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File.pm
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File.pm
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package Parse::Win32Registry::WinNT::File;
use strict;
use warnings;
use base qw(Parse::Win32Registry::File);
use Carp;
use Encode;
use File::Basename;
use Parse::Win32Registry::Base qw(:all);
use Parse::Win32Registry::WinNT::Key;
use constant REGF_HEADER_LENGTH => 0x200;
use constant OFFSET_TO_FIRST_HBIN => 0x1000;
sub new {
my $class = shift;
my $filename = shift or croak "No filename specified";
open my $fh, '<', $filename or croak "Unable to open '$filename': $!";
# 0x00 dword = 'regf' signature
# 0x04 dword = seq1
# 0x08 dword = seq2
# 0x0c qword = timestamp
# 0x14 dword = major version
# 0x18 dword = minor version
# 0x1c dword = type (0 = registry file, 1 = log file)
# 0x20 dword = (1)
# 0x24 dword = offset to root key
# 0x28 dword = total length of all hbins (excludes header)
# 0x2c dword = (1)
# 0x30 = embedded filename
# Extracted offsets are always relative to first hbin
my $bytes_read = sysread($fh, my $regf_header, REGF_HEADER_LENGTH);
if ($bytes_read != REGF_HEADER_LENGTH) {
warnf('Could not read registry file header');
return;
}
my ($regf_sig,
$seq1,
$seq2,
$timestamp,
$major_version,
$minor_version,
$type,
$offset_to_root_key,
$total_hbin_length,
$embedded_filename,
$reorg_timestamp,
) = unpack('a4VVa8VVVx4VVx4a64x56a8', $regf_header);
# Updated 20200219
#----------------------------------------------------------------------------
$bytes_read = sysread($fh, my $re_org, 8, 168);
if ($bytes_read != 8) {
warnf('Could not read re_org timestamp');
return;
}
#----------------------------------------------------------------------------
$offset_to_root_key += OFFSET_TO_FIRST_HBIN;
if ($regf_sig ne 'regf') {
warnf('Invalid registry file signature');
return;
}
$embedded_filename = unpack('Z*', decode('UCS-2LE', $embedded_filename));
# The header checksum is the xor of the first 127 dwords.
# The checksum is stored in the 128th dword, at offset 0x1fc (508).
my $checksum = 0;
foreach my $x (unpack('V127', $regf_header)) {
$checksum ^= $x;
}
my $embedded_checksum = unpack('x508V', $regf_header);
if ($checksum != $embedded_checksum) {
warnf('Invalid checksum for registry file header');
}
my $self = {};
$self->{_filehandle} = $fh;
$self->{_filename} = $filename;
$self->{_length} = (stat $fh)[7];
$self->{_offset_to_root_key} = $offset_to_root_key;
$self->{_timestamp} = unpack_windows_time($timestamp);
#----------------------------------------------------------------------------
$self->{_reorg_timestamp} = unpack_windows_time($reorg_timestamp);
#----------------------------------------------------------------------------
$self->{_embedded_filename} = $embedded_filename;
$self->{_seq1} = $seq1;
$self->{_seq2} = $seq2;
$self->{_version} = "$major_version.$minor_version";
$self->{_type} = $type;
$self->{_total_hbin_length} = $total_hbin_length;
$self->{_embedded_checksum} = $embedded_checksum;
$self->{_security_cache} = {}; # comment out to disable cache
bless $self, $class;
return $self;
}
sub get_root_key {
my $self = shift;
my $offset_to_root_key = $self->{_offset_to_root_key};
my $root_key = Parse::Win32Registry::WinNT::Key->new($self,
$offset_to_root_key);
return $root_key;
}
sub get_virtual_root_key {
my $self = shift;
my $fake_root = shift;
my $root_key = $self->get_root_key;
return if !defined $root_key;
if (!defined $fake_root) {
# guess virtual root from filename
my $filename = basename $self->{_filename};
if ($filename =~ /NTUSER/i) {
$fake_root = 'HKEY_CURRENT_USER';
}
elsif ($filename =~ /USRCLASS/i) {
$fake_root = 'HKEY_CLASSES_ROOT';
}
elsif ($filename =~ /SOFTWARE/i) {
$fake_root = 'HKEY_LOCAL_MACHINE\SOFTWARE';
}
elsif ($filename =~ /SYSTEM/i) {
$fake_root = 'HKEY_LOCAL_MACHINE\SYSTEM';
}
elsif ($filename =~ /SAM/i) {
$fake_root = 'HKEY_LOCAL_MACHINE\SAM';
