wiiqt/symbolizer/main.cpp

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#include <QtCore/QCoreApplication>
#include "dol.h"
#include "elfparser.h"
#include "ppc_disasm.h"
#include "../WiiQt/includes.h"
#include "../WiiQt/tools.h"
// holds info about a data section that is assumed correct
struct KnownData
{
quint32 addr; // memory address
quint32 len; // size
QString name; // symbol name
ElfParser::File *file; // pointer to the file object that contains the data
KnownData() : addr( 0 ), len( 0 ), file( NULL )
{
}
};
// holds info about a function that is assumed correct
struct KnownFunction
{
QString debug;// just for debugging this program
const ElfParser::Function *function;
const ElfParser::File *file;
quint32 addr;
QString name;// name is only used for functinos that dont have symbols
KnownFunction( const ElfParser::Function *f = NULL, const ElfParser::File *fi = NULL, quint32 a = 0, const QString &n = QString() )
: function( f ), file( fi ), addr( a ), name( n )
{
}
};
#define GLOBALVAR_MASK( x ) ( (quint32)( x & ( PPCAMASK | 0xffff ) ) )
// keep track of known rtoc & r13 references
struct KnownVariable
{
quint32 sig; // signature for opcodes dealing with this variable when GLOBALVAR_MASK()'d
//! given lwz %r0, -0x5460(%r13), it will store the -0x5460(%r13)
QString name; // symbol name
ElfParser::File *file; // pointer to the file object that contains the data
};
// holds the info about a dol to use while searching for crap in it
Dol dol;
QStringList dolTextHex;// store a copy of the dol as hex for easier searching for patterns
QStringList dolDataHex;
// this is a list containing all the parsed libraries
QList< ElfParser::File > libFiles;
// keep track of stuff that matched exactly
QList< KnownData > knownData;
QList< KnownFunction > knownFunctions;
// keep track of variables accessed through r2 and r13
QList< KnownVariable > knownVariables;
// keep a list of the locations that each function's pattern matched to keep from looking them up over and over
QMap< const ElfParser::Function *, QList< quint32 > >patternMatches;
#define DU32( x ) qDebug().nospace() << #x << ": " << hex << (x)
QString NStr( quint32 num, quint8 width = 8 );
QString NStr( quint32 num, quint8 width )
{
return QString( "%1" ).arg( num, width, 16, QChar( '0' ) );
}
bool IsVariableKnown( quint32 sig, const QList< KnownVariable > &list = knownVariables );
bool IsVariableKnown( quint32 sig, const QList< KnownVariable > &list )
{
foreach( const KnownVariable &var, list )
{
if( var.sig == sig )
{
return true;
}
}
return false;
}
// read dol into memory
bool LoadDol( const QString &path )
{
QByteArray ba = ReadFile( path );
if( ba.isEmpty() )
{
return false;
}
if( path.endsWith( ".dol", Qt::CaseInsensitive ) )
{
if( !dol.Parse( ba ) )
{
return false;
}
}
else
{
ba.resize( 0x807B3E88 - 0x80004000 );
dol = Dol::FakeDol( ba, 0x80004000 );
}
foreach( const DolSection &sec, dol.TextSections() )
{
QString hexS = sec.data.toHex().toUpper();
dolTextHex << hexS;
}
foreach( const DolSection &sec, dol.DataSections() )
{
QString hexS = sec.data.toHex().toUpper();
dolDataHex << hexS;
}
return true;
}
// use objdump on a file and parse its output for elfy goodness
bool ObjDumpLib( const QString &path )
{
QProcess p;
QStringList cmd = QStringList() << "-xds" << path;
p.start( "./objdump", cmd );
if( !p.waitForStarted() )
{
DBG << "!p.waitForStarted()";
return false;
}
if( !p.waitForFinished() )
{
DBG << "!p.waitForStarted()";
return false;
}
QByteArray output = p.readAll();
if( p.exitCode() != QProcess::NormalExit )
{
DBG << "p.exitCode() != QProcess::NormalExit";
return false;
}
QString s( output );
ElfParser parser( s );
if( parser.Error() )
{
WRN << "parser failed";
return false;
}
libFiles << parser.Files();
return true;
}
// decide if the path is a file or a folder coontaining a bunch of files
bool LoadLibs( const QString &path )
{
QFileInfo fi( path );
if( !fi.exists() )
{
DBG << "file";
return false;
}
if( fi.isFile() )
{
if( !ObjDumpLib( path ) )
{
return false;
}
}
else
{
QDir dir( path );
QFileInfoList fil = dir.entryInfoList( QStringList() << "*.a", QDir::Files );
foreach( const QFileInfo &f, fil )
{
// skip debug libs
if( f.completeBaseName().endsWith( 'D' ) )
{
continue;
}
if( !ObjDumpLib( f.absoluteFilePath() ) )
{
return false;
}
}
}
return true;
}
// search for a bytearray in another one, but aligned to 4
int AlignedBASearch( const QByteArray &needle, const QByteArray &haystack, qint64 start = 0 );
int AlignedBASearch( const QByteArray &needle, const QByteArray &haystack, qint64 start )
{
qint64 hSize = haystack.size();
qint64 nSize = needle.size();
if( start % 4 || start >= hSize )
{
return -1;
}
qint64 end = hSize - nSize;
for( ; start < end; start += 4 )
{
qint64 j;
for( j = 0; j < nSize; j++ )
{
if( needle.at( j ) != haystack.at( start + j ) )
{
break;
}
}
if( j == nSize )
{
return start;
}
}
return -1;
}
void RemoveOverlaps()
{
QList< const KnownData * > removeData;
QList< const KnownFunction * > removeFunctions;
foreach( const KnownFunction &kf1, knownFunctions )
{
if( !kf1.function )
{
continue;
}
quint32 start = kf1.addr;
quint32 end = start + ( kf1.function->Pattern().size() / 2 );
foreach( const KnownFunction &kf2, knownFunctions )
{
if( !kf2.function )
{
continue;
}
if( kf1.function == kf2.function )
{
continue;
}
quint32 start2 = kf2.addr;
if( start2 >= start && start2 < end )
{
removeFunctions << &kf1 << &kf2;
}
}
foreach( const KnownData & kd, knownData )
{
quint32 start2 = kd.addr;
