org.apache.ws.commons.schema.XmlSchemaCollection Maven / Gradle / Ivy
/**
* 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.ws.commons.schema;
import java.io.IOException;
import java.io.Reader;
import java.math.BigInteger;
import java.security.AccessController;
import java.security.PrivilegedAction;
import java.security.PrivilegedActionException;
import java.security.PrivilegedExceptionAction;
import java.util.ArrayList;
import java.util.Collection;
import java.util.HashMap;
import java.util.List;
import java.util.Map;
import java.util.Stack;
import javax.xml.namespace.QName;
import javax.xml.parsers.DocumentBuilder;
import javax.xml.parsers.DocumentBuilderFactory;
import javax.xml.parsers.ParserConfigurationException;
import javax.xml.transform.Source;
import javax.xml.transform.dom.DOMSource;
import javax.xml.transform.sax.SAXSource;
import javax.xml.transform.stream.StreamSource;
import org.w3c.dom.Document;
import org.w3c.dom.Element;
import org.w3c.dom.Node;
import org.xml.sax.InputSource;
import org.xml.sax.SAXException;
import org.apache.ws.commons.schema.constants.Constants;
import org.apache.ws.commons.schema.extensions.ExtensionRegistry;
import org.apache.ws.commons.schema.resolver.CollectionURIResolver;
import org.apache.ws.commons.schema.resolver.DefaultURIResolver;
import org.apache.ws.commons.schema.resolver.URIResolver;
import org.apache.ws.commons.schema.utils.DOMUtil;
import org.apache.ws.commons.schema.utils.NamespacePrefixList;
import org.apache.ws.commons.schema.utils.TargetNamespaceValidator;
/**
* Contains a cache of XML Schema definition language (XSD).
*/
public final class XmlSchemaCollection {
/**
* base URI is used as the base for loading the imports
*/
String baseUri;
/**
* Key that identifies a schema in a collection, composed of a targetNamespace and a system ID.
*/
public static class SchemaKey {
private final String namespace;
private final String systemId;
SchemaKey(String pNamespace, String pSystemId) {
namespace = pNamespace == null ? Constants.NULL_NS_URI : pNamespace;
systemId = pSystemId == null ? "" : pSystemId;
}
@Override
public int hashCode() {
final int prime = 31;
int result = 1;
result = prime * result + ((namespace == null) ? 0 : namespace.hashCode());
result = prime * result + ((systemId == null) ? 0 : systemId.hashCode());
return result;
}
@Override
public boolean equals(Object obj) {
if (this == obj) {
return true;
}
if (obj == null) {
return false;
}
if (getClass() != obj.getClass()) {
return false;
}
SchemaKey other = (SchemaKey)obj;
if (namespace == null) {
if (other.namespace != null) {
return false;
}
} else if (!namespace.equals(other.namespace)) {
return false;
}
if (systemId == null) {
if (other.systemId != null) {
return false;
}
} else if (!systemId.equals(other.systemId)) {
return false;
}
return true;
}
public String toString() {
return Constants.NULL_NS_URI.equals(namespace) ? systemId : "{" + namespace + "}" + systemId;
}
String getNamespace() {
return namespace;
}
String getSystemId() {
return systemId;
}
}
/**
* stack to track imports (to prevent recursion)
*/
Stack stack;
Map> unresolvedTypes;
XmlSchema xsd;
// the default extension registry
private ExtensionRegistry extReg;
/**
* This map contains a list of Schema objects keyed in by their namespaces.
* When resolving schemas, this map will be checked for the presence of the schema first.
*/
private Map knownNamespaceMap;
/**
* In-scope namespaces for XML processing
*/
private NamespacePrefixList namespaceContext;
/**
* Resolver to find included schemas.
*/
private URIResolver schemaResolver;
/**
* Map of included schemas.
*/
private Map schemas;
/**
* Creates new XmlSchemaCollection
*/
public XmlSchemaCollection() {
init();
}
/**
* Return an indication of whether a particular schema is in the working stack of schemas. This function,
* while public, is probably not useful outside of the implementation.
*
* @param pKey schema key
* @return true if the schema is in the stack.
*/
public boolean check(SchemaKey pKey) {
return stack.indexOf(pKey) == -1;
}
public ExtensionRegistry getExtReg() {
return extReg;
}
/**
* get the namespace map
*
* @return a map of previously known XMLSchema objects keyed by their namespace (String)
*/
public Map getKnownNamespaceMap() {
return knownNamespaceMap;
}
/**
* Retrieve the namespace context.
