org.apache.axis2.description.OutInAxisOperation Maven / Gradle / Ivy
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* 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.axis2.description;
import java.util.HashMap;
import javax.xml.namespace.QName;
import org.apache.axiom.soap.SOAPBody;
import org.apache.axiom.soap.SOAPEnvelope;
import org.apache.axiom.util.UIDGenerator;
import org.apache.axis2.AxisFault;
import org.apache.axis2.Constants;
import org.apache.axis2.addressing.AddressingConstants;
import org.apache.axis2.addressing.EndpointReference;
import org.apache.axis2.client.OperationClient;
import org.apache.axis2.client.Options;
import org.apache.axis2.client.async.AxisCallback;
import org.apache.axis2.context.ConfigurationContext;
import org.apache.axis2.context.MessageContext;
import org.apache.axis2.context.OperationContext;
import org.apache.axis2.context.ServiceContext;
import org.apache.axis2.engine.AxisEngine;
import org.apache.axis2.i18n.Messages;
import org.apache.axis2.transport.TransportUtils;
import org.apache.axis2.transport.http.HTTPConstants;
import org.apache.axis2.util.CallbackReceiver;
import org.apache.axis2.util.Utils;
import org.apache.axis2.wsdl.WSDLConstants;
import org.apache.commons.logging.Log;
import org.apache.commons.logging.LogFactory;
public class OutInAxisOperation extends TwoChannelAxisOperation {
private static final Log log = LogFactory.getLog(OutInAxisOperation.class);
public OutInAxisOperation() {
super();
//setup a temporary name
QName tmpName = new QName(this.getClass().getName() + "_" + UIDGenerator.generateUID());
this.setName(tmpName);
setMessageExchangePattern(WSDL2Constants.MEP_URI_OUT_IN);
}
public OutInAxisOperation(QName name) {
super(name);
setMessageExchangePattern(WSDL2Constants.MEP_URI_OUT_IN);
}
public void addMessageContext(MessageContext msgContext,
OperationContext opContext) throws AxisFault {
HashMap mep = opContext.getMessageContexts();
MessageContext immsgContext = (MessageContext) mep
.get(MESSAGE_LABEL_IN_VALUE);
MessageContext outmsgContext = (MessageContext) mep
.get(MESSAGE_LABEL_OUT_VALUE);
if ((immsgContext != null) && (outmsgContext != null)) {
throw new AxisFault(Messages.getMessage("mepcompleted"));
}
if (outmsgContext == null) {
mep.put(MESSAGE_LABEL_OUT_VALUE, msgContext);
} else {
mep.put(MESSAGE_LABEL_IN_VALUE, msgContext);
opContext.setComplete(true);
opContext.cleanup();
}
}
/**
* Returns a MEP client for an Out-IN operation. This client can be used to
* interact with a server which is offering an In-Out operation. To use the
* client, you must call addMessageContext() with a message context and then
* call execute() to execute the client.
*
* @param sc The service context for this client to live within. Cannot be
* null.
* @param options Options to use as defaults for this client. If any options are
* set specifically on the client then those override options
* here.
*/
public OperationClient createClient(ServiceContext sc, Options options) {
return new OutInAxisOperationClient(this, sc, options);
}
}
/**
* MEP client for moi.
*/
class OutInAxisOperationClient extends OperationClient {
private static Log log = LogFactory.getLog(OutInAxisOperationClient.class);
OutInAxisOperationClient(OutInAxisOperation axisOp, ServiceContext sc,
Options options) {
super(axisOp, sc, options);
}
/**
* Adds message context to operation context, so that it will handle the
* logic correctly if the OperationContext is null then new one will be
* created, and Operation Context will become null when some one calls reset().
*
* @param msgContext the MessageContext to add
* @throws AxisFault
*/
public void addMessageContext(MessageContext msgContext) throws AxisFault {
msgContext.setServiceContext(sc);
if (msgContext.getMessageID() == null) {
setMessageID(msgContext);
}
axisOp.registerOperationContext(msgContext, oc);
}
/**
* Returns the message context for a given message label.
*
* @param messageLabel :
* label of the message and that can be either "Out" or "In" and
* nothing else
* @return Returns MessageContext.
* @throws AxisFault
*/
public MessageContext getMessageContext(String messageLabel)
throws AxisFault {
return oc.getMessageContext(messageLabel);
}
/**
* Executes the MEP. What this does depends on the specific MEP client. The
* basic idea is to have the MEP client execute and do something with the
* messages that have been added to it so far. For example, if its an Out-In
* MEP, then if the Out message has been set, then executing the client asks
* it to send the message and get the In message, possibly using a different
* thread.
