package fs::type; use diagnostics; use strict; use common; use devices; our @ISA = qw(Exporter); our @EXPORT = qw( isEmpty isExtended isTrueLocalFS isTrueFS isDos isSwap isOtherAvailableFS isRawLVM isRawRAID isRawLUKS isRAID isLVM isLUKS isMountableRW isNonMountable isPartOfLVM isPartOfRAID isPartOfLoopback isLoopback isMounted isBusy isSpecial isApple isAppleBootstrap isESP isFat_or_NTFS isnormal_Fat_or_NTFS isRecovery maybeFormatted set_isFormatted defaultFS ); my (%type_name2pt_type, %type_name2fs_type, %fs_type2pt_type, %pt_type2fs_type, %type_names); { my @list_types = ( important => [ 0x82 => 'swap', 'Linux swap', 0x83 => 'ext2', 'Linux native', 0x83 => 'ext3', 'Journalised FS: ext3', 0x83 => 'ext4', 'Journalised FS: ext4', 0x83 => 'btrfs', 'Journalised FS: Btrfs', if_(is_uefi(), 0xef => 'vfat', 'EFI System Partition', ), if_(arch() =~ /i.86|x86_64/, 0x83 => 'xfs', 'Journalised FS: XFS', 0x83 => 'jfs', 'Journalised FS: JFS', 0x0b => 'vfat', 'FAT32', 0x07 => 'ntfs-3g', 'NTFS-3G', 0x07 => 'ntfs', 'NTFS', ), ], non_fs_type => [ 0x83 => '', 'Encrypted', 0x8e => '', 'Linux Logical Volume Manager', 0xfd => '', 'Linux RAID', ], special => [ 0x0 => '', 'Empty', 0x05 => '', 'Extended', 0x0f => '', 'W95 Extended (LBA)', 0x85 => '', 'Linux extended', ], other => [ if_(arch() =~ /^i.86|x86_64/, 0x01 => 'vfat', 'FAT12', 0x02 => '', 'XENIX root', 0x03 => '', 'XENIX usr', 0x04 => 'vfat', 'FAT16 <32M', 0x06 => 'vfat', 'FAT16', 0x07 => 'hpfs', 'HPFS', 0x08 => '', 'AIX', ), 0x09 => '', 'AIX bootable', 0x0a => '', 'OS/2 Boot Manager', 0x0c => 'vfat', 'W95 FAT32 (LBA)', 0x0e => 'vfat', 'W95 FAT16 (LBA)', 0x10 => '', 'OPUS', 0x11 => '', 'Hidden FAT12', 0x12 => '', 'Compaq diagnostics', 0x14 => '', 'Hidden FAT16 <32M', 0x16 => '', 'Hidden FAT16', 0x17 => 'ntfs', 'Hidden HPFS/NTFS', 0x18 => '', 'AST SmartSleep', 0x1b => 'vfat', 'Hidden W95 FAT32', # \ 0x1c => 'vfat', 'Hidden W95 FAT32 (LBA)', # > don't change label, it's used to know if it's not a boot partition in bootloader.pm 0x1e => 'vfat', 'Hidden W95 FAT16 (LBA)', # / 0x24 => '', 'NEC DOS', 0x39 => '', 'Plan 9', 0x3c => '', 'PartitionMagic recovery', 0x40 => '', 'Venix 80286', 0x41 => '', 'PPC PReP Boot', 0x42 => '', 'SFS', 0x4d => '', 'QNX4.x', 0x4e => '', 'QNX4.x 2nd part', 0x4f => '', 'QNX4.x 3rd part', 0x50 => '', 'OnTrack DM', 0x51 => '', 'OnTrack DM6 Aux1', 0x52 => '', 'CP/M', 0x53 => '', 'OnTrack DM6 Aux3', 0x54 => '', 'OnTrackDM6', 0x55 => '', 'EZ-Drive', 0x56 => '', 'Golden Bow', 0x5c => '', 'Priam Edisk', 0x61 => '', 'SpeedStor', 0x63 => '', 'GNU HURD or SysV', 0x64 => '', 'Novell Netware 286', 0x65 => '', 'Novell Netware 386', 0x70 => '', 'DiskSecure Multi-Boot', 0x75 => '', 'PC/IX', 0x80 => '', 'Old Minix', 0x81 => '', 'Minix / old Linux', 0x83 => 'reiserfs', 'Journalised FS: ReiserFS', 0x83 => 'nilfs2', 'Journalised FS: NILFS2', 0x84 => '', 'OS/2 hidden C: drive', 0x86 => '', 'NTFS volume set (0x86)', 0x87 => '', 'NTFS volume set (0x87)', 0x93 => '', 'Amoeba', 0x94 => '', 'Amoeba BBT', 0x9f => '', 'BSD/OS', 0xa0 => '', 'IBM Thinkpad hibernation', 0xa5 => '', 