mirror of https://gerrit.osmocom.org/pysim
1376 lines
58 KiB
Python
1376 lines
58 KiB
Python
# -*- coding: utf-8 -*-
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# without this, pylint will fail when inner classes are used
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# within the 'nested' kwarg of our TlvMeta metaclass on python 3.7 :(
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# pylint: disable=undefined-variable
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"""
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Various constants from 3GPP TS 31.102 V16.6.0
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"""
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#
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# Copyright (C) 2020 Supreeth Herle <herlesupreeth@gmail.com>
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# Copyright (C) 2021 Harald Welte <laforge@osmocom.org>
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#
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# This program is free software: you can redistribute it and/or modify
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# it under the terms of the GNU General Public License as published by
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# the Free Software Foundation, either version 2 of the License, or
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# (at your option) any later version.
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#
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# This program is distributed in the hope that it will be useful,
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# but WITHOUT ANY WARRANTY; without even the implied warranty of
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# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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# GNU General Public License for more details.
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#
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# You should have received a copy of the GNU General Public License
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# along with this program. If not, see <http://www.gnu.org/licenses/>.
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#
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# Mapping between USIM Service Number and its description
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import pySim.ts_102_221
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from pySim.ts_51_011 import EF_ACMmax, EF_AAeM, EF_eMLPP, EF_CMI, EF_PNN
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from pySim.ts_51_011 import EF_MMSN, EF_MMSICP, EF_MMSUP, EF_MMSUCP, EF_VGCS, EF_VGCSS, EF_NIA
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from pySim.ts_51_011 import EF_SMSR, EF_DCK, EF_EXT, EF_CNL, EF_OPL, EF_MBI, EF_MWIS
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from pySim.ts_51_011 import EF_CBMID, EF_CBMIR, EF_ADN, EF_SMS, EF_MSISDN, EF_SMSP, EF_SMSS
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from pySim.ts_51_011 import EF_IMSI, EF_xPLMNwAcT, EF_SPN, EF_CBMI, EF_ACC, EF_PLMNsel
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from pySim.ts_102_221 import EF_ARR
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from pySim.tlv import *
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from pySim.filesystem import *
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from pySim.ts_31_102_telecom import DF_PHONEBOOK
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from pySim.construct import *
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from construct import Optional as COptional
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from construct import *
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from typing import Tuple
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from struct import unpack, pack
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import enum
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EF_UST_map = {
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1: 'Local Phone Book',
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2: 'Fixed Dialling Numbers (FDN)',
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3: 'Extension 2',
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4: 'Service Dialling Numbers (SDN)',
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5: 'Extension3',
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6: 'Barred Dialling Numbers (BDN)',
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7: 'Extension4',
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8: 'Outgoing Call Information (OCI and OCT)',
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9: 'Incoming Call Information (ICI and ICT)',
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10: 'Short Message Storage (SMS)',
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11: 'Short Message Status Reports (SMSR)',
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12: 'Short Message Service Parameters (SMSP)',
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13: 'Advice of Charge (AoC)',
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14: 'Capability Configuration Parameters 2 (CCP2)',
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15: 'Cell Broadcast Message Identifier',
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16: 'Cell Broadcast Message Identifier Ranges',
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17: 'Group Identifier Level 1',
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18: 'Group Identifier Level 2',
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19: 'Service Provider Name',
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20: 'User controlled PLMN selector with Access Technology',
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21: 'MSISDN',
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22: 'Image (IMG)',
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23: 'Support of Localised Service Areas (SoLSA)',
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24: 'Enhanced Multi-Level Precedence and Pre-emption Service',
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25: 'Automatic Answer for eMLPP',
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26: 'RFU',
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27: 'GSM Access',
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28: 'Data download via SMS-PP',
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29: 'Data download via SMS-CB',
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30: 'Call Control by USIM',
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31: 'MO-SMS Control by USIM',
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32: 'RUN AT COMMAND command',
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33: 'shall be set to 1',
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34: 'Enabled Services Table',
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35: 'APN Control List (ACL)',
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36: 'Depersonalisation Control Keys',
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37: 'Co-operative Network List',
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38: 'GSM security context',
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39: 'CPBCCH Information',
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40: 'Investigation Scan',
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41: 'MexE',
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42: 'Operator controlled PLMN selector with Access Technology',
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43: 'HPLMN selector with Access Technology',
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44: 'Extension 5',
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45: 'PLMN Network Name',
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46: 'Operator PLMN List',
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47: 'Mailbox Dialling Numbers',
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48: 'Message Waiting Indication Status',
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49: 'Call Forwarding Indication Status',
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50: 'Reserved and shall be ignored',
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51: 'Service Provider Display Information',
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52: 'Multimedia Messaging Service (MMS)',
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53: 'Extension 8',
