| # -*- coding: utf-8 -*- |
| |
| """ pySim: PCSC reader transport link base |
| """ |
| |
| import abc |
| import argparse |
| from typing import Optional, Tuple |
| |
| from pySim.exceptions import * |
| from pySim.construct import filter_dict |
| from pySim.utils import sw_match, b2h, h2b, i2h, Hexstr |
| from pySim.cat import ProactiveCommand, CommandDetails, DeviceIdentities, Result |
| |
| # |
| # Copyright (C) 2009-2010 Sylvain Munaut <tnt@246tNt.com> |
| # Copyright (C) 2021-2022 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/>. |
| # |
| |
| |
| class ApduTracer: |
| def trace_command(self, cmd): |
| pass |
| |
| def trace_response(self, cmd, sw, resp): |
| pass |
| |
| class ProactiveHandler(abc.ABC): |
| """Abstract base class representing the interface of some code that handles |
| the proactive commands, as returned by the card in responses to the FETCH |
| command.""" |
| def receive_fetch_raw(self, pcmd: ProactiveCommand, parsed: Hexstr): |
| # try to find a generic handler like handle_SendShortMessage |
| handle_name = 'handle_%s' % type(parsed).__name__ |
| if hasattr(self, handle_name): |
| handler = getattr(self, handle_name) |
| return handler(pcmd.decoded) |
| # fall back to common handler |
| return self.receive_fetch(pcmd) |
| |
| def receive_fetch(self, pcmd: ProactiveCommand): |
| """Default handler for not otherwise handled proactive commands.""" |
| raise NotImplementedError('No handler method for %s' % pcmd.decoded) |
| |
| |
| |
| class LinkBase(abc.ABC): |
| """Base class for link/transport to card.""" |
| |
| def __init__(self, sw_interpreter=None, apdu_tracer=None, |
| proactive_handler: Optional[ProactiveHandler]=None): |
| self.sw_interpreter = sw_interpreter |
| self.apdu_tracer = apdu_tracer |
| self.proactive_handler = proactive_handler |
| |
| @abc.abstractmethod |
| def _send_apdu_raw(self, pdu: str) -> Tuple[str, str]: |
| """Implementation specific method for sending the PDU.""" |
| |
| def set_sw_interpreter(self, interp): |
| """Set an (optional) status word interpreter.""" |
| self.sw_interpreter = interp |
| |
| @abc.abstractmethod |
| def wait_for_card(self, timeout: int = None, newcardonly: bool = False): |
| """Wait for a card and connect to it |
| |
| Args: |
| timeout : Maximum wait time in seconds (None=no timeout) |
| newcardonly : Should we wait for a new card, or an already inserted one ? |
| """ |
| |
| @abc.abstractmethod |
| def connect(self): |
| """Connect to a card immediately |
| """ |
| |
| @abc.abstractmethod |
| def disconnect(self): |
| """Disconnect from card |
| """ |
| |
| @abc.abstractmethod |
| def reset_card(self): |
| """Resets the card (power down/up) |
| """ |
| |
| def send_apdu_raw(self, pdu: str): |
| """Sends an APDU with minimal processing |
| |
| Args: |
| pdu : string of hexadecimal characters (ex. "A0A40000023F00") |
| Returns: |
| tuple(data, sw), where |
| data : string (in hex) of returned data (ex. "074F4EFFFF") |
| sw : string (in hex) of status word (ex. "9000") |
| """ |
| if self.apdu_tracer: |
| self.apdu_tracer.trace_command(pdu) |
| (data, sw) = self._send_apdu_raw(pdu) |
| if self.apdu_tracer: |
| self.apdu_tracer.trace_response(pdu, sw, data) |
| return (data, sw) |
| |
| def send_apdu(self, pdu): |
| """Sends an APDU and auto fetch response data |
| |
| Args: |
| pdu : string of hexadecimal characters (ex. "A0A40000023F00") |
| Returns: |
| tuple(data, sw), where |
| data : string (in hex) of returned data (ex. "074F4EFFFF") |
| sw : string (in hex) of status word (ex. "9000") |
| """ |
| data, sw = self.send_apdu_raw(pdu) |
| |
| # When we have sent the first APDU, the SW may indicate that there are response bytes |
| # available. There are two SWs commonly used for this 9fxx (sim) and 61xx (usim), where |
| # xx is the number of response bytes available. |
| # See also: |
| if (sw is not None): |
| if ((sw[0:2] == '9f') or (sw[0:2] == '61')): |
| # SW1=9F: 3GPP TS 51.011 9.4.1, Responses to commands which are correctly executed |
