#!/usr/bin/env python3 # Interactive shell for working with SIM / UICC / USIM / ISIM cards # # (C) 2021 by Harald Welte # # This program is free software: you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation, either version 2 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program. If not, see . from typing import List import json import cmd2 from cmd2 import style, fg, bg from cmd2 import CommandSet, with_default_category, with_argparser import argparse import os import sys from pathlib import Path from pySim.ts_51_011 import EF, DF, EF_SST_map, EF_AD_mode_map from pySim.ts_31_102 import EF_UST_map, EF_USIM_ADF_map from pySim.ts_31_103 import EF_IST_map, EF_ISIM_ADF_map from pySim.exceptions import * from pySim.commands import SimCardCommands from pySim.transport import init_reader, ApduTracer, argparse_add_reader_args from pySim.cards import card_detect, Card from pySim.utils import h2b, swap_nibbles, rpad, h2s, JsonEncoder from pySim.utils import dec_st, sanitize_pin_adm, tabulate_str_list, is_hex from pySim.card_handler import card_handler from pySim.filesystem import CardMF, RuntimeState, CardDF, CardADF from pySim.ts_51_011 import CardProfileSIM, DF_TELECOM, DF_GSM from pySim.ts_102_221 import CardProfileUICC from pySim.ts_31_102 import CardApplicationUSIM from pySim.ts_31_103 import CardApplicationISIM from pySim.card_key_provider import CardKeyProviderCsv, card_key_provider_register, card_key_provider_get_field class PysimApp(cmd2.Cmd): CUSTOM_CATEGORY = 'pySim Commands' def __init__(self, card, rs, script = None): basic_commands = [Iso7816Commands(), PySimCommands()] super().__init__(persistent_history_file='~/.pysim_shell_history', allow_cli_args=False, use_ipython=True, auto_load_commands=False, command_sets=basic_commands, startup_script=script) self.intro = style('Welcome to pySim-shell!', fg=fg.red) self.default_category = 'pySim-shell built-in commands' self.card = card iccid, sw = self.card.read_iccid() self.iccid = iccid self.rs = rs self.py_locals = { 'card': self.card, 'rs' : self.rs } self.numeric_path = False self.add_settable(cmd2.Settable('numeric_path', bool, 'Print File IDs instead of names', onchange_cb=self._onchange_numeric_path)) self.conserve_write = True self.add_settable(cmd2.Settable('conserve_write', bool, 'Read and compare before write', onchange_cb=self._onchange_conserve_write)) self.update_prompt() self.json_pretty_print = True self.add_settable(cmd2.Settable('json_pretty_print', bool, 'Pretty-Print JSON output')) self.apdu_trace = False self.add_settable(cmd2.Settable('apdu_trace', bool, 'Trace and display APDUs exchanged with card', onchange_cb=self._onchange_apdu_trace)) def poutput_json(self, data, force_no_pretty = False): """like cmd2.poutput() but for a JSON serializable dict.""" if force_no_pretty or self.json_pretty_print == False: output = json.dumps(data, cls=JsonEncoder) else: output = json.dumps(data, cls=JsonEncoder, indent=4) self.poutput(output) def _onchange_numeric_path(self, param_name, old, new): self.update_prompt() def _onchange_conserve_write(self, param_name, old, new): self.rs.conserve_write = new def _onchange_apdu_trace(self, param_name, old, new): if new == True: self.card._scc._tp.apdu_tracer = self.Cmd2ApduTracer(self) else: self.card._scc._tp.apdu_tracer = None class Cmd2ApduTracer(ApduTracer): def __init__(self, cmd2_app): self.cmd2 = app def trace_response(self, cmd, sw, resp): self.cmd2.poutput("-> %s %s" % (cmd[:10], cmd[10:])) self.cmd2.poutput("<- %s: %s" % (sw, resp)) def update_prompt(self): path_list = self.rs.selected_file.fully_qualified_path(not self.numeric_path) self.prompt = 'pySIM-shell (%s)> ' % ('/'.join(path_list)) @cmd2.with_category(CUSTOM_CATEGORY) def do_intro(self, _): """Display