/////////////////////////////////////////////////////////////////////////////// // LameXP - Audio Encoder Front-End // Copyright (C) 2004-2011 LoRd_MuldeR // // 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. // // 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 #include #include #include #include #include #include #include //////////////////////////////////////////////////////////// // CPU FLags //////////////////////////////////////////////////////////// /* CPU_TYPE__ */ #define CPU_TYPE_X86_GEN 0x00000001UL //x86, no enhanced instruction set #define CPU_TYPE_X86_SSE 0x00000002UL //x86, with SSE and SSE2 support (Intel only!) #define CPU_TYPE_X64_GEN 0x00000004UL //x64, generic (x64 always includes SSE2) #define CPU_TYPE_X86_ALL (CPU_TYPE_X86_GEN|CPU_TYPE_X86_SSE) //all x86 CPU's, but not x64) #define CPU_TYPE_ALL_SSE (CPU_TYPE_X86_SSE|CPU_TYPE_X64_GEN) //all SSE2-capable CPU's (x86 and x64) #define CPU_TYPE_ALL_ALL (CPU_TYPE_X86_ALL|CPU_TYPE_X64_GEN) //all CPU's, no exceptions #define IS_CPU_TYPE_X64_GEN (m_cpuFeatures.x64 && m_cpuFeatures.sse && m_cpuFeatures.sse2) #define IS_CPU_TYPE_X86_SSE (m_cpuFeatures.intel && m_cpuFeatures.sse && m_cpuFeatures.sse2) //////////////////////////////////////////////////////////// // TOOLS //////////////////////////////////////////////////////////// static const struct { char *pcHash; unsigned int uiCpuType; char *pcName; unsigned int uiVersion; } g_lamexp_tools[] = { {"1e4c983fe00ccc6236ee1c3f76250f64139cf86a6f4aa68f36929907fe45cf37b00862d8", CPU_TYPE_X86_GEN, "aften.i386.exe", 8}, {"7c843f1eaf61823285237911493d8d20da11149853d4bb7953a3279196f6dbbd310c61e3", CPU_TYPE_X86_SSE, "aften.sse2.exe", 8}, {"29da0d3e810bc3e8d2cddb3db452325eefca0d0c1fff1379fa17806ad447752be1b88e2f", CPU_TYPE_X64_GEN, "aften.x64.exe", 8}, {"1cca303fabd889a18fc01c32a7fd861194cfcac60ba63740ea2d7c55d049dbf8f59259fa", CPU_TYPE_ALL_ALL, "alac.exe", 20}, {"6d22d4bbd7ce2162e38f70ac9187bc84eb28233b36ee6c0492d0a6195318782d7f05c444", CPU_TYPE_ALL_ALL, "avs2wav.exe", 13}, {"c6f23fb7ba18a7972802e013b66ec6ce52088bf4fe783774eb1d33dd3401fa8aad76cc8b", CPU_TYPE_ALL_ALL, "elevator.exe", UINT_MAX}, {"9ae98a3fc779f69ee876a3b477fbc35a709ba5066823b2eb62eeb015057c38807e4be51f", CPU_TYPE_ALL_ALL, "faad.exe", 27}, {"446054f9a7f705f1aadc9053ca7b8a86a775499ef159978954ebdea92de056c34f8841f7", CPU_TYPE_ALL_ALL, "flac.exe", 121}, {"dd68d074c5e13a607580f3a24595c0f3882e37211d2ca628f46e6df20fabcc832dad488a", CPU_TYPE_ALL_ALL, "gpgv.exe", 1411}, {"b3fca757b3567dab75c042e62213c231de378ea0fdd7fe29b733417cd5d3d33558452f94", CPU_TYPE_ALL_ALL, "gpgv.gpg", UINT_MAX}, {"df995d8a9e4e5fab551d0e3460b9209320714dead70f662929fcc00a4bd72d8a6d23844a", CPU_TYPE_X86_GEN, "lame.i386.exe", 3990}, {"873faeddc44243b4712cd42dd0bfc3174a07113d245dd834657519ffe5dbd4b1e395ce32", CPU_TYPE_ALL_SSE, "lame.sse2.exe", 3990}, {"67933924d68ce319795989648f29e7bd1abaac4ec09c26cbb0ff0d15a67a9df17e257933", CPU_TYPE_ALL_ALL, "mac.exe", 406}, {"e294ea248768cb05013b1a16d4a0183342459ef03691f8ab6b643807c64f2be458fe7efe", CPU_TYPE_X86_ALL, "mediainfo.i386.exe", 749}, {"7bb673a5632ea0400c7b97f374b9167b502e7798b0494a2f39b7fa8ff5b371573d757234", CPU_TYPE_X64_GEN, "mediainfo.x64.exe", 749}, {"a93ec86187025e66fb78026af35555bd3b4e30fe1a40e8d66f600cfd918f07f431f0b2f2", CPU_TYPE_ALL_ALL, "mpcdec.exe", 435}, {"5a89768010efb1ddfd88ccc378a89433ceaecb403a7b1f83f8716f6848d9a05b3d3c6d93", CPU_TYPE_ALL_ALL, "mpg123.exe", 