*
* @param block Indicates whether execution should block or return ASAP. What
* block means is of course a function of the specific MEP
* client. IGNORED BY THIS MEP CLIENT.
* @throws AxisFault if something goes wrong during the execution of the MEP.
*/
public void executeImpl(boolean block) throws AxisFault {
if (log.isDebugEnabled()) {
log.debug("Entry: OutInAxisOperationClient::execute, " + block);
}
if (completed) {
throw new AxisFault(Messages.getMessage("mepiscomplted"));
}
ConfigurationContext cc = sc.getConfigurationContext();
// copy interesting info from options to message context.
MessageContext mc = oc.getMessageContext(WSDLConstants.MESSAGE_LABEL_OUT_VALUE);
if (mc == null) {
throw new AxisFault(Messages.getMessage("outmsgctxnull"));
}
prepareMessageContext(cc, mc);
if (options.getTransportIn() == null && mc.getTransportIn() == null) {
mc.setTransportIn(ClientUtils.inferInTransport(cc
.getAxisConfiguration(), options, mc));
} else if (mc.getTransportIn() == null) {
mc.setTransportIn(options.getTransportIn());
}
/**
* If a module has set the USE_ASYNC_OPERATIONS option then we override the behaviour
* for sync calls, and effectively USE_CUSTOM_LISTENER too. However we leave real
* async calls alone.
*/
boolean useAsync = false;
if (!mc.getOptions().isUseSeparateListener()) {
Boolean useAsyncOption =
(Boolean) mc.getProperty(Constants.Configuration.USE_ASYNC_OPERATIONS);
if (log.isDebugEnabled()) log.debug("OutInAxisOperationClient: useAsyncOption " + useAsyncOption);
if (useAsyncOption != null) {
useAsync = useAsyncOption.booleanValue();
}
}
EndpointReference replyTo = mc.getReplyTo();
if (replyTo != null) {
if (replyTo.hasNoneAddress()) {
throw new AxisFault( replyTo.getAddress() + "" +
" can not be used with OutInAxisOperationClient , user either "
+ "fireAndForget or sendRobust)");
}
else if (replyTo.isWSAddressingAnonymous() &&
replyTo.getAllReferenceParameters() != null) {
mc.setProperty(AddressingConstants.INCLUDE_OPTIONAL_HEADERS, Boolean.TRUE);
}
String customReplyTo = (String)options.getProperty(Options.CUSTOM_REPLYTO_ADDRESS);
if ( ! (Options.CUSTOM_REPLYTO_ADDRESS_TRUE.equals(customReplyTo))) {
if (!replyTo.hasAnonymousAddress()){
useAsync = true;
}
}
}
if (useAsync || mc.getOptions().isUseSeparateListener()) {
sendAsync(useAsync, mc);
} else {
if (block) {
// Send the SOAP Message and receive a response
send(mc);
completed = true;
} else {
sc.getConfigurationContext().getThreadPool().execute(
new NonBlockingInvocationWorker(mc, axisCallback));
}
}
}
private void sendAsync(boolean useAsync, MessageContext mc)
throws AxisFault {
if (log.isDebugEnabled()) {
log.debug("useAsync=" + useAsync + ", seperateListener=" +
mc.getOptions().isUseSeparateListener());
}
/**
* We are following the async path. If the user hasn't set a callback object then we must
* block until the whole MEP is complete, as they have no other way to get their reply message.
*/
// THREADSAFE issue: Multiple threads could be trying to initialize the callback receiver
// so it is synchronized. It is not done within the else clause to avoid the
// double-checked lock antipattern.
CallbackReceiver callbackReceiver;
synchronized (axisOp) {
if (axisOp.getMessageReceiver() != null &&
axisOp.getMessageReceiver() instanceof CallbackReceiver) {
callbackReceiver = (CallbackReceiver) axisOp.getMessageReceiver();
} else {
if (log.isDebugEnabled()) {
log.debug("Creating new callback receiver");
}
callbackReceiver = new CallbackReceiver();
axisOp.setMessageReceiver(callbackReceiver);
if (log.isDebugEnabled()) log.debug("OutInAxisOperation: callbackReceiver " + callbackReceiver + " : " + axisOp);
}
}
SyncCallBack internalCallback = null;
if (axisCallback != null) {
callbackReceiver.addCallback(mc.getMessageID(), axisCallback);
if (log.isDebugEnabled()) log.debug("OutInAxisOperationClient: Creating axis callback");
} else {
if (log.isDebugEnabled()) {
log.debug("Creating internal callback");
}
internalCallback = new SyncCallBack();
callbackReceiver.addCallback(mc.getMessageID(), internalCallback);
if (log.isDebugEnabled()) log.debug("OutInAxisOperationClient: Creating internal callback");
}
/**
* If USE_CUSTOM_LISTENER is set to 'true' the replyTo value will not be replaced and Axis2 will not
* start its internal listner. Some other enntity (e.g. a module) should take care of obtaining the
* response message.
