Enhance file system detection for sector sizes > 512 bytes

This commit is contained in:
Curtis Gedak 2010-03-05 13:36:18 -07:00
parent 4c0b514e22
commit 892e56f9b6
1 changed files with 65 additions and 38 deletions

View File

@ -890,25 +890,30 @@ void GParted_Core::set_device_partitions( Device & device )
GParted::FILESYSTEM GParted_Core::get_filesystem()
{
char buf[512] ;
char magic[16] ;
char magic1[16] = "";
char magic2[16] = "";
//Check for LUKS encryption prior to libparted file system detection.
// Otherwise encrypted file systems such as ext3 will be detected by
// libparted as 'ext3'.
//LUKS encryption
ped_device_open( lp_device );
ped_geometry_read( & lp_partition ->geom, buf, 0, 1 ) ;
strncpy(magic, buf+0, 6) ; magic[6] = '\0' ; //set and terminate string
ped_device_close( lp_device );
if ( Glib::ustring( magic ) == "LUKS\xBA\xBE" )
char * buf = static_cast<char *>( malloc( lp_device ->sector_size ) ) ;
if ( buf )
{
temp = _( "Linux Unified Key Setup encryption is not yet supported." ) ;
temp += "\n" ;
partition_temp .messages .push_back( temp ) ;
return GParted::FS_LUKS ;
ped_device_open( lp_device );
ped_geometry_read( & lp_partition ->geom, buf, 0, 1 ) ;
strncpy(magic1, buf+0, 6) ; magic1[6] = '\0' ; //set and terminate string
ped_device_close( lp_device );
free( buf ) ;
if ( Glib::ustring( magic1 ) == "LUKS\xBA\xBE" )
{
temp = _( "Linux Unified Key Setup encryption is not yet supported." ) ;
temp += "\n" ;
partition_temp .messages .push_back( temp ) ;
return GParted::FS_LUKS ;
}
}
//standard libparted file systems..
@ -965,31 +970,52 @@ GParted::FILESYSTEM GParted_Core::get_filesystem()
// - no patches sent to parted for lvm2, or luks
//reiser4
ped_device_open( lp_device );
ped_geometry_read( & lp_partition ->geom, buf, 128, 1 ) ;
ped_device_close( lp_device );
buf = static_cast<char *>( malloc( lp_device ->sector_size ) ) ;
if ( buf )
{
ped_device_open( lp_device );
ped_geometry_read( & lp_partition ->geom
, buf
, (65536 / lp_device ->sector_size)
, 1
) ;
strncpy(magic1, buf+0, 7) ; magic1[7] = '\0' ; //set and terminate string
ped_device_close( lp_device );
free( buf ) ;
if ( Glib::ustring( buf ) == "ReIsEr4" )
return GParted::FS_REISER4 ;
if ( Glib::ustring( magic1 ) == "ReIsEr4" )
return GParted::FS_REISER4 ;
}
//lvm2
//NOTE: lvm2 is not a file system but we do wish to recognize the Physical Volume
char magic1[16] ;
char magic2[16] ;
ped_device_open( lp_device );
ped_geometry_read( & lp_partition ->geom, buf, 1, 1 ) ;
strncpy(magic1, buf+0, 8) ; magic1[8] = '\0' ; //set and terminate string
strncpy(magic2, buf+24, 4) ; magic2[4] = '\0' ; //set and terminate string
ped_device_close( lp_device );
if ( Glib::ustring( magic1 ) == "LABELONE"
&& Glib::ustring( magic2 ) == "LVM2" )
buf = static_cast<char *>( malloc( lp_device ->sector_size ) ) ;
if ( buf )
{
temp = _( "Logical Volume Management is not yet supported." ) ;
temp += "\n" ;
partition_temp .messages .push_back( temp ) ;
return GParted::FS_LVM2 ;
ped_device_open( lp_device );
if ( lp_device ->sector_size == 512 )
{
ped_geometry_read( & lp_partition ->geom, buf, 1, 1 ) ;
strncpy(magic1, buf+ 0, 8) ; magic1[8] = '\0' ; //set and terminate string
strncpy(magic2, buf+24, 4) ; magic2[4] = '\0' ; //set and terminate string
}
else
{
ped_geometry_read( & lp_partition ->geom, buf, 0, 1 ) ;
strncpy(magic1, buf+ 0+512, 8) ; magic1[8] = '\0' ; //set and terminate string
strncpy(magic2, buf+24+512, 4) ; magic2[4] = '\0' ; //set and terminate string
}
ped_device_close( lp_device );
free( buf ) ;
if ( Glib::ustring( magic1 ) == "LABELONE"
&& Glib::ustring( magic2 ) == "LVM2" )
{
temp = _( "Logical Volume Management is not yet supported." ) ;
temp += "\n" ;
partition_temp .messages .push_back( temp ) ;
return GParted::FS_LVM2 ;
}
}
//btrfs
@ -1000,14 +1026,15 @@ GParted::FILESYSTEM GParted_Core::get_filesystem()
char buf_btrfs[BTRFS_SUPER_INFO_SIZE] ;
ped_device_open( lp_device ) ;
ped_geometry_read( & lp_partition ->geom, buf_btrfs, \
(BTRFS_SUPER_INFO_OFFSET / 512), \
(BTRFS_SUPER_INFO_SIZE / 512)
ped_geometry_read( & lp_partition ->geom
, buf_btrfs
, (BTRFS_SUPER_INFO_OFFSET / lp_device ->sector_size)
, (BTRFS_SUPER_INFO_SIZE / lp_device ->sector_size)
) ;
strncpy(magic, buf_btrfs+64, BTRFS_SIGNATURE .size()) ; magic[BTRFS_SIGNATURE .size()] = '\0' ; //set and terminate string
strncpy(magic1, buf_btrfs+64, BTRFS_SIGNATURE .size()) ; magic1[BTRFS_SIGNATURE .size()] = '\0' ; //set and terminate string
ped_device_close( lp_device ) ;
if ( magic == BTRFS_SIGNATURE )
if ( magic1 == BTRFS_SIGNATURE )
{
temp = _( "BTRFS is not yet supported." ) ;
temp += "\n" ;