5G_PROSE_EU(service=7), ] self.add_files(files) # TS 31.102 Section 4.4.14.2 (Rel 18) class EF_5MBSUECONFIG(TransparentEF): class Plmn(BER_TLV_IE, tag=0x80): _construct = Struct('plmn'/PlmnAdapter(Bytes(3)), 'nid'/COptional(Bytes(6))) class Tmgi(BER_TLV_IE, tag=0x81): TmgiEntry = Struct('tmgi'/Bytes(6), 'usd_fid'/HexAdapter(Bytes(2)), 'service_type'/FlagsEnum(Byte, mbs_service_announcement=1, mbs_user_service=2)) _construct = GreedyRange(TmgiEntry) class NrArfcnList(BER_TLV_IE, tag=0x82): _construct = GreedyRange(Bytes(4)) class DNN(BER_TLV_IE, tag=0x83): _construct = GreedyBytes class SNSSAI(BER_TLV_IE, tag=0x84): _construct = GreedyBytes class PduInfoList(BER_TLV_IE, tag=0xa1, nested=[DNN, SNSSAI]): pass class Plmn5mbsPreconfiguration(BER_TLV_IE, tag=0xa0, nested=[Plmn, Tmgi, NrArfcnList, PduInfoList]): pass def __init__(self, fid='4f01', sfid=None, name='EF.5MBSUECONFIG', desc='5MBS UE pre-configuration', **kwargs): super().__init__(fid, sfid=sfid, name=name, desc=desc, **kwargs) self._tlv = EF_5MBSUECONFIG.Plmn5mbsPreconfiguration # TS 31.102 Section 4.4.14.3 (Rel 18) class EF_5MBSUSD(TransparentEF): """There can be any number of these files with undefined FID; the FIDs are contained in EF.5BMSUECONFIG. FID range is 4f08...4fff""" class USD(BER_TLV_IE, tag=0x80): _construct = GreedyBytes def __init__(self, fid, sfid=None, name='EF.5MBSUSD', desc='5MBS User Service Description', **kwargs): super().__init__(fid, sfid=sfid, name=name, desc=desc, **kwargs) self._tlv = USD # TS 31.102 Section 4.4.14 (Rel 18) class DF_5MBSUECONFIG(CardDF): def __init__(self, fid='5ff1', name='DF.5MBSUECONFIG', desc='', **kwargs): super().__init__(fid=fid, name=name, desc=desc, **kwargs) files = [ EF_5MBSUECONFIG(), # EF_5MBSUSD() wouild have to be dynamically registered based on EF_5MBSUECONFIG content ] self.add_files(files) # TS 31.102 Section 4.4.11.18 (Rel 17) class EF_5GSEDRX(TransparentEF): def __init__(self, fid='4f10', sfid=0x10, name='EF.5GSEDRX', desc='5GS eDRX Parameters', **kwargs): super().__init__(fid, sfid=sfid, name=name, desc=desc, **kwargs) self._construct = Struct('5gs_rat_type'/FlagsEnum(Byte, ng_ran=1, sat_ng_ran=2), 'edrx_cycle_length'/Int8ub) # TS 31.102 Section 4.4.11.19 (Rel 17) class EF_5GNSWO_CONF(TransparentEF): def __init__(self, fid='4f11', sfid=0x11, name='EF.5GNSWO_CONF', desc='5G Non-Seamless WLAN Offload configuration', **kwargs): super().__init__(fid, sfid=sfid, name=name, desc=desc, **kwargs) self._construct = Struct('5g_nswo_usage_ind'/Enum(Byte, disabled=0, enabled=1)) # TS 31.102 Section 4.4.11.20 (Rel 17) class EF_MCHPPLMN(TransparentEF): def __init__(self, fid='4f15', sfid=0x15, name='EF.MCHPPLMN', desc='Multiplier Coefficient for Higher Priority PLMN search', **kwargs): super().__init__(fid, sfid=sfid, name=name, desc=desc, **kwargs) self._construct = Struct('multiplier_coefficient'/Int8ub) # TS 31.102 Section 4.4.11.21 (Rel 17) class EF_KAUSF_DERIVATION(TransparentEF): def __init__(self, fid='4f16', sfid=0x16, name='EF.KAUSF_DERIVATION', desc='K_AUSF derivation configuration', **kwargs): super().