pysim/pySim/commands.py

# -*- coding: utf-8 -*-

""" pySim: SIM Card commands according to ISO 7816-4 and TS 11.11
"""

#
# Copyright (C) 2009-2010  Sylvain Munaut <tnt@246tNt.com>
# Copyright (C) 2010       Harald Welte <laforge@gnumonks.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 pySim.utils import rpad, b2h, sw_match
from pySim.exceptions import SwMatchError

class SimCardCommands(object):
	def __init__(self, transport):
		self._tp = transport
		self._cla_byte = "a0"
		self.sel_ctrl = "0000"

	# Extract a single FCP item from TLV
	def __parse_fcp(self, fcp):
		# see also: ETSI TS 102 221, chapter 11.1.1.3.1 Response for MF,
		# DF or ADF
		from pytlv.TLV import TLV
		tlvparser = TLV(['82', '83', '84', 'a5', '8a', '8b', '8c', '80', 'ab', 'c6', '81', '88'])

		# pytlv is case sensitive!
		fcp = fcp.lower()

		if fcp[0:2] != '62':
			raise ValueError('Tag of the FCP template does not match, expected 62 but got %s'%fcp[0:2])

		# Unfortunately the spec is not very clear if the FCP length is
		# coded as one or two byte vale, so we have to try it out by
		# checking if the length of the remaining TLV string matches
		# what we get in the length field.
		# See also ETSI TS 102 221, chapter 11.1.1.3.0 Base coding.
		exp_tlv_len = int(fcp[2:4], 16)
		if len(fcp[4:]) // 2 == exp_tlv_len:
			skip = 4
		else:
			exp_tlv_len = int(fcp[2:6], 16)
			if len(fcp[4:]) // 2 == exp_tlv_len:
				skip = 6

		# Skip FCP tag and length
		tlv = fcp[skip:]
		return tlvparser.parse(tlv)

	# Tell the length of a record by the card response
	# USIMs respond with an FCP template, which is different
	# from what SIMs responds. See also:
	# USIM: ETSI TS 102 221, chapter 11.1.1.3 Response Data
	# SIM: GSM 11.11, chapter 9.2.1 SELECT
	def __record_len(self, r) -> int:
		if self.sel_ctrl == "0004":
			tlv_parsed = self.__parse_fcp(r[-1])
			file_descriptor = tlv_parsed['82']
			# See also ETSI TS 102 221, chapter 11.1.1.4.3 File Descriptor
			return int(file_descriptor[4:8], 16)
		else:
			return int(r[-1][28:30], 16)

	# Tell the length of a binary file. See also comment
	# above.
	def __len(self, r) -> int:
		if self.sel_ctrl == "0004":
			tlv_parsed = self.__parse_fcp(r[-1])
			return int(tlv_parsed['80'], 16)
		else:
			return int(r[-1][4:8], 16)

	def get_atr(self) -> str:
		"""Return the ATR of the currently inserted card."""
		return self._tp.get_atr()

	@property
	def cla_byte(self):
		return self._cla_byte
	@cla_byte.setter
	def cla_byte(self, value):
		self._cla_byte = value

	@property
	def sel_ctrl(self):
		return self._sel_ctrl
	@sel_ctrl.setter
	def sel_ctrl(self, value):
		self._sel_ctrl = value

	def try_select_path(self, dir_list):
		""" Try to select a specified path given as list of hex-string FIDs"""
		rv = []
		if type(dir_list) is not list:
			dir_list = [dir_list]
		for i in dir_list:
			data, sw = self._tp.send_apdu(self.cla_byte + "a4" + self.sel_ctrl + "02" + i)
			rv.append((data, sw))
			if sw != '9000':
				return rv
		return rv

	def select_path(self, dir_list):
		"""Execute SELECT for an entire list/path of FIDs.

