/*
* Copyright (c) 2009 Nokia Corporation and/or its subsidiary(-ies).
* All rights reserved.
* This component and the accompanying materials are made available
* under the terms of "Eclipse Public License v1.0"
* which accompanies this distribution, and is available
* at the URL "http://www.eclipse.org/legal/epl-v10.html".
*
* Initial Contributors:
* Nokia Corporation - initial contribution.
*
* Contributors:
*
* Description: Class representing a module in project (sbs2)
*
*/
#include "../inc/CATModule2.h"
#include "../inc/CATProject.h"
#include "../inc/CATDatParser.h"
#include "../inc/CATMemoryAddress.h"
#include "../inc/catdbghelper.h"
#include "../inc/cataddr2line.h"
CATModule2::CATModule2(void)
{
LOG_FUNC_ENTRY("CATModule2::CATModule2");
m_bAddressToLineInitialized = false;
m_pAddressToLine = 0;
m_sErrors = "";
m_sMakeFile = "";
m_eBuildSystem = CATProject::SBS_V1;
m_sCompileInfoText = "";
}
CATModule2::~CATModule2(void)
{
LOG_FUNC_ENTRY("CATModule2::~CATModule2");
if ( m_pAddressToLine )
m_pAddressToLine->Close();
delete m_pAddressToLine;
}
bool CATModule2::AddressToLine( CATMemoryAddress* pMemoryAddress )
{
LOG_FUNC_ENTRY("CATModule2::AddressToLine");
if ( _stricmp( m_sVariantPlatform.c_str(), "winscw" ) == 0 )
{
return AddressToLineWinscw( pMemoryAddress );
}
else if ( _stricmp( m_sVariantPlatform.c_str(), "armv5" ) == 0 )
{
// addr2line exe.
#ifdef ADDR2LINE
return AddressToLineAddr2lineExe( pMemoryAddress );
#endif
// lst and map files.
#ifndef ADDR2LINE
return AddressToLineArmv5( pMemoryAddress );
#endif
}
else if ( _stricmp( m_sVariantPlatform.c_str(), "gcce" ) == 0 )
{
return AddressToLineAddr2lineExe( pMemoryAddress );
}
return false;
}
bool CATModule2::AddressToLineWinscw( CATMemoryAddress* pMemoryAddress )
{
LOG_FUNC_ENTRY("CATModule2::AddressToLineWinscw( CATMemoryAddress* pMemoryAddress )");
if ( m_pAddressToLine == 0 && ! m_bAddressToLineInitialized )
{
// Use debug helper to locate codelines on winscw platform.
m_pAddressToLine = new CATDbgHelper();
// Create full path to binary which we open using CATDbgHelper.
string sFullPathToBinary = GetBinaryFile();
// If opening of binary not succesfull set return value to false.
if ( ! m_pAddressToLine->Open( sFullPathToBinary, pMemoryAddress->GetModuleStartAddress() ) )
{
LOG_STRING("Error, m_pAddressToLine->Open()");
return false;
}
m_bAddressToLineInitialized = true;
}
// Check pointer before calling.
if ( m_pAddressToLine == 0 )
return false;
m_pAddressToLine->AddressToLine( pMemoryAddress );
return true;
}
bool CATModule2::AddressToLineArmv5( CATMemoryAddress* pMemoryAddress )
{
LOG_FUNC_ENTRY("CATModule2::AddressToLine( CATMemoryAddress* pMemoryAddress )");
if ( ! m_bAddressToLineInitialized )
return false;
// Find from map file
int iMapIndex = GetSymbolIndexUsingAddress( pMemoryAddress->GetOffSetFromModuleStart() );
if ( iMapIndex == -1 )
{
pMemoryAddress->SetAddressToLineState( CATMemoryAddress::OUT_OF_RANGE );
return true;
}
// Set symbol name
string sSymbolName = m_vMapFileFuncList.at( iMapIndex ).sFunctionName;
// Remove (... from symbol name
string sSymbolNameRefined( sSymbolName );
size_t iPos = sSymbolNameRefined.find( "(" );
if ( iPos != string::npos )
sSymbolNameRefined.resize( iPos );
// Set symbol name as function name for memory address
pMemoryAddress->SetFunctionName( sSymbolNameRefined );
// Set state to symbol
pMemoryAddress->SetAddressToLineState( CATMemoryAddress::SYMBOL );
// Offset from function start addr
int iOffSetFromFuncStart = pMemoryAddress->GetOffSetFromModuleStart()
- m_vMapFileFuncList.at( iMapIndex ).iAddress;
// Find from lst list
int iLstIndex = GetLineInFileIndexUsingSymbolName( sSymbolName );
if ( iLstIndex == -1 )
return true;
// Set pinpointing
int iFuncLineNumber = m_vLineInFile.at( iLstIndex ).iLine;
string sFileName = m_vLineInFile.at( iLstIndex ).sFileName;
string sLstFileName = m_vLineInFile.at( iLstIndex ).sLstName;
pMemoryAddress->SetFunctionLineNumber( iFuncLineNumber );
pMemoryAddress->SetFileName( sFileName );
pMemoryAddress->SetAddressToLineState( CATMemoryAddress::FUNCTION );
// In urel mode don't get exact code line
if ( ! IsUDEB() )
return true;
// Next calculate the code line inside function
int iExactLineNumber = FindLeakCodeLine( sLstFileName, iFuncLineNumber, iOffSetFromFuncStart );
pMemoryAddress->SetExactLineNumber( iExactLineNumber );
// State is now exact
pMemoryAddress->SetAddressToLineState( CATMemoryAddress::EXACT );
return true;
}
bool CATModule2::AddressToLineAddr2lineExe( CATMemoryAddress* pMemoryAddress )
{
LOG_FUNC_ENTRY("CATModule2::AddressToLineAddr2lineExe( CATMemoryAddress* pMemoryAddress )");
if ( m_pAddressToLine == 0 && ! m_bAddressToLineInitialized )
{
// Use addr2line.exe to locate codelines on armv5 and gcce platform.
m_pAddressToLine = new CATAddr2line();
// Create full path to binary .sym file which we open using addr2line.exe.
string sFullPathToBinary = GetBinaryFile();
// If opening of binary not succesfull set return value to false.
if ( ! m_pAddressToLine->Open( sFullPathToBinary, pMemoryAddress->GetModuleStartAddress() ) )
{
LOG_STRING("Error, m_pAddressToLine->Open()");
return false;
}
m_bAddressToLineInitialized = true;
}
// Check pointer before calling.