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54: 'Call control on GPRS by USIM',
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55: 'MMS User Connectivity Parameters',
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56: 'Network\'s indication of alerting in the MS (NIA)',
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57: 'VGCS Group Identifier List (EFVGCS and EFVGCSS)',
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58: 'VBS Group Identifier List (EFVBS and EFVBSS)',
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59: 'Pseudonym',
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60: 'User Controlled PLMN selector for I-WLAN access',
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61: 'Operator Controlled PLMN selector for I-WLAN access',
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62: 'User controlled WSID list',
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63: 'Operator controlled WSID list',
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64: 'VGCS security',
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65: 'VBS security',
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66: 'WLAN Reauthentication Identity',
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67: 'Multimedia Messages Storage',
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68: 'Generic Bootstrapping Architecture (GBA)',
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69: 'MBMS security',
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70: 'Data download via USSD and USSD application mode',
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71: 'Equivalent HPLMN',
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72: 'Additional TERMINAL PROFILE after UICC activation',
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73: 'Equivalent HPLMN Presentation Indication',
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74: 'Last RPLMN Selection Indication',
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75: 'OMA BCAST Smart Card Profile',
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76: 'GBA-based Local Key Establishment Mechanism',
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77: 'Terminal Applications',
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78: 'Service Provider Name Icon',
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79: 'PLMN Network Name Icon',
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80: 'Connectivity Parameters for USIM IP connections',
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81: 'Home I-WLAN Specific Identifier List',
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82: 'I-WLAN Equivalent HPLMN Presentation Indication',
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83: 'I-WLAN HPLMN Priority Indication',
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84: 'I-WLAN Last Registered PLMN',
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85: 'EPS Mobility Management Information',
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86: 'Allowed CSG Lists and corresponding indications',
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87: 'Call control on EPS PDN connection by USIM',
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88: 'HPLMN Direct Access',
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89: 'eCall Data',
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90: 'Operator CSG Lists and corresponding indications',
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91: 'Support for SM-over-IP',
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92: 'Support of CSG Display Control',
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93: 'Communication Control for IMS by USIM',
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94: 'Extended Terminal Applications',
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95: 'Support of UICC access to IMS',
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96: 'Non-Access Stratum configuration by USIM',
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97: 'PWS configuration by USIM',
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98: 'RFU',
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99: 'URI support by UICC',
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100: 'Extended EARFCN support',
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101: 'ProSe',
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102: 'USAT Application Pairing',
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103: 'Media Type support',
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104: 'IMS call disconnection cause',
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105: 'URI support for MO SHORT MESSAGE CONTROL',
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106: 'ePDG configuration Information support',
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107: 'ePDG configuration Information configured',
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108: 'ACDC support',
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109: 'MCPTT',
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110: 'ePDG configuration Information for Emergency Service support',
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111: 'ePDG configuration Information for Emergency Service configured',
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112: 'eCall Data over IMS',
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113: 'URI support for SMS-PP DOWNLOAD as defined in 3GPP TS 31.111 [12]',
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114: 'From Preferred',
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115: 'IMS configuration data',
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116: 'TV configuration',
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117: '3GPP PS Data Off',
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118: '3GPP PS Data Off Service List',
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119: 'V2X',
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120: 'XCAP Configuration Data',
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121: 'EARFCN list for MTC/NB-IOT UEs',
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122: '5GS Mobility Management Information',
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123: '5G Security Parameters',
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124: 'Subscription identifier privacy support',
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125: 'SUCI calculation by the USIM',
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126: 'UAC Access Identities support',
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127: 'Expect control plane-based Steering of Roaming information during initial registration in VPLMN',
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128: 'Call control on PDU Session by USIM',
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129: '5GS Operator PLMN List',
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130: 'Support for SUPI of type NSI or GLI or GCI',
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131: '3GPP PS Data Off separate Home and Roaming lists',
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132: 'Support for URSP by USIM',
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133: '5G Security Parameters extended',
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134: 'MuD and MiD configuration data',
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135: 'Support for Trusted non-3GPP access networks by USIM'
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}
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# Mapping between USIM Enbled Service Number and its description
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EF_EST_map = {
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1: 'Fixed Dialling Numbers (FDN)',
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2: 'Barred Dialling Numbers (BDN)',
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3: 'APN Control List (ACL)'
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}
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LOCI_STATUS_map = {
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0: 'updated',
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1: 'not updated',
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2: 'plmn not allowed',
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3: 'locatation area not allowed'
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}
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EF_USIM_ADF_map = {
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'LI': '6F05',