*
* @return the namespace context.
*/
public NamespacePrefixList getNamespaceContext() {
return namespaceContext;
}
/**
* Retrieve the custom URI resolver, if any.
*
* @return the current resolver.
*/
public URIResolver getSchemaResolver() {
return schemaResolver;
}
/**
* Retrieve a global type from the schema collection.
*
* @param schemaTypeName the QName of the type.
* @return the type object, or null.
*/
public XmlSchemaType getTypeByQName(QName schemaTypeName) {
String uri = schemaTypeName.getNamespaceURI();
for (Map.Entry entry : schemas.entrySet()) {
if (entry.getKey().getNamespace().equals(uri)) {
XmlSchemaType type = entry.getValue().getTypeByName(schemaTypeName);
if (type != null) {
return type;
}
}
}
return null;
}
/**
* Retrieve a set containing the XmlSchema instances with the given system ID. In general, this will
* return a single instance, or none. However, if the schema has no targetNamespace attribute and was
* included from schemata with different target namespaces, then it may occur, that multiple schema
* instances with different logical target namespaces may be returned.
*
* @param systemId the system id for this schema
* @return array of XmlSchema objects
*/
public XmlSchema[] getXmlSchema(String systemId) {
if (systemId == null) {
systemId = "";
}
final List result = new ArrayList();
for (Map.Entry entry : schemas.entrySet()) {
if (((SchemaKey)entry.getKey()).getSystemId().equals(systemId)) {
result.add(entry.getValue());
}
}
return result.toArray(new XmlSchema[result.size()]);
}
/**
* Returns an array of all the XmlSchemas in this collection.
*
* @return the list of XmlSchema objects
*/
public XmlSchema[] getXmlSchemas() {
Collection c = schemas.values();
return c.toArray(new XmlSchema[c.size()]);
}
/**
* This section should comply to the XMLSchema specification; see
* http://www.w3.org/TR/2004/PER-xmlschema-2-20040318/datatypes.html#built-in-datatypes. This needs to
* be inspected by another pair of eyes
*/
public void init() {
stack = new Stack();
unresolvedTypes = new HashMap>();
extReg = new ExtensionRegistry();
knownNamespaceMap = new HashMap();
schemaResolver = new DefaultURIResolver();
schemas = new HashMap();
// LAST, since the ctor for XmlSchema will reach back into here.
xsd = new XmlSchema(XmlSchema.SCHEMA_NS, this);
/*
* Defined in section 4.
*/
addSimpleType(xsd, Constants.XSD_ANYSIMPLETYPE.getLocalPart());
addSimpleType(xsd, Constants.XSD_ANYTYPE.getLocalPart());
/*
* Primitive types 3.2.1 string 3.2.2 boolean 3.2.3 decimal 3.2.4 float 3.2.5 double 3.2.6 duration
* 3.2.7 dateTime 3.2.8 time 3.2.9 date 3.2.10 gYearMonth 3.2.11 gYear 3.2.12 gMonthDay 3.2.13 gDay
* 3.2.14 gMonth 3.2.15 hexBinary 3.2.16 base64Binary 3.2.17 anyURI 3.2.18 QName 3.2.19 NOTATION
*/
addSimpleType(xsd, Constants.XSD_STRING.getLocalPart());
addSimpleType(xsd, Constants.XSD_BOOLEAN.getLocalPart());
addSimpleType(xsd, Constants.XSD_FLOAT.getLocalPart());
addSimpleType(xsd, Constants.XSD_DOUBLE.getLocalPart());
addSimpleType(xsd, Constants.XSD_QNAME.getLocalPart());
addSimpleType(xsd, Constants.XSD_DECIMAL.getLocalPart());
