| version 1.9, 2006/11/10 17:49:51 |
version 1.14, 2007/01/28 22:24:17 |
|
|
| # Palm::Keyring.pm |
package Palm::Keyring; |
| |
|
| |
# $RedRiver: Keyring.pm,v 1.13 2007/01/28 18:13:28 andrew Exp $ |
| # |
# |
| # Perl class for dealing with Keyring for Palm OS databases. |
# Perl class for dealing with Keyring for Palm OS databases. |
| # |
# |
| # Copyright (C) 2004, Andrew Fresh |
|
| # You may distribute this file under the terms of the Artistic |
|
| # License, as specified in the README file distributed with the p5-Palm distribution. |
|
| # |
|
| # This started as Memo.pm, I just made it work for Keyring. |
# This started as Memo.pm, I just made it work for Keyring. |
| # |
|
| # $Id$ |
|
| # $RedRiver: Keyring.pm,v 1.8 2006/11/10 17:31:38 andrew Exp $ |
|
| |
|
| use strict; |
use strict; |
| package Palm::Keyring; |
use warnings; |
| use Palm::Raw(); |
use Carp; |
| use Palm::StdAppInfo(); |
|
| use vars qw( $VERSION @ISA ); |
|
| |
|
| |
use base qw/ Palm::StdAppInfo /; |
| |
|
| use Digest::MD5 qw(md5); |
use Digest::MD5 qw(md5); |
| use Crypt::DES; |
use Crypt::DES; |
| |
use Readonly; |
| |
|
| use constant ENCRYPT => 1; |
Readonly my $ENCRYPT => 1; |
| use constant DECRYPT => 0; |
Readonly my $DECRYPT => 0; |
| use constant MD5_CBLOCK => 64; |
Readonly my $MD5_CBLOCK => 64; |
| my $kSaltSize = 4; |
Readonly my $kSalt_Size => 4; |
| |
Readonly my $EMPTY => q{}; |
| |
Readonly my $SPACE => q{ }; |
| |
Readonly my $NULL => chr 0; |
| |
|
| |
|
| # One liner, to allow MakeMaker to work. |
# One liner, to allow MakeMaker to work. |
| $VERSION = do { my @r = (q$Revision$ =~ /\d+/g); sprintf "%d."."%02d" x $#r, @r }; |
our ($VERSION) = q$Revision$ =~ m{ Revision: \s+ (\S+) }xm; |
| |
|
| @ISA = qw( Palm::StdAppInfo Palm::Raw ); |
#@ISA = qw( Palm::StdAppInfo Palm::Raw ); |
| |
|
| =head1 NAME |
sub new { |
| |
my $classname = shift; |
| |
my $pass = shift; |
| |
|
| Palm::Keyring - Handler for Palm Keyring databases. |
# Create a generic PDB. No need to rebless it, though. |
| |
my $self = $classname->SUPER::new(@_); |
| |
|
| =head1 SYNOPSIS |
$self->{'name'} = 'Keys-Gtkr'; # Default |
| |
$self->{'creator'} = 'Gtkr'; |
| |
$self->{'type'} = 'Gkyr'; |
| |
|
| use Palm::Keyring; |
# The PDB is not a resource database by |
| $pdb->Decrypt('mypassword'); |
# default, but it's worth emphasizing, |
| |
# since MemoDB is explicitly not a PRC. |
| |
$self->{'attributes'}{'resource'} = 0; |
| |
|
| =head1 DESCRIPTION |
# Initialize the AppInfo block |
| |
$self->{'appinfo'} = {}; |
| |
|
| The Keyring PDB handler is a helper class for the Palm::PDB package. It |
# Add the standard AppInfo block stuff |
| parses Keyring databases. See |
Palm::StdAppInfo::seed_StdAppInfo( $self->{'appinfo'} ); |
| L<http://gnukeyring.sourceforge.net/>. |
|
| |
|
| It is just the standard Palm::Raw with 2 additional public methods. Decrypt and Encrypt. |
# Set the version |
| |
$self->{'version'} = 4; |
| |
|
| =cut |
# Give the PDB the first record that will hold the encrypted password |
| =head2 new |
