/*
* 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 project.
*
*/
#include "../inc/CATProject.h"
#include "../inc/CATModule2.h"
#include "../inc/CATParseTraceFile.h"
#include "../inc/CATParseBinaryFile.h"
#include "../inc/CATDatParser.h"
//dbghelp.dll version function.
extern int showDbgHelpVersionInfo( bool showVersion );
// ----------------------------------------------------------------------------
// CATProject::CATProject()
// ----------------------------------------------------------------------------
CATProject::CATProject()
{
LOG_FUNC_ENTRY("CATProject::CATProject");
m_bUninstrumented = true;
m_bAbldTest = false;
// Use windows api to acquire current directory info.
GetCurrentDirectory( MAX_LINE_LENGTH, m_cCurrentDir );
m_eBuildSystem = SBS_V1;
m_eBuildType = UDEB;
m_eLoggingMode = TRACE;
m_eMode = NOT_DEFINED;
m_iLoggingLevel = 3;
m_pAnalyzer = 0;
m_sBinaryTarget = "";
m_sBuildCommand = "";
m_sDataFile = "";
m_sDataFileOutput = "";
m_sDataFileTemp = "";
m_sBinaryLogFileTemp = "";
m_sEpocRoot = "\\";
m_sMakeFile = "";
m_sPlatform = "";
m_sS60FileName = "";
m_sS60FilePath = "";
m_sTargetModule = "";
m_sVariant = "";
m_vRomSymbolFiles.clear();
m_vModules.clear();
m_vStaticLibraries.clear();
m_vTargetModules.clear();
m_vUnsupportedModules.clear();
}
// ----------------------------------------------------------------------------
// CATProject::~CATProject()
// ----------------------------------------------------------------------------
CATProject::~CATProject()
{
LOG_FUNC_ENTRY("CATProject::~CATProject");
CleanModuleVectors();
// Delete analyzer
if ( m_pAnalyzer )
delete m_pAnalyzer;
// Temporary datafile
if ( !m_sDataFileTemp.empty() )
{
if ( FileExists( m_sDataFileTemp.c_str() ) )
FileDelete( m_sDataFileTemp, false );
}
// Temporary trace file
if ( !m_sBinaryLogFileTemp.empty() )
{
if ( FileExists( m_sBinaryLogFileTemp.c_str() ) )
FileDelete( m_sBinaryLogFileTemp, false );
}
}
bool CATProject::SetArguments( ARGUMENTS& arguments )
{
LOG_FUNC_ENTRY("CATProject::SetArguments");
bool bRet = true;
//Project mode.
if( arguments.eHookSwitch == HOOK_INTERNAL )
{
SetMode( CATProject::COMPILE );
SetLoggingMode( CATProject::FILE );
}
else if ( arguments.eHookSwitch == HOOK_EXTERNAL )
{
SetMode( CATProject::COMPILE );
SetLoggingMode( CATProject::TRACE );
}
else if ( arguments.eHookSwitch == HOOK_EXTERNAL_FAST )
{
SetMode( CATProject::COMPILE );
SetLoggingMode( CATProject::TRACE_FAST );
}
/* Extension*/
else if ( arguments.eHookSwitch == HOOK_EXTENSION_INTERNAL )
{
SetMode( CATProject::INSTRUMENT );
SetLoggingMode( CATProject::FILE );
}
else if ( arguments.eHookSwitch == HOOK_EXTENSION_EXTERNAL )
{
SetMode( CATProject::INSTRUMENT );
SetLoggingMode( CATProject::TRACE );
}
else if ( arguments.eHookSwitch == HOOK_EXTENSION_EXTERNAL_FAST )
{
SetMode( CATProject::INSTRUMENT );
SetLoggingMode( CATProject::TRACE_FAST );
}
else if ( arguments.eHookSwitch == HOOK_EXTENSION_UNINSTRUMENT )
{
SetMode( CATProject::UNINSTRUMENT );
}
else if ( arguments.eHookSwitch == HOOK_EXTENSION_FAILED )
{
SetMode( CATProject::UNINSTRUMENT_FAILED );
}
//Return if uninstrumenting because no other arguments are set.
if ( GetMode() == CATProject::UNINSTRUMENT
|| GetMode() == CATProject::UNINSTRUMENT_FAILED )
{
return bRet;
}
// No build / instrument.
if ( arguments.HOOK.bNoBuild )
SetMode( CATProject::INSTRUMENT_CONSOLE );
// Call stack sizes
SetAllocCallStackSize( arguments.HOOK.iAllocCallStackSize );
SetFreeCallStackSize( arguments.HOOK.iFreeCallStackSize );
//Build system.
if ( arguments.HOOK.iBuildSystem == 1 )
SetBuildSystem( CATProject::SBS_V1 );
else if ( arguments.HOOK.iBuildSystem == 2 )
SetBuildSystem( CATProject::SBS_V2 );
//Test module build only
if ( arguments.HOOK.bAbldTest == true )
m_bAbldTest = true;
//Platform.
if ( !_stricmp( arguments.HOOK.sPlatform.c_str(), "armv5" ) )
SetPlatform( arguments.HOOK.sPlatform );
else if ( !_stricmp( arguments.HOOK.sPlatform.c_str(), "gcce" ) )
SetPlatform( arguments.HOOK.sPlatform );
else if ( !_stricmp( arguments.HOOK.sPlatform.c_str(), "winscw" ) )
SetPlatform( arguments.HOOK.sPlatform );
else
{
LOG_STRING( "Error, no supported platform specified (armv5/gcce/winscw).");
bRet = false;
}
//BuildType.
if ( !_stricmp( arguments.HOOK.sBuildType.c_str(), "urel" ) )
SetBuildType( CATProject::UREL );
else if ( !_stricmp( arguments.HOOK.sBuildType.c_str(), "udeb" ) )
SetBuildType( CATProject::UDEB );
else
{
LOG_STRING( "Error, no build type specified.");
bRet = false;
}
//Internal data file name.
if ( arguments.HOOK.bDataFileName )
SetS60FileName( arguments.HOOK.sDataFileName );
//Internal data file path.
if ( arguments.HOOK.bDataFilePath )
SetS60FilePath( arguments.HOOK.sDataFilePath );
//Build command.
if ( arguments.HOOK.sBuildCmd.empty() && (
GetMode() == CATProject::COMPILE ||
GetMode() == CATProject::INSTRUMENT ||
GetMode() == CATProject::INSTRUMENT_CONSOLE
))
{
cout << AT_MSG << "Error, no build command specified." << endl;
bRet = false;
}
SetBuildCommand( arguments.HOOK.sBuildCmd );
//Variant.
SetVariant( arguments.HOOK.sFeatureVariant );
//Target programs.
SetTargetModules( arguments.HOOK.vTargetPrograms );
return bRet;
}
void CATProject::CleanModuleVectors()
{
LOG_FUNC_ENTRY("CATProject::CleanModuleVectors");
// delete modules from vector.
for( size_t i = 0; i < m_vModules.size() ; i++ )
delete m_vModules[i];
m_vModules.clear();
// Delete modules from vector (unsupported).
for( size_t i = 0; i < m_vUnsupportedModules.size() ; i++ )
delete m_vUnsupportedModules[i];
m_vUnsupportedModules.clear();
// Delete modules from static library vector.
for( size_t i = 0; i < m_vStaticLibraries.size() ; i++ )
delete m_vStaticLibraries[i];
m_vStaticLibraries.clear();
}
// ----------------------------------------------------------------------------
// CATProject::Run
// ----------------------------------------------------------------------------
int CATProject::Run()
{
LOG_FUNC_ENTRY("CATProject::Run");
int iReturnCode = 0;
switch( m_eMode )
{
case COMPILE:
// Run compile
iReturnCode = RunCompile();
if ( iReturnCode == AT_RETURN_CODE::READ_MAKEFILE_ERROR
|| iReturnCode == AT_RETURN_CODE::KERNEL_SIDE_MODULE_ERROR
|| iReturnCode == AT_RETURN_CODE::INVALID_MMP_DEFINED )
{
DeleteTemporaryDirs();
DirDelete( AT_TEMP_DIR, true );
}
else
{
DisplayCompileSummary();
DisplayBuildSummary();
}
break;
case CLEAN:
iReturnCode = RunClean();
break;
case ANALYZE:
iReturnCode = RunAnalyze();
break;
case INSTRUMENT:
iReturnCode = RunInstrument();
break;
case INSTRUMENT_CONSOLE:
iReturnCode = RunInstrumentConsole();
if ( iReturnCode == AT_RETURN_CODE::READ_MAKEFILE_ERROR
|| iReturnCode == AT_RETURN_CODE::KERNEL_SIDE_MODULE_ERROR )
{
DeleteTemporaryDirs();
DirDelete( AT_TEMP_DIR, true );
}
else
{
DisplayBuildSummary();
}
break;
case UNINSTRUMENT:
iReturnCode = RunUninstrument();
// Show summary
DisplayCompileSummary();
DisplayBuildSummary();
break;
case UNINSTRUMENT_CONSOLE:
iReturnCode = RunUninstrumentConsole();
// Show summary
DisplayCompileSummary();
DisplayBuildSummary();
break;
case UNINSTRUMENT_FAILED:
iReturnCode = RunUninstrumentFailed();
// Display message
cout << AT_MSG << "Build aborted, because project contains compile error(s)."