if ( m_pAddressToLine == 0 )
return false;
m_pAddressToLine->AddressToLine( pMemoryAddress );
return true;
}
// Find symbol of given address
int CATModule2::GetSymbolIndexUsingAddress( unsigned long iAddress ) const
{
LOG_LOW_FUNC_ENTRY("CATModule2::GetSymbolIndexUsingAddress");
for( size_t i = 0; i < m_vMapFileFuncList.size(); i++ )
{
unsigned long iStart = m_vMapFileFuncList.at( i ).iAddress;
unsigned long iEnd = ( m_vMapFileFuncList.at( i ).iAddress
+ m_vMapFileFuncList.at( i ).iFuncLength );
if ( iAddress >= iStart && iAddress < iEnd )
return (int) i;
}
return -1;
}
// Find index of function line in file vector of given symbolname
int CATModule2::GetLineInFileIndexUsingSymbolName( const string& sSymbolName ) const
{
LOG_LOW_FUNC_ENTRY("CATModule2::GetLineInFileIndexUsingSymbolName");
for( size_t i = 0; i < m_vLineInFile.size(); i++ )
{
string sLineInFileName = m_vLineInFile.at( i ).sFunction;
if( sLineInFileName.find( sSymbolName ) != string::npos )
{
return (int) i;
}
}
return -1;
}
// Check does modules symbol file(s) exist.
bool CATModule2::SymbolFileExist( void )
{
LOG_FUNC_ENTRY("CATModule2::SymbolFileExist");
string sFullPathToSym = GetSymbolFile();
if ( !FileExists( sFullPathToSym.c_str() ) )
{
// Add missing symbol file to error string.
m_sErrors.append( "Missing symbol file: " );
m_sErrors.append( sFullPathToSym );
m_sErrors.append( "\n" );
return false;
}
return true;
}
// Check does modules map file(s) exists.
bool CATModule2::MapFileExist( void )
{
LOG_FUNC_ENTRY("CATModule2::MapFileExist");
string sFullPathToMap = GetMapFile();
if ( !FileExists( sFullPathToMap.c_str() ) )
{
// Add missing symbol file to error string.
m_sErrors.append( "Missing map file: " );
m_sErrors.append( sFullPathToMap );
m_sErrors.append( "\n" );
return false;
}
return true;
}
//Check does modules binary file(s) exist.
bool CATModule2::BinaryFileExist( void )
{
LOG_FUNC_ENTRY("CATModule2::BinaryFileExist");
string sFullPathToBinary = GetBinaryFile();
if ( ! FileExists( sFullPathToBinary.c_str() ) )
{
// Add missing binary to error string.
m_sErrors.append( "Missing binary file: " );
m_sErrors.append( sFullPathToBinary );
m_sErrors.append( "\n" );
return false;
}
return true;
}
void CATModule2::AddSource(const string &sSourceFile, const string& sLstFile)
{
LOG_LOW_FUNC_ENTRY("CATModule2::AddSource");
// Parse sources which are separated by spaces
if( sSourceFile.length() < 1 || sLstFile.length() < 1 )
return;
// Skip if its temporary cpp.
if ( sSourceFile.find( AT_TEMP_CPP_LOWER_START) != string::npos )
return;
// Source structure
SOURCE sNew;
sNew.sCpp = sSourceFile;
sNew.sLst = sLstFile;
// Verify paths.
ConvertUnixPathToWin( sNew.sCpp );
ConvertUnixPathToWin( sNew.sLst );
// Lower case them.
ChangeToLower( sNew.sCpp );
ChangeToLower( sNew.sLst );
// Add it
m_vSources.push_back( sNew );
}
void CATModule2::AddSources(string& sSource)
{
LOG_LOW_FUNC_ENTRY("CATModule2::AddSources");
// Parse sources which are separated by spaces
if( sSource.length() < 1 )
return;
// Source structure
SOURCE sNew;
size_t iSpot = string::npos;
iSpot = sSource.find( " " );
while( iSpot != string::npos )
{
// Pickup source
sNew.sCpp = sSource.substr(0, iSpot);
// Convert path from Unix to Win
ConvertUnixPathToWin( sNew.sCpp );
// Lowercase it
ChangeToLower( sNew.sCpp );
// If its temp skip this
if ( sNew.sCpp.find( AT_TEMP_CPP_LOWER_START ) == string::npos )
{
// Get corresponding lst file for source
sNew.sLst = GetLstNameOfSource( sNew.sCpp );
m_vSources.push_back( sNew );
// Remove it from sSource
sSource.erase(0,iSpot+1);
// Find new one
}
iSpot = sSource.find( " " );
}
// Pickup last or only one source
sNew.sCpp = sSource;
// Convert path from unix to win
ConvertUnixPathToWin( sNew.sCpp );
// Lowercase it
ChangeToLower( sNew.sCpp );
// Lst name
sNew.sLst = GetLstNameOfSource( sNew.sCpp );
if ( sNew.sCpp.find( AT_TEMP_CPP_LOWER_START ) == string::npos )
{
// Get corresponding lst file for source
sNew.sLst = GetLstNameOfSource( sNew.sCpp );
m_vSources.push_back( sNew );
}
}
bool CATModule2::CreateTempCpp(const string& sS60FileName
, int eLoggingMode
, int eBuildType
, int iAllocCallStackSize
, int iFreeCallStackSize )
{
LOG_FUNC_ENTRY("CATModule2::CreateTemporaryCpp");
// S60 filename
m_sS60FileName = sS60FileName;
// Make s60 filename target.type.dat if its empty and logging mode is file
if ( eLoggingMode == CATProject::FILE
&& m_sS60FileName.empty() )
{
m_sS60FileName = m_sTarget;
m_sS60FileName.append(".");
m_sS60FileName.append( m_sTargetType );
m_sS60FileName.append(".dat");
}
return CreateTemporaryCpp( GetUniqueId(), m_sTempPath,
m_sS60FileName, eLoggingMode, eBuildType, iAllocCallStackSize, iFreeCallStackSize );
}
bool CATModule2::ModifyMmp()
{
LOG_FUNC_ENTRY("CATModule2::ModifyMmp");
// Create backup
if ( ! m_Mmp.BackupMmpFile() )
return false;
// Hook
return m_Mmp.EditMmpFile( m_sTargetType, GetUniqueId() );
}
bool CATModule2::RestoreMmp()
{
LOG_FUNC_ENTRY("CATModule2::RestoreMmp");
// Restore mmp from backup
return m_Mmp.RestoreMmpFile();
}
bool CATModule2::VerifyAndRecoverMmp()
{
LOG_FUNC_ENTRY("CATModule2::VerifyAndRecoverMmp");
// Verify mmp
return m_Mmp.VerifyAndRecover();
}
// ----------------------------------------------------------------------------
// Releasables Handling methos
// ----------------------------------------------------------------------------
bool CATModule2::CopyReleasables()
{
LOG_FUNC_ENTRY("CATModule2::CopyReleasables");
bool bRet = true;
if ( ! CopyLstFilesToTemp() )
bRet = false;
if ( ! CopyMapFileToTemp() )
bRet = false;
return bRet;
}
bool CATModule2::CopyLstFilesToDir( const string& sDir )
{
LOG_FUNC_ENTRY("CATModule2::CopyLstFilesToDir");
bool bRet = true;
// Copy lst files to given directory.
