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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.tomcat.util.net;

import java.security.AccessController;
import java.security.PrivilegedAction;
import java.util.ArrayList;
import java.util.HashMap;
import java.util.Iterator;
import java.util.concurrent.ConcurrentLinkedQueue;
import java.util.concurrent.RejectedExecutionException;

import org.apache.juli.logging.Log;
import org.apache.juli.logging.LogFactory;
import org.apache.tomcat.jni.Address;
import org.apache.tomcat.jni.Error;
import org.apache.tomcat.jni.File;
import org.apache.tomcat.jni.Library;
import org.apache.tomcat.jni.OS;
import org.apache.tomcat.jni.Poll;
import org.apache.tomcat.jni.Pool;
import org.apache.tomcat.jni.SSL;
import org.apache.tomcat.jni.SSLContext;
import org.apache.tomcat.jni.SSLSocket;
import org.apache.tomcat.jni.Socket;
import org.apache.tomcat.jni.Status;
import org.apache.tomcat.util.ExceptionUtils;
import org.apache.tomcat.util.net.AbstractEndpoint.Handler.SocketState;


/**
 * APR tailored thread pool, providing the following services:
 * 
    *
  • Socket acceptor thread
  • *
  • Socket poller thread
  • *
  • Sendfile thread
  • *
  • Worker threads pool
  • *
* * When switching to Java 5, there's an opportunity to use the virtual * machine's thread pool. * * @author Mladen Turk * @author Remy Maucherat */ public class AprEndpoint extends AbstractEndpoint { // -------------------------------------------------------------- Constants private static final Log log = LogFactory.getLog(AprEndpoint.class); // ----------------------------------------------------------------- Fields /** * Root APR memory pool. */ protected long rootPool = 0; /** * Server socket "pointer". */ protected long serverSock = 0; /** * APR memory pool for the server socket. */ protected long serverSockPool = 0; /** * SSL context. */ protected long sslContext = 0; private Acceptor acceptors[] = null; protected ConcurrentLinkedQueue> waitingRequests = new ConcurrentLinkedQueue>(); // ------------------------------------------------------------ Constructor public AprEndpoint() { // Need to override the default for maxConnections to align it with what // was pollerSize (before the two were merged) setMaxConnections(8 * 1024); } // ------------------------------------------------------------- Properties /** * Defer accept. */ protected boolean deferAccept = true; public void setDeferAccept(boolean deferAccept) { this.deferAccept = deferAccept; } @Override public boolean getDeferAccept() { return deferAccept; } /** * Size of the sendfile (= concurrent files which can be served). */ protected int sendfileSize = 1 * 1024; public void setSendfileSize(int sendfileSize) { this.sendfileSize = sendfileSize; } public int getSendfileSize() { return sendfileSize; } /** * Handling of accepted sockets. */ protected Handler handler = null; public void setHandler(Handler handler ) { this.handler = handler; } public Handler getHandler() { return handler; } /** * Poll interval, in microseconds. The smaller the value, the more CPU the poller * will use, but the more responsive to activity it will be. */ protected int pollTime = 2000; public int getPollTime() { return pollTime; } public void setPollTime(int pollTime) { if (pollTime > 0) { this.pollTime = pollTime; } } /** * Use sendfile for sending static files. */ protected boolean useSendfile = Library.APR_HAS_SENDFILE; public void setUseSendfile(boolean useSendfile) { this.useSendfile = useSendfile; } @Override public boolean getUseSendfile() { return useSendfile; } /** * Allow comet request handling. */ protected boolean useComet = true; public void setUseComet(boolean useComet) { this.useComet = useComet; } @Override public boolean getUseComet() { return useComet; } @Override public boolean getUseCometTimeout() { return false; } // Not supported /** * Acceptor thread count. */ protected int acceptorThreadCount = 0; public void setAcceptorThreadCount(int acceptorThreadCount) { this.acceptorThreadCount = acceptorThreadCount; } public int getAcceptorThreadCount() { return acceptorThreadCount; } /** * Sendfile thread count. */ protected int sendfileThreadCount = 0; public void setSendfileThreadCount(int sendfileThreadCount) { this.sendfileThreadCount = sendfileThreadCount; } public int getSendfileThreadCount() { return sendfileThreadCount; } /** * Poller thread count. */ protected int pollerThreadCount = 0; public void setPollerThreadCount(int pollerThreadCount) { this.pollerThreadCount = pollerThreadCount; } public int getPollerThreadCount() { return pollerThreadCount; } /** * The socket poller. */ protected Poller[] pollers = null; protected int pollerRoundRobin = 0; public Poller getPoller() { pollerRoundRobin = (pollerRoundRobin + 1) % pollers.length; return pollers[pollerRoundRobin]; } /** * The socket poller used for Comet support. */ protected Poller[] cometPollers = null; protected int cometPollerRoundRobin = 0; public Poller getCometPoller() { cometPollerRoundRobin = (cometPollerRoundRobin + 1) % cometPollers.length; return cometPollers[cometPollerRoundRobin]; } /** * The static file sender. */ protected Sendfile[] sendfiles = null; protected int sendfileRoundRobin = 0; public Sendfile getSendfile() { sendfileRoundRobin = (sendfileRoundRobin + 1) % sendfiles.length; return sendfiles[sendfileRoundRobin]; } /** * SSL protocols. */ protected String SSLProtocol = "all"; public String getSSLProtocol() { return SSLProtocol; } public void setSSLProtocol(String SSLProtocol) { this.SSLProtocol = SSLProtocol; } /** * SSL password (if a cert is encrypted, and