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'ARR': '6F06',
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'IMSI': '6F07',
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'Keys': '6F08',
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'KeysPS': '6F09',
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'DCK': '6F2C',
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'HPPLMN': '6F31',
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'CNL': '6F32',
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'ACMmax': '6F37',
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'UST': '6F38',
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'ACM': '6F39',
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'FDN': '6F3B',
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'SMS': '6F3C',
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'GID1': '6F3E',
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'GID2': '6F3F',
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'MSISDN': '6F40',
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'PUCT': '6F41',
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'SMSP': '6F42',
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'SMSS': '6F42',
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'CBMI': '6F45',
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'SPN': '6F46',
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'SMSR': '6F47',
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'CBMID': '6F48',
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'SDN': '6F49',
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'EXT2': '6F4B',
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'EXT3': '6F4C',
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'BDN': '6F4D',
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'EXT5': '6F4E',
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'CCP2': '6F4F',
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'CBMIR': '6F50',
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'EXT4': '6F55',
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'EST': '6F56',
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'ACL': '6F57',
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'CMI': '6F58',
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'START-HFN': '6F5B',
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'THRESHOLD': '6F5C',
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'PLMNwAcT': '6F60',
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'OPLMNwAcT': '6F61',
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'HPLMNwAcT': '6F62',
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'PSLOCI': '6F73',
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'ACC': '6F78',
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'FPLMN': '6F7B',
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'LOCI': '6F7E',
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'ICI': '6F80',
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'OCI': '6F81',
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'ICT': '6F82',
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'OCT': '6F83',
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'AD': '6FAD',
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'VGCS': '6FB1',
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'VGCSS': '6FB2',
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'VBS': '6FB3',
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'VBSS': '6FB4',
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'eMLPP': '6FB5',
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'AAeM': '6FB6',
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'ECC': '6FB7',
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'Hiddenkey': '6FC3',
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'NETPAR': '6FC4',
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'PNN': '6FC5',
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'OPL': '6FC6',
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'MBDN': '6FC7',
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'EXT6': '6FC8',
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'MBI': '6FC9',
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'MWIS': '6FCA',
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'CFIS': '6FCB',
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'EXT7': '6FCC',
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'SPDI': '6FCD',
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'MMSN': '6FCE',
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'EXT8': '6FCF',
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'MMSICP': '6FD0',
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'MMSUP': '6FD1',
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'MMSUCP': '6FD2',
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'NIA': '6FD3',
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'VGCSCA': '6FD4',
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'VBSCA': '6FD5',
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'GBAP': '6FD6',
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'MSK': '6FD7',
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'MUK': '6FD8',
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'EHPLMN': '6FD9',
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'GBANL': '6FDA',
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'EHPLMNPI': '6FDB',
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'LRPLMNSI': '6FDC',
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'NAFKCA': '6FDD',
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'SPNI': '6FDE',
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'PNNI': '6FDF',
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'NCP-IP': '6FE2',
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'EPSLOCI': '6FE3',
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'EPSNSC': '6FE4',
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'UFC': '6FE6',
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'UICCIARI': '6FE7',
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'NASCONFIG': '6FE8',
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'PWC': '6FEC',
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'FDNURI': '6FED',
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'BDNURI': '6FEE',
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'SDNURI': '6FEF',
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'IWL': '6FF0',
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'IPS': '6FF1',
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'IPD': '6FF2',
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'ePDGId': '6FF3',
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'ePDGSelection': '6FF4',
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'ePDGIdEm': '6FF5',
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'ePDGSelectionEm': '6FF6',
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}
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######################################################################
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# ADF.USIM
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######################################################################
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# 3GPP TS 31.102 Section 4.4.11.4 (EF_5GS3GPPNSC)
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class EF_5GS3GPPNSC(LinFixedEF):
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class NgKSI(BER_TLV_IE, tag=0x80):
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_construct = Int8ub
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class K_AMF(BER_TLV_IE, tag=0x81):
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_construct = HexAdapter(Bytes(32))
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class UplinkNASCount(BER_TLV_IE, tag=0x82):
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_construct = Int32ub
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class DownlinkNASCount(BER_TLV_IE, tag=0x83):
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_construct = Int32ub
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class IdsOfSelectedNasAlgos(BER_TLV_IE, tag=0x84):
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# 3GPP TS 24.501 Section 9.11.3.34
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_construct = BitStruct('ciphering'/Nibble, 'integrity'/Nibble)
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class IdsOfSelectedEpsAlgos(BER_TLV_IE, tag=0x85):