1133}, {"0c781805dda931c529bd16069215f616a7a4c5e5c2dfb6b75fe85d52b20511830693e528", CPU_TYPE_ALL_ALL, "oggdec.exe", UINT_MAX}, {"0c019e13450dc664987e21f4e5489d182be7d6d0d81efbbaaf1c78693dfe3e38e0355b93", CPU_TYPE_X86_GEN, "oggenc2.i386.exe", 287603}, {"693dd6f779df70a047c15c2c79350855db38d5b0cd7e529b6877b7c821cfe6addfdd50a4", CPU_TYPE_X86_SSE, "oggenc2.sse2.exe", 287603}, {"32cb0b2182488e5e9278ba6b9fc9141214c7546eec67ee02fa895810b0e56900368695be", CPU_TYPE_X64_GEN, "oggenc2.x64.exe", 287603}, {"58c2b8bcff8f27bfa8fab8172b80f5da731221d072c7dba4dd3a3d7d6423490a25dc6760", CPU_TYPE_ALL_ALL, "shorten.exe", 361}, {"abdf9b20a8031a09d0abca9cb10c31c8418f72403b5d1350fd69bfa34041591aca3060ab", CPU_TYPE_ALL_ALL, "sox.exe", 1432}, {"48e7f81c024cd17dac0eaeab253aad6b223e72dc80688f7576276b0563209514ff0bb9c8", CPU_TYPE_ALL_ALL, "speexdec.exe", 12}, {"9b50cf64747d4afbad5d8d9b5a0a2d41c5a58256f47ebdbd8cc920e7e576085dfe1b14ff", CPU_TYPE_ALL_ALL, "tta.exe", 21}, {"875871c942846f6ad163f9e4949bba2f4331bec678ca5aefe58c961b6825bd0d419a078b", CPU_TYPE_ALL_ALL, "valdec.exe", 31}, {"e657331e281840878a37eb4fb357cb79f33d528ddbd5f9b2e2f7d2194bed4720e1af8eaf", CPU_TYPE_ALL_ALL, "wget.exe", 1114}, {"437d3817072d0b9c0bf5a1cf2daf0d7bc22106571f53cf6b6fe10942cdfdc50829847d8f", CPU_TYPE_ALL_ALL, "wma2wav.exe", 20110816}, {"a258711f7a8a0c75528f3ed4d2c17513ff8598b7e0a9d7db13ca941a3140094ffc2ffb62", CPU_TYPE_ALL_ALL, "wupdate.exe", UINT_MAX}, {"6b053b37d47a9c8659ebf2de43ad19dcba17b9cd868b26974b9cc8c27b6167e8bf07a5a2", CPU_TYPE_ALL_ALL, "wvunpack.exe", 4601}, {NULL, NULL, NULL, NULL} }; static const double g_allowedExtractDelay = 10.0; //////////////////////////////////////////////////////////// // 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 //////////////////////////////////////////////////////////// void InitializationThread::run() { m_bSuccess = false; bool bCustom = false; delay(); //CPU type selection const unsigned int cpuSupport = IS_CPU_TYPE_X64_GEN ? CPU_TYPE_X64_GEN : (IS_CPU_TYPE_X86_SSE ? CPU_TYPE_X86_SSE : CPU_TYPE_X86_GEN); //Allocate maps QMap mapChecksum; QMap mapVersion; QMap mapCpuType; //Init properties for(int i = 0; i < INT_MAX; 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 currentTool = QString::fromLatin1(g_lamexp_tools[i].pcName); mapChecksum.insert(currentTool, QString::fromLatin1(g_lamexp_tools[i].pcHash)); mapCpuType.insert(currentTool, g_lamexp_tools[i].uiCpuType); mapVersion.insert(currentTool, g_lamexp_tools[i].uiVersion); } else { qFatal("Inconsistent checksum data detected. Take care!"); } } QDir toolsDir(":/tools/"); QList toolsList = toolsDir.entryInfoList(QStringList("*.*"), QDir::Files, QDir::Name); QDir appDir = QDir(QCoreApplication::applicationDirPath()).canonicalPath(); QTime timer; timer.start(); //Extract all files while(!toolsList.isEmpty()) { try { QFileInfo currentTool = toolsList.takeFirst(); QString toolName = currentTool.fileName().toLower(); QString toolShortName = QString("%1.%2").arg(currentTool.baseName().toLower(), currentTool.suffix().toLower()); QByteArray toolHash = mapChecksum.take(toolName).toLatin1(); unsigned int toolCpuType = mapCpuType.take(toolName); unsigned int toolVersion = mapVersion.take(toolName); if(toolHash.size() != 72) { throw "The required checksum is missing, take care!"; } if(toolCpuType & cpuSupport) { QFileInfo customTool(QString("%1/tools/%2/%3").arg(appDir.canonicalPath(), QString::number(lamexp_version_build()), toolShortName)); if(customTool.exists() && customTool.isFile()) { bCustom = true; qDebug("Setting up file: %s <- %s", toolShortName.toLatin1().constData(), appDir.relativeFilePath(customTool.canonicalFilePath()).toLatin1().constData()); LockedFile *lockedFile = new LockedFile(customTool.canonicalFilePath()); lamexp_register_tool(toolShortName, lockedFile, UINT_MAX); } else { qDebug("Extracting file: %s -> %s", toolName.toLatin1().constData(), toolShortName.toLatin1().constData()); LockedFile *lockedFile = new LockedFile(QString(":/tools/%1").arg(toolName), QString("%1/tool_%2").arg(lamexp_temp_folder2(), toolShortName), toolHash); lamexp_register_tool(toolShortName, lockedFile, toolVersion); } } } catch(char *errorMsg) { qFatal("At least one of the required tools could not be initialized:\n%s", errorMsg); return; } } //Make sure all files were extracted if(!mapChecksum.isEmpty()) { qFatal("At least one required tool could not be found:\n%s", toolsDir.filePath(mapChecksum.keys().first()).toLatin1().constData()); return; } qDebug("All extracted.\n"); //Clean-up mapChecksum.clear(); mapVersion.clear(); mapCpuType.clear(); //Using any custom tools? if(bCustom) { qWarning("Warning: Using custom tools, you might encounter unexpected problems!\n"); } //Check delay double delayExtract = static_cast(timer.elapsed()) / 1000.0; 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"); } //Register all translations initTranslations(); //Look for Nero AAC encoder initNeroAac(); //Look for FHG AAC encoder initFhgAac(); delay(); m_bSuccess = true; } //////////////////////////////////////////////////////////// // PUBLIC FUNCTIONS //////////////////////////////////////////////////////////// void InitializationThread::delay(void) { const char *temp = "|/-\\"; printf("Thread is doing something important... ?\b", temp[4]); for(int i = 0; i < 20; i++) { printf("%c\b", temp[i%4]); msleep(25); } printf("Done\n\n"); } 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; QString qmFile = qmFiles.takeFirst(); QRegExp langIdExp("LameXP_(\\w\\w)\\.qm", Qt::CaseInsensitive); if(langIdExp.indexIn(qmFile) >= 0) { langId = langIdExp.cap(1).toLower(); } QResource langRes = (QString(":/localization/%1.txt").arg(qmFile)); if(langRes.isValid() && langRes.size() > 0) { QStringList langInfo = QString::fromUtf8(reinterpret_cast(langRes.data()), langRes.size()).simplified().split(",", QString::SkipEmptyParts); if(langInfo.count() == 2) { systemId = langInfo.at(0).toUInt(); langName = langInfo.at(1); } } if(lamexp_translation_register(langId, qmFile, langName, systemId)) { qDebug64("Registering translation: %1 = %2 (%3)", qmFile, langName, QString::number(systemId)); } 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", neroFileInfo[0].canonicalFilePath().toUtf8().constData()); 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; process.setProcessChannelMode(QProcess::MergedChannels); process.setReadChannel(QProcess::StandardOutput); 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 += min(9, max(0, versionTokens.at(3).toInt())); neroVersion += min(9, max(0, versionTokens.at(2).toInt())) * 10; neroVersion += min(9, max(0, versionTokens.at(1).toInt())) * 100; neroVersion += min(9, max(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[4]; 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)); bool fhgFilesFound = true; for(int i = 0; i < 4; 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", fhgFileInfo[0].canonicalFilePath().toUtf8().constData()); qDebug("Found FhgAacEnc