/*
* 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.ode.axis2;
import java.util.concurrent.Callable;
import java.util.concurrent.ExecutorService;
import java.util.Map;
import java.util.HashMap;
import java.io.File;
import java.io.InputStream;
import javax.wsdl.Definition;
import javax.wsdl.Fault;
import javax.wsdl.Operation;
import javax.xml.namespace.QName;
import org.apache.axiom.soap.SOAPEnvelope;
import org.apache.axis2.AxisFault;
import org.apache.axis2.deployment.ServiceBuilder;
import org.apache.axis2.addressing.EndpointReference;
import org.apache.axis2.client.OperationClient;
import org.apache.axis2.client.Options;
import org.apache.axis2.client.ServiceClient;
import org.apache.axis2.context.ConfigurationContext;
import org.apache.axis2.context.MessageContext;
import org.apache.axis2.engine.AxisConfiguration;
import org.apache.axis2.wsdl.WSDLConstants;
import org.apache.commons.logging.Log;
import org.apache.commons.logging.LogFactory;
import org.apache.ode.axis2.util.SoapMessageConverter;
import org.apache.ode.bpel.epr.EndpointFactory;
import org.apache.ode.bpel.epr.MutableEndpoint;
import org.apache.ode.bpel.epr.WSAEndpoint;
import org.apache.ode.bpel.epr.WSDL11Endpoint;
import org.apache.ode.bpel.iapi.BpelServer;
import org.apache.ode.bpel.iapi.Message;
import org.apache.ode.bpel.iapi.MessageExchange;
import org.apache.ode.bpel.iapi.PartnerRoleMessageExchange;
import org.apache.ode.bpel.iapi.Scheduler;
import org.apache.ode.bpel.iapi.ProcessConf;
import org.apache.ode.bpel.iapi.MessageExchange.FailureType;
import org.apache.ode.il.OMUtils;
import org.apache.ode.utils.DOMUtils;
import org.apache.ode.utils.Namespaces;
import org.apache.ode.utils.WatchDog;
import org.apache.ode.utils.CollectionUtils;
import org.apache.ode.utils.fs.FileWatchDog;
import org.apache.ode.utils.wsdl.Messages;
import org.apache.ode.utils.uuid.UUID;
import org.w3c.dom.Document;
import org.w3c.dom.Element;
/**
* Acts as a service not provided by ODE. Used mainly for invocation as a way to maintain the WSDL description of used
* services.
*
* @author Matthieu Riou <mriou at apache dot org>
*/
public class SoapExternalService implements ExternalService {
private static final Log __log = LogFactory.getLog(SoapExternalService.class);
private static final org.apache.ode.utils.wsdl.Messages msgs = Messages.getMessages(Messages.class);
private static final int EXPIRE_SERVICE_CLIENT = 30000;
private static ThreadLocal<CachedOptions> _cachedOptions = new ThreadLocal<CachedOptions>();
private static ThreadLocal<CachedServiceClient> _cachedClients = new ThreadLocal<CachedServiceClient>();
private ExecutorService _executorService;
private Definition _definition;
private QName _serviceName;
private String _portName;
protected WSAEndpoint endpointReference;
private AxisConfiguration _axisConfig;
private SoapMessageConverter _converter;
private Scheduler _sched;
private BpelServer _server;
private ProcessConf _pconf;
public SoapExternalService(ProcessConf pconf, QName serviceName, String portName, ExecutorService executorService,
AxisConfiguration axisConfig, Scheduler sched, BpelServer server) throws AxisFault {
_definition = pconf.getDefinitionForService(serviceName);
_serviceName = serviceName;
_portName = portName;
_executorService = executorService;
_axisConfig = axisConfig;
_sched = sched;
_converter = new SoapMessageConverter(_definition, serviceName, portName);
_server = server;
_pconf = pconf;
// initial endpoint reference
Element eprElmt = ODEService.genEPRfromWSDL(_definition, serviceName, portName);
if (eprElmt == null)
throw new IllegalArgumentException(msgs.msgPortDefinitionNotFound(serviceName, portName));
endpointReference = EndpointFactory.convertToWSA(ODEService.createServiceRef(eprElmt));
}
public void invoke(final PartnerRoleMessageExchange odeMex) {
boolean isTwoWay = odeMex.getMessageExchangePattern() == org.apache.ode.bpel.iapi.MessageExchange.MessageExchangePattern.REQUEST_RESPONSE;
try {
// Override options are passed to the axis MessageContext so we can
// retrieve them in our session out handler.
