wiiqt6/nandExtract/nandbin.cpp

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#include "nandbin.h"
#include "tools.h"
NandBin::NandBin( QObject * parent, const QString &path ) : QObject( parent )
{
type = -1;
fatNames = false;
root = NULL;
if( !path.isEmpty() )
SetPath( path );
}
NandBin::~NandBin()
{
if( f.isOpen() )
f.close();
if( root )
delete root;
}
bool NandBin::SetPath( const QString &path )
{
nandPath = path;
if( f.isOpen() )
f.close();
f.setFileName( path );
bool ret = !f.exists() || !f.open( QIODevice::ReadOnly );
if( ret )
{
emit SendError( tr( "Cant open %1" ).arg( path ) );
}
return !ret;
}
QTreeWidgetItem *NandBin::GetTree()
{
return root->clone();
}
bool NandBin::ExtractToDir( QTreeWidgetItem *item, const QString &path )
{
if( !item )
return false;
bool ok = false;
quint16 entry = item->text( 1 ).toInt( &ok );
if( !ok )
{
emit SendError( tr( "Error converting entry(%1) to a number" ).arg( item->text( 1 ) ) );
return false;
}
return ExtractFST( entry, path, true );//dont bother extracting this item's siblings
return true;
}
bool NandBin::AddChildren( QTreeWidgetItem *parent, quint16 entry )
{
if( entry >= 0x17ff )
{
emit SendError( tr( "entry is above 0x17ff mmmmkay [ 0x%1 ]" ).arg( entry, 0, 16 ) );
return false;
}
fst_t fst = GetFST( entry );
if( !fst.filename[ 0 ] )//something is amiss, better quit now
return false;
if( fst.sib != 0xffff )
{
if( !AddChildren( parent, fst.sib ) )
return false;
}
QStringList text;
QString name = FstName( fst );
QString en = QString( "%1" ).arg( entry );
QString size = QString( "%1" ).arg( fst.size, 0, 16 );
QString uid = QString( "%1" ).arg( fst.uid, 8, 16, QChar( '0' ) );
QString gid = QString( "%1 (\"%2%3\")" ).arg( fst.gid, 4, 16, QChar( '0' ) )
.arg( QChar( ascii( (char)( (fst.gid >> 8) & 0xff ) ) ) )
.arg( QChar( ascii( (char)( (fst.gid) & 0xff ) ) ) );
QString x3 = QString( "%1" ).arg( fst.x3, 8, 16, QChar( '0' ) );
QString mode = QString( "%1" ).arg( fst.mode, 2, 16, QChar( '0' ) );
QString attr = QString( "%1" ).arg( fst.attr, 2, 16, QChar( '0' ) );
text << name << en << size << uid << gid << x3 << mode << attr;
QTreeWidgetItem *child = new QTreeWidgetItem( parent, text );
child->setTextAlignment( 1, Qt::AlignRight | Qt::AlignVCenter );//align to the right
child->setTextAlignment( 2, Qt::AlignRight | Qt::AlignVCenter );
child->setTextAlignment( 3, Qt::AlignRight | Qt::AlignVCenter );
child->setTextAlignment( 4, Qt::AlignRight | Qt::AlignVCenter );
child->setTextAlignment( 5, Qt::AlignRight | Qt::AlignVCenter );
child->setTextAlignment( 6, Qt::AlignRight | Qt::AlignVCenter );
child->setTextAlignment( 7, Qt::AlignRight | Qt::AlignVCenter );
//set some icons
if( fst.mode )
{
child->setIcon( 0, keyIcon );
}
else
{
child->setIcon( 0, groupIcon );
//try to add subfolder contents to the tree
if( fst.sub != 0xffff && !AddChildren( child, fst.sub ) )
return false;
}
return true;
}
QString NandBin::FstName( fst_t fst )
{
QByteArray ba( (char*)fst.filename, 0xc );
QString ret = QString( ba );
if( fatNames )