if( start2 >= start && start2 < end )
{
removeFunctions << &kf1;
removeData << &kd;
}
}
}
// this check works, but when allowing tiny data patterns into the list, it allows some false positives and throws errors
foreach( const KnownData & kd, knownData )
{
quint32 start = kd.addr;
quint32 end = start + kd.len;
foreach( const KnownFunction &kf2, knownFunctions )
{
if( !kf2.function )
{
continue;
}
quint32 start2 = kf2.addr;
if( start2 >= start && start2 < end )
{
removeFunctions << &kf2;
removeData << &kd;
}
}
foreach( const KnownData & kd2, knownData )
{
if( kd.name == kd2.name )
{
continue;
}
quint32 start2 = kd2.addr;
if( start2 >= start && start2 < end )
{
removeData << &kd << &kd2;
}
}
}
// build new lists and exclude the overlapped stuff
QList< KnownData > knownData2;
QList< KnownFunction > knownFunctions2;
foreach( const KnownFunction &kf, knownFunctions )
{
if( !removeFunctions.contains( &kf ) )
{
knownFunctions2 << kf;
}
}
foreach( const KnownData & kd, knownData )
{
if( !removeData.contains( &kd ) )
{
knownData2 << kd;
}
}
knownData = knownData2;
knownFunctions = knownFunctions2;
}
void AddFunctionToKnownList( const ElfParser::Function *function, const ElfParser::File *file, quint32 addr, const QString &debug = QString() );
void AddFunctionToKnownList( const ElfParser::Function *function, const ElfParser::File *file, quint32 addr, const QString &debug )
{
foreach( const KnownFunction &kf, knownFunctions )
{
if( kf.function == function )
{
if( kf.addr != addr )
{
DBG << "tried to add" << function->Name() << "to known functions at" << hex << addr << "but it already exists at" << kf.addr;
// TODO, probably need to remove the existing function from the list
}
return;
}
}
KnownFunction kf( function, file, addr );
kf.debug = debug;
knownFunctions << kf;
}
void AddFunctionToKnownList( const QString &name, quint32 addr, const QString &debug = QString() );
void AddFunctionToKnownList( const QString &name, quint32 addr, const QString &debug )
{
foreach( const KnownFunction &kf, knownFunctions )
{
if( kf.name == name )
{
if( kf.addr != addr )
{
DBG << "tried to add" << name << "to known functions at" << hex << addr << "but it already exists at" << kf.addr;
// TODO, probably need to remove the existing function from the list
}
return;
}
}
KnownFunction kf( NULL, NULL, addr, name );
kf.debug = debug;
knownFunctions << kf;
}
int PatternSearch( const QString &needle, const QString &haystack, qint64 start = 0 );
int PatternSearch( const QString &needle, const QString &haystack, qint64 start )
{
qint64 hSize = haystack.size();
qint64 nSize = needle.size();
if( start % 8 || start >= hSize )
{
return -1;
}
qint64 end = hSize - nSize;
for( ; start < end; start += 8 )
{
qint64 j;
for( j = 0; j < nSize; j++ )
{
QChar c = needle.at( j );
if( c == '.' )
{
continue;
}
if( c != haystack.at( start + j ) )
{
//DBG << "index" << hex << (quint32)j;
break;
}
}
if( j == nSize )
{
return start;
}
}
return -1;
}
const QList< quint32 > &PatternMatches( const ElfParser::Function *fun )
{
QMap< const ElfParser::Function *, QList< quint32 > >::iterator it = patternMatches.find( fun );
if( it != patternMatches.end() )
{
return it.value();
}
QStringList wholeDolHex = dolTextHex + dolDataHex;
QList< DolSection > wholeDol = dol.TextSections() + dol.DataSections();
QList< quint32 > addrs;
// find all pattern matches
for( int i = 0; i < wholeDol.size(); i++ )
{
const QString &line = wholeDolHex.at( i );
qint64 off2 = PatternSearch( fun->Pattern(), line );
while( off2 >= 0 )
{
// convert to actual address
quint32 maybeAddr = ( (quint32)off2 / 2 ) + wholeDol.at( i ).addr;
// add it to the list
addrs << maybeAddr;
off2 = PatternSearch( fun->Pattern(), line, off2 + 8 );
}
}
patternMatches[ fun ] = addrs;
return patternMatches.find( fun ).value();
}
bool PattenMatches( const QString &needle, const QString &haystack, qint64 offset )
{
qint64 hSize = haystack.size();
qint64 nSize = needle.size();
if( nSize > hSize || offset >= hSize )
{
return false;
}
qint64 j;
for( j = 0; j < nSize; j++ )
{
QChar c = needle.at( j );
if( c == '.' )
{
continue;
}
if( c != haystack.at( j + offset ) )
{
return false;
}
}
return true;
}
quint32 GetOpcodeFromAddr( quint32 addr )
{
QList< DolSection > wholeDol = dol.TextSections() + dol.DataSections();
foreach( const DolSection &sec, wholeDol )
{
quint32 end = sec.addr + sec.data.size();
if( addr >= sec.addr && addr < end )
{
quint32 offset = addr - sec.addr;
return qToBigEndian( *(quint32*)( sec.data.data() + offset ) );
}
}
return 0xdeadbeef;
}
quint32 ResolveBranch( quint32 addr, quint32 opcode )
{
quint32 ret = opcode & 0x3fffffc;
if( ret >= 0x2000000 )
{
return addr - ( 0x4000000 - ret );
}
return addr + ret;
}
bool AddressIsInDol( quint32 addr, quint32 *section = NULL );
bool AddressIsInDol( quint32 addr, quint32 *section )
{
QList< DolSection > wholeDol = dol.DataSections() + dol.TextSections();
for( quint32 i = 0; i < (quint32)wholeDol.size(); i++ )
{
const DolSection &sec = wholeDol.at( i );
quint32 end = sec.addr + sec.data.size();
if( addr >= sec.addr && addr < end )
{
if( section )
{
*section = i;
}
return true;
}
}
return false;
}
bool ListContains( const QList< QPair< const ElfParser::Function *, quint32 > > &list, const ElfParser::Function *fun, quint32 addr )
{
int s = list.size();
for( int i = 0; i < s; i++ )
{
const QPair< const ElfParser::Function *, quint32 > &p = list.at( i );
if( p.first == fun && p.second == addr )
{
return true;
}
}
return false;
}