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# 3GPP TS 24.301 Section 9.9.3.23
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_construct = BitStruct('ciphering'/Nibble, 'integrity'/Nibble)
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class FiveGSNasSecurityContext(BER_TLV_IE, tag=0xA0,
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nested=[NgKSI, K_AMF, UplinkNASCount,
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DownlinkNASCount, IdsOfSelectedNasAlgos,
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IdsOfSelectedEpsAlgos]):
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pass
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def __init__(self, fid="4f03", sfid=0x03, name='EF.5GS3GPPNSC', rec_len={57, None},
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desc='5GS 3GPP Access NAS Security Context', **kwargs):
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super().__init__(fid, sfid=sfid, name=name, desc=desc, rec_len=rec_len, **kwargs)
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self._tlv = EF_5GS3GPPNSC.FiveGSNasSecurityContext
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# 3GPP TS 31.102 Section 4.4.11.6
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class EF_5GAUTHKEYS(TransparentEF):
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class K_AUSF(BER_TLV_IE, tag=0x80):
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_construct = HexAdapter(GreedyBytes)
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class K_SEAF(BER_TLV_IE, tag=0x81):
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_construct = HexAdapter(GreedyBytes)
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class FiveGAuthKeys(TLV_IE_Collection, nested=[K_AUSF, K_SEAF]):
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pass
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def __init__(self, fid='4f05', sfid=0x05, name='EF.5GAUTHKEYS', size={68, None},
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desc='5G authentication keys', **kwargs):
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super().__init__(fid, sfid=sfid, name=name, desc=desc, size=size, **kwargs)
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self._tlv = EF_5GAUTHKEYS.FiveGAuthKeys
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# 3GPP TS 31.102 Section 4.4.11.8
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class ProtSchemeIdList(BER_TLV_IE, tag=0xa0):
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# FIXME: 3GPP TS 24.501 Protection Scheme Identifier
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# repeated sequence of (id, index) tuples
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_construct = GreedyRange(
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Struct('id'/Enum(Byte, null=0, A=1, B=2), 'index'/Int8ub))
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class HomeNetPubKeyId(BER_TLV_IE, tag=0x80):
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# 3GPP TS 24.501 / 3GPP TS 23.003
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_construct = Int8ub
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class HomeNetPubKey(BER_TLV_IE, tag=0x81):
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# FIXME: RFC 5480
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_construct = HexAdapter(GreedyBytes)
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class HomeNetPubKeyList(BER_TLV_IE, tag=0xa1,
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nested=[HomeNetPubKeyId, HomeNetPubKey]):
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pass
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# 3GPP TS 31.102 Section 4.4.11.6
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class SUCI_CalcInfo(TLV_IE_Collection, nested=[ProtSchemeIdList, HomeNetPubKeyList]):
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pass
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# TS 31.102 4.4.11.8
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class EF_SUCI_Calc_Info(TransparentEF):
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def __init__(self, fid="4f07", sfid=0x07, name='EF.SUCI_Calc_Info', size={2, None},
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desc='SUCI Calc Info', **kwargs):
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super().__init__(fid, sfid=sfid, name=name, desc=desc, size=size, **kwargs)
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def _encode_prot_scheme_id_list(self, in_list):
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out_bytes = [0xa0]
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out_bytes.append(len(in_list)*2) # two byte per entry
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# position in list determines priority; high-priority items (low index) come first
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for scheme in sorted(in_list, key=lambda item: item["priority"]):
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out_bytes.append(scheme["identifier"])
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out_bytes.append(scheme["key_index"])
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return out_bytes
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def _encode_hnet_pubkey_list(self, hnet_pubkey_list):
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out_bytes = [0xa1] # pubkey list tag
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out_bytes.append(0x00) # length filled later
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length = 0
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for key in hnet_pubkey_list:
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out_bytes.append(0x80) # identifier tag
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out_bytes.append(0x01) # TODO size, fixed to 1 byte
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out_bytes.append(key["hnet_pubkey_identifier"])
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out_bytes.append(0x81) # key tag
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out_bytes.append(len(key["hnet_pubkey"])//2)
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length += 5+len(key["hnet_pubkey"])//2
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pubkey_bytes = h2b(key["hnet_pubkey"])
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out_bytes += pubkey_bytes
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# fill length
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out_bytes[1] = length
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return out_bytes
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def _encode_hex(self, in_json):
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out_bytes = self._encode_prot_scheme_id_list(
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in_json['prot_scheme_id_list'])
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out_bytes += self._encode_hnet_pubkey_list(in_json['hnet_pubkey_list'])
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return "".join(["%02X" % i for i in out_bytes])
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def _decode_prot_scheme_id_list(self, in_bytes):
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prot_scheme_id_list = []
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pos = 0
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# two bytes per entry
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while pos < len(in_bytes):
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prot_scheme = {
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'priority': pos//2, # first in list: high priority
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'identifier': in_bytes[pos],
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'key_index': in_bytes[pos+1]
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}
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pos += 2
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prot_scheme_id_list.append(prot_scheme)
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return prot_scheme_id_list
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def _decode_hnet_pubkey_list(self, in_bytes):
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hnet_pubkey_list = []
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pos = 0
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if in_bytes[pos] != 0xa1:
|
|
print("missing Home Network Public Key List data object")
|
|
return {}
|
|
pos += 1
|
|
hnet_pubkey_list_len = in_bytes[pos]
|
|
pos += 1
|
|
|
|
while pos < hnet_pubkey_list_len:
|
|
if in_bytes[pos] != 0x80:
|
|
print("missing Home Network Public Key Identifier tag")