no password has been provided, a callback * will ask for a password). */ protected String SSLPassword = null; public String getSSLPassword() { return SSLPassword; } public void setSSLPassword(String SSLPassword) { this.SSLPassword = SSLPassword; } /** * SSL cipher suite. */ protected String SSLCipherSuite = "ALL"; public String getSSLCipherSuite() { return SSLCipherSuite; } public void setSSLCipherSuite(String SSLCipherSuite) { this.SSLCipherSuite = SSLCipherSuite; } /** * SSL certificate file. */ protected String SSLCertificateFile = null; public String getSSLCertificateFile() { return SSLCertificateFile; } public void setSSLCertificateFile(String SSLCertificateFile) { this.SSLCertificateFile = SSLCertificateFile; } /** * SSL certificate key file. */ protected String SSLCertificateKeyFile = null; public String getSSLCertificateKeyFile() { return SSLCertificateKeyFile; } public void setSSLCertificateKeyFile(String SSLCertificateKeyFile) { this.SSLCertificateKeyFile = SSLCertificateKeyFile; } /** * SSL certificate chain file. */ protected String SSLCertificateChainFile = null; public String getSSLCertificateChainFile() { return SSLCertificateChainFile; } public void setSSLCertificateChainFile(String SSLCertificateChainFile) { this.SSLCertificateChainFile = SSLCertificateChainFile; } /** * SSL CA certificate path. */ protected String SSLCACertificatePath = null; public String getSSLCACertificatePath() { return SSLCACertificatePath; } public void setSSLCACertificatePath(String SSLCACertificatePath) { this.SSLCACertificatePath = SSLCACertificatePath; } /** * SSL CA certificate file. */ protected String SSLCACertificateFile = null; public String getSSLCACertificateFile() { return SSLCACertificateFile; } public void setSSLCACertificateFile(String SSLCACertificateFile) { this.SSLCACertificateFile = SSLCACertificateFile; } /** * SSL CA revocation path. */ protected String SSLCARevocationPath = null; public String getSSLCARevocationPath() { return SSLCARevocationPath; } public void setSSLCARevocationPath(String SSLCARevocationPath) { this.SSLCARevocationPath = SSLCARevocationPath; } /** * SSL CA revocation file. */ protected String SSLCARevocationFile = null; public String getSSLCARevocationFile() { return SSLCARevocationFile; } public void setSSLCARevocationFile(String SSLCARevocationFile) { this.SSLCARevocationFile = SSLCARevocationFile; } /** * SSL verify client. */ protected String SSLVerifyClient = "none"; public String getSSLVerifyClient() { return SSLVerifyClient; } public void setSSLVerifyClient(String SSLVerifyClient) { this.SSLVerifyClient = SSLVerifyClient; } /** * SSL verify depth. */ protected int SSLVerifyDepth = 10; public int getSSLVerifyDepth() { return SSLVerifyDepth; } public void setSSLVerifyDepth(int SSLVerifyDepth) { this.SSLVerifyDepth = SSLVerifyDepth; } /** * SSL allow insecure renegotiation for the the client that does not * support the secure renegotiation. */ protected boolean SSLInsecureRenegotiation = false; public void setSSLInsecureRenegotiation(boolean SSLInsecureRenegotiation) { this.SSLInsecureRenegotiation = SSLInsecureRenegotiation; } public boolean getSSLInsecureRenegotiation() { return SSLInsecureRenegotiation; } // --------------------------------------------------------- Public Methods /** * Number of keepalive sockets. */ public int getKeepAliveCount() { if (pollers == null) { return 0; } int keepAliveCount = 0; for (int i = 0; i < pollers.length; i++) { keepAliveCount += pollers[i].getKeepAliveCount(); } return keepAliveCount; } /** * Number of sendfile sockets. */ public int getSendfileCount() { if (sendfiles == null) { return 0; } int sendfileCount = 0; for (int i = 0; i < sendfiles.length; i++) { sendfileCount += sendfiles[i].getSendfileCount(); } return sendfileCount; } // ----------------------------------------------- Public Lifecycle Methods /** * Initialize the endpoint. */ @Override public void bind() throws Exception { // Create the root APR memory pool try { rootPool = Pool.create(0); } catch (UnsatisfiedLinkError e) { throw new Exception(sm.getString("endpoint.init.notavail")); } // Create the pool for the server socket serverSockPool = Pool.create(rootPool); // Create the APR address that will be bound String addressStr = null; if (getAddress() != null) { addressStr = getAddress().getHostAddress(); } int family = Socket.APR_INET; if (Library.APR_HAVE_IPV6) { if (addressStr == null) { if (!OS.IS_BSD && !OS.IS_WIN32 && !OS.IS_WIN64) family = Socket.APR_UNSPEC; } else if (addressStr.indexOf(':') >= 0) { family = Socket.APR_UNSPEC; } } long inetAddress = Address.info(addressStr, family, getPort(), 0, rootPool); // Create the APR server socket serverSock = Socket.create(Address.getInfo(inetAddress).family, Socket.SOCK_STREAM, Socket.APR_PROTO_TCP, rootPool); if (OS.IS_UNIX) { Socket.optSet(serverSock, Socket.APR_SO_REUSEADDR, 1); } // Deal with the firewalls that tend to drop the inactive sockets Socket.optSet(serverSock, Socket.APR_SO_KEEPALIVE, 1); // Bind the server socket int ret = Socket.bind(serverSock, inetAddress); if (ret != 0) { throw new Exception(sm.getString("endpoint.init.bind", "" + ret, Error.strerror(ret))); } // Start listening on the server socket ret = Socket.listen(serverSock, getBacklog()); if (ret != 0) { throw new Exception(sm.getString("endpoint.init.listen", "" + ret, Error.strerror(ret))); } if (OS.IS_WIN32 || OS.IS_WIN64) { // On Windows set the reuseaddr flag after the bind/listen Socket.optSet(serverSock, Socket.APR_SO_REUSEADDR, 1); } // Sendfile usage on systems which don't support it cause major problems if (useSendfile && !Library.APR_HAS_SENDFILE) { useSendfile = false; } // Initialize thread count defaults for acceptor, poller and sendfile if (acceptorThreadCount == 0) { // FIXME: Doesn't seem to work that well with multiple accept threads acceptorThreadCount = 1; } if (pollerThreadCount == 0) { if ((OS.IS_WIN32 || OS.IS_WIN64) && (getMaxConnections() > 1024)) { // The maximum per poller to get reasonable performance is 1024 pollerThreadCount = getMaxConnections() / 1024; // Adjust poller size so that it won't reach the limit setMaxConnections( getMaxConnections() - (getMaxConnections() % 1024)); } else { // No explicit poller size limitation pollerThreadCount = 1; } } if (sendfileThreadCount == 0) { if ((OS.IS_WIN32 || OS.IS_WIN64) && (sendfileSize > 1024)) { // The maximum per poller to get reasonable performance is 1024 sendfileThreadCount = sendfileSize / 1024; // Adjust poller size so that it won't reach the limit sendfileSize = sendfileSize - (sendfileSize % 1024); } else { // No explicit poller size limitation // FIXME: Default to one per CPU ? sendfileThreadCount = 1; } } // Delay accepting of new connections until data is available // Only Linux kernels 2.4 + have that implemented // on other platforms this call is noop and will return APR_ENOTIMPL. if (deferAccept) { if (Socket.optSet(serverSock, Socket.APR_TCP_DEFER_ACCEPT, 1) == Status.APR_ENOTIMPL) { deferAccept = false; } } // Initialize SSL if needed if (isSSLEnabled()) { if (SSLCertificateFile == null) { // This is required throw new Exception(sm.getString("endpoint.apr.noSslCertFile")); } // SSL protocol int value; // This branch can be removed, once the required version is at least 1.1.21. int tcnFullVersion = Library.TCN_MAJOR_VERSION * 1000 + Library.TCN_MINOR_VERSION * 100 + Library.TCN_PATCH_VERSION; if (tcnFullVersion <= 1120) { value = SSL.SSL_PROTOCOL_ALL; if ("SSLv2".equalsIgnoreCase(SSLProtocol)) { value = SSL.SSL_PROTOCOL_SSLV2; } else if ("SSLv3".equalsIgnoreCase(SSLProtocol)) { value = SSL.SSL_PROTOCOL_SSLV3; } else if ("TLSv1".equalsIgnoreCase(SSLProtocol)) { value = SSL.SSL_PROTOCOL_TLSV1; } else if ("SSLv2+SSLv3".equalsIgnoreCase(SSLProtocol)) { value = SSL.SSL_PROTOCOL_SSLV2 | SSL.SSL_PROTOCOL_SSLV3; } else if ("all".equalsIgnoreCase(SSLProtocol) || SSLProtocol == null || SSLProtocol.length() == 0) { // NOOP, use the default defined above } else { // Protocol not recognized, fail to start as it is safer than // continuing with the default which might enable more than the // is required throw new Exception(sm.getString( "endpoint.apr.invalidSslProtocol", SSLProtocol)); } } else { value = SSL.SSL_PROTOCOL_NONE; if (SSLProtocol == null || SSLProtocol.length() == 0) { value = SSL.SSL_PROTOCOL_ALL; } else { for (String protocol : SSLProtocol.split("\\+")) { protocol = protocol.trim(); if ("SSLv2".equalsIgnoreCase(protocol)) { value |= SSL.SSL_PROTOCOL_SSLV2; } else if ("SSLv3".equalsIgnoreCase(protocol)) { value |= SSL.SSL_PROTOCOL_SSLV3; } else if ("TLSv1".equalsIgnoreCase(protocol)) { value |= SSL.SSL_PROTOCOL_TLSV1; } else if ("all".equalsIgnoreCase(protocol)) { value |= SSL.SSL_PROTOCOL_ALL; } else { // Protocol not recognized, fail to start as it is safer than // continuing with the default which might enable more than the // is required throw new Exception(sm.getString( "endpoint.apr.invalidSslProtocol", SSLProtocol)); } } } } // Create SSL Context sslContext = SSLContext.make(rootPool, value, SSL.SSL_MODE_SERVER); if (SSLInsecureRenegotiation) { boolean legacyRenegSupported = false; try { legacyRenegSupported = SSL.hasOp(SSL.SSL_OP_ALLOW_UNSAFE_LEGACY_RENEGOTIATION); if (legacyRenegSupported) SSLContext.setOptions(sslContext, SSL.SSL_OP_ALLOW_UNSAFE_LEGACY_RENEGOTIATION); } catch (UnsatisfiedLinkError e) { // Ignore } if (!legacyRenegSupported) { // OpenSSL does not support unsafe legacy renegotiation. log.warn(sm.getString("endpoint.warn.noInsecureReneg", SSL.versionString())); } } // List the ciphers that the client is permitted to negotiate SSLContext.setCipherSuite(sslContext, SSLCipherSuite); // Load Server key and certificate SSLContext.setCertificate(sslContext, SSLCertificateFile, SSLCertificateKeyFile, SSLPassword, SSL.SSL_AIDX_RSA); // Set certificate chain file SSLContext.setCertificateChainFile(sslContext, SSLCertificateChainFile, false); // Support Client Certificates SSLContext.setCACertificate(sslContext, SSLCACertificateFile, SSLCACertificatePath); // Set revocation SSLContext.setCARevocation(sslContext, SSLCARevocationFile, SSLCARevocationPath); // Client certificate verification value = SSL.SSL_CVERIFY_NONE; if ("optional".equalsIgnoreCase(SSLVerifyClient)) { value = SSL.SSL_CVERIFY_OPTIONAL; } else if ("require".equalsIgnoreCase(SSLVerifyClient)) { value = SSL.SSL_CVERIFY_REQUIRE; } else if ("optionalNoCA".equalsIgnoreCase(SSLVerifyClient)) { value = SSL.SSL_CVERIFY_OPTIONAL_NO_CA; } SSLContext.setVerify(sslContext, value, SSLVerifyDepth); // For now, sendfile is not supported with SSL useSendfile = false; } } /** * Start the APR endpoint, creating acceptor, poller and sendfile threads. */ @Override public void startInternal() throws Exception { if (!running) { running = true; paused = false; // Create worker collection if (getExecutor() == null) { createExecutor(); } initializeConnectionLatch(); // Start poller threads pollers = new Poller[pollerThreadCount]; for (int i = 0; i < pollerThreadCount; i++) { pollers[i] = new Poller(false); pollers[i].init(); pollers[i].setName(getName() + "-Poller-" + i); pollers[i].setPriority(threadPriority); pollers[i].setDaemon(true); pollers[i].start(); } // Start comet poller