LameXP/src/Thread_Initialization.cpp

///////////////////////////////////////////////////////////////////////////////
// LameXP - Audio Encoder Front-End
// Copyright (C) 2004-2014 LoRd_MuldeR <MuldeR2@GMX.de>
//
// This program is free software; you can redistribute it and/or modify
// it under the terms of the GNU General Public License as published by
// the Free Software Foundation; either version 2 of the License, or
// (at your option) any later version, but always including the *additional*
// restrictions defined in the "License.txt" file.
//
// This program is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
// GNU General Public License for more details.
//
// You should have received a copy of the GNU General Public License along
// with this program; if not, write to the Free Software Foundation, Inc.,
// 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
//
// http://www.gnu.org/licenses/gpl-2.0.txt
///////////////////////////////////////////////////////////////////////////////

#include "Thread_Initialization.h"

#include "LockedFile.h"
#include "Tools.h"
#include "Tool_Abstract.h"

#include <QFileInfo>
#include <QCoreApplication>
#include <QProcess>
#include <QMap>
#include <QDir>
#include <QLibrary>
#include <QResource>
#include <QTextStream>
#include <QRunnable>
#include <QThreadPool>
#include <QMutex>
#include <QQueue>

/* helper macros */
#define PRINT_CPU_TYPE(X) case X: qDebug("Selected CPU is: " #X)

/* constants */
static const double g_allowedExtractDelay = 12.0;
static const size_t BUFF_SIZE = 512;
static const size_t EXPECTED_TOOL_COUNT = 28;

/* benchmark */
#undef ENABLE_BENCHMARK

/* number of CPU cores -> number of threads */
static unsigned int cores2threads(const unsigned int cores)
{
	static const size_t LUT_LEN = 4;
	
	static const struct
	{
		const unsigned int upperBound;
		const double coeffs[4];
	}
	LUT[LUT_LEN] =
	{
		{  4, { -0.052695810565,  0.158087431694, 4.982841530055, -1.088233151184 } },
		{  8, {  0.042431693989, -0.983442622951, 9.548961748634, -7.176393442623 } },
		{ 12, { -0.006277322404,  0.185573770492, 0.196830601093, 17.762622950820 } },
		{ 32, {  0.000673497268, -0.064655737705, 3.199584699454,  5.751606557377 } }
	};

	size_t index = 0;
	while((cores > LUT[index].upperBound) && (index < (LUT_LEN-1))) index++;

	const double x = qBound(1.0, double(cores), double(LUT[LUT_LEN-1].upperBound));
	const double y = (LUT[index].coeffs[0] * pow(x, 3.0)) + (LUT[index].coeffs[1] * pow(x, 2.0)) + (LUT[index].coeffs[2] * x) + LUT[index].coeffs[3];

	return qRound(abs(y));
}

////////////////////////////////////////////////////////////
// ExtractorTask class
////////////////////////////////////////////////////////////

class ExtractorTask : public QRunnable
{
public:
	ExtractorTask(QResource *const toolResource, const QDir &appDir, const QString &toolName, const QByteArray &toolHash, const unsigned int toolVersion, const QString &toolTag)
	:
		m_appDir(appDir),
		m_toolName(toolName),
		m_toolHash(toolHash),
		m_toolVersion(toolVersion),
		m_toolTag(toolTag),
		m_toolResource(toolResource)
	{
		/* Nothing to do */
	}

	~ExtractorTask(void)
	{
		delete m_toolResource;
	}

	static void clearFlags(void)
	{
		QMutexLocker lock(&s_mutex);
		s_bExcept = false;
		s_bCustom = false;
		s_errMsg[0] = char(0);
	}

	static bool getExcept(void) { bool ret; QMutexLocker lock(&s_mutex); ret = s_bExcept; return ret; }
	static bool getCustom(void) { bool ret; QMutexLocker lock(&s_mutex); ret = s_bCustom; return ret; }

	static bool getErrMsg(char *buffer, const size_t buffSize)
	{
		QMutexLocker lock(&s_mutex);
		if(s_errMsg[0])
		{
			strncpy_s(buffer, BUFF_SIZE, s_errMsg, _TRUNCATE);
			return true;
		}
		return false;
	}

protected:
	void run(void)
	{
		try
		{
			if(!getExcept()) doExtract();
		}
		catch(const std::exception &e)
		{
			QMutexLocker lock(&s_mutex);
			if(!s_bExcept)
			{
				s_bExcept = true;
				strncpy_s(s_errMsg, BUFF_SIZE, e.what(), _TRUNCATE);
			}
			lock.unlock();
			qWarning("ExtractorTask exception error:\n%s\n\n", e.what());
		}
		catch(...)
		{
			QMutexLocker lock(&s_mutex);
			if(!s_bExcept)
			{
				s_bExcept = true;
				strncpy_s(s_errMsg, BUFF_SIZE, "Unknown exception error!", _TRUNCATE);
			}
			lock.unlock();
			qWarning("ExtractorTask encountered an unknown exception!");
		}
	}

	void doExtract(void)
	{
		LockedFile *lockedFile = NULL;
		unsigned int version = m_toolVersion;