$self->{'records'} = [ $self->new_Record ]; |
| |
|
| $pdb = new Palm::Keyring ('password'); |
if ( defined $pass ) { |
| |
$self->Encrypt($pass); |
| |
} |
| |
|
| Create a new PDB, initialized with the various Palm::Keyring fields |
return $self; |
| and an empty record list. |
} |
| |
|
| Use this method if you're creating a Keyring PDB from scratch. |
sub import { |
| |
Palm::PDB::RegisterPDBHandlers( __PACKAGE__, [ 'Gtkr', 'Gkyr' ], ); |
| |
return 1; |
| |
} |
| |
|
| =cut |
sub Load { |
| #' |
my $self = shift; |
| sub new |
my $filename = shift; |
| { |
my $password = shift; |
| my $classname = shift; |
|
| my $pass = shift; |
|
| |
|
| # Create a generic PDB. No need to rebless it, though. |
$self->{'appinfo'} = {}; |
| my $self = $classname->SUPER::new(@_); |
$self->{'records'} = []; |
| |
$self->SUPER::Load($filename); |
| |
|
| $self->{name} = "Keys-Gtkr"; # Default |
foreach my $rec ( @{ $self->{'records'} } ) { |
| $self->{creator} = "Gtkr"; |
if ( ! exists $rec->{'data'}) { next; }; |
| $self->{type} = "Gkyr"; |
my ( $name, $encrypted ) = split /$NULL/xm, $rec->{'data'}, 2; |
| # The PDB is not a resource database by |
if ( ! $encrypted ) { next }; |
| # default, but it's worth emphasizing, |
$rec->{'plaintext'}->{'name'} = $name; |
| # since MemoDB is explicitly not a PRC. |
$rec->{'encrypted'} = $encrypted; |
| $self->{attributes}{resource} = 0; |
} |
| |
|
| # Initialize the AppInfo block |
return $self->Decrypt($password) if defined $password; |
| $self->{appinfo} = {}; |
|
| |
|
| # Add the standard AppInfo block stuff |
return 1; |
| &Palm::StdAppInfo::seed_StdAppInfo($self->{appinfo}); |
} |
| |
|
| # Set the version |
sub Write { |
| $self->{version} = 4; |
my $self = shift; |
| |
my $filename = shift; |
| |
my $password = shift; |
| |
|
| # Give the PDB the first record that will hold the encrypted password |
$self->Encrypt($password) || return; |
| $self->{records} = [ { |
return $self->SUPER::Write($filename); |
| 'category' => 0, |
} |
| 'attributes' => { |
|
| 'private' => 1, |
|
| 'Secret' => 1, |
|
| 'Dirty' => 1, |
|
| 'dirty' => 1, |
|
| }, |
|
| }, ]; |
|
| |
|
| if ($pass) { |
sub Encrypt { |
| $self->Encrypt($pass); |
my $self = shift; |
| } |
my $pass = shift; |
| |
|
| return $self; |
if ($pass) { |
| } |
if ( |
| |
!( exists $self->{'records'}->[0]->{'data'} |
| |
&& $self->_keyring_verify($pass) ) |
| |
) |
| |
{ |
| |
|
| sub import |
# This would encrypt with a new password. |
| { |
# First decrypting everything with the old password of course. |
| &Palm::PDB::RegisterPDBHandlers(__PACKAGE__, |
$self->_keyring_update($pass) || return; |
| [ "Gtkr", "Gkyr" ], |
$self->_keyring_verify($pass) || return; |
| ); |
} |
| |
} |
| |
|
| |
$self->{'digest'} ||= _calc_keys( $self->{'password'} ); |
| |
|
| |
foreach my $rec ( @{ $self->{'records'} } ) { |
| |
if (!defined $rec->{'plaintext'}) { next; }; |
| |
|
| |
my $name = |
| |
defined $rec->{'plaintext'}->{'name'} |
| |
? $rec->{'plaintext'}->{'name'} |
| |
: $EMPTY; |
| |
