path: root/isohybrid-acritox

#!/usr/bin/perl
# isohybrid-acritox - written by Andreas Loibl <andreas@andreas-loibl.de>
# 
# Post-process an ISO 9660 image generated with mkisofs/genisoimage and equipped with
# an embedded isohybrid-acritox space-file (default filename: /boot.isohybrid)
# to allow "multi-hybrid booting" as CD-ROM (EFI or El Torito) or as a hard-drive 
# (e.g. a USB pendrive) on Intel-Macs (EFI) and PCs (EFI or MBR). By adding a fake
# ISO9660-structure of the original image as partition inside the image it is possible
# to repartition such a multi-hybrid-image even when it is currently being used live.
# 
# This is accomplished by:
# * embedding a FAT-filesystem containing GRUB2EFI into the space-file
# * embedding a modified copy of the ISO9660-structure into the space-file
# * appending a HFS+-partiton containing GRUB2EFI at the end of the image
# * injecting an "Apple Partition Map" into the image referencing the HFS+-partition
# * adding a MBR partition table with two partitions:
#   1. EFI-FAT-partition representing the FAT-filesystem in the space-file
#   2. ISO-partition referencing the fake-ISO9660-header in the space-file,
#      spanning until the end of the image

# name of the isohybrid-acritox space-file embedded in the ISO
# NOTE: it is important that this file is the first file on the ISO, so make sure 
# you use the "-sort" option for mkisofs/genisofs and give it the highest weight
$space_filename="boot.isohybrid";

# EFI-FAT-image options
$fat_filename="efi-fat.img";
$fat_label="KANOTIX_EFI";

# EFI-HFS+-image options
$hfs_filename="efi-hfs.img";
$hfs_label="KANOTIX Mac";
$hfs_vollabel="http://kanotix.acritox.com/files/mac/label.vollabel";
$hfs_extras="http://kanotix.acritox.com/files/mac/imagewriter.tar.gz";

# Enable verbose debug ouput if $debug=1;
$debug=1;

# blocksize 
$bs=0x0800; # 2048 bytes

# 512byte boot.img
$mbr='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';

# Apple Partition Map entries:
$pm1='504d000000000003000000010000000f4170706c650000000000000000000000000000000000000000000000000000004170706c655f706172746974696f6e5f6d617000000000000000000000000000000000000000000f00000003'; # Apple_partition_map
$pm2='504d00000000000300000400000005006469736b20696d616765000000000000000000000000000000000000000000004170706c655f4846530000000000000000000000000000000000000000000000000000000000040040000033'; # Apple_HFS
$pm3='504d00000000000300000001000004004b414e4f5449585f454649000000000000000000000000000000000000000000444f535f4641545f313200000000000000000000000000000000000000000000000000000000040040000033'; # DOS_FAT_12

# Pad the image to a fake cylinder boundary
$cylsize = 1024*1024; # 1MB

use File::Temp qw/ tempdir /;

die "Usage: $0 <binary-hybrid.iso>\n" if $#ARGV != 0;

use integer;
sub max ($$) { $_[$_[0] < $_[1]] }
sub min ($$) { $_[$_[0] > $_[1]] }

($file) = @ARGV;

open(FIMG, "+< $file\0") or die "$0: cannot open $file: $!\n";
binmode FIMG;

# Check if image has already been "patched" (i.e. it has the APM signature from $block0)
seek(FIMG, 0, SEEK_SET) or die "$0: $file: $!\n";
read(FIMG, $test, 2) == 2 or die "$0: $file: read error\n";
die "$file seems to have an APM signature already...\n" if($test eq 'ER');

# Check if image is already a isohybrid-bg2 image (i.e. it has GRUB in its MBR)
seek(FIMG, 0x180, SEEK_SET) or die "$0: $file: $!\n";
read(FIMG, $test, 4) == 4 or die "$0: $file: read error\n";
die "$file seems to have GRUB in its MBR already...\n" if($test eq 'GRUB');

die "$0: /usr/bin/isoinfo missing!\n" unless (-e '/usr/bin/isoinfo');

# Get the position of the space-file
$csf_pos_blk = int(`/usr/bin/isoinfo -R -s -l -i "$file" | awk '/$space_filename/{print \$10}'`);
if (!$csf_pos_blk) {
    die "$0: cannot determine position of space-file: $space_filename\n";
}
$csf_pos_lba = $csf_pos_blk*4;
$csf_pos = $csf_pos_lba*512;

