/**************************************************************************** ** ** Copyright (C) 2016 The Qt Company Ltd. ** Contact: https://www.qt.io/licensing/ ** ** This file is part of the QtQml module of the Qt Toolkit. ** ** $QT_BEGIN_LICENSE:LGPL$ ** Commercial License Usage ** Licensees holding valid commercial Qt licenses may use this file in ** accordance with the commercial license agreement provided with the ** Software or, alternatively, in accordance with the terms contained in ** a written agreement between you and The Qt Company. For licensing terms ** and conditions see https://www.qt.io/terms-conditions. For further ** information use the contact form at https://www.qt.io/contact-us. ** ** GNU Lesser General Public License Usage ** Alternatively, this file may be used under the terms of the GNU Lesser ** General Public License version 3 as published by the Free Software ** Foundation and appearing in the file LICENSE.LGPL3 included in the ** packaging of this file. Please review the following information to ** ensure the GNU Lesser General Public License version 3 requirements ** will be met: https://www.gnu.org/licenses/lgpl-3.0.html. ** ** GNU General Public License Usage ** Alternatively, this file may be used under the terms of the GNU ** General Public License version 2.0 or (at your option) the GNU General ** Public license version 3 or any later version approved by the KDE Free ** Qt Foundation. The licenses are as published by the Free Software ** Foundation and appearing in the file LICENSE.GPL2 and LICENSE.GPL3 ** included in the packaging of this file. Please review the following ** information to ensure the GNU General Public License requirements will ** be met: https://www.gnu.org/licenses/gpl-2.0.html and ** https://www.gnu.org/licenses/gpl-3.0.html. ** ** $QT_END_LICENSE$ ** ****************************************************************************/ #include "qv4compileddata_p.h" #include "qv4jsir_p.h" #include #ifndef V4_BOOTSTRAP #include #include #include #include #include #include #include #include #include #include "qv4compilationunitmapper_p.h" #include #include #include #include #include #include #include #include #endif #include #include #include #include #include #if defined(QT_BUILD_INTERNAL) #if defined(Q_OS_UNIX) && !defined(QT_NO_DYNAMIC_CAST) #include #endif #endif QT_BEGIN_NAMESPACE namespace QV4 { namespace CompiledData { #if !defined(V4_BOOTSTRAP) static QString cacheFilePath(const QUrl &url) { const QString localSourcePath = QQmlFile::urlToLocalFileOrQrc(url); const QString localCachePath = localSourcePath + QLatin1Char('c'); #ifndef Q_OS_ANDROID if (QFile::exists(localCachePath) || QFileInfo(QFileInfo(localSourcePath).dir().absolutePath()).isWritable()) return localCachePath; #endif QCryptographicHash fileNameHash(QCryptographicHash::Sha1); fileNameHash.addData(localSourcePath.toUtf8()); QString directory = QStandardPaths::writableLocation(QStandardPaths::CacheLocation) + QLatin1String("/qmlcache/"); QDir::root().mkpath(directory); return directory + QString::fromUtf8(fileNameHash.result().toHex()) + QLatin1Char('.') + QFileInfo(localCachePath).completeSuffix(); } #endif #ifndef V4_BOOTSTRAP CompilationUnit::CompilationUnit() : data(0) , engine(0) , qmlEngine(0) , runtimeLookups(0) , runtimeRegularExpressions(0) , runtimeClasses(0) , constants(nullptr) , totalBindingsCount(0) , totalParserStatusCount(0) , totalObjectCount(0) , metaTypeId(-1) , listMetaTypeId(-1) , isRegisteredWithEngine(false) {} CompilationUnit::~CompilationUnit() { unlink(); if (data && !