addSimpleType(xsd, Constants.XSD_DURATION.getLocalPart());
addSimpleType(xsd, Constants.XSD_DATE.getLocalPart());
addSimpleType(xsd, Constants.XSD_TIME.getLocalPart());
addSimpleType(xsd, Constants.XSD_DATETIME.getLocalPart());
addSimpleType(xsd, Constants.XSD_DAY.getLocalPart());
addSimpleType(xsd, Constants.XSD_MONTH.getLocalPart());
addSimpleType(xsd, Constants.XSD_MONTHDAY.getLocalPart());
addSimpleType(xsd, Constants.XSD_YEAR.getLocalPart());
addSimpleType(xsd, Constants.XSD_YEARMONTH.getLocalPart());
addSimpleType(xsd, Constants.XSD_NOTATION.getLocalPart());
addSimpleType(xsd, Constants.XSD_HEXBIN.getLocalPart());
addSimpleType(xsd, Constants.XSD_BASE64.getLocalPart());
addSimpleType(xsd, Constants.XSD_ANYURI.getLocalPart());
/*
* 3.3.1 normalizedString 3.3.2 token 3.3.3 language 3.3.4 NMTOKEN 3.3.5 NMTOKENS 3.3.6 Name 3.3.7
* NCName 3.3.8 ID 3.3.9 IDREF 3.3.10 IDREFS 3.3.11 ENTITY 3.3.12 ENTITIES 3.3.13 integer 3.3.14
* nonPositiveInteger 3.3.15 negativeInteger 3.3.16 long 3.3.17 int 3.3.18 short 3.3.19 byte 3.3.20
* nonNegativeInteger 3.3.21 unsignedLong 3.3.22 unsignedInt 3.3.23 unsignedShort 3.3.24 unsignedByte
* 3.3.25 positiveInteger
*/
// derived types from decimal
addSimpleType(xsd, Constants.XSD_LONG.getLocalPart());
addSimpleType(xsd, Constants.XSD_SHORT.getLocalPart());
addSimpleType(xsd, Constants.XSD_BYTE.getLocalPart());
addSimpleType(xsd, Constants.XSD_INTEGER.getLocalPart());
addSimpleType(xsd, Constants.XSD_INT.getLocalPart());
addSimpleType(xsd, Constants.XSD_POSITIVEINTEGER.getLocalPart());
addSimpleType(xsd, Constants.XSD_NEGATIVEINTEGER.getLocalPart());
addSimpleType(xsd, Constants.XSD_NONPOSITIVEINTEGER.getLocalPart());
addSimpleType(xsd, Constants.XSD_NONNEGATIVEINTEGER.getLocalPart());
addSimpleType(xsd, Constants.XSD_UNSIGNEDBYTE.getLocalPart());
addSimpleType(xsd, Constants.XSD_UNSIGNEDINT.getLocalPart());
addSimpleType(xsd, Constants.XSD_UNSIGNEDLONG.getLocalPart());
addSimpleType(xsd, Constants.XSD_UNSIGNEDSHORT.getLocalPart());
// derived types from string
addSimpleType(xsd, Constants.XSD_NAME.getLocalPart());
addSimpleType(xsd, Constants.XSD_NORMALIZEDSTRING.getLocalPart());
addSimpleType(xsd, Constants.XSD_NCNAME.getLocalPart());
addSimpleType(xsd, Constants.XSD_NMTOKEN.getLocalPart());
addSimpleType(xsd, Constants.XSD_NMTOKENS.getLocalPart());
addSimpleType(xsd, Constants.XSD_ENTITY.getLocalPart());
addSimpleType(xsd, Constants.XSD_ENTITIES.getLocalPart());
addSimpleType(xsd, Constants.XSD_ID.getLocalPart());
addSimpleType(xsd, Constants.XSD_IDREF.getLocalPart());
addSimpleType(xsd, Constants.XSD_IDREFS.getLocalPart());
addSimpleType(xsd, Constants.XSD_LANGUAGE.getLocalPart());
addSimpleType(xsd, Constants.XSD_TOKEN.getLocalPart());
// 2.5.3 setup built-in datatype hierarchy
setupBuiltinDatatypeHierarchy(xsd);
// SchemaKey key = new SchemaKey(XmlSchema.SCHEMA_NS, null);
// addSchema(key, xsd);
// look for a system property to see whether we have a registered
// extension registry class. if so we'll instantiate a new one
// and set it as the extension registry
// if there is an error, we'll just print out a message and move on.