vector<SOURCE>::const_iterator source;
for( source = m_vSources.begin(); source != m_vSources.end() ; source++ )
{
if ( ! FileCopyToPath( source->sLst, sDir ) )
{
if ( !FileExists( source->sLst.c_str() ) )
{
m_sErrors.append( "Missing listing file: " );
m_sErrors.append( source->sLst );
m_sErrors.append( "\n" );
}
if ( !DirectoryExists( sDir.c_str() ) )
{
m_sErrors.append( "Missing folder: " );
m_sErrors.append( sDir );
m_sErrors.append( "\n" );
}
bRet = false;
}
}
// Return.
return bRet;
}
bool CATModule2::CopyLstFilesToTemp()
{
LOG_FUNC_ENTRY("CATModule2::CopyLstFilesToTemp");
// Return boolean
bool bRet = true;
// Move all lst files except tmp cpp
vector<SOURCE>::iterator it = m_vSources.begin();
while ( it != m_vSources.end() )
{
if ( !FileCopyToPath( it->sLst, m_sTempPath ) )
{
if ( !FileExists( it->sLst.c_str() ) )
{
m_sErrors.append( "Missing listing file: " );
m_sErrors.append( it->sLst );
m_sErrors.append( "\n" );
}
if ( !DirectoryExists( m_sTempPath.c_str() ) )
{
m_sErrors.append( "Missing folder: " );
m_sErrors.append( m_sTempPath );
m_sErrors.append( "\n" );
}
bRet = false;
}
it++;
}
return bRet;
}
bool CATModule2::DeleteLstFilesFromSrc( void )
{
LOG_FUNC_ENTRY("CATModule2::DeleteLstFilesFromSrc");
vector<SOURCE>::iterator it = m_vSources.begin();
bool bRet = true;
// Delete lst files
while ( it != m_vSources.end() )
{
if ( ! FileDelete( it->sLst, true ) )
bRet = false;
it++;
}
return bRet;
}
bool CATModule2::CopyMapFileToTemp()
{
LOG_FUNC_ENTRY("CATModule2::CopyMapFileToTemp");
// Return boolean
bool bRet = true;
// Map File to copy
string sMapFile = GetMapFile();
if ( !FileCopyToPath( sMapFile, m_sTempPath ) )
{
bRet = false;
if ( !FileExists( sMapFile.c_str() ) )
{
// Add missing map file to error string.
m_sErrors.append( "Missing map file: " );
m_sErrors.append( sMapFile );
m_sErrors.append( "\n" );
}
if ( !DirectoryExists( m_sTempPath.c_str() ) )
{
// Add missing temporary folder
m_sErrors.append( "Missing folder: " );
m_sErrors.append( m_sTempPath );
m_sErrors.append( "\n" );
}
}
return bRet;
}
bool CATModule2::CleanTemporaryDir()
{
LOG_FUNC_ENTRY("CATModule2::CleanTemporaryDir");
bool bRet = true;
// Verify mmp
if ( ! m_Mmp.VerifyAndRecover() )
bRet = false;
// Clean temporary dir
vector<string> vFileList = DirList( m_sTempPath, false , true );
vector<string>::iterator it = vFileList.begin();
// Size of constant table
int iCount = sizeof( TEMP_EXTENSION_NO_DELETE ) / sizeof( string );
while ( it != vFileList.end() )
{
// Get extension and compare it to list
bool bDelete = true;
string sExtension = GetExtension( *it );
ChangeToLower( sExtension );
for ( int i = 0 ; i < iCount ; i++ )
{
if( sExtension.compare( TEMP_EXTENSION_NO_DELETE[i] ) == 0 )
{
bDelete = false;
break;
}
}
if ( bDelete )
{
// Delete file
if ( ! FileDelete( *it, true ) )
bRet = false;
}
// Increment
it++;
}
return bRet;
}
bool CATModule2::DeleteTemporaryDir()
{
LOG_FUNC_ENTRY("CATModule2::DeleteTemporaryDir");
bool bRet = true;
// Verify mmp
if ( ! m_Mmp.VerifyAndRecover() )
bRet = false;
// Delete temp dir
if ( !DirDelete( m_sTempPath, true ) )
bRet = false;
return bRet;
}
bool CATModule2::IsUDEB() const
{
LOG_LOW_FUNC_ENTRY("CATModule2::IsUDEB");
// Determine from variant is this udeb
if ( m_sVariantType.find( "udeb" ) != string::npos )
return true;
return false;
}
// ----------------------------------------------------------------------------
// Private AddressToLine related methods
// ----------------------------------------------------------------------------
bool CATModule2::InitializeAddressToLine()
{
LOG_FUNC_ENTRY("CATModule2::InitializeAddressToLine");
bool bRet = true;
// Read in different way depending on platform
if ( m_sVariantPlatform.compare("armv5") == 0 )
{
// Add static library lst files to source vector,
// before reading them.
vector<string> vFiles = DirList( AT_TEMP_LST_DIR, false, true );
for(vector<string>::iterator it = vFiles.begin() ; it != vFiles.end() ; it ++ )
{
SOURCE source;
source.bStatic = true;
source.sLst = *it;
source.sCpp = *it;
source.sCpp = CATBase::RemovePathAndExt( source.sCpp, false );
source.sCpp.append( ".cpp" );
m_vSources.push_back( source );
}
if ( ! ReadListingFilesArmv5() )
bRet = false;
if ( ! ReadMapFileArmv5() )
bRet = false;
if ( bRet )
m_bAddressToLineInitialized = true;
}
return bRet;
}
bool CATModule2::ReadListingFilesArmv5()
{
LOG_FUNC_ENTRY("CATModule2::ReadListingFilesArmv5");
char cTemp[MAX_LINE_LENGTH];
vector<SOURCE>::iterator viFileIter = m_vSources.begin();
int iNumberOfLstFiles = (int)m_vSources.size();
vector<string> vTempLines;
string sFileName;
// Open all .lst files
while( iNumberOfLstFiles > 0 )
{
// Make .lst file name
sFileName.clear();
// If lst file is not from static library make path to modules temporary directory.