__init__(fid, sfid=sfid, name=name, desc=desc, **kwargs) self._construct = Struct('k_ausf_deriv_cfg'/FlagsEnum(Byte, use_msk=1), 'rfu'/HexAdapter(GreedyBytes)) # TS 31.102 Section 4.4.5 class DF_WLAN(CardDF): def __init__(self, fid='5f40', name='DF.WLAN', desc='Files for WLAN purpose', **kwargs): super().__init__(fid=fid, name=name, desc=desc, **kwargs) files = [ TransparentEF('4f41', 0x01, 'EF.Pseudo', 'Pseudonym', service=59), TransparentEF('4f42', 0x02, 'EF.UPLMNWLAN', 'User controlled PLMN selector for I-WLAN Access', service=60), TransparentEF('4f43', 0x03, 'EF.OPLMNWLAN', 'Operator controlled PLMN selector for I-WLAN Access', service=61), LinFixedEF('4f44', 0x04, 'EF.UWSIDL', 'User controlled WLAN Specific Identifier List', service=62), LinFixedEF('4f45', 0x05, 'EF.OWSIDL', 'Operator controlled WLAN Specific Identifier List', service=63), TransparentEF('4f46', 0x06, 'EF.WRI', 'WLAN Reauthentication Identity', service=66), LinFixedEF('4f47', 0x07, 'EF.HWSIDL', 'Home I-WLAN Specific Identifier List', service=81), TransparentEF('4f48', 0x08, 'EF.WEHPLMNPI', 'I-WLAN Equivalent HPLMN Presentation Indication', service=82), TransparentEF('4f49', 0x09, 'EF.WHPI', 'I-WLAN HPLMN Priority Indication', service=83), TransparentEF('4f4a', 0x0a, 'EF.WLRPLMN', 'I-WLAN Last Registered PLMN', service=84), TransparentEF('4f4b', 0x0b, 'EF.HPLMNDAI', 'HPLMN Direct Access Indicator', service=88), ] self.add_files(files) # TS 31.102 Section 4.4.6 class DF_HNB(CardDF): def __init__(self, fid='5f50', name='DF.HNB', desc='Files for HomeNodeB purpose', **kwargs): super().__init__(fid=fid, name=name, desc=desc, **kwargs) files = [ EF_ACSGL(), EF_CSGT(), EF_HNBN(), EF_OCSGL(), EF_CSGT('4f85', 0x05, 'EF.OCSGT', 'Operator CSG Type', service=90), EF_HNBN('4f86', 0x06, 'EF.OHNBN', 'Operator Home NodeB Name', service=90), ] self.add_files(files) # TS 31.102 Section 4.4.8 class DF_ProSe(CardDF): def __init__(self, fid='5f90', name='DF.ProSe', desc='Files for ProSe purpose', **kwargs): super().__init__(fid=fid, name=name, desc=desc, **kwargs) files = [ LinFixedEF('4f01', 0x01, 'EF.PROSE_MON', 'ProSe Monitoring Parameters'), LinFixedEF('4f02', 0x02, 'EF.PROSE_ANN', 'ProSe Announcing Parameters'), LinFixedEF('4f03', 0x03, 'EF.PROSEFUNC', 'HPLMN ProSe Function'), TransparentEF('4f04', 0x04, 'EF.PROSE_RADIO_COM', 'ProSe Direct Communication Radio Parameters'), TransparentEF('4f05', 0x05, 'EF.PROSE_RADIO_MON', 'ProSe Direct Discovery Monitoring Radio Parameters'), TransparentEF('4f06', 0x06, 'EF.PROSE_RADIO_ANN', 'ProSe Direct Discovery Announcing Radio Parameters'), LinFixedEF('4f07', 0x07, 'EF.PROSE_POLICY', 'ProSe Policy Parameters'), LinFixedEF('4f08', 0x08, 'EF.PROSE_PLMN', 'ProSe PLMN Parameters'), TransparentEF('4f09', 0x09, 'EF.PROSE_GC', 'ProSe Group Counter'), TransparentEF('4f10', 0x10, 'EF.PST', 'ProSe Service Table'), TransparentEF('4f11', 