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package resize_fat::boot_sector;

use diagnostics;
use strict;

use common qw(:common :system :constant);
use resize_fat::io;
use resize_fat::any;
use resize_fat::directory;


my $format = "a3 a8 S C S C S S C S S S I I I S S I S S a458 S";
my @fields = (
    'boot_jump',		# boot strap short or near jump
    'system_id',		# Name - can be used to special case partition manager volumes
    'sector_size',		# bytes per logical sector
    'cluster_size_in_sectors',	# sectors/cluster
    'nb_reserved',		# reserved sectors
    'nb_fats',			# number of FATs
    'nb_root_dir_entries',	# number of root directory entries
    'small_nb_sectors',		# number of sectors: big_nb_sectors supersedes
    'media',			# media code
    'fat16_fat_length',		# sectors/FAT for FAT12/16
    'sectors_per_track',
    'nb_heads',
    'nb_hidden',		# (unused)
    'big_nb_sectors',		# number of sectors (if small_nb_sectors == 0)

# FAT32-only entries
    'fat32_fat_length',		# size of FAT in sectors
    'fat32_flags',		# bit8: fat mirroring,
				# low4: active fat
    'fat32_version',		# minor * 256 + major
    'fat32_root_dir_cluster',
    'info_offset_in_sectors',
    'fat32_backup_sector',

# Common again...
    'boot_code',		# Boot code (or message)
    'boot_sign',		# 0xAA55
);

1;


# trimfs_init_boot_sector() - reads in the boot sector - gets important info out
# of boot sector, and puts in main structure - performs sanity checks - returns 1
# on success, 0 on failureparameters: filesystem an empty structure to fill.
sub read($) {
    my ($fs) = @_;
    
    my $boot = eval { resize_fat::io::read($fs, 0, $SECTORSIZE) }; $@ and die "reading boot sector failed on device $fs->{fs_name}";
    @{$fs}{@fields} = unpack $format, $boot;

    $fs->{nb_sectors} = $fs->{small_nb_sectors} || $fs->{big_nb_sectors};
    $fs->{cluster_size} = $fs->{cluster_size_in_sectors} * $fs->{sector_size}; 

    $fs->{boot_sign} == 0xAA55 or die "Invalid signature for a MS-based filesystem.";
    $fs->{nb_fats} == 2 or die "Weird number of FATs: $fs->{nb_fats}, not 2.",
    $fs->{nb_sectors} < 32 and die "Too few sectors for viable file system\n";

    if ($fs->{fat16_fat_length}) {
	# asserting FAT16, will be verified later on
        $fs->{fs_type} = 'FAT16';
	$fs->{fs_type_size} = 16;
	$fs->{fat_length} = $fs->{fat16_fat_length};
    } else {
	$resize_fat::isFAT32 = 1;
        $fs->{fs_type} = 'FAT32';
        $fs->{fs_type_size} = 32;
	$fs->{fat_length} = $fs->{fat32_fat_length};

	$fs->{nb_root_dir_entries} = 0;
	$fs->{info_offset} = $fs->{info_offset_in_sectors} * $fs->{sector_size};
    }
    $resize_fat::bad_cluster_value = (1 << $fs->{fs_type_size}) - 9;
    
    $fs->{fat_offset} = $fs->{nb_reserved} * $fs->{sector_size};
    $fs->{fat_size} = $fs->{fat_length} * $fs->{sector_size};
    $fs->{root_dir_offset} = $fs->{fat_offset} + $fs->{fat_size} * $fs->{nb_fats};
    $fs->{root_dir_size} = $fs->{nb_root_dir_entries} * resize_fat::directory::entry_size();
    $fs->{cluster_offset} = $fs->{root_dir_offset} + $fs->{root_dir_size} - 2 * $fs->{cluster_size};

    $fs->{nb_fat_entries} = divide($fs->{fat_size}, $fs->{fs_type_size} / 8);

    # - 2 because clusters 0 & 1 doesn't exist 
    $fs->{nb_clusters} = divide($fs->{nb_sectors} * $fs->{sector_size} - $fs->{cluster_offset}, $fs->{cluster_size}) - 2;

    $fs->{dir_entries_per_cluster} = divide($fs->{cluster_size}, psizeof($format));

    $fs->{nb_clusters} >= resize_fat::any::min_cluster_count($fs) or die "error: not enough sectors for a $fs->{fs_type}\n";
    $fs->{nb_clusters} <  resize_fat::any::max_cluster_count($fs) or die "error: too many sectors for a $fs->{fs_type}\n";
}

sub write($) {
    my ($fs) = @_;
    my $boot = pack($format, @{$fs}{@fields});

    eval { resize_fat::io::write($fs, 0, $SECTORSIZE, $boot) }; $@ and die "writing the boot sector failed on device $fs->{fs_name}";

    if ($resize_fat::isFAT32) {
	# write backup
	eval { resize_fat::io::write($fs, $fs->{fat32_backup_sector} * $SECTORSIZE, $SECTORSIZE, $boot) };
	$@ and die "writing the backup boot sector (#$fs->{fat32_backup_sector}) failed on device $fs->{fs_name}";
    }
}