enc_dll:\n%s\n", fhgFileInfo[1].canonicalFilePath().toUtf8().constData()); LockedFile *fhgBin[4]; for(int i = 0; i < 4; i++) fhgBin[i] = NULL; try { for(int i = 0; i < 4; i++) { fhgBin[i] = new LockedFile(fhgFileInfo[i].canonicalFilePath()); } } catch(...) { for(int i = 0; i < 4; i++) LAMEXP_DELETE(fhgBin[i]); qWarning("Failed to get excluive lock to FhgAacEnc binary -> FhgAacEnc support will be disabled!"); return; } QProcess process; process.setProcessChannelMode(QProcess::MergedChannels); process.setReadChannel(QProcess::StandardOutput); 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 < 4; 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 < 4; 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 < 4; i++) LAMEXP_DELETE(fhgBin[i]); return; } else if(fhgVersion < lamexp_toolver_fhgaacenc()) { qWarning("FhgAacEnc version is too much outdated -> FhgAacEnc support will be disabled!"); for(int i = 0; i < 4; i++) LAMEXP_DELETE(fhgBin[i]); return; } for(int i = 0; i < 4; i++) { lamexp_register_tool(fhgFileInfo[i].fileName(), fhgBin[i], fhgVersion); } } //void InitializationThread::initWmaDec(void) //{ // static const char* wmaDecoderComponentPath = "NCH Software/Components/wmawav/wmawav.exe"; // // LockedFile *wmaFileBin = NULL; // QFileInfo wmaFileInfo = QFileInfo(QString("%1/%2").arg(lamexp_known_folder(lamexp_folder_programfiles), wmaDecoderComponentPath)); // // if(!(wmaFileInfo.exists() && wmaFileInfo.isFile())) // { // wmaFileInfo.setFile(QString("%1/%2").arg(QDir(QCoreApplication::applicationDirPath()).canonicalPath(), "wmawav.exe")); // } // if(!(wmaFileInfo.exists() && wmaFileInfo.isFile())) // { // qDebug("WMA File Decoder not found -> WMA decoding support will be disabled!\n"); // return; // } // // try // { // wmaFileBin = new LockedFile(wmaFileInfo.canonicalFilePath()); // } // catch(...) // { // qWarning("Failed to get excluive lock to WMA File Decoder binary -> WMA decoding support will be disabled!"); // return; // } // // QProcess process; // process.setProcessChannelMode(QProcess::MergedChannels); // process.setReadChannel(QProcess::StandardOutput); // process.start(wmaFileInfo.canonicalFilePath(), QStringList()); // // if(!process.waitForStarted()) // { // qWarning("WmaWav process failed to create!"); // qWarning("Error message: \"%s\"\n", process.errorString().toLatin1().constData()); // process.kill(); // process.waitForFinished(-1); // return; // } // // bool b_wmaWavFound = false; // // while(process.state() != QProcess::NotRunning) // { // if(!process.waitForReadyRead()) // { // if(process.state() == QProcess::Running) // { // qWarning("WmaWav process time out -> killing!"); // process.kill(); // process.waitForFinished(-1); // return; // } // } // while(process.canReadLine()) // { // QString line = QString::fromUtf8(process.readLine().constData()).simplified(); // if(line.contains("Usage: wmatowav.exe WMAFileSpec WAVFileSpec", Qt::CaseInsensitive)) // { // b_wmaWavFound = true; // } // } // } // // if(!b_wmaWavFound) // { // qWarning("WmaWav could not be identified -> WMA decoding support will be disabled!\n"); // LAMEXP_DELETE(wmaFileBin); // return; // } // // qDebug("Found WMA File Decoder binary:\n%s\n", wmaFileInfo.canonicalFilePath().toUtf8().constData()); // // if(wmaFileBin) // { // lamexp_register_tool(wmaFileInfo.fileName(), wmaFileBin); // } //} //////////////////////////////////////////////////////////// // EVENTS //////////////////////////////////////////////////////////// /*NONE*/