0x11, 'EF.UIRC', 'ProSe UsageInformationReportingConfiguration'), LinFixedEF('4f12', 0x12, 'EF.PROSE_GM_DISCOVERY', 'ProSe Group Member Discovery Parameters'), LinFixedEF('4f13', 0x13, 'EF.PROSE_RELAY', 'ProSe Relay Parameters'), TransparentEF('4f14', 0x14, 'EF.PROSE_RELAY_DISCOVERY', 'ProSe Relay Discovery Parameters'), ] self.add_files(files) class DF_USIM_5GS(CardDF): def __init__(self, fid='5FC0', name='DF.5GS', desc='5GS related files', **kwargs): super().__init__(fid=fid, name=name, desc=desc, **kwargs) files = [ # I'm looking at 31.102 R16.6 EF_5GS3GPPLOCI(service=122), EF_5GS3GPPLOCI('4f02', 0x02, 'EF.5GSN3GPPLOCI', desc='5GS non-3GPP location information', service=122), EF_5GS3GPPNSC(service=122), EF_5GS3GPPNSC('4f04', 0x04, 'EF.5GSN3GPPNSC', desc='5GS non-3GPP Access NAS Security Context', service=122), EF_5GAUTHKEYS(service=123), EF_UAC_AIC(service=126), EF_SUCI_Calc_Info(service=124), EF_OPL5G(service=129), EF_SUPI_NAI(service=130), EF_Routing_Indicator(service=124), TransparentEF('4F0B', 0x0b, 'EF.URSP', desc='UE Route Selector Policies per PLMN', service=132), EF_TN3GPPSNN(service=133), # Rel-17 additions below EF_CAG(service=137), EF_SOR_CMCI(service=138), EF_DRI(service=140), EF_5GSEDRX(service=141), EF_5GNSWO_CONF(service=142), EF_MCHPPLMN(service=144), EF_KAUSF_DERIVATION(service=145), ] self.add_files(files) class DF_SAIP(CardDF): """This is not really TS 31.102 but part of the eUICC Profile Package: Interoperable Format Technical Specification as released by TCA (formerly SIMalliance)""" def __init__(self, fid='5FD0', name='DF.SAIP', desc='SIMalliance Interoperable Profile', **kwargs): super().__init__(fid=fid, name=name, desc=desc, **kwargs) files = [ # uses the same file format as DF.5GS/EF_SUCI_Calc_Info, but different FID EF_SUCI_Calc_Info(fid='4f01') ] self.add_files(files) class ADF_USIM(CardADF): def __init__(self, aid='a0000000871002', has_fs=True, name='ADF.USIM', fid=None, sfid=None, desc='USIM Application', has_imsi=True): super().__init__(aid=aid, has_fs=has_fs, fid=fid, sfid=sfid, name=name, desc=desc) # add those commands to the general commands of a TransparentEF self.shell_commands += [self.AddlShellCommands()] files = [ EF_LI(sfid=0x02), EF_Keys(), EF_Keys('6f09', 0x09, 'EF.KeysPS', desc='Ciphering and Integrity Keys for PS domain'), EF_xPLMNwAcT('6f60', 0x0a, 'EF.PLMNwAcT', desc='User controlled PLMN Selector with Access Technology', service=20), EF_HPPLMN(), EF_ACMmax(service=13), EF_UST(), CyclicEF('6f39', None, 'EF.ACM', desc='Accumulated call meter', rec_len=(3, 3), service=13), TransparentEF('6f3e', None, 'EF.GID1', desc='Group Identifier Level 1', service=17), TransparentEF('6f3f', None, 'EF.GID2', desc='Group Identifier Level 2', service=18), EF_SPN(service=19), TransparentEF('6f41', None, 'EF.PUCT', desc='Price per unit and currency table', size=(5, 5), service=13), EF_CBMI(service=15), EF_ACC(sfid=0x06), EF_PLMNsel('6f7b', 0x0d, 'EF.FPLMN', desc='Forbidden