org.apache.cxf.clustering.LoadDistributorTargetSelector Maven / Gradle / Ivy
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* 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.cxf.clustering;
import java.util.List;
import java.util.logging.Logger;
import org.apache.cxf.common.logging.LogUtils;
import org.apache.cxf.endpoint.Endpoint;
import org.apache.cxf.message.Exchange;
import org.apache.cxf.message.Message;
import org.apache.cxf.transport.Conduit;
/**
* The LoadDistributorTargetSelector attempts to do the same job as the
* FailoverTargetSelector, but to choose an alternate target on every request
* rather than just when a fault occurs.
* The LoadDistributorTargetSelector uses the same FailoverStrategy interface as
* the FailoverTargetSelector, but has a few significant limitations:
* 1. Because the LoadDistributorTargetSelector needs to maintain a list of targets
* between calls it has to obtain that list without reference to a Message.
* Most FailoverStrategy classes can support this for addresses, but it cannot
* be supported for endpoints.
* If the list of targets cannot be obtained without reference to a Message then
* the list will still be obtained but it will be specific to the Message and thus
* discarded after this message has been processed. As a consequence, if the
* strategy chosen is a simple sequential one the first item in the list will
* be chosen every time.
* Conclusion: Be aware that if you are working with targets that are
* dependent on the Message the process will be less efficient and that the
* SequentialStrategy will not distribute the load at all.
* 2. The AbstractStaticFailoverStrategy base class excludes the 'default' endpoint
* from the list of alternate endpoints.
* If alternate endpoints (as opposed to alternate addresses) are to be used
* you should probably ensure that your FailoverStrategy overrides getAlternateEndpoints
* and calls getEndpoints with acceptCandidatesWithSameAddress = true.
*/
public class LoadDistributorTargetSelector extends FailoverTargetSelector {
private static final Logger LOG = LogUtils.getL7dLogger(
LoadDistributorTargetSelector.class);
private static final String IS_DISTRIBUTED =
"org.apache.cxf.clustering.LoadDistributorTargetSelector.IS_DISTRIBUTED";
private List addressList;
private boolean failover = true;
/**
* Normal constructor.
*/
public LoadDistributorTargetSelector() {
super();
}
/**
* Constructor, allowing a specific conduit to override normal selection.
*
* @param c specific conduit
*/
public LoadDistributorTargetSelector(Conduit c) {
super(c);
}
public boolean isFailover() {
return failover;
}
public void setFailover(boolean failover) {
this.failover = failover;
}
@Override
protected java.util.logging.Logger getLogger() {
return LOG;
}
/**
* Called when a Conduit is actually required.
*
* @param message
* @return the Conduit to use for mediation of the message
*/
public synchronized Conduit selectConduit(Message message) {
Conduit c = message.get(Conduit.class);
if (c != null) {
return c;
}
Exchange exchange = message.getExchange();
InvocationKey key = new InvocationKey(exchange);
InvocationContext invocation = inProgress.get(key);
if ((invocation != null) && !invocation.getContext().containsKey(IS_DISTRIBUTED)) {
Endpoint target = getDistributionTarget(exchange, invocation);
if (target != null) {
setEndpoint(target);
message.put(Message.ENDPOINT_ADDRESS, target.getEndpointInfo().getAddress());
message.put(CONDUIT_COMPARE_FULL_URL, Boolean.TRUE);
overrideAddressProperty(invocation.getContext());
invocation.getContext().put(IS_DISTRIBUTED, null);
}
}
return getSelectedConduit(message);
}
/**
* Get the failover target endpoint, if a suitable one is available.
*
* @param exchange the current Exchange
* @param invocation the current InvocationContext
* @return a failover endpoint if one is available
*
* Note: The only difference between this and the super implementation is
* that the current (failed) address is removed from the list set of alternates,
* it could be argued that that change should be in the super implementation
* but I'm not sure of the impact.
*/
protected Endpoint getFailoverTarget(Exchange exchange,
InvocationContext invocation) {
List alternateAddresses = null;
if (!invocation.hasAlternates()) {
// no previous failover attempt on this invocation
//
alternateAddresses =
getStrategy().getAlternateAddresses(exchange);
if (alternateAddresses != null) {
alternateAddresses.remove(exchange.getEndpoint().getEndpointInfo().getAddress());
invocation.setAlternateAddresses(alternateAddresses);
} else {
invocation.setAlternateEndpoints(
getStrategy().getAlternateEndpoints(exchange));
}
} else {
alternateAddresses = invocation.getAlternateAddresses();
}
Endpoint failoverTarget = null;
if (alternateAddresses != null) {
String alternateAddress =
getStrategy().selectAlternateAddress(alternateAddresses);
if (alternateAddress != null) {
// re-use current endpoint
//
failoverTarget = getEndpoint();
failoverTarget.getEndpointInfo().setAddress(alternateAddress);
}
} else {
failoverTarget = getStrategy().selectAlternateEndpoint(
invocation.getAlternateEndpoints());
}
return failoverTarget;
}
/**
* Get the distribution target endpoint, if a suitable one is available.
*
* @param exchange the current Exchange
* @param invocation the current InvocationContext
* @return a distribution endpoint if one is available
*/
private Endpoint getDistributionTarget(Exchange exchange,
InvocationContext invocation) {
List alternateAddresses = null;
if ((addressList == null) || (addressList.isEmpty())) {
try {
addressList = getStrategy().getAlternateAddresses(null);
} catch (NullPointerException ex) {
getLogger().fine("Strategy " + getStrategy().getClass()
+ " cannot handle a null argument to getAlternateAddresses: " + ex.toString());
}
}
alternateAddresses = addressList;
if ((alternateAddresses == null) || (alternateAddresses.isEmpty())) {
alternateAddresses = getStrategy().getAlternateAddresses(exchange);
if (alternateAddresses != null) {
invocation.setAlternateAddresses(alternateAddresses);
} else {
invocation.setAlternateEndpoints(
getStrategy().getAlternateEndpoints(exchange));
}
}
Endpoint distributionTarget = null;
if ((alternateAddresses != null) && !alternateAddresses.isEmpty()) {
String alternateAddress =
getStrategy().selectAlternateAddress(alternateAddresses);
if (alternateAddress != null) {
// re-use current endpoint
distributionTarget = getEndpoint();
distributionTarget.getEndpointInfo().setAddress(alternateAddress);
}
} else {
distributionTarget = getStrategy().selectAlternateEndpoint(
invocation.getAlternateEndpoints());
}
return distributionTarget;
}
@Override
protected boolean requiresFailover(Exchange exchange) {
return failover && super.requiresFailover(exchange);
}
}