<< endl;
break;
default:
cout << AT_MSG << "Error, mode not supported / implemented." << endl;
break;
}
// Error messages
switch( iReturnCode )
{
case AT_RETURN_CODE::MAKEFILE_ERROR:
cout << AT_MSG << "Error, creating/reading makefiles." << endl;
break;
case AT_RETURN_CODE::COMPILE_ERROR:
cout << AT_MSG << "Error, compiling project." << endl;
break;
case AT_RETURN_CODE::UNKNOWN:
cout << AT_MSG << "Error, unknown." << endl;
break;
case AT_RETURN_CODE::WRONG_DATA_FILE_VERSION:
cout << AT_MSG << "unable to analyze the data file.\n";
cout << AT_MSG << "wrong data file version.\n";
break;
case AT_RETURN_CODE::INVALID_DATA_FILE:
cout << AT_MSG << "Error, invalid datafile." << endl;
break;
case AT_RETURN_CODE::RELEASABLES_ERROR:
cout << AT_MSG << "Error, copying releasable(s)." << endl;
break;
case AT_RETURN_CODE::RESTORE_MODULES_ERROR:
cout << AT_MSG << "Error, restoring mmp file(s)." << endl;
break;
case AT_RETURN_CODE::CREATING_TEMP_CPP_ERROR:
cout << AT_MSG << "Error, creating temporary cpp file(s)." << endl;
break;
case AT_RETURN_CODE::CLEANING_TEMP_ERROR:
cout << AT_MSG << "Error, cleaning temporary dir(s)." << endl;
break;
case AT_RETURN_CODE::READ_MAKEFILE_ERROR:
cout << AT_MSG << "Error, reading makefile." << endl;
break;
case AT_RETURN_CODE::MODIFY_MODULES_ERROR:
cout << AT_MSG << "Error, modifying mmp file(s)." << endl;
break;
case AT_RETURN_CODE::INVALID_MMP_DEFINED:
break;
case AT_RETURN_CODE::WRITE_ATTRIBUTES_ERROR:
cout << AT_MSG << "Error, writing attributes." << endl;
break;
case AT_RETURN_CODE::READ_ATTRIBUTES_ERROR:
cout << AT_MSG << "Error, reading project configuration. Instrument project again." << endl;
break;
case AT_RETURN_CODE::EMPTY_DATA_FILE:
cout << AT_MSG << "Error, no data to be analyzed." << endl;
break;
case AT_RETURN_CODE::NO_SUPPORTED_MODULES_ERROR:
cout << AT_MSG << "Error, no modules found with supported target type." << endl;
break;
case AT_RETURN_CODE::KERNEL_SIDE_MODULE_ERROR:
cout << AT_MSG << "Error, kernel side component found component. Build/instrument aborted." << endl;
break;
}
return iReturnCode;
}
// ----------------------------------------------------------------------------
// CATProject::RunRecoveryAndExit()
// Restore modules quick and exit. Used when user wants to kill/end process.
// ----------------------------------------------------------------------------
int CATProject::RunRecoveryAndExit()
{
LOG_FUNC_ENTRY("CATProject::RunRecoveryAndExit");
cout << AT_MSG << "Error, user requested exit." << endl;
VerifyAndRecoverModules();
DeleteTemporaryDirs();
DirDelete( AT_TEMP_DIR, true );
cout << AT_MSG << "Exit." << endl;
return AT_RETURN_CODE::USER_ISSUED_EXIT;
}
// ----------------------------------------------------------------------------
// CATProject::IsUninstrumented()
// Reads projects configuration file if it exists.
// Return false in case the data contains information that project is
// uninstrumented. Otherwise returns always true.
// ----------------------------------------------------------------------------
bool CATProject::IsUninstrumented()
{
LOG_FUNC_ENTRY("CATProject::IsUninstrumented");
string sCfgFile( AT_TEMP_DIR );
sCfgFile.append( "\\" );
sCfgFile.append( AT_PROJECT_ATTRIBUTES_FILE_NAME );
if ( ! FileExists( sCfgFile.c_str() ) )
return true;
if( !ReadAttributes() )
{
LOG_STRING( "Error, reading project.cfg file." );
return false;
}
return m_bUninstrumented;
}
// ----------------------------------------------------------------------------
// CATProject::RunCompile()
// Helper functions to run different modes.
// ----------------------------------------------------------------------------
int CATProject::RunCompile()
{
LOG_FUNC_ENTRY("CATProject::RunCompile");
// Store attributes
if( ! MakeTempDirIfNotExist() )
return AT_RETURN_CODE::WRITE_ATTRIBUTES_ERROR;
if ( ! WriteAttributes() )
return AT_RETURN_CODE::WRITE_ATTRIBUTES_ERROR;
// Create makefile
if ( ! CreateMakeFile() )
return AT_RETURN_CODE::MAKEFILE_ERROR;
// Read makefile to get project attributes
if ( ! ReadMakeFile() )
return AT_RETURN_CODE::READ_MAKEFILE_ERROR;
// Filter unsupported
FilterModules();
// Check that we have some "valid" modules to hook
if ( m_vModules.size() == 0 &&( m_vUnsupportedModules.size() > 0 || m_vStaticLibraries.size() > 0 ) )
return AT_RETURN_CODE::NO_SUPPORTED_MODULES_ERROR;
// Check is possible target module defined in project
if ( ! IsTargetModuleInProject() )
return AT_RETURN_CODE::INVALID_MMP_DEFINED;
// Clean temporary dirs of modules
if ( ! CleanTemporaryDirs() )
return AT_RETURN_CODE::CLEANING_TEMP_ERROR;
// Create temporary cpps for modulse
if (! CreateTemporaryCpps() )
return AT_RETURN_CODE::CREATING_TEMP_CPP_ERROR;
// Hook modules
if (! ModifyModules() )
return AT_RETURN_CODE::MODIFY_MODULES_ERROR;
// Compile all
// Return code
int iRetCode = AT_RETURN_CODE::OK;
// Compile
if ( ! Compile() )
iRetCode = AT_RETURN_CODE::COMPILE_ERROR;
// Listings
if (! CreateListings() )
iRetCode = AT_RETURN_CODE::COMPILE_ERROR;
// Releasables
if (! CopyReleasables() )
iRetCode = AT_RETURN_CODE::RELEASABLES_ERROR;
// Restore "unhook" modules
if (! RestoreModules() )
iRetCode = AT_RETURN_CODE::RESTORE_MODULES_ERROR;
// Return error code OK
return iRetCode;
}
int CATProject::RunClean()
{
LOG_FUNC_ENTRY("CATProject::RunClean");
int iRetCode = AT_RETURN_CODE::OK;
bool bNothingFound = true;
// Read attributes.
if ( ReadAttributes() )
{
bNothingFound = false;
if ( m_eBuildSystem == SBS_V1 )
InitSbs1MakeFileWithPathToTemp();
// Read makefile to get project attributes
if( ReadMakeFile() )
{
// Filter unsupported
FilterModules();
// Restore modules to make sure no changes left
if( VerifyAndRecoverModules() )
{
// Run reallyclean
switch ( m_eBuildSystem )
{
case SBS_V1:
RunReallyCleanSbs1();
break;
case SBS_V2:
RunReallyCleanSbs2();
break;
default:
break;
}
// Delete temporary dirs of modules
if(! DeleteTemporaryDirs() )
{
}
}
else
{
}
}
}
// Projects
if ( ! DirDelete( AT_TEMP_DIR, true ) )
{
}
else
bNothingFound = false;
if ( bNothingFound )
cout << AT_MSG << "Nothing found to clean." << endl;
else
cout << AT_MSG << "Cleaning done." << endl;
return iRetCode;
}
int CATProject::RunAnalyze()
{
LOG_FUNC_ENTRY("CATProject::RunAnalyze");
// Parse data file if it is not data file.
if ( !IsDataFile( m_sDataFile ) )
{
m_sDataFileTemp.clear();
m_sDataFileTemp.append( m_sDataFile );
m_sDataFileTemp.append( ".atool" );
// make filename for file with cleaned timestamps
// <m_sDataFile>.cleaned in the same place as output file
string sTraceFileCleaned( GetPathOrFileName( false, m_sDataFileOutput ) );
sTraceFileCleaned.append( GetPathOrFileName( true, m_sDataFile ) );
sTraceFileCleaned.append( ".cleaned" );
//check if it is binary log file
if( IsBinaryLogFile( m_sDataFile ) )
{
// convert binary log file to ASCII trace format
m_sBinaryLogFileTemp.clear();
m_sBinaryLogFileTemp.append( m_sDataFile );
m_sBinaryLogFileTemp.append( ".totraces" );
cout << AT_MSG << "Parsing binary data file..." << endl;
CATParseBinaryFile Parser;
stringstream dataToParse;
if ( ! Parser.StartParse( m_sDataFile.c_str(), m_sBinaryLogFileTemp.c_str() ) )
{
return AT_RETURN_CODE::EMPTY_DATA_FILE;
}
m_sDataFile = m_sBinaryLogFileTemp;
}
else
{
cout << AT_MSG << "Parsing trace file..." << endl;
}
CATParseTraceFile Parser;
if ( ! Parser.StartParse( m_sDataFile.c_str(), m_sDataFileTemp.c_str(), sTraceFileCleaned.c_str() ) )
{
return AT_RETURN_CODE::EMPTY_DATA_FILE;
}
m_sDataFile = m_sDataFileTemp;
}
// Init makefile member for this run mode.
if ( m_eBuildSystem == SBS_V1 )
InitSbs1MakeFileWithPathToTemp();
// Read makefile to get project attributes
if( ! ReadMakeFile() )
{
cout << AT_MSG << "Error, cannot find project build with AnalyzeTool." << endl;
}
else
FilterModules();
#ifndef ADDR2LINE
// Initialize modules locating code lines.
for( size_t i = 0 ; i < m_vModules.size() ; i++ )
{
m_vModules.at(i)->InitializeAddressToLine();
}
#endif
// Create analyzer
m_pAnalyzer = new CATDatParser( &m_vModules );
// Pass some info from project if it "exists" to analyzer.
if ( m_vModules.size() > 0 )
{
// Pass platform.
m_pAnalyzer->SetProjectPlatform( m_sPlatform );
// Pass build type.
m_pAnalyzer->SetProjectBuildType( m_eBuildType );
}
// Set file.
m_pAnalyzer->SetInputFile( m_sDataFile );
// Set rom symbol file.
m_pAnalyzer->SetRomSymbolFiles( m_vRomSymbolFiles );
// Set output file if specified
if ( ! m_sDataFileOutput.empty() )
{
m_pAnalyzer->SetOutputFile( m_sDataFileOutput );
}
// Set log level
m_pAnalyzer->SetLogLevel( m_iLoggingLevel );
// Analyze
return m_pAnalyzer->Analyze();
}
int CATProject::RunInstrument()
{
LOG_FUNC_ENTRY("CATProject::RunInstrument");
// Store attributes
if( ! MakeTempDirIfNotExist() )
return AT_RETURN_CODE::WRITE_ATTRIBUTES_ERROR;
if ( ! WriteAttributes() )
return AT_RETURN_CODE::WRITE_ATTRIBUTES_ERROR;
if ( m_eBuildSystem == SBS_V1 )
{
// Initialize level 1 make file member.
if ( ! InitSbs1MakeFileWithPath() )
return AT_RETURN_CODE::MAKEFILE_ERROR;
// Copy it to temporary folder.