# Get the size of the space-file
$csf_size_blk = int(`/usr/bin/isoinfo -R -s -l -i "$file" | awk '/$space_filename/{print \$5}'`);
if (!$csf_size_blk) {
    die "$0: cannot determine size of space-file: $space_filename\n";
}
$csf_size_lba = $csf_size_blk*4;
$csf_size = $csf_size_lba*512;

# Get the total size of the image
(@imgstat = stat(FIMG)) or die "$0: $file: $!\n";
$imgsize = $imgstat[7];
if (!$imgsize) {
    die "$0: $file: cannot determine length of file\n";
}

print "imgsize: $imgsize\n" if($debug);

# Fixed position of FAT partition at LBA 2048
# TODO: add check if LBA 2048 is actually inside the space-file
$fat_pos_lba = 2048;
$fat_pos = $fat_pos_lba*512;
$fat_pos_blk = $fat_pos_lba/4;

# Set the maximum size of the FAT partiton
$fat_maxsize_blk = $csf_size_blk - $fat_pos_blk;
$fat_maxsize_blk -= $fat_maxsize_blk % 16;

# Create mountpoint for the ISO
$mountpoint = tempdir( CLEANUP =>  1 );

# Generate the FAT partition
print <<`SHELL`;
if [ ! -x /usr/bin/mmd ]; then
        echo "Error: mtools are needed! Run: apt-get install mtools" >&2
        exit 1
fi
if [ ! -x /sbin/mkfs.msdos ]; then
        echo "Error: mkfs.msdos is needed! Run: apt-get install dosfstools" >&2
        exit 1
fi
if [ ! -x /sbin/mkfs.hfsplus ]; then
        echo "Error: mkfs.hfsplus is needed! Run: apt-get install hfsprogs" >&2
        exit 1
fi

rm -f "$fat_filename"

# Mount the ISO
mount -o loop "$file" "$mountpoint"

# Stuff boot*.efi into a FAT filesystem 
# mkfs.msdos has blocksize 1024 => multiply with 2
mkfs.msdos -n "$fat_label" -C "$fat_filename" \$(($fat_maxsize_blk*2)) >&2
mmd -i "$fat_filename" ::efi
mmd -i "$fat_filename" ::efi/boot
for file in "$mountpoint"/efi/boot/boot*.efi
do
        mcopy -i "$fat_filename" \$file "::efi/boot/\$(basename "\$file")"
done

# hide the FAT-EFI-partition from the Mac Bootloader by f***ing up the "EFI" directory entry
mattrib -i "$fat_filename" +h ::efi
sed -i -e '0,/EFI        /s/EFI        /efi        /' "$fat_filename"

exit 0
SHELL
die "$0: EFI-FAT-image creation failed" if (${^CHILD_ERROR_NATIVE});

open(FFAT, "< $fat_filename\0") or die "$0: cannot open $fat_filename: $!\n";
binmode FFAT;

# Get the total size of the FAT partiton
(@fat_stat = stat(FFAT)) or die "$0: $fat_filename: $!\n";
$fat_size = $fat_stat[7];
$fat_size_lba = $fat_size/512;
$fat_size_blk = $fat_size_lba/4;
if (!$fat_size) {
    die "$0: $fat_filename: cannot determine length of file\n";
}

print "fat_pos: $fat_pos fat_size: $fat_size\n" if($debug);

# Write FAT partition to image
seek(FFAT, 0, SEEK_SET) or die "$0: $fat_filename: $!\n";
read FFAT, $partition, $fat_size;
seek(FIMG, $fat_pos, SEEK_SET) or die "$0: $file: $!\n";
print FIMG $partition;
close(FFAT);

# Generate the HFS partition
$inode = int(<<`SHELL`);
img="$hfs_filename"
label="$hfs_label"
vollabel="$hfs_vollabel"
extras="$hfs_extras"
workdir=

cleanup () {
        [ "\$workdir" ] || exit
	umount "\$workdir" 2>/dev/null | :
	rm -rf "\$workdir"
}
trap cleanup EXIT HUP INT QUIT TERM

workdir="\$(mktemp -d efi-image.XXXXXX)"

