/usr/bin/ATR_analysis is in pcsc-tools 1.4.22-1.
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# ATR_analysis
# Copyright (C) 2000-2012 Ludovic Rousseau, Christophe Levantis
#
# 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, write to the Free Software
# Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
# $Id: ATR_analysis 6823 2014-01-14 16:24:49Z rousseau $
# For more information about the ATR see ISO 7816-3 1997, pages 12 and up
#
# TS initial character
# T0 format character, Y1 | K
# interfaces characters
# TA(1) global, codes FI and DI
# TB(1) global, codes II and PI
# TC(1) global, codes N
# TD(1) codes Y(2) and T
# TA(2) global, codes specific mode
# TB(2) global, codes PI2
# TC(2) specific
# TD(2) codes Y(3) and T
# TA(3) TA(i), TB(i), TC(i) (i>2)
# - specific after T!=15
# - global after T=15
# TD(i) codes Y(i+1) and T
# T1 historical bytes
# max 15 characters
# TK
# TCK check character
use strict;
use warnings;
use Getopt::Std;
use Chipcard::PCSC::Card;
# default value for XDG_CACHE_HOME
# http://standards.freedesktop.org/basedir-spec/basedir-spec-latest.html
my $Cache = "$ENV{HOME}/.cache";
# check if XDG_CACHE_HOME env variable is set
if (exists($ENV{XDG_CACHE_HOME}))
{
$Cache = "$ENV{XDG_CACHE_HOME}";
}
# file containing the smart card models
my @SMARTCARD_LIST = ( "$Cache/smartcard_list.txt", "$ENV{HOME}/.smartcard_list.txt", "/usr/local/pcsc/smartcard_list.txt", "/usr/share/pcsc/smartcard_list.txt", "/usr/local/share/pcsc/smartcard_list.txt");
our ($opt_v, $opt_h);
my ($atr, %TS, @Fi, @FMax, @Di, @XI, @UI, $T, $value, $counter, $line, $TCK);
my ($Y1, $K, @object, $mpcard, $hb_category);
# tables
%TS = (0x3B, "Direct Convention", 0x3F, "Inverse Convention");
@Fi = (372, 372, 558, 744, 1116, 1488, 1860, "RFU", "RFU", 512, 768, 1024,
1536, 2048, "RFU", "RFU");
@FMax = (4, 5, 6, 8, 12, 16, 20, "RFU", "RFU", 5, 7.5, 10, 15, 20, "RFU",
"RFU");
@Di = ("RFU", 1, 2, 4, 8, 16, 32, 64, 12, 20, "RFU", "RFU", "RFU",
"RFU", "RFU", "RFU");
@XI = ("not supported", "state L", "state H", "no preference");
@UI = ("A only (5V)", "B only (3V)", "A and B", "RFU");
my $COLOR_START="\033[35m"; # magenta
my $COLOR_BLUE="\033[34m"; # blue
my $COLOR_END="\033[0m\n"; # default (black)
# prorotypes
sub analyse_TA();
sub analyse_TB();
sub analyse_TC();
sub analyse_TD();
sub find_card($@);
sub analyse_histrorical_bytes();
sub compact_tlv();
sub lcs($);
sub sm($);
sub dc($);
sub cc($);
sub cs($);
# globals init
$T = 0;
$counter = 1;
getopts("vh");
if ($opt_v)
{
print "Version: 1.7, (c) 2002-2012, Ludovic Rousseau <ludovic.rousseau\@free.fr>\n";
print "This software is free software (GNU General Public License)\n";
exit;
}
# 1_ 1 argument then input = ATR else smart card
if ($opt_h or ($#ARGV == -1))
{
print "Usage: $0 [-v] [-h] ATR_string\n";
print " Ex: $0 3B A7 00 40 18 80 65 A2 08 01 01 52\n";
exit;
}
# 1_ get the ATR
$atr = join " ", @ARGV;
$atr =~ s/://g;
$atr = uc($atr);
if (substr ($atr, 2, 1) ne " ")
{
# "3BA7004018" -> "3B A7 00 40 18"
$atr =~ s/(..)/$1 /g;
$atr =~ s/ *$//;
}
print "ATR: $atr\n";
# 2_ Split in bytes of the lines
@object = split(/\s/, $atr);
# 3_ Analysis
# Analysis of TS:
$value = hex(shift(@object));
if (defined $TS{$value})
{
printf "+ TS = %02X --> %s\n", $value, $TS{$value};
$mpcard = 1;
}
else
{
printf "+ TS = %02X --> UNDEFINED\n", $value;
# this is NOT a microprocessor card
$mpcard = 0;
}
exit if ($#object < 0);
# Analysis of T0:
$value = hex(shift(@object));
$Y1 = $value >> 4;
$K = $value % 16;
printf "+ T0 = %02X, Y(1): %04b, K: %d (historical bytes)\n", $value, $Y1, $K;
exit if ($#object < 0);
analyse_TA() if ($Y1 & 0x1);
exit if ($#object < 0);
analyse_TB() if ($Y1 & 0x2);
exit if ($#object < 0);
analyse_TC() if ($Y1 & 0x4);
exit if ($#object < 0);
analyse_TD() if ($Y1 & 0x8);