ret.replace( ":", "-" );
return ret;
}
bool NandBin::ExtractFST( quint16 entry, const QString &path, bool singleFile )
{
//qDebug() << "NandBin::ExtractFST(" << hex << entry << "," << path << ")";
fst_t fst = GetFST( entry );
if( !fst.filename[ 0 ] )//something is amiss, better quit now
return false;
if( !singleFile && fst.sib != 0xffff && !ExtractFST( fst.sib, path ) )
return false;
switch( fst.mode )
{
case 0:
if( !ExtractDir( fst, path ) )
return false;
break;
case 1:
if( !ExtractFile( fst, path ) )
return false;
break;
default://wtf
emit SendError( tr( "Unknown fst mode. Bailing out" ) );
return false;
break;
}
return true;
}
bool NandBin::ExtractDir( fst_t fst, QString parent )
{
//qDebug() << "NandBin::ExtractDir(" << parent << ")";
QByteArray ba( (char*)fst.filename, 0xc );
QString filename( ba );
QFileInfo fi( parent + "/" + filename );
if( filename != "/" && !fi.exists() && !QDir().mkpath( fi.absoluteFilePath() ) )
return false;
if( fst.sub != 0xffff && !ExtractFST( fst.sub, fi.absoluteFilePath() ) )
return false;
return true;
}
bool NandBin::ExtractFile( fst_t fst, QString parent )
{
QByteArray ba( (char*)fst.filename, 0xc );
QString filename( ba );
QFileInfo fi( parent + "/" + filename );
qDebug() << "extract" << fi.absoluteFilePath();
emit SendText( tr( "Extracting \"%1\"" ).arg( fi.absoluteFilePath() ) );
QByteArray data = GetFile( fst );
if( fst.size && !data.size() )//dont worry if files dont have anything in them anyways
return false;
QFile out( fi.absoluteFilePath() );
if( out.exists() )// !! delete existing files
out.remove();
if( !out.open( QIODevice::WriteOnly ) )
{
emit SendError( tr( "Can't open \"%1\" for writing" ).arg( fi.absoluteFilePath() ) );
return false;
}
out.write( data );
out.close();
return true;
}
bool NandBin::InitNand( QIcon dirs, QIcon files )
{
type = GetDumpType( f.size() );
if( type < 0 || type > 3 )
return false;
//qDebug() << "dump type:" << type;
if( !GetKey( type ) )
return false;
loc_super = FindSuperblock();
if( loc_super < 0 )
return false;
quint32 n_fatlen[] = { 0x010000, 0x010800, 0x010800 };
loc_fat = loc_super;
loc_fst = loc_fat + 0x0C + n_fatlen[ type ];
if( root )
delete root;
groupIcon = dirs;
keyIcon = files;
root = new QTreeWidgetItem( QStringList() << nandPath );
AddChildren( root, 0 );
ShowInfo();
return true;
}
int NandBin::GetDumpType( quint64 fileSize )
{
quint64 sizes[] = { 536870912, // type 0 | 536870912 == no ecc
553648128, // type 1 | 553648128 == ecc
553649152 }; // type 2 | 553649152 == old bootmii
for( int i = 0; i < 3; i++ )
{
if( sizes[ i ] == fileSize )
return i;
}
emit SendError( tr( "Can't tell what type of nand dump this is" ) );
return -1;
}
bool NandBin::GetKey( int type )
{
switch( type )
{
case 0:
case 1:
{
QString keyPath = nandFile;
int sl = keyPath.lastIndexOf( "/" );
if( sl == -1 )
{
emit SendError( tr( "Error getting path of keys.bin" ) );
return false;
}
keyPath.resize( sl );
keyPath += "keys.bin";
key = ReadKeyfile( keyPath );
if( key.isEmpty() )
return false;
}
break;
case 2:
{
if( !f.isOpen() )