CopyMakeFileSbs1ToTemporaryFolder();
// Run export.
if( ! RunExportSbs1() )
return AT_RETURN_CODE::MAKEFILE_ERROR;
// Create level 2 makefiles.
if ( ! CreateMakeFileSbs1Level2() )
return AT_RETURN_CODE::MAKEFILE_ERROR;
}
else if ( m_eBuildSystem == SBS_V2 )
{
// Create makefile only when using SBS v.2
if ( ! CreateMakeFile() )
return AT_RETURN_CODE::MAKEFILE_ERROR;
}
else
{
return AT_RETURN_CODE::UNKNOWN;
}
// Read makefile to get project attributes
if ( ! ReadMakeFile() )
return AT_RETURN_CODE::READ_MAKEFILE_ERROR;
// Filter unsupported
FilterModules();
// Check that we have some "valid" modules to hook
if ( m_vModules.size() == 0 &&( m_vUnsupportedModules.size() > 0 || m_vStaticLibraries.size() > 0 ) )
return AT_RETURN_CODE::NO_SUPPORTED_MODULES_ERROR;
// Clean temporary dirs of modules
if ( ! CleanTemporaryDirs() )
return AT_RETURN_CODE::CLEANING_TEMP_ERROR;
// Create temporary cpps for modulse
if (! CreateTemporaryCpps() )
return AT_RETURN_CODE::CREATING_TEMP_CPP_ERROR;
// Hook modules
if (! ModifyModules() )
return AT_RETURN_CODE::MODIFY_MODULES_ERROR;
return AT_RETURN_CODE::OK;
}
int CATProject::RunInstrumentConsole()
{
LOG_FUNC_ENTRY("CATProject::RunInstrumentConsole");
if( ! MakeTempDirIfNotExist() )
return AT_RETURN_CODE::UNKNOWN;
// Store attributes
m_bUninstrumented = false;
if ( ! WriteAttributes() )
return AT_RETURN_CODE::WRITE_ATTRIBUTES_ERROR;
// Create makefile
if ( ! CreateMakeFile() )
return AT_RETURN_CODE::MAKEFILE_ERROR;
// Read makefile to get project attributes
if ( ! ReadMakeFile() )
return AT_RETURN_CODE::READ_MAKEFILE_ERROR;
// Filter unsupported
FilterModules();
// Check that we have some "valid" modules to hook
if ( m_vModules.size() == 0 &&( m_vUnsupportedModules.size() > 0 || m_vStaticLibraries.size() > 0 ) )
return AT_RETURN_CODE::NO_SUPPORTED_MODULES_ERROR;
// Clean temporary dirs of modules
if ( ! CleanTemporaryDirs() )
return AT_RETURN_CODE::CLEANING_TEMP_ERROR;
// Create temporary cpps for modulse
if (! CreateTemporaryCpps() )
return AT_RETURN_CODE::CREATING_TEMP_CPP_ERROR;
// Hook modules
if (! ModifyModules() )
return AT_RETURN_CODE::MODIFY_MODULES_ERROR;
// Run Reallyclean when using abld.
if ( m_eBuildSystem == SBS_V1 )
RunReallyCleanSbs1();
return AT_RETURN_CODE::OK;
}
int CATProject::RunUninstrument()
{
LOG_FUNC_ENTRY("CATProject::RunUninstrument");
// Read attributes.
if ( ! ReadAttributes() )
return AT_RETURN_CODE::READ_ATTRIBUTES_ERROR;
// Init makefile member for this run mode.
if ( m_eBuildSystem == SBS_V1 )
InitSbs1MakeFileWithPathToTemp();
// Read makefile to get project attributes
if ( ! ReadMakeFile() )
return AT_RETURN_CODE::READ_MAKEFILE_ERROR;
// Filter unsupported
FilterModules();
// Check that we have some "valid" modules to hook
if ( m_vModules.size() == 0 &&( m_vUnsupportedModules.size() > 0 || m_vStaticLibraries.size() > 0 ) )
return AT_RETURN_CODE::NO_SUPPORTED_MODULES_ERROR;
// Create lst files
if (! CreateListings() )
return AT_RETURN_CODE::COMPILE_ERROR;
// Copy releasables of modules
if (! CopyReleasables() )
return AT_RETURN_CODE::RELEASABLES_ERROR;
// Restore "unhook" modules
if (! RestoreModules() )
return AT_RETURN_CODE::RESTORE_MODULES_ERROR;
// Return error code OK
return AT_RETURN_CODE::OK;
}
int CATProject::RunUninstrumentConsole()
{
LOG_FUNC_ENTRY("CATProject::RunUninstrumentConsole");
int iErrorCode = AT_RETURN_CODE::OK;
// Read attributes
if ( ReadAttributes() )
{
// Init makefile member for this run mode.
if ( m_eBuildSystem == SBS_V1 )
InitSbs1MakeFileWithPathToTemp();
// Read makefile to get project attributes
if( ReadMakeFile() )
{
// Filter unsupported
FilterModules();
// Create lst files
CreateListings();
if (! CopyReleasables() )
iErrorCode = AT_RETURN_CODE::RELEASABLES_ERROR;
}
else
iErrorCode = AT_RETURN_CODE::READ_MAKEFILE_ERROR;
// Change state to uninstrumented and write status
m_bUninstrumented = true;
if ( ! WriteAttributes() )
iErrorCode = AT_RETURN_CODE::WRITE_ATTRIBUTES_ERROR;
}
else
{
iErrorCode = AT_RETURN_CODE::READ_ATTRIBUTES_ERROR;
}
return iErrorCode;
}
int CATProject::RunUninstrumentFailed()
{
LOG_FUNC_ENTRY("CATProject::RunUninstrumentFailed");
// Read attributes.
if ( ! ReadAttributes() )
return AT_RETURN_CODE::READ_ATTRIBUTES_ERROR;
// Init makefile member for this run mode.
if ( m_eBuildSystem == SBS_V1 )
InitSbs1MakeFileWithPathToTemp();
// Read makefile to get project attributes
if( ReadMakeFile() )
{
// Filter modules
FilterModules();
// Restore modules to make sure no changes left
if( RestoreModules() )
{
// Delete temporary dirs of modules
if(! DeleteTemporaryDirs() )
{
}
}
else
{
}
}
else
{
}
// Projects
if ( ! DirDelete( AT_TEMP_DIR, true ) )
{
}
return AT_RETURN_CODE::OK;
}
// ----------------------------------------------------------------------------
// Main Functions
// ----------------------------------------------------------------------------
void CATProject::DisplayCompileSummary()
{
LOG_FUNC_ENTRY("CATProject::DisplayCompileSummary");
cout << AT_BUILD_SUMMARY_HEADER;
// Supported modules
for( size_t i = 0; i < m_vModules.size(); i++ )
{
// Successful
if ( m_vModules.at(i)->GetErrors().empty() )
{
// Create build complete file for Carbide xtension
m_vModules.at(i)->CreateBuildCompleteFile();
cout << AT_BUILD_SUMMARY_INSTRUMENTED_BUILD_COMPLETE
<< GetPathOrFileName( true, m_vModules.at(i)->GetMmpFile() )
<< endl
<< AT_BUILD_SUMMARY_TARGET
<< m_vModules.at(i)->GetBinaryName()
<< endl;
// Datafiles
// Use module data file name if project's data file not defined.
if ( m_eLoggingMode == CATProject::FILE
&& m_vModules.at(i)->GetTargetType().compare("exe") == 0 )
{
cout << AT_BUILD_SUMMARY_DATA_FILE_NAME
<< m_vModules.at(i)->GetS60FileName()
<< endl;
// if filePath not empty, use it for log file
if ( !m_sS60FilePath.empty() )
{
cout << AT_BUILD_SUMMARY_DATA_FILE_PATH
<< m_sS60FilePath
<< endl;
}
}
}
else
{
// Failed
cout << AT_BUILD_SUMMARY_FAILED
<< GetPathOrFileName( true, m_vModules.at(i)->GetMmpFile() )
<< endl
<< AT_BUILD_SUMMARY_TARGET
<< m_vModules.at(i)->GetBinaryName()
<< endl;
// Print errors.
cout << AT_BUILD_SUMMARY_ERRORS
<< m_vModules.at(i)->GetErrors()
<< endl;
}
}
// Static libraries
for( size_t i = 0; i < m_vStaticLibraries.size(); i++ )
{
if ( m_vStaticLibraries.at(i)->GetErrors().empty() )
{
cout << AT_BUILD_SUMMARY_NORMAL_BUILD_COMPLETE
<< GetPathOrFileName( true, m_vStaticLibraries.at(i)->GetMmpFile())
<< endl
<< AT_BUILD_SUMMARY_TARGET
<< m_vStaticLibraries.at(i)->GetBinaryName()
<< endl
<< AT_BUILD_SUMMARY_STATIC_LIBRARY
<< endl;
}
else
{
// Failed
cout << AT_BUILD_SUMMARY_FAILED
<< GetPathOrFileName( true, m_vStaticLibraries.at(i)->GetMmpFile() )
<< endl
<< AT_BUILD_SUMMARY_TARGET
<< m_vStaticLibraries.at(i)->GetBinaryName()
<< endl;
// Print errors.