threads cometPollers = new Poller[pollerThreadCount]; for (int i = 0; i < pollerThreadCount; i++) { cometPollers[i] = new Poller(true); cometPollers[i].init(); cometPollers[i].setName(getName() + "-CometPoller-" + i); cometPollers[i].setPriority(threadPriority); cometPollers[i].setDaemon(true); cometPollers[i].start(); } // Start sendfile threads if (useSendfile) { sendfiles = new Sendfile[sendfileThreadCount]; for (int i = 0; i < sendfileThreadCount; i++) { sendfiles[i] = new Sendfile(); sendfiles[i].init(); sendfiles[i].setName(getName() + "-Sendfile-" + i); sendfiles[i].setPriority(threadPriority); sendfiles[i].setDaemon(true); sendfiles[i].start(); } } // Start acceptor threads acceptors = new Acceptor[acceptorThreadCount]; for (int i = 0; i < acceptorThreadCount; i++) { acceptors[i] = new Acceptor(); acceptors[i].setName(getName() + "-Acceptor-" + i); acceptors[i].setPriority(threadPriority); acceptors[i].setDaemon(getDaemon()); acceptors[i].start(); } // Start async timeout thread Thread timeoutThread = new Thread(new AsyncTimeout(), getName() + "-AsyncTimeout"); timeoutThread.setPriority(threadPriority); timeoutThread.setDaemon(true); timeoutThread.start(); } } /** * Stop the endpoint. This will cause all processing threads to stop. */ @Override public void stopInternal() { releaseConnectionLatch(); if (!paused) { pause(); } if (running) { running = false; unlockAccept(); for (int i = 0; i < acceptors.length; i++) { long s = System.currentTimeMillis() + 30000; while (acceptors[i].isAlive()) { try { acceptors[i].interrupt(); acceptors[i].join(1000); } catch (InterruptedException e) { // Ignore } if (System.currentTimeMillis() >= s) { log.warn(sm.getString("endpoint.warn.unlockAcceptorFailed", acceptors[i].getName())); // If the Acceptor is still running force // the hard socket close. if (serverSock != 0) { Socket.shutdown(serverSock, Socket.APR_SHUTDOWN_READ); serverSock = 0; } } } } for (int i = 0; i < pollers.length; i++) { try { pollers[i].destroy(); } catch (Exception e) { // Ignore } } pollers = null; for (int i = 0; i < cometPollers.length; i++) { try { cometPollers[i].destroy(); } catch (Exception e) { // Ignore } } cometPollers = null; if (useSendfile) { for (int i = 0; i < sendfiles.length; i++) { try { sendfiles[i].destroy(); } catch (Exception e) { // Ignore } } sendfiles = null; } } shutdownExecutor(); } /** * Deallocate APR memory pools, and close server socket. */ @Override public void unbind() throws Exception { if (running) { stop(); } // Destroy pool if it was initialised if (serverSockPool != 0) { Pool.destroy(serverSockPool); serverSockPool = 0; } // Close server socket if it was initialised if (serverSock != 0) { Socket.close(serverSock); serverSock = 0; } sslContext = 0; // Close all APR memory pools and resources if initialised if (rootPool != 0) { Pool.destroy(rootPool); rootPool = 0; } handler.recycle(); } // ------------------------------------------------------ Protected Methods /** * Process the specified connection. */ protected boolean setSocketOptions(long socket) { // Process the connection int step = 1; try { // 1: Set socket options: timeout, linger, etc if (socketProperties.getSoLingerOn() && socketProperties.getSoLingerTime() >= 0) Socket.optSet(socket, Socket.APR_SO_LINGER, socketProperties.getSoLingerTime()); if (socketProperties.getTcpNoDelay()) Socket.optSet(socket, Socket.APR_TCP_NODELAY, (socketProperties.getTcpNoDelay() ? 1 : 0)); if (socketProperties.getSoTimeout() > 0) Socket.timeoutSet(socket, socketProperties.getSoTimeout() * 1000); // 2: SSL handshake step = 2; if (sslContext != 0) { SSLSocket.attach(sslContext, socket); if (SSLSocket.handshake(socket) != 0) { if (log.isDebugEnabled()) { log.debug(sm.getString("endpoint.err.handshake") + ": " + SSL.getLastError()); } return false; } } } catch (Throwable t) { ExceptionUtils.handleThrowable(t); if (log.isDebugEnabled()) { if (step == 2) { log.debug(sm.getString("endpoint.err.handshake"), t); } else { log.debug(sm.getString("endpoint.err.unexpected"), t); } } // Tell to close the socket return false; } return true; } /** * Allocate a new poller of the specified size. */ protected long allocatePoller(int size, long pool, int timeout) { try { return Poll.create(size, pool, 0, timeout * 1000); } catch (Error e) { if (Status.APR_STATUS_IS_EINVAL(e.getError())) { log.info(sm.getString("endpoint.poll.limitedpollsize", "" + size)); return 0; } else { log.error(sm.getString("endpoint.poll.initfail"), e); return -1; } } } /** * Process given socket. */ protected boolean processSocketWithOptions(long socket) { try { // During shutdown, executor may be null - avoid NPE if (running) { SocketWrapper wrapper = new SocketWrapper(Long.valueOf(socket)); getExecutor().execute(new SocketWithOptionsProcessor(wrapper)); } } catch (RejectedExecutionException x) { log.warn("Socket processing request was rejected for:"+socket,x); return false; } catch (Throwable t) { ExceptionUtils.handleThrowable(t); // This means we got an OOM or similar creating a thread, or that // the pool and its queue are full log.error(sm.getString("endpoint.process.fail"), t); return false; } return true; } /** * Process given socket. */ protected boolean processSocket(long socket) { try { SocketWrapper wrapper = new SocketWrapper(Long.valueOf(socket)); getExecutor().execute(new SocketProcessor(wrapper, null)); } catch (RejectedExecutionException x) { log.warn("Socket processing request was rejected for:"+socket,x); return false; } catch (Throwable t) { ExceptionUtils.handleThrowable(t); // This means we got an OOM or similar creating a thread, or