the intro banner""" self.poutput(self.intro) @cmd2.with_category(CUSTOM_CATEGORY) def do_verify_adm(self, arg): """VERIFY the ADM1 PIN""" if arg: # use specified ADM-PIN pin_adm = sanitize_pin_adm(arg) else: # try to find an ADM-PIN if none is specified result = card_key_provider_get_field('ADM1', key='ICCID', value=self.iccid) pin_adm = sanitize_pin_adm(result) if pin_adm: self.poutput("found ADM-PIN '%s' for ICCID '%s'" % (result, self.iccid)) else: self.poutput("cannot find ADM-PIN for ICCID '%s'" % (self.iccid)) return if pin_adm: self.card.verify_adm(h2b(pin_adm)) else: self.poutput("error: cannot authenticate, no adm-pin!") @cmd2.with_category(CUSTOM_CATEGORY) def do_desc(self, opts): """Display human readable file description for the currently selected file""" desc = self.rs.selected_file.desc if desc: self.poutput(desc) else: self.poutput("no description available") @with_default_category('pySim Commands') class PySimCommands(CommandSet): def __init__(self): super().__init__() dir_parser = argparse.ArgumentParser() dir_parser.add_argument('--fids', help='Show file identifiers', action='store_true') dir_parser.add_argument('--names', help='Show file names', action='store_true') dir_parser.add_argument('--apps', help='Show applications', action='store_true') dir_parser.add_argument('--all', help='Show all selectable identifiers and names', action='store_true') @cmd2.with_argparser(dir_parser) def do_dir(self, opts): """Show a listing of files available in currently selected DF or MF""" if opts.all: flags = [] elif opts.fids or opts.names or opts.apps: flags = ['PARENT', 'SELF'] if opts.fids: flags += ['FIDS', 'AIDS'] if opts.names: flags += ['FNAMES', 'ANAMES'] if opts.apps: flags += ['ANAMES', 'AIDS'] else: flags = ['PARENT', 'SELF', 'FNAMES', 'ANAMES'] selectables = list(self._cmd.rs.selected_file.get_selectable_names(flags = flags)) directory_str = tabulate_str_list(selectables, width = 79, hspace = 2, lspace = 1, align_left = True) path_list = self._cmd.rs.selected_file.fully_qualified_path(True) self._cmd.poutput('/'.join(path_list)) path_list = self._cmd.rs.selected_file.fully_qualified_path(False) self._cmd.poutput('/'.join(path_list)) self._cmd.poutput(directory_str) self._cmd.poutput("%d files" % len(selectables)) def walk(self, indent = 0, action = None, context = None): """Recursively walk through the file system, starting at the currently selected DF""" files = self._cmd.rs.selected_file.get_selectables(flags = ['FNAMES', 'ANAMES']) for f in files: if not action: output_str = " " * indent + str(f) + (" " * 250) output_str = output_str[0:25] if isinstance(files[f], CardADF): output_str += " " + str(files[f].aid) else: output_str += " " + str(files[f].fid) output_str += " " + str(files[f].desc) self._cmd.poutput(output_str) if isinstance(files[f], CardDF): skip_df=False try: fcp_dec = self._cmd.rs.select(f, self._cmd) except Exception as e: skip_df=True df = self._cmd.rs.selected_file df_path_list = df.fully_qualified_path(True) df_skip_reason_str = '/'.join(df_path_list) + "/" + str(f) + ", " + str(e) if context: context['DF_SKIP'] += 1 context['DF_SKIP_REASON'].append(df_skip_reason_str) # If the DF was skipped, we never have entered the directory # below, so we must not move up. if skip_df == False: self.walk(indent + 1, action, context) fcp_dec = self._cmd.rs.select("..", self._cmd) elif action: df_before_action = self._cmd.rs.selected_file action(f, context) # When walking through the file system tree the action must not # always restore the currently selected file to the file that # was selected before executing the action() callback. if df_before_action != self._cmd.rs.selected_file: raise RuntimeError("inconsistent walk, %s is currently