String extRegProp = getSystemProperty(Constants.SystemConstants.EXTENSION_REGISTRY_KEY);
if (extRegProp != null) {
try {
Class> clazz = Class.forName(extRegProp);
this.extReg = (ExtensionRegistry)clazz.newInstance();
} catch (ClassNotFoundException e) {
System.err.println("The specified extension registry class cannot be found!");
} catch (InstantiationException e) {
System.err.println("The specified extension registry class cannot be instantiated!");
} catch (IllegalAccessException e) {
System.err.println("The specified extension registry class cannot be accessed!");
}
}
}
private String getSystemProperty(final String s) {
try {
return AccessController.doPrivileged(new PrivilegedAction() {
public String run() {
return System.getProperty(s);
}
});
} catch (SecurityException ex) {
return null;
}
}
private void setupBuiltinDatatypeHierarchy(XmlSchema xsd) {
setDerivationByRestriction(xsd, Constants.XSD_ANYSIMPLETYPE, Constants.XSD_ANYTYPE);
setDerivationByRestriction(xsd, Constants.XSD_DURATION, Constants.XSD_ANYSIMPLETYPE, new XmlSchemaFacet[] { new XmlSchemaWhiteSpaceFacet("collapse", true) });
setDerivationByRestriction(xsd, Constants.XSD_DATETIME, Constants.XSD_ANYSIMPLETYPE, new XmlSchemaFacet[] { new XmlSchemaWhiteSpaceFacet("collapse", true) });
setDerivationByRestriction(xsd, Constants.XSD_TIME, Constants.XSD_ANYSIMPLETYPE, new XmlSchemaFacet[] { new XmlSchemaWhiteSpaceFacet("collapse", true) });
setDerivationByRestriction(xsd, Constants.XSD_DATE, Constants.XSD_ANYSIMPLETYPE, new XmlSchemaFacet[] { new XmlSchemaWhiteSpaceFacet("collapse", true) });
setDerivationByRestriction(xsd, Constants.XSD_YEARMONTH, Constants.XSD_ANYSIMPLETYPE, new XmlSchemaFacet[] { new XmlSchemaWhiteSpaceFacet("collapse", true) });
setDerivationByRestriction(xsd, Constants.XSD_YEAR, Constants.XSD_ANYSIMPLETYPE, new XmlSchemaFacet[] { new XmlSchemaWhiteSpaceFacet("collapse", true) });
setDerivationByRestriction(xsd, Constants.XSD_MONTHDAY, Constants.XSD_ANYSIMPLETYPE, new XmlSchemaFacet[] { new XmlSchemaWhiteSpaceFacet("collapse", true) });
setDerivationByRestriction(xsd, Constants.XSD_DAY, Constants.XSD_ANYSIMPLETYPE, new XmlSchemaFacet[] { new XmlSchemaWhiteSpaceFacet("collapse", true) });
setDerivationByRestriction(xsd, Constants.XSD_MONTH, Constants.XSD_ANYSIMPLETYPE, new XmlSchemaFacet[] { new XmlSchemaWhiteSpaceFacet("collapse", true) });
setDerivationByRestriction(xsd, Constants.XSD_BOOLEAN, Constants.XSD_ANYSIMPLETYPE, new XmlSchemaFacet[] { new XmlSchemaWhiteSpaceFacet("collapse", true) });
setDerivationByRestriction(xsd, Constants.XSD_BASE64, Constants.XSD_ANYSIMPLETYPE, new XmlSchemaFacet[] { new XmlSchemaWhiteSpaceFacet("collapse", true) });
setDerivationByRestriction(xsd, Constants.XSD_HEXBIN, Constants.XSD_ANYSIMPLETYPE, new XmlSchemaFacet[] { new XmlSchemaWhiteSpaceFacet("collapse", true) });
setDerivationByRestriction(xsd, Constants.XSD_FLOAT, Constants.XSD_ANYSIMPLETYPE, new XmlSchemaFacet[] { new XmlSchemaWhiteSpaceFacet("collapse", true) });
setDerivationByRestriction(xsd, Constants.XSD_DOUBLE, Constants.XSD_ANYSIMPLETYPE, new XmlSchemaFacet[] { new XmlSchemaWhiteSpaceFacet("collapse", true) });
setDerivationByRestriction(xsd, Constants.XSD_ANYURI, Constants.XSD_ANYSIMPLETYPE, new XmlSchemaFacet[] { new XmlSchemaWhiteSpaceFacet("collapse", true) });
setDerivationByRestriction(xsd, Constants.XSD_QNAME, Constants.XSD_ANYSIMPLETYPE, new XmlSchemaFacet[] { new XmlSchemaWhiteSpaceFacet("collapse", true) });
setDerivationByRestriction(xsd, Constants.XSD_NOTATION, Constants.XSD_ANYSIMPLETYPE, new XmlSchemaFacet[] { new XmlSchemaWhiteSpaceFacet("collapse", true) });