void CleanupList( QList< QPair< const ElfParser::Function *, quint32 > > &list )
{
QList< const ElfParser::Function * >dupFunctions;
QList< quint32 >dupAddrs;
QList< QPair< const ElfParser::Function *, quint32 > > ret;
int s = list.size();
for( int i = 0; i < s; i++ )
{
const QPair< const ElfParser::Function *, quint32 > &p1 = list.at( i );
for( int j = 0; j < s; j++ )
{
const QPair< const ElfParser::Function *, quint32 > &p2 = list.at( j );
if( p1.second == p2.second )// is address the same
{
if( p1.first != p2.first )// is function the same
{
dupAddrs << p1.second;// same address but 2 different functions
}
}
else if( p1.first == p2.first )
{
dupFunctions << p1.first;// different address but same function
}
}
}
// now build a new list
for( int i = 0; i < s; i++ )
{
const QPair< const ElfParser::Function *, quint32 > &p1 = list.at( i );
// this one clashed with another function
if( dupAddrs.contains( p1.second ) || dupFunctions.contains( p1.first ) )
{
continue;
}
// make sure this function isnt already in the list
int t = ret.size();
bool alreadyHaveIt = false;
for( int j = 0; j < t; j++ )
{
const QPair< const ElfParser::Function *, quint32 > &p2 = ret.at( j );
if( p1.second == p2.second )
{
alreadyHaveIt = true;
break;
}
}
if( !alreadyHaveIt )
{
ret << p1;
}
}
list = ret;
}
void CleanupList( QList< QPair< QString, quint32 > > &list )
{
QStringList dupNames;
QList< quint32 >dupAddrs;
QList< QPair< QString, quint32 > > ret;
int s = list.size();
for( int i = 0; i < s; i++ )
{
const QPair< QString, quint32 > &p1 = list.at( i );
for( int j = 0; j < s; j++ )
{
const QPair< QString, quint32 > &p2 = list.at( j );
if( p1.second == p2.second )// is address the same
{
if( p1.first != p2.first )// is name the same
{
dupAddrs << p1.second;// same address but 2 different names
}
}
else if( p1.first == p2.first )
{
dupNames << p1.first;// different address but same names
}
}
}
// now build a new list
for( int i = 0; i < s; i++ )
{
const QPair< QString, quint32 > &p1 = list.at( i );
// this one clashed with another function
if( dupAddrs.contains( p1.second ) || dupNames.contains( p1.first ) )
{
continue;
}
// make sure this function isnt already in the list
int t = ret.size();
bool alreadyHaveIt = false;
for( int j = 0; j < t; j++ )
{
const QPair< QString, quint32 > &p2 = ret.at( j );
if( p1.second == p2.second )
{
alreadyHaveIt = true;
break;
}
}
if( !alreadyHaveIt )
{
ret << p1;
}
}
list = ret;
}
bool FunctionIsKnown( const ElfParser::Function *f )
{
foreach( const KnownFunction &kf1, knownFunctions )
{
if( kf1.function == f )
{
return true;
}
}
return false;
}
bool FunctionIsKnown( const QString &str, quint32 *addrOut = NULL );
bool FunctionIsKnown( const QString &str, quint32 *addrOut )
{
foreach( const KnownFunction &kf1, knownFunctions )
{
if( !kf1.function )
{
if( kf1.name == str )
{
if( addrOut )
{
*addrOut = kf1.addr;
}
return true;
}
}
else if( kf1.function->Name() == str )
{
if( addrOut )
{
*addrOut = kf1.addr;
}
return true;
}
}
return false;
}
// look for non-function data and try to match it
void TryToMatchData()
{
QList< quint32 > matchedAddrs;
QList< quint32 > reusedAddrs;
QList< KnownData > maybeMatches;
QList< DolSection > wholeDol = dol.DataSections() + dol.TextSections();
foreach( const ElfParser::File &f, libFiles )// search each file
{
//qDebug() << "f.Name()" << f.Name() << f.Sections().size();
QMapIterator< QString, QByteArray >it( f.Sections() );// search each data section in each file
while( it.hasNext() )
{
it.next();
qint64 off = -1;
quint32 addr = 0;
bool fail = false;
foreach( const DolSection &sec, wholeDol )// search in each section of the dol
{
//qDebug() << "expected" << sec.data.indexOf( it.value() );
qint64 off2 = AlignedBASearch( it.value(), sec.data );
if( off2 < 0 )
{
continue;
}
//qDebug() << "matched" << it.key();
qint64 off3 = AlignedBASearch( it.value(), sec.data, off2 + 4 );
if( off3 > 0 )
{
//qDebug() << "matched more than once in 1 section" << it.key();
continue;
}
if( off >= 0 )
{
//qDebug() << "matched more than once in 2 section" << it.key();
fail = true;
break;
}
off = off2;
addr = sec.addr + off;
}
if( fail || off < 0 )// the data section was matched more than 1 time or wasnt matched at all
{
//qDebug() << "didnt match" << fail << off;
continue;
}
if( matchedAddrs.contains( addr ) )// something else already matched this location
{
//qDebug() << "matched but reused addr";
reusedAddrs << addr;
continue;
}
// add this to the list of posibilities
matchedAddrs << addr;
KnownData kd;
kd.addr = addr;
kd.name = it.key();
kd.len = it.value().size();
kd.file = (ElfParser::File*)&f;
maybeMatches << kd;
}
}
// now go back and pick out the ones that are really matches
//qDebug() << "Matched data sections:";
foreach( const KnownData &kd, maybeMatches )
{
if( reusedAddrs.contains( kd.addr ) )
{
continue;
}
knownData << kd;
/*qDebug() << hex << kd.addr << kd.len << kd.name << "from" << kd.file->Name();
// print aliases
foreach( const SymAlias &alias, kd.file->Aliases() )
{
if( alias.containerName == kd.name )
{
qDebug() << hex << " " << ( kd.addr + alias.offset ) << alias.size << alias.name;
}
}*/
}
RemoveOverlaps();
}
void TryToMatchFunctions0()
{
QList<quint32> usedAddrs;
QList<quint32> dupAddrs;
QList< QPair< const ElfParser::Function *, quint32> > maybeMatches;// keep track of functions to check
QMap< const ElfParser::Function *, const ElfParser::File * >fileMap;
foreach( const ElfParser::File &f, libFiles )// search each file
{