		QFileInfo toolFileInfo(m_toolName);
		const QString toolShortName = QString("%1.%2").arg(toolFileInfo.baseName().toLower(), toolFileInfo.suffix().toLower());

		QFileInfo customTool(QString("%1/tools/%2/%3").arg(m_appDir.canonicalPath(), QString::number(lamexp_version_build()), toolShortName));
		if(customTool.exists() && customTool.isFile())
		{
			qDebug("Setting up file: %s <- %s", toolShortName.toLatin1().constData(), m_appDir.relativeFilePath(customTool.canonicalFilePath()).toLatin1().constData());
			lockedFile = new LockedFile(customTool.canonicalFilePath()); version = UINT_MAX; s_bCustom = true;
		}
		else
		{
			qDebug("Extracting file: %s -> %s", m_toolName.toLatin1().constData(), toolShortName.toLatin1().constData());
			lockedFile = new LockedFile(m_toolResource, QString("%1/lxp_%2").arg(lamexp_temp_folder2(), toolShortName), m_toolHash);
		}

		if(lockedFile)
		{
			lamexp_register_tool(toolShortName, lockedFile, version, &m_toolTag);
		}
	}

private:
	QResource *const m_toolResource;
	const QDir m_appDir;
	const QString m_toolName;
	const QByteArray m_toolHash;
	const unsigned int m_toolVersion;
	const QString m_toolTag;

	static volatile bool s_bExcept;
	static volatile bool s_bCustom;
	static QMutex s_mutex;
	static char s_errMsg[BUFF_SIZE];
};

QMutex ExtractorTask::s_mutex;
char ExtractorTask::s_errMsg[BUFF_SIZE] = {'\0'};
volatile bool ExtractorTask::s_bExcept = false;
volatile bool ExtractorTask::s_bCustom = false;

////////////////////////////////////////////////////////////
// Constructor
////////////////////////////////////////////////////////////

InitializationThread::InitializationThread(const lamexp_cpu_t *cpuFeatures)
{
	m_bSuccess = false;
	memset(&m_cpuFeatures, 0, sizeof(lamexp_cpu_t));
	m_slowIndicator = false;
	
	if(cpuFeatures)
	{
		memcpy(&m_cpuFeatures, cpuFeatures, sizeof(lamexp_cpu_t));
	}
}

////////////////////////////////////////////////////////////
// Thread Main
////////////////////////////////////////////////////////////

#ifdef ENABLE_BENCHMARK
#define DO_INIT_FUNCT runBenchmark
#else //ENABLE_BENCHMARK
#define DO_INIT_FUNCT doInit
#endif //ENABLE_BENCHMARK

void InitializationThread::run(void)
{
	try
	{
		DO_INIT_FUNCT();
	}
	catch(const std::exception &error)
	{
		fflush(stdout); fflush(stderr);
		fprintf(stderr, "\nGURU MEDITATION !!!\n\nException error:\n%s\n", error.what());
		lamexp_fatal_exit(L"Unhandeled C++ exception error, application will exit!");
	}
	catch(...)
	{
		fflush(stdout); fflush(stderr);
		fprintf(stderr, "\nGURU MEDITATION !!!\n\nUnknown exception error!\n");
		lamexp_fatal_exit(L"Unhandeled C++ exception error, application will exit!");
	}
}

double InitializationThread::doInit(const size_t threadCount)
{
	m_bSuccess = false;
	delay();

	//CPU type selection
	unsigned int cpuSupport = 0;
	if(m_cpuFeatures.sse && m_cpuFeatures.sse2 && m_cpuFeatures.intel)
	{
		cpuSupport = m_cpuFeatures.x64 ? CPU_TYPE_X64_SSE : CPU_TYPE_X86_SSE;
	}
	else
	{
		cpuSupport = m_cpuFeatures.x64 ? CPU_TYPE_X64_GEN : CPU_TYPE_X86_GEN;
	}

