# -*- coding: utf-8 -*- # Copyright (C) 2020 Vadim Yanitskiy # # This program is free software: you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation, either version 2 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program. If not, see . # import logging as log import time import re import argparse from typing import Optional import serial from osmocom.utils import Hexstr from pySim.utils import ResTuple from pySim.transport import LinkBaseTpdu from pySim.exceptions import ReaderError, ProtocolError # HACK: if somebody needs to debug this thing # log.root.setLevel(log.DEBUG) class ModemATCommandLink(LinkBaseTpdu): """Transport Link for 3GPP TS 27.007 compliant modems.""" name = "modem for Generic SIM Access (3GPP TS 27.007)" def __init__(self, opts: argparse.Namespace = argparse.Namespace(modem_dev='/dev/ttyUSB0', modem_baud=115200), **kwargs): device = opts.modem_dev baudrate = opts.modem_baud super().__init__(**kwargs) self._sl = serial.Serial(device, baudrate, timeout=5) self._echo = False # this will be auto-detected by _check_echo() self._device = device self._atr = None # Check the AT interface self._check_echo() # Trigger initial reset self.reset_card() def __del__(self): if hasattr(self, '_sl'): self._sl.close() def send_at_cmd(self, cmd, timeout=0.2, patience=0.002): # Convert from string to bytes, if needed bcmd = cmd if isinstance(cmd, bytes) else cmd.encode() bcmd += b'\r' # Clean input buffer from previous/unexpected data self._sl.reset_input_buffer() # Send command to the modem log.debug('Sending AT command: %s', cmd) try: wlen = self._sl.write(bcmd) assert wlen == len(bcmd) except Exception as exc: raise ReaderError('Failed to send AT command: %s' % cmd) from exc rsp = b'' its = 1 t_start = time.time() while True: rsp = rsp + self._sl.read(self._sl.in_waiting) lines = rsp.split(b'\r\n') if len(lines) >= 2: res = lines[-2] if res == b'OK': log.debug('Command finished with result: %s', res) break if res == b'ERROR' or res.startswith(b'+CME ERROR:'): log.error('Command failed with result: %s', res) break if time.time() - t_start >= timeout: log.info('Command finished with timeout >= %ss', timeout) break time.sleep(patience) its += 1 log.debug('Command took %0.6fs (%d cycles a %fs)', time.time() - t_start, its, patience) if self._echo: # Skip echo chars rsp = rsp[wlen:] rsp = rsp.strip() rsp = rsp.split(b'\r\n\r\n') log.debug('Got response from modem: %s', rsp) return rsp def _check_echo(self): """Verify the correct response to 'AT' command and detect if inputs are echoed by the device Although echo of inputs can be enabled/disabled via ATE1/ATE0, respectively, we rather detect the current configuration of the modem without any change. """ # Next command shall not strip the echo from the response self._echo = False result = self.send_at_cmd('AT') # Verify the response if len(result) > 0: if result[-1] == b'OK': self._echo = False return if result[-1] == b'AT\r\r\nOK': self._echo = True return raise ReaderError('Interface \'%s\' does not respond to \'AT\' command' % self._device) def _reset_card(self): # Reset the modem, just to be sure if self.send_at_cmd('ATZ') != [b'OK']: raise ReaderError('Failed to reset the modem') # Make sure that generic SIM access is supported if self.send_at_cmd('AT+CSIM=?') != [b'OK']: raise ReaderError('The modem does not seem to support SIM access') log.info('Modem at \'%s\' is ready!', self._device) def connect(self): pass # Nothing to do really ... def disconnect(self): pass # Nothing to do really ... def wait_for_card(self, timeout: Optional[int] = None, newcardonly: bool = False): pass # Nothing to do really ... def send_tpdu(self, tpdu: Hexstr) -> ResTuple: # Make sure pdu has upper case hex digits [A-F] tpdu = tpdu.upper() # Prepare the command as described in 8.17 cmd = 'AT+CSIM=%d,\"%s\"' % (len(tpdu), tpdu) log.debug('Sending command: %s', cmd) # Send AT+CSIM command to the modem rsp = self.send_at_cmd(cmd) if rsp[-1].startswith(b'+CME ERROR:'): raise ProtocolError('AT+CSIM failed with: %s' % str(rsp)) if len(rsp) != 2 or rsp[-1] != b'OK': raise ReaderError('APDU transfer failed: %s' % str(rsp)) rsp = rsp[0] # Get rid of b'OK' # Make sure that the response has format: b'+CSIM: %d,\"%s\"' try: result = re.match(b'\+CSIM: (\d+),\"([0-9A-F]+)\"', rsp) (_rsp_tpdu_len, rsp_tpdu) = result.groups() except Exception as exc: raise ReaderError('Failed to parse response from modem: %s' % rsp) from exc # TODO: make sure we have at least SW data = rsp_tpdu[:-4].decode().lower() sw = rsp_tpdu[-4:].decode().lower() log.debug('Command response: %s, %s', data, sw) return data, sw def __str__(self) -> str: return "modem:%s" % self._device @staticmethod def argparse_add_reader_args(arg_parser: argparse.ArgumentParser): modem_group = arg_parser.add_argument_group('AT Command Modem Reader', """Talk to a SIM Card inside a mobile phone or cellular modem which is attached to this computer and offers an AT command interface including the AT+CSIM interface for Generic SIM access as specified in 3GPP TS 27.007.""") 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')