| # SW1=61: ISO/IEC 7816-4, Table 5 — General meaning of the interindustry values of SW1-SW2 |
| pdu_gr = pdu[0:2] + 'c00000' + sw[2:4] |
| data, sw = self.send_apdu_raw(pdu_gr) |
| if sw[0:2] == '6c': |
| # SW1=6C: ETSI TS 102 221 Table 7.1: Procedure byte coding |
| pdu_gr = pdu[0:8] + sw[2:4] |
| data, sw = self.send_apdu_raw(pdu_gr) |
| |
| return data, sw |
| |
| def send_apdu_checksw(self, pdu, sw="9000"): |
| """Sends an APDU and check returned SW |
| |
| Args: |
| pdu : string of hexadecimal characters (ex. "A0A40000023F00") |
| sw : string of 4 hexadecimal characters (ex. "9000"). The user may mask out certain |
| digits using a '?' to add some ambiguity if needed. |
| Returns: |
| tuple(data, sw), where |
| data : string (in hex) of returned data (ex. "074F4EFFFF") |
| sw : string (in hex) of status word (ex. "9000") |
| """ |
| rv = self.send_apdu(pdu) |
| last_sw = rv[1] |
| |
| while sw == '9000' and sw_match(last_sw, '91xx'): |
| # It *was* successful after all -- the extra pieces FETCH handled |
| # need not concern the caller. |
| rv = (rv[0], '9000') |
| # proactive sim as per TS 102 221 Setion 7.4.2 |
| # TODO: Check SW manually to avoid recursing on the stack (provided this piece of code stays in this place) |
| fetch_rv = self.send_apdu_checksw('80120000' + last_sw[2:], sw) |
| # Setting this in case we later decide not to send a terminal |
| # response immediately unconditionally -- the card may still have |
| # something pending even though the last command was not processed |
| # yet. |
| last_sw = fetch_rv[1] |
| # parse the proactive command |
| pcmd = ProactiveCommand() |
| parsed = pcmd.from_tlv(h2b(fetch_rv[0])) |
| print("FETCH: %s (%s)" % (fetch_rv[0], type(parsed).__name__)) |
| result = Result() |
| if self.proactive_handler: |
| # Extension point: If this does return a list of TLV objects, |
| # they could be appended after the Result; if the first is a |
| # Result, that cuold replace the one built here. |
| self.proactive_handler.receive_fetch_raw(pcmd, parsed) |
| result.from_dict({'general_result': 'performed_successfully', 'additional_information': ''}) |
| else: |
| result.from_dict({'general_result': 'command_beyond_terminal_capability', 'additional_information': ''}) |
| |
| # Send response immediately, thus also flushing out any further |
| # proactive commands that the card already wants to send |
| # |
| # Structure as per TS 102 223 V4.4.0 Section 6.8 |
| |
| # The Command Details are echoed from the command that has been processed. |
| (command_details,) = [c for c in pcmd.decoded.children if isinstance(c, CommandDetails)] |
| # The Device Identities are fixed. (TS 102 223 V4.0.0 Section 6.8.2) |
| device_identities = DeviceIdentities() |
| device_identities.from_dict({'source_dev_id': 'terminal', 'dest_dev_id': 'uicc'}) |
| |
| # Testing hint: The value of tail does not influence the behavior |
| # of an SJA2 that sent ans SMS, so this is implemented only |
| # following TS 102 223, and not fully tested. |
| tail = command_details.to_tlv() + device_identities.to_tlv() + result.to_tlv() |
| # Testing hint: In contrast to the above, this part is positively |
| # essential to get the SJA2 to provide the later parts of a |
| # multipart SMS in response to an OTA RFM command. |
| terminal_response = '80140000' + b2h(len(tail).to_bytes(1, 'big') + tail) |
| |
| terminal_response_rv = self.send_apdu(terminal_response) |
| last_sw = terminal_response_rv[1] |
| |
| if not sw_match(rv[1], sw): |
| raise SwMatchError(rv[1], sw.lower(), self.sw_interpreter) |
| return rv |
| |
| def send_apdu_constr(self, cla, ins, p1, p2, cmd_constr, cmd_data, resp_constr): |
| """Build and sends an APDU using a 'construct' definition; parses response. |
| |
| Args: |
| cla : string (in hex) ISO 7816 class byte |
| ins : string (in hex) ISO 7816 instruction byte |
| p1 : string (in hex) ISO 7116 Parameter 1 byte |
| p2 : string (in hex) ISO 7116 Parameter 2 byte |
| cmd_cosntr : defining how to generate binary APDU command data |
| cmd_data : command data passed to cmd_constr |