selected but expecting %s to be selected" % (str(self._cmd.rs.selected_file), str(df_before_action))) def do_tree(self, opts): """Display a filesystem-tree with all selectable files""" self.walk() def export(self, filename, context): """ Select and export a single file """ context['COUNT'] += 1 df = self._cmd.rs.selected_file if not isinstance(df, CardDF): raise RuntimeError("currently selected file %s is not a DF or ADF" % str(df)) df_path_list = df.fully_qualified_path(True) df_path_list_fid = df.fully_qualified_path(False) self._cmd.poutput("#" * 80) file_str = '/'.join(df_path_list) + "/" + str(filename) + " " * 80 self._cmd.poutput("# " + file_str[0:77] + "#") self._cmd.poutput("#" * 80) self._cmd.poutput("# directory: %s (%s)" % ('/'.join(df_path_list), '/'.join(df_path_list_fid))) try: fcp_dec = self._cmd.rs.select(filename, self._cmd) self._cmd.poutput("# file: %s (%s)" % (self._cmd.rs.selected_file.name, self._cmd.rs.selected_file.fid)) fd = fcp_dec['file_descriptor'] structure = fd['structure'] self._cmd.poutput("# structure: %s" % str(structure)) for f in df_path_list: self._cmd.poutput("select " + str(f)) self._cmd.poutput("select " + self._cmd.rs.selected_file.name) if structure == 'transparent': result = self._cmd.rs.read_binary() self._cmd.poutput("update_binary " + str(result[0])) if structure == 'cyclic' or structure == 'linear_fixed': num_of_rec = fd['num_of_rec'] for r in range(1, num_of_rec + 1): result = self._cmd.rs.read_record(r) self._cmd.poutput("update_record %d %s" % (r, str(result[0]))) except Exception as e: bad_file_str = '/'.join(df_path_list) + "/" + str(filename) + ", " + str(e) self._cmd.poutput("# bad file: %s" % bad_file_str) context['ERR'] += 1 context['BAD'].append(bad_file_str) # When reading the file is done, make sure the parent file is # selected again. This will be the usual case, however we need # to check before since we must not select the same DF twice if df != self._cmd.rs.selected_file: self._cmd.rs.select(df.fid or df.aid, self._cmd) self._cmd.poutput("#") export_parser = argparse.ArgumentParser() export_parser.add_argument('--filename', type=str, default=None, help='only export specific file') @cmd2.with_argparser(export_parser) def do_export(self, opts): """Export files to script that can be imported back later""" context = {'ERR':0, 'COUNT':0, 'BAD':[], 'DF_SKIP':0, 'DF_SKIP_REASON':[]} if opts.filename: self.export(opts.filename, context) else: self.walk(0, self.export, context) self._cmd.poutput("# total files visited: %u" % context['COUNT']) self._cmd.poutput("# bad files: %u" % context['ERR']) for b in context['BAD']: self._cmd.poutput("# " + b) self._cmd.poutput("# skipped dedicated files(s): %u" % context['DF_SKIP']) for b in context['DF_SKIP_REASON']: self._cmd.poutput("# " + b) if context['ERR'] and context['DF_SKIP']: raise RuntimeError("unable to export %i elementary file(s) and %i dedicated file(s)" % (context['ERR'], context['DF_SKIP'])) elif context['ERR']: raise RuntimeError("unable to export %i elementary file(s)" % context['ERR']) elif context['DF_SKIP']: raise RuntimeError("unable to export %i dedicated files(s)" % context['ERR']) @with_default_category('ISO7816 Commands') class Iso7816Commands(CommandSet): def __init__(self): super().