my $account = |
| |
defined $rec->{'plaintext'}->{'account'} |
| |
? $rec->{'plaintext'}->{'account'} |
| |
: $EMPTY; |
| |
my $password = |
| |
defined $rec->{'plaintext'}->{'password'} |
| |
? $rec->{'plaintext'}->{'password'} |
| |
: $EMPTY; |
| |
my $description = |
| |
defined $rec->{'plaintext'}->{'description'} |
| |
? $rec->{'plaintext'}->{'description'} |
| |
: $EMPTY; |
| |
my $extra = $EMPTY; |
| |
|
| |
my $plaintext = join "$NULL", $account, $password, $description, $extra; |
| |
|
| |
my $encrypted = _crypt3des( $plaintext, $self->{'digest'}, $ENCRYPT ); |
| |
|
| |
$rec->{'data'} = join "$NULL", $name, $encrypted; |
| |
} |
| |
|
| |
return 1; |
| } |
} |
| |
|
| sub Load |
sub Decrypt { |
| { |
my $self = shift; |
| my $self = shift; |
my $pass = shift; |
| $self->SUPER::Load(@_); |
|
| |
|
| foreach my $record (@{ $self->{records} }) { |
if ($pass) { |
| next unless exists $record->{data}; |
$self->_keyring_verify($pass) || return; |
| my ($name, $encrypted) = split /\000/, $record->{data}, 2; |
} |
| next unless $encrypted; |
|
| $record->{plaintext}->{name} = $name; |
$self->{'digest'} ||= _calc_keys( $self->{'password'} ); |
| $record->{encrypted} = $encrypted; |
|
| } |
my $reccount = 0; |
| 1; |
foreach my $rec ( @{ $self->{'records'} } ) { |
| |
$reccount++; |
| |
|
| |
# always skip the first record that has the password in it. |
| |
next if $reccount <= 1; |
| |
if ( ! defined $rec->{'data'} ) { |
| |
warn 'Invalid record ' . ( $reccount - 1 ) . "\n"; |
| |
next; |
| |
} |
| |
|
| |
my ( $name, $encrypted ) = split /$NULL/xm, $rec->{'data'}, 2; |
| |
if (! $encrypted) { next; }; |
| |
|
| |
$rec->{'plaintext'}->{'name'} = $name; |
| |
|
| |
my $decrypted = _crypt3des( $encrypted, $self->{'digest'}, $DECRYPT ); |
| |
my ( $account, $password, $description, $extra ) = split /$NULL/xm, |
| |
$decrypted, 4; |
| |
|
| |
$rec->{'plaintext'}->{'account'} = defined $account ? $account : $EMPTY; |
| |
$rec->{'plaintext'}->{'password'} = |
| |
defined $password ? $password : $EMPTY; |
| |
$rec->{'plaintext'}->{'description'} = |
| |
defined $description ? $description : $EMPTY; |
| |
|
| |
#print "Name: '$name'\n"; |
| |
#print "Encrypted: '$encrypted' - Length: " . length($encrypted) . "\n"; |
| |
#print " Hex: '" . unpack("H*", $encrypted) . "'\n"; |
| |
#print " Binary:'" . unpack("b*", $encrypted) . "'\n"; |
| |
#print "Decrypted: '$decrypted' - Length: " . length($decrypted) . "\n"; |
| |
#print " Hex: '" . unpack("H*", $decrypted) . "'\n"; |
| |
#print " Binary:'" . unpack("b*", $decrypted) . "'\n"; |
| |
#print "\n"; |
| |
#print "Extra: $extra\n"; |
| |
#exit; |
| |
#-------------------------------------------------- |
| |
# print "Account: $account\n"; |
| |
# print "Password: $password\n"; |
| |
# print "Description: $description\n"; |
| |
#-------------------------------------------------- |
| |
|
| |
} |
| |
|
| |
return 1; |
| } |
} |
| |
|
| sub Write |
sub _calc_keys { |
| { |
my $pass = shift; |
| my $self = shift; |