that // the pool and its queue are full log.error(sm.getString("endpoint.process.fail"), t); return false; } return true; } /** * Process given socket for an event. */ protected boolean processSocket(long socket, SocketStatus status) { try { if (status == SocketStatus.OPEN || status == SocketStatus.STOP || status == SocketStatus.TIMEOUT) { SocketWrapper wrapper = new SocketWrapper(Long.valueOf(socket)); SocketEventProcessor proc = new SocketEventProcessor(wrapper, status); ClassLoader loader = Thread.currentThread().getContextClassLoader(); try { if (Constants.IS_SECURITY_ENABLED) { PrivilegedAction pa = new PrivilegedSetTccl( getClass().getClassLoader()); AccessController.doPrivileged(pa); } else { Thread.currentThread().setContextClassLoader( getClass().getClassLoader()); } getExecutor().execute(proc); } finally { if (Constants.IS_SECURITY_ENABLED) { PrivilegedAction pa = new PrivilegedSetTccl(loader); AccessController.doPrivileged(pa); } else { Thread.currentThread().setContextClassLoader(loader); } } } } catch (RejectedExecutionException x) { log.warn("Socket processing request was rejected for:"+socket,x); return false; } catch (Throwable t) { ExceptionUtils.handleThrowable(t); // This means we got an OOM or similar creating a thread, or that // the pool and its queue are full log.error(sm.getString("endpoint.process.fail"), t); return false; } return true; } public boolean processSocketAsync(SocketWrapper socket, SocketStatus status) { try { synchronized (socket) { if (waitingRequests.remove(socket)) { SocketProcessor proc = new SocketProcessor(socket, status); ClassLoader loader = Thread.currentThread().getContextClassLoader(); try { //threads should not be created by the webapp classloader if (Constants.IS_SECURITY_ENABLED) { PrivilegedAction pa = new PrivilegedSetTccl( getClass().getClassLoader()); AccessController.doPrivileged(pa); } else { Thread.currentThread().setContextClassLoader( getClass().getClassLoader()); } // During shutdown, executor may be null - avoid NPE if (!running) { return false; } getExecutor().execute(proc); } finally { if (Constants.IS_SECURITY_ENABLED) { PrivilegedAction pa = new PrivilegedSetTccl(loader); AccessController.doPrivileged(pa); } else { Thread.currentThread().setContextClassLoader(loader); } } } } } catch (RejectedExecutionException x) { log.warn("Socket processing request was rejected for: "+socket, x); return false; } catch (Throwable t) { ExceptionUtils.handleThrowable(t); // This means we got an OOM or similar creating a thread, or that // the pool and its queue are full log.error(sm.getString("endpoint.process.fail"), t); return false; } return true; } private void destroySocket(long socket) { if (running && socket != 0) { // If not running the socket will be destroyed by // parent pool or acceptor socket. // In any case disable double free which would cause JVM core. Socket.destroy(socket); countDownConnection(); } } @Override protected Log getLog() { return log; } // --------------------------------------------------- Acceptor Inner Class /** * Server socket acceptor thread. */ protected class Acceptor extends Thread { private final Log log = LogFactory.getLog(AprEndpoint.Acceptor.class); /** * The background thread that listens for incoming TCP/IP connections and * hands them off to an appropriate processor. */ @Override public void run() { int errorDelay = 0; // Loop until we receive a shutdown command while (running) { // Loop if endpoint is paused while (paused && running) { try { Thread.sleep(1000); } catch (InterruptedException e) { // Ignore } } if (!running) { break; } try { //if we have reached max connections, wait countUpOrAwaitConnection(); long socket = 0; try { // Accept the next incoming connection from the server // socket socket = Socket.accept(serverSock); } catch (Exception e) { // Introduce delay if necessary errorDelay = handleExceptionWithDelay(errorDelay); // re-throw throw e; } // Successful accept, reset the error delay errorDelay = 0; /* * In the case of a deferred accept unlockAccept needs to * send data. This data will be rubbish, so destroy the * socket and don't process it. */ if (deferAccept && (paused || !running)) { destroySocket(socket); continue; } // Hand this socket off to an appropriate processor if (!processSocketWithOptions(socket)) { // Close socket and pool right away destroySocket(socket); } } catch (Throwable t) { ExceptionUtils.handleThrowable(t); if (running) { String msg = sm.getString("endpoint.accept.fail"); if (t instanceof Error) { Error e = (Error) t; if (e.getError() == 233) { // Not an error on HP-UX so log as a warning // so it can be filtered out on that platform // See bug 50273 log.warn(msg, t); } else { log.error(msg, t); } } else { log.error(msg, t); } } } // The processor will recycle itself when it finishes } } } /** * Async timeout thread */ protected class AsyncTimeout implements Runnable { /** * The background thread that checks async requests and fires the * timeout if there has been no activity. */ @Override public void run() { // Loop until we receive a shutdown command while (running) { try { Thread.sleep(1000); } catch (InterruptedException e) { // Ignore } long now = System.currentTimeMillis(); Iterator> sockets = waitingRequests.iterator(); while (sockets.hasNext()) { SocketWrapper socket = sockets.next(); if (socket.async) { long access = socket.getLastAccess(); if (socket.getTimeout() > 0 && (now-access)>socket.getTimeout()) { processSocketAsync(socket,SocketStatus.TIMEOUT); } } } // Loop if endpoint is paused while (paused && running) { try { Thread.sleep(1000); } catch (InterruptedException e) { // Ignore } } } } } // ----------------------------------------------------- Poller Inner Class /** * Poller class. */ public class Poller extends Thread { protected long serverPollset = 0; protected long pool = 0; protected long[] desc; protected long[] addS; protected volatile int addCount = 0; protected boolean comet = true; protected volatile int keepAliveCount = 0; public int getKeepAliveCount() { return keepAliveCount; } public Poller(boolean comet) { this.comet = comet; } /** * Create the poller. With some versions of APR, the maximum poller size will * be 62 (recompiling APR is necessary to remove this limitation). */ protected void init() { pool = Pool.create(serverSockPool); int size = getMaxConnections() / pollerThreadCount; int timeout = getKeepAliveTimeout(); if (timeout <= 0) { timeout = socketProperties.getSoTimeout(); } serverPollset = allocatePoller(size, pool, timeout); if (serverPollset == 0 && size > 1024) { size = 1024; serverPollset = allocatePoller(size, pool, timeout); } if (serverPollset == 0) { size = 62; serverPollset = allocatePoller(size, pool, timeout); } desc = new long[size * 2]; keepAliveCount = 0; addS = new long[size]; addCount = 0; } /** * Destroy the poller. */ @Override public void destroy() { // Close all sockets in the add queue for (int i = 0; i < addCount; i++) { if (comet) { processSocket(addS[i], SocketStatus.STOP); } else { destroySocket(addS[i]); } } // Close all sockets still in the poller int rv = Poll.pollset(serverPollset, desc); if (rv > 0) { for (int n = 0; n < rv; n++) { if (comet) { processSocket(desc[n*2+1], SocketStatus.STOP); } else { destroySocket(desc[n*2+1]); } } } Pool.destroy(pool); keepAliveCount = 0; addCount = 0; try { while (this.isAlive()) { this.interrupt(); this.join(1000); } } catch (InterruptedException e) { // Ignore } } /** * Add specified socket and associated pool to the poller. The socket will * be added to a temporary array, and polled first after a maximum amount * of time equal to pollTime (in most cases, latency will be much lower, * however). * * @param socket to add to the poller */ public void add(long socket) { synchronized (this) { // Add socket to the list. Newly added sockets will wait // at most for pollTime before being polled if (addCount >= addS.length) { // Can't do anything: close the socket right away if (comet) { processSocket(socket, SocketStatus.ERROR); } else { destroySocket(socket); } return; } addS[addCount] = socket; addCount++; this.notify(); } } /** * The background thread that listens for incoming TCP/IP connections and * hands them off to an appropriate processor. */ @Override public void run() { long maintainTime = 0; // Loop until we receive a shutdown command while (running) { // Loop if endpoint is paused while (paused && running) { try { Thread.sleep(1000); } catch (InterruptedException e) { // Ignore } } if (!running) { break; } if (keepAliveCount < 1 && addCount < 1) { synchronized (this) { while (keepAliveCount < 1 && addCount < 1 && running) { // Reset maintain time. maintainTime = 0; try { this.wait(); } catch (InterruptedException e) { // Ignore } } } } if (!running) { break; } try { // Add sockets which are waiting to the poller if (addCount > 0) { synchronized (this) { int successCount = 0; try { for (int i = (addCount - 1); i >= 0; i--) { int rv = Poll.add (serverPollset, addS[i], Poll.APR_POLLIN); if (rv == Status.APR_SUCCESS) { successCount++; } else { // Can't do anything: close the socket right away if (comet) { processSocket(addS[i], SocketStatus.ERROR); } else { destroySocket(addS[i]); } } } } finally { keepAliveCount += successCount; addCount = 0; } } } maintainTime += pollTime; // Pool for the specified interval int rv = Poll.poll(serverPollset, pollTime, desc, true); if (rv > 0) { keepAliveCount -= rv; for (int n = 0; n < rv; n++) { // Check for failed sockets and hand this socket off to a worker if (((desc[n*2] & Poll.APR_POLLHUP) == Poll.APR_POLLHUP) || ((desc[n*2] & Poll.APR_POLLERR) == Poll.APR_POLLERR) || (comet && (!processSocket(desc[n*2+1], SocketStatus.OPEN))) || (!comet && (!processSocket(desc[n*2+1])))) { // Close socket and clear pool if (comet) { processSocket(desc[n*2+1], SocketStatus.DISCONNECT); } else { destroySocket(desc[n*2+1]); } continue; } } } else if (rv < 0) { int errn = -rv; /* Any non timeup or interrupted error is critical */ if ((errn != Status.TIMEUP) && (errn != Status.EINTR)) { if (errn > Status.APR_OS_START_USERERR) { errn -= Status.APR_OS_START_USERERR; } log.error(sm.getString("endpoint.poll.fail", "" + errn, Error.strerror(errn))); // Handle poll critical failure synchronized (this) { destroy(); init(); } continue; } } if (socketProperties.getSoTimeout() > 0 && maintainTime > 1000000L && running) { rv = Poll.maintain(serverPollset, desc, true); maintainTime = 0; if (rv > 0) { keepAliveCount -= rv; for (int n = 0; n < rv; n++) { // Close socket and clear pool if (comet) { processSocket(desc[n], SocketStatus.TIMEOUT); } else { destroySocket(desc[n]); } } } } } catch (Throwable t) { ExceptionUtils.handleThrowable(t); log.error(sm.getString("endpoint.poll.error"), t); } } synchronized (this) { this.notifyAll(); } } } // ----------------------------------------------------- Worker Inner Class // ----------------------------------------------- SendfileData Inner Class /** * SendfileData class. */ public static class SendfileData { // File public String fileName; public long fd; public long fdpool; // Range information public long start; public long end; // Socket and socket pool public long socket; // Position public long