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pysim/pySim/ts_102_221.py
Philipp Maier c98ef8a79d ts_102_221.py: fix fixup_fcp_proprietary_tlv_map() 
The function fixup_fcp_proprietary_tlv_map() addes propritary TLV
tags in the range of d0 to ff to the TLV map. However, the spec defines
this range as b7 and b8 of the first tag byte set to 1. This results
in a range from c0 to ff. See also ETSI TS 102 221, section 11.1.1.4.6.0

Change-Id: I8359527c9ff303b257b181b87dc440f27735ece9
Related: OS#4963
2021-04-07 16:21:52 +00:00

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# coding=utf-8
"""Utilities / Functions related to ETSI TS 102 221, the core UICC spec.
(C) 2021 by Harald Welte <laforge@osmocom.org>
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 <http://www.gnu.org/licenses/>.
"""
from pytlv.TLV import *
from struct import pack, unpack
from pySim.utils import *
from pySim.filesystem import *
FCP_TLV_MAP = {
'82': 'file_descriptor',
'83': 'file_identifier',
'84': 'df_name',
'A5': 'proprietary_info',
'8A': 'life_cycle_status_int',
'8B': 'security_attrib_ref_expanded',
'8C': 'security_attrib_compact',
'AB': 'security_attrib_espanded',
'C6': 'pin_status_template_do',
'80': 'file_size',
'81': 'total_file_size',
'88': 'short_file_id',
}
# ETSI TS 102 221 11.1.1.4.6
FCP_Proprietary_TLV_MAP = {
'80': 'uicc_characteristics',
'81': 'application_power_consumption',
'82': 'minimum_app_clock_freq',
'83': 'available_memory',
'84': 'file_details',
'85': 'reserved_file_size',
'86': 'maximum_file_size',
'87': 'suported_system_commands',
'88': 'specific_uicc_env_cond',
'89': 'p2p_cat_secured_apdu',
# Additional private TLV objects (bits b7 and b8 of the first byte of the tag set to '1')
}
# ETSI TS 102 221 11.1.1.4.3
def interpret_file_descriptor(in_hex):
in_bin = h2b(in_hex)
out = {}
ft_dict = {
0: 'working_ef',
1: 'internal_ef',
7: 'df'
}
fs_dict = {
0: 'no_info_given',
1: 'transparent',
2: 'linear_fixed',
6: 'cyclic',
}
fdb = in_bin[0]
ftype = (fdb >> 3) & 7
fstruct = fdb & 7
out['shareable'] = True if fdb & 0x40 else False
out['file_type'] = ft_dict[ftype] if ftype in ft_dict else ftype
out['structure'] = fs_dict[fstruct] if fstruct in fs_dict else fstruct
if len(in_bin) >= 5:
out['record_len'] = int.from_bytes(in_bin[2:4], 'big')
out['num_of_rec'] = int.from_bytes(in_bin[4:5], 'big')
return out
# ETSI TS 102 221 11.1.1.4.9
def interpret_life_cycle_sts_int(in_hex):
lcsi = int(in_hex, 16)
if lcsi == 0x00:
return 'no_information'
elif lcsi == 0x01:
return 'creation'
elif lcsi == 0x03:
return 'initialization'
elif lcsi & 0x05 == 0x05:
return 'operational_activated'
elif lcsi & 0x05 == 0x04:
return 'operational_deactivated'
elif lcsi & 0xc0 == 0xc0:
return 'termination'
else:
return in_hex
# ETSI TS 102 221 11.1.1.4.10
FCP_Pin_Status_TLV_MAP = {
'90': 'ps_do',
'95': 'usage_qualifier',
'83': 'key_reference',
}
def interpret_ps_templ_do(in_hex):
# cannot use the 'TLV' parser due to repeating tags
#psdo_tlv = TLV(FCP_Pin_Status_TLV_MAP)
#return psdo_tlv.parse(in_hex)
return in_hex
# 'interpreter' functions for each tag
FCP_interpreter_map = {
'80': lambda x: int(x, 16),
'82': interpret_file_descriptor,
'8A': interpret_life_cycle_sts_int,
'C6': interpret_ps_templ_do,
}
FCP_prorietary_interpreter_map = {
'83': lambda x: int(x, 16),
}
# pytlv unfortunately doesn't have a setting using which we can make it
# accept unknown tags. It also doesn't raise a specific exception type but
# just the generic ValueError, so we cannot ignore those either. Instead,
# we insert a dict entry for every possible proprietary tag permitted
def fixup_fcp_proprietary_tlv_map(tlv_map):
if 'D0' in tlv_map:
return
for i in range(0xc0, 0xff):
i_hex = i2h([i]).upper()
tlv_map[i_hex] = 'proprietary_' + i_hex
def tlv_key_replace(inmap, indata):
def newkey(inmap, key):
if key in inmap:
return inmap[key]
else:
return key
return {newkey(inmap, d[0]): d[1] for d in indata.items()}
def tlv_val_interpret(inmap, indata):
def newval(inmap, key, val):
if key in inmap:
return inmap[key](val)
else:
return val
return {d[0]: newval(inmap, d[0], d[1]) for d in indata.items()}
# ETSI TS 102 221 Section 11.1.1.3
def decode_select_response(resp_hex):
fixup_fcp_proprietary_tlv_map(FCP_Proprietary_TLV_MAP)
resp_hex = resp_hex.upper()
# outer layer
fcp_base_tlv = TLV(['62'])
fcp_base = fcp_base_tlv.parse(resp_hex)
# actual FCP
fcp_tlv = TLV(FCP_TLV_MAP)
fcp = fcp_tlv.parse(fcp_base['62'])
# further decode the proprietary information
if fcp['A5']:
prop_tlv = TLV(FCP_Proprietary_TLV_MAP)
prop = prop_tlv.parse(fcp['A5'])
fcp['A5'] = tlv_val_interpret(FCP_prorietary_interpreter_map, prop)
fcp['A5'] = tlv_key_replace(FCP_Proprietary_TLV_MAP, fcp['A5'])