|
|
return {}
|
|
pos += 1
|
|
# TODO might be more than 1 byte?
|
|
hnet_pubkey_id_len = in_bytes[pos]
|
|
pos += 1
|
|
hnet_pubkey_id = in_bytes[pos:pos+hnet_pubkey_id_len][0]
|
|
pos += hnet_pubkey_id_len
|
|
if in_bytes[pos] != 0x81:
|
|
print("missing Home Network Public Key tag")
|
|
return {}
|
|
pos += 1
|
|
hnet_pubkey_len = in_bytes[pos]
|
|
pos += 1
|
|
hnet_pubkey = in_bytes[pos:pos+hnet_pubkey_len]
|
|
pos += hnet_pubkey_len
|
|
|
|
hnet_pubkey_list.append({
|
|
'hnet_pubkey_identifier': hnet_pubkey_id,
|
|
'hnet_pubkey': b2h(hnet_pubkey)
|
|
})
|
|
|
|
return hnet_pubkey_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
|
|
hnet_pubkey_list = self._decode_hnet_pubkey_list(in_bytes[pos:])
|
|
|
|
return {
|
|
'prot_scheme_id_list': prot_scheme_id_list,
|
|
'hnet_pubkey_list': hnet_pubkey_list
|
|
}
|
|
|
|
def _encode_bin(self, in_json):
|
|
return h2b(self._encode_hex(in_json))
|
|
|
|
|
|
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):
|
|
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):
|
|
if in_json == 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):
|
|
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
|
|
|
|
# TS 31.102 Section 4.2.8
|
|
class EF_UServiceTable(TransparentEF):
|
|
def __init__(self, fid, sfid, name, desc, size, table, **kwargs):
|
|
super().__init__(fid=fid, sfid=sfid, name=name, desc=desc, size=size, **kwargs)
|
|
self.table = table
|
|
|
|
@staticmethod
|
|
def _bit_byte_offset_for_service(service: int) -> Tuple[int, int]:
|
|
i = service - 1
|
|
byte_offset = i//8
|
|
bit_offset = (i % 8)
|
|
return (byte_offset, bit_offset)
|
|
|
|
def _decode_bin(self, in_bin):
|
|
ret = {}
|
|
for i in range(0, len(in_bin)):
|
|
byte = in_bin[i]
|
|
for bitno in range(0, 8):
|
|
service_nr = i * 8 + bitno + 1
|
|
ret[service_nr] = {
|
|
'activated': True if byte & (1 << bitno) else False
|
|
}
|
|
if service_nr in self.table:
|
|
ret[service_nr]['description'] = self.table[service_nr]
|
|
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) = EF_UServiceTable._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) = EF_UServiceTable._bit_byte_offset_for_service(
|
|
service_nr)
|
|
if in_json[srv]['activated'] == True:
|
|
bit = 1
|
|
else:
|
|
bit = 0
|
|
out[byte_offset] |= (bit) << bit_offset
|
|
return out
|
|
|
|
def get_active_services(self, cmd):
|
|
# obtain list of currently active services
|
|
(service_data, sw) = cmd.lchan.read_binary_dec()
|
|
active_services = []
|
|
for s in service_data.keys():
|
|
if service_data[s]['activated']:
|
|
active_services.append(s)
|
|
return active_services
|
|
|
|
def ust_service_check(self, cmd):
|
|
"""Check consistency between services of this file and files present/activated"""
|
|
num_problems = 0
|
|
# obtain list of currently active services
|
|
active_services = self.get_active_services(cmd)
|
|
# iterate over all the service-constraints we know of
|
|
files_by_service = self.parent.files_by_service
|
|
try:
|
|
for s in sorted(files_by_service.keys()):
|
|
active_str = 'active' if s in active_services else 'inactive'
|
|
cmd.poutput("Checking service No %u (%s)" % (s, active_str))
|
|
for f in files_by_service[s]:
|
|
should_exist = f.should_exist_for_services(active_services)
|
|
try:
|
|
cmd.lchan.select_file(f)
|
|
sw = None
|
|
exists = True
|
|
except SwMatchError as e:
|
|
sw = str(e)
|
|
exists = False
|
|
if exists != should_exist:
|
|
num_problems += 1
|
|
if exists:
|
|
cmd.perror(" ERROR: File %s is selectable but should not!" % f)
|
|
else:
|
|
cmd.perror(" ERROR: File %s is not selectable (%s) but should!" % (f, sw))
|
|
finally:
|
|
# re-select the EF.UST
|
|
cmd.lchan.select_file(self)
|
|
return num_problems
|
|
|
|
