gparted/src/jfs.cc

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/* Copyright (C) 2004 Bart
*
* 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/jfs.h"
#include <cerrno>
namespace GParted
{
FS jfs::get_filesystem_support( )
{
FS fs ;
fs .filesystem = GParted::FS_JFS ;
if ( ! system( "which jfs_debugfs 1>/dev/null 2>/dev/null" ) )
fs .read = GParted::FS::EXTERNAL ;
if ( ! system( "which mkfs.jfs 1>/dev/null 2>/dev/null" ) )
fs .create = GParted::FS::EXTERNAL ;
if ( ! system( "which jfs_fsck 1>/dev/null 2>/dev/null" ) )
fs .check = GParted::FS::EXTERNAL ;
//resizing of jfs requires jfs support in the kernel
std::ifstream input( "/proc/filesystems" ) ;
if ( input )
{
Glib::ustring line ;
while ( input >> line )
if ( line == "jfs" )
{
fs .grow = GParted::FS::EXTERNAL ;
break ;
}
input .close( ) ;
}
if ( ! system( "which dd 1>/dev/null 2>/dev/null" ) && fs .grow )
fs .copy = GParted::FS::EXTERNAL ;
fs .MIN = 16 ;
return fs ;
}
void jfs::Set_Used_Sectors( Partition & partition )
{
char c_buf[ 512 ] ;
FILE *f ;
Glib::ustring output ;
//get free sectors..
f = popen( ( "echo dm | LC_ALL=C jfs_debugfs " + partition .partition + " | grep dn_nfree" ) .c_str( ), "r" ) ;
while ( fgets( c_buf, 512, f ) )
{
output = Glib::locale_to_utf8( c_buf ) ;
//free sectors
if ( output .find( "dn_nfree" ) < output .length( ) )
{
output = output .substr( output .find( ":" ) +1, output .length( ) ) ;
int dec_free_blocks ;
std::istringstream hex_free_blocks( output .substr( 0, output .find( "[" ) ) );
hex_free_blocks >> std::hex >> dec_free_blocks ;
partition .Set_Unused( dec_free_blocks * 8 ) ;//4096 / 512 (i've been told jfs blocksize is _always_ 4K)
break ;
}
}
pclose( f ) ;
}
bool jfs::Create( const Partition & new_partition, std::vector<OperationDetails> & operation_details )
{
operation_details .push_back( OperationDetails( String::ucompose(
_("create new %1 filesystem"),
Utils::Get_Filesystem_String( GParted::FS_JFS ) ) ) ) ;
argv .clear() ;
argv .push_back( "mkfs.jfs" ) ;
argv .push_back( "-q" ) ;
argv .push_back( new_partition .partition ) ;
if ( ! execute_command( argv, operation_details .back() .sub_details ) )
{
operation_details .back() .status = OperationDetails::SUCCES ;
return true ;
}
else
{
operation_details .back() .status = OperationDetails::ERROR ;
return false ;
}
}
bool jfs::Resize( const Partition & partition_new,
std::vector<OperationDetails> & operation_details,
bool fill_partition )
{
if ( fill_partition )
operation_details .push_back( OperationDetails( _("grow filesystem to fill the partition") ) ) ;
else
operation_details .push_back( OperationDetails( _("resize the filesystem") ) ) ;
bool return_value = false ;
Glib::ustring error ;
Glib::ustring TEMP_MP = "/tmp/gparted_tmp_jfs_mountpoint" ;
//create mountpoint...