cout << AT_BUILD_SUMMARY_ERRORS
<< m_vStaticLibraries.at(i)->GetErrors()
<< endl;
}
}
// Unsupported modules
for( size_t i = 0; i < m_vUnsupportedModules.size(); i++ )
{
cout << AT_BUILD_SUMMARY_NORMAL_BUILD_COMPLETE
<< GetPathOrFileName( true, m_vUnsupportedModules.at(i)->GetMmpFile() )
<< endl
<< AT_BUILD_SUMMARY_TARGET
<< m_vUnsupportedModules.at(i)->GetBinaryName()
<< endl;
cout << m_vUnsupportedModules.at(i)->GetCompileInfoText() << endl;
}
}
void CATProject::DisplayBuildSummary( void )
{
LOG_FUNC_ENTRY("CATProject::DisplayBuildSummary");
cout << endl;
// Build information
cout << AT_BUILD_SUMMARY_BUILD_TYPE << GetBuildTypeString() << endl;
// Platform
cout << AT_BUILD_SUMMARY_BUILD_PLATFORM << m_sPlatform << endl;
// Possible variant
if ( ! m_sVariant.empty() )
cout << AT_BUILD_SUMMARY_BUILD_VARIANT << m_sVariant << endl;
// Logging mode
cout << AT_BUILD_SUMMARY_LOGGING_MODE;
if ( m_eLoggingMode == FILE )
cout << AT_BUILD_SUMMARY_FILE;
else if ( m_eLoggingMode == TRACE )
cout << AT_BUILD_SUMMARY_TRACE;
else if ( m_eLoggingMode == TRACE_FAST )
cout << AT_BUILD_SUMMARY_TRACE_FAST;
cout << endl;
// Call stack sizes
cout << AT_BUILD_SUMMARY_ALLOC_CALL_STACK_SIZE
<< m_iAllocCallStackSize
<< endl;
cout << AT_BUILD_SUMMARY_FREE_CALL_STACK_SIZE
<< m_iFreeCallStackSize
<< endl;
if(!_stricmp(m_sPlatform.c_str(), ("winscw")))
{
//print version info only when version is not up-to-date
cout << endl;
showDbgHelpVersionInfo( false );
}
}
bool CATProject::CreateMakeFile()
{
switch ( m_eBuildSystem )
{
case SBS_V1:
if( ! CreateMakeFileSbs1() )
return false;
// Copy main make file.
if( ! CopyMakeFileSbs1ToTemporaryFolder() )
return false;
// Run export.
if( ! RunExportSbs1() )
return false;
// Create level 2 makefiles.
if( ! CreateMakeFileSbs1Level2() )
return false;
return true;
case SBS_V2:
return CreateMakeFileSbs2();
default:
return false;
}
}
bool CATProject::CreateMakeFileSbs1()
{
LOG_FUNC_ENTRY("CATProject::CreateMakeFileSbs1");
// If variant defined check does it exist.
if( ! m_sVariant.empty() )
{
if ( ! CheckVariant( m_sEpocRoot, m_sVariant ) )
{
cout << INVALID_VARIANT_ERROR;
if ( IsDefaultVariant( m_sEpocRoot ) )
{
m_sVariant = "default";
cout << USING_DEFAULT_VARIANT_MESSAGE;
if ( ! WriteAttributes() )
return false;
}
else
{
cout << NO_DEFAULT_VARIANT_ERROR;
return false;
}
}
}
// Create level 1 make file.
string sCmd( "bldmake bldfiles " );
sCmd.append( m_sPlatform );
cout << AT_MSG_SYSTEM_CALL << sCmd << endl;
(void)system( sCmd.c_str() );
return InitSbs1MakeFileWithPath();
}
bool CATProject::CopyMakeFileSbs1ToTemporaryFolder()
{
LOG_FUNC_ENTRY("CATProject::CopyMakeFileSbs1ToTemporaryFolder");
// Check that temporary dir exists if not create it.
if ( ! MakeTempDirIfNotExist() )
return false;
// Copy makefile to temporary directory
string sMakeFileInTemp( AT_TEMP_DIR );
sMakeFileInTemp.append( "\\" );
sMakeFileInTemp.append( AT_LEVEL_1_MAKEFILE_NAME );
if ( ! FileCopyToPath( m_sMakeFile, sMakeFileInTemp ) )
return false;
return true;
}
bool CATProject::RunReallyCleanSbs1()
{
LOG_FUNC_ENTRY("CATProject::RunReallyCleanSbs1");
// Check that abld.bat has been made.
if ( ! FileExists( "abld.bat" ) )
return false;
// Run reallyclean.
string sCmd;
if ( m_bAbldTest )
sCmd = "abld test reallyclean ";
else
sCmd = "abld reallyclean ";
sCmd.append( m_sPlatform );
if ( ! m_sVariant.empty() )
{
sCmd.append( "." );
sCmd.append( m_sVariant );
}
sCmd.append( " " );
sCmd.append( GetBuildTypeString() );
if ( m_vTargetModules.size() > 1 )
{
RunAbldCommandToAllTargets( sCmd );
}
else
{
AddTargetModuleIfDefined( sCmd );
cout << AT_MSG_SYSTEM_CALL << sCmd << endl;
(void) system( sCmd.c_str() );
}
return true;
}
bool CATProject::RunReallyCleanSbs2()
{
LOG_FUNC_ENTRY("CATProject::RunReallyCleanSbs2");
string sCmd("");
if ( m_sBuildCommand.empty() )
{
// If no build command defined (not found in project.cfg).
sCmd.append( RAPTOR_CMD_BASE );;
sCmd.append( m_sPlatform );
sCmd.append( "_" );
sCmd.append( GetBuildTypeString() );
if ( ! m_sVariant.empty() )
{
sCmd.append( "." );
sCmd.append( m_sVariant );
}
sCmd.append( RAPTOR_REALLYCLEAN_LOG );
AddTargetModuleIfDefined( sCmd );
sCmd.append( " REALLYCLEAN" );
}
else
{
// When build command set use it.
sCmd.append( m_sBuildCommand );
sCmd.append( RAPTOR_REALLYCLEAN_LOG );
sCmd.append( " REALLYCLEAN" );
}
cout << AT_MSG_SYSTEM_CALL << sCmd << endl;
int iRet = (int)system( sCmd.c_str() );
if ( iRet == 0 )
return true;
return false;
}
bool CATProject::RunExportSbs1()
{
LOG_FUNC_ENTRY("CATProject::RunExportSbs1");
// Run export.
string sCmd;
if ( m_bAbldTest )
sCmd = "abld test export";
else
sCmd = "abld export";
cout << AT_MSG_SYSTEM_CALL << sCmd << endl;
(void) system( sCmd.c_str() );
return true;
}
bool CATProject::CreateMakeFileSbs1Level2()
{
LOG_FUNC_ENTRY("CATProject::CreateMakeFileSbs1Level2");
// Create level 2 makefiles.
string sCmd;
if ( m_bAbldTest )
sCmd ="abld test makefile ";
else
sCmd ="abld makefile ";
sCmd.append( m_sPlatform );
if ( ! m_sVariant.empty() )
{
sCmd.append( "." );
sCmd.append( m_sVariant );
}
// Check if multiple targets defined and sbs 1.
if ( m_vTargetModules.size() > 1 )
{
RunAbldCommandToAllTargets( sCmd );
}
else
{
AddTargetModuleIfDefined( sCmd );
cout << AT_MSG_SYSTEM_CALL << sCmd << endl;
(void) system( sCmd.c_str() );
}
return true;
}
bool CATProject::CreateMakeFileSbs2()
{
LOG_FUNC_ENTRY("CATProject::CreateMakeFileSbs2");
// Delete build directory if it exists before creating new makefiles.
if ( DirectoryExists( "atool_temp\\build" ) )
DirDelete( "atool_temp\\build", true );
// Create command to create makefiles.
string sCmd( m_sBuildCommand );
sCmd.append( " " );
sCmd.append( RAPTOR_MAKEFILE_SWITCH );
sCmd.append( " " );
sCmd.append( RAPTOR_NOBUILD_SWITCH );
cout << AT_MSG_SYSTEM_CALL << sCmd << endl;
int iRet = (int)system( sCmd.c_str() );
if ( iRet == 0 )
return true;
return false;
}
bool CATProject::ReadMakeFile()
{
// Clean modules before reading.
CleanModuleVectors();
if ( m_eBuildSystem == SBS_V1 )
{
// Read level 1 makefile which contains module name and makefiles.
if( ! ReadMakeFileSbs1Level1() )
return false;
// Read level 2 makefiles.
vector<CATModule2*>::iterator it;
// If we are compiling or etc... we need to create temporary directories.
if ( m_eMode == COMPILE || m_eMode == INSTRUMENT || m_eMode == INSTRUMENT_CONSOLE )
{
// Read make makefiles from /epoc32/build... and create temporary directory.
bool bLevel2 = true;
for( it = m_vModules.begin(); it != m_vModules.end() ; it ++ )
{
if( ! (*it)->CreateTemporaryDirectory() )
return false;
if( ! (*it)->ReadMakeFile() )
{
bLevel2 = false;
break;
}
}
// If failed reading modules from level 2 makefiles.
if ( ! bLevel2 )
{
// Clean modules.
CleanModuleVectors();
// Try use default variant if it exists.
if ( CheckVariant( m_sEpocRoot, "default" ) )
{
m_sVariant = "default";
cout << USING_DEFAULT_VARIANT_MESSAGE;
if ( ! WriteAttributes() )
return false;
if ( ! InitSbs1MakeFileWithPath() )
return false;
if ( ! ReadMakeFileSbs1Level1() )
return false;
for( it = m_vModules.begin(); it != m_vModules.end() ; it ++ )
{
if( ! (*it)->CreateTemporaryDirectory() )
return false;
if( ! (*it)->ReadMakeFile() )
return false;
}
}
}
}
else
{
// Read make files from temporary directories.
for( it = m_vModules.begin(); it != m_vModules.end() ; it ++ )
{
if ( ! (*it)->ReadMakeFileFromTemp() )
return false;
}
}
return true;
}
else if ( m_eBuildSystem == SBS_V2 )
{
// Read make file.
if( ! ReadMakeFileSbs2() )
return false;
// Create module temporary directories if we are compiling or etc...
if ( m_eMode == COMPILE || m_eMode == INSTRUMENT || m_eMode == INSTRUMENT_CONSOLE )
{
for( vector<CATModule2*>::iterator it = m_vModules.begin(); it < m_vModules.end(); it++ )
(*it)->CreateTemporaryDirectory();
for( vector<CATModule2*>::iterator it = m_vStaticLibraries.begin(); it < m_vStaticLibraries.end(); it++ )
(*it)->CreateTemporaryDirectory();
}
}
return true;
}
bool CATProject::ReadMakeFileSbs1Level1()
{
LOG_FUNC_ENTRY("CATProject::ReadMakeFileSbs1Level1");
bool bRet = false;
//Try to open makefile
ifstream in;
in.open( m_sMakeFile.c_str() );
//File open ok?
if( !in.good() )
{
printf( "Can not open file: %s\n", m_sMakeFile.c_str() );
in.close();
return bRet;
}
// Add also these so "compatible with sbs2".
