package test.encoding;
import junit.framework.TestCase;
import org.apache.axis.Constants;
import org.apache.axis.MessageContext;
import org.apache.axis.components.logger.LogFactory;
import org.apache.axis.encoding.DeserializationContext;
import org.apache.axis.encoding.SerializationContext;
import org.apache.axis.encoding.SerializationContext;
import org.apache.axis.encoding.TypeMapping;
import org.apache.axis.encoding.TypeMappingRegistry;
import org.apache.axis.message.RPCElement;
import org.apache.axis.message.RPCParam;
import org.apache.axis.message.SOAPEnvelope;
import org.apache.axis.server.AxisServer;
import org.apache.axis.utils.XMLUtils;
import org.apache.commons.logging.Log;
import org.w3c.dom.Document;
import org.w3c.dom.Element;
import org.w3c.dom.Node;
import org.w3c.dom.NodeList;
import org.xml.sax.InputSource;
import org.xml.sax.helpers.AttributesImpl;
import javax.xml.namespace.QName;
import java.io.StringReader;
import java.io.StringWriter;
import java.io.Writer;
/** Little serialization test with a struct.
*/
public class TestSer extends TestCase {
Log log =
LogFactory.getLog(TestSer.class.getName());
public static final String myNS = "urn:myNS";
public TestSer(String name) {
super(name);
}
public void testDataNoHrefs () throws Exception {
doTestData(false);
}
public void testDataWithHrefs () throws Exception {
doTestData(true);
}
public void doTestData (boolean multiref) throws Exception {
MessageContext msgContext = new MessageContext(new AxisServer());
SOAPEnvelope msg = new SOAPEnvelope();
RPCParam arg1 = new RPCParam("urn:myNamespace", "testParam", "this is a string");
Data data = new Data();
data.stringMember = "String member";
data.floatMember = new Float("4.54");
RPCParam arg2 = new RPCParam("", "struct", data);
RPCElement body = new RPCElement("urn:myNamespace", "method1", new Object[]{ arg1, arg2 });
msg.addBodyElement(body);
Writer stringWriter = new StringWriter();
SerializationContext context = new SerializationContext(stringWriter, msgContext);
context.setDoMultiRefs(multiref);
// Create a TypeMapping and register the specialized Type Mapping
TypeMappingRegistry reg = context.getTypeMappingRegistry();
TypeMapping tm = (TypeMapping) reg.createTypeMapping();
tm.setSupportedEncodings(new String[] {Constants.URI_DEFAULT_SOAP_ENC});
reg.register(Constants.URI_DEFAULT_SOAP_ENC, tm);
QName dataQName = new QName("typeNS", "Data");
tm.register(Data.class, dataQName, new DataSerFactory(), new DataDeserFactory());
msg.output(context);
String msgString = stringWriter.toString();
log.debug("---");
log.debug(msgString);
log.debug("---");
StringReader reader = new StringReader(msgString);
DeserializationContext dser = new DeserializationContext(
new InputSource(reader), msgContext, org.apache.axis.Message.REQUEST);
dser.parse();
SOAPEnvelope env = dser.getEnvelope();
RPCElement rpcElem = (RPCElement)env.getFirstBody();
RPCParam struct = rpcElem.getParam("struct");
assertNotNull("No <struct> param", struct);
Data val = (Data)struct.getObjectValue();
assertNotNull("No value for struct param", val);
assertEquals("Data and Val string members are not equal", data.stringMember, val.stringMember);
assertEquals("Data and Val float members are not equal",data.floatMember.floatValue(),
val.floatMember.floatValue(), 0.00001F);
}
public void testAttributeQNames() throws Exception {
String NS1 = "urn:foo";
MessageContext context = new MessageContext(new AxisServer());
StringWriter writer = new StringWriter();
SerializationContext ser = new SerializationContext(writer);
ser.registerPrefixForURI("", NS1);
ser.startElement(new QName(NS1, "e1"), null);
String foo = ser.attributeQName2String(new QName(NS1, "attr"));
AttributesImpl attrs = new AttributesImpl();
attrs.addAttribute("a", "a", "a", "CDATA", foo);
ser.startElement(new QName(NS1, "e2"), attrs);
ser.endElement();
foo = ser.attributeQName2String(new QName(NS1, "attr"));
attrs = new AttributesImpl();
attrs.addAttribute("a", "a", "a", "CDATA", foo);
ser.startElement(new QName(NS1, "e3"), null);
ser.endElement();
ser.endElement();
System.out.println(writer.getBuffer().toString());
}
/**
* Test RPC element serialization when we have no MessageContext
*/
public void testRPCElement()
{
try {
SOAPEnvelope env = new SOAPEnvelope();
RPCElement method = new RPCElement("ns",
"method",
new Object [] { "argument" });
env.addBodyElement(method);
env.toString();
} catch (Exception e) {
fail(e.getMessage());
}
// If there was no exception, we succeeded in serializing it.