{
emit SendError( tr( "Tried to read keys from unopened file" ) );
return false;
}
f.seek( 0x21000158 );
key = f.read( 16 );
}
break;
default:
emit SendError( tr( "Tried to read keys for unknown dump type" ) );
return false;
break;
}
return true;
}
QByteArray NandBin::ReadKeyfile( QString path )
{
QByteArray retval;
QFile f( path );
if( !f.exists() || !f.open( QIODevice::ReadOnly ) )
{
emit SendError( tr( "Can't open %1!" ).arg( path ) );
return retval;
}
if( f.size() < 0x16e )
{
f.close();
emit SendError( tr( "keys.bin is too small!" ) );
return retval;
}
f.seek( 0x158 );
retval = f.read( 16 );
f.close();
return retval;
}
qint32 NandBin::FindSuperblock()
{
if( type < 0 || type > 3 )
{
emit SendError( tr( "Tried to get superblock of unknown dump type" ) );
return -1;
}
if( !f.isOpen() )
{
emit SendError( tr( "Tried to get superblock of unopened dump" ) );
return -1;
}
quint32 loc = 0, current = 0, last = 0;
quint32 n_start[] = { 0x1FC00000, 0x20BE0000, 0x20BE0000 },
n_end[] = { 0x20000000, 0x21000000, 0x21000000 },
n_len[] = { 0x40000, 0x42000, 0x42000 };
for( loc = n_start[ type ]; loc < n_end[ type ]; loc += n_len[ type ] )
{
f.read( (char*)&current, 4 );
current = qFromBigEndian( current );
//qDebug() << "superblock" << hex << current;
if( current > last )
last = current;
else
{
//qDebug() << "superblock loc" << hex << loc - n_len[ type ];
return loc - n_len[ type ];
}
f.seek( n_len[ type ] - 4 );
}
return -1;
}
fst_t NandBin::GetFST( quint16 entry )
{
//qDebug() << "NandBin::GetFST(" << hex << entry << ")";
fst_t fst;
if( entry >= 0x17FF )
{
emit SendError( tr( "Tried to get entry above 0x17ff [ 0x%1 ]" ).arg( entry, 0, 16 ) );
fst.filename[ 0 ] = '\0';
return fst;
}
// compensate for 64 bytes of ecc data every 64 fst entries
quint32 n_fst[] = { 0, 2, 2 };
int loc_entry = ( ( ( entry / 0x40 ) * n_fst[ type ] ) + entry ) * 0x20;
if( (quint32)f.size() < loc_fst + loc_entry + sizeof( fst_t ) )
{
emit SendError( tr( "Tried to read fst_t beyond size of nand.bin" ) );
fst.filename[ 0 ] = '\0';
return fst;
}
f.seek( loc_fst + loc_entry );
f.read( (char*)&fst.filename, 0xc );
f.read( (char*)&fst.mode, 1 );
f.read( (char*)&fst.attr, 1 );
f.read( (char*)&fst.sub, 2 );
f.read( (char*)&fst.sib, 2 );
if( type && ( entry + 1 ) % 64 == 0 )//bug in other nand.bin extracterizers. the entry for every 64th fst item is inturrupeted by some ecc shit
{
f.read( (char*)&fst.size, 2 );
f.seek( f.pos() + 0x40 );
f.read( (char*)(&fst.size) + 2, 2 );
}
else
f.read( (char*)&fst.size, 4 );
f.read( (char*)&fst.uid, 4 );
f.read( (char*)&fst.gid, 2 );
f.read( (char*)&fst.x3, 4 );
fst.sub = qFromBigEndian( fst.sub );
fst.sib = qFromBigEndian( fst.sib );
fst.size = qFromBigEndian( fst.size );
fst.uid = qFromBigEndian( fst.uid );
fst.gid = qFromBigEndian( fst.gid );
fst.x3 = qFromBigEndian( fst.x3 );
fst.mode &= 1;
return fst;
}
quint16 NandBin::GetFAT( quint16 fat_entry )
{
/*
* compensate for "off-16" storage at beginning of superblock
* 53 46 46 53 XX XX XX XX 00 00 00 00
* S F F S "version" padding?
