org.apache.axis2.client.OperationClient Maven / Gradle / Ivy
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* Licensed to the Apache Software Foundation (ASF) under one
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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
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* KIND, either express or implied. See the License for the
* specific language governing permissions and limitations
* under the License.
*/
package org.apache.axis2.client;
import org.apache.axiom.om.OMElement;
import org.apache.axiom.util.UIDGenerator;
import org.apache.axis2.AxisFault;
import org.apache.axis2.addressing.EndpointReference;
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.description.AxisOperation;
import org.apache.axis2.description.ClientUtils;
import org.apache.axis2.description.TransportOutDescription;
import org.apache.axis2.i18n.Messages;
import org.apache.axis2.util.TargetResolver;
import org.apache.axis2.wsdl.WSDLConstants;
import java.util.Iterator;
import java.util.Map;
import javax.xml.namespace.QName;
/**
* An operation client is the way an advanced user interacts with Axis2. Actual
* operation clients understand a specific MEP and hence their behavior is
* defined by their MEP. To interact with an operation client, you first get one
* from a specific AxisOperation. Then you set the messages into it one by one
* (whatever is available). Then, when you call execute() the client will
* execute what it can at that point. If executing the operation client results
* in a new message being created, then if a message receiver is registered with
* the client then the message will be delivered to that client.
*/
public abstract class OperationClient {
protected AxisOperation axisOp;
protected ServiceContext sc;
protected Options options;
protected OperationContext oc;
protected AxisCallback axisCallback;
/*
* indicates whether the MEP execution has completed (and hence ready for
* resetting)
*/
protected boolean completed;
protected OperationClient(AxisOperation axisOp, ServiceContext sc, Options options) {
this.axisOp = axisOp;
this.sc = sc;
this.options = new Options(options);
completed = false;
oc = sc.createOperationContext(axisOp);
}
/**
* Sets the options that should be used for this particular client. This
* resets the entire set of options to use the new options - so you'd lose
* any option cascading that may have been set up.
*
* @param options the options
*/
public void setOptions(Options options) {
this.options = options;
}
/**
* Return the options used by this client. If you want to set a single
* option, then the right way is to do getOptions() and set specific
* options.
*
* @return the options, which will never be null.
*/
public Options getOptions() {
return options;
}
/**
* Add a message context to the client for processing. This method must not
* process the message - it only records it in the operation client.
* Processing only occurs when execute() is called.
*
* @param messageContext the message context
* @throws AxisFault if this is called inappropriately.
*/
public abstract void addMessageContext(MessageContext messageContext) throws AxisFault;
/**
* Return a message from the client - will return null if the requested
* message is not available.
*
* @param messageLabel the message label of the desired message context
* @return the desired message context or null if its not available.
* @throws AxisFault if the message label is invalid
*/
public abstract MessageContext getMessageContext(String messageLabel)
throws AxisFault;
/**
* Set the callback to be executed when a message comes into the MEP and the
* operation client is executed. This is the way the operation client
* provides notification that a message has been received by it. Exactly
* when its executed and under what conditions is a function of the specific
* operation client.
*
* @param callback the callback to be used when the client decides its time to
* use it
*/
public final void setCallback(AxisCallback callback) {
axisCallback = callback;
}
/**
* Execute the MEP. This method is final and only serves to set (if appropriate)
* the lastOperationContext on the ServiceContext, and then it calls
* executeImpl(), which does the actual work.
*
* @param block Indicates whether execution should block or return ASAP. What
* block means is of course a function of the specific operation
* client.
* @throws AxisFault if something goes wrong during the execution of the operation
* client.
*/
public final void execute(boolean block) throws AxisFault {
sc.setLastOperationContext(oc);
executeImpl(block);
}
/**
* Execute the MEP. What this does depends on the specific operation client.
* The basic idea is to have the operation 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 operation
* client.
* @throws AxisFault if something goes wrong during the execution of the operation
* client.
*/
public abstract void executeImpl(boolean block) throws AxisFault;
/**
* Reset the operation client to a clean status after the MEP has completed.