foreach( const ElfParser::Function &fun, f.Functions() )// search each function in each file
{
if( fun.References().size() )
{
continue;
}
quint32 addr;
const QList< quint32 > &addrs = PatternMatches( &fun );
if( addrs.size() != 1 )
{
continue;
}
addr = addrs.at( 0 );
if( usedAddrs.contains( addr ) )
{
dupAddrs << addr;
continue;
}
usedAddrs << addr;
maybeMatches << QPair< const ElfParser::Function *, quint32>( &fun, addr );
fileMap[ &fun ] = &f;
}
}
//qDebug() << " -- Matched by searching for patterns with no wildcards --";
int ss = maybeMatches.size();
for( int i = 0; i < ss; i++ )
{
const QPair< const ElfParser::Function *, quint32>&p = maybeMatches.at( i );
if( dupAddrs.contains( p.second ) )
{
//qDebug() << "tossing out" << p.first->Name() << "because addr" << hex << p.second << "is reused";
continue;
}
//qDebug() << hex << p.second << NStr( p.first->Pattern().size() / 2, 4 ) << p.first->Name();
AddFunctionToKnownList( p.first, fileMap.find( p.first ).value(), p.second, __FUNCTION__ );
}
RemoveOverlaps();
}
void TryToMatchFunctions1()
{
QList< QPair< const ElfParser::Function *, const KnownData *> > maybeMatches;// keep track of functions to check
QList< QPair< QPair< const ElfParser::Function *, const KnownData *> *, const SymAlias * > > aliasMatches;// keep track of functions to check via aliases
QMap< const ElfParser::Function *, const ElfParser::File * >fileMap;
// build a list of all the functions that reference the known data
foreach( const ElfParser::File &f, libFiles )// search each file
{
//qDebug() << "file" << f.Name();
foreach( const ElfParser::Function &fun, f.Functions() )// search each function in each file
{
bool doneWithFunction = false;
QStringList doneRefs;// keep a list of refs we already tried to match up against
foreach( const SymRef &ref, fun.References() )// look at each reference from each function
{
if( doneWithFunction )
{
break;
}
//bool aliased = false;
if( doneRefs.contains( ref.name ) )
{
continue;
}
doneRefs << ref.name;
switch( ref.type )
{
case SymRef::R_PPC_EMB_SDA21:// not sure how to handle these 2 types, so skip them for now
case SymRef::R_PPC_SDAREL16:
case SymRef::R_PPC_WTF:
{
continue;
}
break;
default:
break;
}
//qDebug() << " " << ref.name;
foreach( const KnownData &kd, knownData )// see if this function references a known symbol
{
if( kd.file != (ElfParser::File*)&f )
{
continue;
}
//qDebug() << " " << kd.name;
if( kd.name == ref.name )
{
//qDebug() << "function:" << fun.Name() << "references" << kd.name << kd.file->Name();
//qDebug() << ref.name;
maybeMatches << QPair< const ElfParser::Function *, const KnownData *>( &fun, &kd );
doneWithFunction = true;
break;
}
foreach( const SymAlias &alias, f.Aliases() )
{
bool ok = false;
if( alias.containerName == kd.name && alias.name == ref.name )
{
//qDebug() << "function:" << fun.Name() << "references" << kd.name << "through alias" << alias.name << " in" << kd.file->Name();
//qDebug() << "container str" << alias.containerName;
QPair< const ElfParser::Function *, const KnownData *> np( &fun, &kd );
maybeMatches << np;
QPair< QPair< const ElfParser::Function *, const KnownData *> *, const SymAlias * > ap( &np, &alias );
aliasMatches << ap;
doneWithFunction = true;
break;
}
if( ok )
{
break;
}
}
}
if( doneWithFunction )
{
fileMap[ &fun ] = &f;
}
}
}
}
// now search the dol and see if the possible matches will fit
int listSize = maybeMatches.size();
QList< QPair< const ElfParser::Function *, quint32 > > probablyMatches;
for( int j = 0; j < listSize; j++ )
{
const QPair< const ElfParser::Function *, const KnownData *> &it = maybeMatches.at( j );
// look for a possible match for this function
const QList< quint32 > &addrs = PatternMatches( it.first );
foreach( quint32 addr, addrs )
{
//qDebug() << "using address" << hex << addr << "for" << it.first->Name();
foreach( const SymRef &ref, it.first->References() )
{
switch( ref.type )
{
case SymRef::R_PPC_EMB_SDA21:// not sure how to handle these 2 types, so skip them for now
case SymRef::R_PPC_SDAREL16:
case SymRef::R_PPC_WTF:
{
//qDebug() << "skipped due to ref type" << ref.type;
continue;
}
break;
default:
break;
}
bool fail = false;
quint32 refOff = ref.off;
quint32 aliasDiff = 0;
if( ref.name != it.second->name )// wrong reference
{
//qDebug() << " ref.name" << ref.name;
//qDebug() << it.second->name << "wasn't found. checking aliases";
bool ok = false;
int s = aliasMatches.size();
for( int ss = 0; ss < s; ss++ )
{
const QPair< QPair< const ElfParser::Function *, const KnownData *> *, const SymAlias * > &aliasMatch = aliasMatches.at( ss );
if( it.second->name == aliasMatch.second->containerName )
{
//qDebug() << "search using alias" << aliasMatch.second->name;
aliasDiff = aliasMatch.second->offset;
ok = true;
break;
}
}
if( !ok )
{
continue;
}
}
quint32 codeOff = ( addr + refOff ) & ~3;
quint32 opcode = GetOpcodeFromAddr( codeOff );
//qDebug() << "possible match" << it.first->Name();
switch( ref.type )
{
case SymRef::R_PPC_ADDR16_HA:// upper 16 bits
{
quint32 symbol = ( it.second->addr + ref.symOff + aliasDiff );
quint16 upper = ( ( symbol & 0xffff0000 ) >> 16 ) + ( ( symbol & 0x8000 ) ? 1 : 0 );
if( ( opcode & 0xffff ) != upper )
{
fail = true;
//qDebug() << "bad high" << hex << opcode << refOff << ref.name << ref.symOff;
//qDebug() << hex << "expected" << (quint32)( ( ( it.second->addr + ref.symOff + aliasDiff ) & 0xffff0000 ) >> 16 );
//DumpRefs( *( it.first ) );
}
}
break;
case SymRef::R_PPC_ADDR16_HI:// upper 16 bits
{