setDerivationByRestriction(xsd, Constants.XSD_DECIMAL, Constants.XSD_ANYSIMPLETYPE, new XmlSchemaFacet[] { new XmlSchemaWhiteSpaceFacet("collapse", true) });
setDerivationByRestriction(xsd, Constants.XSD_INTEGER, Constants.XSD_DECIMAL, new XmlSchemaFacet[] { new XmlSchemaFractionDigitsFacet(new Integer(0), true), new XmlSchemaPatternFacet("[\\-+]?[0-9]+", false) });
setDerivationByRestriction(xsd, Constants.XSD_NONPOSITIVEINTEGER, Constants.XSD_INTEGER, new XmlSchemaFacet[] { new XmlSchemaMaxInclusiveFacet(new Integer(0), false) });
setDerivationByRestriction(xsd, Constants.XSD_NEGATIVEINTEGER, Constants.XSD_NONPOSITIVEINTEGER, new XmlSchemaFacet[] { new XmlSchemaMaxInclusiveFacet(new Integer(-1), false) });
setDerivationByRestriction(xsd, Constants.XSD_LONG, Constants.XSD_INTEGER, new XmlSchemaFacet[] { new XmlSchemaMinInclusiveFacet(new Long(-9223372036854775808L), false), new XmlSchemaMaxInclusiveFacet(new Long(9223372036854775807L), false) });
setDerivationByRestriction(xsd, Constants.XSD_INT, Constants.XSD_LONG, new XmlSchemaFacet[] { new XmlSchemaMinInclusiveFacet(new Integer(-2147483648), false), new XmlSchemaMaxInclusiveFacet(2147483647, false) });
setDerivationByRestriction(xsd, Constants.XSD_SHORT, Constants.XSD_INT, new XmlSchemaFacet[] { new XmlSchemaMinInclusiveFacet(new Short((short) -32768), false), new XmlSchemaMaxInclusiveFacet(new Short((short) 32767), false) });
setDerivationByRestriction(xsd, Constants.XSD_BYTE, Constants.XSD_SHORT, new XmlSchemaFacet[] { new XmlSchemaMinInclusiveFacet(new Byte((byte) -128), false), new XmlSchemaMaxInclusiveFacet(new Byte((byte) 127), false) });
setDerivationByRestriction(xsd, Constants.XSD_NONNEGATIVEINTEGER, Constants.XSD_INTEGER, new XmlSchemaFacet[] { new XmlSchemaMinInclusiveFacet(new Integer(0), false) });
setDerivationByRestriction(xsd, Constants.XSD_POSITIVEINTEGER, Constants.XSD_NONNEGATIVEINTEGER, new XmlSchemaFacet[] { new XmlSchemaMinInclusiveFacet(new Integer(1), false) });
setDerivationByRestriction(xsd, Constants.XSD_UNSIGNEDLONG, Constants.XSD_NONNEGATIVEINTEGER, new XmlSchemaFacet[] { new XmlSchemaMaxInclusiveFacet(new BigInteger("18446744073709551615"), false) });
setDerivationByRestriction(xsd, Constants.XSD_UNSIGNEDINT, Constants.XSD_UNSIGNEDLONG, new XmlSchemaFacet[] { new XmlSchemaMaxInclusiveFacet(new Long(4294967295L), false) });
setDerivationByRestriction(xsd, Constants.XSD_UNSIGNEDSHORT, Constants.XSD_UNSIGNEDINT, new XmlSchemaFacet[] { new XmlSchemaMaxInclusiveFacet(new Integer(65535), false) });
setDerivationByRestriction(xsd, Constants.XSD_UNSIGNEDBYTE, Constants.XSD_UNSIGNEDSHORT, new XmlSchemaFacet[] { new XmlSchemaMaxInclusiveFacet(new Short((short) 255), false) });
setDerivationByRestriction(xsd, Constants.XSD_STRING, Constants.XSD_ANYSIMPLETYPE, new XmlSchemaFacet[] { new XmlSchemaWhiteSpaceFacet("preserve", false) });
setDerivationByRestriction(xsd, Constants.XSD_NORMALIZEDSTRING, Constants.XSD_STRING, new XmlSchemaFacet[] { new XmlSchemaWhiteSpaceFacet("replace", false) });
setDerivationByRestriction(xsd, Constants.XSD_TOKEN, Constants.XSD_NORMALIZEDSTRING, new XmlSchemaFacet[] { new XmlSchemaWhiteSpaceFacet("collapse", false) });
setDerivationByRestriction(xsd, Constants.XSD_LANGUAGE, Constants.XSD_TOKEN, new XmlSchemaFacet[] { new XmlSchemaPatternFacet("[a-zA-Z]{1,8}(-[a-zA-Z0-9]{1,8})*", false) });
setDerivationByRestriction(xsd, Constants.XSD_NMTOKEN, Constants.XSD_TOKEN, new XmlSchemaFacet[] { new XmlSchemaPatternFacet("\\c+", false) });
setDerivationByRestriction(xsd, Constants.XSD_NAME, Constants.XSD_NMTOKEN, new XmlSchemaFacet[] { new XmlSchemaPatternFacet("\\i\\c*", false) });
