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/**
* Licensed to the Apache Software Foundation (ASF) under one
* or more contributor license agreements. See the NOTICE file
* distributed with this work for additional information
* regarding copyright ownership. The ASF licenses this file
* to you under the Apache License, Version 2.0 (the
* "License"); you may not use this file except in compliance
* with the License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing,
* software distributed under the License is distributed on an
* "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
* KIND, either express or implied. See the License for the
* specific language governing permissions and limitations
* under the License.
*/
package org.apache.cxf.common.xmlschema;
import java.util.ArrayList;
import java.util.List;
import java.util.logging.Logger;
import javax.xml.namespace.QName;
import org.apache.cxf.common.WSDLConstants;
import org.apache.cxf.common.i18n.Message;
import org.apache.cxf.common.logging.LogUtils;
import org.apache.ws.commons.schema.XmlSchema;
import org.apache.ws.commons.schema.XmlSchemaAll;
import org.apache.ws.commons.schema.XmlSchemaAnnotated;
import org.apache.ws.commons.schema.XmlSchemaAny;
import org.apache.ws.commons.schema.XmlSchemaAnyAttribute;
import org.apache.ws.commons.schema.XmlSchemaAttribute;
import org.apache.ws.commons.schema.XmlSchemaAttributeOrGroupRef;
import org.apache.ws.commons.schema.XmlSchemaChoice;
import org.apache.ws.commons.schema.XmlSchemaComplexContentExtension;
import org.apache.ws.commons.schema.XmlSchemaComplexType;
import org.apache.ws.commons.schema.XmlSchemaContent;
import org.apache.ws.commons.schema.XmlSchemaContentModel;
import org.apache.ws.commons.schema.XmlSchemaElement;
import org.apache.ws.commons.schema.XmlSchemaEnumerationFacet;
import org.apache.ws.commons.schema.XmlSchemaExternal;
import org.apache.ws.commons.schema.XmlSchemaFacet;
import org.apache.ws.commons.schema.XmlSchemaForm;
import org.apache.ws.commons.schema.XmlSchemaImport;
import org.apache.ws.commons.schema.XmlSchemaObject;
import org.apache.ws.commons.schema.XmlSchemaParticle;
import org.apache.ws.commons.schema.XmlSchemaSequence;
import org.apache.ws.commons.schema.XmlSchemaSequenceMember;
import org.apache.ws.commons.schema.XmlSchemaSimpleType;
import org.apache.ws.commons.schema.XmlSchemaSimpleTypeContent;
import org.apache.ws.commons.schema.XmlSchemaSimpleTypeRestriction;
import org.apache.ws.commons.schema.XmlSchemaType;
/**
* Some functions that avoid problems with Commons XML Schema.
*/
public final class XmlSchemaUtils {
public static final String XSI_NIL = "xsi:nil='true'";
public static final String XSI_NS_ATTR = WSDLConstants.NP_XMLNS + ":"
+ WSDLConstants.NP_SCHEMA_XSI + "='" + WSDLConstants.NS_SCHEMA_XSI + "'";
public static final String XSI_NIL_WITH_PREFIX = XSI_NS_ATTR + " xsi:nil='true'";
private static final Logger LOG = LogUtils.getL7dLogger(XmlSchemaUtils.class);
private static final XmlSchemaSequence EMPTY_SEQUENCE = new XmlSchemaSequence();
private static final XmlSchemaChoice EMPTY_CHOICE = new XmlSchemaChoice();
private static final XmlSchemaAll EMPTY_ALL = new XmlSchemaAll();
private XmlSchemaUtils() {
}
/**
* Wrapper around XmlSchemaElement.setName that checks for inconsistency with
* refName.
* @param element
* @param name
*/
public static void setElementName(XmlSchemaElement element, String name) {
if (name != null
&& element.isRef()
&& !element.getRef().getTargetQName().getLocalPart().equals(name)
&& (element.getQName() == null || element.getQName().getLocalPart().equals(name))) {
LOG.severe("Attempt to set the name of an element with a reference name.");
throw new
XmlSchemaInvalidOperation("Attempt to set the name of an element "
+ "with a reference name.");
}
element.setName(name);
}
/**
* Wrapper around XmlSchemaElement.setRefName that checks for inconsistency with
* name and QName.