MessageContext mctx = new MessageContext();
writeHeader(mctx, odeMex);
_converter.createSoapRequest(mctx, odeMex.getRequest(), odeMex.getOperation());
SOAPEnvelope soapEnv = mctx.getEnvelope();
EndpointReference axisEPR = new EndpointReference(((MutableEndpoint) odeMex.getEndpointReference())
.getUrl());
if (__log.isDebugEnabled()) {
__log.debug("Axis2 sending message to " + axisEPR.getAddress() + " using MEX " + odeMex);
__log.debug("Message: " + soapEnv);
}
ServiceClient client = getCachedServiceClient().client;
final OperationClient operationClient = client.createClient(isTwoWay ? ServiceClient.ANON_OUT_IN_OP
: ServiceClient.ANON_OUT_ONLY_OP);
operationClient.addMessageContext(mctx);
// this Options can be alter without impacting the ServiceClient options (which is a requirement)
Options operationOptions = operationClient.getOptions();
operationOptions.setAction(mctx.getSoapAction());
operationOptions.setTo(axisEPR);
if (isTwoWay) {
final String mexId = odeMex.getMessageExchangeId();
final Operation operation = odeMex.getOperation();
// Defer the invoke until the transaction commits.
_sched.registerSynchronizer(new Scheduler.Synchronizer() {
public void afterCompletion(boolean success) {
// If the TX is rolled back, then we don't send the request.
if (!success) return;
// The invocation must happen in a separate thread, holding on the afterCompletion
// blocks other operations that could have been listed there as well.
_executorService.submit(new Callable<Object>() {
public Object call() throws Exception {
try {
operationClient.execute(true);
MessageContext response = operationClient.getMessageContext(WSDLConstants.MESSAGE_LABEL_IN_VALUE);
MessageContext flt = operationClient.getMessageContext(WSDLConstants.MESSAGE_LABEL_FAULT_VALUE);
if (response != null && __log.isDebugEnabled())
__log.debug("Service response:\n" + response.getEnvelope().toString());
if (flt != null) {
reply(mexId, operation, flt, true);
} else {
reply(mexId, operation, response, response.isFault());
}
} catch (Throwable t) {
String errmsg = "Error sending message (mex=" + odeMex + "): " + t.getMessage();
__log.error(errmsg, t);
replyWithFailure(mexId, MessageExchange.FailureType.COMMUNICATION_ERROR, errmsg, null);
}
return null;
}
});
}
public void beforeCompletion() {
}
});
odeMex.replyAsync();
} else { /** one-way case * */
_executorService.submit(new Callable<Object>() {
public Object call() throws Exception {
operationClient.execute(false);
return null;
}
});
odeMex.replyOneWayOk();
}
} catch (AxisFault axisFault) {
String errmsg = "Error sending message to Axis2 for ODE mex " + odeMex;
__log.error(errmsg, axisFault);
odeMex.replyWithFailure(MessageExchange.FailureType.COMMUNICATION_ERROR, errmsg, null);
}
}
private CachedServiceClient getCachedServiceClient() throws AxisFault {
CachedServiceClient cachedServiceClient = _cachedClients.get();
if (cachedServiceClient == null) {
cachedServiceClient = new CachedServiceClient(new File(_pconf.getBaseURI().resolve(_serviceName.getLocalPart() + ".axis2")), EXPIRE_SERVICE_CLIENT);
_cachedClients.set(cachedServiceClient);
}
try {
// call manually the check procedure
// we dont want a dedicated thread for that
cachedServiceClient.check();
} catch (RuntimeException e) {
throw AxisFault.makeFault(e.getCause() != null ? e.getCause() : e);
}
SoapExternalService.CachedOptions cachedOptions = _cachedOptions.get();
if (cachedOptions == null) {
cachedOptions = new CachedOptions();
_cachedOptions.set(cachedOptions);
}
cachedOptions.check();
// apply the options to the service client
cachedServiceClient.client.setOptions(cachedOptions.options);
return cachedServiceClient;
}
/**
* Extracts the action to be used for the given operation. It first checks to see
* if a value is specified using WS-Addressing in the portType, it then falls back onto
* getting it from the SOAP Binding.