# Stuff boot*.efi into a HFS+ filesystem, making it as small as possible (in MB steps).
# (x+1023)/1024*1024 rounds up to multiple of 1024.
dd if=/dev/zero of="\$img" bs=1k count=\$(( (\$(stat -c %s "$mountpoint"/efi/boot/boot*.efi | awk '{s+=\$1} END {print s}') / 1024 + 1023) / 1024 * 1024 )) 2>/dev/null
mkfs.hfsplus -v "\$label" "\$img" >&2
mount -o loop,creator=prhc,type=jxbt,uid=99,gid=99 "\$img" "\$workdir"
case "\$vollabel" in
http*|ftp*)
	wget -qO"\$workdir"/.disk_label "\$vollabel"
	;;
*)
	[ -e "\$vollabel" ] && cp "\$vollabel" "\$workdir"/.disk_label
	;;
esac
mkdir -p "\$workdir"/efi/boot

for file in "$mountpoint"/efi/boot/boot*.efi
do
	cp "\$file" "\$workdir/efi/boot/\$(basename "\$file")"
done

for extra in \$extras
do
	extrabase="\$(basename "\$extra")"
	case "\$extra" in
	http*|ftp*)
		wget -qO"\$workdir/\$extrabase" "\$extra"
		;;
	*)
		[ -e "\$extra" ] && cp "\$extra" "\$workdir/\$extrabase"
		;;
	esac
	case "\$extrabase" in
	*.tar.gz)
		if [ -e "\$workdir/\$extrabase" ]; then
			tar xzf "\$workdir/\$extrabase" -C "\$workdir"
			rm "\$workdir/\$extrabase"
		fi
		;;
	esac
done

set -- \$(ls -ir \$workdir/efi/boot/boot*.efi)
inode=\$1

umount "$mountpoint"
umount "\$workdir"
# return the inode that needs to be blessed
echo "\$inode"
exit 0
SHELL
die "$0: EFI-HFS-image creation failed" if (${^CHILD_ERROR_NATIVE} || $inode < 1);

open(FHFS, "+< $hfs_filename\0") or die "$0: cannot open $hfs_filename: $!\n";
binmode FHFS;

# Check if partition contains a HFS+ filesystem
seek(FHFS, 0x400, SEEK_SET) or die "$0: $file: $!\n";
read(FHFS, $test, 2) == 2 or die "$0: $file: read error\n";
die "$hfs_filename doesn't seem to contain a HFS+ filesystem\n" if($test ne 'H+');

# Bless the HFS image
print "HFS: blessing file with inode $inode\n" if($debug);
seek(FHFS, 0x450, SEEK_SET) or die "$!\n";
print FHFS pack('NN', 2, $inode);
seek(FHFS, 0x464, SEEK_SET) or die "$!\n";
print FHFS pack('N', 2, $inode);

# Get the total size of the HFS partiton
(@hfs_stat = stat(FHFS)) or die "$0: $hfs_filename: $!\n";
$hfs_size = $hfs_stat[7];
$hfs_size_lba = $hfs_size/512;
$hfs_size_blk = $hfs_size_lba/4;
if (!$hfs_size) {
    die "$0: $hfs_filename: cannot determine length of file\n";
}

# Write MBR
seek(FIMG, 0, SEEK_SET) or die "$0: $file: $!\n";
print FIMG pack('H*',$mbr);
# Update GRUB2 locations
seek(FIMG, 0x5c, SEEK_SET) or die "$0: $file: $!\n";
print FIMG pack("V", $csf_pos_lba);
seek(FIMG, $csf_pos + 0x1f4, SEEK_SET) or die "$0: $file: $!\n";
print FIMG pack("V", $csf_pos_lba+1);
# Write ApplePartitionMap entries
seek(FIMG, $bs*1, SEEK_SET) or die "$0: $file: $!\n";
print FIMG pack('H*',$pm1);
seek(FIMG, $bs*2, SEEK_SET) or die "$0: $file: $!\n";
print FIMG pack('H*',$pm2);
seek(FIMG, $bs*3, SEEK_SET) or die "$0: $file: $!\n";
print FIMG pack('H*',$pm3);

# Pad the image to a fake cylinder boundary
$frac = $imgsize % $cylsize;
$padding = ($frac > 0) ? $cylsize - $frac : 0;
if ($padding) {
    seek(FIMG, $imgsize, SEEK_SET) or die "$0: $file: $!\n";
    print FIMG "\0" x $padding;
    $imgsize += $padding;
}

# Position of the HFS partition
$hfs_pos = $imgsize;
$hfs_pos_lba = $hfs_pos/512;
$hfs_pos_blk = $hfs_pos_lba/4;

# Append HFS partition to image
seek(FHFS, 0, SEEK_SET) or die "$0: $file: $!\n";
read FHFS, $partition, $hfs_size;
seek(FIMG, $imgsize, SEEK_SET) or die "$0: $file: $!\n";
print FIMG $partition;
close(FHFS);