if ( viFileIter->bStatic != true )
{
// Remove path
if( viFileIter->sLst.find("\\") != string::npos )
sFileName.append(
viFileIter->sLst.substr( viFileIter->sLst.find_last_of( "\\" ) + 1
, viFileIter->sLst.size() ) );
else
sFileName.append( viFileIter->sLst );
// Add temporary dir
sFileName.insert( 0, m_sTempPath );
}
else
{
// Lst from static library don't change path.
sFileName = viFileIter->sLst;
}
// Open lst file
ifstream in( sFileName.c_str() );
// If file can not be opened, try to open next file
if( !in.good() )
{
viFileIter++;
iNumberOfLstFiles--;
continue;
}
string sTemp;
// Clear temporary lines
vTempLines.clear();
// Add all lines to temp list
do
{
in.getline( cTemp, MAX_LINE_LENGTH );
sTemp.clear();
sTemp.append( cTemp );
vTempLines.push_back( sTemp );
}
while( in.good() );
LINE_IN_FILE structLineInFile;
bool bFindENDP = false;
vector<string>::iterator viLinesIter = vTempLines.begin();
// Loop throw all lines in .lst file
while( viLinesIter != vTempLines.end() )
{
// Find ";;;"
if( !bFindENDP && strstr(viLinesIter->c_str(), ";;;") != NULL )
{
bFindENDP = true;
vector<string>::iterator viLineTempIter = viLinesIter;
// Find top line of function definition
while( viLineTempIter->size() > 0 )
{
viLineTempIter--;
}
viLineTempIter++;
structLineInFile.sFunction.clear();
structLineInFile.sFunction.append( viLineTempIter->c_str() );
viLinesIter++;
// Get Line
sTemp.clear();
sTemp.append( viLinesIter->c_str() );
sTemp.erase(0,3);
size_t iSize = sTemp.find_first_of(' ');
if( iSize != string::npos )
sTemp.resize(iSize);
structLineInFile.iLine = atoi( sTemp.c_str() );
structLineInFile.sFileName.clear();
structLineInFile.sFileName.append( viFileIter->sCpp.c_str() );
structLineInFile.sLstName = sFileName;
m_vLineInFile.push_back( structLineInFile );
}
else if( strstr(viLinesIter->c_str(), "ENDP") != NULL )
bFindENDP = false;
viLinesIter++;
}
viFileIter++;
iNumberOfLstFiles--;
}
if( m_vLineInFile.size() > 0 )
return true;
return false;
}
bool CATModule2::ReadMapFileArmv5()
{
LOG_FUNC_ENTRY("CATModule2::ReadMapFileArmv5");
// Map file name
string sMapFileName = GetMapFile();
// Remove path
if ( sMapFileName.find("\\") != string::npos )
sMapFileName.erase(0, sMapFileName.find_last_of('\\')+1 );
// Add temp path
sMapFileName.insert(0, m_sTempPath );
// Open .map file
ifstream in( sMapFileName.c_str() );
// File open ok?
if( ! in.good() )
{
in.close();
return false;
}
char cTemp[MAX_LINE_LENGTH];
bool bFirstFuncFound = false;
// Get all lines where is "Thumb"
do
{
// Load one line from .map file
in.getline( cTemp, MAX_LINE_LENGTH );
// Find _E32Startup
if( !bFirstFuncFound && ( strstr( cTemp, "_E32Startup" ) != NULL) )
{
bFirstFuncFound = true;
}
else if( !bFirstFuncFound && ( strstr( cTemp, "_E32Dll" ) != NULL) )
{
bFirstFuncFound = true;
}
else if( !bFirstFuncFound )
// Skip if _E32Startup not found
continue;
if( strstr( cTemp, "Thumb Code" ) != NULL || strstr( cTemp, "ARM Code" ) != NULL)
{
MAP_FUNC_INFO structMapFileLineInfo;
structMapFileLineInfo.sWholeLine.append( cTemp );
// Get memory string address from line
char* pStart = strstr( cTemp, "0x" );
// Check did strstr return null.
if( pStart == NULL )
continue;
char* pTemp = pStart;
char TempString[MAX_LINE_LENGTH];
TempString[0] = 0;
size_t iLength = 0;
while( *pTemp != ' ' )
{
TempString[iLength] = *pTemp;
pTemp++;
iLength++;
}
TempString[iLength] = 0;
structMapFileLineInfo.iAddress = CATDatParser::_httoi( TempString );
pTemp = cTemp;
TempString[0] = 0;
// Get function name
// Skip spaces
while( *pTemp == ' ' )
{
pTemp++;
}
iLength = 0;
// Find end of function name
string sTemp( pTemp );
// Location of character ')'
iLength = sTemp.find_first_of(')');
// Location of character ' '
size_t iLength2 = sTemp.find_first_of(' ');
// If ')' character is the last char and
// character ' ' is closer than ')' use location of ' '
if( ( iLength + 1 ) == sTemp.length() && iLength2 < iLength )
iLength = iLength2 - 1;
if( iLength != string::npos )
sTemp.resize( (iLength + 1) );
structMapFileLineInfo.sFunctionName.append( sTemp.c_str() );
bool bARM = false;
// Find function length
pStart = strstr( cTemp, "Thumb Code" );
if( pStart == NULL )
{
pStart = strstr( cTemp, "ARM Code" );
bARM = true;
}
if( pStart != NULL )
{
if( bARM )
pStart += 8;
else
pStart += 10;
while(*pStart == ' ')
{
pStart++;
}
sTemp.clear();
sTemp.append( pStart );
size_t iSize = sTemp.find_first_of(' ');
if( iSize != string::npos )
sTemp.resize( iSize );
}
structMapFileLineInfo.iFuncLength = atoi( sTemp.c_str() );
if( bFirstFuncFound && structMapFileLineInfo.iFuncLength > 0 )
// Save to list
m_vMapFileFuncList.push_back( structMapFileLineInfo );
}
}
while( in.good() );
in.close();
return true;
}
int CATModule2::FindLeakCodeLine( string& sFileName, int iLine, unsigned long iFromFuncAddress ) const
{
LOG_LOW_FUNC_ENTRY("CATModule2::FindLeakCodeLine");
if ( sFileName.empty() )
return -1;
char cLineFromFile[MAX_LINE_LENGTH];
vector<string> vTempLines;
string sTemp;
char* pTemp = NULL;
char* pTempEnd = NULL;
int iFoundLine = -1;
int iRet = -1;
// Open lst file
ifstream in( sFileName.c_str() );
bool bLineFound = false;
bool bFirstAddressInFuncFound = false;
unsigned long iFirstAddressInFunc = 0;
while( in.good() )
{
in.getline( cLineFromFile, MAX_LINE_LENGTH );
if( bLineFound )
{
vTempLines.push_back( cLineFromFile );
// Is first character digit
if( isdigit( cLineFromFile[0] ) )
{
if( !bFirstAddressInFuncFound )
{
bFirstAddressInFuncFound = true;
sTemp.clear();
sTemp.append( cLineFromFile );
// Get value until next space
sTemp.resize( sTemp.find_first_of(' ') );
iFirstAddressInFunc = CATDatParser::_httoi( sTemp.c_str() );
// Return function start line if margin 0
if( iFromFuncAddress == 0 )
{
iRet = iLine;
return iRet;
}
}
else
{
// Find correct line using iFromFuncAddress variable
sTemp.clear();
sTemp.append( cLineFromFile );
// Get value until next space
sTemp.resize( sTemp.find_first_of(' ') );
unsigned long iValue = CATDatParser::_httoi( sTemp.c_str() );
if( ( iValue - iFirstAddressInFunc ) >= iFromFuncAddress )
{
// If there is data in function, code line can not be found
if( strstr( cLineFromFile , "DCB" ) != NULL )
{
iRet = -1;
return iRet;
}
pTemp = strstr( cLineFromFile, ";" );
// Get line number
bool bStringNumber = true;
if( pTemp != NULL )
{
string sTempLine( pTemp + 1 );
// Are all characters numbers?