'FreeBSD', 0xa6 => '', 'OpenBSD', 0xa7 => '', 'NeXTSTEP', 0xa8 => '', 'Darwin UFS', 0xa9 => '', 'NetBSD', 0xab => '', 'Darwin boot', 0xb7 => '', 'BSDI fs', 0xb8 => '', 'BSDI swap', 0xbb => '', 'Boot Wizard hidden', 0xbe => '', 'Solaris boot', 0xbf => '', 'Microsoft XBox OS Partitions', 0xc1 => '', 'DRDOS/sec (FAT-12)', 0xc4 => '', 'DRDOS/sec (FAT-16 < 32M)', 0xc6 => '', 'DRDOS/sec (FAT-16)', 0xc7 => '', 'Syrinx', 0xda => '', 'Non-FS data', 0xdb => '', 'CP/M / CTOS / ...', 0xde => '', 'Dell Utility', 0xdf => '', 'BootIt', 0xe1 => '', 'SpeedStor (FAT-12)', 0xe3 => '', 'DOS R/O', 0xe4 => '', 'SpeedStor (FAT-16)', 0xeb => 'befs', 'BeOS fs', 0xee => '', 'EFI GPT', 0xf0 => '', 'Linux/PA-RISC boot', 0xf4 => '', 'SpeedStor (large part.)', 0xf2 => '', 'DOS secondary', 0xfe => '', 'LANstep', 0xff => '', 'BBT', ], ); foreach (group_by2(@list_types)) { my ($name, $l) = @$_; for (my $i = 0; defined $l->[$i]; $i += 3) { my $pt_type = $l->[$i]; my $fs_type = $l->[$i + 1]; my $type_name = $l->[$i + 2]; !exists $type_name2fs_type{$type_name} or internal_error("'$type_name' is not unique"); $type_name2fs_type{$type_name} = $fs_type; $type_name2pt_type{$type_name} = $pt_type; $fs_type2pt_type{$fs_type} ||= $pt_type; $pt_type2fs_type{$pt_type} ||= $fs_type; push @{$type_names{$name}}, $type_name; } } } sub type_names { my ($expert, $o_hd) = @_; my @l = @{$type_names{important}}; push @l, grep { $_ ne 'Encrypted' } @{$type_names{non_fs_type}}; push @l, sort @{$type_names{other}} if $expert; if ($o_hd && !$o_hd->use_pt_type) { @l = grep { $type_name2fs_type{$_} } @l; @l = uniq_ { $type_name2fs_type{$_} } @l; (@l, @{$type_names{non_fs_type}}); } else { @l; } } sub type_name2subpart { my ($name) = @_; exists $type_name2fs_type{$name} && { type_name => $name, fs_type => $type_name2fs_type{$name}, pt_type => $type_name2pt_type{$name} }; } sub part2type_name { my ($part) = @_; my @names = keys %type_name2fs_type; my $pt_type = defined $part->{pt_type} ? $part->{pt_type} : $part->{fs_type} && $fs_type2pt_type{$part->{fs_type}}; if (defined $pt_type) { @names = grep { $pt_type eq $type_name2pt_type{$_} } @names; } if (my $fs_type = $part->{fs_type} || $part->{pt_type} && $pt_type2fs_type{$part->{pt_type}}) { @names = grep { $fs_type eq $type_name2fs_type{$_} } @names; } if (@names > 1) { log::l("ERROR: (part2type_name) multiple match for $part->{pt_type} $part->{fs_type}"); } first(@names); } sub type_name2pt_type { local ($_) = @_; /0x(.*)/ ? hex $1 : $type_name2pt_type{$_} || $_; } sub pt_type2subpart { my ($pt_type) = @_; my $fs_type = $pt_type2fs_type{$pt_type}; { pt_type => $pt_type, if_($fs_type, fs_type => $fs_type) }; } sub fs_type2subpart { my ($fs_type) = @_; my $pt_type = $fs_type2pt_type{$fs_type}; { fs_type => $fs_type, if_($pt_type, pt_type => $pt_type) }; } sub set_fs_type { my ($part, $fs_type) = @_; put_in_hash($part, fs_type2subpart($fs_type)); } sub set_pt_type { my ($part, $pt_type) = @_; put_in_hash($part, pt_type2subpart($pt_type)); } sub suggest_fs_type { my ($part, $fs_type) = @_; set_fs_type($part, $fs_type) if !