# TCK is present?
if ($#object == $K)
{
# expected TCK
my $tck_e = hex($object[-1]);
$#object--;
# calculated TCK
my $tck_c = 0;
my @object = split(/\s/, $atr);
shift @object; # do not use TS
map { $tck_c ^= hex $_ } @object;
$TCK = sprintf "%02X ", $tck_e;
if ($tck_c == 0)
{
$TCK .= "(correct checksum)";
}
else
{
$TCK .= sprintf "WRONG CHECKSUM, expected %02X", $tck_e ^ $tck_c;
}
}
# the rest are historical bytes
print "+ Historical bytes: @object\n";
if ($#object+1 < $K)
{
print " ERROR! ATR is truncated: " . ($K - $#object -1) . " byte(s) is/are missing\n";
}
if ($#object+1 > $K)
{
my $extra = -($K - $#object -1);
print " ERROR! ATR is too long: " . $extra . " extra byte(s). Truncating.\n";
splice @object, $K;
}
analyse_histrorical_bytes();
print "+ TCK = $TCK\n" if (defined $TCK);
if (! $mpcard)
{
print "Your card is not a microprocessor card. It seems to be memory card.\n";
exit;
}
# update the ATR list
sub update_smartcard_list($$)
{
# file to update
my $file = shift;
# URL of the latest list
my $url = shift;
# Has the $file file been modified in the last 10 hours?
my $old = `find $file -cmin +600`;
# old file
if ($old)
{
print "Updating $file using $url\n";
if ($^O =~ "darwin")
{
system("curl $url --output $file");
}
else
{
system("wget $url --output-document=$file");
}
# did an update
return 1;
}
# no change
return 0;
}
# find the corresponding card type
if (find_card($atr, @SMARTCARD_LIST))
{
my $file = $SMARTCARD_LIST[0];
my $url = "http://ludovic.rousseau.free.fr/softwares/pcsc-tools/smartcard_list.txt";
my $found = 0;
# update the ATR list
if (update_smartcard_list($file, $url))
{
# try again with an updated list
$found = find_card($atr, $file);
}
# still not found?
if (! $found)
{
print "Your card is not present in the database.\n";
print "Please submit your unknown card at:\n";
$atr =~ s/ //g;
print "http://smartcard-atr.appspot.com/parse?ATR=$atr\n";
}
}
######## Sub functions
# _____ _
# |_ _|/ \
# | | / _ \
# | |/ ___ \
# |_/_/ \_\
#
sub analyse_TA()
{
$value = hex(shift(@object));
printf (" TA($counter) = %02X --> ", $value);
print $COLOR_START;
# TA1 Analysis
if ($counter == 1)
{
my $F = $value >> 4;
my $D = $value % 16;
printf "Fi=%s, Di=%s", $Fi[$F], $Di[$D];
if ($Di[$D] ne "RFU" and $Fi[$F] ne "RFU")
{
$value = $Fi[$F]/$Di[$D];
printf ", %g cycles/ETU\n", $value;
printf " %d bits/s at 4 MHz", 4000000/$value;
printf ", fMax for Fi = %d MHz => %d bits/s", $FMax[$F], $FMax[$F]*1000000/$value;
}
}
# TA2 Analysis - TA2 is the specific mode byte
if ($counter == 2)
{
my $F = $value >> 4;
my $D = $value % 16;
printf ("Protocol to be used in spec mode: T=%s", $D);
if ($F & 0x8)
{
print " - Unable to change";
}
else
{
print " - Capable to change";
}
if ($F & 0x1)
{
print " - implicity defined";
}
else
{
print " - defined by interface bytes";
}
}
# TA3 Analysis
if ($counter >= 3)
{
if ($T == 1)
{
printf ("IFSC: %s", $value);
}
else
{ #### T <> 1
my $F = $value >> 6;
my $D = $value % 64;
my $Class = "(3G) ";
$Class = $Class."A 5V " if ($D & 0x1);
$Class = $Class."B 3V " if ($D & 0x2);
$Class = $Class."C 1.8V " if ($D & 0x4);
$Class = $Class."D RFU " if ($D & 0x8);
$Class = $Class."E RFU" if ($D & 0x10);
printf ("Clock stop: %s - Class accepted by the card: %s", $XI[$F],$Class);
}
}
print $COLOR_END;
} # analyse_TA()
# _____ ____
# |_ _| __ )
# | | | _ \
# | | | |_) |
# |_| |____/
#
sub analyse_TB()
{
$value = hex(shift(@object));
printf (" TB($counter) = %02X --> ", $value);