for( unsigned int i = 0 ; i < sTempLine .size() ; i++ )
{
if( !isdigit(sTempLine[i]) )
{
bStringNumber = false;
break;
}
}
}
else
bStringNumber = false;
if( bStringNumber )
{
pTemp++;
// Get line number
iRet = atoi( pTemp );
}
else
{
vector<string>::iterator sTempIter = vTempLines.end();
sTempIter--;
// Find last code line
while( sTempIter != vTempLines.begin() )
{
if( strstr( sTempIter->c_str() , "DCB" ) != NULL )
{
iRet = -1;
return iRet;
}
if( strstr( sTempIter->c_str() , ";;;" ) == NULL )
sTempIter--;
else
break;
}
if(sTempIter == vTempLines.begin() && strstr( sTempIter->c_str() , ";;;" ) == NULL)
{
iRet = -1;
return iRet;
}
sTempIter->erase( 0, 3 );
sTempIter->resize( sTempIter->find(' ') );
// Leak line
iRet = atoi( sTempIter->c_str() );
}
return iRet;
}
}
}
}
else // Line in file not found
{
// Find line of function
if( strstr( cLineFromFile, ";;;" ) != NULL )
{
pTemp = &cLineFromFile[0];
// Skip characters ";;;"
pTemp += 3;
pTempEnd = pTemp;
// Find end of line number
while( *pTempEnd != ' ' )
{
pTempEnd++;
}
*pTempEnd = 0;
iFoundLine = atoi( pTemp );
*pTempEnd = ' ';
if( iLine == iFoundLine )
{
bLineFound = true;
}
}
}
}
return iRet;
}
bool CATModule2::IsMakeSuccessfull()
{
LOG_FUNC_ENTRY("CATModule2::IsMakeSuccessfull");
m_sErrors.clear();
string sSearch;
bool bMakeSuccess = true;
// Lst files checked only with armv5 platform.
if ( IsPlatformArmv5() )
{
sSearch.append( m_sTempPath );
sSearch.append( "*.lst" );
if( !SearchFileWithExtension( sSearch.c_str(), false, m_sErrors ) )
bMakeSuccess = false;
// Map
sSearch.clear();
sSearch.append( m_sTempPath );
sSearch.append( "*.map" );
if( !SearchFileWithExtension( sSearch.c_str(), false, m_sErrors ) )
bMakeSuccess = false;
}
// .tmp
sSearch.clear();
sSearch.append( m_sTempPath );
sSearch.append( "*.tmp" );
if( !SearchFileWithExtension( sSearch.c_str(), false, m_sErrors ) )
bMakeSuccess = false;
return bMakeSuccess;
}
bool CATModule2::CreateBuildCompleteFile()
{
LOG_FUNC_ENTRY("CATModule2::CreateBuildCompleteFile");
// Don't create file if temp path not set cause might be anywhere
if ( m_sTempPath.empty() )
return false;
// Create empty file indicating this module is build
string sFile = m_sTempPath;
if( sFile.at( sFile.length() - 1 ) != '\\' )
sFile.append("\\");
sFile.append( "BuildComplete" );
ofstream out( sFile.c_str() );
out << m_sVariantPlatform << endl;
out << m_sVariantType << endl;
out.close();
return true;
}
bool CATModule2::ReadMakeFileFromTemp()
{
LOG_FUNC_ENTRY("CATModule2::ReadMakeFileFromTemp");
// Set makefile to point to temporary directory.
string sMakeFile = m_sTempPath;
sMakeFile.append( RemovePathAndExt( m_Mmp.m_sMmpFile, true ) );
sMakeFile.append( "." );
sMakeFile.append( AT_LEVEL_2_MAKEFILE_EXT );
m_sMakeFile = sMakeFile;
return ReadMakeFilePrivate();
}
bool CATModule2::ReadMakeFile()
{
LOG_FUNC_ENTRY("CATModule2::ReadMakeFile");
// Read makefile
if ( ReadMakeFilePrivate() )
{
// Copy makefile to temporary directory.