// Releasables path (binaries).
string sReleasePath( m_sEpocRoot );
// add trailing '\' if root path is missing it
if ( sReleasePath.size() < 1 )
sReleasePath.append( "\\" );
else if ( sReleasePath.at( sReleasePath.length() -1 ) != '\\' )
sReleasePath.append( "\\" );
sReleasePath.append( "epoc32\\release" );
string sFullVariantPath( m_sPlatform );
sFullVariantPath.append( "\\" );
sFullVariantPath.append( GetBuildTypeString() );
char cTemp[MAX_LINE_LENGTH];
bool bContinueSearch = true;
bool bMmpInfoFound = false;
CATModule2* pModule = 0;
string sTempLineFromFile;
string sMmpFileSearchString;
if ( m_bAbldTest )
sMmpFileSearchString = MMPTESTFILE_SEARCH_STRING;
else
sMmpFileSearchString = MMPFILE_SEARCH_STRING;
do
{
// get line from file
in.getline( cTemp, MAX_LINE_LENGTH );
sTempLineFromFile.clear();
sTempLineFromFile.append( cTemp );
//Search makefile string
if( sTempLineFromFile.find( MAKEFILE_SEARCH_STRING ) != string::npos )
{
bMmpInfoFound = true;
if( sTempLineFromFile.find( sMmpFileSearchString ) != string::npos )
{
bRet = true;
//Parse mmp path + mmp filename
sTempLineFromFile.erase( 0, sTempLineFromFile.find_first_of("\"") );
sTempLineFromFile.erase( 0, 1 );
string sPath = sTempLineFromFile.substr(0, sTempLineFromFile.find_first_of("\"") );
sPath = ChangeSlashToBackSlash( sPath );
//Remove text "bld.inf"
sPath.erase( (sPath.find_last_of( "\\" ) + 1) , string::npos );
string sFileName = sTempLineFromFile.substr( (sTempLineFromFile.find( sMmpFileSearchString ) + sMmpFileSearchString.length() + 3), string::npos );
sFileName = ChangeSlashToBackSlash( sFileName );
sFileName = sFileName.substr( 0, sFileName.find_first_of("\"") );
// Append .mmp to filename if it does not exist
if ( sFileName.find(".mmp") == string::npos )
sFileName.append(".mmp");
//Insert drive letter
sPath.insert(0, string( m_cCurrentDir).substr(0,2) );
//Insert mmp file to the end
sPath.append( sFileName );
ChangeToLower( sPath );
// If target programs defined find from those or do not
// add module to vector.
bool bAddToVector = true;
if ( m_vTargetModules.size() > 0 )
{
bAddToVector = false;
vector<string>::iterator it;
for( it = m_vTargetModules.begin() ; it != m_vTargetModules.end() ; it++ )
{
string sFind( *it );
sFind.insert( 0, "\\" );
if ( sPath.find( sFind ) != string::npos )
{
bAddToVector = true;
break;
}
}
}
if ( bAddToVector )
{
pModule = new CATModule2();
pModule->SetMmpFile( sPath );
pModule->SetVariantType( GetBuildTypeString() );
pModule->SetVariantPlatform( m_sPlatform );
pModule->SetReleasePath( sReleasePath );
pModule->SetFullVariantPath( sFullVariantPath );
pModule->SetBuildSystem( SBS_V1 );
m_vModules.push_back( pModule );
}
}
}
else if( bMmpInfoFound )
//Do not continue search if mmp info lines are all handled
bContinueSearch = false;
if( !in.good() )
bContinueSearch = false;
}
while( bContinueSearch );
bContinueSearch = true;
//Search MAKEFILES for invidual modules
do
{
in.getline( cTemp, MAX_LINE_LENGTH );
sTempLineFromFile.clear();
sTempLineFromFile.append( cTemp );
// find the lines 'MAKEFILE[modulename]_FILES'
if( (sTempLineFromFile.find( "MAKEFILE" ) == 0) && (sTempLineFromFile.find( "_FILES" ) != string::npos) )
{
//Math the makefile line with one of our modules
for( size_t i = 0 ; i < m_vModules.size() ; i++ )
{
//Create name
string sMakeFile( "MAKEFILE" );
string sTempMmpFile( RemovePathAndExt( m_vModules.at(i)->GetMmpFile(), true ) );
ChangeToUpper( sTempMmpFile );
sMakeFile.append( sTempMmpFile );
sMakeFile.append( "_FILES" );
// matched
if( sTempLineFromFile.find( sMakeFile ) != string::npos )
{
//parse the makefile name from line
in.getline( cTemp, MAX_LINE_LENGTH );
sTempLineFromFile.clear();
sTempLineFromFile.append( cTemp );
//Remove character "\""
sTempLineFromFile.erase( 0, ( sTempLineFromFile.find_first_of("\"") + 1 ) );
// in winscw last part is '" \' and on armd '"' so remove all after last '"'
sTempLineFromFile.erase( sTempLineFromFile.find_last_of("\""), sTempLineFromFile.size() );
// Set correct makefile for module
m_vModules.at( i )->SetMakeFile( sTempLineFromFile );
// break
break;
} // If mathed to mmp
} // End of mmp file loop
} // found lines 'MAKEFILE[modulename]_FILES'
if( !in.good() )
bContinueSearch = false;
}
while( bContinueSearch );
in.close();
return bRet;
}
bool CATProject::ReadMakeFileSbs2( void )
{
LOG_FUNC_ENTRY("CATProject::ReadMakeFileSbs2(void)");
// File is by default named make_build.default but when building specific layer
// make_build_LAYERNAME.default is produced by Raptor.
// So find makefile(s) and read them.
vector<string> vMakeFiles = DirList( "atool_temp\\build\\", false, true );
bool bRet = true;
for( vector<string>::iterator it = vMakeFiles.begin(); it != vMakeFiles.end() ; it++ )
{
// Recognize multiple makefiles.
if ( it->find("make_build_") != string::npos && it->find(".default") != string::npos )
{
if ( ! ReadMakeFileSbs2( *it ) )
bRet = false;
}
// Single makefile.
else if ( it->find( "make_build.default" ) != string::npos )
{
if ( ! ReadMakeFileSbs2( *it ) )
bRet = false;
}
}
// We got some modules?
if ( m_vModules.size() == 0 )
bRet = false;
return bRet;
}
bool CATProject::ReadMakeFileSbs2( string& sMakeFile )
{
LOG_FUNC_ENTRY("CATProject::ReadMakeFileSbs2(string)");
try {
// Open file
ifstream in;
in.open( sMakeFile.c_str() , ios_base::in );
// Check that open ok
if ( ! in.good() )
{
cout << AT_MSG << "Error, opening file "
<< RAPTOR_MAKEFILE << endl;
in.close();
return false;
}
// Source line from file
string sSourceLine;
// Module pointer
CATModule2* pModule = 0;
// Are we looking for module attributes
bool bFindAttributes = false;
// Until end of file
while( in.good() )
{
// Get new line from file
string sLine;
getline(in, sLine);
// New module
if ( sLine.find( RAPTOR_PROJECT_META ) == 0 )
{
// Remove project_meta from line
sLine.erase(0, strlen( RAPTOR_PROJECT_META ) );
LOG_STRING("Found module: " << sLine );
// Check is name empty
// This seems to happen when sbs2 "wraps" i.e. mifconv to a module type item
if ( sLine.empty() )
{
LOG_STRING("skipping empty module");
// Skip it
continue;
}
// If module add it to vector
if ( pModule )
{
// Add sources,
pModule->AddSources( sSourceLine );
// Build system.
pModule->SetBuildSystem( SBS_V1 );
// Push to vector.