*
* @param operation the name of the operation to get the Action for
* @return The action value for the specified operation
*/
private String getAction(String operation) {
String action = _converter.getWSAInputAction(operation);
if (action == null || "".equals(action)) {
action = _converter.getSoapAction(operation);
}
return action;
}
/**
* Extracts endpoint information from ODE message exchange to stuff them into Axis MessageContext.
*/
private void writeHeader(MessageContext ctxt, PartnerRoleMessageExchange odeMex) {
Options options = ctxt.getOptions();
WSAEndpoint targetEPR = EndpointFactory.convertToWSA((MutableEndpoint) odeMex.getEndpointReference());
WSAEndpoint myRoleEPR = EndpointFactory.convertToWSA((MutableEndpoint) odeMex.getMyRoleEndpointReference());
String partnerSessionId = odeMex.getProperty(MessageExchange.PROPERTY_SEP_PARTNERROLE_SESSIONID);
String myRoleSessionId = odeMex.getProperty(MessageExchange.PROPERTY_SEP_MYROLE_SESSIONID);
if (partnerSessionId != null) {
if (__log.isDebugEnabled()) {
__log.debug("Partner session identifier found for WSA endpoint: " + partnerSessionId);
}
targetEPR.setSessionId(partnerSessionId);
}
options.setProperty("targetSessionEndpoint", targetEPR);
if (myRoleEPR != null) {
if (myRoleSessionId != null) {
if (__log.isDebugEnabled()) {
__log.debug("MyRole session identifier found for myrole (callback) WSA endpoint: "
+ myRoleSessionId);
}
myRoleEPR.setSessionId(myRoleSessionId);
}
options.setProperty("callbackSessionEndpoint", odeMex.getMyRoleEndpointReference());
} else {
__log.debug("My-Role EPR not specified, SEP will not be used.");
}
String action = getAction(odeMex.getOperationName());
ctxt.setSoapAction(action);
if (MessageExchange.MessageExchangePattern.REQUEST_RESPONSE == odeMex.getMessageExchangePattern()) {
EndpointReference annonEpr =
new EndpointReference(Namespaces.WS_ADDRESSING_ANON_URI);
ctxt.setReplyTo(annonEpr);
ctxt.setMessageID("uuid:" + new UUID().toString());
}
}
public org.apache.ode.bpel.iapi.EndpointReference getInitialEndpointReference() {
return endpointReference;
}
public void close() {
// nothing
}
public String getPortName() {
return _portName;
}
public QName getServiceName() {
return _serviceName;
}
private void replyWithFailure(final String odeMexId, final FailureType error, final String errmsg,
final Element details) {
// ODE MEX needs to be invoked in a TX.
try {
_sched.execIsolatedTransaction(new Callable<Void>() {
public Void call() throws Exception {
PartnerRoleMessageExchange odeMex = (PartnerRoleMessageExchange) _server.getEngine().getMessageExchange(odeMexId);
odeMex.replyWithFailure(error, errmsg, details);
return null;
}
});
} catch (Exception e) {
String emsg = "Error executing replyWithFailure transaction; reply will be lost.";
__log.error(emsg, e);
}
}
private void reply(final String odeMexId, final Operation operation, final MessageContext reply, final boolean fault) {
// ODE MEX needs to be invoked in a TX.
