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These rights are described in the Digia Qt LGPL Exception ** version 1.1, included in the file LGPL_EXCEPTION.txt in this package. ** ** GNU General Public License Usage ** Alternatively, this file may be used under the terms of the GNU ** General Public License version 3.0 as published by the Free Software ** Foundation and appearing in the file LICENSE.GPL included in the ** packaging of this file. Please review the following information to ** ensure the GNU General Public License version 3.0 requirements will be ** met: http://www.gnu.org/copyleft/gpl.html. ** ** ** $QT_END_LICENSE$ ** ****************************************************************************/ #include "qxsdparticlechecker_p.h" #include "qxsdelement_p.h" #include "qxsdmodelgroup_p.h" #include "qxsdschemahelper_p.h" #include "qxsdstatemachine_p.h" #include "qxsdstatemachinebuilder_p.h" #include "qxsdtypechecker_p.h" #include QT_BEGIN_NAMESPACE using namespace QPatternist; namespace QPatternist { /** * This template specialization is picked up by XsdStateMachine and allows us * to print nice edge labels. */ template <> QString XsdStateMachine::transitionTypeToString(XsdTerm::Ptr term) const { if (!term) return QLatin1String("(empty)"); if (term->isElement()) { return XsdElement::Ptr(term)->displayName(m_namePool); } else if (term->isWildcard()) { const XsdWildcard::Ptr wildcard(term); return QLatin1String("(wildcard)"); } else { return QString(); } } } /** * This method is used by the isUPAConform method to check whether @p term and @p otherTerm * are the same resp. match each other. */ static bool termMatches(const XsdTerm::Ptr &term, const XsdTerm::Ptr &otherTerm, const NamePool::Ptr &namePool) { if (term->isElement()) { const XsdElement::Ptr element(term); if (otherTerm->isElement()) { // both, the term and the other term are elements const XsdElement::Ptr otherElement(otherTerm); // if they have the same name they match if (element->name(namePool) == otherElement->name(namePool)) return true; } else if (otherTerm->isWildcard()) { // the term is an element and the other term a wildcard const XsdWildcard::Ptr wildcard(otherTerm); // wildcards using XsdWildcard::absentNamespace, so we have to fix that here QXmlName name = element->name(namePool); if (name.namespaceURI() == StandardNamespaces::empty) name.setNamespaceURI(namePool->allocateNamespace(XsdWildcard::absentNamespace())); // if the wildcards namespace constraint allows the elements name, they match if (XsdSchemaHelper::wildcardAllowsExpandedName(name, wildcard, namePool)) return true; } } else if (term->isWildcard()) { const XsdWildcard::Ptr wildcard(term); if (otherTerm->isElement()) { // the term is a wildcard and the other term an element const XsdElement::Ptr otherElement(otherTerm); // wildcards using XsdWildcard::absentNamespace, so we have to fix that here QXmlName name = otherElement->name(namePool); if (name.namespaceURI() == StandardNamespaces::empty) name.setNamespaceURI(namePool->allocateNamespace(XsdWildcard::absentNamespace())); // if the wildcards namespace constraint allows the elements name, they match if (XsdSchemaHelper::wildcardAllowsExpandedName(name, wildcard, namePool)) return true; } else if (otherTerm->isWildcard()) { // both, the term and the other term are wildcards const XsdWildcard::Ptr otherWildcard(otherTerm); // check if the range of the wildcard overlaps. const XsdWildcard::Ptr intersectionWildcard = XsdSchemaHelper::wildcardIntersection(wildcard, otherWildcard); if (!intersectionWildcard || (intersectionWildcard && !