# Pad the HFS partition to a fake cylinder boundary
$frac = $hfs_size % $cylsize;
$padding = ($frac > 0) ? $cylsize - $frac : 0;
if ($padding) {
    print FIMG "\0" x $padding;
}
$hfs_size += $padding;
$hfs_size_lba = $hfs_size/512;
$hfs_size_blk = $hfs_size_lba/4;

print "hfs_pos: $hfs_pos hfs_size: $hfs_size\n" if($debug);

# Adjust $pm2 (Apple_HFS)
# "physical block start" and "physical block count" of partition:
seek(FIMG, $bs*2+8, SEEK_SET) or die "$0: $file: $!\n";
print FIMG pack('NN', $hfs_pos_blk, $hfs_size_blk);
# "logical block start" and "logical block count" of partition:
seek(FIMG, $bs*2+80, SEEK_SET) or die "$0: $file: $!\n";
print FIMG pack('NN', 0, $hfs_size_blk);

# Adjust $pm3 (DOS_FAT_12)
# "physical block start" and "physical block count" of partition:
seek(FIMG, $bs*3+8, SEEK_SET) or die "$0: $file: $!\n";
print FIMG pack('NN', $fat_pos_blk, $fat_size_blk);
# "logical block start" and "logical block count" of partition:
seek(FIMG, $bs*3+80, SEEK_SET) or die "$0: $file: $!\n";
print FIMG pack('NN', 0, $fat_size_blk);

$imgsize += $hfs_size;
seek(FIMG, $imgsize, SEEK_SET) or die "$0: $file: $!\n";

# Pad the image to a fake cylinder boundary
$frac = $imgsize % $cylsize;
$padding = ($frac > 0) ? $cylsize - $frac : 0;
$imgsize += $padding;
if ($padding) {
    print FIMG "\0" x $padding;
}

# Position of the ISO partition: one block after the FAT partition
$iso_pos_blk = $fat_pos_blk + $fat_size_blk;
$iso_pos_lba = $iso_pos_blk*4;
$iso_pos = $iso_pos_lba*512;
# Size of the ISO partition: spanning until the end of the image (including HFS partition)
$iso_size = $imgsize - $iso_pos;
$iso_size_lba = $iso_size/512;
$iso_size_blk = $iso_size_lba/4;

print "iso_pos: $iso_pos iso_size: $iso_size\n" if($debug);
print "final imgsize: $imgsize\n" if($debug);

# Calculate and write partiton table (MBR)
sub lba2chs
{
    my $lba = @_;
    my $hpc = 64, $spt = 32, $c, $h, $s;
    $c = $lba / ($spt * $hpc);
    $h = ($lba / $spt) % $hpc;
    $s = ($lba % $spt) + 1;
    if($c >= 1024)
    {
        $c = 1023;
        $h = 254;
        $s = 63;
    }
    #   Head     Sect     Cyl   
    # <-Byte-> <-Byte-> <-Byte->
    # 76543210 98543210 76543210
    # HHHHHHHH CCSSSSSS CCCCCCCC
    $s += ($c & 0x300) >> 2;
    $c &= 0xff;
    return ($c, $h, $s);
}

$pentry  = 1;
$fstype  = 0xEF;
($bcyl, $bhead, $bsect) = lba2chs($fat_pos_lba);
($ecyl, $ehead, $esect) = lba2chs($fat_pos_lba+$fat_size_lba-1);
seek(FIMG, 430+16*$pentry, SEEK_SET) or die "$0: $file: $!\n";
print FIMG pack("CCCCCCCCVV", 0x80, $bhead, $bsect, $bcyl, $fstype, $ehead, $esect, $ecyl, $fat_pos_lba, $fat_size_lba);

$pentry  = 2;
$fstype  = 0x83;
($bcyl, $bhead, $bsect) = lba2chs($iso_pos_lba);
($ecyl, $ehead, $esect) = lba2chs($iso_pos_lba+$iso_size_lba-1);
seek(FIMG, 430+16*$pentry, SEEK_SET) or die "$0: $file: $!\n";
print FIMG pack("CCCCCCCCVV", 0x00, $bhead, $bsect, $bcyl, $fstype, $ehead, $esect, $ecyl, $iso_pos_lba, $iso_size_lba);

# Delete partition entries 3 and 4
print FIMG "\0" x 32;

# Embed a copy of the ISO filesystem into the ISO at the second partition
seek(FIMG, 0, SEEK_SET) or die "$0: $file: $!\n";
read FIMG, $iso_copy, $csf_pos;
seek(FIMG, $iso_pos, SEEK_SET) or die "$0: $file: $!\n";
print FIMG $iso_copy;

sub write_val
{
	my($offset, $value) = @_;
	$cur = tell(FIMG);
	$offset += $cur if $offset < 0;
	printf("byte-offset: 0x%X -> 0x%X\n", $offset, $offset-$iso_pos) if($debug);
	seek(FIMG, $offset, SEEK_SET);
	print FIMG $value;
	seek(FIMG, $cur, SEEK_SET);
}