	//Hack to disable x64 on Wine, as x64 binaries won't run under Wine (tested with Wine 1.4 under Ubuntu 12.04 x64)
	if(cpuSupport & CPU_TYPE_X64_ALL)
	{
		if(lamexp_detect_wine())
		{
			qWarning("Running under Wine on a 64-Bit system. Going to disable all x64 support!\n");
			cpuSupport = (cpuSupport == CPU_TYPE_X64_SSE) ? CPU_TYPE_X86_SSE : CPU_TYPE_X86_GEN;
		}
	}

	//Print selected CPU type
	switch(cpuSupport)
	{
		PRINT_CPU_TYPE(CPU_TYPE_X86_GEN); break;
		PRINT_CPU_TYPE(CPU_TYPE_X86_SSE); break;
		PRINT_CPU_TYPE(CPU_TYPE_X64_GEN); break;
		PRINT_CPU_TYPE(CPU_TYPE_X64_SSE); break;
		default: THROW("CPU support undefined!");
	}

	//Allocate queues
	QQueue<QString> queueToolName;
	QQueue<QString> queueChecksum;
	QQueue<QString> queueVersInfo;
	QQueue<unsigned int> queueVersions;
	QQueue<unsigned int> queueCpuTypes;

	//Init properties
	for(int i = 0; true; i++)
	{
		if(!(g_lamexp_tools[i].pcName || g_lamexp_tools[i].pcHash  || g_lamexp_tools[i].uiVersion))
		{
			break;
		}
		else if(g_lamexp_tools[i].pcName && g_lamexp_tools[i].pcHash && g_lamexp_tools[i].uiVersion)
		{
			queueToolName.enqueue(QString::fromLatin1(g_lamexp_tools[i].pcName));
			queueChecksum.enqueue(QString::fromLatin1(g_lamexp_tools[i].pcHash));
			queueVersInfo.enqueue(QString::fromLatin1(g_lamexp_tools[i].pcVersTag));
			queueCpuTypes.enqueue(g_lamexp_tools[i].uiCpuType);
			queueVersions.enqueue(g_lamexp_tools[i].uiVersion);
		}
		else
		{
			qFatal("Inconsistent checksum data detected. Take care!");
		}
	}

	QDir appDir = QDir(QCoreApplication::applicationDirPath()).canonicalPath();

	QThreadPool *pool = new QThreadPool();
	pool->setMaxThreadCount((threadCount > 0) ? threadCount : qBound(2U, cores2threads(m_cpuFeatures.count), EXPECTED_TOOL_COUNT));
	/* qWarning("Using %u threads for extraction.", pool->maxThreadCount()); */

	LockedFile::selfTest();
	ExtractorTask::clearFlags();

	const long long timeExtractStart = lamexp_perfcounter_value();
	
	//Extract all files
	while(!(queueToolName.isEmpty() || queueChecksum.isEmpty() || queueVersInfo.isEmpty() || queueCpuTypes.isEmpty() || queueVersions.isEmpty()))
	{
		const QString toolName = queueToolName.dequeue();
		const QString checksum = queueChecksum.dequeue();
		const QString versInfo = queueVersInfo.dequeue();
		const unsigned int cpuType = queueCpuTypes.dequeue();
		const unsigned int version = queueVersions.dequeue();
			
		const QByteArray toolHash(checksum.toLatin1());
		if(toolHash.size() != 96)
		{
			qFatal("The checksum for \"%s\" has an invalid size!", QUTF8(toolName));
			return -1.0;
		}
			
		QResource *resource = new QResource(QString(":/tools/%1").arg(toolName));
		if(!(resource->isValid() && resource->data()))
		{
			LAMEXP_DELETE(resource);
			qFatal("The resource for \"%s\" could not be found!", QUTF8(toolName));
			return -1.0;
		}
			
		if(cpuType & cpuSupport)
		{
			pool->start(new ExtractorTask(resource, appDir, toolName, toolHash, version, versInfo));
			continue;
		}

		LAMEXP_DELETE(resource);
	}

	//Sanity Check
	if(!(queueToolName.isEmpty() && queueChecksum.isEmpty() && queueVersInfo.isEmpty() && queueCpuTypes.isEmpty() && queueVersions.isEmpty()))
	{
		qFatal("Checksum queues *not* empty fater verification completed. Take care!");
	}

	//Wait for extrator threads to finish
	pool->waitForDone();
	LAMEXP_DELETE(pool);

	const long long timeExtractEnd = lamexp_perfcounter_value();