* @param element
* @param name
*/
public static void setElementRefName(XmlSchemaElement element, QName name) {
if (name != null
&& ((element.getQName() != null && !element.getQName().equals(name))
|| (element.getName() != null && !element.getName().equals(name.getLocalPart())))) {
LOG.severe("Attempt to set the refName of an element with a name or QName");
throw new
XmlSchemaInvalidOperation("Attempt to set the refName of an element "
+ "with a name or QName.");
}
element.getRef().setTargetQName(name);
// cxf conventionally keeps something in the name slot.
}
/**
* Return true if a simple type is a straightforward XML Schema representation of an enumeration.
* If we discover schemas that are 'enum-like' with more complex structures, we might
* make this deal with them.
* @param type Simple type, possible an enumeration.
* @return true for an enumeration.
*/
public static boolean isEumeration(XmlSchemaSimpleType type) {
XmlSchemaSimpleTypeContent content = type.getContent();
if (!(content instanceof XmlSchemaSimpleTypeRestriction)) {
return false;
}
XmlSchemaSimpleTypeRestriction restriction = (XmlSchemaSimpleTypeRestriction) content;
List facets = restriction.getFacets();
for (XmlSchemaFacet facet : facets) {
if (!(facet instanceof XmlSchemaEnumerationFacet)) {
return false;
}
}
return true;
}
/**
* Retrieve the string values for an enumeration.
* @param type
*/
public static List enumeratorValues(XmlSchemaSimpleType type) {
XmlSchemaSimpleTypeContent content = type.getContent();
XmlSchemaSimpleTypeRestriction restriction = (XmlSchemaSimpleTypeRestriction) content;
List facets = restriction.getFacets();
List values = new ArrayList();
for (XmlSchemaFacet facet : facets) {
XmlSchemaEnumerationFacet enumFacet = (XmlSchemaEnumerationFacet) facet;
values.add(enumFacet.getValue().toString());
}
return values;
}
/**
* Is there an import for a particular namespace in a schema?
* @param schema
* @param namespaceUri
*/
public static boolean schemaImportsNamespace(XmlSchema schema, String namespaceUri) {
List externals = schema.getExternals();
for (XmlSchemaExternal what : externals) {
if (what instanceof XmlSchemaImport) {
XmlSchemaImport imp = (XmlSchemaImport)what;
// already there.
if (namespaceUri.equals(imp.getNamespace())) {
return true;
}
}
}
return false;
}
/**
* Assist in managing the required for imports of peer schemas.
* @param schema
* @param namespaceUri
*/
public static void addImportIfNeeded(XmlSchema schema, String namespaceUri) {
// no need to import nothing or the XSD schema, or the schema we are fixing.
if ("".equals(namespaceUri)
|| XmlSchemaConstants.XSD_NAMESPACE_URI.equals(namespaceUri)
|| schema.getTargetNamespace().equals(namespaceUri)) {
return;
}
List externals = schema.getExternals();
for (XmlSchemaExternal what : externals) {
if (what instanceof XmlSchemaImport) {
XmlSchemaImport imp = (XmlSchemaImport)what;
// already there.
if (namespaceUri.equals(imp.getNamespace())) {
return;
}
}
}
XmlSchemaImport imp = new XmlSchemaImport(schema);
imp.setNamespace(namespaceUri);
}
/**
* For convenience, start from a qname, and add the import if it is non-null
* and has a namespace.
* @see #addImportIfNeeded(XmlSchema, String)
* @param schema
* @param qname
*/
public static void addImportIfNeeded(XmlSchema schema, QName qname) {
if (qname == null) {
return;
}
if (qname.getNamespaceURI() == null) {
return;
}
addImportIfNeeded(schema, qname.getNamespaceURI());
}
/**
* This copes with an observed phenomenon in the schema built by the
* ReflectionServiceFactoryBean. It is creating element such that: (a) the
* type is not set. (b) the refName is set. (c) the namespaceURI in the
* refName is set empty. This apparently indicates 'same Schema' to everyone
* else, so thus function implements that convention here. It is unclear if
* that is a correct structure, and it if changes, we can simplify or
* eliminate this function.
*
* @param name
* @param referencingURI
*/
public static XmlSchemaElement findElementByRefName(SchemaCollection xmlSchemaCollection,
QName name,
String referencingURI) {
String uri = name.getNamespaceURI();
if ("".equals(uri)) {
uri = referencingURI;
}
QName copyName = new QName(uri, name.getLocalPart());
XmlSchemaElement target = xmlSchemaCollection.getElementByQName(copyName);
assert target != null;
return target;
}
public static QName getBaseType(XmlSchemaComplexType type) {
XmlSchemaContentModel model = type.getContentModel();
if (model == null) {
return null;
}
XmlSchemaContent content = model.getContent();
if (content == null) {
return null;
}
if (!(content instanceof XmlSchemaComplexContentExtension)) {
return null;
}
XmlSchemaComplexContentExtension ext = (XmlSchemaComplexContentExtension)content;
return ext.getBaseTypeName();
}
public static List getContentAttributes(XmlSchemaComplexType type) {
XmlSchemaContentModel model = type.getContentModel();
if (model == null) {
return null;
}
XmlSchemaContent content = model.getContent();
if (content == null) {
return null;
}
if (!(content instanceof XmlSchemaComplexContentExtension)) {
return null;
}
//TODO: the anyAttribute case.