* This is how you can reuse an operation client. NOTE: this does not reset
* the options; only the internal state so the client can be used again.
*
* @throws AxisFault if reset is called before the MEP client has completed an
* interaction.
*/
public void reset() throws AxisFault {
if (!completed) {
throw new AxisFault(Messages.getMessage("cannotreset"));
}
oc = null;
completed = false;
}
/**
* To close the transport if necessary , can call this method. The main
* usage of this method is when client uses two tarnsports for sending and
* receiving , and we need to remove entries for waiting calls in the
* transport listener queue.
* Note : DO NOT call this method if you are not using two transports to
* send and receive
*
* @param msgCtxt : MessageContext# which has all the transport information
* @throws AxisFault : throws AxisFault if something goes wrong
*/
public void complete(MessageContext msgCtxt) throws AxisFault {
TransportOutDescription trsout = msgCtxt.getTransportOut();
if (trsout != null) {
trsout.getSender().cleanup(msgCtxt);
}
}
/**
* To get the operation context of the operation client
*
* @return OperationContext
*/
public OperationContext getOperationContext() {
return oc;
}
/**
* Create a message ID for the given message context if needed. If user gives an option with
* MessageID then just copy that into MessageContext , and with that there can be multiple
* message with same MessageID unless user call setOption for each invocation.
*
* If user want to give message ID then the better way is to set the message ID in the option and
* call setOption for each invocation then the right thing will happen.
*
* If user does not give a message ID then the new one will be created and set that into Message
* Context.
*
* @param mc the message context whose id is to be set
*/
protected void setMessageID(MessageContext mc) {
// now its the time to put the parameters set by the user in to the
// correct places and to the
// if there is no message id still, set a new one.
String messageId = options.getMessageId();
if (messageId == null || "".equals(messageId)) {
messageId = UIDGenerator.generateURNString();
}
mc.setMessageID(messageId);
}
protected void addReferenceParameters(MessageContext msgctx) {
EndpointReference to = msgctx.getTo();
if (options.isManageSession() || (options.getParent() != null &&
options.getParent().isManageSession())) {
EndpointReference tepr = sc.getTargetEPR();
if (tepr != null) {
Map map = tepr.getAllReferenceParameters();
if (map != null) {
Iterator valuse = map.values().iterator();
while (valuse.hasNext()) {
Object refparaelement = valuse.next();
if (refparaelement instanceof OMElement) {
to.addReferenceParameter((OMElement) refparaelement);
}
}
}
}
}
}
/**
* prepareMessageContext gets a fresh new MessageContext ready to be sent.
* It sets up the necessary properties, transport information, etc.
*
* @param configurationContext the active ConfigurationContext
* @param mc the MessageContext to be configured
* @throws AxisFault if there is a problem
*/
protected void prepareMessageContext(ConfigurationContext configurationContext,
MessageContext mc)
throws AxisFault {
// set options on the message context
if (mc.getSoapAction() == null || "".equals(mc.getSoapAction())) {
mc.setSoapAction(options.getAction());
}
mc.setOptions(new Options(options));
mc.setAxisMessage(axisOp.getMessage(WSDLConstants.MESSAGE_LABEL_OUT_VALUE));
// do Target Resolution
TargetResolver targetResolver =
configurationContext.getAxisConfiguration().getTargetResolverChain();
if (targetResolver != null) {
targetResolver.resolveTarget(mc);
}
// if the transport to use for sending is not specified, try to find it
// from the URL
TransportOutDescription senderTransport = options.getTransportOut();
if (senderTransport == null) {
EndpointReference toEPR = (options.getTo() != null) ? options
.getTo() : mc.getTo();
senderTransport = ClientUtils.inferOutTransport(configurationContext
.getAxisConfiguration(), toEPR, mc);
}
mc.setTransportOut(senderTransport);
if (options.getParent() !=null && options.getParent().isManageSession()) {
mc.getOptions().setManageSession(true);
} else if (options.isManageSession()) {
mc.getOptions().setManageSession(true);
}
addReferenceParameters(mc);
}
}
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