PLMNs', size=(12, None)), EF_LOCI(), EF_AD(), EF_CBMID(sfid=0x0e, service=29), EF_ECC(), EF_CBMIR(service=16), EF_PSLOCI(), EF_ADN('6f3b', None, 'EF.FDN', desc='Fixed Dialling Numbers', service=[2, 89], ext=2), EF_SMS('6f3c', None, service=10), EF_MSISDN(service=21), EF_SMSP(service=12), EF_SMSS(service=10), EF_ADN('6f49', None, 'EF.SDN', desc='Service Dialling Numbers', service=[4, 89], ext=3), EF_EXT('6f4b', None, 'EF.EXT2', desc='Extension2 (FDN)', service=3), EF_EXT('6f4c', None, 'EF.EXT3', desc='Extension2 (SDN)', service=5), EF_SMSR(service=11), EF_ICI(service=9), EF_OCI(service=8), EF_ICT(service=9), EF_ICT('6f83', None, 'EF.OCT', desc='Outgoing Call Timer', service=8), EF_EXT('6f4e', None, 'EF.EXT5', desc='Extension5 (ICI/OCI/MSISDN)', service=44), EF_CCP2(service=14), EF_eMLPP(service=24), EF_AAeM(service=25), # EF_Hiddenkey EF_ADN('6f4d', None, 'EF.BDN', desc='Barred Dialling Numbers', service=6, ext=4), EF_EXT('6f55', None, 'EF.EXT4', desc='Extension4 (BDN/SSC)', service=7), EF_CMI(service=6), EF_EST(service=[2, 6, 34, 35]), EF_ACL(service=35), EF_DCK(service=36), EF_CNL(service=37), EF_START_HFN(), EF_THRESHOLD(), EF_xPLMNwAcT('6f61', 0x11, 'EF.OPLMNwAcT', desc='User controlled PLMN Selector with Access Technology', service=42), EF_xPLMNwAcT('6f62', 0x13, 'EF.HPLMNwAcT', desc='HPLMN Selector with Access Technology', service=43), EF_ARR('6f06', 0x17), EF_RPLMNAcT(), TransparentEF('6fc4', None, 'EF.NETPAR', desc='Network Parameters'), EF_PNN('6fc5', 0x19, service=45), EF_OPL(service=46), EF_ADN('6fc7', None, 'EF.MBDN', desc='Mailbox Dialling Numbers', service=47, ext=6), EF_EXT('6fc8', None, 'EF.EXT6', desc='Extension6 (MBDN)'), EF_MBI(service=47), EF_MWIS(service=48), EF_CFIS(service=49, ext=7), EF_EXT('6fcc', None, 'EF.EXT7', desc='Extension7 (CFIS)'), TransparentEF('6fcd', None, 'EF.SPDI', desc='Service Provider Display Information', service=51), EF_MMSN(service=52), EF_EXT('6fcf', None, 'EF.EXT8', desc='Extension8 (MMSN)', service=53), EF_MMSICP(service=52), EF_MMSUP(service=52), EF_MMSUCP(service=(52, 55)), EF_NIA(service=56, fid='6fd3'), EF_VGCS(service=57), EF_VGCSS(service=57), EF_VGCS('6fb3', None, 'EF.VBS', desc='Voice Broadcast Service', service=58), EF_VGCSS('6fb4', None, 'EF.VBSS', desc='Voice Broadcast Service Status', service=58), EF_VGCSCA(service=64), EF_VGCSCA('6fd5', None, 'EF.VBSCA', desc='Voice Broadcast Service Ciphering Algorithm', service=65), EF_GBABP(service=68), EF_MSK(service=69), EF_MUK(service=69), EF_GBANL(service=68), EF_PLMNsel('6fd9', 0x1d, 'EF.EHPLMN', desc='Equivalent HPLMN', size=(12, None), service=71), EF_EHPLMNPI(service=(71, 73)), # EF_LRPLMNSI ('6fdc', service=74) EF_NAFKCA(service=(68, 76)), TransparentEF('6fde', None, 'EF.SPNI', desc='Service Provider Name Icon', service=78), LinFixedEF('6fdf', None, 'EF.PNNI', desc='PLMN Network Name Icon', service=79), EF_NCP_IP(service=80), EF_EPSLOCI('6fe3', 0x1e, 'EF.EPSLOCI', desc='EPS location information', service=85), EF_EPSNSC(service=85), # EF.UFC