pos; // KeepAlive flag public boolean keepAlive; } // --------------------------------------------------- Sendfile Inner Class /** * Sendfile class. */ public class Sendfile extends Thread { protected long sendfilePollset = 0; protected long pool = 0; protected long[] desc; protected HashMap sendfileData; protected volatile int sendfileCount; public int getSendfileCount() { return sendfileCount; } protected ArrayList addS; protected volatile int addCount; /** * Create the sendfile poller. With some versions of APR, the maximum poller size will * be 62 (recompiling APR is necessary to remove this limitation). */ protected void init() { pool = Pool.create(serverSockPool); int size = sendfileSize / sendfileThreadCount; sendfilePollset = allocatePoller(size, pool, socketProperties.getSoTimeout()); if (sendfilePollset == 0 && size > 1024) { size = 1024; sendfilePollset = allocatePoller(size, pool, socketProperties.getSoTimeout()); } if (sendfilePollset == 0) { size = 62; sendfilePollset = allocatePoller(size, pool, socketProperties.getSoTimeout()); } desc = new long[size * 2]; sendfileData = new HashMap(size); addS = new ArrayList(); addCount = 0; } /** * Destroy the poller. */ @Override public void destroy() { // Close any socket remaining in the add queue addCount = 0; for (int i = (addS.size() - 1); i >= 0; i--) { SendfileData data = addS.get(i); destroySocket(data.socket); } addS.clear(); // Close all sockets still in the poller int rv = Poll.pollset(sendfilePollset, desc); if (rv > 0) { for (int n = 0; n < rv; n++) { destroySocket(desc[n*2+1]); } } Pool.destroy(pool); sendfileData.clear(); try { while (this.isAlive()) { this.interrupt(); this.join(1000); } } catch (InterruptedException e) { // Ignore } } /** * Add the sendfile data to the sendfile poller. Note that in most cases, * the initial non blocking calls to sendfile will return right away, and * will be handled asynchronously inside the kernel. As a result, * the poller will never be used. * * @param data containing the reference to the data which should be sent * @return true if all the data has been sent right away, and false * otherwise */ public boolean add(SendfileData data) { // Initialize fd from data given try { data.fdpool = Socket.pool(data.socket); data.fd = File.open (data.fileName, File.APR_FOPEN_READ | File.APR_FOPEN_SENDFILE_ENABLED | File.APR_FOPEN_BINARY, 0, data.fdpool); data.pos = data.start; // Set the socket to nonblocking mode Socket.timeoutSet(data.socket, 0); while (true) { long nw = Socket.sendfilen(data.socket, data.fd, data.pos, data.end - data.pos, 0); if (nw < 0) { if (!(-nw == Status.EAGAIN)) { Pool.destroy(data.fdpool); // No need to close socket, this will be done by // calling code since data.socket == 0 data.socket = 0; return false; } else { // Break the loop and add the socket to poller. break; } } data.pos = data.pos + nw; if (data.pos >= data.end) { // Entire file has been sent Pool.destroy(data.fdpool); // Set back socket to blocking mode Socket.timeoutSet(data.socket, socketProperties.getSoTimeout() * 1000); return true; } } } catch (Exception e) { log.error(sm.getString("endpoint.sendfile.error"), e); return false; } // Add socket to the list. Newly added sockets will wait // at most for pollTime before being polled synchronized (this) { addS.add(data); addCount++; this.notify(); } return false; } /** * Remove socket from the poller. * * @param data the sendfile data which should be removed */ protected void remove(SendfileData data) { int rv = Poll.remove(sendfilePollset, data.socket); if (rv == Status.APR_SUCCESS) { sendfileCount--; } sendfileData.remove(Long.valueOf(data.socket)); } /** * The background thread that listens for incoming TCP/IP connections and * hands them off to an appropriate processor. */ @Override public void run() { long maintainTime = 0; // Loop until we receive a shutdown command while (running) { // Loop if endpoint is paused while (paused && running) { try { Thread.sleep(1000); } catch (InterruptedException e) { // Ignore } } if (!running) { break; } if (sendfileCount < 1 && addCount < 1) { synchronized (this) { while (sendfileCount < 1 && addS.size() < 1 && running) { // Reset maintain time. maintainTime = 0; try { this.wait(); } catch (InterruptedException e) { // Ignore } } } } if (!running) { break; } try { // Add socket to the poller if (addCount > 0) { synchronized (this) { int successCount = 0; try { for (int i = (addS.size() - 1); i >= 0; i--) { SendfileData data = addS.get(i); int rv = Poll.add(sendfilePollset, data.socket, Poll.APR_POLLOUT); if (rv == Status.APR_SUCCESS) { sendfileData.put(Long.valueOf(data.socket), data); successCount++; } else { log.warn(sm.getString("endpoint.sendfile.addfail", "" + rv, Error.strerror(rv))); // Can't do anything: close the socket right away destroySocket(data.socket); } } } finally { sendfileCount += successCount; addS.clear(); addCount = 0; } } } maintainTime += pollTime; // Pool for the specified interval int rv = Poll.poll(sendfilePollset, pollTime, desc, false); if (rv > 0) { for (int n = 0; n < rv; n++) { // Get the sendfile state SendfileData state = sendfileData.get(Long.valueOf(desc[n*2+1])); // Problem events if (((desc[n*2] & Poll.APR_POLLHUP) == Poll.APR_POLLHUP) || ((desc[n*2] & Poll.APR_POLLERR) == Poll.APR_POLLERR)) { // Close socket and clear pool remove(state); // Destroy file descriptor pool, which should close the file // Close the socket, as the response would be incomplete destroySocket(state.socket); continue; } // Write some data using sendfile long nw = Socket.sendfilen(state.socket, state.fd, state.pos, state.end - state.pos, 0); if (nw < 0) { // Close socket and clear pool remove(state); // Close the socket, as the response would be incomplete // This will close the file too. destroySocket(state.socket); continue; } state.pos = state.pos + nw; if (state.pos >= state.end) { remove(state); if (state.keepAlive) { // Destroy file descriptor pool, which should close the file Pool.destroy(state.fdpool); Socket.timeoutSet(state.socket, socketProperties.getSoTimeout() * 1000); // If all done put the socket back in the poller for // processing of further requests getPoller().add(state.socket); } else { // Close the socket since this is // the end of not keep-alive request. destroySocket(state.socket); } } } } else if (rv < 0) { int errn = -rv; /* Any non timeup or interrupted error is critical */ if ((errn != Status.TIMEUP) && (errn != Status.EINTR)) { if (errn > Status.APR_OS_START_USERERR) { errn -= Status.APR_OS_START_USERERR; } log.error(sm.getString("endpoint.poll.fail", "" + errn, Error.strerror(errn))); // Handle poll critical failure synchronized (this) { destroy(); init(); } continue; } } // Call maintain for the sendfile poller if (socketProperties.getSoTimeout() > 0 && maintainTime > 1000000L && running) { rv = Poll.maintain(sendfilePollset, desc, true); maintainTime = 0; if (rv > 0) { for (int n = 0; n < rv; n++) { // Get the sendfile state SendfileData state = sendfileData.get(Long.valueOf(desc[n])); // Close socket and clear pool remove(state); // Destroy file descriptor pool, which should close the file // Close the socket, as the response would be incomplete destroySocket(state.socket); } } } } catch (Throwable t) { ExceptionUtils.handleThrowable(t); log.error(sm.getString("endpoint.poll.error"), t); } } synchronized (this) { this.notifyAll(); } } } // ------------------------------------------------ Handler Inner Interface /** * Bare bones interface used for socket processing. Per thread data is to be * stored in the ThreadWithAttributes extra folders, or alternately in * thread local fields. */ public interface Handler extends AbstractEndpoint.Handler { public SocketState process(SocketWrapper socket, SocketStatus status); } // --------------------------------- SocketWithOptionsProcessor Inner Class /** * This class is the equivalent of the Worker, but will simply use in an * external Executor thread pool. This will also set the socket options * and do the handshake. */ protected class SocketWithOptionsProcessor implements Runnable { protected SocketWrapper socket = null; public SocketWithOptionsProcessor(SocketWrapper socket) { this.socket = socket; } @Override public void run() { synchronized (socket) { if (!deferAccept) { if (setSocketOptions(socket.getSocket().longValue())) { getPoller().add(socket.getSocket().longValue()); } else { // Close socket and pool destroySocket(socket.getSocket().longValue()); socket = null; } } else { // Process the request from this socket if (!setSocketOptions(socket.getSocket().longValue())) { // Close socket and pool destroySocket(socket.getSocket().longValue()); socket = null; return; } // Process the request from this socket Handler.SocketState state = handler.process(socket, SocketStatus.OPEN); if (state == Handler.SocketState.CLOSED) { // Close socket and pool destroySocket(socket.getSocket().longValue()); socket = null; } else if (state == Handler.SocketState.LONG) { socket.access(); if (socket.async) { waitingRequests.add(socket); } } } } } } // -------------------------------------------- SocketProcessor Inner Class /** * This class is the equivalent of the Worker, but will simply use in an * external Executor thread pool. */ protected class SocketProcessor implements Runnable { protected SocketWrapper socket = null; protected SocketStatus status = null; public SocketProcessor(SocketWrapper socket, SocketStatus status) { this.socket = socket; this.status = status; } @Override public void run() { synchronized (socket) { // Process the request from this socket SocketState state = SocketState.OPEN; if (status == null) { state = handler.process(socket,SocketStatus.OPEN); } else { state = handler.process(socket, status); } if (state == Handler.SocketState.CLOSED) { // Close socket and pool destroySocket(socket.getSocket().longValue()); socket = null; } else if (state == Handler.SocketState.LONG) { socket.access(); if (socket.async) { waitingRequests.add(socket); } } else if (state == Handler.SocketState.ASYNC_END) { socket.access(); SocketProcessor proc = new SocketProcessor(socket, SocketStatus.OPEN); getExecutor().execute(proc); } } } } // --------------------------------------- SocketEventProcessor Inner Class /** * This class is the equivalent of the Worker, but will simply use in an * external Executor thread pool. */ protected class SocketEventProcessor implements Runnable { protected SocketWrapper socket = null; protected SocketStatus status = null; public SocketEventProcessor(SocketWrapper socket, SocketStatus status) { this.socket = socket; this.status = status; } @Override public void run() { synchronized (socket) { // Process the request from this socket Handler.SocketState state = handler.process(socket, status); if (state == Handler.SocketState.CLOSED) { // Close socket and pool destroySocket(socket.getSocket().longValue()); socket = null; } } } } private static class PrivilegedSetTccl implements PrivilegedAction { private ClassLoader cl; PrivilegedSetTccl(ClassLoader cl) { this.cl = cl; } @Override public Void run() { Thread.currentThread().setContextClassLoader(cl); return null; } } }




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