	//Make sure all files were extracted correctly
	if(ExtractorTask::getExcept())
	{
		char errorMsg[BUFF_SIZE];
		if(ExtractorTask::getErrMsg(errorMsg, BUFF_SIZE))
		{
			qFatal("At least one of the required tools could not be initialized:\n%s", errorMsg);
			return -1.0;
		}
		qFatal("At least one of the required tools could not be initialized!");
		return -1.0;
	}

	qDebug("All extracted.\n");

	//Using any custom tools?
	if(ExtractorTask::getCustom())
	{
		qWarning("Warning: Using custom tools, you might encounter unexpected problems!\n");
	}

	//Check delay
	const double delayExtract = static_cast<double>(timeExtractEnd - timeExtractStart) / static_cast<double>(lamexp_perfcounter_frequ());
	if(delayExtract > g_allowedExtractDelay)
	{
		m_slowIndicator = true;
		qWarning("Extracting tools took %.3f seconds -> probably slow realtime virus scanner.", delayExtract);
		qWarning("Please report performance problems to your anti-virus developer !!!\n");
	}
	else
	{
		qDebug("Extracting the tools took %.5f seconds (OK).\n", delayExtract);
	}

	//Register all translations
	initTranslations();

	//Look for AAC encoders
	initNeroAac();
	initFhgAac();
	initQAac();

	m_bSuccess = true;
	delay();

	return delayExtract;
}

void InitializationThread::runBenchmark(void)
{
#ifdef ENABLE_BENCHMARK
	static const size_t nLoops = 5;
	const size_t maxThreads = (5 * m_cpuFeatures.count);
	QMap<size_t, double> results;

	for(size_t c = 1; c <= maxThreads; c++)
	{
		QList<double> delayLst;
		double delayAvg = 0.0;
		for(size_t i = 0; i < nLoops; i++)
		{
			delayLst << doInit(c);
			lamexp_clean_all_tools();
		}
		qSort(delayLst.begin(), delayLst.end());
		delayLst.takeLast();
		delayLst.takeFirst();
		for(QList<double>::ConstIterator iter = delayLst.constBegin(); iter != delayLst.constEnd(); iter++)
		{
			delayAvg += (*iter);
		}
		results.insert(c, (delayAvg / double(delayLst.count())));
	}

	qWarning("\n----------------------------------------------");
	qWarning("Benchmark Results:");
	qWarning("----------------------------------------------");

	double bestTime = DBL_MAX; size_t bestVal = 0;
	QList<size_t> keys = results.keys();
	for(QList<size_t>::ConstIterator iter = keys.begin(); iter != keys.end(); iter++)
	{
		const double time = results.value((*iter), DBL_MAX);
		qWarning("%02u -> %7.4f", (*iter), time);
		if(time < bestTime)
		{
			bestTime = time;
			bestVal = (*iter);
		}
	}

	qWarning("----------------------------------------------");
	qWarning("BEST: %u of %u (factor: %7.4f)", bestVal, m_cpuFeatures.count, (double(bestVal) / double(m_cpuFeatures.count)));
	qWarning("----------------------------------------------\n");
	
	qFatal("Benchmark complete. Thanks and bye bye!");
#else //ENABLE_BENCHMARK
	THROW("Sorry, the benchmark is *not* available in this build!");
#endif //ENABLE_BENCHMARK
}

////////////////////////////////////////////////////////////
// PUBLIC FUNCTIONS
////////////////////////////////////////////////////////////

void InitializationThread::delay(void)
{
	lamexp_sleep(333);
}

void InitializationThread::initTranslations(void)
{
	//Search for language files
	QStringList qmFiles = QDir(":/localization").entryList(QStringList() << "LameXP_??.qm", QDir::Files, QDir::Name);

	//Make sure we found at least one translation
	if(qmFiles.count() < 1)
	{
		qFatal("Could not find any translation files!");
		return;
	}

	//Add all available translations
	while(!qmFiles.isEmpty())
	{
		QString langId, langName;
		unsigned int systemId = 0, country = 0;
		QString qmFile = qmFiles.takeFirst();
		