if (! defined $pass) { croak('No password defined!'); }; |
| $self->Encrypt() || return undef; |
|
| return $self->SUPER::Load(@_); |
my $digest = md5($pass); |
| |
|
| |
my ( $key1, $key2 ) = unpack 'a8a8', $digest; |
| |
|
| |
#-------------------------------------------------- |
| |
# print "key1: $key1: ", length $key1, "\n"; |
| |
# print "key2: $key2: ", length $key2, "\n"; |
| |
#-------------------------------------------------- |
| |
|
| |
$digest = unpack 'H*', $key1 . $key2 . $key1; |
| |
|
| |
#-------------------------------------------------- |
| |
# print "Digest: ", $digest, "\n"; |
| |
# print length $digest, "\n"; |
| |
#-------------------------------------------------- |
| |
|
| |
return $digest; |
| } |
} |
| |
|
| sub Encrypt |
sub _keyring_verify { |
| { |
my $self = shift; |
| my $self = shift; |
my $pass = shift; |
| my $pass = shift; |
|
| |
|
| |
if (! $pass) { croak('No password specified!'); }; |
| |
|
| if ($pass) { |
# AFAIK the thing we use to test the password is |
| unless ($self->_keyring_verify($pass) ) { |
# always in the first entry |
| # This would encrypt with a new password. |
my $data = $self->{'records'}->[0]->{'data'}; |
| # First decrypting everything with the old password of course. |
|
| $self->_keyring_update($pass) || return undef; |
|
| $self->_keyring_verify($pass) || return undef; |
|
| } |
|
| } |
|
| |
|
| $self->{digest} ||= _calc_keys($self->{password}); |
#die "No encrypted password in file!" unless defined $data; |
| |
if (! defined $data) { return; }; |
| |
|
| foreach my $record (@{ $self->{records} }) { |
$data =~ s/$NULL$//xm; |
| next unless defined $record->{plaintext}; |
|
| |
|
| my $name = defined $record->{plaintext}->{name} ? |
my $salt = substr $data, 0, $kSalt_Size; |
| $record->{plaintext}->{name} : ''; |
|
| my $account = defined $record->{plaintext}->{account} ? |
|
| $record->{plaintext}->{account} : ''; |
|
| my $password = defined $record->{plaintext}->{password} ? |
|
| $record->{plaintext}->{password} : ''; |
|
| my $description = defined $record->{plaintext}->{description} ? |
|
| $record->{plaintext}->{description} : ''; |
|
| my $extra = ''; |
|
| |
|
| my $plaintext = join("\000", $account, $password, $description, $extra); |
my $msg = $salt . $pass; |
| |
|
| my $encrypted = _crypt3des($plaintext, $self->{digest}, ENCRYPT); |
$msg .= "\0" x ( $MD5_CBLOCK - length $msg ); |
| |
|
| $record->{data} = join("\000", $name, $encrypted); |
my $digest = md5($msg); |
| } |
|
| |
|
| return 1; |
if ( $data eq $salt . $digest ) { |
| |
|
| |
# May as well generate the keys we need now, since we know the password is right |
| |
$self->{'digest'} = _calc_keys($pass); |
| |
if ( $self->{'digest'} ) { |
| |
$self->{'password'} = $pass; |
| |
return 1; |
| |
} |
| |
} |
| |
return; |
| } |
} |
| |
|
| sub Decrypt |
sub _keyring_update { |
| { |
|
| my $self = shift; |
|
| my $pass = shift; |
|
| |
|
| if ($pass) { |
# It is very important to Encrypt after calling this |
| $self->_keyring_verify($pass) || return undef; |