__init__() def do_select(self, opts): """SELECT a File (ADF/DF/EF)""" if len(opts.arg_list) == 0: path_list = self._cmd.rs.selected_file.fully_qualified_path(True) path_list_fid = self._cmd.rs.selected_file.fully_qualified_path(False) self._cmd.poutput("currently selected file: " + '/'.join(path_list) + " (" + '/'.join(path_list_fid) + ")") return path = opts.arg_list[0] fcp_dec = self._cmd.rs.select(path, self._cmd) self._cmd.update_prompt() self._cmd.poutput_json(fcp_dec) def complete_select(self, text, line, begidx, endidx) -> List[str]: """Command Line tab completion for SELECT""" index_dict = { 1: self._cmd.rs.selected_file.get_selectable_names() } return self._cmd.index_based_complete(text, line, begidx, endidx, index_dict=index_dict) def get_code(self, code): """Use code either directly or try to get it from external data source""" auto = ('PIN1', 'PIN2', 'PUK1', 'PUK2') if str(code).upper() not in auto: return sanitize_pin_adm(code) result = card_key_provider_get_field(str(code), key='ICCID', value=self._cmd.iccid) result = sanitize_pin_adm(result) if result: self._cmd.poutput("found %s '%s' for ICCID '%s'" % (code.upper(), result, self._cmd.iccid)) else: self._cmd.poutput("cannot find %s for ICCID '%s'" % (code.upper(), self._cmd.iccid)) return result verify_chv_parser = argparse.ArgumentParser() verify_chv_parser.add_argument('--pin-nr', type=int, default=1, help='PIN Number, 1=PIN1, 2=PIN2 or custom value (decimal)') verify_chv_parser.add_argument('pin_code', type=str, help='PIN code digits, \"PIN1\" or \"PIN2\" to get PIN code from external data source') @cmd2.with_argparser(verify_chv_parser) def do_verify_chv(self, opts): """Verify (authenticate) using specified PIN code""" pin = self.get_code(opts.pin_code) (data, sw) = self._cmd.card._scc.verify_chv(opts.pin_nr, h2b(pin)) self._cmd.poutput("CHV verification successful") unblock_chv_parser = argparse.ArgumentParser() unblock_chv_parser.add_argument('--pin-nr', type=int, default=1, help='PUK Number, 1=PIN1, 2=PIN2 or custom value (decimal)') unblock_chv_parser.add_argument('puk_code', type=str, help='PUK code digits \"PUK1\" or \"PUK2\" to get PUK code from external data source') unblock_chv_parser.add_argument('new_pin_code', type=str, help='PIN code digits \"PIN1\" or \"PIN2\" to get PIN code from external data source') @cmd2.with_argparser(unblock_chv_parser) def do_unblock_chv(self, opts): """Unblock PIN code using specified PUK code""" new_pin = self.get_code(opts.new_pin_code) puk = self.get_code(opts.puk_code) (data, sw) = self._cmd.card._scc.unblock_chv(opts.pin_nr, h2b(puk), h2b(new_pin)) self._cmd.poutput("CHV unblock successful") change_chv_parser = argparse.ArgumentParser() change_chv_parser.add_argument('--pin-nr', type=int, default=1, help='PUK Number, 1=PIN1, 2=PIN2 or custom value (decimal)') change_chv_parser.add_argument('pin_code', type=str, help='PIN code digits \"PIN1\" or \"PIN2\" to get PIN code from external data source') change_chv_parser.add_argument('new_pin_code', type=str, help='PIN code digits \"PIN1\" or \"PIN2\" to get PIN code from external data source') @cmd2.with_argparser(change_chv_parser) def do_change_chv(self, opts): """Change PIN code to a new PIN code""" new_pin = self.get_code(opts.new_pin_code) pin = self.get_code(opts.pin_code) (data, sw) = self._cmd.card._scc.change_chv(opts.pin_nr, h2b(pin), h2b(new_pin)) self._cmd.poutput("CHV change successful") disable_chv_parser = argparse.ArgumentParser() disable_chv_parser.add_argument('--pin-nr', type=int, default=1, help='PIN Number, 1=PIN1, 2=PIN2 or custom value (decimal)') disable_chv_parser.add_argument('pin_code', type=str, help='PIN code digits, \"PIN1\" or \"PIN2\" to get PIN code from external data source') @cmd2.with_argparser(disable_chv_parser) def do_disable_chv(self, opts): """Disable PIN code using specified PIN code""" pin = self.get_code(opts.pin_code) (data, sw) = self._cmd.card._scc.disable_chv(opts.pin_nr, h2b(pin)) self._cmd.poutput("CHV disable successful") enable_chv_parser = argparse.ArgumentParser() enable_chv_parser.add_argument('--pin-nr', type=int, default=1, help='PIN Number, 1=PIN1, 2=PIN2 or custom value (decimal)') enable_chv_parser.add_argument('pin_code', type=str, help='PIN