XmlSchemaComplexContentExtension ext = (XmlSchemaComplexContentExtension)content;
return ext.getAttributes();
}
public static List
getContentAttributes(XmlSchemaComplexType type, SchemaCollection collection) {
List results = new ArrayList();
QName baseTypeName = getBaseType(type);
if (baseTypeName != null) {
XmlSchemaComplexType baseType = (XmlSchemaComplexType)collection.getTypeByQName(baseTypeName);
// recurse onto the base type ...
results.addAll(getContentAttributes(baseType, collection));
// and now process our sequence.
List extAttrs = getContentAttributes(type);
results.addAll(extAttrs);
return results;
} else {
// no base type, the simple case.
List attrs = type.getAttributes();
results.addAll(attrs);
return results;
}
}
public static List getContentElements(XmlSchemaComplexType type,
SchemaCollection collection) {
List results = new ArrayList();
QName baseTypeName = getBaseType(type);
if (baseTypeName != null) {
XmlSchemaComplexType baseType = (XmlSchemaComplexType)collection.getTypeByQName(baseTypeName);
// recurse onto the base type ...
results.addAll(getContentElements(baseType, collection));
// and now process our sequence.
XmlSchemaSequence extSequence = getContentSequence(type);
if (extSequence != null) {
for (XmlSchemaSequenceMember item : extSequence.getItems()) {
/*
* For now, leave the return type alone. Fix some day.
*/
results.add((XmlSchemaObject)item);
}
}
return results;
} else {
// no base type, the simple case.
XmlSchemaSequence sequence = getSequence(type);
for (XmlSchemaSequenceMember item : sequence.getItems()) {
results.add((XmlSchemaObject)item);
}
return results;
}
}
public static XmlSchemaSequence getContentSequence(XmlSchemaComplexType type) {
XmlSchemaContentModel model = type.getContentModel();
if (model == null) {
return null;
}
XmlSchemaContent content = model.getContent();
if (content == null) {
return null;
}
if (!(content instanceof XmlSchemaComplexContentExtension)) {
return null;
}
XmlSchemaComplexContentExtension ext = (XmlSchemaComplexContentExtension)content;
XmlSchemaParticle particle = ext.getParticle();
if (particle == null) {
return null;
}
XmlSchemaSequence sequence = null;
try {
sequence = (XmlSchemaSequence) particle;
} catch (ClassCastException cce) {
unsupportedConstruct("NON_SEQUENCE_PARTICLE", type);
}
return sequence;
}
/**
* By convention, an element that is named in its schema's TNS can have a 'name' but
* no QName. This can get inconvenient for consumers who want to think about qualified names.
* Unfortunately, XmlSchema elements, unlike types, don't store a reference to their containing
* schema.
* @param element
* @param schema
*/
public static QName getElementQualifiedName(XmlSchemaElement element, XmlSchema schema) {
if (element.getQName() != null) {
return element.getQName();
} else if (element.getName() != null) {
return new QName(schema.getTargetNamespace(), element.getName());
} else {
return null;
}
}
/**
* Follow a chain of references from element to element until we can obtain
* a type.
*
* @param element
*/
public static XmlSchemaType getElementType(SchemaCollection xmlSchemaCollection,
String referencingURI,
XmlSchemaElement element,
XmlSchemaType containingType) {
assert element != null;
if (element.getSchemaTypeName() != null) {
XmlSchemaType type = xmlSchemaCollection.getTypeByQName(element.getSchemaTypeName());
if (type == null) {
Message message = new Message("ELEMENT_TYPE_MISSING", LOG, element.getQName(),
element.getSchemaTypeName().toString());
throw new UnsupportedConstruct(message);
}
return type;
}
// The referencing URI only helps if there is a schema that points to
// it.