# (Although it is generally only called by Encrypt) |
| } |
# because otherwise the data will be out of sync with the |
| |
# password, and that would suck! |
| |
my $self = shift; |
| |
my $pass = shift; |
| |
|
| $self->{digest} ||= _calc_keys($self->{password}); |
if (! $pass) { croak('No password specified!'); }; |
| |
|
| foreach my $record (@{ $self->{records} }) { |
# if the database already has a password in it |
| next unless defined $record->{data}; |
if ( $self->{'records'}->[0]->{'data'} ) { |
| |
|
| my ($name, $encrypted) = split /\000/, $record->{data}, 2; |
# Make sure everything is decrypted before we update the keyring |
| next unless $encrypted; |
$self->Decrypt() || return; |
| |
} |
| |
|
| $record->{plaintext}->{name} = $name; |
my $salt; |
| |
for ( 1 .. $kSalt_Size ) { |
| |
$salt .= chr int rand 255; |
| |
} |
| |
|
| my $decrypted = _crypt3des($encrypted, $self->{digest}, DECRYPT); |
my $msg = $salt . $pass; |
| my ($account, $password, $description, $extra) |
|
| = split /\000/, $decrypted, 4; |
|
| |
|
| $record->{plaintext}->{account} = defined $account ? |
$msg .= "\0" x ( $MD5_CBLOCK - length $msg ); |
| $account : ''; |
|
| $record->{plaintext}->{password} = defined $password ? |
|
| $password : ''; |
|
| $record->{plaintext}->{description} = defined $description ? |
|
| $description : ''; |
|
| |
|
| #print "Name: '$name'\n"; |
my $digest = md5($msg); |
| #print "Encrypted: '$encrypted' - Length: " . length($encrypted) . "\n"; |
|
| #print " Hex: '" . unpack("H*", $encrypted) . "'\n"; |
|
| #print " Binary:'" . unpack("b*", $encrypted) . "'\n"; |
|
| #print "Decrypted: '$decrypted' - Length: " . length($decrypted) . "\n"; |
|
| #print " Hex: '" . unpack("H*", $decrypted) . "'\n"; |
|
| #print " Binary:'" . unpack("b*", $decrypted) . "'\n"; |
|
| #print "\n"; |
|
| #print "Extra: $extra\n"; |
|
| #exit; |
|
| #-------------------------------------------------- |
|
| # print "Account: $account\n"; |
|
| # print "Password: $password\n"; |
|
| # print "Description: $description\n"; |
|
| #-------------------------------------------------- |
|
| |
|
| } |
my $data = $salt . $digest; # . "\0"; |
| |
|
| return 1; |
# AFAIK the thing we use to test the password is |
| |
# always in the first entry |
| |
$self->{'records'}->[0]->{'data'} = $data; |
| |
|
| |
$self->{'password'} = $pass; |
| |
$self->{'digest'} = _calc_keys( $self->{'password'} ); |
| |
|
| |
return 1; |
| } |
} |
| |
|
| sub _calc_keys |
sub _crypt3des { |
| { |
my ( $plaintext, $passphrase, $flag ) = @_; |
| my $pass = shift; |
|
| die "No password defined!" unless defined $pass; |
|
| |
|
| my $digest = md5($pass); |
$passphrase .= $SPACE x ( 16 * 3 ); |
| |
my $cyphertext = $EMPTY; |
| |
|
| my ($key1, $key2) = unpack('a8a8', $digest); |
my $size = length $plaintext; |
| #-------------------------------------------------- |
|
| # print "key1: $key1: ", length $key1, "\n"; |
|
| # print "key2: $key2: ", length $key2, "\n"; |
|
| #-------------------------------------------------- |
|
| |
|