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 __init__(self):
|
|
super().__init__()
|
|
|
|
def do_ust_service_activate(self, arg):
|
|
"""Activate a service within EF.UST"""
|
|
self._cmd.card.update_ust(int(arg), 1)
|
|
|
|
def do_ust_service_deactivate(self, arg):
|
|
"""Deactivate a service within EF.UST"""
|
|
self._cmd.card.update_ust(int(arg), 0)
|
|
|
|
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):
|
|
cc_construct = Rpad(BcdAdapter(Rpad(Bytes(3))), pattern='f')
|
|
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 = GsmStringAdapter(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):
|
|
# 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):
|
|
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['category'])
|
|
alpha_id = EF_ECC.alpha_construct.build(in_json['alpha_id'])
|
|
# FIXME: alpha_id needs padding up to 'record_length - 4'
|
|
return code + alpha_id + svc_category
|
|
|
|
|
|
# TS 31.102 Section 4.2.17
|
|
class EF_LOCI(TransparentEF):
|
|
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'/BcdAdapter(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):
|
|
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'/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'/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'/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'/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 __init__(self):
|
|
super().__init__()
|
|
|
|
def do_est_service_activate(self, arg):
|
|
"""Activate a service within EF.UST"""
|
|
self._cmd.card.update_est(int(arg), 1)
|
|
|
|
def do_est_service_deactivate(self, arg):
|
|
"""Deactivate a service within EF.UST"""
|
|
self._cmd.card.update_est(int(arg), 0)
|
|
|
|
# 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'/GreedyBytes)
|
|
|
|
# TS 31.102 Section 4.2.51
|
|
class EF_START_HFN(TransparentEF):
|
|
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):
|
|
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 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'/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):
|
|
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', size={18, 18},
|
|
desc='EPS 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('guti'/Bytes(12), 'last_visited_registered_tai'/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):
|
|
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
|
|
class EF_ePDGId(TransparentEF):
|
|
class ePDGId(BER_TLV_IE, tag=0x80, nested=[]):
|
|
_construct = Struct('type_of_ePDG_address'/Enum(Byte, FQDN=0, IPv4=1, IPv6=2),
|
|
'ePDG_address'/Switch(this.type_of_address,
|
|
{'FQDN': GreedyString("utf8"),
|
|
'IPv4': HexAdapter(GreedyBytes),
|
|
'IPv6': HexAdapter(GreedyBytes)}))
|
|
|
|
def __init__(self, fid='6ff3', sfid=None, name='EF.eDPDGId', desc='Home ePDG Identifier', **kwargs):
|
|
super().__init__(fid, sfid=sfid, name=name, desc=desc, **kwargs)
|
|
self._tlv = EF_ePDGId.ePDGId
|
|
|
|
# TS 31.102 Section 4.2.106
|
|
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'/Bit)
|
|
|
|
######################################################################
|
|
# DF.5GS
|
|
######################################################################
|
|
|
|
# TS 31.102 Section 4.4.11.2
|
|
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'/Bytes(13), 'last_visited_registered_tai_in_5gs'/Bytes(6),
|
|
'5gs_update_status'/upd_status_constr)
|
|
|
|
# TS 31.102 Section 4.4.11.7
|
|
class EF_UAC_AIC(TransparentEF):
|
|
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
|
|
class EF_OPL5G(LinFixedEF):
|
|
def __init__(self, fid='6f08', 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'/BcdAdapter(Bytes(3)), 'tac_min'/Bytes(3), 'tac_max'/Bytes(3))
|
|
self._construct = Struct('tai'/Tai, 'pnn_record_id'/Int8ub)