my $I = $value >> 5;
my $PI = $value % 32;
print $COLOR_START;
if ($counter == 1)
{
if ($PI == 0)
{
print "VPP is not electrically connected";
}
else
{
print "Programming Param P: $PI Volts, I: $I milliamperes";
}
}
if ($counter == 2)
{
print "Programming param PI2 (PI1 should be ignored): ";
if (($value>49)||($value<251))
{
print "$value (dV)";
}
else
{
print "$value is RFU";
}
}
if ($counter >= 3)
{
if ($T == 1)
{
my $BWI = $value >> 4;
my $CWI = $value % 16;
printf ("Block Waiting Integer: %s - Character Waiting Integer: %s", $BWI, $CWI);
}
}
print $COLOR_END;
} # analyse_TB()
# _____ ____
# |_ _/ ___|
# | || |
# | || |___
# |_| \____|
#
sub analyse_TC()
{
$value = hex(shift(@object));
printf (" TC($counter) = %02X --> ", $value);
print $COLOR_START;
if ($counter == 1)
{
print "Extra guard time: $value";
print " (special value)" if ($value == 255);
}
if ($counter == 2)
{
printf ("Work waiting time: 960 x %d x (Fi/F)", $value);
}
if ($counter >= 3)
{
if ($T == 1)
{
printf ("Error detection code: ");
if ($value == 1)
{
print "CRC";
}
elsif ($value == 0)
{
print "LRC";
}
else
{
print "RFU";
}
}
}
print $COLOR_END;
} # analyse_TC()
# _____ ____
# |_ _| _ \
# | | | | | |
# | | | |_| |
# |_| |____/
#
sub analyse_TD()
{
my $str = '';
$value = hex(shift(@object));
my $Y = $value >> 4;
$T = $value % 16;
if ($T == 15)
{
$str = " - Global interface bytes following";
}
printf (" TD($counter) = %02X --> Y(i+1) = %04b,$COLOR_START Protocol T = $T$str $COLOR_END", $value, $Y);
$counter++;
print "-----\n";
exit if ($#object < 0);
analyse_TA() if ($Y & 0x1);
exit if ($#object < 0);
analyse_TB() if ($Y & 0x2);
exit if ($#object < 0);
analyse_TC() if ($Y & 0x4);
exit if ($#object < 0);
analyse_TD() if ($Y & 0x8);
} # analyse_TD()
# _____ _ _ _
#| ___(_)_ __ __| | ___ __ _ _ __ __| |
#| |_ | | '_ \ / _` | / __/ _` | '__/ _` |
#| _| | | | | | (_| | | (_| (_| | | | (_| |
#|_| |_|_| |_|\__,_| \___\__,_|_| \__,_|
#
sub find_card($@)
{
my $atr = shift;
my @files = @_;
my ($line, $found, $f, $file);
foreach (@files)
{
if (-e "$_")
{
$file = $_;
last;
}
}
# no valid file found
return if (!defined $file);
$found = 0;
print "\nPossibly identified card (using $file):\n";
open FILE, "< $file" or die "Can't open $file: $!\n";
while ($line = <FILE>)
{
next if ($line =~ m/^#/); # comment
next if ($line =~ m/^$/); # empty line
next if ($line =~ m/^\t/); # description
chomp $line;
if ($atr =~ m/^$line$/i)
{
# print the card ATR if a regular expression was used
print "$atr\n" if (uc $line ne uc $atr);
print "$line\n"; # print the matching ATR
$found = 1;
# print until a line do not start by a tabulation
while (($line = <FILE>) =~ m/^\t/)
{
chomp $line;
# print the card description
print $COLOR_BLUE . $line . $COLOR_END;
}
}
}
close FILE;
if ((! $found) && ($atr =~ m/^[3B|3F]/))
{
print "\tNONE\n\n";
return 1;
}
return 0;
} # find_card($)
sub analyse_histrorical_bytes()
{
$hb_category = shift @object;
# return if we have NO historical bytes
return unless $hb_category;
print " Category indicator byte: $hb_category";
for ($hb_category)
{
/00/ && do
{
print " (compact TLV data object)\n";
if (scalar @object < 3)
{
print " Error in the ATR: expecting 3 bytes and got " . scalar @object ."\n";
last;
}
# get the 3 last bytes
my @status = splice @object, -3, 3;
compact_tlv() while (@object);
my $lcs = shift @status;
my $sw1 = shift @status;
my $sw2 = shift @status;