// It might be the URI for the wsdl TNS, which might have no schema.
if (xmlSchemaCollection.getSchemaByTargetNamespace(referencingURI) == null) {
referencingURI = null;
}
if (referencingURI == null && containingType != null) {
referencingURI = containingType.getQName().getNamespaceURI();
}
XmlSchemaElement originalElement = element;
while (element.getSchemaType() == null && element.isRef()) {
/*
* This code assumes that all schemas are in the collection.
*/
XmlSchemaElement nextElement = element.getRef().getTarget();
assert nextElement != null;
element = nextElement;
}
if (element.getSchemaType() == null) {
unsupportedConstruct("ELEMENT_HAS_NO_TYPE",
originalElement.getName(),
containingType.getQName(),
containingType);
}
return element.getSchemaType();
}
/**
* If the object is an attribute or an anyAttribute,
* return the 'Annotated'. If it's not one of those, or it's a group,
* throw. We're not ready for groups yet.
* @param object
*/
public static XmlSchemaAnnotated getObjectAnnotated(XmlSchemaObject object, QName contextName) {
if (!(object instanceof XmlSchemaAnnotated)) {
unsupportedConstruct("NON_ANNOTATED_ATTRIBUTE",
object.getClass().getSimpleName(),
contextName, object);
}
if (!(object instanceof XmlSchemaAttribute)
&& !(object instanceof XmlSchemaAnyAttribute)) {
unsupportedConstruct("EXOTIC_ATTRIBUTE",
object.getClass().getSimpleName(), contextName,
object);
}
return (XmlSchemaAnnotated) object;
}
/**
* If the object is an element or an any, return the particle. If it's not a particle, or it's a group,
* throw. We're not ready for groups yet.
* @param object
*/
public static XmlSchemaParticle getObjectParticle(XmlSchemaObject object, QName contextName) {
if (!(object instanceof XmlSchemaParticle)) {
unsupportedConstruct("NON_PARTICLE_CHILD",
object.getClass().getSimpleName(),
contextName, object);
}
if (!(object instanceof XmlSchemaElement)
&& !(object instanceof XmlSchemaAny)) {
unsupportedConstruct("GROUP_CHILD",
object.getClass().getSimpleName(), contextName,
object);
}
return (XmlSchemaParticle) object;
}
public static XmlSchemaElement getReferredElement(XmlSchemaElement element,
SchemaCollection xmlSchemaCollection) {
if (element.isRef()) {
/*
* Calling getTarget works if everything is in the collection already.
*/
XmlSchemaElement refElement = element.getRef().getTarget();
if (refElement == null) {
throw new RuntimeException("Dangling reference");
}
return refElement;
}
return null;
}
public static XmlSchemaSequence getSequence(XmlSchemaComplexType type) {
XmlSchemaParticle particle = type.getParticle();
XmlSchemaSequence sequence = null;
if (particle == null) {
// the code that uses this wants to iterate. An empty one is more useful than
// a null pointer, and certainly an exception.
return EMPTY_SEQUENCE;
}
try {
sequence = (XmlSchemaSequence) particle;
} catch (ClassCastException cce) {
unsupportedConstruct("NON_SEQUENCE_PARTICLE", type);
}
return sequence;
}
public static XmlSchemaChoice getChoice(XmlSchemaComplexType type) {
XmlSchemaParticle particle = type.getParticle();
XmlSchemaChoice choice = null;
if (particle == null) {
// the code that uses this wants to iterate. An empty one is more useful than
// a null pointer, and certainly an exception.
return EMPTY_CHOICE;
}
try {
choice = (XmlSchemaChoice) particle;
} catch (ClassCastException cce) {
unsupportedConstruct("NON_CHOICE_PARTICLE", type);
}
return choice;
}
public static XmlSchemaAll getAll(XmlSchemaComplexType type) {
XmlSchemaParticle particle = type.getParticle();
XmlSchemaAll all = null;
if (particle == null) {
// the code that uses this wants to iterate. An empty one is more useful than
// a null pointer, and certainly an exception.
return EMPTY_ALL;
}
try {
all = (XmlSchemaAll) particle;
} catch (ClassCastException cce) {
unsupportedConstruct("NON_CHOICE_PARTICLE", type);
}
return all;
}
public static boolean isAttributeNameQualified(XmlSchemaAttribute attribute, XmlSchema schema) {
if (attribute.isRef()) {
throw new RuntimeException("isElementNameQualified on element with ref=");
}
if (attribute.getForm().equals(XmlSchemaForm.QUALIFIED)) {
return true;
}
if (attribute.getForm().equals(XmlSchemaForm.UNQUALIFIED)) {
return false;
}
return schema.getAttributeFormDefault().equals(XmlSchemaForm.QUALIFIED);
}
/**
* due to a bug, feature, or just plain oddity of JAXB, it isn't good enough
* to just check the form of an element and of its schema. If schema 'a'
* (default unqualified) has a complex type with an element with a ref= to
* schema (b) (default unqualified), JAXB seems to expect to see a
* qualifier, anyway. So, if the element is local to a complex type,
* all we care about is the default element form of the schema and the local
* form of the element. If, on the other hand, the element is global,
* we might need to compare namespaces.