string sMakeFile = m_sTempPath;
sMakeFile.append( RemovePathAndExt( m_Mmp.m_sMmpFile, true ) );
sMakeFile.append( "." );
sMakeFile.append( AT_LEVEL_2_MAKEFILE_EXT );
FileCopyToPath( m_sMakeFile, sMakeFile );
return true;
}
return false;
}
bool CATModule2::ReadMakeFilePrivate()
{
LOG_FUNC_ENTRY("CATModule2::ReadMakeFilePrivate");
if ( m_sMakeFile.empty() )
return false;
LOG_STRING( "using makefile :" << m_sMakeFile );
// Stream object to read files
ifstream in;
// Char array to read line from file
char cLine[MAX_LINE_LENGTH];
// String to use as buffer from file
string sLine;
// Open file
in.open( m_sMakeFile.c_str(), ios_base::in );
// Check that its open
if ( ! in.good() )
{
// Cannot open file
cout << AT_MSG << "Error, can not open file: " << m_sMakeFile << endl;
return false;
}
// Check is it wrapper makefile (starts with "%:")
in.getline( cLine, MAX_LINE_LENGTH );
if ( cLine[0] == '%' && cLine[1] == ':' )
{
LOG_STRING("Found wrapper makefile");
in.close();
// Use ".default" makefile
string sDefaultMakeFile = m_sMakeFile.substr( 0, m_sMakeFile.find_last_of( "." ) );
sDefaultMakeFile.append( ".DEFAULT" );
LOG_STRING( "using makefile :" << m_sMakeFile );
// Does default exists. If not we need to run "wrapper make"
if ( ! FileExists( sDefaultMakeFile.c_str() ) )
{
// Run the wrapper make to create "real" makefile
string sMakeFileCmd;
sMakeFileCmd.append("make -f \"");
sMakeFileCmd.append( m_sMakeFile );
sMakeFileCmd.append( "\"" );
LOG_STRING( "using makefile :" << m_sMakeFile );
cout << AT_MSG_SYSTEM_CALL << sMakeFileCmd << endl;
int iRet = (int)system( sMakeFileCmd.c_str() );
if ( iRet )
{
cout << MAKE_ERROR;
return false;
}
}
m_sMakeFile = sDefaultMakeFile;
// Open new file
in.open( m_sMakeFile.c_str(), ios_base::in );
// Check that it's open
if ( ! in.good() )
{
// Cannot open file
cout << AT_MSG << "Error, can not open makefile: " << m_sMakeFile << endl;
return false;
}
}
in.seekg( ios_base::beg );
// Number of lines to read at max for basic module information.
int iReadLineCount = 20;
// Extension from target line. to be compared with targettype.
string sTargetExtension;
// Read line at a time. Loop until we find it or eof
do {
// Read line from file to array
in.getline( cLine, MAX_LINE_LENGTH );
iReadLineCount--;
sLine.clear();
// Put that to string
sLine.append( cLine );
// Search target
if ( sLine.find( MAKEFILE_TARGET_STRING ) != string::npos )
{
// Found it. Now remove other than type from line
sLine.erase( 0, strlen( MAKEFILE_TARGET_STRING ) );
ChangeToLower( sLine );
sTargetExtension.clear();
sTargetExtension = GetExtension( sLine );
m_sTarget = RemovePathAndExt( sLine, true);
LOG_STRING("found target: " << sLine );
}
// Search targettype
else if ( sLine.find( MAKEFILE_TARGETTYPE_STRING ) != string::npos )
{
// Found it. Now remove other than type from line
sLine.erase( 0, strlen( MAKEFILE_TARGETTYPE_STRING ) );
ChangeToLower( sLine );
m_sTargetType = sLine;
LOG_STRING("found target type: " << m_sTargetType );
}
else if ( sLine.find( MAKEFILE_BASIC_TARGETTYPE_STRING ) != string::npos )
{
sLine.erase( 0, strlen( MAKEFILE_BASIC_TARGETTYPE_STRING ) );
ChangeToLower( sLine );
m_sRequestedTargetExt = sLine;
// Compare with the extension in target line if not same use target lines if its "valid".
if ( m_sRequestedTargetExt.compare( sTargetExtension ) != 0 && sTargetExtension.size() > 0 )
m_sRequestedTargetExt = sTargetExtension;
LOG_STRING("found requested target extension: " << m_sTargetType );
}
// Feature variant details
else if ( sLine.find( MAKEFILE_FEATURE_VARIANT_NAME ) != string::npos )
{
sLine.erase( 0, strlen( MAKEFILE_FEATURE_VARIANT_NAME ) );
m_sFeatureVariantName = sLine;
LOG_STRING("found feature variant name: " << sLine );
}
else if ( sLine.find( MAKEFILE_FEATURE_VARIANT_UREL_LABEL ) != string::npos )
{
sLine.erase( 0, strlen( MAKEFILE_FEATURE_VARIANT_UREL_LABEL ) );
LOG_STRING("found feature variant urel label: " << sLine );
if ( sLine.compare("INVARIANT") != 0 )
m_sFeatureVariantURELLabel = sLine;
}
else if ( sLine.find( MAKEFILE_FEATURE_VARIANT_UDEB_LABEL ) != string::npos )
{
sLine.erase( 0, strlen( MAKEFILE_FEATURE_VARIANT_UDEB_LABEL ) );
LOG_STRING("found feature variant udeb label: " << sLine );
if ( sLine.compare("INVARIANT") != 0 )
m_sFeatureVariantUDEBLabel = sLine;
}
} while( in.good() && iReadLineCount > 0 );
// Search compile definitions
// CWDEFS CCDEFS ARMCCDEFS
do
{
in.getline( cLine, MAX_LINE_LENGTH );
sLine.clear();
sLine.append( cLine );
if ( sLine.substr( 0 , 6 ).compare( string("CWDEFS") ) == 0
|| sLine.substr( 0 , 6 ).compare( string("CCDEFS") ) == 0 )
{
sLine.erase( 0, 8 );
m_sCompileDefinitions = sLine;
break;
}
else if( sLine.substr( 0 , 9 ).compare( string("ARMCCDEFS") ) == 0 )
{
sLine.erase( 0, 11 );
m_sCompileDefinitions = sLine;
break;
}
} while( in.good() );
// Move reading back to start if we could not find compile flags.
in.seekg( ios_base::beg );
// Search listing information (modules source files).
