org.apache.coyote.AbstractProtocol Maven / Gradle / Ivy
/*
* 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.coyote;
import java.net.InetAddress;
import java.util.concurrent.ConcurrentHashMap;
import java.util.concurrent.ConcurrentLinkedQueue;
import java.util.concurrent.Executor;
import java.util.concurrent.atomic.AtomicInteger;
import java.util.concurrent.atomic.AtomicLong;
import javax.management.MBeanRegistration;
import javax.management.MBeanServer;
import javax.management.MalformedObjectNameException;
import javax.management.ObjectName;
import org.apache.juli.logging.Log;
import org.apache.tomcat.util.ExceptionUtils;
import org.apache.tomcat.util.modeler.Registry;
import org.apache.tomcat.util.net.AbstractEndpoint;
import org.apache.tomcat.util.net.AbstractEndpoint.Handler;
import org.apache.tomcat.util.net.SocketStatus;
import org.apache.tomcat.util.net.SocketWrapper;
import org.apache.tomcat.util.res.StringManager;
public abstract class AbstractProtocol implements ProtocolHandler,
MBeanRegistration {
/**
* The string manager for this package.
*/
protected static final StringManager sm =
StringManager.getManager(Constants.Package);
/**
* Name of MBean for the Global Request Processor.
*/
protected ObjectName rgOname = null;
/**
* Name of MBean for the ThreadPool.
*/
protected ObjectName tpOname = null;
/**
* Endpoint that provides low-level network I/O - must be matched to the
* ProtocolHandler implementation (ProtocolHandler using BIO, requires BIO
* Endpoint etc.).
*/
protected AbstractEndpoint endpoint = null;
// ----------------------------------------------- Generic property handling
/**
* Generic property setter used by the digester. Other code should not need
* to use this. The digester will only use this method if it can't find a
* more specific setter. That means the property belongs to the Endpoint,
* the ServerSocketFactory or some other lower level component. This method
* ensures that it is visible to both.
*/
public boolean setProperty(String name, String value) {
return endpoint.setProperty(name, value);
}
/**
* Generic property getter used by the digester. Other code should not need
* to use this.
*/
public String getProperty(String name) {
return endpoint.getProperty(name);
}
// ------------------------------- Properties managed by the ProtocolHandler
/**
* The adapter provides the link between the ProtocolHandler and the
* connector.
*/
protected Adapter adapter;
@Override
public void setAdapter(Adapter adapter) { this.adapter = adapter; }
@Override
public Adapter getAdapter() { return adapter; }
/**
* The maximum number of idle processors that will be retained in the cache
* and re-used with a subsequent request. The default is 200. A value of -1
* means unlimited. In the unlimited case, the theoretical maximum number of
* cached Processor objects is {@link #getMaxConnections()} although it will
* usually be closer to {@link #getMaxThreads()}.
*/
protected int processorCache = 200;
public int getProcessorCache() { return this.processorCache; }
public void setProcessorCache(int processorCache) {
this.processorCache = processorCache;
}
/**
* When client certificate information is presented in a form other than
* instances of {@link java.security.cert.X509Certificate} it needs to be
* converted before it can be used and this property controls which JSSE
* provider is used to perform the conversion. For example it is used with
* the AJP connectors, the HTTP APR connector and with the
* {@link org.apache.catalina.valves.SSLValve}. If not specified, the
* default provider will be used.
*/
protected String clientCertProvider = null;
public String getClientCertProvider() { return clientCertProvider; }
public void setClientCertProvider(String s) { this.clientCertProvider = s; }
// ---------------------- Properties that are passed through to the EndPoint
@Override
public Executor getExecutor() { return endpoint.getExecutor(); }
public void setExecutor(Executor executor) {
endpoint.setExecutor(executor);
}
public int getMaxThreads() { return endpoint.getMaxThreads(); }
public void setMaxThreads(int maxThreads) {
endpoint.setMaxThreads(maxThreads);
}
public int getMaxConnections() { return endpoint.getMaxConnections(); }
public void setMaxConnections(int maxConnections) {
endpoint.setMaxConnections(maxConnections);
}
public int getMinSpareThreads() { return endpoint.getMinSpareThreads(); }
public void setMinSpareThreads(int minSpareThreads) {
endpoint.setMinSpareThreads(minSpareThreads);
}
public int getThreadPriority() { return endpoint.getThreadPriority(); }
public void setThreadPriority(int threadPriority) {
endpoint.setThreadPriority(threadPriority);
}
public int getBacklog() { return endpoint.getBacklog(); }
public void setBacklog(int backlog) { endpoint.setBacklog(backlog); }
public boolean getTcpNoDelay() { return endpoint.getTcpNoDelay(); }
public void setTcpNoDelay(boolean tcpNoDelay) {
endpoint.setTcpNoDelay(tcpNoDelay);
}
public int getSoLinger() { return endpoint.getSoLinger(); }
public void setSoLinger(int soLinger) { endpoint.setSoLinger(soLinger); }
public int getKeepAliveTimeout() { return endpoint.getKeepAliveTimeout(); }
public void setKeepAliveTimeout(int keepAliveTimeout) {
endpoint.setKeepAliveTimeout(keepAliveTimeout);
}
public InetAddress getAddress() { return endpoint.getAddress(); }
public void setAddress(InetAddress ia) {
endpoint.setAddress(ia);
}
public int getPort() { return endpoint.getPort(); }
public void setPort(int port) {
endpoint.setPort(port);
}
/*
* When Tomcat expects data from the client, this is the time Tomcat will
* wait for that data to arrive before closing the connection.