*
* @param attribute the attribute
* @param global if this element is a global element (complex type ref= to
* it, or in a part)
* @param localSchema the schema of the complex type containing the
* reference, only used for the 'odd case'.
* @param attributeSchema the schema for the element.
* @return if the element needs to be qualified.
*/
public static boolean isAttributeQualified(XmlSchemaAttribute attribute,
boolean global,
XmlSchema localSchema,
XmlSchema attributeSchema) {
if (attribute.getQName() == null) {
throw new RuntimeException("getSchemaQualifier on anonymous element.");
}
if (attribute.isRef()) {
throw new RuntimeException("getSchemaQualified on the 'from' side of ref=.");
}
if (global) {
return isAttributeNameQualified(attribute, attributeSchema)
|| (localSchema != null
&& !(attribute.getQName().getNamespaceURI().equals(localSchema.getTargetNamespace())));
} else {
return isAttributeNameQualified(attribute, attributeSchema);
}
}
public static boolean isComplexType(XmlSchemaType type) {
return type instanceof XmlSchemaComplexType;
}
public static boolean isElementNameQualified(XmlSchemaElement element, XmlSchema schema) {
if (element.isRef()) {
throw new RuntimeException("isElementNameQualified on element with ref=");
}
if (element.getForm().equals(XmlSchemaForm.QUALIFIED)) {
return true;
}
if (element.getForm().equals(XmlSchemaForm.UNQUALIFIED)) {
return false;
}
return schema.getElementFormDefault().equals(XmlSchemaForm.QUALIFIED);
}
/**
* due to a bug, feature, or just plain oddity of JAXB, it isn't good enough
* to just check the form of an element and of its schema. If schema 'a'
* (default unqualified) has a complex type with an element with a ref= to
* schema (b) (default unqualified), JAXB seems to expect to see a
* qualifier, anyway. So, if the element is local to a complex type,
* all we care about is the default element form of the schema and the local
* form of the element. If, on the other hand, the element is global,
* we might need to compare namespaces.
*
* @param element the element.
* @param global if this element is a global element (complex type ref= to
* it, or in a part)
* @param localSchema the schema of the complex type containing the
* reference, only used for the 'odd case'.
* @param elementSchema the schema for the element.
* @return if the element needs to be qualified.
*/
public static boolean isElementQualified(XmlSchemaElement element,
boolean global,
XmlSchema localSchema,
XmlSchema elementSchema) {
QName qn = getElementQualifiedName(element, localSchema);
if (qn == null) {
throw new RuntimeException("isElementQualified on anonymous element.");
}
if (element.isRef()) {
throw new RuntimeException("isElementQualified on the 'from' side of ref=.");
}
if (global) {
return isElementNameQualified(element, elementSchema)
|| (localSchema != null
&& !(qn.getNamespaceURI().equals(localSchema.getTargetNamespace())));
} else {
return isElementNameQualified(element, elementSchema);
}
}
public static boolean isParticleArray(XmlSchemaParticle particle) {
return particle.getMaxOccurs() > 1;
}
public static boolean isParticleOptional(XmlSchemaParticle particle) {
return particle.getMinOccurs() == 0 && particle.getMaxOccurs() == 1;
}
public static void unsupportedConstruct(String messageKey,
String what,
QName subjectName,
XmlSchemaObject subject) {
Message message = new Message(messageKey, LOG, what,
subjectName == null ? "anonymous" : subjectName,
cleanedUpSchemaSource(subject));
LOG.severe(message.toString());
throw new UnsupportedConstruct(message);
}
public static void unsupportedConstruct(String messageKey, XmlSchemaType subject) {
Message message = new Message(messageKey, LOG, subject.getQName(),
cleanedUpSchemaSource(subject));
LOG.severe(message.toString());
throw new UnsupportedConstruct(message);
}
public static String cleanedUpSchemaSource(XmlSchemaObject subject) {
if (subject == null || subject.getSourceURI() == null) {
return "";
} else {
return subject.getSourceURI() + ":" + subject.getLineNumber();
}
}
}