		QRegExp langIdExp("LameXP_(\\w\\w)\\.qm", Qt::CaseInsensitive);
		if(langIdExp.indexIn(qmFile) >= 0)
		{
			langId = langIdExp.cap(1).toLower();
			QResource langRes = QResource(QString(":/localization/%1.txt").arg(qmFile));
			if(langRes.isValid() && langRes.size() > 0)
			{
				QByteArray data = QByteArray::fromRawData(reinterpret_cast<const char*>(langRes.data()), langRes.size());
				QTextStream stream(&data, QIODevice::ReadOnly);
				stream.setAutoDetectUnicode(false); stream.setCodec("UTF-8");
				while(!stream.atEnd())
				{
					QStringList langInfo = stream.readLine().simplified().split(",", QString::SkipEmptyParts);
					if(langInfo.count() == 3)
					{
						systemId = langInfo.at(0).trimmed().toUInt();
						country  = langInfo.at(1).trimmed().toUInt();
						langName = langInfo.at(2).trimmed();
						break;
					}
				}
			}
		}

		if(!(langId.isEmpty() || langName.isEmpty() || systemId == 0))
		{
			if(lamexp_translation_register(langId, qmFile, langName, systemId, country))
			{
				qDebug("Registering translation: %s = %s (%u) [%u]", QUTF8(qmFile), QUTF8(langName), systemId, country);
			}
			else
			{
				qWarning("Failed to register: %s", qmFile.toLatin1().constData());
			}
		}
	}

	qDebug("All registered.\n");
}

void InitializationThread::initNeroAac(void)
{
	const QString appPath = QDir(QCoreApplication::applicationDirPath()).canonicalPath();
	
	QFileInfo neroFileInfo[3];
	neroFileInfo[0] = QFileInfo(QString("%1/neroAacEnc.exe").arg(appPath));
	neroFileInfo[1] = QFileInfo(QString("%1/neroAacDec.exe").arg(appPath));
	neroFileInfo[2] = QFileInfo(QString("%1/neroAacTag.exe").arg(appPath));
	
	bool neroFilesFound = true;
	for(int i = 0; i < 3; i++)	{ if(!neroFileInfo[i].exists()) neroFilesFound = false; }

	//Lock the Nero binaries
	if(!neroFilesFound)
	{
		qDebug("Nero encoder binaries not found -> AAC encoding support will be disabled!\n");
		return;
	}

	qDebug("Found Nero AAC encoder binary:\n%s\n", QUTF8(neroFileInfo[0].canonicalFilePath()));

	LockedFile *neroBin[3];
	for(int i = 0; i < 3; i++) neroBin[i] = NULL;

	try
	{
		for(int i = 0; i < 3; i++)
		{
			neroBin[i] = new LockedFile(neroFileInfo[i].canonicalFilePath());
		}
	}
	catch(...)
	{
		for(int i = 0; i < 3; i++) LAMEXP_DELETE(neroBin[i]);
		qWarning("Failed to get excluive lock to Nero encoder binary -> AAC encoding support will be disabled!");
		return;
	}

	QProcess process;
	lamexp_init_process(process, neroFileInfo[0].absolutePath());

	process.start(neroFileInfo[0].canonicalFilePath(), QStringList() << "-help");

	if(!process.waitForStarted())
	{
		qWarning("Nero process failed to create!");
		qWarning("Error message: \"%s\"\n", process.errorString().toLatin1().constData());
		process.kill();
		process.waitForFinished(-1);
		for(int i = 0; i < 3; i++) LAMEXP_DELETE(neroBin[i]);
		return;
	}

	unsigned int neroVersion = 0;

	while(process.state() != QProcess::NotRunning)
	{
		if(!process.waitForReadyRead())
		{
			if(process.state() == QProcess::Running)
			{
				qWarning("Nero process time out -> killing!");
				process.kill();
				process.waitForFinished(-1);
				for(int i = 0; i < 3; i++) LAMEXP_DELETE(neroBin[i]);
				return;
			}
		}

		while(process.canReadLine())
		{
			QString line = QString::fromUtf8(process.readLine().constData()).simplified();
			QStringList tokens = line.split(" ", QString::SkipEmptyParts, Qt::CaseInsensitive);
			int index1 = tokens.indexOf("Package");
			int index2 = tokens.indexOf("version:");
			if(index1 >= 0 && index2 >= 0 && index1 + 1 == index2 && index2 < tokens.count() - 1)
			{
				QStringList versionTokens = tokens.at(index2 + 1).split(".", QString::SkipEmptyParts, Qt::CaseInsensitive);
				if(versionTokens.count() == 4)
				{
					neroVersion = 0;
					neroVersion += qMin(9, qMax(0, versionTokens.at(3).toInt()));
					neroVersion += qMin(9, qMax(0, versionTokens.at(2).toInt())) * 10;
					neroVersion += qMin(9, qMax(0, versionTokens.at(1).toInt())) * 100;
					neroVersion += qMin(9, qMax(0, versionTokens.at(0).toInt())) * 1000;
				}
			}
		}
	}

	if(!(neroVersion > 0))
	{
		qWarning("Nero AAC version could not be determined -> AAC encoding support will be disabled!");
		for(int i = 0; i < 3; i++) LAMEXP_DELETE(neroBin[i]);
		return;
	}
	
	for(int i = 0; i < 3; i++)
	{
		lamexp_register_tool(neroFileInfo[i].fileName(), neroBin[i], neroVersion);
	}
}

void InitializationThread::initFhgAac(void)
{
	const QString appPath = QDir(QCoreApplication::applicationDirPath()).canonicalPath();
	