*/
public int getConnectionTimeout() {
// Note that the endpoint uses the alternative name
return endpoint.getSoTimeout();
}
public void setConnectionTimeout(int timeout) {
// Note that the endpoint uses the alternative name
endpoint.setSoTimeout(timeout);
}
/*
* Alternative name for connectionTimeout property
*/
public int getSoTimeout() {
return getConnectionTimeout();
}
public void setSoTimeout(int timeout) {
setConnectionTimeout(timeout);
}
// ---------------------------------------------------------- Public methods
/**
* The name will be prefix-address-port if address is non-null and
* prefix-port if the address is null. The name will be appropriately quoted
* so it can be used directly in an ObjectName.
*/
public String getName() {
StringBuilder name = new StringBuilder(getNamePrefix());
name.append('-');
if (getAddress() != null) {
name.append(getAddress());
name.append('-');
}
name.append(endpoint.getPort());
return ObjectName.quote(name.toString());
}
// -------------------------------------------------------- Abstract methods
/**
* Concrete implementations need to provide access to their logger to be
* used by the abstract classes.
*/
protected abstract Log getLog();
/**
* Obtain the prefix to be used when construction a name for this protocol
* handler. The name will be prefix-address-port.
*/
protected abstract String getNamePrefix();
/**
* Obtain the name of the protocol, (Http, Ajp, etc.). Used with JMX.
*/
protected abstract String getProtocolName();
/**
* Obtain the handler associated with the underlying Endpoint
*/
protected abstract Handler getHandler();
// ----------------------------------------------------- JMX related methods
protected String domain;
protected ObjectName oname;
protected MBeanServer mserver;
public ObjectName getObjectName() {
return oname;
}
public String getDomain() {
return domain;
}
@Override
public ObjectName preRegister(MBeanServer server, ObjectName name)
throws Exception {
oname = name;
mserver = server;
domain = name.getDomain();
return name;
}
@Override
public void postRegister(Boolean registrationDone) {
// NOOP
}
@Override
public void preDeregister() throws Exception {
// NOOP
}
@Override
public void postDeregister() {
// NOOP
}
private ObjectName createObjectName() throws MalformedObjectNameException {
// Use the same domain as the connector
domain = adapter.getDomain();
if (domain == null) {
return null;
}
StringBuilder name = new StringBuilder(getDomain());
name.append(":type=ProtocolHandler,port=");
name.append(getPort());
InetAddress address = getAddress();
if (address != null) {
name.append(",address=");
name.append(ObjectName.quote(address.toString()));
}
return new ObjectName(name.toString());
}
// ------------------------------------------------------- Lifecycle methods
/*
* NOTE: There is no maintenance of state or checking for valid transitions
* within this class. It is expected that the connector will maintain state
* and prevent invalid state transitions.