quint16 upper = ( ( ( it.second->addr + ref.symOff + aliasDiff ) & 0xffff0000 ) >> 16 );
if( ( opcode & 0xffff ) != upper )
{
fail = true;
//qDebug() << "bad high" << hex << opcode << refOff << ref.name << ref.symOff;
//qDebug() << hex << "expected" << (quint32)( ( ( it.second->addr + ref.symOff + aliasDiff ) & 0xffff0000 ) >> 16 );
//DumpRefs( *( it.first ) );
}
}
break;
case SymRef::R_PPC_ADDR16_LO:// lower 16 bits
{
if( ( opcode & 0xffff ) != ( (it.second->addr + ref.symOff + aliasDiff ) & 0xffff ) )
{
fail = true;
//qDebug() << "bad low" << hex << opcode << refOff << ref.name << ref.symOff;
//qDebug() << hex << "expected" << (quint32)( ( (it.second->addr + ref.symOff + aliasDiff ) & 0xffff ) );
//DumpRefs( *( it.first ) );
}
}
break;
case SymRef::R_PPC_REL24:// branch
{
quint32 res = ResolveBranch( addr + ( refOff & ~3 ), opcode );
if( !AddressIsInDol( res ) )// just make sure the branch is inside the dol for now. no functions are actually known
{
fail = true;
//qDebug() << "bad dranch" << hex << res << opcode << it.second->addr << ref.name;
}
}
break;
default:
continue;
break;
}
//qDebug() << "fakematch" << hex << addr << it.first->Name();
// if we found a possible match and we dont already have this one
if( !fail && !ListContains( probablyMatches, it.first, addr ) )
{
probablyMatches << QPair< const ElfParser::Function *, quint32 > ( it.first, addr );
}
}
}
}
// cleanup the list
CleanupList( probablyMatches );
int s = probablyMatches.size();
//qDebug() << " -- Functions matched by data references --";
for( int i = 0; i < s; i++ )
{
const QPair< const ElfParser::Function *, quint32 > &p = probablyMatches.at( i );
//qDebug() << hex << p.second << NStr( p.first->Pattern().size() / 2, 4 ) << p.first->Name();
AddFunctionToKnownList( p.first, fileMap.find( p.first ).value(), p.second, __FUNCTION__ );
}
RemoveOverlaps();
}
void FindGlobalVariables()
{
QList< QPair< const ElfParser::Function *, const KnownData *> > maybeMatches;// keep track of functions to check
//QList< QPair< QPair< const ElfParser::Function *, const KnownData *> *, const SymAlias * > > aliasMatches;// keep track of functions to check via aliases
QMap< const ElfParser::Function *, const ElfParser::File * >fileMap;
QMap< const ElfParser::Function *, quint32 >winners;
QList< KnownVariable > newVariables;
foreach( const KnownFunction &kf1, knownFunctions )// look in all known functions for global variables
{
if( !kf1.file )
{
continue;
}
foreach( const SymRef &ref, kf1.function->References() )
{
if( ref.type != SymRef::R_PPC_EMB_SDA21 )
{
continue;
}
quint32 addr = kf1.addr + ( ref.off & ~3 );
quint32 opcode = GetOpcodeFromAddr( addr );
if( opcode == 0xdeadbeef )
{
DBG << "opcode" << hex << opcode;
continue;
}
quint32 reg = (quint32)PPCGETA( opcode );
if( reg != 2 && reg != 13 )
{
DBG << "reg:" << hex << reg << kf1.function->Name() << ref.name;
continue;
}
quint32 sig = GLOBALVAR_MASK( opcode );
if( IsVariableKnown( sig, newVariables ) || IsVariableKnown( sig ) )
{
continue;
}
KnownVariable nw;
nw.file = (ElfParser::File *)kf1.file;
nw.name = ref.name;
nw.sig = sig;
newVariables << nw;
/*qDebug() << "opcode" << hex << opcode << "addr" << addr;
qDebug() << kf1.function->Name() << ref.name;
qDebug();
quint32 z = GLOBALVAR_MASK( opcode );
opcode = z;
quint32 s = (quint32)PPCGETD( opcode );
quint32 a = (quint32)PPCGETA( opcode );
quint32 d = (quint32)( opcode & 0xffff );
quint32 o = (quint32)( PPCGETIDX( opcode ) - 32 );
DU32( o );
DU32( d );
DU32( s );
DU32( a );*/
//exit( 0 );
}
}
// look at all the variables and see if there is an unknown function in that file that refers to the variable
QList< const ElfParser::Function * > bitches;
foreach( const KnownVariable &var, newVariables )
{
foreach( const ElfParser::Function &fun, var.file->Functions() )
{
if( FunctionIsKnown( &fun ) )
{
continue;
}
foreach( const SymRef &ref, fun.References() )
{
if( ref.type != SymRef::R_PPC_EMB_SDA21 )
{
continue;
}
if( ref.name != var.name )
{
continue;
}
if( !bitches.contains( &fun ) )
{
bitches << &fun;
fileMap[ &fun ] = var.file;
}
}
}
}
// now look at all the references to global variables in each found function and if it refers to a known one,
// check the opcode and see that it is correct
QMapIterator< const ElfParser::Function *, const ElfParser::File * > it( fileMap );
while( it.hasNext() )
{
it.next();
QList< quint32 > addrs = PatternMatches( it.key() );
quint32 winner = 0;
bool functionFailed = false;
foreach( quint32 addr, addrs )
{
bool fail = false;
foreach( const SymRef &ref, it.key()->References() )
{
if( ref.type != SymRef::R_PPC_EMB_SDA21 )
{
continue;
}
quint32 varSig = 0xb00b5;
foreach( const KnownVariable &kv, newVariables )
{
if( kv.file == it.value() && kv.name == ref.name )
{
varSig = kv.sig;
break;
}
}
if( varSig == 0xb00b5 )// we dont know this variable
{
continue;
}
quint32 opAddr = addr + ( ref.off & ~3 );
quint32 opcode = GetOpcodeFromAddr( opAddr );
if( opcode == 0xdeadbeef )
{
DBG << "opcode" << hex << opcode;
continue;
}
if( GLOBALVAR_MASK( opcode ) != varSig )
{
fail = true;
break;
}
}
if( fail )
{
continue;
}
if( winner )// found more than 1 match for this little guy
{
functionFailed = true;
break;
}
winner = addr;
}
if( winner && !functionFailed )
{
winners[ it.key() ] = winner;
}
}
knownVariables << newVariables;
//DBG << "added these bad boys";
QMapIterator< const ElfParser::Function *, quint32 > ret( winners );
while( ret.hasNext() )
{
ret.next();
//qDebug() << hex << ret.value()
// << NStr( ret.key()->Pattern().size() / 2, 4 )