(intersectionWildcard->namespaceConstraint()->variety() != XsdWildcard::NamespaceConstraint::Not && intersectionWildcard->namespaceConstraint()->namespaces().isEmpty()))) return true; } } return false; } /** * This method is used by the subsumes algorithm to check whether the @p derivedTerm is validly derived from the @p baseTerm. * * @param baseTerm The term of the base component (type or group). * @param derivedTerm The term of the derived component (type or group). * @param particles A hash to map the passed base and derived term to the particles they belong to. * @param context The schema context. * @param errorMsg The error message in the case that an error occurs. */ static bool derivedTermValid(const XsdTerm::Ptr &baseTerm, const XsdTerm::Ptr &derivedTerm, const QHash &particles, const XsdSchemaContext::Ptr &context, QString &errorMsg) { const NamePool::Ptr namePool(context->namePool()); // find the particles where the base and derived term belongs to const XsdParticle::Ptr baseParticle = particles.value(baseTerm); const XsdParticle::Ptr derivedParticle = particles.value(derivedTerm); // check that an empty particle can not be derived from a non-empty particle if (derivedParticle && baseParticle) { if (XsdSchemaHelper::isParticleEmptiable(derivedParticle) && !XsdSchemaHelper::isParticleEmptiable(baseParticle)) { errorMsg = QtXmlPatterns::tr("Empty particle cannot be derived from non-empty particle."); return false; } } if (baseTerm->isElement()) { const XsdElement::Ptr element(baseTerm); if (derivedTerm->isElement()) { // if both terms are elements const XsdElement::Ptr derivedElement(derivedTerm); // check names are equal if (element->name(namePool) != derivedElement->name(namePool)) { errorMsg = QtXmlPatterns::tr("Derived particle is missing element %1.").arg(formatKeyword(element->displayName(namePool))); return false; } // check value constraints are equal (if available) if (element->valueConstraint() && element->valueConstraint()->variety() == XsdElement::ValueConstraint::Fixed) { if (!derivedElement->valueConstraint()) { errorMsg = QtXmlPatterns::tr("Derived element %1 is missing value constraint as defined in base particle.").arg(formatKeyword(derivedElement->displayName(namePool))); return false; } if (derivedElement->valueConstraint()->variety() != XsdElement::ValueConstraint::Fixed) { errorMsg = QtXmlPatterns::tr("Derived element %1 has weaker value constraint than base particle.").arg(formatKeyword(derivedElement->displayName(namePool))); return false; } const QSourceLocation dummyLocation(QUrl(QLatin1String("http://dummy.org")), 1, 1); const XsdTypeChecker checker(context, QVector(), dummyLocation); if (!checker.valuesAreEqual(element->valueConstraint()->value(), derivedElement->valueConstraint()->value(), derivedElement->type())) { errorMsg = QtXmlPatterns::tr("Fixed value constraint of element %1 differs from value constraint in base particle.").arg(formatKeyword(derivedElement->displayName(namePool))); return false; } } // check that a derived element can not be nillable if the base element is not nillable if (!element->isNillable() && derivedElement->isNillable()) { errorMsg = QtXmlPatterns::tr("Derived element %1 cannot be nillable as base element is not nillable.").arg(formatKeyword(derivedElement->displayName(namePool))); return false; } // check that the constraints of the derived element are more strict then the constraints of the base element const XsdElement::BlockingConstraints baseConstraints = element->disallowedSubstitutions(); const XsdElement::BlockingConstraints derivedConstraints = derivedElement->disallowedSubstitutions(); if (((baseConstraints & XsdElement::RestrictionConstraint) && !(derivedConstraints & XsdElement::RestrictionConstraint)) || ((baseConstraints & XsdElement::ExtensionConstraint) && !(derivedConstraints & XsdElement::ExtensionConstraint)) || ((baseConstraints & XsdElement::SubstitutionConstraint) && !(derivedConstraints & XsdElement::SubstitutionConstraint))) { errorMsg = QtXmlPatterns::tr("Block constraints of derived element %1 must not be more weaker than in the base element.").arg(formatKeyword(derivedElement->displayName(namePool))); return false; } // if the type of both elements is the same we can stop testing here if (element->type()->name(namePool) == derivedElement->type()->name(namePool)) return true; // check that the type of the derived element can validly derived from the type of the base element if (derivedElement->type()->isSimpleType()) { if (!XsdSchemaHelper::isSimpleDerivationOk(derivedElement->type(), element->type(), SchemaType::DerivationConstraints())) { errorMsg = QtXmlPatterns::tr("Simple type of derived element %1 cannot be validly derived from base