/* Copyright (C) 2011 Mike Fleetwood * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU Library General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ #include "../include/nilfs2.h" namespace GParted { FS nilfs2::get_filesystem_support() { FS fs ; fs .filesystem = GParted::FS_NILFS2 ; if ( ! Glib::find_program_in_path( "mkfs.nilfs2" ) .empty() ) { fs .create = GParted::FS::EXTERNAL ; } if ( ! Glib::find_program_in_path( "nilfs-tune" ) .empty() ) { fs .read = GParted::FS::EXTERNAL ; fs .read_label = GParted::FS::EXTERNAL ; fs .write_label = GParted::FS::EXTERNAL ; fs .read_uuid = GParted::FS::EXTERNAL ; fs .write_uuid = GParted::FS::EXTERNAL ; } //Nilfs2 resizing is an online only operation and needs: // mount, umount, nilfs-resize and linux >= 3.0 with nilfs2 support. if ( ! Glib::find_program_in_path( "mount" ) .empty() && ! Glib::find_program_in_path( "umount" ) .empty() && ! Glib::find_program_in_path( "nilfs-resize" ) .empty() && Utils::kernel_supports_fs( "nilfs2" ) && Utils::kernel_version_at_least( 3, 0, 0 ) ) { fs .grow = GParted::FS::EXTERNAL ; if ( fs .read ) //needed to determine a minimum file system size. fs .shrink = GParted::FS::EXTERNAL ; } fs .copy = GParted::FS::GPARTED ; fs .move = GParted::FS::GPARTED ; fs .online_read = FS::GPARTED ; //Minimum FS size is 128M+4K using mkfs.nilfs2 defaults fs .MIN = 128 * MEBIBYTE + 4 * KIBIBYTE ; return fs ; } void nilfs2::set_used_sectors( Partition & partition ) { if ( ! Utils::execute_command( "nilfs-tune -l " + partition .get_path(), output, error, true ) ) { //File system size in bytes Glib::ustring::size_type index = output .find( "Device size:" ) ; if ( index == Glib::ustring::npos || sscanf( output.substr( index ) .c_str(), "Device size: %Ld", &T ) != 1 ) T = -1 ; //Free space in blocks index = output .find( "Free blocks count:" ) ; if ( index == Glib::ustring::npos || sscanf( output.substr( index ) .c_str(), "Free blocks count: %Ld", &N ) != 1 ) N = -1 ; index = output .find( "Block size:" ) ; if ( index == Glib::ustring::npos || sscanf( output.substr( index ) .c_str(), "Block size: %Ld", &S ) != 1 ) S = -1 ; if ( T > -1 && N > -1 && S > -1 ) { T = Utils::round( T / double(partition .sector_size) ) ; N = Utils::round( N * ( S / double(partition .sector_size) ) ) ; partition .set_sector_usage( T, N ) ; } } else { if ( ! output .empty() ) partition .messages .push_back( output ) ; if ( ! error .empty() ) partition .messages .push_back( error ) ; } } void nilfs2::read_label( Partition & partition ) { if ( ! Utils::execute_command( "nilfs-tune -l " + partition .get_path(), output, error, true ) ) { Glib::ustring label = Utils::regexp_label( output, "^Filesystem volume name:[\t ]*(.*)$" ) ; if ( label != "(none)" ) partition .set_label( label ) ; else partition .set_label( "" ) ; } else { if ( ! output .empty() ) partition .messages .push_back( output ) ; if ( ! error .empty() ) partition .messages .push_back( error ) ; } } bool nilfs2::write_label( const Partition & partition, OperationDetail & operationdetail ) { return ! execute_command( "nilfs-tune -L \"" + partition .get_label() + "\" " + partition .get_path(), operationdetail ) ; } void nilfs2::read_uuid( Partition & partition ) { if ( ! Utils::execute_command( "nilfs-tune -l " + partition .get_path(), output, error, true ) ) { partition .uuid = Utils::regexp_label( output, "^Filesystem UUID:[[:blank:]]*(" RFC4122_NONE_NIL_UUID_REGEXP ")" ) ; } else { if ( ! output .empty() ) partition .messages .push_back( output ) ; if ( ! error .empty() ) partition .messages .push_back( error ) ; } } bool nilfs2::write_uuid( const Partition & partition, OperationDetail & operationdetail ) { return ! execute_command( "nilfs-tune -U " + Utils::generate_uuid() + " " + partition .get_path(), operationdetail ) ; } bool nilfs2::create( const Partition & new_partition, OperationDetail & operationdetail ) { return ! execute_command( "mkfs.nilfs2 -L \"" + new_partition .get_label() + "\" " + new_partition .get_path(), operationdetail ) ; } bool nilfs2::resize( const Partition & partition_new, OperationDetail & operationdetail, bool fill_partition ) { bool success = true ; Glib::ustring mount_point = mk_temp_dir( "", operationdetail ) ; if ( mount_point .empty() ) return false ; success &= ! execute_command_timed( "mount -v -t nilfs2 " + partition_new .get_path() + " " + mount_point, operationdetail ) ; if ( success ) { Glib::ustring cmd = "nilfs-resize -v -y " + partition_new .get_path() ; if ( ! fill_partition ) { Glib::ustring size = Utils::num_to_str( floor( Utils::sector_to_unit( partition_new .get_sector_length(), partition_new .sector_size, UNIT_KIB ) ) ) + "K" ; cmd += " " + size ; } success &= ! execute_command_timed( cmd, operationdetail ) ; success &= ! execute_command_timed( "umount -v " + mount_point, operationdetail ) ; } rm_temp_dir( mount_point, operationdetail ) ; return success ; } bool nilfs2::move( const Partition & partition_new , const Partition & partition_old , OperationDetail & operationdetail ) { return true ; } bool nilfs2::copy( const Glib::ustring & src_part_path , const Glib::ustring & dest_part_path , OperationDetail & operationdetail ) { return true ; } bool nilfs2::check_repair( const Partition & partition, OperationDetail & operationdetail ) { return true ; } bool nilfs2::remove( const Partition & partition, OperationDetail & operationdetail ) { return true ; } } //GParted