// << ret.key()->Name()
// << fileMap.find( ret.key() ).value()->Name();
AddFunctionToKnownList( ret.key(), fileMap.find( ret.key() ).value(), ret.value(), __FUNCTION__ );
}
RemoveOverlaps();
}
void TryToMatchFunctions2( QMap< const ElfParser::Function *, quint32 > &nonMatchingBranches )
{
QStringList wholeDolHex = dolDataHex + dolTextHex;
QList< DolSection > wholeDol = dol.DataSections() + dol.TextSections();
QMap< const ElfParser::Function *, const ElfParser::File * >fileMap;
QList< QPair< const ElfParser::Function *, quint32 > > probablyMatches;// these have symbols
QList< QPair< QString, quint32 > > probablyMatches2;// these have no symbols
foreach( const KnownFunction &kf, knownFunctions )
{
if( !kf.function )// wont have these for functions we dont have symbols for
{
continue;
}
const ElfParser::Function * fun = kf.function;
QStringList doneRefs;
foreach( const SymRef &ref, fun->References() )// look at each reference from each function
{
switch( ref.type )
{
case SymRef::R_PPC_REL24:// we only care about branches right now
break;
default:
continue;
break;
}
if( doneRefs.contains( ref.name ) )// dont check branches to the same function from within the same calling function
{
continue;
}
doneRefs << ref.name;
bool alreadyKnown = false;
foreach( const KnownFunction &kf, knownFunctions )// dont bother checking branches if we already know the function it is branching to
{
if( !kf.function )// wont have these for functions we dont have symbols for
{
if( ref.name == kf.name )
{
alreadyKnown = true;
break;
}
continue;
}
if( kf.function->Name() == ref.name )
{
alreadyKnown = true;
break;
}
}
if( alreadyKnown )
{
continue;
}
quint32 addr = kf.addr + ref.off;
quint32 opcode = GetOpcodeFromAddr( addr );
if( opcode == 0xdeadbeef )
{
DBG << "error getting opcode from" << hex << addr << fun->Name();
break;
}
quint32 res = ResolveBranch( addr , opcode );
quint32 dolIdx;
if( !AddressIsInDol( res, &dolIdx ) )// make sure the branch is inside the dol
{
break;
}
//qDebug() << hex << res << ref.name << "from" << kf.addr << fun->Name() << addr << opcode;
bool branchHasSymbols = false;
bool skipIt = false;
foreach( const ElfParser::File &f, libFiles )
{
//qDebug() << "f.Name():" << f.Name();
foreach( const ElfParser::Function &fun2, f.Functions() )
{
//qDebug() << " fun.Name():" << fun.Name() << ref.name;
if( fun2.Name() == ref.name )
{
branchHasSymbols = true;
if( nonMatchingBranches.find( &fun2 ) != nonMatchingBranches.end() )// already looked for this one
{
skipIt = true;
break;
}
qint64 textOffset = res - wholeDol.at( dolIdx ).addr;
textOffset *= 2;
if( PattenMatches( fun2.Pattern(), wholeDolHex.at( dolIdx ), textOffset ) )
{
probablyMatches << QPair< const ElfParser::Function *, quint32 >( &fun2, res );
fileMap[ &fun2 ] = &f;
}
else
{
/*if( fun2.Name() == "NANDPrivateCreateAsync" )
{
qDebug() << "expected" << fun2.Name() << "at" << hex << res << "but pattern didnt match";
qDebug() << "being called from" << fun->Name() << "at" << hex << addr;
qDebug() << "offset" << NStr( textOffset ) << "in section" << dolIdx;
qDebug() << fun2.Pattern();
qDebug() << wholeDolHex.at( dolIdx ).mid( textOffset, fun2.Pattern().size() );
exit( 0 );
}*/
//qDebug() << "expected" << fun2.Name() << "at" << hex << res << "but pattern didnt match";
//qDebug() << "being called from" << fun->Name() << "at" << hex << addr;
nonMatchingBranches[ &fun2 ] = res;
}
break;
}
}
if( skipIt )
{
break;
//continue;
}
if( branchHasSymbols )
{
break;
}
}
if( !branchHasSymbols )// we don't have any symbols for this function. but just assume it is right for now
{
probablyMatches2 << QPair< QString, quint32 >( ref.name, res );
}
}
}
// cleanup the lists
CleanupList( probablyMatches );
int s = probablyMatches.size();
for( int i = 0; i < s; i++ )
{
const QPair< const ElfParser::Function *, quint32 > &p = probablyMatches.at( i );
//qDebug() << hex << p.second << p.first->Name();
AddFunctionToKnownList( p.first, fileMap.find( p.first ).value(), p.second, __FUNCTION__ );
}
CleanupList( probablyMatches2 );
//qDebug() << " -- Functions matched by branches from known functions --";
s = probablyMatches2.size();
for( int i = 0; i < s; i++ )
{
const QPair< QString, quint32 > &p = probablyMatches2.at( i );
//qDebug() << hex << p.second << p.first;
AddFunctionToKnownList( p.first, p.second, __FUNCTION__ );
}
RemoveOverlaps();
}
QList< QPair< const ElfParser::Function *, quint32> > TryToMatchFunctions3( QList< const ElfParser::Function * > &ignoreFunctions )
{
QMap< const ElfParser::Function *, const ElfParser::File * >fileMap;
QList<quint32> usedAddrs;
QList<quint32> dupAddrs;
QList< QPair< const ElfParser::Function *, quint32> > maybeMatches;// keep track of functions to check
foreach( const ElfParser::File &f, libFiles )// search each file
{
foreach( const ElfParser::Function &fun, f.Functions() )// search each function in each file
{
if( ignoreFunctions.contains( &fun ) || FunctionIsKnown( &fun ) )
{
continue;
}
// keep a list of addresses of the functions this one branches to
QMap< QString, quint32 >refAddrs;
QStringList doneRefs;// keep a list of refs we already tried to match up against
foreach( const SymRef &ref, fun.References() )// look at each reference from each function
{
if( ref.type != SymRef::R_PPC_REL24 || doneRefs.contains( ref.name ) )
{
continue;
}
doneRefs << ref.name;
quint32 expectedAddr;
if( FunctionIsKnown( ref.name, &expectedAddr ) )
{
refAddrs[ ref.name ] = expectedAddr;
}
}
// this function doesnt branch to any known ones
