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readmifaresimple.py
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readmifaresimple.py
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#!/usr/bin/python
# readmifaresimple.py - read all sectors from a mifare tag
#
# Adam Laurie <[email protected]>
# http://rfidiot.org/
#
# This code is copyright (c) Adam Laurie, 2006, All rights reserved.
# For non-commercial use only, the following terms apply - for all other
# uses, please contact the author:
#
# This code 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 code 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.
#
import sys
import os
import rfidiot
import time
import string
try:
card= rfidiot.card
except:
print "Couldn't open reader!"
os._exit(False)
args= rfidiot.args
help= rfidiot.help
blocksread= 0
blockslocked= 0
lockedblocks= []
DEFAULT_KEY= 'FFFFFFFFFFFF'
KEYS= ['FFFFFFFFFFFF','A0A1A2A3A4A5','B0B1B2B3B4B5','000000000000','ABCDEF012345','4D3A99C351DD','1A982C7E459A','D3F7D3F7D3F7','AABBCCDDEEFF']
KEYTYPES=['AA','BB','FF']
DEFAULT_KEYTYPE= 'AA'
BLOCKS_PER_SECT= 4
START_BLOCK= 0
END_BLOCK= 63
CloneData= []
RESET_DATA= '00000000000000000000000000000000'
RESET_TRAILER= 'FFFFFFFFFFFFFF078069FFFFFFFFFFFF'
if help or len(args) > 6:
print sys.argv[0] + ' - read mifare tags'
print 'Usage: ' + sys.argv[0] + ' [START BLOCK] [END BLOCK] [KEY] [KEYTYPE] [COPY|RESET]'
print
print '\tRead Mifare sector numbers [START BLOCK] to [END BLOCK], using'
print '\t[KEY] to authenticate. Keys can be truncated to \'AA\' for transport'
print '\tkey \'A0A1A2A3A4A5\', \'BB\' for transport key \'B0B1B2B3B4B5\' or \'FF\''
print '\tfor transport key \'FFFFFFFFFFFF\'.'
print
print '\tSTART BLOCK defaults to 0 and END BLOCK to 63. If not specified, KEY'
print '\tdefaults to \'FFFFFFFFFFFF\', and KEYTYPE defaults to \'AA\'. All known'
print '\talternative keys are tried in the event of a login failure.'
print
print '\tIf the option \'RESET\' is specified, the card will be programmed to'
print '\tfactory defaults after reading.'
print
print '\tIf the option \'COPY\' is specified, a card will be programmed with'
print '\twith the data blocks read (note that block 0 cannot normally be written)'
print
os._exit(True)
card.info('readmifaresimple v0.1h')
if not card.select():
card.waitfortag('waiting for Mifare TAG...')
# set options
reset= False
copy= False
try:
if args[4] == 'RESET':
reset= True
except:
pass
try:
if args[4] == 'COPY':
copy= True
except:
pass
if copy:
try:
otherkey= args[5]
except:
pass
try:
keytype= string.upper(args[3])
KEYTYPES.remove(keytype)
trykeytype= [keytype] + KEYTYPES
except:
keytype= DEFAULT_KEYTYPE
trykeytype= KEYTYPES
try:
key= string.upper(args[2])
trykey= [key] + KEYS
except:
key= DEFAULT_KEY
trykey= KEYS
try:
endblock= int(args[1])
except:
endblock= END_BLOCK
try:
startblock= int(args[0])
except:
startblock= 0
if not reset:
print ' Card ID:', card.uid
print
print ' Reading from %02d to %02d, key %s (%s)\n' % (startblock, endblock, key, keytype)
# see if key is an abbreviation
# if so, only need to set keytype and login will use transport keys
for d in ['AA','BB','FF']:
if key == d:
keytype= key
key= ''
if len(key) > 12:
print 'Invalid key: ', key
os._exit(True)
block= startblock
while block <= endblock and not reset:
locked= True