setDerivationByRestriction(xsd, Constants.XSD_NCNAME, Constants.XSD_TOKEN, new XmlSchemaFacet[] { new XmlSchemaPatternFacet("[\\i-[:]][\\c-[:]]*", false) });
setDerivationByRestriction(xsd, Constants.XSD_ID, Constants.XSD_NCNAME);
setDerivationByRestriction(xsd, Constants.XSD_IDREF, Constants.XSD_NCNAME);
setDerivationByRestriction(xsd, Constants.XSD_ENTITY, Constants.XSD_NCNAME);
setDerivationByList(xsd, Constants.XSD_NMTOKENS, Constants.XSD_NMTOKEN);
setDerivationByList(xsd, Constants.XSD_IDREFS, Constants.XSD_IDREF);
setDerivationByList(xsd, Constants.XSD_ENTITIES, Constants.XSD_ENTITY);
}
private void setDerivationByRestriction(XmlSchema xsd, QName child, QName parent) {
setDerivationByRestriction(xsd, child, parent, null);
}
private void setDerivationByRestriction(XmlSchema xsd, QName child, QName parent, XmlSchemaFacet[] facets) {
XmlSchemaSimpleType simple = (XmlSchemaSimpleType)xsd.getTypeByName(child);
XmlSchemaSimpleTypeRestriction restriction = new XmlSchemaSimpleTypeRestriction();
restriction.setBaseTypeName(parent);
restriction.setBaseType((XmlSchemaSimpleType)xsd.getTypeByName(parent));
if (facets != null) {
for (XmlSchemaFacet facet : facets) {
restriction.getFacets().add(facet);
}
}
simple.setContent(restriction);
}
private void setDerivationByList(XmlSchema xsd, QName child, QName parent) {
XmlSchemaSimpleType simple = (XmlSchemaSimpleType)xsd.getTypeByName(child);
XmlSchemaSimpleTypeList restriction = new XmlSchemaSimpleTypeList();
restriction.setItemTypeName(parent);
restriction.setItemType((XmlSchemaSimpleType)xsd.getTypeByName(parent));
simple.setContent(restriction);
}
/**
* Pop the stack of schemas. This function, while public, is probably not useful outside of the
* implementation.
*/
public void pop() {
stack.pop();
}
/**
* Push a schema onto the stack of schemas. This function, while public, is probably not useful outside of
* the implementation.
*
* @param pKey the schema key.
*/
public void push(SchemaKey pKey) {
stack.push(pKey);
}
/**
* Read an XML Schema from a complete XSD XML DOM Document into this collection. Schemas in a collection
* must be unique in the concatenation of SystemId and targetNamespace.
*
* @param doc The schema document.
* @param systemId System ID for this schema.
* @return the schema object.
*/
public XmlSchema read(Document doc, String systemId) {
return read(doc, systemId, null);
}
/**
* Read an XML Schema from a complete XSD XML DOM Document into this collection. Schemas in a collection
* must be unique in the concatenation of SystemId and targetNamespace.
*
* @param doc Source document.
* @param systemId System id.
* @param validator object that is called back to check validity of the target namespace.
* @return the schema object.
*/
public XmlSchema read(Document doc, String systemId, TargetNamespaceValidator validator) {
SchemaBuilder builder = new SchemaBuilder(this, validator);
XmlSchema schema = builder.build(doc, systemId);
schema.setInputEncoding(DOMUtil.getInputEncoding(doc));
return schema;
}
/**
* Read an XML schema into the collection from a DOM document. Schemas in a collection must be unique in
* the concatenation of system ID and targetNamespace. In this API, the systemID is taken from the
* document.
*
* @param doc the XSD document.
* @param veh handler that is called back for validation.
* @return the XML schema object.
*/
public XmlSchema read(Document doc) {
SchemaBuilder builder = new SchemaBuilder(this, null);
return builder.build(doc, null);
}
/**
* Read an XML Schema into the collection from a DOM element. Schemas in a collection must be unique in
* the concatentation of System ID and targetNamespace. The system ID will be empty for this API.
*
* @param elem the DOM element for the schema.