	QFileInfo fhgFileInfo[5];
	fhgFileInfo[0] = QFileInfo(QString("%1/fhgaacenc.exe").arg(appPath));
	fhgFileInfo[1] = QFileInfo(QString("%1/enc_fhgaac.dll").arg(appPath));
	fhgFileInfo[2] = QFileInfo(QString("%1/nsutil.dll").arg(appPath));
	fhgFileInfo[3] = QFileInfo(QString("%1/libmp4v2.dll").arg(appPath));
	fhgFileInfo[4] = QFileInfo(QString("%1/libsndfile-1.dll").arg(appPath));
	
	bool fhgFilesFound = true;
	for(int i = 0; i < 5; i++)	{ if(!fhgFileInfo[i].exists()) fhgFilesFound = false; }

	//Lock the FhgAacEnc binaries
	if(!fhgFilesFound)
	{
		qDebug("FhgAacEnc binaries not found -> FhgAacEnc support will be disabled!\n");
		return;
	}

	qDebug("Found FhgAacEnc cli_exe:\n%s\n", QUTF8(fhgFileInfo[0].canonicalFilePath()));
	qDebug("Found FhgAacEnc enc_dll:\n%s\n", QUTF8(fhgFileInfo[1].canonicalFilePath()));

	LockedFile *fhgBin[5];
	for(int i = 0; i < 5; i++) fhgBin[i] = NULL;

	try
	{
		for(int i = 0; i < 5; i++)
		{
			fhgBin[i] = new LockedFile(fhgFileInfo[i].canonicalFilePath());
		}
	}
	catch(...)
	{
		for(int i = 0; i < 5; i++) LAMEXP_DELETE(fhgBin[i]);
		qWarning("Failed to get excluive lock to FhgAacEnc binary -> FhgAacEnc support will be disabled!");
		return;
	}

	QProcess process;
	lamexp_init_process(process, fhgFileInfo[0].absolutePath());

	process.start(fhgFileInfo[0].canonicalFilePath(), QStringList() << "--version");

	if(!process.waitForStarted())
	{
		qWarning("FhgAacEnc process failed to create!");
		qWarning("Error message: \"%s\"\n", process.errorString().toLatin1().constData());
		process.kill();
		process.waitForFinished(-1);
		for(int i = 0; i < 5; i++) LAMEXP_DELETE(fhgBin[i]);
		return;
	}

	QRegExp fhgAacEncSig("fhgaacenc version (\\d+) by tmkk", Qt::CaseInsensitive);
	unsigned int fhgVersion = 0;

	while(process.state() != QProcess::NotRunning)
	{
		process.waitForReadyRead();
		if(!process.bytesAvailable() && process.state() == QProcess::Running)
		{
			qWarning("FhgAacEnc process time out -> killing!");
			process.kill();
			process.waitForFinished(-1);
			for(int i = 0; i < 5; i++) LAMEXP_DELETE(fhgBin[i]);
			return;
		}
		while(process.bytesAvailable() > 0)
		{
			QString line = QString::fromUtf8(process.readLine().constData()).simplified();
			if(fhgAacEncSig.lastIndexIn(line) >= 0)
			{
				bool ok = false;
				unsigned int temp = fhgAacEncSig.cap(1).toUInt(&ok);
				if(ok) fhgVersion = temp;
			}
		}
	}

	if(!(fhgVersion > 0))
	{
		qWarning("FhgAacEnc version couldn't be determined -> FhgAacEnc support will be disabled!");
		for(int i = 0; i < 5; i++) LAMEXP_DELETE(fhgBin[i]);
		return;
	}
	else if(fhgVersion < lamexp_toolver_fhgaacenc())
	{
		qWarning("FhgAacEnc version is too much outdated (%s) -> FhgAacEnc support will be disabled!", lamexp_version2string("????-??-??", fhgVersion, "N/A").toLatin1().constData());
		qWarning("Minimum required FhgAacEnc version currently is: %s\n", lamexp_version2string("????-??-??", lamexp_toolver_fhgaacenc(), "N/A").toLatin1().constData());
		for(int i = 0; i < 5; i++) LAMEXP_DELETE(fhgBin[i]);
		return;
	}
	
	for(int i = 0; i < 5; i++)
	{
		lamexp_register_tool(fhgFileInfo[i].fileName(), fhgBin[i], fhgVersion);
	}
}

void InitializationThread::initQAac(void)
{
	const QString appPath = QDir(QCoreApplication::applicationDirPath()).canonicalPath();