operation_details .back() .sub_details .push_back(
OperationDetails( String::ucompose( _("create temporary mountpoint (%1)"), TEMP_MP ) ) ) ;
if ( ! mkdir( TEMP_MP .c_str(), 0 ) )
{
operation_details .back() .sub_details .back() .status = OperationDetails::SUCCES ;
//mount partition
operation_details .back() .sub_details .push_back(
OperationDetails( String::ucompose( _("mount %1 on %2"), partition_new .partition, TEMP_MP ) ) ) ;
if ( Utils::mount( partition_new .partition, TEMP_MP, "jfs", error ) )
{
operation_details .back() .sub_details .back() .status = OperationDetails::SUCCES ;
//remount the partition to resize the filesystem
operation_details .back() .sub_details .push_back(
OperationDetails( String::ucompose( _("remount %1 on %2 with the 'resize' flag enabled"),
partition_new .partition, TEMP_MP ) ) ) ;
if ( Utils::mount( partition_new .partition, TEMP_MP, "jfs", error, MS_REMOUNT, "resize" ) )
{
operation_details .back() .sub_details .back() .status = OperationDetails::SUCCES ;
return_value = true ;
}
else
{
operation_details .back() .sub_details .back() .status = OperationDetails::ERROR ;
operation_details .back() .sub_details .back() .sub_details .push_back(
OperationDetails( error, OperationDetails::NONE ) ) ;
}
//and unmount it...
operation_details .back() .sub_details .push_back(
OperationDetails( String::ucompose( _("umount %1"), partition_new .partition ) ) ) ;
if ( Utils::unmount( partition_new .partition, TEMP_MP, error ) )
{
operation_details .back() .sub_details .back() .status = OperationDetails::SUCCES ;
}
else
{
operation_details .back() .sub_details .back() .status = OperationDetails::ERROR ;
operation_details .back() .sub_details .back() .sub_details .push_back(
OperationDetails( error, OperationDetails::NONE ) ) ;
return_value = false ;
}
}
else
{
operation_details .back() .sub_details .back() .status = OperationDetails::ERROR ;
operation_details .back() .sub_details .back() .sub_details .push_back(
OperationDetails( error, OperationDetails::NONE ) ) ;
}
//remove the mountpoint..
operation_details .back() .sub_details .push_back(
OperationDetails( String::ucompose( _("remove temporary mountpoint (%1)"), TEMP_MP ) ) ) ;
if ( ! rmdir( TEMP_MP .c_str() ) )
{
operation_details .back() .sub_details .back() .status = OperationDetails::SUCCES ;
}
else
{
operation_details .back() .sub_details .back() .status = OperationDetails::ERROR ;
operation_details .back() .sub_details .back() .sub_details .push_back(
OperationDetails( Glib::strerror( errno ), OperationDetails::NONE ) ) ;
return_value = false ;
}
}
else
{
operation_details .back() .sub_details .back() .status = OperationDetails::ERROR ;
operation_details .back() .sub_details .back() .sub_details .push_back(
OperationDetails( Glib::strerror( errno ), OperationDetails::NONE ) ) ;
}
operation_details .back() .status = return_value ? OperationDetails::SUCCES : OperationDetails::ERROR ;
return return_value ;
}
bool jfs::Copy( const Glib::ustring & src_part_path,
const Glib::ustring & dest_part_path,
std::vector<OperationDetails> & operation_details )
{
operation_details .push_back( OperationDetails(
String::ucompose( _("copy contents of %1 to %2"), src_part_path, dest_part_path ) ) ) ;
argv .clear() ;
argv .push_back( "dd" ) ;
argv .push_back( "bs=8192" ) ;
argv .push_back( "if=" + src_part_path ) ;
argv .push_back( "of=" + dest_part_path ) ;
if ( ! execute_command( argv, operation_details .back() .sub_details ) )
{
operation_details .back() .status = OperationDetails::SUCCES ;
Partition partition ;
partition .partition = dest_part_path ;
return Resize( partition, operation_details, true ) ;
}
operation_details .back() .status = OperationDetails::ERROR ;
return false ;
}
bool jfs::Check_Repair( const Partition & partition, std::vector<OperationDetails> & operation_details )
{
operation_details .push_back( OperationDetails( _("check filesystem for errors and (if possible) fix them") ) ) ;
argv .clear() ;
argv .push_back( "jfs_fsck" ) ;
argv .push_back( "-f" ) ;
argv .push_back( partition .partition ) ;
if ( 1 >= execute_command( argv, operation_details .back() .sub_details ) >= 0 )
{
operation_details .back() .status = OperationDetails::SUCCES ;
return true ;
}
else
{
operation_details .back() .status = OperationDetails::ERROR ;
return false ;
}
}
} //GParted