| $digest = unpack('H*', $key1 . $key2 . $key1); |
#print "STRING: '$plaintext' - Length: " . (length $plaintext) . "\n"; |
| #-------------------------------------------------- |
|
| # print "Digest: ", $digest, "\n"; |
|
| # print length $digest, "\n"; |
|
| #-------------------------------------------------- |
|
| |
|
| return $digest; |
my @C; |
| |
for ( 0 .. 2 ) { |
| |
$C[$_] = |
| |
new Crypt::DES( pack 'H*', ( substr $passphrase, 16 * $_, 16 )); |
| |
} |
| |
|
| |
for ( 0 .. ( ($size) / 8 ) ) { |
| |
my $pt = substr $plaintext, $_ * 8, 8; |
| |
|
| |
#print "PT: '$pt' - Length: " . length($pt) . "\n"; |
| |
if (! length $pt) { next; }; |
| |
if ( (length $pt) < 8 ) { |
| |
if ($flag == $DECRYPT) { croak('record not 8 byte padded'); }; |
| |
my $len = 8 - (length $pt); |
| |
|
| |
#print "LENGTH: $len\n"; |
| |
#print "Binary: '" . unpack("b*", $pt) . "'\n"; |
| |
$pt .= ($NULL x $len); |
| |
|
| |
#print "PT: '$pt' - Length: " . length($pt) . "\n"; |
| |
#print "Binary: '" . unpack("b*", $pt) . "'\n"; |
| |
} |
| |
if ( $flag == $ENCRYPT ) { |
| |
$pt = $C[0]->encrypt($pt); |
| |
$pt = $C[1]->decrypt($pt); |
| |
$pt = $C[2]->encrypt($pt); |
| |
} |
| |
else { |
| |
$pt = $C[0]->decrypt($pt); |
| |
$pt = $C[1]->encrypt($pt); |
| |
$pt = $C[2]->decrypt($pt); |
| |
} |
| |
|
| |
#print "PT: '$pt' - Length: " . length($pt) . "\n"; |
| |
$cyphertext .= $pt; |
| |
} |
| |
|
| |
$cyphertext =~ s/$NULL+$//xm; |
| |
|
| |
#print "CT: '$cyphertext' - Length: " . length($cyphertext) . "\n"; |
| |
|
| |
return $cyphertext; |
| } |
} |
| |
|
| sub _keyring_verify |
1; |
| { |
__END__ |
| my $self = shift; |
|
| my $pass = shift; |
|
| |
|
| die "No password specified!" unless $pass; |
=head1 NAME |
| $self->{password} = $pass; |
|
| |
|
| # AFAIK the thing we use to test the password is |
Palm::Keyring - Handler for Palm Keyring databases. |
| # always in the first entry |
|
| my $data = $self->{records}->[1]->{data}; |
|
| #die "No encrypted password in file!" unless defined $data; |
|
| return undef unless defined $data; |
|
| |
|
| $data =~ s/\0$//; |
=head1 DESCRIPTION |
| |
|
| my $salt = substr($data, 0, $kSaltSize); |
The Keyring PDB handler is a helper class for the Palm::PDB package. It |
| |
parses Keyring for Palm OS databases. See |
| |
L<http://gnukeyring.sourceforge.net/>. |
| |
|
| my $msg = $salt . $pass; |
It has the standard Palm::PDB methods with 2 additional public methods. |
| |
Decrypt and Encrypt. |
| |
|
| $msg .= "\0" x (MD5_CBLOCK - length($msg)); |
It currently supports the v4 Keyring databases. The v5 databases from the pre-release keyring-2.0 are not supported. |
| |
|
| my $digest = md5($msg); |
=head1 SYNOPSIS |
| |
|
| if ($data eq $salt . $digest) { |
use Palm::PDB; |
| # May as well generate the keys we need now, since we know the password is right |
use Palm::Keyring; |
| $self->{digest} = _calc_keys($self->{password}); |
my $pdb = new Palm::PDB; |
| if ($self->{digest}) { |
$pdb->Load($file); |
| return 1; |
foreach my $rec (@{ $pdb->{'records'} }) { |