		Args:
			dir_list: list of FIDs representing the path to select

		Returns:
			list of return values (FCP in hex encoding) for each element of the path
		"""
		rv = []
		if type(dir_list) is not list:
			dir_list = [dir_list]
		for i in dir_list:
			data, sw = self.select_file(i)
			rv.append(data)
		return rv

	def select_file(self, fid:str):
		"""Execute SELECT a given file by FID."""
		return self._tp.send_apdu_checksw(self.cla_byte + "a4" + self.sel_ctrl + "02" + fid)

	def select_adf(self, aid:str):
		"""Execute SELECT a given Applicaiton ADF."""
		aidlen = ("0" + format(len(aid) // 2, 'x'))[-2:]
		return self._tp.send_apdu_checksw(self.cla_byte + "a4" + "0404" + aidlen + aid)

	def read_binary(self, ef, length:int=None, offset:int=0):
		"""Execute READD BINARY.

		Args:
			ef : string or list of strings indicating name or path of transparent EF
			length : number of bytes to read
			offset : byte offset in file from which to start reading
		"""
		r = self.select_path(ef)
		if len(r[-1]) == 0:
			return (None, None)
		if length is None:
			length = self.__len(r) - offset
		total_data = ''
		while offset < length:
			chunk_len = min(255, length-offset)
			pdu = self.cla_byte + 'b0%04x%02x' % (offset, chunk_len)
			data,sw = self._tp.send_apdu(pdu)
			if sw == '9000':
				total_data += data
				offset += chunk_len
			else:
				raise ValueError('Failed to read (offset %d)' % (offset))
		return total_data, sw

	def update_binary(self, ef, data:str, offset:int=0, verify:bool=False, conserve:bool=False):
		"""Execute UPDATE BINARY.

		Args:
			ef : string or list of strings indicating name or path of transparent EF
			data : hex string of data to be written
			offset : byte offset in file from which to start writing
			verify : Whether or not to verify data after write
		"""
		data_length = len(data) // 2

		# Save write cycles by reading+comparing before write
		if conserve:
			data_current, sw = self.read_binary(ef, data_length, offset)
			if data_current == data:
				return None, sw

		self.select_path(ef)
		pdu = self.cla_byte + 'd6%04x%02x' % (offset, data_length) + data
		res = self._tp.send_apdu_checksw(pdu)
		if verify:
			self.verify_binary(ef, data, offset)
		return res

	def verify_binary(self, ef, data:str, offset:int=0):
		"""Verify contents of transparent EF.

		Args:
			ef : string or list of strings indicating name or path of transparent EF
			data : hex string of expected data
			offset : byte offset in file from which to start verifying
		"""
		res = self.read_binary(ef, len(data) // 2, offset)
		if res[0].lower() != data.lower():
			raise ValueError('Binary verification failed (expected %s, got %s)' % (data.lower(), res[0].lower()))

	def read_record(self, ef, rec_no:int):
		"""Execute READ RECORD.

		Args:
			ef : string or list of strings indicating name or path of linear fixed EF
			rec_no : record number to read
		"""
		r = self.select_path(ef)
		rec_length = self.__record_len(r)
		pdu = self.cla_byte + 'b2%02x04%02x' % (rec_no, rec_length)
		return self._tp.send_apdu(pdu)

	def update_record(self, ef, rec_no:int, data:str, force_len:bool=False, verify:bool=False,
					  conserve:bool=False):
		r = self.select_path(ef)
		if not force_len:
			rec_length = self.__record_len(r)
			if (len(data) // 2 != rec_length):
				raise ValueError('Invalid data length (expected %d, got %d)' % (rec_length, len(data) // 2))
		else:
			rec_length = len(data) // 2

		# Save write cycles by reading+comparing before write
		if conserve:
			data_current, sw = self.read_record(ef, rec_no)
			data_current = data_current[0:rec_length*2]
			if data_current == data:
				return None, sw

		pdu = (self.cla_byte + 'dc%02x04%02x' % (rec_no, rec_length)) + data
		res = self._tp.send_apdu_checksw(pdu)
		if verify:
			self.verify_record(ef, rec_no, data)
		return res

	def verify_record(self, ef, rec_no:int, data:str):
		res = self.read_record(ef, rec_no)
		if res[0].lower() != data.lower():
			raise ValueError('Record verification failed (expected %s, got %s)' % (data.lower(), res[0].lower()))

	def record_size(self, ef):
		"""Determine the record size of given file.