	QFileInfo qaacFileInfo[2];
	qaacFileInfo[0] = QFileInfo(QString("%1/qaac.exe").arg(appPath));
	qaacFileInfo[1] = QFileInfo(QString("%1/libsoxrate.dll").arg(appPath));
	
	bool qaacFilesFound = true;
	for(int i = 0; i < 2; i++)	{ if(!qaacFileInfo[i].exists()) qaacFilesFound = false; }

	//Lock the QAAC binaries
	if(!qaacFilesFound)
	{
		qDebug("QAAC binaries not found -> QAAC support will be disabled!\n");
		return;
	}

	qDebug("Found QAAC encoder:\n%s\n", QUTF8(qaacFileInfo[0].canonicalFilePath()));

	LockedFile *qaacBin[2];
	for(int i = 0; i < 2; i++) qaacBin[i] = NULL;

	try
	{
		for(int i = 0; i < 2; i++)
		{
			qaacBin[i] = new LockedFile(qaacFileInfo[i].canonicalFilePath());
		}
	}
	catch(...)
	{
		for(int i = 0; i < 2; i++) LAMEXP_DELETE(qaacBin[i]);
		qWarning("Failed to get excluive lock to QAAC binary -> QAAC support will be disabled!");
		return;
	}

	QProcess process;
	lamexp_init_process(process, qaacFileInfo[0].absolutePath());

	process.start(qaacFileInfo[0].canonicalFilePath(), QStringList() << "--check");

	if(!process.waitForStarted())
	{
		qWarning("QAAC process failed to create!");
		qWarning("Error message: \"%s\"\n", process.errorString().toLatin1().constData());
		process.kill();
		process.waitForFinished(-1);
		for(int i = 0; i < 2; i++) LAMEXP_DELETE(qaacBin[i]);
		return;
	}

	QRegExp qaacEncSig("qaac (\\d)\\.(\\d)(\\d)", Qt::CaseInsensitive);
	QRegExp coreEncSig("CoreAudioToolbox (\\d)\\.(\\d)\\.(\\d)\\.(\\d)", Qt::CaseInsensitive);
	unsigned int qaacVersion = 0;
	unsigned int coreVersion = 0;

	while(process.state() != QProcess::NotRunning)
	{
		process.waitForReadyRead();
		if(!process.bytesAvailable() && process.state() == QProcess::Running)
		{
			qWarning("QAAC process time out -> killing!");
			process.kill();
			process.waitForFinished(-1);
		for(int i = 0; i < 2; i++) LAMEXP_DELETE(qaacBin[i]);
			return;
		}
		while(process.bytesAvailable() > 0)
		{
			QString line = QString::fromUtf8(process.readLine().constData()).simplified();
			if(qaacEncSig.lastIndexIn(line) >= 0)
			{
				unsigned int tmp[3] = {0, 0, 0};
				bool ok[3] = {false, false, false};
				tmp[0] = qaacEncSig.cap(1).toUInt(&ok[0]);
				tmp[1] = qaacEncSig.cap(2).toUInt(&ok[1]);
				tmp[2] = qaacEncSig.cap(3).toUInt(&ok[2]);
				if(ok[0] && ok[1] && ok[2])
				{
					qaacVersion = (qBound(0U, tmp[0], 9U) * 100) + (qBound(0U, tmp[1], 9U) * 10) + qBound(0U, tmp[2], 9U);
				}
			}
			if(coreEncSig.lastIndexIn(line) >= 0)
			{
				unsigned int tmp[4] = {0, 0, 0, 0};
				bool ok[4] = {false, false, false, false};
				tmp[0] = coreEncSig.cap(1).toUInt(&ok[0]);
				tmp[1] = coreEncSig.cap(2).toUInt(&ok[1]);
				tmp[2] = coreEncSig.cap(3).toUInt(&ok[2]);
				tmp[3] = coreEncSig.cap(4).toUInt(&ok[3]);
				if(ok[0] && ok[1] && ok[2] && ok[3])
				{
					coreVersion = (qBound(0U, tmp[0], 9U) * 1000) + (qBound(0U, tmp[1], 9U) * 100) + (qBound(0U, tmp[2], 9U) * 10) + qBound(0U, tmp[3], 9U);
				}
			}
		}
	}