*/
Boolean useCustomListener =
(Boolean) options.getProperty(Constants.Configuration.USE_CUSTOM_LISTENER);
if (useAsync) {
useCustomListener = Boolean.TRUE;
}
if (useCustomListener == null || !useCustomListener.booleanValue()) {
EndpointReference replyTo = mc.getReplyTo();
if (replyTo == null || replyTo.hasAnonymousAddress()){
EndpointReference replyToFromTransport =
mc.getConfigurationContext().getListenerManager().
getEPRforService(sc.getAxisService().getName(),
axisOp.getName().getLocalPart(), mc
.getTransportIn().getName());
if (replyTo == null) {
mc.setReplyTo(replyToFromTransport);
} else {
replyTo.setAddress(replyToFromTransport.getAddress());
}
}
}
//if we don't do this , this guy will wait till it gets HTTP 202 in the HTTP case
mc.setProperty(MessageContext.CLIENT_API_NON_BLOCKING, Boolean.TRUE);
mc.getConfigurationContext().registerOperationContext(mc.getMessageID(), oc);
AxisEngine.send(mc);
if (internalCallback != null) {
internalCallback.waitForCompletion(options.getTimeOutInMilliSeconds());
// process the result of the invocation
if (internalCallback.envelope == null) {
if (internalCallback.error == null) {
log.error("Callback had neither error nor response");
}
if (options.isExceptionToBeThrownOnSOAPFault()) {
throw AxisFault.makeFault(internalCallback.error);
}
}
}
}
/**
* When synchronous send() gets back a response MessageContext, this is the workhorse
* method which processes it.
*
* @param responseMessageContext the active response MessageContext
* @throws AxisFault if something went wrong
*/
protected void handleResponse(MessageContext responseMessageContext) throws AxisFault{
// Options object reused above so soapAction needs to be removed so
// that soapAction+wsa:Action on response don't conflict
responseMessageContext.setSoapAction(null);
if (responseMessageContext.getEnvelope() == null) {
// If request is REST we assume the responseMessageContext is REST, so
// set the variable
/*
* old code here was using the outbound message context to set the inbound SOAP namespace,
* as such and passing it to TransportUtils.createSOAPMessage
*
* msgctx.getEnvelope().getNamespace().getNamespaceURI()
*
* However, the SOAP1.2 spec, appendix A indicates that if a SOAP1.2 message is sent to a SOAP1.1
* endpoint, we will get a SOAP1.1 (fault) message response. We need another way to set
* the inbound SOAP version. Best way to do this is to trust the content type and let
* createSOAPMessage take care of figuring out what the SOAP namespace is.
*/
SOAPEnvelope resenvelope = TransportUtils.createSOAPMessage(responseMessageContext);
if (resenvelope != null) {
responseMessageContext.setEnvelope(resenvelope);
} else {
throw new AxisFault(Messages
.getMessage("blockingInvocationExpectsResponse"));
}
}
SOAPEnvelope resenvelope = responseMessageContext.getEnvelope();
if (resenvelope != null) {
AxisEngine.receive(responseMessageContext);
if (responseMessageContext.getReplyTo() != null) {
sc.setTargetEPR(responseMessageContext.getReplyTo());
}
// rampart handlers change the envelope and set the decrypted envelope
// so need to check the new one else resenvelope.hasFault() become false.
resenvelope = responseMessageContext.getEnvelope();
if (resenvelope.hasFault()||responseMessageContext.isProcessingFault()) {
if (options.isExceptionToBeThrownOnSOAPFault()) {
// does the SOAPFault has a detail element for Excpetion
throw Utils.getInboundFaultFromMessageContext(responseMessageContext);
}
}
}
}
/**
* Synchronously send the request and receive a response. This relies on the transport
* correctly connecting the response InputStream!
*
* @param msgContext the request MessageContext to send.
* @return Returns MessageContext.