code digits, \"PIN1\" or \"PIN2\" to get PIN code from external data source') @cmd2.with_argparser(enable_chv_parser) def do_enable_chv(self, opts): """Enable PIN code using specified PIN code""" pin = self.get_code(opts.pin_code) (data, sw) = self._cmd.card._scc.enable_chv(opts.pin_nr, h2b(pin)) self._cmd.poutput("CHV enable successful") def do_deactivate_file(self, opts): """Deactivate the current EF""" fid = self._cmd.rs.selected_file.fid (data, sw) = self._cmd.card._scc.deactivate_file(fid) def do_activate_file(self, opts): """Activate the current EF""" fid = self._cmd.rs.selected_file.fid (data, sw) = self._cmd.card._scc.activate_file(fid) open_chan_parser = argparse.ArgumentParser() open_chan_parser.add_argument('chan_nr', type=int, default=0, help='Channel Number') @cmd2.with_argparser(open_chan_parser) def do_open_channel(self, opts): """Open a logical channel.""" (data, sw) = self._cmd.card._scc.manage_channel(mode='open', lchan_nr=opts.chan_nr) close_chan_parser = argparse.ArgumentParser() close_chan_parser.add_argument('chan_nr', type=int, default=0, help='Channel Number') @cmd2.with_argparser(close_chan_parser) def do_close_channel(self, opts): """Close a logical channel.""" (data, sw) = self._cmd.card._scc.manage_channel(mode='close', lchan_nr=opts.chan_nr) option_parser = argparse.ArgumentParser(prog='pySim-shell', description='interactive SIM card shell', formatter_class=argparse.ArgumentDefaultsHelpFormatter) argparse_add_reader_args(option_parser) global_group = option_parser.add_argument_group('General Options') global_group.add_argument('--script', metavar='PATH', default=None, help='script with pySim-shell commands to be executed automatically at start-up') global_group.add_argument('--csv', metavar='FILE', default=None, help='Read card data from CSV file') adm_group = global_group.add_mutually_exclusive_group() adm_group.add_argument('-a', '--pin-adm', metavar='PIN_ADM1', dest='pin_adm', default=None, help='ADM PIN used for provisioning (overwrites default)') adm_group.add_argument('-A', '--pin-adm-hex', metavar='PIN_ADM1_HEX', dest='pin_adm_hex', default=None, help='ADM PIN used for provisioning, as hex string (16 characters long)') if __name__ == '__main__': # Parse options opts = option_parser.parse_args() # Init card reader driver sl = init_reader(opts) if (sl == None): exit(1) # Create command layer scc = SimCardCommands(transport=sl) sl.wait_for_card(); card_handler = card_handler(sl) card = card_detect("auto", scc) if card is None: print("No card detected!") sys.exit(2) profile = CardProfileUICC() profile.add_application(CardApplicationUSIM) profile.add_application(CardApplicationISIM) rs = RuntimeState(card, profile) # inform the transport that we can do context-specific SW interpretation sl.set_sw_interpreter(rs) # FIXME: do this dynamically rs.mf.add_file(DF_TELECOM()) rs.mf.add_file(DF_GSM()) # If a script file is specified, be sure that it actually exists if opts.script: if not os.access(opts.script, os.R_OK): print("Invalid script file!") sys.exit(2) app = PysimApp(card, rs, opts.script) rs.select('MF', app) # Register csv-file as card data provider, either from specified CSV # or from CSV file in home directory csv_default = str(Path.home()) + "/.osmocom/pysim/card_data.csv" if opts.csv: card_key_provider_register(CardKeyProviderCsv(opts.csv)) if os.path.isfile(csv_default): card_key_provider_register(CardKeyProviderCsv(csv_default)) # If the user supplies an ADM PIN at via commandline args authenticate # immediately so that the user does not have to use the shell commands pin_adm = sanitize_pin_adm(opts.pin_adm, opts.pin_adm_hex) if pin_adm: try: card.verify_adm(h2b(pin_adm)) except Exception as e: print(e) app.cmdloop()