* @return the XmlSchema
*/
public XmlSchema read(Element elem) {
SchemaBuilder builder = new SchemaBuilder(this, null);
XmlSchema xmlSchema = builder.handleXmlSchemaElement(elem, null);
xmlSchema.setInputEncoding(DOMUtil.getXmlEncoding(elem.getOwnerDocument()));
return xmlSchema;
}
/**
* Read a schema from a DOM tree into the collection. The schemas in a collection must be unique in the
* concatenation of the target namespace and the system ID.
*
* @param elem xs:schema DOM element.
* @param systemId System id.
* @return the schema object.
*/
public XmlSchema read(Element elem, String systemId) {
SchemaBuilder builder = new SchemaBuilder(this, null);
XmlSchema xmlSchema = builder.handleXmlSchemaElement(elem, systemId);
xmlSchema.setInputEncoding(DOMUtil.getInputEncoding(elem.getOwnerDocument()));
return xmlSchema;
}
/**
* Read an XML schema into the collection from a SAX InputSource. Schemas in a collection must be unique
* in the concatenation of system ID and targetNamespace. In this API, the systemID is taken from the
* source.
*
* @param inputSource the XSD document.
* @return the XML schema object.
*/
public XmlSchema read(InputSource inputSource) {
return read(inputSource, null);
}
public XmlSchema read(Reader r) {
return read(new InputSource(r));
}
/**
* Read an XML schema into the collection from a TRaX source. Schemas in a collection must be unique in
* the concatenation of system ID and targetNamespace. In this API, the systemID is taken from the Source.
*
* @param source the XSD document.
* @param veh handler that is called back for validation.
* @return the XML schema object.
*/
public XmlSchema read(Source source) {
if (source instanceof SAXSource) {
return read(((SAXSource)source).getInputSource());
} else if (source instanceof DOMSource) {
Node node = ((DOMSource)source).getNode();
if (node instanceof Document) {
node = ((Document)node).getDocumentElement();
}
return read((Document)node);
} else if (source instanceof StreamSource) {
StreamSource ss = (StreamSource)source;
InputSource isource = new InputSource(ss.getSystemId());
isource.setByteStream(ss.getInputStream());
isource.setCharacterStream(ss.getReader());
isource.setPublicId(ss.getPublicId());
return read(isource);
} else {
InputSource isource = new InputSource(source.getSystemId());
return read(isource);
}
}
/**
* Return the schema from this collection for a particular targetNamespace.
*
* @param uri target namespace URI.
* @return the schema.
*/
public XmlSchema schemaForNamespace(String uri) {
for (Map.Entry entry : schemas.entrySet()) {
if (entry.getKey().getNamespace().equals(uri)) {
return entry.getValue();
}
}
return null;
}
/**
* Set the base URI. This is used when schemas need to be loaded from relative locations
*
* @param baseUri baseUri for this collection.
*/
public void setBaseUri(String baseUri) {
this.baseUri = baseUri;
if (schemaResolver instanceof CollectionURIResolver) {
CollectionURIResolver resolverWithBase = (CollectionURIResolver)schemaResolver;
resolverWithBase.setCollectionBaseURI(baseUri);
}
}
public void setExtReg(ExtensionRegistry extReg) {
this.extReg = extReg;
}
/**
* sets the known namespace map
*
* @param knownNamespaceMap a map of previously known XMLSchema objects keyed by their namespace (String)
*/
public void setKnownNamespaceMap(Map knownNamespaceMap) {
this.knownNamespaceMap = knownNamespaceMap;
}
/**
* Set the namespace context for this collection, which controls the assignment of namespace prefixes to
* namespaces.
*
* @param namespaceContext the context.