* @throws AxisFault Sends the message using a two way transport and waits for a response
*/
protected MessageContext send(MessageContext msgContext) throws AxisFault {
// create the responseMessageContext
MessageContext responseMessageContext =
msgContext.getConfigurationContext().createMessageContext();
responseMessageContext.setServerSide(false);
responseMessageContext.setOperationContext(msgContext.getOperationContext());
responseMessageContext.setOptions(new Options(options));
responseMessageContext.setMessageID(msgContext.getMessageID());
addMessageContext(responseMessageContext);
responseMessageContext.setServiceContext(msgContext.getServiceContext());
responseMessageContext.setAxisMessage(
axisOp.getMessage(WSDLConstants.MESSAGE_LABEL_IN_VALUE));
//sending the message
AxisEngine.send(msgContext);
responseMessageContext.setDoingREST(msgContext.isDoingREST());
// Copy RESPONSE properties which the transport set onto the request message context when it processed
// the incoming response recieved in reply to an outgoing request.
responseMessageContext.setProperty(MessageContext.TRANSPORT_HEADERS,
msgContext.getProperty(MessageContext.TRANSPORT_HEADERS));
responseMessageContext.setProperty(HTTPConstants.MC_HTTP_STATUS_CODE,
msgContext.getProperty(HTTPConstants.MC_HTTP_STATUS_CODE));
responseMessageContext.setProperty(MessageContext.TRANSPORT_IN, msgContext
.getProperty(MessageContext.TRANSPORT_IN));
responseMessageContext.setTransportIn(msgContext.getTransportIn());
responseMessageContext.setTransportOut(msgContext.getTransportOut());
handleResponse(responseMessageContext);
return responseMessageContext;
}
/**
* This class is the workhorse for a non-blocking invocation that uses a two
* way transport.
*/
private class NonBlockingInvocationWorker implements Runnable {
private MessageContext msgctx;
private AxisCallback axisCallback;
public NonBlockingInvocationWorker(MessageContext msgctx ,
AxisCallback axisCallback) {
this.msgctx = msgctx;
this.axisCallback =axisCallback;
}
public void run() {
try {
// send the request and wait for response
MessageContext response = send(msgctx);
// call the callback
if (response != null) {
SOAPEnvelope resenvelope = response.getEnvelope();
if (resenvelope.hasFault()) {
SOAPBody body = resenvelope.getBody();
// If a fault was found, create an AxisFault with a MessageContext so that
// other programming models can deserialize the fault to an alternative form.
AxisFault fault = new AxisFault(body.getFault(), response);
if (axisCallback != null) {
if (options.isExceptionToBeThrownOnSOAPFault()) {
axisCallback.onError(fault);
} else {
axisCallback.onFault(response);
}
}
} else {
if (axisCallback != null) {
axisCallback.onMessage(response);
}
}
}
} catch (Exception e) {
if (axisCallback != null) {
axisCallback.onError(e);
}
} finally {
if (axisCallback != null) {
axisCallback.onComplete();
}
}
}
}
/**
* This class acts as a callback that allows users to wait on the result.
*/
private class SyncCallBack implements AxisCallback {
boolean complete;
boolean receivedFault;
public boolean waitForCompletion(long timeout) throws AxisFault {
synchronized (this) {
try {
if (complete) return !receivedFault;
wait(timeout);
if (!complete) {
// We timed out!
throw new AxisFault( Messages.getMessage("responseTimeOut"));
}
} catch (InterruptedException e) {
// Something interrupted our wait!
error = e;
}
}
if (error != null) throw AxisFault.makeFault(error);
return !receivedFault;
}
/**
* This is called when we receive a message.
*
* @param msgContext the (response) MessageContext
*/
public void onMessage(MessageContext msgContext) {
// Transport input stream gets closed after calling setComplete
// method. Have to build the whole envelope including the
// attachments at this stage. Data might get lost if the input
// stream gets closed before building the whole envelope.
// TODO: Shouldn't need to do this - need to hook up stream closure to Axiom completion
this.envelope = msgContext.getEnvelope();
this.envelope.buildWithAttachments();
}
/**
* This gets called when a fault message is received.
*
* @param msgContext the MessageContext containing the fault.
*/
public void onFault(MessageContext msgContext) {
error = Utils.getInboundFaultFromMessageContext(msgContext);
}
/**
* This is called at the end of the MEP no matter what happens, quite like a
* finally block.
*/
public synchronized void onComplete() {
complete = true;
notify();
}
private SOAPEnvelope envelope;
private Exception error;
public void onError(Exception e) {
if (log.isDebugEnabled()) {
log.debug("Entry: OutInAxisOperationClient$SyncCallBack::onError, " + e);
}
error = e;
if (log.isDebugEnabled()) {
log.debug("Exit: OutInAxisOperationClient$SyncCallBack::onError");
}
}
}
}
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