	//qDebug("qaac %d, CoreAudioToolbox %d", qaacVersion, coreVersion);

	if(!(qaacVersion > 0))
	{
		qWarning("QAAC version couldn't be determined -> QAAC support will be disabled!");
		for(int i = 0; i < 2; i++) LAMEXP_DELETE(qaacBin[i]);
		return;
	}
	else if(qaacVersion < lamexp_toolver_qaacenc())
	{
		qWarning("QAAC version is too much outdated (%s) -> QAAC support will be disabled!", lamexp_version2string("v?.??", qaacVersion, "N/A").toLatin1().constData());
		qWarning("Minimum required QAAC version currently is: %s.\n", lamexp_version2string("v?.??", lamexp_toolver_qaacenc(), "N/A").toLatin1().constData());
		for(int i = 0; i < 2; i++) LAMEXP_DELETE(qaacBin[i]);
		return;
	}

	if(!(coreVersion > 0))
	{
		qWarning("CoreAudioToolbox version couldn't be determined -> QAAC support will be disabled!");
		for(int i = 0; i < 2; i++) LAMEXP_DELETE(qaacBin[i]);
		return;
	}
	else if(coreVersion < lamexp_toolver_coreaudio())
	{
		qWarning("CoreAudioToolbox version is too much outdated (%s) -> QAAC support will be disabled!", lamexp_version2string("v?.?.?.?", coreVersion, "N/A").toLatin1().constData());
		qWarning("Minimum required CoreAudioToolbox version currently is: %s.\n", lamexp_version2string("v?.??", lamexp_toolver_coreaudio(), "N/A").toLatin1().constData());
		for(int i = 0; i < 2; i++) LAMEXP_DELETE(qaacBin[i]);
		return;
	}

	lamexp_register_tool(qaacFileInfo[0].fileName(), qaacBin[0], qaacVersion);
	lamexp_register_tool(qaacFileInfo[1].fileName(), qaacBin[1], qaacVersion);
}

void InitializationThread::selfTest(void)
{
	const unsigned int cpu[4] = {CPU_TYPE_X86_GEN, CPU_TYPE_X86_SSE, CPU_TYPE_X64_GEN, CPU_TYPE_X64_SSE};

	LockedFile::selfTest();

	for(size_t k = 0; k < 4; k++)
	{
		qDebug("[TEST]");
		switch(cpu[k])
		{
			PRINT_CPU_TYPE(CPU_TYPE_X86_GEN); break;
			PRINT_CPU_TYPE(CPU_TYPE_X86_SSE); break;
			PRINT_CPU_TYPE(CPU_TYPE_X64_GEN); break;
			PRINT_CPU_TYPE(CPU_TYPE_X64_SSE); break;
			default: THROW("CPU support undefined!");
		}
		unsigned int n = 0;
		for(int i = 0; true; i++)
		{
			if(!(g_lamexp_tools[i].pcName || g_lamexp_tools[i].pcHash  || g_lamexp_tools[i].uiVersion))
			{
				break;
			}
			else if(g_lamexp_tools[i].pcName && g_lamexp_tools[i].pcHash && g_lamexp_tools[i].uiVersion)
			{
				const QString toolName = QString::fromLatin1(g_lamexp_tools[i].pcName);
				const QByteArray expectedHash = QByteArray(g_lamexp_tools[i].pcHash);
				if(g_lamexp_tools[i].uiCpuType & cpu[k])
				{
					qDebug("%02i -> %s", ++n, QUTF8(toolName));
					QFile resource(QString(":/tools/%1").arg(toolName));
					if(!resource.open(QIODevice::ReadOnly))
					{
						qFatal("The resource for \"%s\" could not be opened!", QUTF8(toolName));
						break;
					}
					QByteArray hash = LockedFile::fileHash(resource);
					if(hash.isNull() || _stricmp(hash.constData(), expectedHash.constData()))
					{
						qFatal("Hash check for tool \"%s\" has failed!", QUTF8(toolName));
						break;
					}
					resource.close();
				}
			}
			else
			{
				qFatal("Inconsistent checksum data detected. Take care!");
			}
		}
		if(n != EXPECTED_TOOL_COUNT)
		{
			qFatal("Tool count mismatch for CPU type %u !!!", cpu[k]);
		}
		qDebug("Done.\n");
	}
}

////////////////////////////////////////////////////////////
// EVENTS
////////////////////////////////////////////////////////////

/*NONE*/