| resp_cosntr : defining how to decode binary APDU response data |
| Returns: |
| Tuple of (decoded_data, sw) |
| """ |
| cmd = cmd_constr.build(cmd_data) if cmd_data else '' |
| p3 = i2h([len(cmd)]) |
| pdu = ''.join([cla, ins, p1, p2, p3, b2h(cmd)]) |
| (data, sw) = self.send_apdu(pdu) |
| if data: |
| # filter the resulting dict to avoid '_io' members inside |
| rsp = filter_dict(resp_constr.parse(h2b(data))) |
| else: |
| rsp = None |
| return (rsp, sw) |
| |
| def send_apdu_constr_checksw(self, cla, ins, p1, p2, cmd_constr, cmd_data, resp_constr, |
| sw_exp="9000"): |
| """Build and sends an APDU using a 'construct' definition; parses response. |
| |
| Args: |
| cla : string (in hex) ISO 7816 class byte |
| ins : string (in hex) ISO 7816 instruction byte |
| p1 : string (in hex) ISO 7116 Parameter 1 byte |
| p2 : string (in hex) ISO 7116 Parameter 2 byte |
| cmd_cosntr : defining how to generate binary APDU command data |
| cmd_data : command data passed to cmd_constr |
| resp_cosntr : defining how to decode binary APDU response data |
| exp_sw : string (in hex) of status word (ex. "9000") |
| Returns: |
| Tuple of (decoded_data, sw) |
| """ |
| (rsp, sw) = self.send_apdu_constr(cla, ins, |
| p1, p2, cmd_constr, cmd_data, resp_constr) |
| if not sw_match(sw, sw_exp): |
| raise SwMatchError(sw, sw_exp.lower(), self.sw_interpreter) |
| return (rsp, sw) |
| |
| |
| def argparse_add_reader_args(arg_parser): |
| """Add all reader related arguments to the given argparse.Argumentparser instance.""" |
| serial_group = arg_parser.add_argument_group('Serial Reader') |
| serial_group.add_argument('-d', '--device', metavar='DEV', default='/dev/ttyUSB0', |
| help='Serial Device for SIM access') |
| serial_group.add_argument('-b', '--baud', dest='baudrate', type=int, metavar='BAUD', default=9600, |
| help='Baud rate used for SIM access') |
| |
| pcsc_group = arg_parser.add_argument_group('PC/SC Reader') |
| pcsc_group.add_argument('-p', '--pcsc-device', type=int, dest='pcsc_dev', metavar='PCSC', default=None, |
| help='PC/SC reader number to use for SIM access') |
| |
| modem_group = arg_parser.add_argument_group('AT Command Modem Reader') |
| modem_group.add_argument('--modem-device', dest='modem_dev', metavar='DEV', default=None, |
| help='Serial port of modem for Generic SIM Access (3GPP TS 27.007)') |
| modem_group.add_argument('--modem-baud', type=int, metavar='BAUD', default=115200, |
| help='Baud rate used for modem port') |
| |
| osmobb_group = arg_parser.add_argument_group('OsmocomBB Reader') |
| osmobb_group.add_argument('--osmocon', dest='osmocon_sock', metavar='PATH', default=None, |
| help='Socket path for Calypso (e.g. Motorola C1XX) based reader (via OsmocomBB)') |
| |
| return arg_parser |
| |
| |
| def init_reader(opts, **kwargs) -> Optional[LinkBase]: |
| """ |
| Init card reader driver |
| """ |
| sl = None # type : :Optional[LinkBase] |
| try: |
| if opts.pcsc_dev is not None: |
| print("Using PC/SC reader interface") |
| from pySim.transport.pcsc import PcscSimLink |
| sl = PcscSimLink(opts.pcsc_dev, **kwargs) |
| elif opts.osmocon_sock is not None: |
| print("Using Calypso-based (OsmocomBB) reader interface") |
| from pySim.transport.calypso import CalypsoSimLink |
| sl = CalypsoSimLink(sock_path=opts.osmocon_sock, **kwargs) |
| elif opts.modem_dev is not None: |
| print("Using modem for Generic SIM Access (3GPP TS 27.007)") |
| from pySim.transport.modem_atcmd import ModemATCommandLink |
| sl = ModemATCommandLink( |
| device=opts.modem_dev, baudrate=opts.modem_baud, **kwargs) |
| else: # Serial reader is default |
| print("Using serial reader interface") |
| from pySim.transport.serial import SerialSimLink |
| sl = SerialSimLink(device=opts.device, |
| baudrate=opts.baudrate, **kwargs) |
| return sl |
| except Exception as e: |
| if str(e): |
| print("Card reader initialization failed with exception:\n" + str(e)) |
| else: |
| print( |
| "Card reader initialization failed with an exception of type:\n" + str(type(e))) |
| return None |