* 1 2 3 4 5 6*/
fat_entry += 6;
// location in fat of cluster chain
quint32 n_fat[] = { 0, 0x20, 0x20 };
int loc = loc_fat + ((((fat_entry / 0x400) * n_fat[type]) + fat_entry) * 2);
if( (quint32)f.size() < loc + sizeof( quint16 ) )
{
emit SendError( tr( "Tried to read FAT entry beyond size of nand.bin" ) );
return 0;
}
f.seek( loc );
quint16 ret;
f.read( (char*)&ret, 2 );
ret = qFromBigEndian( ret );
return ret;
}
QByteArray NandBin::GetCluster( quint16 cluster_entry, bool decrypt )
{
//qDebug() << "NandBin::GetCluster" << hex << cluster_entry;
quint32 n_clusterlen[] = { 0x4000, 0x4200, 0x4200 };
quint32 n_pagelen[] = { 0x800, 0x840, 0x840 };
if( f.size() < ( cluster_entry * n_clusterlen[ type ] ) + ( 8 * n_pagelen[ type ] ) )
{
emit SendError( tr( "Tried to read cluster past size of nand.bin" ) );
return QByteArray();
}
QByteArray cluster;
for( int i = 0; i < 8; i++ )
{
f.seek( ( cluster_entry * n_clusterlen[ type ] ) + ( i * n_pagelen[ type ] ) ); //seek to the beginning of the page to read
//QByteArray page = f.read( n_pagelen[ type ] ); //read the page, with ecc
QByteArray page = f.read( 0x800 ); //read the page, skip the ecc
cluster += page;
}
if( cluster.size() != 0x4000 )
{
qDebug() << "actual cluster size" << hex << cluster.size();
emit SendError( tr( "Error reading cluster" ) );
return QByteArray();
}
if( !decrypt )
return cluster;
//really redundant to do this for ever AES decryption, but the AES code only lets
//1 key set at a time and it may be changed if some other object is decrypting something else
AesSetKey( key );
QByteArray ret = AesDecrypt( 0, cluster );//TODO... is IV really always 0?
return ret;
}
QByteArray NandBin::GetFile( quint16 entry )
{
fst_t fst = GetFST( entry );
if( !fst.filename[ 0 ] )//something is amiss, better quit now
return QByteArray();
return GetFile( fst );
}
QByteArray NandBin::GetFile( fst_t fst )
{
if( !fst.size )
return QByteArray();
quint16 fat = fst.sub;
//int cluster_span = (int)( fst.size / 0x4000) + 1;
QByteArray data;
for (int i = 0; fat < 0xFFF0; i++)
{
QByteArray cluster = GetCluster( fat );
if( cluster.size() != 0x4000 )
return QByteArray();
data += cluster;
fat = GetFAT( fat );
}
//this check doesnt really seem to matter, it always appears to be 1 extra cluster added to the end
//of the file and that extra bit is dropped in this function before the data is returned.
/*if( data.size() != cluster_span * 0x4000 )
{
qDebug() << "data.size() != cluster_span * 0x4000 :: "
<< hex << data.size()
<< cluster_span
<< ( cluster_span * 0x4000 )
<< "expected size:" << hex << fst.size;
emit SendError( tr( "Error reading file [ block size is not a as expected ] %1" ).arg( FstName( fst ) ) );
}*/
if( (quint32)data.size() < fst.size )
{
qDebug() << "(quint32)data.size() < fst.size :: "
<< hex << data.size()
<< "expected size:" << hex << fst.size;
emit SendError( tr( "Error reading file [ returned data size is less that the size in the fst ]" ) );
return QByteArray();
}
if( (quint32)data.size() > fst.size )
data.resize( fst.size );//dont need to give back all the data, only up to the expected size
return data;
}
void NandBin::SetFixNamesForFAT( bool fix )
{
fatNames = fix;
}
void NandBin::ShowInfo()
{
quint16 badBlocks = 0;
quint16 reserved = 0;
quint16 freeBlocks = 0;
QList<quint16>badOnes;
for( quint16 i = 0; i < 0x8000; i++ )
{
quint16 fat = GetFAT( i );
if( 0xfffc == fat )
reserved++;
else if( 0xfffd == fat )
{
badBlocks++;
if( i % 8 == 0 )
{
badOnes << ( i / 8 );
}
}
else if( 0xfffe == fat )
freeBlocks++;
}
if( badBlocks )
badBlocks /= 8;
if( reserved )
reserved /= 8;
if( freeBlocks )
freeBlocks /= 8;
qDebug() << "free blocks:" << hex << freeBlocks
<< "\nbadBlocks:" << hex << badBlocks << badOnes
<< "\nreserved:" << hex << reserved;
}