}
public void testEmptyXMLNS() throws Exception
{
MessageContext msgContext = new MessageContext(new AxisServer());
String req =
"<xsd1:A xmlns:xsd1=\"urn:myNamespace\">"
+ "<xsd1:B>"
+ "<xsd1:C>foo bar</xsd1:C>"
+ "</xsd1:B>"
+ "</xsd1:A>";
StringWriter stringWriter=new StringWriter();
StringReader reqReader = new StringReader(req);
InputSource reqSource = new InputSource(reqReader);
Document document = XMLUtils.newDocument(reqSource);
String msgString = null;
SOAPEnvelope msg = new SOAPEnvelope();
RPCParam arg1 = new RPCParam("urn:myNamespace", "testParam", document.getFirstChild());
arg1.setXSITypeGeneration(Boolean.FALSE);
RPCElement body = new RPCElement("urn:myNamespace", "method1", new Object[] { arg1 });
msg.addBodyElement(body);
body.setEncodingStyle(Constants.URI_LITERAL_ENC);
SerializationContext context = new SerializationContext(stringWriter, msgContext);
msg.output(context);
msgString = stringWriter.toString();
assertTrue(msgString.indexOf("xmlns=\"\"")==-1);
}
/**
* Confirm that default namespaces when writing doc/lit messages don't
* trample namespace mappings.
*
* @throws Exception
*/
public void testDefaultNamespace() throws Exception
{
MessageContext msgContext = new MessageContext(new AxisServer());
String req =
"<xsd1:A xmlns:xsd1=\"urn:myNamespace\">"
+ "<B>" // Note that B and C are in no namespace!
+ "<C>foo bar</C>"
+ "</B>"
+ "</xsd1:A>";
StringWriter stringWriter=new StringWriter();
StringReader reqReader = new StringReader(req);
InputSource reqSource = new InputSource(reqReader);
Document document = XMLUtils.newDocument(reqSource);
String msgString = null;
SOAPEnvelope msg = new SOAPEnvelope();
RPCParam arg1 = new RPCParam("urn:myNamespace", "testParam", document.getFirstChild());
arg1.setXSITypeGeneration(Boolean.FALSE);
RPCElement body = new RPCElement("urn:myNamespace", "method1", new Object[] { arg1 });
msg.addBodyElement(body);
body.setEncodingStyle(Constants.URI_LITERAL_ENC);
SerializationContext context = new SerializationContext(stringWriter, msgContext);
msg.output(context);
msgString = stringWriter.toString();
// Now reparse into DOM so we can check namespaces.
StringReader resReader = new StringReader(msgString);
InputSource resSource = new InputSource(resReader);
Document doc = XMLUtils.newDocument(resSource);
// Go make sure B and C are in fact in no namespace
Element el = findChildElementByLocalName(doc.getDocumentElement(),
"B");
assertNotNull("Couldn't find <B> element!", el);
assertNull("Element <B> has a namespace!", el.getNamespaceURI());
el = findChildElementByLocalName(el, "C");
assertNotNull("Couldn't find <C> element!", el);
assertNull("Element <C> has a namespace!", el.getNamespaceURI());
}
private Element findChildElementByLocalName(Element src, String localName) {
NodeList nl = src.getChildNodes();
for (int i = 0; i < nl.getLength(); i++) {
Node node = nl.item(i);
if (node instanceof Element) {
Element e = (Element)node;
if (e.getLocalName().equals(localName)) {
return e;
}
// Depth-first search
e = findChildElementByLocalName(e, localName);
if (e != null) {
return e;
}
}
}
return null;
}
}
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