element.").arg(formatKeyword(derivedElement->displayName(namePool))); return false; } } else if (derivedElement->type()->isComplexType()) { if (!XsdSchemaHelper::isComplexDerivationOk(derivedElement->type(), element->type(), SchemaType::DerivationConstraints())) { errorMsg = QtXmlPatterns::tr("Complex type of derived element %1 cannot be validly derived from base element.").arg(formatKeyword(derivedElement->displayName(namePool))); return false; } } // if both, derived and base element, have a complex type that contains a particle itself, apply the subsumes algorithm // recursive on their particles if (element->type()->isComplexType() && derivedElement->type()->isComplexType()) { if (element->type()->isDefinedBySchema() && derivedElement->type()->isDefinedBySchema()) { const XsdComplexType::Ptr baseType(element->type()); const XsdComplexType::Ptr derivedType(derivedElement->type()); if ((baseType->contentType()->variety() == XsdComplexType::ContentType::ElementOnly || baseType->contentType()->variety() == XsdComplexType::ContentType::Mixed) && (derivedType->contentType()->variety() == XsdComplexType::ContentType::ElementOnly || derivedType->contentType()->variety() == XsdComplexType::ContentType::Mixed)) { return XsdParticleChecker::subsumes(baseType->contentType()->particle(), derivedType->contentType()->particle(), context, errorMsg); } } } return true; } else if (derivedTerm->isWildcard()) { // derive a wildcard from an element is not allowed errorMsg = QtXmlPatterns::tr("Element %1 is missing in derived particle.").arg(formatKeyword(element->displayName(namePool))); return false; } } else if (baseTerm->isWildcard()) { const XsdWildcard::Ptr wildcard(baseTerm); if (derivedTerm->isElement()) { // the base term is a wildcard and derived term an element const XsdElement::Ptr derivedElement(derivedTerm); // wildcards using XsdWildcard::absentNamespace, so we have to fix that here QXmlName name = derivedElement->name(namePool); if (name.namespaceURI() == StandardNamespaces::empty) name.setNamespaceURI(namePool->allocateNamespace(XsdWildcard::absentNamespace())); // check that name of the element is allowed by the wildcards namespace constraint if (!XsdSchemaHelper::wildcardAllowsExpandedName(name, wildcard, namePool)) { errorMsg = QtXmlPatterns::tr("Element %1 does not match namespace constraint of wildcard in base particle.").arg(formatKeyword(derivedElement->displayName(namePool))); return false; } } else if (derivedTerm->isWildcard()) { // both, derived and base term are wildcards const XsdWildcard::Ptr derivedWildcard(derivedTerm); // check that the derived wildcard is a valid subset of the base wildcard if (!XsdSchemaHelper::isWildcardSubset(derivedWildcard, wildcard)) { errorMsg = QtXmlPatterns::tr("Wildcard in derived particle is not a valid subset of wildcard in base particle."); return false; } if (!XsdSchemaHelper::checkWildcardProcessContents(wildcard, derivedWildcard)) { errorMsg = QtXmlPatterns::tr("processContent of wildcard in derived particle is weaker than wildcard in base particle."); return false; } } return true; } return false; } typedef QHash ElementHash; /** * Internal helper method that checks if the given @p particle contains an element with the * same name and type twice. */ static bool hasDuplicatedElementsInternal(const XsdParticle::Ptr &particle, const NamePool::Ptr &namePool, ElementHash &hash, XsdElement::Ptr &conflictingElement) { const XsdTerm::Ptr term = particle->term(); if (term->isElement()) { const XsdElement::Ptr mainElement(term); XsdElement::WeakList substGroups = mainElement->substitutionGroups(); if (substGroups.isEmpty()) substGroups << mainElement.data(); for (int i = 0; i < substGroups.count(); ++i) { const XsdElement::Ptr element(substGroups.at(i)); if (hash.contains(element->name(namePool))) { if (element->type()->name(namePool) != hash.value(element->name(namePool))->type()->name(namePool)) { conflictingElement = element; return true; } } else { hash.insert(element->name(namePool), element); } } } else if (term->isModelGroup()) { const XsdModelGroup::Ptr group(term); const XsdParticle::List particles = group->particles(); for (int i = 0; i < particles.count(); ++i) { if (hasDuplicatedElementsInternal(particles.at(i), namePool, hash, conflictingElement)) return true; } } return false; } bool XsdParticleChecker::hasDuplicatedElements(const XsdParticle::Ptr &particle, const NamePool::Ptr &namePool, XsdElement::Ptr &conflictingElement) { ElementHash hash; return hasDuplicatedElementsInternal(particle, namePool, hash, conflictingElement); } bool XsdParticleChecker::isUPAConform(const XsdParticle::Ptr &particle, const NamePool::Ptr &namePool) { /** * In case we encounter an element, don't construct a state machine, but use the approach * described at http://www.w3.org/TR/xmlschema-1/#non-ambig * Reason: For n elements inside the , represented in the NDA, the state machine * constructs n! states in the DFA, which does not scale. */ if (particle->term()->isModelGroup()) { const XsdModelGroup::Ptr group(particle->term()); if (group->compositor() == XsdModelGroup::AllCompositor) return isUPAConformXsdAll(particle, namePool); } /** * The algorithm is implemented like described in http://www.ltg.ed.ac.uk/~ht/XML_Europe_2003.html#S2.2 */ // create a state machine for the given particle XsdStateMachine stateMachine(namePool); XsdStateMachineBuilder builder(&stateMachine, namePool); const XsdStateMachine::StateId endState = builder.reset(); const XsdStateMachine::StateId startState = builder.buildParticle(particle, endState); builder.addStartState(startState); /* static int counter = 0; { QFile file(QString("/tmp/file_upa%1.dot").arg(counter)); file.open(QIODevice::WriteOnly); stateMachine.outputGraph(&file, "Base"); file.close(); } ::system(QString("dot -Tpng /tmp/file_upa%1.dot -o/tmp/file_upa%1.png").arg(counter).toLatin1().data()); */ const XsdStateMachine dfa = stateMachine.toDFA(); /* { QFile file(QString("/tmp/file_upa%1dfa.dot").arg(counter)); file.open(QIODevice::WriteOnly); dfa.outputGraph(&file, "Base"); file.close(); } ::system(QString("dot -Tpng /tmp/file_upa%1dfa.dot -o/tmp/file_upa%1dfa.png").arg(counter).toLatin1().data()); */ const QHash::StateId, XsdStateMachine::StateType> states = dfa.states(); const QHash::StateId, QHash::StateId> > > transitions = dfa.transitions(); // the basic idea of that algorithm is to iterate over all states of that machine and check that no two edges // that match on the same term leave a state, so for a given term it should always be obvious which edge to take QHashIterator::StateId, XsdStateMachine::StateType> stateIt(states); while (stateIt.hasNext()) { // iterate over all states stateIt.next(); // fetch all transitions the current state allows const QHash::StateId> > currentTransitions = transitions.value(stateIt.key()); QHashIterator::StateId> > transitionIt(currentTransitions); while (transitionIt.hasNext()) { // iterate over all transitions transitionIt.next(); if (transitionIt.value().size() > 1) { // we have one state with two edges leaving it, that means // the XsdTerm::Ptr exists twice, that is an error return false; } QHashIterator::StateId> > innerTransitionIt(currentTransitions); while (innerTransitionIt.hasNext()) { // iterate over all transitions again, as we have to compare all transitions with all innerTransitionIt.next(); if (transitionIt.key() == innerTransitionIt.key()) // do no compare with ourself continue; // use the helper method termMatches to check if both term matches if (termMatches(transitionIt.key(), innerTransitionIt.key(), namePool)) return false; } } } return true; } bool XsdParticleChecker::isUPAConformXsdAll(const XsdParticle::Ptr &particle, const NamePool::Ptr &namePool) { /** * see http://www.w3.org/TR/xmlschema-1/#non-ambig */ const XsdModelGroup::Ptr group(particle->term()); const XsdParticle::List particles = group->particles(); const int count = particles.count(); for (int left = 0; left < count; ++left) { for (int right = left+1; right < count; ++right) { if (termMatches(particles.at(left)->term(), particles.at(right)->term(), namePool)) return false; } } return true; } bool XsdParticleChecker::subsumes(const XsdParticle::Ptr &particle, const XsdParticle::Ptr &derivedParticle, const XsdSchemaContext::Ptr &context, QString &errorMsg) { /** * The algorithm is implemented