*/
@Override
public void init() throws Exception {
if (getLog().isInfoEnabled())
getLog().info(sm.getString("abstractProtocolHandler.init",
getName()));
if (oname == null) {
// Component not pre-registered so register it
oname = createObjectName();
if (oname != null) {
Registry.getRegistry(null, null).registerComponent(this, oname,
null);
}
}
if (this.domain != null) {
try {
tpOname = new ObjectName(domain + ":" +
"type=ThreadPool,name=" + getName());
Registry.getRegistry(null, null).registerComponent(endpoint,
tpOname, null);
} catch (Exception e) {
getLog().error(sm.getString(
"abstractProtocolHandler.mbeanRegistrationFailed",
tpOname, getName()), e);
}
rgOname=new ObjectName(domain +
":type=GlobalRequestProcessor,name=" + getName());
Registry.getRegistry(null, null).registerComponent(
getHandler().getGlobal(), rgOname, null );
}
String endpointName = getName();
endpoint.setName(endpointName.substring(1, endpointName.length()-1));
try {
endpoint.init();
} catch (Exception ex) {
getLog().error(sm.getString("abstractProtocolHandler.initError",
getName()), ex);
throw ex;
}
}
@Override
public void start() throws Exception {
if (getLog().isInfoEnabled())
getLog().info(sm.getString("abstractProtocolHandler.start",
getName()));
try {
endpoint.start();
} catch (Exception ex) {
getLog().error(sm.getString("abstractProtocolHandler.startError",
getName()), ex);
throw ex;
}
}
@Override
public void pause() throws Exception {
if(getLog().isInfoEnabled())
getLog().info(sm.getString("abstractProtocolHandler.pause",
getName()));
try {
endpoint.pause();
} catch (Exception ex) {
getLog().error(sm.getString("abstractProtocolHandler.pauseError",
getName()), ex);
throw ex;
}
}
@Override
public void resume() throws Exception {
if(getLog().isInfoEnabled())
getLog().info(sm.getString("abstractProtocolHandler.resume",
getName()));
try {
endpoint.resume();
} catch (Exception ex) {
getLog().error(sm.getString("abstractProtocolHandler.resumeError",
getName()), ex);
throw ex;
}
}
@Override
public void stop() throws Exception {
if(getLog().isInfoEnabled())
getLog().info(sm.getString("abstractProtocolHandler.stop",
getName()));
try {
endpoint.stop();
} catch (Exception ex) {
getLog().error(sm.getString("abstractProtocolHandler.stopError",
getName()), ex);
throw ex;
}
}
@Override
public void destroy() {
if(getLog().isInfoEnabled()) {
getLog().info(sm.getString("abstractProtocolHandler.destroy",
getName()));
}
try {
endpoint.destroy();
} catch (Exception e) {
getLog().error(sm.getString("abstractProtocolHandler.destroyError",
getName()), e);
}
if (oname != null) {
Registry.getRegistry(null, null).unregisterComponent(oname);
}
if (tpOname != null)
Registry.getRegistry(null, null).unregisterComponent(tpOname);
if (rgOname != null)
Registry.getRegistry(null, null).unregisterComponent(rgOname);
}
// ------------------------------------------- Connection handler base class
protected abstract static class AbstractConnectionHandler>
implements AbstractEndpoint.Handler {
protected abstract Log getLog();
protected RequestGroupInfo global = new RequestGroupInfo();
protected AtomicLong registerCount = new AtomicLong(0);
protected ConcurrentHashMap connections =
new ConcurrentHashMap();
protected RecycledProcessors recycledProcessors =
new RecycledProcessors(this);
protected abstract AbstractProtocol getProtocol();
@Override
public Object getGlobal() {
return global;
}
@Override
public void recycle() {
recycledProcessors.clear();
}
public SocketState process(SocketWrapper socket,
SocketStatus status) {
P processor = connections.remove(socket.getSocket());
if (getLog().isDebugEnabled()) {
getLog().debug("process() entry " +
"Socket: [" + logHashcode(socket.getSocket()) + "], " +
"Processor [" + logHashcode(processor) + "]");
}
socket.setAsync(false);
try {
if (processor == null) {
processor = recycledProcessors.poll();
}
if (processor == null) {
processor = createProcessor();
}
if (getLog().isDebugEnabled()) {
getLog().debug("process() gotProcessor " +
"Socket: [" + logHashcode(socket.getSocket()) + "], " +
"Processor [" + logHashcode(processor) + "]");
}
initSsl(socket, processor);
SocketState state = SocketState.CLOSED;
do {
if (processor.isAsync() || state == SocketState.ASYNC_END) {
state = processor.asyncDispatch(status);
if (getLog().isDebugEnabled()) {
getLog().debug("process() asyncDispatch " +
"Socket: [" + logHashcode(socket.getSocket()) + "], " +
"Processor: [" + logHashcode(processor) + "], " +
"State: [" + state.toString() + "]");
}
} else if (processor.isComet()) {
state = processor.event(status);
if (getLog().isDebugEnabled()) {
getLog().debug("process() event " +
"Socket: [" + logHashcode(socket.getSocket()) + "], " +
"Processor: [" + logHashcode(processor) + "], " +
"State: [" + state.toString() + "]");
}
} else {
state = processor.process(socket);
if (getLog().isDebugEnabled()) {
getLog().debug("process() process " +
"Socket: [" + logHashcode(socket.getSocket()) + "], " +
"Processor: [" + logHashcode(processor) + "], " +
"State: [" + state.toString() + "]");
}
}
if (state != SocketState.CLOSED && processor.isAsync()) {
state = processor.asyncPostProcess();
if (getLog().isDebugEnabled()) {
getLog().debug("process() asyncPostProcess " +
"Socket: [" + logHashcode(socket.getSocket()) + "], " +
"Processor: [" + logHashcode(processor) + "], " +
"State: [" + state.toString() + "]");
}
}
} while (state == SocketState.ASYNC_END);
if (state == SocketState.LONG) {
// In the middle of processing a request/response. Keep the
// socket associated with the processor. Exact requirements
// depend on type of long poll
longPoll(socket, processor);
} else if (state == SocketState.OPEN) {
// In keep-alive but between requests. OK to recycle
// processor. Continue to poll for the next request.