|
|
|
|
# TS 31.102 Section 4.4.11.10
|
|
class EF_SUPI_NAI(TransparentEF):
|
|
class NetworkSpecificIdentifier(TLV_IE, tag=0x80):
|
|
# RFC 7542 encoded as UTF-8 string
|
|
_construct = GreedyString("utf8")
|
|
|
|
class GlobalLineIdentifier(TLV_IE, tag=0x81):
|
|
# TS 23.003 clause 28.16.2
|
|
pass
|
|
|
|
class GlobalCableIdentifier(TLV_IE, tag=0x82):
|
|
# TS 23.003 clause 28.15.2
|
|
pass
|
|
|
|
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
|
|
|
|
|
|
class EF_TN3GPPSNN(TransparentEF):
|
|
class ServingNetworkName(BER_TLV_IE, tag=0x80):
|
|
_construct = GreedyString("utf8")
|
|
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 4.4.5
|
|
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 = [
|
|
LinFixedEF('4f81', 0x01, 'EF.ACSGL', 'Allowed CSG Lists', service=86),
|
|
LinFixedEF('4f82', 0x02, 'EF.CSGTL', 'CSG Types', service=86),
|
|
LinFixedEF('4f83', 0x03, 'EF.HNBN', 'Home NodeB Name', service=86),
|
|
LinFixedEF('4f84', 0x04, 'EF.OCSGL', 'Operator CSG Lists', service=90),
|
|
LinFixedEF('4f85', 0x05, 'EF.OCSGT', 'Operator CSG Type', service=90),
|
|
LinFixedEF('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',
|
|
'5GS non-3GPP location information', service=122),
|
|
EF_5GS3GPPNSC(service=122),
|
|
EF_5GS3GPPNSC('4f04', 0x04, 'EF.5GSN3GPPNSC',
|
|
'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),
|
|
TransparentEF('4F0A', 0x0a, 'EF.Routing_Indicator',
|
|
'Routing Indicator', size={4, 4}, service=124),
|
|
TransparentEF('4F0B', 0x0b, 'EF.URSP',
|
|
'UE Route Selector Policies per PLMN', service=132),
|
|
EF_TN3GPPSNN(service=133),
|
|
]
|
|
self.add_files(files)
|
|
|
|
|
|
class ADF_USIM(CardADF):
|
|
def __init__(self, aid='a0000000871002', name='ADF.USIM', fid=None, sfid=None,
|
|
desc='USIM Application'):
|
|
super().__init__(aid=aid, 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_IMSI(sfid=0x07),
|
|
EF_Keys(),
|
|
EF_Keys('6f09', 0x09, 'EF.KeysPS',
|
|
desc='Ciphering and Integrity Keys for PS domain'),
|
|
EF_xPLMNwAcT('6f60', 0x0a, 'EF.PLMNwAcT',
|
|
'User controlled PLMN Selector with Access Technology', service=20),
|
|
EF_HPPLMN(),
|
|
EF_ACMmax(service=13),
|
|
EF_UST(),
|
|
CyclicEF('6f39', None, 'EF.ACM',
|
|
'Accumulated call meter', rec_len={3, 3}, service=13),
|
|
TransparentEF('6f3e', None, 'EF.GID1', 'Group Identifier Level 1', service=17),
|
|
TransparentEF('6f3f', None, 'EF.GID2', 'Group Identifier Level 2', service=18),
|
|
EF_SPN(service=19),
|
|
TransparentEF('6f41', None, 'EF.PUCT',
|
|
'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',
|
|
'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', 'Fixed Dialling Numbers', service=[2, 89]),
|
|
EF_SMS('6f3c', None, service=10),
|
|
EF_MSISDN(service=21),
|
|
EF_SMSP(service=12),
|
|
EF_SMSS(service=10),
|
|
EF_ADN('6f49', None, 'EF.SDN', 'Service Dialling Numbers', service=[4, 89]),
|
|
EF_EXT('6f4b', None, 'EF.EXT2', 'Extension2 (FDN)', service=3),
|
|
EF_EXT('6f4c', None, 'EF.EXT3', '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', 'Outgoing Call Timer', service=8),
|
|
EF_EXT('6f4e', None, 'EF.EXT5', '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', 'Barred Dialling Numbers', service=6),
|
|
EF_EXT('6f55', None, 'EF.EXT4', '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', 'User controlled PLMN Selector with Access Technology', service=42),
|
|
EF_xPLMNwAcT('6f62', 0x13, 'EF.HPLMNwAcT', 'HPLMN Selector with Access Technology', service=43),
|
|
EF_ARR('6f06', 0x17),
|
|
TransparentEF('6fc4', None, 'EF.NETPAR', 'Network Parameters'),
|
|
EF_PNN('6fc5', 0x19, service=45),
|
|
EF_OPL(service=46),
|
|
EF_ADN('6fc7', None, 'EF.MBDN', 'Mailbox Dialling Numbers', service=47),
|
|
EF_EXT('6fc8', None, 'EF.EXT6', 'Extension6 (MBDN)'),