print ' Block %03i:' % block,
# ACG requires a login only to the base 'sector', so block number must be divided
# by BLOCKS_PER_SECT
if card.readertype == card.READER_ACG:
loginblock= block / BLOCKS_PER_SECT
else:
loginblock= block
loggedin= False
for y in trykey:
if loggedin:
break
for x in trykeytype:
if card.login(loginblock,x,y):
loggedin= True
goodkey= y
goodkeytype= x
break
else:
# clear the error
card.select()
if loggedin:
print 'OK (%s %s) Data:' % (goodkey,goodkeytype),
locked= False
if card.readMIFAREblock(block):
blocksread += 1
print card.MIFAREdata,
print card.ReadablePrint(card.ToBinary(card.MIFAREdata))
CloneData += [card.MIFAREdata]
else:
print 'Read error: %s %s' % (card.errorcode , card.ISO7816ErrorCodes[card.errorcode])
else:
print 'Login error: %s %s' % (card.errorcode , card.ISO7816ErrorCodes[card.errorcode])
locked= True
blockslocked += 1
lockedblocks.append(block)
# ACG requires re-select to clear error condition after failed login
if card.readertype == card.READER_ACG:
card.select()
block += 1
if not reset:
print
print ' Total blocks read: %d' % blocksread
print ' Total blocks locked: %d' % blockslocked
if blockslocked > 0:
print ' Locked block numbers:', lockedblocks
print
if not reset and not copy:
os._exit(False)
raw_input('Place tag to be written and hit <ENTER> to proceed')
while True:
print
card.select()
print ' Card ID: ' + card.uid
print
if not reset:
if keytype == 'AA':
print ' KeyA will be set to', key + ', KeyB will be set to %s' % otherkey
else:
print ' KeyA will be set to %s,' % otherkey, 'KeyB will be set to', key
else:
print ' KeyA will be set to FFFFFFFFFFFF, KeyB will be set to FFFFFFFFFFFF'
print
x= string.upper(raw_input(' *** Warning! This will overwrite TAG! Proceed (y/n) or <ENTER> to select new TAG? '))
if x == 'N':
os._exit(False)
if x == 'Y':
print
break
block= startblock
outblock= 0
while block <= endblock:
# block 0 is not writeable
if block == 0:
block += 1
outblock += 1
continue
print ' Block %03i: ' % block,
# ACG requires a login only to the base 'sector', so block number must be divided
# by BLOCKS_PER_SECT
if card.readertype == card.READER_ACG:
loginblock= block / BLOCKS_PER_SECT
else:
loginblock= block
loggedin= False
if not reset:
# assume we're writing to a factory blank, so try default keys first
trykey= KEYS + [key]
trykeytype= ['AA','BB']
for y in trykey:
if loggedin:
break
for x in trykeytype:
if card.login(loginblock,x,y):
loggedin= True
goodkey= y
goodkeytype= x
break
else:
# clear the error
card.select()
if loggedin:
if (block + 1) % 4:
if reset:
blockdata= RESET_DATA
else:
blockdata= CloneData[outblock]
else:
if reset:
blockdata= RESET_TRAILER
else:
if keytype == 'BB':
# only ACL is useful from original data
blockdata= RESET_TRAILER[:12] + CloneData[outblock][12:20] + key
else:
# ACL plus KeyB
blockdata= key + CloneData[outblock][12:20] + otherkey
print 'OK (%s %s), writing: %s' % (goodkey,goodkeytype,blockdata),
if card.writeblock(block,blockdata):
print 'OK'
else:
print 'Write error: %s %s' % (card.errorcode , card.ISO7816ErrorCodes[card.errorcode])
else:
print 'Login error: %s %s' % (card.errorcode , card.ISO7816ErrorCodes[card.errorcode])
# ACG requires re-select to clear error condition after failed login
if card.readertype == card.READER_ACG:
card.select()
block += 1
outblock += 1
os._exit(False)