| } else { |
print "$rec->{'plaintext'}->{'name'}\n"; |
| return undef; |
|
| } |
|
| } else { |
|
| return undef; |
|
| } |
} |
| } |
$pdb->Decrypt($password); |
| |
# do something with the decrypted parts |
| |
|
| sub _keyring_update |
=head1 SUBROUTINES/METHODS |
| { |
|
| # It is very important to Encrypt after calling this |
|
| # (Although it is generally only called by Encrypt) |
|
| # because otherwise the data will be out of sync with the |
|
| # password, and that would suck! |
|
| my $self = shift; |
|
| my $pass = shift; |
|
| |
|
| die "No password specified!" unless $pass; |
=head2 new |
| |
|
| # if the database already has a password in it |
$pdb = new Palm::Keyring([$password]); |
| if ($self->{records}->[1]->{data}) { |
|
| # Make sure everything is decrypted before we update the keyring |
|
| $self->Decrypt() || return undef; |
|
| } |
|
| |
|
| my $salt; |
Create a new PDB, initialized with the various Palm::Keyring fields |
| for (1..$kSaltSize) { |
and an empty record list. |
| $salt .= chr(int(rand(255))); |
|
| } |
|
| |
|
| my $msg = $salt . $pass; |
Use this method if you're creating a Keyring PDB from scratch otherwise you |
| |
can just use Palm::PDB::new(). |
| |
|
| $msg .= "\0" x (MD5_CBLOCK - length($msg)); |
=head2 Load |
| |
|
| my $digest = md5($msg); |
$pdb->Load($filename[, $password]); |
| |
|
| my $data = $salt . $digest;# . "\0"; |
Overrides the standard Palm::Raw Load() to add |
| |
$rec->{'plaintext'}->{'name'} and |
| |
$rec->{'encrypted'} fields. |
| |
$rec->{'plaintext'}->{'name'} holds the name of the record, |
| |
$rec->{'encrypted'} is the encrypted information in the PDB. |
| |
|
| # AFAIK the thing we use to test the password is |
It also takes an additional optional parameter, which is the password to use to |
| # always in the first entry |
decrypt the database. |
| $self->{records}->[1]->{data} = $data; |
|
| |
|
| $self->{password} = $pass; |
See Decrypt() for the additional fields that are available after decryption. |
| $self->{digest} = _calc_keys($self->{password}); |
|
| |
|
| return 1; |
=head2 Write |
| } |
|
| |
|
| |
$pdb->Write($filename[, $password]); |
| |
|
| # XXX It looks like they are using des_ecb2_encrypt so I dunno if that is different |
Just like the Palm::Raw::Write() but encrypts everything before saving. |
| sub _crypt3des { |
|
| my ( $plaintext, $passphrase, $flag ) = @_; |
|
| |
|
| $passphrase .= ' ' x (16*3); |
Also takes an optional password to encrypt with a new password, not needed |
| my $cyphertext = ""; |
unless you are changing the password. |
| |
|
| my $size = length ( $plaintext ); |
=head2 Encrypt |
| #print "STRING: '$plaintext' - Length: " . length($plaintext) . "\n"; |
|
| |
|
| my @C; |
$pdb->Encrypt([$password]); |
| for ( 0..2 ) { |
|
| $C[$_] = new Crypt::DES( pack( "H*", substr($passphrase, 16*$_, 16 ))); |
|
| } |
|
| |
|
| |
Encrypts the PDB, either with the password used to decrypt or create it, or |
| |
optionally with a password that is passed. |
| |
|