|
|
EF_MBI(service=47),
|
|
EF_MWIS(service=48),
|
|
EF_ADN('6fcb', None, 'EF.CFIS', 'Call Forwarding Indication Status', service=49),
|
|
EF_EXT('6fcc', None, 'EF.EXT7', 'Extension7 (CFIS)'),
|
|
TransparentEF('6fcd', None, 'EF.SPDI', 'Service Provider Display Information', service=51),
|
|
EF_MMSN(service=52),
|
|
EF_EXT('6fcf', None, 'EF.EXT8', 'Extension8 (MMSN)', service=53),
|
|
EF_MMSICP(service=52),
|
|
EF_MMSUP(service=52),
|
|
EF_MMSUCP(service=(52, 55)),
|
|
EF_NIA(service=56),
|
|
EF_VGCS(service=57),
|
|
EF_VGCSS(service=57),
|
|
EF_VGCS('6fb3', None, 'EF.VBS', 'Voice Broadcast Service', service=58),
|
|
EF_VGCSS('6fb4', None, 'EF.VBSS', 'Voice Broadcast Service Status', service=58),
|
|
EF_VGCSCA(service=64),
|
|
EF_VGCSCA('6fd5', None, 'EF.VBCSCA', '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', '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', 'Service Provider Name Icon', service=78),
|
|
LinFixedEF('6fdf', None, 'EF.PNNI', 'PLMN Network Name Icon', service=79),
|
|
EF_NCP_IP(service=80),
|
|
EF_EPSLOCI('6fe3', 0x1e, 'EF.EPSLOCI', 'EPS location information', service=85),
|
|
EF_EPSNSC(service=85),
|
|
TransparentEF('6fe6', None, 'EF.UFC', 'USAT Facility Control', size={1, 16}),
|
|
TransparentEF('6fe8', None, 'EF.NASCONFIG', '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', 'Fixed Dialling Numbers URI', service=(2, 99)),
|
|
LinFixedEF('6fee', None, 'EF.BDNURI', 'Barred Dialling Numbers URI', service=(6, 99)),
|
|
LinFixedEF('6fef', None, 'EF.SDNURI', 'Service Dialling Numbers URI', service=(4, 99)),
|
|
# EF_IWL (IMEI(SV) White List)
|
|
EF_IPS(),
|
|
EF_ePDGId(service=(106, 107)),
|
|
# FIXME: from EF_ePDGSelection onwards
|
|
EF_FromPreferred(service=114),
|
|
# FIXME: DF_SoLSA service=23
|
|
DF_PHONEBOOK(),
|
|
# FIXME: DF_GSM_ACCESS service=27
|
|
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]),
|
|
]
|
|
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):
|
|
def __init__(self):
|
|
super().__init__()
|
|
|
|
authenticate_parser = argparse.ArgumentParser()
|
|
authenticate_parser.add_argument('rand', help='Random challenge')
|
|
authenticate_parser.add_argument('autn', 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.card._scc.authenticate(opts.rand, opts.autn)
|
|
self._cmd.poutput_json(data)
|
|
|
|
term_prof_parser = argparse.ArgumentParser()
|
|
term_prof_parser.add_argument('PROFILE', help='Hexstring of encoded terminal profile')
|
|
|
|
@cmd2.with_argparser(term_prof_parser)
|
|
def do_terminal_profile(self, arg):
|
|
"""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.card._scc.terminal_profile(arg)
|
|
self._cmd.poutput('SW: %s, data: %s' % (sw, data))
|
|
|
|
envelope_parser = argparse.ArgumentParser()
|
|
envelope_parser.add_argument('PAYLOAD', help='Hexstring of encoded payload to ENVELOPE')
|
|
|
|
@cmd2.with_argparser(envelope_parser)
|
|
def do_envelope(self, arg):
|
|
"""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.card._scc.envelope(arg)
|
|
self._cmd.poutput('SW: %s, data: %s' % (sw, data))
|
|
|
|
envelope_sms_parser = argparse.ArgumentParser()
|
|
envelope_sms_parser.add_argument('TPDU', help='Hexstring of encoded SMS TPDU')
|
|
|
|
@cmd2.with_argparser(envelope_sms_parser)
|
|
def do_envelope_sms(self, arg):
|
|
"""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 netwokr."""
|
|
tpdu_ie = SMS_TPDU()
|
|
tpdu_ie.from_bytes(h2b(arg))
|
|
dev_ids = DeviceIdentities(
|
|
decoded={'source_dev_id': 'network', 'dest_dev_id': 'uicc'})
|
|
sms_dl = SMSPPDownload(children=[dev_ids, tpdu_ie])
|
|
(data, sw) = self._cmd.card._scc.envelope(b2h(sms_dl.to_tlv()))
|
|
self._cmd.poutput('SW: %s, data: %s' % (sw, data))
|
|
|
|
|
|
# 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)
|