$part->{pt_type} && !$part->{fs_type}; } sub set_type_subpart { my ($part, $subpart) = @_; if (exists $subpart->{pt_type} && exists $subpart->{fs_type}) { $part->{fs_type} = $subpart->{fs_type}; $part->{pt_type} = $subpart->{pt_type}; } elsif (exists $subpart->{pt_type}) { set_pt_type($part, $subpart->{pt_type}); } elsif (exists $subpart->{fs_type}) { set_fs_type($part, $subpart->{fs_type}); } else { log::l("ERROR: (set_type_subpart) subpart has no type"); } } sub fs_type_from_magic { my ($part) = @_; if (exists $part->{fs_type_from_magic}) { $part->{fs_type_from_magic}; } else { my $type = type_subpart_from_magic($part); $type && $type->{fs_type}; } } sub call_blkid { my ($part) = @_; # IMPORTANT: Always use the -p argument with blkid. See r7324 commit msg my %h = map { if_(/(.*?)=(.*)/, $1 => $2); } run_program::get_stdout_raw({ timeout => 30 }, 'blkid', '2>', '/dev/null', '-o', 'udev', '-p', devices::make($part->{device})); \%h; } sub type_subpart_from_magic { my ($part) = @_; my $ids = call_blkid($part); my $p; if ($ids->{ID_FS_USAGE} eq 'raid') { my $name = { linux_raid_member => "Linux RAID", LVM1_member => 'Linux Logical Volume Manager', LVM2_member => 'Linux Logical Volume Manager', }->{$ids->{ID_FS_TYPE}}; $p = type_name2subpart($name) if $name; } elsif ($ids->{ID_FS_USAGE} eq 'crypto') { $p = type_name2subpart('Encrypted'); } elsif (my $fs_type = $ids->{ID_FS_TYPE}) { $fs_type = 'ntfs-3g' if $fs_type eq 'ntfs'; $p = fs_type2subpart($fs_type) or log::l("unknown filesystem $fs_type returned by blkid"); } if ($p) { $part->{fs_type_from_magic} = $p->{fs_type}; $p->{device_LABEL} = $ids->{ID_FS_LABEL} if $ids->{ID_FS_LABEL}; $p->{device_UUID} = $ids->{ID_FS_UUID} if $ids->{ID_FS_UUID}; log::l("blkid gave: $p->{fs_type} $p->{device_UUID} $p->{device_LABEL}"); } $p; } sub defaultFS() { 'ext4' } sub true_local_fs_types() { qw(btrfs ext3 ext2 ext4 reiserfs xfs jfs) } sub isEmpty { !$_[0]{fs_type} && $_[0]{pt_type} == 0 } sub isESP { $_[0]{pt_type} == 0xef } sub isExtended { $_[0]{pt_type} == 5 || $_[0]{pt_type} == 0xf || $_[0]{pt_type} == 0x85 } sub isRawLVM { $_[0]{pt_type} == 0x8e || $_[0]{type_name} eq 'Linux Logical Volume Manager' } sub isRawRAID { $_[0]{pt_type} == 0xfd || $_[0]{type_name} eq 'Linux RAID' } sub isRawLUKS { $_[0]{type_name} eq 'Encrypted' } sub isSwap { $_[0]{fs_type} eq 'swap' } sub isDos { ${{ 1 => 1, 4 => 1, 6 => 1 }}{$_[0]{pt_type}} } sub isFat_or_NTFS { member($_[0]{fs_type}, 'vfat', 'ntfs', 'ntfs-3g') } sub isnormal_Fat_or_NTFS { grep { isFat_or_NTFS($_) && !isESP($_) && !isRecovery($_) } @_ } sub isApple { $_[0]{pt_type} == 0x401 && defined $_[0]{isDriver} } sub isAppleBootstrap { $_[0]{pt_type} == 0x401 && defined $_[0]{isBoot} } sub isRecovery { isFat_or_NTFS($_[0]) && ($_[0]{type_name} =~ /^Hidden/ || $_[0]{pt_type} == 0x12 || # "Compaq diagnostics" member($_[0]{device_LABEL} , # Extracted from /usr/lib/udev/rules.d/80-udisks2.rules # Hopefuly we'll ask to udev/udisk2 someday # generated by grep Recovery /usr/lib/udev/rules.d/80-udisks2.rules : qw(Recovery RECOVERY Lenovo_Recovery HP_RECOVERY