| # XXX From Crypt::TripleDES |
See Decrypt() for an what plaintext fields are available to be encrypted. |
| # http://search.cpan.org/src/VIPUL/Crypt-TripleDES-0.24/lib/Crypt/TripleDES.pm |
|
| # |
|
| # for ( 0 .. (($size)/8) -1 ) { |
|
| # my $pt = substr( $plaintext, $_*8, 8 ); |
|
| # $pt = Crypt::PPDES::des_ecb_encrypt( $flag ? $keyvecs{0} : $keyvecs{2}, $flag, $pt ); |
|
| # $pt = Crypt::PPDES::des_ecb_encrypt( $keyvecs{1}, (not $flag), $pt ); |
|
| # $pt = Crypt::PPDES::des_ecb_encrypt( $flag ? $keyvecs{2} : $keyvecs{0}, $flag, $pt ); |
|
| # $cyphertext .= $pt; |
|
| # } |
|
| |
|
| for ( 0 .. (($size)/8) - 1) { |
=head2 Decrypt |
| my $pt = substr( $plaintext, $_*8, 8 ); |
|
| #print "PT: '$pt' - Length: " . length($pt) . "\n"; |
|
| if (length($pt) < 8) { |
|
| die "record not 8 byte padded" if $flag == DECRYPT; |
|
| my $len = 8 - length($pt); |
|
| #print "LENGTH: $len\n"; |
|
| #print "Binary: '" . unpack("b*", $pt) . "'\n"; |
|
| $pt .= (chr(0) x $len);# . $pt; |
|
| #print "Binary: '" . unpack("b*", $pt) . "'\n"; |
|
| #print "PT: '$pt' - Length: " . length($pt) . "\n"; |
|
| } |
|
| $pt = $C[0]->decrypt( $pt ); |
|
| $pt = $C[1]->encrypt( $pt ); |
|
| $pt = $C[2]->decrypt( $pt ); |
|
| #print "PT: '$pt' - Length: " . length($pt) . "\n"; |
|
| $cyphertext .= $pt; |
|
| } |
|
| |
|
| return substr ( $cyphertext, 0, $size ); |
$pdb->Decrypt([$password]); |
| } |
|
| |
|
| 1; |
Decrypts the PDB and fills out the rest of the fields available in |
| __END__ |
$rec->{'plaintext'}. |
| |
|
| |
The plaintext should now be this, before encryption or after decryption: |
| |
|
| |
$rec->{'plaintext'} = { |
| |
name => $name, |
| |
account => $account, |
| |
password => $account_password, |
| |
description => $description, |
| |
}; |
| |
|
| |
=head1 DEPENDENCIES |
| |
|
| |
Palm::StdAppInfo |
| |
|
| |
Digest::MD5 |
| |
|
| |
Crypt::DES |
| |
|
| |
Readonly |
| |
|
| |
=head1 BUGS AND LIMITATIONS |
| |
|
| |
Once this module is uploaded, you can |
| |
Please report any bugs or feature requests to |
| |
C<bug-palm-keyring at rt.cpan.org>, or through the web interface at |
| |
L<http://rt.cpan.org>. I will be notified, and then you'll automatically be |
| |
notified of progress on your bug as I make changes. |
| |
|
| =head1 AUTHOR |
=head1 AUTHOR |
| |
|
| Andrew Fresh E<lt>andrew@mad-techies.org<gt> |
Andrew Fresh E<lt>andrew@mad-techies.orgE<gt> |
| |
|
| |
=head1 LICENSE AND COPYRIGHT |
| |
|
| |
You may distribute this file under the terms of perl itself |
| |
as specified in the LICENSE file. |
| |
|
| |
Copyright 2004, 2005, 2006, 2007 Andrew Fresh, All Rights Reserved. |
| |
|
| |
This program is free software; you can redistribute it and/or modify it |
| |
under the same terms as Perl itself. |
| |
|
| =head1 SEE ALSO |
=head1 SEE ALSO |
| |
|
| Palm::PDB(3) |
Palm::PDB(3) |
| |
|
| Palm::StdAppInfo(3) |
Palm::StdAppInfo(3) |
| |
|
| =cut |
The Keyring for Palm OS website: |
| |
L<http://gnukeyring.sourceforge.net/> |
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