int iFindItem = 1; //1 = Source, 2 = LISTINGUDEB/UREL, 3 = lst file
string sCdefs;
string sSource;
string sLst;
do
{
in.getline( cLine, MAX_LINE_LENGTH );
sLine.clear();
sLine.append( cLine );
switch( iFindItem )
{
case 1:
if( sLine.find( "# Source " ) != string::npos )
{
iFindItem = 2;
// Remove text "# Source "
sLine.erase( 0, 9 );
sSource = sLine;
}
break;
case 2:
if( IsUDEB() )
{
if( sLine.find( "LISTINGUDEB" ) != string::npos )
{
iFindItem = 3;
}
}
else
{
if( sLine.find( "LISTINGUREL" ) != string::npos )
{
iFindItem = 3;
}
}
break;
case 3:
if( sLine.find( "perl -S ecopyfile.pl" ) != string::npos )
{
// Save lst file to list
sLine.erase( 0, ( sLine.find_first_of( "\\" ) ) );
// remove last char if '"'
if ( sLine.at( sLine.size()-1 ) == '"' )
sLine.erase( sLine.size()-1, sLine.size() );
sLst = sLine;
AddSource( sSource, sLst );
iFindItem = 1;
sSource.clear(); sLst.clear();
}
break;
}
}
while( in.good() );
// close and return
in.close();
return true;
}
// ----------------------------------------------------------------------------
// Get & Sets
// ----------------------------------------------------------------------------
string CATModule2::GetErrors() const
{
LOG_LOW_FUNC_ENTRY("CATModule2::GetErrors");
return m_sErrors;
}
string CATModule2::GetS60FileName() const
{
LOG_LOW_FUNC_ENTRY("CATModule2::GetS60FileName");
if ( m_sS60FileName.empty() )
{
string sGeneratedDatName = m_sTarget;
sGeneratedDatName.append(".");
sGeneratedDatName.append( m_sTargetType );
sGeneratedDatName.append(".dat");
return sGeneratedDatName;
}
return m_sS60FileName;
}
string CATModule2::GetLstNameOfSource(string sSource) const
{
LOG_LOW_FUNC_ENTRY("CATModule2::GetLstNameOfSource");
// Find . before xtension
size_t iSpot = sSource.find_last_of( "." );
// Get sub string to there
string sLst = sSource.substr(0, iSpot+1);
if ( m_sVariantPlatform.compare( "winscw" ) != 0 )
{
// Add variant platform (i.e. armv5)
sLst.append( m_sVariantPlatform );
sLst.append( "." );
// Add variant type (i.e. build type liek urel)
sLst.append( m_sVariantType );
sLst.append( "." );
// Add target binary name
sLst.append( m_sTarget );
sLst.append( "." );
// Add target requested binary extension
sLst.append( m_sRequestedTargetExt );
sLst.append( "." );
// Add lst extension
sLst.append( "lst" );
}
else
{
sLst.append( "WINSCW.lst" );
}
return sLst;
}
bool CATModule2::IsPlatformArmv5() const
{
LOG_LOW_FUNC_ENTRY("CATModule2::IsPlatformArmv5");
if ( _stricmp( m_sVariantPlatform.c_str(), "armv5" ) == 0 )
return true;
return false;
}
string CATModule2::GetMapFile() const
{
LOG_LOW_FUNC_ENTRY("CATModule2::GetMapFile");
// Map file with path using variables
string sMapFile( m_sReleasePath );
if ( ! sMapFile.empty() )
sMapFile.append( "\\" );
sMapFile.append( m_sFullVariantPath );
if ( ! m_sFullVariantPath.empty() )
sMapFile.append( "\\" );
sMapFile.append( m_sTarget );
sMapFile.append( "." );
// Possible feature variant. Note debug might not be defined
// when release has got one.
if ( IsUDEB() && !m_sFeatureVariantUDEBLabel.empty() )
{
sMapFile.append( m_sFeatureVariantUDEBLabel );
sMapFile.append( "." );
}
if ( !IsUDEB() && !m_sFeatureVariantURELLabel.empty() )
{
sMapFile.append( m_sFeatureVariantURELLabel );
sMapFile.append( "." );
}
sMapFile.append( m_sRequestedTargetExt );
sMapFile.append( ".map" );
return sMapFile;
}
string CATModule2::GetSymbolFile() const
{
LOG_LOW_FUNC_ENTRY("CATModule2::GetSymbolFile");
// Symbol file with path using variables
string sSymbolFile( m_sReleasePath );
sSymbolFile.append( "\\" );
sSymbolFile.append( m_sFullVariantPath );
sSymbolFile.append( "\\" );
sSymbolFile.append( m_sTarget );
sSymbolFile.append( "." );
// Possible feature variant.
if ( ! m_sFeatureVariantUDEBLabel.empty() || ! m_sFeatureVariantURELLabel.empty() )
{
if ( IsUDEB() )
sSymbolFile.append( m_sFeatureVariantUDEBLabel );
else
sSymbolFile.append( m_sFeatureVariantURELLabel );
sSymbolFile.append( "." );
}
if ( m_eBuildSystem == CATProject::SBS_V1 )
{
sSymbolFile.append( "sym" );
return sSymbolFile;
}
sSymbolFile.append( m_sRequestedTargetExt );
sSymbolFile.append( ".sym" );
return sSymbolFile;
}
string CATModule2::GetBinaryFile() const
{
LOG_LOW_FUNC_ENTRY("CATModule2::GetBinaryFile");
// Binary file with path using variables
string sBinaryFile( m_sReleasePath );
if ( ! sBinaryFile.empty() )
sBinaryFile.append( "\\" );
sBinaryFile.append( m_sFullVariantPath );
if ( ! m_sFullVariantPath.empty() )
sBinaryFile.append( "\\" );
sBinaryFile.append( m_sTarget );
sBinaryFile.append( "." );
// Possible feature variant.
if ( ! m_sFeatureVariantUDEBLabel.empty() || ! m_sFeatureVariantURELLabel.empty() )
{
if ( IsUDEB() )
sBinaryFile.append( m_sFeatureVariantUDEBLabel );
else
sBinaryFile.append( m_sFeatureVariantURELLabel );
sBinaryFile.append( "." );
}
sBinaryFile.append( m_sRequestedTargetExt );
return sBinaryFile;
}
bool CATModule2::SetMmpFile(const string& sMmpFile)
{
LOG_FUNC_ENTRY("CATModule2::SetMmpFile");
// Set mmp file
m_Mmp.m_sMmpFile = sMmpFile;
// Change to lower
ChangeToLower( m_Mmp.m_sMmpFile );
// Convert
ConvertUnixPathToWin( m_Mmp.m_sMmpFile );
// Set the temporary path.