Recovery_Partition DellUtility DellRestore IBM_SERVICE SERVICEV001 SERVICEV002 SYSTEM_RESERVED System_Reserved WINRE_DRV DIAGS IntelRST), # gathered over the years (Hald, mga#1371, mga#15999): qw(PQSERVICE Packard_Bell Push_Button_Reset SYSTEM_DRV)) ); } sub isTrueFS { isTrueLocalFS($_[0]) || member($_[0]{fs_type}, qw(nfs)) } sub isTrueLocalFS { member($_[0]{fs_type}, true_local_fs_types()) } sub isOtherAvailableFS { isESP($_[0]) || isFat_or_NTFS($_[0]) || member($_[0]{fs_type}, 'ufs', 'hfs', 'iso9660') } #- other OS that linux can access its filesystem sub isMountableRW { (isTrueFS($_[0]) || isOtherAvailableFS($_[0])) && $_[0]{fs_type} ne 'ntfs' } sub cannotBeMountable { my ($part) = @_; isRawRAID($part) || isRawLUKS($part) || isRawLVM($part); } sub isNonMountable { my ($part) = @_; cannotBeMountable($part) || $part->{fs_type} eq 'ntfs' && !$part->{isFormatted} && $part->{notFormatted}; } sub isPartOfLVM { defined $_[0]{lvm} } sub isPartOfRAID { defined $_[0]{raid} } sub isPartOfLoopback { defined $_[0]{loopback} } sub isRAID { $_[0]{device} =~ /^md/ && defined $_[0]{level} } sub isUBD { $_[0]{device} =~ /^ubd/ } #- should be always true during an $::uml_install sub isLVM { $_[0]{VG_name} || $_[0]{lv_name} } sub isLUKS { defined $_[0]{dmcrypt_name} } sub isLoopback { defined $_[0]{loopback_file} } sub isMounted { $_[0]{isMounted} } sub isBusy { isMounted($_[0]) || isPartOfRAID($_[0]) || isPartOfLVM($_[0]) || $_[0]{dm_active} || isPartOfLoopback($_[0]) } sub isSpecial { isRAID($_[0]) || isLVM($_[0]) || isLoopback($_[0]) || isUBD($_[0]) } #- not for partitions, but for hds: sub is_dmraid { $_[0]{bus} =~ /^dmraid_/ } sub can_be_this_fs_type { my ($part, $fs_type) = @_; can_be_one_of_those_fs_types($part, $fs_type); } sub can_be_one_of_those_fs_types { my ($part, @fs_types) = @_; $part->{fs_type} or return; $part->{fs_type} eq 'auto' || listlength(intersection(\@fs_types, [ split(':', $part->{fs_type}) ])); } sub maybeFormatted { my ($part) = @_; $part->{isFormatted} || !$part->{notFormatted} && (!$part->{bad_fs_type_magic} || $part->{options} =~ /encrypted/); } sub set_isFormatted { my ($part, $val) = @_; $part->{isFormatted} = $val; $part->{notFormatted} = !$val; delete $part->{bad_fs_type_magic}; delete $part->{fs_type_from_magic}; } #- do this before modifying $part->{fs_type} sub check { my ($fs_type, $_hd, $part) = @_; $fs_type eq "jfs" && $part->{size} < MB(16) and die N("You cannot use JFS for partitions smaller than 16MB"); $fs_type eq "reiserfs" && $part->{size} < MB(32) and die N("You cannot use ReiserFS for partitions smaller than 32MB"); $fs_type eq "btrfs" && $part->{size} < MB(256) and die N("You cannot use btrfs for partitions smaller than 256MB"); } sub guessed_by_mount() { grep { $_ && !/nodev/ } chomp_(cat_('/etc/filesystems')); } sub directories_needed_to_boot_not_ESP() { qw(/ /usr /var /boot /tmp); } sub directories_needed_to_boot() { directories_needed_to_boot_not_ESP(), '/boot/EFI'; } sub carry_root_loopback { my ($part) = @_; any { $_->{mntpoint} eq '/' } @{$part->{loopback} || []}; } 1;