}
elsif ($filename =~ /SECURITY/i) {
$fake_root = 'HKEY_LOCAL_MACHINE\SECURITY';
}
else {
$fake_root = 'HKEY_UNKNOWN';
}
}
$root_key->{_name} = $fake_root;
$root_key->{_key_path} = $fake_root;
return $root_key;
}
sub get_timestamp {
my $self = shift;
return $self->{_timestamp};
}
sub get_timestamp_as_string {
my $self = shift;
return iso8601($self->{_timestamp});
}
# Added 20200219
#---------------------------------------------------------
sub get_version {
my $self = shift;
return $self->{_version};
}
sub get_reorg_timestamp {
my $self = shift;
return $self->{_reorg_timestamp};
}
sub get_seq1 {
my $self = shift;
return $self->{_seq1};
}
sub get_seq2 {
my $self = shift;
return $self->{_seq2};
}
sub is_dirty {
my $self = shift;
if ($self->{_seq1} == $self->{_seq2}) {
return 0;
}
else {
return 1;
}
}
sub get_type {
my $self = shift;
if ($self->{_type} == 0) {
return "Registry file";
}
elsif ($self->{_type} == 1) {
return "Log file";
}
else {
return "Unknown (".$self->{_type}.")";
}
}
#---------------------------------------------------------
sub get_embedded_filename {
my $self = shift;
return $self->{_embedded_filename};
}
sub get_block_iterator {
my $self = shift;
my $offset_to_next_hbin = OFFSET_TO_FIRST_HBIN;
my $end_of_file = $self->{_length};
return Parse::Win32Registry::Iterator->new(sub {
if ($offset_to_next_hbin > $end_of_file) {
return; # no more hbins
}
if (my $hbin = Parse::Win32Registry::WinNT::Hbin->new($self,
$offset_to_next_hbin))
{
return unless $hbin->get_length > 0;
$offset_to_next_hbin += $hbin->get_length;
return $hbin;
}
else {
return; # no more hbins
}
});
}
*get_hbin_iterator = \&get_block_iterator;
sub _dump_security_cache {
my $self = shift;
if (defined(my $cache = $self->{_security_cache})) {
foreach my $offset (sort { $a <=> $b } keys %$cache) {
my $security = $cache->{$offset};
printf '0x%x %s\n', $offset, $security->as_string;
}
}
}
package Parse::Win32Registry::WinNT::Hbin;
use strict;
use warnings;
use base qw(Parse::Win32Registry::Entry);
use Carp;
use Parse::Win32Registry::Base qw(:all);
use Parse::Win32Registry::WinNT::Entry;
use constant HBIN_HEADER_LENGTH => 0x20;
sub new {
my $class = shift;
my $regfile = shift;
my $offset = shift;
croak 'Missing registry file' if !defined $regfile;
croak 'Missing offset' if !defined $offset;
my $fh = $regfile->get_filehandle;
# 0x00 dword = 'hbin' signature
# 0x04 dword = offset from first hbin to this hbin
# 0x08 dword = length of this hbin / relative offset to next hbin
# 0x14 qword = timestamp (first hbin only)
# Extracted offsets are always relative to first hbin
sysseek($fh, $offset, 0);
my $bytes_read = sysread($fh, my $hbin_header, HBIN_HEADER_LENGTH);
if ($bytes_read != HBIN_HEADER_LENGTH) {
return;
}
my ($sig,
$offset_to_hbin,
$length,
$timestamp) = unpack('a4VVx8a8x4', $hbin_header);
if ($sig ne 'hbin') {
return;
}
my $self = {};
$self->{_regfile} = $regfile;
$self->{_offset} = $offset;
$self->{_length} = $length;
$self->{_header_length} = HBIN_HEADER_LENGTH;
$self->{_allocated} = 1;
$self->{_tag} = $sig;
$self->{_timestamp} = unpack_windows_time($timestamp);
bless $self, $class;
return $self;
}
sub get_timestamp {
my $self = shift;
return $self->{_timestamp};
}
sub get_timestamp_as_string {
my $self = shift;
return iso8601($self->{_timestamp});
}
sub get_entry_iterator {
my $self = shift;
my $regfile = $self->{_regfile};
my $offset = $self->{_offset};
my $length = $self->{_length};
my $offset_to_next_entry = $offset + HBIN_HEADER_LENGTH;
my $end_of_hbin = $offset + $length;
return Parse::Win32Registry::Iterator->new(sub {
if ($offset_to_next_entry >= $end_of_hbin) {
return; # no more entries
}
if (my $entry = Parse::Win32Registry::WinNT::Entry->new($regfile,
$offset_to_next_entry))
{
return unless $entry->get_length > 0;
$offset_to_next_entry += $entry->get_length;
return $entry;
}
else {
return; # no more entries
}
});
}
1;