# finally make sure we get human-readable keys in the output dict
r = tlv_val_interpret(FCP_interpreter_map, fcp)
return tlv_key_replace(FCP_TLV_MAP, r)
# TS 102 221 Section 13.1
class EF_DIR(LinFixedEF):
def __init__(self, fid='2f00', sfid=0x1e, name='EF.DIR', desc='Application Directory'):
super().__init__(fid, sfid=sfid, name=name, desc=desc, rec_len={5,54})
def _decode_record_hex(self, raw_hex_data):
raw_hex_data = raw_hex_data.upper()
atempl_base_tlv = TLV(['61'])
atempl_base = atempl_base_tlv.parse(raw_hex_data)
atempl_TLV_MAP = {'4F': 'aid_value', 50:'label'}
atempl_tlv = TLV(atempl_TLV_MAP)
atempl = atempl_tlv.parse(atempl_base['61'])
# FIXME: "All other Dos are according to ISO/IEC 7816-4"
return tlv_key_replace(atempl_TLV_MAP, atempl)
# TS 102 221 Section 13.2
class EF_ICCID(TransparentEF):
def __init__(self, fid='2fe2', sfid=0x02, name='EF.ICCID', desc='ICC Identification'):
super().__init__(fid, sfid=sfid, name=name, desc=desc, size={10,10})
def _decode_hex(self, raw_hex):
return {'iccid': dec_iccid(raw_hex)}
def _encode_hex(self, abstract):
return enc_iccid(abstract['iccid'])
# TS 102 221 Section 13.3
class EF_PL(TransRecEF):
def __init__(self, fid='2f05', sfid=0x05, name='EF.PL', desc='Preferred Languages'):
super().__init__(fid, sfid=sfid, name=name, desc=desc, rec_len=2, size={2,None})
# TS 102 221 Section 13.4
class EF_ARR(LinFixedEF):
def __init__(self, fid='2f06', sfid=0x06, name='EF.ARR', desc='Access Rule Reference'):
super().__init__(fid, sfid=sfid, name=name, desc=desc)
# TS 102 221 Section 13.6
class EF_UMPC(TransparentEF):
def __init__(self, fid='2f08', sfid=0x08, name='EF.UMPC', desc='UICC Maximum Power Consumption'):
super().__init__(fid, sfid=sfid, name=name, desc=desc, size={5,5})
class CardProfileUICC(CardProfile):
def __init__(self):
files = [
EF_DIR(),
EF_ICCID(),
EF_PL(),
EF_ARR(),
# FIXME: DF.CD
EF_UMPC(),
]
sw = {
'Normal': {
'9000': 'Normal ending of the command',
'91xx': 'Normal ending of the command, with extra information from the proactive UICC containing a command for the terminal',
'92xx': 'Normal ending of the command, with extra information concerning an ongoing data transfer session',
},
'Postponed processing': {
'9300': 'SIM Application Toolkit is busy. Command cannot be executed at present, further normal commands are allowed',
},
'Warnings': {
'6200': 'No information given, state of non-volatile memory unchanged',
'6281': 'Part of returned data may be corrupted',
'6282': 'End of file/record reached before reading Le bytes or unsuccessful search',
'6283': 'Selected file invalidated',
'6284': 'Selected file in termination state',
'62f1': 'More data available',
'62f2': 'More data available and proactive command pending',
'62f3': 'Response data available',
'63f1': 'More data expected',
'63f2': 'More data expected and proactive command pending',
'63cx': 'Command successful but after using an internal update retry routine X times',
},
'Execution errors': {
'6400': 'No information given, state of non-volatile memory unchanged',
'6500': 'No information given, state of non-volatile memory changed',
'6581': 'Memory problem',
},
'Checking errors': {
'6700': 'Wrong length',
'67xx': 'The interpretation of this status word is command dependent',
'6b00': 'Wrong parameter(s) P1-P2',
'6d00': 'Instruction code not supported or invalid',
'6e00': 'Class not supported',
'6f00': 'Technical problem, no precise diagnosis',
'6fxx': 'The interpretation of this status word is command dependent',
},
'Functions in CLA not supported': {
'6800': 'No information given',
'6881': 'Logical channel not supported',
'6882': 'Secure messaging not supported',
},
'Command not allowed': {
'6900': 'No information given',
'6981': 'Command incompatible with file structure',
'6982': 'Security status not satisfied',
'6983': 'Authentication/PIN method blocked',
'6984': 'Referenced data invalidated',
'6985': 'Conditions of use not satisfied',
'6986': 'Command not allowed (no EF selected)',
'6989': 'Command not allowed - secure channel - security not satisfied',
},
'Wrong parameters': {
'6a80': 'Incorrect parameters in the data field',
'6a81': 'Function not supported',
'6a82': 'File not found',
'6a83': 'Record not found',
'6a84': 'Not enough memory space',
'6a86': 'Incorrect parameters P1 to P2',
'6a87': 'Lc inconsistent with P1 to P2',
'6a88': 'Referenced data not found',
},
'Application errors': {
'9850': 'INCREASE cannot be performed, max value reached',
'9862': 'Authentication error, application specific',
'9863': 'Security session or association expired',
'9864': 'Minimum UICC suspension time is too long',
},
}
super().__init__('UICC', desc='ETSI TS 102 221', files_in_mf=files, sw=sw)
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