m_sTempPath.clear();
m_sTempPath = CreateTempPath( m_Mmp.m_sMmpFile );
return true;
}
bool CATModule2::CreateTemporaryDirectory()
{
LOG_FUNC_ENTRY("CATModule2::CreateTemporaryDirectory");
if ( m_sTempPath.empty() )
{
LOG_STRING("Temporary path is not set.");
return false;
}
// Create temp dir if not exists
if ( ! DirectoryExists( m_sTempPath.c_str() ) )
{
if ( !CreateDirectory( m_sTempPath.c_str(), NULL ) )
{
cout << AT_MSG << "Error, can not create directory: "
<< m_sTempPath << endl;
return false;
}
cout << AT_MSG << "Directory created: " << m_sTempPath << endl;
}
return true;
}
void CATModule2::SetMakeFile( const string& sMakeFile )
{
LOG_FUNC_ENTRY("CATModule2::SetMakeFile");
m_sMakeFile = sMakeFile;
}
string CATModule2::GetMakeFile() const
{
LOG_LOW_FUNC_ENTRY("CATModule2::GetMakeFile");
return m_sMakeFile;
}
string CATModule2::GetMmpFile() const
{
LOG_LOW_FUNC_ENTRY("CATModule2::GetMmpFile");
return m_Mmp.m_sMmpFile;
}
string CATModule2::GetTempPath() const
{
LOG_LOW_FUNC_ENTRY("CATModule2::GetTempPath");
return m_sTempPath;
}
void CATModule2::SetTarget(const string& sTarget)
{
LOG_FUNC_ENTRY("CATModule2::SetTarget");
m_sTarget = sTarget;
ChangeToLower( m_sTarget );
}
string CATModule2::GetTarget() const
{
LOG_LOW_FUNC_ENTRY("CATModule2::GetTarget");
return m_sTarget;
}
string CATModule2::GetBinaryName() const
{
LOG_LOW_FUNC_ENTRY("CATModule2::GetBinaryName");
string sBinaryName;
sBinaryName.append( m_sTarget );
sBinaryName.append( "." );
sBinaryName.append( m_sRequestedTargetExt );
return sBinaryName;
}
void CATModule2::SetTargetType(const string& sTargetType)
{
LOG_FUNC_ENTRY("CATModule2::SetTargetType");
m_sTargetType = sTargetType;
ChangeToLower( m_sTargetType );
}
string CATModule2::GetTargetType() const
{
LOG_LOW_FUNC_ENTRY("CATModule2::GetTargetType");
return m_sTargetType;
}
void CATModule2::SetRequestedTargetExt( const string& sRequestedTargetExt )
{
LOG_FUNC_ENTRY("CATModule2::SetRequestedTargetExt");
m_sRequestedTargetExt = sRequestedTargetExt;
ChangeToLower( m_sRequestedTargetExt );
}
string CATModule2::GetRequestedTargetExt() const
{
LOG_LOW_FUNC_ENTRY("CATmodule2::GetRequestedTargetExt");
return m_sRequestedTargetExt;
}
void CATModule2::SetVariantPlatform(const string& sVariantPlatform)
{
LOG_FUNC_ENTRY("CATModule2::SetVariantPlatform");
m_sVariantPlatform = sVariantPlatform;
ChangeToLower( m_sVariantPlatform );
}
string CATModule2::GetVariantPlatform() const
{
LOG_LOW_FUNC_ENTRY("CATModule2::GetVariantPlatform");
return m_sVariantPlatform;
}
void CATModule2::SetVariantType(const string& sVariantType)
{
LOG_FUNC_ENTRY("CATModule2::SetVariantType");
m_sVariantType = sVariantType;
ChangeToLower( m_sVariantType );
}
string CATModule2::GetVariantType() const
{
LOG_LOW_FUNC_ENTRY("CATModule2::GetVariantType");
return m_sVariantType;
}
void CATModule2::SetFeatureVariant(const string& sFeatureVariant)
{
LOG_FUNC_ENTRY("CATModule2::SetFeatureVariant");
m_sFeatureVariant = sFeatureVariant;
ChangeToLower( m_sFeatureVariant );
}
string CATModule2::GetFeatureVariant() const
{
LOG_LOW_FUNC_ENTRY("CATModule2::GetFeatureVariant");
return m_sFeatureVariant;
}
void CATModule2::SetFeatureVariantName(const string& sFeatureVariantName)
{
LOG_FUNC_ENTRY("CATModule2::SetFeatureVariantName");
m_sFeatureVariantName = sFeatureVariantName;
ChangeToLower( m_sFeatureVariantName );
}
string CATModule2::GetFeatureVariantName() const
{
LOG_LOW_FUNC_ENTRY("CATModule2::GetFeatureVariantName");
return m_sFeatureVariantName;
}
void CATModule2::SetReleasePath(const string& sReleasePath)
{
LOG_FUNC_ENTRY("CATModule2::SetReleasePath");
m_sReleasePath = sReleasePath;
ChangeToLower( m_sReleasePath );
ConvertUnixPathToWin( m_sReleasePath );
}
string CATModule2::GetReleasePath() const
{
LOG_LOW_FUNC_ENTRY("CATModule2::GetReleasePath");
return m_sReleasePath;
}
void CATModule2::SetFullVariantPath(const string& sFullVariantPath)
{
LOG_FUNC_ENTRY("CATModule2::SetFullVariantPath");
m_sFullVariantPath = sFullVariantPath;
ChangeToLower( m_sFullVariantPath );
ConvertUnixPathToWin( m_sFullVariantPath );
}
string CATModule2::GetFullVariantPath() const
{
LOG_LOW_FUNC_ENTRY("CATModule2::GetFullVariantPath");
return m_sFullVariantPath;
}
string CATModule2::GetUniqueId() const
{
LOG_LOW_FUNC_ENTRY("CATModule2::GetUniqueId");
return FilterString( m_sTarget );
}
void CATModule2::SetBuildSystem( int eBuildSystem )
{
LOG_FUNC_ENTRY("CATModule2::SetBuildSystem");
m_eBuildSystem = eBuildSystem;
}
int CATModule2::GetBuildSystem() const
{
LOG_LOW_FUNC_ENTRY("CATModule2::GetBuildSystem");
return m_eBuildSystem;
}
void CATModule2::SetCompileDefinitions( const string& sCompileDefinitions )
{
LOG_LOW_FUNC_ENTRY( "CATModule2::SetCompileDefinitions" );
m_sCompileDefinitions = sCompileDefinitions;
}
string CATModule2::GetCompileDefinitions() const
{
LOG_LOW_FUNC_ENTRY( "CATModule2::GetCompileDefinitions" );
return m_sCompileDefinitions;
}
void CATModule2::SetCompileInfoText( string sCompileInfoText )
{
LOG_LOW_FUNC_ENTRY( "CATModule2::SetCompileInfoText" );
m_sCompileInfoText = sCompileInfoText;
}
string CATModule2::GetCompileInfoText() const
{
LOG_LOW_FUNC_ENTRY( "CATModule2::GetCompileInfoText" );
return m_sCompileInfoText;
}
//EOF