m_vModules.push_back( pModule );
}
// New module
pModule = new CATModule2();
// Clear sourceline
sSourceLine.clear();
// Set modules mmp with path
if ( ! pModule->SetMmpFile( sLine ) )
{
// Fatal error setting mmp file
in.close();
return false;
}
// Find attributes on
bFindAttributes = true;
// Get new line from file
getline(in, sLine);
}
// If attribute finding on
if ( bFindAttributes )
{
// Pickup modules attributes
if ( sLine.find ( RAPTOR_SOURCE ) == 0 )
{
sLine.erase(0, strlen( RAPTOR_SOURCE ) );
sSourceLine = sLine;
}
else if ( sLine.find ( RAPTOR_TARGET ) == 0 )
{
sLine.erase(0, strlen( RAPTOR_TARGET ) );
pModule->SetTarget( sLine );
}
else if ( sLine.find ( RAPTOR_TARGETYPE ) == 0 )
{
sLine.erase(0, strlen( RAPTOR_TARGETYPE ));
pModule->SetTargetType( sLine );
}
else if ( sLine.find( RAPTOR_REQUESTEDTARGETEXT ) == 0 )
{
sLine.erase(0, strlen( RAPTOR_REQUESTEDTARGETEXT ) );
pModule->SetRequestedTargetExt( sLine );
}
else if ( sLine.find ( RAPTOR_VARIANTPLATFORM ) == 0 )
{
sLine.erase(0, strlen( RAPTOR_VARIANTPLATFORM ));
pModule->SetVariantPlatform( sLine );
}
else if ( sLine.find ( RAPTOR_VARIANTTYPE ) == 0 )
{
sLine.erase(0, strlen( RAPTOR_VARIANTTYPE ));
pModule->SetVariantType( sLine );
}
else if ( sLine.find ( RAPTOR_FEATUREVARIANT ) == 0 )
{
sLine.erase(0, strlen( RAPTOR_FEATUREVARIANT ));
pModule->SetFeatureVariant( sLine );
}
else if ( sLine.find ( RAPTOR_FEATUREVARIANTNAME ) == 0 )
{
sLine.erase(0, strlen( RAPTOR_FEATUREVARIANTNAME ));
pModule->SetFeatureVariantName( sLine );
}
else if ( sLine.find ( RAPTOR_RELEASEPATH ) == 0 )
{
sLine.erase(0, strlen( RAPTOR_RELEASEPATH ));
pModule->SetReleasePath( sLine );
}
else if ( sLine.find ( RAPTOR_FULLVARIANTPATH ) == 0 )
{
sLine.erase(0, strlen( RAPTOR_FULLVARIANTPATH ));
pModule->SetFullVariantPath( sLine );
}
else if ( sLine.find ( RAPTOR_COMPILE_DEFINITIONS ) == 0 )
{
sLine.erase(0, strlen( RAPTOR_COMPILE_DEFINITIONS ) );
pModule->SetCompileDefinitions( sLine );
}
}
} // while in.good()
// Add last module if n number of modules found
if ( pModule )
{
if ( ! pModule->GetTarget().empty() )
{
// Add sources
pModule->AddSources( sSourceLine );
// Build system.
pModule->SetBuildSystem( SBS_V1 );
// Push back to vector
m_vModules.push_back( pModule );
}
}
// Close file
in.close();
return true;
} // try.
catch(...)
{
LOG_STRING("Unexpected exception reading sbs 2 makefile");
return false;
}
}
bool CATProject::CreateTemporaryDirectories()
{
LOG_FUNC_ENTRY("CATProject::CreateTemporaryDirectories");
bool bRet = true;
for( size_t i = 0 ; i < m_vModules.size(); i++)
{
if( ! m_vModules.at(i)->CreateTemporaryDirectory() )
bRet = false;
}
for( size_t i = 0 ; i < m_vStaticLibraries.size(); i++)
{
if( ! m_vStaticLibraries.at(i)->CreateTemporaryDirectory() )
bRet = false;
}
return bRet;
}
bool CATProject::CreateTemporaryCpps()
{
LOG_FUNC_ENTRY("CATProject::CreateTemporaryCpps");
bool bRet = true;
for( size_t i = 0 ; i < m_vModules.size(); i++)
{
if( ! m_vModules.at(i)->CreateTempCpp(
m_sS60FileName, m_sS60FilePath, m_eLoggingMode, m_eBuildType, m_iAllocCallStackSize, m_iFreeCallStackSize ) )
bRet = false;
}
return bRet;
}
bool CATProject::FilterModules()
{
LOG_FUNC_ENTRY("CATProject::FilterModules");
vector<CATModule2*>::iterator it;
// Loop thru modules.
it = m_vModules.begin();
while( it != m_vModules.end() )
{
// Get target type of module to separate string (will be modified).
string sTargetType = (*it)->GetTargetType();
// Modules compile definitions.
string sCompileDefinition = (*it)->GetCompileDefinitions();
// Check is it supported.
if ( !IsTargetTypeSupported( sTargetType) )
{
(*it)->SetCompileInfoText( AT_UNSUPPORTED_TARGET_TYPE );
// Not supported add to not supported vector.
m_vUnsupportedModules.push_back( *it );
// Erase cell.
it = m_vModules.erase( it );
}
// Check if its static library
else if ( _stricmp( sTargetType.c_str(), "lib" ) == 0 )
{
// Static librarie move to their vector.
m_vStaticLibraries.push_back( *it );
// Erase cell.
it = m_vModules.erase( it );
}
else if ( sCompileDefinition.find( KERNEL_MODE_COMPILE_DEFINITION ) != string::npos )
{
(*it)->SetCompileInfoText( AT_UNSUPPORTED_COMPILE_DEFINITION );
// Not supported add to not supported vector.
m_vUnsupportedModules.push_back( *it );
// Erase cell.
it = m_vModules.erase( it );
}
else
it++;
}
return true;
}
bool CATProject::ModifyModules()
{
LOG_FUNC_ENTRY("CATProject::ModifyModules");
bool bRet = true;
for( size_t i = 0; i < m_vModules.size(); i++ )
{
if (! m_vModules.at(i)->ModifyMmp() )
bRet = false;
}
for( size_t i = 0; i < m_vStaticLibraries.size(); i++ )
{
if (! m_vStaticLibraries.at(i)->ModifyMmp() )
bRet = false;
}
return bRet;
}
bool CATProject::RestoreModules()
{
LOG_FUNC_ENTRY("CATProject::RestoreModules");
bool bRet = true;
for( size_t i = 0; i < m_vModules.size(); i++ )
{
if (! m_vModules.at(i)->RestoreMmp() )
bRet = false;
}
for( size_t i = 0; i < m_vStaticLibraries.size(); i++ )
{
if (! m_vStaticLibraries.at(i)->RestoreMmp() )
bRet = false;
}
return bRet;
}
bool CATProject::VerifyAndRecoverModules()
{
LOG_FUNC_ENTRY("CATProject::VerifyAndRecoverModules");
bool bRet = true;
for( size_t i = 0; i < m_vModules.size(); i++ )
{
if (! m_vModules.at(i)->VerifyAndRecoverMmp() )
bRet = false;
}
for( size_t i = 0; i < m_vStaticLibraries.size(); i++ )
{
if (! m_vStaticLibraries.at(i)->VerifyAndRecoverMmp() )
bRet = false;
}
return bRet;
}
bool CATProject::Compile()
{
switch ( m_eBuildSystem )
{
case SBS_V1:
// Run Reallyclean.
if( ! RunReallyCleanSbs1() )
return false;
return CompileSbs1();
case SBS_V2:
return CompileSbs2();
default:
return false;
}
}
bool CATProject::CompileSbs1()
{
LOG_FUNC_ENTRY("CATProject::CompileSbs1");
string sCommand("");
if ( m_sBuildCommand.empty() )
{
sCommand = "abld build";
// -debug if urel
if ( m_eBuildType == UREL )
sCommand.append( " -debug" );
// No variant
if ( m_sVariant.empty() )
{
sCommand.append( " " );
sCommand.append( m_sPlatform );
}
else
{
// Add variant
sCommand.append( " " );
sCommand.append( m_sPlatform );
sCommand.append( "." );
sCommand.append( m_sVariant );
}
// urel vs udeb
sCommand.append( " " );
sCommand.append( GetBuildTypeString() );
// Possible target module
AddTargetModuleIfDefined( sCommand );
}
// Check that build command contains -debug switch if sbs v.1 used
else if ( ! m_sBuildCommand.empty()
&& m_eBuildType == UREL
&& m_eBuildSystem == SBS_V1
&& m_sBuildCommand.find( "-debug" ) == string::npos )
{
// Find correct index to insert -debug switch
size_t iPos = m_sBuildCommand.find( "build" );
if ( iPos != string::npos )
{
sCommand = m_sBuildCommand;
sCommand.insert( iPos+5, " -debug" );
}
else
{
LOG_STRING("Overwriting given build command to add -debug switch. Original command is: " << m_sBuildCommand );
if ( m_bAbldTest )
sCommand = "abld test build -debug ";
else
sCommand = "abld build -debug ";
// No variant
if ( m_sVariant.empty() )
{
sCommand.append( m_sPlatform );
}
else
{
// Add variant
sCommand.append( m_sPlatform );
sCommand.append( "." );
sCommand.append( m_sVariant );
}
// urel vs udeb
sCommand.append( " " );
sCommand.append( GetBuildTypeString() );
// Possible target module
AddTargetModuleIfDefined( sCommand );
}
}
else
sCommand = m_sBuildCommand;
// Run command
cout << AT_MSG_SYSTEM_CALL << sCommand << endl;
(void)system( sCommand.c_str() );
return true;
}
bool CATProject::CompileSbs2()
{
LOG_FUNC_ENTRY("CATProject::CompileSbs2");
// Create command to compile with raptor
string sCmd( m_sBuildCommand );
sCmd.append( RAPTOR_BUILD_LOG );
cout << AT_MSG_SYSTEM_CALL << sCmd << endl;
int iRet = (int)system( sCmd.c_str() );
if ( iRet == 0 )
return true;
return false;
}
bool CATProject::CreateListings()
{
// Create listings if no addr2line defined
#ifndef ADDR2LINE
if ( _stricmp( m_sPlatform.c_str(), "armv5" ) == 0 )
{
switch ( m_eBuildSystem )
{
case SBS_V1:
return CreateListingsSbs1();
case SBS_V2:
return CreateListingsSbs2();
default:
return false;
}
}
#endif
return true;
}
bool CATProject::CreateListingsSbs1()
{
LOG_FUNC_ENTRY("CATProject::CreateListingsSbs1");
string sCommand;
if ( m_bAbldTest )
sCommand = "abld test listing ";
else
sCommand = "abld listing ";
// Listing
if ( m_sVariant.empty() )
{
// No variant
sCommand.append( m_sPlatform );
}
else
{
// Use specified variant
sCommand.append( m_sPlatform );
sCommand.append( "." );
sCommand.append( m_sVariant );
}
// udeb vs urel
sCommand.append( " " );
sCommand.append( GetBuildTypeString() );
if ( m_vTargetModules.size() > 1 )
{
RunAbldCommandToAllTargets( sCommand );
}
else
{
AddTargetModuleIfDefined( sCommand );
cout << AT_MSG_SYSTEM_CALL << sCommand << endl;
(void)system( sCommand.c_str() );
}
return true;
}
bool CATProject::CreateListingsSbs2()
{
LOG_FUNC_ENTRY("CATProject::CreateListingsSbs2");
string sCmd( m_sBuildCommand );
sCmd.append( RAPTOR_LISTING_LOG );
sCmd.append( " LISTING");
cout << AT_MSG_SYSTEM_CALL << sCmd << endl;
int iRet = (int)system( sCmd.c_str() );
if ( iRet == 0 )
return true;
return false;
}
bool CATProject::CopyReleasables()
{
bool bRet = true;
LOG_FUNC_ENTRY("CATProject::CopyReleasables");
// Only copy releasables on armv5 platform and no addr2line defined.