try {
_sched.execIsolatedTransaction(new Callable<Void>() {
public Void call() throws Exception {
PartnerRoleMessageExchange odeMex = (PartnerRoleMessageExchange) _server.getEngine().getMessageExchange(odeMexId);
// Setting the response
try {
if (__log.isDebugEnabled()) __log.debug("Received response for MEX " + odeMex);
if (fault) {
Document odeMsg = DOMUtils.newDocument();
Element odeMsgEl = odeMsg.createElementNS(null, "message");
odeMsg.appendChild(odeMsgEl);
QName faultType = _converter.parseSoapFault(odeMsgEl, reply.getEnvelope(), operation);
if (__log.isDebugEnabled()) __log.debug("Reply is a fault, found type: " + faultType);
if (faultType != null) {
if (__log.isWarnEnabled())
__log.warn("Fault response: faultType=" + faultType + "\n" + DOMUtils.domToString(odeMsgEl));
Message response = odeMex.createMessage(faultType);
response.setMessage(odeMsgEl);
odeMex.replyWithFault(faultType, response);
} else {
if (__log.isWarnEnabled())
__log.warn("Fault response: faultType=(unkown)\n" + reply.getEnvelope().toString());
odeMex.replyWithFailure(FailureType.OTHER, reply.getEnvelope().getBody()
.getFault().getText(), OMUtils.toDOM(reply.getEnvelope().getBody()));
}
} else {
Message response = odeMex.createMessage(odeMex.getOperation().getOutput().getMessage().getQName());
_converter.parseSoapResponse(response, reply.getEnvelope(), operation);
if (__log.isInfoEnabled()) __log.info("Response:\n" + (response.getMessage() != null ?
DOMUtils.domToString(response.getMessage()) : "empty"));
odeMex.reply(response);
}
} catch (Exception ex) {
String errmsg = "Unable to process response: " + ex.getMessage();
__log.error(errmsg, ex);
odeMex.replyWithFailure(FailureType.OTHER, errmsg, null);
}
return null;
}
});
} catch (Exception e) {
String errmsg = "Error executing reply transaction; reply will be lost.";
__log.error(errmsg, e);
}
}
/**
* This class wraps a {@link org.apache.axis2.client.ServiceClient} and watches changes (deletions,creations,updates)
* on a Axis2 service config file named {service-name}.axis2.<p/>
* The {@link org.apache.axis2.client.ServiceClient} instance is created from the main Axis2 config instance and
* this service-specific config file.
*/
private class CachedServiceClient extends FileWatchDog {
ServiceClient client;
protected CachedServiceClient(File file, long delay) {
super(file, delay);
}
protected boolean isInitialized() {
return client != null;
}
protected void init() {
try {
client = new ServiceClient(new ConfigurationContext(_axisConfig), null);
} catch (AxisFault axisFault) {
throw new RuntimeException(axisFault);
}
}
protected void doOnUpdate() {
// axis2 service configuration
// if the config file has been modified (i.e added or updated), re-create a ServiceClient
// and load the new config.
init(); // create a new ServiceClient instance
try {
InputStream ais = file.toURI().toURL().openStream();
if (ais != null) {
if (__log.isDebugEnabled()) __log.debug("Configuring service " + _serviceName + " using: " + file);
ServiceBuilder builder = new ServiceBuilder(ais, new ConfigurationContext(client.getAxisConfiguration()), client.getAxisService());
builder.populateService(builder.buildOM());
}
} catch (Exception e) {
if (__log.isWarnEnabled()) __log.warn("Exception while configuring service: " + _serviceName, e);
}
}
}
private class CachedOptions extends WatchDog<Map> {
Options options;
private CachedOptions() {
super(new WatchDog.Mutable<Map>() {
// ProcessConf#getProperties(String...) cannot return ull (by contract)
public boolean exists() {
return true;
}
public boolean hasChangedSince(Map since) {
Map latest = lastModified(); // cannot be null but better be prepared
// check if mappings are equal
return !CollectionUtils.equals(latest, since);
}
public Map lastModified() {
return _pconf.getEndpointProperties(endpointReference);
}
});
}
protected boolean isInitialized() {
return options != null;
}
protected void init() {
options = new Options();
}
protected void doOnUpdate() {
init();
// note: don't make this map an instance attribute, so we always get the latest version
final Map<String, String> properties = _pconf.getEndpointProperties(endpointReference);
Properties.Axis2.translate(properties, options);
// set defaults values
options.setExceptionToBeThrownOnSOAPFault(false);
// this value does NOT override Properties.PROP_HTTP_CONNECTION_TIMEOUT
// nor Properties.PROP_HTTP_SOCKET_TIMEOUT.
// it will be applied only if the laters are not set.
options.setTimeOutInMilliSeconds(60000);
}
}
}