if( !refAddrs.size() )
{
continue;
}
// find a pattern match
const QList< quint32 > &addrs = PatternMatches( &fun );
foreach( quint32 maybeAddr, addrs )
{
bool fail = false;
doneRefs.clear();
foreach( const SymRef &ref, fun.References() )// look at each reference from each function
{
if( ref.type != SymRef::R_PPC_REL24 || doneRefs.contains( ref.name ) )
{
continue;
}
doneRefs << ref.name;
QMap< QString, quint32 >::iterator refAddr = refAddrs.find( ref.name );
if( refAddr == refAddrs.end() )
{
continue;
}
quint32 branchFromAddr = maybeAddr + ref.off;
quint32 opcode = GetOpcodeFromAddr( branchFromAddr );
if( opcode == 0xdeadbeef )
{
DBG << "error getting opcode from" << hex << branchFromAddr << fun.Name() << "ref" << ref.name;
fail = true;
break;
}
quint32 res = ResolveBranch( branchFromAddr , opcode );
if( res != refAddr.value() )
{
fail = true;
break;
}
}
if( !fail )// all the branches from this function land on the expected other function
{
if( usedAddrs.contains( maybeAddr ) )
{
dupAddrs << maybeAddr;
ignoreFunctions << &fun;
}
else
{
maybeMatches << QPair< const ElfParser::Function *, quint32 >( &fun, maybeAddr );
fileMap[ &fun ] = &f;
}
usedAddrs << maybeAddr;
}
else
{
ignoreFunctions << &fun;
}
}
}
}
// cleanup the list
CleanupList( maybeMatches );
int s = maybeMatches.size();
//qDebug() << "Functions matched by branch references:";
for( int i = 0; i < s; i++ )
{
const QPair< const ElfParser::Function *, quint32 > &p = maybeMatches.at( i );
//qDebug() << hex << p.second << NStr( p.first->Pattern().size() / 2, 4 ) << p.first->Name();
AddFunctionToKnownList( p.first, fileMap.find( p.first ).value(), p.second, __FUNCTION__ );
}
RemoveOverlaps();
return maybeMatches;
}
// looks for functions that DO contain a wildcard and only have 1 pattern match
QList< QPair< const ElfParser::Function *, quint32> > TryToMatchFunctions4( QList< const ElfParser::Function * > &ignoreFunctions, quint32 minLen )
{
QMap< const ElfParser::Function *, const ElfParser::File * >fileMap;
QList< QPair< const ElfParser::Function *, quint32> > maybeMatches;// keep track of functions to check
foreach( const ElfParser::File &f, libFiles )// search each file
{
foreach( const ElfParser::Function &fun, f.Functions() )// search each function in each file
{
if( ignoreFunctions.contains( &fun ) || FunctionIsKnown( &fun ) )
{
continue;
}
quint32 len = fun.Pattern().length() / 2;
if( len < minLen )
{
continue;
}
const QList< quint32 > &addrs = PatternMatches( &fun );
if( addrs.size() != 1 )
{
continue;
}
quint32 addr = addrs.at( 0 );
quint32 fEnd = addr + len;
// see if inserting this function at this address will colide with any existing known data
bool fail = false;
foreach( const KnownFunction &kf1, knownFunctions )
{
if( !kf1.function )
{
continue;
}
quint32 start = kf1.addr;
quint32 end = start + ( kf1.function->Pattern().size() / 2 );
if( ( start >= addr && end < fEnd )
|| ( addr >= start && fEnd < end ) )
{
fail = true;
break;
}
}
if( fail )
{
continue;
}
maybeMatches << QPair< const ElfParser::Function *, quint32 >( &fun, addr );
fileMap[ &fun ] = &f;
}
}
// cleanup the list
CleanupList( maybeMatches );
int s = maybeMatches.size();
//qDebug() << "Functions that only have 1 pattern match, contain wildcards, and are larger than 0x" << hex << minLen << "bytes:";
for( int i = 0; i < s; i++ )
{
const QPair< const ElfParser::Function *, quint32 > &p = maybeMatches.at( i );
//qDebug() << hex << p.second << NStr( p.first->Pattern().size() / 2, 4 ) << p.first->Name();
AddFunctionToKnownList( p.first, fileMap.find( p.first ).value(), p.second, __FUNCTION__ );
}
RemoveOverlaps();
return maybeMatches;
}
#define INDENT_TXT QString( " " )
QString MakeUniqueName( const QString &name, QStringList &list )
{
quint32 fix = 0;
QString ret( name );
while( list.contains( ret ) )
{
ret = name + QString( "_%1" ).arg( fix++ );
}
list << ret;
return ret;
}
QString CleanupNameString( const QString &name )// gcc puts the section name at the front of the user-given name
{
if( name.startsWith( ".sbss." ) )
{
return name.mid( 6 );
}
if( name.startsWith( ".rodata." ) )
{
return name.mid( 8 );
}
if( name.startsWith( ".sdata." ) )
{
return name.mid( 7 );
}
if( name.startsWith( ".data." ) )
{
return name.mid( 6 );
}
if( name.startsWith( ".text." ) )
{
return name.mid( 6 );
}
return name;
}
QString MakeIDC( const QString &dolPath, const QString &libPath, const QMap< const ElfParser::Function *, quint32 > &nonMatchingBranches )
{
QString ret = QString(
"/***********************************************************\n"
"* This file was created automatically with\n"
"* DolPath: \"%1\"\n"
"* LibPath: \"%2\"\n"
"***********************************************************/\n"
"\n"
"#include <idc.idc>\n"
"\n" )
.arg( QFileInfo( dolPath ).absoluteFilePath() )
.arg( QFileInfo( libPath ).absoluteFilePath() );
QString makeCode =
"static CreateFunction( addr, len, name )\n"
"{\n"
+ INDENT_TXT + "MakeCode( addr );\n"
+ INDENT_TXT + "MakeFunction( addr, len );\n"
+ INDENT_TXT + "MakeName( addr, name );\n"
+"}\n\n";
QStringList uniquiFunctionNames;
bool insertedMakeCode = false;
bool haveData = knownData.size() != 0;
if( haveData )
{
ret += "static DoData()\n{\n";
foreach( const KnownData &kd, knownData )
{
QString line;
bool havealias = false;
foreach( const SymAlias &alias, kd.file->Aliases() )
{
if( alias.containerName == kd.name )
{
havealias = true;
break;
}
}
//TODO - maybe create data types like strings and words and stuff?