		Args:
			ef : string or list of strings indicating name or path of linear fixed EF
		"""
		r = self.select_path(ef)
		return self.__record_len(r)

	def record_count(self, ef):
		"""Determine the number of records in given file.

		Args:
			ef : string or list of strings indicating name or path of linear fixed EF
		"""
		r = self.select_path(ef)
		return self.__len(r) // self.__record_len(r)

	def binary_size(self, ef):
		"""Determine the size of given transparent file.

		Args:
			ef : string or list of strings indicating name or path of transparent EF
		"""
		r = self.select_path(ef)
		return self.__len(r)

	def run_gsm(self, rand:str):
		"""Execute RUN GSM ALGORITHM."""
		if len(rand) != 32:
			raise ValueError('Invalid rand')
		self.select_path(['3f00', '7f20'])
		return self._tp.send_apdu(self.cla_byte + '88000010' + rand)

	def reset_card(self):
		"""Physically reset the card"""
		return self._tp.reset_card()

	def _chv_process_sw(self, op_name, chv_no, pin_code, sw):
		if sw_match(sw, '63cx'):
			raise RuntimeError('Failed to %s chv_no 0x%02X with code 0x%s, %i tries left.' %
							   (op_name, chv_no, b2h(pin_code).upper(), int(sw[3])))
		elif (sw != '9000'):
			raise SwMatchError(sw, '9000')

	def verify_chv(self, chv_no:int, code:str):
		"""Verify a given CHV (Card Holder Verification == PIN)"""
		fc = rpad(b2h(code), 16)
		data, sw = self._tp.send_apdu(self.cla_byte + '2000' + ('%02X' % chv_no) + '08' + fc)
		self._chv_process_sw('verify', chv_no, code, sw)
		return (data, sw)

	def unblock_chv(self, chv_no:int, puk_code:str, pin_code:str):
		"""Unblock a given CHV (Card Holder Verification == PIN)"""
		fc = rpad(b2h(puk_code), 16) + rpad(b2h(pin_code), 16)
		data, sw = self._tp.send_apdu(self.cla_byte + '2C00' + ('%02X' % chv_no) + '10' + fc)
		self._chv_process_sw('unblock', chv_no, pin_code, sw)
		return (data, sw)

	def change_chv(self, chv_no:int, pin_code:str, new_pin_code:str):
		"""Change a given CHV (Card Holder Verification == PIN)"""
		fc = rpad(b2h(pin_code), 16) + rpad(b2h(new_pin_code), 16)
		data, sw = self._tp.send_apdu(self.cla_byte + '2400' + ('%02X' % chv_no) + '10' + fc)
		self._chv_process_sw('change', chv_no, pin_code, sw)
		return (data, sw)

	def disable_chv(self, chv_no:int, pin_code:str):
		"""Disable a given CHV (Card Holder Verification == PIN)"""
		fc = rpad(b2h(pin_code), 16)
		data, sw = self._tp.send_apdu(self.cla_byte + '2600' + ('%02X' % chv_no) + '08' + fc)
		self._chv_process_sw('disable', chv_no, pin_code, sw)
		return (data, sw)

	def enable_chv(self, chv_no:int, pin_code:str):
		"""Enable a given CHV (Card Holder Verification == PIN)"""
		fc = rpad(b2h(pin_code), 16)
		data, sw = self._tp.send_apdu(self.cla_byte + '2800' + ('%02X' % chv_no) + '08' + fc)
		self._chv_process_sw('enable', chv_no, pin_code, sw)
		return (data, sw)