# ISO9660 Primary Volume Descriptor
$off_pvd = $iso_pos+0x8000;
do
{
	seek(FIMG, $off_pvd, SEEK_SET) or die "$0: $file: $!\n";
	read(FIMG, $voldesc_head, 7) > 0 or die "$0: $file: read error\n";
	($type, $magic, $version) = unpack("Ca[5]C", $voldesc_head);
	if($type == 1)
	{
		seek(FIMG, 0x97, 1);
		read(FIMG, $voldesc, 8) > 0 or die "$0: $file: read error\n";
		($first_sector_blk, $first_sector_blk_be) = unpack("VN", $voldesc);
		seek(FIMG, $iso_pos+$first_sector_blk*$bs, SEEK_SET) or die "$0: $file: $!\n";
		printf("root-directory entry at 0x%X:\n", tell(FIMG)) if($debug);
		read(FIMG, $bytes, 1) > 0 or die "$0: $file: read error\n";
		$bytes = unpack("C", $bytes) - 1; $sector_blk = 0;
		do {
			printf("SUSP entry - %u bytes (0x%X)\n", $bytes+1, $bytes+1) if($debug);
			do {
				$wp = tell(FIMG);
				$bytes -= read(FIMG, $voldesc, 32);
				($ext_sectors, $susp_pos_blk, $susp_pos_blk_be, $size, $size_be, $uu, $namelen)
					= unpack("CVNVNa[14]C", $voldesc);
				if($susp_pos_blk > $iso_pos_blk)
				{
					printf("LBA 0x%x -> LBA 0x%x\n", $susp_pos_blk, $susp_pos_blk - $iso_pos_blk) if($debug);
					write_val($wp+1, pack("VN", $susp_pos_blk - $iso_pos_blk, $susp_pos_blk - $iso_pos_blk));
				}
				$namelen++ if $namelen % 2 == 0;
				$bytes -= read(FIMG, $name, $namelen);
				$filename = unpack("Z*", $name);
				print("file: $filename\n") if($debug);
				# hide the second ISOFS-EFI-partition from the Mac Bootloader by f***ing up the "EFI" directory entry
				write_val(-$namelen, pack("Z*", ".PC")) if($filename eq "EFI");

				$bytes -= read(FIMG, $sua_head, 4);
				($sig, $len, $version) = unpack("a[2]CC", $sua_head);
				$len -= 4;
				$bytes -= read(FIMG, $data, $len);
				do {
					$bytes -= read(FIMG, $sua_head, 4);
					($sig, $len, $version) = unpack("a[2]CCa", $sua_head);
					$len -= 4;
					$bytes -= read(FIMG, $data, $len);
					if($sig eq "CE")
					{
						($sua_block, $uu1, $sua_pos, $uu2, $sua_size, $uu3) = unpack("VNVNVN", $data);
						printf("CE is at LBA 0x%X -> 0x%x\n", $sua_block) if($debug);
					}
				} while($bytes > 4);
				$bytes -= read(FIMG, $uu, $bytes) if $bytes > 0; # skip bytes (if unaligned)
				read(FIMG, $bytes, 1) > 0 or die "$0: $file: read error\n";
				$bytes = unpack("C", $bytes) - 1;
				printf("SUSP Entry - %u bytes (0x%X)\n", $bytes+1, $bytes+1) if($debug);
			} while $bytes > 0;
            do {
                $sector_blk++;
                seek(FIMG, $iso_pos+$first_sector_blk*$bs+$sector_blk*$bs, SEEK_SET) or die "$0: $file: $!\n";
                read(FIMG, $sua_head, 4) > 0 or break;
                seek(FIMG, tell(FIMG)-4, SEEK_SET) or die "$0: $file: $!\n";
                ($sig, $len, $version) = unpack("a[2]CC", $sua_head);
            } while($sig eq "ER"); # skip ER(Extensions Reference)-SUA, xorriso intersperses this somehow
			printf("\ndirectory entry at 0x%X:\n", tell(FIMG)) if($debug);
			read(FIMG, $bytes, 1) > 0 or break;
			$bytes = unpack("C", $bytes) - 1;
		} while $bytes != 0x21 && $bytes != 0;
	}
	$off_pvd+=$bs;
} while $type != 255;

# Done...
close(FIMG);

exit 0;