#ifndef ADDR2LINE
if ( _stricmp( m_sPlatform.c_str(), "armv5" ) == 0 )
{
for( size_t i = 0; i < m_vModules.size(); i++ )
{
if ( ! m_vModules.at(i)->CopyReleasables() )
bRet = false;
}
// Static libraries lst files.
// First create directory for them (delete old one if exists).
if ( ! DirectoryExists( AT_TEMP_LST_DIR ) )
{
DirCreate( AT_TEMP_LST_DIR, true );
}
else
{
DirDelete( AT_TEMP_LST_DIR, true );
DirCreate( AT_TEMP_LST_DIR, true );
}
for ( size_t i = 0 ; i < m_vStaticLibraries.size(); i ++ )
{
if( ! m_vStaticLibraries.at(i)->CopyLstFilesToDir( AT_TEMP_LST_DIR ) )
bRet = false;
}
// Delete lst files from all type of modules in project.
// Ignoring errors because different modules might use same source/lst files.
for( size_t i = 0; i < m_vModules.size(); i++ )
m_vModules.at(i)->DeleteLstFilesFromSrc();
for ( size_t i = 0 ; i < m_vUnsupportedModules.size(); i ++ )
m_vUnsupportedModules.at(i)->DeleteLstFilesFromSrc();
for ( size_t i = 0 ; i < m_vStaticLibraries.size(); i ++ )
m_vStaticLibraries.at(i)->DeleteLstFilesFromSrc();
return bRet;
}
#endif
// When addr2line defined and used we use symbol and map file(s).
#ifdef ADDR2LINE
if ( _stricmp( m_sPlatform.c_str(), "armv5" ) == 0 )
{
// Verify that module(s) symbol file(s) exist
for( size_t i = 0; i < m_vModules.size(); i++ )
{
// Check symbol file.
if ( ! m_vModules.at(i)->SymbolFileExist() )
bRet = false;
// Check map file.
if ( ! m_vModules.at(i)->MapFileExist() )
bRet = false;
}
}
#endif
// Platform winscw.
else if ( _stricmp( m_sPlatform.c_str(), "winscw" ) == 0 )
{
// Verify that module(s) binaries exist
for( size_t i = 0; i < m_vModules.size(); i++ )
{
if ( ! m_vModules.at(i)->BinaryFileExist() )
bRet = false;
}
// For static libraries binary/target is same as their library.
for ( size_t i = 0 ; i < m_vStaticLibraries.size(); i ++ )
if ( ! m_vStaticLibraries.at(i)->BinaryFileExist() )
bRet = false;
}
// Platform gcce.
else if ( _stricmp( m_sPlatform.c_str(), "gcce" ) == 0 )
{
// Verify that module(s) symbol file(s) exist
for( size_t i = 0; i < m_vModules.size(); i++ )
{
// Check symbol file.
if ( ! m_vModules.at(i)->SymbolFileExist() )
bRet = false;
}
}
return bRet;
}
// ----------------------------------------------------------------------------
// Write project's (user) attributes to a file under temp folder
// ----------------------------------------------------------------------------
bool CATProject::WriteAttributes() const
{
LOG_FUNC_ENTRY("CATProject::WriteAttributes");
// File to write to
string sOutFile( AT_TEMP_DIR );
sOutFile.append( "\\" );
sOutFile.append( AT_PROJECT_ATTRIBUTES_FILE_NAME );
// Open file truncate if exists
ofstream out( sOutFile.c_str(), ios_base::trunc );
// Check file opened successfully
if ( ! out.good() )
return false;
// Write attributes line by line
out << m_bUninstrumented << endl; // Is project instrumented
// Sbs version
if ( m_eBuildSystem == CATProject::SBS_V2 )
out << "SBS_2" << endl;
else
out << "SBS_1" << endl;
out << endl; // Reserved for possible binary data
out << m_sPlatform << endl;
out << m_sVariant << endl;
out << m_eLoggingMode << endl;
out << m_eBuildType << endl;
out << m_sS60FileName << endl;
out << m_iAllocCallStackSize << endl;
out << m_iFreeCallStackSize << endl;
for ( size_t i = 0 ; i < m_vTargetModules.size() ; i++ )
out << m_vTargetModules.at(i) << AT_PROJECT_ATTRIBUTES_SEPARATOR;
out << endl;
out << m_sBuildCommand << endl;
out << m_sS60FilePath << endl;
out.close();
return true;
}
// ----------------------------------------------------------------------------
// Reads project's (user) attributes to a file under temp folder
// ----------------------------------------------------------------------------
bool CATProject::ReadAttributes()
{
LOG_FUNC_ENTRY("CATProject::ReadAttributes");
// File to read on
string sInFile( AT_TEMP_DIR );
sInFile.append( "\\" );
sInFile.append( AT_PROJECT_ATTRIBUTES_FILE_NAME );
// Open file
ifstream in( sInFile.c_str() );
// Check file opened successfully
if ( ! in.good() )
return false;
// Read attributes
char cLine[ MAX_LINE_LENGTH ];
string sLine;
in.getline( cLine, MAX_LINE_LENGTH );
int iValue = atoi( cLine );
if ( iValue == 1 )
m_bUninstrumented = true;
else
m_bUninstrumented = false;
// Sbs version
in.getline( cLine, MAX_LINE_LENGTH ); string sBuildSystem = string( cLine );
if ( sBuildSystem.compare( "SBS_1" ) == 0 )
m_eBuildSystem = CATProject::SBS_V1;
else if ( sBuildSystem.compare( "SBS_2" ) == 0 )
m_eBuildSystem = CATProject::SBS_V2;
else {
LOG_STRING("Error invalid build system defined in project.cfg");
m_eBuildSystem = CATProject::SBS_V1;
}
in.getline( cLine, MAX_LINE_LENGTH ); // reserverd for possible binary timestamp or similar
in.getline( cLine, MAX_LINE_LENGTH ); m_sPlatform = string( cLine );
in.getline( cLine, MAX_LINE_LENGTH ); m_sVariant = string( cLine );
in.getline( cLine, MAX_LINE_LENGTH ); m_eLoggingMode = atoi( cLine );
in.getline( cLine, MAX_LINE_LENGTH ); m_eBuildType = atoi( cLine );
in.getline( cLine, MAX_LINE_LENGTH ); m_sS60FileName = string( cLine );
in.getline( cLine, MAX_LINE_LENGTH ); m_iAllocCallStackSize = atoi( cLine );
in.getline( cLine, MAX_LINE_LENGTH ); m_iFreeCallStackSize = atoi( cLine );
in.getline( cLine, MAX_LINE_LENGTH ); sLine = cLine;
size_t iSpot = sLine.find( AT_PROJECT_ATTRIBUTES_SEPARATOR );
while ( iSpot != string::npos )
{
string sTarget = sLine.substr(0, iSpot );
m_vTargetModules.push_back( sTarget );
sLine.erase(0, iSpot + AT_PROJECT_ATTRIBUTES_SEPARATOR.size() );
iSpot = sLine.find( AT_PROJECT_ATTRIBUTES_SEPARATOR );
}
in.getline( cLine, MAX_LINE_LENGTH ); m_sBuildCommand = cLine;
in.getline( cLine, MAX_LINE_LENGTH ); m_sS60FilePath = string( cLine );
in.close();
return true;
}
// ----------------------------------------------------------------------------
// Creates atool_temp directory to current folder if does not exist
// ----------------------------------------------------------------------------
bool CATProject::MakeTempDirIfNotExist()
{
LOG_FUNC_ENTRY("CATProject::MakeTempDirIfNotExist");
if ( ! DirectoryExists( AT_TEMP_DIR ) )
{
if( !CreateDirectory( AT_TEMP_DIR , NULL ) )
{
return false;
}
}
return true;
}
// ----------------------------------------------------------------------------
// Utilities
// ----------------------------------------------------------------------------
bool CATProject::RunAbldCommandToAllTargets( const string& sCommand )
{
LOG_FUNC_ENTRY("CATProject::RunAbldCommandToAllTargets");
// Check for space at the commands end.
string sSystemCall( sCommand );
if ( *(sSystemCall.rbegin()) != ' ' )
sSystemCall.append( " " );
// Loop calls.
bool bRet = true;
for ( vector<string>::iterator it = m_vTargetModules.begin(); it < m_vTargetModules.end(); it++ )
{
string sCall( sSystemCall );
sCall.append( RemovePathAndExt( *it, true ) );
cout << AT_MSG_SYSTEM_CALL << sCall << endl;
if ( (int) system( sCall.c_str() ) != 0 )
bRet = false;
}
return bRet;
}
void CATProject::AddTargetModuleIfDefined( string& sCmd )
{
LOG_FUNC_ENTRY("CATProject::AddTargetModuleIfDefined");
// Do we have target modules defined
if ( m_vTargetModules.size() > 0 )
{
switch( m_eBuildSystem )
{
case SBS_V1:
// Add first target modules name without extension to build cmd.
sCmd.append( " " );
sCmd.append( RemovePathAndExt( m_vTargetModules.at( 0 ), true ) );
break;
case SBS_V2:
// Add all target modules to build command using raptor switch '-p'.
for( size_t i = 0 ; i < m_vTargetModules.size() ; i++ )
{
LOG_STRING("Adding :" << m_vTargetModules.at( i ) );
sCmd.append( " -p " );
sCmd.append( m_vTargetModules.at( i ) );
}
break;
}
}
}
bool CATProject::IsTargetModuleInProject() const
{
LOG_FUNC_ENTRY("CATProject::IsTargetModuleInProject");
vector<CATModule2*>::const_iterator modules;
vector<CATModule2*>::const_iterator staticModules;
vector<string>::const_iterator targets;
bool bRet = true;
// Do we have target modules defined
if ( m_vTargetModules.size() > 0 )
{
// Sbs version 1 support only single target module.