print " Mandatory status indicator (3 last bytes)\n";
print " LCS (life card cycle): $lcs (" . lcs($lcs) . ")\n";
print " SW: $sw1$sw2 (" . Chipcard::PCSC::Card::ISO7816Error("$sw1 $sw2") . ")\n";
last;
};
/80/ && do
{
print " (compact TLV data object)\n";
compact_tlv() while (@object);
last;
};
/10/ && do
{
print " (next byte is the DIR data reference)\n";
my $data_ref = shift @object;
print " DIR data reference: $data_ref\n";
last;
};
/81|82|83|84|85|86|87|88|89|8A|8B|8C|8D|8E|8F/ && do
{
print " (Reserved for futur use)\n";
last;
};
print " (proprietary format)\n";
}
} # analyse_histrorical_bytes()
sub compact_tlv()
{
my $tlv = shift @object;
# the TLV _may_ be present
return unless $tlv;
my ($tag, $len);
$tlv =~ /(.)(.)/;
$tag = $1;
$len = $2;
print " Tag: $tag, len: $len";
for ($tag)
{
/1/ && do
{
print " (country code, ISO 3166-1)\n";
print " Country code: " . (join ' ', splice @object, 0, hex $len) . "\n";
last;
};
/2/ && do
{
print " (issuer identification number, ISO 7812-1)\n";
print " Issuer identification number: " . (join ' ', splice @object, 0, hex $len) . "\n";
last;
};
/3/ && do
{
my $cs = shift @object;
print " (card service data byte)\n";
if (! defined $cs)
{
print " Error in the ATR: expecting 1 byte and got 0\n";
last;
}
print " Card service data byte: $cs\n";
cs($cs);
last;
};
/4/ && do
{
print " (initial access data)\n";
print " Initial access data: " . (join ' ', splice @object, 0, hex $len) . "\n";
last;
};
/5/ && do
{
print " (card issuer's data)\n";
print " Card issuer data: " . (join ' ', splice @object, 0, hex $len) . "\n";
last;
};
/6/ && do
{
print " (pre-issuing data)\n";
print " Data: " . join(' ', splice @object, 0, hex $len) . "\n";
last;
};
/7/ && do
{
print " (card capabilities)\n";
for ($len)
{
/1/ && do
{
my $sm = shift @object;
print " Selection methods: $sm\n";
sm($sm);
last;
};
/2/ && do
{
my $sm = shift @object;
my $dc = shift @object;
print " Selection methods: $sm\n";
sm($sm);
print " Data coding byte: $dc\n";
dc($dc);
last;
};
/3/ && do
{
my $sm = shift @object;
my $dc = shift @object;
my $cc = shift @object;
print " Selection methods: $sm\n";
sm($sm);
print " Data coding byte: $dc\n";
dc($dc);
print " Command chaining, length fields and logical channels: $cc\n";
cc($cc);
last;
};
print " wrong ATR\n";
}
last;
};
/8/ && do
{
print " (status indicator)\n";
for ($len)
{
/1/ && do
{
my $lcs = shift @object;
print " LCS (life card cycle): $lcs\n";
last;
};
/2/ && do
{
my $sw1 = shift @object;
my $sw2 = shift @object;
print " SW: $sw1$sw2\n";
last;
};
/3/ && do
{
my $lcs = shift @object;
my $sw1 = shift @object;
my $sw2 = shift @object;
print " LCS (life card cycle): $lcs (" . lcs($lcs) . ")\n";
print " SW: $sw1$sw2 (" . Chipcard::PCSC::Card::ISO7816Error("$sw1 $sw2") . ")\n";
last;
};
}
last;
};
/F/ && do
{
print " (application identifier)\n";
print " Application identifier: " . (join ' ', splice @object, 0, hex $len) . "\n";
last;
};
print " (unknown)\n";
print " Value: " . (join ' ', splice @object, 0, hex $len) . "\n" if ($len > 0);
}
} # compact_tlv()
# see table 13 -- Life cycle status byte, page 21 of ISO 7816-4
sub lcs($)
{
my $lcs = shift;
return "Proprietary" if (hex $lcs > 15);
# get the LSB nibble
$lcs = substr $lcs, -1, 1;
for ($lcs)
{
/0/ && do { return "No information given"; last; };
/1/ && do { return "Creation state"; last; };
/3/ && do { return "Initialisation state"; last; };
/[4|6]/ && do { return "Operational state (deactivated)"; last; };