like described in http://www.ltg.ed.ac.uk/~ht/XML_Europe_2003.html#S2.3 */ const NamePool::Ptr namePool(context->namePool()); XsdStateMachine baseStateMachine(namePool); XsdStateMachine derivedStateMachine(namePool); // build up state machines for both particles { XsdStateMachineBuilder builder(&baseStateMachine, namePool); const XsdStateMachine::StateId endState = builder.reset(); const XsdStateMachine::StateId startState = builder.buildParticle(particle, endState); builder.addStartState(startState); baseStateMachine = baseStateMachine.toDFA(); } { XsdStateMachineBuilder builder(&derivedStateMachine, namePool); const XsdStateMachine::StateId endState = builder.reset(); const XsdStateMachine::StateId startState = builder.buildParticle(derivedParticle, endState); builder.addStartState(startState); derivedStateMachine = derivedStateMachine.toDFA(); } QHash particlesHash = XsdStateMachineBuilder::particleLookupMap(particle); particlesHash.unite(XsdStateMachineBuilder::particleLookupMap(derivedParticle)); /* static int counter = 0; { QFile file(QString("/tmp/file_base%1.dot").arg(counter)); file.open(QIODevice::WriteOnly); baseStateMachine.outputGraph(&file, QLatin1String("Base")); file.close(); } { QFile file(QString("/tmp/file_derived%1.dot").arg(counter)); file.open(QIODevice::WriteOnly); derivedStateMachine.outputGraph(&file, QLatin1String("Base")); file.close(); } ::system(QString("dot -Tpng /tmp/file_base%1.dot -o/tmp/file_base%1.png").arg(counter).toLatin1().data()); ::system(QString("dot -Tpng /tmp/file_derived%1.dot -o/tmp/file_derived%1.png").arg(counter).toLatin1().data()); */ const XsdStateMachine::StateId baseStartState = baseStateMachine.startState(); const QHash::StateId, XsdStateMachine::StateType> baseStates = baseStateMachine.states(); const QHash::StateId, QHash::StateId> > > baseTransitions = baseStateMachine.transitions(); const XsdStateMachine::StateId derivedStartState = derivedStateMachine.startState(); const QHash::StateId, XsdStateMachine::StateType> derivedStates = derivedStateMachine.states(); const QHash::StateId, QHash::StateId> > > derivedTransitions = derivedStateMachine.transitions(); // @see http://www.ltg.ed.ac.uk/~ht/XML_Europe_2003.html#S2.3.1 // define working set QList::StateId, XsdStateMachine::StateId> > workSet; QList::StateId, XsdStateMachine::StateId> > processedSet; // 1) fill working set initially with start states workSet.append(qMakePair::StateId, XsdStateMachine::StateId>(baseStartState, derivedStartState)); processedSet.append(qMakePair::StateId, XsdStateMachine::StateId>(baseStartState, derivedStartState)); while (!workSet.isEmpty()) { // while there are state sets to process // 3) dequeue on state set const QPair::StateId, XsdStateMachine::StateId> set = workSet.takeFirst(); const QHash::StateId> > derivedTrans = derivedTransitions.value(set.second); QHashIterator::StateId> > derivedIt(derivedTrans); const QHash::StateId> > baseTrans = baseTransitions.value(set.first); while (derivedIt.hasNext()) { derivedIt.next(); bool found = false; QHashIterator::StateId> > baseIt(baseTrans); while (baseIt.hasNext()) { baseIt.next(); if (derivedTermValid(baseIt.key(), derivedIt.key(), particlesHash, context, errorMsg)) { const QPair::StateId, XsdStateMachine::StateId> endSet = qMakePair::StateId, XsdStateMachine::StateId>(baseIt.value().first(), derivedIt.value().first()); if (!processedSet.contains(endSet) && !workSet.contains(endSet)) { workSet.append(endSet); processedSet.append(endSet); } found = true; } } if (!found) { return false; } } } // 5) QHashIterator::StateId, XsdStateMachine::StateType> it(derivedStates); while (it.hasNext()) { it.next(); if (it.value() == XsdStateMachine::EndState || it.value() == XsdStateMachine::StartEndState) { for (int i = 0; i < processedSet.count(); ++i) { if (processedSet.at(i).second == it.key() && (baseStates.value(processedSet.at(i).first) != XsdStateMachine::EndState && baseStates.value(processedSet.at(i).first) != XsdStateMachine::StartEndState)) { errorMsg = QtXmlPatterns::tr("Derived particle allows content that is not allowed in the base particle."); return false; } } } } return true; } QT_END_NAMESPACE