Test data: 801e60c01e900080040000000000000000f0000000004000000000000080 TransparentEF('6fe6', None, 'EF.UFC', desc='USAT Facility Control', size=(1, 16)), TransparentEF('6fe8', None, 'EF.NASCONFIG', desc='Non Access Stratum Configuration', service=96), # UICC IARI (only in cards that have no ISIM) service=95 EF_PWS(service=97), LinFixedEF('6fed', None, 'EF.FDNURI', desc='Fixed Dialling Numbers URI', service=(2, 99)), LinFixedEF('6fee', None, 'EF.BDNURI', desc='Barred Dialling Numbers URI', service=(6, 99)), LinFixedEF('6fef', None, 'EF.SDNURI', desc='Service Dialling Numbers URI', service=(4, 99)), # EF_IWL (IMEI(SV) White List) EF_IPS(), EF_ePDGId(service=(106, 107)), EF_ePDGSelection(service=(106, 107)), EF_ePDGId('6ff5', None, 'EF.ePDGIdEm', desc='Emergency ePDG Identifier', service=(110, 111)), EF_ePDGSelection('6ff6', None, 'EF.ePDGSelectionEm', desc='ePDG Selection Information for Emergency Services', service=(110, 111)), EF_FromPreferred(service=114), EF_IMSConfigData(service=115), # TODO: EF.TVCONFIG # TODO: EF.3GPPPSDATAOFF # TODO: EF.3GPPPSDATAOFFservicelist EF_XCAPConfigData(service=120), EF_EARFCNList(service=121), EF_MuDMiDConfigData(service=134), EF_eAKA(), EF_OCST(service=148), EF_AC_GBAUAPI(service=68), EF_IMSDCI(service=150), # FIXME: DF_SoLSA service=23 DF_PHONEBOOK(), DF_GSM_ACCESS(), DF_WLAN(service=[59, 60, 61, 62, 63, 66, 81, 82, 83, 84, 88]), DF_HNB(service=[86, 90]), DF_ProSe(service=101), # FIXME: DF_ACDC service=108 # FIXME: DF_TV service=116 DF_USIM_5GS(service=[122, 123, 124, 125, 126, 127, 129, 130]), DF_SNPN(service=[143,146]), DF_5G_ProSe(service=139), DF_SAIP(), DF_5MBSUECONFIG(service=147), ] if has_imsi: files.append(EF_IMSI(sfid=0x07)) self.add_files(files) def decode_select_response(self, data_hex): return pySim.ts_102_221.CardProfileUICC.decode_select_response(data_hex) @with_default_category('Application-Specific Commands') class AddlShellCommands(CommandSet): authenticate_parser = argparse.ArgumentParser() authenticate_parser.add_argument('RAND', type=is_hexstr, help='Random challenge') authenticate_parser.add_argument('AUTN', type=is_hexstr, help='Authentication Nonce') #authenticate_parser.add_argument('--context', help='Authentication context', default='3G') @cmd2.with_argparser(authenticate_parser) def do_authenticate(self, opts): """Perform Authentication and Key Agreement (AKA).""" (data, _sw) = self._cmd.lchan.scc.authenticate(opts.RAND, opts.AUTN) self._cmd.poutput_json(data) term_prof_parser = argparse.ArgumentParser() term_prof_parser.add_argument('PROFILE', type=is_hexstr, help='Hexstring of encoded terminal profile') @cmd2.with_argparser(term_prof_parser) def do_terminal_profile(self, opts): """Send a TERMINAL PROFILE command to the card. This is used to inform the card about which optional features the terminal (modem/phone) supports, particularly in the context of SIM Toolkit, Proactive SIM and OTA. You must specify a hex-string with