*/
public void setNamespaceContext(NamespacePrefixList namespaceContext) {
this.namespaceContext = namespaceContext;
}
/**
* Register a custom URI resolver
*
* @param schemaResolver resolver
*/
public void setSchemaResolver(URIResolver schemaResolver) {
this.schemaResolver = schemaResolver;
}
public String toString() {
return super.toString() + "[" + schemas.toString() + "]";
}
void addSchema(SchemaKey pKey, XmlSchema pSchema) {
if (schemas.containsKey(pKey)) {
throw
new IllegalStateException("A schema with target namespace "
+ pKey.getNamespace()
+ " and system ID "
+ pKey.getSystemId() + " is already present.");
}
schemas.put(pKey, pSchema);
}
void addUnresolvedType(QName type, TypeReceiver receiver) {
List receivers = unresolvedTypes.get(type);
if (receivers == null) {
receivers = new ArrayList();
unresolvedTypes.put(type, receivers);
}
receivers.add(receiver);
}
boolean containsSchema(SchemaKey pKey) {
return schemas.containsKey(pKey);
}
/**
* gets a schema from the external namespace map
*
* @param namespace
* @return
*/
XmlSchema getKnownSchema(String namespace) {
return knownNamespaceMap.get(namespace);
}
/**
* Get a schema given a SchemaKey
*
* @param pKey
* @return
*/
XmlSchema getSchema(SchemaKey pKey) {
return schemas.get(pKey);
}
XmlSchema read(InputSource inputSource, TargetNamespaceValidator namespaceValidator) {
try {
DocumentBuilderFactory docFac = DocumentBuilderFactory.newInstance();
docFac.setNamespaceAware(true);
final DocumentBuilder builder = docFac.newDocumentBuilder();
Document doc = null;
doc = parseDoPriv(inputSource, builder, doc);
return read(doc, inputSource.getSystemId(), namespaceValidator);
} catch (ParserConfigurationException e) {
throw new XmlSchemaException(e.getMessage(), e);
} catch (IOException e) {
throw new XmlSchemaException(e.getMessage(), e);
} catch (SAXException e) {
throw new XmlSchemaException(e.getMessage(), e);
}
}
void resolveType(QName typeName, XmlSchemaType type) {
List receivers = unresolvedTypes.get(typeName);
if (receivers == null) {
return;
}
for (TypeReceiver receiver : receivers) {
receiver.setType(type);
}
unresolvedTypes.remove(typeName);
}
private void addSimpleType(XmlSchema schema, String typeName) {
XmlSchemaSimpleType type;
type = new XmlSchemaSimpleType(schema, true);
type.setName(typeName);
}
private Document parseDoPriv(final InputSource inputSource, final DocumentBuilder builder, Document doc)
throws IOException, SAXException {
try {
doc = java.security.AccessController.doPrivileged(new PrivilegedExceptionAction() {
public Document run() throws IOException, SAXException {
return builder.parse(inputSource);
}
});
} catch (PrivilegedActionException e) {
Exception exception = e.getException();
if (exception instanceof IOException) {
throw (IOException)exception;
}
if (exception instanceof SAXException) {
throw (SAXException)exception;
}
}
return doc;
}
/**
* Find a global attribute by QName in this collection of schemas.
*
* @param schemaAttributeName the name of the attribute.
* @return the attribute or null.
*/
public XmlSchemaAttribute getAttributeByQName(QName schemaAttributeName) {
String uri = schemaAttributeName.getNamespaceURI();
for (Map.Entry entry : schemas.entrySet()) {
if (entry.getKey().getNamespace().equals(uri)) {
XmlSchemaAttribute attribute = entry.getValue()
.getAttributeByName(schemaAttributeName);
if (attribute != null) {
return attribute;
}
}
}
return null;
}
/**
* Retrieve a global element from the schema collection.
*
* @param qname the element QName.
* @return the element object, or null.
*/
public XmlSchemaElement getElementByQName(QName qname) {
String uri = qname.getNamespaceURI();
for (Map.Entry entry : schemas.entrySet()) {
if (entry.getKey().getNamespace().equals(uri)) {
XmlSchemaElement element = entry.getValue().getElementByName(qname);
if (element != null) {
return element;
}
}
}
return null;
}
public XmlSchemaAttributeGroup getAttributeGroupByQName(QName name) {
String uri = name.getNamespaceURI();
for (Map.Entry entry : schemas.entrySet()) {
if (entry.getKey().getNamespace().equals(uri)) {
XmlSchemaAttributeGroup group = entry.getValue()
.getAttributeGroupByName(name);
if (group != null) {
return group;
}
}
}
return null;
}
public XmlSchemaGroup getGroupByQName(QName name) {
String uri = name.getNamespaceURI();
for (Map.Entry entry : schemas.entrySet()) {
if (entry.getKey().getNamespace().equals(uri)) {
XmlSchemaGroup group = entry.getValue()
.getGroupByName(name);
if (group != null) {
return group;
}
}
}
return null;
}
public XmlSchemaNotation getNotationByQName(QName name) {
String uri = name.getNamespaceURI();
for (Map.Entry entry : schemas.entrySet()) {
if (entry.getKey().getNamespace().equals(uri)) {
XmlSchemaNotation notation = entry.getValue()
.getNotationByName(name);
if (notation != null) {
return notation;
}
}
}
return null;
}
}
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