if ( m_eBuildSystem == SBS_V1 )
{
// Try to find module from project.
bRet = false;
string sTarget = m_vTargetModules.at(0);
for( modules = m_vModules.begin() ; modules != m_vModules.end() ; modules++ )
{
if( (*modules)->GetMmpFile().find( sTarget ) != string::npos )
{
// Found it return true.
bRet = true;
break;
}
}
for( staticModules = m_vStaticLibraries.begin(); staticModules != m_vStaticLibraries.end(); staticModules++ )
{
if( (*staticModules)->GetMmpFile().find( sTarget ) != string::npos )
{
bRet = true;
break;
}
}
if ( ! bRet )
{
// Not found display error message.
cout << AT_MSG << "Error, " << sTarget << " not defined in project." << endl;
}
}
// Sbs version 2 supports multiple target modules.
else if ( m_eBuildSystem == SBS_V2 )
{
// Check that all targets are defined in project.
for( targets = m_vTargetModules.begin(); targets != m_vTargetModules.end() ; targets++ )
{
// Found iterated target?
bool bFound = false;
for ( modules = m_vModules.begin() ; modules != m_vModules.end() ; modules++ )
{
if( (*modules)->GetMmpFile().find( *targets ) != string::npos )
{
// yes.
bFound = true;
break;
}
}
for( staticModules = m_vStaticLibraries.begin(); staticModules != m_vStaticLibraries.end(); staticModules++ )
{
if( (*staticModules)->GetMmpFile().find( *targets ) != string::npos )
{
bFound = true;
break;
}
}
if ( ! bFound )
{
// Display error when not found and set return value false.
bRet = false;
cout << AT_MSG << "Error, " << targets->c_str() << " not defined in project." << endl;
}
}
}
}
return bRet;
}
string CATProject::GetBuildTypeString()
{
LOG_LOW_FUNC_ENTRY("CATProject::GetBuildTypeString");
// Return build type as lowercase string
switch( m_eBuildType )
{
case UDEB:
return string("udeb");
case UREL:
return string("urel");
default:
return "";
}
}
string CATProject::GetBuildTypeString( int eType )
{
LOG_LOW_FUNC_ENTRY("CATProject::GetBuildTypeString( int eType )");
// Return build type as lowercase string
switch( eType )
{
case UDEB:
return string("udeb");
case UREL:
return string("urel");
default:
return string("unknown");
}
}
bool CATProject::CleanTemporaryDirs()
{
LOG_FUNC_ENTRY("CATProject::CleanTemporaryDirs");
bool bRet = true;
// Modules
for( size_t i = 0; i < m_vModules.size(); i++ )
{
if ( ! m_vModules.at(i)->CleanTemporaryDir() )
bRet = false;
}
for( size_t i = 0; i < m_vStaticLibraries.size(); i++ )
{
if ( ! m_vStaticLibraries.at(i)->CleanTemporaryDir() )
bRet = false;
}
// Projects
vector<string> vFileList = DirList( AT_TEMP_DIR, false , true );
vector<string>::iterator it2 = vFileList.begin();
// Size of constant table
int iCount = sizeof( TEMP_EXTENSION_NO_DELETE ) / sizeof( string );
while ( it2 != vFileList.end() )
{
// Get extension and compare it to list
bool bDelete = true;
string sExtension = GetExtension( *it2 );
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( *it2, true ) )
bRet = false;
}
// Increment
it2++;
}
return bRet;
}
bool CATProject::DeleteTemporaryDirs()
{
LOG_FUNC_ENTRY("CATProject::DeleteTemporaryDirs");
bool bRet = true;
// Modules
for( size_t i = 0; i < m_vModules.size(); i++ )
{
if (! m_vModules.at(i)->DeleteTemporaryDir() )
bRet = false;
}
for( size_t i = 0; i < m_vStaticLibraries.size(); i++ )
{
if (! m_vStaticLibraries.at(i)->DeleteTemporaryDir() )
bRet = false;
}
return bRet;
}
bool CATProject::InitSbs1MakeFileWithPathToTemp()
{
LOG_FUNC_ENTRY("CATProject::InitSbs1MakeFileWithPathToTemp");
// Use temporary folder
m_sMakeFile.clear();
m_sMakeFile.append( AT_TEMP_DIR );
m_sMakeFile.append( "\\" );
m_sMakeFile.append( AT_LEVEL_1_MAKEFILE_NAME );
// At end check does it exist, return the result.
return FileExists( m_sMakeFile.c_str() );
}
bool CATProject::InitSbs1MakeFileWithPath()
{
LOG_FUNC_ENTRY("CATProject::InitMakeFileWithPath");
if ( m_sEpocRoot.empty() )
{
LOG_STRING("Error, epocroot is not set.");
return false;
}
m_sMakeFile.clear();
m_sMakeFile.append( m_sEpocRoot );
if( *m_sMakeFile.rbegin() != '\\' )
m_sMakeFile.append( "\\" );
m_sMakeFile.append( "epoc32\\build\\" );
// Add current directory to path (first remove driveletter).
string sCurrentDir( m_cCurrentDir );
if ( sCurrentDir.length() < 3 )
{
LOG_STRING("Error, current dir invalid.");
return false;
}
sCurrentDir.erase(0,3);
m_sMakeFile.append( sCurrentDir );
m_sMakeFile.append( "\\" );
// Platform
string sPlatInUpper( m_sPlatform);
ChangeToUpper( sPlatInUpper );
m_sMakeFile.append( sPlatInUpper );
// Possible variant
if ( m_sVariant.empty() )
{
// Test modules only?
if ( m_bAbldTest )
m_sMakeFile.append( "TEST" );
m_sMakeFile.append( "." );
m_sMakeFile.append( "MAKE" );
}
else
{
m_sMakeFile.append( "." );
m_sMakeFile.append( m_sVariant );
// Test modules only?
if ( m_bAbldTest )
m_sMakeFile.append( "TEST" );
m_sMakeFile.append( ".MAKE" );
}
// At end check does it exist, return the result.
return FileExists( m_sMakeFile.c_str() );
}
// ----------------------------------------------------------------------------
// Get & Sets
// ----------------------------------------------------------------------------
void CATProject::SetBuildSystem( BUILD_SYSTEM eSystem )
{
LOG_FUNC_ENTRY("CATProject::SetBuildSystem");
m_eBuildSystem = eSystem;
}
void CATProject::SetMode( PROJECT_MODE eMode )
{
LOG_FUNC_ENTRY("CATProject::SetMode");
m_eMode = eMode;
}
int CATProject::GetMode() const
{
LOG_LOW_FUNC_ENTRY("CATProject::GetMode");
return m_eMode;
}
void CATProject::SetEpocRoot( const string& sEpocRoot )
{
LOG_FUNC_ENTRY("CATProject::SetEpocRoot");
m_sEpocRoot = sEpocRoot;
}
void CATProject::SetPlatform( const string& sPlatform )
{
LOG_FUNC_ENTRY("CATProject::SetPlatform");
m_sPlatform = sPlatform;
}
void CATProject::SetVariant( const string& sVariant )
{
LOG_FUNC_ENTRY("CATProject::SetVariant");
m_sVariant = sVariant;
}
void CATProject::SetLoggingMode( LOGGING_MODE eLoggingMode)
{
LOG_FUNC_ENTRY("CATProject::SetLoggingMode");
m_eLoggingMode = eLoggingMode;
}
void CATProject::SetAllocCallStackSize( int iAllocCallStackSize )
{
m_iAllocCallStackSize = iAllocCallStackSize;
}
void CATProject::SetFreeCallStackSize( int iFreeCallStackSize )
{
m_iFreeCallStackSize = iFreeCallStackSize;
}
void CATProject::SetBuildType( BUILD_TYPE eType )
{
LOG_FUNC_ENTRY("CATProject::SetBuildType");
m_eBuildType = eType;
}
void CATProject::SetS60FileName( const string& sFileName)
{
LOG_FUNC_ENTRY("CATProject::SetS60FileName");
m_sS60FileName = sFileName;
}
void CATProject::SetS60FilePath( const string& sFilePath)
{
LOG_FUNC_ENTRY("CATProject::SetS60FilePath");
m_sS60FilePath = sFilePath;
}
void CATProject::SetRomSymbolFiles(const vector<string>& vRomSymbolFiles)
{
LOG_FUNC_ENTRY("CATProject::SetRomSymbolFiles");
m_vRomSymbolFiles = vRomSymbolFiles;
}
void CATProject::SetTargetModule(const string& sTargetModule)
{
LOG_FUNC_ENTRY("CATProject::SetTargetModule");
m_sTargetModule = sTargetModule;
ChangeToLower( m_sTargetModule);
}
void CATProject::SetBinaryTarget(const string& sBinaryTarget)
{
LOG_FUNC_ENTRY("CATProject::SetBinaryTarget");
m_sBinaryTarget = sBinaryTarget;
ChangeToLower( m_sBinaryTarget );
}
void CATProject::SetDataFile( const string& sDataFile )
{
LOG_FUNC_ENTRY("CATProject::SetDataFile");
m_sDataFile = sDataFile;
}
void CATProject::SetLogLevel( int iLogLevel )
{
LOG_FUNC_ENTRY("CATProject::SetLogLevel");
m_iLoggingLevel = iLogLevel;
}
void CATProject::SetDataFileOutput( const string& sDataFileOutput )
{
LOG_FUNC_ENTRY("CATProject::SetDataFileOutput");
m_sDataFileOutput = sDataFileOutput;
}
void CATProject::SetTargetModules( const vector<string>& vTargetModules )
{
LOG_FUNC_ENTRY("CATProject::SetTargetModules");
m_vTargetModules = vTargetModules;
}
void CATProject::SetBuildCommand( const string& sBuildCommand )
{
LOG_FUNC_ENTRY("CATProject::SetBuildCommand");
m_sBuildCommand = sBuildCommand;
}
// End of file