the encoded terminal profile you want to send to the card.""" (data, sw) = self._cmd.lchan.scc.terminal_profile(opts.PROFILE) self._cmd.poutput('SW: %s, data: %s' % (sw, data)) envelope_parser = argparse.ArgumentParser() envelope_parser.add_argument('PAYLOAD', type=is_hexstr, help='Hexstring of encoded payload to ENVELOPE') @cmd2.with_argparser(envelope_parser) def do_envelope(self, opts): """Send an ENVELOPE command to the card. This is how a variety of information is communicated from the terminal (modem/phone) to the card, particularly in the context of SIM Toolkit, Proactive SIM and OTA.""" (data, sw) = self._cmd.lchan.scc.envelope(opts.PAYLOAD) self._cmd.poutput('SW: %s, data: %s' % (sw, data)) envelope_sms_parser = argparse.ArgumentParser() envelope_sms_parser.add_argument('TPDU', type=is_hexstr, help='Hexstring of encoded SMS TPDU') @cmd2.with_argparser(envelope_sms_parser) def do_envelope_sms(self, opts): """Send an ENVELOPE(SMS-PP-Download) command to the card. This emulates a terminal (modem/phone) having received a SMS with a PID of 'SMS for the SIM card'. You can use this command in the context of testing OTA related features without a modem/phone or a cellular network.""" tpdu_ie = SMS_TPDU() tpdu_ie.from_bytes(h2b(opts.TPDU)) dev_ids = DeviceIdentities( decoded={'source_dev_id': 'network', 'dest_dev_id': 'uicc'}) sms_dl = SMSPPDownload(children=[dev_ids, tpdu_ie]) (data, sw) = self._cmd.lchan.scc.envelope(b2h(sms_dl.to_tlv())) self._cmd.poutput('SW: %s, data: %s' % (sw, data)) get_id_parser = argparse.ArgumentParser() get_id_parser.add_argument("--nswo-context", action='store_true', help='use SUCI 5G Non-Seamless WLAN Offload context') @cmd2.with_argparser(get_id_parser) def do_get_identity(self, opts): """Send a GET IDENTITY command to the card. This is part of the procedure for "SUCI calculation performed on USIM" supported by USIM with support for both EF.UST service 124 and 125.""" context = 0x01 # SUCI if opts.nswo_context: context = 0x02 # SUCI 5G NSWO (data, _sw) = self._cmd.lchan.scc.get_identity(context) do = SUCI_TlvDataObject() do.from_tlv(h2b(data)) do_d = do.to_dict() self._cmd.poutput('SUCI TLV Data Object: %s' % do_d['suci__tlv_data_object']) # TS 31.102 Section 7.3 sw_usim = { 'Security management': { '9862': 'Authentication error, incorrect MAC', '9864': 'Authentication error, security context not supported', '9865': 'Key freshness failure', '9866': 'Authentication error, no memory space available', '9867': 'Authentication error, no memory space available in EF MUK', } } class CardApplicationUSIM(CardApplication): def __init__(self): super().__init__('USIM', adf=ADF_USIM(), sw=sw_usim) # TS 31.102 Annex N + TS 102 220 Annex E class CardApplicationUSIMnonIMSI(CardApplication): def __init__(self): adf = ADF_USIM(aid='a000000087100b', name='ADF.USIM-non-IMSI', has_imsi=False, desc='3GPP USIM (non-IMSI SUPI Type) - TS 31.102 Annex N') super().__init__('USIM-non-IMSI', adf=adf, sw=sw_usim)