line += INDENT_TXT + QString( "MakeComm( 0x%1, \"File : %2\\nSection: %3\\nLen : 0x%4\" );\n" )
.arg( kd.addr, 8, 16, QChar( '0' ) ).arg( kd.file->Name() )
.arg( kd.name ).arg( kd.len, 0, 16, QChar( '0' ) );
if( havealias )
{
foreach( const SymAlias &alias, kd.file->Aliases() )
{
if( alias.containerName == kd.name )
{
line += INDENT_TXT + QString( "MakeName( 0x%1, \"%2\" );\n" )
.arg( kd.addr + alias.offset, 8, 16, QChar( '0' ) ).arg( alias.name );
}
}
}
else
{
line += INDENT_TXT + QString( "MakeName( 0x%1, \"%2\" );\n" )
.arg( kd.addr, 8, 16, QChar( '0' ) ).arg( kd.name );
}
ret += line;
}
ret += "\n}\n\n";
}
bool haveKnownFunctions = knownFunctions.size() != 0;
if( haveKnownFunctions )
{
insertedMakeCode = true;
ret += makeCode;
ret += "static DoKnownFunctions()\n{\n";
foreach( const KnownFunction &kf, knownFunctions )
{
QString line;
if( kf.function )
{
QString name = MakeUniqueName( CleanupNameString( kf.function->Name() ), uniquiFunctionNames );
line += INDENT_TXT + QString( "CreateFunction( 0x%1, 0x%2, \"%3\" ); " )
.arg( kf.addr, 8, 16, QChar( '0' ) ).arg( kf.function->Pattern().size() / 2, 4, 16, QChar( '0' ) )
.arg( name );
if( kf.file->Name() != libPath )
{
line += QString( "MakeComm( 0x%1, \"File: %2\" );" )
.arg( kf.addr, 8, 16, QChar( '0' ) ).arg( kf.file->Name() );
}
// line += " // " + kf.debug;
line += '\n';
// do something cool here with the r13/rtoc references
foreach( const SymRef &ref, kf.function->References() )
{
if( ref.type == SymRef::R_PPC_EMB_SDA21 )
{
line += INDENT_TXT + INDENT_TXT + QString( "MakeComm( 0x%1, \"%2\" );\n" )
.arg( kf.addr + ( ref.off & ~3 ), 8, 16, QChar( '0' ) )
.arg( CleanupNameString( ref.name ) );
}
}
}
else
{
QString name = MakeUniqueName( CleanupNameString( kf.name ), uniquiFunctionNames );
line += INDENT_TXT + QString( "CreateFunction( 0x%1, BADADDR, \"%2\" );" )
.arg( kf.addr, 8, 16, QChar( '0' ) )
.arg( name );
// line += " // " + kf.debug;
line += '\n';
}
ret += line;
}
ret += "\n}\n";
}
bool haveMaybeFunctions = nonMatchingBranches.size() != 0;
if( haveMaybeFunctions )
{
if( !insertedMakeCode )
{
ret += makeCode;
insertedMakeCode = true;
}
ret += "\nstatic DoMaybeFunctions()\n{\n";
QMapIterator< const ElfParser::Function *, quint32 > it( nonMatchingBranches );
while( it.hasNext() )
{
it.next();
QString name = MakeUniqueName( CleanupNameString( it.key()->Name() ), uniquiFunctionNames );
ret += INDENT_TXT + QString( "CreateFunction( 0x%1, BADADDR, \"%2\" );\n" ) // BADADDR because we cant trust the pattern size when it doesnt match the expected
.arg( it.value(), 8, 16, QChar( '0' ) )
.arg( name );
// do something cool here with the r13/rtoc references
// these cant be trusted since the functions here dont match expected patterns
/*foreach( const SymRef &ref, it.key()->References() )
{
if( ref.type == SymRef::R_PPC_EMB_SDA21 )
{
ret += INDENT_TXT + INDENT_TXT + QString( "MakeComm( 0x%1, \"%2\" );\n" )
.arg( it.value() + ( ref.off & ~3 ), 8, 16, QChar( '0' ) )
.arg( CleanupNameString( ref.name ) );
}
}*/
}
ret += "\n}\n";
}
// create the main()
ret += "\nstatic main()\n{\n";
if( haveData )
{
ret += INDENT_TXT + "DoData();\n";
}
if( haveKnownFunctions )
{
ret += INDENT_TXT + "DoKnownFunctions();\n";
}
if( haveMaybeFunctions )
{
ret += INDENT_TXT + "DoMaybeFunctions();\n";
}
ret += "}\n\n";
return ret;
}
void Usage()
{
qDebug() << "Usage:";
qDebug() << "";
qDebug() << "symbolize <dol file> <lib path> <output name>";
qDebug() << "";
qDebug() << " this program requires objdump built for ppc in the same folder";
exit( 1 );
}
int main(int argc, char *argv[])
{
QCoreApplication a(argc, argv);
if( argc < 4 )
{
Usage();
}
QString dolPath( argv[ 1 ] );
QString libPath( argv[ 2 ] );
QString outName( argv[ 3 ] );
qDebug() << "Loading dol...";
if( !LoadDol( dolPath ) )
{
exit( 0 );
}
qDebug() << "Loading libs...";
if( !LoadLibs( libPath ) )
{
exit( 0 );
}
// this is a list of functions that are branched to, but dont match the patterns read from the libs
QMap< const ElfParser::Function *, quint32 > nonMatchingBranches;
// find unique data symbols
qDebug() << "matching data...";
TryToMatchData();
// find first round of functions
TryToMatchFunctions1();
// add functions by looking at rtoc and r13
FindGlobalVariables();
// find branches from the first round of functions
TryToMatchFunctions2( nonMatchingBranches );
FindGlobalVariables();
// looking for functions that dont branch anywhere or use global variables or anything
TryToMatchFunctions0();
int maxRetries = 10;
QList< const ElfParser::Function * > ignoreFunctions;
for( int i = 0; i < maxRetries; i++ )
{
qDebug() << " -- Round" << i << '/' << maxRetries << "--";
// look for functions that branch to known functions
QList< QPair< const ElfParser::Function *, quint32> > newFunctions = TryToMatchFunctions3( ignoreFunctions );
if( !newFunctions.size() )
{
qDebug() << "no new functions found" << i;
break;
}
qDebug() << " - added" << newFunctions.size() << "new functions -";
}
// add functions by looking at rtoc and r13
FindGlobalVariables();
qDebug() << "Total functions found:" << knownFunctions.size();
// find branches from the known functions
int num = knownFunctions.size();
for( int i = 0; i < maxRetries; i++ )
{
qDebug() << " -- Round" << i << '/' << maxRetries << " following branches --";
TryToMatchFunctions2( nonMatchingBranches );
int num2 = knownFunctions.size();
if( num2 == num )
{
break;
}
qDebug() << " - added" << ( num2 - num ) << "new functions -";
num = num2;
}
// look for functions that only match 1 place, have a certain minimum length, and dont overlap any known data.
TryToMatchFunctions4( ignoreFunctions, 0x40 );
TryToMatchFunctions4( ignoreFunctions, 0x30 );
// try to follow branches from these functions until no new ones are discovered
num = knownFunctions.size();
for( int i = 0; i < maxRetries; i++ )
{
qDebug() << " -- Round" << i << '/' << maxRetries << " following branches and global variables --";
TryToMatchFunctions2( nonMatchingBranches );
// add functions by looking at rtoc and r13
FindGlobalVariables();
int num2 = knownFunctions.size();
if( num2 == num )
{
break;
}
qDebug() << " - added" << ( num2 - num ) << "new functions -";
num = num2;
}
qDebug() << "Total global variables: " << knownVariables.size();
qDebug() << "Total data matches: " << knownData.size();
qDebug() << "Total functions found: " << knownFunctions.size();
qDebug() << "Generating idc file...";
QString idc = MakeIDC( dolPath, libPath, nonMatchingBranches );
//qDebug() << idc;
WriteFile( outName, idc.toLatin1() );
2011-12-14 04:51:01 +01:00
return 0;
}