/[5|7]/ && do { return "Operational state (activated)"; last; };
/C|D|E|F]/ && do { return "Termination state"; last; };
return "unknown";
}
} # lcs()
# see table 86 -- First software function table (selection methods),
# page 60 of ISO 7816-4
sub sm($)
{
# convert in a list of 0 or 1
my @sm = split //, unpack ("B32", pack ("N", hex shift));
# remove the 24 first bits
splice @sm, 0, 24;
print " - DF selection by full DF name\n" if shift @sm;
print " - DF selection by partial DF name\n" if shift @sm;
print " - DF selection by path\n" if shift @sm;
print " - DF selection by file identifier\n" if shift @sm;
print " - Implicit DF selection\n" if shift @sm;
print " - Short EF identifier supported\n" if shift @sm;
print " - Record number supported\n" if shift @sm;
print " - Record identifier supported\n" if shift @sm;
} # sm
# see table 87 -- Second software function table (data coding byte),
# page 60 of ISO 7816-4
sub dc($)
{
# convert in a list of 0 or 1
my @dc = split //, unpack ("B32", pack ("N", hex shift));
# remove the 24 first bits
splice @dc, 0, 24;
print " - EF of TLV structure supported\n" if shift @dc;
print " - Behaviour of write functions: ";
my $v = shift(@dc)*2 + shift(@dc);
for ($v)
{
/0/ && do { print "one-time write\n"; last; };
/1/ && do { print "proprietary\n"; last; };
/2/ && do { print "write OR\n"; last; };
/3/ && do { print "write AND\n"; last; };
}
print " - Value 'FF' for the first byte of BER-TLV tag fields: ";
print "in" unless shift @dc;
print "valid\n";
print " - Data unit in quartets: ";
$v = shift(@dc)*8 + shift(@dc)*4 + shift(@dc)*2 + shift(@dc);
print 2**$v . "\n";
} # dc
# see table 88 -- Third software function table (command chaining,
# length fields and logical channels), page 61 of ISO 7816-4
sub cc($)
{
# convert in a list of 0 or 1
my @cc = split //, unpack ("B32", pack ("N", hex shift));
# remove the 24 first bits
splice @cc, 0, 24;
print " - Command chaining\n" if shift @cc;
print " - Extended Lc and Le fields\n" if shift @cc;
print " - RFU (should not happen)\n" if shift @cc;
print " - Logical channel number assignment: ";
my $v = shift(@cc)*2 + shift(@cc);
for ($v)
{
/0/ && do { print "No logical channel\n"; last; };
/1/ && do { print "by the interface device\n"; last; };
/2/ && do { print "by the card\n"; last; };
/3/ && do { print "by the interface device and card\n"; last; };
}
$v = shift(@cc)*4 + shift(@cc)*2 + shift(@cc) +1;
print " - Maximum number of logical channels: $v\n";
} # cc
# see table 85 -- Card service data byte, page 59 of ISO 7816-4
sub cs($)
{
# convert in a list of 0 or 1
my @cs = split //, unpack ("B32", pack ("N", hex shift));
# remove the 24 first bits
splice @cs, 0, 24;
print " - Application selection: by full DF name\n" if shift @cs;
print " - Application selection: by partial DF name\n" if shift @cs;
print " - BER-TLV data objects available in EF.DIR\n" if shift @cs;
print " - BER-TLV data objects available in EF.ATR\n" if shift @cs;
my $v = shift(@cs)*4 + shift(@cs)*2 + shift(@cs);
print " - EF.DIR and EF.ATR access services: ";
for ($v)
{
/4/ && do { print "by READ BINARY command\n"; last; };
/0/ && do { print "by GET RECORD(s) command\n"; last; };
/2/ && do { print "by GET DATA command\n"; last; };
print "reverved for future use\n";
}
if (shift @cs)
{
printf " - Card without MF\n";
}
else
{
printf " - Card with MF\n";
}
} # cs
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