release(socket, processor, false, true);
} else if (state == SocketState.SENDFILE) {
// Sendfile in progress. If it fails, the socket will be
// closed. If it works, the socket will be re-added to the
// poller
release(socket, processor, false, false);
} else {
// Connection closed. OK to recycle the processor.
release(socket, processor, true, false);
}
return state;
} catch(java.net.SocketException e) {
// SocketExceptions are normal
getLog().debug(sm.getString(
"ajpprotocol.proto.socketexception.debug"), e);
} catch (java.io.IOException e) {
// IOExceptions are normal
getLog().debug(sm.getString(
"ajpprotocol.proto.ioexception.debug"), e);
}
// Future developers: if you discover any other
// rare-but-nonfatal exceptions, catch them here, and log as
// above.
catch (Throwable e) {
ExceptionUtils.handleThrowable(e);
// any other exception or error is odd. Here we log it
// with "ERROR" level, so it will show up even on
// less-than-verbose logs.
getLog().error(sm.getString("ajpprotocol.proto.error"), e);
}
release(socket, processor, true, false);
return SocketState.CLOSED;
}
private String logHashcode (Object o) {
if (o == null) {
return "null";
} else {
return Integer.toString(o.hashCode());
}
}
protected abstract P createProcessor();
protected abstract void initSsl(SocketWrapper socket, P processor);
protected abstract void longPoll(SocketWrapper socket, P processor);
protected abstract void release(SocketWrapper socket, P processor,
boolean socketClosing, boolean addToPoller);
protected void register(AbstractProcessor processor) {
if (getProtocol().getDomain() != null) {
synchronized (this) {
try {
long count = registerCount.incrementAndGet();
RequestInfo rp =
processor.getRequest().getRequestProcessor();
rp.setGlobalProcessor(global);
ObjectName rpName = new ObjectName(
getProtocol().getDomain() +
":type=RequestProcessor,worker="
+ getProtocol().getName() +
",name=" + getProtocol().getProtocolName() +
"Request" + count);
if (getLog().isDebugEnabled()) {
getLog().debug("Register " + rpName);
}
Registry.getRegistry(null, null).registerComponent(rp,
rpName, null);
rp.setRpName(rpName);
} catch (Exception e) {
getLog().warn("Error registering request");
}
}
}
}
protected void unregister(AbstractProcessor processor) {
if (getProtocol().getDomain() != null) {
synchronized (this) {
try {
RequestInfo rp =
processor.getRequest().getRequestProcessor();
rp.setGlobalProcessor(null);
ObjectName rpName = rp.getRpName();
if (getLog().isDebugEnabled()) {
getLog().debug("Unregister " + rpName);
}
Registry.getRegistry(null, null).unregisterComponent(
rpName);
rp.setRpName(null);
} catch (Exception e) {
getLog().warn("Error unregistering request", e);
}
}
}
}
}
protected static class RecycledProcessors, S>
extends ConcurrentLinkedQueue
{
private static final long serialVersionUID = 1L;
private transient AbstractConnectionHandler handler;
protected AtomicInteger size = new AtomicInteger(0);
public RecycledProcessors(AbstractConnectionHandler handler) {
this.handler = handler;
}
@Override
public boolean offer(P processor) {
int cacheSize = handler.getProtocol().getProcessorCache();
boolean offer = cacheSize == -1 ? true : size.get() < cacheSize;
//avoid over growing our cache or add after we have stopped
boolean result = false;
if (offer) {
result = super.offer(processor);
if (result) {
size.incrementAndGet();
}
}
if (!result) handler.unregister(processor);
return result;
}
@Override
public P poll() {
P result = super.poll();
if (result != null) {
size.decrementAndGet();
}
return result;
}
@Override
public void clear() {
P next = poll();
while (next != null) {
handler.unregister(next);
next = poll();
}
super.clear();
size.set(0);
}
}
}