(data->flags & QV4::CompiledData::Unit::StaticData)) free(const_cast(data)); data = 0; } QV4::Function *CompilationUnit::linkToEngine(ExecutionEngine *engine) { this->engine = engine; engine->compilationUnits.insert(this); Q_ASSERT(!runtimeStrings); Q_ASSERT(data); runtimeStrings = (QV4::Heap::String **)malloc(data->stringTableSize * sizeof(QV4::Heap::String*)); // memset the strings to 0 in case a GC run happens while we're within the loop below memset(runtimeStrings, 0, data->stringTableSize * sizeof(QV4::Heap::String*)); for (uint i = 0; i < data->stringTableSize; ++i) runtimeStrings[i] = engine->newString(data->stringAt(i)); runtimeRegularExpressions = new QV4::Value[data->regexpTableSize]; // memset the regexps to 0 in case a GC run happens while we're within the loop below memset(runtimeRegularExpressions, 0, data->regexpTableSize * sizeof(QV4::Value)); for (uint i = 0; i < data->regexpTableSize; ++i) { const CompiledData::RegExp *re = data->regexpAt(i); bool global = false; bool multiline = false; bool ignoreCase = false; if (re->flags & CompiledData::RegExp::RegExp_Global) global = true; if (re->flags & CompiledData::RegExp::RegExp_IgnoreCase) ignoreCase = true; if (re->flags & CompiledData::RegExp::RegExp_Multiline) multiline = true; runtimeRegularExpressions[i] = QV4::RegExp::create(engine, data->stringAt(re->stringIndex), ignoreCase, multiline, global); } if (data->lookupTableSize) { runtimeLookups = new QV4::Lookup[data->lookupTableSize]; memset(runtimeLookups, 0, data->lookupTableSize * sizeof(QV4::Lookup)); const CompiledData::Lookup *compiledLookups = data->lookupTable(); for (uint i = 0; i < data->lookupTableSize; ++i) { QV4::Lookup *l = runtimeLookups + i; Lookup::Type type = Lookup::Type(uint(compiledLookups[i].type_and_flags)); if (type == CompiledData::Lookup::Type_Getter) l->getter = QV4::Lookup::getterGeneric; else if (type == CompiledData::Lookup::Type_Setter) l->setter = QV4::Lookup::setterGeneric; else if (type == CompiledData::Lookup::Type_GlobalGetter) l->globalGetter = QV4::Lookup::globalGetterGeneric; else if (type == CompiledData::Lookup::Type_IndexedGetter) l->indexedGetter = QV4::Lookup::indexedGetterGeneric; else if (type == CompiledData::Lookup::Type_IndexedSetter) l->indexedSetter = QV4::Lookup::indexedSetterGeneric; for (int j = 0; j < QV4::Lookup::Size; ++j) l->classList[j] = 0; l->level = -1; l->index = UINT_MAX; l->nameIndex = compiledLookups[i].nameIndex; if (type == CompiledData::Lookup::Type_IndexedGetter || type == CompiledData::Lookup::Type_IndexedSetter) l->engine = engine; } } if (data->jsClassTableSize) { runtimeClasses = (QV4::InternalClass**)malloc(data->jsClassTableSize * sizeof(QV4::InternalClass*)); for (uint i = 0; i < data->jsClassTableSize; ++i) { int memberCount = 0; const CompiledData::JSClassMember *member = data->jsClassAt(i, &memberCount); QV4::InternalClass *klass = engine->internalClasses[QV4::ExecutionEngine::Class_Object]; for (int j = 0; j < memberCount; ++j, ++member) klass = klass->addMember(engine->identifierTable->identifier(runtimeStrings[member->nameOffset]), member->isAccessor ? QV4::Attr_Accessor : QV4::Attr_Data); runtimeClasses[i] = klass; } } #if Q_BYTE_ORDER == Q_BIG_ENDIAN Value *bigEndianConstants = new Value[data->constantTableSize]; const LEUInt64 *littleEndianConstants = data->constants(); for (uint i = 0; i < data->constantTableSize; ++i) bigEndianConstants[i] = Value::fromReturnedValue(littleEndianConstants[i]); constants = bigEndianConstants; #else constants = reinterpret_cast(data->constants()); #endif linkBackendToEngine(engine); if (data->indexOfRootFunction != -1) return runtimeFunctions[data->indexOfRootFunction]; else return 0; } void CompilationUnit::unlink() { if (engine) nextCompilationUnit.remove(); if (isRegisteredWithEngine) { Q_ASSERT(data && propertyCaches.count() > 0 && propertyCaches.at(/*root object*/0)); if (qmlEngine) qmlEngine->unregisterInternalCompositeType(this); QQmlMetaType::unregisterInternalCompositeType(this); isRegisteredWithEngine = false; } propertyCaches.clear(); for (int ii = 0; ii < dependentScripts.count(); ++ii) dependentScripts.at(ii)->release(); dependentScripts.clear(); typeNameCache = nullptr; qDeleteAll(resolvedTypes); resolvedTypes.clear(); engine = 0; qmlEngine = 0; free(runtimeStrings); runtimeStrings = 0; delete [] runtimeLookups; runtimeLookups = 0; delete [] runtimeRegularExpressions; runtimeRegularExpressions = 0; free(runtimeClasses); runtimeClasses = 0; qDeleteAll(runtimeFunctions); runtimeFunctions.clear(); #if Q_BYTE_ORDER == Q_BIG_ENDIAN delete [] constants; constants = nullptr; #endif } void CompilationUnit::markObjects(QV4::ExecutionEngine *e) { for (uint i = 0; i < data->stringTableSize; ++i) if (runtimeStrings[i]) runtimeStrings[i]->mark(e); if (runtimeRegularExpressions) { for (uint i = 0; i < data->regexpTableSize; ++i) runtimeRegularExpressions[i].mark(e); } } void CompilationUnit::destroy() { if (qmlEngine) QQmlEnginePrivate::deleteInEngineThread(qmlEngine, this); else delete this; } IdentifierHash CompilationUnit::namedObjectsPerComponent(int componentObjectIndex) { auto it = namedObjectsPerComponentCache.find(componentObjectIndex); if (it == namedObjectsPerComponentCache.end()) { IdentifierHash namedObjectCache(engine); const CompiledData::Object *component = data->objectAt(componentObjectIndex); const LEUInt32 *namedObjectIndexPtr = component->namedObjectsInComponentTable(); for (quint32 i = 0; i < component->nNamedObjectsInComponent; ++i, ++namedObjectIndexPtr) { const CompiledData::Object *namedObject = data->objectAt(*namedObjectIndexPtr); namedObjectCache.add(runtimeStrings[namedObject->idNameIndex], namedObject->id); } it = namedObjectsPerComponentCache.insert(componentObjectIndex, namedObjectCache); } return *it; } void CompilationUnit::finalizeCompositeType(QQmlEnginePrivate *qmlEngine) { this->qmlEngine = qmlEngine; // Add to type registry of composites if (propertyCaches.needsVMEMetaObject(/*root object*/0)) { QQmlMetaType::registerInternalCompositeType(this); qmlEngine->registerInternalCompositeType(this); } else { const QV4::CompiledData::Object *obj = objectAt(/*root object*/0); auto *typeRef = resolvedTypes.value(obj->inheritedTypeNameIndex); Q_ASSERT(typeRef); if (typeRef->compilationUnit) { metaTypeId = typeRef->compilationUnit->metaTypeId; listMetaTypeId = typeRef->compilationUnit->listMetaTypeId; } else { metaTypeId = typeRef->type.typeId(); listMetaTypeId = typeRef->type.qListTypeId(); } } // Collect some data for instantiation later. int bindingCount = 0; int parserStatusCount = 0; int objectCount = 0; for (quint32 i = 0; i < data->nObjects; ++i) { const QV4::CompiledData::Object *obj = data->objectAt(i); bindingCount += obj->nBindings; if (auto *typeRef = resolvedTypes.value(obj->inheritedTypeNameIndex)) { if (typeRef->type.isValid()) { if (typeRef->type.parserStatusCast() != -1) ++parserStatusCount; } ++objectCount; if (typeRef->compilationUnit) { bindingCount += typeRef->compilationUnit->totalBindingsCount; parserStatusCount += typeRef->compilationUnit->totalParserStatusCount; objectCount += typeRef->compilationUnit->totalObjectCount; } } } totalBindingsCount = bindingCount; totalParserStatusCount = parserStatusCount; totalObjectCount = objectCount; } bool CompilationUnit::verifyChecksum(const DependentTypesHasher &dependencyHasher) const { if (!dependencyHasher) { for (size_t i = 0; i < sizeof(data->dependencyMD5Checksum); ++i) { if (data->dependencyMD5Checksum[i] != 0) return false; } return true; } QCryptographicHash hash(QCryptographicHash::Md5); if (!dependencyHasher(&hash)) return false; QByteArray checksum = hash.result(); Q_ASSERT(checksum.size() == sizeof(data->dependencyMD5Checksum)); return memcmp(data->dependencyMD5Checksum, checksum.constData(), sizeof(data->dependencyMD5Checksum)) == 0; } bool CompilationUnit::loadFromDisk(const QUrl &url, const QDateTime &sourceTimeStamp, EvalISelFactory *iselFactory, QString *errorString) { if (!QQmlFile::isLocalFile(url)) { *errorString = QStringLiteral("File has to be a local file."); return false; } const QString sourcePath = QQmlFile::urlToLocalFileOrQrc(url); QScopedPointer cacheFile(new CompilationUnitMapper()); CompiledData::Unit *mappedUnit = cacheFile->open(cacheFilePath(url), sourceTimeStamp, errorString); if (!mappedUnit) return false; const Unit * const oldDataPtr = (data && !(data->flags & QV4::CompiledData::Unit::StaticData)) ? data : nullptr; QScopedValueRollback dataPtrChange(data, mappedUnit); if (data->sourceFileIndex != 0 && sourcePath != QQmlFile::urlToLocalFileOrQrc(stringAt(data->sourceFileIndex))) { *errorString = QStringLiteral("QML source file has moved to a different location."); return false; } { const QString foundArchitecture = stringAt(data->architectureIndex); const QString expectedArchitecture = QSysInfo::buildAbi(); if (foundArchitecture != expectedArchitecture) { *errorString = QString::fromUtf8("Architecture mismatch. Found %1 expected %2").arg(foundArchitecture).arg(expectedArchitecture); return false; } } { const QString foundCodeGenerator = stringAt(data->codeGeneratorIndex); const QString expectedCodeGenerator = iselFactory->codeGeneratorName; if (foundCodeGenerator != expectedCodeGenerator) { *errorString = QString::fromUtf8("Code generator mismatch. Found code generated by %1 but expected %2").arg(foundCodeGenerator).arg(expectedCodeGenerator); return false; } } if (!memoryMapCode(errorString)) return false; dataPtrChange.commit(); free(const_cast(oldDataPtr)); backingFile.reset(cacheFile.take()); return true; } bool CompilationUnit::memoryMapCode(QString *errorString) { *errorString = QStringLiteral("Missing code mapping backend"); return false; } #endif // V4_BOOTSTRAP #if defined(V4_BOOTSTRAP) bool CompilationUnit::saveToDisk(const QString &outputFileName, QString *errorString) #else bool CompilationUnit::saveToDisk(const QUrl &unitUrl, QString *errorString) #endif { errorString->clear(); #if !defined(V4_BOOTSTRAP) if (data->sourceTimeStamp == 0) { *errorString = QStringLiteral("Missing time stamp for source file"); return false; } if (!QQmlFile::isLocalFile(unitUrl)) { *errorString = QStringLiteral("File has to be a local file."); return false; } const QString outputFileName = cacheFilePath(unitUrl); #endif #if QT_CONFIG(temporaryfile) // Foo.qml -> Foo.qmlc QSaveFile cacheFile(outputFileName); if (!cacheFile.open(QIODevice::WriteOnly | QIODevice::Truncate)) { *errorString = cacheFile.errorString(); return false; } QByteArray modifiedUnit; modifiedUnit.resize(data->unitSize); memcpy(modifiedUnit.data(), data, data->unitSize); const char *dataPtr = modifiedUnit.data(); Unit *unitPtr; memcpy(&unitPtr, &dataPtr, sizeof(unitPtr)); unitPtr->flags |= Unit::StaticData; prepareCodeOffsetsForDiskStorage(unitPtr); qint64 headerWritten = cacheFile.write(modifiedUnit); if (headerWritten != modifiedUnit.size()) { *errorString = cacheFile.errorString(); return false; } if (!saveCodeToDisk(&cacheFile, unitPtr, errorString)) return false; if (!cacheFile.commit()) { *errorString = cacheFile.errorString(); return false; } return true; #else Q_UNUSED(outputFileName) *errorString = QStringLiteral("features.temporaryfile is disabled."); return false; #endif // QT_CONFIG(temporaryfile) } void CompilationUnit::prepareCodeOffsetsForDiskStorage(Unit *unit) { Q_UNUSED(unit); } bool CompilationUnit::saveCodeToDisk(QIODevice *device, const Unit *unit, QString *errorString) { Q_UNUSED(device); Q_UNUSED(unit); *errorString = QStringLiteral("Saving code to disk is not supported in this configuration"); return false; } Unit *CompilationUnit::createUnitData(QmlIR::Document *irDocument) { if (!irDocument->javaScriptCompilationUnit->data) return irDocument->jsGenerator.generateUnit(QV4::Compiler::JSUnitGenerator::GenerateWithoutStringTable); QQmlRefPointer compilationUnit = irDocument->javaScriptCompilationUnit; QV4::CompiledData::Unit *jsUnit = const_cast(compilationUnit->data); auto ensureWritableUnit = [&jsUnit, &compilationUnit]() { if (jsUnit == compilationUnit->data) { char *unitCopy = (char*)malloc(jsUnit->unitSize); memcpy(unitCopy, jsUnit, jsUnit->unitSize); jsUnit = reinterpret_cast(unitCopy); } }; QV4::Compiler::StringTableGenerator &stringTable = irDocument->jsGenerator.stringTable; if (jsUnit->sourceFileIndex == quint32(0) || jsUnit->stringAt(jsUnit->sourceFileIndex) != irDocument->jsModule.fileName) { ensureWritableUnit(); jsUnit->sourceFileIndex = stringTable.registerString(irDocument->jsModule.fileName); jsUnit->finalUrlIndex = stringTable.registerString(irDocument->jsModule.finalUrl); } // Collect signals that have had a change in signature (from onClicked to onClicked(mouse) for example) // and now need fixing in the QV4::CompiledData. Also register strings at the same time, to finalize // the string table. QVector changedSignals; QVector changedSignalParameters; for (QmlIR::Object *o: qAsConst(irDocument->objects)) { for (QmlIR::Binding *binding = o->firstBinding(); binding; binding = binding->next) { if (!(binding->flags & QV4::CompiledData::Binding::IsSignalHandlerExpression)) continue; quint32 functionIndex = binding->value.compiledScriptIndex; QmlIR::CompiledFunctionOrExpression *foe = o->functionsAndExpressions->slowAt(functionIndex); if (!foe) continue; // save absolute index changedSignals << o->runtimeFunctionIndices.at(functionIndex); Q_ASSERT(foe->node); Q_ASSERT(QQmlJS::AST::cast(foe->node)); QQmlJS::AST::FormalParameterList *parameters = QQmlJS::AST::cast(foe->node)->formals; changedSignalParameters << parameters; for (; parameters; parameters = parameters->next) stringTable.registerString(parameters->name.toString()); } } QVector signalParameterNameTable; quint32 signalParameterNameTableOffset = jsUnit->unitSize; // Update signal signatures if (!changedSignals.isEmpty()) { if (jsUnit == compilationUnit->data) { char *unitCopy = (char*)malloc(jsUnit->unitSize); memcpy(unitCopy, jsUnit, jsUnit->unitSize); jsUnit = reinterpret_cast(unitCopy); } for (int i = 0; i < changedSignals.count(); ++i) { const uint functionIndex = changedSignals.at(i); // The data is now read-write due to the copy above, so the const_cast is ok. QV4::CompiledData::Function *function = const_cast(jsUnit->functionAt(functionIndex)); Q_ASSERT(function->nFormals == quint32(0)); function->formalsOffset = signalParameterNameTableOffset - jsUnit->functionOffsetTable()[functionIndex]; for (QQmlJS::AST::FormalParameterList *parameters = changedSignalParameters.at(i); parameters; parameters = parameters->next) { signalParameterNameTable.append(stringTable.getStringId(parameters->name.toString())); function->nFormals = function->nFormals + 1; } // Hack to ensure an activation is created. function->flags |= QV4::CompiledData::Function::HasCatchOrWith | QV4::CompiledData::Function::HasDirectEval; signalParameterNameTableOffset += function->nFormals * sizeof(quint32); } } if (!signalParameterNameTable.isEmpty()) { ensureWritableUnit(); Q_ASSERT(jsUnit != compilationUnit->data); const uint signalParameterTableSize = signalParameterNameTable.count() * sizeof(quint32); uint newSize = jsUnit->unitSize + signalParameterTableSize; const uint oldSize = jsUnit->unitSize; char *unitWithSignalParameters = (char*)realloc(jsUnit, newSize); memcpy(unitWithSignalParameters + oldSize, signalParameterNameTable.constData(), signalParameterTableSize); jsUnit = reinterpret_cast(unitWithSignalParameters); jsUnit->unitSize = newSize; } if (jsUnit != compilationUnit->data) jsUnit->flags &= ~QV4::CompiledData::Unit::StaticData; return jsUnit; } QString Binding::valueAsString(const Unit *unit) const { switch (type) { case Type_Script: case Type_String: return unit->stringAt(stringIndex); case Type_Boolean: return value.b ? QStringLiteral("true") : QStringLiteral("false"); case Type_Number: return QString::number(valueAsNumber()); case Type_Invalid: return QString(); #if !QT_CONFIG(translation) case Type_TranslationById: case Type_Translation: return unit->stringAt(stringIndex); #else case Type_TranslationById: { QByteArray id = unit->stringAt(stringIndex).toUtf8(); return qtTrId(id.constData(), value.translationData.number); } case Type_Translation: { // This code must match that in the qsTr() implementation const QString &path = unit->stringAt(unit->sourceFileIndex); int lastSlash = path.lastIndexOf(QLatin1Char('/')); QStringRef context = (lastSlash > -1) ? path.midRef(lastSlash + 1, path.length() - lastSlash - 5) : QStringRef(); QByteArray contextUtf8 = context.toUtf8(); QByteArray comment = unit->stringAt(value.translationData.commentIndex).toUtf8(); QByteArray text = unit->stringAt(stringIndex).toUtf8(); return QCoreApplication::translate(contextUtf8.constData(), text.constData(), comment.constData(), value.translationData.number); } #endif default: break; } return QString(); } //reverse of Lexer::singleEscape() QString Binding::escapedString(const QString &string) { QString tmp = QLatin1String("\""); for (int i = 0; i < string.length(); ++i) { const QChar &c = string.at(i); switch (c.unicode()) { case 0x08: tmp += QLatin1String("\\b"); break; case 0x09: tmp += QLatin1String("\\t"); break; case 0x0A: tmp += QLatin1String("\\n"); break; case 0x0B: tmp += QLatin1String("\\v"); break; case 0x0C: tmp += QLatin1String("\\f"); break; case 0x0D: tmp += QLatin1String("\\r"); break; case 0x22: tmp += QLatin1String("\\\""); break; case 0x27: tmp += QLatin1String("\\\'"); break; case 0x5C: tmp += QLatin1String("\\\\"); break; default: tmp += c; break; } } tmp += QLatin1Char('\"'); return tmp; } QString Binding::valueAsScriptString(const Unit *unit) const { if (type == Type_String) return escapedString(unit->stringAt(stringIndex)); else return valueAsString(unit); } #ifndef V4_BOOTSTRAP /*! Returns the property cache, if one alread exists. The cache is not referenced. */ QQmlPropertyCache *ResolvedTypeReference::propertyCache() const { if (type.isValid()) return typePropertyCache; else return compilationUnit->rootPropertyCache(); } /*! Returns the property cache, creating one if it doesn't already exist. The cache is not referenced. */ QQmlPropertyCache *ResolvedTypeReference::createPropertyCache(QQmlEngine *engine) { if (typePropertyCache) { return typePropertyCache; } else if (type.isValid()) { typePropertyCache = QQmlEnginePrivate::get(engine)->cache(type.metaObject()); return typePropertyCache; } else { return compilationUnit->rootPropertyCache(); } } bool ResolvedTypeReference::addToHash(QCryptographicHash *hash, QQmlEngine *engine) { if (type.isValid()) { bool ok = false; hash->addData(createPropertyCache(engine)->checksum(&ok)); return ok; } hash->addData(compilationUnit->data->md5Checksum, sizeof(compilationUnit->data->md5Checksum)); return true; } template bool qtTypeInherits(const QMetaObject *mo) { while (mo) { if (mo == &T::staticMetaObject) return true; mo = mo->superClass(); } return false; } void ResolvedTypeReference::doDynamicTypeCheck() { const QMetaObject *mo = 0; if (typePropertyCache) mo = typePropertyCache->firstCppMetaObject(); else if (type.isValid()) mo = type.metaObject(); else if (compilationUnit) mo = compilationUnit->rootPropertyCache()->firstCppMetaObject(); isFullyDynamicType = qtTypeInherits(mo); } static QByteArray ownLibraryChecksum() { static QByteArray libraryChecksum; static bool checksumInitialized = false; if (checksumInitialized) return libraryChecksum; checksumInitialized = true; #if defined(QT_BUILD_INTERNAL) && !defined(QT_NO_DYNAMIC_CAST) && QT_CONFIG(dlopen) // This is a bit of a hack to make development easier. When hacking on the code generator // the cache files may end up being re-used. To avoid that we also add the checksum of // the QtQml library. Dl_info libInfo; if (dladdr(reinterpret_cast(&ownLibraryChecksum), &libInfo) != 0) { QFile library(QFile::decodeName(libInfo.dli_fname)); if (library.open(QIODevice::ReadOnly)) { QCryptographicHash hash(QCryptographicHash::Md5); hash.addData(&library); libraryChecksum = hash.result(); } } #elif defined(QML_COMPILE_HASH) libraryChecksum = QByteArray(QT_STRINGIFY(QML_COMPILE_HASH)); #else // Not implemented. #endif return libraryChecksum; } bool ResolvedTypeReferenceMap::addToHash(QCryptographicHash *hash, QQmlEngine *engine) const { for (auto it = constBegin(), end = constEnd(); it != end; ++it) { if (!it.value()->addToHash(hash, engine)) return false; } hash->addData(ownLibraryChecksum()); return true; } #endif void Unit::generateChecksum() { #ifndef V4_BOOTSTRAP QCryptographicHash hash(QCryptographicHash::Md5); const int checksummableDataOffset = offsetof(QV4::CompiledData::Unit, md5Checksum) + sizeof(md5Checksum); const char *dataPtr = reinterpret_cast(this) + checksummableDataOffset; hash.addData(dataPtr, unitSize - checksummableDataOffset); QByteArray checksum = hash.result(); Q_ASSERT(checksum.size() == sizeof(md5Checksum)); memcpy(md5Checksum, checksum.constData(), sizeof(md5Checksum)); #else memset(md5Checksum, 0, sizeof(md5Checksum)); #endif } } } QT_END_NAMESPACE